3 @setfilename ../info/gnus
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332 * Gnus: (gnus). The newsreader Gnus.
337 @setchapternewpage odd
344 @author by Lars Magne Ingebrigtsen
346 @vskip 0pt plus 1filll
352 @top The Gnus Newsreader
356 You can read news (and mail) from within Emacs by using Gnus. The news
357 can be gotten by any nefarious means you can think of---@acronym{NNTP}, local
358 spool or your mbox file. All at the same time, if you want to push your
361 This manual corresponds to Gnus v5.10.6.
372 Gnus is the advanced, self-documenting, customizable, extensible
373 unreal-time newsreader for GNU Emacs.
375 Oops. That sounds oddly familiar, so let's start over again to avoid
376 being accused of plagiarism:
378 Gnus is a message-reading laboratory. It will let you look at just
379 about anything as if it were a newsgroup. You can read mail with it,
380 you can browse directories with it, you can @code{ftp} with it---you
381 can even read news with it!
383 Gnus tries to empower people who read news the same way Emacs empowers
384 people who edit text. Gnus sets no limits to what the user should be
385 allowed to do. Users are encouraged to extend Gnus to make it behave
386 like they want it to behave. A program should not control people;
387 people should be empowered to do what they want by using (or abusing)
393 * Starting Up:: Finding news can be a pain.
394 * Group Buffer:: Selecting, subscribing and killing groups.
395 * Summary Buffer:: Reading, saving and posting articles.
396 * Article Buffer:: Displaying and handling articles.
397 * Composing Messages:: Information on sending mail and news.
398 * Select Methods:: Gnus reads all messages from various select methods.
399 * Scoring:: Assigning values to articles.
400 * Various:: General purpose settings.
401 * The End:: Farewell and goodbye.
402 * Appendices:: Terminology, Emacs intro, @acronym{FAQ}, History, Internals.
403 * Index:: Variable, function and concept index.
404 * Key Index:: Key Index.
406 Other related manuals
408 * Message:(message). Composing messages.
409 * Emacs-MIME:(emacs-mime). Composing messages; @acronym{MIME}-specific parts.
410 * Sieve:(sieve). Managing Sieve scripts in Emacs.
411 * PGG:(pgg). @acronym{PGP/MIME} with Gnus.
414 --- The Detailed Node Listing ---
418 * Finding the News:: Choosing a method for getting news.
419 * The First Time:: What does Gnus do the first time you start it?
420 * The Server is Down:: How can I read my mail then?
421 * Slave Gnusae:: You can have more than one Gnus active at a time.
422 * Fetching a Group:: Starting Gnus just to read a group.
423 * New Groups:: What is Gnus supposed to do with new groups?
424 * Changing Servers:: You may want to move from one server to another.
425 * Startup Files:: Those pesky startup files---@file{.newsrc}.
426 * Auto Save:: Recovering from a crash.
427 * The Active File:: Reading the active file over a slow line Takes Time.
428 * Startup Variables:: Other variables you might change.
432 * Checking New Groups:: Determining what groups are new.
433 * Subscription Methods:: What Gnus should do with new groups.
434 * Filtering New Groups:: Making Gnus ignore certain new groups.
438 * Group Buffer Format:: Information listed and how you can change it.
439 * Group Maneuvering:: Commands for moving in the group buffer.
440 * Selecting a Group:: Actually reading news.
441 * Subscription Commands:: Unsubscribing, killing, subscribing.
442 * Group Data:: Changing the info for a group.
443 * Group Levels:: Levels? What are those, then?
444 * Group Score:: A mechanism for finding out what groups you like.
445 * Marking Groups:: You can mark groups for later processing.
446 * Foreign Groups:: Creating and editing groups.
447 * Group Parameters:: Each group may have different parameters set.
448 * Listing Groups:: Gnus can list various subsets of the groups.
449 * Sorting Groups:: Re-arrange the group order.
450 * Group Maintenance:: Maintaining a tidy @file{.newsrc} file.
451 * Browse Foreign Server:: You can browse a server. See what it has to offer.
452 * Exiting Gnus:: Stop reading news and get some work done.
453 * Group Topics:: A folding group mode divided into topics.
454 * Misc Group Stuff:: Other stuff that you can to do.
458 * Group Line Specification:: Deciding how the group buffer is to look.
459 * Group Mode Line Specification:: The group buffer mode line.
460 * Group Highlighting:: Having nice colors in the group buffer.
464 * Topic Commands:: Interactive E-Z commands.
465 * Topic Variables:: How to customize the topics the Lisp Way.
466 * Topic Sorting:: Sorting each topic individually.
467 * Topic Topology:: A map of the world.
468 * Topic Parameters:: Parameters that apply to all groups in a topic.
472 * Scanning New Messages:: Asking Gnus to see whether new messages have arrived.
473 * Group Information:: Information and help on groups and Gnus.
474 * Group Timestamp:: Making Gnus keep track of when you last read a group.
475 * File Commands:: Reading and writing the Gnus files.
476 * Sieve Commands:: Managing Sieve scripts.
480 * Summary Buffer Format:: Deciding how the summary buffer is to look.
481 * Summary Maneuvering:: Moving around the summary buffer.
482 * Choosing Articles:: Reading articles.
483 * Paging the Article:: Scrolling the current article.
484 * Reply Followup and Post:: Posting articles.
485 * Delayed Articles:: Send articles at a later time.
486 * Marking Articles:: Marking articles as read, expirable, etc.
487 * Limiting:: You can limit the summary buffer.
488 * Threading:: How threads are made.
489 * Sorting the Summary Buffer:: How articles and threads are sorted.
490 * Asynchronous Fetching:: Gnus might be able to pre-fetch articles.
491 * Article Caching:: You may store articles in a cache.
492 * Persistent Articles:: Making articles expiry-resistant.
493 * Article Backlog:: Having already read articles hang around.
494 * Saving Articles:: Ways of customizing article saving.
495 * Decoding Articles:: Gnus can treat series of (uu)encoded articles.
496 * Article Treatment:: The article buffer can be mangled at will.
497 * MIME Commands:: Doing MIMEy things with the articles.
498 * Charsets:: Character set issues.
499 * Article Commands:: Doing various things with the article buffer.
500 * Summary Sorting:: Sorting the summary buffer in various ways.
501 * Finding the Parent:: No child support? Get the parent.
502 * Alternative Approaches:: Reading using non-default summaries.
503 * Tree Display:: A more visual display of threads.
504 * Mail Group Commands:: Some commands can only be used in mail groups.
505 * Various Summary Stuff:: What didn't fit anywhere else.
506 * Exiting the Summary Buffer:: Returning to the Group buffer,
507 or reselecting the current group.
508 * Crosspost Handling:: How crossposted articles are dealt with.
509 * Duplicate Suppression:: An alternative when crosspost handling fails.
510 * Security:: Decrypt and Verify.
511 * Mailing List:: Mailing list minor mode.
513 Summary Buffer Format
515 * Summary Buffer Lines:: You can specify how summary lines should look.
516 * To From Newsgroups:: How to not display your own name.
517 * Summary Buffer Mode Line:: You can say how the mode line should look.
518 * Summary Highlighting:: Making the summary buffer all pretty and nice.
522 * Choosing Commands:: Commands for choosing articles.
523 * Choosing Variables:: Variables that influence these commands.
525 Reply, Followup and Post
527 * Summary Mail Commands:: Sending mail.
528 * Summary Post Commands:: Sending news.
529 * Summary Message Commands:: Other Message-related commands.
530 * Canceling and Superseding::
534 * Unread Articles:: Marks for unread articles.
535 * Read Articles:: Marks for read articles.
536 * Other Marks:: Marks that do not affect readedness.
537 * Setting Marks:: How to set and remove marks.
538 * Generic Marking Commands:: How to customize the marking.
539 * Setting Process Marks:: How to mark articles for later processing.
543 * Customizing Threading:: Variables you can change to affect the threading.
544 * Thread Commands:: Thread based commands in the summary buffer.
546 Customizing Threading
548 * Loose Threads:: How Gnus gathers loose threads into bigger threads.
549 * Filling In Threads:: Making the threads displayed look fuller.
550 * More Threading:: Even more variables for fiddling with threads.
551 * Low-Level Threading:: You thought it was over@dots{} but you were wrong!
555 * Uuencoded Articles:: Uudecode articles.
556 * Shell Archives:: Unshar articles.
557 * PostScript Files:: Split PostScript.
558 * Other Files:: Plain save and binhex.
559 * Decoding Variables:: Variables for a happy decoding.
560 * Viewing Files:: You want to look at the result of the decoding?
564 * Rule Variables:: Variables that say how a file is to be viewed.
565 * Other Decode Variables:: Other decode variables.
566 * Uuencoding and Posting:: Variables for customizing uuencoding.
570 * Article Highlighting:: You want to make the article look like fruit salad.
571 * Article Fontisizing:: Making emphasized text look nice.
572 * Article Hiding:: You also want to make certain info go away.
573 * Article Washing:: Lots of way-neat functions to make life better.
574 * Article Header:: Doing various header transformations.
575 * Article Buttons:: Click on URLs, Message-IDs, addresses and the like.
576 * Article Button Levels:: Controlling appearance of buttons.
577 * Article Date:: Grumble, UT!
578 * Article Display:: Display various stuff---X-Face, Picons, Smileys
579 * Article Signature:: What is a signature?
580 * Article Miscellanea:: Various other stuff.
582 Alternative Approaches
584 * Pick and Read:: First mark articles and then read them.
585 * Binary Groups:: Auto-decode all articles.
587 Various Summary Stuff
589 * Summary Group Information:: Information oriented commands.
590 * Searching for Articles:: Multiple article commands.
591 * Summary Generation Commands::
592 * Really Various Summary Commands:: Those pesky non-conformant commands.
596 * Hiding Headers:: Deciding what headers should be displayed.
597 * Using MIME:: Pushing articles through @acronym{MIME} before reading them.
598 * Customizing Articles:: Tailoring the look of the articles.
599 * Article Keymap:: Keystrokes available in the article buffer.
600 * Misc Article:: Other stuff.
604 * Mail:: Mailing and replying.
605 * Posting Server:: What server should you post and mail via?
606 * POP before SMTP:: You cannot send a mail unless you read a mail.
607 * Mail and Post:: Mailing and posting at the same time.
608 * Archived Messages:: Where Gnus stores the messages you've sent.
609 * Posting Styles:: An easier way to specify who you are.
610 * Drafts:: Postponing messages and rejected messages.
611 * Rejected Articles:: What happens if the server doesn't like your article?
612 * Signing and encrypting:: How to compose secure messages.
616 * Server Buffer:: Making and editing virtual servers.
617 * Getting News:: Reading USENET news with Gnus.
618 * Getting Mail:: Reading your personal mail with Gnus.
619 * Browsing the Web:: Getting messages from a plethora of Web sources.
620 * IMAP:: Using Gnus as a @acronym{IMAP} client.
621 * Other Sources:: Reading directories, files, SOUP packets.
622 * Combined Groups:: Combining groups into one group.
623 * Gnus Unplugged:: Reading news and mail offline.
627 * Server Buffer Format:: You can customize the look of this buffer.
628 * Server Commands:: Commands to manipulate servers.
629 * Example Methods:: Examples server specifications.
630 * Creating a Virtual Server:: An example session.
631 * Server Variables:: Which variables to set.
632 * Servers and Methods:: You can use server names as select methods.
633 * Unavailable Servers:: Some servers you try to contact may be down.
637 * NNTP:: Reading news from an @acronym{NNTP} server.
638 * News Spool:: Reading news from the local spool.
642 * Direct Functions:: Connecting directly to the server.
643 * Indirect Functions:: Connecting indirectly to the server.
644 * Common Variables:: Understood by several connection functions.
648 * Mail in a Newsreader:: Important introductory notes.
649 * Getting Started Reading Mail:: A simple cookbook example.
650 * Splitting Mail:: How to create mail groups.
651 * Mail Sources:: How to tell Gnus where to get mail from.
652 * Mail Back End Variables:: Variables for customizing mail handling.
653 * Fancy Mail Splitting:: Gnus can do hairy splitting of incoming mail.
654 * Group Mail Splitting:: Use group customize to drive mail splitting.
655 * Incorporating Old Mail:: What about the old mail you have?
656 * Expiring Mail:: Getting rid of unwanted mail.
657 * Washing Mail:: Removing cruft from the mail you get.
658 * Duplicates:: Dealing with duplicated mail.
659 * Not Reading Mail:: Using mail back ends for reading other files.
660 * Choosing a Mail Back End:: Gnus can read a variety of mail formats.
664 * Mail Source Specifiers:: How to specify what a mail source is.
665 * Mail Source Customization:: Some variables that influence things.
666 * Fetching Mail:: Using the mail source specifiers.
668 Choosing a Mail Back End
670 * Unix Mail Box:: Using the (quite) standard Un*x mbox.
671 * Rmail Babyl:: Emacs programs use the Rmail Babyl format.
672 * Mail Spool:: Store your mail in a private spool?
673 * MH Spool:: An mhspool-like back end.
674 * Maildir:: Another one-file-per-message format.
675 * Mail Folders:: Having one file for each group.
676 * Comparing Mail Back Ends:: An in-depth looks at pros and cons.
681 * Web Searches:: Creating groups from articles that match a string.
682 * Slashdot:: Reading the Slashdot comments.
683 * Ultimate:: The Ultimate Bulletin Board systems.
684 * Web Archive:: Reading mailing list archived on web.
685 * RSS:: Reading RDF site summary.
686 * Customizing W3:: Doing stuff to Emacs/W3 from Gnus.
690 * Splitting in IMAP:: Splitting mail with nnimap.
691 * Expiring in IMAP:: Expiring mail with nnimap.
692 * Editing IMAP ACLs:: Limiting/enabling other users access to a mailbox.
693 * Expunging mailboxes:: Equivalent of a ``compress mailbox'' button.
694 * A note on namespaces:: How to (not) use @acronym{IMAP} namespace in Gnus.
695 * Debugging IMAP:: What to do when things don't work.
699 * Directory Groups:: You can read a directory as if it was a newsgroup.
700 * Anything Groups:: Dired? Who needs dired?
701 * Document Groups:: Single files can be the basis of a group.
702 * SOUP:: Reading @sc{soup} packets ``offline''.
703 * Mail-To-News Gateways:: Posting articles via mail-to-news gateways.
707 * Document Server Internals:: How to add your own document types.
711 * SOUP Commands:: Commands for creating and sending @sc{soup} packets
712 * SOUP Groups:: A back end for reading @sc{soup} packets.
713 * SOUP Replies:: How to enable @code{nnsoup} to take over mail and news.
717 * Virtual Groups:: Combining articles from many groups.
718 * Kibozed Groups:: Looking through parts of the newsfeed for articles.
722 * Agent Basics:: How it all is supposed to work.
723 * Agent Categories:: How to tell the Gnus Agent what to download.
724 * Agent Commands:: New commands for all the buffers.
725 * Agent Visuals:: Ways that the agent may effect your summary buffer.
726 * Agent as Cache:: The Agent is a big cache too.
727 * Agent Expiry:: How to make old articles go away.
728 * Agent Regeneration:: How to recover from lost connections and other accidents.
729 * Agent and IMAP:: How to use the Agent with @acronym{IMAP}.
730 * Outgoing Messages:: What happens when you post/mail something?
731 * Agent Variables:: Customizing is fun.
732 * Example Setup:: An example @file{~/.gnus.el} file for offline people.
733 * Batching Agents:: How to fetch news from a @code{cron} job.
734 * Agent Caveats:: What you think it'll do and what it does.
738 * Category Syntax:: What a category looks like.
739 * Category Buffer:: A buffer for maintaining categories.
740 * Category Variables:: Customize'r'Us.
744 * Group Agent Commands:: Configure groups and fetch their contents.
745 * Summary Agent Commands:: Manually select then fetch specific articles.
746 * Server Agent Commands:: Select the servers that are supported by the agent.
750 * Summary Score Commands:: Adding score entries for the current group.
751 * Group Score Commands:: General score commands.
752 * Score Variables:: Customize your scoring. (My, what terminology).
753 * Score File Format:: What a score file may contain.
754 * Score File Editing:: You can edit score files by hand as well.
755 * Adaptive Scoring:: Big Sister Gnus knows what you read.
756 * Home Score File:: How to say where new score entries are to go.
757 * Followups To Yourself:: Having Gnus notice when people answer you.
758 * Scoring On Other Headers:: Scoring on non-standard headers.
759 * Scoring Tips:: How to score effectively.
760 * Reverse Scoring:: That problem child of old is not problem.
761 * Global Score Files:: Earth-spanning, ear-splitting score files.
762 * Kill Files:: They are still here, but they can be ignored.
763 * Converting Kill Files:: Translating kill files to score files.
764 * GroupLens:: Getting predictions on what you like to read.
765 * Advanced Scoring:: Using logical expressions to build score rules.
766 * Score Decays:: It can be useful to let scores wither away.
770 * Using GroupLens:: How to make Gnus use GroupLens.
771 * Rating Articles:: Letting GroupLens know how you rate articles.
772 * Displaying Predictions:: Displaying predictions given by GroupLens.
773 * GroupLens Variables:: Customizing GroupLens.
777 * Advanced Scoring Syntax:: A definition.
778 * Advanced Scoring Examples:: What they look like.
779 * Advanced Scoring Tips:: Getting the most out of it.
783 * Process/Prefix:: A convention used by many treatment commands.
784 * Interactive:: Making Gnus ask you many questions.
785 * Symbolic Prefixes:: How to supply some Gnus functions with options.
786 * Formatting Variables:: You can specify what buffers should look like.
787 * Window Layout:: Configuring the Gnus buffer windows.
788 * Faces and Fonts:: How to change how faces look.
789 * Compilation:: How to speed Gnus up.
790 * Mode Lines:: Displaying information in the mode lines.
791 * Highlighting and Menus:: Making buffers look all nice and cozy.
792 * Buttons:: Get tendinitis in ten easy steps!
793 * Daemons:: Gnus can do things behind your back.
794 * NoCeM:: How to avoid spam and other fatty foods.
795 * Undo:: Some actions can be undone.
796 * Predicate Specifiers:: Specifying predicates.
797 * Moderation:: What to do if you're a moderator.
798 * Image Enhancements:: Modern versions of Emacs/XEmacs can display images.
799 * Fuzzy Matching:: What's the big fuzz?
800 * Thwarting Email Spam:: A how-to on avoiding unsolicited commercial email.
801 * Other modes:: Interaction with other modes.
802 * Various Various:: Things that are really various.
806 * Formatting Basics:: A formatting variable is basically a format string.
807 * Mode Line Formatting:: Some rules about mode line formatting variables.
808 * Advanced Formatting:: Modifying output in various ways.
809 * User-Defined Specs:: Having Gnus call your own functions.
810 * Formatting Fonts:: Making the formatting look colorful and nice.
811 * Positioning Point:: Moving point to a position after an operation.
812 * Tabulation:: Tabulating your output.
813 * Wide Characters:: Dealing with wide characters.
817 * X-Face:: Display a funky, teensy black-and-white image.
818 * Face:: Display a funkier, teensier colored image.
819 * Smileys:: Show all those happy faces the way they were meant to be shown.
820 * Picons:: How to display pictures of what you're reading.
821 * XVarious:: Other XEmacsy Gnusey variables.
825 * The problem of spam:: Some background, and some solutions
826 * Anti-Spam Basics:: Simple steps to reduce the amount of spam.
827 * SpamAssassin:: How to use external anti-spam tools.
828 * Hashcash:: Reduce spam by burning CPU time.
829 * Filtering Spam Using The Spam ELisp Package::
830 * Filtering Spam Using Statistics with spam-stat::
832 Filtering Spam Using The Spam ELisp Package
834 * Spam ELisp Package Sequence of Events::
835 * Spam ELisp Package Filtering of Incoming Mail::
836 * Spam ELisp Package Global Variables::
837 * Spam ELisp Package Configuration Examples::
838 * Blacklists and Whitelists::
840 * Gmane Spam Reporting::
841 * Anti-spam Hashcash Payments::
843 * Regular Expressions Header Matching::
845 * ifile spam filtering::
846 * spam-stat spam filtering::
848 * Extending the Spam ELisp package::
850 Filtering Spam Using Statistics with spam-stat
852 * Creating a spam-stat dictionary::
853 * Splitting mail using spam-stat::
854 * Low-level interface to the spam-stat dictionary::
858 * XEmacs:: Requirements for installing under XEmacs.
859 * History:: How Gnus got where it is today.
860 * On Writing Manuals:: Why this is not a beginner's guide.
861 * Terminology:: We use really difficult, like, words here.
862 * Customization:: Tailoring Gnus to your needs.
863 * Troubleshooting:: What you might try if things do not work.
864 * Gnus Reference Guide:: Rilly, rilly technical stuff.
865 * Emacs for Heathens:: A short introduction to Emacsian terms.
866 * Frequently Asked Questions:: The Gnus FAQ
870 * Gnus Versions:: What Gnus versions have been released.
871 * Other Gnus Versions:: Other Gnus versions that also have been released.
872 * Why?:: What's the point of Gnus?
873 * Compatibility:: Just how compatible is Gnus with @sc{gnus}?
874 * Conformity:: Gnus tries to conform to all standards.
875 * Emacsen:: Gnus can be run on a few modern Emacsen.
876 * Gnus Development:: How Gnus is developed.
877 * Contributors:: Oodles of people.
878 * New Features:: Pointers to some of the new stuff in Gnus.
882 * ding Gnus:: New things in Gnus 5.0/5.1, the first new Gnus.
883 * September Gnus:: The Thing Formally Known As Gnus 5.2/5.3.
884 * Red Gnus:: Third time best---Gnus 5.4/5.5.
885 * Quassia Gnus:: Two times two is four, or Gnus 5.6/5.7.
886 * Pterodactyl Gnus:: Pentad also starts with P, AKA Gnus 5.8/5.9.
887 * Oort Gnus:: It's big. It's far out. Gnus 5.10/5.11.
891 * Slow/Expensive Connection:: You run a local Emacs and get the news elsewhere.
892 * Slow Terminal Connection:: You run a remote Emacs.
893 * Little Disk Space:: You feel that having large setup files is icky.
894 * Slow Machine:: You feel like buying a faster machine.
898 * Gnus Utility Functions:: Common functions and variable to use.
899 * Back End Interface:: How Gnus communicates with the servers.
900 * Score File Syntax:: A BNF definition of the score file standard.
901 * Headers:: How Gnus stores headers internally.
902 * Ranges:: A handy format for storing mucho numbers.
903 * Group Info:: The group info format.
904 * Extended Interactive:: Symbolic prefixes and stuff.
905 * Emacs/XEmacs Code:: Gnus can be run under all modern Emacsen.
906 * Various File Formats:: Formats of files that Gnus use.
910 * Required Back End Functions:: Functions that must be implemented.
911 * Optional Back End Functions:: Functions that need not be implemented.
912 * Error Messaging:: How to get messages and report errors.
913 * Writing New Back Ends:: Extending old back ends.
914 * Hooking New Back Ends Into Gnus:: What has to be done on the Gnus end.
915 * Mail-like Back Ends:: Some tips on mail back ends.
919 * Active File Format:: Information on articles and groups available.
920 * Newsgroups File Format:: Group descriptions.
924 * Keystrokes:: Entering text and executing commands.
925 * Emacs Lisp:: The built-in Emacs programming language.
931 @chapter Starting Gnus
936 If your system administrator has set things up properly, starting Gnus
937 and reading news is extremely easy---you just type @kbd{M-x gnus} in
940 @findex gnus-other-frame
941 @kindex M-x gnus-other-frame
942 If you want to start Gnus in a different frame, you can use the command
943 @kbd{M-x gnus-other-frame} instead.
945 If things do not go smoothly at startup, you have to twiddle some
946 variables in your @file{~/.gnus.el} file. This file is similar to
947 @file{~/.emacs}, but is read when Gnus starts.
949 If you puzzle at any terms used in this manual, please refer to the
950 terminology section (@pxref{Terminology}).
953 * Finding the News:: Choosing a method for getting news.
954 * The First Time:: What does Gnus do the first time you start it?
955 * The Server is Down:: How can I read my mail then?
956 * Slave Gnusae:: You can have more than one Gnus active at a time.
957 * New Groups:: What is Gnus supposed to do with new groups?
958 * Changing Servers:: You may want to move from one server to another.
959 * Startup Files:: Those pesky startup files---@file{.newsrc}.
960 * Auto Save:: Recovering from a crash.
961 * The Active File:: Reading the active file over a slow line Takes Time.
962 * Startup Variables:: Other variables you might change.
966 @node Finding the News
967 @section Finding the News
970 @vindex gnus-select-method
972 The @code{gnus-select-method} variable says where Gnus should look for
973 news. This variable should be a list where the first element says
974 @dfn{how} and the second element says @dfn{where}. This method is your
975 native method. All groups not fetched with this method are
978 For instance, if the @samp{news.somewhere.edu} @acronym{NNTP} server is where
979 you want to get your daily dosage of news from, you'd say:
982 (setq gnus-select-method '(nntp "news.somewhere.edu"))
985 If you want to read directly from the local spool, say:
988 (setq gnus-select-method '(nnspool ""))
991 If you can use a local spool, you probably should, as it will almost
992 certainly be much faster. But do not use the local spool if your
993 server is running Leafnode (which is a simple, standalone private news
994 server); in this case, use @code{(nntp "localhost")}.
996 @vindex gnus-nntpserver-file
998 @cindex @acronym{NNTP} server
999 If this variable is not set, Gnus will take a look at the
1000 @env{NNTPSERVER} environment variable. If that variable isn't set,
1001 Gnus will see whether @code{gnus-nntpserver-file}
1002 (@file{/etc/nntpserver} by default) has any opinions on the matter.
1003 If that fails as well, Gnus will try to use the machine running Emacs
1004 as an @acronym{NNTP} server. That's a long shot, though.
1006 @vindex gnus-nntp-server
1007 If @code{gnus-nntp-server} is set, this variable will override
1008 @code{gnus-select-method}. You should therefore set
1009 @code{gnus-nntp-server} to @code{nil}, which is what it is by default.
1011 @vindex gnus-secondary-servers
1012 @vindex gnus-nntp-server
1013 You can also make Gnus prompt you interactively for the name of an
1014 @acronym{NNTP} server. If you give a non-numerical prefix to @code{gnus}
1015 (i.e., @kbd{C-u M-x gnus}), Gnus will let you choose between the servers
1016 in the @code{gnus-secondary-servers} list (if any). You can also just
1017 type in the name of any server you feel like visiting. (Note that this
1018 will set @code{gnus-nntp-server}, which means that if you then @kbd{M-x
1019 gnus} later in the same Emacs session, Gnus will contact the same
1022 @findex gnus-group-browse-foreign-server
1024 However, if you use one @acronym{NNTP} server regularly and are just
1025 interested in a couple of groups from a different server, you would be
1026 better served by using the @kbd{B} command in the group buffer. It will
1027 let you have a look at what groups are available, and you can subscribe
1028 to any of the groups you want to. This also makes @file{.newsrc}
1029 maintenance much tidier. @xref{Foreign Groups}.
1031 @vindex gnus-secondary-select-methods
1033 A slightly different approach to foreign groups is to set the
1034 @code{gnus-secondary-select-methods} variable. The select methods
1035 listed in this variable are in many ways just as native as the
1036 @code{gnus-select-method} server. They will also be queried for active
1037 files during startup (if that's required), and new newsgroups that
1038 appear on these servers will be subscribed (or not) just as native
1041 For instance, if you use the @code{nnmbox} back end to read your mail,
1042 you would typically set this variable to
1045 (setq gnus-secondary-select-methods '((nnmbox "")))
1049 @node The First Time
1050 @section The First Time
1051 @cindex first time usage
1053 If no startup files exist (@pxref{Startup Files}), Gnus will try to
1054 determine what groups should be subscribed by default.
1056 @vindex gnus-default-subscribed-newsgroups
1057 If the variable @code{gnus-default-subscribed-newsgroups} is set, Gnus
1058 will subscribe you to just those groups in that list, leaving the rest
1059 killed. Your system administrator should have set this variable to
1062 Since she hasn't, Gnus will just subscribe you to a few arbitrarily
1063 picked groups (i.e., @samp{*.newusers}). (@dfn{Arbitrary} is defined
1064 here as @dfn{whatever Lars thinks you should read}.)
1066 You'll also be subscribed to the Gnus documentation group, which should
1067 help you with most common problems.
1069 If @code{gnus-default-subscribed-newsgroups} is @code{t}, Gnus will just
1070 use the normal functions for handling new groups, and not do anything
1074 @node The Server is Down
1075 @section The Server is Down
1076 @cindex server errors
1078 If the default server is down, Gnus will understandably have some
1079 problems starting. However, if you have some mail groups in addition to
1080 the news groups, you may want to start Gnus anyway.
1082 Gnus, being the trusting sort of program, will ask whether to proceed
1083 without a native select method if that server can't be contacted. This
1084 will happen whether the server doesn't actually exist (i.e., you have
1085 given the wrong address) or the server has just momentarily taken ill
1086 for some reason or other. If you decide to continue and have no foreign
1087 groups, you'll find it difficult to actually do anything in the group
1088 buffer. But, hey, that's your problem. Blllrph!
1090 @findex gnus-no-server
1091 @kindex M-x gnus-no-server
1093 If you know that the server is definitely down, or you just want to read
1094 your mail without bothering with the server at all, you can use the
1095 @code{gnus-no-server} command to start Gnus. That might come in handy
1096 if you're in a hurry as well. This command will not attempt to contact
1097 your primary server---instead, it will just activate all groups on level
1098 1 and 2. (You should preferably keep no native groups on those two
1099 levels.) Also @pxref{Group Levels}.
1103 @section Slave Gnusae
1106 You might want to run more than one Emacs with more than one Gnus at the
1107 same time. If you are using different @file{.newsrc} files (e.g., if you
1108 are using the two different Gnusae to read from two different servers),
1109 that is no problem whatsoever. You just do it.
1111 The problem appears when you want to run two Gnusae that use the same
1112 @file{.newsrc} file.
1114 To work around that problem some, we here at the Think-Tank at the Gnus
1115 Towers have come up with a new concept: @dfn{Masters} and
1116 @dfn{slaves}. (We have applied for a patent on this concept, and have
1117 taken out a copyright on those words. If you wish to use those words in
1118 conjunction with each other, you have to send $1 per usage instance to
1119 me. Usage of the patent (@dfn{Master/Slave Relationships In Computer
1120 Applications}) will be much more expensive, of course.)
1123 Anyway, you start one Gnus up the normal way with @kbd{M-x gnus} (or
1124 however you do it). Each subsequent slave Gnusae should be started with
1125 @kbd{M-x gnus-slave}. These slaves won't save normal @file{.newsrc}
1126 files, but instead save @dfn{slave files} that contain information only
1127 on what groups have been read in the slave session. When a master Gnus
1128 starts, it will read (and delete) these slave files, incorporating all
1129 information from them. (The slave files will be read in the sequence
1130 they were created, so the latest changes will have precedence.)
1132 Information from the slave files has, of course, precedence over the
1133 information in the normal (i.e., master) @file{.newsrc} file.
1135 If the @file{.newsrc*} files have not been saved in the master when the
1136 slave starts, you may be prompted as to whether to read an auto-save
1137 file. If you answer ``yes'', the unsaved changes to the master will be
1138 incorporated into the slave. If you answer ``no'', the slave may see some
1139 messages as unread that have been read in the master.
1146 @cindex subscription
1148 @vindex gnus-check-new-newsgroups
1149 If you are satisfied that you really never want to see any new groups,
1150 you can set @code{gnus-check-new-newsgroups} to @code{nil}. This will
1151 also save you some time at startup. Even if this variable is
1152 @code{nil}, you can always subscribe to the new groups just by pressing
1153 @kbd{U} in the group buffer (@pxref{Group Maintenance}). This variable
1154 is @code{ask-server} by default. If you set this variable to
1155 @code{always}, then Gnus will query the back ends for new groups even
1156 when you do the @kbd{g} command (@pxref{Scanning New Messages}).
1159 * Checking New Groups:: Determining what groups are new.
1160 * Subscription Methods:: What Gnus should do with new groups.
1161 * Filtering New Groups:: Making Gnus ignore certain new groups.
1165 @node Checking New Groups
1166 @subsection Checking New Groups
1168 Gnus normally determines whether a group is new or not by comparing the
1169 list of groups from the active file(s) with the lists of subscribed and
1170 dead groups. This isn't a particularly fast method. If
1171 @code{gnus-check-new-newsgroups} is @code{ask-server}, Gnus will ask the
1172 server for new groups since the last time. This is both faster and
1173 cheaper. This also means that you can get rid of the list of killed
1174 groups altogether, so you may set @code{gnus-save-killed-list} to
1175 @code{nil}, which will save time both at startup, at exit, and all over.
1176 Saves disk space, too. Why isn't this the default, then?
1177 Unfortunately, not all servers support this command.
1179 I bet I know what you're thinking now: How do I find out whether my
1180 server supports @code{ask-server}? No? Good, because I don't have a
1181 fail-safe answer. I would suggest just setting this variable to
1182 @code{ask-server} and see whether any new groups appear within the next
1183 few days. If any do, then it works. If none do, then it doesn't
1184 work. I could write a function to make Gnus guess whether the server
1185 supports @code{ask-server}, but it would just be a guess. So I won't.
1186 You could @code{telnet} to the server and say @code{HELP} and see
1187 whether it lists @samp{NEWGROUPS} among the commands it understands. If
1188 it does, then it might work. (But there are servers that lists
1189 @samp{NEWGROUPS} without supporting the function properly.)
1191 This variable can also be a list of select methods. If so, Gnus will
1192 issue an @code{ask-server} command to each of the select methods, and
1193 subscribe them (or not) using the normal methods. This might be handy
1194 if you are monitoring a few servers for new groups. A side effect is
1195 that startup will take much longer, so you can meditate while waiting.
1196 Use the mantra ``dingnusdingnusdingnus'' to achieve permanent bliss.
1199 @node Subscription Methods
1200 @subsection Subscription Methods
1202 @vindex gnus-subscribe-newsgroup-method
1203 What Gnus does when it encounters a new group is determined by the
1204 @code{gnus-subscribe-newsgroup-method} variable.
1206 This variable should contain a function. This function will be called
1207 with the name of the new group as the only parameter.
1209 Some handy pre-fab functions are:
1213 @item gnus-subscribe-zombies
1214 @vindex gnus-subscribe-zombies
1215 Make all new groups zombies. This is the default. You can browse the
1216 zombies later (with @kbd{A z}) and either kill them all off properly
1217 (with @kbd{S z}), or subscribe to them (with @kbd{u}).
1219 @item gnus-subscribe-randomly
1220 @vindex gnus-subscribe-randomly
1221 Subscribe all new groups in arbitrary order. This really means that all
1222 new groups will be added at ``the top'' of the group buffer.
1224 @item gnus-subscribe-alphabetically
1225 @vindex gnus-subscribe-alphabetically
1226 Subscribe all new groups in alphabetical order.
1228 @item gnus-subscribe-hierarchically
1229 @vindex gnus-subscribe-hierarchically
1230 Subscribe all new groups hierarchically. The difference between this
1231 function and @code{gnus-subscribe-alphabetically} is slight.
1232 @code{gnus-subscribe-alphabetically} will subscribe new groups in a strictly
1233 alphabetical fashion, while this function will enter groups into its
1234 hierarchy. So if you want to have the @samp{rec} hierarchy before the
1235 @samp{comp} hierarchy, this function will not mess that configuration
1236 up. Or something like that.
1238 @item gnus-subscribe-interactively
1239 @vindex gnus-subscribe-interactively
1240 Subscribe new groups interactively. This means that Gnus will ask
1241 you about @strong{all} new groups. The groups you choose to subscribe
1242 to will be subscribed hierarchically.
1244 @item gnus-subscribe-killed
1245 @vindex gnus-subscribe-killed
1246 Kill all new groups.
1248 @item gnus-subscribe-topics
1249 @vindex gnus-subscribe-topics
1250 Put the groups into the topic that has a matching @code{subscribe} topic
1251 parameter (@pxref{Topic Parameters}). For instance, a @code{subscribe}
1252 topic parameter that looks like
1258 will mean that all groups that match that regex will be subscribed under
1261 If no topics match the groups, the groups will be subscribed in the
1266 @vindex gnus-subscribe-hierarchical-interactive
1267 A closely related variable is
1268 @code{gnus-subscribe-hierarchical-interactive}. (That's quite a
1269 mouthful.) If this variable is non-@code{nil}, Gnus will ask you in a
1270 hierarchical fashion whether to subscribe to new groups or not. Gnus
1271 will ask you for each sub-hierarchy whether you want to descend the
1274 One common mistake is to set the variable a few paragraphs above
1275 (@code{gnus-subscribe-newsgroup-method}) to
1276 @code{gnus-subscribe-hierarchical-interactive}. This is an error. This
1277 will not work. This is ga-ga. So don't do it.
1280 @node Filtering New Groups
1281 @subsection Filtering New Groups
1283 A nice and portable way to control which new newsgroups should be
1284 subscribed (or ignored) is to put an @dfn{options} line at the start of
1285 the @file{.newsrc} file. Here's an example:
1288 options -n !alt.all !rec.all sci.all
1291 @vindex gnus-subscribe-options-newsgroup-method
1292 This line obviously belongs to a serious-minded intellectual scientific
1293 person (or she may just be plain old boring), because it says that all
1294 groups that have names beginning with @samp{alt} and @samp{rec} should
1295 be ignored, and all groups with names beginning with @samp{sci} should
1296 be subscribed. Gnus will not use the normal subscription method for
1297 subscribing these groups.
1298 @code{gnus-subscribe-options-newsgroup-method} is used instead. This
1299 variable defaults to @code{gnus-subscribe-alphabetically}.
1301 @vindex gnus-options-not-subscribe
1302 @vindex gnus-options-subscribe
1303 If you don't want to mess with your @file{.newsrc} file, you can just
1304 set the two variables @code{gnus-options-subscribe} and
1305 @code{gnus-options-not-subscribe}. These two variables do exactly the
1306 same as the @file{.newsrc} @samp{options -n} trick. Both are regexps,
1307 and if the new group matches the former, it will be unconditionally
1308 subscribed, and if it matches the latter, it will be ignored.
1310 @vindex gnus-auto-subscribed-groups
1311 Yet another variable that meddles here is
1312 @code{gnus-auto-subscribed-groups}. It works exactly like
1313 @code{gnus-options-subscribe}, and is therefore really superfluous,
1314 but I thought it would be nice to have two of these. This variable is
1315 more meant for setting some ground rules, while the other variable is
1316 used more for user fiddling. By default this variable makes all new
1317 groups that come from mail back ends (@code{nnml}, @code{nnbabyl},
1318 @code{nnfolder}, @code{nnmbox}, @code{nnmh}, and @code{nnmaildir})
1319 subscribed. If you don't like that, just set this variable to
1322 New groups that match this regexp are subscribed using
1323 @code{gnus-subscribe-options-newsgroup-method}.
1326 @node Changing Servers
1327 @section Changing Servers
1328 @cindex changing servers
1330 Sometimes it is necessary to move from one @acronym{NNTP} server to another.
1331 This happens very rarely, but perhaps you change jobs, or one server is
1332 very flaky and you want to use another.
1334 Changing the server is pretty easy, right? You just change
1335 @code{gnus-select-method} to point to the new server?
1339 Article numbers are not (in any way) kept synchronized between different
1340 @acronym{NNTP} servers, and the only way Gnus keeps track of what articles
1341 you have read is by keeping track of article numbers. So when you
1342 change @code{gnus-select-method}, your @file{.newsrc} file becomes
1345 Gnus provides a few functions to attempt to translate a @file{.newsrc}
1346 file from one server to another. They all have one thing in
1347 common---they take a looong time to run. You don't want to use these
1348 functions more than absolutely necessary.
1350 @kindex M-x gnus-change-server
1351 @findex gnus-change-server
1352 If you have access to both servers, Gnus can request the headers for all
1353 the articles you have read and compare @code{Message-ID}s and map the
1354 article numbers of the read articles and article marks. The @kbd{M-x
1355 gnus-change-server} command will do this for all your native groups. It
1356 will prompt for the method you want to move to.
1358 @kindex M-x gnus-group-move-group-to-server
1359 @findex gnus-group-move-group-to-server
1360 You can also move individual groups with the @kbd{M-x
1361 gnus-group-move-group-to-server} command. This is useful if you want to
1362 move a (foreign) group from one server to another.
1364 @kindex M-x gnus-group-clear-data-on-native-groups
1365 @findex gnus-group-clear-data-on-native-groups
1366 If you don't have access to both the old and new server, all your marks
1367 and read ranges have become worthless. You can use the @kbd{M-x
1368 gnus-group-clear-data-on-native-groups} command to clear out all data
1369 that you have on your native groups. Use with caution.
1371 @kindex M-x gnus-group-clear-data
1372 @findex gnus-group-clear-data
1373 Clear the data from the current group only---nix out marks and the
1374 list of read articles (@code{gnus-group-clear-data}).
1376 After changing servers, you @strong{must} move the cache hierarchy away,
1377 since the cached articles will have wrong article numbers, which will
1378 affect which articles Gnus thinks are read.
1379 @code{gnus-group-clear-data-on-native-groups} will ask you if you want
1380 to have it done automatically; for @code{gnus-group-clear-data}, you
1381 can use @kbd{M-x gnus-cache-move-cache} (but beware, it will move the
1382 cache for all groups).
1386 @section Startup Files
1387 @cindex startup files
1392 Most common Unix news readers use a shared startup file called
1393 @file{.newsrc}. This file contains all the information about what
1394 groups are subscribed, and which articles in these groups have been
1397 Things got a bit more complicated with @sc{gnus}. In addition to
1398 keeping the @file{.newsrc} file updated, it also used a file called
1399 @file{.newsrc.el} for storing all the information that didn't fit into
1400 the @file{.newsrc} file. (Actually, it also duplicated everything in
1401 the @file{.newsrc} file.) @sc{gnus} would read whichever one of these
1402 files was the most recently saved, which enabled people to swap between
1403 @sc{gnus} and other newsreaders.
1405 That was kinda silly, so Gnus went one better: In addition to the
1406 @file{.newsrc} and @file{.newsrc.el} files, Gnus also has a file called
1407 @file{.newsrc.eld}. It will read whichever of these files that are most
1408 recent, but it will never write a @file{.newsrc.el} file. You should
1409 never delete the @file{.newsrc.eld} file---it contains much information
1410 not stored in the @file{.newsrc} file.
1412 @vindex gnus-save-newsrc-file
1413 @vindex gnus-read-newsrc-file
1414 You can turn off writing the @file{.newsrc} file by setting
1415 @code{gnus-save-newsrc-file} to @code{nil}, which means you can delete
1416 the file and save some space, as well as exiting from Gnus faster.
1417 However, this will make it impossible to use other newsreaders than
1418 Gnus. But hey, who would want to, right? Similarly, setting
1419 @code{gnus-read-newsrc-file} to @code{nil} makes Gnus ignore the
1420 @file{.newsrc} file and any @file{.newsrc-SERVER} files, which can be
1421 convenient if you use a different news reader occasionally, and you
1422 want to read a different subset of the available groups with that
1425 @vindex gnus-save-killed-list
1426 If @code{gnus-save-killed-list} (default @code{t}) is @code{nil}, Gnus
1427 will not save the list of killed groups to the startup file. This will
1428 save both time (when starting and quitting) and space (on disk). It
1429 will also mean that Gnus has no record of what groups are new or old,
1430 so the automatic new groups subscription methods become meaningless.
1431 You should always set @code{gnus-check-new-newsgroups} to @code{nil} or
1432 @code{ask-server} if you set this variable to @code{nil} (@pxref{New
1433 Groups}). This variable can also be a regular expression. If that's
1434 the case, remove all groups that do not match this regexp before
1435 saving. This can be useful in certain obscure situations that involve
1436 several servers where not all servers support @code{ask-server}.
1438 @vindex gnus-startup-file
1439 @vindex gnus-backup-startup-file
1440 @vindex version-control
1441 The @code{gnus-startup-file} variable says where the startup files are.
1442 The default value is @file{~/.newsrc}, with the Gnus (El Dingo) startup
1443 file being whatever that one is, with a @samp{.eld} appended.
1444 If you want version control for this file, set
1445 @code{gnus-backup-startup-file}. It respects the same values as the
1446 @code{version-control} variable.
1448 @vindex gnus-save-newsrc-hook
1449 @vindex gnus-save-quick-newsrc-hook
1450 @vindex gnus-save-standard-newsrc-hook
1451 @code{gnus-save-newsrc-hook} is called before saving any of the newsrc
1452 files, while @code{gnus-save-quick-newsrc-hook} is called just before
1453 saving the @file{.newsrc.eld} file, and
1454 @code{gnus-save-standard-newsrc-hook} is called just before saving the
1455 @file{.newsrc} file. The latter two are commonly used to turn version
1456 control on or off. Version control is on by default when saving the
1457 startup files. If you want to turn backup creation off, say something like:
1460 (defun turn-off-backup ()
1461 (set (make-local-variable 'backup-inhibited) t))
1463 (add-hook 'gnus-save-quick-newsrc-hook 'turn-off-backup)
1464 (add-hook 'gnus-save-standard-newsrc-hook 'turn-off-backup)
1467 @vindex gnus-init-file
1468 @vindex gnus-site-init-file
1469 When Gnus starts, it will read the @code{gnus-site-init-file}
1470 (@file{.../site-lisp/gnus-init} by default) and @code{gnus-init-file}
1471 (@file{~/.gnus} by default) files. These are normal Emacs Lisp files
1472 and can be used to avoid cluttering your @file{~/.emacs} and
1473 @file{site-init} files with Gnus stuff. Gnus will also check for files
1474 with the same names as these, but with @file{.elc} and @file{.el}
1475 suffixes. In other words, if you have set @code{gnus-init-file} to
1476 @file{~/.gnus}, it will look for @file{~/.gnus.elc}, @file{~/.gnus.el},
1477 and finally @file{~/.gnus} (in this order). If Emacs was invoked with
1478 the @option{-q} or @option{--no-init-file} options (@pxref{Initial
1479 Options, ,Initial Options, emacs, The Emacs Manual}), Gnus doesn't read
1480 @code{gnus-init-file}.
1485 @cindex dribble file
1488 Whenever you do something that changes the Gnus data (reading articles,
1489 catching up, killing/subscribing groups), the change is added to a
1490 special @dfn{dribble buffer}. This buffer is auto-saved the normal
1491 Emacs way. If your Emacs should crash before you have saved the
1492 @file{.newsrc} files, all changes you have made can be recovered from
1495 If Gnus detects this file at startup, it will ask the user whether to
1496 read it. The auto save file is deleted whenever the real startup file is
1499 @vindex gnus-use-dribble-file
1500 If @code{gnus-use-dribble-file} is @code{nil}, Gnus won't create and
1501 maintain a dribble buffer. The default is @code{t}.
1503 @vindex gnus-dribble-directory
1504 Gnus will put the dribble file(s) in @code{gnus-dribble-directory}. If
1505 this variable is @code{nil}, which it is by default, Gnus will dribble
1506 into the directory where the @file{.newsrc} file is located. (This is
1507 normally the user's home directory.) The dribble file will get the same
1508 file permissions as the @file{.newsrc} file.
1510 @vindex gnus-always-read-dribble-file
1511 If @code{gnus-always-read-dribble-file} is non-@code{nil}, Gnus will
1512 read the dribble file on startup without querying the user.
1515 @node The Active File
1516 @section The Active File
1518 @cindex ignored groups
1520 When Gnus starts, or indeed whenever it tries to determine whether new
1521 articles have arrived, it reads the active file. This is a very large
1522 file that lists all the active groups and articles on the server.
1524 @vindex gnus-ignored-newsgroups
1525 Before examining the active file, Gnus deletes all lines that match the
1526 regexp @code{gnus-ignored-newsgroups}. This is done primarily to reject
1527 any groups with bogus names, but you can use this variable to make Gnus
1528 ignore hierarchies you aren't ever interested in. However, this is not
1529 recommended. In fact, it's highly discouraged. Instead, @pxref{New
1530 Groups} for an overview of other variables that can be used instead.
1533 @c @code{nil} by default, and will slow down active file handling somewhat
1534 @c if you set it to anything else.
1536 @vindex gnus-read-active-file
1538 The active file can be rather Huge, so if you have a slow network, you
1539 can set @code{gnus-read-active-file} to @code{nil} to prevent Gnus from
1540 reading the active file. This variable is @code{some} by default.
1542 Gnus will try to make do by getting information just on the groups that
1543 you actually subscribe to.
1545 Note that if you subscribe to lots and lots of groups, setting this
1546 variable to @code{nil} will probably make Gnus slower, not faster. At
1547 present, having this variable @code{nil} will slow Gnus down
1548 considerably, unless you read news over a 2400 baud modem.
1550 This variable can also have the value @code{some}. Gnus will then
1551 attempt to read active info only on the subscribed groups. On some
1552 servers this is quite fast (on sparkling, brand new INN servers that
1553 support the @code{LIST ACTIVE group} command), on others this isn't fast
1554 at all. In any case, @code{some} should be faster than @code{nil}, and
1555 is certainly faster than @code{t} over slow lines.
1557 Some news servers (old versions of Leafnode and old versions of INN, for
1558 instance) do not support the @code{LIST ACTIVE group}. For these
1559 servers, @code{nil} is probably the most efficient value for this
1562 If this variable is @code{nil}, Gnus will ask for group info in total
1563 lock-step, which isn't very fast. If it is @code{some} and you use an
1564 @acronym{NNTP} server, Gnus will pump out commands as fast as it can, and
1565 read all the replies in one swoop. This will normally result in better
1566 performance, but if the server does not support the aforementioned
1567 @code{LIST ACTIVE group} command, this isn't very nice to the server.
1569 If you think that starting up Gnus takes too long, try all the three
1570 different values for this variable and see what works best for you.
1572 In any case, if you use @code{some} or @code{nil}, you should definitely
1573 kill all groups that you aren't interested in to speed things up.
1575 Note that this variable also affects active file retrieval from
1576 secondary select methods.
1579 @node Startup Variables
1580 @section Startup Variables
1584 @item gnus-load-hook
1585 @vindex gnus-load-hook
1586 A hook run while Gnus is being loaded. Note that this hook will
1587 normally be run just once in each Emacs session, no matter how many
1588 times you start Gnus.
1590 @item gnus-before-startup-hook
1591 @vindex gnus-before-startup-hook
1592 A hook run after starting up Gnus successfully.
1594 @item gnus-startup-hook
1595 @vindex gnus-startup-hook
1596 A hook run as the very last thing after starting up Gnus
1598 @item gnus-started-hook
1599 @vindex gnus-started-hook
1600 A hook that is run as the very last thing after starting up Gnus
1603 @item gnus-setup-news-hook
1604 @vindex gnus-setup-news-hook
1605 A hook that is run after reading the @file{.newsrc} file(s), but before
1606 generating the group buffer.
1608 @item gnus-check-bogus-newsgroups
1609 @vindex gnus-check-bogus-newsgroups
1610 If non-@code{nil}, Gnus will check for and delete all bogus groups at
1611 startup. A @dfn{bogus group} is a group that you have in your
1612 @file{.newsrc} file, but doesn't exist on the news server. Checking for
1613 bogus groups can take quite a while, so to save time and resources it's
1614 best to leave this option off, and do the checking for bogus groups once
1615 in a while from the group buffer instead (@pxref{Group Maintenance}).
1617 @item gnus-inhibit-startup-message
1618 @vindex gnus-inhibit-startup-message
1619 If non-@code{nil}, the startup message won't be displayed. That way,
1620 your boss might not notice as easily that you are reading news instead
1621 of doing your job. Note that this variable is used before
1622 @file{~/.gnus.el} is loaded, so it should be set in @file{.emacs} instead.
1624 @item gnus-no-groups-message
1625 @vindex gnus-no-groups-message
1626 Message displayed by Gnus when no groups are available.
1628 @item gnus-play-startup-jingle
1629 @vindex gnus-play-startup-jingle
1630 If non-@code{nil}, play the Gnus jingle at startup.
1632 @item gnus-startup-jingle
1633 @vindex gnus-startup-jingle
1634 Jingle to be played if the above variable is non-@code{nil}. The
1635 default is @samp{Tuxedomoon.Jingle4.au}.
1641 @chapter Group Buffer
1642 @cindex group buffer
1644 @c Alex Schroeder suggests to rearrange this as follows:
1646 @c <kensanata> ok, just save it for reference. I'll go to bed in a minute.
1647 @c 1. Selecting a Group, 2. (new) Finding a Group, 3. Group Levels,
1648 @c 4. Subscription Commands, 5. Group Maneuvering, 6. Group Data,
1649 @c 7. Group Score, 8. Group Buffer Format
1650 @c <kensanata> Group Levels should have more information on levels 5 to 9. I
1651 @c suggest to split the 4th paragraph ("Gnus considers groups...") as follows:
1652 @c <kensanata> First, "Gnus considers groups... (default 9)."
1653 @c <kensanata> New, a table summarizing what levels 1 to 9 mean.
1654 @c <kensanata> Third, "Gnus treats subscribed ... reasons of efficiency"
1655 @c <kensanata> Then expand the next paragraph or add some more to it.
1656 @c This short one sentence explains levels 1 and 2, therefore I understand
1657 @c that I should keep important news at 3 and boring news at 4.
1658 @c Say so! Then go on to explain why I should bother with levels 6 to 9.
1659 @c Maybe keep those that you don't want to read temporarily at 6,
1660 @c those that you never want to read at 8, those that offend your
1661 @c human rights at 9...
1664 The @dfn{group buffer} lists all (or parts) of the available groups. It
1665 is the first buffer shown when Gnus starts, and will never be killed as
1666 long as Gnus is active.
1670 \gnusfigure{The Group Buffer}{320}{
1671 \put(75,50){\epsfig{figure=ps/group,height=9cm}}
1672 \put(120,37){\makebox(0,0)[t]{Buffer name}}
1673 \put(120,38){\vector(1,2){10}}
1674 \put(40,60){\makebox(0,0)[r]{Mode line}}
1675 \put(40,58){\vector(1,0){30}}
1676 \put(200,28){\makebox(0,0)[t]{Native select method}}
1677 \put(200,26){\vector(-1,2){15}}
1683 * Group Buffer Format:: Information listed and how you can change it.
1684 * Group Maneuvering:: Commands for moving in the group buffer.
1685 * Selecting a Group:: Actually reading news.
1686 * Subscription Commands:: Unsubscribing, killing, subscribing.
1687 * Group Data:: Changing the info for a group.
1688 * Group Levels:: Levels? What are those, then?
1689 * Group Score:: A mechanism for finding out what groups you like.
1690 * Marking Groups:: You can mark groups for later processing.
1691 * Foreign Groups:: Creating and editing groups.
1692 * Group Parameters:: Each group may have different parameters set.
1693 * Listing Groups:: Gnus can list various subsets of the groups.
1694 * Sorting Groups:: Re-arrange the group order.
1695 * Group Maintenance:: Maintaining a tidy @file{.newsrc} file.
1696 * Browse Foreign Server:: You can browse a server. See what it has to offer.
1697 * Exiting Gnus:: Stop reading news and get some work done.
1698 * Group Topics:: A folding group mode divided into topics.
1699 * Misc Group Stuff:: Other stuff that you can to do.
1703 @node Group Buffer Format
1704 @section Group Buffer Format
1707 * Group Line Specification:: Deciding how the group buffer is to look.
1708 * Group Mode Line Specification:: The group buffer mode line.
1709 * Group Highlighting:: Having nice colors in the group buffer.
1713 @node Group Line Specification
1714 @subsection Group Line Specification
1715 @cindex group buffer format
1717 The default format of the group buffer is nice and dull, but you can
1718 make it as exciting and ugly as you feel like.
1720 Here's a couple of example group lines:
1723 25: news.announce.newusers
1724 * 0: alt.fan.andrea-dworkin
1729 You can see that there are 25 unread articles in
1730 @samp{news.announce.newusers}. There are no unread articles, but some
1731 ticked articles, in @samp{alt.fan.andrea-dworkin} (see that little
1732 asterisk at the beginning of the line?).
1734 @vindex gnus-group-line-format
1735 You can change that format to whatever you want by fiddling with the
1736 @code{gnus-group-line-format} variable. This variable works along the
1737 lines of a @code{format} specification, which is pretty much the same as
1738 a @code{printf} specifications, for those of you who use (feh!) C.
1739 @xref{Formatting Variables}.
1741 @samp{%M%S%5y:%B%(%g%)\n} is the value that produced those lines above.
1743 There should always be a colon on the line; the cursor always moves to
1744 the colon after performing an operation. @xref{Positioning
1745 Point}. Nothing else is required---not even the group name. All
1746 displayed text is just window dressing, and is never examined by Gnus.
1747 Gnus stores all real information it needs using text properties.
1749 (Note that if you make a really strange, wonderful, spreadsheet-like
1750 layout, everybody will believe you are hard at work with the accounting
1751 instead of wasting time reading news.)
1753 Here's a list of all available format characters:
1758 An asterisk if the group only has marked articles.
1761 Whether the group is subscribed.
1764 Level of subscribedness.
1767 Number of unread articles.
1770 Number of dormant articles.
1773 Number of ticked articles.
1776 Number of read articles.
1779 Number of unseen articles.
1782 Estimated total number of articles. (This is really @var{max-number}
1783 minus @var{min-number} plus 1.)
1785 Gnus uses this estimation because the @acronym{NNTP} protocol provides
1786 efficient access to @var{max-number} and @var{min-number} but getting
1787 the true unread message count is not possible efficiently. For
1788 hysterical raisins, even the mail back ends, where the true number of
1789 unread messages might be available efficiently, use the same limited
1790 interface. To remove this restriction from Gnus means that the back
1791 end interface has to be changed, which is not an easy job. If you
1792 want to work on this, please contact the Gnus mailing list.
1795 Number of unread, unticked, non-dormant articles.
1798 Number of ticked and dormant articles.
1807 Group comment (@pxref{Group Parameters}) or group name if there is no
1808 comment element in the group parameters.
1811 Newsgroup description. You need to read the group descriptions
1812 before these will appear, and to do that, you either have to set
1813 @code{gnus-read-active-file} or use the group buffer @kbd{M-d}
1817 @samp{m} if moderated.
1820 @samp{(m)} if moderated.
1826 If the summary buffer for the group is open or not.
1832 A string that looks like @samp{<%s:%n>} if a foreign select method is
1836 Indentation based on the level of the topic (@pxref{Group Topics}).
1839 @vindex gnus-group-uncollapsed-levels
1840 Short (collapsed) group name. The @code{gnus-group-uncollapsed-levels}
1841 variable says how many levels to leave at the end of the group name.
1842 The default is 1---this will mean that group names like
1843 @samp{gnu.emacs.gnus} will be shortened to @samp{g.e.gnus}.
1846 @vindex gnus-new-mail-mark
1848 @samp{%} (@code{gnus-new-mail-mark}) if there has arrived new mail to
1852 @samp{#} (@code{gnus-process-mark}) if the group is process marked.
1855 A string that says when you last read the group (@pxref{Group
1859 User defined specifier. The next character in the format string should
1860 be a letter. Gnus will call the function
1861 @code{gnus-user-format-function-}@samp{X}, where @samp{X} is the letter
1862 following @samp{%u}. The function will be passed a single dummy
1863 parameter as argument. The function should return a string, which will
1864 be inserted into the buffer just like information from any other
1869 All the ``number-of'' specs will be filled with an asterisk (@samp{*})
1870 if no info is available---for instance, if it is a non-activated foreign
1871 group, or a bogus native group.
1874 @node Group Mode Line Specification
1875 @subsection Group Mode Line Specification
1876 @cindex group mode line
1878 @vindex gnus-group-mode-line-format
1879 The mode line can be changed by setting
1880 @code{gnus-group-mode-line-format} (@pxref{Mode Line Formatting}). It
1881 doesn't understand that many format specifiers:
1885 The native news server.
1887 The native select method.
1891 @node Group Highlighting
1892 @subsection Group Highlighting
1893 @cindex highlighting
1894 @cindex group highlighting
1896 @vindex gnus-group-highlight
1897 Highlighting in the group buffer is controlled by the
1898 @code{gnus-group-highlight} variable. This is an alist with elements
1899 that look like @code{(@var{form} . @var{face})}. If @var{form} evaluates to
1900 something non-@code{nil}, the @var{face} will be used on the line.
1902 Here's an example value for this variable that might look nice if the
1906 (cond (window-system
1907 (setq custom-background-mode 'light)
1908 (defface my-group-face-1
1909 '((t (:foreground "Red" :bold t))) "First group face")
1910 (defface my-group-face-2
1911 '((t (:foreground "DarkSeaGreen4" :bold t)))
1912 "Second group face")
1913 (defface my-group-face-3
1914 '((t (:foreground "Green4" :bold t))) "Third group face")
1915 (defface my-group-face-4
1916 '((t (:foreground "SteelBlue" :bold t))) "Fourth group face")
1917 (defface my-group-face-5
1918 '((t (:foreground "Blue" :bold t))) "Fifth group face")))
1920 (setq gnus-group-highlight
1921 '(((> unread 200) . my-group-face-1)
1922 ((and (< level 3) (zerop unread)) . my-group-face-2)
1923 ((< level 3) . my-group-face-3)
1924 ((zerop unread) . my-group-face-4)
1925 (t . my-group-face-5)))
1928 Also @pxref{Faces and Fonts}.
1930 Variables that are dynamically bound when the forms are evaluated
1937 The number of unread articles in the group.
1941 Whether the group is a mail group.
1943 The level of the group.
1945 The score of the group.
1947 The number of ticked articles in the group.
1949 The total number of articles in the group. Or rather,
1950 @var{max-number} minus @var{min-number} plus one.
1952 When using the topic minor mode, this variable is bound to the current
1953 topic being inserted.
1956 When the forms are @code{eval}ed, point is at the beginning of the line
1957 of the group in question, so you can use many of the normal Gnus
1958 functions for snarfing info on the group.
1960 @vindex gnus-group-update-hook
1961 @findex gnus-group-highlight-line
1962 @code{gnus-group-update-hook} is called when a group line is changed.
1963 It will not be called when @code{gnus-visual} is @code{nil}. This hook
1964 calls @code{gnus-group-highlight-line} by default.
1967 @node Group Maneuvering
1968 @section Group Maneuvering
1969 @cindex group movement
1971 All movement commands understand the numeric prefix and will behave as
1972 expected, hopefully.
1978 @findex gnus-group-next-unread-group
1979 Go to the next group that has unread articles
1980 (@code{gnus-group-next-unread-group}).
1986 @findex gnus-group-prev-unread-group
1987 Go to the previous group that has unread articles
1988 (@code{gnus-group-prev-unread-group}).
1992 @findex gnus-group-next-group
1993 Go to the next group (@code{gnus-group-next-group}).
1997 @findex gnus-group-prev-group
1998 Go to the previous group (@code{gnus-group-prev-group}).
2002 @findex gnus-group-next-unread-group-same-level
2003 Go to the next unread group on the same (or lower) level
2004 (@code{gnus-group-next-unread-group-same-level}).
2008 @findex gnus-group-prev-unread-group-same-level
2009 Go to the previous unread group on the same (or lower) level
2010 (@code{gnus-group-prev-unread-group-same-level}).
2013 Three commands for jumping to groups:
2019 @findex gnus-group-jump-to-group
2020 Jump to a group (and make it visible if it isn't already)
2021 (@code{gnus-group-jump-to-group}). Killed groups can be jumped to, just
2026 @findex gnus-group-best-unread-group
2027 Jump to the unread group with the lowest level
2028 (@code{gnus-group-best-unread-group}).
2032 @findex gnus-group-first-unread-group
2033 Jump to the first group with unread articles
2034 (@code{gnus-group-first-unread-group}).
2037 @vindex gnus-group-goto-unread
2038 If @code{gnus-group-goto-unread} is @code{nil}, all the movement
2039 commands will move to the next group, not the next unread group. Even
2040 the commands that say they move to the next unread group. The default
2044 @node Selecting a Group
2045 @section Selecting a Group
2046 @cindex group selection
2051 @kindex SPACE (Group)
2052 @findex gnus-group-read-group
2053 Select the current group, switch to the summary buffer and display the
2054 first unread article (@code{gnus-group-read-group}). If there are no
2055 unread articles in the group, or if you give a non-numerical prefix to
2056 this command, Gnus will offer to fetch all the old articles in this
2057 group from the server. If you give a numerical prefix @var{n}, @var{n}
2058 determines the number of articles Gnus will fetch. If @var{n} is
2059 positive, Gnus fetches the @var{n} newest articles, if @var{n} is
2060 negative, Gnus fetches the @code{abs(@var{n})} oldest articles.
2062 Thus, @kbd{SPC} enters the group normally, @kbd{C-u SPC} offers old
2063 articles, @kbd{C-u 4 2 SPC} fetches the 42 newest articles, and @kbd{C-u
2064 - 4 2 SPC} fetches the 42 oldest ones.
2066 When you are in the group (in the Summary buffer), you can type
2067 @kbd{M-g} to fetch new articles, or @kbd{C-u M-g} to also show the old
2072 @findex gnus-group-select-group
2073 Select the current group and switch to the summary buffer
2074 (@code{gnus-group-select-group}). Takes the same arguments as
2075 @code{gnus-group-read-group}---the only difference is that this command
2076 does not display the first unread article automatically upon group
2080 @kindex M-RET (Group)
2081 @findex gnus-group-quick-select-group
2082 This does the same as the command above, but tries to do it with the
2083 minimum amount of fuzz (@code{gnus-group-quick-select-group}). No
2084 scoring/killing will be performed, there will be no highlights and no
2085 expunging. This might be useful if you're in a real hurry and have to
2086 enter some humongous group. If you give a 0 prefix to this command
2087 (i.e., @kbd{0 M-RET}), Gnus won't even generate the summary buffer,
2088 which is useful if you want to toggle threading before generating the
2089 summary buffer (@pxref{Summary Generation Commands}).
2092 @kindex M-SPACE (Group)
2093 @findex gnus-group-visible-select-group
2094 This is yet one more command that does the same as the @kbd{RET}
2095 command, but this one does it without expunging and hiding dormants
2096 (@code{gnus-group-visible-select-group}).
2099 @kindex C-M-RET (Group)
2100 @findex gnus-group-select-group-ephemerally
2101 Finally, this command selects the current group ephemerally without
2102 doing any processing of its contents
2103 (@code{gnus-group-select-group-ephemerally}). Even threading has been
2104 turned off. Everything you do in the group after selecting it in this
2105 manner will have no permanent effects.
2109 @vindex gnus-large-newsgroup
2110 The @code{gnus-large-newsgroup} variable says what Gnus should
2111 consider to be a big group. If it is @code{nil}, no groups are
2112 considered big. The default value is 200. If the group has more
2113 (unread and/or ticked) articles than this, Gnus will query the user
2114 before entering the group. The user can then specify how many
2115 articles should be fetched from the server. If the user specifies a
2116 negative number (@var{-n}), the @var{n} oldest articles will be
2117 fetched. If it is positive, the @var{n} articles that have arrived
2118 most recently will be fetched.
2120 @vindex gnus-large-ephemeral-newsgroup
2121 @code{gnus-large-ephemeral-newsgroup} is the same as
2122 @code{gnus-large-newsgroup}, but is only used for ephemeral
2125 @vindex gnus-select-group-hook
2126 @vindex gnus-auto-select-first
2127 @vindex gnus-auto-select-subject
2128 If @code{gnus-auto-select-first} is non-@code{nil}, select an article
2129 automatically when entering a group with the @kbd{SPACE} command.
2130 Which article this is is controlled by the
2131 @code{gnus-auto-select-subject} variable. Valid values for this
2137 Place point on the subject line of the first unread article.
2140 Place point on the subject line of the first article.
2143 Place point on the subject line of the first unseen article.
2145 @item unseen-or-unread
2146 Place point on the subject line of the first unseen article, and if
2147 there is no such article, place point on the subject line of the first
2151 Place point on the subject line of the highest-scored unread article.
2155 This variable can also be a function. In that case, that function
2156 will be called to place point on a subject line.
2158 If you want to prevent automatic selection in some group (say, in a
2159 binary group with Huge articles) you can set the
2160 @code{gnus-auto-select-first} variable to @code{nil} in
2161 @code{gnus-select-group-hook}, which is called when a group is
2165 @node Subscription Commands
2166 @section Subscription Commands
2167 @cindex subscription
2175 @findex gnus-group-unsubscribe-current-group
2176 @c @icon{gnus-group-unsubscribe}
2177 Toggle subscription to the current group
2178 (@code{gnus-group-unsubscribe-current-group}).
2184 @findex gnus-group-unsubscribe-group
2185 Prompt for a group to subscribe, and then subscribe it. If it was
2186 subscribed already, unsubscribe it instead
2187 (@code{gnus-group-unsubscribe-group}).
2193 @findex gnus-group-kill-group
2194 @c @icon{gnus-group-kill-group}
2195 Kill the current group (@code{gnus-group-kill-group}).
2201 @findex gnus-group-yank-group
2202 Yank the last killed group (@code{gnus-group-yank-group}).
2205 @kindex C-x C-t (Group)
2206 @findex gnus-group-transpose-groups
2207 Transpose two groups (@code{gnus-group-transpose-groups}). This isn't
2208 really a subscription command, but you can use it instead of a
2209 kill-and-yank sequence sometimes.
2215 @findex gnus-group-kill-region
2216 Kill all groups in the region (@code{gnus-group-kill-region}).
2220 @findex gnus-group-kill-all-zombies
2221 Kill all zombie groups (@code{gnus-group-kill-all-zombies}).
2224 @kindex S C-k (Group)
2225 @findex gnus-group-kill-level
2226 Kill all groups on a certain level (@code{gnus-group-kill-level}).
2227 These groups can't be yanked back after killing, so this command should
2228 be used with some caution. The only time where this command comes in
2229 really handy is when you have a @file{.newsrc} with lots of unsubscribed
2230 groups that you want to get rid off. @kbd{S C-k} on level 7 will
2231 kill off all unsubscribed groups that do not have message numbers in the
2232 @file{.newsrc} file.
2236 Also @pxref{Group Levels}.
2246 @findex gnus-group-catchup-current
2247 @vindex gnus-group-catchup-group-hook
2248 @c @icon{gnus-group-catchup-current}
2249 Mark all unticked articles in this group as read
2250 (@code{gnus-group-catchup-current}).
2251 @code{gnus-group-catchup-group-hook} is called when catching up a group from
2256 @findex gnus-group-catchup-current-all
2257 Mark all articles in this group, even the ticked ones, as read
2258 (@code{gnus-group-catchup-current-all}).
2262 @findex gnus-group-clear-data
2263 Clear the data from the current group---nix out marks and the list of
2264 read articles (@code{gnus-group-clear-data}).
2266 @item M-x gnus-group-clear-data-on-native-groups
2267 @kindex M-x gnus-group-clear-data-on-native-groups
2268 @findex gnus-group-clear-data-on-native-groups
2269 If you have switched from one @acronym{NNTP} server to another, all your marks
2270 and read ranges have become worthless. You can use this command to
2271 clear out all data that you have on your native groups. Use with
2278 @section Group Levels
2282 All groups have a level of @dfn{subscribedness}. For instance, if a
2283 group is on level 2, it is more subscribed than a group on level 5. You
2284 can ask Gnus to just list groups on a given level or lower
2285 (@pxref{Listing Groups}), or to just check for new articles in groups on
2286 a given level or lower (@pxref{Scanning New Messages}).
2288 Remember: The higher the level of the group, the less important it is.
2294 @findex gnus-group-set-current-level
2295 Set the level of the current group. If a numeric prefix is given, the
2296 next @var{n} groups will have their levels set. The user will be
2297 prompted for a level.
2300 @vindex gnus-level-killed
2301 @vindex gnus-level-zombie
2302 @vindex gnus-level-unsubscribed
2303 @vindex gnus-level-subscribed
2304 Gnus considers groups from levels 1 to
2305 @code{gnus-level-subscribed} (inclusive) (default 5) to be subscribed,
2306 @code{gnus-level-subscribed} (exclusive) and
2307 @code{gnus-level-unsubscribed} (inclusive) (default 7) to be
2308 unsubscribed, @code{gnus-level-zombie} to be zombies (walking dead)
2309 (default 8) and @code{gnus-level-killed} to be killed (completely dead)
2310 (default 9). Gnus treats subscribed and unsubscribed groups exactly the
2311 same, but zombie and killed groups have no information on what articles
2312 you have read, etc, stored. This distinction between dead and living
2313 groups isn't done because it is nice or clever, it is done purely for
2314 reasons of efficiency.
2316 It is recommended that you keep all your mail groups (if any) on quite
2317 low levels (e.g. 1 or 2).
2319 Maybe the following description of the default behavior of Gnus helps to
2320 understand what these levels are all about. By default, Gnus shows you
2321 subscribed nonempty groups, but by hitting @kbd{L} you can have it show
2322 empty subscribed groups and unsubscribed groups, too. Type @kbd{l} to
2323 go back to showing nonempty subscribed groups again. Thus, unsubscribed
2324 groups are hidden, in a way.
2326 Zombie and killed groups are similar to unsubscribed groups in that they
2327 are hidden by default. But they are different from subscribed and
2328 unsubscribed groups in that Gnus doesn't ask the news server for
2329 information (number of messages, number of unread messages) on zombie
2330 and killed groups. Normally, you use @kbd{C-k} to kill the groups you
2331 aren't interested in. If most groups are killed, Gnus is faster.
2333 Why does Gnus distinguish between zombie and killed groups? Well, when
2334 a new group arrives on the server, Gnus by default makes it a zombie
2335 group. This means that you are normally not bothered with new groups,
2336 but you can type @kbd{A z} to get a list of all new groups. Subscribe
2337 the ones you like and kill the ones you don't want. (@kbd{A k} shows a
2338 list of killed groups.)
2340 If you want to play with the level variables, you should show some care.
2341 Set them once, and don't touch them ever again. Better yet, don't touch
2342 them at all unless you know exactly what you're doing.
2344 @vindex gnus-level-default-unsubscribed
2345 @vindex gnus-level-default-subscribed
2346 Two closely related variables are @code{gnus-level-default-subscribed}
2347 (default 3) and @code{gnus-level-default-unsubscribed} (default 6),
2348 which are the levels that new groups will be put on if they are
2349 (un)subscribed. These two variables should, of course, be inside the
2350 relevant valid ranges.
2352 @vindex gnus-keep-same-level
2353 If @code{gnus-keep-same-level} is non-@code{nil}, some movement commands
2354 will only move to groups of the same level (or lower). In
2355 particular, going from the last article in one group to the next group
2356 will go to the next group of the same level (or lower). This might be
2357 handy if you want to read the most important groups before you read the
2360 If this variable is @code{best}, Gnus will make the next newsgroup the
2361 one with the best level.
2363 @vindex gnus-group-default-list-level
2364 All groups with a level less than or equal to
2365 @code{gnus-group-default-list-level} will be listed in the group buffer
2368 @vindex gnus-group-list-inactive-groups
2369 If @code{gnus-group-list-inactive-groups} is non-@code{nil}, non-active
2370 groups will be listed along with the unread groups. This variable is
2371 @code{t} by default. If it is @code{nil}, inactive groups won't be
2374 @vindex gnus-group-use-permanent-levels
2375 If @code{gnus-group-use-permanent-levels} is non-@code{nil}, once you
2376 give a level prefix to @kbd{g} or @kbd{l}, all subsequent commands will
2377 use this level as the ``work'' level.
2379 @vindex gnus-activate-level
2380 Gnus will normally just activate (i. e., query the server about) groups
2381 on level @code{gnus-activate-level} or less. If you don't want to
2382 activate unsubscribed groups, for instance, you might set this variable
2383 to 5. The default is 6.
2387 @section Group Score
2392 You would normally keep important groups on high levels, but that scheme
2393 is somewhat restrictive. Don't you wish you could have Gnus sort the
2394 group buffer according to how often you read groups, perhaps? Within
2397 This is what @dfn{group score} is for. You can have Gnus assign a score
2398 to each group through the mechanism described below. You can then sort
2399 the group buffer based on this score. Alternatively, you can sort on
2400 score and then level. (Taken together, the level and the score is
2401 called the @dfn{rank} of the group. A group that is on level 4 and has
2402 a score of 1 has a higher rank than a group on level 5 that has a score
2403 of 300. (The level is the most significant part and the score is the
2404 least significant part.))
2406 @findex gnus-summary-bubble-group
2407 If you want groups you read often to get higher scores than groups you
2408 read seldom you can add the @code{gnus-summary-bubble-group} function to
2409 the @code{gnus-summary-exit-hook} hook. This will result (after
2410 sorting) in a bubbling sort of action. If you want to see that in
2411 action after each summary exit, you can add
2412 @code{gnus-group-sort-groups-by-rank} or
2413 @code{gnus-group-sort-groups-by-score} to the same hook, but that will
2414 slow things down somewhat.
2417 @node Marking Groups
2418 @section Marking Groups
2419 @cindex marking groups
2421 If you want to perform some command on several groups, and they appear
2422 subsequently in the group buffer, you would normally just give a
2423 numerical prefix to the command. Most group commands will then do your
2424 bidding on those groups.
2426 However, if the groups are not in sequential order, you can still
2427 perform a command on several groups. You simply mark the groups first
2428 with the process mark and then execute the command.
2436 @findex gnus-group-mark-group
2437 Set the mark on the current group (@code{gnus-group-mark-group}).
2443 @findex gnus-group-unmark-group
2444 Remove the mark from the current group
2445 (@code{gnus-group-unmark-group}).
2449 @findex gnus-group-unmark-all-groups
2450 Remove the mark from all groups (@code{gnus-group-unmark-all-groups}).
2454 @findex gnus-group-mark-region
2455 Mark all groups between point and mark (@code{gnus-group-mark-region}).
2459 @findex gnus-group-mark-buffer
2460 Mark all groups in the buffer (@code{gnus-group-mark-buffer}).
2464 @findex gnus-group-mark-regexp
2465 Mark all groups that match some regular expression
2466 (@code{gnus-group-mark-regexp}).
2469 Also @pxref{Process/Prefix}.
2471 @findex gnus-group-universal-argument
2472 If you want to execute some command on all groups that have been marked
2473 with the process mark, you can use the @kbd{M-&}
2474 (@code{gnus-group-universal-argument}) command. It will prompt you for
2475 the command to be executed.
2478 @node Foreign Groups
2479 @section Foreign Groups
2480 @cindex foreign groups
2482 Below are some group mode commands for making and editing general foreign
2483 groups, as well as commands to ease the creation of a few
2484 special-purpose groups. All these commands insert the newly created
2485 groups under point---@code{gnus-subscribe-newsgroup-method} is not
2492 @findex gnus-group-make-group
2493 @cindex making groups
2494 Make a new group (@code{gnus-group-make-group}). Gnus will prompt you
2495 for a name, a method and possibly an @dfn{address}. For an easier way
2496 to subscribe to @acronym{NNTP} groups (@pxref{Browse Foreign Server}).
2500 @findex gnus-group-read-ephemeral-group
2501 Make an ephemeral group (@code{gnus-group-read-ephemeral-group}). Gnus
2502 will prompt you for a name, a method and an @dfn{address}.
2506 @findex gnus-group-rename-group
2507 @cindex renaming groups
2508 Rename the current group to something else
2509 (@code{gnus-group-rename-group}). This is valid only on some
2510 groups---mail groups mostly. This command might very well be quite slow
2516 @findex gnus-group-customize
2517 Customize the group parameters (@code{gnus-group-customize}).
2521 @findex gnus-group-edit-group-method
2522 @cindex renaming groups
2523 Enter a buffer where you can edit the select method of the current
2524 group (@code{gnus-group-edit-group-method}).
2528 @findex gnus-group-edit-group-parameters
2529 Enter a buffer where you can edit the group parameters
2530 (@code{gnus-group-edit-group-parameters}).
2534 @findex gnus-group-edit-group
2535 Enter a buffer where you can edit the group info
2536 (@code{gnus-group-edit-group}).
2540 @findex gnus-group-make-directory-group
2542 Make a directory group (@pxref{Directory Groups}). You will be prompted
2543 for a directory name (@code{gnus-group-make-directory-group}).
2548 @findex gnus-group-make-help-group
2549 Make the Gnus help group (@code{gnus-group-make-help-group}).
2553 @cindex (ding) archive
2554 @cindex archive group
2555 @findex gnus-group-make-archive-group
2556 @vindex gnus-group-archive-directory
2557 @vindex gnus-group-recent-archive-directory
2558 Make a Gnus archive group (@code{gnus-group-make-archive-group}). By
2559 default a group pointing to the most recent articles will be created
2560 (@code{gnus-group-recent-archive-directory}), but given a prefix, a full
2561 group will be created from @code{gnus-group-archive-directory}.
2565 @findex gnus-group-make-kiboze-group
2567 Make a kiboze group. You will be prompted for a name, for a regexp to
2568 match groups to be ``included'' in the kiboze group, and a series of
2569 strings to match on headers (@code{gnus-group-make-kiboze-group}).
2570 @xref{Kibozed Groups}.
2574 @findex gnus-group-enter-directory
2576 Read an arbitrary directory as if it were a newsgroup with the
2577 @code{nneething} back end (@code{gnus-group-enter-directory}).
2578 @xref{Anything Groups}.
2582 @findex gnus-group-make-doc-group
2583 @cindex ClariNet Briefs
2585 Make a group based on some file or other
2586 (@code{gnus-group-make-doc-group}). If you give a prefix to this
2587 command, you will be prompted for a file name and a file type.
2588 Currently supported types are @code{mbox}, @code{babyl},
2589 @code{digest}, @code{news}, @code{rnews}, @code{mmdf}, @code{forward},
2590 @code{rfc934}, @code{rfc822-forward}, @code{mime-parts},
2591 @code{standard-digest}, @code{slack-digest}, @code{clari-briefs},
2592 @code{nsmail}, @code{outlook}, @code{oe-dbx}, and @code{mailman}. If
2593 you run this command without a prefix, Gnus will guess at the file
2594 type. @xref{Document Groups}.
2598 @vindex gnus-useful-groups
2599 @findex gnus-group-make-useful-group
2600 Create one of the groups mentioned in @code{gnus-useful-groups}
2601 (@code{gnus-group-make-useful-group}).
2605 @findex gnus-group-make-web-group
2609 Make an ephemeral group based on a web search
2610 (@code{gnus-group-make-web-group}). If you give a prefix to this
2611 command, make a solid group instead. You will be prompted for the
2612 search engine type and the search string. Valid search engine types
2613 include @code{google}, @code{dejanews}, and @code{gmane}.
2614 @xref{Web Searches}.
2616 If you use the @code{google} search engine, you can limit the search
2617 to a particular group by using a match string like
2618 @samp{shaving group:alt.sysadmin.recovery}.
2622 @findex gnus-group-make-rss-group
2623 Make a group based on an @acronym{RSS} feed
2624 (@code{gnus-group-make-rss-group}). You will be prompted for an URL.
2628 @kindex G DEL (Group)
2629 @findex gnus-group-delete-group
2630 This function will delete the current group
2631 (@code{gnus-group-delete-group}). If given a prefix, this function will
2632 actually delete all the articles in the group, and forcibly remove the
2633 group itself from the face of the Earth. Use a prefix only if you are
2634 absolutely sure of what you are doing. This command can't be used on
2635 read-only groups (like @code{nntp} groups), though.
2639 @findex gnus-group-make-empty-virtual
2640 Make a new, fresh, empty @code{nnvirtual} group
2641 (@code{gnus-group-make-empty-virtual}). @xref{Virtual Groups}.
2645 @findex gnus-group-add-to-virtual
2646 Add the current group to an @code{nnvirtual} group
2647 (@code{gnus-group-add-to-virtual}). Uses the process/prefix convention.
2650 @xref{Select Methods}, for more information on the various select
2653 @vindex gnus-activate-foreign-newsgroups
2654 If @code{gnus-activate-foreign-newsgroups} is a positive number,
2655 Gnus will check all foreign groups with this level or lower at startup.
2656 This might take quite a while, especially if you subscribe to lots of
2657 groups from different @acronym{NNTP} servers. Also @pxref{Group Levels};
2658 @code{gnus-activate-level} also affects activation of foreign
2662 @node Group Parameters
2663 @section Group Parameters
2664 @cindex group parameters
2666 The group parameters store information local to a particular group.
2667 Here's an example group parameter list:
2670 ((to-address . "ding@@gnus.org")
2674 We see that each element consists of a ``dotted pair''---the thing before
2675 the dot is the key, while the thing after the dot is the value. All the
2676 parameters have this form @emph{except} local variable specs, which are
2677 not dotted pairs, but proper lists.
2679 Some parameters have correspondent customizable variables, each of which
2680 is an alist of regexps and values.
2682 The following group parameters can be used:
2687 Address used by when doing followups and new posts.
2690 (to-address . "some@@where.com")
2693 This is primarily useful in mail groups that represent closed mailing
2694 lists---mailing lists where it's expected that everybody that writes to
2695 the mailing list is subscribed to it. Since using this parameter
2696 ensures that the mail only goes to the mailing list itself, it means
2697 that members won't receive two copies of your followups.
2699 Using @code{to-address} will actually work whether the group is foreign
2700 or not. Let's say there's a group on the server that is called
2701 @samp{fa.4ad-l}. This is a real newsgroup, but the server has gotten
2702 the articles from a mail-to-news gateway. Posting directly to this
2703 group is therefore impossible---you have to send mail to the mailing
2704 list address instead.
2706 See also @code{gnus-parameter-to-address-alist}.
2710 Address used when doing @kbd{a} in that group.
2713 (to-list . "some@@where.com")
2716 It is totally ignored
2717 when doing a followup---except that if it is present in a news group,
2718 you'll get mail group semantics when doing @kbd{f}.
2720 If you do an @kbd{a} command in a mail group and you have neither a
2721 @code{to-list} group parameter nor a @code{to-address} group parameter,
2722 then a @code{to-list} group parameter will be added automatically upon
2723 sending the message if @code{gnus-add-to-list} is set to @code{t}.
2724 @vindex gnus-add-to-list
2726 @findex gnus-mailing-list-mode
2727 @cindex mail list groups
2728 If this variable is set, @code{gnus-mailing-list-mode} is turned on when
2729 entering summary buffer.
2731 See also @code{gnus-parameter-to-list-alist}.
2736 @cindex Mail-Followup-To
2737 @findex gnus-find-subscribed-addresses
2738 If this parameter is set to @code{t}, Gnus will consider the
2739 to-address and to-list parameters for this group as addresses of
2740 mailing lists you are subscribed to. Giving Gnus this information is
2741 (only) a first step in getting it to generate correct Mail-Followup-To
2742 headers for your posts to these lists. The second step is to put the
2743 following in your @file{.gnus.el}
2746 (setq message-subscribed-address-functions
2747 '(gnus-find-subscribed-addresses))
2750 @xref{Mailing Lists, ,Mailing Lists, message, The Message Manual}, for
2751 a complete treatment of available MFT support.
2755 If the group parameter list has the element @code{(visible . t)},
2756 that group will always be visible in the Group buffer, regardless
2757 of whether it has any unread articles.
2759 @item broken-reply-to
2760 @cindex broken-reply-to
2761 Elements like @code{(broken-reply-to . t)} signals that @code{Reply-To}
2762 headers in this group are to be ignored, and for the header to be hidden
2763 if @code{reply-to} is part of @code{gnus-boring-article-headers}. This
2764 can be useful if you're reading a mailing list group where the listserv
2765 has inserted @code{Reply-To} headers that point back to the listserv
2766 itself. That is broken behavior. So there!
2770 Elements like @code{(to-group . "some.group.name")} means that all
2771 posts in that group will be sent to @code{some.group.name}.
2775 If you have @code{(newsgroup . t)} in the group parameter list, Gnus
2776 will treat all responses as if they were responses to news articles.
2777 This can be useful if you have a mail group that's really a mirror of a
2782 If @code{(gcc-self . t)} is present in the group parameter list, newly
2783 composed messages will be @code{Gcc}'d to the current group. If
2784 @code{(gcc-self . none)} is present, no @code{Gcc:} header will be
2785 generated, if @code{(gcc-self . "string")} is present, this string will
2786 be inserted literally as a @code{gcc} header. This parameter takes
2787 precedence over any default @code{Gcc} rules as described later
2788 (@pxref{Archived Messages}).
2790 @strong{Caveat}: Adding @code{(gcc-self . t)} to the parameter list of
2791 @code{nntp} groups (or the like) isn't valid. An @code{nntp} server
2792 doesn't accept articles.
2796 If the group parameter has an element that looks like @code{(auto-expire
2797 . t)}, all articles read will be marked as expirable. For an
2798 alternative approach, @pxref{Expiring Mail}.
2800 See also @code{gnus-auto-expirable-newsgroups}.
2803 @cindex total-expire
2804 If the group parameter has an element that looks like
2805 @code{(total-expire . t)}, all read articles will be put through the
2806 expiry process, even if they are not marked as expirable. Use with
2807 caution. Unread, ticked and dormant articles are not eligible for
2810 See also @code{gnus-total-expirable-newsgroups}.
2814 @vindex nnmail-expiry-wait-function
2815 If the group parameter has an element that looks like
2816 @code{(expiry-wait . 10)}, this value will override any
2817 @code{nnmail-expiry-wait} and @code{nnmail-expiry-wait-function}
2818 (@pxref{Expiring Mail}) when expiring expirable messages. The value
2819 can either be a number of days (not necessarily an integer) or the
2820 symbols @code{never} or @code{immediate}.
2823 @cindex expiry-target
2824 Where expired messages end up. This parameter overrides
2825 @code{nnmail-expiry-target}.
2828 @cindex score file group parameter
2829 Elements that look like @code{(score-file . "file")} will make
2830 @file{file} into the current score file for the group in question. All
2831 interactive score entries will be put into this file.
2834 @cindex adapt file group parameter
2835 Elements that look like @code{(adapt-file . "file")} will make
2836 @file{file} into the current adaptive file for the group in question.
2837 All adaptive score entries will be put into this file.
2840 @cindex admin-address
2841 When unsubscribing from a mailing list you should never send the
2842 unsubscription notice to the mailing list itself. Instead, you'd send
2843 messages to the administrative address. This parameter allows you to
2844 put the admin address somewhere convenient.
2848 Elements that look like @code{(display . MODE)} say which articles to
2849 display on entering the group. Valid values are:
2853 Display all articles, both read and unread.
2856 Display the last @var{integer} articles in the group. This is the same as
2857 entering the group with @kbd{C-u @var{integer}}.
2860 Display the default visible articles, which normally includes unread and
2864 Display articles that satisfy a predicate.
2866 Here are some examples:
2870 Display only unread articles.
2873 Display everything except expirable articles.
2875 @item [and (not reply) (not expire)]
2876 Display everything except expirable and articles you've already
2880 The available operators are @code{not}, @code{and} and @code{or}.
2881 Predicates include @code{tick}, @code{unsend}, @code{undownload},
2882 @code{unread}, @code{dormant}, @code{expire}, @code{reply},
2883 @code{killed}, @code{bookmark}, @code{score}, @code{save},
2884 @code{cache}, @code{forward}, @code{unseen} and @code{recent}.
2888 The @code{display} parameter works by limiting the summary buffer to
2889 the subset specified. You can pop the limit by using the @kbd{/ w}
2890 command (@pxref{Limiting}).
2894 Elements that look like @code{(comment . "This is a comment")} are
2895 arbitrary comments on the group. You can display comments in the
2896 group line (@pxref{Group Line Specification}).
2900 Elements that look like @code{(charset . iso-8859-1)} will make
2901 @code{iso-8859-1} the default charset; that is, the charset that will be
2902 used for all articles that do not specify a charset.
2904 See also @code{gnus-group-charset-alist}.
2906 @item ignored-charsets
2907 @cindex ignored-charset
2908 Elements that look like @code{(ignored-charsets x-unknown iso-8859-1)}
2909 will make @code{iso-8859-1} and @code{x-unknown} ignored; that is, the
2910 default charset will be used for decoding articles.
2912 See also @code{gnus-group-ignored-charsets-alist}.
2915 @cindex posting-style
2916 You can store additional posting style information for this group
2917 here (@pxref{Posting Styles}). The format is that of an entry in the
2918 @code{gnus-posting-styles} alist, except that there's no regexp matching
2919 the group name (of course). Style elements in this group parameter will
2920 take precedence over the ones found in @code{gnus-posting-styles}.
2922 For instance, if you want a funky name and signature in this group only,
2923 instead of hacking @code{gnus-posting-styles}, you could put something
2924 like this in the group parameters:
2929 ("X-My-Header" "Funky Value")
2930 (signature "Funky Signature"))
2935 If it is set, the value is used as the method for posting message
2936 instead of @code{gnus-post-method}.
2940 An item like @code{(banner . @var{regexp})} causes any part of an article
2941 that matches the regular expression @var{regexp} to be stripped. Instead of
2942 @var{regexp}, you can also use the symbol @code{signature} which strips the
2943 last signature or any of the elements of the alist
2944 @code{gnus-article-banner-alist}.
2948 This parameter contains a Sieve test that should match incoming mail
2949 that should be placed in this group. From this group parameter, a
2950 Sieve @samp{IF} control structure is generated, having the test as the
2951 condition and @samp{fileinto "group.name";} as the body.
2953 For example, if the @samp{INBOX.list.sieve} group has the @code{(sieve
2954 address "sender" "sieve-admin@@extundo.com")} group parameter, when
2955 translating the group parameter into a Sieve script (@pxref{Sieve
2956 Commands}) the following Sieve code is generated:
2959 if address \"sender\" \"sieve-admin@@extundo.com\" @{
2960 fileinto \"INBOX.list.sieve\";
2964 The Sieve language is described in RFC 3028. @xref{Top, Emacs Sieve,
2965 Top, sieve, Emacs Sieve}.
2967 @item (agent parameters)
2968 If the agent has been enabled, you can set any of the its parameters
2969 to control the behavior of the agent in individual groups. See Agent
2970 Parameters in @ref{Category Syntax}. Most users will choose to set
2971 agent parameters in either an agent category or group topic to
2972 minimize the configuration effort.
2974 @item (@var{variable} @var{form})
2975 You can use the group parameters to set variables local to the group you
2976 are entering. If you want to turn threading off in @samp{news.answers},
2977 you could put @code{(gnus-show-threads nil)} in the group parameters of
2978 that group. @code{gnus-show-threads} will be made into a local variable
2979 in the summary buffer you enter, and the form @code{nil} will be
2980 @code{eval}ed there.
2982 Note that this feature sets the variable locally to the summary buffer.
2983 But some variables are evaluated in the article buffer, or in the
2984 message buffer (of a reply or followup or otherwise newly created
2985 message). As a workaround, it might help to add the variable in
2986 question to @code{gnus-newsgroup-variables}. @xref{Various Summary
2987 Stuff}. So if you want to set @code{message-from-style} via the group
2988 parameters, then you may need the following statement elsewhere in your
2989 @file{~/.gnus} file:
2992 (add-to-list 'gnus-newsgroup-variables 'message-from-style)
2995 @vindex gnus-list-identifiers
2996 A use for this feature is to remove a mailing list identifier tag in
2997 the subject fields of articles. E.g. if the news group
3000 nntp+news.gnus.org:gmane.text.docbook.apps
3003 has the tag @samp{DOC-BOOK-APPS:} in the subject of all articles, this
3004 tag can be removed from the article subjects in the summary buffer for
3005 the group by putting @code{(gnus-list-identifiers "DOCBOOK-APPS:")}
3006 into the group parameters for the group.
3008 This can also be used as a group-specific hook function. If you want to
3009 hear a beep when you enter a group, you could put something like
3010 @code{(dummy-variable (ding))} in the parameters of that group.
3011 @code{dummy-variable} will be set to the (meaningless) result of the
3014 Alternatively, since the VARIABLE becomes local to the group, this
3015 pattern can be used to temporarily change a hook. For example, if the
3016 following is added to a group parameter
3019 (gnus-summary-prepared-hook
3020 '(lambda nil (local-set-key "d" (local-key-binding "n"))))
3023 when the group is entered, the 'd' key will not mark the article as
3028 Use the @kbd{G p} or the @kbd{G c} command to edit group parameters of a
3029 group. (@kbd{G p} presents you with a Lisp-based interface, @kbd{G c}
3030 presents you with a Customize-like interface. The latter helps avoid
3031 silly Lisp errors.) You might also be interested in reading about topic
3032 parameters (@pxref{Topic Parameters}).
3034 @vindex gnus-parameters
3035 Group parameters can be set via the @code{gnus-parameters} variable too.
3036 But some variables, such as @code{visible}, have no effect. For
3040 (setq gnus-parameters
3042 (gnus-show-threads nil)
3043 (gnus-use-scoring nil)
3044 (gnus-summary-line-format
3045 "%U%R%z%I%(%[%d:%ub%-23,23f%]%) %s\n")
3049 ("^nnimap:\\(foo.bar\\)$"
3053 (gnus-use-scoring t))
3057 (broken-reply-to . t))))
3060 String value of parameters will be subjected to regexp substitution, as
3061 the @code{to-group} example shows.
3063 @vindex gnus-parameters-case-fold-search
3064 By default, whether comparing the group name and one of those regexps
3065 specified in @code{gnus-parameters} is done in a case-sensitive manner
3066 or a case-insensitive manner depends on the value of
3067 @code{case-fold-search} at the time when the comparison is done. The
3068 value of @code{case-fold-search} is typically @code{t}; it means, for
3069 example, the element @code{("INBOX\\.FOO" (total-expire . t))} might be
3070 applied to both the @samp{INBOX.FOO} group and the @samp{INBOX.foo}
3071 group. If you want to make those regexps always case-sensitive, set the
3072 value of the @code{gnus-parameters-case-fold-search} variable to
3073 @code{nil}. Otherwise, set it to @code{t} if you want to compare them
3074 always in a case-insensitive manner.
3077 @node Listing Groups
3078 @section Listing Groups
3079 @cindex group listing
3081 These commands all list various slices of the groups available.
3089 @findex gnus-group-list-groups
3090 List all groups that have unread articles
3091 (@code{gnus-group-list-groups}). If the numeric prefix is used, this
3092 command will list only groups of level ARG and lower. By default, it
3093 only lists groups of level five (i.e.,
3094 @code{gnus-group-default-list-level}) or lower (i.e., just subscribed
3101 @findex gnus-group-list-all-groups
3102 List all groups, whether they have unread articles or not
3103 (@code{gnus-group-list-all-groups}). If the numeric prefix is used,
3104 this command will list only groups of level ARG and lower. By default,
3105 it lists groups of level seven or lower (i.e., just subscribed and
3106 unsubscribed groups).
3110 @findex gnus-group-list-level
3111 List all unread groups on a specific level
3112 (@code{gnus-group-list-level}). If given a prefix, also list the groups
3113 with no unread articles.
3117 @findex gnus-group-list-killed
3118 List all killed groups (@code{gnus-group-list-killed}). If given a
3119 prefix argument, really list all groups that are available, but aren't
3120 currently (un)subscribed. This could entail reading the active file
3125 @findex gnus-group-list-zombies
3126 List all zombie groups (@code{gnus-group-list-zombies}).
3130 @findex gnus-group-list-matching
3131 List all unread, subscribed groups with names that match a regexp
3132 (@code{gnus-group-list-matching}).
3136 @findex gnus-group-list-all-matching
3137 List groups that match a regexp (@code{gnus-group-list-all-matching}).
3141 @findex gnus-group-list-active
3142 List absolutely all groups in the active file(s) of the
3143 server(s) you are connected to (@code{gnus-group-list-active}). This
3144 might very well take quite a while. It might actually be a better idea
3145 to do a @kbd{A M} to list all matching, and just give @samp{.} as the
3146 thing to match on. Also note that this command may list groups that
3147 don't exist (yet)---these will be listed as if they were killed groups.
3148 Take the output with some grains of salt.
3152 @findex gnus-group-apropos
3153 List all groups that have names that match a regexp
3154 (@code{gnus-group-apropos}).
3158 @findex gnus-group-description-apropos
3159 List all groups that have names or descriptions that match a regexp
3160 (@code{gnus-group-description-apropos}).
3164 @findex gnus-group-list-cached
3165 List all groups with cached articles (@code{gnus-group-list-cached}).
3169 @findex gnus-group-list-dormant
3170 List all groups with dormant articles (@code{gnus-group-list-dormant}).
3174 @findex gnus-group-list-limit
3175 List groups limited within the current selection
3176 (@code{gnus-group-list-limit}).
3180 @findex gnus-group-list-flush
3181 Flush groups from the current selection (@code{gnus-group-list-flush}).
3185 @findex gnus-group-list-plus
3186 List groups plus the current selection (@code{gnus-group-list-plus}).
3190 @vindex gnus-permanently-visible-groups
3191 @cindex visible group parameter
3192 Groups that match the @code{gnus-permanently-visible-groups} regexp will
3193 always be shown, whether they have unread articles or not. You can also
3194 add the @code{visible} element to the group parameters in question to
3195 get the same effect.
3197 @vindex gnus-list-groups-with-ticked-articles
3198 Groups that have just ticked articles in it are normally listed in the
3199 group buffer. If @code{gnus-list-groups-with-ticked-articles} is
3200 @code{nil}, these groups will be treated just like totally empty
3201 groups. It is @code{t} by default.
3204 @node Sorting Groups
3205 @section Sorting Groups
3206 @cindex sorting groups
3208 @kindex C-c C-s (Group)
3209 @findex gnus-group-sort-groups
3210 @vindex gnus-group-sort-function
3211 The @kbd{C-c C-s} (@code{gnus-group-sort-groups}) command sorts the
3212 group buffer according to the function(s) given by the
3213 @code{gnus-group-sort-function} variable. Available sorting functions
3218 @item gnus-group-sort-by-alphabet
3219 @findex gnus-group-sort-by-alphabet
3220 Sort the group names alphabetically. This is the default.
3222 @item gnus-group-sort-by-real-name
3223 @findex gnus-group-sort-by-real-name
3224 Sort the group alphabetically on the real (unprefixed) group names.
3226 @item gnus-group-sort-by-level
3227 @findex gnus-group-sort-by-level
3228 Sort by group level.
3230 @item gnus-group-sort-by-score
3231 @findex gnus-group-sort-by-score
3232 Sort by group score. @xref{Group Score}.
3234 @item gnus-group-sort-by-rank
3235 @findex gnus-group-sort-by-rank
3236 Sort by group score and then the group level. The level and the score
3237 are, when taken together, the group's @dfn{rank}. @xref{Group Score}.
3239 @item gnus-group-sort-by-unread
3240 @findex gnus-group-sort-by-unread
3241 Sort by number of unread articles.
3243 @item gnus-group-sort-by-method
3244 @findex gnus-group-sort-by-method
3245 Sort alphabetically on the select method.
3247 @item gnus-group-sort-by-server
3248 @findex gnus-group-sort-by-server
3249 Sort alphabetically on the Gnus server name.
3254 @code{gnus-group-sort-function} can also be a list of sorting
3255 functions. In that case, the most significant sort key function must be
3259 There are also a number of commands for sorting directly according to
3260 some sorting criteria:
3264 @kindex G S a (Group)
3265 @findex gnus-group-sort-groups-by-alphabet
3266 Sort the group buffer alphabetically by group name
3267 (@code{gnus-group-sort-groups-by-alphabet}).
3270 @kindex G S u (Group)
3271 @findex gnus-group-sort-groups-by-unread
3272 Sort the group buffer by the number of unread articles
3273 (@code{gnus-group-sort-groups-by-unread}).
3276 @kindex G S l (Group)
3277 @findex gnus-group-sort-groups-by-level
3278 Sort the group buffer by group level
3279 (@code{gnus-group-sort-groups-by-level}).
3282 @kindex G S v (Group)
3283 @findex gnus-group-sort-groups-by-score
3284 Sort the group buffer by group score
3285 (@code{gnus-group-sort-groups-by-score}). @xref{Group Score}.
3288 @kindex G S r (Group)
3289 @findex gnus-group-sort-groups-by-rank
3290 Sort the group buffer by group rank
3291 (@code{gnus-group-sort-groups-by-rank}). @xref{Group Score}.
3294 @kindex G S m (Group)
3295 @findex gnus-group-sort-groups-by-method
3296 Sort the group buffer alphabetically by back end name@*
3297 (@code{gnus-group-sort-groups-by-method}).
3300 @kindex G S n (Group)
3301 @findex gnus-group-sort-groups-by-real-name
3302 Sort the group buffer alphabetically by real (unprefixed) group name
3303 (@code{gnus-group-sort-groups-by-real-name}).
3307 All the commands below obey the process/prefix convention
3308 (@pxref{Process/Prefix}).
3310 When given a symbolic prefix (@pxref{Symbolic Prefixes}), all these
3311 commands will sort in reverse order.
3313 You can also sort a subset of the groups:
3317 @kindex G P a (Group)
3318 @findex gnus-group-sort-selected-groups-by-alphabet
3319 Sort the groups alphabetically by group name
3320 (@code{gnus-group-sort-selected-groups-by-alphabet}).
3323 @kindex G P u (Group)
3324 @findex gnus-group-sort-selected-groups-by-unread
3325 Sort the groups by the number of unread articles
3326 (@code{gnus-group-sort-selected-groups-by-unread}).
3329 @kindex G P l (Group)
3330 @findex gnus-group-sort-selected-groups-by-level
3331 Sort the groups by group level
3332 (@code{gnus-group-sort-selected-groups-by-level}).
3335 @kindex G P v (Group)
3336 @findex gnus-group-sort-selected-groups-by-score
3337 Sort the groups by group score
3338 (@code{gnus-group-sort-selected-groups-by-score}). @xref{Group Score}.
3341 @kindex G P r (Group)
3342 @findex gnus-group-sort-selected-groups-by-rank
3343 Sort the groups by group rank
3344 (@code{gnus-group-sort-selected-groups-by-rank}). @xref{Group Score}.
3347 @kindex G P m (Group)
3348 @findex gnus-group-sort-selected-groups-by-method
3349 Sort the groups alphabetically by back end name@*
3350 (@code{gnus-group-sort-selected-groups-by-method}).
3353 @kindex G P n (Group)
3354 @findex gnus-group-sort-selected-groups-by-real-name
3355 Sort the groups alphabetically by real (unprefixed) group name
3356 (@code{gnus-group-sort-selected-groups-by-real-name}).
3359 @kindex G P s (Group)
3360 @findex gnus-group-sort-selected-groups
3361 Sort the groups according to @code{gnus-group-sort-function}.
3365 And finally, note that you can use @kbd{C-k} and @kbd{C-y} to manually
3369 @node Group Maintenance
3370 @section Group Maintenance
3371 @cindex bogus groups
3376 @findex gnus-group-check-bogus-groups
3377 Find bogus groups and delete them
3378 (@code{gnus-group-check-bogus-groups}).
3382 @findex gnus-group-find-new-groups
3383 Find new groups and process them (@code{gnus-group-find-new-groups}).
3384 With 1 @kbd{C-u}, use the @code{ask-server} method to query the server
3385 for new groups. With 2 @kbd{C-u}'s, use most complete method possible
3386 to query the server for new groups, and subscribe the new groups as
3390 @kindex C-c C-x (Group)
3391 @findex gnus-group-expire-articles
3392 Run all expirable articles in the current group through the expiry
3393 process (if any) (@code{gnus-group-expire-articles}). That is, delete
3394 all expirable articles in the group that have been around for a while.
3395 (@pxref{Expiring Mail}).
3398 @kindex C-c C-M-x (Group)
3399 @findex gnus-group-expire-all-groups
3400 Run all expirable articles in all groups through the expiry process
3401 (@code{gnus-group-expire-all-groups}).
3406 @node Browse Foreign Server
3407 @section Browse Foreign Server
3408 @cindex foreign servers
3409 @cindex browsing servers
3414 @findex gnus-group-browse-foreign-server
3415 You will be queried for a select method and a server name. Gnus will
3416 then attempt to contact this server and let you browse the groups there
3417 (@code{gnus-group-browse-foreign-server}).
3420 @findex gnus-browse-mode
3421 A new buffer with a list of available groups will appear. This buffer
3422 will use the @code{gnus-browse-mode}. This buffer looks a bit (well,
3423 a lot) like a normal group buffer.
3425 Here's a list of keystrokes available in the browse mode:
3430 @findex gnus-group-next-group
3431 Go to the next group (@code{gnus-group-next-group}).
3435 @findex gnus-group-prev-group
3436 Go to the previous group (@code{gnus-group-prev-group}).
3439 @kindex SPACE (Browse)
3440 @findex gnus-browse-read-group
3441 Enter the current group and display the first article
3442 (@code{gnus-browse-read-group}).
3445 @kindex RET (Browse)
3446 @findex gnus-browse-select-group
3447 Enter the current group (@code{gnus-browse-select-group}).
3451 @findex gnus-browse-unsubscribe-current-group
3452 Unsubscribe to the current group, or, as will be the case here,
3453 subscribe to it (@code{gnus-browse-unsubscribe-current-group}).
3459 @findex gnus-browse-exit
3460 Exit browse mode (@code{gnus-browse-exit}).
3464 @findex gnus-browse-describe-group
3465 Describe the current group (@code{gnus-browse-describe-group}).
3469 @findex gnus-browse-describe-briefly
3470 Describe browse mode briefly (well, there's not much to describe, is
3471 there) (@code{gnus-browse-describe-briefly}).
3476 @section Exiting Gnus
3477 @cindex exiting Gnus
3479 Yes, Gnus is ex(c)iting.
3484 @findex gnus-group-suspend
3485 Suspend Gnus (@code{gnus-group-suspend}). This doesn't really exit Gnus,
3486 but it kills all buffers except the Group buffer. I'm not sure why this
3487 is a gain, but then who am I to judge?
3491 @findex gnus-group-exit
3492 @c @icon{gnus-group-exit}
3493 Quit Gnus (@code{gnus-group-exit}).
3497 @findex gnus-group-quit
3498 Quit Gnus without saving the @file{.newsrc} files (@code{gnus-group-quit}).
3499 The dribble file will be saved, though (@pxref{Auto Save}).
3502 @vindex gnus-exit-gnus-hook
3503 @vindex gnus-suspend-gnus-hook
3504 @vindex gnus-after-exiting-gnus-hook
3505 @code{gnus-suspend-gnus-hook} is called when you suspend Gnus and
3506 @code{gnus-exit-gnus-hook} is called when you quit Gnus, while
3507 @code{gnus-after-exiting-gnus-hook} is called as the final item when
3513 Miss Lisa Cannifax, while sitting in English class, felt her feet go
3514 numbly heavy and herself fall into a hazy trance as the boy sitting
3515 behind her drew repeated lines with his pencil across the back of her
3521 @section Group Topics
3524 If you read lots and lots of groups, it might be convenient to group
3525 them hierarchically according to topics. You put your Emacs groups over
3526 here, your sex groups over there, and the rest (what, two groups or so?)
3527 you put in some misc section that you never bother with anyway. You can
3528 even group the Emacs sex groups as a sub-topic to either the Emacs
3529 groups or the sex groups---or both! Go wild!
3533 \gnusfigure{Group Topics}{400}{
3534 \put(75,50){\epsfig{figure=ps/group-topic,height=9cm}}
3545 2: alt.religion.emacs
3548 0: comp.talk.emacs.recovery
3550 8: comp.binaries.fractals
3551 13: comp.sources.unix
3554 @findex gnus-topic-mode
3556 To get this @emph{fab} functionality you simply turn on (ooh!) the
3557 @code{gnus-topic} minor mode---type @kbd{t} in the group buffer. (This
3558 is a toggling command.)
3560 Go ahead, just try it. I'll still be here when you get back. La de
3561 dum@dots{} Nice tune, that@dots{} la la la@dots{} What, you're back?
3562 Yes, and now press @kbd{l}. There. All your groups are now listed
3563 under @samp{misc}. Doesn't that make you feel all warm and fuzzy?
3566 If you want this permanently enabled, you should add that minor mode to
3567 the hook for the group mode. Put the following line in your
3568 @file{~/.gnus.el} file:
3571 (add-hook 'gnus-group-mode-hook 'gnus-topic-mode)
3575 * Topic Commands:: Interactive E-Z commands.
3576 * Topic Variables:: How to customize the topics the Lisp Way.
3577 * Topic Sorting:: Sorting each topic individually.
3578 * Topic Topology:: A map of the world.
3579 * Topic Parameters:: Parameters that apply to all groups in a topic.
3583 @node Topic Commands
3584 @subsection Topic Commands
3585 @cindex topic commands
3587 When the topic minor mode is turned on, a new @kbd{T} submap will be
3588 available. In addition, a few of the standard keys change their
3589 definitions slightly.
3591 In general, the following kinds of operations are possible on topics.
3592 First of all, you want to create topics. Secondly, you want to put
3593 groups in topics and to move them around until you have an order you
3594 like. The third kind of operation is to show/hide parts of the whole
3595 shebang. You might want to hide a topic including its subtopics and
3596 groups, to get a better overview of the other groups.
3598 Here is a list of the basic keys that you might need to set up topics
3605 @findex gnus-topic-create-topic
3606 Prompt for a new topic name and create it
3607 (@code{gnus-topic-create-topic}).
3611 @kindex T TAB (Topic)
3613 @findex gnus-topic-indent
3614 ``Indent'' the current topic so that it becomes a sub-topic of the
3615 previous topic (@code{gnus-topic-indent}). If given a prefix,
3616 ``un-indent'' the topic instead.
3619 @kindex M-TAB (Topic)
3620 @findex gnus-topic-unindent
3621 ``Un-indent'' the current topic so that it becomes a sub-topic of the
3622 parent of its current parent (@code{gnus-topic-unindent}).
3626 The following two keys can be used to move groups and topics around.
3627 They work like the well-known cut and paste. @kbd{C-k} is like cut and
3628 @kbd{C-y} is like paste. Of course, this being Emacs, we use the terms
3629 kill and yank rather than cut and paste.
3635 @findex gnus-topic-kill-group
3636 Kill a group or topic (@code{gnus-topic-kill-group}). All groups in the
3637 topic will be removed along with the topic.
3641 @findex gnus-topic-yank-group
3642 Yank the previously killed group or topic
3643 (@code{gnus-topic-yank-group}). Note that all topics will be yanked
3646 So, to move a topic to the beginning of the list of topics, just hit
3647 @kbd{C-k} on it. This is like the ``cut'' part of cut and paste. Then,
3648 move the cursor to the beginning of the buffer (just below the ``Gnus''
3649 topic) and hit @kbd{C-y}. This is like the ``paste'' part of cut and
3650 paste. Like I said -- E-Z.
3652 You can use @kbd{C-k} and @kbd{C-y} on groups as well as on topics. So
3653 you can move topics around as well as groups.
3657 After setting up the topics the way you like them, you might wish to
3658 hide a topic, or to show it again. That's why we have the following
3665 @findex gnus-topic-select-group
3667 Either select a group or fold a topic (@code{gnus-topic-select-group}).
3668 When you perform this command on a group, you'll enter the group, as
3669 usual. When done on a topic line, the topic will be folded (if it was
3670 visible) or unfolded (if it was folded already). So it's basically a
3671 toggling command on topics. In addition, if you give a numerical
3672 prefix, group on that level (and lower) will be displayed.
3676 Now for a list of other commands, in no particular order.
3682 @findex gnus-topic-move-group
3683 Move the current group to some other topic
3684 (@code{gnus-topic-move-group}). This command uses the process/prefix
3685 convention (@pxref{Process/Prefix}).
3689 @findex gnus-topic-jump-to-topic
3690 Go to a topic (@code{gnus-topic-jump-to-topic}).
3694 @findex gnus-topic-copy-group
3695 Copy the current group to some other topic
3696 (@code{gnus-topic-copy-group}). This command uses the process/prefix
3697 convention (@pxref{Process/Prefix}).
3701 @findex gnus-topic-hide-topic
3702 Hide the current topic (@code{gnus-topic-hide-topic}). If given
3703 a prefix, hide the topic permanently.
3707 @findex gnus-topic-show-topic
3708 Show the current topic (@code{gnus-topic-show-topic}). If given
3709 a prefix, show the topic permanently.
3713 @findex gnus-topic-remove-group
3714 Remove a group from the current topic (@code{gnus-topic-remove-group}).
3715 This command is mainly useful if you have the same group in several
3716 topics and wish to remove it from one of the topics. You may also
3717 remove a group from all topics, but in that case, Gnus will add it to
3718 the root topic the next time you start Gnus. In fact, all new groups
3719 (which, naturally, don't belong to any topic) will show up in the root
3722 This command uses the process/prefix convention
3723 (@pxref{Process/Prefix}).
3727 @findex gnus-topic-move-matching
3728 Move all groups that match some regular expression to a topic
3729 (@code{gnus-topic-move-matching}).
3733 @findex gnus-topic-copy-matching
3734 Copy all groups that match some regular expression to a topic
3735 (@code{gnus-topic-copy-matching}).
3739 @findex gnus-topic-toggle-display-empty-topics
3740 Toggle hiding empty topics
3741 (@code{gnus-topic-toggle-display-empty-topics}).
3745 @findex gnus-topic-mark-topic
3746 Mark all groups in the current topic with the process mark
3747 (@code{gnus-topic-mark-topic}). This command works recursively on
3748 sub-topics unless given a prefix.
3751 @kindex T M-# (Topic)
3752 @findex gnus-topic-unmark-topic
3753 Remove the process mark from all groups in the current topic
3754 (@code{gnus-topic-unmark-topic}). This command works recursively on
3755 sub-topics unless given a prefix.
3758 @kindex C-c C-x (Topic)
3759 @findex gnus-topic-expire-articles
3760 Run all expirable articles in the current group or topic through the
3761 expiry process (if any)
3762 (@code{gnus-topic-expire-articles}). (@pxref{Expiring Mail}).
3766 @findex gnus-topic-rename
3767 Rename a topic (@code{gnus-topic-rename}).
3770 @kindex T DEL (Topic)
3771 @findex gnus-topic-delete
3772 Delete an empty topic (@code{gnus-topic-delete}).
3776 @findex gnus-topic-list-active
3777 List all groups that Gnus knows about in a topics-ified way
3778 (@code{gnus-topic-list-active}).
3781 @kindex T M-n (Topic)
3782 @findex gnus-topic-goto-next-topic
3783 Go to the next topic (@code{gnus-topic-goto-next-topic}).
3786 @kindex T M-p (Topic)
3787 @findex gnus-topic-goto-previous-topic
3788 Go to the next topic (@code{gnus-topic-goto-previous-topic}).
3792 @findex gnus-topic-edit-parameters
3793 @cindex group parameters
3794 @cindex topic parameters
3796 Edit the topic parameters (@code{gnus-topic-edit-parameters}).
3797 @xref{Topic Parameters}.
3802 @node Topic Variables
3803 @subsection Topic Variables
3804 @cindex topic variables
3806 The previous section told you how to tell Gnus which topics to display.
3807 This section explains how to tell Gnus what to display about each topic.
3809 @vindex gnus-topic-line-format
3810 The topic lines themselves are created according to the
3811 @code{gnus-topic-line-format} variable (@pxref{Formatting Variables}).
3824 Number of groups in the topic.
3826 Number of unread articles in the topic.
3828 Number of unread articles in the topic and all its subtopics.
3831 @vindex gnus-topic-indent-level
3832 Each sub-topic (and the groups in the sub-topics) will be indented with
3833 @code{gnus-topic-indent-level} times the topic level number of spaces.
3836 @vindex gnus-topic-mode-hook
3837 @code{gnus-topic-mode-hook} is called in topic minor mode buffers.
3839 @vindex gnus-topic-display-empty-topics
3840 The @code{gnus-topic-display-empty-topics} says whether to display even
3841 topics that have no unread articles in them. The default is @code{t}.
3845 @subsection Topic Sorting
3846 @cindex topic sorting
3848 You can sort the groups in each topic individually with the following
3854 @kindex T S a (Topic)
3855 @findex gnus-topic-sort-groups-by-alphabet
3856 Sort the current topic alphabetically by group name
3857 (@code{gnus-topic-sort-groups-by-alphabet}).
3860 @kindex T S u (Topic)
3861 @findex gnus-topic-sort-groups-by-unread
3862 Sort the current topic by the number of unread articles
3863 (@code{gnus-topic-sort-groups-by-unread}).
3866 @kindex T S l (Topic)
3867 @findex gnus-topic-sort-groups-by-level
3868 Sort the current topic by group level
3869 (@code{gnus-topic-sort-groups-by-level}).
3872 @kindex T S v (Topic)
3873 @findex gnus-topic-sort-groups-by-score
3874 Sort the current topic by group score
3875 (@code{gnus-topic-sort-groups-by-score}). @xref{Group Score}.
3878 @kindex T S r (Topic)
3879 @findex gnus-topic-sort-groups-by-rank
3880 Sort the current topic by group rank
3881 (@code{gnus-topic-sort-groups-by-rank}). @xref{Group Score}.
3884 @kindex T S m (Topic)
3885 @findex gnus-topic-sort-groups-by-method
3886 Sort the current topic alphabetically by back end name
3887 (@code{gnus-topic-sort-groups-by-method}).
3890 @kindex T S e (Topic)
3891 @findex gnus-topic-sort-groups-by-server
3892 Sort the current topic alphabetically by server name
3893 (@code{gnus-topic-sort-groups-by-server}).
3896 @kindex T S s (Topic)
3897 @findex gnus-topic-sort-groups
3898 Sort the current topic according to the function(s) given by the
3899 @code{gnus-group-sort-function} variable
3900 (@code{gnus-topic-sort-groups}).
3904 When given a prefix argument, all these commands will sort in reverse
3905 order. @xref{Sorting Groups}, for more information about group
3909 @node Topic Topology
3910 @subsection Topic Topology
3911 @cindex topic topology
3914 So, let's have a look at an example group buffer:
3921 2: alt.religion.emacs
3924 0: comp.talk.emacs.recovery
3926 8: comp.binaries.fractals
3927 13: comp.sources.unix
3931 So, here we have one top-level topic (@samp{Gnus}), two topics under
3932 that, and one sub-topic under one of the sub-topics. (There is always
3933 just one (1) top-level topic). This topology can be expressed as
3938 (("Emacs -- I wuw it!" visible)
3939 (("Naughty Emacs" visible)))
3943 @vindex gnus-topic-topology
3944 This is in fact how the variable @code{gnus-topic-topology} would look
3945 for the display above. That variable is saved in the @file{.newsrc.eld}
3946 file, and shouldn't be messed with manually---unless you really want
3947 to. Since this variable is read from the @file{.newsrc.eld} file,
3948 setting it in any other startup files will have no effect.
3950 This topology shows what topics are sub-topics of what topics (right),
3951 and which topics are visible. Two settings are currently
3952 allowed---@code{visible} and @code{invisible}.
3955 @node Topic Parameters
3956 @subsection Topic Parameters
3957 @cindex topic parameters
3959 All groups in a topic will inherit group parameters from the parent
3960 (and ancestor) topic parameters. All valid group parameters are valid
3961 topic parameters (@pxref{Group Parameters}). When the agent is
3962 enabled, all agent parameters (See Agent Parameters in @ref{Category
3963 Syntax}) are also valid topic parameters.
3965 In addition, the following parameters are only valid as topic
3970 When subscribing new groups by topic (@pxref{Subscription Methods}), the
3971 @code{subscribe} topic parameter says what groups go in what topic. Its
3972 value should be a regexp to match the groups that should go in that
3975 @item subscribe-level
3976 When subscribing new groups by topic (see the @code{subscribe} parameter),
3977 the group will be subscribed with the level specified in the
3978 @code{subscribe-level} instead of @code{gnus-level-default-subscribed}.
3982 Group parameters (of course) override topic parameters, and topic
3983 parameters in sub-topics override topic parameters in super-topics. You
3984 know. Normal inheritance rules. (@dfn{Rules} is here a noun, not a
3985 verb, although you may feel free to disagree with me here.)
3992 2: alt.religion.emacs
3996 0: comp.talk.emacs.recovery
3998 8: comp.binaries.fractals
3999 13: comp.sources.unix
4004 The @samp{Emacs} topic has the topic parameter @code{(score-file
4005 . "emacs.SCORE")}; the @samp{Relief} topic has the topic parameter
4006 @code{(score-file . "relief.SCORE")}; and the @samp{Misc} topic has the
4007 topic parameter @code{(score-file . "emacs.SCORE")}. In addition,
4008 @* @samp{alt.religion.emacs} has the group parameter @code{(score-file
4009 . "religion.SCORE")}.
4011 Now, when you enter @samp{alt.sex.emacs} in the @samp{Relief} topic, you
4012 will get the @file{relief.SCORE} home score file. If you enter the same
4013 group in the @samp{Emacs} topic, you'll get the @file{emacs.SCORE} home
4014 score file. If you enter the group @samp{alt.religion.emacs}, you'll
4015 get the @file{religion.SCORE} home score file.
4017 This seems rather simple and self-evident, doesn't it? Well, yes. But
4018 there are some problems, especially with the @code{total-expiry}
4019 parameter. Say you have a mail group in two topics; one with
4020 @code{total-expiry} and one without. What happens when you do @kbd{M-x
4021 gnus-expire-all-expirable-groups}? Gnus has no way of telling which one
4022 of these topics you mean to expire articles from, so anything may
4023 happen. In fact, I hereby declare that it is @dfn{undefined} what
4024 happens. You just have to be careful if you do stuff like that.
4027 @node Misc Group Stuff
4028 @section Misc Group Stuff
4031 * Scanning New Messages:: Asking Gnus to see whether new messages have arrived.
4032 * Group Information:: Information and help on groups and Gnus.
4033 * Group Timestamp:: Making Gnus keep track of when you last read a group.
4034 * File Commands:: Reading and writing the Gnus files.
4035 * Sieve Commands:: Managing Sieve scripts.
4042 @findex gnus-group-enter-server-mode
4043 Enter the server buffer (@code{gnus-group-enter-server-mode}).
4044 @xref{Server Buffer}.
4048 @findex gnus-group-post-news
4049 Start composing a message (a news by default)
4050 (@code{gnus-group-post-news}). If given a prefix, post to the group
4051 under the point. If the prefix is 1, prompt for a group to post to.
4052 Contrary to what the name of this function suggests, the prepared
4053 article might be a mail instead of a news, if a mail group is specified
4054 with the prefix argument. @xref{Composing Messages}.
4058 @findex gnus-group-mail
4059 Mail a message somewhere (@code{gnus-group-mail}). If given a prefix,
4060 use the posting style of the group under the point. If the prefix is 1,
4061 prompt for a group name to find the posting style.
4062 @xref{Composing Messages}.
4066 @findex gnus-group-news
4067 Start composing a news (@code{gnus-group-news}). If given a prefix,
4068 post to the group under the point. If the prefix is 1, prompt
4069 for group to post to. @xref{Composing Messages}.
4071 This function actually prepares a news even when using mail groups.
4072 This is useful for ``posting'' messages to mail groups without actually
4073 sending them over the network: they're just saved directly to the group
4074 in question. The corresponding back end must have a request-post method
4075 for this to work though.
4079 Variables for the group buffer:
4083 @item gnus-group-mode-hook
4084 @vindex gnus-group-mode-hook
4085 is called after the group buffer has been
4088 @item gnus-group-prepare-hook
4089 @vindex gnus-group-prepare-hook
4090 is called after the group buffer is
4091 generated. It may be used to modify the buffer in some strange,
4094 @item gnus-group-prepared-hook
4095 @vindex gnus-group-prepare-hook
4096 is called as the very last thing after the group buffer has been
4097 generated. It may be used to move point around, for instance.
4099 @item gnus-permanently-visible-groups
4100 @vindex gnus-permanently-visible-groups
4101 Groups matching this regexp will always be listed in the group buffer,
4102 whether they are empty or not.
4104 @item gnus-group-name-charset-method-alist
4105 @vindex gnus-group-name-charset-method-alist
4106 An alist of method and the charset for group names. It is used to show
4107 non-@acronym{ASCII} group names.
4111 (setq gnus-group-name-charset-method-alist
4112 '(((nntp "news.com.cn") . cn-gb-2312)))
4115 @item gnus-group-name-charset-group-alist
4116 @cindex UTF-8 group names
4117 @vindex gnus-group-name-charset-group-alist
4118 An alist of regexp of group name and the charset for group names. It
4119 is used to show non-@acronym{ASCII} group names. @code{((".*"
4120 utf-8))} is the default value if UTF-8 is supported, otherwise the
4121 default is @code{nil}.
4125 (setq gnus-group-name-charset-group-alist
4126 '(("\\.com\\.cn:" . cn-gb-2312)))
4131 @node Scanning New Messages
4132 @subsection Scanning New Messages
4133 @cindex new messages
4134 @cindex scanning new news
4140 @findex gnus-group-get-new-news
4141 @c @icon{gnus-group-get-new-news}
4142 Check the server(s) for new articles. If the numerical prefix is used,
4143 this command will check only groups of level @var{arg} and lower
4144 (@code{gnus-group-get-new-news}). If given a non-numerical prefix, this
4145 command will force a total re-reading of the active file(s) from the
4150 @findex gnus-group-get-new-news-this-group
4151 @vindex gnus-goto-next-group-when-activating
4152 @c @icon{gnus-group-get-new-news-this-group}
4153 Check whether new articles have arrived in the current group
4154 (@code{gnus-group-get-new-news-this-group}).
4155 @code{gnus-goto-next-group-when-activating} says whether this command is
4156 to move point to the next group or not. It is @code{t} by default.
4158 @findex gnus-activate-all-groups
4159 @cindex activating groups
4161 @kindex C-c M-g (Group)
4162 Activate absolutely all groups (@code{gnus-activate-all-groups}).
4167 @findex gnus-group-restart
4168 Restart Gnus (@code{gnus-group-restart}). This saves the @file{.newsrc}
4169 file(s), closes the connection to all servers, clears up all run-time
4170 Gnus variables, and then starts Gnus all over again.
4174 @vindex gnus-get-new-news-hook
4175 @code{gnus-get-new-news-hook} is run just before checking for new news.
4177 @vindex gnus-after-getting-new-news-hook
4178 @code{gnus-after-getting-new-news-hook} is run after checking for new
4182 @node Group Information
4183 @subsection Group Information
4184 @cindex group information
4185 @cindex information on groups
4192 @findex gnus-group-fetch-faq
4193 @vindex gnus-group-faq-directory
4196 Try to fetch the @acronym{FAQ} for the current group
4197 (@code{gnus-group-fetch-faq}). Gnus will try to get the @acronym{FAQ}
4198 from @code{gnus-group-faq-directory}, which is usually a directory on
4199 a remote machine. This variable can also be a list of directories.
4200 In that case, giving a prefix to this command will allow you to choose
4201 between the various sites. @code{ange-ftp} (or @code{efs}) will be
4202 used for fetching the file.
4204 If fetching from the first site is unsuccessful, Gnus will attempt to go
4205 through @code{gnus-group-faq-directory} and try to open them one by one.
4209 @findex gnus-group-fetch-charter
4210 @vindex gnus-group-charter-alist
4212 Try to open the charter for the current group in a web browser
4213 (@code{gnus-group-fetch-charter}). Query for a group if given a
4216 Gnus will use @code{gnus-group-charter-alist} to find the location of
4217 the charter. If no location is known, Gnus will fetch the control
4218 messages for the group, which in some cases includes the charter.
4222 @findex gnus-group-fetch-control
4223 @vindex gnus-group-fetch-control-use-browse-url
4224 @cindex control message
4225 Fetch the control messages for the group from the archive at
4226 @code{ftp.isc.org} (@code{gnus-group-fetch-control}). Query for a
4227 group if given a prefix argument.
4229 If @code{gnus-group-fetch-control-use-browse-url} is non-@code{nil},
4230 Gnus will open the control messages in a browser using
4231 @code{browse-url}. Otherwise they are fetched using @code{ange-ftp}
4232 and displayed in an ephemeral group.
4234 Note that the control messages are compressed. To use this command
4235 you need to turn on @code{auto-compression-mode} (@pxref{Compressed
4236 Files, ,Compressed Files, emacs, The Emacs Manual}).
4240 @c @icon{gnus-group-describe-group}
4242 @kindex C-c C-d (Group)
4243 @cindex describing groups
4244 @cindex group description
4245 @findex gnus-group-describe-group
4246 Describe the current group (@code{gnus-group-describe-group}). If given
4247 a prefix, force Gnus to re-read the description from the server.
4251 @findex gnus-group-describe-all-groups
4252 Describe all groups (@code{gnus-group-describe-all-groups}). If given a
4253 prefix, force Gnus to re-read the description file from the server.
4260 @findex gnus-version
4261 Display current Gnus version numbers (@code{gnus-version}).
4265 @findex gnus-group-describe-briefly
4266 Give a very short help message (@code{gnus-group-describe-briefly}).
4269 @kindex C-c C-i (Group)
4272 @findex gnus-info-find-node
4273 Go to the Gnus info node (@code{gnus-info-find-node}).
4277 @node Group Timestamp
4278 @subsection Group Timestamp
4280 @cindex group timestamps
4282 It can be convenient to let Gnus keep track of when you last read a
4283 group. To set the ball rolling, you should add
4284 @code{gnus-group-set-timestamp} to @code{gnus-select-group-hook}:
4287 (add-hook 'gnus-select-group-hook 'gnus-group-set-timestamp)
4290 After doing this, each time you enter a group, it'll be recorded.
4292 This information can be displayed in various ways---the easiest is to
4293 use the @samp{%d} spec in the group line format:
4296 (setq gnus-group-line-format
4297 "%M\%S\%p\%P\%5y: %(%-40,40g%) %d\n")
4300 This will result in lines looking like:
4303 * 0: mail.ding 19961002T012943
4304 0: custom 19961002T012713
4307 As you can see, the date is displayed in compact ISO 8601 format. This
4308 may be a bit too much, so to just display the date, you could say
4312 (setq gnus-group-line-format
4313 "%M\%S\%p\%P\%5y: %(%-40,40g%) %6,6~(cut 2)d\n")
4316 If you would like greater control of the time format, you can use a
4317 user-defined format spec. Something like the following should do the
4321 (setq gnus-group-line-format
4322 "%M\%S\%p\%P\%5y: %(%-40,40g%) %ud\n")
4323 (defun gnus-user-format-function-d (headers)
4324 (let ((time (gnus-group-timestamp gnus-tmp-group)))
4326 (format-time-string "%b %d %H:%M" time)
4332 @subsection File Commands
4333 @cindex file commands
4339 @findex gnus-group-read-init-file
4340 @vindex gnus-init-file
4341 @cindex reading init file
4342 Re-read the init file (@code{gnus-init-file}, which defaults to
4343 @file{~/.gnus.el}) (@code{gnus-group-read-init-file}).
4347 @findex gnus-group-save-newsrc
4348 @cindex saving .newsrc
4349 Save the @file{.newsrc.eld} file (and @file{.newsrc} if wanted)
4350 (@code{gnus-group-save-newsrc}). If given a prefix, force saving the
4351 file(s) whether Gnus thinks it is necessary or not.
4354 @c @kindex Z (Group)
4355 @c @findex gnus-group-clear-dribble
4356 @c Clear the dribble buffer (@code{gnus-group-clear-dribble}).
4361 @node Sieve Commands
4362 @subsection Sieve Commands
4363 @cindex group sieve commands
4365 Sieve is a server-side mail filtering language. In Gnus you can use
4366 the @code{sieve} group parameter (@pxref{Group Parameters}) to specify
4367 sieve rules that should apply to each group. Gnus provides two
4368 commands to translate all these group parameters into a proper Sieve
4369 script that can be transfered to the server somehow.
4371 @vindex gnus-sieve-file
4372 @vindex gnus-sieve-region-start
4373 @vindex gnus-sieve-region-end
4374 The generated Sieve script is placed in @code{gnus-sieve-file} (by
4375 default @file{~/.sieve}). The Sieve code that Gnus generate is placed
4376 between two delimiters, @code{gnus-sieve-region-start} and
4377 @code{gnus-sieve-region-end}, so you may write additional Sieve code
4378 outside these delimiters that will not be removed the next time you
4379 regenerate the Sieve script.
4381 @vindex gnus-sieve-crosspost
4382 The variable @code{gnus-sieve-crosspost} controls how the Sieve script
4383 is generated. If it is non-@code{nil} (the default) articles is
4384 placed in all groups that have matching rules, otherwise the article
4385 is only placed in the group with the first matching rule. For
4386 example, the group parameter @samp{(sieve address "sender"
4387 "owner-ding@@hpc.uh.edu")} will generate the following piece of Sieve
4388 code if @code{gnus-sieve-crosspost} is @code{nil}. (When
4389 @code{gnus-sieve-crosspost} is non-@code{nil}, it looks the same
4390 except that the line containing the call to @code{stop} is removed.)
4393 if address "sender" "owner-ding@@hpc.uh.edu" @{
4394 fileinto "INBOX.ding";
4399 @xref{Top, Emacs Sieve, Top, sieve, Emacs Sieve}.
4405 @findex gnus-sieve-generate
4406 @vindex gnus-sieve-file
4407 @cindex generating sieve script
4408 Regenerate a Sieve script from the @code{sieve} group parameters and
4409 put you into the @code{gnus-sieve-file} without saving it.
4413 @findex gnus-sieve-update
4414 @vindex gnus-sieve-file
4415 @cindex updating sieve script
4416 Regenerates the Gnus managed part of @code{gnus-sieve-file} using the
4417 @code{sieve} group parameters, save the file and upload it to the
4418 server using the @code{sieveshell} program.
4423 @node Summary Buffer
4424 @chapter Summary Buffer
4425 @cindex summary buffer
4427 A line for each article is displayed in the summary buffer. You can
4428 move around, read articles, post articles and reply to articles.
4430 The most common way to a summary buffer is to select a group from the
4431 group buffer (@pxref{Selecting a Group}).
4433 You can have as many summary buffers open as you wish.
4436 * Summary Buffer Format:: Deciding how the summary buffer is to look.
4437 * Summary Maneuvering:: Moving around the summary buffer.
4438 * Choosing Articles:: Reading articles.
4439 * Paging the Article:: Scrolling the current article.
4440 * Reply Followup and Post:: Posting articles.
4441 * Delayed Articles:: Send articles at a later time.
4442 * Marking Articles:: Marking articles as read, expirable, etc.
4443 * Limiting:: You can limit the summary buffer.
4444 * Threading:: How threads are made.
4445 * Sorting the Summary Buffer:: How articles and threads are sorted.
4446 * Asynchronous Fetching:: Gnus might be able to pre-fetch articles.
4447 * Article Caching:: You may store articles in a cache.
4448 * Persistent Articles:: Making articles expiry-resistant.
4449 * Article Backlog:: Having already read articles hang around.
4450 * Saving Articles:: Ways of customizing article saving.
4451 * Decoding Articles:: Gnus can treat series of (uu)encoded articles.
4452 * Article Treatment:: The article buffer can be mangled at will.
4453 * MIME Commands:: Doing MIMEy things with the articles.
4454 * Charsets:: Character set issues.
4455 * Article Commands:: Doing various things with the article buffer.
4456 * Summary Sorting:: Sorting the summary buffer in various ways.
4457 * Finding the Parent:: No child support? Get the parent.
4458 * Alternative Approaches:: Reading using non-default summaries.
4459 * Tree Display:: A more visual display of threads.
4460 * Mail Group Commands:: Some commands can only be used in mail groups.
4461 * Various Summary Stuff:: What didn't fit anywhere else.
4462 * Exiting the Summary Buffer:: Returning to the Group buffer,
4463 or reselecting the current group.
4464 * Crosspost Handling:: How crossposted articles are dealt with.
4465 * Duplicate Suppression:: An alternative when crosspost handling fails.
4466 * Security:: Decrypt and Verify.
4467 * Mailing List:: Mailing list minor mode.
4471 @node Summary Buffer Format
4472 @section Summary Buffer Format
4473 @cindex summary buffer format
4477 \gnusfigure{The Summary Buffer}{180}{
4478 \put(0,0){\epsfig{figure=ps/summary,width=7.5cm}}
4479 \put(445,0){\makebox(0,0)[br]{\epsfig{figure=ps/summary-article,width=7.5cm}}}
4485 * Summary Buffer Lines:: You can specify how summary lines should look.
4486 * To From Newsgroups:: How to not display your own name.
4487 * Summary Buffer Mode Line:: You can say how the mode line should look.
4488 * Summary Highlighting:: Making the summary buffer all pretty and nice.
4491 @findex mail-extract-address-components
4492 @findex gnus-extract-address-components
4493 @vindex gnus-extract-address-components
4494 Gnus will use the value of the @code{gnus-extract-address-components}
4495 variable as a function for getting the name and address parts of a
4496 @code{From} header. Two pre-defined functions exist:
4497 @code{gnus-extract-address-components}, which is the default, quite
4498 fast, and too simplistic solution; and
4499 @code{mail-extract-address-components}, which works very nicely, but is
4500 slower. The default function will return the wrong answer in 5% of the
4501 cases. If this is unacceptable to you, use the other function instead:
4504 (setq gnus-extract-address-components
4505 'mail-extract-address-components)
4508 @vindex gnus-summary-same-subject
4509 @code{gnus-summary-same-subject} is a string indicating that the current
4510 article has the same subject as the previous. This string will be used
4511 with those specs that require it. The default is @code{""}.
4514 @node Summary Buffer Lines
4515 @subsection Summary Buffer Lines
4517 @vindex gnus-summary-line-format
4518 You can change the format of the lines in the summary buffer by changing
4519 the @code{gnus-summary-line-format} variable. It works along the same
4520 lines as a normal @code{format} string, with some extensions
4521 (@pxref{Formatting Variables}).
4523 There should always be a colon or a point position marker on the line;
4524 the cursor always moves to the point position marker or the colon after
4525 performing an operation. (Of course, Gnus wouldn't be Gnus if it wasn't
4526 possible to change this. Just write a new function
4527 @code{gnus-goto-colon} which does whatever you like with the cursor.)
4528 @xref{Positioning Point}.
4530 The default string is @samp{%U%R%z%I%(%[%4L: %-23,23f%]%) %s\n}.
4532 The following format specification characters and extended format
4533 specification(s) are understood:
4539 Subject string. List identifiers stripped,
4540 @code{gnus-list-identifies}. @xref{Article Hiding}.
4542 Subject if the article is the root of the thread or the previous article
4543 had a different subject, @code{gnus-summary-same-subject} otherwise.
4544 (@code{gnus-summary-same-subject} defaults to @code{""}.)
4546 Full @code{From} header.
4548 The name (from the @code{From} header).
4550 The name, @code{To} header or the @code{Newsgroups} header (@pxref{To
4553 The name (from the @code{From} header). This differs from the @code{n}
4554 spec in that it uses the function designated by the
4555 @code{gnus-extract-address-components} variable, which is slower, but
4556 may be more thorough.
4558 The address (from the @code{From} header). This works the same way as
4561 Number of lines in the article.
4563 Number of characters in the article. This specifier is not supported
4564 in some methods (like nnfolder).
4566 Pretty-printed version of the number of characters in the article;
4567 for example, @samp{1.2k} or @samp{0.4M}.
4569 Indentation based on thread level (@pxref{Customizing Threading}).
4571 A complex trn-style thread tree, showing response-connecting trace
4572 lines. A thread could be drawn like this:
4585 You can customize the appearance with the following options. Note
4586 that it is possible to make the thread display look really neat by
4587 replacing the default @acronym{ASCII} characters with graphic
4588 line-drawing glyphs.
4590 @item gnus-sum-thread-tree-root
4591 @vindex gnus-sum-thread-tree-root
4592 Used for the root of a thread. If @code{nil}, use subject
4593 instead. The default is @samp{> }.
4595 @item gnus-sum-thread-tree-false-root
4596 @vindex gnus-sum-thread-tree-false-root
4597 Used for the false root of a thread (@pxref{Loose Threads}). If
4598 @code{nil}, use subject instead. The default is @samp{> }.
4600 @item gnus-sum-thread-tree-single-indent
4601 @vindex gnus-sum-thread-tree-single-indent
4602 Used for a thread with just one message. If @code{nil}, use subject
4603 instead. The default is @samp{}.
4605 @item gnus-sum-thread-tree-vertical
4606 @vindex gnus-sum-thread-tree-vertical
4607 Used for drawing a vertical line. The default is @samp{| }.
4609 @item gnus-sum-thread-tree-indent
4610 @vindex gnus-sum-thread-tree-indent
4611 Used for indenting. The default is @samp{ }.
4613 @item gnus-sum-thread-tree-leaf-with-other
4614 @vindex gnus-sum-thread-tree-leaf-with-other
4615 Used for a leaf with brothers. The default is @samp{+-> }.
4617 @item gnus-sum-thread-tree-single-leaf
4618 @vindex gnus-sum-thread-tree-single-leaf
4619 Used for a leaf without brothers. The default is @samp{\-> }
4624 Nothing if the article is a root and lots of spaces if it isn't (it
4625 pushes everything after it off the screen).
4627 Opening bracket, which is normally @samp{[}, but can also be @samp{<}
4628 for adopted articles (@pxref{Customizing Threading}).
4630 Closing bracket, which is normally @samp{]}, but can also be @samp{>}
4631 for adopted articles.
4633 One space for each thread level.
4635 Twenty minus thread level spaces.
4637 Unread. @xref{Read Articles}.
4640 This misleadingly named specifier is the @dfn{secondary mark}. This
4641 mark will say whether the article has been replied to, has been cached,
4642 or has been saved. @xref{Other Marks}.
4645 Score as a number (@pxref{Scoring}).
4647 @vindex gnus-summary-zcore-fuzz
4648 Zcore, @samp{+} if above the default level and @samp{-} if below the
4649 default level. If the difference between
4650 @code{gnus-summary-default-score} and the score is less than
4651 @code{gnus-summary-zcore-fuzz}, this spec will not be used.
4659 The @code{Date} in @code{DD-MMM} format.
4661 The @code{Date} in @var{YYYYMMDD}@code{T}@var{HHMMSS} format.
4667 Number of articles in the current sub-thread. Using this spec will slow
4668 down summary buffer generation somewhat.
4670 An @samp{=} (@code{gnus-not-empty-thread-mark}) will be displayed if the
4671 article has any children.
4677 Age sensitive date format. Various date format is defined in
4678 @code{gnus-user-date-format-alist}.
4680 User defined specifier. The next character in the format string should
4681 be a letter. Gnus will call the function
4682 @code{gnus-user-format-function-@var{x}}, where @var{x} is the letter
4683 following @samp{%u}. The function will be passed the current header as
4684 argument. The function should return a string, which will be inserted
4685 into the summary just like information from any other summary specifier.
4688 Text between @samp{%(} and @samp{%)} will be highlighted with
4689 @code{gnus-mouse-face} when the mouse point is placed inside the area.
4690 There can only be one such area.
4692 The @samp{%U} (status), @samp{%R} (replied) and @samp{%z} (zcore) specs
4693 have to be handled with care. For reasons of efficiency, Gnus will
4694 compute what column these characters will end up in, and ``hard-code''
4695 that. This means that it is invalid to have these specs after a
4696 variable-length spec. Well, you might not be arrested, but your summary
4697 buffer will look strange, which is bad enough.
4699 The smart choice is to have these specs as far to the left as possible.
4700 (Isn't that the case with everything, though? But I digress.)
4702 This restriction may disappear in later versions of Gnus.
4705 @node To From Newsgroups
4706 @subsection To From Newsgroups
4710 In some groups (particularly in archive groups), the @code{From} header
4711 isn't very interesting, since all the articles there are written by
4712 you. To display the information in the @code{To} or @code{Newsgroups}
4713 headers instead, you need to decide three things: What information to
4714 gather; where to display it; and when to display it.
4718 @vindex gnus-extra-headers
4719 The reading of extra header information is controlled by the
4720 @code{gnus-extra-headers}. This is a list of header symbols. For
4724 (setq gnus-extra-headers
4725 '(To Newsgroups X-Newsreader))
4728 This will result in Gnus trying to obtain these three headers, and
4729 storing it in header structures for later easy retrieval.
4732 @findex gnus-extra-header
4733 The value of these extra headers can be accessed via the
4734 @code{gnus-extra-header} function. Here's a format line spec that will
4735 access the @code{X-Newsreader} header:
4738 "%~(form (gnus-extra-header 'X-Newsreader))@@"
4742 @vindex gnus-ignored-from-addresses
4743 The @code{gnus-ignored-from-addresses} variable says when the @samp{%f}
4744 summary line spec returns the @code{To}, @code{Newsreader} or
4745 @code{From} header. If this regexp matches the contents of the
4746 @code{From} header, the value of the @code{To} or @code{Newsreader}
4747 headers are used instead.
4751 @vindex nnmail-extra-headers
4752 A related variable is @code{nnmail-extra-headers}, which controls when
4753 to include extra headers when generating overview (@acronym{NOV}) files.
4754 If you have old overview files, you should regenerate them after
4755 changing this variable, by entering the server buffer using @kbd{^},
4756 and then @kbd{g} on the appropriate mail server (e.g. nnml) to cause
4759 @vindex gnus-summary-line-format
4760 You also have to instruct Gnus to display the data by changing the
4761 @code{%n} spec to the @code{%f} spec in the
4762 @code{gnus-summary-line-format} variable.
4764 In summary, you'd typically put something like the following in
4768 (setq gnus-extra-headers
4770 (setq nnmail-extra-headers gnus-extra-headers)
4771 (setq gnus-summary-line-format
4772 "%U%R%z%I%(%[%4L: %-23,23f%]%) %s\n")
4773 (setq gnus-ignored-from-addresses
4777 (The values listed above are the default values in Gnus. Alter them
4780 A note for news server administrators, or for users who wish to try to
4781 convince their news server administrator to provide some additional
4784 The above is mostly useful for mail groups, where you have control over
4785 the @acronym{NOV} files that are created. However, if you can persuade your
4786 nntp admin to add (in the usual implementation, notably INN):
4792 to the end of her @file{overview.fmt} file, then you can use that just
4793 as you would the extra headers from the mail groups.
4796 @node Summary Buffer Mode Line
4797 @subsection Summary Buffer Mode Line
4799 @vindex gnus-summary-mode-line-format
4800 You can also change the format of the summary mode bar (@pxref{Mode Line
4801 Formatting}). Set @code{gnus-summary-mode-line-format} to whatever you
4802 like. The default is @samp{Gnus: %%b [%A] %Z}.
4804 Here are the elements you can play with:
4810 Unprefixed group name.
4812 Current article number.
4814 Current article score.
4818 Number of unread articles in this group.
4820 Number of unread articles in this group that aren't displayed in the
4823 A string with the number of unread and unselected articles represented
4824 either as @samp{<%U(+%e) more>} if there are both unread and unselected
4825 articles, and just as @samp{<%U more>} if there are just unread articles
4826 and no unselected ones.
4828 Shortish group name. For instance, @samp{rec.arts.anime} will be
4829 shortened to @samp{r.a.anime}.
4831 Subject of the current article.
4833 User-defined spec (@pxref{User-Defined Specs}).
4835 Name of the current score file (@pxref{Scoring}).
4837 Number of dormant articles (@pxref{Unread Articles}).
4839 Number of ticked articles (@pxref{Unread Articles}).
4841 Number of articles that have been marked as read in this session.
4843 Number of articles expunged by the score files.
4847 @node Summary Highlighting
4848 @subsection Summary Highlighting
4852 @item gnus-visual-mark-article-hook
4853 @vindex gnus-visual-mark-article-hook
4854 This hook is run after selecting an article. It is meant to be used for
4855 highlighting the article in some way. It is not run if
4856 @code{gnus-visual} is @code{nil}.
4858 @item gnus-summary-update-hook
4859 @vindex gnus-summary-update-hook
4860 This hook is called when a summary line is changed. It is not run if
4861 @code{gnus-visual} is @code{nil}.
4863 @item gnus-summary-selected-face
4864 @vindex gnus-summary-selected-face
4865 This is the face (or @dfn{font} as some people call it) used to
4866 highlight the current article in the summary buffer.
4868 @item gnus-summary-highlight
4869 @vindex gnus-summary-highlight
4870 Summary lines are highlighted according to this variable, which is a
4871 list where the elements are of the format @code{(@var{form}
4872 . @var{face})}. If you would, for instance, like ticked articles to be
4873 italic and high-scored articles to be bold, you could set this variable
4876 (((eq mark gnus-ticked-mark) . italic)
4877 ((> score default) . bold))
4879 As you may have guessed, if @var{form} returns a non-@code{nil} value,
4880 @var{face} will be applied to the line.
4884 @node Summary Maneuvering
4885 @section Summary Maneuvering
4886 @cindex summary movement
4888 All the straight movement commands understand the numeric prefix and
4889 behave pretty much as you'd expect.
4891 None of these commands select articles.
4896 @kindex M-n (Summary)
4897 @kindex G M-n (Summary)
4898 @findex gnus-summary-next-unread-subject
4899 Go to the next summary line of an unread article
4900 (@code{gnus-summary-next-unread-subject}).
4904 @kindex M-p (Summary)
4905 @kindex G M-p (Summary)
4906 @findex gnus-summary-prev-unread-subject
4907 Go to the previous summary line of an unread article
4908 (@code{gnus-summary-prev-unread-subject}).
4911 @kindex G g (Summary)
4912 @findex gnus-summary-goto-subject
4913 Ask for an article number and then go to the summary line of that article
4914 without displaying the article (@code{gnus-summary-goto-subject}).
4917 If Gnus asks you to press a key to confirm going to the next group, you
4918 can use the @kbd{C-n} and @kbd{C-p} keys to move around the group
4919 buffer, searching for the next group to read without actually returning
4920 to the group buffer.
4922 Variables related to summary movement:
4926 @vindex gnus-auto-select-next
4927 @item gnus-auto-select-next
4928 If you issue one of the movement commands (like @kbd{n}) and there are
4929 no more unread articles after the current one, Gnus will offer to go to
4930 the next group. If this variable is @code{t} and the next group is
4931 empty, Gnus will exit summary mode and return to the group buffer. If
4932 this variable is neither @code{t} nor @code{nil}, Gnus will select the
4933 next group with unread articles. As a special case, if this variable
4934 is @code{quietly}, Gnus will select the next group without asking for
4935 confirmation. If this variable is @code{almost-quietly}, the same
4936 will happen only if you are located on the last article in the group.
4937 Finally, if this variable is @code{slightly-quietly}, the @kbd{Z n}
4938 command will go to the next group without confirmation. Also
4939 @pxref{Group Levels}.
4941 @item gnus-auto-select-same
4942 @vindex gnus-auto-select-same
4943 If non-@code{nil}, all the movement commands will try to go to the next
4944 article with the same subject as the current. (@dfn{Same} here might
4945 mean @dfn{roughly equal}. See @code{gnus-summary-gather-subject-limit}
4946 for details (@pxref{Customizing Threading}).) If there are no more
4947 articles with the same subject, go to the first unread article.
4949 This variable is not particularly useful if you use a threaded display.
4951 @item gnus-summary-check-current
4952 @vindex gnus-summary-check-current
4953 If non-@code{nil}, all the ``unread'' movement commands will not proceed
4954 to the next (or previous) article if the current article is unread.
4955 Instead, they will choose the current article.
4957 @item gnus-auto-center-summary
4958 @vindex gnus-auto-center-summary
4959 If non-@code{nil}, Gnus will keep the point in the summary buffer
4960 centered at all times. This makes things quite tidy, but if you have a
4961 slow network connection, or simply do not like this un-Emacsism, you can
4962 set this variable to @code{nil} to get the normal Emacs scrolling
4963 action. This will also inhibit horizontal re-centering of the summary
4964 buffer, which might make it more inconvenient to read extremely long
4967 This variable can also be a number. In that case, center the window at
4968 the given number of lines from the top.
4973 @node Choosing Articles
4974 @section Choosing Articles
4975 @cindex selecting articles
4978 * Choosing Commands:: Commands for choosing articles.
4979 * Choosing Variables:: Variables that influence these commands.
4983 @node Choosing Commands
4984 @subsection Choosing Commands
4986 None of the following movement commands understand the numeric prefix,
4987 and they all select and display an article.
4989 If you want to fetch new articles or redisplay the group, see
4990 @ref{Exiting the Summary Buffer}.
4994 @kindex SPACE (Summary)
4995 @findex gnus-summary-next-page
4996 Select the current article, or, if that one's read already, the next
4997 unread article (@code{gnus-summary-next-page}).
4999 If you have an article window open already and you press @kbd{SPACE}
5000 again, the article will be scrolled. This lets you conveniently
5001 @kbd{SPACE} through an entire newsgroup. @xref{Paging the Article}.
5006 @kindex G n (Summary)
5007 @findex gnus-summary-next-unread-article
5008 @c @icon{gnus-summary-next-unread}
5009 Go to next unread article (@code{gnus-summary-next-unread-article}).
5014 @findex gnus-summary-prev-unread-article
5015 @c @icon{gnus-summary-prev-unread}
5016 Go to previous unread article (@code{gnus-summary-prev-unread-article}).
5021 @kindex G N (Summary)
5022 @findex gnus-summary-next-article
5023 Go to the next article (@code{gnus-summary-next-article}).
5028 @kindex G P (Summary)
5029 @findex gnus-summary-prev-article
5030 Go to the previous article (@code{gnus-summary-prev-article}).
5033 @kindex G C-n (Summary)
5034 @findex gnus-summary-next-same-subject
5035 Go to the next article with the same subject
5036 (@code{gnus-summary-next-same-subject}).
5039 @kindex G C-p (Summary)
5040 @findex gnus-summary-prev-same-subject
5041 Go to the previous article with the same subject
5042 (@code{gnus-summary-prev-same-subject}).
5046 @kindex G f (Summary)
5048 @findex gnus-summary-first-unread-article
5049 Go to the first unread article
5050 (@code{gnus-summary-first-unread-article}).
5054 @kindex G b (Summary)
5056 @findex gnus-summary-best-unread-article
5057 Go to the unread article with the highest score
5058 (@code{gnus-summary-best-unread-article}). If given a prefix argument,
5059 go to the first unread article that has a score over the default score.
5064 @kindex G l (Summary)
5065 @findex gnus-summary-goto-last-article
5066 Go to the previous article read (@code{gnus-summary-goto-last-article}).
5069 @kindex G o (Summary)
5070 @findex gnus-summary-pop-article
5072 @cindex article history
5073 Pop an article off the summary history and go to this article
5074 (@code{gnus-summary-pop-article}). This command differs from the
5075 command above in that you can pop as many previous articles off the
5076 history as you like, while @kbd{l} toggles the two last read articles.
5077 For a somewhat related issue (if you use these commands a lot),
5078 @pxref{Article Backlog}.
5083 @kindex G j (Summary)
5084 @findex gnus-summary-goto-article
5085 Ask for an article number or @code{Message-ID}, and then go to that
5086 article (@code{gnus-summary-goto-article}).
5091 @node Choosing Variables
5092 @subsection Choosing Variables
5094 Some variables relevant for moving and selecting articles:
5097 @item gnus-auto-extend-newsgroup
5098 @vindex gnus-auto-extend-newsgroup
5099 All the movement commands will try to go to the previous (or next)
5100 article, even if that article isn't displayed in the Summary buffer if
5101 this variable is non-@code{nil}. Gnus will then fetch the article from
5102 the server and display it in the article buffer.
5104 @item gnus-select-article-hook
5105 @vindex gnus-select-article-hook
5106 This hook is called whenever an article is selected. The default is
5107 @code{nil}. If you would like each article to be saved in the Agent as
5108 you read it, putting @code{gnus-agent-fetch-selected-article} on this
5111 @item gnus-mark-article-hook
5112 @vindex gnus-mark-article-hook
5113 @findex gnus-summary-mark-unread-as-read
5114 @findex gnus-summary-mark-read-and-unread-as-read
5115 @findex gnus-unread-mark
5116 This hook is called whenever an article is selected. It is intended to
5117 be used for marking articles as read. The default value is
5118 @code{gnus-summary-mark-read-and-unread-as-read}, and will change the
5119 mark of almost any article you read to @code{gnus-read-mark}. The only
5120 articles not affected by this function are ticked, dormant, and
5121 expirable articles. If you'd instead like to just have unread articles
5122 marked as read, you can use @code{gnus-summary-mark-unread-as-read}
5123 instead. It will leave marks like @code{gnus-low-score-mark},
5124 @code{gnus-del-mark} (and so on) alone.
5129 @node Paging the Article
5130 @section Scrolling the Article
5131 @cindex article scrolling
5136 @kindex SPACE (Summary)
5137 @findex gnus-summary-next-page
5138 Pressing @kbd{SPACE} will scroll the current article forward one page,
5139 or, if you have come to the end of the current article, will choose the
5140 next article (@code{gnus-summary-next-page}).
5142 @vindex gnus-article-boring-faces
5143 @vindex gnus-article-skip-boring
5144 If @code{gnus-article-skip-boring} is non-@code{nil} and the rest of
5145 the article consists only of citations and signature, then it will be
5146 skipped; the next article will be shown instead. You can customize
5147 what is considered uninteresting with
5148 @code{gnus-article-boring-faces}. You can manually view the article's
5149 pages, no matter how boring, using @kbd{C-M-v}.
5152 @kindex DEL (Summary)
5153 @findex gnus-summary-prev-page
5154 Scroll the current article back one page (@code{gnus-summary-prev-page}).
5157 @kindex RET (Summary)
5158 @findex gnus-summary-scroll-up
5159 Scroll the current article one line forward
5160 (@code{gnus-summary-scroll-up}).
5163 @kindex M-RET (Summary)
5164 @findex gnus-summary-scroll-down
5165 Scroll the current article one line backward
5166 (@code{gnus-summary-scroll-down}).
5170 @kindex A g (Summary)
5172 @findex gnus-summary-show-article
5173 @vindex gnus-summary-show-article-charset-alist
5174 (Re)fetch the current article (@code{gnus-summary-show-article}). If
5175 given a prefix, fetch the current article, but don't run any of the
5176 article treatment functions. This will give you a ``raw'' article, just
5177 the way it came from the server.
5179 If given a numerical prefix, you can do semi-manual charset stuff.
5180 @kbd{C-u 0 g cn-gb-2312 RET} will decode the message as if it were
5181 encoded in the @code{cn-gb-2312} charset. If you have
5184 (setq gnus-summary-show-article-charset-alist
5189 then you can say @kbd{C-u 1 g} to get the same effect.
5194 @kindex A < (Summary)
5195 @findex gnus-summary-beginning-of-article
5196 Scroll to the beginning of the article
5197 (@code{gnus-summary-beginning-of-article}).
5202 @kindex A > (Summary)
5203 @findex gnus-summary-end-of-article
5204 Scroll to the end of the article (@code{gnus-summary-end-of-article}).
5208 @kindex A s (Summary)
5210 @findex gnus-summary-isearch-article
5211 Perform an isearch in the article buffer
5212 (@code{gnus-summary-isearch-article}).
5216 @findex gnus-summary-select-article-buffer
5217 Select the article buffer (@code{gnus-summary-select-article-buffer}).
5222 @node Reply Followup and Post
5223 @section Reply, Followup and Post
5226 * Summary Mail Commands:: Sending mail.
5227 * Summary Post Commands:: Sending news.
5228 * Summary Message Commands:: Other Message-related commands.
5229 * Canceling and Superseding::
5233 @node Summary Mail Commands
5234 @subsection Summary Mail Commands
5236 @cindex composing mail
5238 Commands for composing a mail message:
5244 @kindex S r (Summary)
5246 @findex gnus-summary-reply
5247 @c @icon{gnus-summary-mail-reply}
5248 @c @icon{gnus-summary-reply}
5249 Mail a reply to the author of the current article
5250 (@code{gnus-summary-reply}).
5255 @kindex S R (Summary)
5256 @findex gnus-summary-reply-with-original
5257 @c @icon{gnus-summary-reply-with-original}
5258 Mail a reply to the author of the current article and include the
5259 original message (@code{gnus-summary-reply-with-original}). This
5260 command uses the process/prefix convention.
5263 @kindex S w (Summary)
5264 @findex gnus-summary-wide-reply
5265 Mail a wide reply to the author of the current article
5266 (@code{gnus-summary-wide-reply}). A @dfn{wide reply} is a reply that
5267 goes out to all people listed in the @code{To}, @code{From} (or
5268 @code{Reply-to}) and @code{Cc} headers. If @code{Mail-Followup-To} is
5269 present, that's used instead.
5272 @kindex S W (Summary)
5273 @findex gnus-summary-wide-reply-with-original
5274 Mail a wide reply to the current article and include the original
5275 message (@code{gnus-summary-wide-reply-with-original}). This command uses
5276 the process/prefix convention.
5279 @kindex S v (Summary)
5280 @findex gnus-summary-very-wide-reply
5281 Mail a very wide reply to the author of the current article
5282 (@code{gnus-summary-wide-reply}). A @dfn{very wide reply} is a reply
5283 that goes out to all people listed in the @code{To}, @code{From} (or
5284 @code{Reply-to}) and @code{Cc} headers in all the process/prefixed
5285 articles. This command uses the process/prefix convention.
5288 @kindex S V (Summary)
5289 @findex gnus-summary-very-wide-reply-with-original
5290 Mail a very wide reply to the author of the current article and include the
5291 original message (@code{gnus-summary-very-wide-reply-with-original}). This
5292 command uses the process/prefix convention.
5295 @kindex S B r (Summary)
5296 @findex gnus-summary-reply-broken-reply-to
5297 Mail a reply to the author of the current article but ignore the
5298 @code{Reply-To} field (@code{gnus-summary-reply-broken-reply-to}).
5299 If you need this because a mailing list incorrectly sets a
5300 @code{Reply-To} header pointing to the list, you probably want to set
5301 the @code{broken-reply-to} group parameter instead, so things will work
5302 correctly. @xref{Group Parameters}.
5305 @kindex S B R (Summary)
5306 @findex gnus-summary-reply-broken-reply-to-with-original
5307 Mail a reply to the author of the current article and include the
5308 original message but ignore the @code{Reply-To} field
5309 (@code{gnus-summary-reply-broken-reply-to-with-original}).
5313 @kindex S o m (Summary)
5314 @kindex C-c C-f (Summary)
5315 @findex gnus-summary-mail-forward
5316 @c @icon{gnus-summary-mail-forward}
5317 Forward the current article to some other person
5318 (@code{gnus-summary-mail-forward}). If no prefix is given, the message
5319 is forwarded according to the value of (@code{message-forward-as-mime})
5320 and (@code{message-forward-show-mml}); if the prefix is 1, decode the
5321 message and forward directly inline; if the prefix is 2, forward message
5322 as an rfc822 @acronym{MIME} section; if the prefix is 3, decode message and
5323 forward as an rfc822 @acronym{MIME} section; if the prefix is 4, forward message
5324 directly inline; otherwise, the message is forwarded as no prefix given
5325 but use the flipped value of (@code{message-forward-as-mime}). By
5326 default, the message is decoded and forwarded as an rfc822 @acronym{MIME}
5332 @kindex S m (Summary)
5333 @findex gnus-summary-mail-other-window
5334 @c @icon{gnus-summary-mail-originate}
5335 Prepare a mail (@code{gnus-summary-mail-other-window}). By default, use
5336 the posting style of the current group. If given a prefix, disable that.
5337 If the prefix is 1, prompt for a group name to find the posting style.
5342 @kindex S i (Summary)
5343 @findex gnus-summary-news-other-window
5344 Prepare a news (@code{gnus-summary-news-other-window}). By default,
5345 post to the current group. If given a prefix, disable that. If the
5346 prefix is 1, prompt for a group to post to.
5348 This function actually prepares a news even when using mail groups.
5349 This is useful for ``posting'' messages to mail groups without actually
5350 sending them over the network: they're just saved directly to the group
5351 in question. The corresponding back end must have a request-post method
5352 for this to work though.
5355 @kindex S D b (Summary)
5356 @findex gnus-summary-resend-bounced-mail
5357 @cindex bouncing mail
5358 If you have sent a mail, but the mail was bounced back to you for some
5359 reason (wrong address, transient failure), you can use this command to
5360 resend that bounced mail (@code{gnus-summary-resend-bounced-mail}). You
5361 will be popped into a mail buffer where you can edit the headers before
5362 sending the mail off again. If you give a prefix to this command, and
5363 the bounced mail is a reply to some other mail, Gnus will try to fetch
5364 that mail and display it for easy perusal of its headers. This might
5365 very well fail, though.
5368 @kindex S D r (Summary)
5369 @findex gnus-summary-resend-message
5370 Not to be confused with the previous command,
5371 @code{gnus-summary-resend-message} will prompt you for an address to
5372 send the current message off to, and then send it to that place. The
5373 headers of the message won't be altered---but lots of headers that say
5374 @code{Resent-To}, @code{Resent-From} and so on will be added. This
5375 means that you actually send a mail to someone that has a @code{To}
5376 header that (probably) points to yourself. This will confuse people.
5377 So, natcherly you'll only do that if you're really eVIl.
5379 This command is mainly used if you have several accounts and want to
5380 ship a mail to a different account of yours. (If you're both
5381 @code{root} and @code{postmaster} and get a mail for @code{postmaster}
5382 to the @code{root} account, you may want to resend it to
5383 @code{postmaster}. Ordnung muss sein!
5385 This command understands the process/prefix convention
5386 (@pxref{Process/Prefix}).
5389 @kindex S D e (Summary)
5390 @findex gnus-summary-resend-message-edit
5392 Like the previous command, but will allow you to edit the message as
5393 if it were a new message before resending.
5396 @kindex S O m (Summary)
5397 @findex gnus-uu-digest-mail-forward
5398 Digest the current series (@pxref{Decoding Articles}) and forward the
5399 result using mail (@code{gnus-uu-digest-mail-forward}). This command
5400 uses the process/prefix convention (@pxref{Process/Prefix}).
5403 @kindex S M-c (Summary)
5404 @findex gnus-summary-mail-crosspost-complaint
5405 @cindex crossposting
5406 @cindex excessive crossposting
5407 Send a complaint about excessive crossposting to the author of the
5408 current article (@code{gnus-summary-mail-crosspost-complaint}).
5410 @findex gnus-crosspost-complaint
5411 This command is provided as a way to fight back against the current
5412 crossposting pandemic that's sweeping Usenet. It will compose a reply
5413 using the @code{gnus-crosspost-complaint} variable as a preamble. This
5414 command understands the process/prefix convention
5415 (@pxref{Process/Prefix}) and will prompt you before sending each mail.
5419 Also @xref{Header Commands, ,Header Commands, message, The Message
5420 Manual}, for more information.
5423 @node Summary Post Commands
5424 @subsection Summary Post Commands
5426 @cindex composing news
5428 Commands for posting a news article:
5434 @kindex S p (Summary)
5435 @findex gnus-summary-post-news
5436 @c @icon{gnus-summary-post-news}
5437 Prepare for posting an article (@code{gnus-summary-post-news}). By
5438 default, post to the current group. If given a prefix, disable that.
5439 If the prefix is 1, prompt for another group instead.
5444 @kindex S f (Summary)
5445 @findex gnus-summary-followup
5446 @c @icon{gnus-summary-followup}
5447 Post a followup to the current article (@code{gnus-summary-followup}).
5451 @kindex S F (Summary)
5453 @c @icon{gnus-summary-followup-with-original}
5454 @findex gnus-summary-followup-with-original
5455 Post a followup to the current article and include the original message
5456 (@code{gnus-summary-followup-with-original}). This command uses the
5457 process/prefix convention.
5460 @kindex S n (Summary)
5461 @findex gnus-summary-followup-to-mail
5462 Post a followup to the current article via news, even if you got the
5463 message through mail (@code{gnus-summary-followup-to-mail}).
5466 @kindex S N (Summary)
5467 @findex gnus-summary-followup-to-mail-with-original
5468 Post a followup to the current article via news, even if you got the
5469 message through mail and include the original message
5470 (@code{gnus-summary-followup-to-mail-with-original}). This command uses
5471 the process/prefix convention.
5474 @kindex S o p (Summary)
5475 @findex gnus-summary-post-forward
5476 Forward the current article to a newsgroup
5477 (@code{gnus-summary-post-forward}).
5478 If no prefix is given, the message is forwarded according to the value
5479 of (@code{message-forward-as-mime}) and
5480 (@code{message-forward-show-mml}); if the prefix is 1, decode the
5481 message and forward directly inline; if the prefix is 2, forward message
5482 as an rfc822 @acronym{MIME} section; if the prefix is 3, decode message and
5483 forward as an rfc822 @acronym{MIME} section; if the prefix is 4, forward message
5484 directly inline; otherwise, the message is forwarded as no prefix given
5485 but use the flipped value of (@code{message-forward-as-mime}). By
5486 default, the message is decoded and forwarded as an rfc822 @acronym{MIME} section.
5489 @kindex S O p (Summary)
5490 @findex gnus-uu-digest-post-forward
5492 @cindex making digests
5493 Digest the current series and forward the result to a newsgroup
5494 (@code{gnus-uu-digest-mail-forward}). This command uses the
5495 process/prefix convention.
5498 @kindex S u (Summary)
5499 @findex gnus-uu-post-news
5500 @c @icon{gnus-uu-post-news}
5501 Uuencode a file, split it into parts, and post it as a series
5502 (@code{gnus-uu-post-news}). (@pxref{Uuencoding and Posting}).
5505 Also @xref{Header Commands, ,Header Commands, message, The Message
5506 Manual}, for more information.
5509 @node Summary Message Commands
5510 @subsection Summary Message Commands
5514 @kindex S y (Summary)
5515 @findex gnus-summary-yank-message
5516 Yank the current article into an already existing Message composition
5517 buffer (@code{gnus-summary-yank-message}). This command prompts for
5518 what message buffer you want to yank into, and understands the
5519 process/prefix convention (@pxref{Process/Prefix}).
5524 @node Canceling and Superseding
5525 @subsection Canceling Articles
5526 @cindex canceling articles
5527 @cindex superseding articles
5529 Have you ever written something, and then decided that you really,
5530 really, really wish you hadn't posted that?
5532 Well, you can't cancel mail, but you can cancel posts.
5534 @findex gnus-summary-cancel-article
5536 @c @icon{gnus-summary-cancel-article}
5537 Find the article you wish to cancel (you can only cancel your own
5538 articles, so don't try any funny stuff). Then press @kbd{C} or @kbd{S
5539 c} (@code{gnus-summary-cancel-article}). Your article will be
5540 canceled---machines all over the world will be deleting your article.
5541 This command uses the process/prefix convention (@pxref{Process/Prefix}).
5543 Be aware, however, that not all sites honor cancels, so your article may
5544 live on here and there, while most sites will delete the article in
5547 Gnus will use the ``current'' select method when canceling. If you
5548 want to use the standard posting method, use the @samp{a} symbolic
5549 prefix (@pxref{Symbolic Prefixes}).
5551 Gnus ensures that only you can cancel your own messages using a
5552 @code{Cancel-Lock} header (@pxref{Canceling News, Canceling News, ,
5553 message, Message Manual}).
5555 If you discover that you have made some mistakes and want to do some
5556 corrections, you can post a @dfn{superseding} article that will replace
5557 your original article.
5559 @findex gnus-summary-supersede-article
5561 Go to the original article and press @kbd{S s}
5562 (@code{gnus-summary-supersede-article}). You will be put in a buffer
5563 where you can edit the article all you want before sending it off the
5566 The same goes for superseding as for canceling, only more so: Some
5567 sites do not honor superseding. On those sites, it will appear that you
5568 have posted almost the same article twice.
5570 If you have just posted the article, and change your mind right away,
5571 there is a trick you can use to cancel/supersede the article without
5572 waiting for the article to appear on your site first. You simply return
5573 to the post buffer (which is called @code{*sent ...*}). There you will
5574 find the article you just posted, with all the headers intact. Change
5575 the @code{Message-ID} header to a @code{Cancel} or @code{Supersedes}
5576 header by substituting one of those words for the word
5577 @code{Message-ID}. Then just press @kbd{C-c C-c} to send the article as
5578 you would do normally. The previous article will be
5579 canceled/superseded.
5581 Just remember, kids: There is no 'c' in 'supersede'.
5583 @node Delayed Articles
5584 @section Delayed Articles
5585 @cindex delayed sending
5586 @cindex send delayed
5588 Sometimes, you might wish to delay the sending of a message. For
5589 example, you might wish to arrange for a message to turn up just in time
5590 to remind your about the birthday of your Significant Other. For this,
5591 there is the @code{gnus-delay} package. Setup is simple:
5594 (gnus-delay-initialize)
5597 @findex gnus-delay-article
5598 Normally, to send a message you use the @kbd{C-c C-c} command from
5599 Message mode. To delay a message, use @kbd{C-c C-j}
5600 (@code{gnus-delay-article}) instead. This will ask you for how long the
5601 message should be delayed. Possible answers are:
5605 A time span. Consists of an integer and a letter. For example,
5606 @code{42d} means to delay for 42 days. Available letters are @code{m}
5607 (minutes), @code{h} (hours), @code{d} (days), @code{w} (weeks), @code{M}
5608 (months) and @code{Y} (years).
5611 A specific date. Looks like @code{YYYY-MM-DD}. The message will be
5612 delayed until that day, at a specific time (eight o'clock by default).
5613 See also @code{gnus-delay-default-hour}.
5616 A specific time of day. Given in @code{hh:mm} format, 24h, no am/pm
5617 stuff. The deadline will be at that time today, except if that time has
5618 already passed, then it's at the given time tomorrow. So if it's ten
5619 o'clock in the morning and you specify @code{11:15}, then the deadline
5620 is one hour and fifteen minutes hence. But if you specify @code{9:20},
5621 that means a time tomorrow.
5624 The action of the @code{gnus-delay-article} command is influenced by a
5625 couple of variables:
5628 @item gnus-delay-default-hour
5629 @vindex gnus-delay-default-hour
5630 When you specify a specific date, the message will be due on that hour
5631 on the given date. Possible values are integers 0 through 23.
5633 @item gnus-delay-default-delay
5634 @vindex gnus-delay-default-delay
5635 This is a string and gives the default delay. It can be of any of the
5636 formats described above.
5638 @item gnus-delay-group
5639 @vindex gnus-delay-group
5640 Delayed articles will be kept in this group on the drafts server until
5641 they are due. You probably don't need to change this. The default
5642 value is @code{"delayed"}.
5644 @item gnus-delay-header
5645 @vindex gnus-delay-header
5646 The deadline for each article will be stored in a header. This variable
5647 is a string and gives the header name. You probably don't need to
5648 change this. The default value is @code{"X-Gnus-Delayed"}.
5651 The way delaying works is like this: when you use the
5652 @code{gnus-delay-article} command, you give a certain delay. Gnus
5653 calculates the deadline of the message and stores it in the
5654 @code{X-Gnus-Delayed} header and puts the message in the
5655 @code{nndraft:delayed} group.
5657 @findex gnus-delay-send-queue
5658 And whenever you get new news, Gnus looks through the group for articles
5659 which are due and sends them. It uses the @code{gnus-delay-send-queue}
5660 function for this. By default, this function is added to the hook
5661 @code{gnus-get-new-news-hook}. But of course, you can change this.
5662 Maybe you want to use the demon to send drafts? Just tell the demon to
5663 execute the @code{gnus-delay-send-queue} function.
5666 @item gnus-delay-initialize
5667 @findex gnus-delay-initialize
5668 By default, this function installs @code{gnus-delay-send-queue} in
5669 @code{gnus-get-new-news-hook}. But it accepts the optional second
5670 argument @code{no-check}. If it is non-@code{nil},
5671 @code{gnus-get-new-news-hook} is not changed. The optional first
5672 argument is ignored.
5674 For example, @code{(gnus-delay-initialize nil t)} means to do nothing.
5675 Presumably, you want to use the demon for sending due delayed articles.
5676 Just don't forget to set that up :-)
5680 @node Marking Articles
5681 @section Marking Articles
5682 @cindex article marking
5683 @cindex article ticking
5686 There are several marks you can set on an article.
5688 You have marks that decide the @dfn{readedness} (whoo, neato-keano
5689 neologism ohoy!) of the article. Alphabetic marks generally mean
5690 @dfn{read}, while non-alphabetic characters generally mean @dfn{unread}.
5692 In addition, you also have marks that do not affect readedness.
5695 There's a plethora of commands for manipulating these marks.
5699 * Unread Articles:: Marks for unread articles.
5700 * Read Articles:: Marks for read articles.
5701 * Other Marks:: Marks that do not affect readedness.
5702 * Setting Marks:: How to set and remove marks.
5703 * Generic Marking Commands:: How to customize the marking.
5704 * Setting Process Marks:: How to mark articles for later processing.
5708 @node Unread Articles
5709 @subsection Unread Articles
5711 The following marks mark articles as (kinda) unread, in one form or
5716 @vindex gnus-ticked-mark
5717 Marked as ticked (@code{gnus-ticked-mark}).
5719 @dfn{Ticked articles} are articles that will remain visible always. If
5720 you see an article that you find interesting, or you want to put off
5721 reading it, or replying to it, until sometime later, you'd typically
5722 tick it. However, articles can be expired (from news servers by the
5723 news server software, Gnus itself never expires ticked messages), so if
5724 you want to keep an article forever, you'll have to make it persistent
5725 (@pxref{Persistent Articles}).
5728 @vindex gnus-dormant-mark
5729 Marked as dormant (@code{gnus-dormant-mark}).
5731 @dfn{Dormant articles} will only appear in the summary buffer if there
5732 are followups to it. If you want to see them even if they don't have
5733 followups, you can use the @kbd{/ D} command (@pxref{Limiting}).
5734 Otherwise (except for the visibility issue), they are just like ticked
5738 @vindex gnus-unread-mark
5739 Marked as unread (@code{gnus-unread-mark}).
5741 @dfn{Unread articles} are articles that haven't been read at all yet.
5746 @subsection Read Articles
5747 @cindex expirable mark
5749 All the following marks mark articles as read.
5754 @vindex gnus-del-mark
5755 These are articles that the user has marked as read with the @kbd{d}
5756 command manually, more or less (@code{gnus-del-mark}).
5759 @vindex gnus-read-mark
5760 Articles that have actually been read (@code{gnus-read-mark}).
5763 @vindex gnus-ancient-mark
5764 Articles that were marked as read in previous sessions and are now
5765 @dfn{old} (@code{gnus-ancient-mark}).
5768 @vindex gnus-killed-mark
5769 Marked as killed (@code{gnus-killed-mark}).
5772 @vindex gnus-kill-file-mark
5773 Marked as killed by kill files (@code{gnus-kill-file-mark}).
5776 @vindex gnus-low-score-mark
5777 Marked as read by having too low a score (@code{gnus-low-score-mark}).
5780 @vindex gnus-catchup-mark
5781 Marked as read by a catchup (@code{gnus-catchup-mark}).
5784 @vindex gnus-canceled-mark
5785 Canceled article (@code{gnus-canceled-mark})
5788 @vindex gnus-souped-mark
5789 @sc{soup}ed article (@code{gnus-souped-mark}). @xref{SOUP}.
5792 @vindex gnus-sparse-mark
5793 Sparsely reffed article (@code{gnus-sparse-mark}). @xref{Customizing
5797 @vindex gnus-duplicate-mark
5798 Article marked as read by duplicate suppression
5799 (@code{gnus-duplicate-mark}). @xref{Duplicate Suppression}.
5803 All these marks just mean that the article is marked as read, really.
5804 They are interpreted differently when doing adaptive scoring, though.
5806 One more special mark, though:
5810 @vindex gnus-expirable-mark
5811 Marked as expirable (@code{gnus-expirable-mark}).
5813 Marking articles as @dfn{expirable} (or have them marked as such
5814 automatically) doesn't make much sense in normal groups---a user doesn't
5815 control expiring of news articles, but in mail groups, for instance,
5816 articles marked as @dfn{expirable} can be deleted by Gnus at
5822 @subsection Other Marks
5823 @cindex process mark
5826 There are some marks that have nothing to do with whether the article is
5832 You can set a bookmark in the current article. Say you are reading a
5833 long thesis on cats' urinary tracts, and have to go home for dinner
5834 before you've finished reading the thesis. You can then set a bookmark
5835 in the article, and Gnus will jump to this bookmark the next time it
5836 encounters the article. @xref{Setting Marks}.
5839 @vindex gnus-replied-mark
5840 All articles that you have replied to or made a followup to (i.e., have
5841 answered) will be marked with an @samp{A} in the second column
5842 (@code{gnus-replied-mark}).
5845 @vindex gnus-forwarded-mark
5846 All articles that you have forwarded will be marked with an @samp{F} in
5847 the second column (@code{gnus-forwarded-mark}).
5850 @vindex gnus-cached-mark
5851 Articles stored in the article cache will be marked with an @samp{*} in
5852 the second column (@code{gnus-cached-mark}). @xref{Article Caching}.
5855 @vindex gnus-saved-mark
5856 Articles ``saved'' (in some manner or other; not necessarily
5857 religiously) are marked with an @samp{S} in the second column
5858 (@code{gnus-saved-mark}).
5861 @vindex gnus-recent-mark
5862 Articles that according to the server haven't been shown to the user
5863 before are marked with a @samp{N} in the second column
5864 (@code{gnus-recent-mark}). Note that not all servers support this
5865 mark, in which case it simply never appears. Compare with
5866 @code{gnus-unseen-mark}.
5869 @vindex gnus-unseen-mark
5870 Articles that haven't been seen before in Gnus by the user are marked
5871 with a @samp{.} in the second column (@code{gnus-unseen-mark}).
5872 Compare with @code{gnus-recent-mark}.
5875 @vindex gnus-downloaded-mark
5876 When using the Gnus agent (@pxref{Agent Basics}), articles may be
5877 downloaded for unplugged (offline) viewing. If you are using the
5878 @samp{%O} spec, these articles get the @samp{+} mark in that spec.
5879 (The variable @code{gnus-downloaded-mark} controls which character to
5883 @vindex gnus-undownloaded-mark
5884 When using the Gnus agent (@pxref{Agent Basics}), some articles might
5885 not have been downloaded. Such articles cannot be viewed while you
5886 are unplugged (offline). If you are using the @samp{%O} spec, these
5887 articles get the @samp{-} mark in that spec. (The variable
5888 @code{gnus-undownloaded-mark} controls which character to use.)
5891 @vindex gnus-downloadable-mark
5892 The Gnus agent (@pxref{Agent Basics}) downloads some articles
5893 automatically, but it is also possible to explicitly mark articles for
5894 download, even if they would not be downloaded automatically. Such
5895 explicitly-marked articles get the @samp{%} mark in the first column.
5896 (The variable @code{gnus-downloadable-mark} controls which character to
5900 @vindex gnus-not-empty-thread-mark
5901 @vindex gnus-empty-thread-mark
5902 If the @samp{%e} spec is used, the presence of threads or not will be
5903 marked with @code{gnus-not-empty-thread-mark} and
5904 @code{gnus-empty-thread-mark} in the third column, respectively.
5907 @vindex gnus-process-mark
5908 Finally we have the @dfn{process mark} (@code{gnus-process-mark}). A
5909 variety of commands react to the presence of the process mark. For
5910 instance, @kbd{X u} (@code{gnus-uu-decode-uu}) will uudecode and view
5911 all articles that have been marked with the process mark. Articles
5912 marked with the process mark have a @samp{#} in the second column.
5916 You might have noticed that most of these ``non-readedness'' marks
5917 appear in the second column by default. So if you have a cached, saved,
5918 replied article that you have process-marked, what will that look like?
5920 Nothing much. The precedence rules go as follows: process -> cache ->
5921 replied -> saved. So if the article is in the cache and is replied,
5922 you'll only see the cache mark and not the replied mark.
5926 @subsection Setting Marks
5927 @cindex setting marks
5929 All the marking commands understand the numeric prefix.
5934 @kindex M c (Summary)
5935 @kindex M-u (Summary)
5936 @findex gnus-summary-clear-mark-forward
5937 @cindex mark as unread
5938 Clear all readedness-marks from the current article
5939 (@code{gnus-summary-clear-mark-forward}). In other words, mark the
5945 @kindex M t (Summary)
5946 @findex gnus-summary-tick-article-forward
5947 Tick the current article (@code{gnus-summary-tick-article-forward}).
5948 @xref{Article Caching}.
5953 @kindex M ? (Summary)
5954 @findex gnus-summary-mark-as-dormant
5955 Mark the current article as dormant
5956 (@code{gnus-summary-mark-as-dormant}). @xref{Article Caching}.
5960 @kindex M d (Summary)
5962 @findex gnus-summary-mark-as-read-forward
5963 Mark the current article as read
5964 (@code{gnus-summary-mark-as-read-forward}).
5968 @findex gnus-summary-mark-as-read-backward
5969 Mark the current article as read and move point to the previous line
5970 (@code{gnus-summary-mark-as-read-backward}).
5975 @kindex M k (Summary)
5976 @findex gnus-summary-kill-same-subject-and-select
5977 Mark all articles that have the same subject as the current one as read,
5978 and then select the next unread article
5979 (@code{gnus-summary-kill-same-subject-and-select}).
5983 @kindex M K (Summary)
5984 @kindex C-k (Summary)
5985 @findex gnus-summary-kill-same-subject
5986 Mark all articles that have the same subject as the current one as read
5987 (@code{gnus-summary-kill-same-subject}).
5990 @kindex M C (Summary)
5991 @findex gnus-summary-catchup
5992 @c @icon{gnus-summary-catchup}
5993 Mark all unread articles as read (@code{gnus-summary-catchup}).
5996 @kindex M C-c (Summary)
5997 @findex gnus-summary-catchup-all
5998 Mark all articles in the group as read---even the ticked and dormant
5999 articles (@code{gnus-summary-catchup-all}).
6002 @kindex M H (Summary)
6003 @findex gnus-summary-catchup-to-here
6004 Catchup the current group to point (before the point)
6005 (@code{gnus-summary-catchup-to-here}).
6008 @kindex M h (Summary)
6009 @findex gnus-summary-catchup-from-here
6010 Catchup the current group from point (after the point)
6011 (@code{gnus-summary-catchup-from-here}).
6014 @kindex C-w (Summary)
6015 @findex gnus-summary-mark-region-as-read
6016 Mark all articles between point and mark as read
6017 (@code{gnus-summary-mark-region-as-read}).
6020 @kindex M V k (Summary)
6021 @findex gnus-summary-kill-below
6022 Kill all articles with scores below the default score (or below the
6023 numeric prefix) (@code{gnus-summary-kill-below}).
6027 @kindex M e (Summary)
6029 @findex gnus-summary-mark-as-expirable
6030 Mark the current article as expirable
6031 (@code{gnus-summary-mark-as-expirable}).
6034 @kindex M b (Summary)
6035 @findex gnus-summary-set-bookmark
6036 Set a bookmark in the current article
6037 (@code{gnus-summary-set-bookmark}).
6040 @kindex M B (Summary)
6041 @findex gnus-summary-remove-bookmark
6042 Remove the bookmark from the current article
6043 (@code{gnus-summary-remove-bookmark}).
6046 @kindex M V c (Summary)
6047 @findex gnus-summary-clear-above
6048 Clear all marks from articles with scores over the default score (or
6049 over the numeric prefix) (@code{gnus-summary-clear-above}).
6052 @kindex M V u (Summary)
6053 @findex gnus-summary-tick-above
6054 Tick all articles with scores over the default score (or over the
6055 numeric prefix) (@code{gnus-summary-tick-above}).
6058 @kindex M V m (Summary)
6059 @findex gnus-summary-mark-above
6060 Prompt for a mark, and mark all articles with scores over the default
6061 score (or over the numeric prefix) with this mark
6062 (@code{gnus-summary-clear-above}).
6065 @vindex gnus-summary-goto-unread
6066 The @code{gnus-summary-goto-unread} variable controls what action should
6067 be taken after setting a mark. If non-@code{nil}, point will move to
6068 the next/previous unread article. If @code{nil}, point will just move
6069 one line up or down. As a special case, if this variable is
6070 @code{never}, all the marking commands as well as other commands (like
6071 @kbd{SPACE}) will move to the next article, whether it is unread or not.
6072 The default is @code{t}.
6075 @node Generic Marking Commands
6076 @subsection Generic Marking Commands
6078 Some people would like the command that ticks an article (@kbd{!}) go to
6079 the next article. Others would like it to go to the next unread
6080 article. Yet others would like it to stay on the current article. And
6081 even though I haven't heard of anybody wanting it to go to the
6082 previous (unread) article, I'm sure there are people that want that as
6085 Multiply these five behaviors with five different marking commands, and
6086 you get a potentially complex set of variable to control what each
6089 To sidestep that mess, Gnus provides commands that do all these
6090 different things. They can be found on the @kbd{M M} map in the summary
6091 buffer. Type @kbd{M M C-h} to see them all---there are too many of them
6092 to list in this manual.
6094 While you can use these commands directly, most users would prefer
6095 altering the summary mode keymap. For instance, if you would like the
6096 @kbd{!} command to go to the next article instead of the next unread
6097 article, you could say something like:
6101 (add-hook 'gnus-summary-mode-hook 'my-alter-summary-map)
6102 (defun my-alter-summary-map ()
6103 (local-set-key "!" 'gnus-summary-put-mark-as-ticked-next))
6111 (defun my-alter-summary-map ()
6112 (local-set-key "!" "MM!n"))
6116 @node Setting Process Marks
6117 @subsection Setting Process Marks
6118 @cindex setting process marks
6120 Process marks are displayed as @code{#} in the summary buffer, and are
6121 used for marking articles in such a way that other commands will
6122 process these articles. For instance, if you process mark four
6123 articles and then use the @kbd{*} command, Gnus will enter these four
6124 commands into the cache. For more information,
6125 @pxref{Process/Prefix}.
6132 @kindex M P p (Summary)
6133 @findex gnus-summary-mark-as-processable
6134 Mark the current article with the process mark
6135 (@code{gnus-summary-mark-as-processable}).
6136 @findex gnus-summary-unmark-as-processable
6140 @kindex M P u (Summary)
6141 @kindex M-# (Summary)
6142 Remove the process mark, if any, from the current article
6143 (@code{gnus-summary-unmark-as-processable}).
6146 @kindex M P U (Summary)
6147 @findex gnus-summary-unmark-all-processable
6148 Remove the process mark from all articles
6149 (@code{gnus-summary-unmark-all-processable}).
6152 @kindex M P i (Summary)
6153 @findex gnus-uu-invert-processable
6154 Invert the list of process marked articles
6155 (@code{gnus-uu-invert-processable}).
6158 @kindex M P R (Summary)
6159 @findex gnus-uu-mark-by-regexp
6160 Mark articles that have a @code{Subject} header that matches a regular
6161 expression (@code{gnus-uu-mark-by-regexp}).
6164 @kindex M P G (Summary)
6165 @findex gnus-uu-unmark-by-regexp
6166 Unmark articles that have a @code{Subject} header that matches a regular
6167 expression (@code{gnus-uu-unmark-by-regexp}).
6170 @kindex M P r (Summary)
6171 @findex gnus-uu-mark-region
6172 Mark articles in region (@code{gnus-uu-mark-region}).
6175 @kindex M P g (Summary)
6176 @findex gnus-uu-unmark-region
6177 Unmark articles in region (@code{gnus-uu-unmark-region}).
6180 @kindex M P t (Summary)
6181 @findex gnus-uu-mark-thread
6182 Mark all articles in the current (sub)thread
6183 (@code{gnus-uu-mark-thread}).
6186 @kindex M P T (Summary)
6187 @findex gnus-uu-unmark-thread
6188 Unmark all articles in the current (sub)thread
6189 (@code{gnus-uu-unmark-thread}).
6192 @kindex M P v (Summary)
6193 @findex gnus-uu-mark-over
6194 Mark all articles that have a score above the prefix argument
6195 (@code{gnus-uu-mark-over}).
6198 @kindex M P s (Summary)
6199 @findex gnus-uu-mark-series
6200 Mark all articles in the current series (@code{gnus-uu-mark-series}).
6203 @kindex M P S (Summary)
6204 @findex gnus-uu-mark-sparse
6205 Mark all series that have already had some articles marked
6206 (@code{gnus-uu-mark-sparse}).
6209 @kindex M P a (Summary)
6210 @findex gnus-uu-mark-all
6211 Mark all articles in series order (@code{gnus-uu-mark-all}).
6214 @kindex M P b (Summary)
6215 @findex gnus-uu-mark-buffer
6216 Mark all articles in the buffer in the order they appear
6217 (@code{gnus-uu-mark-buffer}).
6220 @kindex M P k (Summary)
6221 @findex gnus-summary-kill-process-mark
6222 Push the current process mark set onto the stack and unmark all articles
6223 (@code{gnus-summary-kill-process-mark}).
6226 @kindex M P y (Summary)
6227 @findex gnus-summary-yank-process-mark
6228 Pop the previous process mark set from the stack and restore it
6229 (@code{gnus-summary-yank-process-mark}).
6232 @kindex M P w (Summary)
6233 @findex gnus-summary-save-process-mark
6234 Push the current process mark set onto the stack
6235 (@code{gnus-summary-save-process-mark}).
6239 Also see the @kbd{&} command in @ref{Searching for Articles}, for how to
6240 set process marks based on article body contents.
6247 It can be convenient to limit the summary buffer to just show some
6248 subset of the articles currently in the group. The effect most limit
6249 commands have is to remove a few (or many) articles from the summary
6252 All limiting commands work on subsets of the articles already fetched
6253 from the servers. None of these commands query the server for
6254 additional articles.
6260 @kindex / / (Summary)
6261 @findex gnus-summary-limit-to-subject
6262 Limit the summary buffer to articles that match some subject
6263 (@code{gnus-summary-limit-to-subject}). If given a prefix, exclude
6267 @kindex / a (Summary)
6268 @findex gnus-summary-limit-to-author
6269 Limit the summary buffer to articles that match some author
6270 (@code{gnus-summary-limit-to-author}). If given a prefix, exclude
6274 @kindex / x (Summary)
6275 @findex gnus-summary-limit-to-extra
6276 Limit the summary buffer to articles that match one of the ``extra''
6277 headers (@pxref{To From Newsgroups})
6278 (@code{gnus-summary-limit-to-extra}). If given a prefix, exclude
6283 @kindex / u (Summary)
6285 @findex gnus-summary-limit-to-unread
6286 Limit the summary buffer to articles not marked as read
6287 (@code{gnus-summary-limit-to-unread}). If given a prefix, limit the
6288 buffer to articles strictly unread. This means that ticked and
6289 dormant articles will also be excluded.
6292 @kindex / m (Summary)
6293 @findex gnus-summary-limit-to-marks
6294 Ask for a mark and then limit to all articles that have been marked
6295 with that mark (@code{gnus-summary-limit-to-marks}).
6298 @kindex / t (Summary)
6299 @findex gnus-summary-limit-to-age
6300 Ask for a number and then limit the summary buffer to articles older than (or equal to) that number of days
6301 (@code{gnus-summary-limit-to-age}). If given a prefix, limit to
6302 articles younger than that number of days.
6305 @kindex / n (Summary)
6306 @findex gnus-summary-limit-to-articles
6307 Limit the summary buffer to the current article
6308 (@code{gnus-summary-limit-to-articles}). Uses the process/prefix
6309 convention (@pxref{Process/Prefix}).
6312 @kindex / w (Summary)
6313 @findex gnus-summary-pop-limit
6314 Pop the previous limit off the stack and restore it
6315 (@code{gnus-summary-pop-limit}). If given a prefix, pop all limits off
6319 @kindex / . (Summary)
6320 @findex gnus-summary-limit-to-unseen
6321 Limit the summary buffer to the unseen articles
6322 (@code{gnus-summary-limit-to-unseen}).
6325 @kindex / v (Summary)
6326 @findex gnus-summary-limit-to-score
6327 Limit the summary buffer to articles that have a score at or above some
6328 score (@code{gnus-summary-limit-to-score}).
6331 @kindex / p (Summary)
6332 @findex gnus-summary-limit-to-display-predicate
6333 Limit the summary buffer to articles that satisfy the @code{display}
6334 group parameter predicate
6335 (@code{gnus-summary-limit-to-display-predicate}). @xref{Group
6336 Parameters}, for more on this predicate.
6340 @kindex M S (Summary)
6341 @kindex / E (Summary)
6342 @findex gnus-summary-limit-include-expunged
6343 Include all expunged articles in the limit
6344 (@code{gnus-summary-limit-include-expunged}).
6347 @kindex / D (Summary)
6348 @findex gnus-summary-limit-include-dormant
6349 Include all dormant articles in the limit
6350 (@code{gnus-summary-limit-include-dormant}).
6353 @kindex / * (Summary)
6354 @findex gnus-summary-limit-include-cached
6355 Include all cached articles in the limit
6356 (@code{gnus-summary-limit-include-cached}).
6359 @kindex / d (Summary)
6360 @findex gnus-summary-limit-exclude-dormant
6361 Exclude all dormant articles from the limit
6362 (@code{gnus-summary-limit-exclude-dormant}).
6365 @kindex / M (Summary)
6366 @findex gnus-summary-limit-exclude-marks
6367 Exclude all marked articles (@code{gnus-summary-limit-exclude-marks}).
6370 @kindex / T (Summary)
6371 @findex gnus-summary-limit-include-thread
6372 Include all the articles in the current thread in the limit.
6375 @kindex / c (Summary)
6376 @findex gnus-summary-limit-exclude-childless-dormant
6377 Exclude all dormant articles that have no children from the limit@*
6378 (@code{gnus-summary-limit-exclude-childless-dormant}).
6381 @kindex / C (Summary)
6382 @findex gnus-summary-limit-mark-excluded-as-read
6383 Mark all excluded unread articles as read
6384 (@code{gnus-summary-limit-mark-excluded-as-read}). If given a prefix,
6385 also mark excluded ticked and dormant articles as read.
6388 @kindex / N (Summary)
6389 @findex gnus-summary-insert-new-articles
6390 Insert all new articles in the summary buffer. It scans for new emails
6391 if @var{back-end}@code{-get-new-mail} is non-@code{nil}.
6394 @kindex / o (Summary)
6395 @findex gnus-summary-insert-old-articles
6396 Insert all old articles in the summary buffer. If given a numbered
6397 prefix, fetch this number of articles.
6405 @cindex article threading
6407 Gnus threads articles by default. @dfn{To thread} is to put responses
6408 to articles directly after the articles they respond to---in a
6409 hierarchical fashion.
6411 Threading is done by looking at the @code{References} headers of the
6412 articles. In a perfect world, this would be enough to build pretty
6413 trees, but unfortunately, the @code{References} header is often broken
6414 or simply missing. Weird news propagation exacerbates the problem,
6415 so one has to employ other heuristics to get pleasing results. A
6416 plethora of approaches exists, as detailed in horrible detail in
6417 @ref{Customizing Threading}.
6419 First, a quick overview of the concepts:
6423 The top-most article in a thread; the first article in the thread.
6426 A tree-like article structure.
6429 A small(er) section of this tree-like structure.
6432 Threads often lose their roots due to article expiry, or due to the root
6433 already having been read in a previous session, and not displayed in the
6434 summary buffer. We then typically have many sub-threads that really
6435 belong to one thread, but are without connecting roots. These are
6436 called loose threads.
6438 @item thread gathering
6439 An attempt to gather loose threads into bigger threads.
6441 @item sparse threads
6442 A thread where the missing articles have been ``guessed'' at, and are
6443 displayed as empty lines in the summary buffer.
6449 * Customizing Threading:: Variables you can change to affect the threading.
6450 * Thread Commands:: Thread based commands in the summary buffer.
6454 @node Customizing Threading
6455 @subsection Customizing Threading
6456 @cindex customizing threading
6459 * Loose Threads:: How Gnus gathers loose threads into bigger threads.
6460 * Filling In Threads:: Making the threads displayed look fuller.
6461 * More Threading:: Even more variables for fiddling with threads.
6462 * Low-Level Threading:: You thought it was over@dots{} but you were wrong!
6467 @subsubsection Loose Threads
6470 @cindex loose threads
6473 @item gnus-summary-make-false-root
6474 @vindex gnus-summary-make-false-root
6475 If non-@code{nil}, Gnus will gather all loose subtrees into one big tree
6476 and create a dummy root at the top. (Wait a minute. Root at the top?
6477 Yup.) Loose subtrees occur when the real root has expired, or you've
6478 read or killed the root in a previous session.
6480 When there is no real root of a thread, Gnus will have to fudge
6481 something. This variable says what fudging method Gnus should use.
6482 There are four possible values:
6486 \gnusfigure{The Summary Buffer}{390}{
6487 \put(0,0){\epsfig{figure=ps/summary-adopt,width=7.5cm}}
6488 \put(445,0){\makebox(0,0)[br]{\epsfig{figure=ps/summary-empty,width=7.5cm}}}
6489 \put(0,400){\makebox(0,0)[tl]{\epsfig{figure=ps/summary-none,width=7.5cm}}}
6490 \put(445,400){\makebox(0,0)[tr]{\epsfig{figure=ps/summary-dummy,width=7.5cm}}}
6495 @cindex adopting articles
6500 Gnus will make the first of the orphaned articles the parent. This
6501 parent will adopt all the other articles. The adopted articles will be
6502 marked as such by pointy brackets (@samp{<>}) instead of the standard
6503 square brackets (@samp{[]}). This is the default method.
6506 @vindex gnus-summary-dummy-line-format
6507 @vindex gnus-summary-make-false-root-always
6508 Gnus will create a dummy summary line that will pretend to be the
6509 parent. This dummy line does not correspond to any real article, so
6510 selecting it will just select the first real article after the dummy
6511 article. @code{gnus-summary-dummy-line-format} is used to specify the
6512 format of the dummy roots. It accepts only one format spec: @samp{S},
6513 which is the subject of the article. @xref{Formatting Variables}.
6514 If you want all threads to have a dummy root, even the non-gathered
6515 ones, set @code{gnus-summary-make-false-root-always} to @code{t}.
6518 Gnus won't actually make any article the parent, but simply leave the
6519 subject field of all orphans except the first empty. (Actually, it will
6520 use @code{gnus-summary-same-subject} as the subject (@pxref{Summary
6524 Don't make any article parent at all. Just gather the threads and
6525 display them after one another.
6528 Don't gather loose threads.
6531 @item gnus-summary-gather-subject-limit
6532 @vindex gnus-summary-gather-subject-limit
6533 Loose threads are gathered by comparing subjects of articles. If this
6534 variable is @code{nil}, Gnus requires an exact match between the
6535 subjects of the loose threads before gathering them into one big
6536 super-thread. This might be too strict a requirement, what with the
6537 presence of stupid newsreaders that chop off long subject lines. If
6538 you think so, set this variable to, say, 20 to require that only the
6539 first 20 characters of the subjects have to match. If you set this
6540 variable to a really low number, you'll find that Gnus will gather
6541 everything in sight into one thread, which isn't very helpful.
6543 @cindex fuzzy article gathering
6544 If you set this variable to the special value @code{fuzzy}, Gnus will
6545 use a fuzzy string comparison algorithm on the subjects (@pxref{Fuzzy
6548 @item gnus-simplify-subject-fuzzy-regexp
6549 @vindex gnus-simplify-subject-fuzzy-regexp
6550 This can either be a regular expression or list of regular expressions
6551 that match strings that will be removed from subjects if fuzzy subject
6552 simplification is used.
6554 @item gnus-simplify-ignored-prefixes
6555 @vindex gnus-simplify-ignored-prefixes
6556 If you set @code{gnus-summary-gather-subject-limit} to something as low
6557 as 10, you might consider setting this variable to something sensible:
6559 @c Written by Michael Ernst <mernst@cs.rice.edu>
6561 (setq gnus-simplify-ignored-prefixes
6567 "wanted" "followup" "summary\\( of\\)?"
6568 "help" "query" "problem" "question"
6569 "answer" "reference" "announce"
6570 "How can I" "How to" "Comparison of"
6575 (mapconcat 'identity
6576 '("for" "for reference" "with" "about")
6578 "\\)?\\]?:?[ \t]*"))
6581 All words that match this regexp will be removed before comparing two
6584 @item gnus-simplify-subject-functions
6585 @vindex gnus-simplify-subject-functions
6586 If non-@code{nil}, this variable overrides
6587 @code{gnus-summary-gather-subject-limit}. This variable should be a
6588 list of functions to apply to the @code{Subject} string iteratively to
6589 arrive at the simplified version of the string.
6591 Useful functions to put in this list include:
6594 @item gnus-simplify-subject-re
6595 @findex gnus-simplify-subject-re
6596 Strip the leading @samp{Re:}.
6598 @item gnus-simplify-subject-fuzzy
6599 @findex gnus-simplify-subject-fuzzy
6602 @item gnus-simplify-whitespace
6603 @findex gnus-simplify-whitespace
6604 Remove excessive whitespace.
6606 @item gnus-simplify-all-whitespace
6607 @findex gnus-simplify-all-whitespace
6608 Remove all whitespace.
6611 You may also write your own functions, of course.
6614 @item gnus-summary-gather-exclude-subject
6615 @vindex gnus-summary-gather-exclude-subject
6616 Since loose thread gathering is done on subjects only, that might lead
6617 to many false hits, especially with certain common subjects like
6618 @samp{} and @samp{(none)}. To make the situation slightly better,
6619 you can use the regexp @code{gnus-summary-gather-exclude-subject} to say
6620 what subjects should be excluded from the gathering process.@*
6621 The default is @samp{^ *$\\|^(none)$}.
6623 @item gnus-summary-thread-gathering-function
6624 @vindex gnus-summary-thread-gathering-function
6625 Gnus gathers threads by looking at @code{Subject} headers. This means
6626 that totally unrelated articles may end up in the same ``thread'', which
6627 is confusing. An alternate approach is to look at all the
6628 @code{Message-ID}s in all the @code{References} headers to find matches.
6629 This will ensure that no gathered threads ever include unrelated
6630 articles, but it also means that people who have posted with broken
6631 newsreaders won't be gathered properly. The choice is yours---plague or
6635 @item gnus-gather-threads-by-subject
6636 @findex gnus-gather-threads-by-subject
6637 This function is the default gathering function and looks at
6638 @code{Subject}s exclusively.
6640 @item gnus-gather-threads-by-references
6641 @findex gnus-gather-threads-by-references
6642 This function looks at @code{References} headers exclusively.
6645 If you want to test gathering by @code{References}, you could say
6649 (setq gnus-summary-thread-gathering-function
6650 'gnus-gather-threads-by-references)
6656 @node Filling In Threads
6657 @subsubsection Filling In Threads
6660 @item gnus-fetch-old-headers
6661 @vindex gnus-fetch-old-headers
6662 If non-@code{nil}, Gnus will attempt to build old threads by fetching
6663 more old headers---headers to articles marked as read. If you would
6664 like to display as few summary lines as possible, but still connect as
6665 many loose threads as possible, you should set this variable to
6666 @code{some} or a number. If you set it to a number, no more than that
6667 number of extra old headers will be fetched. In either case, fetching
6668 old headers only works if the back end you are using carries overview
6669 files---this would normally be @code{nntp}, @code{nnspool},
6670 @code{nnml}, and @code{nnmaildir}. Also remember that if the root of
6671 the thread has been expired by the server, there's not much Gnus can
6674 This variable can also be set to @code{invisible}. This won't have any
6675 visible effects, but is useful if you use the @kbd{A T} command a lot
6676 (@pxref{Finding the Parent}).
6678 @item gnus-fetch-old-ephemeral-headers
6679 @vindex gnus-fetch-old-ephemeral-headers
6680 Same as @code{gnus-fetch-old-headers}, but only used for ephemeral
6683 @item gnus-build-sparse-threads
6684 @vindex gnus-build-sparse-threads
6685 Fetching old headers can be slow. A low-rent similar effect can be
6686 gotten by setting this variable to @code{some}. Gnus will then look at
6687 the complete @code{References} headers of all articles and try to string
6688 together articles that belong in the same thread. This will leave
6689 @dfn{gaps} in the threading display where Gnus guesses that an article
6690 is missing from the thread. (These gaps appear like normal summary
6691 lines. If you select a gap, Gnus will try to fetch the article in
6692 question.) If this variable is @code{t}, Gnus will display all these
6693 ``gaps'' without regard for whether they are useful for completing the
6694 thread or not. Finally, if this variable is @code{more}, Gnus won't cut
6695 off sparse leaf nodes that don't lead anywhere. This variable is
6696 @code{nil} by default.
6698 @item gnus-read-all-available-headers
6699 @vindex gnus-read-all-available-headers
6700 This is a rather obscure variable that few will find useful. It's
6701 intended for those non-news newsgroups where the back end has to fetch
6702 quite a lot to present the summary buffer, and where it's impossible to
6703 go back to parents of articles. This is mostly the case in the
6704 web-based groups, like the @code{nnultimate} groups.
6706 If you don't use those, then it's safe to leave this as the default
6707 @code{nil}. If you want to use this variable, it should be a regexp
6708 that matches the group name, or @code{t} for all groups.
6713 @node More Threading
6714 @subsubsection More Threading
6717 @item gnus-show-threads
6718 @vindex gnus-show-threads
6719 If this variable is @code{nil}, no threading will be done, and all of
6720 the rest of the variables here will have no effect. Turning threading
6721 off will speed group selection up a bit, but it is sure to make reading
6722 slower and more awkward.
6724 @item gnus-thread-hide-subtree
6725 @vindex gnus-thread-hide-subtree
6726 If non-@code{nil}, all threads will be hidden when the summary buffer is
6729 This can also be a predicate specifier (@pxref{Predicate Specifiers}).
6730 Available predicates are @code{gnus-article-unread-p} and
6731 @code{gnus-article-unseen-p}.
6736 (setq gnus-thread-hide-subtree
6737 '(or gnus-article-unread-p
6738 gnus-article-unseen-p))
6741 (It's a pretty nonsensical example, since all unseen articles are also
6742 unread, but you get my drift.)
6745 @item gnus-thread-expunge-below
6746 @vindex gnus-thread-expunge-below
6747 All threads that have a total score (as defined by
6748 @code{gnus-thread-score-function}) less than this number will be
6749 expunged. This variable is @code{nil} by default, which means that no
6750 threads are expunged.
6752 @item gnus-thread-hide-killed
6753 @vindex gnus-thread-hide-killed
6754 if you kill a thread and this variable is non-@code{nil}, the subtree
6757 @item gnus-thread-ignore-subject
6758 @vindex gnus-thread-ignore-subject
6759 Sometimes somebody changes the subject in the middle of a thread. If
6760 this variable is non-@code{nil}, which is the default, the subject
6761 change is ignored. If it is @code{nil}, a change in the subject will
6762 result in a new thread.
6764 @item gnus-thread-indent-level
6765 @vindex gnus-thread-indent-level
6766 This is a number that says how much each sub-thread should be indented.
6769 @item gnus-sort-gathered-threads-function
6770 @vindex gnus-sort-gathered-threads-function
6771 Sometimes, particularly with mailing lists, the order in which mails
6772 arrive locally is not necessarily the same as the order in which they
6773 arrived on the mailing list. Consequently, when sorting sub-threads
6774 using the default @code{gnus-thread-sort-by-number}, responses can end
6775 up appearing before the article to which they are responding to.
6776 Setting this variable to an alternate value
6777 (e.g. @code{gnus-thread-sort-by-date}), in a group's parameters or in an
6778 appropriate hook (e.g. @code{gnus-summary-generate-hook}) can produce a
6779 more logical sub-thread ordering in such instances.
6784 @node Low-Level Threading
6785 @subsubsection Low-Level Threading
6789 @item gnus-parse-headers-hook
6790 @vindex gnus-parse-headers-hook
6791 Hook run before parsing any headers.
6793 @item gnus-alter-header-function
6794 @vindex gnus-alter-header-function
6795 If non-@code{nil}, this function will be called to allow alteration of
6796 article header structures. The function is called with one parameter,
6797 the article header vector, which it may alter in any way. For instance,
6798 if you have a mail-to-news gateway which alters the @code{Message-ID}s
6799 in systematic ways (by adding prefixes and such), you can use this
6800 variable to un-scramble the @code{Message-ID}s so that they are more
6801 meaningful. Here's one example:
6804 (setq gnus-alter-header-function 'my-alter-message-id)
6806 (defun my-alter-message-id (header)
6807 (let ((id (mail-header-id header)))
6809 "\\(<[^<>@@]*\\)\\.?cygnus\\..*@@\\([^<>@@]*>\\)" id)
6811 (concat (match-string 1 id) "@@" (match-string 2 id))
6818 @node Thread Commands
6819 @subsection Thread Commands
6820 @cindex thread commands
6826 @kindex T k (Summary)
6827 @kindex C-M-k (Summary)
6828 @findex gnus-summary-kill-thread
6829 Mark all articles in the current (sub-)thread as read
6830 (@code{gnus-summary-kill-thread}). If the prefix argument is positive,
6831 remove all marks instead. If the prefix argument is negative, tick
6836 @kindex T l (Summary)
6837 @kindex C-M-l (Summary)
6838 @findex gnus-summary-lower-thread
6839 Lower the score of the current (sub-)thread
6840 (@code{gnus-summary-lower-thread}).
6843 @kindex T i (Summary)
6844 @findex gnus-summary-raise-thread
6845 Increase the score of the current (sub-)thread
6846 (@code{gnus-summary-raise-thread}).
6849 @kindex T # (Summary)
6850 @findex gnus-uu-mark-thread
6851 Set the process mark on the current (sub-)thread
6852 (@code{gnus-uu-mark-thread}).
6855 @kindex T M-# (Summary)
6856 @findex gnus-uu-unmark-thread
6857 Remove the process mark from the current (sub-)thread
6858 (@code{gnus-uu-unmark-thread}).
6861 @kindex T T (Summary)
6862 @findex gnus-summary-toggle-threads
6863 Toggle threading (@code{gnus-summary-toggle-threads}).
6866 @kindex T s (Summary)
6867 @findex gnus-summary-show-thread
6868 Expose the (sub-)thread hidden under the current article, if any@*
6869 (@code{gnus-summary-show-thread}).
6872 @kindex T h (Summary)
6873 @findex gnus-summary-hide-thread
6874 Hide the current (sub-)thread (@code{gnus-summary-hide-thread}).
6877 @kindex T S (Summary)
6878 @findex gnus-summary-show-all-threads
6879 Expose all hidden threads (@code{gnus-summary-show-all-threads}).
6882 @kindex T H (Summary)
6883 @findex gnus-summary-hide-all-threads
6884 Hide all threads (@code{gnus-summary-hide-all-threads}).
6887 @kindex T t (Summary)
6888 @findex gnus-summary-rethread-current
6889 Re-thread the current article's thread
6890 (@code{gnus-summary-rethread-current}). This works even when the
6891 summary buffer is otherwise unthreaded.
6894 @kindex T ^ (Summary)
6895 @findex gnus-summary-reparent-thread
6896 Make the current article the child of the marked (or previous) article
6897 (@code{gnus-summary-reparent-thread}).
6901 The following commands are thread movement commands. They all
6902 understand the numeric prefix.
6907 @kindex T n (Summary)
6909 @kindex C-M-n (Summary)
6911 @kindex M-down (Summary)
6912 @findex gnus-summary-next-thread
6913 Go to the next thread (@code{gnus-summary-next-thread}).
6916 @kindex T p (Summary)
6918 @kindex C-M-p (Summary)
6920 @kindex M-up (Summary)
6921 @findex gnus-summary-prev-thread
6922 Go to the previous thread (@code{gnus-summary-prev-thread}).
6925 @kindex T d (Summary)
6926 @findex gnus-summary-down-thread
6927 Descend the thread (@code{gnus-summary-down-thread}).
6930 @kindex T u (Summary)
6931 @findex gnus-summary-up-thread
6932 Ascend the thread (@code{gnus-summary-up-thread}).
6935 @kindex T o (Summary)
6936 @findex gnus-summary-top-thread
6937 Go to the top of the thread (@code{gnus-summary-top-thread}).
6940 @vindex gnus-thread-operation-ignore-subject
6941 If you ignore subject while threading, you'll naturally end up with
6942 threads that have several different subjects in them. If you then issue
6943 a command like @kbd{T k} (@code{gnus-summary-kill-thread}) you might not
6944 wish to kill the entire thread, but just those parts of the thread that
6945 have the same subject as the current article. If you like this idea,
6946 you can fiddle with @code{gnus-thread-operation-ignore-subject}. If it
6947 is non-@code{nil} (which it is by default), subjects will be ignored
6948 when doing thread commands. If this variable is @code{nil}, articles in
6949 the same thread with different subjects will not be included in the
6950 operation in question. If this variable is @code{fuzzy}, only articles
6951 that have subjects fuzzily equal will be included (@pxref{Fuzzy
6955 @node Sorting the Summary Buffer
6956 @section Sorting the Summary Buffer
6958 @findex gnus-thread-sort-by-total-score
6959 @findex gnus-thread-sort-by-date
6960 @findex gnus-thread-sort-by-score
6961 @findex gnus-thread-sort-by-subject
6962 @findex gnus-thread-sort-by-author
6963 @findex gnus-thread-sort-by-number
6964 @findex gnus-thread-sort-by-random
6965 @vindex gnus-thread-sort-functions
6966 @findex gnus-thread-sort-by-most-recent-number
6967 @findex gnus-thread-sort-by-most-recent-date
6968 If you are using a threaded summary display, you can sort the threads by
6969 setting @code{gnus-thread-sort-functions}, which can be either a single
6970 function, a list of functions, or a list containing functions and
6971 @code{(not some-function)} elements.
6973 By default, sorting is done on article numbers. Ready-made sorting
6974 predicate functions include @code{gnus-thread-sort-by-number},
6975 @code{gnus-thread-sort-by-author}, @code{gnus-thread-sort-by-subject},
6976 @code{gnus-thread-sort-by-date}, @code{gnus-thread-sort-by-score},
6977 @code{gnus-thread-sort-by-most-recent-number},
6978 @code{gnus-thread-sort-by-most-recent-date},
6979 @code{gnus-thread-sort-by-random} and
6980 @code{gnus-thread-sort-by-total-score}.
6982 Each function takes two threads and returns non-@code{nil} if the first
6983 thread should be sorted before the other. Note that sorting really is
6984 normally done by looking only at the roots of each thread.
6986 If you use more than one function, the primary sort key should be the
6987 last function in the list. You should probably always include
6988 @code{gnus-thread-sort-by-number} in the list of sorting
6989 functions---preferably first. This will ensure that threads that are
6990 equal with respect to the other sort criteria will be displayed in
6991 ascending article order.
6993 If you would like to sort by reverse score, then by subject, and finally
6994 by number, you could do something like:
6997 (setq gnus-thread-sort-functions
6998 '(gnus-thread-sort-by-number
6999 gnus-thread-sort-by-subject
7000 (not gnus-thread-sort-by-total-score)))
7003 The threads that have highest score will be displayed first in the
7004 summary buffer. When threads have the same score, they will be sorted
7005 alphabetically. The threads that have the same score and the same
7006 subject will be sorted by number, which is (normally) the sequence in
7007 which the articles arrived.
7009 If you want to sort by score and then reverse arrival order, you could
7013 (setq gnus-thread-sort-functions
7015 (not (gnus-thread-sort-by-number t1 t2)))
7016 gnus-thread-sort-by-score))
7019 @vindex gnus-thread-score-function
7020 The function in the @code{gnus-thread-score-function} variable (default
7021 @code{+}) is used for calculating the total score of a thread. Useful
7022 functions might be @code{max}, @code{min}, or squared means, or whatever
7025 @findex gnus-article-sort-functions
7026 @findex gnus-article-sort-by-date
7027 @findex gnus-article-sort-by-score
7028 @findex gnus-article-sort-by-subject
7029 @findex gnus-article-sort-by-author
7030 @findex gnus-article-sort-by-random
7031 @findex gnus-article-sort-by-number
7032 If you are using an unthreaded display for some strange reason or
7033 other, you have to fiddle with the @code{gnus-article-sort-functions}
7034 variable. It is very similar to the
7035 @code{gnus-thread-sort-functions}, except that it uses slightly
7036 different functions for article comparison. Available sorting
7037 predicate functions are @code{gnus-article-sort-by-number},
7038 @code{gnus-article-sort-by-author},
7039 @code{gnus-article-sort-by-subject}, @code{gnus-article-sort-by-date},
7040 @code{gnus-article-sort-by-random}, and
7041 @code{gnus-article-sort-by-score}.
7043 If you want to sort an unthreaded summary display by subject, you could
7047 (setq gnus-article-sort-functions
7048 '(gnus-article-sort-by-number
7049 gnus-article-sort-by-subject))
7054 @node Asynchronous Fetching
7055 @section Asynchronous Article Fetching
7056 @cindex asynchronous article fetching
7057 @cindex article pre-fetch
7060 If you read your news from an @acronym{NNTP} server that's far away, the
7061 network latencies may make reading articles a chore. You have to wait
7062 for a while after pressing @kbd{n} to go to the next article before the
7063 article appears. Why can't Gnus just go ahead and fetch the article
7064 while you are reading the previous one? Why not, indeed.
7066 First, some caveats. There are some pitfalls to using asynchronous
7067 article fetching, especially the way Gnus does it.
7069 Let's say you are reading article 1, which is short, and article 2 is
7070 quite long, and you are not interested in reading that. Gnus does not
7071 know this, so it goes ahead and fetches article 2. You decide to read
7072 article 3, but since Gnus is in the process of fetching article 2, the
7073 connection is blocked.
7075 To avoid these situations, Gnus will open two (count 'em two)
7076 connections to the server. Some people may think this isn't a very nice
7077 thing to do, but I don't see any real alternatives. Setting up that
7078 extra connection takes some time, so Gnus startup will be slower.
7080 Gnus will fetch more articles than you will read. This will mean that
7081 the link between your machine and the @acronym{NNTP} server will become more
7082 loaded than if you didn't use article pre-fetch. The server itself will
7083 also become more loaded---both with the extra article requests, and the
7086 Ok, so now you know that you shouldn't really use this thing@dots{} unless
7089 @vindex gnus-asynchronous
7090 Here's how: Set @code{gnus-asynchronous} to @code{t}. The rest should
7091 happen automatically.
7093 @vindex gnus-use-article-prefetch
7094 You can control how many articles are to be pre-fetched by setting
7095 @code{gnus-use-article-prefetch}. This is 30 by default, which means
7096 that when you read an article in the group, the back end will pre-fetch
7097 the next 30 articles. If this variable is @code{t}, the back end will
7098 pre-fetch all the articles it can without bound. If it is
7099 @code{nil}, no pre-fetching will be done.
7101 @vindex gnus-async-prefetch-article-p
7102 @findex gnus-async-read-p
7103 There are probably some articles that you don't want to pre-fetch---read
7104 articles, for instance. The @code{gnus-async-prefetch-article-p}
7105 variable controls whether an article is to be pre-fetched. This
7106 function should return non-@code{nil} when the article in question is
7107 to be pre-fetched. The default is @code{gnus-async-read-p}, which
7108 returns @code{nil} on read articles. The function is called with an
7109 article data structure as the only parameter.
7111 If, for instance, you wish to pre-fetch only unread articles shorter
7112 than 100 lines, you could say something like:
7115 (defun my-async-short-unread-p (data)
7116 "Return non-nil for short, unread articles."
7117 (and (gnus-data-unread-p data)
7118 (< (mail-header-lines (gnus-data-header data))
7121 (setq gnus-async-prefetch-article-p 'my-async-short-unread-p)
7124 These functions will be called many, many times, so they should
7125 preferably be short and sweet to avoid slowing down Gnus too much.
7126 It's probably a good idea to byte-compile things like this.
7128 @vindex gnus-prefetched-article-deletion-strategy
7129 Articles have to be removed from the asynch buffer sooner or later. The
7130 @code{gnus-prefetched-article-deletion-strategy} says when to remove
7131 articles. This is a list that may contain the following elements:
7135 Remove articles when they are read.
7138 Remove articles when exiting the group.
7141 The default value is @code{(read exit)}.
7143 @c @vindex gnus-use-header-prefetch
7144 @c If @code{gnus-use-header-prefetch} is non-@code{nil}, prefetch articles
7145 @c from the next group.
7148 @node Article Caching
7149 @section Article Caching
7150 @cindex article caching
7153 If you have an @emph{extremely} slow @acronym{NNTP} connection, you may
7154 consider turning article caching on. Each article will then be stored
7155 locally under your home directory. As you may surmise, this could
7156 potentially use @emph{huge} amounts of disk space, as well as eat up all
7157 your inodes so fast it will make your head swim. In vodka.
7159 Used carefully, though, it could be just an easier way to save articles.
7161 @vindex gnus-use-long-file-name
7162 @vindex gnus-cache-directory
7163 @vindex gnus-use-cache
7164 To turn caching on, set @code{gnus-use-cache} to @code{t}. By default,
7165 all articles ticked or marked as dormant will then be copied
7166 over to your local cache (@code{gnus-cache-directory}). Whether this
7167 cache is flat or hierarchical is controlled by the
7168 @code{gnus-use-long-file-name} variable, as usual.
7170 When re-selecting a ticked or dormant article, it will be fetched from the
7171 cache instead of from the server. As articles in your cache will never
7172 expire, this might serve as a method of saving articles while still
7173 keeping them where they belong. Just mark all articles you want to save
7174 as dormant, and don't worry.
7176 When an article is marked as read, is it removed from the cache.
7178 @vindex gnus-cache-remove-articles
7179 @vindex gnus-cache-enter-articles
7180 The entering/removal of articles from the cache is controlled by the
7181 @code{gnus-cache-enter-articles} and @code{gnus-cache-remove-articles}
7182 variables. Both are lists of symbols. The first is @code{(ticked
7183 dormant)} by default, meaning that ticked and dormant articles will be
7184 put in the cache. The latter is @code{(read)} by default, meaning that
7185 articles marked as read are removed from the cache. Possibly
7186 symbols in these two lists are @code{ticked}, @code{dormant},
7187 @code{unread} and @code{read}.
7189 @findex gnus-jog-cache
7190 So where does the massive article-fetching and storing come into the
7191 picture? The @code{gnus-jog-cache} command will go through all
7192 subscribed newsgroups, request all unread articles, score them, and
7193 store them in the cache. You should only ever, ever ever ever, use this
7194 command if 1) your connection to the @acronym{NNTP} server is really, really,
7195 really slow and 2) you have a really, really, really huge disk.
7196 Seriously. One way to cut down on the number of articles downloaded is
7197 to score unwanted articles down and have them marked as read. They will
7198 not then be downloaded by this command.
7200 @vindex gnus-uncacheable-groups
7201 @vindex gnus-cacheable-groups
7202 It is likely that you do not want caching on all groups. For instance,
7203 if your @code{nnml} mail is located under your home directory, it makes no
7204 sense to cache it somewhere else under your home directory. Unless you
7205 feel that it's neat to use twice as much space.
7207 To limit the caching, you could set @code{gnus-cacheable-groups} to a
7208 regexp of groups to cache, @samp{^nntp} for instance, or set the
7209 @code{gnus-uncacheable-groups} regexp to @samp{^nnml}, for instance.
7210 Both variables are @code{nil} by default. If a group matches both
7211 variables, the group is not cached.
7213 @findex gnus-cache-generate-nov-databases
7214 @findex gnus-cache-generate-active
7215 @vindex gnus-cache-active-file
7216 The cache stores information on what articles it contains in its active
7217 file (@code{gnus-cache-active-file}). If this file (or any other parts
7218 of the cache) becomes all messed up for some reason or other, Gnus
7219 offers two functions that will try to set things right. @kbd{M-x
7220 gnus-cache-generate-nov-databases} will (re)build all the @acronym{NOV}
7221 files, and @kbd{gnus-cache-generate-active} will (re)generate the active
7224 @findex gnus-cache-move-cache
7225 @code{gnus-cache-move-cache} will move your whole
7226 @code{gnus-cache-directory} to some other location. You get asked to
7227 where, isn't that cool?
7229 @node Persistent Articles
7230 @section Persistent Articles
7231 @cindex persistent articles
7233 Closely related to article caching, we have @dfn{persistent articles}.
7234 In fact, it's just a different way of looking at caching, and much more
7235 useful in my opinion.
7237 Say you're reading a newsgroup, and you happen on to some valuable gem
7238 that you want to keep and treasure forever. You'd normally just save it
7239 (using one of the many saving commands) in some file. The problem with
7240 that is that it's just, well, yucky. Ideally you'd prefer just having
7241 the article remain in the group where you found it forever; untouched by
7242 the expiry going on at the news server.
7244 This is what a @dfn{persistent article} is---an article that just won't
7245 be deleted. It's implemented using the normal cache functions, but
7246 you use two explicit commands for managing persistent articles:
7252 @findex gnus-cache-enter-article
7253 Make the current article persistent (@code{gnus-cache-enter-article}).
7256 @kindex M-* (Summary)
7257 @findex gnus-cache-remove-article
7258 Remove the current article from the persistent articles
7259 (@code{gnus-cache-remove-article}). This will normally delete the
7263 Both these commands understand the process/prefix convention.
7265 To avoid having all ticked articles (and stuff) entered into the cache,
7266 you should set @code{gnus-use-cache} to @code{passive} if you're just
7267 interested in persistent articles:
7270 (setq gnus-use-cache 'passive)
7274 @node Article Backlog
7275 @section Article Backlog
7277 @cindex article backlog
7279 If you have a slow connection, but the idea of using caching seems
7280 unappealing to you (and it is, really), you can help the situation some
7281 by switching on the @dfn{backlog}. This is where Gnus will buffer
7282 already read articles so that it doesn't have to re-fetch articles
7283 you've already read. This only helps if you are in the habit of
7284 re-selecting articles you've recently read, of course. If you never do
7285 that, turning the backlog on will slow Gnus down a little bit, and
7286 increase memory usage some.
7288 @vindex gnus-keep-backlog
7289 If you set @code{gnus-keep-backlog} to a number @var{n}, Gnus will store
7290 at most @var{n} old articles in a buffer for later re-fetching. If this
7291 variable is non-@code{nil} and is not a number, Gnus will store
7292 @emph{all} read articles, which means that your Emacs will grow without
7293 bound before exploding and taking your machine down with you. I put
7294 that in there just to keep y'all on your toes.
7296 The default value is 20.
7299 @node Saving Articles
7300 @section Saving Articles
7301 @cindex saving articles
7303 Gnus can save articles in a number of ways. Below is the documentation
7304 for saving articles in a fairly straight-forward fashion (i.e., little
7305 processing of the article is done before it is saved). For a different
7306 approach (uudecoding, unsharing) you should use @code{gnus-uu}
7307 (@pxref{Decoding Articles}).
7309 For the commands listed here, the target is a file. If you want to
7310 save to a group, see the @kbd{B c} (@code{gnus-summary-copy-article})
7311 command (@pxref{Mail Group Commands}).
7313 @vindex gnus-save-all-headers
7314 If @code{gnus-save-all-headers} is non-@code{nil}, Gnus will not delete
7315 unwanted headers before saving the article.
7317 @vindex gnus-saved-headers
7318 If the preceding variable is @code{nil}, all headers that match the
7319 @code{gnus-saved-headers} regexp will be kept, while the rest will be
7320 deleted before saving.
7326 @kindex O o (Summary)
7328 @findex gnus-summary-save-article
7329 @c @icon{gnus-summary-save-article}
7330 Save the current article using the default article saver
7331 (@code{gnus-summary-save-article}).
7334 @kindex O m (Summary)
7335 @findex gnus-summary-save-article-mail
7336 Save the current article in mail format
7337 (@code{gnus-summary-save-article-mail}).
7340 @kindex O r (Summary)
7341 @findex gnus-summary-save-article-rmail
7342 Save the current article in Rmail format
7343 (@code{gnus-summary-save-article-rmail}).
7346 @kindex O f (Summary)
7347 @findex gnus-summary-save-article-file
7348 @c @icon{gnus-summary-save-article-file}
7349 Save the current article in plain file format
7350 (@code{gnus-summary-save-article-file}).
7353 @kindex O F (Summary)
7354 @findex gnus-summary-write-article-file
7355 Write the current article in plain file format, overwriting any previous
7356 file contents (@code{gnus-summary-write-article-file}).
7359 @kindex O b (Summary)
7360 @findex gnus-summary-save-article-body-file
7361 Save the current article body in plain file format
7362 (@code{gnus-summary-save-article-body-file}).
7365 @kindex O h (Summary)
7366 @findex gnus-summary-save-article-folder
7367 Save the current article in mh folder format
7368 (@code{gnus-summary-save-article-folder}).
7371 @kindex O v (Summary)
7372 @findex gnus-summary-save-article-vm
7373 Save the current article in a VM folder
7374 (@code{gnus-summary-save-article-vm}).
7378 @kindex O p (Summary)
7380 @findex gnus-summary-pipe-output
7381 Save the current article in a pipe. Uhm, like, what I mean is---Pipe
7382 the current article to a process (@code{gnus-summary-pipe-output}).
7383 If given a symbolic prefix (@pxref{Symbolic Prefixes}), include the
7384 complete headers in the piped output.
7387 @kindex O P (Summary)
7388 @findex gnus-summary-muttprint
7389 @vindex gnus-summary-muttprint-program
7390 Save the current article into muttprint. That is, print it using the
7391 external program @uref{http://muttprint.sourceforge.net/,
7392 Muttprint}. The program name and options to use is controlled by the
7393 variable @code{gnus-summary-muttprint-program}.
7394 (@code{gnus-summary-muttprint}).
7398 @vindex gnus-prompt-before-saving
7399 All these commands use the process/prefix convention
7400 (@pxref{Process/Prefix}). If you save bunches of articles using these
7401 functions, you might get tired of being prompted for files to save each
7402 and every article in. The prompting action is controlled by
7403 the @code{gnus-prompt-before-saving} variable, which is @code{always} by
7404 default, giving you that excessive prompting action you know and
7405 loathe. If you set this variable to @code{t} instead, you'll be prompted
7406 just once for each series of articles you save. If you like to really
7407 have Gnus do all your thinking for you, you can even set this variable
7408 to @code{nil}, which means that you will never be prompted for files to
7409 save articles in. Gnus will simply save all the articles in the default
7413 @vindex gnus-default-article-saver
7414 You can customize the @code{gnus-default-article-saver} variable to make
7415 Gnus do what you want it to. You can use any of the six ready-made
7416 functions below, or you can create your own.
7420 @item gnus-summary-save-in-rmail
7421 @findex gnus-summary-save-in-rmail
7422 @vindex gnus-rmail-save-name
7423 @findex gnus-plain-save-name
7424 This is the default format, @dfn{Babyl}. Uses the function in the
7425 @code{gnus-rmail-save-name} variable to get a file name to save the
7426 article in. The default is @code{gnus-plain-save-name}.
7428 @item gnus-summary-save-in-mail
7429 @findex gnus-summary-save-in-mail
7430 @vindex gnus-mail-save-name
7431 Save in a Unix mail (mbox) file. Uses the function in the
7432 @code{gnus-mail-save-name} variable to get a file name to save the
7433 article in. The default is @code{gnus-plain-save-name}.
7435 @item gnus-summary-save-in-file
7436 @findex gnus-summary-save-in-file
7437 @vindex gnus-file-save-name
7438 @findex gnus-numeric-save-name
7439 Append the article straight to an ordinary file. Uses the function in
7440 the @code{gnus-file-save-name} variable to get a file name to save the
7441 article in. The default is @code{gnus-numeric-save-name}.
7443 @item gnus-summary-write-to-file
7444 @findex gnus-summary-write-to-file
7445 Write the article straight to an ordinary file. The file is
7446 overwritten if it exists. Uses the function in the
7447 @code{gnus-file-save-name} variable to get a file name to save the
7448 article in. The default is @code{gnus-numeric-save-name}.
7450 @item gnus-summary-save-body-in-file
7451 @findex gnus-summary-save-body-in-file
7452 Append the article body to an ordinary file. Uses the function in the
7453 @code{gnus-file-save-name} variable to get a file name to save the
7454 article in. The default is @code{gnus-numeric-save-name}.
7456 @item gnus-summary-save-in-folder
7457 @findex gnus-summary-save-in-folder
7458 @findex gnus-folder-save-name
7459 @findex gnus-Folder-save-name
7460 @vindex gnus-folder-save-name
7463 Save the article to an MH folder using @code{rcvstore} from the MH
7464 library. Uses the function in the @code{gnus-folder-save-name} variable
7465 to get a file name to save the article in. The default is
7466 @code{gnus-folder-save-name}, but you can also use
7467 @code{gnus-Folder-save-name}, which creates capitalized names.
7469 @item gnus-summary-save-in-vm
7470 @findex gnus-summary-save-in-vm
7471 Save the article in a VM folder. You have to have the VM mail
7472 reader to use this setting.
7475 @vindex gnus-article-save-directory
7476 All of these functions, except for the last one, will save the article
7477 in the @code{gnus-article-save-directory}, which is initialized from the
7478 @env{SAVEDIR} environment variable. This is @file{~/News/} by
7481 As you can see above, the functions use different functions to find a
7482 suitable name of a file to save the article in. Below is a list of
7483 available functions that generate names:
7487 @item gnus-Numeric-save-name
7488 @findex gnus-Numeric-save-name
7489 File names like @file{~/News/Alt.andrea-dworkin/45}.
7491 @item gnus-numeric-save-name
7492 @findex gnus-numeric-save-name
7493 File names like @file{~/News/alt.andrea-dworkin/45}.
7495 @item gnus-Plain-save-name
7496 @findex gnus-Plain-save-name
7497 File names like @file{~/News/Alt.andrea-dworkin}.
7499 @item gnus-plain-save-name
7500 @findex gnus-plain-save-name
7501 File names like @file{~/News/alt.andrea-dworkin}.
7503 @item gnus-sender-save-name
7504 @findex gnus-sender-save-name
7505 File names like @file{~/News/larsi}.
7508 @vindex gnus-split-methods
7509 You can have Gnus suggest where to save articles by plonking a regexp into
7510 the @code{gnus-split-methods} alist. For instance, if you would like to
7511 save articles related to Gnus in the file @file{gnus-stuff}, and articles
7512 related to VM in @file{vm-stuff}, you could set this variable to something
7516 (("^Subject:.*gnus\\|^Newsgroups:.*gnus" "gnus-stuff")
7517 ("^Subject:.*vm\\|^Xref:.*vm" "vm-stuff")
7518 (my-choosing-function "../other-dir/my-stuff")
7519 ((equal gnus-newsgroup-name "mail.misc") "mail-stuff"))
7522 We see that this is a list where each element is a list that has two
7523 elements---the @dfn{match} and the @dfn{file}. The match can either be
7524 a string (in which case it is used as a regexp to match on the article
7525 head); it can be a symbol (which will be called as a function with the
7526 group name as a parameter); or it can be a list (which will be
7527 @code{eval}ed). If any of these actions have a non-@code{nil} result,
7528 the @dfn{file} will be used as a default prompt. In addition, the
7529 result of the operation itself will be used if the function or form
7530 called returns a string or a list of strings.
7532 You basically end up with a list of file names that might be used when
7533 saving the current article. (All ``matches'' will be used.) You will
7534 then be prompted for what you really want to use as a name, with file
7535 name completion over the results from applying this variable.
7537 This variable is @code{((gnus-article-archive-name))} by default, which
7538 means that Gnus will look at the articles it saves for an
7539 @code{Archive-name} line and use that as a suggestion for the file
7542 Here's an example function to clean up file names somewhat. If you have
7543 lots of mail groups called things like
7544 @samp{nnml:mail.whatever}, you may want to chop off the beginning of
7545 these group names before creating the file name to save to. The
7546 following will do just that:
7549 (defun my-save-name (group)
7550 (when (string-match "^nnml:mail." group)
7551 (substring group (match-end 0))))
7553 (setq gnus-split-methods
7554 '((gnus-article-archive-name)
7559 @vindex gnus-use-long-file-name
7560 Finally, you have the @code{gnus-use-long-file-name} variable. If it is
7561 @code{nil}, all the preceding functions will replace all periods
7562 (@samp{.}) in the group names with slashes (@samp{/})---which means that
7563 the functions will generate hierarchies of directories instead of having
7564 all the files in the top level directory
7565 (@file{~/News/alt/andrea-dworkin} instead of
7566 @file{~/News/alt.andrea-dworkin}.) This variable is @code{t} by default
7567 on most systems. However, for historical reasons, this is @code{nil} on
7568 Xenix and usg-unix-v machines by default.
7570 This function also affects kill and score file names. If this variable
7571 is a list, and the list contains the element @code{not-score}, long file
7572 names will not be used for score files, if it contains the element
7573 @code{not-save}, long file names will not be used for saving, and if it
7574 contains the element @code{not-kill}, long file names will not be used
7577 If you'd like to save articles in a hierarchy that looks something like
7581 (setq gnus-use-long-file-name '(not-save)) ; @r{to get a hierarchy}
7582 (setq gnus-default-article-saver
7583 'gnus-summary-save-in-file) ; @r{no encoding}
7586 Then just save with @kbd{o}. You'd then read this hierarchy with
7587 ephemeral @code{nneething} groups---@kbd{G D} in the group buffer, and
7588 the top level directory as the argument (@file{~/News/}). Then just walk
7589 around to the groups/directories with @code{nneething}.
7592 @node Decoding Articles
7593 @section Decoding Articles
7594 @cindex decoding articles
7596 Sometime users post articles (or series of articles) that have been
7597 encoded in some way or other. Gnus can decode them for you.
7600 * Uuencoded Articles:: Uudecode articles.
7601 * Shell Archives:: Unshar articles.
7602 * PostScript Files:: Split PostScript.
7603 * Other Files:: Plain save and binhex.
7604 * Decoding Variables:: Variables for a happy decoding.
7605 * Viewing Files:: You want to look at the result of the decoding?
7609 @cindex article series
7610 All these functions use the process/prefix convention
7611 (@pxref{Process/Prefix}) for finding out what articles to work on, with
7612 the extension that a ``single article'' means ``a single series''. Gnus
7613 can find out by itself what articles belong to a series, decode all the
7614 articles and unpack/view/save the resulting file(s).
7616 Gnus guesses what articles are in the series according to the following
7617 simplish rule: The subjects must be (nearly) identical, except for the
7618 last two numbers of the line. (Spaces are largely ignored, however.)
7620 For example: If you choose a subject called @samp{cat.gif (2/3)}, Gnus
7621 will find all the articles that match the regexp @samp{^cat.gif
7622 ([0-9]+/[0-9]+).*$}.
7624 Subjects that are non-standard, like @samp{cat.gif (2/3) Part 6 of a
7625 series}, will not be properly recognized by any of the automatic viewing
7626 commands, and you have to mark the articles manually with @kbd{#}.
7629 @node Uuencoded Articles
7630 @subsection Uuencoded Articles
7632 @cindex uuencoded articles
7637 @kindex X u (Summary)
7638 @findex gnus-uu-decode-uu
7639 @c @icon{gnus-uu-decode-uu}
7640 Uudecodes the current series (@code{gnus-uu-decode-uu}).
7643 @kindex X U (Summary)
7644 @findex gnus-uu-decode-uu-and-save
7645 Uudecodes and saves the current series
7646 (@code{gnus-uu-decode-uu-and-save}).
7649 @kindex X v u (Summary)
7650 @findex gnus-uu-decode-uu-view
7651 Uudecodes and views the current series (@code{gnus-uu-decode-uu-view}).
7654 @kindex X v U (Summary)
7655 @findex gnus-uu-decode-uu-and-save-view
7656 Uudecodes, views and saves the current series
7657 (@code{gnus-uu-decode-uu-and-save-view}).
7661 Remember that these all react to the presence of articles marked with
7662 the process mark. If, for instance, you'd like to decode and save an
7663 entire newsgroup, you'd typically do @kbd{M P a}
7664 (@code{gnus-uu-mark-all}) and then @kbd{X U}
7665 (@code{gnus-uu-decode-uu-and-save}).
7667 All this is very much different from how @code{gnus-uu} worked with
7668 @sc{gnus 4.1}, where you had explicit keystrokes for everything under
7669 the sun. This version of @code{gnus-uu} generally assumes that you mark
7670 articles in some way (@pxref{Setting Process Marks}) and then press
7673 @vindex gnus-uu-notify-files
7674 Note: When trying to decode articles that have names matching
7675 @code{gnus-uu-notify-files}, which is hard-coded to
7676 @samp{[Cc][Ii][Nn][Dd][Yy][0-9]+.\\(gif\\|jpg\\)}, @code{gnus-uu} will
7677 automatically post an article on @samp{comp.unix.wizards} saying that
7678 you have just viewed the file in question. This feature can't be turned
7682 @node Shell Archives
7683 @subsection Shell Archives
7685 @cindex shell archives
7686 @cindex shared articles
7688 Shell archives (``shar files'') used to be a popular way to distribute
7689 sources, but it isn't used all that much today. In any case, we have
7690 some commands to deal with these:
7695 @kindex X s (Summary)
7696 @findex gnus-uu-decode-unshar
7697 Unshars the current series (@code{gnus-uu-decode-unshar}).
7700 @kindex X S (Summary)
7701 @findex gnus-uu-decode-unshar-and-save
7702 Unshars and saves the current series (@code{gnus-uu-decode-unshar-and-save}).
7705 @kindex X v s (Summary)
7706 @findex gnus-uu-decode-unshar-view
7707 Unshars and views the current series (@code{gnus-uu-decode-unshar-view}).
7710 @kindex X v S (Summary)
7711 @findex gnus-uu-decode-unshar-and-save-view
7712 Unshars, views and saves the current series
7713 (@code{gnus-uu-decode-unshar-and-save-view}).
7717 @node PostScript Files
7718 @subsection PostScript Files
7724 @kindex X p (Summary)
7725 @findex gnus-uu-decode-postscript
7726 Unpack the current PostScript series (@code{gnus-uu-decode-postscript}).
7729 @kindex X P (Summary)
7730 @findex gnus-uu-decode-postscript-and-save
7731 Unpack and save the current PostScript series
7732 (@code{gnus-uu-decode-postscript-and-save}).
7735 @kindex X v p (Summary)
7736 @findex gnus-uu-decode-postscript-view
7737 View the current PostScript series
7738 (@code{gnus-uu-decode-postscript-view}).
7741 @kindex X v P (Summary)
7742 @findex gnus-uu-decode-postscript-and-save-view
7743 View and save the current PostScript series
7744 (@code{gnus-uu-decode-postscript-and-save-view}).
7749 @subsection Other Files
7753 @kindex X o (Summary)
7754 @findex gnus-uu-decode-save
7755 Save the current series
7756 (@code{gnus-uu-decode-save}).
7759 @kindex X b (Summary)
7760 @findex gnus-uu-decode-binhex
7761 Unbinhex the current series (@code{gnus-uu-decode-binhex}). This
7762 doesn't really work yet.
7766 @node Decoding Variables
7767 @subsection Decoding Variables
7769 Adjective, not verb.
7772 * Rule Variables:: Variables that say how a file is to be viewed.
7773 * Other Decode Variables:: Other decode variables.
7774 * Uuencoding and Posting:: Variables for customizing uuencoding.
7778 @node Rule Variables
7779 @subsubsection Rule Variables
7780 @cindex rule variables
7782 Gnus uses @dfn{rule variables} to decide how to view a file. All these
7783 variables are of the form
7786 (list '(regexp1 command2)
7793 @item gnus-uu-user-view-rules
7794 @vindex gnus-uu-user-view-rules
7796 This variable is consulted first when viewing files. If you wish to use,
7797 for instance, @code{sox} to convert an @file{.au} sound file, you could
7800 (setq gnus-uu-user-view-rules
7801 (list '("\\\\.au$" "sox %s -t .aiff > /dev/audio")))
7804 @item gnus-uu-user-view-rules-end
7805 @vindex gnus-uu-user-view-rules-end
7806 This variable is consulted if Gnus couldn't make any matches from the
7807 user and default view rules.
7809 @item gnus-uu-user-archive-rules
7810 @vindex gnus-uu-user-archive-rules
7811 This variable can be used to say what commands should be used to unpack
7816 @node Other Decode Variables
7817 @subsubsection Other Decode Variables
7820 @vindex gnus-uu-grabbed-file-functions
7822 @item gnus-uu-grabbed-file-functions
7823 All functions in this list will be called right after each file has been
7824 successfully decoded---so that you can move or view files right away,
7825 and don't have to wait for all files to be decoded before you can do
7826 anything. Ready-made functions you can put in this list are:
7830 @item gnus-uu-grab-view
7831 @findex gnus-uu-grab-view
7834 @item gnus-uu-grab-move
7835 @findex gnus-uu-grab-move
7836 Move the file (if you're using a saving function.)
7839 @item gnus-uu-be-dangerous
7840 @vindex gnus-uu-be-dangerous
7841 Specifies what to do if unusual situations arise during decoding. If
7842 @code{nil}, be as conservative as possible. If @code{t}, ignore things
7843 that didn't work, and overwrite existing files. Otherwise, ask each
7846 @item gnus-uu-ignore-files-by-name
7847 @vindex gnus-uu-ignore-files-by-name
7848 Files with name matching this regular expression won't be viewed.
7850 @item gnus-uu-ignore-files-by-type
7851 @vindex gnus-uu-ignore-files-by-type
7852 Files with a @acronym{MIME} type matching this variable won't be viewed.
7853 Note that Gnus tries to guess what type the file is based on the name.
7854 @code{gnus-uu} is not a @acronym{MIME} package (yet), so this is slightly
7857 @item gnus-uu-tmp-dir
7858 @vindex gnus-uu-tmp-dir
7859 Where @code{gnus-uu} does its work.
7861 @item gnus-uu-do-not-unpack-archives
7862 @vindex gnus-uu-do-not-unpack-archives
7863 Non-@code{nil} means that @code{gnus-uu} won't peek inside archives
7864 looking for files to display.
7866 @item gnus-uu-view-and-save
7867 @vindex gnus-uu-view-and-save
7868 Non-@code{nil} means that the user will always be asked to save a file
7871 @item gnus-uu-ignore-default-view-rules
7872 @vindex gnus-uu-ignore-default-view-rules
7873 Non-@code{nil} means that @code{gnus-uu} will ignore the default viewing
7876 @item gnus-uu-ignore-default-archive-rules
7877 @vindex gnus-uu-ignore-default-archive-rules
7878 Non-@code{nil} means that @code{gnus-uu} will ignore the default archive
7881 @item gnus-uu-kill-carriage-return
7882 @vindex gnus-uu-kill-carriage-return
7883 Non-@code{nil} means that @code{gnus-uu} will strip all carriage returns
7886 @item gnus-uu-unmark-articles-not-decoded
7887 @vindex gnus-uu-unmark-articles-not-decoded
7888 Non-@code{nil} means that @code{gnus-uu} will mark unsuccessfully
7889 decoded articles as unread.
7891 @item gnus-uu-correct-stripped-uucode
7892 @vindex gnus-uu-correct-stripped-uucode
7893 Non-@code{nil} means that @code{gnus-uu} will @emph{try} to fix
7894 uuencoded files that have had trailing spaces deleted.
7896 @item gnus-uu-pre-uudecode-hook
7897 @vindex gnus-uu-pre-uudecode-hook
7898 Hook run before sending a message to @code{uudecode}.
7900 @item gnus-uu-view-with-metamail
7901 @vindex gnus-uu-view-with-metamail
7903 Non-@code{nil} means that @code{gnus-uu} will ignore the viewing
7904 commands defined by the rule variables and just fudge a @acronym{MIME}
7905 content type based on the file name. The result will be fed to
7906 @code{metamail} for viewing.
7908 @item gnus-uu-save-in-digest
7909 @vindex gnus-uu-save-in-digest
7910 Non-@code{nil} means that @code{gnus-uu}, when asked to save without
7911 decoding, will save in digests. If this variable is @code{nil},
7912 @code{gnus-uu} will just save everything in a file without any
7913 embellishments. The digesting almost conforms to RFC 1153---no easy way
7914 to specify any meaningful volume and issue numbers were found, so I
7915 simply dropped them.
7920 @node Uuencoding and Posting
7921 @subsubsection Uuencoding and Posting
7925 @item gnus-uu-post-include-before-composing
7926 @vindex gnus-uu-post-include-before-composing
7927 Non-@code{nil} means that @code{gnus-uu} will ask for a file to encode
7928 before you compose the article. If this variable is @code{t}, you can
7929 either include an encoded file with @kbd{C-c C-i} or have one included
7930 for you when you post the article.
7932 @item gnus-uu-post-length
7933 @vindex gnus-uu-post-length
7934 Maximum length of an article. The encoded file will be split into how
7935 many articles it takes to post the entire file.
7937 @item gnus-uu-post-threaded
7938 @vindex gnus-uu-post-threaded
7939 Non-@code{nil} means that @code{gnus-uu} will post the encoded file in a
7940 thread. This may not be smart, as no other decoder I have seen is able
7941 to follow threads when collecting uuencoded articles. (Well, I have
7942 seen one package that does that---@code{gnus-uu}, but somehow, I don't
7943 think that counts@dots{}) Default is @code{nil}.
7945 @item gnus-uu-post-separate-description
7946 @vindex gnus-uu-post-separate-description
7947 Non-@code{nil} means that the description will be posted in a separate
7948 article. The first article will typically be numbered (0/x). If this
7949 variable is @code{nil}, the description the user enters will be included
7950 at the beginning of the first article, which will be numbered (1/x).
7951 Default is @code{t}.
7957 @subsection Viewing Files
7958 @cindex viewing files
7959 @cindex pseudo-articles
7961 After decoding, if the file is some sort of archive, Gnus will attempt
7962 to unpack the archive and see if any of the files in the archive can be
7963 viewed. For instance, if you have a gzipped tar file @file{pics.tar.gz}
7964 containing the files @file{pic1.jpg} and @file{pic2.gif}, Gnus will
7965 uncompress and de-tar the main file, and then view the two pictures.
7966 This unpacking process is recursive, so if the archive contains archives
7967 of archives, it'll all be unpacked.
7969 Finally, Gnus will normally insert a @dfn{pseudo-article} for each
7970 extracted file into the summary buffer. If you go to these
7971 ``articles'', you will be prompted for a command to run (usually Gnus
7972 will make a suggestion), and then the command will be run.
7974 @vindex gnus-view-pseudo-asynchronously
7975 If @code{gnus-view-pseudo-asynchronously} is @code{nil}, Emacs will wait
7976 until the viewing is done before proceeding.
7978 @vindex gnus-view-pseudos
7979 If @code{gnus-view-pseudos} is @code{automatic}, Gnus will not insert
7980 the pseudo-articles into the summary buffer, but view them
7981 immediately. If this variable is @code{not-confirm}, the user won't even
7982 be asked for a confirmation before viewing is done.
7984 @vindex gnus-view-pseudos-separately
7985 If @code{gnus-view-pseudos-separately} is non-@code{nil}, one
7986 pseudo-article will be created for each file to be viewed. If
7987 @code{nil}, all files that use the same viewing command will be given as
7988 a list of parameters to that command.
7990 @vindex gnus-insert-pseudo-articles
7991 If @code{gnus-insert-pseudo-articles} is non-@code{nil}, insert
7992 pseudo-articles when decoding. It is @code{t} by default.
7994 So; there you are, reading your @emph{pseudo-articles} in your
7995 @emph{virtual newsgroup} from the @emph{virtual server}; and you think:
7996 Why isn't anything real anymore? How did we get here?
7999 @node Article Treatment
8000 @section Article Treatment
8002 Reading through this huge manual, you may have quite forgotten that the
8003 object of newsreaders is to actually, like, read what people have
8004 written. Reading articles. Unfortunately, people are quite bad at
8005 writing, so there are tons of functions and variables to make reading
8006 these articles easier.
8009 * Article Highlighting:: You want to make the article look like fruit salad.
8010 * Article Fontisizing:: Making emphasized text look nice.
8011 * Article Hiding:: You also want to make certain info go away.
8012 * Article Washing:: Lots of way-neat functions to make life better.
8013 * Article Header:: Doing various header transformations.
8014 * Article Buttons:: Click on URLs, Message-IDs, addresses and the like.
8015 * Article Button Levels:: Controlling appearance of buttons.
8016 * Article Date:: Grumble, UT!
8017 * Article Display:: Display various stuff---X-Face, Picons, Smileys
8018 * Article Signature:: What is a signature?
8019 * Article Miscellanea:: Various other stuff.
8023 @node Article Highlighting
8024 @subsection Article Highlighting
8025 @cindex highlighting
8027 Not only do you want your article buffer to look like fruit salad, but
8028 you want it to look like technicolor fruit salad.
8033 @kindex W H a (Summary)
8034 @findex gnus-article-highlight
8035 @findex gnus-article-maybe-highlight
8036 Do much highlighting of the current article
8037 (@code{gnus-article-highlight}). This function highlights header, cited
8038 text, the signature, and adds buttons to the body and the head.
8041 @kindex W H h (Summary)
8042 @findex gnus-article-highlight-headers
8043 @vindex gnus-header-face-alist
8044 Highlight the headers (@code{gnus-article-highlight-headers}). The
8045 highlighting will be done according to the @code{gnus-header-face-alist}
8046 variable, which is a list where each element has the form
8047 @code{(@var{regexp} @var{name} @var{content})}.
8048 @var{regexp} is a regular expression for matching the
8049 header, @var{name} is the face used for highlighting the header name
8050 (@pxref{Faces and Fonts}) and @var{content} is the face for highlighting
8051 the header value. The first match made will be used. Note that
8052 @var{regexp} shouldn't have @samp{^} prepended---Gnus will add one.
8055 @kindex W H c (Summary)
8056 @findex gnus-article-highlight-citation
8057 Highlight cited text (@code{gnus-article-highlight-citation}).
8059 Some variables to customize the citation highlights:
8062 @vindex gnus-cite-parse-max-size
8064 @item gnus-cite-parse-max-size
8065 If the article size if bigger than this variable (which is 25000 by
8066 default), no citation highlighting will be performed.
8068 @item gnus-cite-max-prefix
8069 @vindex gnus-cite-max-prefix
8070 Maximum possible length for a citation prefix (default 20).
8072 @item gnus-cite-face-list
8073 @vindex gnus-cite-face-list
8074 List of faces used for highlighting citations (@pxref{Faces and Fonts}).
8075 When there are citations from multiple articles in the same message,
8076 Gnus will try to give each citation from each article its own face.
8077 This should make it easier to see who wrote what.
8079 @item gnus-supercite-regexp
8080 @vindex gnus-supercite-regexp
8081 Regexp matching normal Supercite attribution lines.
8083 @item gnus-supercite-secondary-regexp
8084 @vindex gnus-supercite-secondary-regexp
8085 Regexp matching mangled Supercite attribution lines.
8087 @item gnus-cite-minimum-match-count
8088 @vindex gnus-cite-minimum-match-count
8089 Minimum number of identical prefixes we have to see before we believe
8090 that it's a citation.
8092 @item gnus-cite-attribution-prefix
8093 @vindex gnus-cite-attribution-prefix
8094 Regexp matching the beginning of an attribution line.
8096 @item gnus-cite-attribution-suffix
8097 @vindex gnus-cite-attribution-suffix
8098 Regexp matching the end of an attribution line.
8100 @item gnus-cite-attribution-face
8101 @vindex gnus-cite-attribution-face
8102 Face used for attribution lines. It is merged with the face for the
8103 cited text belonging to the attribution.
8105 @item gnus-cite-ignore-quoted-from
8106 @vindex gnus-cite-ignore-quoted-from
8107 If non-@code{nil}, no citation highlighting will be performed on lines
8108 beginning with @samp{>From }. Those lines may have been quoted by MTAs
8109 in order not to mix up with the envelope From line. The default value
8116 @kindex W H s (Summary)
8117 @vindex gnus-signature-separator
8118 @vindex gnus-signature-face
8119 @findex gnus-article-highlight-signature
8120 Highlight the signature (@code{gnus-article-highlight-signature}).
8121 Everything after @code{gnus-signature-separator} (@pxref{Article
8122 Signature}) in an article will be considered a signature and will be
8123 highlighted with @code{gnus-signature-face}, which is @code{italic} by
8128 @xref{Customizing Articles}, for how to highlight articles automatically.
8131 @node Article Fontisizing
8132 @subsection Article Fontisizing
8134 @cindex article emphasis
8136 @findex gnus-article-emphasize
8137 @kindex W e (Summary)
8138 People commonly add emphasis to words in news articles by writing things
8139 like @samp{_this_} or @samp{*this*} or @samp{/this/}. Gnus can make
8140 this look nicer by running the article through the @kbd{W e}
8141 (@code{gnus-article-emphasize}) command.
8143 @vindex gnus-emphasis-alist
8144 How the emphasis is computed is controlled by the
8145 @code{gnus-emphasis-alist} variable. This is an alist where the first
8146 element is a regular expression to be matched. The second is a number
8147 that says what regular expression grouping is used to find the entire
8148 emphasized word. The third is a number that says what regexp grouping
8149 should be displayed and highlighted. (The text between these two
8150 groupings will be hidden.) The fourth is the face used for
8154 (setq gnus-emphasis-alist
8155 '(("_\\(\\w+\\)_" 0 1 gnus-emphasis-underline)
8156 ("\\*\\(\\w+\\)\\*" 0 1 gnus-emphasis-bold)))
8165 @vindex gnus-emphasis-underline
8166 @vindex gnus-emphasis-bold
8167 @vindex gnus-emphasis-italic
8168 @vindex gnus-emphasis-underline-bold
8169 @vindex gnus-emphasis-underline-italic
8170 @vindex gnus-emphasis-bold-italic
8171 @vindex gnus-emphasis-underline-bold-italic
8172 By default, there are seven rules, and they use the following faces:
8173 @code{gnus-emphasis-bold}, @code{gnus-emphasis-italic},
8174 @code{gnus-emphasis-underline}, @code{gnus-emphasis-bold-italic},
8175 @code{gnus-emphasis-underline-italic},
8176 @code{gnus-emphasis-underline-bold}, and
8177 @code{gnus-emphasis-underline-bold-italic}.
8179 If you want to change these faces, you can either use @kbd{M-x
8180 customize}, or you can use @code{copy-face}. For instance, if you want
8181 to make @code{gnus-emphasis-italic} use a red face instead, you could
8185 (copy-face 'red 'gnus-emphasis-italic)
8188 @vindex gnus-group-highlight-words-alist
8190 If you want to highlight arbitrary words, you can use the
8191 @code{gnus-group-highlight-words-alist} variable, which uses the same
8192 syntax as @code{gnus-emphasis-alist}. The @code{highlight-words} group
8193 parameter (@pxref{Group Parameters}) can also be used.
8195 @xref{Customizing Articles}, for how to fontize articles automatically.
8198 @node Article Hiding
8199 @subsection Article Hiding
8200 @cindex article hiding
8202 Or rather, hiding certain things in each article. There usually is much
8203 too much cruft in most articles.
8208 @kindex W W a (Summary)
8209 @findex gnus-article-hide
8210 Do quite a lot of hiding on the article buffer
8211 (@kbd{gnus-article-hide}). In particular, this function will hide
8212 headers, @acronym{PGP}, cited text and the signature.
8215 @kindex W W h (Summary)
8216 @findex gnus-article-hide-headers
8217 Hide headers (@code{gnus-article-hide-headers}). @xref{Hiding
8221 @kindex W W b (Summary)
8222 @findex gnus-article-hide-boring-headers
8223 Hide headers that aren't particularly interesting
8224 (@code{gnus-article-hide-boring-headers}). @xref{Hiding Headers}.
8227 @kindex W W s (Summary)
8228 @findex gnus-article-hide-signature
8229 Hide signature (@code{gnus-article-hide-signature}). @xref{Article
8233 @kindex W W l (Summary)
8234 @findex gnus-article-hide-list-identifiers
8235 @vindex gnus-list-identifiers
8236 Strip list identifiers specified in @code{gnus-list-identifiers}. These
8237 are strings some mailing list servers add to the beginning of all
8238 @code{Subject} headers---for example, @samp{[zebra 4711]}. Any leading
8239 @samp{Re: } is skipped before stripping. @code{gnus-list-identifiers}
8240 may not contain @code{\\(..\\)}.
8244 @item gnus-list-identifiers
8245 @vindex gnus-list-identifiers
8246 A regular expression that matches list identifiers to be removed from
8247 subject. This can also be a list of regular expressions.
8252 @kindex W W P (Summary)
8253 @findex gnus-article-hide-pem
8254 Hide @acronym{PEM} (privacy enhanced messages) cruft
8255 (@code{gnus-article-hide-pem}).
8258 @kindex W W B (Summary)
8259 @findex gnus-article-strip-banner
8260 @vindex gnus-article-banner-alist
8261 @vindex gnus-article-address-banner-alist
8264 @cindex stripping advertisements
8265 @cindex advertisements
8266 Strip the banner specified by the @code{banner} group parameter
8267 (@code{gnus-article-strip-banner}). This is mainly used to hide those
8268 annoying banners and/or signatures that some mailing lists and moderated
8269 groups adds to all the messages. The way to use this function is to add
8270 the @code{banner} group parameter (@pxref{Group Parameters}) to the
8271 group you want banners stripped from. The parameter either be a string,
8272 which will be interpreted as a regular expression matching text to be
8273 removed, or the symbol @code{signature}, meaning that the (last)
8274 signature should be removed, or other symbol, meaning that the
8275 corresponding regular expression in @code{gnus-article-banner-alist} is
8278 Regardless of a group, you can hide things like advertisements only when
8279 the sender of an article has a certain mail address specified in
8280 @code{gnus-article-address-banner-alist}.
8284 @item gnus-article-address-banner-alist
8285 @vindex gnus-article-address-banner-alist
8286 Alist of mail addresses and banners. Each element has the form
8287 @code{(@var{address} . @var{banner})}, where @var{address} is a regexp
8288 matching a mail address in the From header, @var{banner} is one of a
8289 symbol @code{signature}, an item in @code{gnus-article-banner-alist},
8290 a regexp and @code{nil}. If @var{address} matches author's mail
8291 address, it will remove things like advertisements. For example, if a
8292 sender has the mail address @samp{hail@@yoo-hoo.co.jp} and there is a
8293 banner something like @samp{Do You Yoo-hoo!?} in all articles he
8294 sends, you can use the following element to remove them:
8297 ("@@yoo-hoo\\.co\\.jp\\'" .
8298 "\n_+\nDo You Yoo-hoo!\\?\n.*\n.*\n")
8304 @kindex W W c (Summary)
8305 @findex gnus-article-hide-citation
8306 Hide citation (@code{gnus-article-hide-citation}). Some variables for
8307 customizing the hiding:
8311 @item gnus-cited-opened-text-button-line-format
8312 @itemx gnus-cited-closed-text-button-line-format
8313 @vindex gnus-cited-closed-text-button-line-format
8314 @vindex gnus-cited-opened-text-button-line-format
8315 Gnus adds buttons to show where the cited text has been hidden, and to
8316 allow toggle hiding the text. The format of the variable is specified
8317 by these format-like variable (@pxref{Formatting Variables}). These
8322 Starting point of the hidden text.
8324 Ending point of the hidden text.
8326 Number of characters in the hidden region.
8328 Number of lines of hidden text.
8331 @item gnus-cited-lines-visible
8332 @vindex gnus-cited-lines-visible
8333 The number of lines at the beginning of the cited text to leave
8334 shown. This can also be a cons cell with the number of lines at the top
8335 and bottom of the text, respectively, to remain visible.
8340 @kindex W W C-c (Summary)
8341 @findex gnus-article-hide-citation-maybe
8343 Hide citation (@code{gnus-article-hide-citation-maybe}) depending on the
8344 following two variables:
8347 @item gnus-cite-hide-percentage
8348 @vindex gnus-cite-hide-percentage
8349 If the cited text is of a bigger percentage than this variable (default
8350 50), hide the cited text.
8352 @item gnus-cite-hide-absolute
8353 @vindex gnus-cite-hide-absolute
8354 The cited text must have at least this length (default 10) before it
8359 @kindex W W C (Summary)
8360 @findex gnus-article-hide-citation-in-followups
8361 Hide cited text in articles that aren't roots
8362 (@code{gnus-article-hide-citation-in-followups}). This isn't very
8363 useful as an interactive command, but might be a handy function to stick
8364 have happen automatically (@pxref{Customizing Articles}).
8368 All these ``hiding'' commands are toggles, but if you give a negative
8369 prefix to these commands, they will show what they have previously
8370 hidden. If you give a positive prefix, they will always hide.
8372 Also @pxref{Article Highlighting} for further variables for
8373 citation customization.
8375 @xref{Customizing Articles}, for how to hide article elements
8379 @node Article Washing
8380 @subsection Article Washing
8382 @cindex article washing
8384 We call this ``article washing'' for a really good reason. Namely, the
8385 @kbd{A} key was taken, so we had to use the @kbd{W} key instead.
8387 @dfn{Washing} is defined by us as ``changing something from something to
8388 something else'', but normally results in something looking better.
8391 @xref{Customizing Articles}, if you want to change how Gnus displays
8392 articles by default.
8397 This is not really washing, it's sort of the opposite of washing. If
8398 you type this, you see the article exactly as it exists on disk or on
8402 Force redisplaying of the current article
8403 (@code{gnus-summary-show-article}). This is also not really washing.
8404 If you type this, you see the article without any previously applied
8405 interactive Washing functions but with all default treatments
8406 (@pxref{Customizing Articles}).
8409 @kindex W l (Summary)
8410 @findex gnus-summary-stop-page-breaking
8411 Remove page breaks from the current article
8412 (@code{gnus-summary-stop-page-breaking}). @xref{Misc Article}, for page
8416 @kindex W r (Summary)
8417 @findex gnus-summary-caesar-message
8418 @c @icon{gnus-summary-caesar-message}
8419 Do a Caesar rotate (rot13) on the article buffer
8420 (@code{gnus-summary-caesar-message}).
8421 Unreadable articles that tell you to read them with Caesar rotate or rot13.
8422 (Typically offensive jokes and such.)
8424 It's commonly called ``rot13'' because each letter is rotated 13
8425 positions in the alphabet, e. g. @samp{B} (letter #2) -> @samp{O} (letter
8426 #15). It is sometimes referred to as ``Caesar rotate'' because Caesar
8427 is rumored to have employed this form of, uh, somewhat weak encryption.
8430 @kindex W m (Summary)
8431 @findex gnus-summary-morse-message
8432 Morse decode the article buffer (@code{gnus-summary-morse-message}).
8436 @kindex W t (Summary)
8438 @findex gnus-summary-toggle-header
8439 Toggle whether to display all headers in the article buffer
8440 (@code{gnus-summary-toggle-header}).
8443 @kindex W v (Summary)
8444 @findex gnus-summary-verbose-headers
8445 Toggle whether to display all headers in the article buffer permanently
8446 (@code{gnus-summary-verbose-headers}).
8449 @kindex W o (Summary)
8450 @findex gnus-article-treat-overstrike
8451 Treat overstrike (@code{gnus-article-treat-overstrike}).
8454 @kindex W d (Summary)
8455 @findex gnus-article-treat-dumbquotes
8456 @vindex gnus-article-dumbquotes-map
8458 @cindex M****s*** sm*rtq**t*s
8460 Treat M****s*** sm*rtq**t*s according to
8461 @code{gnus-article-dumbquotes-map}
8462 (@code{gnus-article-treat-dumbquotes}). Note that this function guesses
8463 whether a character is a sm*rtq**t* or not, so it should only be used
8466 Sm*rtq**t*s are M****s***'s unilateral extension to the character map in
8467 an attempt to provide more quoting characters. If you see something
8468 like @code{\222} or @code{\264} where you're expecting some kind of
8469 apostrophe or quotation mark, then try this wash.
8472 @kindex W Y f (Summary)
8473 @findex gnus-article-outlook-deuglify-article
8474 @cindex Outlook Express
8475 Full deuglify of broken Outlook (Express) articles: Treat dumbquotes,
8476 unwrap lines, repair attribution and rearrange citation.
8477 (@code{gnus-article-outlook-deuglify-article}).
8480 @kindex W Y u (Summary)
8481 @findex gnus-article-outlook-unwrap-lines
8482 @vindex gnus-outlook-deuglify-unwrap-min
8483 @vindex gnus-outlook-deuglify-unwrap-max
8484 Unwrap lines that appear to be wrapped citation lines. You can control
8485 what lines will be unwrapped by frobbing
8486 @code{gnus-outlook-deuglify-unwrap-min} and
8487 @code{gnus-outlook-deuglify-unwrap-max}, indicating the minimum and
8488 maximum length of an unwrapped citation line.
8489 (@code{gnus-article-outlook-unwrap-lines}).
8492 @kindex W Y a (Summary)
8493 @findex gnus-article-outlook-repair-attribution
8494 Repair a broken attribution line.@*
8495 (@code{gnus-article-outlook-repair-attribution}).
8498 @kindex W Y c (Summary)
8499 @findex gnus-article-outlook-rearrange-citation
8500 Repair broken citations by rearranging the text.
8501 (@code{gnus-article-outlook-rearrange-citation}).
8504 @kindex W w (Summary)
8505 @findex gnus-article-fill-cited-article
8506 Do word wrap (@code{gnus-article-fill-cited-article}).
8508 You can give the command a numerical prefix to specify the width to use
8512 @kindex W Q (Summary)
8513 @findex gnus-article-fill-long-lines
8514 Fill long lines (@code{gnus-article-fill-long-lines}).
8517 @kindex W C (Summary)
8518 @findex gnus-article-capitalize-sentences
8519 Capitalize the first word in each sentence
8520 (@code{gnus-article-capitalize-sentences}).
8523 @kindex W c (Summary)
8524 @findex gnus-article-remove-cr
8525 Translate CRLF pairs (i. e., @samp{^M}s on the end of the lines) into LF
8526 (this takes care of DOS line endings), and then translate any remaining
8527 CRs into LF (this takes care of Mac line endings)
8528 (@code{gnus-article-remove-cr}).
8531 @kindex W q (Summary)
8532 @findex gnus-article-de-quoted-unreadable
8533 Treat quoted-printable (@code{gnus-article-de-quoted-unreadable}).
8534 Quoted-Printable is one common @acronym{MIME} encoding employed when
8535 sending non-@acronym{ASCII} (i.e., 8-bit) articles. It typically
8536 makes strings like @samp{déjà vu} look like @samp{d=E9j=E0 vu}, which
8537 doesn't look very readable to me. Note that this is usually done
8538 automatically by Gnus if the message in question has a
8539 @code{Content-Transfer-Encoding} header that says that this encoding
8540 has been done. If a prefix is given, a charset will be asked for.
8543 @kindex W 6 (Summary)
8544 @findex gnus-article-de-base64-unreadable
8545 Treat base64 (@code{gnus-article-de-base64-unreadable}). Base64 is
8546 one common @acronym{MIME} encoding employed when sending
8547 non-@acronym{ASCII} (i.e., 8-bit) articles. Note that this is
8548 usually done automatically by Gnus if the message in question has a
8549 @code{Content-Transfer-Encoding} header that says that this encoding
8550 has been done. If a prefix is given, a charset will be asked for.
8553 @kindex W Z (Summary)
8554 @findex gnus-article-decode-HZ
8555 Treat HZ or HZP (@code{gnus-article-decode-HZ}). HZ (or HZP) is one
8556 common encoding employed when sending Chinese articles. It typically
8557 makes strings look like @samp{~@{<:Ky2;S@{#,NpJ)l6HK!#~@}}.
8560 @kindex W u (Summary)
8561 @findex gnus-article-unsplit-urls
8562 Remove newlines from within URLs. Some mailers insert newlines into
8563 outgoing email messages to keep lines short. This reformatting can
8564 split long URLs onto multiple lines. Repair those URLs by removing
8565 the newlines (@code{gnus-article-unsplit-urls}).
8568 @kindex W h (Summary)
8569 @findex gnus-article-wash-html
8570 Treat @acronym{HTML} (@code{gnus-article-wash-html}). Note that this is
8571 usually done automatically by Gnus if the message in question has a
8572 @code{Content-Type} header that says that the message is @acronym{HTML}.
8574 If a prefix is given, a charset will be asked for.
8576 @vindex gnus-article-wash-function
8577 The default is to use the function specified by
8578 @code{mm-text-html-renderer} (@pxref{Display Customization, ,Display
8579 Customization, emacs-mime, The Emacs MIME Manual}) to convert the
8580 @acronym{HTML}, but this is controlled by the
8581 @code{gnus-article-wash-function} variable. Pre-defined functions you
8589 Use @uref{http://emacs-w3m.namazu.org/, emacs-w3m}.
8592 Use @uref{http://links.sf.net/, Links}.
8595 Use @uref{http://lynx.isc.org/, Lynx}.
8598 Use html2text---a simple @acronym{HTML} converter included with Gnus.
8603 @kindex W b (Summary)
8604 @findex gnus-article-add-buttons
8605 Add clickable buttons to the article (@code{gnus-article-add-buttons}).
8606 @xref{Article Buttons}.
8609 @kindex W B (Summary)
8610 @findex gnus-article-add-buttons-to-head
8611 Add clickable buttons to the article headers
8612 (@code{gnus-article-add-buttons-to-head}).
8615 @kindex W p (Summary)
8616 @findex gnus-article-verify-x-pgp-sig
8617 Verify a signed control message
8618 (@code{gnus-article-verify-x-pgp-sig}). Control messages such as
8619 @code{newgroup} and @code{checkgroups} are usually signed by the
8620 hierarchy maintainer. You need to add the @acronym{PGP} public key of
8621 the maintainer to your keyring to verify the
8622 message.@footnote{@acronym{PGP} keys for many hierarchies are
8623 available at @uref{ftp://ftp.isc.org/pub/pgpcontrol/README.html}}
8626 @kindex W s (Summary)
8627 @findex gnus-summary-force-verify-and-decrypt
8628 Verify a signed (@acronym{PGP}, @acronym{PGP/MIME} or
8629 @acronym{S/MIME}) message
8630 (@code{gnus-summary-force-verify-and-decrypt}). @xref{Security}.
8633 @kindex W a (Summary)
8634 @findex gnus-article-strip-headers-in-body
8635 Strip headers like the @code{X-No-Archive} header from the beginning of
8636 article bodies (@code{gnus-article-strip-headers-in-body}).
8639 @kindex W E l (Summary)
8640 @findex gnus-article-strip-leading-blank-lines
8641 Remove all blank lines from the beginning of the article
8642 (@code{gnus-article-strip-leading-blank-lines}).
8645 @kindex W E m (Summary)
8646 @findex gnus-article-strip-multiple-blank-lines
8647 Replace all blank lines with empty lines and then all multiple empty
8648 lines with a single empty line.
8649 (@code{gnus-article-strip-multiple-blank-lines}).
8652 @kindex W E t (Summary)
8653 @findex gnus-article-remove-trailing-blank-lines
8654 Remove all blank lines at the end of the article
8655 (@code{gnus-article-remove-trailing-blank-lines}).
8658 @kindex W E a (Summary)
8659 @findex gnus-article-strip-blank-lines
8660 Do all the three commands above
8661 (@code{gnus-article-strip-blank-lines}).
8664 @kindex W E A (Summary)
8665 @findex gnus-article-strip-all-blank-lines
8666 Remove all blank lines
8667 (@code{gnus-article-strip-all-blank-lines}).
8670 @kindex W E s (Summary)
8671 @findex gnus-article-strip-leading-space
8672 Remove all white space from the beginning of all lines of the article
8673 body (@code{gnus-article-strip-leading-space}).
8676 @kindex W E e (Summary)
8677 @findex gnus-article-strip-trailing-space
8678 Remove all white space from the end of all lines of the article
8679 body (@code{gnus-article-strip-trailing-space}).
8683 @xref{Customizing Articles}, for how to wash articles automatically.
8686 @node Article Header
8687 @subsection Article Header
8689 These commands perform various transformations of article header.
8694 @kindex W G u (Summary)
8695 @findex gnus-article-treat-unfold-headers
8696 Unfold folded header lines (@code{gnus-article-treat-unfold-headers}).
8699 @kindex W G n (Summary)
8700 @findex gnus-article-treat-fold-newsgroups
8701 Fold the @code{Newsgroups} and @code{Followup-To} headers
8702 (@code{gnus-article-treat-fold-newsgroups}).
8705 @kindex W G f (Summary)
8706 @findex gnus-article-treat-fold-headers
8707 Fold all the message headers
8708 (@code{gnus-article-treat-fold-headers}).
8711 @kindex W E w (Summary)
8712 @findex gnus-article-remove-leading-whitespace
8713 Remove excessive whitespace from all headers
8714 (@code{gnus-article-remove-leading-whitespace}).
8719 @node Article Buttons
8720 @subsection Article Buttons
8723 People often include references to other stuff in articles, and it would
8724 be nice if Gnus could just fetch whatever it is that people talk about
8725 with the minimum of fuzz when you hit @kbd{RET} or use the middle mouse
8726 button on these references.
8728 @vindex gnus-button-man-handler
8729 Gnus adds @dfn{buttons} to certain standard references by default:
8730 Well-formed URLs, mail addresses, Message-IDs, Info links, man pages and
8731 Emacs or Gnus related references. This is controlled by two variables,
8732 one that handles article bodies and one that handles article heads:
8736 @item gnus-button-alist
8737 @vindex gnus-button-alist
8738 This is an alist where each entry has this form:
8741 (@var{regexp} @var{button-par} @var{use-p} @var{function} @var{data-par})
8747 All text that match this regular expression (case insensitive) will be
8748 considered an external reference. Here's a typical regexp that matches
8749 embedded URLs: @samp{<URL:\\([^\n\r>]*\\)>}. This can also be a
8750 variable containing a regexp, useful variables to use include
8751 @code{gnus-button-url-regexp} and @code{gnus-button-mid-or-mail-regexp}.
8754 Gnus has to know which parts of the matches is to be highlighted. This
8755 is a number that says what sub-expression of the regexp is to be
8756 highlighted. If you want it all highlighted, you use 0 here.
8759 This form will be @code{eval}ed, and if the result is non-@code{nil},
8760 this is considered a match. This is useful if you want extra sifting to
8761 avoid false matches. Often variables named
8762 @code{gnus-button-@var{*}-level} are used here, @xref{Article Button
8763 Levels}, but any other form may be used too.
8765 @c @code{use-p} is @code{eval}ed only if @code{regexp} matches.
8768 This function will be called when you click on this button.
8771 As with @var{button-par}, this is a sub-expression number, but this one
8772 says which part of the match is to be sent as data to @var{function}.
8776 So the full entry for buttonizing URLs is then
8779 ("<URL:\\([^\n\r>]*\\)>" 0 t gnus-button-url 1)
8782 @item gnus-header-button-alist
8783 @vindex gnus-header-button-alist
8784 This is just like the other alist, except that it is applied to the
8785 article head only, and that each entry has an additional element that is
8786 used to say what headers to apply the buttonize coding to:
8789 (@var{header} @var{regexp} @var{button-par} @var{use-p} @var{function} @var{data-par})
8792 @var{header} is a regular expression.
8795 @subsubsection Related variables and functions
8798 @item gnus-button-@var{*}-level
8799 @xref{Article Button Levels}.
8801 @c Stuff related to gnus-button-browse-level
8803 @item gnus-button-url-regexp
8804 @vindex gnus-button-url-regexp
8805 A regular expression that matches embedded URLs. It is used in the
8806 default values of the variables above.
8808 @c Stuff related to gnus-button-man-level
8810 @item gnus-button-man-handler
8811 @vindex gnus-button-man-handler
8812 The function to use for displaying man pages. It must take at least one
8813 argument with a string naming the man page.
8815 @c Stuff related to gnus-button-message-level
8817 @item gnus-button-mid-or-mail-regexp
8818 @vindex gnus-button-mid-or-mail-regexp
8819 Regular expression that matches a message ID or a mail address.
8821 @item gnus-button-prefer-mid-or-mail
8822 @vindex gnus-button-prefer-mid-or-mail
8823 This variable determines what to do when the button on a string as
8824 @samp{foo123@@bar.invalid} is pushed. Strings like this can be either a
8825 message ID or a mail address. If it is one of the symbols @code{mid} or
8826 @code{mail}, Gnus will always assume that the string is a message ID or
8827 a mail address, respectively. If this variable is set to the symbol
8828 @code{ask}, always query the user what do do. If it is a function, this
8829 function will be called with the string as its only argument. The
8830 function must return @code{mid}, @code{mail}, @code{invalid} or
8831 @code{ask}. The default value is the function
8832 @code{gnus-button-mid-or-mail-heuristic}.
8834 @item gnus-button-mid-or-mail-heuristic
8835 @findex gnus-button-mid-or-mail-heuristic
8836 Function that guesses whether its argument is a message ID or a mail
8837 address. Returns @code{mid} if it's a message IDs, @code{mail} if
8838 it's a mail address, @code{ask} if unsure and @code{invalid} if the
8841 @item gnus-button-mid-or-mail-heuristic-alist
8842 @vindex gnus-button-mid-or-mail-heuristic-alist
8843 An alist of @code{(RATE . REGEXP)} pairs used by the function
8844 @code{gnus-button-mid-or-mail-heuristic}.
8846 @c Stuff related to gnus-button-tex-level
8848 @item gnus-button-ctan-handler
8849 @findex gnus-button-ctan-handler
8850 The function to use for displaying CTAN links. It must take one
8851 argument, the string naming the URL.
8854 @vindex gnus-ctan-url
8855 Top directory of a CTAN (Comprehensive TeX Archive Network) archive used
8856 by @code{gnus-button-ctan-handler}.
8860 @item gnus-article-button-face
8861 @vindex gnus-article-button-face
8862 Face used on buttons.
8864 @item gnus-article-mouse-face
8865 @vindex gnus-article-mouse-face
8866 Face used when the mouse cursor is over a button.
8870 @xref{Customizing Articles}, for how to buttonize articles automatically.
8873 @node Article Button Levels
8874 @subsection Article button levels
8875 @cindex button levels
8876 The higher the value of the variables @code{gnus-button-@var{*}-level},
8877 the more buttons will appear. If the level is zero, no corresponding
8878 buttons are displayed. With the default value (which is 5) you should
8879 already see quite a lot of buttons. With higher levels, you will see
8880 more buttons, but you may also get more false positives. To avoid them,
8881 you can set the variables @code{gnus-button-@var{*}-level} local to
8882 specific groups (@pxref{Group Parameters}). Here's an example for the
8883 variable @code{gnus-parameters}:
8886 ;; @r{increase @code{gnus-button-*-level} in some groups:}
8887 (setq gnus-parameters
8888 '(("\\<\\(emacs\\|gnus\\)\\>" (gnus-button-emacs-level 10))
8889 ("\\<unix\\>" (gnus-button-man-level 10))
8890 ("\\<tex\\>" (gnus-button-tex-level 10))))
8895 @item gnus-button-browse-level
8896 @vindex gnus-button-browse-level
8897 Controls the display of references to message IDs, mail addresses and
8898 news URLs. Related variables and functions include
8899 @code{gnus-button-url-regexp}, @code{browse-url}, and
8900 @code{browse-url-browser-function}.
8902 @item gnus-button-emacs-level
8903 @vindex gnus-button-emacs-level
8904 Controls the display of Emacs or Gnus references. Related functions are
8905 @code{gnus-button-handle-custom},
8906 @code{gnus-button-handle-describe-function},
8907 @code{gnus-button-handle-describe-variable},
8908 @code{gnus-button-handle-symbol},
8909 @code{gnus-button-handle-describe-key},
8910 @code{gnus-button-handle-apropos},
8911 @code{gnus-button-handle-apropos-command},
8912 @code{gnus-button-handle-apropos-variable},
8913 @code{gnus-button-handle-apropos-documentation}, and
8914 @code{gnus-button-handle-library}.
8916 @item gnus-button-man-level
8917 @vindex gnus-button-man-level
8918 Controls the display of references to (Unix) man pages.
8919 See @code{gnus-button-man-handler}.
8921 @item gnus-button-message-level
8922 @vindex gnus-button-message-level
8923 Controls the display of message IDs, mail addresses and news URLs.
8924 Related variables and functions include
8925 @code{gnus-button-mid-or-mail-regexp},
8926 @code{gnus-button-prefer-mid-or-mail},
8927 @code{gnus-button-mid-or-mail-heuristic}, and
8928 @code{gnus-button-mid-or-mail-heuristic-alist}.
8930 @item gnus-button-tex-level
8931 @vindex gnus-button-tex-level
8932 Controls the display of references to @TeX{} or LaTeX stuff, e.g. for CTAN
8933 URLs. See the variables @code{gnus-ctan-url},
8934 @code{gnus-button-ctan-handler},
8935 @code{gnus-button-ctan-directory-regexp}, and
8936 @code{gnus-button-handle-ctan-bogus-regexp}.
8942 @subsection Article Date
8944 The date is most likely generated in some obscure timezone you've never
8945 heard of, so it's quite nice to be able to find out what the time was
8946 when the article was sent.
8951 @kindex W T u (Summary)
8952 @findex gnus-article-date-ut
8953 Display the date in UT (aka. GMT, aka ZULU)
8954 (@code{gnus-article-date-ut}).
8957 @kindex W T i (Summary)
8958 @findex gnus-article-date-iso8601
8960 Display the date in international format, aka. ISO 8601
8961 (@code{gnus-article-date-iso8601}).
8964 @kindex W T l (Summary)
8965 @findex gnus-article-date-local
8966 Display the date in the local timezone (@code{gnus-article-date-local}).
8969 @kindex W T p (Summary)
8970 @findex gnus-article-date-english
8971 Display the date in a format that's easily pronounceable in English
8972 (@code{gnus-article-date-english}).
8975 @kindex W T s (Summary)
8976 @vindex gnus-article-time-format
8977 @findex gnus-article-date-user
8978 @findex format-time-string
8979 Display the date using a user-defined format
8980 (@code{gnus-article-date-user}). The format is specified by the
8981 @code{gnus-article-time-format} variable, and is a string that's passed
8982 to @code{format-time-string}. See the documentation of that variable
8983 for a list of possible format specs.
8986 @kindex W T e (Summary)
8987 @findex gnus-article-date-lapsed
8988 @findex gnus-start-date-timer
8989 @findex gnus-stop-date-timer
8990 Say how much time has elapsed between the article was posted and now
8991 (@code{gnus-article-date-lapsed}). It looks something like:
8994 X-Sent: 6 weeks, 4 days, 1 hour, 3 minutes, 8 seconds ago
8997 @vindex gnus-article-date-lapsed-new-header
8998 The value of @code{gnus-article-date-lapsed-new-header} determines
8999 whether this header will just be added below the old Date one, or will
9002 An advantage of using Gnus to read mail is that it converts simple bugs
9003 into wonderful absurdities.
9005 If you want to have this line updated continually, you can put
9008 (gnus-start-date-timer)
9011 in your @file{~/.gnus.el} file, or you can run it off of some hook. If
9012 you want to stop the timer, you can use the @code{gnus-stop-date-timer}
9016 @kindex W T o (Summary)
9017 @findex gnus-article-date-original
9018 Display the original date (@code{gnus-article-date-original}). This can
9019 be useful if you normally use some other conversion function and are
9020 worried that it might be doing something totally wrong. Say, claiming
9021 that the article was posted in 1854. Although something like that is
9022 @emph{totally} impossible. Don't you trust me? *titter*
9026 @xref{Customizing Articles}, for how to display the date in your
9027 preferred format automatically.
9030 @node Article Display
9031 @subsection Article Display
9036 These commands add various frivolous display gimmicks to the article
9037 buffer in Emacs versions that support them.
9039 @code{X-Face} headers are small black-and-white images supplied by the
9040 message headers (@pxref{X-Face}).
9042 @code{Face} headers are small colored images supplied by the message
9043 headers (@pxref{Face}).
9045 Smileys are those little @samp{:-)} symbols that people like to litter
9046 their messages with (@pxref{Smileys}).
9048 Picons, on the other hand, reside on your own system, and Gnus will
9049 try to match the headers to what you have (@pxref{Picons}).
9051 All these functions are toggles---if the elements already exist,
9056 @kindex W D x (Summary)
9057 @findex gnus-article-display-x-face
9058 Display an @code{X-Face} in the @code{From} header.
9059 (@code{gnus-article-display-x-face}).
9062 @kindex W D d (Summary)
9063 @findex gnus-article-display-face
9064 Display a @code{Face} in the @code{From} header.
9065 (@code{gnus-article-display-face}).
9068 @kindex W D s (Summary)
9069 @findex gnus-treat-smiley
9070 Display smileys (@code{gnus-treat-smiley}).
9073 @kindex W D f (Summary)
9074 @findex gnus-treat-from-picon
9075 Piconify the @code{From} header (@code{gnus-treat-from-picon}).
9078 @kindex W D m (Summary)
9079 @findex gnus-treat-mail-picon
9080 Piconify all mail headers (i. e., @code{Cc}, @code{To})
9081 (@code{gnus-treat-mail-picon}).
9084 @kindex W D n (Summary)
9085 @findex gnus-treat-newsgroups-picon
9086 Piconify all news headers (i. e., @code{Newsgroups} and
9087 @code{Followup-To}) (@code{gnus-treat-newsgroups-picon}).
9090 @kindex W D D (Summary)
9091 @findex gnus-article-remove-images
9092 Remove all images from the article buffer
9093 (@code{gnus-article-remove-images}).
9099 @node Article Signature
9100 @subsection Article Signature
9102 @cindex article signature
9104 @vindex gnus-signature-separator
9105 Each article is divided into two parts---the head and the body. The
9106 body can be divided into a signature part and a text part. The variable
9107 that says what is to be considered a signature is
9108 @code{gnus-signature-separator}. This is normally the standard
9109 @samp{^-- $} as mandated by son-of-RFC 1036. However, many people use
9110 non-standard signature separators, so this variable can also be a list
9111 of regular expressions to be tested, one by one. (Searches are done
9112 from the end of the body towards the beginning.) One likely value is:
9115 (setq gnus-signature-separator
9116 '("^-- $" ; @r{The standard}
9117 "^-- *$" ; @r{A common mangling}
9118 "^-------*$" ; @r{Many people just use a looong}
9119 ; @r{line of dashes. Shame!}
9120 "^ *--------*$" ; @r{Double-shame!}
9121 "^________*$" ; @r{Underscores are also popular}
9122 "^========*$")) ; @r{Pervert!}
9125 The more permissive you are, the more likely it is that you'll get false
9128 @vindex gnus-signature-limit
9129 @code{gnus-signature-limit} provides a limit to what is considered a
9130 signature when displaying articles.
9134 If it is an integer, no signature may be longer (in characters) than
9137 If it is a floating point number, no signature may be longer (in lines)
9140 If it is a function, the function will be called without any parameters,
9141 and if it returns @code{nil}, there is no signature in the buffer.
9143 If it is a string, it will be used as a regexp. If it matches, the text
9144 in question is not a signature.
9147 This variable can also be a list where the elements may be of the types
9148 listed above. Here's an example:
9151 (setq gnus-signature-limit
9152 '(200.0 "^---*Forwarded article"))
9155 This means that if there are more than 200 lines after the signature
9156 separator, or the text after the signature separator is matched by
9157 the regular expression @samp{^---*Forwarded article}, then it isn't a
9158 signature after all.
9161 @node Article Miscellanea
9162 @subsection Article Miscellanea
9166 @kindex A t (Summary)
9167 @findex gnus-article-babel
9168 Translate the article from one language to another
9169 (@code{gnus-article-babel}).
9175 @section MIME Commands
9176 @cindex MIME decoding
9178 @cindex viewing attachments
9180 The following commands all understand the numerical prefix. For
9181 instance, @kbd{3 b} means ``view the third @acronym{MIME} part''.
9187 @kindex K v (Summary)
9188 View the @acronym{MIME} part.
9191 @kindex K o (Summary)
9192 Save the @acronym{MIME} part.
9195 @kindex K c (Summary)
9196 Copy the @acronym{MIME} part.
9199 @kindex K e (Summary)
9200 View the @acronym{MIME} part externally.
9203 @kindex K i (Summary)
9204 View the @acronym{MIME} part internally.
9207 @kindex K | (Summary)
9208 Pipe the @acronym{MIME} part to an external command.
9211 The rest of these @acronym{MIME} commands do not use the numerical prefix in
9216 @kindex K b (Summary)
9217 Make all the @acronym{MIME} parts have buttons in front of them. This is
9218 mostly useful if you wish to save (or perform other actions) on inlined
9222 @kindex K m (Summary)
9223 @findex gnus-summary-repair-multipart
9224 Some multipart messages are transmitted with missing or faulty headers.
9225 This command will attempt to ``repair'' these messages so that they can
9226 be viewed in a more pleasant manner
9227 (@code{gnus-summary-repair-multipart}).
9230 @kindex X m (Summary)
9231 @findex gnus-summary-save-parts
9232 Save all parts matching a @acronym{MIME} type to a directory
9233 (@code{gnus-summary-save-parts}). Understands the process/prefix
9234 convention (@pxref{Process/Prefix}).
9237 @kindex M-t (Summary)
9238 @findex gnus-summary-toggle-display-buttonized
9239 Toggle the buttonized display of the article buffer
9240 (@code{gnus-summary-toggle-display-buttonized}).
9243 @kindex W M w (Summary)
9244 @findex gnus-article-decode-mime-words
9245 Decode RFC 2047-encoded words in the article headers
9246 (@code{gnus-article-decode-mime-words}).
9249 @kindex W M c (Summary)
9250 @findex gnus-article-decode-charset
9251 Decode encoded article bodies as well as charsets
9252 (@code{gnus-article-decode-charset}).
9254 This command looks in the @code{Content-Type} header to determine the
9255 charset. If there is no such header in the article, you can give it a
9256 prefix, which will prompt for the charset to decode as. In regional
9257 groups where people post using some common encoding (but do not
9258 include @acronym{MIME} headers), you can set the @code{charset} group/topic
9259 parameter to the required charset (@pxref{Group Parameters}).
9262 @kindex W M v (Summary)
9263 @findex gnus-mime-view-all-parts
9264 View all the @acronym{MIME} parts in the current article
9265 (@code{gnus-mime-view-all-parts}).
9272 @item gnus-ignored-mime-types
9273 @vindex gnus-ignored-mime-types
9274 This is a list of regexps. @acronym{MIME} types that match a regexp from
9275 this list will be completely ignored by Gnus. The default value is
9278 To have all Vcards be ignored, you'd say something like this:
9281 (setq gnus-ignored-mime-types
9285 @item gnus-article-loose-mime
9286 @vindex gnus-article-loose-mime
9287 If non-@code{nil}, Gnus won't require the @samp{MIME-Version} header
9288 before interpreting the message as a @acronym{MIME} message. This helps
9289 when reading messages from certain broken mail user agents. The
9290 default is @code{nil}.
9292 @item gnus-article-emulate-mime
9293 @vindex gnus-article-emulate-mime
9294 There are other, non-@acronym{MIME} encoding methods used. The most common
9295 is @samp{uuencode}, but yEncode is also getting to be popular. If
9296 this variable is non-@code{nil}, Gnus will look in message bodies to
9297 see if it finds these encodings, and if so, it'll run them through the
9298 Gnus @acronym{MIME} machinery. The default is @code{t}.
9300 @item gnus-unbuttonized-mime-types
9301 @vindex gnus-unbuttonized-mime-types
9302 This is a list of regexps. @acronym{MIME} types that match a regexp from
9303 this list won't have @acronym{MIME} buttons inserted unless they aren't
9304 displayed or this variable is overridden by
9305 @code{gnus-buttonized-mime-types}. The default value is
9306 @code{(".*/.*")}. This variable is only used when
9307 @code{gnus-inhibit-mime-unbuttonizing} is @code{nil}.
9309 @item gnus-buttonized-mime-types
9310 @vindex gnus-buttonized-mime-types
9311 This is a list of regexps. @acronym{MIME} types that match a regexp from
9312 this list will have @acronym{MIME} buttons inserted unless they aren't
9313 displayed. This variable overrides
9314 @code{gnus-unbuttonized-mime-types}. The default value is @code{nil}.
9315 This variable is only used when @code{gnus-inhibit-mime-unbuttonizing}
9318 To see e.g. security buttons but no other buttons, you could set this
9319 variable to @code{("multipart/signed")} and leave
9320 @code{gnus-unbuttonized-mime-types} at the default value.
9322 @item gnus-inhibit-mime-unbuttonizing
9323 @vindex gnus-inhibit-mime-unbuttonizing
9324 If this is non-@code{nil}, then all @acronym{MIME} parts get buttons. The
9325 default value is @code{nil}.
9327 @item gnus-article-mime-part-function
9328 @vindex gnus-article-mime-part-function
9329 For each @acronym{MIME} part, this function will be called with the @acronym{MIME}
9330 handle as the parameter. The function is meant to be used to allow
9331 users to gather information from the article (e. g., add Vcard info to
9332 the bbdb database) or to do actions based on parts (e. g., automatically
9333 save all jpegs into some directory).
9335 Here's an example function the does the latter:
9338 (defun my-save-all-jpeg-parts (handle)
9339 (when (equal (car (mm-handle-type handle)) "image/jpeg")
9341 (insert (mm-get-part handle))
9342 (write-region (point-min) (point-max)
9343 (read-file-name "Save jpeg to: ")))))
9344 (setq gnus-article-mime-part-function
9345 'my-save-all-jpeg-parts)
9348 @vindex gnus-mime-multipart-functions
9349 @item gnus-mime-multipart-functions
9350 Alist of @acronym{MIME} multipart types and functions to handle them.
9352 @vindex gnus-mime-display-multipart-alternative-as-mixed
9353 @item gnus-mime-display-multipart-alternative-as-mixed
9354 Display "multipart/alternative" parts as "multipart/mixed".
9356 @vindex gnus-mime-display-multipart-related-as-mixed
9357 @item gnus-mime-display-multipart-related-as-mixed
9358 Display "multipart/related" parts as "multipart/mixed".
9360 If displaying "text/html" is discouraged, see
9361 @code{mm-discouraged-alternatives} in @ref{Display Customization,
9362 Display Customization, , emacs-mime, Emacs-Mime Manual}. Images or
9363 other material inside a "multipart/related" part might be overlooked
9364 when this variable is @code{nil}.
9366 @vindex gnus-mime-display-multipart-as-mixed
9367 @item gnus-mime-display-multipart-as-mixed
9368 Display "multipart" parts as "multipart/mixed". If @code{t}, it
9369 overrides @code{nil} values of
9370 @code{gnus-mime-display-multipart-alternative-as-mixed} and
9371 @code{gnus-mime-display-multipart-related-as-mixed}.
9373 @vindex mm-file-name-rewrite-functions
9374 @item mm-file-name-rewrite-functions
9375 List of functions used for rewriting file names of @acronym{MIME} parts.
9376 Each function takes a file name as input and returns a file name.
9378 Ready-made functions include@*
9379 @code{mm-file-name-delete-whitespace},
9380 @code{mm-file-name-trim-whitespace},
9381 @code{mm-file-name-collapse-whitespace}, and
9382 @code{mm-file-name-replace-whitespace}. The later uses the value of
9383 the variable @code{mm-file-name-replace-whitespace} to replace each
9384 whitespace character in a file name with that string; default value
9385 is @code{"_"} (a single underscore).
9386 @findex mm-file-name-delete-whitespace
9387 @findex mm-file-name-trim-whitespace
9388 @findex mm-file-name-collapse-whitespace
9389 @findex mm-file-name-replace-whitespace
9390 @vindex mm-file-name-replace-whitespace
9392 The standard functions @code{capitalize}, @code{downcase},
9393 @code{upcase}, and @code{upcase-initials} may be useful, too.
9395 Everybody knows that whitespace characters in file names are evil,
9396 except those who don't know. If you receive lots of attachments from
9397 such unenlightened users, you can make live easier by adding
9400 (setq mm-file-name-rewrite-functions
9401 '(mm-file-name-trim-whitespace
9402 mm-file-name-collapse-whitespace
9403 mm-file-name-replace-whitespace))
9407 to your @file{~/.gnus.el} file.
9416 People use different charsets, and we have @acronym{MIME} to let us know what
9417 charsets they use. Or rather, we wish we had. Many people use
9418 newsreaders and mailers that do not understand or use @acronym{MIME}, and
9419 just send out messages without saying what character sets they use. To
9420 help a bit with this, some local news hierarchies have policies that say
9421 what character set is the default. For instance, the @samp{fj}
9422 hierarchy uses @code{iso-2022-jp}.
9424 @vindex gnus-group-charset-alist
9425 This knowledge is encoded in the @code{gnus-group-charset-alist}
9426 variable, which is an alist of regexps (use the first item to match full
9427 group names) and default charsets to be used when reading these groups.
9429 @vindex gnus-newsgroup-ignored-charsets
9430 In addition, some people do use soi-disant @acronym{MIME}-aware agents that
9431 aren't. These blithely mark messages as being in @code{iso-8859-1}
9432 even if they really are in @code{koi-8}. To help here, the
9433 @code{gnus-newsgroup-ignored-charsets} variable can be used. The
9434 charsets that are listed here will be ignored. The variable can be
9435 set on a group-by-group basis using the group parameters (@pxref{Group
9436 Parameters}). The default value is @code{(unknown-8bit x-unknown)},
9437 which includes values some agents insist on having in there.
9439 @vindex gnus-group-posting-charset-alist
9440 When posting, @code{gnus-group-posting-charset-alist} is used to
9441 determine which charsets should not be encoded using the @acronym{MIME}
9442 encodings. For instance, some hierarchies discourage using
9443 quoted-printable header encoding.
9445 This variable is an alist of regexps and permitted unencoded charsets
9446 for posting. Each element of the alist has the form @code{(}@var{test
9447 header body-list}@code{)}, where:
9451 is either a regular expression matching the newsgroup header or a
9454 is the charset which may be left unencoded in the header (@code{nil}
9455 means encode all charsets),
9457 is a list of charsets which may be encoded using 8bit content-transfer
9458 encoding in the body, or one of the special values @code{nil} (always
9459 encode using quoted-printable) or @code{t} (always use 8bit).
9466 @cindex coding system aliases
9467 @cindex preferred charset
9469 @xref{Encoding Customization, , Encoding Customization, emacs-mime,
9470 The Emacs MIME Manual}, for additional variables that control which
9471 MIME charsets are used when sending messages.
9473 Other charset tricks that may be useful, although not Gnus-specific:
9475 If there are several @acronym{MIME} charsets that encode the same Emacs
9476 charset, you can choose what charset to use by saying the following:
9479 (put-charset-property 'cyrillic-iso8859-5
9480 'preferred-coding-system 'koi8-r)
9483 This means that Russian will be encoded using @code{koi8-r} instead of
9484 the default @code{iso-8859-5} @acronym{MIME} charset.
9486 If you want to read messages in @code{koi8-u}, you can cheat and say
9489 (define-coding-system-alias 'koi8-u 'koi8-r)
9492 This will almost do the right thing.
9494 And finally, to read charsets like @code{windows-1251}, you can say
9498 (codepage-setup 1251)
9499 (define-coding-system-alias 'windows-1251 'cp1251)
9503 @node Article Commands
9504 @section Article Commands
9511 @kindex A P (Summary)
9512 @vindex gnus-ps-print-hook
9513 @findex gnus-summary-print-article
9514 Generate and print a PostScript image of the article buffer
9515 (@code{gnus-summary-print-article}). @code{gnus-ps-print-hook} will
9516 be run just before printing the buffer. An alternative way to print
9517 article is to use Muttprint (@pxref{Saving Articles}).
9522 @node Summary Sorting
9523 @section Summary Sorting
9524 @cindex summary sorting
9526 You can have the summary buffer sorted in various ways, even though I
9527 can't really see why you'd want that.
9532 @kindex C-c C-s C-n (Summary)
9533 @findex gnus-summary-sort-by-number
9534 Sort by article number (@code{gnus-summary-sort-by-number}).
9537 @kindex C-c C-s C-a (Summary)
9538 @findex gnus-summary-sort-by-author
9539 Sort by author (@code{gnus-summary-sort-by-author}).
9542 @kindex C-c C-s C-s (Summary)
9543 @findex gnus-summary-sort-by-subject
9544 Sort by subject (@code{gnus-summary-sort-by-subject}).
9547 @kindex C-c C-s C-d (Summary)
9548 @findex gnus-summary-sort-by-date
9549 Sort by date (@code{gnus-summary-sort-by-date}).
9552 @kindex C-c C-s C-l (Summary)
9553 @findex gnus-summary-sort-by-lines
9554 Sort by lines (@code{gnus-summary-sort-by-lines}).
9557 @kindex C-c C-s C-c (Summary)
9558 @findex gnus-summary-sort-by-chars
9559 Sort by article length (@code{gnus-summary-sort-by-chars}).
9562 @kindex C-c C-s C-i (Summary)
9563 @findex gnus-summary-sort-by-score
9564 Sort by score (@code{gnus-summary-sort-by-score}).
9567 @kindex C-c C-s C-r (Summary)
9568 @findex gnus-summary-sort-by-random
9569 Randomize (@code{gnus-summary-sort-by-random}).
9572 @kindex C-c C-s C-o (Summary)
9573 @findex gnus-summary-sort-by-original
9574 Sort using the default sorting method
9575 (@code{gnus-summary-sort-by-original}).
9578 These functions will work both when you use threading and when you don't
9579 use threading. In the latter case, all summary lines will be sorted,
9580 line by line. In the former case, sorting will be done on a
9581 root-by-root basis, which might not be what you were looking for. To
9582 toggle whether to use threading, type @kbd{T T} (@pxref{Thread
9586 @node Finding the Parent
9587 @section Finding the Parent
9588 @cindex parent articles
9589 @cindex referring articles
9594 @findex gnus-summary-refer-parent-article
9595 If you'd like to read the parent of the current article, and it is not
9596 displayed in the summary buffer, you might still be able to. That is,
9597 if the current group is fetched by @acronym{NNTP}, the parent hasn't expired
9598 and the @code{References} in the current article are not mangled, you
9599 can just press @kbd{^} or @kbd{A r}
9600 (@code{gnus-summary-refer-parent-article}). If everything goes well,
9601 you'll get the parent. If the parent is already displayed in the
9602 summary buffer, point will just move to this article.
9604 If given a positive numerical prefix, fetch that many articles back into
9605 the ancestry. If given a negative numerical prefix, fetch just that
9606 ancestor. So if you say @kbd{3 ^}, Gnus will fetch the parent, the
9607 grandparent and the grandgrandparent of the current article. If you say
9608 @kbd{-3 ^}, Gnus will only fetch the grandgrandparent of the current
9612 @findex gnus-summary-refer-references
9613 @kindex A R (Summary)
9614 Fetch all articles mentioned in the @code{References} header of the
9615 article (@code{gnus-summary-refer-references}).
9618 @findex gnus-summary-refer-thread
9619 @kindex A T (Summary)
9620 Display the full thread where the current article appears
9621 (@code{gnus-summary-refer-thread}). This command has to fetch all the
9622 headers in the current group to work, so it usually takes a while. If
9623 you do it often, you may consider setting @code{gnus-fetch-old-headers}
9624 to @code{invisible} (@pxref{Filling In Threads}). This won't have any
9625 visible effects normally, but it'll make this command work a whole lot
9626 faster. Of course, it'll make group entry somewhat slow.
9628 @vindex gnus-refer-thread-limit
9629 The @code{gnus-refer-thread-limit} variable says how many old (i. e.,
9630 articles before the first displayed in the current group) headers to
9631 fetch when doing this command. The default is 200. If @code{t}, all
9632 the available headers will be fetched. This variable can be overridden
9633 by giving the @kbd{A T} command a numerical prefix.
9636 @findex gnus-summary-refer-article
9637 @kindex M-^ (Summary)
9639 @cindex fetching by Message-ID
9640 You can also ask Gnus for an arbitrary article, no matter what group it
9641 belongs to. @kbd{M-^} (@code{gnus-summary-refer-article}) will ask you
9642 for a @code{Message-ID}, which is one of those long, hard-to-read
9643 thingies that look something like @samp{<38o6up$6f2@@hymir.ifi.uio.no>}.
9644 You have to get it all exactly right. No fuzzy searches, I'm afraid.
9646 Gnus looks for the @code{Message-ID} in the headers that have already
9647 been fetched, but also tries all the select methods specified by
9648 @code{gnus-refer-article-method} if it is not found.
9651 @vindex gnus-refer-article-method
9652 If the group you are reading is located on a back end that does not
9653 support fetching by @code{Message-ID} very well (like @code{nnspool}),
9654 you can set @code{gnus-refer-article-method} to an @acronym{NNTP} method. It
9655 would, perhaps, be best if the @acronym{NNTP} server you consult is the one
9656 updating the spool you are reading from, but that's not really
9659 It can also be a list of select methods, as well as the special symbol
9660 @code{current}, which means to use the current select method. If it
9661 is a list, Gnus will try all the methods in the list until it finds a
9664 Here's an example setting that will first try the current method, and
9665 then ask Google if that fails:
9668 (setq gnus-refer-article-method
9670 (nnweb "google" (nnweb-type google))))
9673 Most of the mail back ends support fetching by @code{Message-ID}, but
9674 do not do a particularly excellent job at it. That is, @code{nnmbox},
9675 @code{nnbabyl}, @code{nnmaildir}, @code{nnml}, are able to locate
9676 articles from any groups, while @code{nnfolder}, and @code{nnimap} are
9677 only able to locate articles that have been posted to the current
9678 group. (Anything else would be too time consuming.) @code{nnmh} does
9679 not support this at all.
9682 @node Alternative Approaches
9683 @section Alternative Approaches
9685 Different people like to read news using different methods. This being
9686 Gnus, we offer a small selection of minor modes for the summary buffers.
9689 * Pick and Read:: First mark articles and then read them.
9690 * Binary Groups:: Auto-decode all articles.
9695 @subsection Pick and Read
9696 @cindex pick and read
9698 Some newsreaders (like @code{nn} and, uhm, @code{Netnews} on VM/CMS) use
9699 a two-phased reading interface. The user first marks in a summary
9700 buffer the articles she wants to read. Then she starts reading the
9701 articles with just an article buffer displayed.
9703 @findex gnus-pick-mode
9704 @kindex M-x gnus-pick-mode
9705 Gnus provides a summary buffer minor mode that allows
9706 this---@code{gnus-pick-mode}. This basically means that a few process
9707 mark commands become one-keystroke commands to allow easy marking, and
9708 it provides one additional command for switching to the summary buffer.
9710 Here are the available keystrokes when using pick mode:
9715 @findex gnus-pick-article-or-thread
9716 Pick the article or thread on the current line
9717 (@code{gnus-pick-article-or-thread}). If the variable
9718 @code{gnus-thread-hide-subtree} is true, then this key selects the
9719 entire thread when used at the first article of the thread. Otherwise,
9720 it selects just the article. If given a numerical prefix, go to that
9721 thread or article and pick it. (The line number is normally displayed
9722 at the beginning of the summary pick lines.)
9725 @kindex SPACE (Pick)
9726 @findex gnus-pick-next-page
9727 Scroll the summary buffer up one page (@code{gnus-pick-next-page}). If
9728 at the end of the buffer, start reading the picked articles.
9732 @findex gnus-pick-unmark-article-or-thread.
9733 Unpick the thread or article
9734 (@code{gnus-pick-unmark-article-or-thread}). If the variable
9735 @code{gnus-thread-hide-subtree} is true, then this key unpicks the
9736 thread if used at the first article of the thread. Otherwise it unpicks
9737 just the article. You can give this key a numerical prefix to unpick
9738 the thread or article at that line.
9742 @findex gnus-pick-start-reading
9743 @vindex gnus-pick-display-summary
9744 Start reading the picked articles (@code{gnus-pick-start-reading}). If
9745 given a prefix, mark all unpicked articles as read first. If
9746 @code{gnus-pick-display-summary} is non-@code{nil}, the summary buffer
9747 will still be visible when you are reading.
9751 All the normal summary mode commands are still available in the
9752 pick-mode, with the exception of @kbd{u}. However @kbd{!} is available
9753 which is mapped to the same function
9754 @code{gnus-summary-tick-article-forward}.
9756 If this sounds like a good idea to you, you could say:
9759 (add-hook 'gnus-summary-mode-hook 'gnus-pick-mode)
9762 @vindex gnus-pick-mode-hook
9763 @code{gnus-pick-mode-hook} is run in pick minor mode buffers.
9765 @vindex gnus-mark-unpicked-articles-as-read
9766 If @code{gnus-mark-unpicked-articles-as-read} is non-@code{nil}, mark
9767 all unpicked articles as read. The default is @code{nil}.
9769 @vindex gnus-summary-pick-line-format
9770 The summary line format in pick mode is slightly different from the
9771 standard format. At the beginning of each line the line number is
9772 displayed. The pick mode line format is controlled by the
9773 @code{gnus-summary-pick-line-format} variable (@pxref{Formatting
9774 Variables}). It accepts the same format specs that
9775 @code{gnus-summary-line-format} does (@pxref{Summary Buffer Lines}).
9779 @subsection Binary Groups
9780 @cindex binary groups
9782 @findex gnus-binary-mode
9783 @kindex M-x gnus-binary-mode
9784 If you spend much time in binary groups, you may grow tired of hitting
9785 @kbd{X u}, @kbd{n}, @kbd{RET} all the time. @kbd{M-x gnus-binary-mode}
9786 is a minor mode for summary buffers that makes all ordinary Gnus article
9787 selection functions uudecode series of articles and display the result
9788 instead of just displaying the articles the normal way.
9791 @findex gnus-binary-show-article
9792 The only way, in fact, to see the actual articles is the @kbd{g}
9793 command, when you have turned on this mode
9794 (@code{gnus-binary-show-article}).
9796 @vindex gnus-binary-mode-hook
9797 @code{gnus-binary-mode-hook} is called in binary minor mode buffers.
9801 @section Tree Display
9804 @vindex gnus-use-trees
9805 If you don't like the normal Gnus summary display, you might try setting
9806 @code{gnus-use-trees} to @code{t}. This will create (by default) an
9807 additional @dfn{tree buffer}. You can execute all summary mode commands
9810 There are a few variables to customize the tree display, of course:
9813 @item gnus-tree-mode-hook
9814 @vindex gnus-tree-mode-hook
9815 A hook called in all tree mode buffers.
9817 @item gnus-tree-mode-line-format
9818 @vindex gnus-tree-mode-line-format
9819 A format string for the mode bar in the tree mode buffers (@pxref{Mode
9820 Line Formatting}). The default is @samp{Gnus: %%b %S %Z}. For a list
9821 of valid specs, @pxref{Summary Buffer Mode Line}.
9823 @item gnus-selected-tree-face
9824 @vindex gnus-selected-tree-face
9825 Face used for highlighting the selected article in the tree buffer. The
9826 default is @code{modeline}.
9828 @item gnus-tree-line-format
9829 @vindex gnus-tree-line-format
9830 A format string for the tree nodes. The name is a bit of a misnomer,
9831 though---it doesn't define a line, but just the node. The default value
9832 is @samp{%(%[%3,3n%]%)}, which displays the first three characters of
9833 the name of the poster. It is vital that all nodes are of the same
9834 length, so you @emph{must} use @samp{%4,4n}-like specifiers.
9840 The name of the poster.
9842 The @code{From} header.
9844 The number of the article.
9846 The opening bracket.
9848 The closing bracket.
9853 @xref{Formatting Variables}.
9855 Variables related to the display are:
9858 @item gnus-tree-brackets
9859 @vindex gnus-tree-brackets
9860 This is used for differentiating between ``real'' articles and
9861 ``sparse'' articles. The format is
9863 ((@var{real-open} . @var{real-close})
9864 (@var{sparse-open} . @var{sparse-close})
9865 (@var{dummy-open} . @var{dummy-close}))
9867 and the default is @code{((?[ . ?]) (?( . ?)) (?@{ . ?@}) (?< . ?>))}.
9869 @item gnus-tree-parent-child-edges
9870 @vindex gnus-tree-parent-child-edges
9871 This is a list that contains the characters used for connecting parent
9872 nodes to their children. The default is @code{(?- ?\\ ?|)}.
9876 @item gnus-tree-minimize-window
9877 @vindex gnus-tree-minimize-window
9878 If this variable is non-@code{nil}, Gnus will try to keep the tree
9879 buffer as small as possible to allow more room for the other Gnus
9880 windows. If this variable is a number, the tree buffer will never be
9881 higher than that number. The default is @code{t}. Note that if you
9882 have several windows displayed side-by-side in a frame and the tree
9883 buffer is one of these, minimizing the tree window will also resize all
9884 other windows displayed next to it.
9886 You may also wish to add the following hook to keep the window minimized
9890 (add-hook 'gnus-configure-windows-hook
9891 'gnus-tree-perhaps-minimize)
9894 @item gnus-generate-tree-function
9895 @vindex gnus-generate-tree-function
9896 @findex gnus-generate-horizontal-tree
9897 @findex gnus-generate-vertical-tree
9898 The function that actually generates the thread tree. Two predefined
9899 functions are available: @code{gnus-generate-horizontal-tree} and
9900 @code{gnus-generate-vertical-tree} (which is the default).
9904 Here's an example from a horizontal tree buffer:
9907 @{***@}-(***)-[odd]-[Gun]
9917 Here's the same thread displayed in a vertical tree buffer:
9922 |--------------------------\-----\-----\
9923 (***) [Bjo] [Gun] [Gun]
9925 [odd] [Jan] [odd] (***) [Jor]
9927 [Gun] [Eri] [Eri] [odd]
9933 If you're using horizontal trees, it might be nice to display the trees
9934 side-by-side with the summary buffer. You could add something like the
9935 following to your @file{~/.gnus.el} file:
9938 (setq gnus-use-trees t
9939 gnus-generate-tree-function 'gnus-generate-horizontal-tree
9940 gnus-tree-minimize-window nil)
9941 (gnus-add-configuration
9945 (summary 0.75 point)
9950 @xref{Window Layout}.
9953 @node Mail Group Commands
9954 @section Mail Group Commands
9955 @cindex mail group commands
9957 Some commands only make sense in mail groups. If these commands are
9958 invalid in the current group, they will raise a hell and let you know.
9960 All these commands (except the expiry and edit commands) use the
9961 process/prefix convention (@pxref{Process/Prefix}).
9966 @kindex B e (Summary)
9967 @findex gnus-summary-expire-articles
9968 Run all expirable articles in the current group through the expiry
9969 process (@code{gnus-summary-expire-articles}). That is, delete all
9970 expirable articles in the group that have been around for a while.
9971 (@pxref{Expiring Mail}).
9974 @kindex B C-M-e (Summary)
9975 @findex gnus-summary-expire-articles-now
9976 Delete all the expirable articles in the group
9977 (@code{gnus-summary-expire-articles-now}). This means that @strong{all}
9978 articles eligible for expiry in the current group will
9979 disappear forever into that big @file{/dev/null} in the sky.
9982 @kindex B DEL (Summary)
9983 @findex gnus-summary-delete-article
9984 @c @icon{gnus-summary-mail-delete}
9985 Delete the mail article. This is ``delete'' as in ``delete it from your
9986 disk forever and ever, never to return again.'' Use with caution.
9987 (@code{gnus-summary-delete-article}).
9990 @kindex B m (Summary)
9992 @findex gnus-summary-move-article
9993 @vindex gnus-preserve-marks
9994 Move the article from one mail group to another
9995 (@code{gnus-summary-move-article}). Marks will be preserved if
9996 @code{gnus-preserve-marks} is non-@code{nil} (which is the default).
9999 @kindex B c (Summary)
10001 @findex gnus-summary-copy-article
10002 @c @icon{gnus-summary-mail-copy}
10003 Copy the article from one group (mail group or not) to a mail group
10004 (@code{gnus-summary-copy-article}). Marks will be preserved if
10005 @code{gnus-preserve-marks} is non-@code{nil} (which is the default).
10008 @kindex B B (Summary)
10009 @cindex crosspost mail
10010 @findex gnus-summary-crosspost-article
10011 Crosspost the current article to some other group
10012 (@code{gnus-summary-crosspost-article}). This will create a new copy of
10013 the article in the other group, and the Xref headers of the article will
10014 be properly updated.
10017 @kindex B i (Summary)
10018 @findex gnus-summary-import-article
10019 Import an arbitrary file into the current mail newsgroup
10020 (@code{gnus-summary-import-article}). You will be prompted for a file
10021 name, a @code{From} header and a @code{Subject} header.
10024 @kindex B I (Summary)
10025 @findex gnus-summary-create-article
10026 Create an empty article in the current mail newsgroups
10027 (@code{gnus-summary-create-article}). You will be prompted for a
10028 @code{From} header and a @code{Subject} header.
10031 @kindex B r (Summary)
10032 @findex gnus-summary-respool-article
10033 @vindex gnus-summary-respool-default-method
10034 Respool the mail article (@code{gnus-summary-respool-article}).
10035 @code{gnus-summary-respool-default-method} will be used as the default
10036 select method when respooling. This variable is @code{nil} by default,
10037 which means that the current group select method will be used instead.
10038 Marks will be preserved if @code{gnus-preserve-marks} is non-@code{nil}
10039 (which is the default).
10043 @kindex B w (Summary)
10044 @kindex e (Summary)
10045 @findex gnus-summary-edit-article
10046 @kindex C-c C-c (Article)
10047 @findex gnus-summary-edit-article-done
10048 Edit the current article (@code{gnus-summary-edit-article}). To finish
10049 editing and make the changes permanent, type @kbd{C-c C-c}
10050 (@code{gnus-summary-edit-article-done}). If you give a prefix to the
10051 @kbd{C-c C-c} command, Gnus won't re-highlight the article.
10054 @kindex B q (Summary)
10055 @findex gnus-summary-respool-query
10056 If you want to re-spool an article, you might be curious as to what group
10057 the article will end up in before you do the re-spooling. This command
10058 will tell you (@code{gnus-summary-respool-query}).
10061 @kindex B t (Summary)
10062 @findex gnus-summary-respool-trace
10063 Similarly, this command will display all fancy splitting patterns used
10064 when respooling, if any (@code{gnus-summary-respool-trace}).
10067 @kindex B p (Summary)
10068 @findex gnus-summary-article-posted-p
10069 Some people have a tendency to send you ``courtesy'' copies when they
10070 follow up to articles you have posted. These usually have a
10071 @code{Newsgroups} header in them, but not always. This command
10072 (@code{gnus-summary-article-posted-p}) will try to fetch the current
10073 article from your news server (or rather, from
10074 @code{gnus-refer-article-method} or @code{gnus-select-method}) and will
10075 report back whether it found the article or not. Even if it says that
10076 it didn't find the article, it may have been posted anyway---mail
10077 propagation is much faster than news propagation, and the news copy may
10078 just not have arrived yet.
10081 @kindex K E (Summary)
10082 @findex gnus-article-encrypt-body
10083 @vindex gnus-article-encrypt-protocol
10084 Encrypt the body of an article (@code{gnus-article-encrypt-body}).
10085 The body is encrypted with the encryption protocol specified by the
10086 variable @code{gnus-article-encrypt-protocol}.
10090 @vindex gnus-move-split-methods
10091 @cindex moving articles
10092 If you move (or copy) articles regularly, you might wish to have Gnus
10093 suggest where to put the articles. @code{gnus-move-split-methods} is a
10094 variable that uses the same syntax as @code{gnus-split-methods}
10095 (@pxref{Saving Articles}). You may customize that variable to create
10096 suggestions you find reasonable. (Note that
10097 @code{gnus-move-split-methods} uses group names where
10098 @code{gnus-split-methods} uses file names.)
10101 (setq gnus-move-split-methods
10102 '(("^From:.*Lars Magne" "nnml:junk")
10103 ("^Subject:.*gnus" "nnfolder:important")
10104 (".*" "nnml:misc")))
10108 @node Various Summary Stuff
10109 @section Various Summary Stuff
10112 * Summary Group Information:: Information oriented commands.
10113 * Searching for Articles:: Multiple article commands.
10114 * Summary Generation Commands::
10115 * Really Various Summary Commands:: Those pesky non-conformant commands.
10119 @vindex gnus-summary-display-while-building
10120 @item gnus-summary-display-while-building
10121 If non-@code{nil}, show and update the summary buffer as it's being
10122 built. If @code{t}, update the buffer after every line is inserted.
10123 If the value is an integer, @var{n}, update the display every @var{n}
10124 lines. The default is @code{nil}.
10126 @vindex gnus-summary-display-arrow
10127 @item gnus-summary-display-arrow
10128 If non-@code{nil}, display an arrow in the fringe to indicate the
10131 @vindex gnus-summary-mode-hook
10132 @item gnus-summary-mode-hook
10133 This hook is called when creating a summary mode buffer.
10135 @vindex gnus-summary-generate-hook
10136 @item gnus-summary-generate-hook
10137 This is called as the last thing before doing the threading and the
10138 generation of the summary buffer. It's quite convenient for customizing
10139 the threading variables based on what data the newsgroup has. This hook
10140 is called from the summary buffer after most summary buffer variables
10143 @vindex gnus-summary-prepare-hook
10144 @item gnus-summary-prepare-hook
10145 It is called after the summary buffer has been generated. You might use
10146 it to, for instance, highlight lines or modify the look of the buffer in
10147 some other ungodly manner. I don't care.
10149 @vindex gnus-summary-prepared-hook
10150 @item gnus-summary-prepared-hook
10151 A hook called as the very last thing after the summary buffer has been
10154 @vindex gnus-summary-ignore-duplicates
10155 @item gnus-summary-ignore-duplicates
10156 When Gnus discovers two articles that have the same @code{Message-ID},
10157 it has to do something drastic. No articles are allowed to have the
10158 same @code{Message-ID}, but this may happen when reading mail from some
10159 sources. Gnus allows you to customize what happens with this variable.
10160 If it is @code{nil} (which is the default), Gnus will rename the
10161 @code{Message-ID} (for display purposes only) and display the article as
10162 any other article. If this variable is @code{t}, it won't display the
10163 article---it'll be as if it never existed.
10165 @vindex gnus-alter-articles-to-read-function
10166 @item gnus-alter-articles-to-read-function
10167 This function, which takes two parameters (the group name and the list
10168 of articles to be selected), is called to allow the user to alter the
10169 list of articles to be selected.
10171 For instance, the following function adds the list of cached articles to
10172 the list in one particular group:
10175 (defun my-add-cached-articles (group articles)
10176 (if (string= group "some.group")
10177 (append gnus-newsgroup-cached articles)
10181 @vindex gnus-newsgroup-variables
10182 @item gnus-newsgroup-variables
10183 A list of newsgroup (summary buffer) local variables, or cons of
10184 variables and their default expressions to be evalled (when the default
10185 values are not @code{nil}), that should be made global while the summary
10188 Note: The default expressions will be evaluated (using function
10189 @code{eval}) before assignment to the local variable rather than just
10190 assigned to it. If the default expression is the symbol @code{global},
10191 that symbol will not be evaluated but the global value of the local
10192 variable will be used instead.
10194 These variables can be used to set variables in the group parameters
10195 while still allowing them to affect operations done in other
10196 buffers. For example:
10199 (setq gnus-newsgroup-variables
10200 '(message-use-followup-to
10201 (gnus-visible-headers .
10202 "^From:\\|^Newsgroups:\\|^Subject:\\|^Date:\\|^To:")))
10205 Also @pxref{Group Parameters}.
10209 @node Summary Group Information
10210 @subsection Summary Group Information
10215 @kindex H f (Summary)
10216 @findex gnus-summary-fetch-faq
10217 @vindex gnus-group-faq-directory
10218 Try to fetch the @acronym{FAQ} (list of frequently asked questions)
10219 for the current group (@code{gnus-summary-fetch-faq}). Gnus will try
10220 to get the @acronym{FAQ} from @code{gnus-group-faq-directory}, which
10221 is usually a directory on a remote machine. This variable can also be
10222 a list of directories. In that case, giving a prefix to this command
10223 will allow you to choose between the various sites. @code{ange-ftp}
10224 or @code{efs} will probably be used for fetching the file.
10227 @kindex H d (Summary)
10228 @findex gnus-summary-describe-group
10229 Give a brief description of the current group
10230 (@code{gnus-summary-describe-group}). If given a prefix, force
10231 rereading the description from the server.
10234 @kindex H h (Summary)
10235 @findex gnus-summary-describe-briefly
10236 Give an extremely brief description of the most important summary
10237 keystrokes (@code{gnus-summary-describe-briefly}).
10240 @kindex H i (Summary)
10241 @findex gnus-info-find-node
10242 Go to the Gnus info node (@code{gnus-info-find-node}).
10246 @node Searching for Articles
10247 @subsection Searching for Articles
10252 @kindex M-s (Summary)
10253 @findex gnus-summary-search-article-forward
10254 Search through all subsequent (raw) articles for a regexp
10255 (@code{gnus-summary-search-article-forward}).
10258 @kindex M-r (Summary)
10259 @findex gnus-summary-search-article-backward
10260 Search through all previous (raw) articles for a regexp
10261 (@code{gnus-summary-search-article-backward}).
10264 @kindex & (Summary)
10265 @findex gnus-summary-execute-command
10266 This command will prompt you for a header, a regular expression to match
10267 on this field, and a command to be executed if the match is made
10268 (@code{gnus-summary-execute-command}). If the header is an empty
10269 string, the match is done on the entire article. If given a prefix,
10270 search backward instead.
10272 For instance, @kbd{& RET some.*string RET #} will put the process mark on
10273 all articles that have heads or bodies that match @samp{some.*string}.
10276 @kindex M-& (Summary)
10277 @findex gnus-summary-universal-argument
10278 Perform any operation on all articles that have been marked with
10279 the process mark (@code{gnus-summary-universal-argument}).
10282 @node Summary Generation Commands
10283 @subsection Summary Generation Commands
10288 @kindex Y g (Summary)
10289 @findex gnus-summary-prepare
10290 Regenerate the current summary buffer (@code{gnus-summary-prepare}).
10293 @kindex Y c (Summary)
10294 @findex gnus-summary-insert-cached-articles
10295 Pull all cached articles (for the current group) into the summary buffer
10296 (@code{gnus-summary-insert-cached-articles}).
10299 @kindex Y d (Summary)
10300 @findex gnus-summary-insert-dormant-articles
10301 Pull all dormant articles (for the current group) into the summary buffer
10302 (@code{gnus-summary-insert-dormant-articles}).
10307 @node Really Various Summary Commands
10308 @subsection Really Various Summary Commands
10314 @kindex C-d (Summary)
10315 @kindex A D (Summary)
10316 @findex gnus-summary-enter-digest-group
10317 If the current article is a collection of other articles (for instance,
10318 a digest), you might use this command to enter a group based on the that
10319 article (@code{gnus-summary-enter-digest-group}). Gnus will try to
10320 guess what article type is currently displayed unless you give a prefix
10321 to this command, which forces a ``digest'' interpretation. Basically,
10322 whenever you see a message that is a collection of other messages of
10323 some format, you @kbd{C-d} and read these messages in a more convenient
10327 @kindex C-M-d (Summary)
10328 @findex gnus-summary-read-document
10329 This command is very similar to the one above, but lets you gather
10330 several documents into one biiig group
10331 (@code{gnus-summary-read-document}). It does this by opening several
10332 @code{nndoc} groups for each document, and then opening an
10333 @code{nnvirtual} group on top of these @code{nndoc} groups. This
10334 command understands the process/prefix convention
10335 (@pxref{Process/Prefix}).
10338 @kindex C-t (Summary)
10339 @findex gnus-summary-toggle-truncation
10340 Toggle truncation of summary lines
10341 (@code{gnus-summary-toggle-truncation}). This will probably confuse the
10342 line centering function in the summary buffer, so it's not a good idea
10343 to have truncation switched off while reading articles.
10346 @kindex = (Summary)
10347 @findex gnus-summary-expand-window
10348 Expand the summary buffer window (@code{gnus-summary-expand-window}).
10349 If given a prefix, force an @code{article} window configuration.
10352 @kindex C-M-e (Summary)
10353 @findex gnus-summary-edit-parameters
10354 Edit the group parameters (@pxref{Group Parameters}) of the current
10355 group (@code{gnus-summary-edit-parameters}).
10358 @kindex C-M-a (Summary)
10359 @findex gnus-summary-customize-parameters
10360 Customize the group parameters (@pxref{Group Parameters}) of the current
10361 group (@code{gnus-summary-customize-parameters}).
10366 @node Exiting the Summary Buffer
10367 @section Exiting the Summary Buffer
10368 @cindex summary exit
10369 @cindex exiting groups
10371 Exiting from the summary buffer will normally update all info on the
10372 group and return you to the group buffer.
10379 @kindex Z Z (Summary)
10380 @kindex Z Q (Summary)
10381 @kindex q (Summary)
10382 @findex gnus-summary-exit
10383 @vindex gnus-summary-exit-hook
10384 @vindex gnus-summary-prepare-exit-hook
10385 @vindex gnus-group-no-more-groups-hook
10386 @c @icon{gnus-summary-exit}
10387 Exit the current group and update all information on the group
10388 (@code{gnus-summary-exit}). @code{gnus-summary-prepare-exit-hook} is
10389 called before doing much of the exiting, which calls
10390 @code{gnus-summary-expire-articles} by default.
10391 @code{gnus-summary-exit-hook} is called after finishing the exit
10392 process. @code{gnus-group-no-more-groups-hook} is run when returning to
10393 group mode having no more (unread) groups.
10397 @kindex Z E (Summary)
10398 @kindex Q (Summary)
10399 @findex gnus-summary-exit-no-update
10400 Exit the current group without updating any information on the group
10401 (@code{gnus-summary-exit-no-update}).
10405 @kindex Z c (Summary)
10406 @kindex c (Summary)
10407 @findex gnus-summary-catchup-and-exit
10408 @c @icon{gnus-summary-catchup-and-exit}
10409 Mark all unticked articles in the group as read and then exit
10410 (@code{gnus-summary-catchup-and-exit}).
10413 @kindex Z C (Summary)
10414 @findex gnus-summary-catchup-all-and-exit
10415 Mark all articles, even the ticked ones, as read and then exit
10416 (@code{gnus-summary-catchup-all-and-exit}).
10419 @kindex Z n (Summary)
10420 @findex gnus-summary-catchup-and-goto-next-group
10421 Mark all articles as read and go to the next group
10422 (@code{gnus-summary-catchup-and-goto-next-group}).
10426 @kindex Z R (Summary)
10427 @kindex C-x C-s (Summary)
10428 @findex gnus-summary-reselect-current-group
10429 Exit this group, and then enter it again
10430 (@code{gnus-summary-reselect-current-group}). If given a prefix, select
10431 all articles, both read and unread.
10435 @kindex Z G (Summary)
10436 @kindex M-g (Summary)
10437 @findex gnus-summary-rescan-group
10438 @c @icon{gnus-summary-mail-get}
10439 Exit the group, check for new articles in the group, and select the
10440 group (@code{gnus-summary-rescan-group}). If given a prefix, select all
10441 articles, both read and unread.
10444 @kindex Z N (Summary)
10445 @findex gnus-summary-next-group
10446 Exit the group and go to the next group
10447 (@code{gnus-summary-next-group}).
10450 @kindex Z P (Summary)
10451 @findex gnus-summary-prev-group
10452 Exit the group and go to the previous group
10453 (@code{gnus-summary-prev-group}).
10456 @kindex Z s (Summary)
10457 @findex gnus-summary-save-newsrc
10458 Save the current number of read/marked articles in the dribble buffer
10459 and then save the dribble buffer (@code{gnus-summary-save-newsrc}). If
10460 given a prefix, also save the @file{.newsrc} file(s). Using this
10461 command will make exit without updating (the @kbd{Q} command) worthless.
10464 @vindex gnus-exit-group-hook
10465 @code{gnus-exit-group-hook} is called when you exit the current group
10466 with an ``updating'' exit. For instance @kbd{Q}
10467 (@code{gnus-summary-exit-no-update}) does not call this hook.
10469 @findex gnus-summary-wake-up-the-dead
10470 @findex gnus-dead-summary-mode
10471 @vindex gnus-kill-summary-on-exit
10472 If you're in the habit of exiting groups, and then changing your mind
10473 about it, you might set @code{gnus-kill-summary-on-exit} to @code{nil}.
10474 If you do that, Gnus won't kill the summary buffer when you exit it.
10475 (Quelle surprise!) Instead it will change the name of the buffer to
10476 something like @samp{*Dead Summary ... *} and install a minor mode
10477 called @code{gnus-dead-summary-mode}. Now, if you switch back to this
10478 buffer, you'll find that all keys are mapped to a function called
10479 @code{gnus-summary-wake-up-the-dead}. So tapping any keys in a dead
10480 summary buffer will result in a live, normal summary buffer.
10482 There will never be more than one dead summary buffer at any one time.
10484 @vindex gnus-use-cross-reference
10485 The data on the current group will be updated (which articles you have
10486 read, which articles you have replied to, etc.) when you exit the
10487 summary buffer. If the @code{gnus-use-cross-reference} variable is
10488 @code{t} (which is the default), articles that are cross-referenced to
10489 this group and are marked as read, will also be marked as read in the
10490 other subscribed groups they were cross-posted to. If this variable is
10491 neither @code{nil} nor @code{t}, the article will be marked as read in
10492 both subscribed and unsubscribed groups (@pxref{Crosspost Handling}).
10495 @node Crosspost Handling
10496 @section Crosspost Handling
10500 Marking cross-posted articles as read ensures that you'll never have to
10501 read the same article more than once. Unless, of course, somebody has
10502 posted it to several groups separately. Posting the same article to
10503 several groups (not cross-posting) is called @dfn{spamming}, and you are
10504 by law required to send nasty-grams to anyone who perpetrates such a
10505 heinous crime. You may want to try NoCeM handling to filter out spam
10508 Remember: Cross-posting is kinda ok, but posting the same article
10509 separately to several groups is not. Massive cross-posting (aka.
10510 @dfn{velveeta}) is to be avoided at all costs, and you can even use the
10511 @code{gnus-summary-mail-crosspost-complaint} command to complain about
10512 excessive crossposting (@pxref{Summary Mail Commands}).
10514 @cindex cross-posting
10516 @cindex @acronym{NOV}
10517 One thing that may cause Gnus to not do the cross-posting thing
10518 correctly is if you use an @acronym{NNTP} server that supports @sc{xover}
10519 (which is very nice, because it speeds things up considerably) which
10520 does not include the @code{Xref} header in its @acronym{NOV} lines. This is
10521 Evil, but all too common, alas, alack. Gnus tries to Do The Right Thing
10522 even with @sc{xover} by registering the @code{Xref} lines of all
10523 articles you actually read, but if you kill the articles, or just mark
10524 them as read without reading them, Gnus will not get a chance to snoop
10525 the @code{Xref} lines out of these articles, and will be unable to use
10526 the cross reference mechanism.
10528 @cindex LIST overview.fmt
10529 @cindex overview.fmt
10530 To check whether your @acronym{NNTP} server includes the @code{Xref} header
10531 in its overview files, try @samp{telnet your.nntp.server nntp},
10532 @samp{MODE READER} on @code{inn} servers, and then say @samp{LIST
10533 overview.fmt}. This may not work, but if it does, and the last line you
10534 get does not read @samp{Xref:full}, then you should shout and whine at
10535 your news admin until she includes the @code{Xref} header in the
10538 @vindex gnus-nov-is-evil
10539 If you want Gnus to get the @code{Xref}s right all the time, you have to
10540 set @code{gnus-nov-is-evil} to @code{t}, which slows things down
10545 For an alternative approach, @pxref{Duplicate Suppression}.
10548 @node Duplicate Suppression
10549 @section Duplicate Suppression
10551 By default, Gnus tries to make sure that you don't have to read the same
10552 article more than once by utilizing the crossposting mechanism
10553 (@pxref{Crosspost Handling}). However, that simple and efficient
10554 approach may not work satisfactory for some users for various
10559 The @acronym{NNTP} server may fail to generate the @code{Xref} header. This
10560 is evil and not very common.
10563 The @acronym{NNTP} server may fail to include the @code{Xref} header in the
10564 @file{.overview} data bases. This is evil and all too common, alas.
10567 You may be reading the same group (or several related groups) from
10568 different @acronym{NNTP} servers.
10571 You may be getting mail that duplicates articles posted to groups.
10574 I'm sure there are other situations where @code{Xref} handling fails as
10575 well, but these four are the most common situations.
10577 If, and only if, @code{Xref} handling fails for you, then you may
10578 consider switching on @dfn{duplicate suppression}. If you do so, Gnus
10579 will remember the @code{Message-ID}s of all articles you have read or
10580 otherwise marked as read, and then, as if by magic, mark them as read
10581 all subsequent times you see them---in @emph{all} groups. Using this
10582 mechanism is quite likely to be somewhat inefficient, but not overly
10583 so. It's certainly preferable to reading the same articles more than
10586 Duplicate suppression is not a very subtle instrument. It's more like a
10587 sledge hammer than anything else. It works in a very simple
10588 fashion---if you have marked an article as read, it adds this Message-ID
10589 to a cache. The next time it sees this Message-ID, it will mark the
10590 article as read with the @samp{M} mark. It doesn't care what group it
10591 saw the article in.
10594 @item gnus-suppress-duplicates
10595 @vindex gnus-suppress-duplicates
10596 If non-@code{nil}, suppress duplicates.
10598 @item gnus-save-duplicate-list
10599 @vindex gnus-save-duplicate-list
10600 If non-@code{nil}, save the list of duplicates to a file. This will
10601 make startup and shutdown take longer, so the default is @code{nil}.
10602 However, this means that only duplicate articles read in a single Gnus
10603 session are suppressed.
10605 @item gnus-duplicate-list-length
10606 @vindex gnus-duplicate-list-length
10607 This variable says how many @code{Message-ID}s to keep in the duplicate
10608 suppression list. The default is 10000.
10610 @item gnus-duplicate-file
10611 @vindex gnus-duplicate-file
10612 The name of the file to store the duplicate suppression list in. The
10613 default is @file{~/News/suppression}.
10616 If you have a tendency to stop and start Gnus often, setting
10617 @code{gnus-save-duplicate-list} to @code{t} is probably a good idea. If
10618 you leave Gnus running for weeks on end, you may have it @code{nil}. On
10619 the other hand, saving the list makes startup and shutdown much slower,
10620 so that means that if you stop and start Gnus often, you should set
10621 @code{gnus-save-duplicate-list} to @code{nil}. Uhm. I'll leave this up
10622 to you to figure out, I think.
10627 Gnus is able to verify signed messages or decrypt encrypted messages.
10628 The formats that are supported are @acronym{PGP}, @acronym{PGP/MIME}
10629 and @acronym{S/MIME}, however you need some external programs to get
10634 To handle @acronym{PGP} and @acronym{PGP/MIME} messages, you have to
10635 install an OpenPGP implementation such as GnuPG. The Lisp interface
10636 to GnuPG included with Gnus is called PGG (@pxref{Top, ,PGG, pgg, PGG
10637 Manual}), but Mailcrypt and gpg.el are also supported.
10640 To handle @acronym{S/MIME} message, you need to install OpenSSL. OpenSSL 0.9.6
10641 or newer is recommended.
10645 More information on how to set things up can be found in the message
10646 manual (@pxref{Security, ,Security, message, Message Manual}).
10649 @item mm-verify-option
10650 @vindex mm-verify-option
10651 Option of verifying signed parts. @code{never}, not verify;
10652 @code{always}, always verify; @code{known}, only verify known
10653 protocols. Otherwise, ask user.
10655 @item mm-decrypt-option
10656 @vindex mm-decrypt-option
10657 Option of decrypting encrypted parts. @code{never}, no decryption;
10658 @code{always}, always decrypt; @code{known}, only decrypt known
10659 protocols. Otherwise, ask user.
10662 @vindex mml1991-use
10663 Symbol indicating elisp interface to OpenPGP implementation for
10664 @acronym{PGP} messages. The default is @code{pgg}, but
10665 @code{mailcrypt} and @code{gpg} are also supported although
10669 @vindex mml2015-use
10670 Symbol indicating elisp interface to OpenPGP implementation for
10671 @acronym{PGP/MIME} messages. The default is @code{pgg}, but
10672 @code{mailcrypt} and @code{gpg} are also supported although
10677 @cindex snarfing keys
10678 @cindex importing PGP keys
10679 @cindex PGP key ring import
10680 Snarfing OpenPGP keys (i.e., importing keys from articles into your
10681 key ring) is not supported explicitly through a menu item or command,
10682 rather Gnus do detect and label keys as @samp{application/pgp-keys},
10683 allowing you to specify whatever action you think is appropriate
10684 through the usual @acronym{MIME} infrastructure. You can use a
10685 @file{~/.mailcap} entry (@pxref{mailcap, , mailcap, emacs-mime, The
10686 Emacs MIME Manual}) such as the following to import keys using GNU
10687 Privacy Guard when you click on the @acronym{MIME} button
10688 (@pxref{Using MIME}).
10691 application/pgp-keys; gpg --import --interactive --verbose; needsterminal
10694 This happens to also be the default action defined in
10695 @code{mailcap-mime-data}.
10698 @section Mailing List
10699 @cindex mailing list
10702 @kindex A M (summary)
10703 @findex gnus-mailing-list-insinuate
10704 Gnus understands some mailing list fields of RFC 2369. To enable it,
10705 add a @code{to-list} group parameter (@pxref{Group Parameters}),
10706 possibly using @kbd{A M} (@code{gnus-mailing-list-insinuate}) in the
10709 That enables the following commands to the summary buffer:
10714 @kindex C-c C-n h (Summary)
10715 @findex gnus-mailing-list-help
10716 Send a message to fetch mailing list help, if List-Help field exists.
10719 @kindex C-c C-n s (Summary)
10720 @findex gnus-mailing-list-subscribe
10721 Send a message to subscribe the mailing list, if List-Subscribe field exists.
10724 @kindex C-c C-n u (Summary)
10725 @findex gnus-mailing-list-unsubscribe
10726 Send a message to unsubscribe the mailing list, if List-Unsubscribe
10730 @kindex C-c C-n p (Summary)
10731 @findex gnus-mailing-list-post
10732 Post to the mailing list, if List-Post field exists.
10735 @kindex C-c C-n o (Summary)
10736 @findex gnus-mailing-list-owner
10737 Send a message to the mailing list owner, if List-Owner field exists.
10740 @kindex C-c C-n a (Summary)
10741 @findex gnus-mailing-list-owner
10742 Browse the mailing list archive, if List-Archive field exists.
10747 @node Article Buffer
10748 @chapter Article Buffer
10749 @cindex article buffer
10751 The articles are displayed in the article buffer, of which there is only
10752 one. All the summary buffers share the same article buffer unless you
10753 tell Gnus otherwise.
10756 * Hiding Headers:: Deciding what headers should be displayed.
10757 * Using MIME:: Pushing articles through @acronym{MIME} before reading them.
10758 * Customizing Articles:: Tailoring the look of the articles.
10759 * Article Keymap:: Keystrokes available in the article buffer.
10760 * Misc Article:: Other stuff.
10764 @node Hiding Headers
10765 @section Hiding Headers
10766 @cindex hiding headers
10767 @cindex deleting headers
10769 The top section of each article is the @dfn{head}. (The rest is the
10770 @dfn{body}, but you may have guessed that already.)
10772 @vindex gnus-show-all-headers
10773 There is a lot of useful information in the head: the name of the person
10774 who wrote the article, the date it was written and the subject of the
10775 article. That's well and nice, but there's also lots of information
10776 most people do not want to see---what systems the article has passed
10777 through before reaching you, the @code{Message-ID}, the
10778 @code{References}, etc. ad nauseam---and you'll probably want to get rid
10779 of some of those lines. If you want to keep all those lines in the
10780 article buffer, you can set @code{gnus-show-all-headers} to @code{t}.
10782 Gnus provides you with two variables for sifting headers:
10786 @item gnus-visible-headers
10787 @vindex gnus-visible-headers
10788 If this variable is non-@code{nil}, it should be a regular expression
10789 that says what headers you wish to keep in the article buffer. All
10790 headers that do not match this variable will be hidden.
10792 For instance, if you only want to see the name of the person who wrote
10793 the article and the subject, you'd say:
10796 (setq gnus-visible-headers "^From:\\|^Subject:")
10799 This variable can also be a list of regexps to match headers to
10802 @item gnus-ignored-headers
10803 @vindex gnus-ignored-headers
10804 This variable is the reverse of @code{gnus-visible-headers}. If this
10805 variable is set (and @code{gnus-visible-headers} is @code{nil}), it
10806 should be a regular expression that matches all lines that you want to
10807 hide. All lines that do not match this variable will remain visible.
10809 For instance, if you just want to get rid of the @code{References} line
10810 and the @code{Xref} line, you might say:
10813 (setq gnus-ignored-headers "^References:\\|^Xref:")
10816 This variable can also be a list of regexps to match headers to
10819 Note that if @code{gnus-visible-headers} is non-@code{nil}, this
10820 variable will have no effect.
10824 @vindex gnus-sorted-header-list
10825 Gnus can also sort the headers for you. (It does this by default.) You
10826 can control the sorting by setting the @code{gnus-sorted-header-list}
10827 variable. It is a list of regular expressions that says in what order
10828 the headers are to be displayed.
10830 For instance, if you want the name of the author of the article first,
10831 and then the subject, you might say something like:
10834 (setq gnus-sorted-header-list '("^From:" "^Subject:"))
10837 Any headers that are to remain visible, but are not listed in this
10838 variable, will be displayed in random order after all the headers listed in this variable.
10840 @findex gnus-article-hide-boring-headers
10841 @vindex gnus-boring-article-headers
10842 You can hide further boring headers by setting
10843 @code{gnus-treat-hide-boring-headers} to @code{head}. What this function
10844 does depends on the @code{gnus-boring-article-headers} variable. It's a
10845 list, but this list doesn't actually contain header names. Instead it
10846 lists various @dfn{boring conditions} that Gnus can check and remove
10849 These conditions are:
10852 Remove all empty headers.
10854 Remove the @code{Followup-To} header if it is identical to the
10855 @code{Newsgroups} header.
10857 Remove the @code{Reply-To} header if it lists the same addresses as
10858 the @code{From} header, or if the @code{broken-reply-to} group
10861 Remove the @code{Newsgroups} header if it only contains the current group
10864 Remove the @code{To} header if it only contains the address identical to
10865 the current group's @code{to-address} parameter.
10867 Remove the @code{To} header if it only contains the address identical to
10868 the current group's @code{to-list} parameter.
10870 Remove the @code{CC} header if it only contains the address identical to
10871 the current group's @code{to-list} parameter.
10873 Remove the @code{Date} header if the article is less than three days
10876 Remove the @code{To} header if it is very long.
10878 Remove all @code{To} headers if there are more than one.
10881 To include these three elements, you could say something like:
10884 (setq gnus-boring-article-headers
10885 '(empty followup-to reply-to))
10888 This is also the default value for this variable.
10892 @section Using MIME
10893 @cindex @acronym{MIME}
10895 Mime is a standard for waving your hands through the air, aimlessly,
10896 while people stand around yawning.
10898 @acronym{MIME}, however, is a standard for encoding your articles, aimlessly,
10899 while all newsreaders die of fear.
10901 @acronym{MIME} may specify what character set the article uses, the encoding
10902 of the characters, and it also makes it possible to embed pictures and
10903 other naughty stuff in innocent-looking articles.
10905 @vindex gnus-display-mime-function
10906 @findex gnus-display-mime
10907 Gnus pushes @acronym{MIME} articles through @code{gnus-display-mime-function}
10908 to display the @acronym{MIME} parts. This is @code{gnus-display-mime} by
10909 default, which creates a bundle of clickable buttons that can be used to
10910 display, save and manipulate the @acronym{MIME} objects.
10912 The following commands are available when you have placed point over a
10913 @acronym{MIME} button:
10916 @findex gnus-article-press-button
10917 @item RET (Article)
10918 @kindex RET (Article)
10919 @itemx BUTTON-2 (Article)
10920 Toggle displaying of the @acronym{MIME} object
10921 (@code{gnus-article-press-button}). If built-in viewers can not display
10922 the object, Gnus resorts to external viewers in the @file{mailcap}
10923 files. If a viewer has the @samp{copiousoutput} specification, the
10924 object is displayed inline.
10926 @findex gnus-mime-view-part
10927 @item M-RET (Article)
10928 @kindex M-RET (Article)
10930 Prompt for a method, and then view the @acronym{MIME} object using this
10931 method (@code{gnus-mime-view-part}).
10933 @findex gnus-mime-view-part-as-type
10935 @kindex t (Article)
10936 View the @acronym{MIME} object as if it were a different @acronym{MIME} media type
10937 (@code{gnus-mime-view-part-as-type}).
10939 @findex gnus-mime-view-part-as-charset
10941 @kindex C (Article)
10942 Prompt for a charset, and then view the @acronym{MIME} object using this
10943 charset (@code{gnus-mime-view-part-as-charset}).
10945 @findex gnus-mime-save-part
10947 @kindex o (Article)
10948 Prompt for a file name, and then save the @acronym{MIME} object
10949 (@code{gnus-mime-save-part}).
10951 @findex gnus-mime-save-part-and-strip
10952 @item C-o (Article)
10953 @kindex C-o (Article)
10954 Prompt for a file name, then save the @acronym{MIME} object and strip it from
10955 the article. Then proceed to article editing, where a reasonable
10956 suggestion is being made on how the altered article should look
10957 like. The stripped @acronym{MIME} object will be referred via the
10958 message/external-body @acronym{MIME} type.
10959 (@code{gnus-mime-save-part-and-strip}).
10961 @findex gnus-mime-delete-part
10963 @kindex d (Article)
10964 Delete the @acronym{MIME} object from the article and replace it with some
10965 information about the removed @acronym{MIME} object
10966 (@code{gnus-mime-delete-part}).
10968 @findex gnus-mime-copy-part
10970 @kindex c (Article)
10971 Copy the @acronym{MIME} object to a fresh buffer and display this buffer
10972 (@code{gnus-mime-copy-part}). Compressed files like @file{.gz} and
10973 @file{.bz2} are automatically decompressed if
10974 @code{auto-compression-mode} is enabled (@pxref{Compressed Files,,
10975 Accessing Compressed Files, emacs, The Emacs Editor}).
10977 @findex gnus-mime-print-part
10979 @kindex p (Article)
10980 Print the @acronym{MIME} object (@code{gnus-mime-print-part}). This
10981 command respects the @samp{print=} specifications in the
10982 @file{.mailcap} file.
10984 @findex gnus-mime-inline-part
10986 @kindex i (Article)
10987 Insert the contents of the @acronym{MIME} object into the buffer
10988 (@code{gnus-mime-inline-part}) as text/plain. If given a prefix, insert
10989 the raw contents without decoding. If given a numerical prefix, you can
10990 do semi-manual charset stuff (see
10991 @code{gnus-summary-show-article-charset-alist} in @ref{Paging the
10994 @findex gnus-mime-view-part-internally
10996 @kindex E (Article)
10997 View the @acronym{MIME} object with an internal viewer. If no internal
10998 viewer is available, use an external viewer
10999 (@code{gnus-mime-view-part-internally}).
11001 @findex gnus-mime-view-part-externally
11003 @kindex e (Article)
11004 View the @acronym{MIME} object with an external viewer.
11005 (@code{gnus-mime-view-part-externally}).
11007 @findex gnus-mime-pipe-part
11009 @kindex | (Article)
11010 Output the @acronym{MIME} object to a process (@code{gnus-mime-pipe-part}).
11012 @findex gnus-mime-action-on-part
11014 @kindex . (Article)
11015 Interactively run an action on the @acronym{MIME} object
11016 (@code{gnus-mime-action-on-part}).
11020 Gnus will display some @acronym{MIME} objects automatically. The way Gnus
11021 determines which parts to do this with is described in the Emacs
11022 @acronym{MIME} manual.
11024 It might be best to just use the toggling functions from the article
11025 buffer to avoid getting nasty surprises. (For instance, you enter the
11026 group @samp{alt.sing-a-long} and, before you know it, @acronym{MIME} has
11027 decoded the sound file in the article and some horrible sing-a-long song
11028 comes screaming out your speakers, and you can't find the volume button,
11029 because there isn't one, and people are starting to look at you, and you
11030 try to stop the program, but you can't, and you can't find the program
11031 to control the volume, and everybody else in the room suddenly decides
11032 to look at you disdainfully, and you'll feel rather stupid.)
11034 Any similarity to real events and people is purely coincidental. Ahem.
11036 Also @pxref{MIME Commands}.
11039 @node Customizing Articles
11040 @section Customizing Articles
11041 @cindex article customization
11043 A slew of functions for customizing how the articles are to look like
11044 exist. You can call these functions interactively
11045 (@pxref{Article Washing}), or you can have them
11046 called automatically when you select the articles.
11048 To have them called automatically, you should set the corresponding
11049 ``treatment'' variable. For instance, to have headers hidden, you'd set
11050 @code{gnus-treat-hide-headers}. Below is a list of variables that can
11051 be set, but first we discuss the values these variables can have.
11053 Note: Some values, while valid, make little sense. Check the list below
11054 for sensible values.
11058 @code{nil}: Don't do this treatment.
11061 @code{t}: Do this treatment on all body parts.
11064 @code{head}: Do the treatment on the headers.
11067 @code{last}: Do this treatment on the last part.
11070 An integer: Do this treatment on all body parts that have a length less
11074 A list of strings: Do this treatment on all body parts that are in
11075 articles that are read in groups that have names that match one of the
11076 regexps in the list.
11079 A list where the first element is not a string:
11081 The list is evaluated recursively. The first element of the list is a
11082 predicate. The following predicates are recognized: @code{or},
11083 @code{and}, @code{not} and @code{typep}. Here's an example:
11087 (typep "text/x-vcard"))
11092 You may have noticed that the word @dfn{part} is used here. This refers
11093 to the fact that some messages are @acronym{MIME} multipart articles that may
11094 be divided into several parts. Articles that are not multiparts are
11095 considered to contain just a single part.
11097 @vindex gnus-article-treat-types
11098 Are the treatments applied to all sorts of multipart parts? Yes, if you
11099 want to, but by default, only @samp{text/plain} parts are given the
11100 treatment. This is controlled by the @code{gnus-article-treat-types}
11101 variable, which is a list of regular expressions that are matched to the
11102 type of the part. This variable is ignored if the value of the
11103 controlling variable is a predicate list, as described above.
11105 The following treatment options are available. The easiest way to
11106 customize this is to examine the @code{gnus-article-treat} customization
11107 group. Values in parenthesis are suggested sensible values. Others are
11108 possible but those listed are probably sufficient for most people.
11111 @item gnus-treat-buttonize (t, integer)
11112 @item gnus-treat-buttonize-head (head)
11114 @xref{Article Buttons}.
11116 @item gnus-treat-capitalize-sentences (t, integer)
11117 @item gnus-treat-overstrike (t, integer)
11118 @item gnus-treat-strip-cr (t, integer)
11119 @item gnus-treat-strip-headers-in-body (t, integer)
11120 @item gnus-treat-strip-leading-blank-lines (t, integer)
11121 @item gnus-treat-strip-multiple-blank-lines (t, integer)
11122 @item gnus-treat-strip-pem (t, last, integer)
11123 @item gnus-treat-strip-trailing-blank-lines (t, last, integer)
11124 @item gnus-treat-unsplit-urls (t, integer)
11125 @item gnus-treat-wash-html (t, integer)
11127 @xref{Article Washing}.
11129 @item gnus-treat-date-english (head)
11130 @item gnus-treat-date-iso8601 (head)
11131 @item gnus-treat-date-lapsed (head)
11132 @item gnus-treat-date-local (head)
11133 @item gnus-treat-date-original (head)
11134 @item gnus-treat-date-user-defined (head)
11135 @item gnus-treat-date-ut (head)
11137 @xref{Article Date}.
11139 @item gnus-treat-from-picon (head)
11140 @item gnus-treat-mail-picon (head)
11141 @item gnus-treat-newsgroups-picon (head)
11145 @item gnus-treat-display-smileys (t, integer)
11147 @item gnus-treat-body-boundary (head)
11149 @vindex gnus-body-boundary-delimiter
11150 Adds a delimiter between header and body, the string used as delimiter
11151 is controlled by @code{gnus-body-boundary-delimiter}.
11155 @item gnus-treat-display-x-face (head)
11159 @item gnus-treat-display-face (head)
11163 @item gnus-treat-emphasize (t, head, integer)
11164 @item gnus-treat-fill-article (t, integer)
11165 @item gnus-treat-fill-long-lines (t, integer)
11166 @item gnus-treat-hide-boring-headers (head)
11167 @item gnus-treat-hide-citation (t, integer)
11168 @item gnus-treat-hide-citation-maybe (t, integer)
11169 @item gnus-treat-hide-headers (head)
11170 @item gnus-treat-hide-signature (t, last)
11171 @item gnus-treat-strip-banner (t, last)
11172 @item gnus-treat-strip-list-identifiers (head)
11174 @xref{Article Hiding}.
11176 @item gnus-treat-highlight-citation (t, integer)
11177 @item gnus-treat-highlight-headers (head)
11178 @item gnus-treat-highlight-signature (t, last, integer)
11180 @xref{Article Highlighting}.
11182 @item gnus-treat-play-sounds
11183 @item gnus-treat-translate
11184 @item gnus-treat-x-pgp-sig (head)
11186 @item gnus-treat-unfold-headers (head)
11187 @item gnus-treat-fold-headers (head)
11188 @item gnus-treat-fold-newsgroups (head)
11189 @item gnus-treat-leading-whitespace (head)
11191 @xref{Article Header}.
11196 @vindex gnus-part-display-hook
11197 You can, of course, write your own functions to be called from
11198 @code{gnus-part-display-hook}. The functions are called narrowed to the
11199 part, and you can do anything you like, pretty much. There is no
11200 information that you have to keep in the buffer---you can change
11204 @node Article Keymap
11205 @section Article Keymap
11207 Most of the keystrokes in the summary buffer can also be used in the
11208 article buffer. They should behave as if you typed them in the summary
11209 buffer, which means that you don't actually have to have a summary
11210 buffer displayed while reading. You can do it all from the article
11213 A few additional keystrokes are available:
11218 @kindex SPACE (Article)
11219 @findex gnus-article-next-page
11220 Scroll forwards one page (@code{gnus-article-next-page}).
11221 This is exactly the same as @kbd{h SPACE h}.
11224 @kindex DEL (Article)
11225 @findex gnus-article-prev-page
11226 Scroll backwards one page (@code{gnus-article-prev-page}).
11227 This is exactly the same as @kbd{h DEL h}.
11230 @kindex C-c ^ (Article)
11231 @findex gnus-article-refer-article
11232 If point is in the neighborhood of a @code{Message-ID} and you press
11233 @kbd{C-c ^}, Gnus will try to get that article from the server
11234 (@code{gnus-article-refer-article}).
11237 @kindex C-c C-m (Article)
11238 @findex gnus-article-mail
11239 Send a reply to the address near point (@code{gnus-article-mail}). If
11240 given a prefix, include the mail.
11243 @kindex s (Article)
11244 @findex gnus-article-show-summary
11245 Reconfigure the buffers so that the summary buffer becomes visible
11246 (@code{gnus-article-show-summary}).
11249 @kindex ? (Article)
11250 @findex gnus-article-describe-briefly
11251 Give a very brief description of the available keystrokes
11252 (@code{gnus-article-describe-briefly}).
11255 @kindex TAB (Article)
11256 @findex gnus-article-next-button
11257 Go to the next button, if any (@code{gnus-article-next-button}). This
11258 only makes sense if you have buttonizing turned on.
11261 @kindex M-TAB (Article)
11262 @findex gnus-article-prev-button
11263 Go to the previous button, if any (@code{gnus-article-prev-button}).
11266 @kindex R (Article)
11267 @findex gnus-article-reply-with-original
11268 Send a reply to the current article and yank the current article
11269 (@code{gnus-article-reply-with-original}). If given a prefix, make a
11270 wide reply. If the region is active, only yank the text in the
11274 @kindex F (Article)
11275 @findex gnus-article-followup-with-original
11276 Send a followup to the current article and yank the current article
11277 (@code{gnus-article-followup-with-original}). If given a prefix, make
11278 a wide reply. If the region is active, only yank the text in the
11286 @section Misc Article
11290 @item gnus-single-article-buffer
11291 @vindex gnus-single-article-buffer
11292 If non-@code{nil}, use the same article buffer for all the groups.
11293 (This is the default.) If @code{nil}, each group will have its own
11296 @vindex gnus-article-decode-hook
11297 @item gnus-article-decode-hook
11298 @cindex @acronym{MIME}
11299 Hook used to decode @acronym{MIME} articles. The default value is
11300 @code{(article-decode-charset article-decode-encoded-words)}
11302 @vindex gnus-article-prepare-hook
11303 @item gnus-article-prepare-hook
11304 This hook is called right after the article has been inserted into the
11305 article buffer. It is mainly intended for functions that do something
11306 depending on the contents; it should probably not be used for changing
11307 the contents of the article buffer.
11309 @item gnus-article-mode-hook
11310 @vindex gnus-article-mode-hook
11311 Hook called in article mode buffers.
11313 @item gnus-article-mode-syntax-table
11314 @vindex gnus-article-mode-syntax-table
11315 Syntax table used in article buffers. It is initialized from
11316 @code{text-mode-syntax-table}.
11318 @vindex gnus-article-over-scroll
11319 @item gnus-article-over-scroll
11320 If non-@code{nil}, allow scrolling the article buffer even when there
11321 no more new text to scroll in. The default is @code{nil}.
11323 @vindex gnus-article-mode-line-format
11324 @item gnus-article-mode-line-format
11325 This variable is a format string along the same lines as
11326 @code{gnus-summary-mode-line-format} (@pxref{Summary Buffer Mode
11327 Line}). It accepts the same format specifications as that variable,
11328 with two extensions:
11333 The @dfn{wash status} of the article. This is a short string with one
11334 character for each possible article wash operation that may have been
11335 performed. The characters and their meaning:
11340 Displayed when cited text may be hidden in the article buffer.
11343 Displayed when headers are hidden in the article buffer.
11346 Displayed when article is digitally signed or encrypted, and Gnus has
11347 hidden the security headers. (N.B. does not tell anything about
11348 security status, i.e. good or bad signature.)
11351 Displayed when the signature has been hidden in the Article buffer.
11354 Displayed when Gnus has treated overstrike characters in the article buffer.
11357 Displayed when Gnus has treated emphasised strings in the article buffer.
11362 The number of @acronym{MIME} parts in the article.
11366 @vindex gnus-break-pages
11368 @item gnus-break-pages
11369 Controls whether @dfn{page breaking} is to take place. If this variable
11370 is non-@code{nil}, the articles will be divided into pages whenever a
11371 page delimiter appears in the article. If this variable is @code{nil},
11372 paging will not be done.
11374 @item gnus-page-delimiter
11375 @vindex gnus-page-delimiter
11376 This is the delimiter mentioned above. By default, it is @samp{^L}
11380 @cindex internationalized domain names
11381 @vindex gnus-use-idna
11382 @item gnus-use-idna
11383 This variable controls whether Gnus performs IDNA decoding of
11384 internationalized domain names inside @samp{From}, @samp{To} and
11385 @samp{Cc} headers. This requires
11386 @uref{http://www.gnu.org/software/libidn/, GNU Libidn}, and this
11387 variable is only enabled if you have installed it.
11392 @node Composing Messages
11393 @chapter Composing Messages
11394 @cindex composing messages
11397 @cindex sending mail
11402 @cindex using s/mime
11403 @cindex using smime
11405 @kindex C-c C-c (Post)
11406 All commands for posting and mailing will put you in a message buffer
11407 where you can edit the article all you like, before you send the
11408 article by pressing @kbd{C-c C-c}. @xref{Top, , Overview, message,
11409 Message Manual}. Where the message will be posted/mailed to depends
11410 on your setup (@pxref{Posting Server}).
11413 * Mail:: Mailing and replying.
11414 * Posting Server:: What server should you post and mail via?
11415 * POP before SMTP:: You cannot send a mail unless you read a mail.
11416 * Mail and Post:: Mailing and posting at the same time.
11417 * Archived Messages:: Where Gnus stores the messages you've sent.
11418 * Posting Styles:: An easier way to specify who you are.
11419 * Drafts:: Postponing messages and rejected messages.
11420 * Rejected Articles:: What happens if the server doesn't like your article?
11421 * Signing and encrypting:: How to compose secure messages.
11424 Also @pxref{Canceling and Superseding} for information on how to
11425 remove articles you shouldn't have posted.
11431 Variables for customizing outgoing mail:
11434 @item gnus-uu-digest-headers
11435 @vindex gnus-uu-digest-headers
11436 List of regexps to match headers included in digested messages. The
11437 headers will be included in the sequence they are matched. If
11438 @code{nil} include all headers.
11440 @item gnus-add-to-list
11441 @vindex gnus-add-to-list
11442 If non-@code{nil}, add a @code{to-list} group parameter to mail groups
11443 that have none when you do a @kbd{a}.
11445 @item gnus-confirm-mail-reply-to-news
11446 @vindex gnus-confirm-mail-reply-to-news
11447 If non-@code{nil}, Gnus will ask you for a confirmation when you are
11448 about to reply to news articles by mail. If it is @code{nil}, nothing
11449 interferes in what you want to do. This can also be a function
11450 receiving the group name as the only parameter which should return
11451 non-@code{nil} if a confirmation is needed, or a regular expression
11452 matching group names, where confirmation should be asked for.
11454 If you find yourself never wanting to reply to mail, but occasionally
11455 press @kbd{R} anyway, this variable might be for you.
11457 @item gnus-confirm-treat-mail-like-news
11458 @vindex gnus-confirm-treat-mail-like-news
11459 If non-@code{nil}, Gnus also requests confirmation according to
11460 @code{gnus-confirm-mail-reply-to-news} when replying to mail. This is
11461 useful for treating mailing lists like newsgroups.
11466 @node Posting Server
11467 @section Posting Server
11469 When you press those magical @kbd{C-c C-c} keys to ship off your latest
11470 (extremely intelligent, of course) article, where does it go?
11472 Thank you for asking. I hate you.
11474 It can be quite complicated.
11476 @vindex gnus-post-method
11477 When posting news, Message usually invokes @code{message-send-news}
11478 (@pxref{News Variables, , News Variables, message, Message Manual}).
11479 Normally, Gnus will post using the same select method as you're
11480 reading from (which might be convenient if you're reading lots of
11481 groups from different private servers). However. If the server
11482 you're reading from doesn't allow posting, just reading, you probably
11483 want to use some other server to post your (extremely intelligent and
11484 fabulously interesting) articles. You can then set the
11485 @code{gnus-post-method} to some other method:
11488 (setq gnus-post-method '(nnspool ""))
11491 Now, if you've done this, and then this server rejects your article, or
11492 this server is down, what do you do then? To override this variable you
11493 can use a non-zero prefix to the @kbd{C-c C-c} command to force using
11494 the ``current'' server, to get back the default behavior, for posting.
11496 If you give a zero prefix (i.e., @kbd{C-u 0 C-c C-c}) to that command,
11497 Gnus will prompt you for what method to use for posting.
11499 You can also set @code{gnus-post-method} to a list of select methods.
11500 If that's the case, Gnus will always prompt you for what method to use
11503 Finally, if you want to always post using the native select method,
11504 you can set this variable to @code{native}.
11506 When sending mail, Message invokes @code{message-send-mail-function}.
11507 The default function, @code{message-send-mail-with-sendmail}, pipes
11508 your article to the @code{sendmail} binary for further queuing and
11509 sending. When your local system is not configured for sending mail
11510 using @code{sendmail}, and you have access to a remote @acronym{SMTP}
11511 server, you can set @code{message-send-mail-function} to
11512 @code{smtpmail-send-it} and make sure to setup the @code{smtpmail}
11513 package correctly. An example:
11516 (setq message-send-mail-function 'smtpmail-send-it
11517 smtpmail-default-smtp-server "YOUR SMTP HOST")
11520 To the thing similar to this, there is
11521 @code{message-smtpmail-send-it}. It is useful if your @acronym{ISP}
11522 requires the @acronym{POP}-before-@acronym{SMTP} authentication.
11523 @xref{POP before SMTP}.
11525 Other possible choices for @code{message-send-mail-function} includes
11526 @code{message-send-mail-with-mh}, @code{message-send-mail-with-qmail},
11527 and @code{feedmail-send-it}.
11529 @node POP before SMTP
11530 @section POP before SMTP
11531 @cindex pop before smtp
11532 @findex message-smtpmail-send-it
11533 @findex mail-source-touch-pop
11535 Does your @acronym{ISP} require the @acronym{POP}-before-@acronym{SMTP}
11536 authentication? It is whether you need to connect to the @acronym{POP}
11537 mail server within a certain time before sending mails. If so, there is
11538 a convenient way. To do that, put the following lines in your
11539 @file{~/.gnus.el} file:
11542 (setq message-send-mail-function 'message-smtpmail-send-it)
11543 (add-hook 'message-send-mail-hook 'mail-source-touch-pop)
11547 It means to let Gnus connect to the @acronym{POP} mail server in advance
11548 whenever you send a mail. The @code{mail-source-touch-pop} function
11549 does only a @acronym{POP} authentication according to the value of
11550 @code{mail-sources} without fetching mails, just before sending a mail.
11551 Note that you have to use @code{message-smtpmail-send-it} which runs
11552 @code{message-send-mail-hook} rather than @code{smtpmail-send-it} and
11553 set the value of @code{mail-sources} for a @acronym{POP} connection
11554 correctly. @xref{Mail Sources}.
11556 If you have two or more @acronym{POP} mail servers set in
11557 @code{mail-sources}, you may want to specify one of them to
11558 @code{mail-source-primary-source} as the @acronym{POP} mail server to be
11559 used for the @acronym{POP}-before-@acronym{SMTP} authentication. If it
11560 is your primary @acronym{POP} mail server (i.e., you are fetching mails
11561 mainly from that server), you can set it permanently as follows:
11564 (setq mail-source-primary-source
11565 '(pop :server "pop3.mail.server"
11566 :password "secret"))
11570 Otherwise, bind it dynamically only when performing the
11571 @acronym{POP}-before-@acronym{SMTP} authentication as follows:
11574 (add-hook 'message-send-mail-hook
11576 (let ((mail-source-primary-source
11577 '(pop :server "pop3.mail.server"
11578 :password "secret")))
11579 (mail-source-touch-pop))))
11582 @node Mail and Post
11583 @section Mail and Post
11585 Here's a list of variables relevant to both mailing and
11589 @item gnus-mailing-list-groups
11590 @findex gnus-mailing-list-groups
11591 @cindex mailing lists
11593 If your news server offers groups that are really mailing lists
11594 gatewayed to the @acronym{NNTP} server, you can read those groups without
11595 problems, but you can't post/followup to them without some difficulty.
11596 One solution is to add a @code{to-address} to the group parameters
11597 (@pxref{Group Parameters}). An easier thing to do is set the
11598 @code{gnus-mailing-list-groups} to a regexp that matches the groups that
11599 really are mailing lists. Then, at least, followups to the mailing
11600 lists will work most of the time. Posting to these groups (@kbd{a}) is
11601 still a pain, though.
11603 @item gnus-user-agent
11604 @vindex gnus-user-agent
11607 This variable controls which information should be exposed in the
11608 User-Agent header. It can be one of the symbols @code{gnus} (show only
11609 Gnus version), @code{emacs-gnus} (show only Emacs and Gnus versions),
11610 @code{emacs-gnus-config} (same as @code{emacs-gnus} plus system
11611 configuration), @code{emacs-gnus-type} (same as @code{emacs-gnus} plus
11612 system type) or a custom string. If you set it to a string, be sure to
11613 use a valid format, see RFC 2616.
11617 You may want to do spell-checking on messages that you send out. Or, if
11618 you don't want to spell-check by hand, you could add automatic
11619 spell-checking via the @code{ispell} package:
11622 @findex ispell-message
11624 (add-hook 'message-send-hook 'ispell-message)
11627 If you want to change the @code{ispell} dictionary based on what group
11628 you're in, you could say something like the following:
11631 (add-hook 'gnus-select-group-hook
11635 "^de\\." (gnus-group-real-name gnus-newsgroup-name))
11636 (ispell-change-dictionary "deutsch"))
11638 (ispell-change-dictionary "english")))))
11641 Modify to suit your needs.
11644 @node Archived Messages
11645 @section Archived Messages
11646 @cindex archived messages
11647 @cindex sent messages
11649 Gnus provides a few different methods for storing the mail and news you
11650 send. The default method is to use the @dfn{archive virtual server} to
11651 store the messages. If you want to disable this completely, the
11652 @code{gnus-message-archive-group} variable should be @code{nil}, which
11655 For archiving interesting messages in a group you read, see the
11656 @kbd{B c} (@code{gnus-summary-copy-article}) command (@pxref{Mail
11659 @vindex gnus-message-archive-method
11660 @code{gnus-message-archive-method} says what virtual server Gnus is to
11661 use to store sent messages. The default is:
11664 (nnfolder "archive"
11665 (nnfolder-directory "~/Mail/archive")
11666 (nnfolder-active-file "~/Mail/archive/active")
11667 (nnfolder-get-new-mail nil)
11668 (nnfolder-inhibit-expiry t))
11671 You can, however, use any mail select method (@code{nnml},
11672 @code{nnmbox}, etc.). @code{nnfolder} is a quite likable select method
11673 for doing this sort of thing, though. If you don't like the default
11674 directory chosen, you could say something like:
11677 (setq gnus-message-archive-method
11678 '(nnfolder "archive"
11679 (nnfolder-inhibit-expiry t)
11680 (nnfolder-active-file "~/News/sent-mail/active")
11681 (nnfolder-directory "~/News/sent-mail/")))
11684 @vindex gnus-message-archive-group
11686 Gnus will insert @code{Gcc} headers in all outgoing messages that point
11687 to one or more group(s) on that server. Which group to use is
11688 determined by the @code{gnus-message-archive-group} variable.
11690 This variable can be used to do the following:
11694 Messages will be saved in that group.
11696 Note that you can include a select method in the group name, then the
11697 message will not be stored in the select method given by
11698 @code{gnus-message-archive-method}, but in the select method specified
11699 by the group name, instead. Suppose @code{gnus-message-archive-method}
11700 has the default value shown above. Then setting
11701 @code{gnus-message-archive-group} to @code{"foo"} means that outgoing
11702 messages are stored in @samp{nnfolder+archive:foo}, but if you use the
11703 value @code{"nnml:foo"}, then outgoing messages will be stored in
11706 @item a list of strings
11707 Messages will be saved in all those groups.
11709 @item an alist of regexps, functions and forms
11710 When a key ``matches'', the result is used.
11713 No message archiving will take place. This is the default.
11718 Just saving to a single group called @samp{MisK}:
11720 (setq gnus-message-archive-group "MisK")
11723 Saving to two groups, @samp{MisK} and @samp{safe}:
11725 (setq gnus-message-archive-group '("MisK" "safe"))
11728 Save to different groups based on what group you are in:
11730 (setq gnus-message-archive-group
11731 '(("^alt" "sent-to-alt")
11732 ("mail" "sent-to-mail")
11733 (".*" "sent-to-misc")))
11736 More complex stuff:
11738 (setq gnus-message-archive-group
11739 '((if (message-news-p)
11744 How about storing all news messages in one file, but storing all mail
11745 messages in one file per month:
11748 (setq gnus-message-archive-group
11749 '((if (message-news-p)
11751 (concat "mail." (format-time-string "%Y-%m")))))
11754 @c (XEmacs 19.13 doesn't have @code{format-time-string}, so you'll have to
11755 @c use a different value for @code{gnus-message-archive-group} there.)
11757 Now, when you send a message off, it will be stored in the appropriate
11758 group. (If you want to disable storing for just one particular message,
11759 you can just remove the @code{Gcc} header that has been inserted.) The
11760 archive group will appear in the group buffer the next time you start
11761 Gnus, or the next time you press @kbd{F} in the group buffer. You can
11762 enter it and read the articles in it just like you'd read any other
11763 group. If the group gets really big and annoying, you can simply rename
11764 if (using @kbd{G r} in the group buffer) to something
11765 nice---@samp{misc-mail-september-1995}, or whatever. New messages will
11766 continue to be stored in the old (now empty) group.
11768 That's the default method of archiving sent messages. Gnus offers a
11769 different way for the people who don't like the default method. In that
11770 case you should set @code{gnus-message-archive-group} to @code{nil};
11771 this will disable archiving.
11774 @item gnus-outgoing-message-group
11775 @vindex gnus-outgoing-message-group
11776 All outgoing messages will be put in this group. If you want to store
11777 all your outgoing mail and articles in the group @samp{nnml:archive},
11778 you set this variable to that value. This variable can also be a list of
11781 If you want to have greater control over what group to put each
11782 message in, you can set this variable to a function that checks the
11783 current newsgroup name and then returns a suitable group name (or list
11786 This variable can be used instead of @code{gnus-message-archive-group},
11787 but the latter is the preferred method.
11789 @item gnus-gcc-mark-as-read
11790 @vindex gnus-gcc-mark-as-read
11791 If non-@code{nil}, automatically mark @code{Gcc} articles as read.
11793 @item gnus-gcc-externalize-attachments
11794 @vindex gnus-gcc-externalize-attachments
11795 If @code{nil}, attach files as normal parts in Gcc copies; if a regexp
11796 and matches the Gcc group name, attach files as external parts; if it is
11797 @code{all}, attach local files as external parts; if it is other
11798 non-@code{nil}, the behavior is the same as @code{all}, but it may be
11799 changed in the future.
11804 @node Posting Styles
11805 @section Posting Styles
11806 @cindex posting styles
11809 All them variables, they make my head swim.
11811 So what if you want a different @code{Organization} and signature based
11812 on what groups you post to? And you post both from your home machine
11813 and your work machine, and you want different @code{From} lines, and so
11816 @vindex gnus-posting-styles
11817 One way to do stuff like that is to write clever hooks that change the
11818 variables you need to have changed. That's a bit boring, so somebody
11819 came up with the bright idea of letting the user specify these things in
11820 a handy alist. Here's an example of a @code{gnus-posting-styles}
11825 (signature "Peace and happiness")
11826 (organization "What me?"))
11828 (signature "Death to everybody"))
11829 ("comp.emacs.i-love-it"
11830 (organization "Emacs is it")))
11833 As you might surmise from this example, this alist consists of several
11834 @dfn{styles}. Each style will be applicable if the first element
11835 ``matches'', in some form or other. The entire alist will be iterated
11836 over, from the beginning towards the end, and each match will be
11837 applied, which means that attributes in later styles that match override
11838 the same attributes in earlier matching styles. So
11839 @samp{comp.programming.literate} will have the @samp{Death to everybody}
11840 signature and the @samp{What me?} @code{Organization} header.
11842 The first element in each style is called the @code{match}. If it's a
11843 string, then Gnus will try to regexp match it against the group name.
11844 If it is the form @code{(header @var{match} @var{regexp})}, then Gnus
11845 will look in the original article for a header whose name is
11846 @var{match} and compare that @var{regexp}. @var{match} and
11847 @var{regexp} are strings. (The original article is the one you are
11848 replying or following up to. If you are not composing a reply or a
11849 followup, then there is nothing to match against.) If the
11850 @code{match} is a function symbol, that function will be called with
11851 no arguments. If it's a variable symbol, then the variable will be
11852 referenced. If it's a list, then that list will be @code{eval}ed. In
11853 any case, if this returns a non-@code{nil} value, then the style is
11854 said to @dfn{match}.
11856 Each style may contain an arbitrary amount of @dfn{attributes}. Each
11857 attribute consists of a @code{(@var{name} @var{value})} pair. In
11858 addition, you can also use the @code{(@var{name} :file @var{value})}
11859 form or the @code{(@var{name} :value @var{value})} form. Where
11860 @code{:file} signifies @var{value} represents a file name and its
11861 contents should be used as the attribute value, @code{:value} signifies
11862 @var{value} does not represent a file name explicitly. The attribute
11863 name can be one of:
11866 @item @code{signature}
11867 @item @code{signature-file}
11868 @item @code{x-face-file}
11869 @item @code{address}, overriding @code{user-mail-address}
11870 @item @code{name}, overriding @code{(user-full-name)}
11874 The attribute name can also be a string or a symbol. In that case,
11875 this will be used as a header name, and the value will be inserted in
11876 the headers of the article; if the value is @code{nil}, the header
11877 name will be removed. If the attribute name is @code{eval}, the form
11878 is evaluated, and the result is thrown away.
11880 The attribute value can be a string (used verbatim), a function with
11881 zero arguments (the return value will be used), a variable (its value
11882 will be used) or a list (it will be @code{eval}ed and the return value
11883 will be used). The functions and sexps are called/@code{eval}ed in the
11884 message buffer that is being set up. The headers of the current article
11885 are available through the @code{message-reply-headers} variable, which
11886 is a vector of the following headers: number subject from date id
11887 references chars lines xref extra.
11889 @vindex message-reply-headers
11891 If you wish to check whether the message you are about to compose is
11892 meant to be a news article or a mail message, you can check the values
11893 of the @code{message-news-p} and @code{message-mail-p} functions.
11895 @findex message-mail-p
11896 @findex message-news-p
11898 So here's a new example:
11901 (setq gnus-posting-styles
11903 (signature-file "~/.signature")
11905 ("X-Home-Page" (getenv "WWW_HOME"))
11906 (organization "People's Front Against MWM"))
11908 (signature my-funny-signature-randomizer))
11909 ((equal (system-name) "gnarly") ;; @r{A form}
11910 (signature my-quote-randomizer))
11911 (message-news-p ;; @r{A function symbol}
11912 (signature my-news-signature))
11913 (window-system ;; @r{A value symbol}
11914 ("X-Window-System" (format "%s" window-system)))
11915 ;; @r{If I'm replying to Larsi, set the Organization header.}
11916 ((header "from" "larsi.*org")
11917 (Organization "Somewhere, Inc."))
11918 ((posting-from-work-p) ;; @r{A user defined function}
11919 (signature-file "~/.work-signature")
11920 (address "user@@bar.foo")
11921 (body "You are fired.\n\nSincerely, your boss.")
11922 (organization "Important Work, Inc"))
11924 (From (save-excursion
11925 (set-buffer gnus-article-buffer)
11926 (message-fetch-field "to"))))
11928 (signature-file "~/.mail-signature"))))
11931 The @samp{nnml:.*} rule means that you use the @code{To} address as the
11932 @code{From} address in all your outgoing replies, which might be handy
11933 if you fill many roles.
11940 If you are writing a message (mail or news) and suddenly remember that
11941 you have a steak in the oven (or some pesto in the food processor, you
11942 craaazy vegetarians), you'll probably wish there was a method to save
11943 the message you are writing so that you can continue editing it some
11944 other day, and send it when you feel its finished.
11946 Well, don't worry about it. Whenever you start composing a message of
11947 some sort using the Gnus mail and post commands, the buffer you get will
11948 automatically associate to an article in a special @dfn{draft} group.
11949 If you save the buffer the normal way (@kbd{C-x C-s}, for instance), the
11950 article will be saved there. (Auto-save files also go to the draft
11954 @vindex nndraft-directory
11955 The draft group is a special group (which is implemented as an
11956 @code{nndraft} group, if you absolutely have to know) called
11957 @samp{nndraft:drafts}. The variable @code{nndraft-directory} says where
11958 @code{nndraft} is to store its files. What makes this group special is
11959 that you can't tick any articles in it or mark any articles as
11960 read---all articles in the group are permanently unread.
11962 If the group doesn't exist, it will be created and you'll be subscribed
11963 to it. The only way to make it disappear from the Group buffer is to
11964 unsubscribe it. The special properties of the draft group comes from
11965 a group property (@pxref{Group Parameters}), and if lost the group
11966 behaves like any other group. This means the commands below will not
11967 be available. To restore the special properties of the group, the
11968 simplest way is to kill the group, using @kbd{C-k}, and restart
11969 Gnus. The group is automatically created again with the
11970 correct parameters. The content of the group is not lost.
11972 @c @findex gnus-dissociate-buffer-from-draft
11973 @c @kindex C-c M-d (Mail)
11974 @c @kindex C-c M-d (Post)
11975 @c @findex gnus-associate-buffer-with-draft
11976 @c @kindex C-c C-d (Mail)
11977 @c @kindex C-c C-d (Post)
11978 @c If you're writing some super-secret message that you later want to
11979 @c encode with PGP before sending, you may wish to turn the auto-saving
11980 @c (and association with the draft group) off. You never know who might be
11981 @c interested in reading all your extremely valuable and terribly horrible
11982 @c and interesting secrets. The @kbd{C-c M-d}
11983 @c (@code{gnus-dissociate-buffer-from-draft}) command does that for you.
11984 @c If you change your mind and want to turn the auto-saving back on again,
11985 @c @kbd{C-c C-d} (@code{gnus-associate-buffer-with-draft} does that.
11987 @c @vindex gnus-use-draft
11988 @c To leave association with the draft group off by default, set
11989 @c @code{gnus-use-draft} to @code{nil}. It is @code{t} by default.
11991 @findex gnus-draft-edit-message
11992 @kindex D e (Draft)
11993 When you want to continue editing the article, you simply enter the
11994 draft group and push @kbd{D e} (@code{gnus-draft-edit-message}) to do
11995 that. You will be placed in a buffer where you left off.
11997 Rejected articles will also be put in this draft group (@pxref{Rejected
12000 @findex gnus-draft-send-all-messages
12001 @kindex D s (Draft)
12002 @findex gnus-draft-send-message
12003 @kindex D S (Draft)
12004 If you have lots of rejected messages you want to post (or mail) without
12005 doing further editing, you can use the @kbd{D s} command
12006 (@code{gnus-draft-send-message}). This command understands the
12007 process/prefix convention (@pxref{Process/Prefix}). The @kbd{D S}
12008 command (@code{gnus-draft-send-all-messages}) will ship off all messages
12011 @findex gnus-draft-toggle-sending
12012 @kindex D t (Draft)
12013 If you have some messages that you wish not to send, you can use the
12014 @kbd{D t} (@code{gnus-draft-toggle-sending}) command to mark the message
12015 as unsendable. This is a toggling command.
12018 @node Rejected Articles
12019 @section Rejected Articles
12020 @cindex rejected articles
12022 Sometimes a news server will reject an article. Perhaps the server
12023 doesn't like your face. Perhaps it just feels miserable. Perhaps
12024 @emph{there be demons}. Perhaps you have included too much cited text.
12025 Perhaps the disk is full. Perhaps the server is down.
12027 These situations are, of course, totally beyond the control of Gnus.
12028 (Gnus, of course, loves the way you look, always feels great, has angels
12029 fluttering around inside of it, doesn't care about how much cited text
12030 you include, never runs full and never goes down.) So Gnus saves these
12031 articles until some later time when the server feels better.
12033 The rejected articles will automatically be put in a special draft group
12034 (@pxref{Drafts}). When the server comes back up again, you'd then
12035 typically enter that group and send all the articles off.
12037 @node Signing and encrypting
12038 @section Signing and encrypting
12040 @cindex using s/mime
12041 @cindex using smime
12043 Gnus can digitally sign and encrypt your messages, using vanilla
12044 @acronym{PGP} format or @acronym{PGP/MIME} or @acronym{S/MIME}. For
12045 decoding such messages, see the @code{mm-verify-option} and
12046 @code{mm-decrypt-option} options (@pxref{Security}).
12048 @vindex gnus-message-replysign
12049 @vindex gnus-message-replyencrypt
12050 @vindex gnus-message-replysignencrypted
12051 Often, you would like to sign replies to people who send you signed
12052 messages. Even more often, you might want to encrypt messages which
12053 are in reply to encrypted messages. Gnus offers
12054 @code{gnus-message-replysign} to enable the former, and
12055 @code{gnus-message-replyencrypt} for the latter. In addition, setting
12056 @code{gnus-message-replysignencrypted} (on by default) will sign
12057 automatically encrypted messages.
12059 Instructing @acronym{MML} to perform security operations on a
12060 @acronym{MIME} part is done using the @kbd{C-c C-m s} key map for
12061 signing and the @kbd{C-c C-m c} key map for encryption, as follows.
12066 @kindex C-c C-m s s (Message)
12067 @findex mml-secure-message-sign-smime
12069 Digitally sign current message using @acronym{S/MIME}.
12072 @kindex C-c C-m s o (Message)
12073 @findex mml-secure-message-sign-pgp
12075 Digitally sign current message using @acronym{PGP}.
12078 @kindex C-c C-m s p (Message)
12079 @findex mml-secure-message-sign-pgp
12081 Digitally sign current message using @acronym{PGP/MIME}.
12084 @kindex C-c C-m c s (Message)
12085 @findex mml-secure-message-encrypt-smime
12087 Digitally encrypt current message using @acronym{S/MIME}.
12090 @kindex C-c C-m c o (Message)
12091 @findex mml-secure-message-encrypt-pgp
12093 Digitally encrypt current message using @acronym{PGP}.
12096 @kindex C-c C-m c p (Message)
12097 @findex mml-secure-message-encrypt-pgpmime
12099 Digitally encrypt current message using @acronym{PGP/MIME}.
12102 @kindex C-c C-m C-n (Message)
12103 @findex mml-unsecure-message
12104 Remove security related @acronym{MML} tags from message.
12108 @xref{Security, ,Security, message, Message Manual}, for more information.
12110 @node Select Methods
12111 @chapter Select Methods
12112 @cindex foreign groups
12113 @cindex select methods
12115 A @dfn{foreign group} is a group not read by the usual (or
12116 default) means. It could be, for instance, a group from a different
12117 @acronym{NNTP} server, it could be a virtual group, or it could be your own
12118 personal mail group.
12120 A foreign group (or any group, really) is specified by a @dfn{name} and
12121 a @dfn{select method}. To take the latter first, a select method is a
12122 list where the first element says what back end to use (e.g. @code{nntp},
12123 @code{nnspool}, @code{nnml}) and the second element is the @dfn{server
12124 name}. There may be additional elements in the select method, where the
12125 value may have special meaning for the back end in question.
12127 One could say that a select method defines a @dfn{virtual server}---so
12128 we do just that (@pxref{Server Buffer}).
12130 The @dfn{name} of the group is the name the back end will recognize the
12133 For instance, the group @samp{soc.motss} on the @acronym{NNTP} server
12134 @samp{some.where.edu} will have the name @samp{soc.motss} and select
12135 method @code{(nntp "some.where.edu")}. Gnus will call this group
12136 @samp{nntp+some.where.edu:soc.motss}, even though the @code{nntp}
12137 back end just knows this group as @samp{soc.motss}.
12139 The different methods all have their peculiarities, of course.
12142 * Server Buffer:: Making and editing virtual servers.
12143 * Getting News:: Reading USENET news with Gnus.
12144 * Getting Mail:: Reading your personal mail with Gnus.
12145 * Browsing the Web:: Getting messages from a plethora of Web sources.
12146 * IMAP:: Using Gnus as a @acronym{IMAP} client.
12147 * Other Sources:: Reading directories, files, SOUP packets.
12148 * Combined Groups:: Combining groups into one group.
12149 * Gnus Unplugged:: Reading news and mail offline.
12153 @node Server Buffer
12154 @section Server Buffer
12156 Traditionally, a @dfn{server} is a machine or a piece of software that
12157 one connects to, and then requests information from. Gnus does not
12158 connect directly to any real servers, but does all transactions through
12159 one back end or other. But that's just putting one layer more between
12160 the actual media and Gnus, so we might just as well say that each
12161 back end represents a virtual server.
12163 For instance, the @code{nntp} back end may be used to connect to several
12164 different actual @acronym{NNTP} servers, or, perhaps, to many different ports
12165 on the same actual @acronym{NNTP} server. You tell Gnus which back end to
12166 use, and what parameters to set by specifying a @dfn{select method}.
12168 These select method specifications can sometimes become quite
12169 complicated---say, for instance, that you want to read from the
12170 @acronym{NNTP} server @samp{news.funet.fi} on port number 13, which
12171 hangs if queried for @acronym{NOV} headers and has a buggy select. Ahem.
12172 Anyway, if you had to specify that for each group that used this
12173 server, that would be too much work, so Gnus offers a way of naming
12174 select methods, which is what you do in the server buffer.
12176 To enter the server buffer, use the @kbd{^}
12177 (@code{gnus-group-enter-server-mode}) command in the group buffer.
12180 * Server Buffer Format:: You can customize the look of this buffer.
12181 * Server Commands:: Commands to manipulate servers.
12182 * Example Methods:: Examples server specifications.
12183 * Creating a Virtual Server:: An example session.
12184 * Server Variables:: Which variables to set.
12185 * Servers and Methods:: You can use server names as select methods.
12186 * Unavailable Servers:: Some servers you try to contact may be down.
12189 @vindex gnus-server-mode-hook
12190 @code{gnus-server-mode-hook} is run when creating the server buffer.
12193 @node Server Buffer Format
12194 @subsection Server Buffer Format
12195 @cindex server buffer format
12197 @vindex gnus-server-line-format
12198 You can change the look of the server buffer lines by changing the
12199 @code{gnus-server-line-format} variable. This is a @code{format}-like
12200 variable, with some simple extensions:
12205 How the news is fetched---the back end name.
12208 The name of this server.
12211 Where the news is to be fetched from---the address.
12214 The opened/closed/denied status of the server.
12217 Whether this server is agentized.
12220 @vindex gnus-server-mode-line-format
12221 The mode line can also be customized by using the
12222 @code{gnus-server-mode-line-format} variable (@pxref{Mode Line
12223 Formatting}). The following specs are understood:
12233 Also @pxref{Formatting Variables}.
12236 @node Server Commands
12237 @subsection Server Commands
12238 @cindex server commands
12244 @findex gnus-server-add-server
12245 Add a new server (@code{gnus-server-add-server}).
12249 @findex gnus-server-edit-server
12250 Edit a server (@code{gnus-server-edit-server}).
12253 @kindex SPACE (Server)
12254 @findex gnus-server-read-server
12255 Browse the current server (@code{gnus-server-read-server}).
12259 @findex gnus-server-exit
12260 Return to the group buffer (@code{gnus-server-exit}).
12264 @findex gnus-server-kill-server
12265 Kill the current server (@code{gnus-server-kill-server}).
12269 @findex gnus-server-yank-server
12270 Yank the previously killed server (@code{gnus-server-yank-server}).
12274 @findex gnus-server-copy-server
12275 Copy the current server (@code{gnus-server-copy-server}).
12279 @findex gnus-server-list-servers
12280 List all servers (@code{gnus-server-list-servers}).
12284 @findex gnus-server-scan-server
12285 Request that the server scan its sources for new articles
12286 (@code{gnus-server-scan-server}). This is mainly sensible with mail
12291 @findex gnus-server-regenerate-server
12292 Request that the server regenerate all its data structures
12293 (@code{gnus-server-regenerate-server}). This can be useful if you have
12294 a mail back end that has gotten out of sync.
12299 @node Example Methods
12300 @subsection Example Methods
12302 Most select methods are pretty simple and self-explanatory:
12305 (nntp "news.funet.fi")
12308 Reading directly from the spool is even simpler:
12314 As you can see, the first element in a select method is the name of the
12315 back end, and the second is the @dfn{address}, or @dfn{name}, if you
12318 After these two elements, there may be an arbitrary number of
12319 @code{(@var{variable} @var{form})} pairs.
12321 To go back to the first example---imagine that you want to read from
12322 port 15 on that machine. This is what the select method should
12326 (nntp "news.funet.fi" (nntp-port-number 15))
12329 You should read the documentation to each back end to find out what
12330 variables are relevant, but here's an @code{nnmh} example:
12332 @code{nnmh} is a mail back end that reads a spool-like structure. Say
12333 you have two structures that you wish to access: One is your private
12334 mail spool, and the other is a public one. Here's the possible spec for
12338 (nnmh "private" (nnmh-directory "~/private/mail/"))
12341 (This server is then called @samp{private}, but you may have guessed
12344 Here's the method for a public spool:
12348 (nnmh-directory "/usr/information/spool/")
12349 (nnmh-get-new-mail nil))
12355 If you are behind a firewall and only have access to the @acronym{NNTP}
12356 server from the firewall machine, you can instruct Gnus to @code{rlogin}
12357 on the firewall machine and telnet from there to the @acronym{NNTP} server.
12358 Doing this can be rather fiddly, but your virtual server definition
12359 should probably look something like this:
12363 (nntp-open-connection-function nntp-open-via-rlogin-and-telnet)
12364 (nntp-via-address "the.firewall.machine")
12365 (nntp-address "the.real.nntp.host")
12366 (nntp-end-of-line "\n"))
12369 If you want to use the wonderful @code{ssh} program to provide a
12370 compressed connection over the modem line, you could add the following
12371 configuration to the example above:
12374 (nntp-via-rlogin-command "ssh")
12377 See also @code{nntp-via-rlogin-command-switches}.
12379 If you're behind a firewall, but have direct access to the outside world
12380 through a wrapper command like "runsocks", you could open a socksified
12381 telnet connection to the news server as follows:
12385 (nntp-pre-command "runsocks")
12386 (nntp-open-connection-function nntp-open-via-telnet)
12387 (nntp-address "the.news.server")
12388 (nntp-end-of-line "\n"))
12391 This means that you have to have set up @code{ssh-agent} correctly to
12392 provide automatic authorization, of course. And to get a compressed
12393 connection, you have to have the @samp{Compression} option in the
12394 @code{ssh} @file{config} file.
12397 @node Creating a Virtual Server
12398 @subsection Creating a Virtual Server
12400 If you're saving lots of articles in the cache by using persistent
12401 articles, you may want to create a virtual server to read the cache.
12403 First you need to add a new server. The @kbd{a} command does that. It
12404 would probably be best to use @code{nnml} to read the cache. You
12405 could also use @code{nnspool} or @code{nnmh}, though.
12407 Type @kbd{a nnml RET cache RET}.
12409 You should now have a brand new @code{nnml} virtual server called
12410 @samp{cache}. You now need to edit it to have the right definitions.
12411 Type @kbd{e} to edit the server. You'll be entered into a buffer that
12412 will contain the following:
12422 (nnml-directory "~/News/cache/")
12423 (nnml-active-file "~/News/cache/active"))
12426 Type @kbd{C-c C-c} to return to the server buffer. If you now press
12427 @kbd{RET} over this virtual server, you should be entered into a browse
12428 buffer, and you should be able to enter any of the groups displayed.
12431 @node Server Variables
12432 @subsection Server Variables
12433 @cindex server variables
12434 @cindex server parameters
12436 One sticky point when defining variables (both on back ends and in Emacs
12437 in general) is that some variables are typically initialized from other
12438 variables when the definition of the variables is being loaded. If you
12439 change the ``base'' variable after the variables have been loaded, you
12440 won't change the ``derived'' variables.
12442 This typically affects directory and file variables. For instance,
12443 @code{nnml-directory} is @file{~/Mail/} by default, and all @code{nnml}
12444 directory variables are initialized from that variable, so
12445 @code{nnml-active-file} will be @file{~/Mail/active}. If you define a
12446 new virtual @code{nnml} server, it will @emph{not} suffice to set just
12447 @code{nnml-directory}---you have to explicitly set all the file
12448 variables to be what you want them to be. For a complete list of
12449 variables for each back end, see each back end's section later in this
12450 manual, but here's an example @code{nnml} definition:
12454 (nnml-directory "~/my-mail/")
12455 (nnml-active-file "~/my-mail/active")
12456 (nnml-newsgroups-file "~/my-mail/newsgroups"))
12459 Server variables are often called @dfn{server parameters}.
12461 @node Servers and Methods
12462 @subsection Servers and Methods
12464 Wherever you would normally use a select method
12465 (e.g. @code{gnus-secondary-select-method}, in the group select method,
12466 when browsing a foreign server) you can use a virtual server name
12467 instead. This could potentially save lots of typing. And it's nice all
12471 @node Unavailable Servers
12472 @subsection Unavailable Servers
12474 If a server seems to be unreachable, Gnus will mark that server as
12475 @code{denied}. That means that any subsequent attempt to make contact
12476 with that server will just be ignored. ``It can't be opened,'' Gnus
12477 will tell you, without making the least effort to see whether that is
12478 actually the case or not.
12480 That might seem quite naughty, but it does make sense most of the time.
12481 Let's say you have 10 groups subscribed to on server
12482 @samp{nephelococcygia.com}. This server is located somewhere quite far
12483 away from you and the machine is quite slow, so it takes 1 minute just
12484 to find out that it refuses connection to you today. If Gnus were to
12485 attempt to do that 10 times, you'd be quite annoyed, so Gnus won't
12486 attempt to do that. Once it has gotten a single ``connection refused'',
12487 it will regard that server as ``down''.
12489 So, what happens if the machine was only feeling unwell temporarily?
12490 How do you test to see whether the machine has come up again?
12492 You jump to the server buffer (@pxref{Server Buffer}) and poke it
12493 with the following commands:
12499 @findex gnus-server-open-server
12500 Try to establish connection to the server on the current line
12501 (@code{gnus-server-open-server}).
12505 @findex gnus-server-close-server
12506 Close the connection (if any) to the server
12507 (@code{gnus-server-close-server}).
12511 @findex gnus-server-deny-server
12512 Mark the current server as unreachable
12513 (@code{gnus-server-deny-server}).
12516 @kindex M-o (Server)
12517 @findex gnus-server-open-all-servers
12518 Open the connections to all servers in the buffer
12519 (@code{gnus-server-open-all-servers}).
12522 @kindex M-c (Server)
12523 @findex gnus-server-close-all-servers
12524 Close the connections to all servers in the buffer
12525 (@code{gnus-server-close-all-servers}).
12529 @findex gnus-server-remove-denials
12530 Remove all marks to whether Gnus was denied connection from any servers
12531 (@code{gnus-server-remove-denials}).
12535 @findex gnus-server-offline-server
12536 Set server status to offline (@code{gnus-server-offline-server}).
12542 @section Getting News
12543 @cindex reading news
12544 @cindex news back ends
12546 A newsreader is normally used for reading news. Gnus currently provides
12547 only two methods of getting news---it can read from an @acronym{NNTP} server,
12548 or it can read from a local spool.
12551 * NNTP:: Reading news from an @acronym{NNTP} server.
12552 * News Spool:: Reading news from the local spool.
12560 Subscribing to a foreign group from an @acronym{NNTP} server is rather easy.
12561 You just specify @code{nntp} as method and the address of the @acronym{NNTP}
12562 server as the, uhm, address.
12564 If the @acronym{NNTP} server is located at a non-standard port, setting the
12565 third element of the select method to this port number should allow you
12566 to connect to the right port. You'll have to edit the group info for
12567 that (@pxref{Foreign Groups}).
12569 The name of the foreign group can be the same as a native group. In
12570 fact, you can subscribe to the same group from as many different servers
12571 you feel like. There will be no name collisions.
12573 The following variables can be used to create a virtual @code{nntp}
12578 @item nntp-server-opened-hook
12579 @vindex nntp-server-opened-hook
12580 @cindex @sc{mode reader}
12582 @cindex authentification
12583 @cindex nntp authentification
12584 @findex nntp-send-authinfo
12585 @findex nntp-send-mode-reader
12586 is run after a connection has been made. It can be used to send
12587 commands to the @acronym{NNTP} server after it has been contacted. By
12588 default it sends the command @code{MODE READER} to the server with the
12589 @code{nntp-send-mode-reader} function. This function should always be
12590 present in this hook.
12592 @item nntp-authinfo-function
12593 @vindex nntp-authinfo-function
12594 @findex nntp-send-authinfo
12595 @vindex nntp-authinfo-file
12596 This function will be used to send @samp{AUTHINFO} to the @acronym{NNTP}
12597 server. The default function is @code{nntp-send-authinfo}, which looks
12598 through your @file{~/.authinfo} (or whatever you've set the
12599 @code{nntp-authinfo-file} variable to) for applicable entries. If none
12600 are found, it will prompt you for a login name and a password. The
12601 format of the @file{~/.authinfo} file is (almost) the same as the
12602 @code{ftp} @file{~/.netrc} file, which is defined in the @code{ftp}
12603 manual page, but here are the salient facts:
12607 The file contains one or more line, each of which define one server.
12610 Each line may contain an arbitrary number of token/value pairs.
12612 The valid tokens include @samp{machine}, @samp{login}, @samp{password},
12613 @samp{default}. In addition Gnus introduces two new tokens, not present
12614 in the original @file{.netrc}/@code{ftp} syntax, namely @samp{port} and
12615 @samp{force}. (This is the only way the @file{.authinfo} file format
12616 deviates from the @file{.netrc} file format.) @samp{port} is used to
12617 indicate what port on the server the credentials apply to and
12618 @samp{force} is explained below.
12622 Here's an example file:
12625 machine news.uio.no login larsi password geheimnis
12626 machine nntp.ifi.uio.no login larsi force yes
12629 The token/value pairs may appear in any order; @samp{machine} doesn't
12630 have to be first, for instance.
12632 In this example, both login name and password have been supplied for the
12633 former server, while the latter has only the login name listed, and the
12634 user will be prompted for the password. The latter also has the
12635 @samp{force} tag, which means that the authinfo will be sent to the
12636 @var{nntp} server upon connection; the default (i.e., when there is not
12637 @samp{force} tag) is to not send authinfo to the @var{nntp} server
12638 until the @var{nntp} server asks for it.
12640 You can also add @samp{default} lines that will apply to all servers
12641 that don't have matching @samp{machine} lines.
12647 This will force sending @samp{AUTHINFO} commands to all servers not
12648 previously mentioned.
12650 Remember to not leave the @file{~/.authinfo} file world-readable.
12652 @item nntp-server-action-alist
12653 @vindex nntp-server-action-alist
12654 This is a list of regexps to match on server types and actions to be
12655 taken when matches are made. For instance, if you want Gnus to beep
12656 every time you connect to innd, you could say something like:
12659 (setq nntp-server-action-alist
12660 '(("innd" (ding))))
12663 You probably don't want to do that, though.
12665 The default value is
12668 '(("nntpd 1\\.5\\.11t"
12669 (remove-hook 'nntp-server-opened-hook
12670 'nntp-send-mode-reader)))
12673 This ensures that Gnus doesn't send the @code{MODE READER} command to
12674 nntpd 1.5.11t, since that command chokes that server, I've been told.
12676 @item nntp-maximum-request
12677 @vindex nntp-maximum-request
12678 If the @acronym{NNTP} server doesn't support @acronym{NOV} headers, this back end
12679 will collect headers by sending a series of @code{head} commands. To
12680 speed things up, the back end sends lots of these commands without
12681 waiting for reply, and then reads all the replies. This is controlled
12682 by the @code{nntp-maximum-request} variable, and is 400 by default. If
12683 your network is buggy, you should set this to 1.
12685 @item nntp-connection-timeout
12686 @vindex nntp-connection-timeout
12687 If you have lots of foreign @code{nntp} groups that you connect to
12688 regularly, you're sure to have problems with @acronym{NNTP} servers not
12689 responding properly, or being too loaded to reply within reasonable
12690 time. This is can lead to awkward problems, which can be helped
12691 somewhat by setting @code{nntp-connection-timeout}. This is an integer
12692 that says how many seconds the @code{nntp} back end should wait for a
12693 connection before giving up. If it is @code{nil}, which is the default,
12694 no timeouts are done.
12696 @item nntp-nov-is-evil
12697 @vindex nntp-nov-is-evil
12698 If the @acronym{NNTP} server does not support @acronym{NOV}, you could set this
12699 variable to @code{t}, but @code{nntp} usually checks automatically whether @acronym{NOV}
12702 @item nntp-xover-commands
12703 @vindex nntp-xover-commands
12704 @cindex @acronym{NOV}
12706 List of strings used as commands to fetch @acronym{NOV} lines from a
12707 server. The default value of this variable is @code{("XOVER"
12711 @vindex nntp-nov-gap
12712 @code{nntp} normally sends just one big request for @acronym{NOV} lines to
12713 the server. The server responds with one huge list of lines. However,
12714 if you have read articles 2-5000 in the group, and only want to read
12715 article 1 and 5001, that means that @code{nntp} will fetch 4999 @acronym{NOV}
12716 lines that you will not need. This variable says how
12717 big a gap between two consecutive articles is allowed to be before the
12718 @code{XOVER} request is split into several request. Note that if your
12719 network is fast, setting this variable to a really small number means
12720 that fetching will probably be slower. If this variable is @code{nil},
12721 @code{nntp} will never split requests. The default is 5.
12723 @item nntp-prepare-server-hook
12724 @vindex nntp-prepare-server-hook
12725 A hook run before attempting to connect to an @acronym{NNTP} server.
12727 @item nntp-record-commands
12728 @vindex nntp-record-commands
12729 If non-@code{nil}, @code{nntp} will log all commands it sends to the
12730 @acronym{NNTP} server (along with a timestamp) in the @samp{*nntp-log*}
12731 buffer. This is useful if you are debugging a Gnus/@acronym{NNTP} connection
12732 that doesn't seem to work.
12734 @item nntp-open-connection-function
12735 @vindex nntp-open-connection-function
12736 It is possible to customize how the connection to the nntp server will
12737 be opened. If you specify an @code{nntp-open-connection-function}
12738 parameter, Gnus will use that function to establish the connection.
12739 Six pre-made functions are supplied. These functions can be grouped in
12740 two categories: direct connection functions (four pre-made), and
12741 indirect ones (two pre-made).
12743 @item nntp-prepare-post-hook
12744 @vindex nntp-prepare-post-hook
12745 A hook run just before posting an article. If there is no
12746 @code{Message-ID} header in the article and the news server provides the
12747 recommended ID, it will be added to the article before running this
12748 hook. It is useful to make @code{Cancel-Lock} headers even if you
12749 inhibit Gnus to add a @code{Message-ID} header, you could say:
12752 (add-hook 'nntp-prepare-post-hook 'canlock-insert-header)
12755 Note that not all servers support the recommended ID. This works for
12756 INN versions 2.3.0 and later, for instance.
12761 * Direct Functions:: Connecting directly to the server.
12762 * Indirect Functions:: Connecting indirectly to the server.
12763 * Common Variables:: Understood by several connection functions.
12767 @node Direct Functions
12768 @subsubsection Direct Functions
12769 @cindex direct connection functions
12771 These functions are called direct because they open a direct connection
12772 between your machine and the @acronym{NNTP} server. The behavior of these
12773 functions is also affected by commonly understood variables
12774 (@pxref{Common Variables}).
12777 @findex nntp-open-network-stream
12778 @item nntp-open-network-stream
12779 This is the default, and simply connects to some port or other on the
12782 @findex nntp-open-tls-stream
12783 @item nntp-open-tls-stream
12784 Opens a connection to a server over a @dfn{secure} channel. To use
12785 this you must have @uref{http://www.gnu.org/software/gnutls/, GNUTLS}
12786 installed. You then define a server as follows:
12789 ;; @r{"nntps" is port 563 and is predefined in our @file{/etc/services}}
12790 ;; @r{however, @samp{gnutls-cli -p} doesn't like named ports.}
12792 (nntp "snews.bar.com"
12793 (nntp-open-connection-function nntp-open-tls-stream)
12794 (nntp-port-number )
12795 (nntp-address "snews.bar.com"))
12798 @findex nntp-open-ssl-stream
12799 @item nntp-open-ssl-stream
12800 Opens a connection to a server over a @dfn{secure} channel. To use
12801 this you must have @uref{http://www.openssl.org, OpenSSL} or
12802 @uref{ftp://ftp.psy.uq.oz.au/pub/Crypto/SSL, SSLeay} installed. You
12803 then define a server as follows:
12806 ;; @r{"snews" is port 563 and is predefined in our @file{/etc/services}}
12807 ;; @r{however, @samp{openssl s_client -port} doesn't like named ports.}
12809 (nntp "snews.bar.com"
12810 (nntp-open-connection-function nntp-open-ssl-stream)
12811 (nntp-port-number 563)
12812 (nntp-address "snews.bar.com"))
12815 @findex nntp-open-telnet-stream
12816 @item nntp-open-telnet-stream
12817 Opens a connection to an @acronym{NNTP} server by simply @samp{telnet}'ing
12818 it. You might wonder why this function exists, since we have the
12819 default @code{nntp-open-network-stream} which would do the job. (One
12820 of) the reason(s) is that if you are behind a firewall but have direct
12821 connections to the outside world thanks to a command wrapper like
12822 @code{runsocks}, you can use it like this:
12826 (nntp-pre-command "runsocks")
12827 (nntp-open-connection-function nntp-open-telnet-stream)
12828 (nntp-address "the.news.server"))
12831 With the default method, you would need to wrap your whole Emacs
12832 session, which is not a good idea.
12836 @node Indirect Functions
12837 @subsubsection Indirect Functions
12838 @cindex indirect connection functions
12840 These functions are called indirect because they connect to an
12841 intermediate host before actually connecting to the @acronym{NNTP} server.
12842 All of these functions and related variables are also said to belong to
12843 the ``via'' family of connection: they're all prefixed with ``via'' to make
12844 things cleaner. The behavior of these functions is also affected by
12845 commonly understood variables (@pxref{Common Variables}).
12848 @item nntp-open-via-rlogin-and-telnet
12849 @findex nntp-open-via-rlogin-and-telnet
12850 Does an @samp{rlogin} on a remote system, and then does a @samp{telnet}
12851 to the real @acronym{NNTP} server from there. This is useful for instance if
12852 you need to connect to a firewall machine first.
12854 @code{nntp-open-via-rlogin-and-telnet}-specific variables:
12857 @item nntp-via-rlogin-command
12858 @vindex nntp-via-rlogin-command
12859 Command used to log in on the intermediate host. The default is
12860 @samp{rsh}, but @samp{ssh} is a popular alternative.
12862 @item nntp-via-rlogin-command-switches
12863 @vindex nntp-via-rlogin-command-switches
12864 List of strings to be used as the switches to
12865 @code{nntp-via-rlogin-command}. The default is @code{nil}. If you use
12866 @samp{ssh} for @code{nntp-via-rlogin-command}, you may set this to
12867 @samp{("-C")} in order to compress all data connections, otherwise set
12868 this to @samp{("-t" "-e" "none")} or @samp{("-C" "-t" "-e" "none")} if
12869 the telnet command requires a pseudo-tty allocation on an intermediate
12873 @item nntp-open-via-telnet-and-telnet
12874 @findex nntp-open-via-telnet-and-telnet
12875 Does essentially the same, but uses @samp{telnet} instead of
12876 @samp{rlogin} to connect to the intermediate host.
12878 @code{nntp-open-via-telnet-and-telnet}-specific variables:
12881 @item nntp-via-telnet-command
12882 @vindex nntp-via-telnet-command
12883 Command used to @code{telnet} the intermediate host. The default is
12886 @item nntp-via-telnet-switches
12887 @vindex nntp-via-telnet-switches
12888 List of strings to be used as the switches to the
12889 @code{nntp-via-telnet-command} command. The default is @samp{("-8")}.
12891 @item nntp-via-user-password
12892 @vindex nntp-via-user-password
12893 Password to use when logging in on the intermediate host.
12895 @item nntp-via-envuser
12896 @vindex nntp-via-envuser
12897 If non-@code{nil}, the intermediate @code{telnet} session (client and
12898 server both) will support the @code{ENVIRON} option and not prompt for
12899 login name. This works for Solaris @code{telnet}, for instance.
12901 @item nntp-via-shell-prompt
12902 @vindex nntp-via-shell-prompt
12903 Regexp matching the shell prompt on the intermediate host. The default
12904 is @samp{bash\\|\$ *\r?$\\|> *\r?}.
12911 Here are some additional variables that are understood by all the above
12916 @item nntp-via-user-name
12917 @vindex nntp-via-user-name
12918 User name to use when connecting to the intermediate host.
12920 @item nntp-via-address
12921 @vindex nntp-via-address
12922 Address of the intermediate host to connect to.
12927 @node Common Variables
12928 @subsubsection Common Variables
12930 The following variables affect the behavior of all, or several of the
12931 pre-made connection functions. When not specified, all functions are
12932 affected (the values of the following variables will be used as the
12933 default if each virtual @code{nntp} server doesn't specify those server
12934 variables individually).
12938 @item nntp-pre-command
12939 @vindex nntp-pre-command
12940 A command wrapper to use when connecting through a non native
12941 connection function (all except @code{nntp-open-network-stream},
12942 @code{nntp-open-tls-stream}, and @code{nntp-open-ssl-stream}). This is
12943 where you would put a @samp{SOCKS} wrapper for instance.
12946 @vindex nntp-address
12947 The address of the @acronym{NNTP} server.
12949 @item nntp-port-number
12950 @vindex nntp-port-number
12951 Port number to connect to the @acronym{NNTP} server. The default is
12952 @samp{nntp}. If you use @acronym{NNTP} over
12953 @acronym{TLS}/@acronym{SSL}, you may want to use integer ports rather
12954 than named ports (i.e, use @samp{563} instead of @samp{snews} or
12955 @samp{nntps}), because external @acronym{TLS}/@acronym{SSL} tools may
12956 not work with named ports.
12958 @item nntp-end-of-line
12959 @vindex nntp-end-of-line
12960 String to use as end-of-line marker when talking to the @acronym{NNTP}
12961 server. This is @samp{\r\n} by default, but should be @samp{\n} when
12962 using a non native connection function.
12964 @item nntp-telnet-command
12965 @vindex nntp-telnet-command
12966 Command to use when connecting to the @acronym{NNTP} server through
12967 @samp{telnet}. This is @emph{not} for an intermediate host. This is
12968 just for the real @acronym{NNTP} server. The default is
12971 @item nntp-telnet-switches
12972 @vindex nntp-telnet-switches
12973 A list of switches to pass to @code{nntp-telnet-command}. The default
12980 @subsection News Spool
12984 Subscribing to a foreign group from the local spool is extremely easy,
12985 and might be useful, for instance, to speed up reading groups that
12986 contain very big articles---@samp{alt.binaries.pictures.furniture}, for
12989 Anyway, you just specify @code{nnspool} as the method and @code{""} (or
12990 anything else) as the address.
12992 If you have access to a local spool, you should probably use that as the
12993 native select method (@pxref{Finding the News}). It is normally faster
12994 than using an @code{nntp} select method, but might not be. It depends.
12995 You just have to try to find out what's best at your site.
12999 @item nnspool-inews-program
13000 @vindex nnspool-inews-program
13001 Program used to post an article.
13003 @item nnspool-inews-switches
13004 @vindex nnspool-inews-switches
13005 Parameters given to the inews program when posting an article.
13007 @item nnspool-spool-directory
13008 @vindex nnspool-spool-directory
13009 Where @code{nnspool} looks for the articles. This is normally
13010 @file{/usr/spool/news/}.
13012 @item nnspool-nov-directory
13013 @vindex nnspool-nov-directory
13014 Where @code{nnspool} will look for @acronym{NOV} files. This is normally@*
13015 @file{/usr/spool/news/over.view/}.
13017 @item nnspool-lib-dir
13018 @vindex nnspool-lib-dir
13019 Where the news lib dir is (@file{/usr/lib/news/} by default).
13021 @item nnspool-active-file
13022 @vindex nnspool-active-file
13023 The name of the active file.
13025 @item nnspool-newsgroups-file
13026 @vindex nnspool-newsgroups-file
13027 The name of the group descriptions file.
13029 @item nnspool-history-file
13030 @vindex nnspool-history-file
13031 The name of the news history file.
13033 @item nnspool-active-times-file
13034 @vindex nnspool-active-times-file
13035 The name of the active date file.
13037 @item nnspool-nov-is-evil
13038 @vindex nnspool-nov-is-evil
13039 If non-@code{nil}, @code{nnspool} won't try to use any @acronym{NOV} files
13042 @item nnspool-sift-nov-with-sed
13043 @vindex nnspool-sift-nov-with-sed
13045 If non-@code{nil}, which is the default, use @code{sed} to get the
13046 relevant portion from the overview file. If @code{nil},
13047 @code{nnspool} will load the entire file into a buffer and process it
13054 @section Getting Mail
13055 @cindex reading mail
13058 Reading mail with a newsreader---isn't that just plain WeIrD? But of
13062 * Mail in a Newsreader:: Important introductory notes.
13063 * Getting Started Reading Mail:: A simple cookbook example.
13064 * Splitting Mail:: How to create mail groups.
13065 * Mail Sources:: How to tell Gnus where to get mail from.
13066 * Mail Back End Variables:: Variables for customizing mail handling.
13067 * Fancy Mail Splitting:: Gnus can do hairy splitting of incoming mail.
13068 * Group Mail Splitting:: Use group customize to drive mail splitting.
13069 * Incorporating Old Mail:: What about the old mail you have?
13070 * Expiring Mail:: Getting rid of unwanted mail.
13071 * Washing Mail:: Removing cruft from the mail you get.
13072 * Duplicates:: Dealing with duplicated mail.
13073 * Not Reading Mail:: Using mail back ends for reading other files.
13074 * Choosing a Mail Back End:: Gnus can read a variety of mail formats.
13078 @node Mail in a Newsreader
13079 @subsection Mail in a Newsreader
13081 If you are used to traditional mail readers, but have decided to switch
13082 to reading mail with Gnus, you may find yourself experiencing something
13083 of a culture shock.
13085 Gnus does not behave like traditional mail readers. If you want to make
13086 it behave that way, you can, but it's an uphill battle.
13088 Gnus, by default, handles all its groups using the same approach. This
13089 approach is very newsreaderly---you enter a group, see the new/unread
13090 messages, and when you read the messages, they get marked as read, and
13091 you don't see them any more. (Unless you explicitly ask for them.)
13093 In particular, you do not do anything explicitly to delete messages.
13095 Does this mean that all the messages that have been marked as read are
13096 deleted? How awful!
13098 But, no, it means that old messages are @dfn{expired} according to some
13099 scheme or other. For news messages, the expire process is controlled by
13100 the news administrator; for mail, the expire process is controlled by
13101 you. The expire process for mail is covered in depth in @ref{Expiring
13104 What many Gnus users find, after using it a while for both news and
13105 mail, is that the transport mechanism has very little to do with how
13106 they want to treat a message.
13108 Many people subscribe to several mailing lists. These are transported
13109 via @acronym{SMTP}, and are therefore mail. But we might go for weeks without
13110 answering, or even reading these messages very carefully. We may not
13111 need to save them because if we should need to read one again, they are
13112 archived somewhere else.
13114 Some people have local news groups which have only a handful of readers.
13115 These are transported via @acronym{NNTP}, and are therefore news. But we may need
13116 to read and answer a large fraction of the messages very carefully in
13117 order to do our work. And there may not be an archive, so we may need
13118 to save the interesting messages the same way we would personal mail.
13120 The important distinction turns out to be not the transport mechanism,
13121 but other factors such as how interested we are in the subject matter,
13122 or how easy it is to retrieve the message if we need to read it again.
13124 Gnus provides many options for sorting mail into ``groups'' which behave
13125 like newsgroups, and for treating each group (whether mail or news)
13128 Some users never get comfortable using the Gnus (ahem) paradigm and wish
13129 that Gnus should grow up and be a male, er, mail reader. It is possible
13130 to whip Gnus into a more mailreaderly being, but, as said before, it's
13131 not easy. People who prefer proper mail readers should try @sc{vm}
13132 instead, which is an excellent, and proper, mail reader.
13134 I don't mean to scare anybody off, but I want to make it clear that you
13135 may be required to learn a new way of thinking about messages. After
13136 you've been subjected to The Gnus Way, you will come to love it. I can
13137 guarantee it. (At least the guy who sold me the Emacs Subliminal
13138 Brain-Washing Functions that I've put into Gnus did guarantee it. You
13139 Will Be Assimilated. You Love Gnus. You Love The Gnus Mail Way.
13143 @node Getting Started Reading Mail
13144 @subsection Getting Started Reading Mail
13146 It's quite easy to use Gnus to read your new mail. You just plonk the
13147 mail back end of your choice into @code{gnus-secondary-select-methods},
13148 and things will happen automatically.
13150 For instance, if you want to use @code{nnml} (which is a ``one file per
13151 mail'' back end), you could put the following in your @file{~/.gnus.el} file:
13154 (setq gnus-secondary-select-methods '((nnml "")))
13157 Now, the next time you start Gnus, this back end will be queried for new
13158 articles, and it will move all the messages in your spool file to its
13159 directory, which is @file{~/Mail/} by default. The new group that will
13160 be created (@samp{mail.misc}) will be subscribed, and you can read it
13161 like any other group.
13163 You will probably want to split the mail into several groups, though:
13166 (setq nnmail-split-methods
13167 '(("junk" "^From:.*Lars Ingebrigtsen")
13168 ("crazy" "^Subject:.*die\\|^Organization:.*flabby")
13172 This will result in three new @code{nnml} mail groups being created:
13173 @samp{nnml:junk}, @samp{nnml:crazy}, and @samp{nnml:other}. All the
13174 mail that doesn't fit into the first two groups will be placed in the
13177 This should be sufficient for reading mail with Gnus. You might want to
13178 give the other sections in this part of the manual a perusal, though.
13179 Especially @pxref{Choosing a Mail Back End} and @pxref{Expiring Mail}.
13182 @node Splitting Mail
13183 @subsection Splitting Mail
13184 @cindex splitting mail
13185 @cindex mail splitting
13186 @cindex mail filtering (splitting)
13188 @vindex nnmail-split-methods
13189 The @code{nnmail-split-methods} variable says how the incoming mail is
13190 to be split into groups.
13193 (setq nnmail-split-methods
13194 '(("mail.junk" "^From:.*Lars Ingebrigtsen")
13195 ("mail.crazy" "^Subject:.*die\\|^Organization:.*flabby")
13196 ("mail.other" "")))
13199 This variable is a list of lists, where the first element of each of
13200 these lists is the name of the mail group (they do not have to be called
13201 something beginning with @samp{mail}, by the way), and the second
13202 element is a regular expression used on the header of each mail to
13203 determine if it belongs in this mail group. The first string may
13204 contain @samp{\\1} forms, like the ones used by @code{replace-match} to
13205 insert sub-expressions from the matched text. For instance:
13208 ("list.\\1" "From:.* \\(.*\\)-list@@majordomo.com")
13212 In that case, @code{nnmail-split-lowercase-expanded} controls whether
13213 the inserted text should be made lowercase. @xref{Fancy Mail Splitting}.
13215 The second element can also be a function. In that case, it will be
13216 called narrowed to the headers with the first element of the rule as the
13217 argument. It should return a non-@code{nil} value if it thinks that the
13218 mail belongs in that group.
13220 @cindex @samp{bogus} group
13221 The last of these groups should always be a general one, and the regular
13222 expression should @emph{always} be @samp{""} so that it matches any mails
13223 that haven't been matched by any of the other regexps. (These rules are
13224 processed from the beginning of the alist toward the end. The first rule
13225 to make a match will ``win'', unless you have crossposting enabled. In
13226 that case, all matching rules will ``win''.) If no rule matched, the mail
13227 will end up in the @samp{bogus} group. When new groups are created by
13228 splitting mail, you may want to run @code{gnus-group-find-new-groups} to
13229 see the new groups. This also applies to the @samp{bogus} group.
13231 If you like to tinker with this yourself, you can set this variable to a
13232 function of your choice. This function will be called without any
13233 arguments in a buffer narrowed to the headers of an incoming mail
13234 message. The function should return a list of group names that it
13235 thinks should carry this mail message.
13237 Note that the mail back ends are free to maul the poor, innocent,
13238 incoming headers all they want to. They all add @code{Lines} headers;
13239 some add @code{X-Gnus-Group} headers; most rename the Unix mbox
13240 @code{From<SPACE>} line to something else.
13242 @vindex nnmail-crosspost
13243 The mail back ends all support cross-posting. If several regexps match,
13244 the mail will be ``cross-posted'' to all those groups.
13245 @code{nnmail-crosspost} says whether to use this mechanism or not. Note
13246 that no articles are crossposted to the general (@samp{""}) group.
13248 @vindex nnmail-crosspost-link-function
13251 @code{nnmh} and @code{nnml} makes crossposts by creating hard links to
13252 the crossposted articles. However, not all file systems support hard
13253 links. If that's the case for you, set
13254 @code{nnmail-crosspost-link-function} to @code{copy-file}. (This
13255 variable is @code{add-name-to-file} by default.)
13257 @kindex M-x nnmail-split-history
13258 @findex nnmail-split-history
13259 If you wish to see where the previous mail split put the messages, you
13260 can use the @kbd{M-x nnmail-split-history} command. If you wish to see
13261 where re-spooling messages would put the messages, you can use
13262 @code{gnus-summary-respool-trace} and related commands (@pxref{Mail
13265 @vindex nnmail-split-header-length-limit
13266 Header lines longer than the value of
13267 @code{nnmail-split-header-length-limit} are excluded from the split
13270 @vindex nnmail-mail-splitting-charset
13271 @vindex nnmail-mail-splitting-decodes
13272 By default the splitting codes @acronym{MIME} decodes headers so you
13273 can match on non-@acronym{ASCII} strings. The
13274 @code{nnmail-mail-splitting-charset} variable specifies the default
13275 charset for decoding. The behavior can be turned off completely by
13276 binding @code{nnmail-mail-splitting-decodes} to @code{nil}, which is
13277 useful if you want to match articles based on the raw header data.
13279 @vindex nnmail-resplit-incoming
13280 By default, splitting is performed on all incoming messages. If you
13281 specify a @code{directory} entry for the variable @code{mail-sources}
13282 (@pxref{Mail Source Specifiers}), however, then splitting does
13283 @emph{not} happen by default. You can set the variable
13284 @code{nnmail-resplit-incoming} to a non-@code{nil} value to make
13285 splitting happen even in this case. (This variable has no effect on
13286 other kinds of entries.)
13288 Gnus gives you all the opportunity you could possibly want for shooting
13289 yourself in the foot. Let's say you create a group that will contain
13290 all the mail you get from your boss. And then you accidentally
13291 unsubscribe from the group. Gnus will still put all the mail from your
13292 boss in the unsubscribed group, and so, when your boss mails you ``Have
13293 that report ready by Monday or you're fired!'', you'll never see it and,
13294 come Tuesday, you'll still believe that you're gainfully employed while
13295 you really should be out collecting empty bottles to save up for next
13296 month's rent money.
13300 @subsection Mail Sources
13302 Mail can be gotten from many different sources---the mail spool, from
13303 a @acronym{POP} mail server, from a procmail directory, or from a
13304 maildir, for instance.
13307 * Mail Source Specifiers:: How to specify what a mail source is.
13308 * Mail Source Customization:: Some variables that influence things.
13309 * Fetching Mail:: Using the mail source specifiers.
13313 @node Mail Source Specifiers
13314 @subsubsection Mail Source Specifiers
13316 @cindex mail server
13319 @cindex mail source
13321 You tell Gnus how to fetch mail by setting @code{mail-sources}
13322 (@pxref{Fetching Mail}) to a @dfn{mail source specifier}.
13327 (pop :server "pop3.mailserver.com" :user "myname")
13330 As can be observed, a mail source specifier is a list where the first
13331 element is a @dfn{mail source type}, followed by an arbitrary number of
13332 @dfn{keywords}. Keywords that are not explicitly specified are given
13335 The following mail source types are available:
13339 Get mail from a single file; typically from the mail spool.
13345 The file name. Defaults to the value of the @env{MAIL}
13346 environment variable or the value of @code{rmail-spool-directory}
13347 (usually something like @file{/usr/mail/spool/user-name}).
13351 Script run before/after fetching mail.
13354 An example file mail source:
13357 (file :path "/usr/spool/mail/user-name")
13360 Or using the default file name:
13366 If the mail spool file is not located on the local machine, it's best
13367 to use @acronym{POP} or @acronym{IMAP} or the like to fetch the mail.
13368 You can not use ange-ftp file names here---it has no way to lock the
13369 mail spool while moving the mail.
13371 If it's impossible to set up a proper server, you can use ssh instead.
13375 '((file :prescript "ssh host bin/getmail >%t")))
13378 The @samp{getmail} script would look something like the following:
13382 # getmail - move mail from spool to stdout
13385 MOVEMAIL=/usr/lib/emacs/20.3/i386-redhat-linux/movemail
13387 rm -f $TMP; $MOVEMAIL $MAIL $TMP >/dev/null && cat $TMP
13390 Alter this script to fit find the @samp{movemail} you want to use.
13394 @vindex nnmail-scan-directory-mail-source-once
13395 Get mail from several files in a directory. This is typically used
13396 when you have procmail split the incoming mail into several files.
13397 That is, there is a one-to-one correspondence between files in that
13398 directory and groups, so that mail from the file @file{foo.bar.spool}
13399 will be put in the group @code{foo.bar}. (You can change the suffix
13400 to be used instead of @code{.spool}.) Setting
13401 @code{nnmail-scan-directory-mail-source-once} to non-@code{nil} forces
13402 Gnus to scan the mail source only once. This is particularly useful
13403 if you want to scan mail groups at a specified level.
13405 @vindex nnmail-resplit-incoming
13406 There is also the variable @code{nnmail-resplit-incoming}, if you set
13407 that to a non-@code{nil} value, then the normal splitting process is
13408 applied to all the files from the directory, @ref{Splitting Mail}.
13414 The name of the directory where the files are. There is no default
13418 Only files ending with this suffix are used. The default is
13422 Only files that have this predicate return non-@code{nil} are returned.
13423 The default is @code{identity}. This is used as an additional
13424 filter---only files that have the right suffix @emph{and} satisfy this
13425 predicate are considered.
13429 Script run before/after fetching mail.
13433 An example directory mail source:
13436 (directory :path "/home/user-name/procmail-dir/"
13441 Get mail from a @acronym{POP} server.
13447 The name of the @acronym{POP} server. The default is taken from the
13448 @env{MAILHOST} environment variable.
13451 The port number of the @acronym{POP} server. This can be a number (eg,
13452 @samp{:port 1234}) or a string (eg, @samp{:port "pop3"}). If it is a
13453 string, it should be a service name as listed in @file{/etc/services} on
13454 Unix systems. The default is @samp{"pop3"}. On some systems you might
13455 need to specify it as @samp{"pop-3"} instead.
13458 The user name to give to the @acronym{POP} server. The default is the login
13462 The password to give to the @acronym{POP} server. If not specified,
13463 the user is prompted.
13466 The program to use to fetch mail from the @acronym{POP} server. This
13467 should be a @code{format}-like string. Here's an example:
13470 fetchmail %u@@%s -P %p %t
13473 The valid format specifier characters are:
13477 The name of the file the mail is to be moved to. This must always be
13478 included in this string.
13481 The name of the server.
13484 The port number of the server.
13487 The user name to use.
13490 The password to use.
13493 The values used for these specs are taken from the values you give the
13494 corresponding keywords.
13497 A script to be run before fetching the mail. The syntax is the same as
13498 the @code{:program} keyword. This can also be a function to be run.
13501 A script to be run after fetching the mail. The syntax is the same as
13502 the @code{:program} keyword. This can also be a function to be run.
13505 The function to use to fetch mail from the @acronym{POP} server. The
13506 function is called with one parameter---the name of the file where the
13507 mail should be moved to.
13509 @item :authentication
13510 This can be either the symbol @code{password} or the symbol @code{apop}
13511 and says what authentication scheme to use. The default is
13516 @vindex pop3-movemail
13517 @vindex pop3-leave-mail-on-server
13518 If the @code{:program} and @code{:function} keywords aren't specified,
13519 @code{pop3-movemail} will be used. If the
13520 @code{pop3-leave-mail-on-server} is non-@code{nil} the mail is to be
13521 left on the @acronym{POP} server after fetching when using
13522 @code{pop3-movemail}. Note that POP servers maintain no state
13523 information between sessions, so what the client believes is there and
13524 what is actually there may not match up. If they do not, then the whole
13525 thing can fall apart and leave you with a corrupt mailbox.
13527 Here are some examples. Fetch from the default @acronym{POP} server,
13528 using the default user name, and default fetcher:
13534 Fetch from a named server with a named user and password:
13537 (pop :server "my.pop.server"
13538 :user "user-name" :password "secret")
13541 Use @samp{movemail} to move the mail:
13544 (pop :program "movemail po:%u %t %p")
13548 Get mail from a maildir. This is a type of mailbox that is supported by
13549 at least qmail and postfix, where each file in a special directory
13550 contains exactly one mail.
13556 The name of the directory where the mails are stored. The default is
13557 taken from the @env{MAILDIR} environment variable or
13560 The subdirectories of the Maildir. The default is
13561 @samp{("new" "cur")}.
13563 @c If you sometimes look at your mail through a pop3 daemon before fetching
13564 @c them with Gnus, you may also have to fetch your mails from the
13565 @c @code{cur} directory inside the maildir, like in the first example
13568 You can also get mails from remote hosts (because maildirs don't suffer
13569 from locking problems).
13573 Two example maildir mail sources:
13576 (maildir :path "/home/user-name/Maildir/"
13577 :subdirs ("cur" "new"))
13581 (maildir :path "/user@@remotehost.org:~/Maildir/"
13586 Get mail from a @acronym{IMAP} server. If you don't want to use
13587 @acronym{IMAP} as intended, as a network mail reading protocol (ie
13588 with nnimap), for some reason or other, Gnus let you treat it similar
13589 to a @acronym{POP} server and fetches articles from a given
13590 @acronym{IMAP} mailbox. @xref{IMAP}, for more information.
13592 Note that for the Kerberos, GSSAPI, @acronym{TLS}/@acronym{SSL} and STARTTLS support you
13593 may need external programs and libraries, @xref{IMAP}.
13599 The name of the @acronym{IMAP} server. The default is taken from the
13600 @env{MAILHOST} environment variable.
13603 The port number of the @acronym{IMAP} server. The default is @samp{143}, or
13604 @samp{993} for @acronym{TLS}/@acronym{SSL} connections.
13607 The user name to give to the @acronym{IMAP} server. The default is the login
13611 The password to give to the @acronym{IMAP} server. If not specified, the user is
13615 What stream to use for connecting to the server, this is one of the
13616 symbols in @code{imap-stream-alist}. Right now, this means
13617 @samp{gssapi}, @samp{kerberos4}, @samp{starttls}, @samp{tls},
13618 @samp{ssl}, @samp{shell} or the default @samp{network}.
13620 @item :authentication
13621 Which authenticator to use for authenticating to the server, this is
13622 one of the symbols in @code{imap-authenticator-alist}. Right now,
13623 this means @samp{gssapi}, @samp{kerberos4}, @samp{digest-md5},
13624 @samp{cram-md5}, @samp{anonymous} or the default @samp{login}.
13627 When using the `shell' :stream, the contents of this variable is
13628 mapped into the @code{imap-shell-program} variable. This should be a
13629 @code{format}-like string (or list of strings). Here's an example:
13635 The valid format specifier characters are:
13639 The name of the server.
13642 User name from @code{imap-default-user}.
13645 The port number of the server.
13648 The values used for these specs are taken from the values you give the
13649 corresponding keywords.
13652 The name of the mailbox to get mail from. The default is @samp{INBOX}
13653 which normally is the mailbox which receive incoming mail.
13656 The predicate used to find articles to fetch. The default, @samp{UNSEEN
13657 UNDELETED}, is probably the best choice for most people, but if you
13658 sometimes peek in your mailbox with a @acronym{IMAP} client and mark some
13659 articles as read (or; SEEN) you might want to set this to @samp{1:*}.
13660 Then all articles in the mailbox is fetched, no matter what. For a
13661 complete list of predicates, see RFC 2060 section 6.4.4.
13664 How to flag fetched articles on the server, the default @samp{\Deleted}
13665 will mark them as deleted, an alternative would be @samp{\Seen} which
13666 would simply mark them as read. These are the two most likely choices,
13667 but more flags are defined in RFC 2060 section 2.3.2.
13670 If non-@code{nil}, don't remove all articles marked as deleted in the
13671 mailbox after finishing the fetch.
13675 An example @acronym{IMAP} mail source:
13678 (imap :server "mail.mycorp.com"
13680 :fetchflag "\\Seen")
13684 Get mail from a webmail server, such as @uref{http://www.hotmail.com/},
13685 @uref{http://webmail.netscape.com/}, @uref{http://www.netaddress.com/},
13686 @uref{http://mail.yahoo.com/}.
13688 NOTE: Webmail largely depends on cookies. A "one-line-cookie" patch is
13689 required for url "4.0pre.46".
13691 WARNING: Mails may be lost. NO WARRANTY.
13697 The type of the webmail server. The default is @code{hotmail}. The
13698 alternatives are @code{netscape}, @code{netaddress}, @code{my-deja}.
13701 The user name to give to the webmail server. The default is the login
13705 The password to give to the webmail server. If not specified, the user is
13709 If non-@code{nil}, only fetch unread articles and don't move them to
13710 trash folder after finishing the fetch.
13714 An example webmail source:
13717 (webmail :subtype 'hotmail
13719 :password "secret")
13724 @item Common Keywords
13725 Common keywords can be used in any type of mail source.
13731 If non-@code{nil}, fetch the mail even when Gnus is unplugged. If you
13732 use directory source to get mail, you can specify it as in this
13737 '((directory :path "/home/pavel/.Spool/"
13742 Gnus will then fetch your mail even when you are unplugged. This is
13743 useful when you use local mail and news.
13748 @subsubsection Function Interface
13750 Some of the above keywords specify a Lisp function to be executed.
13751 For each keyword @code{:foo}, the Lisp variable @code{foo} is bound to
13752 the value of the keyword while the function is executing. For example,
13753 consider the following mail-source setting:
13756 (setq mail-sources '((pop :user "jrl"
13757 :server "pophost" :function fetchfunc)))
13760 While the function @code{fetchfunc} is executing, the symbol @code{user}
13761 is bound to @code{"jrl"}, and the symbol @code{server} is bound to
13762 @code{"pophost"}. The symbols @code{port}, @code{password},
13763 @code{program}, @code{prescript}, @code{postscript}, @code{function},
13764 and @code{authentication} are also bound (to their default values).
13766 See above for a list of keywords for each type of mail source.
13769 @node Mail Source Customization
13770 @subsubsection Mail Source Customization
13772 The following is a list of variables that influence how the mail is
13773 fetched. You would normally not need to set or change any of these
13777 @item mail-source-crash-box
13778 @vindex mail-source-crash-box
13779 File where mail will be stored while processing it. The default is@*
13780 @file{~/.emacs-mail-crash-box}.
13782 @item mail-source-delete-incoming
13783 @vindex mail-source-delete-incoming
13784 If non-@code{nil}, delete incoming files after handling them. If
13785 @code{t}, delete the files immediately, if @code{nil}, never delete any
13786 files. If a positive number, delete files older than number of days
13787 (This will only happen, when receiving new mail). You may also set
13788 @code{mail-source-delete-incoming} to @code{nil} and call
13789 @code{mail-source-delete-old-incoming} from a hook or interactively.
13791 @item mail-source-delete-old-incoming-confirm
13792 @vindex mail-source-delete-old-incoming-confirm
13793 If non-@code{nil}, ask for for confirmation before deleting old incoming
13794 files. This variable only applies when
13795 @code{mail-source-delete-incoming} is a positive number.
13797 @item mail-source-ignore-errors
13798 @vindex mail-source-ignore-errors
13799 If non-@code{nil}, ignore errors when reading mail from a mail source.
13801 @item mail-source-directory
13802 @vindex mail-source-directory
13803 Directory where incoming mail source files (if any) will be stored. The
13804 default is @file{~/Mail/}. At present, the only thing this is used for
13805 is to say where the incoming files will be stored if the variable
13806 @code{mail-source-delete-incoming} is @code{nil} or a number.
13808 @item mail-source-incoming-file-prefix
13809 @vindex mail-source-incoming-file-prefix
13810 Prefix for file name for storing incoming mail. The default is
13811 @file{Incoming}, in which case files will end up with names like
13812 @file{Incoming30630D_} or @file{Incoming298602ZD}. This is really only
13813 relevant if @code{mail-source-delete-incoming} is @code{nil} or a
13816 @item mail-source-default-file-modes
13817 @vindex mail-source-default-file-modes
13818 All new mail files will get this file mode. The default is 384.
13820 @item mail-source-movemail-program
13821 @vindex mail-source-movemail-program
13822 If non-@code{nil}, name of program for fetching new mail. If
13823 @code{nil}, @code{movemail} in @var{exec-directory}.
13828 @node Fetching Mail
13829 @subsubsection Fetching Mail
13831 @vindex mail-sources
13832 @vindex nnmail-spool-file
13833 The way to actually tell Gnus where to get new mail from is to set
13834 @code{mail-sources} to a list of mail source specifiers
13835 (@pxref{Mail Source Specifiers}).
13837 If this variable (and the obsolescent @code{nnmail-spool-file}) is
13838 @code{nil}, the mail back ends will never attempt to fetch mail by
13841 If you want to fetch mail both from your local spool as well as a
13842 @acronym{POP} mail server, you'd say something like:
13847 (pop :server "pop3.mail.server"
13848 :password "secret")))
13851 Or, if you don't want to use any of the keyword defaults:
13855 '((file :path "/var/spool/mail/user-name")
13856 (pop :server "pop3.mail.server"
13859 :password "secret")))
13863 When you use a mail back end, Gnus will slurp all your mail from your
13864 inbox and plonk it down in your home directory. Gnus doesn't move any
13865 mail if you're not using a mail back end---you have to do a lot of magic
13866 invocations first. At the time when you have finished drawing the
13867 pentagram, lightened the candles, and sacrificed the goat, you really
13868 shouldn't be too surprised when Gnus moves your mail.
13872 @node Mail Back End Variables
13873 @subsection Mail Back End Variables
13875 These variables are (for the most part) pertinent to all the various
13879 @vindex nnmail-read-incoming-hook
13880 @item nnmail-read-incoming-hook
13881 The mail back ends all call this hook after reading new mail. You can
13882 use this hook to notify any mail watch programs, if you want to.
13884 @vindex nnmail-split-hook
13885 @item nnmail-split-hook
13886 @findex gnus-article-decode-encoded-words
13887 @cindex RFC 1522 decoding
13888 @cindex RFC 2047 decoding
13889 Hook run in the buffer where the mail headers of each message is kept
13890 just before the splitting based on these headers is done. The hook is
13891 free to modify the buffer contents in any way it sees fit---the buffer
13892 is discarded after the splitting has been done, and no changes performed
13893 in the buffer will show up in any files.
13894 @code{gnus-article-decode-encoded-words} is one likely function to add
13897 @vindex nnmail-pre-get-new-mail-hook
13898 @vindex nnmail-post-get-new-mail-hook
13899 @item nnmail-pre-get-new-mail-hook
13900 @itemx nnmail-post-get-new-mail-hook
13901 These are two useful hooks executed when treating new incoming
13902 mail---@code{nnmail-pre-get-new-mail-hook} (is called just before
13903 starting to handle the new mail) and
13904 @code{nnmail-post-get-new-mail-hook} (is called when the mail handling
13905 is done). Here's and example of using these two hooks to change the
13906 default file modes the new mail files get:
13909 (add-hook 'nnmail-pre-get-new-mail-hook
13910 (lambda () (set-default-file-modes 511)))
13912 (add-hook 'nnmail-post-get-new-mail-hook
13913 (lambda () (set-default-file-modes 551)))
13916 @item nnmail-use-long-file-names
13917 @vindex nnmail-use-long-file-names
13918 If non-@code{nil}, the mail back ends will use long file and directory
13919 names. Groups like @samp{mail.misc} will end up in directories
13920 (assuming use of @code{nnml} back end) or files (assuming use of
13921 @code{nnfolder} back end) like @file{mail.misc}. If it is @code{nil},
13922 the same group will end up in @file{mail/misc}.
13924 @item nnmail-delete-file-function
13925 @vindex nnmail-delete-file-function
13926 @findex delete-file
13927 Function called to delete files. It is @code{delete-file} by default.
13929 @item nnmail-cache-accepted-message-ids
13930 @vindex nnmail-cache-accepted-message-ids
13931 If non-@code{nil}, put the @code{Message-ID}s of articles imported into
13932 the back end (via @code{Gcc}, for instance) into the mail duplication
13933 discovery cache. The default is @code{nil}.
13935 @item nnmail-cache-ignore-groups
13936 @vindex nnmail-cache-ignore-groups
13937 This can be a regular expression or a list of regular expressions.
13938 Group names that match any of the regular expressions will never be
13939 recorded in the @code{Message-ID} cache.
13941 This can be useful, for example, when using Fancy Splitting
13942 (@pxref{Fancy Mail Splitting}) together with the function
13943 @code{nnmail-split-fancy-with-parent}.
13948 @node Fancy Mail Splitting
13949 @subsection Fancy Mail Splitting
13950 @cindex mail splitting
13951 @cindex fancy mail splitting
13953 @vindex nnmail-split-fancy
13954 @findex nnmail-split-fancy
13955 If the rather simple, standard method for specifying how to split mail
13956 doesn't allow you to do what you want, you can set
13957 @code{nnmail-split-methods} to @code{nnmail-split-fancy}. Then you can
13958 play with the @code{nnmail-split-fancy} variable.
13960 Let's look at an example value of this variable first:
13963 ;; @r{Messages from the mailer daemon are not crossposted to any of}
13964 ;; @r{the ordinary groups. Warnings are put in a separate group}
13965 ;; @r{from real errors.}
13966 (| ("from" mail (| ("subject" "warn.*" "mail.warning")
13968 ;; @r{Non-error messages are crossposted to all relevant}
13969 ;; @r{groups, but we don't crosspost between the group for the}
13970 ;; @r{(ding) list and the group for other (ding) related mail.}
13971 (& (| (any "ding@@ifi\\.uio\\.no" "ding.list")
13972 ("subject" "ding" "ding.misc"))
13973 ;; @r{Other mailing lists@dots{}}
13974 (any "procmail@@informatik\\.rwth-aachen\\.de" "procmail.list")
13975 (any "SmartList@@informatik\\.rwth-aachen\\.de" "SmartList.list")
13976 ;; @r{Both lists below have the same suffix, so prevent}
13977 ;; @r{cross-posting to mkpkg.list of messages posted only to}
13978 ;; @r{the bugs- list, but allow cross-posting when the}
13979 ;; @r{message was really cross-posted.}
13980 (any "bugs-mypackage@@somewhere" "mypkg.bugs")
13981 (any "mypackage@@somewhere" - "bugs-mypackage" "mypkg.list")
13982 ;; @r{People@dots{}}
13983 (any "larsi@@ifi\\.uio\\.no" "people.Lars_Magne_Ingebrigtsen"))
13984 ;; @r{Unmatched mail goes to the catch all group.}
13988 This variable has the format of a @dfn{split}. A split is a
13989 (possibly) recursive structure where each split may contain other
13990 splits. Here are the possible split syntaxes:
13995 If the split is a string, that will be taken as a group name. Normal
13996 regexp match expansion will be done. See below for examples.
13998 @item (@var{field} @var{value} [- @var{restrict} [@dots{}] ] @var{split})
13999 If the split is a list, the first element of which is a string, then
14000 store the message as specified by @var{split}, if header @var{field}
14001 (a regexp) contains @var{value} (also a regexp). If @var{restrict}
14002 (yet another regexp) matches some string after @var{field} and before
14003 the end of the matched @var{value}, the @var{split} is ignored. If
14004 none of the @var{restrict} clauses match, @var{split} is processed.
14006 @item (| @var{split} @dots{})
14007 If the split is a list, and the first element is @code{|} (vertical
14008 bar), then process each @var{split} until one of them matches. A
14009 @var{split} is said to match if it will cause the mail message to be
14010 stored in one or more groups.
14012 @item (& @var{split} @dots{})
14013 If the split is a list, and the first element is @code{&}, then
14014 process all @var{split}s in the list.
14017 If the split is the symbol @code{junk}, then don't save (i.e., delete)
14018 this message. Use with extreme caution.
14020 @item (: @var{function} @var{arg1} @var{arg2} @dots{})
14021 If the split is a list, and the first element is @samp{:}, then the
14022 second element will be called as a function with @var{args} given as
14023 arguments. The function should return a @var{split}.
14026 For instance, the following function could be used to split based on the
14027 body of the messages:
14030 (defun split-on-body ()
14034 (goto-char (point-min))
14035 (when (re-search-forward "Some.*string" nil t)
14039 The buffer is narrowed to the message in question when @var{function}
14040 is run. That's why @code{(widen)} needs to be called after
14041 @code{save-excursion} and @code{save-restriction} in the example
14042 above. Also note that with the nnimap backend, message bodies will
14043 not be downloaded by default. You need to set
14044 @code{nnimap-split-download-body} to @code{t} to do that
14045 (@pxref{Splitting in IMAP}).
14047 @item (! @var{func} @var{split})
14048 If the split is a list, and the first element is @code{!}, then
14049 @var{split} will be processed, and @var{func} will be called as a
14050 function with the result of @var{split} as argument. @var{func}
14051 should return a split.
14054 If the split is @code{nil}, it is ignored.
14058 In these splits, @var{field} must match a complete field name.
14059 @var{value} must match a complete word according to the fundamental mode
14060 syntax table. You can use @code{.*} in the regexps to match partial
14061 field names or words. In other words, all @var{value}'s are wrapped in
14062 @samp{\<} and @samp{\>} pairs.
14064 @vindex nnmail-split-abbrev-alist
14065 @var{field} and @var{value} can also be Lisp symbols, in that case
14066 they are expanded as specified by the variable
14067 @code{nnmail-split-abbrev-alist}. This is an alist of cons cells,
14068 where the @sc{car} of a cell contains the key, and the @sc{cdr}
14069 contains the associated value. Predefined entries in
14070 @code{nnmail-split-abbrev-alist} include:
14074 Matches the @samp{From}, @samp{Sender} and @samp{Resent-From} fields.
14076 Matches the @samp{To}, @samp{Cc}, @samp{Apparently-To},
14077 @samp{Resent-To} and @samp{Resent-Cc} fields.
14079 Is the union of the @code{from} and @code{to} entries.
14082 @vindex nnmail-split-fancy-syntax-table
14083 @code{nnmail-split-fancy-syntax-table} is the syntax table in effect
14084 when all this splitting is performed.
14086 If you want to have Gnus create groups dynamically based on some
14087 information in the headers (i.e., do @code{replace-match}-like
14088 substitutions in the group names), you can say things like:
14091 (any "debian-\\b\\(\\w+\\)@@lists.debian.org" "mail.debian.\\1")
14094 In this example, messages sent to @samp{debian-foo@@lists.debian.org}
14095 will be filed in @samp{mail.debian.foo}.
14097 If the string contains the element @samp{\&}, then the previously
14098 matched string will be substituted. Similarly, the elements @samp{\\1}
14099 up to @samp{\\9} will be substituted with the text matched by the
14100 groupings 1 through 9.
14102 @vindex nnmail-split-lowercase-expanded
14103 Where @code{nnmail-split-lowercase-expanded} controls whether the
14104 lowercase of the matched string should be used for the substitution.
14105 Setting it as non-@code{nil} is useful to avoid the creation of multiple
14106 groups when users send to an address using different case
14107 (i.e. mailing-list@@domain vs Mailing-List@@Domain). The default value
14110 @vindex nnmail-split-fancy-match-partial-words
14111 @code{nnmail-split-fancy-match-partial-words} controls whether partial
14112 words are matched during fancy splitting.
14114 Normally, regular expressions given in @code{nnmail-split-fancy} are
14115 implicitly surrounded by @code{\<...\>} markers, which are word
14116 delimiters. If this variable is true, they are not implicitly
14117 surrounded by anything.
14120 (any "joe" "joemail")
14123 In this example, messages sent from @samp{joedavis@@foo.org} will
14124 normally not be filed in @samp{joemail}. With
14125 @code{nnmail-split-fancy-match-partial-words} set to @code{t},
14126 however, the match will happen. In effect, the requirement of a word
14127 boundary is removed and instead the match becomes more like a grep.
14129 @findex nnmail-split-fancy-with-parent
14130 @code{nnmail-split-fancy-with-parent} is a function which allows you to
14131 split followups into the same groups their parents are in. Sometimes
14132 you can't make splitting rules for all your mail. For example, your
14133 boss might send you personal mail regarding different projects you are
14134 working on, and as you can't tell your boss to put a distinguishing
14135 string into the subject line, you have to resort to manually moving the
14136 messages into the right group. With this function, you only have to do
14137 it once per thread.
14139 To use this feature, you have to set @code{nnmail-treat-duplicates}
14140 and @code{nnmail-cache-accepted-message-ids} to a non-@code{nil}
14141 value. And then you can include @code{nnmail-split-fancy-with-parent}
14142 using the colon feature, like so:
14144 (setq nnmail-treat-duplicates 'warn ; @r{or @code{delete}}
14145 nnmail-cache-accepted-message-ids t
14147 '(| (: nnmail-split-fancy-with-parent)
14148 ;; @r{other splits go here}
14152 This feature works as follows: when @code{nnmail-treat-duplicates} is
14153 non-@code{nil}, Gnus records the message id of every message it sees
14154 in the file specified by the variable
14155 @code{nnmail-message-id-cache-file}, together with the group it is in
14156 (the group is omitted for non-mail messages). When mail splitting is
14157 invoked, the function @code{nnmail-split-fancy-with-parent} then looks
14158 at the References (and In-Reply-To) header of each message to split
14159 and searches the file specified by @code{nnmail-message-id-cache-file}
14160 for the message ids. When it has found a parent, it returns the
14161 corresponding group name unless the group name matches the regexp
14162 @code{nnmail-split-fancy-with-parent-ignore-groups}. It is
14163 recommended that you set @code{nnmail-message-id-cache-length} to a
14164 somewhat higher number than the default so that the message ids are
14165 still in the cache. (A value of 5000 appears to create a file some
14166 300 kBytes in size.)
14167 @vindex nnmail-cache-accepted-message-ids
14168 When @code{nnmail-cache-accepted-message-ids} is non-@code{nil}, Gnus
14169 also records the message ids of moved articles, so that the followup
14170 messages goes into the new group.
14172 Also see the variable @code{nnmail-cache-ignore-groups} if you don't
14173 want certain groups to be recorded in the cache. For example, if all
14174 outgoing messages are written to an ``outgoing'' group, you could set
14175 @code{nnmail-cache-ignore-groups} to match that group name.
14176 Otherwise, answers to all your messages would end up in the
14177 ``outgoing'' group.
14180 @node Group Mail Splitting
14181 @subsection Group Mail Splitting
14182 @cindex mail splitting
14183 @cindex group mail splitting
14185 @findex gnus-group-split
14186 If you subscribe to dozens of mailing lists but you don't want to
14187 maintain mail splitting rules manually, group mail splitting is for you.
14188 You just have to set @code{to-list} and/or @code{to-address} in group
14189 parameters or group customization and set @code{nnmail-split-methods} to
14190 @code{gnus-group-split}. This splitting function will scan all groups
14191 for those parameters and split mail accordingly, i.e., messages posted
14192 from or to the addresses specified in the parameters @code{to-list} or
14193 @code{to-address} of a mail group will be stored in that group.
14195 Sometimes, mailing lists have multiple addresses, and you may want mail
14196 splitting to recognize them all: just set the @code{extra-aliases} group
14197 parameter to the list of additional addresses and it's done. If you'd
14198 rather use a regular expression, set @code{split-regexp}.
14200 All these parameters in a group will be used to create an
14201 @code{nnmail-split-fancy} split, in which the @var{field} is @samp{any},
14202 the @var{value} is a single regular expression that matches
14203 @code{to-list}, @code{to-address}, all of @code{extra-aliases} and all
14204 matches of @code{split-regexp}, and the @var{split} is the name of the
14205 group. @var{restrict}s are also supported: just set the
14206 @code{split-exclude} parameter to a list of regular expressions.
14208 If you can't get the right split to be generated using all these
14209 parameters, or you just need something fancier, you can set the
14210 parameter @code{split-spec} to an @code{nnmail-split-fancy} split. In
14211 this case, all other aforementioned parameters will be ignored by
14212 @code{gnus-group-split}. In particular, @code{split-spec} may be set to
14213 @code{nil}, in which case the group will be ignored by
14214 @code{gnus-group-split}.
14216 @vindex gnus-group-split-default-catch-all-group
14217 @code{gnus-group-split} will do cross-posting on all groups that match,
14218 by defining a single @code{&} fancy split containing one split for each
14219 group. If a message doesn't match any split, it will be stored in the
14220 group named in @code{gnus-group-split-default-catch-all-group}, unless
14221 some group has @code{split-spec} set to @code{catch-all}, in which case
14222 that group is used as the catch-all group. Even though this variable is
14223 often used just to name a group, it may also be set to an arbitrarily
14224 complex fancy split (after all, a group name is a fancy split), and this
14225 may be useful to split mail that doesn't go to any mailing list to
14226 personal mail folders. Note that this fancy split is added as the last
14227 element of a @code{|} split list that also contains a @code{&} split
14228 with the rules extracted from group parameters.
14230 It's time for an example. Assume the following group parameters have
14235 ((to-address . "bar@@femail.com")
14236 (split-regexp . ".*@@femail\\.com"))
14238 ((to-list . "foo@@nowhere.gov")
14239 (extra-aliases "foo@@localhost" "foo-redist@@home")
14240 (split-exclude "bugs-foo" "rambling-foo")
14241 (admin-address . "foo-request@@nowhere.gov"))
14243 ((split-spec . catch-all))
14246 Setting @code{nnmail-split-methods} to @code{gnus-group-split} will
14247 behave as if @code{nnmail-split-fancy} had been selected and variable
14248 @code{nnmail-split-fancy} had been set as follows:
14251 (| (& (any "\\(bar@@femail\\.com\\|.*@@femail\\.com\\)" "mail.bar")
14252 (any "\\(foo@@nowhere\\.gov\\|foo@@localhost\\|foo-redist@@home\\)"
14253 - "bugs-foo" - "rambling-foo" "mail.foo"))
14257 @findex gnus-group-split-fancy
14258 If you'd rather not use group splitting for all your mail groups, you
14259 may use it for only some of them, by using @code{nnmail-split-fancy}
14263 (: gnus-group-split-fancy @var{groups} @var{no-crosspost} @var{catch-all})
14266 @var{groups} may be a regular expression or a list of group names whose
14267 parameters will be scanned to generate the output split.
14268 @var{no-crosspost} can be used to disable cross-posting; in this case, a
14269 single @code{|} split will be output. @var{catch-all} is the fall back
14270 fancy split, used like @code{gnus-group-split-default-catch-all-group}.
14271 If @var{catch-all} is @code{nil}, or if @code{split-regexp} matches the
14272 empty string in any selected group, no catch-all split will be issued.
14273 Otherwise, if some group has @code{split-spec} set to @code{catch-all},
14274 this group will override the value of the @var{catch-all} argument.
14276 @findex gnus-group-split-setup
14277 Unfortunately, scanning all groups and their parameters can be quite
14278 slow, especially considering that it has to be done for every message.
14279 But don't despair! The function @code{gnus-group-split-setup} can be
14280 used to enable @code{gnus-group-split} in a much more efficient way. It
14281 sets @code{nnmail-split-methods} to @code{nnmail-split-fancy} and sets
14282 @code{nnmail-split-fancy} to the split produced by
14283 @code{gnus-group-split-fancy}. Thus, the group parameters are only
14284 scanned once, no matter how many messages are split.
14286 @findex gnus-group-split-update
14287 However, if you change group parameters, you'd have to update
14288 @code{nnmail-split-fancy} manually. You can do it by running
14289 @code{gnus-group-split-update}. If you'd rather have it updated
14290 automatically, just tell @code{gnus-group-split-setup} to do it for
14291 you. For example, add to your @file{~/.gnus.el}:
14294 (gnus-group-split-setup @var{auto-update} @var{catch-all})
14297 If @var{auto-update} is non-@code{nil}, @code{gnus-group-split-update}
14298 will be added to @code{nnmail-pre-get-new-mail-hook}, so you won't ever
14299 have to worry about updating @code{nnmail-split-fancy} again. If you
14300 don't omit @var{catch-all} (it's optional, equivalent to @code{nil}),
14301 @code{gnus-group-split-default-catch-all-group} will be set to its
14304 @vindex gnus-group-split-updated-hook
14305 Because you may want to change @code{nnmail-split-fancy} after it is set
14306 by @code{gnus-group-split-update}, this function will run
14307 @code{gnus-group-split-updated-hook} just before finishing.
14309 @node Incorporating Old Mail
14310 @subsection Incorporating Old Mail
14311 @cindex incorporating old mail
14312 @cindex import old mail
14314 Most people have lots of old mail stored in various file formats. If
14315 you have set up Gnus to read mail using one of the spiffy Gnus mail
14316 back ends, you'll probably wish to have that old mail incorporated into
14319 Doing so can be quite easy.
14321 To take an example: You're reading mail using @code{nnml}
14322 (@pxref{Mail Spool}), and have set @code{nnmail-split-methods} to a
14323 satisfactory value (@pxref{Splitting Mail}). You have an old Unix mbox
14324 file filled with important, but old, mail. You want to move it into
14325 your @code{nnml} groups.
14331 Go to the group buffer.
14334 Type @kbd{G f} and give the file name to the mbox file when prompted to create an
14335 @code{nndoc} group from the mbox file (@pxref{Foreign Groups}).
14338 Type @kbd{SPACE} to enter the newly created group.
14341 Type @kbd{M P b} to process-mark all articles in this group's buffer
14342 (@pxref{Setting Process Marks}).
14345 Type @kbd{B r} to respool all the process-marked articles, and answer
14346 @samp{nnml} when prompted (@pxref{Mail Group Commands}).
14349 All the mail messages in the mbox file will now also be spread out over
14350 all your @code{nnml} groups. Try entering them and check whether things
14351 have gone without a glitch. If things look ok, you may consider
14352 deleting the mbox file, but I wouldn't do that unless I was absolutely
14353 sure that all the mail has ended up where it should be.
14355 Respooling is also a handy thing to do if you're switching from one mail
14356 back end to another. Just respool all the mail in the old mail groups
14357 using the new mail back end.
14360 @node Expiring Mail
14361 @subsection Expiring Mail
14362 @cindex article expiry
14364 Traditional mail readers have a tendency to remove mail articles when
14365 you mark them as read, in some way. Gnus takes a fundamentally
14366 different approach to mail reading.
14368 Gnus basically considers mail just to be news that has been received in
14369 a rather peculiar manner. It does not think that it has the power to
14370 actually change the mail, or delete any mail messages. If you enter a
14371 mail group, and mark articles as ``read'', or kill them in some other
14372 fashion, the mail articles will still exist on the system. I repeat:
14373 Gnus will not delete your old, read mail. Unless you ask it to, of
14376 To make Gnus get rid of your unwanted mail, you have to mark the
14377 articles as @dfn{expirable}. (With the default key bindings, this means
14378 that you have to type @kbd{E}.) This does not mean that the articles
14379 will disappear right away, however. In general, a mail article will be
14380 deleted from your system if, 1) it is marked as expirable, AND 2) it is
14381 more than one week old. If you do not mark an article as expirable, it
14382 will remain on your system until hell freezes over. This bears
14383 repeating one more time, with some spurious capitalizations: IF you do
14384 NOT mark articles as EXPIRABLE, Gnus will NEVER delete those ARTICLES.
14386 You do not have to mark articles as expirable by hand. Gnus provides
14387 two features, called ``auto-expire'' and ``total-expire'', that can help you
14388 with this. In a nutshell, ``auto-expire'' means that Gnus hits @kbd{E}
14389 for you when you select an article. And ``total-expire'' means that Gnus
14390 considers all articles as expirable that are read. So, in addition to
14391 the articles marked @samp{E}, also the articles marked @samp{r},
14392 @samp{R}, @samp{O}, @samp{K}, @samp{Y} and so on are considered
14395 When should either auto-expire or total-expire be used? Most people
14396 who are subscribed to mailing lists split each list into its own group
14397 and then turn on auto-expire or total-expire for those groups.
14398 (@xref{Splitting Mail}, for more information on splitting each list
14399 into its own group.)
14401 Which one is better, auto-expire or total-expire? It's not easy to
14402 answer. Generally speaking, auto-expire is probably faster. Another
14403 advantage of auto-expire is that you get more marks to work with: for
14404 the articles that are supposed to stick around, you can still choose
14405 between tick and dormant and read marks. But with total-expire, you
14406 only have dormant and ticked to choose from. The advantage of
14407 total-expire is that it works well with adaptive scoring (@pxref{Adaptive
14408 Scoring}). Auto-expire works with normal scoring but not with adaptive
14411 @vindex gnus-auto-expirable-newsgroups
14412 Groups that match the regular expression
14413 @code{gnus-auto-expirable-newsgroups} will have all articles that you
14414 read marked as expirable automatically. All articles marked as
14415 expirable have an @samp{E} in the first column in the summary buffer.
14417 By default, if you have auto expiry switched on, Gnus will mark all the
14418 articles you read as expirable, no matter if they were read or unread
14419 before. To avoid having articles marked as read marked as expirable
14420 automatically, you can put something like the following in your
14421 @file{~/.gnus.el} file:
14423 @vindex gnus-mark-article-hook
14425 (remove-hook 'gnus-mark-article-hook
14426 'gnus-summary-mark-read-and-unread-as-read)
14427 (add-hook 'gnus-mark-article-hook 'gnus-summary-mark-unread-as-read)
14430 Note that making a group auto-expirable doesn't mean that all read
14431 articles are expired---only the articles marked as expirable
14432 will be expired. Also note that using the @kbd{d} command won't make
14433 articles expirable---only semi-automatic marking of articles as read will
14434 mark the articles as expirable in auto-expirable groups.
14436 Let's say you subscribe to a couple of mailing lists, and you want the
14437 articles you have read to disappear after a while:
14440 (setq gnus-auto-expirable-newsgroups
14441 "mail.nonsense-list\\|mail.nice-list")
14444 Another way to have auto-expiry happen is to have the element
14445 @code{auto-expire} in the group parameters of the group.
14447 If you use adaptive scoring (@pxref{Adaptive Scoring}) and
14448 auto-expiring, you'll have problems. Auto-expiring and adaptive scoring
14449 don't really mix very well.
14451 @vindex nnmail-expiry-wait
14452 The @code{nnmail-expiry-wait} variable supplies the default time an
14453 expirable article has to live. Gnus starts counting days from when the
14454 message @emph{arrived}, not from when it was sent. The default is seven
14457 Gnus also supplies a function that lets you fine-tune how long articles
14458 are to live, based on what group they are in. Let's say you want to
14459 have one month expiry period in the @samp{mail.private} group, a one day
14460 expiry period in the @samp{mail.junk} group, and a six day expiry period
14463 @vindex nnmail-expiry-wait-function
14465 (setq nnmail-expiry-wait-function
14467 (cond ((string= group "mail.private")
14469 ((string= group "mail.junk")
14471 ((string= group "important")
14477 The group names this function is fed are ``unadorned'' group
14478 names---no @samp{nnml:} prefixes and the like.
14480 The @code{nnmail-expiry-wait} variable and
14481 @code{nnmail-expiry-wait-function} function can either be a number (not
14482 necessarily an integer) or one of the symbols @code{immediate} or
14485 You can also use the @code{expiry-wait} group parameter to selectively
14486 change the expiry period (@pxref{Group Parameters}).
14488 @vindex nnmail-expiry-target
14489 The normal action taken when expiring articles is to delete them.
14490 However, in some circumstances it might make more sense to move them
14491 to other groups instead of deleting them. The variable
14492 @code{nnmail-expiry-target} (and the @code{expiry-target} group
14493 parameter) controls this. The variable supplies a default value for
14494 all groups, which can be overridden for specific groups by the group
14495 parameter. default value is @code{delete}, but this can also be a
14496 string (which should be the name of the group the message should be
14497 moved to), or a function (which will be called in a buffer narrowed to
14498 the message in question, and with the name of the group being moved
14499 from as its parameter) which should return a target---either a group
14500 name or @code{delete}.
14502 Here's an example for specifying a group name:
14504 (setq nnmail-expiry-target "nnml:expired")
14507 @findex nnmail-fancy-expiry-target
14508 @vindex nnmail-fancy-expiry-targets
14509 Gnus provides a function @code{nnmail-fancy-expiry-target} which will
14510 expire mail to groups according to the variable
14511 @code{nnmail-fancy-expiry-targets}. Here's an example:
14514 (setq nnmail-expiry-target 'nnmail-fancy-expiry-target
14515 nnmail-fancy-expiry-targets
14516 '((to-from "boss" "nnfolder:Work")
14517 ("subject" "IMPORTANT" "nnfolder:IMPORTANT.%Y.%b")
14518 ("from" ".*" "nnfolder:Archive-%Y")))
14521 With this setup, any mail that has @code{IMPORTANT} in its Subject
14522 header and was sent in the year @code{YYYY} and month @code{MMM}, will
14523 get expired to the group @code{nnfolder:IMPORTANT.YYYY.MMM}. If its
14524 From or To header contains the string @code{boss}, it will get expired
14525 to @code{nnfolder:Work}. All other mail will get expired to
14526 @code{nnfolder:Archive-YYYY}.
14528 @vindex nnmail-keep-last-article
14529 If @code{nnmail-keep-last-article} is non-@code{nil}, Gnus will never
14530 expire the final article in a mail newsgroup. This is to make life
14531 easier for procmail users.
14533 @vindex gnus-total-expirable-newsgroups
14534 By the way: That line up there, about Gnus never expiring non-expirable
14535 articles, is a lie. If you put @code{total-expire} in the group
14536 parameters, articles will not be marked as expirable, but all read
14537 articles will be put through the expiry process. Use with extreme
14538 caution. Even more dangerous is the
14539 @code{gnus-total-expirable-newsgroups} variable. All groups that match
14540 this regexp will have all read articles put through the expiry process,
14541 which means that @emph{all} old mail articles in the groups in question
14542 will be deleted after a while. Use with extreme caution, and don't come
14543 crying to me when you discover that the regexp you used matched the
14544 wrong group and all your important mail has disappeared. Be a
14545 @emph{man}! Or a @emph{woman}! Whatever you feel more comfortable
14548 Most people make most of their mail groups total-expirable, though.
14550 @vindex gnus-inhibit-user-auto-expire
14551 If @code{gnus-inhibit-user-auto-expire} is non-@code{nil}, user marking
14552 commands will not mark an article as expirable, even if the group has
14553 auto-expire turned on.
14557 @subsection Washing Mail
14558 @cindex mail washing
14559 @cindex list server brain damage
14560 @cindex incoming mail treatment
14562 Mailers and list servers are notorious for doing all sorts of really,
14563 really stupid things with mail. ``Hey, RFC 822 doesn't explicitly
14564 prohibit us from adding the string @code{wE aRe ElItE!!!!!1!!} to the
14565 end of all lines passing through our server, so let's do that!!!!1!''
14566 Yes, but RFC 822 wasn't designed to be read by morons. Things that were
14567 considered to be self-evident were not discussed. So. Here we are.
14569 Case in point: The German version of Microsoft Exchange adds @samp{AW:
14570 } to the subjects of replies instead of @samp{Re: }. I could pretend to
14571 be shocked and dismayed by this, but I haven't got the energy. It is to
14574 Gnus provides a plethora of functions for washing articles while
14575 displaying them, but it might be nicer to do the filtering before
14576 storing the mail to disk. For that purpose, we have three hooks and
14577 various functions that can be put in these hooks.
14580 @item nnmail-prepare-incoming-hook
14581 @vindex nnmail-prepare-incoming-hook
14582 This hook is called before doing anything with the mail and is meant for
14583 grand, sweeping gestures. It is called in a buffer that contains all
14584 the new, incoming mail. Functions to be used include:
14587 @item nnheader-ms-strip-cr
14588 @findex nnheader-ms-strip-cr
14589 Remove trailing carriage returns from each line. This is default on
14590 Emacs running on MS machines.
14594 @item nnmail-prepare-incoming-header-hook
14595 @vindex nnmail-prepare-incoming-header-hook
14596 This hook is called narrowed to each header. It can be used when
14597 cleaning up the headers. Functions that can be used include:
14600 @item nnmail-remove-leading-whitespace
14601 @findex nnmail-remove-leading-whitespace
14602 Clear leading white space that ``helpful'' listservs have added to the
14603 headers to make them look nice. Aaah.
14605 (Note that this function works on both the header on the body of all
14606 messages, so it is a potentially dangerous function to use (if a body
14607 of a message contains something that looks like a header line). So
14608 rather than fix the bug, it is of course the right solution to make it
14609 into a feature by documenting it.)
14611 @item nnmail-remove-list-identifiers
14612 @findex nnmail-remove-list-identifiers
14613 Some list servers add an identifier---for example, @samp{(idm)}---to the
14614 beginning of all @code{Subject} headers. I'm sure that's nice for
14615 people who use stone age mail readers. This function will remove
14616 strings that match the @code{nnmail-list-identifiers} regexp, which can
14617 also be a list of regexp. @code{nnmail-list-identifiers} may not contain
14620 For instance, if you want to remove the @samp{(idm)} and the
14621 @samp{nagnagnag} identifiers:
14624 (setq nnmail-list-identifiers
14625 '("(idm)" "nagnagnag"))
14628 This can also be done non-destructively with
14629 @code{gnus-list-identifiers}, @xref{Article Hiding}.
14631 @item nnmail-remove-tabs
14632 @findex nnmail-remove-tabs
14633 Translate all @samp{TAB} characters into @samp{SPACE} characters.
14635 @item nnmail-fix-eudora-headers
14636 @findex nnmail-fix-eudora-headers
14638 Eudora produces broken @code{References} headers, but OK
14639 @code{In-Reply-To} headers. This function will get rid of the
14640 @code{References} headers.
14644 @item nnmail-prepare-incoming-message-hook
14645 @vindex nnmail-prepare-incoming-message-hook
14646 This hook is called narrowed to each message. Functions to be used
14650 @item article-de-quoted-unreadable
14651 @findex article-de-quoted-unreadable
14652 Decode Quoted Readable encoding.
14659 @subsection Duplicates
14661 @vindex nnmail-treat-duplicates
14662 @vindex nnmail-message-id-cache-length
14663 @vindex nnmail-message-id-cache-file
14664 @cindex duplicate mails
14665 If you are a member of a couple of mailing lists, you will sometimes
14666 receive two copies of the same mail. This can be quite annoying, so
14667 @code{nnmail} checks for and treats any duplicates it might find. To do
14668 this, it keeps a cache of old @code{Message-ID}s---
14669 @code{nnmail-message-id-cache-file}, which is @file{~/.nnmail-cache} by
14670 default. The approximate maximum number of @code{Message-ID}s stored
14671 there is controlled by the @code{nnmail-message-id-cache-length}
14672 variable, which is 1000 by default. (So 1000 @code{Message-ID}s will be
14673 stored.) If all this sounds scary to you, you can set
14674 @code{nnmail-treat-duplicates} to @code{warn} (which is what it is by
14675 default), and @code{nnmail} won't delete duplicate mails. Instead it
14676 will insert a warning into the head of the mail saying that it thinks
14677 that this is a duplicate of a different message.
14679 This variable can also be a function. If that's the case, the function
14680 will be called from a buffer narrowed to the message in question with
14681 the @code{Message-ID} as a parameter. The function must return either
14682 @code{nil}, @code{warn}, or @code{delete}.
14684 You can turn this feature off completely by setting the variable to
14687 If you want all the duplicate mails to be put into a special
14688 @dfn{duplicates} group, you could do that using the normal mail split
14692 (setq nnmail-split-fancy
14693 '(| ;; @r{Messages duplicates go to a separate group.}
14694 ("gnus-warning" "duplicat\\(e\\|ion\\) of message" "duplicate")
14695 ;; @r{Message from daemons, postmaster, and the like to another.}
14696 (any mail "mail.misc")
14697 ;; @r{Other rules.}
14703 (setq nnmail-split-methods
14704 '(("duplicates" "^Gnus-Warning:.*duplicate")
14705 ;; @r{Other rules.}
14709 Here's a neat feature: If you know that the recipient reads her mail
14710 with Gnus, and that she has @code{nnmail-treat-duplicates} set to
14711 @code{delete}, you can send her as many insults as you like, just by
14712 using a @code{Message-ID} of a mail that you know that she's already
14713 received. Think of all the fun! She'll never see any of it! Whee!
14716 @node Not Reading Mail
14717 @subsection Not Reading Mail
14719 If you start using any of the mail back ends, they have the annoying
14720 habit of assuming that you want to read mail with them. This might not
14721 be unreasonable, but it might not be what you want.
14723 If you set @code{mail-sources} and @code{nnmail-spool-file} to
14724 @code{nil}, none of the back ends will ever attempt to read incoming
14725 mail, which should help.
14727 @vindex nnbabyl-get-new-mail
14728 @vindex nnmbox-get-new-mail
14729 @vindex nnml-get-new-mail
14730 @vindex nnmh-get-new-mail
14731 @vindex nnfolder-get-new-mail
14732 This might be too much, if, for instance, you are reading mail quite
14733 happily with @code{nnml} and just want to peek at some old Rmail
14734 file you have stashed away with @code{nnbabyl}. All back ends have
14735 variables called back-end-@code{get-new-mail}. If you want to disable
14736 the @code{nnbabyl} mail reading, you edit the virtual server for the
14737 group to have a setting where @code{nnbabyl-get-new-mail} to @code{nil}.
14739 All the mail back ends will call @code{nn}*@code{-prepare-save-mail-hook}
14740 narrowed to the article to be saved before saving it when reading
14744 @node Choosing a Mail Back End
14745 @subsection Choosing a Mail Back End
14747 Gnus will read the mail spool when you activate a mail group. The mail
14748 file is first copied to your home directory. What happens after that
14749 depends on what format you want to store your mail in.
14751 There are six different mail back ends in the standard Gnus, and more
14752 back ends are available separately. The mail back end most people use
14753 (because it is possibly the fastest) is @code{nnml} (@pxref{Mail
14757 * Unix Mail Box:: Using the (quite) standard Un*x mbox.
14758 * Rmail Babyl:: Emacs programs use the Rmail Babyl format.
14759 * Mail Spool:: Store your mail in a private spool?
14760 * MH Spool:: An mhspool-like back end.
14761 * Maildir:: Another one-file-per-message format.
14762 * Mail Folders:: Having one file for each group.
14763 * Comparing Mail Back Ends:: An in-depth looks at pros and cons.
14767 @node Unix Mail Box
14768 @subsubsection Unix Mail Box
14770 @cindex unix mail box
14772 @vindex nnmbox-active-file
14773 @vindex nnmbox-mbox-file
14774 The @dfn{nnmbox} back end will use the standard Un*x mbox file to store
14775 mail. @code{nnmbox} will add extra headers to each mail article to say
14776 which group it belongs in.
14778 Virtual server settings:
14781 @item nnmbox-mbox-file
14782 @vindex nnmbox-mbox-file
14783 The name of the mail box in the user's home directory. Default is
14786 @item nnmbox-active-file
14787 @vindex nnmbox-active-file
14788 The name of the active file for the mail box. Default is
14789 @file{~/.mbox-active}.
14791 @item nnmbox-get-new-mail
14792 @vindex nnmbox-get-new-mail
14793 If non-@code{nil}, @code{nnmbox} will read incoming mail and split it
14794 into groups. Default is @code{t}.
14799 @subsubsection Rmail Babyl
14803 @vindex nnbabyl-active-file
14804 @vindex nnbabyl-mbox-file
14805 The @dfn{nnbabyl} back end will use a Babyl mail box (aka. @dfn{Rmail
14806 mbox}) to store mail. @code{nnbabyl} will add extra headers to each
14807 mail article to say which group it belongs in.
14809 Virtual server settings:
14812 @item nnbabyl-mbox-file
14813 @vindex nnbabyl-mbox-file
14814 The name of the Rmail mbox file. The default is @file{~/RMAIL}
14816 @item nnbabyl-active-file
14817 @vindex nnbabyl-active-file
14818 The name of the active file for the rmail box. The default is
14819 @file{~/.rmail-active}
14821 @item nnbabyl-get-new-mail
14822 @vindex nnbabyl-get-new-mail
14823 If non-@code{nil}, @code{nnbabyl} will read incoming mail. Default is
14829 @subsubsection Mail Spool
14831 @cindex mail @acronym{NOV} spool
14833 The @dfn{nnml} spool mail format isn't compatible with any other known
14834 format. It should be used with some caution.
14836 @vindex nnml-directory
14837 If you use this back end, Gnus will split all incoming mail into files,
14838 one file for each mail, and put the articles into the corresponding
14839 directories under the directory specified by the @code{nnml-directory}
14840 variable. The default value is @file{~/Mail/}.
14842 You do not have to create any directories beforehand; Gnus will take
14845 If you have a strict limit as to how many files you are allowed to store
14846 in your account, you should not use this back end. As each mail gets its
14847 own file, you might very well occupy thousands of inodes within a few
14848 weeks. If this is no problem for you, and it isn't a problem for you
14849 having your friendly systems administrator walking around, madly,
14850 shouting ``Who is eating all my inodes?! Who? Who!?!'', then you should
14851 know that this is probably the fastest format to use. You do not have
14852 to trudge through a big mbox file just to read your new mail.
14854 @code{nnml} is probably the slowest back end when it comes to article
14855 splitting. It has to create lots of files, and it also generates
14856 @acronym{NOV} databases for the incoming mails. This makes it possibly the
14857 fastest back end when it comes to reading mail.
14859 @cindex self contained nnml servers
14861 When the marks file is used (which it is by default), @code{nnml}
14862 servers have the property that you may backup them using @code{tar} or
14863 similar, and later be able to restore them into Gnus (by adding the
14864 proper @code{nnml} server) and have all your marks be preserved. Marks
14865 for a group is usually stored in the @code{.marks} file (but see
14866 @code{nnml-marks-file-name}) within each @code{nnml} group's directory.
14867 Individual @code{nnml} groups are also possible to backup, use @kbd{G m}
14868 to restore the group (after restoring the backup into the nnml
14871 If for some reason you believe your @file{.marks} files are screwed
14872 up, you can just delete them all. Gnus will then correctly regenerate
14873 them next time it starts.
14875 Virtual server settings:
14878 @item nnml-directory
14879 @vindex nnml-directory
14880 All @code{nnml} directories will be placed under this directory. The
14881 default is the value of @code{message-directory} (whose default value
14884 @item nnml-active-file
14885 @vindex nnml-active-file
14886 The active file for the @code{nnml} server. The default is
14887 @file{~/Mail/active}.
14889 @item nnml-newsgroups-file
14890 @vindex nnml-newsgroups-file
14891 The @code{nnml} group descriptions file. @xref{Newsgroups File
14892 Format}. The default is @file{~/Mail/newsgroups}.
14894 @item nnml-get-new-mail
14895 @vindex nnml-get-new-mail
14896 If non-@code{nil}, @code{nnml} will read incoming mail. The default is
14899 @item nnml-nov-is-evil
14900 @vindex nnml-nov-is-evil
14901 If non-@code{nil}, this back end will ignore any @acronym{NOV} files. The
14902 default is @code{nil}.
14904 @item nnml-nov-file-name
14905 @vindex nnml-nov-file-name
14906 The name of the @acronym{NOV} files. The default is @file{.overview}.
14908 @item nnml-prepare-save-mail-hook
14909 @vindex nnml-prepare-save-mail-hook
14910 Hook run narrowed to an article before saving.
14912 @item nnml-marks-is-evil
14913 @vindex nnml-marks-is-evil
14914 If non-@code{nil}, this back end will ignore any @sc{marks} files. The
14915 default is @code{nil}.
14917 @item nnml-marks-file-name
14918 @vindex nnml-marks-file-name
14919 The name of the @dfn{marks} files. The default is @file{.marks}.
14921 @item nnml-use-compressed-files
14922 @vindex nnml-use-compressed-files
14923 If non-@code{nil}, @code{nnml} will allow using compressed message
14928 @findex nnml-generate-nov-databases
14929 If your @code{nnml} groups and @acronym{NOV} files get totally out of
14930 whack, you can do a complete update by typing @kbd{M-x
14931 nnml-generate-nov-databases}. This command will trawl through the
14932 entire @code{nnml} hierarchy, looking at each and every article, so it
14933 might take a while to complete. A better interface to this
14934 functionality can be found in the server buffer (@pxref{Server
14939 @subsubsection MH Spool
14941 @cindex mh-e mail spool
14943 @code{nnmh} is just like @code{nnml}, except that is doesn't generate
14944 @acronym{NOV} databases and it doesn't keep an active file or marks
14945 file. This makes @code{nnmh} a @emph{much} slower back end than
14946 @code{nnml}, but it also makes it easier to write procmail scripts
14949 Virtual server settings:
14952 @item nnmh-directory
14953 @vindex nnmh-directory
14954 All @code{nnmh} directories will be located under this directory. The
14955 default is the value of @code{message-directory} (whose default is
14958 @item nnmh-get-new-mail
14959 @vindex nnmh-get-new-mail
14960 If non-@code{nil}, @code{nnmh} will read incoming mail. The default is
14964 @vindex nnmh-be-safe
14965 If non-@code{nil}, @code{nnmh} will go to ridiculous lengths to make
14966 sure that the articles in the folder are actually what Gnus thinks
14967 they are. It will check date stamps and stat everything in sight, so
14968 setting this to @code{t} will mean a serious slow-down. If you never
14969 use anything but Gnus to read the @code{nnmh} articles, you do not
14970 have to set this variable to @code{t}. The default is @code{nil}.
14975 @subsubsection Maildir
14979 @code{nnmaildir} stores mail in the maildir format, with each maildir
14980 corresponding to a group in Gnus. This format is documented here:
14981 @uref{http://cr.yp.to/proto/maildir.html} and here:
14982 @uref{http://www.qmail.org/man/man5/maildir.html}. @code{nnmaildir}
14983 also stores extra information in the @file{.nnmaildir/} directory
14986 Maildir format was designed to allow concurrent deliveries and
14987 reading, without needing locks. With other back ends, you would have
14988 your mail delivered to a spool of some kind, and then you would
14989 configure Gnus to split mail from that spool into your groups. You
14990 can still do that with @code{nnmaildir}, but the more common
14991 configuration is to have your mail delivered directly to the maildirs
14992 that appear as group in Gnus.
14994 @code{nnmaildir} is designed to be perfectly reliable: @kbd{C-g} will
14995 never corrupt its data in memory, and @code{SIGKILL} will never
14996 corrupt its data in the filesystem.
14998 @code{nnmaildir} stores article marks and @acronym{NOV} data in each
14999 maildir. So you can copy a whole maildir from one Gnus setup to
15000 another, and you will keep your marks.
15002 Virtual server settings:
15006 For each of your @code{nnmaildir} servers (it's very unlikely that
15007 you'd need more than one), you need to create a directory and populate
15008 it with maildirs or symlinks to maildirs (and nothing else; do not
15009 choose a directory already used for other purposes). Each maildir
15010 will be represented in Gnus as a newsgroup on that server; the
15011 filename of the symlink will be the name of the group. Any filenames
15012 in the directory starting with @samp{.} are ignored. The directory is
15013 scanned when you first start Gnus, and each time you type @kbd{g} in
15014 the group buffer; if any maildirs have been removed or added,
15015 @code{nnmaildir} notices at these times.
15017 The value of the @code{directory} parameter should be a Lisp form
15018 which is processed by @code{eval} and @code{expand-file-name} to get
15019 the path of the directory for this server. The form is @code{eval}ed
15020 only when the server is opened; the resulting string is used until the
15021 server is closed. (If you don't know about forms and @code{eval},
15022 don't worry---a simple string will work.) This parameter is not
15023 optional; you must specify it. I don't recommend using
15024 @code{"~/Mail"} or a subdirectory of it; several other parts of Gnus
15025 use that directory by default for various things, and may get confused
15026 if @code{nnmaildir} uses it too. @code{"~/.nnmaildir"} is a typical
15029 @item target-prefix
15030 This should be a Lisp form which is processed by @code{eval} and
15031 @code{expand-file-name}. The form is @code{eval}ed only when the
15032 server is opened; the resulting string is used until the server is
15035 When you create a group on an @code{nnmaildir} server, the maildir is
15036 created with @code{target-prefix} prepended to its name, and a symlink
15037 pointing to that maildir is created, named with the plain group name.
15038 So if @code{directory} is @code{"~/.nnmaildir"} and
15039 @code{target-prefix} is @code{"../maildirs/"}, then when you create
15040 the group @code{foo}, @code{nnmaildir} will create
15041 @file{~/.nnmaildir/../maildirs/foo} as a maildir, and will create
15042 @file{~/.nnmaildir/foo} as a symlink pointing to
15043 @file{../maildirs/foo}.
15045 You can set @code{target-prefix} to a string without any slashes to
15046 create both maildirs and symlinks in the same @code{directory}; in
15047 this case, any maildirs found in @code{directory} whose names start
15048 with @code{target-prefix} will not be listed as groups (but the
15049 symlinks pointing to them will be).
15051 As a special case, if @code{target-prefix} is @code{""} (the default),
15052 then when you create a group, the maildir will be created in
15053 @code{directory} without a corresponding symlink. Beware that you
15054 cannot use @code{gnus-group-delete-group} on such groups without the
15055 @code{force} argument.
15057 @item directory-files
15058 This should be a function with the same interface as
15059 @code{directory-files} (such as @code{directory-files} itself). It is
15060 used to scan the server's @code{directory} for maildirs. This
15061 parameter is optional; the default is
15062 @code{nnheader-directory-files-safe} if
15063 @code{nnheader-directory-files-is-safe} is @code{nil}, and
15064 @code{directory-files} otherwise.
15065 (@code{nnheader-directory-files-is-safe} is checked only once when the
15066 server is opened; if you want to check it each time the directory is
15067 scanned, you'll have to provide your own function that does that.)
15070 If non-@code{nil}, then after scanning for new mail in the group
15071 maildirs themselves as usual, this server will also incorporate mail
15072 the conventional Gnus way, from @code{mail-sources} according to
15073 @code{nnmail-split-methods} or @code{nnmail-split-fancy}. The default
15074 value is @code{nil}.
15076 Do @emph{not} use the same maildir both in @code{mail-sources} and as
15077 an @code{nnmaildir} group. The results might happen to be useful, but
15078 that would be by chance, not by design, and the results might be
15079 different in the future. If your split rules create new groups,
15080 remember to supply a @code{create-directory} server parameter.
15083 @subsubsection Group parameters
15085 @code{nnmaildir} uses several group parameters. It's safe to ignore
15086 all this; the default behavior for @code{nnmaildir} is the same as the
15087 default behavior for other mail back ends: articles are deleted after
15088 one week, etc. Except for the expiry parameters, all this
15089 functionality is unique to @code{nnmaildir}, so you can ignore it if
15090 you're just trying to duplicate the behavior you already have with
15093 If the value of any of these parameters is a vector, the first element
15094 is evaluated as a Lisp form and the result is used, rather than the
15095 original value. If the value is not a vector, the value itself is
15096 evaluated as a Lisp form. (This is why these parameters use names
15097 different from those of other, similar parameters supported by other
15098 back ends: they have different, though similar, meanings.) (For
15099 numbers, strings, @code{nil}, and @code{t}, you can ignore the
15100 @code{eval} business again; for other values, remember to use an extra
15101 quote and wrap the value in a vector when appropriate.)
15105 An integer specifying the minimum age, in seconds, of an article
15106 before it will be expired, or the symbol @code{never} to specify that
15107 articles should never be expired. If this parameter is not set,
15108 @code{nnmaildir} falls back to the usual
15109 @code{nnmail-expiry-wait}(@code{-function}) variables (the
15110 @code{expiry-wait} group parameter overrides @code{nnmail-expiry-wait}
15111 and makes @code{nnmail-expiry-wait-function} ineffective). If you
15112 wanted a value of 3 days, you could use something like @code{[(* 3 24
15113 60 60)]}; @code{nnmaildir} will evaluate the form and use the result.
15114 An article's age is measured starting from the article file's
15115 modification time. Normally, this is the same as the article's
15116 delivery time, but editing an article makes it younger. Moving an
15117 article (other than via expiry) may also make an article younger.
15120 If this is set to a string such as a full Gnus group name, like
15122 "backend+server.address.string:group.name"
15124 and if it is not the name of the same group that the parameter belongs
15125 to, then articles will be moved to the specified group during expiry
15126 before being deleted. @emph{If this is set to an @code{nnmaildir}
15127 group, the article will be just as old in the destination group as it
15128 was in the source group.} So be careful with @code{expire-age} in the
15129 destination group. If this is set to the name of the same group that
15130 the parameter belongs to, then the article is not expired at all. If
15131 you use the vector form, the first element is evaluated once for each
15132 article. So that form can refer to
15133 @code{nnmaildir-article-file-name}, etc., to decide where to put the
15134 article. @emph{Even if this parameter is not set, @code{nnmaildir}
15135 does not fall back to the @code{expiry-target} group parameter or the
15136 @code{nnmail-expiry-target} variable.}
15139 If this is set to @code{t}, @code{nnmaildir} will treat the articles
15140 in this maildir as read-only. This means: articles are not renamed
15141 from @file{new/} into @file{cur/}; articles are only found in
15142 @file{new/}, not @file{cur/}; articles are never deleted; articles
15143 cannot be edited. @file{new/} is expected to be a symlink to the
15144 @file{new/} directory of another maildir---e.g., a system-wide mailbox
15145 containing a mailing list of common interest. Everything in the
15146 maildir outside @file{new/} is @emph{not} treated as read-only, so for
15147 a shared mailbox, you do still need to set up your own maildir (or
15148 have write permission to the shared mailbox); your maildir just won't
15149 contain extra copies of the articles.
15151 @item directory-files
15152 A function with the same interface as @code{directory-files}. It is
15153 used to scan the directories in the maildir corresponding to this
15154 group to find articles. The default is the function specified by the
15155 server's @code{directory-files} parameter.
15157 @item distrust-Lines:
15158 If non-@code{nil}, @code{nnmaildir} will always count the lines of an
15159 article, rather than use the @code{Lines:} header field. If
15160 @code{nil}, the header field will be used if present.
15163 A list of mark symbols, such as @code{['(read expire)]}. Whenever
15164 Gnus asks @code{nnmaildir} for article marks, @code{nnmaildir} will
15165 say that all articles have these marks, regardless of whether the
15166 marks stored in the filesystem say so. This is a proof-of-concept
15167 feature that will probably be removed eventually; it ought to be done
15168 in Gnus proper, or abandoned if it's not worthwhile.
15171 A list of mark symbols, such as @code{['(tick expire)]}. Whenever
15172 Gnus asks @code{nnmaildir} for article marks, @code{nnmaildir} will
15173 say that no articles have these marks, regardless of whether the marks
15174 stored in the filesystem say so. @code{never-marks} overrides
15175 @code{always-marks}. This is a proof-of-concept feature that will
15176 probably be removed eventually; it ought to be done in Gnus proper, or
15177 abandoned if it's not worthwhile.
15179 @item nov-cache-size
15180 An integer specifying the size of the @acronym{NOV} memory cache. To
15181 speed things up, @code{nnmaildir} keeps @acronym{NOV} data in memory
15182 for a limited number of articles in each group. (This is probably not
15183 worthwhile, and will probably be removed in the future.) This
15184 parameter's value is noticed only the first time a group is seen after
15185 the server is opened---i.e., when you first start Gnus, typically.
15186 The @acronym{NOV} cache is never resized until the server is closed
15187 and reopened. The default is an estimate of the number of articles
15188 that would be displayed in the summary buffer: a count of articles
15189 that are either marked with @code{tick} or not marked with
15190 @code{read}, plus a little extra.
15193 @subsubsection Article identification
15194 Articles are stored in the @file{cur/} subdirectory of each maildir.
15195 Each article file is named like @code{uniq:info}, where @code{uniq}
15196 contains no colons. @code{nnmaildir} ignores, but preserves, the
15197 @code{:info} part. (Other maildir readers typically use this part of
15198 the filename to store marks.) The @code{uniq} part uniquely
15199 identifies the article, and is used in various places in the
15200 @file{.nnmaildir/} subdirectory of the maildir to store information
15201 about the corresponding article. The full pathname of an article is
15202 available in the variable @code{nnmaildir-article-file-name} after you
15203 request the article in the summary buffer.
15205 @subsubsection NOV data
15206 An article identified by @code{uniq} has its @acronym{NOV} data (used
15207 to generate lines in the summary buffer) stored in
15208 @code{.nnmaildir/nov/uniq}. There is no
15209 @code{nnmaildir-generate-nov-databases} function. (There isn't much
15210 need for it---an article's @acronym{NOV} data is updated automatically
15211 when the article or @code{nnmail-extra-headers} has changed.) You can
15212 force @code{nnmaildir} to regenerate the @acronym{NOV} data for a
15213 single article simply by deleting the corresponding @acronym{NOV}
15214 file, but @emph{beware}: this will also cause @code{nnmaildir} to
15215 assign a new article number for this article, which may cause trouble
15216 with @code{seen} marks, the Agent, and the cache.
15218 @subsubsection Article marks
15219 An article identified by @code{uniq} is considered to have the mark
15220 @code{flag} when the file @file{.nnmaildir/marks/flag/uniq} exists.
15221 When Gnus asks @code{nnmaildir} for a group's marks, @code{nnmaildir}
15222 looks for such files and reports the set of marks it finds. When Gnus
15223 asks @code{nnmaildir} to store a new set of marks, @code{nnmaildir}
15224 creates and deletes the corresponding files as needed. (Actually,
15225 rather than create a new file for each mark, it just creates hard
15226 links to @file{.nnmaildir/markfile}, to save inodes.)
15228 You can invent new marks by creating a new directory in
15229 @file{.nnmaildir/marks/}. You can tar up a maildir and remove it from
15230 your server, untar it later, and keep your marks. You can add and
15231 remove marks yourself by creating and deleting mark files. If you do
15232 this while Gnus is running and your @code{nnmaildir} server is open,
15233 it's best to exit all summary buffers for @code{nnmaildir} groups and
15234 type @kbd{s} in the group buffer first, and to type @kbd{g} or
15235 @kbd{M-g} in the group buffer afterwards. Otherwise, Gnus might not
15236 pick up the changes, and might undo them.
15240 @subsubsection Mail Folders
15242 @cindex mbox folders
15243 @cindex mail folders
15245 @code{nnfolder} is a back end for storing each mail group in a
15246 separate file. Each file is in the standard Un*x mbox format.
15247 @code{nnfolder} will add extra headers to keep track of article
15248 numbers and arrival dates.
15250 @cindex self contained nnfolder servers
15252 When the marks file is used (which it is by default), @code{nnfolder}
15253 servers have the property that you may backup them using @code{tar} or
15254 similar, and later be able to restore them into Gnus (by adding the
15255 proper @code{nnfolder} server) and have all your marks be preserved.
15256 Marks for a group is usually stored in a file named as the mbox file
15257 with @code{.mrk} concatenated to it (but see
15258 @code{nnfolder-marks-file-suffix}) within the @code{nnfolder}
15259 directory. Individual @code{nnfolder} groups are also possible to
15260 backup, use @kbd{G m} to restore the group (after restoring the backup
15261 into the @code{nnfolder} directory).
15263 Virtual server settings:
15266 @item nnfolder-directory
15267 @vindex nnfolder-directory
15268 All the @code{nnfolder} mail boxes will be stored under this
15269 directory. The default is the value of @code{message-directory}
15270 (whose default is @file{~/Mail})
15272 @item nnfolder-active-file
15273 @vindex nnfolder-active-file
15274 The name of the active file. The default is @file{~/Mail/active}.
15276 @item nnfolder-newsgroups-file
15277 @vindex nnfolder-newsgroups-file
15278 The name of the group descriptions file. @xref{Newsgroups File
15279 Format}. The default is @file{~/Mail/newsgroups}
15281 @item nnfolder-get-new-mail
15282 @vindex nnfolder-get-new-mail
15283 If non-@code{nil}, @code{nnfolder} will read incoming mail. The
15284 default is @code{t}
15286 @item nnfolder-save-buffer-hook
15287 @vindex nnfolder-save-buffer-hook
15288 @cindex backup files
15289 Hook run before saving the folders. Note that Emacs does the normal
15290 backup renaming of files even with the @code{nnfolder} buffers. If
15291 you wish to switch this off, you could say something like the
15292 following in your @file{.emacs} file:
15295 (defun turn-off-backup ()
15296 (set (make-local-variable 'backup-inhibited) t))
15298 (add-hook 'nnfolder-save-buffer-hook 'turn-off-backup)
15301 @item nnfolder-delete-mail-hook
15302 @vindex nnfolder-delete-mail-hook
15303 Hook run in a buffer narrowed to the message that is to be deleted.
15304 This function can be used to copy the message to somewhere else, or to
15305 extract some information from it before removing it.
15307 @item nnfolder-nov-is-evil
15308 @vindex nnfolder-nov-is-evil
15309 If non-@code{nil}, this back end will ignore any @acronym{NOV} files. The
15310 default is @code{nil}.
15312 @item nnfolder-nov-file-suffix
15313 @vindex nnfolder-nov-file-suffix
15314 The extension for @acronym{NOV} files. The default is @file{.nov}.
15316 @item nnfolder-nov-directory
15317 @vindex nnfolder-nov-directory
15318 The directory where the @acronym{NOV} files should be stored. If
15319 @code{nil}, @code{nnfolder-directory} is used.
15321 @item nnfolder-marks-is-evil
15322 @vindex nnfolder-marks-is-evil
15323 If non-@code{nil}, this back end will ignore any @sc{marks} files. The
15324 default is @code{nil}.
15326 @item nnfolder-marks-file-suffix
15327 @vindex nnfolder-marks-file-suffix
15328 The extension for @sc{marks} files. The default is @file{.mrk}.
15330 @item nnfolder-marks-directory
15331 @vindex nnfolder-marks-directory
15332 The directory where the @sc{marks} files should be stored. If
15333 @code{nil}, @code{nnfolder-directory} is used.
15338 @findex nnfolder-generate-active-file
15339 @kindex M-x nnfolder-generate-active-file
15340 If you have lots of @code{nnfolder}-like files you'd like to read with
15341 @code{nnfolder}, you can use the @kbd{M-x nnfolder-generate-active-file}
15342 command to make @code{nnfolder} aware of all likely files in
15343 @code{nnfolder-directory}. This only works if you use long file names,
15346 @node Comparing Mail Back Ends
15347 @subsubsection Comparing Mail Back Ends
15349 First, just for terminology, the @dfn{back end} is the common word for a
15350 low-level access method---a transport, if you will, by which something
15351 is acquired. The sense is that one's mail has to come from somewhere,
15352 and so selection of a suitable back end is required in order to get that
15353 mail within spitting distance of Gnus.
15355 The same concept exists for Usenet itself: Though access to articles is
15356 typically done by @acronym{NNTP} these days, once upon a midnight dreary, everyone
15357 in the world got at Usenet by running a reader on the machine where the
15358 articles lay (the machine which today we call an @acronym{NNTP} server), and
15359 access was by the reader stepping into the articles' directory spool
15360 area directly. One can still select between either the @code{nntp} or
15361 @code{nnspool} back ends, to select between these methods, if one happens
15362 actually to live on the server (or can see its spool directly, anyway,
15365 The goal in selecting a mail back end is to pick one which
15366 simultaneously represents a suitable way of dealing with the original
15367 format plus leaving mail in a form that is convenient to use in the
15368 future. Here are some high and low points on each:
15373 UNIX systems have historically had a single, very common, and well-
15374 defined format. All messages arrive in a single @dfn{spool file}, and
15375 they are delineated by a line whose regular expression matches
15376 @samp{^From_}. (My notational use of @samp{_} is to indicate a space,
15377 to make it clear in this instance that this is not the RFC-specified
15378 @samp{From:} header.) Because Emacs and therefore Gnus emanate
15379 historically from the Unix environment, it is simplest if one does not
15380 mess a great deal with the original mailbox format, so if one chooses
15381 this back end, Gnus' primary activity in getting mail from the real spool
15382 area to Gnus' preferred directory is simply to copy it, with no
15383 (appreciable) format change in the process. It is the ``dumbest'' way
15384 to move mail into availability in the Gnus environment. This makes it
15385 fast to move into place, but slow to parse, when Gnus has to look at
15390 Once upon a time, there was the DEC-10 and DEC-20, running operating
15391 systems called TOPS and related things, and the usual (only?) mail
15392 reading environment was a thing called Babyl. I don't know what format
15393 was used for mail landing on the system, but Babyl had its own internal
15394 format to which mail was converted, primarily involving creating a
15395 spool-file-like entity with a scheme for inserting Babyl-specific
15396 headers and status bits above the top of each message in the file.
15397 Rmail was Emacs' first mail reader, it was written by Richard Stallman,
15398 and Stallman came out of that TOPS/Babyl environment, so he wrote Rmail
15399 to understand the mail files folks already had in existence. Gnus (and
15400 VM, for that matter) continue to support this format because it's
15401 perceived as having some good qualities in those mailer-specific
15402 headers/status bits stuff. Rmail itself still exists as well, of
15403 course, and is still maintained by Stallman.
15405 Both of the above forms leave your mail in a single file on your
15406 file system, and they must parse that entire file each time you take a
15411 @code{nnml} is the back end which smells the most as though you were
15412 actually operating with an @code{nnspool}-accessed Usenet system. (In
15413 fact, I believe @code{nnml} actually derived from @code{nnspool} code,
15414 lo these years ago.) One's mail is taken from the original spool file,
15415 and is then cut up into individual message files, 1:1. It maintains a
15416 Usenet-style active file (analogous to what one finds in an INN- or
15417 CNews-based news system in (for instance) @file{/var/lib/news/active},
15418 or what is returned via the @samp{NNTP LIST} verb) and also creates
15419 @dfn{overview} files for efficient group entry, as has been defined for
15420 @acronym{NNTP} servers for some years now. It is slower in mail-splitting,
15421 due to the creation of lots of files, updates to the @code{nnml} active
15422 file, and additions to overview files on a per-message basis, but it is
15423 extremely fast on access because of what amounts to the indexing support
15424 provided by the active file and overviews.
15426 @code{nnml} costs @dfn{inodes} in a big way; that is, it soaks up the
15427 resource which defines available places in the file system to put new
15428 files. Sysadmins take a dim view of heavy inode occupation within
15429 tight, shared file systems. But if you live on a personal machine where
15430 the file system is your own and space is not at a premium, @code{nnml}
15433 It is also problematic using this back end if you are living in a
15434 FAT16-based Windows world, since much space will be wasted on all these
15439 The Rand MH mail-reading system has been around UNIX systems for a very
15440 long time; it operates by splitting one's spool file of messages into
15441 individual files, but with little or no indexing support---@code{nnmh}
15442 is considered to be semantically equivalent to ``@code{nnml} without
15443 active file or overviews''. This is arguably the worst choice, because
15444 one gets the slowness of individual file creation married to the
15445 slowness of access parsing when learning what's new in one's groups.
15449 Basically the effect of @code{nnfolder} is @code{nnmbox} (the first
15450 method described above) on a per-group basis. That is, @code{nnmbox}
15451 itself puts @emph{all} one's mail in one file; @code{nnfolder} provides a
15452 little bit of optimization to this so that each of one's mail groups has
15453 a Unix mail box file. It's faster than @code{nnmbox} because each group
15454 can be parsed separately, and still provides the simple Unix mail box
15455 format requiring minimal effort in moving the mail around. In addition,
15456 it maintains an ``active'' file making it much faster for Gnus to figure
15457 out how many messages there are in each separate group.
15459 If you have groups that are expected to have a massive amount of
15460 messages, @code{nnfolder} is not the best choice, but if you receive
15461 only a moderate amount of mail, @code{nnfolder} is probably the most
15462 friendly mail back end all over.
15466 For configuring expiry and other things, @code{nnmaildir} uses
15467 incompatible group parameters, slightly different from those of other
15470 @code{nnmaildir} is largely similar to @code{nnml}, with some notable
15471 differences. Each message is stored in a separate file, but the
15472 filename is unrelated to the article number in Gnus. @code{nnmaildir}
15473 also stores the equivalent of @code{nnml}'s overview files in one file
15474 per article, so it uses about twice as many inodes as @code{nnml}. (Use
15475 @code{df -i} to see how plentiful your inode supply is.) If this slows
15476 you down or takes up very much space, consider switching to
15477 @uref{http://www.namesys.com/, ReiserFS} or another non-block-structured
15480 Since maildirs don't require locking for delivery, the maildirs you use
15481 as groups can also be the maildirs your mail is directly delivered to.
15482 This means you can skip Gnus' mail splitting if your mail is already
15483 organized into different mailboxes during delivery. A @code{directory}
15484 entry in @code{mail-sources} would have a similar effect, but would
15485 require one set of mailboxes for spooling deliveries (in mbox format,
15486 thus damaging message bodies), and another set to be used as groups (in
15487 whatever format you like). A maildir has a built-in spool, in the
15488 @code{new/} subdirectory. Beware that currently, mail moved from
15489 @code{new/} to @code{cur/} instead of via mail splitting will not
15490 undergo treatment such as duplicate checking.
15492 @code{nnmaildir} stores article marks for a given group in the
15493 corresponding maildir, in a way designed so that it's easy to manipulate
15494 them from outside Gnus. You can tar up a maildir, unpack it somewhere
15495 else, and still have your marks. @code{nnml} also stores marks, but
15496 it's not as easy to work with them from outside Gnus as with
15499 @code{nnmaildir} uses a significant amount of memory to speed things up.
15500 (It keeps in memory some of the things that @code{nnml} stores in files
15501 and that @code{nnmh} repeatedly parses out of message files.) If this
15502 is a problem for you, you can set the @code{nov-cache-size} group
15503 parameter to something small (0 would probably not work, but 1 probably
15504 would) to make it use less memory. This caching will probably be
15505 removed in the future.
15507 Startup is likely to be slower with @code{nnmaildir} than with other
15508 back ends. Everything else is likely to be faster, depending in part
15509 on your file system.
15511 @code{nnmaildir} does not use @code{nnoo}, so you cannot use @code{nnoo}
15512 to write an @code{nnmaildir}-derived back end.
15517 @node Browsing the Web
15518 @section Browsing the Web
15520 @cindex browsing the web
15524 Web-based discussion forums are getting more and more popular. On many
15525 subjects, the web-based forums have become the most important forums,
15526 eclipsing the importance of mailing lists and news groups. The reason
15527 is easy to understand---they are friendly to new users; you just point
15528 and click, and there's the discussion. With mailing lists, you have to
15529 go through a cumbersome subscription procedure, and most people don't
15530 even know what a news group is.
15532 The problem with this scenario is that web browsers are not very good at
15533 being newsreaders. They do not keep track of what articles you've read;
15534 they do not allow you to score on subjects you're interested in; they do
15535 not allow off-line browsing; they require you to click around and drive
15536 you mad in the end.
15538 So---if web browsers suck at reading discussion forums, why not use Gnus
15541 Gnus has been getting a bit of a collection of back ends for providing
15542 interfaces to these sources.
15546 * Web Searches:: Creating groups from articles that match a string.
15547 * Slashdot:: Reading the Slashdot comments.
15548 * Ultimate:: The Ultimate Bulletin Board systems.
15549 * Web Archive:: Reading mailing list archived on web.
15550 * RSS:: Reading RDF site summary.
15551 * Customizing W3:: Doing stuff to Emacs/W3 from Gnus.
15554 All the web sources require Emacs/W3 and the url library or those
15555 alternatives to work.
15557 The main caveat with all these web sources is that they probably won't
15558 work for a very long time. Gleaning information from the @acronym{HTML} data
15559 is guesswork at best, and when the layout is altered, the Gnus back end
15560 will fail. If you have reasonably new versions of these back ends,
15561 though, you should be ok.
15563 One thing all these Web methods have in common is that the Web sources
15564 are often down, unavailable or just plain too slow to be fun. In those
15565 cases, it makes a lot of sense to let the Gnus Agent (@pxref{Gnus
15566 Unplugged}) handle downloading articles, and then you can read them at
15567 leisure from your local disk. No more World Wide Wait for you.
15569 @node Archiving Mail
15570 @subsection Archiving Mail
15571 @cindex archiving mail
15572 @cindex backup of mail
15574 Some of the back ends, notably @code{nnml}, @code{nnfolder}, and
15575 @code{nnmaildir}, now actually store the article marks with each group.
15576 For these servers, archiving and restoring a group while preserving
15577 marks is fairly simple.
15579 (Preserving the group level and group parameters as well still
15580 requires ritual dancing and sacrifices to the @file{.newsrc.eld} deity
15583 To archive an entire @code{nnml}, @code{nnfolder}, or @code{nnmaildir}
15584 server, take a recursive copy of the server directory. There is no need
15585 to shut down Gnus, so archiving may be invoked by @code{cron} or
15586 similar. You restore the data by restoring the directory tree, and
15587 adding a server definition pointing to that directory in Gnus. The
15588 @ref{Article Backlog}, @ref{Asynchronous Fetching} and other things
15589 might interfere with overwriting data, so you may want to shut down Gnus
15590 before you restore the data.
15592 It is also possible to archive individual @code{nnml},
15593 @code{nnfolder}, or @code{nnmaildir} groups, while preserving marks.
15594 For @code{nnml} or @code{nnmaildir}, you copy all files in the group's
15595 directory. For @code{nnfolder} you need to copy both the base folder
15596 file itself (@file{FOO}, say), and the marks file (@file{FOO.mrk} in
15597 this example). Restoring the group is done with @kbd{G m} from the Group
15598 buffer. The last step makes Gnus notice the new directory.
15599 @code{nnmaildir} notices the new directory automatically, so @kbd{G m}
15600 is unnecessary in that case.
15603 @subsection Web Searches
15608 @cindex Usenet searches
15609 @cindex searching the Usenet
15611 It's, like, too neat to search the Usenet for articles that match a
15612 string, but it, like, totally @emph{sucks}, like, totally, to use one of
15613 those, like, Web browsers, and you, like, have to, rilly, like, look at
15614 the commercials, so, like, with Gnus you can do @emph{rad}, rilly,
15615 searches without having to use a browser.
15617 The @code{nnweb} back end allows an easy interface to the mighty search
15618 engine. You create an @code{nnweb} group, enter a search pattern, and
15619 then enter the group and read the articles like you would any normal
15620 group. The @kbd{G w} command in the group buffer (@pxref{Foreign
15621 Groups}) will do this in an easy-to-use fashion.
15623 @code{nnweb} groups don't really lend themselves to being solid
15624 groups---they have a very fleeting idea of article numbers. In fact,
15625 each time you enter an @code{nnweb} group (not even changing the search
15626 pattern), you are likely to get the articles ordered in a different
15627 manner. Not even using duplicate suppression (@pxref{Duplicate
15628 Suppression}) will help, since @code{nnweb} doesn't even know the
15629 @code{Message-ID} of the articles before reading them using some search
15630 engines (Google, for instance). The only possible way to keep track
15631 of which articles you've read is by scoring on the @code{Date}
15632 header---mark all articles posted before the last date you read the
15635 If the search engine changes its output substantially, @code{nnweb}
15636 won't be able to parse it and will fail. One could hardly fault the Web
15637 providers if they were to do this---their @emph{raison d'être} is to
15638 make money off of advertisements, not to provide services to the
15639 community. Since @code{nnweb} washes the ads off all the articles, one
15640 might think that the providers might be somewhat miffed. We'll see.
15642 You must have the @code{url} and @code{W3} package or those alternatives
15643 (try @code{customize-group} on the @samp{mm-url} variable group)
15644 installed to be able to use @code{nnweb}.
15646 Virtual server variables:
15651 What search engine type is being used. The currently supported types
15652 are @code{google}, @code{dejanews}, and @code{gmane}. Note that
15653 @code{dejanews} is an alias to @code{google}.
15656 @vindex nnweb-search
15657 The search string to feed to the search engine.
15659 @item nnweb-max-hits
15660 @vindex nnweb-max-hits
15661 Advisory maximum number of hits per search to display. The default is
15664 @item nnweb-type-definition
15665 @vindex nnweb-type-definition
15666 Type-to-definition alist. This alist says what @code{nnweb} should do
15667 with the various search engine types. The following elements must be
15672 Function to decode the article and provide something that Gnus
15676 Function to create an article number to message header and URL alist.
15679 Function to send the search string to the search engine.
15682 The address the aforementioned function should send the search string
15686 Format string URL to fetch an article by @code{Message-ID}.
15693 @subsection Slashdot
15697 @uref{http://slashdot.org/, Slashdot} is a popular news site, with
15698 lively discussion following the news articles. @code{nnslashdot} will
15699 let you read this forum in a convenient manner.
15701 The easiest way to read this source is to put something like the
15702 following in your @file{~/.gnus.el} file:
15705 (setq gnus-secondary-select-methods
15706 '((nnslashdot "")))
15709 This will make Gnus query the @code{nnslashdot} back end for new comments
15710 and groups. The @kbd{F} command will subscribe each new news article as
15711 a new Gnus group, and you can read the comments by entering these
15712 groups. (Note that the default subscription method is to subscribe new
15713 groups as zombies. Other methods are available (@pxref{Subscription
15716 If you want to remove an old @code{nnslashdot} group, the @kbd{G DEL}
15717 command is the most handy tool (@pxref{Foreign Groups}).
15719 When following up to @code{nnslashdot} comments (or posting new
15720 comments), some light @acronym{HTML}izations will be performed. In
15721 particular, text quoted with @samp{> } will be quoted with
15722 @samp{blockquote} instead, and signatures will have @samp{br} added to
15723 the end of each line. Other than that, you can just write @acronym{HTML}
15724 directly into the message buffer. Note that Slashdot filters out some
15725 @acronym{HTML} forms.
15727 The following variables can be altered to change its behavior:
15730 @item nnslashdot-threaded
15731 Whether @code{nnslashdot} should display threaded groups or not. The
15732 default is @code{t}. To be able to display threads, @code{nnslashdot}
15733 has to retrieve absolutely all comments in a group upon entry. If a
15734 threaded display is not required, @code{nnslashdot} will only retrieve
15735 the comments that are actually wanted by the user. Threading is nicer,
15736 but much, much slower than unthreaded.
15738 @item nnslashdot-login-name
15739 @vindex nnslashdot-login-name
15740 The login name to use when posting.
15742 @item nnslashdot-password
15743 @vindex nnslashdot-password
15744 The password to use when posting.
15746 @item nnslashdot-directory
15747 @vindex nnslashdot-directory
15748 Where @code{nnslashdot} will store its files. The default is
15749 @file{~/News/slashdot/}.
15751 @item nnslashdot-active-url
15752 @vindex nnslashdot-active-url
15753 The @acronym{URL} format string that will be used to fetch the
15754 information on news articles and comments. The default is@*
15755 @samp{http://slashdot.org/search.pl?section=&min=%d}.
15757 @item nnslashdot-comments-url
15758 @vindex nnslashdot-comments-url
15759 The @acronym{URL} format string that will be used to fetch comments.
15761 @item nnslashdot-article-url
15762 @vindex nnslashdot-article-url
15763 The @acronym{URL} format string that will be used to fetch the news
15764 article. The default is
15765 @samp{http://slashdot.org/article.pl?sid=%s&mode=nocomment}.
15767 @item nnslashdot-threshold
15768 @vindex nnslashdot-threshold
15769 The score threshold. The default is -1.
15771 @item nnslashdot-group-number
15772 @vindex nnslashdot-group-number
15773 The number of old groups, in addition to the ten latest, to keep
15774 updated. The default is 0.
15781 @subsection Ultimate
15783 @cindex Ultimate Bulletin Board
15785 @uref{http://www.ultimatebb.com/, The Ultimate Bulletin Board} is
15786 probably the most popular Web bulletin board system used. It has a
15787 quite regular and nice interface, and it's possible to get the
15788 information Gnus needs to keep groups updated.
15790 The easiest way to get started with @code{nnultimate} is to say
15791 something like the following in the group buffer: @kbd{B nnultimate RET
15792 http://www.tcj.com/messboard/ubbcgi/ RET}. (Substitute the @acronym{URL}
15793 (not including @samp{Ultimate.cgi} or the like at the end) for a forum
15794 you're interested in; there's quite a list of them on the Ultimate web
15795 site.) Then subscribe to the groups you're interested in from the
15796 server buffer, and read them from the group buffer.
15798 The following @code{nnultimate} variables can be altered:
15801 @item nnultimate-directory
15802 @vindex nnultimate-directory
15803 The directory where @code{nnultimate} stores its files. The default is@*
15804 @file{~/News/ultimate/}.
15809 @subsection Web Archive
15811 @cindex Web Archive
15813 Some mailing lists only have archives on Web servers, such as
15814 @uref{http://www.egroups.com/} and
15815 @uref{http://www.mail-archive.com/}. It has a quite regular and nice
15816 interface, and it's possible to get the information Gnus needs to keep
15819 @findex gnus-group-make-warchive-group
15820 The easiest way to get started with @code{nnwarchive} is to say
15821 something like the following in the group buffer: @kbd{M-x
15822 gnus-group-make-warchive-group RET @var{an_egroup} RET egroups RET
15823 www.egroups.com RET @var{your@@email.address} RET}. (Substitute the
15824 @var{an_egroup} with the mailing list you subscribed, the
15825 @var{your@@email.address} with your email address.), or to browse the
15826 back end by @kbd{B nnwarchive RET mail-archive RET}.
15828 The following @code{nnwarchive} variables can be altered:
15831 @item nnwarchive-directory
15832 @vindex nnwarchive-directory
15833 The directory where @code{nnwarchive} stores its files. The default is@*
15834 @file{~/News/warchive/}.
15836 @item nnwarchive-login
15837 @vindex nnwarchive-login
15838 The account name on the web server.
15840 @item nnwarchive-passwd
15841 @vindex nnwarchive-passwd
15842 The password for your account on the web server.
15850 Some web sites have an RDF Site Summary (@acronym{RSS}).
15851 @acronym{RSS} is a format for summarizing headlines from news related
15852 sites (such as BBC or CNN). But basically anything list-like can be
15853 presented as an @acronym{RSS} feed: weblogs, changelogs or recent
15854 changes to a wiki (e.g. @url{http://cliki.net/recent-changes.rdf}).
15856 @acronym{RSS} has a quite regular and nice interface, and it's
15857 possible to get the information Gnus needs to keep groups updated.
15859 Note: you had better use Emacs which supports the @code{utf-8} coding
15860 system because @acronym{RSS} uses UTF-8 for encoding non-@acronym{ASCII}
15861 text by default. It is also used by default for non-@acronym{ASCII}
15864 @kindex G R (Group)
15865 Use @kbd{G R} from the group buffer to subscribe to a feed---you will be
15866 prompted for the location, the title and the description of the feed.
15867 The title, which allows any characters, will be used for the group name
15868 and the name of the group data file. The description can be omitted.
15870 An easy way to get started with @code{nnrss} is to say something like
15871 the following in the group buffer: @kbd{B nnrss RET RET y}, then
15872 subscribe to groups.
15874 The @code{nnrss} back end saves the group data file in
15875 @code{nnrss-directory} (see below) for each @code{nnrss} group. File
15876 names containing non-@acronym{ASCII} characters will be encoded by the
15877 coding system specified with the @code{nnmail-pathname-coding-system}
15878 variable. If it is @code{nil}, in Emacs the coding system defaults to
15879 the value of @code{default-file-name-coding-system}. If you are using
15880 XEmacs and want to use non-@acronym{ASCII} group names, you should set
15881 the value for the @code{nnmail-pathname-coding-system} variable properly.
15884 You can also use the following commands to import and export your
15885 subscriptions from a file in @acronym{OPML} format (Outline Processor
15888 @defun nnrss-opml-import file
15889 Prompt for an @acronym{OPML} file, and subscribe to each feed in the
15893 @defun nnrss-opml-export
15894 Write your current @acronym{RSS} subscriptions to a buffer in
15895 @acronym{OPML} format.
15898 The following @code{nnrss} variables can be altered:
15901 @item nnrss-directory
15902 @vindex nnrss-directory
15903 The directory where @code{nnrss} stores its files. The default is
15904 @file{~/News/rss/}.
15906 @item nnrss-file-coding-system
15907 @vindex nnrss-file-coding-system
15908 The coding system used when reading and writing the @code{nnrss} groups
15909 data files. The default is the value of
15910 @code{mm-universal-coding-system} (which defaults to @code{emacs-mule}
15911 in Emacs or @code{escape-quoted} in XEmacs).
15913 @item nnrss-use-local
15914 @vindex nnrss-use-local
15915 @findex nnrss-generate-download-script
15916 If you set @code{nnrss-use-local} to @code{t}, @code{nnrss} will read
15917 the feeds from local files in @code{nnrss-directory}. You can use
15918 the command @code{nnrss-generate-download-script} to generate a
15919 download script using @command{wget}.
15922 The following code may be helpful, if you want to show the description in
15923 the summary buffer.
15926 (add-to-list 'nnmail-extra-headers nnrss-description-field)
15927 (setq gnus-summary-line-format "%U%R%z%I%(%[%4L: %-15,15f%]%) %s%uX\n")
15929 (defun gnus-user-format-function-X (header)
15931 (assq nnrss-description-field (mail-header-extra header))))
15932 (if descr (concat "\n\t" (cdr descr)) "")))
15935 The following code may be useful to open an nnrss url directly from the
15938 (require 'browse-url)
15940 (defun browse-nnrss-url( arg )
15942 (let ((url (assq nnrss-url-field
15945 (assq (gnus-summary-article-number)
15946 gnus-newsgroup-data))))))
15949 (browse-url (cdr url))
15950 (gnus-summary-mark-as-read-forward 1))
15951 (gnus-summary-scroll-up arg))))
15953 (eval-after-load "gnus"
15954 #'(define-key gnus-summary-mode-map
15955 (kbd "<RET>") 'browse-nnrss-url))
15956 (add-to-list 'nnmail-extra-headers nnrss-url-field)
15959 @node Customizing W3
15960 @subsection Customizing W3
15966 Gnus uses the url library to fetch web pages and Emacs/W3 (or those
15967 alternatives) to display web pages. Emacs/W3 is documented in its own
15968 manual, but there are some things that may be more relevant for Gnus
15971 For instance, a common question is how to make Emacs/W3 follow links
15972 using the @code{browse-url} functions (which will call some external web
15973 browser like Netscape). Here's one way:
15976 (eval-after-load "w3"
15978 (fset 'w3-fetch-orig (symbol-function 'w3-fetch))
15979 (defun w3-fetch (&optional url target)
15980 (interactive (list (w3-read-url-with-default)))
15981 (if (eq major-mode 'gnus-article-mode)
15983 (w3-fetch-orig url target)))))
15986 Put that in your @file{.emacs} file, and hitting links in W3-rendered
15987 @acronym{HTML} in the Gnus article buffers will use @code{browse-url} to
15994 @cindex @acronym{IMAP}
15996 @acronym{IMAP} is a network protocol for reading mail (or news, or @dots{}),
15997 think of it as a modernized @acronym{NNTP}. Connecting to a @acronym{IMAP}
15998 server is much similar to connecting to a news server, you just
15999 specify the network address of the server.
16001 @acronym{IMAP} has two properties. First, @acronym{IMAP} can do
16002 everything that @acronym{POP} can, it can hence be viewed as a
16003 @acronym{POP++}. Secondly, @acronym{IMAP} is a mail storage protocol,
16004 similar to @acronym{NNTP} being a news storage protocol---however,
16005 @acronym{IMAP} offers more features than @acronym{NNTP} because news
16006 is more or less read-only whereas mail is read-write.
16008 If you want to use @acronym{IMAP} as a @acronym{POP++}, use an imap
16009 entry in @code{mail-sources}. With this, Gnus will fetch mails from
16010 the @acronym{IMAP} server and store them on the local disk. This is
16011 not the usage described in this section---@xref{Mail Sources}.
16013 If you want to use @acronym{IMAP} as a mail storage protocol, use an nnimap
16014 entry in @code{gnus-secondary-select-methods}. With this, Gnus will
16015 manipulate mails stored on the @acronym{IMAP} server. This is the kind of
16016 usage explained in this section.
16018 A server configuration in @file{~/.gnus.el} with a few @acronym{IMAP}
16019 servers might look something like the following. (Note that for
16020 @acronym{TLS}/@acronym{SSL}, you need external programs and libraries,
16024 (setq gnus-secondary-select-methods
16025 '((nnimap "simpleserver") ; @r{no special configuration}
16026 ; @r{perhaps a ssh port forwarded server:}
16028 (nnimap-address "localhost")
16029 (nnimap-server-port 1430))
16030 ; @r{a UW server running on localhost}
16032 (nnimap-server-port 143)
16033 (nnimap-address "localhost")
16034 (nnimap-list-pattern ("INBOX" "mail/*")))
16035 ; @r{anonymous public cyrus server:}
16036 (nnimap "cyrus.andrew.cmu.edu"
16037 (nnimap-authenticator anonymous)
16038 (nnimap-list-pattern "archive.*")
16039 (nnimap-stream network))
16040 ; @r{a ssl server on a non-standard port:}
16042 (nnimap-address "vic20.somewhere.com")
16043 (nnimap-server-port 9930)
16044 (nnimap-stream ssl))))
16047 After defining the new server, you can subscribe to groups on the
16048 server using normal Gnus commands such as @kbd{U} in the Group Buffer
16049 (@pxref{Subscription Commands}) or via the Server Buffer
16050 (@pxref{Server Buffer}).
16052 The following variables can be used to create a virtual @code{nnimap}
16057 @item nnimap-address
16058 @vindex nnimap-address
16060 The address of the remote @acronym{IMAP} server. Defaults to the virtual
16061 server name if not specified.
16063 @item nnimap-server-port
16064 @vindex nnimap-server-port
16065 Port on server to contact. Defaults to port 143, or 993 for @acronym{TLS}/@acronym{SSL}.
16067 Note that this should be an integer, example server specification:
16070 (nnimap "mail.server.com"
16071 (nnimap-server-port 4711))
16074 @item nnimap-list-pattern
16075 @vindex nnimap-list-pattern
16076 String or list of strings of mailboxes to limit available groups to.
16077 This is used when the server has very many mailboxes and you're only
16078 interested in a few---some servers export your home directory via
16079 @acronym{IMAP}, you'll probably want to limit the mailboxes to those in
16080 @file{~/Mail/*} then.
16082 The string can also be a cons of REFERENCE and the string as above, what
16083 REFERENCE is used for is server specific, but on the University of
16084 Washington server it's a directory that will be concatenated with the
16087 Example server specification:
16090 (nnimap "mail.server.com"
16091 (nnimap-list-pattern ("INBOX" "Mail/*" "alt.sex.*"
16092 ("~friend/Mail/" . "list/*"))))
16095 @item nnimap-stream
16096 @vindex nnimap-stream
16097 The type of stream used to connect to your server. By default, nnimap
16098 will detect and automatically use all of the below, with the exception
16099 of @acronym{TLS}/@acronym{SSL}. (@acronym{IMAP} over
16100 @acronym{TLS}/@acronym{SSL} is being replaced by STARTTLS, which can
16101 be automatically detected, but it's not widely deployed yet.)
16103 Example server specification:
16106 (nnimap "mail.server.com"
16107 (nnimap-stream ssl))
16110 Please note that the value of @code{nnimap-stream} is a symbol!
16114 @dfn{gssapi:} Connect with GSSAPI (usually Kerberos 5). Requires the
16115 @samp{gsasl} or @samp{imtest} program.
16117 @dfn{kerberos4:} Connect with Kerberos 4. Requires the @samp{imtest} program.
16119 @dfn{starttls:} Connect via the STARTTLS extension (similar to
16120 @acronym{TLS}/@acronym{SSL}). Requires the external library @samp{starttls.el} and program
16123 @dfn{tls:} Connect through @acronym{TLS}. Requires GNUTLS (the program
16124 @samp{gnutls-cli}).
16126 @dfn{ssl:} Connect through @acronym{SSL}. Requires OpenSSL (the program
16127 @samp{openssl}) or SSLeay (@samp{s_client}).
16129 @dfn{shell:} Use a shell command to start @acronym{IMAP} connection.
16131 @dfn{network:} Plain, TCP/IP network connection.
16134 @vindex imap-kerberos4-program
16135 The @samp{imtest} program is shipped with Cyrus IMAPD. If you're
16136 using @samp{imtest} from Cyrus IMAPD < 2.0.14 (which includes version
16137 1.5.x and 1.6.x) you need to frob @code{imap-process-connection-type}
16138 to make @code{imap.el} use a pty instead of a pipe when communicating
16139 with @samp{imtest}. You will then suffer from a line length
16140 restrictions on @acronym{IMAP} commands, which might make Gnus seem to hang
16141 indefinitely if you have many articles in a mailbox. The variable
16142 @code{imap-kerberos4-program} contain parameters to pass to the imtest
16145 For @acronym{TLS} connection, the @code{gnutls-cli} program from GNUTLS is
16146 needed. It is available from
16147 @uref{http://www.gnu.org/software/gnutls/}.
16149 @vindex imap-gssapi-program
16150 This parameter specifies a list of command lines that invoke a GSSAPI
16151 authenticated @acronym{IMAP} stream in a subshell. They are tried
16152 sequentially until a connection is made, or the list has been
16153 exhausted. By default, @samp{gsasl} from GNU SASL, available from
16154 @uref{http://www.gnu.org/software/gsasl/}, and the @samp{imtest}
16155 program from Cyrus IMAPD (see @code{imap-kerberos4-program}), are
16158 @vindex imap-ssl-program
16159 For @acronym{SSL} connections, the OpenSSL program is available from
16160 @uref{http://www.openssl.org/}. OpenSSL was formerly known as SSLeay,
16161 and nnimap support it too---although the most recent versions of
16162 SSLeay, 0.9.x, are known to have serious bugs making it
16163 useless. Earlier versions, especially 0.8.x, of SSLeay are known to
16164 work. The variable @code{imap-ssl-program} contain parameters to pass
16167 @vindex imap-shell-program
16168 @vindex imap-shell-host
16169 For @acronym{IMAP} connections using the @code{shell} stream, the variable
16170 @code{imap-shell-program} specify what program to call.
16172 @item nnimap-authenticator
16173 @vindex nnimap-authenticator
16175 The authenticator used to connect to the server. By default, nnimap
16176 will use the most secure authenticator your server is capable of.
16178 Example server specification:
16181 (nnimap "mail.server.com"
16182 (nnimap-authenticator anonymous))
16185 Please note that the value of @code{nnimap-authenticator} is a symbol!
16189 @dfn{gssapi:} GSSAPI (usually kerberos 5) authentication. Requires
16190 external program @code{gsasl} or @code{imtest}.
16192 @dfn{kerberos4:} Kerberos 4 authentication. Requires external program
16195 @dfn{digest-md5:} Encrypted username/password via DIGEST-MD5. Requires
16196 external library @code{digest-md5.el}.
16198 @dfn{cram-md5:} Encrypted username/password via CRAM-MD5.
16200 @dfn{login:} Plain-text username/password via LOGIN.
16202 @dfn{anonymous:} Login as ``anonymous'', supplying your email address as password.
16205 @item nnimap-expunge-on-close
16207 @vindex nnimap-expunge-on-close
16208 Unlike Parmenides the @acronym{IMAP} designers have decided things that
16209 don't exist actually do exist. More specifically, @acronym{IMAP} has
16210 this concept of marking articles @code{Deleted} which doesn't actually
16211 delete them, and this (marking them @code{Deleted}, that is) is what
16212 nnimap does when you delete an article in Gnus (with @kbd{B DEL} or
16215 Since the articles aren't really removed when we mark them with the
16216 @code{Deleted} flag we'll need a way to actually delete them. Feel like
16217 running in circles yet?
16219 Traditionally, nnimap has removed all articles marked as @code{Deleted}
16220 when closing a mailbox but this is now configurable by this server
16223 The possible options are:
16228 The default behavior, delete all articles marked as ``Deleted'' when
16231 Never actually delete articles. Currently there is no way of showing
16232 the articles marked for deletion in nnimap, but other @acronym{IMAP} clients
16233 may allow you to do this. If you ever want to run the EXPUNGE command
16234 manually, @xref{Expunging mailboxes}.
16236 When closing mailboxes, nnimap will ask if you wish to expunge deleted
16241 @item nnimap-importantize-dormant
16242 @vindex nnimap-importantize-dormant
16244 If non-@code{nil} (the default), marks dormant articles as ticked (as
16245 well), for other @acronym{IMAP} clients. Within Gnus, dormant articles will
16246 naturally still (only) be marked as dormant. This is to make dormant
16247 articles stand out, just like ticked articles, in other @acronym{IMAP}
16248 clients. (In other words, Gnus has two ``Tick'' marks and @acronym{IMAP}
16251 Probably the only reason for frobing this would be if you're trying
16252 enable per-user persistent dormant flags, using something like:
16255 (setcdr (assq 'dormant nnimap-mark-to-flag-alist)
16256 (format "gnus-dormant-%s" (user-login-name)))
16257 (setcdr (assq 'dormant nnimap-mark-to-predicate-alist)
16258 (format "KEYWORD gnus-dormant-%s" (user-login-name)))
16261 In this case, you would not want the per-user dormant flag showing up
16262 as ticked for other users.
16264 @item nnimap-expunge-search-string
16266 @vindex nnimap-expunge-search-string
16268 This variable contain the @acronym{IMAP} search command sent to server when
16269 searching for articles eligible for expiring. The default is
16270 @code{"UID %s NOT SINCE %s"}, where the first @code{%s} is replaced by
16271 UID set and the second @code{%s} is replaced by a date.
16273 Probably the only useful value to change this to is
16274 @code{"UID %s NOT SENTSINCE %s"}, which makes nnimap use the Date: in
16275 messages instead of the internal article date. See section 6.4.4 of
16276 RFC 2060 for more information on valid strings.
16278 @item nnimap-authinfo-file
16279 @vindex nnimap-authinfo-file
16281 A file containing credentials used to log in on servers. The format is
16282 (almost) the same as the @code{ftp} @file{~/.netrc} file. See the
16283 variable @code{nntp-authinfo-file} for exact syntax; also see
16284 @ref{NNTP}. An example of an .authinfo line for an IMAP server, is:
16287 machine students.uio.no login larsi password geheimnis port imap
16290 Note that it should be @code{port imap}, or @code{port 143}, if you
16291 use a @code{nnimap-stream} of @code{tls} or @code{ssl}, even if the
16292 actual port number used is port 993 for secured IMAP. For
16293 convenience, Gnus will accept @code{port imaps} as a synonym of
16296 @item nnimap-need-unselect-to-notice-new-mail
16297 @vindex nnimap-need-unselect-to-notice-new-mail
16299 Unselect mailboxes before looking for new mail in them. Some servers
16300 seem to need this under some circumstances; it was reported that
16306 * Splitting in IMAP:: Splitting mail with nnimap.
16307 * Expiring in IMAP:: Expiring mail with nnimap.
16308 * Editing IMAP ACLs:: Limiting/enabling other users access to a mailbox.
16309 * Expunging mailboxes:: Equivalent of a ``compress mailbox'' button.
16310 * A note on namespaces:: How to (not) use @acronym{IMAP} namespace in Gnus.
16311 * Debugging IMAP:: What to do when things don't work.
16316 @node Splitting in IMAP
16317 @subsection Splitting in IMAP
16318 @cindex splitting imap mail
16320 Splitting is something Gnus users have loved and used for years, and now
16321 the rest of the world is catching up. Yeah, dream on, not many
16322 @acronym{IMAP} servers have server side splitting and those that have
16323 splitting seem to use some non-standard protocol. This means that
16324 @acronym{IMAP} support for Gnus has to do its own splitting.
16328 (Incidentally, people seem to have been dreaming on, and Sieve has
16329 gaining a market share and is supported by several IMAP servers.
16330 Fortunately, Gnus support it too, @xref{Sieve Commands}.)
16332 Here are the variables of interest:
16336 @item nnimap-split-crosspost
16337 @cindex splitting, crosspost
16339 @vindex nnimap-split-crosspost
16341 If non-@code{nil}, do crossposting if several split methods match the
16342 mail. If @code{nil}, the first match in @code{nnimap-split-rule}
16343 found will be used.
16345 Nnmail equivalent: @code{nnmail-crosspost}.
16347 @item nnimap-split-inbox
16348 @cindex splitting, inbox
16350 @vindex nnimap-split-inbox
16352 A string or a list of strings that gives the name(s) of @acronym{IMAP}
16353 mailboxes to split from. Defaults to @code{nil}, which means that
16354 splitting is disabled!
16357 (setq nnimap-split-inbox
16358 '("INBOX" ("~/friend/Mail" . "lists/*") "lists.imap"))
16361 No nnmail equivalent.
16363 @item nnimap-split-rule
16364 @cindex splitting, rules
16365 @vindex nnimap-split-rule
16367 New mail found in @code{nnimap-split-inbox} will be split according to
16370 This variable contains a list of lists, where the first element in the
16371 sublist gives the name of the @acronym{IMAP} mailbox to move articles
16372 matching the regexp in the second element in the sublist. Got that?
16373 Neither did I, we need examples.
16376 (setq nnimap-split-rule
16378 "^Sender: owner-nnimap@@vic20.globalcom.se")
16379 ("INBOX.junk" "^Subject:.*MAKE MONEY")
16380 ("INBOX.private" "")))
16383 This will put all articles from the nnimap mailing list into mailbox
16384 INBOX.nnimap, all articles containing MAKE MONEY in the Subject: line
16385 into INBOX.junk and everything else in INBOX.private.
16387 The first string may contain @samp{\\1} forms, like the ones used by
16388 replace-match to insert sub-expressions from the matched text. For
16392 ("INBOX.lists.\\1" "^Sender: owner-\\([a-z-]+\\)@@")
16395 The first element can also be the symbol @code{junk} to indicate that
16396 matching messages should simply be deleted. Use with care.
16398 The second element can also be a function. In that case, it will be
16399 called with the first element of the rule as the argument, in a buffer
16400 containing the headers of the article. It should return a
16401 non-@code{nil} value if it thinks that the mail belongs in that group.
16403 Nnmail users might recollect that the last regexp had to be empty to
16404 match all articles (like in the example above). This is not required in
16405 nnimap. Articles not matching any of the regexps will not be moved out
16406 of your inbox. (This might affect performance if you keep lots of
16407 unread articles in your inbox, since the splitting code would go over
16408 them every time you fetch new mail.)
16410 These rules are processed from the beginning of the alist toward the
16411 end. The first rule to make a match will ``win'', unless you have
16412 crossposting enabled. In that case, all matching rules will ``win''.
16414 This variable can also have a function as its value, the function will
16415 be called with the headers narrowed and should return a group where it
16416 thinks the article should be split to. See @code{nnimap-split-fancy}.
16418 The splitting code tries to create mailboxes if it needs to.
16420 To allow for different split rules on different virtual servers, and
16421 even different split rules in different inboxes on the same server,
16422 the syntax of this variable have been extended along the lines of:
16425 (setq nnimap-split-rule
16426 '(("my1server" (".*" (("ding" "ding@@gnus.org")
16427 ("junk" "From:.*Simon"))))
16428 ("my2server" ("INBOX" nnimap-split-fancy))
16429 ("my[34]server" (".*" (("private" "To:.*Simon")
16430 ("junk" my-junk-func))))))
16433 The virtual server name is in fact a regexp, so that the same rules
16434 may apply to several servers. In the example, the servers
16435 @code{my3server} and @code{my4server} both use the same rules.
16436 Similarly, the inbox string is also a regexp. The actual splitting
16437 rules are as before, either a function, or a list with group/regexp or
16438 group/function elements.
16440 Nnmail equivalent: @code{nnmail-split-methods}.
16442 @item nnimap-split-predicate
16444 @vindex nnimap-split-predicate
16446 Mail matching this predicate in @code{nnimap-split-inbox} will be
16447 split, it is a string and the default is @samp{UNSEEN UNDELETED}.
16449 This might be useful if you use another @acronym{IMAP} client to read mail in
16450 your inbox but would like Gnus to split all articles in the inbox
16451 regardless of readedness. Then you might change this to
16454 @item nnimap-split-fancy
16455 @cindex splitting, fancy
16456 @findex nnimap-split-fancy
16457 @vindex nnimap-split-fancy
16459 It's possible to set @code{nnimap-split-rule} to
16460 @code{nnmail-split-fancy} if you want to use fancy
16461 splitting. @xref{Fancy Mail Splitting}.
16463 However, to be able to have different fancy split rules for nnmail and
16464 nnimap back ends you can set @code{nnimap-split-rule} to
16465 @code{nnimap-split-fancy} and define the nnimap specific fancy split
16466 rule in @code{nnimap-split-fancy}.
16471 (setq nnimap-split-rule 'nnimap-split-fancy
16472 nnimap-split-fancy ...)
16475 Nnmail equivalent: @code{nnmail-split-fancy}.
16477 @item nnimap-split-download-body
16478 @findex nnimap-split-download-body
16479 @vindex nnimap-split-download-body
16481 Set to non-@code{nil} to download entire articles during splitting.
16482 This is generally not required, and will slow things down
16483 considerably. You may need it if you want to use an advanced
16484 splitting function that analyzes the body to split the article.
16488 @node Expiring in IMAP
16489 @subsection Expiring in IMAP
16490 @cindex expiring imap mail
16492 Even though @code{nnimap} is not a proper @code{nnmail} derived back
16493 end, it supports most features in regular expiring (@pxref{Expiring
16494 Mail}). Unlike splitting in @acronym{IMAP} (@pxref{Splitting in
16495 IMAP}) it does not clone the @code{nnmail} variables (i.e., creating
16496 @var{nnimap-expiry-wait}) but reuse the @code{nnmail} variables. What
16497 follows below are the variables used by the @code{nnimap} expiry
16500 A note on how the expire mark is stored on the @acronym{IMAP} server is
16501 appropriate here as well. The expire mark is translated into a
16502 @code{imap} client specific mark, @code{gnus-expire}, and stored on the
16503 message. This means that likely only Gnus will understand and treat
16504 the @code{gnus-expire} mark properly, although other clients may allow
16505 you to view client specific flags on the message. It also means that
16506 your server must support permanent storage of client specific flags on
16507 messages. Most do, fortunately.
16511 @item nnmail-expiry-wait
16512 @item nnmail-expiry-wait-function
16514 These variables are fully supported. The expire value can be a
16515 number, the symbol @code{immediate} or @code{never}.
16517 @item nnmail-expiry-target
16519 This variable is supported, and internally implemented by calling the
16520 @code{nnmail} functions that handle this. It contains an optimization
16521 that if the destination is a @acronym{IMAP} group on the same server, the
16522 article is copied instead of appended (that is, uploaded again).
16526 @node Editing IMAP ACLs
16527 @subsection Editing IMAP ACLs
16528 @cindex editing imap acls
16529 @cindex Access Control Lists
16530 @cindex Editing @acronym{IMAP} ACLs
16531 @kindex G l (Group)
16532 @findex gnus-group-nnimap-edit-acl
16534 ACL stands for Access Control List. ACLs are used in @acronym{IMAP} for
16535 limiting (or enabling) other users access to your mail boxes. Not all
16536 @acronym{IMAP} servers support this, this function will give an error if it
16539 To edit an ACL for a mailbox, type @kbd{G l}
16540 (@code{gnus-group-edit-nnimap-acl}) and you'll be presented with an ACL
16541 editing window with detailed instructions.
16543 Some possible uses:
16547 Giving ``anyone'' the ``lrs'' rights (lookup, read, keep seen/unseen flags)
16548 on your mailing list mailboxes enables other users on the same server to
16549 follow the list without subscribing to it.
16551 At least with the Cyrus server, you are required to give the user
16552 ``anyone'' posting ("p") capabilities to have ``plussing'' work (that is,
16553 mail sent to user+mailbox@@domain ending up in the @acronym{IMAP} mailbox
16557 @node Expunging mailboxes
16558 @subsection Expunging mailboxes
16562 @cindex manual expunging
16563 @kindex G x (Group)
16564 @findex gnus-group-nnimap-expunge
16566 If you're using the @code{never} setting of @code{nnimap-expunge-on-close},
16567 you may want the option of expunging all deleted articles in a mailbox
16568 manually. This is exactly what @kbd{G x} does.
16570 Currently there is no way of showing deleted articles, you can just
16573 @node A note on namespaces
16574 @subsection A note on namespaces
16575 @cindex IMAP namespace
16578 The @acronym{IMAP} protocol has a concept called namespaces, described
16579 by the following text in the RFC2060:
16582 5.1.2. Mailbox Namespace Naming Convention
16584 By convention, the first hierarchical element of any mailbox name
16585 which begins with "#" identifies the "namespace" of the remainder of
16586 the name. This makes it possible to disambiguate between different
16587 types of mailbox stores, each of which have their own namespaces.
16589 For example, implementations which offer access to USENET
16590 newsgroups MAY use the "#news" namespace to partition the USENET
16591 newsgroup namespace from that of other mailboxes. Thus, the
16592 comp.mail.misc newsgroup would have an mailbox name of
16593 "#news.comp.mail.misc", and the name "comp.mail.misc" could refer
16594 to a different object (e.g. a user's private mailbox).
16597 While there is nothing in this text that warrants concern for the
16598 @acronym{IMAP} implementation in Gnus, some servers use namespace
16599 prefixes in a way that does not work with how Gnus uses mailbox names.
16601 Specifically, University of Washington's @acronym{IMAP} server uses
16602 mailbox names like @code{#driver.mbx/read-mail} which are valid only
16603 in the @sc{create} and @sc{append} commands. After the mailbox is
16604 created (or a messages is appended to a mailbox), it must be accessed
16605 without the namespace prefix, i.e. @code{read-mail}. Since Gnus do
16606 not make it possible for the user to guarantee that user entered
16607 mailbox names will only be used with the CREATE and APPEND commands,
16608 you should simply not use the namespace prefixed mailbox names in
16611 See the UoW IMAPD documentation for the @code{#driver.*/} prefix
16612 for more information on how to use the prefixes. They are a power
16613 tool and should be used only if you are sure what the effects are.
16615 @node Debugging IMAP
16616 @subsection Debugging IMAP
16617 @cindex IMAP debugging
16618 @cindex protocol dump (IMAP)
16620 @acronym{IMAP} is a complex protocol, more so than @acronym{NNTP} or
16621 @acronym{POP3}. Implementation bugs are not unlikely, and we do our
16622 best to fix them right away. If you encounter odd behavior, chances
16623 are that either the server or Gnus is buggy.
16625 If you are familiar with network protocols in general, you will
16626 probably be able to extract some clues from the protocol dump of the
16627 exchanges between Gnus and the server. Even if you are not familiar
16628 with network protocols, when you include the protocol dump in
16629 @acronym{IMAP}-related bug reports you are helping us with data
16630 critical to solving the problem. Therefore, we strongly encourage you
16631 to include the protocol dump when reporting IMAP bugs in Gnus.
16635 Because the protocol dump, when enabled, generates lots of data, it is
16636 disabled by default. You can enable it by setting @code{imap-log} as
16643 This instructs the @code{imap.el} package to log any exchanges with
16644 the server. The log is stored in the buffer @samp{*imap-log*}. Look
16645 for error messages, which sometimes are tagged with the keyword
16646 @code{BAD}---but when submitting a bug, make sure to include all the
16649 @node Other Sources
16650 @section Other Sources
16652 Gnus can do more than just read news or mail. The methods described
16653 below allow Gnus to view directories and files as if they were
16657 * Directory Groups:: You can read a directory as if it was a newsgroup.
16658 * Anything Groups:: Dired? Who needs dired?
16659 * Document Groups:: Single files can be the basis of a group.
16660 * SOUP:: Reading @sc{soup} packets ``offline''.
16661 * Mail-To-News Gateways:: Posting articles via mail-to-news gateways.
16665 @node Directory Groups
16666 @subsection Directory Groups
16668 @cindex directory groups
16670 If you have a directory that has lots of articles in separate files in
16671 it, you might treat it as a newsgroup. The files have to have numerical
16674 This might be an opportune moment to mention @code{ange-ftp} (and its
16675 successor @code{efs}), that most wonderful of all wonderful Emacs
16676 packages. When I wrote @code{nndir}, I didn't think much about it---a
16677 back end to read directories. Big deal.
16679 @code{ange-ftp} changes that picture dramatically. For instance, if you
16680 enter the @code{ange-ftp} file name
16681 @file{/ftp.hpc.uh.edu:/pub/emacs/ding-list/} as the directory name,
16682 @code{ange-ftp} or @code{efs} will actually allow you to read this
16683 directory over at @samp{sina} as a newsgroup. Distributed news ahoy!
16685 @code{nndir} will use @acronym{NOV} files if they are present.
16687 @code{nndir} is a ``read-only'' back end---you can't delete or expire
16688 articles with this method. You can use @code{nnmh} or @code{nnml} for
16689 whatever you use @code{nndir} for, so you could switch to any of those
16690 methods if you feel the need to have a non-read-only @code{nndir}.
16693 @node Anything Groups
16694 @subsection Anything Groups
16697 From the @code{nndir} back end (which reads a single spool-like
16698 directory), it's just a hop and a skip to @code{nneething}, which
16699 pretends that any arbitrary directory is a newsgroup. Strange, but
16702 When @code{nneething} is presented with a directory, it will scan this
16703 directory and assign article numbers to each file. When you enter such
16704 a group, @code{nneething} must create ``headers'' that Gnus can use.
16705 After all, Gnus is a newsreader, in case you're forgetting.
16706 @code{nneething} does this in a two-step process. First, it snoops each
16707 file in question. If the file looks like an article (i.e., the first
16708 few lines look like headers), it will use this as the head. If this is
16709 just some arbitrary file without a head (e.g. a C source file),
16710 @code{nneething} will cobble up a header out of thin air. It will use
16711 file ownership, name and date and do whatever it can with these
16714 All this should happen automatically for you, and you will be presented
16715 with something that looks very much like a newsgroup. Totally like a
16716 newsgroup, to be precise. If you select an article, it will be displayed
16717 in the article buffer, just as usual.
16719 If you select a line that represents a directory, Gnus will pop you into
16720 a new summary buffer for this @code{nneething} group. And so on. You can
16721 traverse the entire disk this way, if you feel like, but remember that
16722 Gnus is not dired, really, and does not intend to be, either.
16724 There are two overall modes to this action---ephemeral or solid. When
16725 doing the ephemeral thing (i.e., @kbd{G D} from the group buffer), Gnus
16726 will not store information on what files you have read, and what files
16727 are new, and so on. If you create a solid @code{nneething} group the
16728 normal way with @kbd{G m}, Gnus will store a mapping table between
16729 article numbers and file names, and you can treat this group like any
16730 other groups. When you activate a solid @code{nneething} group, you will
16731 be told how many unread articles it contains, etc., etc.
16736 @item nneething-map-file-directory
16737 @vindex nneething-map-file-directory
16738 All the mapping files for solid @code{nneething} groups will be stored
16739 in this directory, which defaults to @file{~/.nneething/}.
16741 @item nneething-exclude-files
16742 @vindex nneething-exclude-files
16743 All files that match this regexp will be ignored. Nice to use to exclude
16744 auto-save files and the like, which is what it does by default.
16746 @item nneething-include-files
16747 @vindex nneething-include-files
16748 Regexp saying what files to include in the group. If this variable is
16749 non-@code{nil}, only files matching this regexp will be included.
16751 @item nneething-map-file
16752 @vindex nneething-map-file
16753 Name of the map files.
16757 @node Document Groups
16758 @subsection Document Groups
16760 @cindex documentation group
16763 @code{nndoc} is a cute little thing that will let you read a single file
16764 as a newsgroup. Several files types are supported:
16770 The Babyl (Rmail) mail box.
16775 The standard Unix mbox file.
16777 @cindex MMDF mail box
16779 The MMDF mail box format.
16782 Several news articles appended into a file.
16784 @cindex rnews batch files
16786 The rnews batch transport format.
16789 Netscape mail boxes.
16792 @acronym{MIME} multipart messages.
16794 @item standard-digest
16795 The standard (RFC 1153) digest format.
16798 A @acronym{MIME} digest of messages.
16800 @item lanl-gov-announce
16801 Announcement messages from LANL Gov Announce.
16803 @cindex forwarded messages
16804 @item rfc822-forward
16805 A message forwarded according to RFC822.
16808 The Outlook mail box.
16811 The Outlook Express dbx mail box.
16814 A bounce message from the Exim MTA.
16817 A message forwarded according to informal rules.
16820 An RFC934-forwarded message.
16826 A digest of Clarinet brief news items.
16829 Non-standard digest format---matches most things, but does it badly.
16835 You can also use the special ``file type'' @code{guess}, which means
16836 that @code{nndoc} will try to guess what file type it is looking at.
16837 @code{digest} means that @code{nndoc} should guess what digest type the
16840 @code{nndoc} will not try to change the file or insert any extra headers into
16841 it---it will simply, like, let you use the file as the basis for a
16842 group. And that's it.
16844 If you have some old archived articles that you want to insert into your
16845 new & spiffy Gnus mail back end, @code{nndoc} can probably help you with
16846 that. Say you have an old @file{RMAIL} file with mail that you now want
16847 to split into your new @code{nnml} groups. You look at that file using
16848 @code{nndoc} (using the @kbd{G f} command in the group buffer
16849 (@pxref{Foreign Groups})), set the process mark on all the articles in
16850 the buffer (@kbd{M P b}, for instance), and then re-spool (@kbd{B r})
16851 using @code{nnml}. If all goes well, all the mail in the @file{RMAIL}
16852 file is now also stored in lots of @code{nnml} directories, and you can
16853 delete that pesky @file{RMAIL} file. If you have the guts!
16855 Virtual server variables:
16858 @item nndoc-article-type
16859 @vindex nndoc-article-type
16860 This should be one of @code{mbox}, @code{babyl}, @code{digest},
16861 @code{news}, @code{rnews}, @code{mmdf}, @code{forward}, @code{rfc934},
16862 @code{rfc822-forward}, @code{mime-parts}, @code{standard-digest},
16863 @code{slack-digest}, @code{clari-briefs}, @code{nsmail}, @code{outlook},
16864 @code{oe-dbx}, @code{mailman}, and @code{mail-in-mail} or @code{guess}.
16866 @item nndoc-post-type
16867 @vindex nndoc-post-type
16868 This variable says whether Gnus is to consider the group a news group or
16869 a mail group. There are two valid values: @code{mail} (the default)
16874 * Document Server Internals:: How to add your own document types.
16878 @node Document Server Internals
16879 @subsubsection Document Server Internals
16881 Adding new document types to be recognized by @code{nndoc} isn't
16882 difficult. You just have to whip up a definition of what the document
16883 looks like, write a predicate function to recognize that document type,
16884 and then hook into @code{nndoc}.
16886 First, here's an example document type definition:
16890 (article-begin . "^\^A\^A\^A\^A\n")
16891 (body-end . "^\^A\^A\^A\^A\n"))
16894 The definition is simply a unique @dfn{name} followed by a series of
16895 regexp pseudo-variable settings. Below are the possible
16896 variables---don't be daunted by the number of variables; most document
16897 types can be defined with very few settings:
16900 @item first-article
16901 If present, @code{nndoc} will skip past all text until it finds
16902 something that match this regexp. All text before this will be
16905 @item article-begin
16906 This setting has to be present in all document type definitions. It
16907 says what the beginning of each article looks like. To do more
16908 complicated things that cannot be dealt with a simple regexp, you can
16909 use @code{article-begin-function} instead of this.
16911 @item article-begin-function
16912 If present, this should be a function that moves point to the beginning
16913 of each article. This setting overrides @code{article-begin}.
16916 If present, this should be a regexp that matches the head of the
16917 article. To do more complicated things that cannot be dealt with a
16918 simple regexp, you can use @code{head-begin-function} instead of this.
16920 @item head-begin-function
16921 If present, this should be a function that moves point to the head of
16922 the article. This setting overrides @code{head-begin}.
16925 This should match the end of the head of the article. It defaults to
16926 @samp{^$}---the empty line.
16929 This should match the beginning of the body of the article. It defaults
16930 to @samp{^\n}. To do more complicated things that cannot be dealt with
16931 a simple regexp, you can use @code{body-begin-function} instead of this.
16933 @item body-begin-function
16934 If present, this function should move point to the beginning of the body
16935 of the article. This setting overrides @code{body-begin}.
16938 If present, this should match the end of the body of the article. To do
16939 more complicated things that cannot be dealt with a simple regexp, you
16940 can use @code{body-end-function} instead of this.
16942 @item body-end-function
16943 If present, this function should move point to the end of the body of
16944 the article. This setting overrides @code{body-end}.
16947 If present, this should match the beginning of the file. All text
16948 before this regexp will be totally ignored.
16951 If present, this should match the end of the file. All text after this
16952 regexp will be totally ignored.
16956 So, using these variables @code{nndoc} is able to dissect a document
16957 file into a series of articles, each with a head and a body. However, a
16958 few more variables are needed since not all document types are all that
16959 news-like---variables needed to transform the head or the body into
16960 something that's palatable for Gnus:
16963 @item prepare-body-function
16964 If present, this function will be called when requesting an article. It
16965 will be called with point at the start of the body, and is useful if the
16966 document has encoded some parts of its contents.
16968 @item article-transform-function
16969 If present, this function is called when requesting an article. It's
16970 meant to be used for more wide-ranging transformation of both head and
16971 body of the article.
16973 @item generate-head-function
16974 If present, this function is called to generate a head that Gnus can
16975 understand. It is called with the article number as a parameter, and is
16976 expected to generate a nice head for the article in question. It is
16977 called when requesting the headers of all articles.
16979 @item generate-article-function
16980 If present, this function is called to generate an entire article that
16981 Gnus can understand. It is called with the article number as a
16982 parameter when requesting all articles.
16984 @item dissection-function
16985 If present, this function is called to dissect a document by itself,
16986 overriding @code{first-article}, @code{article-begin},
16987 @code{article-begin-function}, @code{head-begin},
16988 @code{head-begin-function}, @code{head-end}, @code{body-begin},
16989 @code{body-begin-function}, @code{body-end}, @code{body-end-function},
16990 @code{file-begin}, and @code{file-end}.
16994 Let's look at the most complicated example I can come up with---standard
16999 (first-article . ,(concat "^" (make-string 70 ?-) "\n\n+"))
17000 (article-begin . ,(concat "\n\n" (make-string 30 ?-) "\n\n+"))
17001 (prepare-body-function . nndoc-unquote-dashes)
17002 (body-end-function . nndoc-digest-body-end)
17003 (head-end . "^ ?$")
17004 (body-begin . "^ ?\n")
17005 (file-end . "^End of .*digest.*[0-9].*\n\\*\\*\\|^End of.*Digest *$")
17006 (subtype digest guess))
17009 We see that all text before a 70-width line of dashes is ignored; all
17010 text after a line that starts with that @samp{^End of} is also ignored;
17011 each article begins with a 30-width line of dashes; the line separating
17012 the head from the body may contain a single space; and that the body is
17013 run through @code{nndoc-unquote-dashes} before being delivered.
17015 To hook your own document definition into @code{nndoc}, use the
17016 @code{nndoc-add-type} function. It takes two parameters---the first
17017 is the definition itself and the second (optional) parameter says
17018 where in the document type definition alist to put this definition.
17019 The alist is traversed sequentially, and
17020 @code{nndoc-@var{type}-type-p} is called for a given type @var{type}.
17021 So @code{nndoc-mmdf-type-p} is called to see whether a document is of
17022 @code{mmdf} type, and so on. These type predicates should return
17023 @code{nil} if the document is not of the correct type; @code{t} if it
17024 is of the correct type; and a number if the document might be of the
17025 correct type. A high number means high probability; a low number
17026 means low probability with @samp{0} being the lowest valid number.
17034 In the PC world people often talk about ``offline'' newsreaders. These
17035 are thingies that are combined reader/news transport monstrosities.
17036 With built-in modem programs. Yecchh!
17038 Of course, us Unix Weenie types of human beans use things like
17039 @code{uucp} and, like, @code{nntpd} and set up proper news and mail
17040 transport things like Ghod intended. And then we just use normal
17043 However, it can sometimes be convenient to do something that's a bit
17044 easier on the brain if you have a very slow modem, and you're not really
17045 that interested in doing things properly.
17047 A file format called @sc{soup} has been developed for transporting news
17048 and mail from servers to home machines and back again. It can be a bit
17051 First some terminology:
17056 This is the machine that is connected to the outside world and where you
17057 get news and/or mail from.
17060 This is the machine that you want to do the actual reading and responding
17061 on. It is typically not connected to the rest of the world in any way.
17064 Something that contains messages and/or commands. There are two kinds
17068 @item message packets
17069 These are packets made at the server, and typically contain lots of
17070 messages for you to read. These are called @file{SoupoutX.tgz} by
17071 default, where @var{x} is a number.
17073 @item response packets
17074 These are packets made at the home machine, and typically contains
17075 replies that you've written. These are called @file{SoupinX.tgz} by
17076 default, where @var{x} is a number.
17086 You log in on the server and create a @sc{soup} packet. You can either
17087 use a dedicated @sc{soup} thingie (like the @code{awk} program), or you
17088 can use Gnus to create the packet with its @sc{soup} commands (@kbd{O
17089 s} and/or @kbd{G s b}; and then @kbd{G s p}) (@pxref{SOUP Commands}).
17092 You transfer the packet home. Rail, boat, car or modem will do fine.
17095 You put the packet in your home directory.
17098 You fire up Gnus on your home machine using the @code{nnsoup} back end as
17099 the native or secondary server.
17102 You read articles and mail and answer and followup to the things you
17103 want (@pxref{SOUP Replies}).
17106 You do the @kbd{G s r} command to pack these replies into a @sc{soup}
17110 You transfer this packet to the server.
17113 You use Gnus to mail this packet out with the @kbd{G s s} command.
17116 You then repeat until you die.
17120 So you basically have a bipartite system---you use @code{nnsoup} for
17121 reading and Gnus for packing/sending these @sc{soup} packets.
17124 * SOUP Commands:: Commands for creating and sending @sc{soup} packets
17125 * SOUP Groups:: A back end for reading @sc{soup} packets.
17126 * SOUP Replies:: How to enable @code{nnsoup} to take over mail and news.
17130 @node SOUP Commands
17131 @subsubsection SOUP Commands
17133 These are commands for creating and manipulating @sc{soup} packets.
17137 @kindex G s b (Group)
17138 @findex gnus-group-brew-soup
17139 Pack all unread articles in the current group
17140 (@code{gnus-group-brew-soup}). This command understands the
17141 process/prefix convention.
17144 @kindex G s w (Group)
17145 @findex gnus-soup-save-areas
17146 Save all @sc{soup} data files (@code{gnus-soup-save-areas}).
17149 @kindex G s s (Group)
17150 @findex gnus-soup-send-replies
17151 Send all replies from the replies packet
17152 (@code{gnus-soup-send-replies}).
17155 @kindex G s p (Group)
17156 @findex gnus-soup-pack-packet
17157 Pack all files into a @sc{soup} packet (@code{gnus-soup-pack-packet}).
17160 @kindex G s r (Group)
17161 @findex nnsoup-pack-replies
17162 Pack all replies into a replies packet (@code{nnsoup-pack-replies}).
17165 @kindex O s (Summary)
17166 @findex gnus-soup-add-article
17167 This summary-mode command adds the current article to a @sc{soup} packet
17168 (@code{gnus-soup-add-article}). It understands the process/prefix
17169 convention (@pxref{Process/Prefix}).
17174 There are a few variables to customize where Gnus will put all these
17179 @item gnus-soup-directory
17180 @vindex gnus-soup-directory
17181 Directory where Gnus will save intermediate files while composing
17182 @sc{soup} packets. The default is @file{~/SoupBrew/}.
17184 @item gnus-soup-replies-directory
17185 @vindex gnus-soup-replies-directory
17186 This is what Gnus will use as a temporary directory while sending our
17187 reply packets. @file{~/SoupBrew/SoupReplies/} is the default.
17189 @item gnus-soup-prefix-file
17190 @vindex gnus-soup-prefix-file
17191 Name of the file where Gnus stores the last used prefix. The default is
17192 @samp{gnus-prefix}.
17194 @item gnus-soup-packer
17195 @vindex gnus-soup-packer
17196 A format string command for packing a @sc{soup} packet. The default is
17197 @samp{tar cf - %s | gzip > $HOME/Soupout%d.tgz}.
17199 @item gnus-soup-unpacker
17200 @vindex gnus-soup-unpacker
17201 Format string command for unpacking a @sc{soup} packet. The default is
17202 @samp{gunzip -c %s | tar xvf -}.
17204 @item gnus-soup-packet-directory
17205 @vindex gnus-soup-packet-directory
17206 Where Gnus will look for reply packets. The default is @file{~/}.
17208 @item gnus-soup-packet-regexp
17209 @vindex gnus-soup-packet-regexp
17210 Regular expression matching @sc{soup} reply packets in
17211 @code{gnus-soup-packet-directory}.
17217 @subsubsection SOUP Groups
17220 @code{nnsoup} is the back end for reading @sc{soup} packets. It will
17221 read incoming packets, unpack them, and put them in a directory where
17222 you can read them at leisure.
17224 These are the variables you can use to customize its behavior:
17228 @item nnsoup-tmp-directory
17229 @vindex nnsoup-tmp-directory
17230 When @code{nnsoup} unpacks a @sc{soup} packet, it does it in this
17231 directory. (@file{/tmp/} by default.)
17233 @item nnsoup-directory
17234 @vindex nnsoup-directory
17235 @code{nnsoup} then moves each message and index file to this directory.
17236 The default is @file{~/SOUP/}.
17238 @item nnsoup-replies-directory
17239 @vindex nnsoup-replies-directory
17240 All replies will be stored in this directory before being packed into a
17241 reply packet. The default is @file{~/SOUP/replies/}.
17243 @item nnsoup-replies-format-type
17244 @vindex nnsoup-replies-format-type
17245 The @sc{soup} format of the replies packets. The default is @samp{?n}
17246 (rnews), and I don't think you should touch that variable. I probably
17247 shouldn't even have documented it. Drats! Too late!
17249 @item nnsoup-replies-index-type
17250 @vindex nnsoup-replies-index-type
17251 The index type of the replies packet. The default is @samp{?n}, which
17252 means ``none''. Don't fiddle with this one either!
17254 @item nnsoup-active-file
17255 @vindex nnsoup-active-file
17256 Where @code{nnsoup} stores lots of information. This is not an ``active
17257 file'' in the @code{nntp} sense; it's an Emacs Lisp file. If you lose
17258 this file or mess it up in any way, you're dead. The default is
17259 @file{~/SOUP/active}.
17261 @item nnsoup-packer
17262 @vindex nnsoup-packer
17263 Format string command for packing a reply @sc{soup} packet. The default
17264 is @samp{tar cf - %s | gzip > $HOME/Soupin%d.tgz}.
17266 @item nnsoup-unpacker
17267 @vindex nnsoup-unpacker
17268 Format string command for unpacking incoming @sc{soup} packets. The
17269 default is @samp{gunzip -c %s | tar xvf -}.
17271 @item nnsoup-packet-directory
17272 @vindex nnsoup-packet-directory
17273 Where @code{nnsoup} will look for incoming packets. The default is
17276 @item nnsoup-packet-regexp
17277 @vindex nnsoup-packet-regexp
17278 Regular expression matching incoming @sc{soup} packets. The default is
17281 @item nnsoup-always-save
17282 @vindex nnsoup-always-save
17283 If non-@code{nil}, save the replies buffer after each posted message.
17289 @subsubsection SOUP Replies
17291 Just using @code{nnsoup} won't mean that your postings and mailings end
17292 up in @sc{soup} reply packets automagically. You have to work a bit
17293 more for that to happen.
17295 @findex nnsoup-set-variables
17296 The @code{nnsoup-set-variables} command will set the appropriate
17297 variables to ensure that all your followups and replies end up in the
17300 In specific, this is what it does:
17303 (setq message-send-news-function 'nnsoup-request-post)
17304 (setq message-send-mail-function 'nnsoup-request-mail)
17307 And that's it, really. If you only want news to go into the @sc{soup}
17308 system you just use the first line. If you only want mail to be
17309 @sc{soup}ed you use the second.
17312 @node Mail-To-News Gateways
17313 @subsection Mail-To-News Gateways
17314 @cindex mail-to-news gateways
17317 If your local @code{nntp} server doesn't allow posting, for some reason
17318 or other, you can post using one of the numerous mail-to-news gateways.
17319 The @code{nngateway} back end provides the interface.
17321 Note that you can't read anything from this back end---it can only be
17327 @item nngateway-address
17328 @vindex nngateway-address
17329 This is the address of the mail-to-news gateway.
17331 @item nngateway-header-transformation
17332 @vindex nngateway-header-transformation
17333 News headers often have to be transformed in some odd way or other
17334 for the mail-to-news gateway to accept it. This variable says what
17335 transformation should be called, and defaults to
17336 @code{nngateway-simple-header-transformation}. The function is called
17337 narrowed to the headers to be transformed and with one parameter---the
17340 This default function just inserts a new @code{To} header based on the
17341 @code{Newsgroups} header and the gateway address.
17342 For instance, an article with this @code{Newsgroups} header:
17345 Newsgroups: alt.religion.emacs
17348 will get this @code{To} header inserted:
17351 To: alt-religion-emacs@@GATEWAY
17354 The following pre-defined functions exist:
17356 @findex nngateway-simple-header-transformation
17359 @item nngateway-simple-header-transformation
17360 Creates a @code{To} header that looks like
17361 @var{newsgroup}@@@code{nngateway-address}.
17363 @findex nngateway-mail2news-header-transformation
17365 @item nngateway-mail2news-header-transformation
17366 Creates a @code{To} header that looks like
17367 @code{nngateway-address}.
17375 (setq gnus-post-method
17377 "mail2news@@replay.com"
17378 (nngateway-header-transformation
17379 nngateway-mail2news-header-transformation)))
17382 So, to use this, simply say something like:
17385 (setq gnus-post-method '(nngateway "GATEWAY.ADDRESS"))
17390 @node Combined Groups
17391 @section Combined Groups
17393 Gnus allows combining a mixture of all the other group types into bigger
17397 * Virtual Groups:: Combining articles from many groups.
17398 * Kibozed Groups:: Looking through parts of the newsfeed for articles.
17402 @node Virtual Groups
17403 @subsection Virtual Groups
17405 @cindex virtual groups
17406 @cindex merging groups
17408 An @dfn{nnvirtual group} is really nothing more than a collection of
17411 For instance, if you are tired of reading many small groups, you can
17412 put them all in one big group, and then grow tired of reading one
17413 big, unwieldy group. The joys of computing!
17415 You specify @code{nnvirtual} as the method. The address should be a
17416 regexp to match component groups.
17418 All marks in the virtual group will stick to the articles in the
17419 component groups. So if you tick an article in a virtual group, the
17420 article will also be ticked in the component group from whence it
17421 came. (And vice versa---marks from the component groups will also be
17422 shown in the virtual group.). To create an empty virtual group, run
17423 @kbd{G V} (@code{gnus-group-make-empty-virtual}) in the group buffer
17424 and edit the method regexp with @kbd{M-e}
17425 (@code{gnus-group-edit-group-method})
17427 Here's an example @code{nnvirtual} method that collects all Andrea Dworkin
17428 newsgroups into one, big, happy newsgroup:
17431 (nnvirtual "^alt\\.fan\\.andrea-dworkin$\\|^rec\\.dworkin.*")
17434 The component groups can be native or foreign; everything should work
17435 smoothly, but if your computer explodes, it was probably my fault.
17437 Collecting the same group from several servers might actually be a good
17438 idea if users have set the Distribution header to limit distribution.
17439 If you would like to read @samp{soc.motss} both from a server in Japan
17440 and a server in Norway, you could use the following as the group regexp:
17443 "^nntp\\+server\\.jp:soc\\.motss$\\|^nntp\\+server\\.no:soc\\.motss$"
17446 (Remember, though, that if you're creating the group with @kbd{G m}, you
17447 shouldn't double the backslashes, and you should leave off the quote
17448 characters at the beginning and the end of the string.)
17450 This should work kinda smoothly---all articles from both groups should
17451 end up in this one, and there should be no duplicates. Threading (and
17452 the rest) will still work as usual, but there might be problems with the
17453 sequence of articles. Sorting on date might be an option here
17454 (@pxref{Selecting a Group}).
17456 One limitation, however---all groups included in a virtual
17457 group have to be alive (i.e., subscribed or unsubscribed). Killed or
17458 zombie groups can't be component groups for @code{nnvirtual} groups.
17460 @vindex nnvirtual-always-rescan
17461 If the @code{nnvirtual-always-rescan} is non-@code{nil},
17462 @code{nnvirtual} will always scan groups for unread articles when
17463 entering a virtual group. If this variable is @code{nil} (which is the
17464 default) and you read articles in a component group after the virtual
17465 group has been activated, the read articles from the component group
17466 will show up when you enter the virtual group. You'll also see this
17467 effect if you have two virtual groups that have a component group in
17468 common. If that's the case, you should set this variable to @code{t}.
17469 Or you can just tap @code{M-g} on the virtual group every time before
17470 you enter it---it'll have much the same effect.
17472 @code{nnvirtual} can have both mail and news groups as component groups.
17473 When responding to articles in @code{nnvirtual} groups, @code{nnvirtual}
17474 has to ask the back end of the component group the article comes from
17475 whether it is a news or mail back end. However, when you do a @kbd{^},
17476 there is typically no sure way for the component back end to know this,
17477 and in that case @code{nnvirtual} tells Gnus that the article came from a
17478 not-news back end. (Just to be on the safe side.)
17480 @kbd{C-c C-n} in the message buffer will insert the @code{Newsgroups}
17481 line from the article you respond to in these cases.
17483 @code{nnvirtual} groups do not inherit anything but articles and marks
17484 from component groups---group parameters, for instance, are not
17488 @node Kibozed Groups
17489 @subsection Kibozed Groups
17493 @dfn{Kibozing} is defined by the @acronym{OED} as ``grepping through
17494 (parts of) the news feed''. @code{nnkiboze} is a back end that will
17495 do this for you. Oh joy! Now you can grind any @acronym{NNTP} server
17496 down to a halt with useless requests! Oh happiness!
17498 @kindex G k (Group)
17499 To create a kibozed group, use the @kbd{G k} command in the group
17502 The address field of the @code{nnkiboze} method is, as with
17503 @code{nnvirtual}, a regexp to match groups to be ``included'' in the
17504 @code{nnkiboze} group. That's where most similarities between
17505 @code{nnkiboze} and @code{nnvirtual} end.
17507 In addition to this regexp detailing component groups, an
17508 @code{nnkiboze} group must have a score file to say what articles are
17509 to be included in the group (@pxref{Scoring}).
17511 @kindex M-x nnkiboze-generate-groups
17512 @findex nnkiboze-generate-groups
17513 You must run @kbd{M-x nnkiboze-generate-groups} after creating the
17514 @code{nnkiboze} groups you want to have. This command will take time.
17515 Lots of time. Oodles and oodles of time. Gnus has to fetch the
17516 headers from all the articles in all the component groups and run them
17517 through the scoring process to determine if there are any articles in
17518 the groups that are to be part of the @code{nnkiboze} groups.
17520 Please limit the number of component groups by using restrictive
17521 regexps. Otherwise your sysadmin may become annoyed with you, and the
17522 @acronym{NNTP} site may throw you off and never let you back in again.
17523 Stranger things have happened.
17525 @code{nnkiboze} component groups do not have to be alive---they can be dead,
17526 and they can be foreign. No restrictions.
17528 @vindex nnkiboze-directory
17529 The generation of an @code{nnkiboze} group means writing two files in
17530 @code{nnkiboze-directory}, which is @file{~/News/kiboze/} by default.
17531 One contains the @acronym{NOV} header lines for all the articles in
17532 the group, and the other is an additional @file{.newsrc} file to store
17533 information on what groups have been searched through to find
17534 component articles.
17536 Articles marked as read in the @code{nnkiboze} group will have
17537 their @acronym{NOV} lines removed from the @acronym{NOV} file.
17540 @node Gnus Unplugged
17541 @section Gnus Unplugged
17546 @cindex Gnus unplugged
17548 In olden times (ca. February '88), people used to run their newsreaders
17549 on big machines with permanent connections to the net. News transport
17550 was dealt with by news servers, and all the newsreaders had to do was to
17551 read news. Believe it or not.
17553 Nowadays most people read news and mail at home, and use some sort of
17554 modem to connect to the net. To avoid running up huge phone bills, it
17555 would be nice to have a way to slurp down all the news and mail, hang up
17556 the phone, read for several hours, and then upload any responses you
17557 have to make. And then you repeat the procedure.
17559 Of course, you can use news servers for doing this as well. I've used
17560 @code{inn} together with @code{slurp}, @code{pop} and @code{sendmail}
17561 for some years, but doing that's a bore. Moving the news server
17562 functionality up to the newsreader makes sense if you're the only person
17563 reading news on a machine.
17565 Setting up Gnus as an ``offline'' newsreader is quite simple. In
17566 fact, you don't even have to configure anything.
17568 Of course, to use it as such, you have to learn a few new commands.
17571 * Agent Basics:: How it all is supposed to work.
17572 * Agent Categories:: How to tell the Gnus Agent what to download.
17573 * Agent Commands:: New commands for all the buffers.
17574 * Agent Visuals:: Ways that the agent may effect your summary buffer.
17575 * Agent as Cache:: The Agent is a big cache too.
17576 * Agent Expiry:: How to make old articles go away.
17577 * Agent Regeneration:: How to recover from lost connections and other accidents.
17578 * Agent and IMAP:: How to use the Agent with @acronym{IMAP}.
17579 * Outgoing Messages:: What happens when you post/mail something?
17580 * Agent Variables:: Customizing is fun.
17581 * Example Setup:: An example @file{~/.gnus.el} file for offline people.
17582 * Batching Agents:: How to fetch news from a @code{cron} job.
17583 * Agent Caveats:: What you think it'll do and what it does.
17588 @subsection Agent Basics
17590 First, let's get some terminology out of the way.
17592 The Gnus Agent is said to be @dfn{unplugged} when you have severed the
17593 connection to the net (and notified the Agent that this is the case).
17594 When the connection to the net is up again (and Gnus knows this), the
17595 Agent is @dfn{plugged}.
17597 The @dfn{local} machine is the one you're running on, and which isn't
17598 connected to the net continuously.
17600 @dfn{Downloading} means fetching things from the net to your local
17601 machine. @dfn{Uploading} is doing the opposite.
17603 You know that Gnus gives you all the opportunity you'd ever want for
17604 shooting yourself in the foot. Some people call it flexibility. Gnus
17605 is also customizable to a great extent, which means that the user has a
17606 say on how Gnus behaves. Other newsreaders might unconditionally shoot
17607 you in your foot, but with Gnus, you have a choice!
17609 Gnus is never really in plugged or unplugged state. Rather, it applies
17610 that state to each server individually. This means that some servers
17611 can be plugged while others can be unplugged. Additionally, some
17612 servers can be ignored by the Agent altogether (which means that
17613 they're kinda like plugged always).
17615 So when you unplug the Agent and then wonder why is Gnus opening a
17616 connection to the Net, the next step to do is to look whether all
17617 servers are agentized. If there is an unagentized server, you found
17620 Another thing is the @dfn{offline} state. Sometimes, servers aren't
17621 reachable. When Gnus notices this, it asks you whether you want the
17622 server to be switched to offline state. If you say yes, then the
17623 server will behave somewhat as if it was unplugged, except that Gnus
17624 will ask you whether you want to switch it back online again.
17626 Let's take a typical Gnus session using the Agent.
17631 @findex gnus-unplugged
17632 You start Gnus with @code{gnus-unplugged}. This brings up the Gnus
17633 Agent in a disconnected state. You can read all the news that you have
17634 already fetched while in this mode.
17637 You then decide to see whether any new news has arrived. You connect
17638 your machine to the net (using PPP or whatever), and then hit @kbd{J j}
17639 to make Gnus become @dfn{plugged} and use @kbd{g} to check for new mail
17640 as usual. To check for new mail in unplugged mode (@pxref{Mail
17641 Source Specifiers}).
17644 You can then read the new news immediately, or you can download the
17645 news onto your local machine. If you want to do the latter, you press
17646 @kbd{g} to check if there are any new news and then @kbd{J s} to fetch
17647 all the eligible articles in all the groups. (To let Gnus know which
17648 articles you want to download, @pxref{Agent Categories}).
17651 After fetching the articles, you press @kbd{J j} to make Gnus become
17652 unplugged again, and you shut down the PPP thing (or whatever). And
17653 then you read the news offline.
17656 And then you go to step 2.
17659 Here are some things you should do the first time (or so) that you use
17665 Decide which servers should be covered by the Agent. If you have a mail
17666 back end, it would probably be nonsensical to have it covered by the
17667 Agent. Go to the server buffer (@kbd{^} in the group buffer) and press
17668 @kbd{J a} on the server (or servers) that you wish to have covered by the
17669 Agent (@pxref{Server Agent Commands}), or @kbd{J r} on automatically
17670 added servers you do not wish to have covered by the Agent. By default,
17671 all @code{nntp} and @code{nnimap} servers in @code{gnus-select-method} and
17672 @code{gnus-secondary-select-methods} are agentized.
17675 Decide on download policy. It's fairly simple once you decide whether
17676 you are going to use agent categories, topic parameters, and/or group
17677 parameters to implement your policy. If you're new to gnus, it
17678 is probably best to start with a category, @xref{Agent Categories}.
17680 Both topic parameters (@pxref{Topic Parameters}) and agent categories
17681 (@pxref{Agent Categories}) provide for setting a policy that applies
17682 to multiple groups. Which you use is entirely up to you. Topic
17683 parameters do override categories so, if you mix the two, you'll have
17684 to take that into account. If you have a few groups that deviate from
17685 your policy, you can use group parameters (@pxref{Group Parameters}) to
17689 Uhm@dots{} that's it.
17693 @node Agent Categories
17694 @subsection Agent Categories
17696 One of the main reasons to integrate the news transport layer into the
17697 newsreader is to allow greater control over what articles to download.
17698 There's not much point in downloading huge amounts of articles, just to
17699 find out that you're not interested in reading any of them. It's better
17700 to be somewhat more conservative in choosing what to download, and then
17701 mark the articles for downloading manually if it should turn out that
17702 you're interested in the articles anyway.
17704 One of the more effective methods for controlling what is to be
17705 downloaded is to create a @dfn{category} and then assign some (or all)
17706 groups to this category. Groups that do not belong in any other
17707 category belong to the @code{default} category. Gnus has its own
17708 buffer for creating and managing categories.
17710 If you prefer, you can also use group parameters (@pxref{Group
17711 Parameters}) and topic parameters (@pxref{Topic Parameters}) for an
17712 alternative approach to controlling the agent. The only real
17713 difference is that categories are specific to the agent (so there is
17714 less to learn) while group and topic parameters include the kitchen
17717 Since you can set agent parameters in several different places we have
17718 a rule to decide which source to believe. This rule specifies that
17719 the parameter sources are checked in the following order: group
17720 parameters, topic parameters, agent category, and finally customizable
17721 variables. So you can mix all of these sources to produce a wide range
17722 of behavior, just don't blame me if you don't remember where you put
17726 * Category Syntax:: What a category looks like.
17727 * Category Buffer:: A buffer for maintaining categories.
17728 * Category Variables:: Customize'r'Us.
17732 @node Category Syntax
17733 @subsubsection Category Syntax
17735 A category consists of a name, the list of groups belonging to the
17736 category, and a number of optional parameters that override the
17737 customizable variables. The complete list of agent parameters are
17740 @cindex Agent Parameters
17742 @item gnus-agent-cat-name
17743 The name of the category.
17745 @item gnus-agent-cat-groups
17746 The list of groups that are in this category.
17748 @item gnus-agent-cat-predicate
17749 A predicate which (generally) gives a rough outline of which articles
17750 are eligible for downloading; and
17752 @item gnus-agent-cat-score-file
17753 a score rule which (generally) gives you a finer granularity when
17754 deciding what articles to download. (Note that this @dfn{download
17755 score} is not necessarily related to normal scores.)
17757 @item gnus-agent-cat-enable-expiration
17758 a boolean indicating whether the agent should expire old articles in
17759 this group. Most groups should be expired to conserve disk space. In
17760 fact, its probably safe to say that the gnus.* hierarchy contains the
17761 only groups that should not be expired.
17763 @item gnus-agent-cat-days-until-old
17764 an integer indicating the number of days that the agent should wait
17765 before deciding that a read article is safe to expire.
17767 @item gnus-agent-cat-low-score
17768 an integer that overrides the value of @code{gnus-agent-low-score}.
17770 @item gnus-agent-cat-high-score
17771 an integer that overrides the value of @code{gnus-agent-high-score}.
17773 @item gnus-agent-cat-length-when-short
17774 an integer that overrides the value of
17775 @code{gnus-agent-short-article}.
17777 @item gnus-agent-cat-length-when-long
17778 an integer that overrides the value of @code{gnus-agent-long-article}.
17780 @c @item gnus-agent-cat-disable-undownloaded-faces
17781 @c a symbol indicating whether the summary buffer should @emph{not} display
17782 @c undownloaded articles using the gnus-summary-*-undownloaded-face
17783 @c faces. The symbol nil will enable the use of undownloaded faces while
17784 @c all other symbols disable them.
17786 @item gnus-agent-cat-enable-undownloaded-faces
17787 a symbol indicating whether the summary buffer should display
17788 undownloaded articles using the gnus-summary-*-undownloaded-face
17789 faces. The symbol nil will disable the use of undownloaded faces while
17790 all other symbols enable them.
17793 The name of a category can not be changed once the category has been
17796 Each category maintains a list of groups that are exclusive members of
17797 that category. The exclusivity rule is automatically enforced, add a
17798 group to a new category and it is automatically removed from its old
17801 A predicate in its simplest form can be a single predicate such as
17802 @code{true} or @code{false}. These two will download every available
17803 article or nothing respectively. In the case of these two special
17804 predicates an additional score rule is superfluous.
17806 Predicates of @code{high} or @code{low} download articles in respect of
17807 their scores in relationship to @code{gnus-agent-high-score} and
17808 @code{gnus-agent-low-score} as described below.
17810 To gain even finer control of what is to be regarded eligible for
17811 download a predicate can consist of a number of predicates with logical
17812 operators sprinkled in between.
17814 Perhaps some examples are in order.
17816 Here's a simple predicate. (It's the default predicate, in fact, used
17817 for all groups that don't belong to any other category.)
17823 Quite simple, eh? This predicate is true if and only if the article is
17824 short (for some value of ``short'').
17826 Here's a more complex predicate:
17835 This means that an article should be downloaded if it has a high score,
17836 or if the score is not low and the article is not long. You get the
17839 The available logical operators are @code{or}, @code{and} and
17840 @code{not}. (If you prefer, you can use the more ``C''-ish operators
17841 @samp{|}, @code{&} and @code{!} instead.)
17843 The following predicates are pre-defined, but if none of these fit what
17844 you want to do, you can write your own.
17846 When evaluating each of these predicates, the named constant will be
17847 bound to the value determined by calling
17848 @code{gnus-agent-find-parameter} on the appropriate parameter. For
17849 example, gnus-agent-short-article will be bound to
17850 @code{(gnus-agent-find-parameter group 'agent-short-article)}. This
17851 means that you can specify a predicate in your category then tune that
17852 predicate to individual groups.
17856 True iff the article is shorter than @code{gnus-agent-short-article}
17857 lines; default 100.
17860 True iff the article is longer than @code{gnus-agent-long-article}
17861 lines; default 200.
17864 True iff the article has a download score less than
17865 @code{gnus-agent-low-score}; default 0.
17868 True iff the article has a download score greater than
17869 @code{gnus-agent-high-score}; default 0.
17872 True iff the Gnus Agent guesses that the article is spam. The
17873 heuristics may change over time, but at present it just computes a
17874 checksum and sees whether articles match.
17883 If you want to create your own predicate function, here's what you have
17884 to know: The functions are called with no parameters, but the
17885 @code{gnus-headers} and @code{gnus-score} dynamic variables are bound to
17888 For example, you could decide that you don't want to download articles
17889 that were posted more than a certain number of days ago (e.g. posted
17890 more than @code{gnus-agent-expire-days} ago) you might write a function
17891 something along the lines of the following:
17894 (defun my-article-old-p ()
17895 "Say whether an article is old."
17896 (< (time-to-days (date-to-time (mail-header-date gnus-headers)))
17897 (- (time-to-days (current-time)) gnus-agent-expire-days)))
17900 with the predicate then defined as:
17903 (not my-article-old-p)
17906 or you could append your predicate to the predefined
17907 @code{gnus-category-predicate-alist} in your @file{~/.gnus.el} or
17911 (require 'gnus-agent)
17912 (setq gnus-category-predicate-alist
17913 (append gnus-category-predicate-alist
17914 '((old . my-article-old-p))))
17917 and simply specify your predicate as:
17923 If/when using something like the above, be aware that there are many
17924 misconfigured systems/mailers out there and so an article's date is not
17925 always a reliable indication of when it was posted. Hell, some people
17926 just don't give a damn.
17928 The above predicates apply to @emph{all} the groups which belong to the
17929 category. However, if you wish to have a specific predicate for an
17930 individual group within a category, or you're just too lazy to set up a
17931 new category, you can enter a group's individual predicate in its group
17932 parameters like so:
17935 (agent-predicate . short)
17938 This is the group/topic parameter equivalent of the agent category default.
17939 Note that when specifying a single word predicate like this, the
17940 @code{agent-predicate} specification must be in dotted pair notation.
17942 The equivalent of the longer example from above would be:
17945 (agent-predicate or high (and (not low) (not long)))
17948 The outer parenthesis required in the category specification are not
17949 entered here as, not being in dotted pair notation, the value of the
17950 predicate is assumed to be a list.
17953 Now, the syntax of the download score is the same as the syntax of
17954 normal score files, except that all elements that require actually
17955 seeing the article itself are verboten. This means that only the
17956 following headers can be scored on: @code{Subject}, @code{From},
17957 @code{Date}, @code{Message-ID}, @code{References}, @code{Chars},
17958 @code{Lines}, and @code{Xref}.
17960 As with predicates, the specification of the @code{download score rule}
17961 to use in respect of a group can be in either the category definition if
17962 it's to be applicable to all groups in therein, or a group's parameters
17963 if it's to be specific to that group.
17965 In both of these places the @code{download score rule} can take one of
17972 This has the same syntax as a normal Gnus score file except only a
17973 subset of scoring keywords are available as mentioned above.
17979 Category specification
17983 ("Lars Ingebrigtsen" 1000000 nil s))
17989 Group/Topic Parameter specification
17992 (agent-score ("from"
17993 ("Lars Ingebrigtsen" 1000000 nil s))
17998 Again, note the omission of the outermost parenthesis here.
18004 These score files must @emph{only} contain the permitted scoring
18005 keywords stated above.
18011 Category specification
18014 ("~/News/agent.SCORE")
18020 ("~/News/agent.SCORE" "~/News/agent.group.SCORE")
18024 Group Parameter specification
18027 (agent-score "~/News/agent.SCORE")
18030 Additional score files can be specified as above. Need I say anything
18035 Use @code{normal} score files
18037 If you don't want to maintain two sets of scoring rules for a group, and
18038 your desired @code{downloading} criteria for a group are the same as your
18039 @code{reading} criteria then you can tell the agent to refer to your
18040 @code{normal} score files when deciding what to download.
18042 These directives in either the category definition or a group's
18043 parameters will cause the agent to read in all the applicable score
18044 files for a group, @emph{filtering out} those sections that do not
18045 relate to one of the permitted subset of scoring keywords.
18049 Category Specification
18056 Group Parameter specification
18059 (agent-score . file)
18064 @node Category Buffer
18065 @subsubsection Category Buffer
18067 You'd normally do all category maintenance from the category buffer.
18068 When you enter it for the first time (with the @kbd{J c} command from
18069 the group buffer), you'll only see the @code{default} category.
18071 The following commands are available in this buffer:
18075 @kindex q (Category)
18076 @findex gnus-category-exit
18077 Return to the group buffer (@code{gnus-category-exit}).
18080 @kindex e (Category)
18081 @findex gnus-category-customize-category
18082 Use a customization buffer to set all of the selected category's
18083 parameters at one time (@code{gnus-category-customize-category}).
18086 @kindex k (Category)
18087 @findex gnus-category-kill
18088 Kill the current category (@code{gnus-category-kill}).
18091 @kindex c (Category)
18092 @findex gnus-category-copy
18093 Copy the current category (@code{gnus-category-copy}).
18096 @kindex a (Category)
18097 @findex gnus-category-add
18098 Add a new category (@code{gnus-category-add}).
18101 @kindex p (Category)
18102 @findex gnus-category-edit-predicate
18103 Edit the predicate of the current category
18104 (@code{gnus-category-edit-predicate}).
18107 @kindex g (Category)
18108 @findex gnus-category-edit-groups
18109 Edit the list of groups belonging to the current category
18110 (@code{gnus-category-edit-groups}).
18113 @kindex s (Category)
18114 @findex gnus-category-edit-score
18115 Edit the download score rule of the current category
18116 (@code{gnus-category-edit-score}).
18119 @kindex l (Category)
18120 @findex gnus-category-list
18121 List all the categories (@code{gnus-category-list}).
18125 @node Category Variables
18126 @subsubsection Category Variables
18129 @item gnus-category-mode-hook
18130 @vindex gnus-category-mode-hook
18131 Hook run in category buffers.
18133 @item gnus-category-line-format
18134 @vindex gnus-category-line-format
18135 Format of the lines in the category buffer (@pxref{Formatting
18136 Variables}). Valid elements are:
18140 The name of the category.
18143 The number of groups in the category.
18146 @item gnus-category-mode-line-format
18147 @vindex gnus-category-mode-line-format
18148 Format of the category mode line (@pxref{Mode Line Formatting}).
18150 @item gnus-agent-short-article
18151 @vindex gnus-agent-short-article
18152 Articles that have fewer lines than this are short. Default 100.
18154 @item gnus-agent-long-article
18155 @vindex gnus-agent-long-article
18156 Articles that have more lines than this are long. Default 200.
18158 @item gnus-agent-low-score
18159 @vindex gnus-agent-low-score
18160 Articles that have a score lower than this have a low score. Default
18163 @item gnus-agent-high-score
18164 @vindex gnus-agent-high-score
18165 Articles that have a score higher than this have a high score. Default
18168 @item gnus-agent-expire-days
18169 @vindex gnus-agent-expire-days
18170 The number of days that a @samp{read} article must stay in the agent's
18171 local disk before becoming eligible for expiration (While the name is
18172 the same, this doesn't mean expiring the article on the server. It
18173 just means deleting the local copy of the article). What is also
18174 important to understand is that the counter starts with the time the
18175 article was written to the local disk and not the time the article was
18179 @item gnus-agent-enable-expiration
18180 @vindex gnus-agent-enable-expiration
18181 Determines whether articles in a group are, by default, expired or
18182 retained indefinitely. The default is @code{ENABLE} which means that
18183 you'll have to disable expiration when desired. On the other hand,
18184 you could set this to @code{DISABLE}. In that case, you would then
18185 have to enable expiration in selected groups.
18190 @node Agent Commands
18191 @subsection Agent Commands
18192 @findex gnus-agent-toggle-plugged
18193 @kindex J j (Agent)
18195 All the Gnus Agent commands are on the @kbd{J} submap. The @kbd{J j}
18196 (@code{gnus-agent-toggle-plugged}) command works in all modes, and
18197 toggles the plugged/unplugged state of the Gnus Agent.
18201 * Group Agent Commands:: Configure groups and fetch their contents.
18202 * Summary Agent Commands:: Manually select then fetch specific articles.
18203 * Server Agent Commands:: Select the servers that are supported by the agent.
18209 @node Group Agent Commands
18210 @subsubsection Group Agent Commands
18214 @kindex J u (Agent Group)
18215 @findex gnus-agent-fetch-groups
18216 Fetch all eligible articles in the current group
18217 (@code{gnus-agent-fetch-groups}).
18220 @kindex J c (Agent Group)
18221 @findex gnus-enter-category-buffer
18222 Enter the Agent category buffer (@code{gnus-enter-category-buffer}).
18225 @kindex J s (Agent Group)
18226 @findex gnus-agent-fetch-session
18227 Fetch all eligible articles in all groups
18228 (@code{gnus-agent-fetch-session}).
18231 @kindex J S (Agent Group)
18232 @findex gnus-group-send-queue
18233 Send all sendable messages in the queue group
18234 (@code{gnus-group-send-queue}). @xref{Drafts}.
18237 @kindex J a (Agent Group)
18238 @findex gnus-agent-add-group
18239 Add the current group to an Agent category
18240 (@code{gnus-agent-add-group}). This command understands the
18241 process/prefix convention (@pxref{Process/Prefix}).
18244 @kindex J r (Agent Group)
18245 @findex gnus-agent-remove-group
18246 Remove the current group from its category, if any
18247 (@code{gnus-agent-remove-group}). This command understands the
18248 process/prefix convention (@pxref{Process/Prefix}).
18251 @kindex J Y (Agent Group)
18252 @findex gnus-agent-synchronize-flags
18253 Synchronize flags changed while unplugged with remote server, if any.
18259 @node Summary Agent Commands
18260 @subsubsection Summary Agent Commands
18264 @kindex J # (Agent Summary)
18265 @findex gnus-agent-mark-article
18266 Mark the article for downloading (@code{gnus-agent-mark-article}).
18269 @kindex J M-# (Agent Summary)
18270 @findex gnus-agent-unmark-article
18271 Remove the downloading mark from the article
18272 (@code{gnus-agent-unmark-article}).
18276 @kindex @@ (Agent Summary)
18277 @findex gnus-agent-toggle-mark
18278 Toggle whether to download the article
18279 (@code{gnus-agent-toggle-mark}). The download mark is @samp{%} by
18283 @kindex J c (Agent Summary)
18284 @findex gnus-agent-catchup
18285 Mark all articles as read (@code{gnus-agent-catchup}) that are neither cached, downloaded, nor downloadable.
18288 @kindex J S (Agent Summary)
18289 @findex gnus-agent-fetch-group
18290 Download all eligible (@pxref{Agent Categories}) articles in this group.
18291 (@code{gnus-agent-fetch-group}).
18294 @kindex J s (Agent Summary)
18295 @findex gnus-agent-fetch-series
18296 Download all processable articles in this group.
18297 (@code{gnus-agent-fetch-series}).
18300 @kindex J u (Agent Summary)
18301 @findex gnus-agent-summary-fetch-group
18302 Download all downloadable articles in the current group
18303 (@code{gnus-agent-summary-fetch-group}).
18308 @node Server Agent Commands
18309 @subsubsection Server Agent Commands
18313 @kindex J a (Agent Server)
18314 @findex gnus-agent-add-server
18315 Add the current server to the list of servers covered by the Gnus Agent
18316 (@code{gnus-agent-add-server}).
18319 @kindex J r (Agent Server)
18320 @findex gnus-agent-remove-server
18321 Remove the current server from the list of servers covered by the Gnus
18322 Agent (@code{gnus-agent-remove-server}).
18327 @node Agent Visuals
18328 @subsection Agent Visuals
18330 If you open a summary while unplugged and, Gnus knows from the group's
18331 active range that there are more articles than the headers currently
18332 stored in the Agent, you may see some articles whose subject looks
18333 something like @samp{[Undownloaded article #####]}. These are
18334 placeholders for the missing headers. Aside from setting a mark,
18335 there is not much that can be done with one of these placeholders.
18336 When Gnus finally gets a chance to fetch the group's headers, the
18337 placeholders will automatically be replaced by the actual headers.
18338 You can configure the summary buffer's maneuvering to skip over the
18339 placeholders if you care (See @code{gnus-auto-goto-ignores}).
18341 While it may be obvious to all, the only headers and articles
18342 available while unplugged are those headers and articles that were
18343 fetched into the Agent while previously plugged. To put it another
18344 way, ``If you forget to fetch something while plugged, you might have a
18345 less than satisfying unplugged session''. For this reason, the Agent
18346 adds two visual effects to your summary buffer. These effects display
18347 the download status of each article so that you always know which
18348 articles will be available when unplugged.
18350 The first visual effect is the @samp{%O} spec. If you customize
18351 @code{gnus-summary-line-format} to include this specifier, you will add
18352 a single character field that indicates an article's download status.
18353 Articles that have been fetched into either the Agent or the Cache,
18354 will display @code{gnus-downloaded-mark} (defaults to @samp{+}). All
18355 other articles will display @code{gnus-undownloaded-mark} (defaults to
18356 @samp{-}). If you open a group that has not been agentized, a space
18357 (@samp{ }) will be displayed.
18359 The second visual effect are the undownloaded faces. The faces, there
18360 are three indicating the article's score (low, normal, high), seem to
18361 result in a love/hate response from many Gnus users. The problem is
18362 that the face selection is controlled by a list of condition tests and
18363 face names (See @code{gnus-summary-highlight}). Each condition is
18364 tested in the order in which it appears in the list so early
18365 conditions have precedence over later conditions. All of this means
18366 that, if you tick an undownloaded article, the article will continue
18367 to be displayed in the undownloaded face rather than the ticked face.
18369 If you use the Agent as a cache (to avoid downloading the same article
18370 each time you visit it or to minimize your connection time), the
18371 undownloaded face will probably seem like a good idea. The reason
18372 being that you do all of our work (marking, reading, deleting) with
18373 downloaded articles so the normal faces always appear.
18375 For occasional Agent users, the undownloaded faces may appear to be an
18376 absolutely horrible idea. The issue being that, since most of their
18377 articles have not been fetched into the Agent, most of the normal
18378 faces will be obscured by the undownloaded faces. If this is your
18379 situation, you have two choices available. First, you can completely
18380 disable the undownload faces by customizing
18381 @code{gnus-summary-highlight} to delete the three cons-cells that
18382 refer to the @code{gnus-summary-*-undownloaded-face} faces. Second,
18383 if you prefer to take a more fine-grained approach, you may set the
18384 @code{agent-disable-undownloaded-faces} group parameter to @code{t}.
18385 This parameter, like all other agent parameters, may be set on an
18386 Agent Category (@pxref{Agent Categories}), a Group Topic (@pxref{Topic
18387 Parameters}), or an individual group (@pxref{Group Parameters}).
18389 @node Agent as Cache
18390 @subsection Agent as Cache
18392 When Gnus is plugged, it is not efficient to download headers or
18393 articles from the server again, if they are already stored in the
18394 Agent. So, Gnus normally only downloads headers once, and stores them
18395 in the Agent. These headers are later used when generating the summary
18396 buffer, regardless of whether you are plugged or unplugged. Articles
18397 are not cached in the Agent by default though (that would potentially
18398 consume lots of disk space), but if you have already downloaded an
18399 article into the Agent, Gnus will not download the article from the
18400 server again but use the locally stored copy instead.
18402 If you so desire, you can configure the agent (see @code{gnus-agent-cache}
18403 @pxref{Agent Variables}) to always download headers and articles while
18404 plugged. Gnus will almost certainly be slower, but it will be kept
18405 synchronized with the server. That last point probably won't make any
18406 sense if you are using a nntp or nnimap back end.
18409 @subsection Agent Expiry
18411 @vindex gnus-agent-expire-days
18412 @findex gnus-agent-expire
18413 @kindex M-x gnus-agent-expire
18414 @kindex M-x gnus-agent-expire-group
18415 @findex gnus-agent-expire-group
18416 @cindex agent expiry
18417 @cindex Gnus agent expiry
18420 The Agent back end, @code{nnagent}, doesn't handle expiry. Well, at
18421 least it doesn't handle it like other back ends. Instead, there are
18422 special @code{gnus-agent-expire} and @code{gnus-agent-expire-group}
18423 commands that will expire all read articles that are older than
18424 @code{gnus-agent-expire-days} days. They can be run whenever you feel
18425 that you're running out of space. Neither are particularly fast or
18426 efficient, and it's not a particularly good idea to interrupt them (with
18427 @kbd{C-g} or anything else) once you've started one of them.
18429 Note that other functions, e.g. @code{gnus-request-expire-articles},
18430 might run @code{gnus-agent-expire} for you to keep the agent
18431 synchronized with the group.
18433 The agent parameter @code{agent-enable-expiration} may be used to
18434 prevent expiration in selected groups.
18436 @vindex gnus-agent-expire-all
18437 If @code{gnus-agent-expire-all} is non-@code{nil}, the agent
18438 expiration commands will expire all articles---unread, read, ticked
18439 and dormant. If @code{nil} (which is the default), only read articles
18440 are eligible for expiry, and unread, ticked and dormant articles will
18441 be kept indefinitely.
18443 If you find that some articles eligible for expiry are never expired,
18444 perhaps some Gnus Agent files are corrupted. There's are special
18445 commands, @code{gnus-agent-regenerate} and
18446 @code{gnus-agent-regenerate-group}, to fix possible problems.
18448 @node Agent Regeneration
18449 @subsection Agent Regeneration
18451 @cindex agent regeneration
18452 @cindex Gnus agent regeneration
18453 @cindex regeneration
18455 The local data structures used by @code{nnagent} may become corrupted
18456 due to certain exceptional conditions. When this happens,
18457 @code{nnagent} functionality may degrade or even fail. The solution
18458 to this problem is to repair the local data structures by removing all
18459 internal inconsistencies.
18461 For example, if your connection to your server is lost while
18462 downloaded articles into the agent, the local data structures will not
18463 know about articles successfully downloaded prior to the connection
18464 failure. Running @code{gnus-agent-regenerate} or
18465 @code{gnus-agent-regenerate-group} will update the data structures
18466 such that you don't need to download these articles a second time.
18468 @findex gnus-agent-regenerate
18469 @kindex M-x gnus-agent-regenerate
18470 The command @code{gnus-agent-regenerate} will perform
18471 @code{gnus-agent-regenerate-group} on every agentized group. While
18472 you can run @code{gnus-agent-regenerate} in any buffer, it is strongly
18473 recommended that you first close all summary buffers.
18475 @findex gnus-agent-regenerate-group
18476 @kindex M-x gnus-agent-regenerate-group
18477 The command @code{gnus-agent-regenerate-group} uses the local copies
18478 of individual articles to repair the local @acronym{NOV}(header) database. It
18479 then updates the internal data structures that document which articles
18480 are stored locally. An optional argument will mark articles in the
18483 @node Agent and IMAP
18484 @subsection Agent and IMAP
18486 The Agent works with any Gnus back end, including nnimap. However,
18487 since there are some conceptual differences between @acronym{NNTP} and
18488 @acronym{IMAP}, this section (should) provide you with some information to
18489 make Gnus Agent work smoother as a @acronym{IMAP} Disconnected Mode client.
18491 The first thing to keep in mind is that all flags (read, ticked, etc)
18492 are kept on the @acronym{IMAP} server, rather than in @file{.newsrc} as is the
18493 case for nntp. Thus Gnus need to remember flag changes when
18494 disconnected, and synchronize these flags when you plug back in.
18496 Gnus keeps track of flag changes when reading nnimap groups under the
18497 Agent. When you plug back in, Gnus will check if you have any changed
18498 any flags and ask if you wish to synchronize these with the server.
18499 The behavior is customizable by @code{gnus-agent-synchronize-flags}.
18501 @vindex gnus-agent-synchronize-flags
18502 If @code{gnus-agent-synchronize-flags} is @code{nil}, the Agent will
18503 never automatically synchronize flags. If it is @code{ask}, which is
18504 the default, the Agent will check if you made any changes and if so
18505 ask if you wish to synchronize these when you re-connect. If it has
18506 any other value, all flags will be synchronized automatically.
18508 If you do not wish to synchronize flags automatically when you
18509 re-connect, you can do it manually with the
18510 @code{gnus-agent-synchronize-flags} command that is bound to @kbd{J Y}
18511 in the group buffer.
18513 Some things are currently not implemented in the Agent that you'd might
18514 expect from a disconnected @acronym{IMAP} client, including:
18519 Copying/moving articles into nnimap groups when unplugged.
18522 Creating/deleting nnimap groups when unplugged.
18526 Technical note: the synchronization algorithm does not work by ``pushing''
18527 all local flags to the server, but rather incrementally update the
18528 server view of flags by changing only those flags that were changed by
18529 the user. Thus, if you set one flag on an article, quit the group and
18530 re-select the group and remove the flag; the flag will be set and
18531 removed from the server when you ``synchronize''. The queued flag
18532 operations can be found in the per-server @code{flags} file in the Agent
18533 directory. It's emptied when you synchronize flags.
18536 @node Outgoing Messages
18537 @subsection Outgoing Messages
18539 When Gnus is unplugged, all outgoing messages (both mail and news) are
18540 stored in the draft group ``queue'' (@pxref{Drafts}). You can view
18541 them there after posting, and edit them at will.
18543 When Gnus is plugged again, you can send the messages either from the
18544 draft group with the special commands available there, or you can use
18545 the @kbd{J S} command in the group buffer to send all the sendable
18546 messages in the draft group.
18550 @node Agent Variables
18551 @subsection Agent Variables
18554 @item gnus-agent-directory
18555 @vindex gnus-agent-directory
18556 Where the Gnus Agent will store its files. The default is
18557 @file{~/News/agent/}.
18559 @item gnus-agent-handle-level
18560 @vindex gnus-agent-handle-level
18561 Groups on levels (@pxref{Group Levels}) higher than this variable will
18562 be ignored by the Agent. The default is @code{gnus-level-subscribed},
18563 which means that only subscribed group will be considered by the Agent
18566 @item gnus-agent-plugged-hook
18567 @vindex gnus-agent-plugged-hook
18568 Hook run when connecting to the network.
18570 @item gnus-agent-unplugged-hook
18571 @vindex gnus-agent-unplugged-hook
18572 Hook run when disconnecting from the network.
18574 @item gnus-agent-fetched-hook
18575 @vindex gnus-agent-fetched-hook
18576 Hook run when finished fetching articles.
18578 @item gnus-agent-cache
18579 @vindex gnus-agent-cache
18580 Variable to control whether use the locally stored @acronym{NOV} and
18581 articles when plugged, e.g. essentially using the Agent as a cache.
18582 The default is non-@code{nil}, which means to use the Agent as a cache.
18584 @item gnus-agent-go-online
18585 @vindex gnus-agent-go-online
18586 If @code{gnus-agent-go-online} is @code{nil}, the Agent will never
18587 automatically switch offline servers into online status. If it is
18588 @code{ask}, the default, the Agent will ask if you wish to switch
18589 offline servers into online status when you re-connect. If it has any
18590 other value, all offline servers will be automatically switched into
18593 @item gnus-agent-mark-unread-after-downloaded
18594 @vindex gnus-agent-mark-unread-after-downloaded
18595 If @code{gnus-agent-mark-unread-after-downloaded} is non-@code{nil},
18596 mark articles as unread after downloading. This is usually a safe
18597 thing to do as the newly downloaded article has obviously not been
18598 read. The default is @code{t}.
18600 @item gnus-agent-consider-all-articles
18601 @vindex gnus-agent-consider-all-articles
18602 If @code{gnus-agent-consider-all-articles} is non-@code{nil}, the
18603 agent will let the agent predicate decide whether articles need to be
18604 downloaded or not, for all articles. When @code{nil}, the default,
18605 the agent will only let the predicate decide whether unread articles
18606 are downloaded or not. If you enable this, you may also want to look
18607 into the agent expiry settings (@pxref{Category Variables}), so that
18608 the agent doesn't download articles which the agent will later expire,
18609 over and over again.
18611 @item gnus-agent-max-fetch-size
18612 @vindex gnus-agent-max-fetch-size
18613 The agent fetches articles into a temporary buffer prior to parsing
18614 them into individual files. To avoid exceeding the max. buffer size,
18615 the agent alternates between fetching and parsing until all articles
18616 have been fetched. @code{gnus-agent-max-fetch-size} provides a size
18617 limit to control how often the cycling occurs. A large value improves
18618 performance. A small value minimizes the time lost should the
18619 connection be lost while fetching (You may need to run
18620 @code{gnus-agent-regenerate-group} to update the group's state.
18621 However, all articles parsed prior to loosing the connection will be
18622 available while unplugged). The default is 10M so it is unusual to
18625 @item gnus-server-unopen-status
18626 @vindex gnus-server-unopen-status
18627 Perhaps not an Agent variable, but closely related to the Agent, this
18628 variable says what will happen if Gnus cannot open a server. If the
18629 Agent is enabled, the default, @code{nil}, makes Gnus ask the user
18630 whether to deny the server or whether to unplug the agent. If the
18631 Agent is disabled, Gnus always simply deny the server. Other choices
18632 for this variable include @code{denied} and @code{offline} the latter
18633 is only valid if the Agent is used.
18635 @item gnus-auto-goto-ignores
18636 @vindex gnus-auto-goto-ignores
18637 Another variable that isn't an Agent variable, yet so closely related
18638 that most will look for it here, this variable tells the summary
18639 buffer how to maneuver around undownloaded (only headers stored in the
18640 agent) and unfetched (neither article nor headers stored) articles.
18642 The valid values are @code{nil} (maneuver to any article),
18643 @code{undownloaded} (maneuvering while unplugged ignores articles that
18644 have not been fetched), @code{always-undownloaded} (maneuvering always
18645 ignores articles that have not been fetched), @code{unfetched}
18646 (maneuvering ignores articles whose headers have not been fetched).
18648 @item gnus-agent-auto-agentize-methods
18649 @vindex gnus-agent-auto-agentize-methods
18650 If you have never used the Agent before (or more technically, if
18651 @file{~/News/agent/lib/servers} does not exist), Gnus will
18652 automatically agentize a few servers for you. This variable control
18653 which backends should be auto-agentized. It is typically only useful
18654 to agentize remote backends. The auto-agentizing has the same effect
18655 as running @kbd{J a} on the servers (@pxref{Server Agent Commands}).
18656 If the file exist, you must manage the servers manually by adding or
18657 removing them, this variable is only applicable the first time you
18658 start Gnus. The default is @samp{(nntp nnimap)}.
18663 @node Example Setup
18664 @subsection Example Setup
18666 If you don't want to read this manual, and you have a fairly standard
18667 setup, you may be able to use something like the following as your
18668 @file{~/.gnus.el} file to get started.
18671 ;;; @r{Define how Gnus is to fetch news. We do this over @acronym{NNTP}}
18672 ;;; @r{from your ISP's server.}
18673 (setq gnus-select-method '(nntp "news.your-isp.com"))
18675 ;;; @r{Define how Gnus is to read your mail. We read mail from}
18676 ;;; @r{your ISP's @acronym{POP} server.}
18677 (setq mail-sources '((pop :server "pop.your-isp.com")))
18679 ;;; @r{Say how Gnus is to store the mail. We use nnml groups.}
18680 (setq gnus-secondary-select-methods '((nnml "")))
18682 ;;; @r{Make Gnus into an offline newsreader.}
18683 ;;; (gnus-agentize) ; @r{The obsolete setting.}
18684 ;;; (setq gnus-agent t) ; @r{Now the default.}
18687 That should be it, basically. Put that in your @file{~/.gnus.el} file,
18688 edit to suit your needs, start up PPP (or whatever), and type @kbd{M-x
18691 If this is the first time you've run Gnus, you will be subscribed
18692 automatically to a few default newsgroups. You'll probably want to
18693 subscribe to more groups, and to do that, you have to query the
18694 @acronym{NNTP} server for a complete list of groups with the @kbd{A A}
18695 command. This usually takes quite a while, but you only have to do it
18698 After reading and parsing a while, you'll be presented with a list of
18699 groups. Subscribe to the ones you want to read with the @kbd{u}
18700 command. @kbd{l} to make all the killed groups disappear after you've
18701 subscribe to all the groups you want to read. (@kbd{A k} will bring
18702 back all the killed groups.)
18704 You can now read the groups at once, or you can download the articles
18705 with the @kbd{J s} command. And then read the rest of this manual to
18706 find out which of the other gazillion things you want to customize.
18709 @node Batching Agents
18710 @subsection Batching Agents
18711 @findex gnus-agent-batch
18713 Having the Gnus Agent fetch articles (and post whatever messages you've
18714 written) is quite easy once you've gotten things set up properly. The
18715 following shell script will do everything that is necessary:
18717 You can run a complete batch command from the command line with the
18718 following incantation:
18722 emacs -batch -l ~/.emacs -l ~/.gnus.el gnus-agent-batch >/dev/null 2>&1
18726 @node Agent Caveats
18727 @subsection Agent Caveats
18729 The Gnus Agent doesn't seem to work like most other offline
18730 newsreaders. Here are some common questions that some imaginary people
18734 @item If I read an article while plugged, do they get entered into the Agent?
18736 @strong{No}. If you want this behavior, add
18737 @code{gnus-agent-fetch-selected-article} to
18738 @code{gnus-select-article-hook}.
18740 @item If I read an article while plugged, and the article already exists in
18741 the Agent, will it get downloaded once more?
18743 @strong{No}, unless @code{gnus-agent-cache} is @code{nil}.
18747 In short, when Gnus is unplugged, it only looks into the locally stored
18748 articles; when it's plugged, it talks to your ISP and may also use the
18749 locally stored articles.
18756 Other people use @dfn{kill files}, but we here at Gnus Towers like
18757 scoring better than killing, so we'd rather switch than fight. They do
18758 something completely different as well, so sit up straight and pay
18761 @vindex gnus-summary-mark-below
18762 All articles have a default score (@code{gnus-summary-default-score}),
18763 which is 0 by default. This score may be raised or lowered either
18764 interactively or by score files. Articles that have a score lower than
18765 @code{gnus-summary-mark-below} are marked as read.
18767 Gnus will read any @dfn{score files} that apply to the current group
18768 before generating the summary buffer.
18770 There are several commands in the summary buffer that insert score
18771 entries based on the current article. You can, for instance, ask Gnus to
18772 lower or increase the score of all articles with a certain subject.
18774 There are two sorts of scoring entries: Permanent and temporary.
18775 Temporary score entries are self-expiring entries. Any entries that are
18776 temporary and have not been used for, say, a week, will be removed
18777 silently to help keep the sizes of the score files down.
18780 * Summary Score Commands:: Adding score entries for the current group.
18781 * Group Score Commands:: General score commands.
18782 * Score Variables:: Customize your scoring. (My, what terminology).
18783 * Score File Format:: What a score file may contain.
18784 * Score File Editing:: You can edit score files by hand as well.
18785 * Adaptive Scoring:: Big Sister Gnus knows what you read.
18786 * Home Score File:: How to say where new score entries are to go.
18787 * Followups To Yourself:: Having Gnus notice when people answer you.
18788 * Scoring On Other Headers:: Scoring on non-standard headers.
18789 * Scoring Tips:: How to score effectively.
18790 * Reverse Scoring:: That problem child of old is not problem.
18791 * Global Score Files:: Earth-spanning, ear-splitting score files.
18792 * Kill Files:: They are still here, but they can be ignored.
18793 * Converting Kill Files:: Translating kill files to score files.
18794 * GroupLens:: Getting predictions on what you like to read.
18795 * Advanced Scoring:: Using logical expressions to build score rules.
18796 * Score Decays:: It can be useful to let scores wither away.
18800 @node Summary Score Commands
18801 @section Summary Score Commands
18802 @cindex score commands
18804 The score commands that alter score entries do not actually modify real
18805 score files. That would be too inefficient. Gnus maintains a cache of
18806 previously loaded score files, one of which is considered the
18807 @dfn{current score file alist}. The score commands simply insert
18808 entries into this list, and upon group exit, this list is saved.
18810 The current score file is by default the group's local score file, even
18811 if no such score file actually exists. To insert score commands into
18812 some other score file (e.g. @file{all.SCORE}), you must first make this
18813 score file the current one.
18815 General score commands that don't actually change the score file:
18820 @kindex V s (Summary)
18821 @findex gnus-summary-set-score
18822 Set the score of the current article (@code{gnus-summary-set-score}).
18825 @kindex V S (Summary)
18826 @findex gnus-summary-current-score
18827 Display the score of the current article
18828 (@code{gnus-summary-current-score}).
18831 @kindex V t (Summary)
18832 @findex gnus-score-find-trace
18833 Display all score rules that have been used on the current article
18834 (@code{gnus-score-find-trace}). In the @code{*Score Trace*} buffer, you
18835 may type @kbd{e} to edit score file corresponding to the score rule on
18836 current line and @kbd{f} to format (@code{gnus-score-pretty-print}) the
18837 score file and edit it.
18840 @kindex V w (Summary)
18841 @findex gnus-score-find-favourite-words
18842 List words used in scoring (@code{gnus-score-find-favourite-words}).
18845 @kindex V R (Summary)
18846 @findex gnus-summary-rescore
18847 Run the current summary through the scoring process
18848 (@code{gnus-summary-rescore}). This might be useful if you're playing
18849 around with your score files behind Gnus' back and want to see the
18850 effect you're having.
18853 @kindex V c (Summary)
18854 @findex gnus-score-change-score-file
18855 Make a different score file the current
18856 (@code{gnus-score-change-score-file}).
18859 @kindex V e (Summary)
18860 @findex gnus-score-edit-current-scores
18861 Edit the current score file (@code{gnus-score-edit-current-scores}).
18862 You will be popped into a @code{gnus-score-mode} buffer (@pxref{Score
18866 @kindex V f (Summary)
18867 @findex gnus-score-edit-file
18868 Edit a score file and make this score file the current one
18869 (@code{gnus-score-edit-file}).
18872 @kindex V F (Summary)
18873 @findex gnus-score-flush-cache
18874 Flush the score cache (@code{gnus-score-flush-cache}). This is useful
18875 after editing score files.
18878 @kindex V C (Summary)
18879 @findex gnus-score-customize
18880 Customize a score file in a visually pleasing manner
18881 (@code{gnus-score-customize}).
18885 The rest of these commands modify the local score file.
18890 @kindex V m (Summary)
18891 @findex gnus-score-set-mark-below
18892 Prompt for a score, and mark all articles with a score below this as
18893 read (@code{gnus-score-set-mark-below}).
18896 @kindex V x (Summary)
18897 @findex gnus-score-set-expunge-below
18898 Prompt for a score, and add a score rule to the current score file to
18899 expunge all articles below this score
18900 (@code{gnus-score-set-expunge-below}).
18903 The keystrokes for actually making score entries follow a very regular
18904 pattern, so there's no need to list all the commands. (Hundreds of
18907 @findex gnus-summary-increase-score
18908 @findex gnus-summary-lower-score
18912 The first key is either @kbd{I} (upper case i) for increasing the score
18913 or @kbd{L} for lowering the score.
18915 The second key says what header you want to score on. The following
18916 keys are available:
18920 Score on the author name.
18923 Score on the subject line.
18926 Score on the @code{Xref} line---i.e., the cross-posting line.
18929 Score on the @code{References} line.
18935 Score on the number of lines.
18938 Score on the @code{Message-ID} header.
18941 Score on an ``extra'' header, that is, one of those in gnus-extra-headers,
18942 if your @acronym{NNTP} server tracks additional header data in overviews.
18945 Score on followups---this matches the author name, and adds scores to
18946 the followups to this author. (Using this key leads to the creation of
18947 @file{ADAPT} files.)
18956 Score on thread. (Using this key leads to the creation of @file{ADAPT}
18962 The third key is the match type. Which match types are valid depends on
18963 what headers you are scoring on.
18975 Substring matching.
18978 Fuzzy matching (@pxref{Fuzzy Matching}).
19007 Greater than number.
19012 The fourth and usually final key says whether this is a temporary (i.e.,
19013 expiring) score entry, or a permanent (i.e., non-expiring) score entry,
19014 or whether it is to be done immediately, without adding to the score
19019 Temporary score entry.
19022 Permanent score entry.
19025 Immediately scoring.
19029 If you are scoring on `e' (extra) headers, you will then be prompted for
19030 the header name on which you wish to score. This must be a header named
19031 in gnus-extra-headers, and @samp{TAB} completion is available.
19035 So, let's say you want to increase the score on the current author with
19036 exact matching permanently: @kbd{I a e p}. If you want to lower the
19037 score based on the subject line, using substring matching, and make a
19038 temporary score entry: @kbd{L s s t}. Pretty easy.
19040 To make things a bit more complicated, there are shortcuts. If you use
19041 a capital letter on either the second or third keys, Gnus will use
19042 defaults for the remaining one or two keystrokes. The defaults are
19043 ``substring'' and ``temporary''. So @kbd{I A} is the same as @kbd{I a s
19044 t}, and @kbd{I a R} is the same as @kbd{I a r t}.
19046 These functions take both the numerical prefix and the symbolic prefix
19047 (@pxref{Symbolic Prefixes}). A numerical prefix says how much to lower
19048 (or increase) the score of the article. A symbolic prefix of @code{a}
19049 says to use the @file{all.SCORE} file for the command instead of the
19050 current score file.
19052 @vindex gnus-score-mimic-keymap
19053 The @code{gnus-score-mimic-keymap} says whether these commands will
19054 pretend they are keymaps or not.
19057 @node Group Score Commands
19058 @section Group Score Commands
19059 @cindex group score commands
19061 There aren't many of these as yet, I'm afraid.
19066 @kindex W f (Group)
19067 @findex gnus-score-flush-cache
19068 Gnus maintains a cache of score alists to avoid having to reload them
19069 all the time. This command will flush the cache
19070 (@code{gnus-score-flush-cache}).
19074 You can do scoring from the command line by saying something like:
19076 @findex gnus-batch-score
19077 @cindex batch scoring
19079 $ emacs -batch -l ~/.emacs -l ~/.gnus.el -f gnus-batch-score
19083 @node Score Variables
19084 @section Score Variables
19085 @cindex score variables
19089 @item gnus-use-scoring
19090 @vindex gnus-use-scoring
19091 If @code{nil}, Gnus will not check for score files, and will not, in
19092 general, do any score-related work. This is @code{t} by default.
19094 @item gnus-kill-killed
19095 @vindex gnus-kill-killed
19096 If this variable is @code{nil}, Gnus will never apply score files to
19097 articles that have already been through the kill process. While this
19098 may save you lots of time, it also means that if you apply a kill file
19099 to a group, and then change the kill file and want to run it over you
19100 group again to kill more articles, it won't work. You have to set this
19101 variable to @code{t} to do that. (It is @code{t} by default.)
19103 @item gnus-kill-files-directory
19104 @vindex gnus-kill-files-directory
19105 All kill and score files will be stored in this directory, which is
19106 initialized from the @env{SAVEDIR} environment variable by default.
19107 This is @file{~/News/} by default.
19109 @item gnus-score-file-suffix
19110 @vindex gnus-score-file-suffix
19111 Suffix to add to the group name to arrive at the score file name
19112 (@file{SCORE} by default.)
19114 @item gnus-score-uncacheable-files
19115 @vindex gnus-score-uncacheable-files
19116 @cindex score cache
19117 All score files are normally cached to avoid excessive re-loading of
19118 score files. However, if this might make your Emacs grow big and
19119 bloated, so this regexp can be used to weed out score files unlikely
19120 to be needed again. It would be a bad idea to deny caching of
19121 @file{all.SCORE}, while it might be a good idea to not cache
19122 @file{comp.infosystems.www.authoring.misc.ADAPT}. In fact, this
19123 variable is @samp{ADAPT$} by default, so no adaptive score files will
19126 @item gnus-save-score
19127 @vindex gnus-save-score
19128 If you have really complicated score files, and do lots of batch
19129 scoring, then you might set this variable to @code{t}. This will make
19130 Gnus save the scores into the @file{.newsrc.eld} file.
19132 If you do not set this to @code{t}, then manual scores (like those set
19133 with @kbd{V s} (@code{gnus-summary-set-score})) will not be preserved
19134 across group visits.
19136 @item gnus-score-interactive-default-score
19137 @vindex gnus-score-interactive-default-score
19138 Score used by all the interactive raise/lower commands to raise/lower
19139 score with. Default is 1000, which may seem excessive, but this is to
19140 ensure that the adaptive scoring scheme gets enough room to play with.
19141 We don't want the small changes from the adaptive scoring to overwrite
19142 manually entered data.
19144 @item gnus-summary-default-score
19145 @vindex gnus-summary-default-score
19146 Default score of an article, which is 0 by default.
19148 @item gnus-summary-expunge-below
19149 @vindex gnus-summary-expunge-below
19150 Don't display the summary lines of articles that have scores lower than
19151 this variable. This is @code{nil} by default, which means that no
19152 articles will be hidden. This variable is local to the summary buffers,
19153 and has to be set from @code{gnus-summary-mode-hook}.
19155 @item gnus-score-over-mark
19156 @vindex gnus-score-over-mark
19157 Mark (in the third column) used for articles with a score over the
19158 default. Default is @samp{+}.
19160 @item gnus-score-below-mark
19161 @vindex gnus-score-below-mark
19162 Mark (in the third column) used for articles with a score below the
19163 default. Default is @samp{-}.
19165 @item gnus-score-find-score-files-function
19166 @vindex gnus-score-find-score-files-function
19167 Function used to find score files for the current group. This function
19168 is called with the name of the group as the argument.
19170 Predefined functions available are:
19173 @item gnus-score-find-single
19174 @findex gnus-score-find-single
19175 Only apply the group's own score file.
19177 @item gnus-score-find-bnews
19178 @findex gnus-score-find-bnews
19179 Apply all score files that match, using bnews syntax. This is the
19180 default. If the current group is @samp{gnu.emacs.gnus}, for instance,
19181 @file{all.emacs.all.SCORE}, @file{not.alt.all.SCORE} and
19182 @file{gnu.all.SCORE} would all apply. In short, the instances of
19183 @samp{all} in the score file names are translated into @samp{.*}, and
19184 then a regexp match is done.
19186 This means that if you have some score entries that you want to apply to
19187 all groups, then you put those entries in the @file{all.SCORE} file.
19189 The score files are applied in a semi-random order, although Gnus will
19190 try to apply the more general score files before the more specific score
19191 files. It does this by looking at the number of elements in the score
19192 file names---discarding the @samp{all} elements.
19194 @item gnus-score-find-hierarchical
19195 @findex gnus-score-find-hierarchical
19196 Apply all score files from all the parent groups. This means that you
19197 can't have score files like @file{all.SCORE}, but you can have
19198 @file{SCORE}, @file{comp.SCORE} and @file{comp.emacs.SCORE} for each
19202 This variable can also be a list of functions. In that case, all
19203 these functions will be called with the group name as argument, and
19204 all the returned lists of score files will be applied. These
19205 functions can also return lists of lists of score alists directly. In
19206 that case, the functions that return these non-file score alists
19207 should probably be placed before the ``real'' score file functions, to
19208 ensure that the last score file returned is the local score file.
19211 For example, to do hierarchical scoring but use a non-server-specific
19212 overall score file, you could use the value
19214 (list (lambda (group) ("all.SCORE"))
19215 'gnus-score-find-hierarchical)
19218 @item gnus-score-expiry-days
19219 @vindex gnus-score-expiry-days
19220 This variable says how many days should pass before an unused score file
19221 entry is expired. If this variable is @code{nil}, no score file entries
19222 are expired. It's 7 by default.
19224 @item gnus-update-score-entry-dates
19225 @vindex gnus-update-score-entry-dates
19226 If this variable is non-@code{nil}, temporary score entries that have
19227 been triggered (matched) will have their dates updated. (This is how Gnus
19228 controls expiry---all non-matched-entries will become too old while
19229 matched entries will stay fresh and young.) However, if you set this
19230 variable to @code{nil}, even matched entries will grow old and will
19231 have to face that oh-so grim reaper.
19233 @item gnus-score-after-write-file-function
19234 @vindex gnus-score-after-write-file-function
19235 Function called with the name of the score file just written.
19237 @item gnus-score-thread-simplify
19238 @vindex gnus-score-thread-simplify
19239 If this variable is non-@code{nil}, article subjects will be
19240 simplified for subject scoring purposes in the same manner as with
19241 threading---according to the current value of
19242 @code{gnus-simplify-subject-functions}. If the scoring entry uses
19243 @code{substring} or @code{exact} matching, the match will also be
19244 simplified in this manner.
19249 @node Score File Format
19250 @section Score File Format
19251 @cindex score file format
19253 A score file is an @code{emacs-lisp} file that normally contains just a
19254 single form. Casual users are not expected to edit these files;
19255 everything can be changed from the summary buffer.
19257 Anyway, if you'd like to dig into it yourself, here's an example:
19261 ("Lars Ingebrigtsen" -10000)
19263 ("larsi\\|lmi" -50000 nil R))
19265 ("Ding is Badd" nil 728373))
19267 ("alt.politics" -1000 728372 s))
19272 (mark-and-expunge -10)
19276 (files "/hom/larsi/News/gnu.SCORE")
19277 (exclude-files "all.SCORE")
19278 (local (gnus-newsgroup-auto-expire t)
19279 (gnus-summary-make-false-root empty))
19283 This example demonstrates most score file elements. @xref{Advanced
19284 Scoring}, for a different approach.
19286 Even though this looks much like Lisp code, nothing here is actually
19287 @code{eval}ed. The Lisp reader is used to read this form, though, so it
19288 has to be valid syntactically, if not semantically.
19290 Six keys are supported by this alist:
19295 If the key is a string, it is the name of the header to perform the
19296 match on. Scoring can only be performed on these eight headers:
19297 @code{From}, @code{Subject}, @code{References}, @code{Message-ID},
19298 @code{Xref}, @code{Lines}, @code{Chars} and @code{Date}. In addition to
19299 these headers, there are three strings to tell Gnus to fetch the entire
19300 article and do the match on larger parts of the article: @code{Body}
19301 will perform the match on the body of the article, @code{Head} will
19302 perform the match on the head of the article, and @code{All} will
19303 perform the match on the entire article. Note that using any of these
19304 last three keys will slow down group entry @emph{considerably}. The
19305 final ``header'' you can score on is @code{Followup}. These score
19306 entries will result in new score entries being added for all follow-ups
19307 to articles that matches these score entries.
19309 Following this key is an arbitrary number of score entries, where each
19310 score entry has one to four elements.
19314 The first element is the @dfn{match element}. On most headers this will
19315 be a string, but on the Lines and Chars headers, this must be an
19319 If the second element is present, it should be a number---the @dfn{score
19320 element}. This number should be an integer in the neginf to posinf
19321 interval. This number is added to the score of the article if the match
19322 is successful. If this element is not present, the
19323 @code{gnus-score-interactive-default-score} number will be used
19324 instead. This is 1000 by default.
19327 If the third element is present, it should be a number---the @dfn{date
19328 element}. This date says when the last time this score entry matched,
19329 which provides a mechanism for expiring the score entries. It this
19330 element is not present, the score entry is permanent. The date is
19331 represented by the number of days since December 31, 1 BCE.
19334 If the fourth element is present, it should be a symbol---the @dfn{type
19335 element}. This element specifies what function should be used to see
19336 whether this score entry matches the article. What match types that can
19337 be used depends on what header you wish to perform the match on.
19340 @item From, Subject, References, Xref, Message-ID
19341 For most header types, there are the @code{r} and @code{R} (regexp), as
19342 well as @code{s} and @code{S} (substring) types, and @code{e} and
19343 @code{E} (exact match), and @code{w} (word match) types. If this
19344 element is not present, Gnus will assume that substring matching should
19345 be used. @code{R}, @code{S}, and @code{E} differ from the others in
19346 that the matches will be done in a case-sensitive manner. All these
19347 one-letter types are really just abbreviations for the @code{regexp},
19348 @code{string}, @code{exact}, and @code{word} types, which you can use
19349 instead, if you feel like.
19352 Just as for the standard string overview headers, if you are using
19353 gnus-extra-headers, you can score on these headers' values. In this
19354 case, there is a 5th element in the score entry, being the name of the
19355 header to be scored. The following entry is useful in your
19356 @file{all.SCORE} file in case of spam attacks from a single origin
19357 host, if your @acronym{NNTP} server tracks @samp{NNTP-Posting-Host} in
19361 ("111.222.333.444" -1000 nil s
19362 "NNTP-Posting-Host")
19366 These two headers use different match types: @code{<}, @code{>},
19367 @code{=}, @code{>=} and @code{<=}.
19369 These predicates are true if
19372 (PREDICATE HEADER MATCH)
19375 evaluates to non-@code{nil}. For instance, the advanced match
19376 @code{("lines" 4 <)} (@pxref{Advanced Scoring}) will result in the
19383 Or to put it another way: When using @code{<} on @code{Lines} with 4 as
19384 the match, we get the score added if the article has less than 4 lines.
19385 (It's easy to get confused and think it's the other way around. But
19386 it's not. I think.)
19388 When matching on @code{Lines}, be careful because some back ends (like
19389 @code{nndir}) do not generate @code{Lines} header, so every article ends
19390 up being marked as having 0 lines. This can lead to strange results if
19391 you happen to lower score of the articles with few lines.
19394 For the Date header we have three kinda silly match types:
19395 @code{before}, @code{at} and @code{after}. I can't really imagine this
19396 ever being useful, but, like, it would feel kinda silly not to provide
19397 this function. Just in case. You never know. Better safe than sorry.
19398 Once burnt, twice shy. Don't judge a book by its cover. Never not have
19399 sex on a first date. (I have been told that at least one person, and I
19400 quote, ``found this function indispensable'', however.)
19404 A more useful match type is @code{regexp}. With it, you can match the
19405 date string using a regular expression. The date is normalized to
19406 ISO8601 compact format first---@var{YYYYMMDD}@code{T}@var{HHMMSS}. If
19407 you want to match all articles that have been posted on April 1st in
19408 every year, you could use @samp{....0401.........} as a match string,
19409 for instance. (Note that the date is kept in its original time zone, so
19410 this will match articles that were posted when it was April 1st where
19411 the article was posted from. Time zones are such wholesome fun for the
19414 @item Head, Body, All
19415 These three match keys use the same match types as the @code{From} (etc)
19419 This match key is somewhat special, in that it will match the
19420 @code{From} header, and affect the score of not only the matching
19421 articles, but also all followups to the matching articles. This allows
19422 you e.g. increase the score of followups to your own articles, or
19423 decrease the score of followups to the articles of some known
19424 trouble-maker. Uses the same match types as the @code{From} header
19425 uses. (Using this match key will lead to creation of @file{ADAPT}
19429 This match key works along the same lines as the @code{Followup} match
19430 key. If you say that you want to score on a (sub-)thread started by an
19431 article with a @code{Message-ID} @var{x}, then you add a @samp{thread}
19432 match. This will add a new @samp{thread} match for each article that
19433 has @var{x} in its @code{References} header. (These new @samp{thread}
19434 matches will use the @code{Message-ID}s of these matching articles.)
19435 This will ensure that you can raise/lower the score of an entire thread,
19436 even though some articles in the thread may not have complete
19437 @code{References} headers. Note that using this may lead to
19438 undeterministic scores of the articles in the thread. (Using this match
19439 key will lead to creation of @file{ADAPT} files.)
19443 @cindex score file atoms
19445 The value of this entry should be a number. Any articles with a score
19446 lower than this number will be marked as read.
19449 The value of this entry should be a number. Any articles with a score
19450 lower than this number will be removed from the summary buffer.
19452 @item mark-and-expunge
19453 The value of this entry should be a number. Any articles with a score
19454 lower than this number will be marked as read and removed from the
19457 @item thread-mark-and-expunge
19458 The value of this entry should be a number. All articles that belong to
19459 a thread that has a total score below this number will be marked as read
19460 and removed from the summary buffer. @code{gnus-thread-score-function}
19461 says how to compute the total score for a thread.
19464 The value of this entry should be any number of file names. These files
19465 are assumed to be score files as well, and will be loaded the same way
19468 @item exclude-files
19469 The clue of this entry should be any number of files. These files will
19470 not be loaded, even though they would normally be so, for some reason or
19474 The value of this entry will be @code{eval}el. This element will be
19475 ignored when handling global score files.
19478 Read-only score files will not be updated or saved. Global score files
19479 should feature this atom (@pxref{Global Score Files}). (Note:
19480 @dfn{Global} here really means @dfn{global}; not your personal
19481 apply-to-all-groups score files.)
19484 The value of this entry should be a number. Articles that do not have
19485 parents will get this number added to their scores. Imagine you follow
19486 some high-volume newsgroup, like @samp{comp.lang.c}. Most likely you
19487 will only follow a few of the threads, also want to see any new threads.
19489 You can do this with the following two score file entries:
19493 (mark-and-expunge -100)
19496 When you enter the group the first time, you will only see the new
19497 threads. You then raise the score of the threads that you find
19498 interesting (with @kbd{I T} or @kbd{I S}), and ignore (@kbd{C y}) the
19499 rest. Next time you enter the group, you will see new articles in the
19500 interesting threads, plus any new threads.
19502 I.e.---the orphan score atom is for high-volume groups where a few
19503 interesting threads which can't be found automatically by ordinary
19504 scoring rules exist.
19507 This entry controls the adaptive scoring. If it is @code{t}, the
19508 default adaptive scoring rules will be used. If it is @code{ignore}, no
19509 adaptive scoring will be performed on this group. If it is a list, this
19510 list will be used as the adaptive scoring rules. If it isn't present,
19511 or is something other than @code{t} or @code{ignore}, the default
19512 adaptive scoring rules will be used. If you want to use adaptive
19513 scoring on most groups, you'd set @code{gnus-use-adaptive-scoring} to
19514 @code{t}, and insert an @code{(adapt ignore)} in the groups where you do
19515 not want adaptive scoring. If you only want adaptive scoring in a few
19516 groups, you'd set @code{gnus-use-adaptive-scoring} to @code{nil}, and
19517 insert @code{(adapt t)} in the score files of the groups where you want
19521 All adaptive score entries will go to the file named by this entry. It
19522 will also be applied when entering the group. This atom might be handy
19523 if you want to adapt on several groups at once, using the same adaptive
19524 file for a number of groups.
19527 @cindex local variables
19528 The value of this entry should be a list of @code{(@var{var}
19529 @var{value})} pairs. Each @var{var} will be made buffer-local to the
19530 current summary buffer, and set to the value specified. This is a
19531 convenient, if somewhat strange, way of setting variables in some
19532 groups if you don't like hooks much. Note that the @var{value} won't
19537 @node Score File Editing
19538 @section Score File Editing
19540 You normally enter all scoring commands from the summary buffer, but you
19541 might feel the urge to edit them by hand as well, so we've supplied you
19542 with a mode for that.
19544 It's simply a slightly customized @code{emacs-lisp} mode, with these
19545 additional commands:
19550 @kindex C-c C-c (Score)
19551 @findex gnus-score-edit-done
19552 Save the changes you have made and return to the summary buffer
19553 (@code{gnus-score-edit-done}).
19556 @kindex C-c C-d (Score)
19557 @findex gnus-score-edit-insert-date
19558 Insert the current date in numerical format
19559 (@code{gnus-score-edit-insert-date}). This is really the day number, if
19560 you were wondering.
19563 @kindex C-c C-p (Score)
19564 @findex gnus-score-pretty-print
19565 The adaptive score files are saved in an unformatted fashion. If you
19566 intend to read one of these files, you want to @dfn{pretty print} it
19567 first. This command (@code{gnus-score-pretty-print}) does that for
19572 Type @kbd{M-x gnus-score-mode} to use this mode.
19574 @vindex gnus-score-mode-hook
19575 @code{gnus-score-menu-hook} is run in score mode buffers.
19577 In the summary buffer you can use commands like @kbd{V f}, @kbd{V e} and
19578 @kbd{V t} to begin editing score files.
19581 @node Adaptive Scoring
19582 @section Adaptive Scoring
19583 @cindex adaptive scoring
19585 If all this scoring is getting you down, Gnus has a way of making it all
19586 happen automatically---as if by magic. Or rather, as if by artificial
19587 stupidity, to be precise.
19589 @vindex gnus-use-adaptive-scoring
19590 When you read an article, or mark an article as read, or kill an
19591 article, you leave marks behind. On exit from the group, Gnus can sniff
19592 these marks and add score elements depending on what marks it finds.
19593 You turn on this ability by setting @code{gnus-use-adaptive-scoring} to
19594 @code{t} or @code{(line)}. If you want score adaptively on separate
19595 words appearing in the subjects, you should set this variable to
19596 @code{(word)}. If you want to use both adaptive methods, set this
19597 variable to @code{(word line)}.
19599 @vindex gnus-default-adaptive-score-alist
19600 To give you complete control over the scoring process, you can customize
19601 the @code{gnus-default-adaptive-score-alist} variable. For instance, it
19602 might look something like this:
19605 (setq gnus-default-adaptive-score-alist
19606 '((gnus-unread-mark)
19607 (gnus-ticked-mark (from 4))
19608 (gnus-dormant-mark (from 5))
19609 (gnus-del-mark (from -4) (subject -1))
19610 (gnus-read-mark (from 4) (subject 2))
19611 (gnus-expirable-mark (from -1) (subject -1))
19612 (gnus-killed-mark (from -1) (subject -3))
19613 (gnus-kill-file-mark)
19614 (gnus-ancient-mark)
19615 (gnus-low-score-mark)
19616 (gnus-catchup-mark (from -1) (subject -1))))
19619 As you see, each element in this alist has a mark as a key (either a
19620 variable name or a ``real'' mark---a character). Following this key is
19621 a arbitrary number of header/score pairs. If there are no header/score
19622 pairs following the key, no adaptive scoring will be done on articles
19623 that have that key as the article mark. For instance, articles with
19624 @code{gnus-unread-mark} in the example above will not get adaptive score
19627 Each article can have only one mark, so just a single of these rules
19628 will be applied to each article.
19630 To take @code{gnus-del-mark} as an example---this alist says that all
19631 articles that have that mark (i.e., are marked with @samp{e}) will have a
19632 score entry added to lower based on the @code{From} header by -4, and
19633 lowered by @code{Subject} by -1. Change this to fit your prejudices.
19635 If you have marked 10 articles with the same subject with
19636 @code{gnus-del-mark}, the rule for that mark will be applied ten times.
19637 That means that that subject will get a score of ten times -1, which
19638 should be, unless I'm much mistaken, -10.
19640 If you have auto-expirable (mail) groups (@pxref{Expiring Mail}), all
19641 the read articles will be marked with the @samp{E} mark. This'll
19642 probably make adaptive scoring slightly impossible, so auto-expiring and
19643 adaptive scoring doesn't really mix very well.
19645 The headers you can score on are @code{from}, @code{subject},
19646 @code{message-id}, @code{references}, @code{xref}, @code{lines},
19647 @code{chars} and @code{date}. In addition, you can score on
19648 @code{followup}, which will create an adaptive score entry that matches
19649 on the @code{References} header using the @code{Message-ID} of the
19650 current article, thereby matching the following thread.
19652 If you use this scheme, you should set the score file atom @code{mark}
19653 to something small---like -300, perhaps, to avoid having small random
19654 changes result in articles getting marked as read.
19656 After using adaptive scoring for a week or so, Gnus should start to
19657 become properly trained and enhance the authors you like best, and kill
19658 the authors you like least, without you having to say so explicitly.
19660 You can control what groups the adaptive scoring is to be performed on
19661 by using the score files (@pxref{Score File Format}). This will also
19662 let you use different rules in different groups.
19664 @vindex gnus-adaptive-file-suffix
19665 The adaptive score entries will be put into a file where the name is the
19666 group name with @code{gnus-adaptive-file-suffix} appended. The default
19669 @vindex gnus-score-exact-adapt-limit
19670 When doing adaptive scoring, substring or fuzzy matching would probably
19671 give you the best results in most cases. However, if the header one
19672 matches is short, the possibility for false positives is great, so if
19673 the length of the match is less than
19674 @code{gnus-score-exact-adapt-limit}, exact matching will be used. If
19675 this variable is @code{nil}, exact matching will always be used to avoid
19678 @vindex gnus-default-adaptive-word-score-alist
19679 As mentioned above, you can adapt either on individual words or entire
19680 headers. If you adapt on words, the
19681 @code{gnus-default-adaptive-word-score-alist} variable says what score
19682 each instance of a word should add given a mark.
19685 (setq gnus-default-adaptive-word-score-alist
19686 `((,gnus-read-mark . 30)
19687 (,gnus-catchup-mark . -10)
19688 (,gnus-killed-mark . -20)
19689 (,gnus-del-mark . -15)))
19692 This is the default value. If you have adaption on words enabled, every
19693 word that appears in subjects of articles marked with
19694 @code{gnus-read-mark} will result in a score rule that increase the
19695 score with 30 points.
19697 @vindex gnus-default-ignored-adaptive-words
19698 @vindex gnus-ignored-adaptive-words
19699 Words that appear in the @code{gnus-default-ignored-adaptive-words} list
19700 will be ignored. If you wish to add more words to be ignored, use the
19701 @code{gnus-ignored-adaptive-words} list instead.
19703 @vindex gnus-adaptive-word-length-limit
19704 Some may feel that short words shouldn't count when doing adaptive
19705 scoring. If so, you may set @code{gnus-adaptive-word-length-limit} to
19706 an integer. Words shorter than this number will be ignored. This
19707 variable defaults to @code{nil}.
19709 @vindex gnus-adaptive-word-syntax-table
19710 When the scoring is done, @code{gnus-adaptive-word-syntax-table} is the
19711 syntax table in effect. It is similar to the standard syntax table, but
19712 it considers numbers to be non-word-constituent characters.
19714 @vindex gnus-adaptive-word-minimum
19715 If @code{gnus-adaptive-word-minimum} is set to a number, the adaptive
19716 word scoring process will never bring down the score of an article to
19717 below this number. The default is @code{nil}.
19719 @vindex gnus-adaptive-word-no-group-words
19720 If @code{gnus-adaptive-word-no-group-words} is set to @code{t}, gnus
19721 won't adaptively word score any of the words in the group name. Useful
19722 for groups like @samp{comp.editors.emacs}, where most of the subject
19723 lines contain the word @samp{emacs}.
19725 After using this scheme for a while, it might be nice to write a
19726 @code{gnus-psychoanalyze-user} command to go through the rules and see
19727 what words you like and what words you don't like. Or perhaps not.
19729 Note that the adaptive word scoring thing is highly experimental and is
19730 likely to change in the future. Initial impressions seem to indicate
19731 that it's totally useless as it stands. Some more work (involving more
19732 rigorous statistical methods) will have to be done to make this useful.
19735 @node Home Score File
19736 @section Home Score File
19738 The score file where new score file entries will go is called the
19739 @dfn{home score file}. This is normally (and by default) the score file
19740 for the group itself. For instance, the home score file for
19741 @samp{gnu.emacs.gnus} is @file{gnu.emacs.gnus.SCORE}.
19743 However, this may not be what you want. It is often convenient to share
19744 a common home score file among many groups---all @samp{emacs} groups
19745 could perhaps use the same home score file.
19747 @vindex gnus-home-score-file
19748 The variable that controls this is @code{gnus-home-score-file}. It can
19753 A string. Then this file will be used as the home score file for all
19757 A function. The result of this function will be used as the home score
19758 file. The function will be called with the name of the group as the
19762 A list. The elements in this list can be:
19766 @code{(@var{regexp} @var{file-name})}. If the @var{regexp} matches the
19767 group name, the @var{file-name} will be used as the home score file.
19770 A function. If the function returns non-@code{nil}, the result will
19771 be used as the home score file. The function will be called with the
19772 name of the group as the parameter.
19775 A string. Use the string as the home score file.
19778 The list will be traversed from the beginning towards the end looking
19783 So, if you want to use just a single score file, you could say:
19786 (setq gnus-home-score-file
19787 "my-total-score-file.SCORE")
19790 If you want to use @file{gnu.SCORE} for all @samp{gnu} groups and
19791 @file{rec.SCORE} for all @samp{rec} groups (and so on), you can say:
19793 @findex gnus-hierarchial-home-score-file
19795 (setq gnus-home-score-file
19796 'gnus-hierarchial-home-score-file)
19799 This is a ready-made function provided for your convenience.
19800 Other functions include
19803 @item gnus-current-home-score-file
19804 @findex gnus-current-home-score-file
19805 Return the ``current'' regular score file. This will make scoring
19806 commands add entry to the ``innermost'' matching score file.
19810 If you want to have one score file for the @samp{emacs} groups and
19811 another for the @samp{comp} groups, while letting all other groups use
19812 their own home score files:
19815 (setq gnus-home-score-file
19816 ;; @r{All groups that match the regexp @code{"\\.emacs"}}
19817 '(("\\.emacs" "emacs.SCORE")
19818 ;; @r{All the comp groups in one score file}
19819 ("^comp" "comp.SCORE")))
19822 @vindex gnus-home-adapt-file
19823 @code{gnus-home-adapt-file} works exactly the same way as
19824 @code{gnus-home-score-file}, but says what the home adaptive score file
19825 is instead. All new adaptive file entries will go into the file
19826 specified by this variable, and the same syntax is allowed.
19828 In addition to using @code{gnus-home-score-file} and
19829 @code{gnus-home-adapt-file}, you can also use group parameters
19830 (@pxref{Group Parameters}) and topic parameters (@pxref{Topic
19831 Parameters}) to achieve much the same. Group and topic parameters take
19832 precedence over this variable.
19835 @node Followups To Yourself
19836 @section Followups To Yourself
19838 Gnus offers two commands for picking out the @code{Message-ID} header in
19839 the current buffer. Gnus will then add a score rule that scores using
19840 this @code{Message-ID} on the @code{References} header of other
19841 articles. This will, in effect, increase the score of all articles that
19842 respond to the article in the current buffer. Quite useful if you want
19843 to easily note when people answer what you've said.
19847 @item gnus-score-followup-article
19848 @findex gnus-score-followup-article
19849 This will add a score to articles that directly follow up your own
19852 @item gnus-score-followup-thread
19853 @findex gnus-score-followup-thread
19854 This will add a score to all articles that appear in a thread ``below''
19858 @vindex message-sent-hook
19859 These two functions are both primarily meant to be used in hooks like
19860 @code{message-sent-hook}, like this:
19862 (add-hook 'message-sent-hook 'gnus-score-followup-thread)
19866 If you look closely at your own @code{Message-ID}, you'll notice that
19867 the first two or three characters are always the same. Here's two of
19871 <x6u3u47icf.fsf@@eyesore.no>
19872 <x6sp9o7ibw.fsf@@eyesore.no>
19875 So ``my'' ident on this machine is @samp{x6}. This can be
19876 exploited---the following rule will raise the score on all followups to
19881 ("<x6[0-9a-z]+\\.fsf\\(_-_\\)?@@.*eyesore\\.no>"
19885 Whether it's the first two or first three characters that are ``yours''
19886 is system-dependent.
19889 @node Scoring On Other Headers
19890 @section Scoring On Other Headers
19891 @cindex scoring on other headers
19893 Gnus is quite fast when scoring the ``traditional''
19894 headers---@samp{From}, @samp{Subject} and so on. However, scoring
19895 other headers requires writing a @code{head} scoring rule, which means
19896 that Gnus has to request every single article from the back end to find
19897 matches. This takes a long time in big groups.
19899 Now, there's not much you can do about this for news groups, but for
19900 mail groups, you have greater control. In @ref{To From Newsgroups},
19901 it's explained in greater detail what this mechanism does, but here's
19902 a cookbook example for @code{nnml} on how to allow scoring on the
19903 @samp{To} and @samp{Cc} headers.
19905 Put the following in your @file{~/.gnus.el} file.
19908 (setq gnus-extra-headers '(To Cc Newsgroups Keywords)
19909 nnmail-extra-headers gnus-extra-headers)
19912 Restart Gnus and rebuild your @code{nnml} overview files with the
19913 @kbd{M-x nnml-generate-nov-databases} command. This will take a long
19914 time if you have much mail.
19916 Now you can score on @samp{To} and @samp{Cc} as ``extra headers'' like
19917 so: @kbd{I e s p To RET <your name> RET}.
19923 @section Scoring Tips
19924 @cindex scoring tips
19930 @cindex scoring crossposts
19931 If you want to lower the score of crossposts, the line to match on is
19932 the @code{Xref} header.
19934 ("xref" (" talk.politics.misc:" -1000))
19937 @item Multiple crossposts
19938 If you want to lower the score of articles that have been crossposted to
19939 more than, say, 3 groups:
19942 ("[^:\n]+:[0-9]+ +[^:\n]+:[0-9]+ +[^:\n]+:[0-9]+"
19946 @item Matching on the body
19947 This is generally not a very good idea---it takes a very long time.
19948 Gnus actually has to fetch each individual article from the server. But
19949 you might want to anyway, I guess. Even though there are three match
19950 keys (@code{Head}, @code{Body} and @code{All}), you should choose one
19951 and stick with it in each score file. If you use any two, each article
19952 will be fetched @emph{twice}. If you want to match a bit on the
19953 @code{Head} and a bit on the @code{Body}, just use @code{All} for all
19956 @item Marking as read
19957 You will probably want to mark articles that have scores below a certain
19958 number as read. This is most easily achieved by putting the following
19959 in your @file{all.SCORE} file:
19963 You may also consider doing something similar with @code{expunge}.
19965 @item Negated character classes
19966 If you say stuff like @code{[^abcd]*}, you may get unexpected results.
19967 That will match newlines, which might lead to, well, The Unknown. Say
19968 @code{[^abcd\n]*} instead.
19972 @node Reverse Scoring
19973 @section Reverse Scoring
19974 @cindex reverse scoring
19976 If you want to keep just articles that have @samp{Sex with Emacs} in the
19977 subject header, and expunge all other articles, you could put something
19978 like this in your score file:
19982 ("Sex with Emacs" 2))
19987 So, you raise all articles that match @samp{Sex with Emacs} and mark the
19988 rest as read, and expunge them to boot.
19991 @node Global Score Files
19992 @section Global Score Files
19993 @cindex global score files
19995 Sure, other newsreaders have ``global kill files''. These are usually
19996 nothing more than a single kill file that applies to all groups, stored
19997 in the user's home directory. Bah! Puny, weak newsreaders!
19999 What I'm talking about here are Global Score Files. Score files from
20000 all over the world, from users everywhere, uniting all nations in one
20001 big, happy score file union! Ange-score! New and untested!
20003 @vindex gnus-global-score-files
20004 All you have to do to use other people's score files is to set the
20005 @code{gnus-global-score-files} variable. One entry for each score file,
20006 or each score file directory. Gnus will decide by itself what score
20007 files are applicable to which group.
20009 To use the score file
20010 @file{/ftp@@ftp.gnus.org:/pub/larsi/ding/score/soc.motss.SCORE} and
20011 all score files in the @file{/ftp@@ftp.some-where:/pub/score} directory,
20015 (setq gnus-global-score-files
20016 '("/ftp@@ftp.gnus.org:/pub/larsi/ding/score/soc.motss.SCORE"
20017 "/ftp@@ftp.some-where:/pub/score/"))
20020 @findex gnus-score-search-global-directories
20022 Simple, eh? Directory names must end with a @samp{/}. These
20023 directories are typically scanned only once during each Gnus session.
20024 If you feel the need to manually re-scan the remote directories, you can
20025 use the @code{gnus-score-search-global-directories} command.
20027 Note that, at present, using this option will slow down group entry
20028 somewhat. (That is---a lot.)
20030 If you want to start maintaining score files for other people to use,
20031 just put your score file up for anonymous ftp and announce it to the
20032 world. Become a retro-moderator! Participate in the retro-moderator
20033 wars sure to ensue, where retro-moderators battle it out for the
20034 sympathy of the people, luring them to use their score files on false
20035 premises! Yay! The net is saved!
20037 Here are some tips for the would-be retro-moderator, off the top of my
20043 Articles heavily crossposted are probably junk.
20045 To lower a single inappropriate article, lower by @code{Message-ID}.
20047 Particularly brilliant authors can be raised on a permanent basis.
20049 Authors that repeatedly post off-charter for the group can safely be
20050 lowered out of existence.
20052 Set the @code{mark} and @code{expunge} atoms to obliterate the nastiest
20053 articles completely.
20056 Use expiring score entries to keep the size of the file down. You
20057 should probably have a long expiry period, though, as some sites keep
20058 old articles for a long time.
20061 @dots{} I wonder whether other newsreaders will support global score files
20062 in the future. @emph{Snicker}. Yup, any day now, newsreaders like Blue
20063 Wave, xrn and 1stReader are bound to implement scoring. Should we start
20064 holding our breath yet?
20068 @section Kill Files
20071 Gnus still supports those pesky old kill files. In fact, the kill file
20072 entries can now be expiring, which is something I wrote before Daniel
20073 Quinlan thought of doing score files, so I've left the code in there.
20075 In short, kill processing is a lot slower (and I do mean @emph{a lot})
20076 than score processing, so it might be a good idea to rewrite your kill
20077 files into score files.
20079 Anyway, a kill file is a normal @code{emacs-lisp} file. You can put any
20080 forms into this file, which means that you can use kill files as some
20081 sort of primitive hook function to be run on group entry, even though
20082 that isn't a very good idea.
20084 Normal kill files look like this:
20087 (gnus-kill "From" "Lars Ingebrigtsen")
20088 (gnus-kill "Subject" "ding")
20092 This will mark every article written by me as read, and remove the
20093 marked articles from the summary buffer. Very useful, you'll agree.
20095 Other programs use a totally different kill file syntax. If Gnus
20096 encounters what looks like a @code{rn} kill file, it will take a stab at
20099 Two summary functions for editing a @sc{gnus} kill file:
20104 @kindex M-k (Summary)
20105 @findex gnus-summary-edit-local-kill
20106 Edit this group's kill file (@code{gnus-summary-edit-local-kill}).
20109 @kindex M-K (Summary)
20110 @findex gnus-summary-edit-global-kill
20111 Edit the general kill file (@code{gnus-summary-edit-global-kill}).
20114 Two group mode functions for editing the kill files:
20119 @kindex M-k (Group)
20120 @findex gnus-group-edit-local-kill
20121 Edit this group's kill file (@code{gnus-group-edit-local-kill}).
20124 @kindex M-K (Group)
20125 @findex gnus-group-edit-global-kill
20126 Edit the general kill file (@code{gnus-group-edit-global-kill}).
20129 Kill file variables:
20132 @item gnus-kill-file-name
20133 @vindex gnus-kill-file-name
20134 A kill file for the group @samp{soc.motss} is normally called
20135 @file{soc.motss.KILL}. The suffix appended to the group name to get
20136 this file name is detailed by the @code{gnus-kill-file-name} variable.
20137 The ``global'' kill file (not in the score file sense of ``global'', of
20138 course) is just called @file{KILL}.
20140 @vindex gnus-kill-save-kill-file
20141 @item gnus-kill-save-kill-file
20142 If this variable is non-@code{nil}, Gnus will save the
20143 kill file after processing, which is necessary if you use expiring
20146 @item gnus-apply-kill-hook
20147 @vindex gnus-apply-kill-hook
20148 @findex gnus-apply-kill-file-unless-scored
20149 @findex gnus-apply-kill-file
20150 A hook called to apply kill files to a group. It is
20151 @code{(gnus-apply-kill-file)} by default. If you want to ignore the
20152 kill file if you have a score file for the same group, you can set this
20153 hook to @code{(gnus-apply-kill-file-unless-scored)}. If you don't want
20154 kill files to be processed, you should set this variable to @code{nil}.
20156 @item gnus-kill-file-mode-hook
20157 @vindex gnus-kill-file-mode-hook
20158 A hook called in kill-file mode buffers.
20163 @node Converting Kill Files
20164 @section Converting Kill Files
20166 @cindex converting kill files
20168 If you have loads of old kill files, you may want to convert them into
20169 score files. If they are ``regular'', you can use
20170 the @file{gnus-kill-to-score.el} package; if not, you'll have to do it
20173 The kill to score conversion package isn't included in Gnus by default.
20174 You can fetch it from
20175 @uref{http://www.stud.ifi.uio.no/~larsi/ding-various/gnus-kill-to-score.el}.
20177 If your old kill files are very complex---if they contain more
20178 non-@code{gnus-kill} forms than not, you'll have to convert them by
20179 hand. Or just let them be as they are. Gnus will still use them as
20187 @sc{Note:} Unfortunately the GroupLens system seems to have shut down,
20188 so this section is mostly of historical interest.
20190 @uref{http://www.cs.umn.edu/Research/GroupLens/, GroupLens} is a
20191 collaborative filtering system that helps you work together with other
20192 people to find the quality news articles out of the huge volume of
20193 news articles generated every day.
20195 To accomplish this the GroupLens system combines your opinions about
20196 articles you have already read with the opinions of others who have done
20197 likewise and gives you a personalized prediction for each unread news
20198 article. Think of GroupLens as a matchmaker. GroupLens watches how you
20199 rate articles, and finds other people that rate articles the same way.
20200 Once it has found some people you agree with it tells you, in the form
20201 of a prediction, what they thought of the article. You can use this
20202 prediction to help you decide whether or not you want to read the
20206 * Using GroupLens:: How to make Gnus use GroupLens.
20207 * Rating Articles:: Letting GroupLens know how you rate articles.
20208 * Displaying Predictions:: Displaying predictions given by GroupLens.
20209 * GroupLens Variables:: Customizing GroupLens.
20213 @node Using GroupLens
20214 @subsection Using GroupLens
20216 To use GroupLens you must register a pseudonym with your local
20217 @uref{http://www.cs.umn.edu/Research/GroupLens/bbb.html, Better Bit
20218 Bureau (BBB)} is the only better bit in town at the moment.
20220 Once you have registered you'll need to set a couple of variables.
20224 @item gnus-use-grouplens
20225 @vindex gnus-use-grouplens
20226 Setting this variable to a non-@code{nil} value will make Gnus hook into
20227 all the relevant GroupLens functions.
20229 @item grouplens-pseudonym
20230 @vindex grouplens-pseudonym
20231 This variable should be set to the pseudonym you got when registering
20232 with the Better Bit Bureau.
20234 @item grouplens-newsgroups
20235 @vindex grouplens-newsgroups
20236 A list of groups that you want to get GroupLens predictions for.
20240 That's the minimum of what you need to get up and running with GroupLens.
20241 Once you've registered, GroupLens will start giving you scores for
20242 articles based on the average of what other people think. But, to get
20243 the real benefit of GroupLens you need to start rating articles
20244 yourself. Then the scores GroupLens gives you will be personalized for
20245 you, based on how the people you usually agree with have already rated.
20248 @node Rating Articles
20249 @subsection Rating Articles
20251 In GroupLens, an article is rated on a scale from 1 to 5, inclusive.
20252 Where 1 means something like this article is a waste of bandwidth and 5
20253 means that the article was really good. The basic question to ask
20254 yourself is, ``on a scale from 1 to 5 would I like to see more articles
20257 There are four ways to enter a rating for an article in GroupLens.
20262 @kindex r (GroupLens)
20263 @findex bbb-summary-rate-article
20264 This function will prompt you for a rating on a scale of one to five.
20267 @kindex k (GroupLens)
20268 @findex grouplens-score-thread
20269 This function will prompt you for a rating, and rate all the articles in
20270 the thread. This is really useful for some of those long running giant
20271 threads in rec.humor.
20275 The next two commands, @kbd{n} and @kbd{,} take a numerical prefix to be
20276 the score of the article you're reading.
20281 @kindex n (GroupLens)
20282 @findex grouplens-next-unread-article
20283 Rate the article and go to the next unread article.
20286 @kindex , (GroupLens)
20287 @findex grouplens-best-unread-article
20288 Rate the article and go to the next unread article with the highest score.
20292 If you want to give the current article a score of 4 and then go to the
20293 next article, just type @kbd{4 n}.
20296 @node Displaying Predictions
20297 @subsection Displaying Predictions
20299 GroupLens makes a prediction for you about how much you will like a
20300 news article. The predictions from GroupLens are on a scale from 1 to
20301 5, where 1 is the worst and 5 is the best. You can use the predictions
20302 from GroupLens in one of three ways controlled by the variable
20303 @code{gnus-grouplens-override-scoring}.
20305 @vindex gnus-grouplens-override-scoring
20306 There are three ways to display predictions in grouplens. You may
20307 choose to have the GroupLens scores contribute to, or override the
20308 regular Gnus scoring mechanism. override is the default; however, some
20309 people prefer to see the Gnus scores plus the grouplens scores. To get
20310 the separate scoring behavior you need to set
20311 @code{gnus-grouplens-override-scoring} to @code{'separate}. To have the
20312 GroupLens predictions combined with the grouplens scores set it to
20313 @code{'override} and to combine the scores set
20314 @code{gnus-grouplens-override-scoring} to @code{'combine}. When you use
20315 the combine option you will also want to set the values for
20316 @code{grouplens-prediction-offset} and
20317 @code{grouplens-score-scale-factor}.
20319 @vindex grouplens-prediction-display
20320 In either case, GroupLens gives you a few choices for how you would like
20321 to see your predictions displayed. The display of predictions is
20322 controlled by the @code{grouplens-prediction-display} variable.
20324 The following are valid values for that variable.
20327 @item prediction-spot
20328 The higher the prediction, the further to the right an @samp{*} is
20331 @item confidence-interval
20332 A numeric confidence interval.
20334 @item prediction-bar
20335 The higher the prediction, the longer the bar.
20337 @item confidence-bar
20338 Numerical confidence.
20340 @item confidence-spot
20341 The spot gets bigger with more confidence.
20343 @item prediction-num
20344 Plain-old numeric value.
20346 @item confidence-plus-minus
20347 Prediction +/- confidence.
20352 @node GroupLens Variables
20353 @subsection GroupLens Variables
20357 @item gnus-summary-grouplens-line-format
20358 The summary line format used in GroupLens-enhanced summary buffers. It
20359 accepts the same specs as the normal summary line format (@pxref{Summary
20360 Buffer Lines}). The default is @samp{%U%R%z%l%I%(%[%4L: %-23,23n%]%)
20363 @item grouplens-bbb-host
20364 Host running the bbbd server. @samp{grouplens.cs.umn.edu} is the
20367 @item grouplens-bbb-port
20368 Port of the host running the bbbd server. The default is 9000.
20370 @item grouplens-score-offset
20371 Offset the prediction by this value. In other words, subtract the
20372 prediction value by this number to arrive at the effective score. The
20375 @item grouplens-score-scale-factor
20376 This variable allows the user to magnify the effect of GroupLens scores.
20377 The scale factor is applied after the offset. The default is 1.
20382 @node Advanced Scoring
20383 @section Advanced Scoring
20385 Scoring on Subjects and From headers is nice enough, but what if you're
20386 really interested in what a person has to say only when she's talking
20387 about a particular subject? Or what if you really don't want to
20388 read what person A has to say when she's following up to person B, but
20389 want to read what she says when she's following up to person C?
20391 By using advanced scoring rules you may create arbitrarily complex
20395 * Advanced Scoring Syntax:: A definition.
20396 * Advanced Scoring Examples:: What they look like.
20397 * Advanced Scoring Tips:: Getting the most out of it.
20401 @node Advanced Scoring Syntax
20402 @subsection Advanced Scoring Syntax
20404 Ordinary scoring rules have a string as the first element in the rule.
20405 Advanced scoring rules have a list as the first element. The second
20406 element is the score to be applied if the first element evaluated to a
20407 non-@code{nil} value.
20409 These lists may consist of three logical operators, one redirection
20410 operator, and various match operators.
20417 This logical operator will evaluate each of its arguments until it finds
20418 one that evaluates to @code{false}, and then it'll stop. If all arguments
20419 evaluate to @code{true} values, then this operator will return
20424 This logical operator will evaluate each of its arguments until it finds
20425 one that evaluates to @code{true}. If no arguments are @code{true},
20426 then this operator will return @code{false}.
20431 This logical operator only takes a single argument. It returns the
20432 logical negation of the value of its argument.
20436 There is an @dfn{indirection operator} that will make its arguments
20437 apply to the ancestors of the current article being scored. For
20438 instance, @code{1-} will make score rules apply to the parent of the
20439 current article. @code{2-} will make score rules apply to the
20440 grandparent of the current article. Alternatively, you can write
20441 @code{^^}, where the number of @code{^}s (carets) says how far back into
20442 the ancestry you want to go.
20444 Finally, we have the match operators. These are the ones that do the
20445 real work. Match operators are header name strings followed by a match
20446 and a match type. A typical match operator looks like @samp{("from"
20447 "Lars Ingebrigtsen" s)}. The header names are the same as when using
20448 simple scoring, and the match types are also the same.
20451 @node Advanced Scoring Examples
20452 @subsection Advanced Scoring Examples
20454 Please note that the following examples are score file rules. To
20455 make a complete score file from them, surround them with another pair
20458 Let's say you want to increase the score of articles written by Lars
20459 when he's talking about Gnus:
20464 ("from" "Lars Ingebrigtsen")
20465 ("subject" "Gnus"))
20472 When he writes long articles, he sometimes has something nice to say:
20476 ("from" "Lars Ingebrigtsen")
20483 However, when he responds to things written by Reig Eigil Logge, you
20484 really don't want to read what he's written:
20488 ("from" "Lars Ingebrigtsen")
20489 (1- ("from" "Reig Eigir Logge")))
20493 Everybody that follows up Redmondo when he writes about disappearing
20494 socks should have their scores raised, but only when they talk about
20495 white socks. However, when Lars talks about socks, it's usually not
20502 ("from" "redmondo@@.*no" r)
20503 ("body" "disappearing.*socks" t)))
20504 (! ("from" "Lars Ingebrigtsen"))
20505 ("body" "white.*socks"))
20509 Suppose you're reading a high volume group and you're only interested
20510 in replies. The plan is to score down all articles that don't have
20511 subject that begin with "Re:", "Fw:" or "Fwd:" and then score up all
20512 parents of articles that have subjects that begin with reply marks.
20515 ((! ("subject" "re:\\|fwd?:" r))
20517 ((1- ("subject" "re:\\|fwd?:" r))
20521 The possibilities are endless.
20523 @node Advanced Scoring Tips
20524 @subsection Advanced Scoring Tips
20526 The @code{&} and @code{|} logical operators do short-circuit logic.
20527 That is, they stop processing their arguments when it's clear what the
20528 result of the operation will be. For instance, if one of the arguments
20529 of an @code{&} evaluates to @code{false}, there's no point in evaluating
20530 the rest of the arguments. This means that you should put slow matches
20531 (@samp{body}, @samp{header}) last and quick matches (@samp{from},
20532 @samp{subject}) first.
20534 The indirection arguments (@code{1-} and so on) will make their
20535 arguments work on previous generations of the thread. If you say
20546 Then that means ``score on the from header of the grandparent of the
20547 current article''. An indirection is quite fast, but it's better to say:
20553 ("subject" "Gnus")))
20560 (1- ("from" "Lars"))
20561 (1- ("subject" "Gnus")))
20566 @section Score Decays
20567 @cindex score decays
20570 You may find that your scores have a tendency to grow without
20571 bounds, especially if you're using adaptive scoring. If scores get too
20572 big, they lose all meaning---they simply max out and it's difficult to
20573 use them in any sensible way.
20575 @vindex gnus-decay-scores
20576 @findex gnus-decay-score
20577 @vindex gnus-decay-score-function
20578 Gnus provides a mechanism for decaying scores to help with this problem.
20579 When score files are loaded and @code{gnus-decay-scores} is
20580 non-@code{nil}, Gnus will run the score files through the decaying
20581 mechanism thereby lowering the scores of all non-permanent score rules.
20582 The decay itself if performed by the @code{gnus-decay-score-function}
20583 function, which is @code{gnus-decay-score} by default. Here's the
20584 definition of that function:
20587 (defun gnus-decay-score (score)
20588 "Decay SCORE according to `gnus-score-decay-constant'
20589 and `gnus-score-decay-scale'."
20591 (* (if (< score 0) -1 1)
20593 (max gnus-score-decay-constant
20595 gnus-score-decay-scale)))))))
20596 (if (and (featurep 'xemacs)
20597 ;; XEmacs' floor can handle only the floating point
20598 ;; number below the half of the maximum integer.
20599 (> (abs n) (lsh -1 -2)))
20601 (car (split-string (number-to-string n) "\\.")))
20605 @vindex gnus-score-decay-scale
20606 @vindex gnus-score-decay-constant
20607 @code{gnus-score-decay-constant} is 3 by default and
20608 @code{gnus-score-decay-scale} is 0.05. This should cause the following:
20612 Scores between -3 and 3 will be set to 0 when this function is called.
20615 Scores with magnitudes between 3 and 60 will be shrunk by 3.
20618 Scores with magnitudes greater than 60 will be shrunk by 5% of the
20622 If you don't like this decay function, write your own. It is called
20623 with the score to be decayed as its only parameter, and it should return
20624 the new score, which should be an integer.
20626 Gnus will try to decay scores once a day. If you haven't run Gnus for
20627 four days, Gnus will decay the scores four times, for instance.
20632 @include message.texi
20633 @chapter Emacs MIME
20634 @include emacs-mime.texi
20636 @include sieve.texi
20646 * Process/Prefix:: A convention used by many treatment commands.
20647 * Interactive:: Making Gnus ask you many questions.
20648 * Symbolic Prefixes:: How to supply some Gnus functions with options.
20649 * Formatting Variables:: You can specify what buffers should look like.
20650 * Window Layout:: Configuring the Gnus buffer windows.
20651 * Faces and Fonts:: How to change how faces look.
20652 * Compilation:: How to speed Gnus up.
20653 * Mode Lines:: Displaying information in the mode lines.
20654 * Highlighting and Menus:: Making buffers look all nice and cozy.
20655 * Buttons:: Get tendinitis in ten easy steps!
20656 * Daemons:: Gnus can do things behind your back.
20657 * NoCeM:: How to avoid spam and other fatty foods.
20658 * Undo:: Some actions can be undone.
20659 * Predicate Specifiers:: Specifying predicates.
20660 * Moderation:: What to do if you're a moderator.
20661 * Fetching a Group:: Starting Gnus just to read a group.
20662 * Image Enhancements:: Modern versions of Emacs/XEmacs can display images.
20663 * Fuzzy Matching:: What's the big fuzz?
20664 * Thwarting Email Spam:: A how-to on avoiding unsolicited commercial email.
20665 * Other modes:: Interaction with other modes.
20666 * Various Various:: Things that are really various.
20670 @node Process/Prefix
20671 @section Process/Prefix
20672 @cindex process/prefix convention
20674 Many functions, among them functions for moving, decoding and saving
20675 articles, use what is known as the @dfn{Process/Prefix convention}.
20677 This is a method for figuring out what articles the user wants the
20678 command to be performed on.
20682 If the numeric prefix is N, perform the operation on the next N
20683 articles, starting with the current one. If the numeric prefix is
20684 negative, perform the operation on the previous N articles, starting
20685 with the current one.
20687 @vindex transient-mark-mode
20688 If @code{transient-mark-mode} in non-@code{nil} and the region is
20689 active, all articles in the region will be worked upon.
20691 If there is no numeric prefix, but some articles are marked with the
20692 process mark, perform the operation on the articles marked with
20695 If there is neither a numeric prefix nor any articles marked with the
20696 process mark, just perform the operation on the current article.
20698 Quite simple, really, but it needs to be made clear so that surprises
20701 Commands that react to the process mark will push the current list of
20702 process marked articles onto a stack and will then clear all process
20703 marked articles. You can restore the previous configuration with the
20704 @kbd{M P y} command (@pxref{Setting Process Marks}).
20706 @vindex gnus-summary-goto-unread
20707 One thing that seems to shock & horrify lots of people is that, for
20708 instance, @kbd{3 d} does exactly the same as @kbd{d} @kbd{d} @kbd{d}.
20709 Since each @kbd{d} (which marks the current article as read) by default
20710 goes to the next unread article after marking, this means that @kbd{3 d}
20711 will mark the next three unread articles as read, no matter what the
20712 summary buffer looks like. Set @code{gnus-summary-goto-unread} to
20713 @code{nil} for a more straightforward action.
20715 Many commands do not use the process/prefix convention. All commands
20716 that do explicitly say so in this manual. To apply the process/prefix
20717 convention to commands that do not use it, you can use the @kbd{M-&}
20718 command. For instance, to mark all the articles in the group as
20719 expirable, you could say @kbd{M P b M-& E}.
20723 @section Interactive
20724 @cindex interaction
20728 @item gnus-novice-user
20729 @vindex gnus-novice-user
20730 If this variable is non-@code{nil}, you are either a newcomer to the
20731 World of Usenet, or you are very cautious, which is a nice thing to be,
20732 really. You will be given questions of the type ``Are you sure you want
20733 to do this?'' before doing anything dangerous. This is @code{t} by
20736 @item gnus-expert-user
20737 @vindex gnus-expert-user
20738 If this variable is non-@code{nil}, you will seldom be asked any
20739 questions by Gnus. It will simply assume you know what you're doing, no
20740 matter how strange.
20742 @item gnus-interactive-catchup
20743 @vindex gnus-interactive-catchup
20744 Require confirmation before catching up a group if non-@code{nil}. It
20745 is @code{t} by default.
20747 @item gnus-interactive-exit
20748 @vindex gnus-interactive-exit
20749 Require confirmation before exiting Gnus. This variable is @code{t} by
20754 @node Symbolic Prefixes
20755 @section Symbolic Prefixes
20756 @cindex symbolic prefixes
20758 Quite a lot of Emacs commands react to the (numeric) prefix. For
20759 instance, @kbd{C-u 4 C-f} moves point four characters forward, and
20760 @kbd{C-u 9 0 0 I s s p} adds a permanent @code{Subject} substring score
20761 rule of 900 to the current article.
20763 This is all nice and well, but what if you want to give a command some
20764 additional information? Well, what most commands do is interpret the
20765 ``raw'' prefix in some special way. @kbd{C-u 0 C-x C-s} means that one
20766 doesn't want a backup file to be created when saving the current buffer,
20767 for instance. But what if you want to save without making a backup
20768 file, and you want Emacs to flash lights and play a nice tune at the
20769 same time? You can't, and you're probably perfectly happy that way.
20771 @kindex M-i (Summary)
20772 @findex gnus-symbolic-argument
20773 I'm not, so I've added a second prefix---the @dfn{symbolic prefix}. The
20774 prefix key is @kbd{M-i} (@code{gnus-symbolic-argument}), and the next
20775 character typed in is the value. You can stack as many @kbd{M-i}
20776 prefixes as you want. @kbd{M-i a C-M-u} means ``feed the @kbd{C-M-u}
20777 command the symbolic prefix @code{a}''. @kbd{M-i a M-i b C-M-u} means
20778 ``feed the @kbd{C-M-u} command the symbolic prefixes @code{a} and
20779 @code{b}''. You get the drift.
20781 Typing in symbolic prefixes to commands that don't accept them doesn't
20782 hurt, but it doesn't do any good either. Currently not many Gnus
20783 functions make use of the symbolic prefix.
20785 If you're interested in how Gnus implements this, @pxref{Extended
20789 @node Formatting Variables
20790 @section Formatting Variables
20791 @cindex formatting variables
20793 Throughout this manual you've probably noticed lots of variables called
20794 things like @code{gnus-group-line-format} and
20795 @code{gnus-summary-mode-line-format}. These control how Gnus is to
20796 output lines in the various buffers. There's quite a lot of them.
20797 Fortunately, they all use the same syntax, so there's not that much to
20800 Here's an example format spec (from the group buffer): @samp{%M%S%5y:
20801 %(%g%)\n}. We see that it is indeed extremely ugly, and that there are
20802 lots of percentages everywhere.
20805 * Formatting Basics:: A formatting variable is basically a format string.
20806 * Mode Line Formatting:: Some rules about mode line formatting variables.
20807 * Advanced Formatting:: Modifying output in various ways.
20808 * User-Defined Specs:: Having Gnus call your own functions.
20809 * Formatting Fonts:: Making the formatting look colorful and nice.
20810 * Positioning Point:: Moving point to a position after an operation.
20811 * Tabulation:: Tabulating your output.
20812 * Wide Characters:: Dealing with wide characters.
20815 Currently Gnus uses the following formatting variables:
20816 @code{gnus-group-line-format}, @code{gnus-summary-line-format},
20817 @code{gnus-server-line-format}, @code{gnus-topic-line-format},
20818 @code{gnus-group-mode-line-format},
20819 @code{gnus-summary-mode-line-format},
20820 @code{gnus-article-mode-line-format},
20821 @code{gnus-server-mode-line-format}, and
20822 @code{gnus-summary-pick-line-format}.
20824 All these format variables can also be arbitrary elisp forms. In that
20825 case, they will be @code{eval}ed to insert the required lines.
20827 @kindex M-x gnus-update-format
20828 @findex gnus-update-format
20829 Gnus includes a command to help you while creating your own format
20830 specs. @kbd{M-x gnus-update-format} will @code{eval} the current form,
20831 update the spec in question and pop you to a buffer where you can
20832 examine the resulting Lisp code to be run to generate the line.
20836 @node Formatting Basics
20837 @subsection Formatting Basics
20839 Each @samp{%} element will be replaced by some string or other when the
20840 buffer in question is generated. @samp{%5y} means ``insert the @samp{y}
20841 spec, and pad with spaces to get a 5-character field''.
20843 As with normal C and Emacs Lisp formatting strings, the numerical
20844 modifier between the @samp{%} and the formatting type character will
20845 @dfn{pad} the output so that it is always at least that long.
20846 @samp{%5y} will make the field always (at least) five characters wide by
20847 padding with spaces to the left. If you say @samp{%-5y}, it will pad to
20850 You may also wish to limit the length of the field to protect against
20851 particularly wide values. For that you can say @samp{%4,6y}, which
20852 means that the field will never be more than 6 characters wide and never
20853 less than 4 characters wide.
20855 Also Gnus supports some extended format specifications, such as
20856 @samp{%&user-date;}.
20859 @node Mode Line Formatting
20860 @subsection Mode Line Formatting
20862 Mode line formatting variables (e.g.,
20863 @code{gnus-summary-mode-line-format}) follow the same rules as other,
20864 buffer line oriented formatting variables (@pxref{Formatting Basics})
20865 with the following two differences:
20870 There must be no newline (@samp{\n}) at the end.
20873 The special @samp{%%b} spec can be used to display the buffer name.
20874 Well, it's no spec at all, really---@samp{%%} is just a way to quote
20875 @samp{%} to allow it to pass through the formatting machinery unmangled,
20876 so that Emacs receives @samp{%b}, which is something the Emacs mode line
20877 display interprets to mean ``show the buffer name''. For a full list of
20878 mode line specs Emacs understands, see the documentation of the
20879 @code{mode-line-format} variable.
20884 @node Advanced Formatting
20885 @subsection Advanced Formatting
20887 It is frequently useful to post-process the fields in some way.
20888 Padding, limiting, cutting off parts and suppressing certain values can
20889 be achieved by using @dfn{tilde modifiers}. A typical tilde spec might
20890 look like @samp{%~(cut 3)~(ignore "0")y}.
20892 These are the valid modifiers:
20897 Pad the field to the left with spaces until it reaches the required
20901 Pad the field to the right with spaces until it reaches the required
20906 Cut off characters from the left until it reaches the specified length.
20909 Cut off characters from the right until it reaches the specified
20914 Cut off the specified number of characters from the left.
20917 Cut off the specified number of characters from the right.
20920 Return an empty string if the field is equal to the specified value.
20923 Use the specified form as the field value when the @samp{@@} spec is
20929 "~(form (current-time-string))@@"
20934 Let's take an example. The @samp{%o} spec in the summary mode lines
20935 will return a date in compact ISO8601 format---@samp{19960809T230410}.
20936 This is quite a mouthful, so we want to shave off the century number and
20937 the time, leaving us with a six-character date. That would be
20938 @samp{%~(cut-left 2)~(max-right 6)~(pad 6)o}. (Cutting is done before
20939 maxing, and we need the padding to ensure that the date is never less
20940 than 6 characters to make it look nice in columns.)
20942 Ignoring is done first; then cutting; then maxing; and then as the very
20943 last operation, padding.
20945 If you use lots of these advanced thingies, you'll find that Gnus gets
20946 quite slow. This can be helped enormously by running @kbd{M-x
20947 gnus-compile} when you are satisfied with the look of your lines.
20948 @xref{Compilation}.
20951 @node User-Defined Specs
20952 @subsection User-Defined Specs
20954 All the specs allow for inserting user defined specifiers---@samp{u}.
20955 The next character in the format string should be a letter. Gnus
20956 will call the function @code{gnus-user-format-function-}@samp{X}, where
20957 @samp{X} is the letter following @samp{%u}. The function will be passed
20958 a single parameter---what the parameter means depends on what buffer
20959 it's being called from. The function should return a string, which will
20960 be inserted into the buffer just like information from any other
20961 specifier. This function may also be called with dummy values, so it
20962 should protect against that.
20964 Also Gnus supports extended user-defined specs, such as @samp{%u&foo;}.
20965 Gnus will call the function @code{gnus-user-format-function-}@samp{foo}.
20967 You can also use tilde modifiers (@pxref{Advanced Formatting} to achieve
20968 much the same without defining new functions. Here's an example:
20969 @samp{%~(form (count-lines (point-min) (point)))@@}. The form
20970 given here will be evaluated to yield the current line number, and then
20974 @node Formatting Fonts
20975 @subsection Formatting Fonts
20977 There are specs for highlighting, and these are shared by all the format
20978 variables. Text inside the @samp{%(} and @samp{%)} specifiers will get
20979 the special @code{mouse-face} property set, which means that it will be
20980 highlighted (with @code{gnus-mouse-face}) when you put the mouse pointer
20983 Text inside the @samp{%@{} and @samp{%@}} specifiers will have their
20984 normal faces set using @code{gnus-face-0}, which is @code{bold} by
20985 default. If you say @samp{%1@{}, you'll get @code{gnus-face-1} instead,
20986 and so on. Create as many faces as you wish. The same goes for the
20987 @code{mouse-face} specs---you can say @samp{%3(hello%)} to have
20988 @samp{hello} mouse-highlighted with @code{gnus-mouse-face-3}.
20990 Text inside the @samp{%<<} and @samp{%>>} specifiers will get the
20991 special @code{balloon-help} property set to
20992 @code{gnus-balloon-face-0}. If you say @samp{%1<<}, you'll get
20993 @code{gnus-balloon-face-1} and so on. The @code{gnus-balloon-face-*}
20994 variables should be either strings or symbols naming functions that
20995 return a string. When the mouse passes over text with this property
20996 set, a balloon window will appear and display the string. Please
20997 refer to @ref{Tooltips, ,Tooltips, emacs, The Emacs Manual},
20998 (in GNU Emacs) or the doc string of @code{balloon-help-mode} (in
20999 XEmacs) for more information on this. (For technical reasons, the
21000 guillemets have been approximated as @samp{<<} and @samp{>>} in this
21003 Here's an alternative recipe for the group buffer:
21006 ;; @r{Create three face types.}
21007 (setq gnus-face-1 'bold)
21008 (setq gnus-face-3 'italic)
21010 ;; @r{We want the article count to be in}
21011 ;; @r{a bold and green face. So we create}
21012 ;; @r{a new face called @code{my-green-bold}.}
21013 (copy-face 'bold 'my-green-bold)
21014 ;; @r{Set the color.}
21015 (set-face-foreground 'my-green-bold "ForestGreen")
21016 (setq gnus-face-2 'my-green-bold)
21018 ;; @r{Set the new & fancy format.}
21019 (setq gnus-group-line-format
21020 "%M%S%3@{%5y%@}%2[:%] %(%1@{%g%@}%)\n")
21023 I'm sure you'll be able to use this scheme to create totally unreadable
21024 and extremely vulgar displays. Have fun!
21026 Note that the @samp{%(} specs (and friends) do not make any sense on the
21027 mode-line variables.
21029 @node Positioning Point
21030 @subsection Positioning Point
21032 Gnus usually moves point to a pre-defined place on each line in most
21033 buffers. By default, point move to the first colon character on the
21034 line. You can customize this behavior in three different ways.
21036 You can move the colon character to somewhere else on the line.
21038 @findex gnus-goto-colon
21039 You can redefine the function that moves the point to the colon. The
21040 function is called @code{gnus-goto-colon}.
21042 But perhaps the most convenient way to deal with this, if you don't want
21043 to have a colon in your line, is to use the @samp{%*} specifier. If you
21044 put a @samp{%*} somewhere in your format line definition, Gnus will
21049 @subsection Tabulation
21051 You can usually line up your displays by padding and cutting your
21052 strings. However, when combining various strings of different size, it
21053 can often be more convenient to just output the strings, and then worry
21054 about lining up the following text afterwards.
21056 To do that, Gnus supplies tabulator specs---@samp{%=}. There are two
21057 different types---@dfn{hard tabulators} and @dfn{soft tabulators}.
21059 @samp{%50=} will insert space characters to pad the line up to column
21060 50. If the text is already past column 50, nothing will be inserted.
21061 This is the soft tabulator.
21063 @samp{%-50=} will insert space characters to pad the line up to column
21064 50. If the text is already past column 50, the excess text past column
21065 50 will be removed. This is the hard tabulator.
21068 @node Wide Characters
21069 @subsection Wide Characters
21071 Fixed width fonts in most countries have characters of the same width.
21072 Some countries, however, use Latin characters mixed with wider
21073 characters---most notable East Asian countries.
21075 The problem is that when formatting, Gnus assumes that if a string is 10
21076 characters wide, it'll be 10 Latin characters wide on the screen. In
21077 these countries, that's not true.
21079 @vindex gnus-use-correct-string-widths
21080 To help fix this, you can set @code{gnus-use-correct-string-widths} to
21081 @code{t}. This makes buffer generation slower, but the results will be
21082 prettier. The default value under XEmacs is @code{t} but @code{nil}
21086 @node Window Layout
21087 @section Window Layout
21088 @cindex window layout
21090 No, there's nothing here about X, so be quiet.
21092 @vindex gnus-use-full-window
21093 If @code{gnus-use-full-window} non-@code{nil}, Gnus will delete all
21094 other windows and occupy the entire Emacs screen by itself. It is
21095 @code{t} by default.
21097 Setting this variable to @code{nil} kinda works, but there are
21098 glitches. Use at your own peril.
21100 @vindex gnus-buffer-configuration
21101 @code{gnus-buffer-configuration} describes how much space each Gnus
21102 buffer should be given. Here's an excerpt of this variable:
21105 ((group (vertical 1.0 (group 1.0 point)
21106 (if gnus-carpal (group-carpal 4))))
21107 (article (vertical 1.0 (summary 0.25 point)
21111 This is an alist. The @dfn{key} is a symbol that names some action or
21112 other. For instance, when displaying the group buffer, the window
21113 configuration function will use @code{group} as the key. A full list of
21114 possible names is listed below.
21116 The @dfn{value} (i.e., the @dfn{split}) says how much space each buffer
21117 should occupy. To take the @code{article} split as an example -
21120 (article (vertical 1.0 (summary 0.25 point)
21124 This @dfn{split} says that the summary buffer should occupy 25% of upper
21125 half of the screen, and that it is placed over the article buffer. As
21126 you may have noticed, 100% + 25% is actually 125% (yup, I saw y'all
21127 reaching for that calculator there). However, the special number
21128 @code{1.0} is used to signal that this buffer should soak up all the
21129 rest of the space available after the rest of the buffers have taken
21130 whatever they need. There should be only one buffer with the @code{1.0}
21131 size spec per split.
21133 Point will be put in the buffer that has the optional third element
21134 @code{point}. In a @code{frame} split, the last subsplit having a leaf
21135 split where the tag @code{frame-focus} is a member (i.e. is the third or
21136 fourth element in the list, depending on whether the @code{point} tag is
21137 present) gets focus.
21139 Here's a more complicated example:
21142 (article (vertical 1.0 (group 4)
21143 (summary 0.25 point)
21144 (if gnus-carpal (summary-carpal 4))
21148 If the size spec is an integer instead of a floating point number,
21149 then that number will be used to say how many lines a buffer should
21150 occupy, not a percentage.
21152 If the @dfn{split} looks like something that can be @code{eval}ed (to be
21153 precise---if the @code{car} of the split is a function or a subr), this
21154 split will be @code{eval}ed. If the result is non-@code{nil}, it will
21155 be used as a split. This means that there will be three buffers if
21156 @code{gnus-carpal} is @code{nil}, and four buffers if @code{gnus-carpal}
21159 Not complicated enough for you? Well, try this on for size:
21162 (article (horizontal 1.0
21167 (summary 0.25 point)
21172 Whoops. Two buffers with the mystery 100% tag. And what's that
21173 @code{horizontal} thingie?
21175 If the first element in one of the split is @code{horizontal}, Gnus will
21176 split the window horizontally, giving you two windows side-by-side.
21177 Inside each of these strips you may carry on all you like in the normal
21178 fashion. The number following @code{horizontal} says what percentage of
21179 the screen is to be given to this strip.
21181 For each split, there @emph{must} be one element that has the 100% tag.
21182 The splitting is never accurate, and this buffer will eat any leftover
21183 lines from the splits.
21185 To be slightly more formal, here's a definition of what a valid split
21190 split = frame | horizontal | vertical | buffer | form
21191 frame = "(frame " size *split ")"
21192 horizontal = "(horizontal " size *split ")"
21193 vertical = "(vertical " size *split ")"
21194 buffer = "(" buf-name " " size *[ "point" ] *[ "frame-focus"] ")"
21195 size = number | frame-params
21196 buf-name = group | article | summary ...
21200 The limitations are that the @code{frame} split can only appear as the
21201 top-level split. @var{form} should be an Emacs Lisp form that should
21202 return a valid split. We see that each split is fully recursive, and
21203 may contain any number of @code{vertical} and @code{horizontal} splits.
21205 @vindex gnus-window-min-width
21206 @vindex gnus-window-min-height
21207 @cindex window height
21208 @cindex window width
21209 Finding the right sizes can be a bit complicated. No window may be less
21210 than @code{gnus-window-min-height} (default 1) characters high, and all
21211 windows must be at least @code{gnus-window-min-width} (default 1)
21212 characters wide. Gnus will try to enforce this before applying the
21213 splits. If you want to use the normal Emacs window width/height limit,
21214 you can just set these two variables to @code{nil}.
21216 If you're not familiar with Emacs terminology, @code{horizontal} and
21217 @code{vertical} splits may work the opposite way of what you'd expect.
21218 Windows inside a @code{horizontal} split are shown side-by-side, and
21219 windows within a @code{vertical} split are shown above each other.
21221 @findex gnus-configure-frame
21222 If you want to experiment with window placement, a good tip is to call
21223 @code{gnus-configure-frame} directly with a split. This is the function
21224 that does all the real work when splitting buffers. Below is a pretty
21225 nonsensical configuration with 5 windows; two for the group buffer and
21226 three for the article buffer. (I said it was nonsensical.) If you
21227 @code{eval} the statement below, you can get an idea of how that would
21228 look straight away, without going through the normal Gnus channels.
21229 Play with it until you're satisfied, and then use
21230 @code{gnus-add-configuration} to add your new creation to the buffer
21231 configuration list.
21234 (gnus-configure-frame
21238 (article 0.3 point))
21246 You might want to have several frames as well. No prob---just use the
21247 @code{frame} split:
21250 (gnus-configure-frame
21253 (summary 0.25 point frame-focus)
21255 (vertical ((height . 5) (width . 15)
21256 (user-position . t)
21257 (left . -1) (top . 1))
21262 This split will result in the familiar summary/article window
21263 configuration in the first (or ``main'') frame, while a small additional
21264 frame will be created where picons will be shown. As you can see,
21265 instead of the normal @code{1.0} top-level spec, each additional split
21266 should have a frame parameter alist as the size spec.
21267 @xref{Frame Parameters, , Frame Parameters, elisp, The GNU Emacs Lisp
21268 Reference Manual}. Under XEmacs, a frame property list will be
21269 accepted, too---for instance, @code{(height 5 width 15 left -1 top 1)}
21271 The list of all possible keys for @code{gnus-buffer-configuration} can
21272 be found in its default value.
21274 Note that the @code{message} key is used for both
21275 @code{gnus-group-mail} and @code{gnus-summary-mail-other-window}. If
21276 it is desirable to distinguish between the two, something like this
21280 (message (horizontal 1.0
21281 (vertical 1.0 (message 1.0 point))
21283 (if (buffer-live-p gnus-summary-buffer)
21288 One common desire for a multiple frame split is to have a separate frame
21289 for composing mail and news while leaving the original frame intact. To
21290 accomplish that, something like the following can be done:
21295 (if (not (buffer-live-p gnus-summary-buffer))
21296 (car (cdr (assoc 'group gnus-buffer-configuration)))
21297 (car (cdr (assoc 'summary gnus-buffer-configuration))))
21298 (vertical ((user-position . t) (top . 1) (left . 1)
21299 (name . "Message"))
21300 (message 1.0 point))))
21303 @findex gnus-add-configuration
21304 Since the @code{gnus-buffer-configuration} variable is so long and
21305 complicated, there's a function you can use to ease changing the config
21306 of a single setting: @code{gnus-add-configuration}. If, for instance,
21307 you want to change the @code{article} setting, you could say:
21310 (gnus-add-configuration
21311 '(article (vertical 1.0
21313 (summary .25 point)
21317 You'd typically stick these @code{gnus-add-configuration} calls in your
21318 @file{~/.gnus.el} file or in some startup hook---they should be run after
21319 Gnus has been loaded.
21321 @vindex gnus-always-force-window-configuration
21322 If all windows mentioned in the configuration are already visible, Gnus
21323 won't change the window configuration. If you always want to force the
21324 ``right'' window configuration, you can set
21325 @code{gnus-always-force-window-configuration} to non-@code{nil}.
21327 If you're using tree displays (@pxref{Tree Display}), and the tree
21328 window is displayed vertically next to another window, you may also want
21329 to fiddle with @code{gnus-tree-minimize-window} to avoid having the
21332 @subsection Example Window Configurations
21336 Narrow left hand side occupied by group buffer. Right hand side split
21337 between summary buffer (top one-sixth) and article buffer (bottom).
21352 (gnus-add-configuration
21355 (vertical 25 (group 1.0))
21357 (summary 0.16 point)
21360 (gnus-add-configuration
21363 (vertical 25 (group 1.0))
21364 (vertical 1.0 (summary 1.0 point)))))
21370 @node Faces and Fonts
21371 @section Faces and Fonts
21376 Fiddling with fonts and faces used to be very difficult, but these days
21377 it is very simple. You simply say @kbd{M-x customize-face}, pick out
21378 the face you want to alter, and alter it via the standard Customize
21383 @section Compilation
21384 @cindex compilation
21385 @cindex byte-compilation
21387 @findex gnus-compile
21389 Remember all those line format specification variables?
21390 @code{gnus-summary-line-format}, @code{gnus-group-line-format}, and so
21391 on. Now, Gnus will of course heed whatever these variables are, but,
21392 unfortunately, changing them will mean a quite significant slow-down.
21393 (The default values of these variables have byte-compiled functions
21394 associated with them, while the user-generated versions do not, of
21397 To help with this, you can run @kbd{M-x gnus-compile} after you've
21398 fiddled around with the variables and feel that you're (kind of)
21399 satisfied. This will result in the new specs being byte-compiled, and
21400 you'll get top speed again. Gnus will save these compiled specs in the
21401 @file{.newsrc.eld} file. (User-defined functions aren't compiled by
21402 this function, though---you should compile them yourself by sticking
21403 them into the @file{~/.gnus.el} file and byte-compiling that file.)
21407 @section Mode Lines
21410 @vindex gnus-updated-mode-lines
21411 @code{gnus-updated-mode-lines} says what buffers should keep their mode
21412 lines updated. It is a list of symbols. Supported symbols include
21413 @code{group}, @code{article}, @code{summary}, @code{server},
21414 @code{browse}, and @code{tree}. If the corresponding symbol is present,
21415 Gnus will keep that mode line updated with information that may be
21416 pertinent. If this variable is @code{nil}, screen refresh may be
21419 @cindex display-time
21421 @vindex gnus-mode-non-string-length
21422 By default, Gnus displays information on the current article in the mode
21423 lines of the summary and article buffers. The information Gnus wishes
21424 to display (e.g. the subject of the article) is often longer than the
21425 mode lines, and therefore have to be cut off at some point. The
21426 @code{gnus-mode-non-string-length} variable says how long the other
21427 elements on the line is (i.e., the non-info part). If you put
21428 additional elements on the mode line (e.g. a clock), you should modify
21431 @c Hook written by Francesco Potorti` <pot@cnuce.cnr.it>
21433 (add-hook 'display-time-hook
21434 (lambda () (setq gnus-mode-non-string-length
21436 (if line-number-mode 5 0)
21437 (if column-number-mode 4 0)
21438 (length display-time-string)))))
21441 If this variable is @code{nil} (which is the default), the mode line
21442 strings won't be chopped off, and they won't be padded either. Note
21443 that the default is unlikely to be desirable, as even the percentage
21444 complete in the buffer may be crowded off the mode line; the user should
21445 configure this variable appropriately for her configuration.
21448 @node Highlighting and Menus
21449 @section Highlighting and Menus
21451 @cindex highlighting
21454 @vindex gnus-visual
21455 The @code{gnus-visual} variable controls most of the Gnus-prettifying
21456 aspects. If @code{nil}, Gnus won't attempt to create menus or use fancy
21457 colors or fonts. This will also inhibit loading the @file{gnus-vis.el}
21460 This variable can be a list of visual properties that are enabled. The
21461 following elements are valid, and are all included by default:
21464 @item group-highlight
21465 Do highlights in the group buffer.
21466 @item summary-highlight
21467 Do highlights in the summary buffer.
21468 @item article-highlight
21469 Do highlights in the article buffer.
21471 Turn on highlighting in all buffers.
21473 Create menus in the group buffer.
21475 Create menus in the summary buffers.
21477 Create menus in the article buffer.
21479 Create menus in the browse buffer.
21481 Create menus in the server buffer.
21483 Create menus in the score buffers.
21485 Create menus in all buffers.
21488 So if you only want highlighting in the article buffer and menus in all
21489 buffers, you could say something like:
21492 (setq gnus-visual '(article-highlight menu))
21495 If you want highlighting only and no menus whatsoever, you'd say:
21498 (setq gnus-visual '(highlight))
21501 If @code{gnus-visual} is @code{t}, highlighting and menus will be used
21502 in all Gnus buffers.
21504 Other general variables that influence the look of all buffers include:
21507 @item gnus-mouse-face
21508 @vindex gnus-mouse-face
21509 This is the face (i.e., font) used for mouse highlighting in Gnus. No
21510 mouse highlights will be done if @code{gnus-visual} is @code{nil}.
21514 There are hooks associated with the creation of all the different menus:
21518 @item gnus-article-menu-hook
21519 @vindex gnus-article-menu-hook
21520 Hook called after creating the article mode menu.
21522 @item gnus-group-menu-hook
21523 @vindex gnus-group-menu-hook
21524 Hook called after creating the group mode menu.
21526 @item gnus-summary-menu-hook
21527 @vindex gnus-summary-menu-hook
21528 Hook called after creating the summary mode menu.
21530 @item gnus-server-menu-hook
21531 @vindex gnus-server-menu-hook
21532 Hook called after creating the server mode menu.
21534 @item gnus-browse-menu-hook
21535 @vindex gnus-browse-menu-hook
21536 Hook called after creating the browse mode menu.
21538 @item gnus-score-menu-hook
21539 @vindex gnus-score-menu-hook
21540 Hook called after creating the score mode menu.
21551 Those new-fangled @dfn{mouse} contraptions is very popular with the
21552 young, hep kids who don't want to learn the proper way to do things
21553 these days. Why, I remember way back in the summer of '89, when I was
21554 using Emacs on a Tops 20 system. Three hundred users on one single
21555 machine, and every user was running Simula compilers. Bah!
21559 @vindex gnus-carpal
21560 Well, you can make Gnus display bufferfuls of buttons you can click to
21561 do anything by setting @code{gnus-carpal} to @code{t}. Pretty simple,
21562 really. Tell the chiropractor I sent you.
21567 @item gnus-carpal-mode-hook
21568 @vindex gnus-carpal-mode-hook
21569 Hook run in all carpal mode buffers.
21571 @item gnus-carpal-button-face
21572 @vindex gnus-carpal-button-face
21573 Face used on buttons.
21575 @item gnus-carpal-header-face
21576 @vindex gnus-carpal-header-face
21577 Face used on carpal buffer headers.
21579 @item gnus-carpal-group-buffer-buttons
21580 @vindex gnus-carpal-group-buffer-buttons
21581 Buttons in the group buffer.
21583 @item gnus-carpal-summary-buffer-buttons
21584 @vindex gnus-carpal-summary-buffer-buttons
21585 Buttons in the summary buffer.
21587 @item gnus-carpal-server-buffer-buttons
21588 @vindex gnus-carpal-server-buffer-buttons
21589 Buttons in the server buffer.
21591 @item gnus-carpal-browse-buffer-buttons
21592 @vindex gnus-carpal-browse-buffer-buttons
21593 Buttons in the browse buffer.
21596 All the @code{buttons} variables are lists. The elements in these list
21597 are either cons cells where the @code{car} contains a text to be displayed and
21598 the @code{cdr} contains a function symbol, or a simple string.
21606 Gnus, being larger than any program ever written (allegedly), does lots
21607 of strange stuff that you may wish to have done while you're not
21608 present. For instance, you may want it to check for new mail once in a
21609 while. Or you may want it to close down all connections to all servers
21610 when you leave Emacs idle. And stuff like that.
21612 Gnus will let you do stuff like that by defining various
21613 @dfn{handlers}. Each handler consists of three elements: A
21614 @var{function}, a @var{time}, and an @var{idle} parameter.
21616 Here's an example of a handler that closes connections when Emacs has
21617 been idle for thirty minutes:
21620 (gnus-demon-close-connections nil 30)
21623 Here's a handler that scans for @acronym{PGP} headers every hour when
21627 (gnus-demon-scan-pgp 60 t)
21630 This @var{time} parameter and that @var{idle} parameter work together
21631 in a strange, but wonderful fashion. Basically, if @var{idle} is
21632 @code{nil}, then the function will be called every @var{time} minutes.
21634 If @var{idle} is @code{t}, then the function will be called after
21635 @var{time} minutes only if Emacs is idle. So if Emacs is never idle,
21636 the function will never be called. But once Emacs goes idle, the
21637 function will be called every @var{time} minutes.
21639 If @var{idle} is a number and @var{time} is a number, the function will
21640 be called every @var{time} minutes only when Emacs has been idle for
21641 @var{idle} minutes.
21643 If @var{idle} is a number and @var{time} is @code{nil}, the function
21644 will be called once every time Emacs has been idle for @var{idle}
21647 And if @var{time} is a string, it should look like @samp{07:31}, and
21648 the function will then be called once every day somewhere near that
21649 time. Modified by the @var{idle} parameter, of course.
21651 @vindex gnus-demon-timestep
21652 (When I say ``minute'' here, I really mean @code{gnus-demon-timestep}
21653 seconds. This is 60 by default. If you change that variable,
21654 all the timings in the handlers will be affected.)
21656 So, if you want to add a handler, you could put something like this in
21657 your @file{~/.gnus.el} file:
21659 @findex gnus-demon-add-handler
21661 (gnus-demon-add-handler 'gnus-demon-close-connections 30 t)
21664 @findex gnus-demon-add-nocem
21665 @findex gnus-demon-add-scanmail
21666 @findex gnus-demon-add-rescan
21667 @findex gnus-demon-add-scan-timestamps
21668 @findex gnus-demon-add-disconnection
21669 Some ready-made functions to do this have been created:
21670 @code{gnus-demon-add-nocem}, @code{gnus-demon-add-disconnection},
21671 @code{gnus-demon-add-nntp-close-connection},
21672 @code{gnus-demon-add-scan-timestamps}, @code{gnus-demon-add-rescan}, and
21673 @code{gnus-demon-add-scanmail}. Just put those functions in your
21674 @file{~/.gnus.el} if you want those abilities.
21676 @findex gnus-demon-init
21677 @findex gnus-demon-cancel
21678 @vindex gnus-demon-handlers
21679 If you add handlers to @code{gnus-demon-handlers} directly, you should
21680 run @code{gnus-demon-init} to make the changes take hold. To cancel all
21681 daemons, you can use the @code{gnus-demon-cancel} function.
21683 Note that adding daemons can be pretty naughty if you over do it. Adding
21684 functions that scan all news and mail from all servers every two seconds
21685 is a sure-fire way of getting booted off any respectable system. So
21694 @dfn{Spamming} is posting the same article lots and lots of times.
21695 Spamming is bad. Spamming is evil.
21697 Spamming is usually canceled within a day or so by various anti-spamming
21698 agencies. These agencies usually also send out @dfn{NoCeM} messages.
21699 NoCeM is pronounced ``no see-'em'', and means what the name
21700 implies---these are messages that make the offending articles, like, go
21703 What use are these NoCeM messages if the articles are canceled anyway?
21704 Some sites do not honor cancel messages and some sites just honor cancels
21705 from a select few people. Then you may wish to make use of the NoCeM
21706 messages, which are distributed in the @samp{alt.nocem.misc} newsgroup.
21708 Gnus can read and parse the messages in this group automatically, and
21709 this will make spam disappear.
21711 There are some variables to customize, of course:
21714 @item gnus-use-nocem
21715 @vindex gnus-use-nocem
21716 Set this variable to @code{t} to set the ball rolling. It is @code{nil}
21719 @item gnus-nocem-groups
21720 @vindex gnus-nocem-groups
21721 Gnus will look for NoCeM messages in the groups in this list. The
21724 ("news.lists.filters" "news.admin.net-abuse.bulletins"
21725 "alt.nocem.misc" "news.admin.net-abuse.announce")
21728 @item gnus-nocem-issuers
21729 @vindex gnus-nocem-issuers
21730 There are many people issuing NoCeM messages. This list says what
21731 people you want to listen to. The default is
21733 ("Automoose-1" "clewis@@ferret.ocunix.on.ca"
21734 "cosmo.roadkill" "SpamHippo" "hweede@@snafu.de")
21736 fine, upstanding citizens all of them.
21738 Known despammers that you can put in this list are listed at@*
21739 @uref{http://www.xs4all.nl/~rosalind/nocemreg/nocemreg.html}.
21741 You do not have to heed NoCeM messages from all these people---just the
21742 ones you want to listen to. You also don't have to accept all NoCeM
21743 messages from the people you like. Each NoCeM message has a @dfn{type}
21744 header that gives the message a (more or less, usually less) rigorous
21745 definition. Common types are @samp{spam}, @samp{spew}, @samp{mmf},
21746 @samp{binary}, and @samp{troll}. To specify this, you have to use
21747 @code{(@var{issuer} @var{conditions} @dots{})} elements in the list.
21748 Each condition is either a string (which is a regexp that matches types
21749 you want to use) or a list on the form @code{(not @var{string})}, where
21750 @var{string} is a regexp that matches types you don't want to use.
21752 For instance, if you want all NoCeM messages from Chris Lewis except his
21753 @samp{troll} messages, you'd say:
21756 ("clewis@@ferret.ocunix.on.ca" ".*" (not "troll"))
21759 On the other hand, if you just want nothing but his @samp{spam} and
21760 @samp{spew} messages, you'd say:
21763 ("clewis@@ferret.ocunix.on.ca" (not ".*") "spew" "spam")
21766 The specs are applied left-to-right.
21769 @item gnus-nocem-verifyer
21770 @vindex gnus-nocem-verifyer
21772 This should be a function for verifying that the NoCeM issuer is who she
21773 says she is. The default is @code{pgg-verify}, which returns
21774 non-@code{nil} if the verification is successful, otherwise (including
21775 the case the NoCeM message was not signed) returns @code{nil}. If this
21776 is too slow and you don't care for verification (which may be dangerous),
21777 you can set this variable to @code{nil}.
21779 Formerly the default was @code{mc-verify}, which is a Mailcrypt
21780 function. While you can still use it, you can change it into
21781 @code{pgg-verify} running with GnuPG if you are willing to add the
21782 @acronym{PGP} public keys to GnuPG's keyring.
21784 @item gnus-nocem-directory
21785 @vindex gnus-nocem-directory
21786 This is where Gnus will store its NoCeM cache files. The default is@*
21787 @file{~/News/NoCeM/}.
21789 @item gnus-nocem-expiry-wait
21790 @vindex gnus-nocem-expiry-wait
21791 The number of days before removing old NoCeM entries from the cache.
21792 The default is 15. If you make it shorter Gnus will be faster, but you
21793 might then see old spam.
21795 @item gnus-nocem-check-from
21796 @vindex gnus-nocem-check-from
21797 Non-@code{nil} means check for valid issuers in message bodies.
21798 Otherwise don't bother fetching articles unless their author matches a
21799 valid issuer; that is much faster if you are selective about the
21802 @item gnus-nocem-check-article-limit
21803 @vindex gnus-nocem-check-article-limit
21804 If non-@code{nil}, the maximum number of articles to check in any NoCeM
21805 group. NoCeM groups can be huge and very slow to process.
21809 Using NoCeM could potentially be a memory hog. If you have many living
21810 (i. e., subscribed or unsubscribed groups), your Emacs process will grow
21811 big. If this is a problem, you should kill off all (or most) of your
21812 unsubscribed groups (@pxref{Subscription Commands}).
21819 It is very useful to be able to undo actions one has done. In normal
21820 Emacs buffers, it's easy enough---you just push the @code{undo} button.
21821 In Gnus buffers, however, it isn't that simple.
21823 The things Gnus displays in its buffer is of no value whatsoever to
21824 Gnus---it's all just data designed to look nice to the user.
21825 Killing a group in the group buffer with @kbd{C-k} makes the line
21826 disappear, but that's just a side-effect of the real action---the
21827 removal of the group in question from the internal Gnus structures.
21828 Undoing something like that can't be done by the normal Emacs
21829 @code{undo} function.
21831 Gnus tries to remedy this somewhat by keeping track of what the user
21832 does and coming up with actions that would reverse the actions the user
21833 takes. When the user then presses the @code{undo} key, Gnus will run
21834 the code to reverse the previous action, or the previous actions.
21835 However, not all actions are easily reversible, so Gnus currently offers
21836 a few key functions to be undoable. These include killing groups,
21837 yanking groups, and changing the list of read articles of groups.
21838 That's it, really. More functions may be added in the future, but each
21839 added function means an increase in data to be stored, so Gnus will
21840 never be totally undoable.
21842 @findex gnus-undo-mode
21843 @vindex gnus-use-undo
21845 The undoability is provided by the @code{gnus-undo-mode} minor mode. It
21846 is used if @code{gnus-use-undo} is non-@code{nil}, which is the
21847 default. The @kbd{C-M-_} key performs the @code{gnus-undo}
21848 command, which should feel kinda like the normal Emacs @code{undo}
21852 @node Predicate Specifiers
21853 @section Predicate Specifiers
21854 @cindex predicate specifiers
21856 Some Gnus variables are @dfn{predicate specifiers}. This is a special
21857 form that allows flexible specification of predicates without having
21858 to type all that much.
21860 These specifiers are lists consisting of functions, symbols and lists.
21865 (or gnus-article-unseen-p
21866 gnus-article-unread-p)
21869 The available symbols are @code{or}, @code{and} and @code{not}. The
21870 functions all take one parameter.
21872 @findex gnus-make-predicate
21873 Internally, Gnus calls @code{gnus-make-predicate} on these specifiers
21874 to create a function that can be called. This input parameter to this
21875 function will be passed along to all the functions in the predicate
21880 @section Moderation
21883 If you are a moderator, you can use the @file{gnus-mdrtn.el} package.
21884 It is not included in the standard Gnus package. Write a mail to
21885 @samp{larsi@@gnus.org} and state what group you moderate, and you'll
21888 The moderation package is implemented as a minor mode for summary
21892 (add-hook 'gnus-summary-mode-hook 'gnus-moderate)
21895 in your @file{~/.gnus.el} file.
21897 If you are the moderator of @samp{rec.zoofle}, this is how it's
21902 You split your incoming mail by matching on
21903 @samp{Newsgroups:.*rec.zoofle}, which will put all the to-be-posted
21904 articles in some mail group---for instance, @samp{nnml:rec.zoofle}.
21907 You enter that group once in a while and post articles using the @kbd{e}
21908 (edit-and-post) or @kbd{s} (just send unedited) commands.
21911 If, while reading the @samp{rec.zoofle} newsgroup, you happen upon some
21912 articles that weren't approved by you, you can cancel them with the
21916 To use moderation mode in these two groups, say:
21919 (setq gnus-moderated-list
21920 "^nnml:rec.zoofle$\\|^rec.zoofle$")
21924 @node Fetching a Group
21925 @section Fetching a Group
21926 @cindex fetching a group
21928 @findex gnus-fetch-group
21929 It is sometimes convenient to be able to just say ``I want to read this
21930 group and I don't care whether Gnus has been started or not''. This is
21931 perhaps more useful for people who write code than for users, but the
21932 command @code{gnus-fetch-group} provides this functionality in any case.
21933 It takes the group name as a parameter.
21936 @node Image Enhancements
21937 @section Image Enhancements
21939 XEmacs, as well as Emacs 21@footnote{Emacs 21 on MS Windows doesn't
21940 support images yet.}, is able to display pictures and stuff, so Gnus has
21941 taken advantage of that.
21944 * X-Face:: Display a funky, teensy black-and-white image.
21945 * Face:: Display a funkier, teensier colored image.
21946 * Smileys:: Show all those happy faces the way they were meant to be shown.
21947 * Picons:: How to display pictures of what you're reading.
21948 * XVarious:: Other XEmacsy Gnusey variables.
21956 @code{X-Face} headers describe a 48x48 pixel black-and-white (1 bit
21957 depth) image that's supposed to represent the author of the message.
21958 It seems to be supported by an ever-growing number of mail and news
21962 @findex gnus-article-display-x-face
21963 @vindex gnus-article-x-face-command
21964 @vindex gnus-article-x-face-too-ugly
21972 Decoding an @code{X-Face} header either requires an Emacs that has
21973 @samp{compface} support (which most XEmacs versions has), or that you
21974 have @samp{compface} installed on your system. If either is true,
21975 Gnus will default to displaying @code{X-Face} headers.
21977 The variable that controls this is the
21978 @code{gnus-article-x-face-command} variable. If this variable is a
21979 string, this string will be executed in a sub-shell. If it is a
21980 function, this function will be called with the face as the argument.
21981 If the @code{gnus-article-x-face-too-ugly} (which is a regexp) matches
21982 the @code{From} header, the face will not be shown.
21984 The default action under Emacs without image support is to fork off the
21985 @code{display} program@footnote{@code{display} is from the ImageMagick
21986 package. For the @code{uncompface} and @code{icontopbm} programs look
21987 for a package like @code{compface} or @code{faces-xface} on a GNU/Linux
21988 system.} to view the face.
21990 Under XEmacs or Emacs 21+ with suitable image support, the default
21991 action is to display the face before the @code{From} header. (It's
21992 nicer if XEmacs has been compiled with @code{X-Face} support---that
21993 will make display somewhat faster. If there's no native @code{X-Face}
21994 support, Gnus will try to convert the @code{X-Face} header using
21995 external programs from the @code{pbmplus} package and
21996 friends.@footnote{On a GNU/Linux system look for packages with names
21997 like @code{netpbm}, @code{libgr-progs} and @code{compface}.})
21999 (Note: @code{x-face} is used in the variable/function names, not
22007 @vindex gnus-x-face
22008 Face to show X-Face. The colors from this face are used as the
22009 foreground and background colors of the displayed X-Faces. The
22010 default colors are black and white.
22013 Gnus provides a few convenience functions and variables to allow
22014 easier insertion of X-Face headers in outgoing messages.
22016 @findex gnus-random-x-face
22017 @vindex gnus-convert-pbm-to-x-face-command
22018 @vindex gnus-x-face-directory
22019 @code{gnus-random-x-face} goes through all the @samp{pbm} files in
22020 @code{gnus-x-face-directory} and picks one at random, and then
22021 converts it to the X-Face format by using the
22022 @code{gnus-convert-pbm-to-x-face-command} shell command. The
22023 @samp{pbm} files should be 48x48 pixels big. It returns the X-Face
22024 header data as a string.
22026 @findex gnus-insert-random-x-face-header
22027 @code{gnus-insert-random-x-face-header} calls
22028 @code{gnus-random-x-face} and inserts a @samp{X-Face} header with the
22029 randomly generated data.
22031 @findex gnus-x-face-from-file
22032 @vindex gnus-convert-image-to-x-face-command
22033 @code{gnus-x-face-from-file} takes a GIF file as the parameter, and then
22034 converts the file to X-Face format by using the
22035 @code{gnus-convert-image-to-x-face-command} shell command.
22037 Here's how you would typically use the first function. Put something
22038 like the following in your @file{~/.gnus.el} file:
22041 (setq message-required-news-headers
22042 (nconc message-required-news-headers
22043 (list '(X-Face . gnus-random-x-face))))
22046 Using the last function would be something like this:
22049 (setq message-required-news-headers
22050 (nconc message-required-news-headers
22051 (list '(X-Face . (lambda ()
22052 (gnus-x-face-from-file
22053 "~/My-face.gif"))))))
22061 @c #### FIXME: faces and x-faces'implementations should really be harmonized.
22063 @code{Face} headers are essentially a funkier version of @code{X-Face}
22064 ones. They describe a 48x48 pixel colored image that's supposed to
22065 represent the author of the message.
22068 @findex gnus-article-display-face
22069 The contents of a @code{Face} header must be a base64 encoded PNG image.
22070 See @uref{http://quimby.gnus.org/circus/face/} for the precise
22073 Gnus provides a few convenience functions and variables to allow
22074 easier insertion of Face headers in outgoing messages.
22076 @findex gnus-convert-png-to-face
22077 @code{gnus-convert-png-to-face} takes a 48x48 PNG image, no longer than
22078 726 bytes long, and converts it to a face.
22080 @findex gnus-face-from-file
22081 @vindex gnus-convert-image-to-face-command
22082 @code{gnus-face-from-file} takes a JPEG file as the parameter, and then
22083 converts the file to Face format by using the
22084 @code{gnus-convert-image-to-face-command} shell command.
22086 Here's how you would typically use this function. Put something like the
22087 following in your @file{~/.gnus.el} file:
22090 (setq message-required-news-headers
22091 (nconc message-required-news-headers
22092 (list '(Face . (lambda ()
22093 (gnus-face-from-file "~/face.jpg"))))))
22098 @subsection Smileys
22103 \gnusfig{-3cm}{0.5cm}{\epsfig{figure=ps/BigFace,height=20cm}}
22108 @dfn{Smiley} is a package separate from Gnus, but since Gnus is
22109 currently the only package that uses Smiley, it is documented here.
22111 In short---to use Smiley in Gnus, put the following in your
22112 @file{~/.gnus.el} file:
22115 (setq gnus-treat-display-smileys t)
22118 Smiley maps text smiley faces---@samp{:-)}, @samp{8-)}, @samp{:-(} and
22119 the like---to pictures and displays those instead of the text smiley
22120 faces. The conversion is controlled by a list of regexps that matches
22121 text and maps that to file names.
22123 @vindex smiley-regexp-alist
22124 The alist used is specified by the @code{smiley-regexp-alist}
22125 variable. The first item in each element is the regexp to be matched;
22126 the second element is the regexp match group that is to be replaced by
22127 the picture; and the third element is the name of the file to be
22130 The following variables customize where Smiley will look for these
22135 @item smiley-data-directory
22136 @vindex smiley-data-directory
22137 Where Smiley will look for smiley faces files.
22139 @item gnus-smiley-file-types
22140 @vindex gnus-smiley-file-types
22141 List of suffixes on smiley file names to try.
22155 So@dots{} You want to slow down your news reader even more! This is a
22156 good way to do so. It's also a great way to impress people staring
22157 over your shoulder as you read news.
22159 What are Picons? To quote directly from the Picons Web site:
22168 @dfn{Picons} is short for ``personal icons''. They're small,
22169 constrained images used to represent users and domains on the net,
22170 organized into databases so that the appropriate image for a given
22171 e-mail address can be found. Besides users and domains, there are picon
22172 databases for Usenet newsgroups and weather forecasts. The picons are
22173 in either monochrome @code{XBM} format or color @code{XPM} and
22174 @code{GIF} formats.
22177 @vindex gnus-picon-databases
22178 For instructions on obtaining and installing the picons databases,
22179 point your Web browser at
22180 @uref{http://www.cs.indiana.edu/picons/ftp/index.html}.
22182 If you are using Debian GNU/Linux, saying @samp{apt-get install
22183 picons.*} will install the picons where Gnus can find them.
22185 To enable displaying picons, simply make sure that
22186 @code{gnus-picon-databases} points to the directory containing the
22189 The following variables offer control over where things are located.
22193 @item gnus-picon-databases
22194 @vindex gnus-picon-databases
22195 The location of the picons database. This is a list of directories
22196 containing the @file{news}, @file{domains}, @file{users} (and so on)
22197 subdirectories. Defaults to @code{("/usr/lib/picon"
22198 "/usr/local/faces")}.
22200 @item gnus-picon-news-directories
22201 @vindex gnus-picon-news-directories
22202 List of subdirectories to search in @code{gnus-picon-databases} for
22203 newsgroups faces. @code{("news")} is the default.
22205 @item gnus-picon-user-directories
22206 @vindex gnus-picon-user-directories
22207 List of subdirectories to search in @code{gnus-picon-databases} for user
22208 faces. @code{("users" "usenix" "local" "misc")} is the default.
22210 @item gnus-picon-domain-directories
22211 @vindex gnus-picon-domain-directories
22212 List of subdirectories to search in @code{gnus-picon-databases} for
22213 domain name faces. Defaults to @code{("domains")}. Some people may
22214 want to add @samp{"unknown"} to this list.
22216 @item gnus-picon-file-types
22217 @vindex gnus-picon-file-types
22218 Ordered list of suffixes on picon file names to try. Defaults to
22219 @code{("xpm" "gif" "xbm")} minus those not built-in your Emacs.
22225 @subsection Various XEmacs Variables
22228 @item gnus-xmas-glyph-directory
22229 @vindex gnus-xmas-glyph-directory
22230 This is where Gnus will look for pictures. Gnus will normally
22231 auto-detect this directory, but you may set it manually if you have an
22232 unusual directory structure.
22234 @item gnus-xmas-modeline-glyph
22235 @vindex gnus-xmas-modeline-glyph
22236 A glyph displayed in all Gnus mode lines. It is a tiny gnu head by
22241 @subsubsection Toolbar
22245 @item gnus-use-toolbar
22246 @vindex gnus-use-toolbar
22247 This variable specifies the position to display the toolbar. If
22248 @code{nil}, don't display toolbars. If it is non-nil, it should be one
22249 of the symbols @code{default}, @code{top}, @code{bottom}, @code{right},
22250 and @code{left}. @code{default} means to use the default toolbar, the
22251 rest mean to display the toolbar on the place which those names show.
22252 The default is @code{default}.
22254 @item gnus-toolbar-thickness
22255 @vindex gnus-toolbar-thickness
22256 Cons of the height and the width specifying the thickness of a toolbar.
22257 The height is used for the toolbar displayed on the top or the bottom,
22258 the width is used for the toolbar displayed on the right or the left.
22259 The default is that of the default toolbar.
22261 @item gnus-group-toolbar
22262 @vindex gnus-group-toolbar
22263 The toolbar in the group buffer.
22265 @item gnus-summary-toolbar
22266 @vindex gnus-summary-toolbar
22267 The toolbar in the summary buffer.
22269 @item gnus-summary-mail-toolbar
22270 @vindex gnus-summary-mail-toolbar
22271 The toolbar in the summary buffer of mail groups.
22282 @node Fuzzy Matching
22283 @section Fuzzy Matching
22284 @cindex fuzzy matching
22286 Gnus provides @dfn{fuzzy matching} of @code{Subject} lines when doing
22287 things like scoring, thread gathering and thread comparison.
22289 As opposed to regular expression matching, fuzzy matching is very fuzzy.
22290 It's so fuzzy that there's not even a definition of what @dfn{fuzziness}
22291 means, and the implementation has changed over time.
22293 Basically, it tries to remove all noise from lines before comparing.
22294 @samp{Re: }, parenthetical remarks, white space, and so on, are filtered
22295 out of the strings before comparing the results. This often leads to
22296 adequate results---even when faced with strings generated by text
22297 manglers masquerading as newsreaders.
22300 @node Thwarting Email Spam
22301 @section Thwarting Email Spam
22305 @cindex unsolicited commercial email
22307 In these last days of the Usenet, commercial vultures are hanging about
22308 and grepping through news like crazy to find email addresses they can
22309 foist off their scams and products to. As a reaction to this, many
22310 people have started putting nonsense addresses into their @code{From}
22311 lines. I think this is counterproductive---it makes it difficult for
22312 people to send you legitimate mail in response to things you write, as
22313 well as making it difficult to see who wrote what. This rewriting may
22314 perhaps be a bigger menace than the unsolicited commercial email itself
22317 The biggest problem I have with email spam is that it comes in under
22318 false pretenses. I press @kbd{g} and Gnus merrily informs me that I
22319 have 10 new emails. I say ``Golly gee! Happy is me!'' and select the
22320 mail group, only to find two pyramid schemes, seven advertisements
22321 (``New! Miracle tonic for growing full, lustrous hair on your toes!'')
22322 and one mail asking me to repent and find some god.
22324 This is annoying. Here's what you can do about it.
22327 * The problem of spam:: Some background, and some solutions
22328 * Anti-Spam Basics:: Simple steps to reduce the amount of spam.
22329 * SpamAssassin:: How to use external anti-spam tools.
22330 * Hashcash:: Reduce spam by burning CPU time.
22331 * Filtering Spam Using The Spam ELisp Package::
22332 * Filtering Spam Using Statistics with spam-stat::
22335 @node The problem of spam
22336 @subsection The problem of spam
22338 @cindex spam filtering approaches
22339 @cindex filtering approaches, spam
22341 @cindex unsolicited commercial email
22343 First, some background on spam.
22345 If you have access to e-mail, you are familiar with spam (technically
22346 termed @acronym{UCE}, Unsolicited Commercial E-mail). Simply put, it
22347 exists because e-mail delivery is very cheap compared to paper mail,
22348 so only a very small percentage of people need to respond to an UCE to
22349 make it worthwhile to the advertiser. Ironically, one of the most
22350 common spams is the one offering a database of e-mail addresses for
22351 further spamming. Senders of spam are usually called @emph{spammers},
22352 but terms like @emph{vermin}, @emph{scum}, @emph{sociopaths}, and
22353 @emph{morons} are in common use as well.
22355 Spam comes from a wide variety of sources. It is simply impossible to
22356 dispose of all spam without discarding useful messages. A good
22357 example is the TMDA system, which requires senders
22358 unknown to you to confirm themselves as legitimate senders before
22359 their e-mail can reach you. Without getting into the technical side
22360 of TMDA, a downside is clearly that e-mail from legitimate sources may
22361 be discarded if those sources can't or won't confirm themselves
22362 through the TMDA system. Another problem with TMDA is that it
22363 requires its users to have a basic understanding of e-mail delivery
22366 The simplest approach to filtering spam is filtering, at the mail
22367 server or when you sort through incoming mail. If you get 200 spam
22368 messages per day from @samp{random-address@@vmadmin.com}, you block
22369 @samp{vmadmin.com}. If you get 200 messages about @samp{VIAGRA}, you
22370 discard all messages with @samp{VIAGRA} in the message. If you get
22371 lots of spam from Bulgaria, for example, you try to filter all mail
22372 from Bulgarian IPs.
22374 This, unfortunately, is a great way to discard legitimate e-mail. The
22375 risks of blocking a whole country (Bulgaria, Norway, Nigeria, China,
22376 etc.) or even a continent (Asia, Africa, Europe, etc.) from contacting
22377 you should be obvious, so don't do it if you have the choice.
22379 In another instance, the very informative and useful RISKS digest has
22380 been blocked by overzealous mail filters because it @strong{contained}
22381 words that were common in spam messages. Nevertheless, in isolated
22382 cases, with great care, direct filtering of mail can be useful.
22384 Another approach to filtering e-mail is the distributed spam
22385 processing, for instance DCC implements such a system. In essence,
22386 @var{N} systems around the world agree that a machine @var{X} in
22387 Ghana, Estonia, or California is sending out spam e-mail, and these
22388 @var{N} systems enter @var{X} or the spam e-mail from @var{X} into a
22389 database. The criteria for spam detection vary---it may be the number
22390 of messages sent, the content of the messages, and so on. When a user
22391 of the distributed processing system wants to find out if a message is
22392 spam, he consults one of those @var{N} systems.
22394 Distributed spam processing works very well against spammers that send
22395 a large number of messages at once, but it requires the user to set up
22396 fairly complicated checks. There are commercial and free distributed
22397 spam processing systems. Distributed spam processing has its risks as
22398 well. For instance legitimate e-mail senders have been accused of
22399 sending spam, and their web sites and mailing lists have been shut
22400 down for some time because of the incident.
22402 The statistical approach to spam filtering is also popular. It is
22403 based on a statistical analysis of previous spam messages. Usually
22404 the analysis is a simple word frequency count, with perhaps pairs of
22405 words or 3-word combinations thrown into the mix. Statistical
22406 analysis of spam works very well in most of the cases, but it can
22407 classify legitimate e-mail as spam in some cases. It takes time to
22408 run the analysis, the full message must be analyzed, and the user has
22409 to store the database of spam analyses. Statistical analysis on the
22410 server is gaining popularity. This has the advantage of letting the
22411 user Just Read Mail, but has the disadvantage that it's harder to tell
22412 the server that it has misclassified mail.
22414 Fighting spam is not easy, no matter what anyone says. There is no
22415 magic switch that will distinguish Viagra ads from Mom's e-mails.
22416 Even people are having a hard time telling spam apart from non-spam,
22417 because spammers are actively looking to fool us into thinking they
22418 are Mom, essentially. Spamming is irritating, irresponsible, and
22419 idiotic behavior from a bunch of people who think the world owes them
22420 a favor. We hope the following sections will help you in fighting the
22423 @node Anti-Spam Basics
22424 @subsection Anti-Spam Basics
22428 @cindex unsolicited commercial email
22430 One way of dealing with spam is having Gnus split out all spam into a
22431 @samp{spam} mail group (@pxref{Splitting Mail}).
22433 First, pick one (1) valid mail address that you can be reached at, and
22434 put it in your @code{From} header of all your news articles. (I've
22435 chosen @samp{larsi@@trym.ifi.uio.no}, but for many addresses on the form
22436 @samp{larsi+usenet@@ifi.uio.no} will be a better choice. Ask your
22437 sysadmin whether your sendmail installation accepts keywords in the local
22438 part of the mail address.)
22441 (setq message-default-news-headers
22442 "From: Lars Magne Ingebrigtsen <larsi@@trym.ifi.uio.no>\n")
22445 Then put the following split rule in @code{nnmail-split-fancy}
22446 (@pxref{Fancy Mail Splitting}):
22450 (to "larsi@@trym.ifi.uio.no"
22451 (| ("subject" "re:.*" "misc")
22452 ("references" ".*@@.*" "misc")
22457 This says that all mail to this address is suspect, but if it has a
22458 @code{Subject} that starts with a @samp{Re:} or has a @code{References}
22459 header, it's probably ok. All the rest goes to the @samp{spam} group.
22460 (This idea probably comes from Tim Pierce.)
22462 In addition, many mail spammers talk directly to your @acronym{SMTP} server
22463 and do not include your email address explicitly in the @code{To}
22464 header. Why they do this is unknown---perhaps it's to thwart this
22465 thwarting scheme? In any case, this is trivial to deal with---you just
22466 put anything not addressed to you in the @samp{spam} group by ending
22467 your fancy split rule in this way:
22472 (to "larsi" "misc")
22476 In my experience, this will sort virtually everything into the right
22477 group. You still have to check the @samp{spam} group from time to time to
22478 check for legitimate mail, though. If you feel like being a good net
22479 citizen, you can even send off complaints to the proper authorities on
22480 each unsolicited commercial email---at your leisure.
22482 This works for me. It allows people an easy way to contact me (they can
22483 just press @kbd{r} in the usual way), and I'm not bothered at all with
22484 spam. It's a win-win situation. Forging @code{From} headers to point
22485 to non-existent domains is yucky, in my opinion.
22487 Be careful with this approach. Spammers are wise to it.
22491 @subsection SpamAssassin, Vipul's Razor, DCC, etc
22492 @cindex SpamAssassin
22493 @cindex Vipul's Razor
22496 The days where the hints in the previous section were sufficient in
22497 avoiding spam are coming to an end. There are many tools out there
22498 that claim to reduce the amount of spam you get. This section could
22499 easily become outdated fast, as new products replace old, but
22500 fortunately most of these tools seem to have similar interfaces. Even
22501 though this section will use SpamAssassin as an example, it should be
22502 easy to adapt it to most other tools.
22504 Note that this section does not involve the @code{spam.el} package,
22505 which is discussed in the next section. If you don't care for all
22506 the features of @code{spam.el}, you can make do with these simple
22509 If the tool you are using is not installed on the mail server, you
22510 need to invoke it yourself. Ideas on how to use the
22511 @code{:postscript} mail source parameter (@pxref{Mail Source
22512 Specifiers}) follow.
22516 '((file :prescript "formail -bs spamassassin < /var/mail/%u")
22520 "mv %t /tmp/foo; formail -bs spamc < /tmp/foo > %t")))
22523 Once you manage to process your incoming spool somehow, thus making
22524 the mail contain e.g.@: a header indicating it is spam, you are ready to
22525 filter it out. Using normal split methods (@pxref{Splitting Mail}):
22528 (setq nnmail-split-methods '(("spam" "^X-Spam-Flag: YES")
22532 Or using fancy split methods (@pxref{Fancy Mail Splitting}):
22535 (setq nnmail-split-methods 'nnmail-split-fancy
22536 nnmail-split-fancy '(| ("X-Spam-Flag" "YES" "spam")
22540 Some people might not like the idea of piping the mail through various
22541 programs using a @code{:prescript} (if some program is buggy, you
22542 might lose all mail). If you are one of them, another solution is to
22543 call the external tools during splitting. Example fancy split method:
22546 (setq nnmail-split-fancy '(| (: kevin-spamassassin)
22548 (defun kevin-spamassassin ()
22552 (if (eq 1 (call-process-region (point-min) (point-max)
22553 "spamc" nil nil nil "-c"))
22557 Note that with the nnimap backend, message bodies will not be
22558 downloaded by default. You need to set
22559 @code{nnimap-split-download-body} to @code{t} to do that
22560 (@pxref{Splitting in IMAP}).
22562 That is about it. As some spam is likely to get through anyway, you
22563 might want to have a nifty function to call when you happen to read
22564 spam. And here is the nifty function:
22567 (defun my-gnus-raze-spam ()
22568 "Submit SPAM to Vipul's Razor, then mark it as expirable."
22570 (gnus-summary-show-raw-article)
22571 (gnus-summary-save-in-pipe "razor-report -f -d")
22572 (gnus-summary-mark-as-expirable 1))
22576 @subsection Hashcash
22579 A novel technique to fight spam is to require senders to do something
22580 costly for each message they send. This has the obvious drawback that
22581 you cannot rely on everyone in the world using this technique,
22582 since it is not part of the Internet standards, but it may be useful
22583 in smaller communities.
22585 While the tools in the previous section work well in practice, they
22586 work only because the tools are constantly maintained and updated as
22587 new form of spam appears. This means that a small percentage of spam
22588 will always get through. It also means that somewhere, someone needs
22589 to read lots of spam to update these tools. Hashcash avoids that, but
22590 instead prefers that everyone you contact through e-mail supports the
22591 scheme. You can view the two approaches as pragmatic vs dogmatic.
22592 The approaches have their own advantages and disadvantages, but as
22593 often in the real world, a combination of them is stronger than either
22594 one of them separately.
22597 The ``something costly'' is to burn CPU time, more specifically to
22598 compute a hash collision up to a certain number of bits. The
22599 resulting hashcash cookie is inserted in a @samp{X-Hashcash:}
22600 header. For more details, and for the external application
22601 @code{hashcash} you need to install to use this feature, see
22602 @uref{http://www.cypherspace.org/~adam/hashcash/}. Even more
22603 information can be found at @uref{http://www.camram.org/}.
22605 If you wish to call hashcash for each message you send, say something
22609 (require 'hashcash)
22610 (add-hook 'message-send-hook 'mail-add-payment)
22613 The @file{hashcash.el} library can be found in the Gnus development
22614 contrib directory or at
22615 @uref{http://users.actrix.gen.nz/mycroft/hashcash.el}.
22617 You will need to set up some additional variables as well:
22621 @item hashcash-default-payment
22622 @vindex hashcash-default-payment
22623 This variable indicates the default number of bits the hash collision
22624 should consist of. By default this is 0, meaning nothing will be
22625 done. Suggested useful values include 17 to 29.
22627 @item hashcash-payment-alist
22628 @vindex hashcash-payment-alist
22629 Some receivers may require you to spend burn more CPU time than the
22630 default. This variable contains a list of @samp{(@var{addr}
22631 @var{amount})} cells, where @var{addr} is the receiver (email address
22632 or newsgroup) and @var{amount} is the number of bits in the collision
22633 that is needed. It can also contain @samp{(@var{addr} @var{string}
22634 @var{amount})} cells, where the @var{string} is the string to use
22635 (normally the email address or newsgroup name is used).
22639 Where the @code{hashcash} binary is installed.
22643 Currently there is no built in functionality in Gnus to verify
22644 hashcash cookies, it is expected that this is performed by your hand
22645 customized mail filtering scripts. Improvements in this area would be
22646 a useful contribution, however.
22648 @node Filtering Spam Using The Spam ELisp Package
22649 @subsection Filtering Spam Using The Spam ELisp Package
22650 @cindex spam filtering
22653 The idea behind @file{spam.el} is to have a control center for spam detection
22654 and filtering in Gnus. To that end, @file{spam.el} does two things: it
22655 filters new mail, and it analyzes mail known to be spam or ham.
22656 @dfn{Ham} is the name used throughout @file{spam.el} to indicate
22659 @cindex spam-initialize
22660 First of all, you @strong{must} run the function
22661 @code{spam-initialize} to autoload @code{spam.el} and to install the
22662 @code{spam.el} hooks. There is one exception: if you use the
22663 @code{spam-use-stat} (@pxref{spam-stat spam filtering}) setting, you
22664 should turn it on before @code{spam-initialize}:
22667 (setq spam-use-stat t) ;; if needed
22671 So, what happens when you load @file{spam.el}?
22673 First, some hooks will get installed by @code{spam-initialize}. There
22674 are some hooks for @code{spam-stat} so it can save its databases, and
22675 there are hooks so interesting things will happen when you enter and
22676 leave a group. More on the sequence of events later (@pxref{Spam
22677 ELisp Package Sequence of Events}).
22679 You get the following keyboard commands:
22689 @findex gnus-summary-mark-as-spam
22690 @code{gnus-summary-mark-as-spam}.
22692 Mark current article as spam, showing it with the @samp{$} mark.
22693 Whenever you see a spam article, make sure to mark its summary line
22694 with @kbd{M-d} before leaving the group. This is done automatically
22695 for unread articles in @emph{spam} groups.
22701 @findex spam-bogofilter-score
22702 @code{spam-bogofilter-score}.
22704 You must have Bogofilter installed for that command to work properly.
22710 Also, when you load @file{spam.el}, you will be able to customize its
22711 variables. Try @code{customize-group} on the @samp{spam} variable
22715 * Spam ELisp Package Sequence of Events::
22716 * Spam ELisp Package Filtering of Incoming Mail::
22717 * Spam ELisp Package Global Variables::
22718 * Spam ELisp Package Configuration Examples::
22719 * Blacklists and Whitelists::
22720 * BBDB Whitelists::
22721 * Gmane Spam Reporting::
22722 * Anti-spam Hashcash Payments::
22724 * Regular Expressions Header Matching::
22726 * ifile spam filtering::
22727 * spam-stat spam filtering::
22729 * Extending the Spam ELisp package::
22732 @node Spam ELisp Package Sequence of Events
22733 @subsubsection Spam ELisp Package Sequence of Events
22734 @cindex spam filtering
22735 @cindex spam filtering sequence of events
22738 You must read this section to understand how @code{spam.el} works.
22739 Do not skip, speed-read, or glance through this section.
22741 There are two @emph{contact points}, if you will, between
22742 @code{spam.el} and the rest of Gnus: checking new mail for spam, and
22745 Getting new mail is done in one of two ways. You can either split
22746 your incoming mail or you can classify new articles as ham or spam
22747 when you enter the group.
22749 Splitting incoming mail is better suited to mail backends such as
22750 @code{nnml} or @code{nnimap} where new mail appears in a single file
22751 called a @dfn{Spool File}. See @xref{Spam ELisp Package Filtering of
22754 For backends such as @code{nntp} there is no incoming mail spool, so
22755 an alternate mechanism must be used. This may also happen for
22756 backends where the server is in charge of splitting incoming mail, and
22757 Gnus does not do further splitting. The @code{spam-autodetect} and
22758 @code{spam-autodetect-methods} group parameters (accessible with
22759 @kbd{G c} and @kbd{G p} as usual), and the corresponding variables
22760 @code{gnus-spam-autodetect-methods} and
22761 @code{gnus-spam-autodetect-methods} (accessible with @kbd{M-x
22762 customize-variable} as usual).
22764 When @code{spam-autodetect} is used, it hooks into the process of
22765 entering a group. Thus, entering a group with unseen or unread
22766 articles becomes the substitute for checking incoming mail. Whether
22767 only unseen articles or all unread articles will be processed is
22768 determined by the @code{spam-autodetect-recheck-messages}. When set
22769 to @code{t}, unread messages will be rechecked.
22771 @code{spam-autodetect} grants the user at once more and less control
22772 of spam filtering. The user will have more control over each group's
22773 spam methods, so for instance the @samp{ding} group may have
22774 @code{spam-use-BBDB} as the autodetection method, while the
22775 @samp{suspect} group may have the @code{spam-use-blacklist} and
22776 @code{spam-use-bogofilter} methods enabled. Every article detected to
22777 be spam will be marked with the spam mark @samp{$} and processed on
22778 exit from the group as normal spam. The user has less control over
22779 the @emph{sequence} of checks, as he might with @code{spam-split}.
22781 When the newly split mail goes into groups, or messages are
22782 autodetected to be ham or spam, those groups must be exited (after
22783 entering, if needed) for further spam processing to happen. It
22784 matters whether the group is considered a ham group, a spam group, or
22785 is unclassified, based on its @code{spam-content} parameter
22786 (@pxref{Spam ELisp Package Global Variables}). Spam groups have the
22787 additional characteristic that, when entered, any unseen or unread
22788 articles (depending on the @code{spam-mark-only-unseen-as-spam}
22789 variable) will be marked as spam. Thus, mail split into a spam group
22790 gets automatically marked as spam when you enter the group.
22792 So, when you exit a group, the @code{spam-processors} are applied, if
22793 any are set, and the processed mail is moved to the
22794 @code{ham-process-destination} or the @code{spam-process-destination}
22795 depending on the article's classification. If the
22796 @code{ham-process-destination} or the @code{spam-process-destination},
22797 whichever is appropriate, are @code{nil}, the article is left in the
22800 If a spam is found in any group (this can be changed to only non-spam
22801 groups with @code{spam-move-spam-nonspam-groups-only}), it is
22802 processed by the active @code{spam-processors} (@pxref{Spam ELisp
22803 Package Global Variables}) when the group is exited. Furthermore, the
22804 spam is moved to the @code{spam-process-destination} (@pxref{Spam
22805 ELisp Package Global Variables}) for further training or deletion.
22806 You have to load the @code{gnus-registry.el} package and enable the
22807 @code{spam-log-to-registry} variable if you want spam to be processed
22808 no more than once. Thus, spam is detected and processed everywhere,
22809 which is what most people want. If the
22810 @code{spam-process-destination} is @code{nil}, the spam is marked as
22811 expired, which is usually the right thing to do.
22813 If spam can not be moved---because of a read-only backend such as
22814 @acronym{NNTP}, for example, it will be copied.
22816 If a ham mail is found in a ham group, as determined by the
22817 @code{ham-marks} parameter, it is processed as ham by the active ham
22818 @code{spam-processor} when the group is exited. With the variables
22819 @code{spam-process-ham-in-spam-groups} and
22820 @code{spam-process-ham-in-nonham-groups} the behavior can be further
22821 altered so ham found anywhere can be processed. You have to load the
22822 @code{gnus-registry.el} package and enable the
22823 @code{spam-log-to-registry} variable if you want ham to be processed
22824 no more than once. Thus, ham is detected and processed only when
22825 necessary, which is what most people want. More on this in
22826 @xref{Spam ELisp Package Configuration Examples}.
22828 If ham can not be moved---because of a read-only backend such as
22829 @acronym{NNTP}, for example, it will be copied.
22831 If all this seems confusing, don't worry. Soon it will be as natural
22832 as typing Lisp one-liners on a neural interface@dots{} err, sorry, that's
22833 50 years in the future yet. Just trust us, it's not so bad.
22835 @node Spam ELisp Package Filtering of Incoming Mail
22836 @subsubsection Spam ELisp Package Filtering of Incoming Mail
22837 @cindex spam filtering
22838 @cindex spam filtering incoming mail
22841 To use the @file{spam.el} facilities for incoming mail filtering, you
22842 must add the following to your fancy split list
22843 @code{nnmail-split-fancy} or @code{nnimap-split-fancy}:
22849 Note that the fancy split may be called @code{nnmail-split-fancy} or
22850 @code{nnimap-split-fancy}, depending on whether you use the nnmail or
22851 nnimap back ends to retrieve your mail.
22853 Also, @code{spam-split} will not modify incoming mail in any way.
22855 The @code{spam-split} function will process incoming mail and send the
22856 mail considered to be spam into the group name given by the variable
22857 @code{spam-split-group}. By default that group name is @samp{spam},
22858 but you can customize @code{spam-split-group}. Make sure the contents
22859 of @code{spam-split-group} are an @emph{unqualified} group name, for
22860 instance in an @code{nnimap} server @samp{your-server} the value
22861 @samp{spam} will turn out to be @samp{nnimap+your-server:spam}. The
22862 value @samp{nnimap+server:spam}, therefore, is wrong and will
22863 actually give you the group
22864 @samp{nnimap+your-server:nnimap+server:spam} which may or may not
22865 work depending on your server's tolerance for strange group names.
22867 You can also give @code{spam-split} a parameter,
22868 e.g. @code{spam-use-regex-headers} or @code{"maybe-spam"}. Why is
22871 Take these split rules (with @code{spam-use-regex-headers} and
22872 @code{spam-use-blackholes} set):
22875 nnimap-split-fancy '(|
22876 (any "ding" "ding")
22878 ;; @r{default mailbox}
22882 Now, the problem is that you want all ding messages to make it to the
22883 ding folder. But that will let obvious spam (for example, spam
22884 detected by SpamAssassin, and @code{spam-use-regex-headers}) through,
22885 when it's sent to the ding list. On the other hand, some messages to
22886 the ding list are from a mail server in the blackhole list, so the
22887 invocation of @code{spam-split} can't be before the ding rule.
22889 You can let SpamAssassin headers supersede ding rules, but all other
22890 @code{spam-split} rules (including a second invocation of the
22891 regex-headers check) will be after the ding rule:
22896 ;; @r{all spam detected by @code{spam-use-regex-headers} goes to @samp{regex-spam}}
22897 (: spam-split "regex-spam" 'spam-use-regex-headers)
22898 (any "ding" "ding")
22899 ;; @r{all other spam detected by spam-split goes to @code{spam-split-group}}
22901 ;; @r{default mailbox}
22905 This lets you invoke specific @code{spam-split} checks depending on
22906 your particular needs, and to target the results of those checks to a
22907 particular spam group. You don't have to throw all mail into all the
22908 spam tests. Another reason why this is nice is that messages to
22909 mailing lists you have rules for don't have to have resource-intensive
22910 blackhole checks performed on them. You could also specify different
22911 spam checks for your nnmail split vs. your nnimap split. Go crazy.
22913 You should still have specific checks such as
22914 @code{spam-use-regex-headers} set to @code{t}, even if you
22915 specifically invoke @code{spam-split} with the check. The reason is
22916 that when loading @file{spam.el}, some conditional loading is done
22917 depending on what @code{spam-use-xyz} variables you have set. This
22918 is usually not critical, though.
22920 @emph{Note for IMAP users}
22922 The boolean variable @code{nnimap-split-download-body} needs to be
22923 set, if you want to split based on the whole message instead of just
22924 the headers. By default, the nnimap back end will only retrieve the
22925 message headers. If you use @code{spam-check-bogofilter},
22926 @code{spam-check-ifile}, or @code{spam-check-stat} (the splitters that
22927 can benefit from the full message body), you should set this variable.
22928 It is not set by default because it will slow @acronym{IMAP} down, and
22929 that is not an appropriate decision to make on behalf of the user.
22931 @xref{Splitting in IMAP}.
22933 @emph{TODO: spam.el needs to provide a uniform way of training all the
22934 statistical databases. Some have that functionality built-in, others
22937 @node Spam ELisp Package Global Variables
22938 @subsubsection Spam ELisp Package Global Variables
22939 @cindex spam filtering
22940 @cindex spam filtering variables
22941 @cindex spam variables
22944 @vindex gnus-spam-process-newsgroups
22945 The concepts of ham processors and spam processors are very important.
22946 Ham processors and spam processors for a group can be set with the
22947 @code{spam-process} group parameter, or the
22948 @code{gnus-spam-process-newsgroups} variable. Ham processors take
22949 mail known to be non-spam (@emph{ham}) and process it in some way so
22950 that later similar mail will also be considered non-spam. Spam
22951 processors take mail known to be spam and process it so similar spam
22952 will be detected later.
22954 The format of the spam or ham processor entry used to be a symbol,
22955 but now it is a @sc{cons} cell. See the individual spam processor entries
22956 for more information.
22958 @vindex gnus-spam-newsgroup-contents
22959 Gnus learns from the spam you get. You have to collect your spam in
22960 one or more spam groups, and set or customize the variable
22961 @code{spam-junk-mailgroups} as appropriate. You can also declare
22962 groups to contain spam by setting their group parameter
22963 @code{spam-contents} to @code{gnus-group-spam-classification-spam}, or
22964 by customizing the corresponding variable
22965 @code{gnus-spam-newsgroup-contents}. The @code{spam-contents} group
22966 parameter and the @code{gnus-spam-newsgroup-contents} variable can
22967 also be used to declare groups as @emph{ham} groups if you set their
22968 classification to @code{gnus-group-spam-classification-ham}. If
22969 groups are not classified by means of @code{spam-junk-mailgroups},
22970 @code{spam-contents}, or @code{gnus-spam-newsgroup-contents}, they are
22971 considered @emph{unclassified}. All groups are unclassified by
22974 @vindex gnus-spam-mark
22976 In spam groups, all messages are considered to be spam by default:
22977 they get the @samp{$} mark (@code{gnus-spam-mark}) when you enter the
22978 group. If you have seen a message, had it marked as spam, then
22979 unmarked it, it won't be marked as spam when you enter the group
22980 thereafter. You can disable that behavior, so all unread messages
22981 will get the @samp{$} mark, if you set the
22982 @code{spam-mark-only-unseen-as-spam} parameter to @code{nil}. You
22983 should remove the @samp{$} mark when you are in the group summary
22984 buffer for every message that is not spam after all. To remove the
22985 @samp{$} mark, you can use @kbd{M-u} to ``unread'' the article, or
22986 @kbd{d} for declaring it read the non-spam way. When you leave a
22987 group, all spam-marked (@samp{$}) articles are sent to a spam
22988 processor which will study them as spam samples.
22990 Messages may also be deleted in various other ways, and unless
22991 @code{ham-marks} group parameter gets overridden below, marks @samp{R}
22992 and @samp{r} for default read or explicit delete, marks @samp{X} and
22993 @samp{K} for automatic or explicit kills, as well as mark @samp{Y} for
22994 low scores, are all considered to be associated with articles which
22995 are not spam. This assumption might be false, in particular if you
22996 use kill files or score files as means for detecting genuine spam, you
22997 should then adjust the @code{ham-marks} group parameter.
23000 You can customize this group or topic parameter to be the list of
23001 marks you want to consider ham. By default, the list contains the
23002 deleted, read, killed, kill-filed, and low-score marks (the idea is
23003 that these articles have been read, but are not spam). It can be
23004 useful to also include the tick mark in the ham marks. It is not
23005 recommended to make the unread mark a ham mark, because it normally
23006 indicates a lack of classification. But you can do it, and we'll be
23011 You can customize this group or topic parameter to be the list of
23012 marks you want to consider spam. By default, the list contains only
23013 the spam mark. It is not recommended to change that, but you can if
23014 you really want to.
23017 When you leave @emph{any} group, regardless of its
23018 @code{spam-contents} classification, all spam-marked articles are sent
23019 to a spam processor, which will study these as spam samples. If you
23020 explicit kill a lot, you might sometimes end up with articles marked
23021 @samp{K} which you never saw, and which might accidentally contain
23022 spam. Best is to make sure that real spam is marked with @samp{$},
23025 @vindex gnus-ham-process-destinations
23026 When you leave a @emph{spam} group, all spam-marked articles are
23027 marked as expired after processing with the spam processor. This is
23028 not done for @emph{unclassified} or @emph{ham} groups. Also, any
23029 @strong{ham} articles in a spam group will be moved to a location
23030 determined by either the @code{ham-process-destination} group
23031 parameter or a match in the @code{gnus-ham-process-destinations}
23032 variable, which is a list of regular expressions matched with group
23033 names (it's easiest to customize this variable with @kbd{M-x
23034 customize-variable @key{RET} gnus-ham-process-destinations}). Each
23035 group name list is a standard Lisp list, if you prefer to customize
23036 the variable manually. If the @code{ham-process-destination}
23037 parameter is not set, ham articles are left in place. If the
23038 @code{spam-mark-ham-unread-before-move-from-spam-group} parameter is
23039 set, the ham articles are marked as unread before being moved.
23041 If ham can not be moved---because of a read-only backend such as
23042 @acronym{NNTP}, for example, it will be copied.
23044 Note that you can use multiples destinations per group or regular
23045 expression! This enables you to send your ham to a regular mail
23046 group and to a @emph{ham training} group.
23048 When you leave a @emph{ham} group, all ham-marked articles are sent to
23049 a ham processor, which will study these as non-spam samples.
23051 @vindex spam-process-ham-in-spam-groups
23052 By default the variable @code{spam-process-ham-in-spam-groups} is
23053 @code{nil}. Set it to @code{t} if you want ham found in spam groups
23054 to be processed. Normally this is not done, you are expected instead
23055 to send your ham to a ham group and process it there.
23057 @vindex spam-process-ham-in-nonham-groups
23058 By default the variable @code{spam-process-ham-in-nonham-groups} is
23059 @code{nil}. Set it to @code{t} if you want ham found in non-ham (spam
23060 or unclassified) groups to be processed. Normally this is not done,
23061 you are expected instead to send your ham to a ham group and process
23064 @vindex gnus-spam-process-destinations
23065 When you leave a @emph{ham} or @emph{unclassified} group, all
23066 @strong{spam} articles are moved to a location determined by either
23067 the @code{spam-process-destination} group parameter or a match in the
23068 @code{gnus-spam-process-destinations} variable, which is a list of
23069 regular expressions matched with group names (it's easiest to
23070 customize this variable with @kbd{M-x customize-variable @key{RET}
23071 gnus-spam-process-destinations}). Each group name list is a standard
23072 Lisp list, if you prefer to customize the variable manually. If the
23073 @code{spam-process-destination} parameter is not set, the spam
23074 articles are only expired. The group name is fully qualified, meaning
23075 that if you see @samp{nntp:servername} before the group name in the
23076 group buffer then you need it here as well.
23078 If spam can not be moved---because of a read-only backend such as
23079 @acronym{NNTP}, for example, it will be copied.
23081 Note that you can use multiples destinations per group or regular
23082 expression! This enables you to send your spam to multiple @emph{spam
23085 @vindex spam-log-to-registry
23086 The problem with processing ham and spam is that Gnus doesn't track
23087 this processing by default. Enable the @code{spam-log-to-registry}
23088 variable so @code{spam.el} will use @code{gnus-registry.el} to track
23089 what articles have been processed, and avoid processing articles
23090 multiple times. Keep in mind that if you limit the number of registry
23091 entries, this won't work as well as it does without a limit.
23093 @vindex spam-mark-only-unseen-as-spam
23094 Set this variable if you want only unseen articles in spam groups to
23095 be marked as spam. By default, it is set. If you set it to
23096 @code{nil}, unread articles will also be marked as spam.
23098 @vindex spam-mark-ham-unread-before-move-from-spam-group
23099 Set this variable if you want ham to be unmarked before it is moved
23100 out of the spam group. This is very useful when you use something
23101 like the tick mark @samp{!} to mark ham---the article will be placed
23102 in your @code{ham-process-destination}, unmarked as if it came fresh
23103 from the mail server.
23105 @vindex spam-autodetect-recheck-messages
23106 When autodetecting spam, this variable tells @code{spam.el} whether
23107 only unseen articles or all unread articles should be checked for
23108 spam. It is recommended that you leave it off.
23110 @node Spam ELisp Package Configuration Examples
23111 @subsubsection Spam ELisp Package Configuration Examples
23112 @cindex spam filtering
23113 @cindex spam filtering configuration examples
23114 @cindex spam configuration examples
23117 @subsubheading Ted's setup
23119 From Ted Zlatanov <tzz@@lifelogs.com>.
23121 ;; @r{for @code{gnus-registry-split-fancy-with-parent} and spam autodetection}
23122 ;; @r{see @file{gnus-registry.el} for more information}
23123 (gnus-registry-initialize)
23126 ;; @r{I like @kbd{C-s} for marking spam}
23127 (define-key gnus-summary-mode-map "\C-s" 'gnus-summary-mark-as-spam)
23130 spam-log-to-registry t ; @r{for spam autodetection}
23132 spam-use-regex-headers t ; @r{catch X-Spam-Flag (SpamAssassin)}
23133 ;; @r{all groups with @samp{spam} in the name contain spam}
23134 gnus-spam-newsgroup-contents
23135 '(("spam" gnus-group-spam-classification-spam))
23136 ;; @r{see documentation for these}
23137 spam-move-spam-nonspam-groups-only nil
23138 spam-mark-only-unseen-as-spam t
23139 spam-mark-ham-unread-before-move-from-spam-group t
23140 nnimap-split-rule 'nnimap-split-fancy
23141 ;; @r{understand what this does before you copy it to your own setup!}
23142 nnimap-split-fancy '(|
23143 ;; @r{trace references to parents and put in their group}
23144 (: gnus-registry-split-fancy-with-parent)
23145 ;; @r{this will catch server-side SpamAssassin tags}
23146 (: spam-split 'spam-use-regex-headers)
23147 (any "ding" "ding")
23148 ;; @r{note that spam by default will go to @samp{spam}}
23150 ;; @r{default mailbox}
23153 ;; @r{my parameters, set with @kbd{G p}}
23155 ;; @r{all nnml groups, and all nnimap groups except}
23156 ;; @r{@samp{nnimap+mail.lifelogs.com:train} and}
23157 ;; @r{@samp{nnimap+mail.lifelogs.com:spam}: any spam goes to nnimap training,}
23158 ;; @r{because it must have been detected manually}
23160 ((spam-process-destination . "nnimap+mail.lifelogs.com:train"))
23162 ;; @r{all @acronym{NNTP} groups}
23163 ;; @r{autodetect spam with the blacklist and ham with the BBDB}
23164 ((spam-autodetect-methods spam-use-blacklist spam-use-BBDB)
23165 ;; @r{send all spam to the training group}
23166 (spam-process-destination . "nnimap+mail.lifelogs.com:train"))
23168 ;; @r{only some @acronym{NNTP} groups, where I want to autodetect spam}
23169 ((spam-autodetect . t))
23171 ;; @r{my nnimap @samp{nnimap+mail.lifelogs.com:spam} group}
23173 ;; @r{this is a spam group}
23174 ((spam-contents gnus-group-spam-classification-spam)
23176 ;; @r{any spam (which happens when I enter for all unseen messages,}
23177 ;; @r{because of the @code{gnus-spam-newsgroup-contents} setting above), goes to}
23178 ;; @r{@samp{nnimap+mail.lifelogs.com:train} unless I mark it as ham}
23180 (spam-process-destination "nnimap+mail.lifelogs.com:train")
23182 ;; @r{any ham goes to my @samp{nnimap+mail.lifelogs.com:mail} folder, but}
23183 ;; @r{also to my @samp{nnimap+mail.lifelogs.com:trainham} folder for training}
23185 (ham-process-destination "nnimap+mail.lifelogs.com:mail"
23186 "nnimap+mail.lifelogs.com:trainham")
23187 ;; @r{in this group, only @samp{!} marks are ham}
23189 (gnus-ticked-mark))
23190 ;; @r{remembers senders in the blacklist on the way out---this is}
23191 ;; @r{definitely not needed, it just makes me feel better}
23192 (spam-process (gnus-group-spam-exit-processor-blacklist)))
23194 ;; @r{Later, on the @acronym{IMAP} server I use the @samp{train} group for training}
23195 ;; @r{SpamAssassin to recognize spam, and the @samp{trainham} group fora}
23196 ;; @r{recognizing ham---but Gnus has nothing to do with it.}
23200 @subsubheading Using @file{spam.el} on an IMAP server with a statistical filter on the server
23201 From Reiner Steib <reiner.steib@@gmx.de>.
23203 My provider has set up bogofilter (in combination with @acronym{DCC}) on
23204 the mail server (@acronym{IMAP}). Recognized spam goes to
23205 @samp{spam.detected}, the rest goes through the normal filter rules,
23206 i.e. to @samp{some.folder} or to @samp{INBOX}. Training on false
23207 positives or negatives is done by copying or moving the article to
23208 @samp{training.ham} or @samp{training.spam} respectively. A cron job on
23209 the server feeds those to bogofilter with the suitable ham or spam
23210 options and deletes them from the @samp{training.ham} and
23211 @samp{training.spam} folders.
23213 With the following entries in @code{gnus-parameters}, @code{spam.el}
23214 does most of the job for me:
23217 ("nnimap:spam\\.detected"
23218 (gnus-article-sort-functions '(gnus-article-sort-by-chars))
23219 (ham-process-destination "nnimap:INBOX" "nnimap:training.ham")
23220 (spam-contents gnus-group-spam-classification-spam))
23221 ("nnimap:\\(INBOX\\|other-folders\\)"
23222 (spam-process-destination . "nnimap:training.spam")
23223 (spam-contents gnus-group-spam-classification-ham))
23228 @item @b{The Spam folder:}
23230 In the folder @samp{spam.detected}, I have to check for false positives
23231 (i.e. legitimate mails, that were wrongly judged as spam by
23232 bogofilter or DCC).
23234 Because of the @code{gnus-group-spam-classification-spam} entry, all
23235 messages are marked as spam (with @code{$}). When I find a false
23236 positive, I mark the message with some other ham mark (@code{ham-marks},
23237 @ref{Spam ELisp Package Global Variables}). On group exit, those
23238 messages are copied to both groups, @samp{INBOX} (where I want to have
23239 the article) and @samp{training.ham} (for training bogofilter) and
23240 deleted from the @samp{spam.detected} folder.
23242 The @code{gnus-article-sort-by-chars} entry simplifies detection of
23243 false positives for me. I receive lots of worms (sweN, @dots{}), that all
23244 have a similar size. Grouping them by size (i.e. chars) makes finding
23245 other false positives easier. (Of course worms aren't @i{spam}
23246 (@acronym{UCE}, @acronym{UBE}) strictly speaking. Anyhow, bogofilter is
23247 an excellent tool for filtering those unwanted mails for me.)
23249 @item @b{Ham folders:}
23251 In my ham folders, I just hit @kbd{S x}
23252 (@code{gnus-summary-mark-as-spam}) whenever I see an unrecognized spam
23253 mail (false negative). On group exit, those messages are moved to
23254 @samp{training.ham}.
23257 @subsubheading Reporting spam articles in Gmane groups with @code{spam-report.el}
23259 From Reiner Steib <reiner.steib@@gmx.de>.
23261 With following entry in @code{gnus-parameters}, @kbd{S x}
23262 (@code{gnus-summary-mark-as-spam}) marks articles in @code{gmane.*}
23263 groups as spam and reports the to Gmane at group exit:
23267 (spam-process (gnus-group-spam-exit-processor-report-gmane)))
23270 Additionally, I use @code{(setq spam-report-gmane-use-article-number nil)}
23271 because I don't read the groups directly from news.gmane.org, but
23272 through my local news server (leafnode). I.e. the article numbers are
23273 not the same as on news.gmane.org, thus @code{spam-report.el} has to check
23274 the @code{X-Report-Spam} header to find the correct number.
23276 @node Blacklists and Whitelists
23277 @subsubsection Blacklists and Whitelists
23278 @cindex spam filtering
23279 @cindex whitelists, spam filtering
23280 @cindex blacklists, spam filtering
23283 @defvar spam-use-blacklist
23285 Set this variable to @code{t} if you want to use blacklists when
23286 splitting incoming mail. Messages whose senders are in the blacklist
23287 will be sent to the @code{spam-split-group}. This is an explicit
23288 filter, meaning that it acts only on mail senders @emph{declared} to
23293 @defvar spam-use-whitelist
23295 Set this variable to @code{t} if you want to use whitelists when
23296 splitting incoming mail. Messages whose senders are not in the
23297 whitelist will be sent to the next spam-split rule. This is an
23298 explicit filter, meaning that unless someone is in the whitelist, their
23299 messages are not assumed to be spam or ham.
23303 @defvar spam-use-whitelist-exclusive
23305 Set this variable to @code{t} if you want to use whitelists as an
23306 implicit filter, meaning that every message will be considered spam
23307 unless the sender is in the whitelist. Use with care.
23311 @defvar gnus-group-spam-exit-processor-blacklist
23313 Add this symbol to a group's @code{spam-process} parameter by
23314 customizing the group parameters or the
23315 @code{gnus-spam-process-newsgroups} variable. When this symbol is
23316 added to a group's @code{spam-process} parameter, the senders of
23317 spam-marked articles will be added to the blacklist.
23321 Instead of the obsolete
23322 @code{gnus-group-spam-exit-processor-blacklist}, it is recommended
23323 that you use @code{'(spam spam-use-blacklist)}. Everything will work
23324 the same way, we promise.
23328 @defvar gnus-group-ham-exit-processor-whitelist
23330 Add this symbol to a group's @code{spam-process} parameter by
23331 customizing the group parameters or the
23332 @code{gnus-spam-process-newsgroups} variable. When this symbol is
23333 added to a group's @code{spam-process} parameter, the senders of
23334 ham-marked articles in @emph{ham} groups will be added to the
23335 whitelist. Note that this ham processor has no effect in @emph{spam}
23336 or @emph{unclassified} groups.
23340 Instead of the obsolete
23341 @code{gnus-group-ham-exit-processor-whitelist}, it is recommended
23342 that you use @code{'(ham spam-use-whitelist)}. Everything will work
23343 the same way, we promise.
23347 Blacklists are lists of regular expressions matching addresses you
23348 consider to be spam senders. For instance, to block mail from any
23349 sender at @samp{vmadmin.com}, you can put @samp{vmadmin.com} in your
23350 blacklist. You start out with an empty blacklist. Blacklist entries
23351 use the Emacs regular expression syntax.
23353 Conversely, whitelists tell Gnus what addresses are considered
23354 legitimate. All messages from whitelisted addresses are considered
23355 non-spam. Also see @ref{BBDB Whitelists}. Whitelist entries use the
23356 Emacs regular expression syntax.
23358 The blacklist and whitelist file locations can be customized with the
23359 @code{spam-directory} variable (@file{~/News/spam} by default), or
23360 the @code{spam-whitelist} and @code{spam-blacklist} variables
23361 directly. The whitelist and blacklist files will by default be in the
23362 @code{spam-directory} directory, named @file{whitelist} and
23363 @file{blacklist} respectively.
23365 @node BBDB Whitelists
23366 @subsubsection BBDB Whitelists
23367 @cindex spam filtering
23368 @cindex BBDB whitelists, spam filtering
23369 @cindex BBDB, spam filtering
23372 @defvar spam-use-BBDB
23374 Analogous to @code{spam-use-whitelist} (@pxref{Blacklists and
23375 Whitelists}), but uses the BBDB as the source of whitelisted
23376 addresses, without regular expressions. You must have the BBDB loaded
23377 for @code{spam-use-BBDB} to work properly. Messages whose senders are
23378 not in the BBDB will be sent to the next spam-split rule. This is an
23379 explicit filter, meaning that unless someone is in the BBDB, their
23380 messages are not assumed to be spam or ham.
23384 @defvar spam-use-BBDB-exclusive
23386 Set this variable to @code{t} if you want to use the BBDB as an
23387 implicit filter, meaning that every message will be considered spam
23388 unless the sender is in the BBDB. Use with care. Only sender
23389 addresses in the BBDB will be allowed through; all others will be
23390 classified as spammers.
23394 @defvar gnus-group-ham-exit-processor-BBDB
23396 Add this symbol to a group's @code{spam-process} parameter by
23397 customizing the group parameters or the
23398 @code{gnus-spam-process-newsgroups} variable. When this symbol is
23399 added to a group's @code{spam-process} parameter, the senders of
23400 ham-marked articles in @emph{ham} groups will be added to the
23401 BBDB. Note that this ham processor has no effect in @emph{spam}
23402 or @emph{unclassified} groups.
23406 Instead of the obsolete
23407 @code{gnus-group-ham-exit-processor-BBDB}, it is recommended
23408 that you use @code{'(ham spam-use-BBDB)}. Everything will work
23409 the same way, we promise.
23413 @node Gmane Spam Reporting
23414 @subsubsection Gmane Spam Reporting
23415 @cindex spam reporting
23416 @cindex Gmane, spam reporting
23417 @cindex Gmane, spam reporting
23420 @defvar gnus-group-spam-exit-processor-report-gmane
23422 Add this symbol to a group's @code{spam-process} parameter by
23423 customizing the group parameters or the
23424 @code{gnus-spam-process-newsgroups} variable. When this symbol is
23425 added to a group's @code{spam-process} parameter, the spam-marked
23426 articles groups will be reported to the Gmane administrators via a
23429 Gmane can be found at @uref{http://gmane.org}.
23433 Instead of the obsolete
23434 @code{gnus-group-spam-exit-processor-report-gmane}, it is recommended
23435 that you use @code{'(spam spam-use-gmane)}. Everything will work the
23436 same way, we promise.
23440 @defvar spam-report-gmane-use-article-number
23442 This variable is @code{t} by default. Set it to @code{nil} if you are
23443 running your own news server, for instance, and the local article
23444 numbers don't correspond to the Gmane article numbers. When
23445 @code{spam-report-gmane-use-article-number} is @code{nil},
23446 @code{spam-report.el} will use the @code{X-Report-Spam} header that
23451 @node Anti-spam Hashcash Payments
23452 @subsubsection Anti-spam Hashcash Payments
23453 @cindex spam filtering
23454 @cindex hashcash, spam filtering
23457 @defvar spam-use-hashcash
23459 Similar to @code{spam-use-whitelist} (@pxref{Blacklists and
23460 Whitelists}), but uses hashcash tokens for whitelisting messages
23461 instead of the sender address. You must have the @code{hashcash.el}
23462 package loaded for @code{spam-use-hashcash} to work properly.
23463 Messages without a hashcash payment token will be sent to the next
23464 spam-split rule. This is an explicit filter, meaning that unless a
23465 hashcash token is found, the messages are not assumed to be spam or
23471 @subsubsection Blackholes
23472 @cindex spam filtering
23473 @cindex blackholes, spam filtering
23476 @defvar spam-use-blackholes
23478 This option is disabled by default. You can let Gnus consult the
23479 blackhole-type distributed spam processing systems (DCC, for instance)
23480 when you set this option. The variable @code{spam-blackhole-servers}
23481 holds the list of blackhole servers Gnus will consult. The current
23482 list is fairly comprehensive, but make sure to let us know if it
23483 contains outdated servers.
23485 The blackhole check uses the @code{dig.el} package, but you can tell
23486 @file{spam.el} to use @code{dns.el} instead for better performance if
23487 you set @code{spam-use-dig} to @code{nil}. It is not recommended at
23488 this time to set @code{spam-use-dig} to @code{nil} despite the
23489 possible performance improvements, because some users may be unable to
23490 use it, but you can try it and see if it works for you.
23494 @defvar spam-blackhole-servers
23496 The list of servers to consult for blackhole checks.
23500 @defvar spam-blackhole-good-server-regex
23502 A regular expression for IPs that should not be checked against the
23503 blackhole server list. When set to @code{nil}, it has no effect.
23507 @defvar spam-use-dig
23509 Use the @code{dig.el} package instead of the @code{dns.el} package.
23510 The default setting of @code{t} is recommended.
23514 Blackhole checks are done only on incoming mail. There is no spam or
23515 ham processor for blackholes.
23517 @node Regular Expressions Header Matching
23518 @subsubsection Regular Expressions Header Matching
23519 @cindex spam filtering
23520 @cindex regular expressions header matching, spam filtering
23523 @defvar spam-use-regex-headers
23525 This option is disabled by default. You can let Gnus check the
23526 message headers against lists of regular expressions when you set this
23527 option. The variables @code{spam-regex-headers-spam} and
23528 @code{spam-regex-headers-ham} hold the list of regular expressions.
23529 Gnus will check against the message headers to determine if the
23530 message is spam or ham, respectively.
23534 @defvar spam-regex-headers-spam
23536 The list of regular expressions that, when matched in the headers of
23537 the message, positively identify it as spam.
23541 @defvar spam-regex-headers-ham
23543 The list of regular expressions that, when matched in the headers of
23544 the message, positively identify it as ham.
23548 Regular expression header checks are done only on incoming mail.
23549 There is no specific spam or ham processor for regular expressions.
23552 @subsubsection Bogofilter
23553 @cindex spam filtering
23554 @cindex bogofilter, spam filtering
23557 @defvar spam-use-bogofilter
23559 Set this variable if you want @code{spam-split} to use Eric Raymond's
23562 With a minimum of care for associating the @samp{$} mark for spam
23563 articles only, Bogofilter training all gets fairly automatic. You
23564 should do this until you get a few hundreds of articles in each
23565 category, spam or not. The command @kbd{S t} in summary mode, either
23566 for debugging or for curiosity, shows the @emph{spamicity} score of
23567 the current article (between 0.0 and 1.0).
23569 Bogofilter determines if a message is spam based on a specific
23570 threshold. That threshold can be customized, consult the Bogofilter
23573 If the @code{bogofilter} executable is not in your path, Bogofilter
23574 processing will be turned off.
23576 You should not enable this if you use @code{spam-use-bogofilter-headers}.
23580 @defvar spam-use-bogofilter-headers
23582 Set this variable if you want @code{spam-split} to use Eric Raymond's
23583 speedy Bogofilter, looking only at the message headers. It works
23584 similarly to @code{spam-use-bogofilter}, but the @code{X-Bogosity} header
23585 must be in the message already. Normally you would do this with a
23586 procmail recipe or something similar; consult the Bogofilter
23587 installation documents for details.
23589 You should not enable this if you use @code{spam-use-bogofilter}.
23593 @defvar gnus-group-spam-exit-processor-bogofilter
23594 Add this symbol to a group's @code{spam-process} parameter by
23595 customizing the group parameters or the
23596 @code{gnus-spam-process-newsgroups} variable. When this symbol is
23597 added to a group's @code{spam-process} parameter, spam-marked articles
23598 will be added to the Bogofilter spam database.
23602 Instead of the obsolete
23603 @code{gnus-group-spam-exit-processor-bogofilter}, it is recommended
23604 that you use @code{'(spam spam-use-bogofilter)}. Everything will work
23605 the same way, we promise.
23608 @defvar gnus-group-ham-exit-processor-bogofilter
23609 Add this symbol to a group's @code{spam-process} parameter by
23610 customizing the group parameters or the
23611 @code{gnus-spam-process-newsgroups} variable. When this symbol is
23612 added to a group's @code{spam-process} parameter, the ham-marked
23613 articles in @emph{ham} groups will be added to the Bogofilter database
23614 of non-spam messages. Note that this ham processor has no effect in
23615 @emph{spam} or @emph{unclassified} groups.
23619 Instead of the obsolete
23620 @code{gnus-group-ham-exit-processor-bogofilter}, it is recommended
23621 that you use @code{'(ham spam-use-bogofilter)}. Everything will work
23622 the same way, we promise.
23625 @defvar spam-bogofilter-database-directory
23627 This is the directory where Bogofilter will store its databases. It
23628 is not specified by default, so Bogofilter will use its own default
23629 database directory.
23633 The Bogofilter mail classifier is similar to @command{ifile} in intent and
23634 purpose. A ham and a spam processor are provided, plus the
23635 @code{spam-use-bogofilter} and @code{spam-use-bogofilter-headers}
23636 variables to indicate to spam-split that Bogofilter should either be
23637 used, or has already been used on the article. The 0.9.2.1 version of
23638 Bogofilter was used to test this functionality.
23640 @node ifile spam filtering
23641 @subsubsection ifile spam filtering
23642 @cindex spam filtering
23643 @cindex ifile, spam filtering
23646 @defvar spam-use-ifile
23648 Enable this variable if you want @code{spam-split} to use @command{ifile}, a
23649 statistical analyzer similar to Bogofilter.
23653 @defvar spam-ifile-all-categories
23655 Enable this variable if you want @code{spam-use-ifile} to give you all
23656 the ifile categories, not just spam/non-spam. If you use this, make
23657 sure you train ifile as described in its documentation.
23661 @defvar spam-ifile-spam-category
23663 This is the category of spam messages as far as ifile is concerned.
23664 The actual string used is irrelevant, but you probably want to leave
23665 the default value of @samp{spam}.
23668 @defvar spam-ifile-database-path
23670 This is the filename for the ifile database. It is not specified by
23671 default, so ifile will use its own default database name.
23675 The ifile mail classifier is similar to Bogofilter in intent and
23676 purpose. A ham and a spam processor are provided, plus the
23677 @code{spam-use-ifile} variable to indicate to spam-split that ifile
23678 should be used. The 1.2.1 version of ifile was used to test this
23681 @node spam-stat spam filtering
23682 @subsubsection spam-stat spam filtering
23683 @cindex spam filtering
23684 @cindex spam-stat, spam filtering
23688 @xref{Filtering Spam Using Statistics with spam-stat}.
23690 @defvar spam-use-stat
23692 Enable this variable if you want @code{spam-split} to use
23693 spam-stat.el, an Emacs Lisp statistical analyzer.
23697 @defvar gnus-group-spam-exit-processor-stat
23698 Add this symbol to a group's @code{spam-process} parameter by
23699 customizing the group parameters or the
23700 @code{gnus-spam-process-newsgroups} variable. When this symbol is
23701 added to a group's @code{spam-process} parameter, the spam-marked
23702 articles will be added to the spam-stat database of spam messages.
23706 Instead of the obsolete
23707 @code{gnus-group-spam-exit-processor-stat}, it is recommended
23708 that you use @code{'(spam spam-use-stat)}. Everything will work
23709 the same way, we promise.
23712 @defvar gnus-group-ham-exit-processor-stat
23713 Add this symbol to a group's @code{spam-process} parameter by
23714 customizing the group parameters or the
23715 @code{gnus-spam-process-newsgroups} variable. When this symbol is
23716 added to a group's @code{spam-process} parameter, the ham-marked
23717 articles in @emph{ham} groups will be added to the spam-stat database
23718 of non-spam messages. Note that this ham processor has no effect in
23719 @emph{spam} or @emph{unclassified} groups.
23723 Instead of the obsolete
23724 @code{gnus-group-ham-exit-processor-stat}, it is recommended
23725 that you use @code{'(ham spam-use-stat)}. Everything will work
23726 the same way, we promise.
23729 This enables @file{spam.el} to cooperate with @file{spam-stat.el}.
23730 @file{spam-stat.el} provides an internal (Lisp-only) spam database,
23731 which unlike ifile or Bogofilter does not require external programs.
23732 A spam and a ham processor, and the @code{spam-use-stat} variable for
23733 @code{spam-split} are provided.
23736 @subsubsection Using SpamOracle with Gnus
23737 @cindex spam filtering
23741 An easy way to filter out spam is to use SpamOracle. SpamOracle is an
23742 statistical mail filtering tool written by Xavier Leroy and needs to be
23743 installed separately.
23745 There are several ways to use SpamOracle with Gnus. In all cases, your
23746 mail is piped through SpamOracle in its @emph{mark} mode. SpamOracle will
23747 then enter an @samp{X-Spam} header indicating whether it regards the
23748 mail as a spam mail or not.
23750 One possibility is to run SpamOracle as a @code{:prescript} from the
23751 @xref{Mail Source Specifiers}, (@pxref{SpamAssassin}). This method has
23752 the advantage that the user can see the @emph{X-Spam} headers.
23754 The easiest method is to make @file{spam.el} (@pxref{Filtering Spam
23755 Using The Spam ELisp Package}) call SpamOracle.
23757 @vindex spam-use-spamoracle
23758 To enable SpamOracle usage by @file{spam.el}, set the variable
23759 @code{spam-use-spamoracle} to @code{t} and configure the
23760 @code{nnmail-split-fancy} or @code{nnimap-split-fancy} as described in
23761 the section @xref{Filtering Spam Using The Spam ELisp Package}. In
23762 this example the @samp{INBOX} of an nnimap server is filtered using
23763 SpamOracle. Mails recognized as spam mails will be moved to
23764 @code{spam-split-group}, @samp{Junk} in this case. Ham messages stay
23768 (setq spam-use-spamoracle t
23769 spam-split-group "Junk"
23770 nnimap-split-inbox '("INBOX")
23771 nnimap-split-rule 'nnimap-split-fancy
23772 nnimap-split-fancy '(| (: spam-split) "INBOX"))
23775 @defvar spam-use-spamoracle
23776 Set to @code{t} if you want Gnus to enable spam filtering using
23780 @defvar spam-spamoracle-binary
23781 Gnus uses the SpamOracle binary called @file{spamoracle} found in the
23782 user's PATH. Using the variable @code{spam-spamoracle-binary}, this
23786 @defvar spam-spamoracle-database
23787 By default, SpamOracle uses the file @file{~/.spamoracle.db} as a database to
23788 store its analyses. This is controlled by the variable
23789 @code{spam-spamoracle-database} which defaults to @code{nil}. That means
23790 the default SpamOracle database will be used. In case you want your
23791 database to live somewhere special, set
23792 @code{spam-spamoracle-database} to this path.
23795 SpamOracle employs a statistical algorithm to determine whether a
23796 message is spam or ham. In order to get good results, meaning few
23797 false hits or misses, SpamOracle needs training. SpamOracle learns the
23798 characteristics of your spam mails. Using the @emph{add} mode
23799 (training mode) one has to feed good (ham) and spam mails to
23800 SpamOracle. This can be done by pressing @kbd{|} in the Summary buffer
23801 and pipe the mail to a SpamOracle process or using @file{spam.el}'s
23802 spam- and ham-processors, which is much more convenient. For a
23803 detailed description of spam- and ham-processors, @xref{Filtering Spam
23804 Using The Spam ELisp Package}.
23806 @defvar gnus-group-spam-exit-processor-spamoracle
23807 Add this symbol to a group's @code{spam-process} parameter by
23808 customizing the group parameter or the
23809 @code{gnus-spam-process-newsgroups} variable. When this symbol is added
23810 to a group's @code{spam-process} parameter, spam-marked articles will be
23811 sent to SpamOracle as spam samples.
23815 Instead of the obsolete
23816 @code{gnus-group-spam-exit-processor-spamoracle}, it is recommended
23817 that you use @code{'(spam spam-use-spamoracle)}. Everything will work
23818 the same way, we promise.
23821 @defvar gnus-group-ham-exit-processor-spamoracle
23822 Add this symbol to a group's @code{spam-process} parameter by
23823 customizing the group parameter or the
23824 @code{gnus-spam-process-newsgroups} variable. When this symbol is added
23825 to a group's @code{spam-process} parameter, the ham-marked articles in
23826 @emph{ham} groups will be sent to the SpamOracle as samples of ham
23827 messages. Note that this ham processor has no effect in @emph{spam} or
23828 @emph{unclassified} groups.
23832 Instead of the obsolete
23833 @code{gnus-group-ham-exit-processor-spamoracle}, it is recommended
23834 that you use @code{'(ham spam-use-spamoracle)}. Everything will work
23835 the same way, we promise.
23838 @emph{Example:} These are the Group Parameters of a group that has been
23839 classified as a ham group, meaning that it should only contain ham
23842 ((spam-contents gnus-group-spam-classification-ham)
23843 (spam-process ((ham spam-use-spamoracle)
23844 (spam spam-use-spamoracle))))
23846 For this group the @code{spam-use-spamoracle} is installed for both
23847 ham and spam processing. If the group contains spam message
23848 (e.g. because SpamOracle has not had enough sample messages yet) and
23849 the user marks some messages as spam messages, these messages will be
23850 processed by SpamOracle. The processor sends the messages to
23851 SpamOracle as new samples for spam.
23853 @node Extending the Spam ELisp package
23854 @subsubsection Extending the Spam ELisp package
23855 @cindex spam filtering
23856 @cindex spam elisp package, extending
23857 @cindex extending the spam elisp package
23859 Say you want to add a new back end called blackbox. For filtering
23860 incoming mail, provide the following:
23868 (defvar spam-use-blackbox nil
23869 "True if blackbox should be used.")
23874 (spam-use-blackbox . spam-check-blackbox)
23876 to @code{spam-list-of-checks}.
23880 (gnus-group-ham-exit-processor-blackbox ham spam-use-blackbox)
23881 (gnus-group-spam-exit-processor-blackbox spam spam-use-blackbox)
23884 to @code{spam-list-of-processors}.
23888 (spam-use-blackbox spam-blackbox-register-routine
23890 spam-blackbox-unregister-routine
23894 to @code{spam-registration-functions}. Write the register/unregister
23895 routines using the bogofilter register/unregister routines as a
23896 start, or other restister/unregister routines more appropriate to
23902 Write the @code{spam-check-blackbox} function. It should return
23903 @samp{nil} or @code{spam-split-group}, observing the other
23904 conventions. See the existing @code{spam-check-*} functions for
23905 examples of what you can do, and stick to the template unless you
23906 fully understand the reasons why you aren't.
23908 Make sure to add @code{spam-use-blackbox} to
23909 @code{spam-list-of-statistical-checks} if Blackbox is a statistical
23910 mail analyzer that needs the full message body to operate.
23914 For processing spam and ham messages, provide the following:
23921 Note you don't have to provide a spam or a ham processor. Only
23922 provide them if Blackbox supports spam or ham processing.
23924 Also, ham and spam processors are being phased out as single
23925 variables. Instead the form @code{'(spam spam-use-blackbox)} or
23926 @code{'(ham spam-use-blackbox)} is favored. For now, spam/ham
23927 processor variables are still around but they won't be for long.
23930 (defvar gnus-group-spam-exit-processor-blackbox "blackbox-spam"
23931 "The Blackbox summary exit spam processor.
23932 Only applicable to spam groups.")
23934 (defvar gnus-group-ham-exit-processor-blackbox "blackbox-ham"
23935 "The whitelist summary exit ham processor.
23936 Only applicable to non-spam (unclassified and ham) groups.")
23945 (const :tag "Spam: Blackbox" (spam spam-use-blackbox))
23946 (const :tag "Ham: Blackbox" (ham spam-use-blackbox))
23948 to the @code{spam-process} group parameter in @code{gnus.el}. Make
23949 sure you do it twice, once for the parameter and once for the
23950 variable customization.
23954 (variable-item spam-use-blackbox)
23956 to the @code{spam-autodetect-methods} group parameter in
23962 @node Filtering Spam Using Statistics with spam-stat
23963 @subsection Filtering Spam Using Statistics with spam-stat
23964 @cindex Paul Graham
23965 @cindex Graham, Paul
23966 @cindex naive Bayesian spam filtering
23967 @cindex Bayesian spam filtering, naive
23968 @cindex spam filtering, naive Bayesian
23970 Paul Graham has written an excellent essay about spam filtering using
23971 statistics: @uref{http://www.paulgraham.com/spam.html,A Plan for
23972 Spam}. In it he describes the inherent deficiency of rule-based
23973 filtering as used by SpamAssassin, for example: Somebody has to write
23974 the rules, and everybody else has to install these rules. You are
23975 always late. It would be much better, he argues, to filter mail based
23976 on whether it somehow resembles spam or non-spam. One way to measure
23977 this is word distribution. He then goes on to describe a solution
23978 that checks whether a new mail resembles any of your other spam mails
23981 The basic idea is this: Create a two collections of your mail, one
23982 with spam, one with non-spam. Count how often each word appears in
23983 either collection, weight this by the total number of mails in the
23984 collections, and store this information in a dictionary. For every
23985 word in a new mail, determine its probability to belong to a spam or a
23986 non-spam mail. Use the 15 most conspicuous words, compute the total
23987 probability of the mail being spam. If this probability is higher
23988 than a certain threshold, the mail is considered to be spam.
23990 Gnus supports this kind of filtering. But it needs some setting up.
23991 First, you need two collections of your mail, one with spam, one with
23992 non-spam. Then you need to create a dictionary using these two
23993 collections, and save it. And last but not least, you need to use
23994 this dictionary in your fancy mail splitting rules.
23997 * Creating a spam-stat dictionary::
23998 * Splitting mail using spam-stat::
23999 * Low-level interface to the spam-stat dictionary::
24002 @node Creating a spam-stat dictionary
24003 @subsubsection Creating a spam-stat dictionary
24005 Before you can begin to filter spam based on statistics, you must
24006 create these statistics based on two mail collections, one with spam,
24007 one with non-spam. These statistics are then stored in a dictionary
24008 for later use. In order for these statistics to be meaningful, you
24009 need several hundred emails in both collections.
24011 Gnus currently supports only the nnml back end for automated dictionary
24012 creation. The nnml back end stores all mails in a directory, one file
24013 per mail. Use the following:
24015 @defun spam-stat-process-spam-directory
24016 Create spam statistics for every file in this directory. Every file
24017 is treated as one spam mail.
24020 @defun spam-stat-process-non-spam-directory
24021 Create non-spam statistics for every file in this directory. Every
24022 file is treated as one non-spam mail.
24025 Usually you would call @code{spam-stat-process-spam-directory} on a
24026 directory such as @file{~/Mail/mail/spam} (this usually corresponds
24027 the the group @samp{nnml:mail.spam}), and you would call
24028 @code{spam-stat-process-non-spam-directory} on a directory such as
24029 @file{~/Mail/mail/misc} (this usually corresponds the the group
24030 @samp{nnml:mail.misc}).
24032 When you are using @acronym{IMAP}, you won't have the mails available
24033 locally, so that will not work. One solution is to use the Gnus Agent
24034 to cache the articles. Then you can use directories such as
24035 @file{"~/News/agent/nnimap/mail.yourisp.com/personal_spam"} for
24036 @code{spam-stat-process-spam-directory}. @xref{Agent as Cache}.
24039 This variable holds the hash-table with all the statistics---the
24040 dictionary we have been talking about. For every word in either
24041 collection, this hash-table stores a vector describing how often the
24042 word appeared in spam and often it appeared in non-spam mails.
24045 If you want to regenerate the statistics from scratch, you need to
24046 reset the dictionary.
24048 @defun spam-stat-reset
24049 Reset the @code{spam-stat} hash-table, deleting all the statistics.
24052 When you are done, you must save the dictionary. The dictionary may
24053 be rather large. If you will not update the dictionary incrementally
24054 (instead, you will recreate it once a month, for example), then you
24055 can reduce the size of the dictionary by deleting all words that did
24056 not appear often enough or that do not clearly belong to only spam or
24057 only non-spam mails.
24059 @defun spam-stat-reduce-size
24060 Reduce the size of the dictionary. Use this only if you do not want
24061 to update the dictionary incrementally.
24064 @defun spam-stat-save
24065 Save the dictionary.
24068 @defvar spam-stat-file
24069 The filename used to store the dictionary. This defaults to
24070 @file{~/.spam-stat.el}.
24073 @node Splitting mail using spam-stat
24074 @subsubsection Splitting mail using spam-stat
24076 In order to use @code{spam-stat} to split your mail, you need to add the
24077 following to your @file{~/.gnus.el} file:
24080 (require 'spam-stat)
24084 This will load the necessary Gnus code, and the dictionary you
24087 Next, you need to adapt your fancy splitting rules: You need to
24088 determine how to use @code{spam-stat}. The following examples are for
24089 the nnml back end. Using the nnimap back end works just as well. Just
24090 use @code{nnimap-split-fancy} instead of @code{nnmail-split-fancy}.
24092 In the simplest case, you only have two groups, @samp{mail.misc} and
24093 @samp{mail.spam}. The following expression says that mail is either
24094 spam or it should go into @samp{mail.misc}. If it is spam, then
24095 @code{spam-stat-split-fancy} will return @samp{mail.spam}.
24098 (setq nnmail-split-fancy
24099 `(| (: spam-stat-split-fancy)
24103 @defvar spam-stat-split-fancy-spam-group
24104 The group to use for spam. Default is @samp{mail.spam}.
24107 If you also filter mail with specific subjects into other groups, use
24108 the following expression. Only mails not matching the regular
24109 expression are considered potential spam.
24112 (setq nnmail-split-fancy
24113 `(| ("Subject" "\\bspam-stat\\b" "mail.emacs")
24114 (: spam-stat-split-fancy)
24118 If you want to filter for spam first, then you must be careful when
24119 creating the dictionary. Note that @code{spam-stat-split-fancy} must
24120 consider both mails in @samp{mail.emacs} and in @samp{mail.misc} as
24121 non-spam, therefore both should be in your collection of non-spam
24122 mails, when creating the dictionary!
24125 (setq nnmail-split-fancy
24126 `(| (: spam-stat-split-fancy)
24127 ("Subject" "\\bspam-stat\\b" "mail.emacs")
24131 You can combine this with traditional filtering. Here, we move all
24132 HTML-only mails into the @samp{mail.spam.filtered} group. Note that since
24133 @code{spam-stat-split-fancy} will never see them, the mails in
24134 @samp{mail.spam.filtered} should be neither in your collection of spam mails,
24135 nor in your collection of non-spam mails, when creating the
24139 (setq nnmail-split-fancy
24140 `(| ("Content-Type" "text/html" "mail.spam.filtered")
24141 (: spam-stat-split-fancy)
24142 ("Subject" "\\bspam-stat\\b" "mail.emacs")
24147 @node Low-level interface to the spam-stat dictionary
24148 @subsubsection Low-level interface to the spam-stat dictionary
24150 The main interface to using @code{spam-stat}, are the following functions:
24152 @defun spam-stat-buffer-is-spam
24153 Called in a buffer, that buffer is considered to be a new spam mail.
24154 Use this for new mail that has not been processed before.
24157 @defun spam-stat-buffer-is-no-spam
24158 Called in a buffer, that buffer is considered to be a new non-spam
24159 mail. Use this for new mail that has not been processed before.
24162 @defun spam-stat-buffer-change-to-spam
24163 Called in a buffer, that buffer is no longer considered to be normal
24164 mail but spam. Use this to change the status of a mail that has
24165 already been processed as non-spam.
24168 @defun spam-stat-buffer-change-to-non-spam
24169 Called in a buffer, that buffer is no longer considered to be spam but
24170 normal mail. Use this to change the status of a mail that has already
24171 been processed as spam.
24174 @defun spam-stat-save
24175 Save the hash table to the file. The filename used is stored in the
24176 variable @code{spam-stat-file}.
24179 @defun spam-stat-load
24180 Load the hash table from a file. The filename used is stored in the
24181 variable @code{spam-stat-file}.
24184 @defun spam-stat-score-word
24185 Return the spam score for a word.
24188 @defun spam-stat-score-buffer
24189 Return the spam score for a buffer.
24192 @defun spam-stat-split-fancy
24193 Use this function for fancy mail splitting. Add the rule @samp{(:
24194 spam-stat-split-fancy)} to @code{nnmail-split-fancy}
24197 Make sure you load the dictionary before using it. This requires the
24198 following in your @file{~/.gnus.el} file:
24201 (require 'spam-stat)
24205 Typical test will involve calls to the following functions:
24208 Reset: (setq spam-stat (make-hash-table :test 'equal))
24209 Learn spam: (spam-stat-process-spam-directory "~/Mail/mail/spam")
24210 Learn non-spam: (spam-stat-process-non-spam-directory "~/Mail/mail/misc")
24211 Save table: (spam-stat-save)
24212 File size: (nth 7 (file-attributes spam-stat-file))
24213 Number of words: (hash-table-count spam-stat)
24214 Test spam: (spam-stat-test-directory "~/Mail/mail/spam")
24215 Test non-spam: (spam-stat-test-directory "~/Mail/mail/misc")
24216 Reduce table size: (spam-stat-reduce-size)
24217 Save table: (spam-stat-save)
24218 File size: (nth 7 (file-attributes spam-stat-file))
24219 Number of words: (hash-table-count spam-stat)
24220 Test spam: (spam-stat-test-directory "~/Mail/mail/spam")
24221 Test non-spam: (spam-stat-test-directory "~/Mail/mail/misc")
24224 Here is how you would create your dictionary:
24227 Reset: (setq spam-stat (make-hash-table :test 'equal))
24228 Learn spam: (spam-stat-process-spam-directory "~/Mail/mail/spam")
24229 Learn non-spam: (spam-stat-process-non-spam-directory "~/Mail/mail/misc")
24230 Repeat for any other non-spam group you need...
24231 Reduce table size: (spam-stat-reduce-size)
24232 Save table: (spam-stat-save)
24236 @section Interaction with other modes
24241 @code{gnus-dired-minor-mode} provided some useful functions for dired
24242 buffers. It is enabled with
24244 (add-hook 'dired-mode-hook 'turn-on-gnus-dired-mode)
24249 @findex gnus-dired-attach
24250 Send dired's marked files as an attachment (@code{gnus-dired-attach}).
24251 You will be prompted for a message buffer.
24254 @findex gnus-dired-find-file-mailcap
24255 Visit a file according to the appropriate mailcap entry
24256 (@code{gnus-dired-find-file-mailcap}). With prefix, open file in a new
24260 @findex gnus-dired-print
24261 Print file according to the mailcap entry (@code{gnus-dired-print}). If
24262 there is no print command, print in a PostScript image.
24265 @node Various Various
24266 @section Various Various
24272 @item gnus-home-directory
24273 @vindex gnus-home-directory
24274 All Gnus file and directory variables will be initialized from this
24275 variable, which defaults to @file{~/}.
24277 @item gnus-directory
24278 @vindex gnus-directory
24279 Most Gnus storage file and directory variables will be initialized from
24280 this variable, which defaults to the @env{SAVEDIR} environment
24281 variable, or @file{~/News/} if that variable isn't set.
24283 Note that Gnus is mostly loaded when the @file{~/.gnus.el} file is read.
24284 This means that other directory variables that are initialized from this
24285 variable won't be set properly if you set this variable in
24286 @file{~/.gnus.el}. Set this variable in @file{.emacs} instead.
24288 @item gnus-default-directory
24289 @vindex gnus-default-directory
24290 Not related to the above variable at all---this variable says what the
24291 default directory of all Gnus buffers should be. If you issue commands
24292 like @kbd{C-x C-f}, the prompt you'll get starts in the current buffer's
24293 default directory. If this variable is @code{nil} (which is the
24294 default), the default directory will be the default directory of the
24295 buffer you were in when you started Gnus.
24298 @vindex gnus-verbose
24299 This variable is an integer between zero and ten. The higher the value,
24300 the more messages will be displayed. If this variable is zero, Gnus
24301 will never flash any messages, if it is seven (which is the default),
24302 most important messages will be shown, and if it is ten, Gnus won't ever
24303 shut up, but will flash so many messages it will make your head swim.
24305 @item gnus-verbose-backends
24306 @vindex gnus-verbose-backends
24307 This variable works the same way as @code{gnus-verbose}, but it applies
24308 to the Gnus back ends instead of Gnus proper.
24310 @item nnheader-max-head-length
24311 @vindex nnheader-max-head-length
24312 When the back ends read straight heads of articles, they all try to read
24313 as little as possible. This variable (default 4096) specifies
24314 the absolute max length the back ends will try to read before giving up
24315 on finding a separator line between the head and the body. If this
24316 variable is @code{nil}, there is no upper read bound. If it is
24317 @code{t}, the back ends won't try to read the articles piece by piece,
24318 but read the entire articles. This makes sense with some versions of
24319 @code{ange-ftp} or @code{efs}.
24321 @item nnheader-head-chop-length
24322 @vindex nnheader-head-chop-length
24323 This variable (default 2048) says how big a piece of each article to
24324 read when doing the operation described above.
24326 @item nnheader-file-name-translation-alist
24327 @vindex nnheader-file-name-translation-alist
24329 @cindex invalid characters in file names
24330 @cindex characters in file names
24331 This is an alist that says how to translate characters in file names.
24332 For instance, if @samp{:} is invalid as a file character in file names
24333 on your system (you OS/2 user you), you could say something like:
24337 (setq nnheader-file-name-translation-alist
24342 In fact, this is the default value for this variable on OS/2 and MS
24343 Windows (phooey) systems.
24345 @item gnus-hidden-properties
24346 @vindex gnus-hidden-properties
24347 This is a list of properties to use to hide ``invisible'' text. It is
24348 @code{(invisible t intangible t)} by default on most systems, which
24349 makes invisible text invisible and intangible.
24351 @item gnus-parse-headers-hook
24352 @vindex gnus-parse-headers-hook
24353 A hook called before parsing headers. It can be used, for instance, to
24354 gather statistics on the headers fetched, or perhaps you'd like to prune
24355 some headers. I don't see why you'd want that, though.
24357 @item gnus-shell-command-separator
24358 @vindex gnus-shell-command-separator
24359 String used to separate two shell commands. The default is @samp{;}.
24361 @item gnus-invalid-group-regexp
24362 @vindex gnus-invalid-group-regexp
24364 Regexp to match ``invalid'' group names when querying user for a group
24365 name. The default value catches some @strong{really} invalid group
24366 names who could possibly mess up Gnus internally (like allowing
24367 @samp{:} in a group name, which is normally used to delimit method and
24370 @acronym{IMAP} users might want to allow @samp{/} in group names though.
24378 Well, that's the manual---you can get on with your life now. Keep in
24379 touch. Say hello to your cats from me.
24381 My @strong{ghod}---I just can't stand goodbyes. Sniffle.
24383 Ol' Charles Reznikoff said it pretty well, so I leave the floor to him:
24389 Not because of victories @*
24392 but for the common sunshine,@*
24394 the largess of the spring.
24398 but for the day's work done@*
24399 as well as I was able;@*
24400 not for a seat upon the dais@*
24401 but at the common table.@*
24406 @chapter Appendices
24409 * XEmacs:: Requirements for installing under XEmacs.
24410 * History:: How Gnus got where it is today.
24411 * On Writing Manuals:: Why this is not a beginner's guide.
24412 * Terminology:: We use really difficult, like, words here.
24413 * Customization:: Tailoring Gnus to your needs.
24414 * Troubleshooting:: What you might try if things do not work.
24415 * Gnus Reference Guide:: Rilly, rilly technical stuff.
24416 * Emacs for Heathens:: A short introduction to Emacsian terms.
24417 * Frequently Asked Questions:: The Gnus FAQ
24424 @cindex installing under XEmacs
24426 XEmacs is distributed as a collection of packages. You should install
24427 whatever packages the Gnus XEmacs package requires. The current
24428 requirements are @samp{gnus}, @samp{mail-lib}, @samp{xemacs-base},
24429 @samp{eterm}, @samp{sh-script}, @samp{net-utils}, @samp{os-utils},
24430 @samp{dired}, @samp{mh-e}, @samp{sieve}, @samp{ps-print}, @samp{W3},
24431 @samp{pgg}, @samp{mailcrypt}, @samp{ecrypto}, and @samp{sasl}.
24438 @sc{gnus} was written by Masanobu @sc{Umeda}. When autumn crept up in
24439 '94, Lars Magne Ingebrigtsen grew bored and decided to rewrite Gnus.
24441 If you want to investigate the person responsible for this outrage,
24442 you can point your (feh!) web browser to
24443 @uref{http://quimby.gnus.org/}. This is also the primary
24444 distribution point for the new and spiffy versions of Gnus, and is
24445 known as The Site That Destroys Newsrcs And Drives People Mad.
24447 During the first extended alpha period of development, the new Gnus was
24448 called ``(ding) Gnus''. @dfn{(ding)} is, of course, short for
24449 @dfn{ding is not Gnus}, which is a total and utter lie, but who cares?
24450 (Besides, the ``Gnus'' in this abbreviation should probably be
24451 pronounced ``news'' as @sc{Umeda} intended, which makes it a more
24452 appropriate name, don't you think?)
24454 In any case, after spending all that energy on coming up with a new and
24455 spunky name, we decided that the name was @emph{too} spunky, so we
24456 renamed it back again to ``Gnus''. But in mixed case. ``Gnus'' vs.
24457 ``@sc{gnus}''. New vs. old.
24460 * Gnus Versions:: What Gnus versions have been released.
24461 * Other Gnus Versions:: Other Gnus versions that also have been released.
24462 * Why?:: What's the point of Gnus?
24463 * Compatibility:: Just how compatible is Gnus with @sc{gnus}?
24464 * Conformity:: Gnus tries to conform to all standards.
24465 * Emacsen:: Gnus can be run on a few modern Emacsen.
24466 * Gnus Development:: How Gnus is developed.
24467 * Contributors:: Oodles of people.
24468 * New Features:: Pointers to some of the new stuff in Gnus.
24472 @node Gnus Versions
24473 @subsection Gnus Versions
24475 @cindex September Gnus
24477 @cindex Quassia Gnus
24478 @cindex Pterodactyl Gnus
24481 @cindex Gnus versions
24483 The first ``proper'' release of Gnus 5 was done in November 1995 when it
24484 was included in the Emacs 19.30 distribution (132 (ding) Gnus releases
24485 plus 15 Gnus 5.0 releases).
24487 In May 1996 the next Gnus generation (aka. ``September Gnus'' (after 99
24488 releases)) was released under the name ``Gnus 5.2'' (40 releases).
24490 On July 28th 1996 work on Red Gnus was begun, and it was released on
24491 January 25th 1997 (after 84 releases) as ``Gnus 5.4'' (67 releases).
24493 On September 13th 1997, Quassia Gnus was started and lasted 37 releases.
24494 If was released as ``Gnus 5.6'' on March 8th 1998 (46 releases).
24496 Gnus 5.6 begat Pterodactyl Gnus on August 29th 1998 and was released as
24497 ``Gnus 5.8'' (after 99 releases and a CVS repository) on December 3rd
24500 On the 26th of October 2000, Oort Gnus was begun.
24502 If you happen upon a version of Gnus that has a prefixed name --
24503 ``(ding) Gnus'', ``September Gnus'', ``Red Gnus'', ``Quassia Gnus'',
24504 ``Pterodactyl Gnus'', ``Oort Gnus'' -- don't panic. Don't let it know
24505 that you're frightened. Back away. Slowly. Whatever you do, don't
24506 run. Walk away, calmly, until you're out of its reach. Find a proper
24507 released version of Gnus and snuggle up to that instead.
24510 @node Other Gnus Versions
24511 @subsection Other Gnus Versions
24514 In addition to the versions of Gnus which have had their releases
24515 coordinated by Lars, one major development has been Semi-gnus from
24516 Japan. It's based on a library called @acronym{SEMI}, which provides
24517 @acronym{MIME} capabilities.
24519 These Gnusae are based mainly on Gnus 5.6 and Pterodactyl Gnus.
24520 Collectively, they are called ``Semi-gnus'', and different strains are
24521 called T-gnus, ET-gnus, Nana-gnus and Chaos. These provide powerful
24522 @acronym{MIME} and multilingualization things, especially important for
24529 What's the point of Gnus?
24531 I want to provide a ``rad'', ``happening'', ``way cool'' and ``hep''
24532 newsreader, that lets you do anything you can think of. That was my
24533 original motivation, but while working on Gnus, it has become clear to
24534 me that this generation of newsreaders really belong in the stone age.
24535 Newsreaders haven't developed much since the infancy of the net. If the
24536 volume continues to rise with the current rate of increase, all current
24537 newsreaders will be pretty much useless. How do you deal with
24538 newsgroups that have thousands of new articles each day? How do you
24539 keep track of millions of people who post?
24541 Gnus offers no real solutions to these questions, but I would very much
24542 like to see Gnus being used as a testing ground for new methods of
24543 reading and fetching news. Expanding on @sc{Umeda}-san's wise decision
24544 to separate the newsreader from the back ends, Gnus now offers a simple
24545 interface for anybody who wants to write new back ends for fetching mail
24546 and news from different sources. I have added hooks for customizations
24547 everywhere I could imagine it being useful. By doing so, I'm inviting
24548 every one of you to explore and invent.
24550 May Gnus never be complete. @kbd{C-u 100 M-x all-hail-emacs} and
24551 @kbd{C-u 100 M-x all-hail-xemacs}.
24554 @node Compatibility
24555 @subsection Compatibility
24557 @cindex compatibility
24558 Gnus was designed to be fully compatible with @sc{gnus}. Almost all key
24559 bindings have been kept. More key bindings have been added, of course,
24560 but only in one or two obscure cases have old bindings been changed.
24565 @center In a cloud bones of steel.
24569 All commands have kept their names. Some internal functions have changed
24572 The @code{gnus-uu} package has changed drastically. @xref{Decoding
24575 One major compatibility question is the presence of several summary
24576 buffers. All variables relevant while reading a group are
24577 buffer-local to the summary buffer they belong in. Although many
24578 important variables have their values copied into their global
24579 counterparts whenever a command is executed in the summary buffer, this
24580 change might lead to incorrect values being used unless you are careful.
24582 All code that relies on knowledge of @sc{gnus} internals will probably
24583 fail. To take two examples: Sorting @code{gnus-newsrc-alist} (or
24584 changing it in any way, as a matter of fact) is strictly verboten. Gnus
24585 maintains a hash table that points to the entries in this alist (which
24586 speeds up many functions), and changing the alist directly will lead to
24590 @cindex highlighting
24591 Old hilit19 code does not work at all. In fact, you should probably
24592 remove all hilit code from all Gnus hooks
24593 (@code{gnus-group-prepare-hook} and @code{gnus-summary-prepare-hook}).
24594 Gnus provides various integrated functions for highlighting. These are
24595 faster and more accurate. To make life easier for everybody, Gnus will
24596 by default remove all hilit calls from all hilit hooks. Uncleanliness!
24599 Packages like @code{expire-kill} will no longer work. As a matter of
24600 fact, you should probably remove all old @sc{gnus} packages (and other
24601 code) when you start using Gnus. More likely than not, Gnus already
24602 does what you have written code to make @sc{gnus} do. (Snicker.)
24604 Even though old methods of doing things are still supported, only the
24605 new methods are documented in this manual. If you detect a new method of
24606 doing something while reading this manual, that does not mean you have
24607 to stop doing it the old way.
24609 Gnus understands all @sc{gnus} startup files.
24611 @kindex M-x gnus-bug
24613 @cindex reporting bugs
24615 Overall, a casual user who hasn't written much code that depends on
24616 @sc{gnus} internals should suffer no problems. If problems occur,
24617 please let me know by issuing that magic command @kbd{M-x gnus-bug}.
24619 @vindex gnus-bug-create-help-buffer
24620 If you are in the habit of sending bug reports @emph{very} often, you
24621 may find the helpful help buffer annoying after a while. If so, set
24622 @code{gnus-bug-create-help-buffer} to @code{nil} to avoid having it pop
24627 @subsection Conformity
24629 No rebels without a clue here, ma'am. We conform to all standards known
24630 to (wo)man. Except for those standards and/or conventions we disagree
24638 There are no known breaches of this standard.
24642 There are no known breaches of this standard, either.
24644 @item Son-of-RFC 1036
24645 @cindex Son-of-RFC 1036
24646 We do have some breaches to this one.
24652 These are considered to be ``vanity headers'', while I consider them
24653 to be consumer information. After seeing so many badly formatted
24654 articles coming from @code{tin} and @code{Netscape} I know not to use
24655 either of those for posting articles. I would not have known that if
24656 it wasn't for the @code{X-Newsreader} header.
24661 USEFOR is an IETF working group writing a successor to RFC 1036, based
24662 on Son-of-RFC 1036. They have produced a number of drafts proposing
24663 various changes to the format of news articles. The Gnus towers will
24664 look into implementing the changes when the draft is accepted as an RFC.
24666 @item MIME - RFC 2045-2049 etc
24667 @cindex @acronym{MIME}
24668 All the various @acronym{MIME} RFCs are supported.
24670 @item Disposition Notifications - RFC 2298
24671 Message Mode is able to request notifications from the receiver.
24673 @item PGP - RFC 1991 and RFC 2440
24676 RFC 1991 is the original @acronym{PGP} message specification,
24677 published as an informational RFC. RFC 2440 was the follow-up, now
24678 called Open PGP, and put on the Standards Track. Both document a
24679 non-@acronym{MIME} aware @acronym{PGP} format. Gnus supports both
24680 encoding (signing and encryption) and decoding (verification and
24683 @item PGP/MIME - RFC 2015/3156
24684 RFC 2015 (superseded by 3156 which references RFC 2440 instead of RFC
24685 1991) describes the @acronym{MIME}-wrapping around the RF 1991/2440 format.
24686 Gnus supports both encoding and decoding.
24688 @item S/MIME - RFC 2633
24689 RFC 2633 describes the @acronym{S/MIME} format.
24691 @item IMAP - RFC 1730/2060, RFC 2195, RFC 2086, RFC 2359, RFC 2595, RFC 1731
24692 RFC 1730 is @acronym{IMAP} version 4, updated somewhat by RFC 2060
24693 (@acronym{IMAP} 4 revision 1). RFC 2195 describes CRAM-MD5
24694 authentication for @acronym{IMAP}. RFC 2086 describes access control
24695 lists (ACLs) for @acronym{IMAP}. RFC 2359 describes a @acronym{IMAP}
24696 protocol enhancement. RFC 2595 describes the proper @acronym{TLS}
24697 integration (STARTTLS) with @acronym{IMAP}. RFC 1731 describes the
24698 GSSAPI/Kerberos4 mechanisms for @acronym{IMAP}.
24702 If you ever notice Gnus acting non-compliant with regards to the texts
24703 mentioned above, don't hesitate to drop a note to Gnus Towers and let us
24708 @subsection Emacsen
24714 Gnus should work on:
24722 XEmacs 21.1 and up.
24726 This Gnus version will absolutely not work on any Emacsen older than
24727 that. Not reliably, at least. Older versions of Gnus may work on older
24730 There are some vague differences between Gnus on the various
24731 platforms---XEmacs features more graphics (a logo and a toolbar)---but
24732 other than that, things should look pretty much the same under all
24736 @node Gnus Development
24737 @subsection Gnus Development
24739 Gnus is developed in a two-phased cycle. The first phase involves much
24740 discussion on the @samp{ding@@gnus.org} mailing list, where people
24741 propose changes and new features, post patches and new back ends. This
24742 phase is called the @dfn{alpha} phase, since the Gnusae released in this
24743 phase are @dfn{alpha releases}, or (perhaps more commonly in other
24744 circles) @dfn{snapshots}. During this phase, Gnus is assumed to be
24745 unstable and should not be used by casual users. Gnus alpha releases
24746 have names like ``Red Gnus'' and ``Quassia Gnus''.
24748 After futzing around for 50-100 alpha releases, Gnus is declared
24749 @dfn{frozen}, and only bug fixes are applied. Gnus loses the prefix,
24750 and is called things like ``Gnus 5.6.32'' instead. Normal people are
24751 supposed to be able to use these, and these are mostly discussed on the
24752 @samp{gnu.emacs.gnus} newsgroup.
24755 @vindex mail-source-delete-incoming
24756 Some variable defaults differ between alpha Gnusae and released Gnusae.
24757 In particular, @code{mail-source-delete-incoming} defaults to @code{nil} in
24758 alpha Gnusae and @code{t} in released Gnusae. This is to prevent
24759 lossage of mail if an alpha release hiccups while handling the mail.
24761 The division of discussion between the ding mailing list and the Gnus
24762 newsgroup is not purely based on publicity concerns. It's true that
24763 having people write about the horrible things that an alpha Gnus release
24764 can do (sometimes) in a public forum may scare people off, but more
24765 importantly, talking about new experimental features that have been
24766 introduced may confuse casual users. New features are frequently
24767 introduced, fiddled with, and judged to be found wanting, and then
24768 either discarded or totally rewritten. People reading the mailing list
24769 usually keep up with these rapid changes, while people on the newsgroup
24770 can't be assumed to do so.
24775 @subsection Contributors
24776 @cindex contributors
24778 The new Gnus version couldn't have been done without the help of all the
24779 people on the (ding) mailing list. Every day for over a year I have
24780 gotten billions of nice bug reports from them, filling me with joy,
24781 every single one of them. Smooches. The people on the list have been
24782 tried beyond endurance, what with my ``oh, that's a neat idea <type
24783 type>, yup, I'll release it right away <ship off> no wait, that doesn't
24784 work at all <type type>, yup, I'll ship that one off right away <ship
24785 off> no, wait, that absolutely does not work'' policy for releases.
24786 Micro$oft---bah. Amateurs. I'm @emph{much} worse. (Or is that
24787 ``worser''? ``much worser''? ``worsest''?)
24789 I would like to take this opportunity to thank the Academy for@dots{} oops,
24795 Masanobu @sc{Umeda}---the writer of the original @sc{gnus}.
24798 Shenghuo Zhu---uudecode.el, mm-uu.el, rfc1843.el, webmail.el,
24799 nnwarchive and many, many other things connected with @acronym{MIME} and
24800 other types of en/decoding, as well as general bug fixing, new
24801 functionality and stuff.
24804 Per Abrahamsen---custom, scoring, highlighting and @sc{soup} code (as
24805 well as numerous other things).
24808 Luis Fernandes---design and graphics.
24811 Joe Reiss---creator of the smiley faces.
24814 Justin Sheehy---the @acronym{FAQ} maintainer.
24817 Erik Naggum---help, ideas, support, code and stuff.
24820 Wes Hardaker---@file{gnus-picon.el} and the manual section on
24821 @dfn{picons} (@pxref{Picons}).
24824 Kim-Minh Kaplan---further work on the picon code.
24827 Brad Miller---@file{gnus-gl.el} and the GroupLens manual section
24828 (@pxref{GroupLens}).
24831 Sudish Joseph---innumerable bug fixes.
24834 Ilja Weis---@file{gnus-topic.el}.
24837 Steven L. Baur---lots and lots and lots of bugs detections and fixes.
24840 Vladimir Alexiev---the refcard and reference booklets.
24843 Felix Lee & Jamie Zawinski---I stole some pieces from the XGnus
24844 distribution by Felix Lee and JWZ.
24847 Scott Byer---@file{nnfolder.el} enhancements & rewrite.
24850 Peter Mutsaers---orphan article scoring code.
24853 Ken Raeburn---POP mail support.
24856 Hallvard B Furuseth---various bits and pieces, especially dealing with
24860 Brian Edmonds---@file{gnus-bbdb.el}.
24863 David Moore---rewrite of @file{nnvirtual.el} and many other things.
24866 Kevin Davidson---came up with the name @dfn{ding}, so blame him.
24869 François Pinard---many, many interesting and thorough bug reports, as
24870 well as autoconf support.
24874 This manual was proof-read by Adrian Aichner, with Ricardo Nassif, Mark
24875 Borges, and Jost Krieger proof-reading parts of the manual.
24877 The following people have contributed many patches and suggestions:
24892 Jason L. Tibbitts, III,
24894 Katsumi Yamaoka, @c Yamaoka
24898 Also thanks to the following for patches and stuff:
24908 Alexei V. Barantsev,
24923 Massimo Campostrini,
24928 Jae-you Chung, @c ?
24929 James H. Cloos, Jr.,
24933 Andrew J. Cosgriff,
24936 Geoffrey T. Dairiki,
24942 Michael Welsh Duggan,
24947 Enami Tsugutomo, @c Enami
24951 Nelson Jose dos Santos Ferreira,
24959 Arne Georg Gleditsch,
24961 Michelangelo Grigni,
24965 Kenichi Handa, @c Handa
24967 Yoshiki Hayashi, @c Hayashi
24969 Hisashige Kenji, @c Hisashige
24976 François Felix Ingrand,
24977 Tatsuya Ichikawa, @c Ichikawa
24978 Ishikawa Ichiro, @c Ishikawa
24980 Iwamuro Motonori, @c Iwamuro
24990 Peter Skov Knudsen,
24991 Shuhei Kobayashi, @c Kobayashi
24993 Koseki Yoshinori, @c Koseki
24994 Thor Kristoffersen,
24997 Seokchan Lee, @c Lee
25015 Morioka Tomohiko, @c Morioka
25016 Erik Toubro Nielsen,
25023 Masaharu Onishi, @c Onishi
25028 Jens-Ulrik Holger Petersen,
25032 John McClary Prevost,
25038 Lars Balker Rasmussen,
25043 Christian von Roques,
25046 Wolfgang Rupprecht,
25053 Philippe Schnoebelen,
25055 Randal L. Schwartz,
25069 Kiyokazu Suto, @c Suto
25074 Tozawa Akihiko, @c Tozawa
25094 For a full overview of what each person has done, the ChangeLogs
25095 included in the Gnus alpha distributions should give ample reading
25096 (550kB and counting).
25098 Apologies to everybody that I've forgotten, of which there are many, I'm
25101 Gee, that's quite a list of people. I guess that must mean that there
25102 actually are people who are using Gnus. Who'd'a thunk it!
25106 @subsection New Features
25107 @cindex new features
25110 * ding Gnus:: New things in Gnus 5.0/5.1, the first new Gnus.
25111 * September Gnus:: The Thing Formally Known As Gnus 5.2/5.3.
25112 * Red Gnus:: Third time best---Gnus 5.4/5.5.
25113 * Quassia Gnus:: Two times two is four, or Gnus 5.6/5.7.
25114 * Pterodactyl Gnus:: Pentad also starts with P, AKA Gnus 5.8/5.9.
25115 * Oort Gnus:: It's big. It's far out. Gnus 5.10/5.11.
25118 These lists are, of course, just @emph{short} overviews of the
25119 @emph{most} important new features. No, really. There are tons more.
25120 Yes, we have feeping creaturism in full effect.
25123 @subsubsection (ding) Gnus
25125 New features in Gnus 5.0/5.1:
25130 The look of all buffers can be changed by setting format-like variables
25131 (@pxref{Group Buffer Format} and @pxref{Summary Buffer Format}).
25134 Local spool and several @acronym{NNTP} servers can be used at once
25135 (@pxref{Select Methods}).
25138 You can combine groups into virtual groups (@pxref{Virtual Groups}).
25141 You can read a number of different mail formats (@pxref{Getting Mail}).
25142 All the mail back ends implement a convenient mail expiry scheme
25143 (@pxref{Expiring Mail}).
25146 Gnus can use various strategies for gathering threads that have lost
25147 their roots (thereby gathering loose sub-threads into one thread) or it
25148 can go back and retrieve enough headers to build a complete thread
25149 (@pxref{Customizing Threading}).
25152 Killed groups can be displayed in the group buffer, and you can read
25153 them as well (@pxref{Listing Groups}).
25156 Gnus can do partial group updates---you do not have to retrieve the
25157 entire active file just to check for new articles in a few groups
25158 (@pxref{The Active File}).
25161 Gnus implements a sliding scale of subscribedness to groups
25162 (@pxref{Group Levels}).
25165 You can score articles according to any number of criteria
25166 (@pxref{Scoring}). You can even get Gnus to find out how to score
25167 articles for you (@pxref{Adaptive Scoring}).
25170 Gnus maintains a dribble buffer that is auto-saved the normal Emacs
25171 manner, so it should be difficult to lose much data on what you have
25172 read if your machine should go down (@pxref{Auto Save}).
25175 Gnus now has its own startup file (@file{~/.gnus.el}) to avoid
25176 cluttering up the @file{.emacs} file.
25179 You can set the process mark on both groups and articles and perform
25180 operations on all the marked items (@pxref{Process/Prefix}).
25183 You can grep through a subset of groups and create a group from the
25184 results (@pxref{Kibozed Groups}).
25187 You can list subsets of groups according to, well, anything
25188 (@pxref{Listing Groups}).
25191 You can browse foreign servers and subscribe to groups from those
25192 servers (@pxref{Browse Foreign Server}).
25195 Gnus can fetch articles, asynchronously, on a second connection to the
25196 server (@pxref{Asynchronous Fetching}).
25199 You can cache articles locally (@pxref{Article Caching}).
25202 The uudecode functions have been expanded and generalized
25203 (@pxref{Decoding Articles}).
25206 You can still post uuencoded articles, which was a little-known feature
25207 of @sc{gnus}' past (@pxref{Uuencoding and Posting}).
25210 Fetching parents (and other articles) now actually works without
25211 glitches (@pxref{Finding the Parent}).
25214 Gnus can fetch @acronym{FAQ}s and group descriptions (@pxref{Group Information}).
25217 Digests (and other files) can be used as the basis for groups
25218 (@pxref{Document Groups}).
25221 Articles can be highlighted and customized (@pxref{Customizing
25225 URLs and other external references can be buttonized (@pxref{Article
25229 You can do lots of strange stuff with the Gnus window & frame
25230 configuration (@pxref{Window Layout}).
25233 You can click on buttons instead of using the keyboard
25239 @node September Gnus
25240 @subsubsection September Gnus
25244 \gnusfig{-28cm}{0cm}{\epsfig{figure=ps/september,height=20cm}}
25248 New features in Gnus 5.2/5.3:
25253 A new message composition mode is used. All old customization variables
25254 for @code{mail-mode}, @code{rnews-reply-mode} and @code{gnus-msg} are
25258 Gnus is now able to generate @dfn{sparse} threads---threads where
25259 missing articles are represented by empty nodes (@pxref{Customizing
25263 (setq gnus-build-sparse-threads 'some)
25267 Outgoing articles are stored on a special archive server
25268 (@pxref{Archived Messages}).
25271 Partial thread regeneration now happens when articles are
25275 Gnus can make use of GroupLens predictions (@pxref{GroupLens}).
25278 Picons (personal icons) can be displayed under XEmacs (@pxref{Picons}).
25281 A @code{trn}-like tree buffer can be displayed (@pxref{Tree Display}).
25284 (setq gnus-use-trees t)
25288 An @code{nn}-like pick-and-read minor mode is available for the summary
25289 buffers (@pxref{Pick and Read}).
25292 (add-hook 'gnus-summary-mode-hook 'gnus-pick-mode)
25296 In binary groups you can use a special binary minor mode (@pxref{Binary
25300 Groups can be grouped in a folding topic hierarchy (@pxref{Group
25304 (add-hook 'gnus-group-mode-hook 'gnus-topic-mode)
25308 Gnus can re-send and bounce mail (@pxref{Summary Mail Commands}).
25311 Groups can now have a score, and bubbling based on entry frequency
25312 is possible (@pxref{Group Score}).
25315 (add-hook 'gnus-summary-exit-hook 'gnus-summary-bubble-group)
25319 Groups can be process-marked, and commands can be performed on
25320 groups of groups (@pxref{Marking Groups}).
25323 Caching is possible in virtual groups.
25326 @code{nndoc} now understands all kinds of digests, mail boxes, rnews
25327 news batches, ClariNet briefs collections, and just about everything
25328 else (@pxref{Document Groups}).
25331 Gnus has a new back end (@code{nnsoup}) to create/read SOUP packets
25335 The Gnus cache is much faster.
25338 Groups can be sorted according to many criteria (@pxref{Sorting
25342 New group parameters have been introduced to set list-addresses and
25343 expiry times (@pxref{Group Parameters}).
25346 All formatting specs allow specifying faces to be used
25347 (@pxref{Formatting Fonts}).
25350 There are several more commands for setting/removing/acting on process
25351 marked articles on the @kbd{M P} submap (@pxref{Setting Process Marks}).
25354 The summary buffer can be limited to show parts of the available
25355 articles based on a wide range of criteria. These commands have been
25356 bound to keys on the @kbd{/} submap (@pxref{Limiting}).
25359 Articles can be made persistent with the @kbd{*} command
25360 (@pxref{Persistent Articles}).
25363 All functions for hiding article elements are now toggles.
25366 Article headers can be buttonized (@pxref{Article Washing}).
25369 All mail back ends support fetching articles by @code{Message-ID}.
25372 Duplicate mail can now be treated properly (@pxref{Duplicates}).
25375 All summary mode commands are available directly from the article
25376 buffer (@pxref{Article Keymap}).
25379 Frames can be part of @code{gnus-buffer-configuration} (@pxref{Window
25383 Mail can be re-scanned by a daemonic process (@pxref{Daemons}).
25386 \marginpar[\mbox{}\hfill\epsfig{figure=ps/fseptember,height=5cm}]{\epsfig{figure=ps/fseptember,height=5cm}}
25391 Gnus can make use of NoCeM files to weed out spam (@pxref{NoCeM}).
25394 (setq gnus-use-nocem t)
25398 Groups can be made permanently visible (@pxref{Listing Groups}).
25401 (setq gnus-permanently-visible-groups "^nnml:")
25405 Many new hooks have been introduced to make customizing easier.
25408 Gnus respects the @code{Mail-Copies-To} header.
25411 Threads can be gathered by looking at the @code{References} header
25412 (@pxref{Customizing Threading}).
25415 (setq gnus-summary-thread-gathering-function
25416 'gnus-gather-threads-by-references)
25420 Read articles can be stored in a special backlog buffer to avoid
25421 refetching (@pxref{Article Backlog}).
25424 (setq gnus-keep-backlog 50)
25428 A clean copy of the current article is always stored in a separate
25429 buffer to allow easier treatment.
25432 Gnus can suggest where to save articles (@pxref{Saving Articles}).
25435 Gnus doesn't have to do as much prompting when saving (@pxref{Saving
25439 (setq gnus-prompt-before-saving t)
25443 @code{gnus-uu} can view decoded files asynchronously while fetching
25444 articles (@pxref{Other Decode Variables}).
25447 (setq gnus-uu-grabbed-file-functions 'gnus-uu-grab-view)
25451 Filling in the article buffer now works properly on cited text
25452 (@pxref{Article Washing}).
25455 Hiding cited text adds buttons to toggle hiding, and how much
25456 cited text to hide is now customizable (@pxref{Article Hiding}).
25459 (setq gnus-cited-lines-visible 2)
25463 Boring headers can be hidden (@pxref{Article Hiding}).
25466 Default scoring values can now be set from the menu bar.
25469 Further syntax checking of outgoing articles have been added.
25475 @subsubsection Red Gnus
25477 New features in Gnus 5.4/5.5:
25481 \gnusfig{-5.5cm}{-4cm}{\epsfig{figure=ps/red,height=20cm}}
25488 @file{nntp.el} has been totally rewritten in an asynchronous fashion.
25491 Article prefetching functionality has been moved up into
25492 Gnus (@pxref{Asynchronous Fetching}).
25495 Scoring can now be performed with logical operators like @code{and},
25496 @code{or}, @code{not}, and parent redirection (@pxref{Advanced
25500 Article washing status can be displayed in the
25501 article mode line (@pxref{Misc Article}).
25504 @file{gnus.el} has been split into many smaller files.
25507 Suppression of duplicate articles based on Message-ID can be done
25508 (@pxref{Duplicate Suppression}).
25511 (setq gnus-suppress-duplicates t)
25515 New variables for specifying what score and adapt files are to be
25516 considered home score and adapt files (@pxref{Home Score File}) have
25520 @code{nndoc} was rewritten to be easily extendable (@pxref{Document
25521 Server Internals}).
25524 Groups can inherit group parameters from parent topics (@pxref{Topic
25528 Article editing has been revamped and is now actually usable.
25531 Signatures can be recognized in more intelligent fashions
25532 (@pxref{Article Signature}).
25535 Summary pick mode has been made to look more @code{nn}-like. Line
25536 numbers are displayed and the @kbd{.} command can be used to pick
25537 articles (@code{Pick and Read}).
25540 Commands for moving the @file{.newsrc.eld} from one server to
25541 another have been added (@pxref{Changing Servers}).
25544 There's a way now to specify that ``uninteresting'' fields be suppressed
25545 when generating lines in buffers (@pxref{Advanced Formatting}).
25548 Several commands in the group buffer can be undone with @kbd{C-M-_}
25552 Scoring can be done on words using the new score type @code{w}
25553 (@pxref{Score File Format}).
25556 Adaptive scoring can be done on a Subject word-by-word basis
25557 (@pxref{Adaptive Scoring}).
25560 (setq gnus-use-adaptive-scoring '(word))
25564 Scores can be decayed (@pxref{Score Decays}).
25567 (setq gnus-decay-scores t)
25571 Scoring can be performed using a regexp on the Date header. The Date is
25572 normalized to compact ISO 8601 format first (@pxref{Score File Format}).
25575 A new command has been added to remove all data on articles from
25576 the native server (@pxref{Changing Servers}).
25579 A new command for reading collections of documents
25580 (@code{nndoc} with @code{nnvirtual} on top) has been added---@kbd{C-M-d}
25581 (@pxref{Really Various Summary Commands}).
25584 Process mark sets can be pushed and popped (@pxref{Setting Process
25588 A new mail-to-news back end makes it possible to post even when the @acronym{NNTP}
25589 server doesn't allow posting (@pxref{Mail-To-News Gateways}).
25592 A new back end for reading searches from Web search engines
25593 (@dfn{DejaNews}, @dfn{Alta Vista}, @dfn{InReference}) has been added
25594 (@pxref{Web Searches}).
25597 Groups inside topics can now be sorted using the standard sorting
25598 functions, and each topic can be sorted independently (@pxref{Topic
25602 Subsets of the groups can be sorted independently (@code{Sorting
25606 Cached articles can be pulled into the groups (@pxref{Summary Generation
25610 \marginpar[\mbox{}\hfill\epsfig{figure=ps/fred,width=3cm}]{\epsfig{figure=ps/fred,width=3cm}}
25615 Score files are now applied in a more reliable order (@pxref{Score
25619 Reports on where mail messages end up can be generated (@pxref{Splitting
25623 More hooks and functions have been added to remove junk from incoming
25624 mail before saving the mail (@pxref{Washing Mail}).
25627 Emphasized text can be properly fontisized:
25633 @subsubsection Quassia Gnus
25635 New features in Gnus 5.6:
25640 New functionality for using Gnus as an offline newsreader has been
25641 added. A plethora of new commands and modes have been added.
25642 @xref{Gnus Unplugged}, for the full story.
25645 The @code{nndraft} back end has returned, but works differently than
25646 before. All Message buffers are now also articles in the @code{nndraft}
25647 group, which is created automatically.
25650 @code{gnus-alter-header-function} can now be used to alter header
25654 @code{gnus-summary-goto-article} now accept Message-ID's.
25657 A new Message command for deleting text in the body of a message
25658 outside the region: @kbd{C-c C-v}.
25661 You can now post to component group in @code{nnvirtual} groups with
25665 @code{nntp-rlogin-program}---new variable to ease customization.
25668 @code{C-u C-c C-c} in @code{gnus-article-edit-mode} will now inhibit
25669 re-highlighting of the article buffer.
25672 New element in @code{gnus-boring-article-headers}---@code{long-to}.
25675 @kbd{M-i} symbolic prefix command. @xref{Symbolic Prefixes}, for
25679 @kbd{L} and @kbd{I} in the summary buffer now take the symbolic prefix
25680 @kbd{a} to add the score rule to the @file{all.SCORE} file.
25683 @code{gnus-simplify-subject-functions} variable to allow greater
25684 control over simplification.
25687 @kbd{A T}---new command for fetching the current thread.
25690 @kbd{/ T}---new command for including the current thread in the
25694 @kbd{M-RET} is a new Message command for breaking cited text.
25697 @samp{\\1}-expressions are now valid in @code{nnmail-split-methods}.
25700 The @code{custom-face-lookup} function has been removed.
25701 If you used this function in your initialization files, you must
25702 rewrite them to use @code{face-spec-set} instead.
25705 Canceling now uses the current select method. Symbolic prefix
25706 @kbd{a} forces normal posting method.
25709 New command to translate M******** sm*rtq**t*s into proper
25713 For easier debugging of @code{nntp}, you can set
25714 @code{nntp-record-commands} to a non-@code{nil} value.
25717 @code{nntp} now uses @file{~/.authinfo}, a @file{.netrc}-like file, for
25718 controlling where and how to send @sc{authinfo} to @acronym{NNTP} servers.
25721 A command for editing group parameters from the summary buffer
25725 A history of where mails have been split is available.
25728 A new article date command has been added---@code{article-date-iso8601}.
25731 Subjects can be simplified when threading by setting
25732 @code{gnus-score-thread-simplify}.
25735 A new function for citing in Message has been
25736 added---@code{message-cite-original-without-signature}.
25739 @code{article-strip-all-blank-lines}---new article command.
25742 A new Message command to kill to the end of the article has
25746 A minimum adaptive score can be specified by using the
25747 @code{gnus-adaptive-word-minimum} variable.
25750 The ``lapsed date'' article header can be kept continually
25751 updated by the @code{gnus-start-date-timer} command.
25754 Web listserv archives can be read with the @code{nnlistserv} back end.
25757 Old dejanews archives can now be read by @code{nnweb}.
25761 @node Pterodactyl Gnus
25762 @subsubsection Pterodactyl Gnus
25764 New features in Gnus 5.8:
25769 The mail-fetching functions have changed. See the manual for the
25770 many details. In particular, all procmail fetching variables are gone.
25772 If you used procmail like in
25775 (setq nnmail-use-procmail t)
25776 (setq nnmail-spool-file 'procmail)
25777 (setq nnmail-procmail-directory "~/mail/incoming/")
25778 (setq nnmail-procmail-suffix "\\.in")
25781 this now has changed to
25785 '((directory :path "~/mail/incoming/"
25789 @xref{Mail Source Specifiers}.
25792 Gnus is now a @acronym{MIME}-capable reader. This affects many parts of
25793 Gnus, and adds a slew of new commands. See the manual for details.
25796 Gnus has also been multilingualized. This also affects too
25797 many parts of Gnus to summarize here, and adds many new variables.
25800 @code{gnus-auto-select-first} can now be a function to be
25801 called to position point.
25804 The user can now decide which extra headers should be included in
25805 summary buffers and @acronym{NOV} files.
25808 @code{gnus-article-display-hook} has been removed. Instead, a number
25809 of variables starting with @code{gnus-treat-} have been added.
25812 The Gnus posting styles have been redone again and now works in a
25813 subtly different manner.
25816 New web-based back ends have been added: @code{nnslashdot},
25817 @code{nnwarchive} and @code{nnultimate}. nnweb has been revamped,
25818 again, to keep up with ever-changing layouts.
25821 Gnus can now read @acronym{IMAP} mail via @code{nnimap}.
25826 @subsubsection Oort Gnus
25829 New features in Gnus 5.10:
25834 @kbd{F} (@code{gnus-article-followup-with-original}) and @kbd{R}
25835 (@code{gnus-article-reply-with-original}) only yank the text in the
25836 region if the region is active.
25839 @code{gnus-group-read-ephemeral-group} can be called interactively,
25843 In draft groups, @kbd{e} is now bound to @code{gnus-draft-edit-message}.
25844 Use @kbd{B w} for @code{gnus-summary-edit-article} instead.
25847 The revised Gnus @acronym{FAQ} is included in the manual,
25848 @xref{Frequently Asked Questions}.
25851 Upgrading from previous (stable) version if you have used Oort.
25853 If you have tried Oort (the unstable Gnus branch leading to this
25854 release) but went back to a stable version, be careful when upgrading to
25855 this version. In particular, you will probably want to remove all
25856 @file{.marks} (nnml) and @file{.mrk} (nnfolder) files, so that flags are
25857 read from your @file{.newsrc.eld} instead of from the
25858 @file{.marks}/@file{.mrk} file where this release store flags. See a
25859 later entry for more information about marks. Note that downgrading
25860 isn't save in general.
25865 More buttons for URLs, mail addresses, Message-IDs, Info links, man
25866 pages and Emacs or Gnus related references. @xref{Article Buttons}. The
25867 variables @code{gnus-button-@var{*}-level} can be used to control the
25868 appearance of all article buttons. @xref{Article Button Levels}.
25873 @code{gnus-dired-minor-mode} (see @ref{Other modes}) installs key
25874 bindings in dired buffers to send a file as an attachment, open a file
25875 using the appropriate mailcap entry, and print a file using the mailcap
25879 Gnus can display RSS newsfeeds as a newsgroup. @xref{RSS}.
25882 Single-part yenc encoded attachments can be decoded.
25887 The picons code has been reimplemented to work in GNU Emacs---some of
25888 the previous options have been removed or renamed.
25890 Picons are small ``personal icons'' representing users, domain and
25891 newsgroups, which can be displayed in the Article buffer.
25895 If the new option @code{gnus-treat-body-boundary} is non-@code{nil}, a
25896 boundary line is drawn at the end of the headers.
25899 Retrieval of charters and control messages
25901 There are new commands for fetching newsgroup charters (@kbd{H c}) and
25902 control messages (@kbd{H C}).
25907 You can delay the sending of a message with @kbd{C-c C-j} in the Message
25908 buffer. The messages are delivered at specified time. This is useful
25909 for sending yourself reminders. @xref{Delayed Articles}.
25912 If @code{auto-compression-mode} is enabled, attachments are automatically
25913 decompressed when activated.
25916 If the new option @code{nnml-use-compressed-files} is non-@code{nil},
25917 the nnml back end allows compressed message files.
25920 Signed article headers (X-PGP-Sig) can be verified with @kbd{W p}.
25923 The Summary Buffer uses an arrow in the fringe to indicate the current
25924 article. Use @code{(setq gnus-summary-display-arrow nil)} to disable it.
25927 Warn about email replies to news
25929 Do you often find yourself replying to news by email by mistake? Then
25930 the new option @code{gnus-confirm-mail-reply-to-news} is just the thing for
25934 If the new option @code{gnus-summary-display-while-building} is
25935 non-@code{nil}, the summary buffer is shown and updated as it's being
25939 The new @code{recent} mark @samp{.} indicates newly arrived messages (as
25940 opposed to old but unread messages).
25943 The new option @code{gnus-gcc-mark-as-read} automatically marks
25944 Gcc articles as read.
25947 The nndoc back end now supports mailman digests and exim bounces.
25950 Gnus supports RFC 2369 mailing list headers, and adds a number of
25951 related commands in mailing list groups. @xref{Mailing List}.
25954 The Date header can be displayed in a format that can be read aloud
25955 in English. @xref{Article Date}.
25958 The envelope sender address can be customized when using Sendmail.
25959 @xref{Mail Variables, Mail Variables,, message, Message Manual}.
25962 diffs are automatically highlighted in groups matching
25963 @code{mm-uu-diff-groups-regexp}
25966 @acronym{TLS} wrapper shipped with Gnus
25968 @acronym{TLS}/@acronym{SSL} is now supported in @acronym{IMAP} and
25969 @acronym{NNTP} via @file{tls.el} and GNUTLS. The old
25970 @acronym{TLS}/@acronym{SSL} support via (external third party)
25971 @file{ssl.el} and OpenSSL still works.
25974 New @file{make.bat} for compiling and installing Gnus under MS Windows
25976 Use @file{make.bat} if you want to install Gnus under MS Windows, the
25977 first argument to the batch-program should be the directory where
25978 @file{xemacs.exe} respectively @file{emacs.exe} is located, iff you want
25979 to install Gnus after compiling it, give @file{make.bat} @code{/copy} as
25980 the second parameter.
25982 @file{make.bat} has been rewritten from scratch, it now features
25983 automatic recognition of XEmacs and GNU Emacs, generates
25984 @file{gnus-load.el}, checks if errors occur while compilation and
25985 generation of info files and reports them at the end of the build
25986 process. It now uses @code{makeinfo} if it is available and falls
25987 back to @file{infohack.el} otherwise. @file{make.bat} should now
25988 install all files which are necessary to run Gnus and be generally a
25989 complete replacement for the @code{configure; make; make install}
25990 cycle used under Unix systems.
25992 The new @file{make.bat} makes @file{make-x.bat} superfluous, so it has
25996 Support for non-@acronym{ASCII} domain names
25998 Message supports non-@acronym{ASCII} domain names in From:, To: and
25999 Cc: and will query you whether to perform encoding when you try to
26000 send a message. The variable @code{message-use-idna} controls this.
26001 Gnus will also decode non-@acronym{ASCII} domain names in From:, To:
26002 and Cc: when you view a message. The variable @code{gnus-use-idna}
26006 Better handling of Microsoft citation styles
26008 Gnus now tries to recognize the mangled header block that some Microsoft
26009 mailers use to indicate that the rest of the message is a citation, even
26010 though it is not quoted in any way. The variable
26011 @code{gnus-cite-unsightly-citation-regexp} matches the start of these
26015 @code{gnus-article-skip-boring}
26017 If you set @code{gnus-article-skip-boring} to @code{t}, then Gnus will
26018 not scroll down to show you a page that contains only boring text,
26019 which by default means cited text and signature. You can customize
26020 what is skippable using @code{gnus-article-boring-faces}.
26022 This feature is especially useful if you read many articles that
26023 consist of a little new content at the top with a long, untrimmed
26024 message cited below.
26027 The format spec @code{%C} for positioning point has changed to @code{%*}.
26030 The new variable @code{gnus-parameters} can be used to set group parameters.
26032 Earlier this was done only via @kbd{G p} (or @kbd{G c}), which stored
26033 the parameters in @file{~/.newsrc.eld}, but via this variable you can
26034 enjoy the powers of customize, and simplified backups since you set the
26035 variable in @file{~/.emacs} instead of @file{~/.newsrc.eld}. The
26036 variable maps regular expressions matching group names to group
26039 (setq gnus-parameters
26041 (gnus-show-threads nil)
26042 (gnus-use-scoring nil))
26043 ("^nnimap:\\(foo.bar\\)$"
26044 (to-group . "\\1"))))
26048 Smileys (@samp{:-)}, @samp{;-)} etc) are now iconized for Emacs too.
26050 Put @code{(setq gnus-treat-display-smileys nil)} in @file{~/.emacs} to
26054 Gnus no longer generate the Sender: header automatically.
26056 Earlier it was generated iff the user configurable email address was
26057 different from the Gnus guessed default user address. As the guessing
26058 algorithm is rarely correct these days, and (more controversially) the
26059 only use of the Sender: header was to check if you are entitled to
26060 cancel/supersede news (which is now solved by Cancel Locks instead,
26061 see another entry), generation of the header has been disabled by
26062 default. See the variables @code{message-required-headers},
26063 @code{message-required-news-headers}, and
26064 @code{message-required-mail-headers}.
26067 Features from third party @file{message-utils.el} added to @file{message.el}.
26069 Message now asks if you wish to remove @samp{(was: <old subject>)} from
26070 subject lines (see @code{message-subject-trailing-was-query}). @kbd{C-c
26071 M-m} and @kbd{C-c M-f} inserts markers indicating included text.
26072 @kbd{C-c C-f a} adds a X-No-Archive: header. @kbd{C-c C-f x} inserts
26073 appropriate headers and a note in the body for cross-postings and
26074 followups (see the variables @code{message-cross-post-@var{*}}).
26077 References and X-Draft-Headers are no longer generated when you start
26078 composing messages and @code{message-generate-headers-first} is
26082 Improved anti-spam features.
26084 Gnus is now able to take out spam from your mail and news streams
26085 using a wide variety of programs and filter rules. Among the supported
26086 methods are RBL blocklists, bogofilter and white/blacklists. Hooks
26087 for easy use of external packages such as SpamAssassin and Hashcash
26088 are also new. @xref{Thwarting Email Spam}.
26091 Easy inclusion of X-Faces headers.
26094 Face headers handling.
26097 In the summary buffer, the new command @kbd{/ N} inserts new messages
26098 and @kbd{/ o} inserts old messages.
26101 Gnus decodes morse encoded messages if you press @kbd{W m}.
26104 Unread count correct in nnimap groups.
26106 The estimated number of unread articles in the group buffer should now
26107 be correct for nnimap groups. This is achieved by calling
26108 @code{nnimap-fixup-unread-after-getting-new-news} from the
26109 @code{gnus-setup-news-hook} (called on startup) and
26110 @code{gnus-after-getting-new-news-hook}. (called after getting new
26111 mail). If you have modified those variables from the default, you may
26112 want to add @code{nnimap-fixup-unread-after-getting-new-news} again. If
26113 you were happy with the estimate and want to save some (minimal) time
26114 when getting new mail, remove the function.
26117 Group Carbon Copy (GCC) quoting
26119 To support groups that contains SPC and other weird characters, groups
26120 are quoted before they are placed in the Gcc: header. This means
26121 variables such as @code{gnus-message-archive-group} should no longer
26122 contain quote characters to make groups containing SPC work. Also, if
26123 you are using the string @samp{nnml:foo, nnml:bar} (indicating Gcc
26124 into two groups) you must change it to return the list
26125 @code{("nnml:foo" "nnml:bar")}, otherwise the Gcc: line will be quoted
26126 incorrectly. Note that returning the string @samp{nnml:foo, nnml:bar}
26127 was incorrect earlier, it just didn't generate any problems since it
26128 was inserted directly.
26131 @file{~/News/overview/} not used.
26133 As a result of the following change, the @file{~/News/overview/}
26134 directory is not used any more. You can safely delete the entire
26140 The Gnus Agent has seen a major updated and is now enabled by default,
26141 and all nntp and nnimap servers from @code{gnus-select-method} and
26142 @code{gnus-secondary-select-method} are agentized by default. Earlier
26143 only the server in @code{gnus-select-method} was agentized by the
26144 default, and the agent was disabled by default. When the agent is
26145 enabled, headers are now also retrieved from the Agent cache instead
26146 of the back ends when possible. Earlier this only happened in the
26147 unplugged state. You can enroll or remove servers with @kbd{J a} and
26148 @kbd{J r} in the server buffer. Gnus will not download articles into
26149 the Agent cache, unless you instruct it to do so, though, by using
26150 @kbd{J u} or @kbd{J s} from the Group buffer. You revert to the old
26151 behavior of having the Agent disabled with @code{(setq gnus-agent
26152 nil)}. Note that putting @code{(gnus-agentize)} in @file{~/.gnus.el}
26153 is not needed any more.
26156 @code{gnus-summary-line-format}
26158 The default value changed to @samp{%U%R%z%I%(%[%4L: %-23,23f%]%)
26159 %s\n}. Moreover @code{gnus-extra-headers},
26160 @code{nnmail-extra-headers} and @code{gnus-ignored-from-addresses}
26161 changed their default so that the users name will be replaced by the
26162 recipient's name or the group name posting to for @acronym{NNTP}
26166 @file{deuglify.el} (@code{gnus-article-outlook-deuglify-article})
26168 A new file from Raymond Scholz @email{rscholz@@zonix.de} for deuglifying
26169 broken Outlook (Express) articles.
26172 @code{(require 'gnus-load)}
26174 If you use a stand-alone Gnus distribution, you'd better add
26175 @code{(require 'gnus-load)} into your @file{~/.emacs} after adding the Gnus
26176 lisp directory into load-path.
26178 File @file{gnus-load.el} contains autoload commands, functions and variables,
26179 some of which may not be included in distributions of Emacsen.
26182 @code{gnus-slave-unplugged}
26184 A new command which starts Gnus offline in slave mode.
26187 @code{message-insinuate-rmail}
26189 Adding @code{(message-insinuate-rmail)} and @code{(setq
26190 mail-user-agent 'gnus-user-agent)} in @file{.emacs} convinces Rmail to
26191 compose, reply and forward messages in message-mode, where you can
26192 enjoy the power of @acronym{MML}.
26195 @code{message-minibuffer-local-map}
26197 The line below enables BBDB in resending a message:
26199 (define-key message-minibuffer-local-map [(tab)]
26200 'bbdb-complete-name)
26204 Externalizing and deleting of attachments.
26206 If @code{gnus-gcc-externalize-attachments} or
26207 @code{message-fcc-externalize-attachments} is non-@code{nil}, attach
26208 local files as external parts.
26210 The command @code{gnus-mime-save-part-and-strip} (bound to @kbd{C-o}
26211 on @acronym{MIME} buttons) saves a part and replaces the part with an
26212 external one. @code{gnus-mime-delete-part} (bound to @kbd{d} on
26213 @acronym{MIME} buttons) removes a part. It works only on back ends
26214 that support editing.
26217 @code{gnus-default-charset}
26219 The default value is determined from the
26220 @code{current-language-environment} variable, instead of
26221 @code{iso-8859-1}. Also the @samp{.*} item in
26222 @code{gnus-group-charset-alist} is removed.
26225 @code{gnus-posting-styles}
26227 Add a new format of match like
26229 ((header "to" "larsi.*org")
26230 (Organization "Somewhere, Inc."))
26232 The old format like the lines below is obsolete, but still accepted.
26234 (header "to" "larsi.*org"
26235 (Organization "Somewhere, Inc."))
26239 @code{message-ignored-news-headers} and @code{message-ignored-mail-headers}
26241 @samp{X-Draft-From} and @samp{X-Gnus-Agent-Meta-Information} have been
26242 added into these two variables. If you customized those, perhaps you
26243 need add those two headers too.
26246 Gnus reads the @acronym{NOV} and articles in the Agent if plugged.
26248 If one reads an article while plugged, and the article already exists
26249 in the Agent, it won't get downloaded once more. @code{(setq
26250 gnus-agent-cache nil)} reverts to the old behavior.
26253 Gnus supports the ``format=flowed'' (RFC 2646) parameter. On
26254 composing messages, it is enabled by @code{use-hard-newlines}.
26255 Decoding format=flowed was present but not documented in earlier
26259 Gnus supports the generation of RFC 2298 Disposition Notification requests.
26261 This is invoked with the @kbd{C-c M-n} key binding from message mode.
26264 Gnus supports Maildir groups.
26266 Gnus includes a new back end @file{nnmaildir.el}. @xref{Maildir}.
26269 Printing capabilities are enhanced.
26271 Gnus supports Muttprint natively with @kbd{O P} from the Summary and
26272 Article buffers. Also, each individual @acronym{MIME} part can be
26273 printed using @kbd{p} on the @acronym{MIME} button.
26276 Message supports the Importance: (RFC 2156) header.
26278 In the message buffer, @kbd{C-c C-f C-i} or @kbd{C-c C-u} cycles through
26282 Gnus supports Cancel Locks in News.
26284 This means a header @samp{Cancel-Lock} is inserted in news posting. It is
26285 used to determine if you wrote an article or not (for canceling and
26286 superseding). Gnus generates a random password string the first time
26287 you post a message, and saves it in your @file{~/.emacs} using the Custom
26288 system. While the variable is called @code{canlock-password}, it is not
26289 security sensitive data. Publishing your canlock string on the web
26290 will not allow anyone to be able to anything she could not already do.
26291 The behavior can be changed by customizing @code{message-insert-canlock}.
26294 Gnus supports server-side mail filtering using Sieve.
26296 Sieve rules can be added as Group Parameters for groups, and the
26297 complete Sieve script is generated using @kbd{D g} from the Group
26298 buffer, and then uploaded to the server using @kbd{C-c C-l} in the
26299 generated Sieve buffer. @xref{Sieve Commands}, and the new Sieve
26300 manual @ref{Top, , Top, sieve, Emacs Sieve}.
26303 Extended format specs.
26305 Format spec @samp{%&user-date;} is added into
26306 @code{gnus-summary-line-format-alist}. Also, user defined extended
26307 format specs are supported. The extended format specs look like
26308 @samp{%u&foo;}, which invokes function
26309 @code{gnus-user-format-function-@var{foo}}. Because @samp{&} is used as the
26310 escape character, old user defined format @samp{%u&} is no longer supported.
26313 @kbd{/ *} (@code{gnus-summary-limit-include-cached}) is rewritten.
26315 It was aliased to @kbd{Y c}
26316 (@code{gnus-summary-insert-cached-articles}). The new function filters
26317 out other articles.
26319 @item Some limiting commands accept a @kbd{C-u} prefix to negate the match.
26321 If @kbd{C-u} is used on subject, author or extra headers, i.e., @kbd{/
26322 s}, @kbd{/ a}, and @kbd{/ x}
26323 (@code{gnus-summary-limit-to-@{subject,author,extra@}}) respectively, the
26324 result will be to display all articles that do not match the expression.
26327 Group names are treated as UTF-8 by default.
26329 This is supposedly what USEFOR wanted to migrate to. See
26330 @code{gnus-group-name-charset-group-alist} and
26331 @code{gnus-group-name-charset-method-alist} for customization.
26334 The nnml and nnfolder back ends store marks for each groups.
26336 This makes it possible to take backup of nnml/nnfolder servers/groups
26337 separately of @file{~/.newsrc.eld}, while preserving marks. It also
26338 makes it possible to share articles and marks between users (without
26339 sharing the @file{~/.newsrc.eld} file) within e.g. a department. It
26340 works by storing the marks stored in @file{~/.newsrc.eld} in a per-group
26341 file @file{.marks} (for nnml) and @file{@var{groupname}.mrk} (for
26342 nnfolder, named @var{groupname}). If the nnml/nnfolder is moved to
26343 another machine, Gnus will automatically use the @file{.marks} or
26344 @file{.mrk} file instead of the information in @file{~/.newsrc.eld}.
26345 The new server variables @code{nnml-marks-is-evil} and
26346 @code{nnfolder-marks-is-evil} can be used to disable this feature.
26349 The menu bar item (in Group and Summary buffer) named ``Misc'' has
26350 been renamed to ``Gnus''.
26353 The menu bar item (in Message mode) named ``@acronym{MML}'' has been
26354 renamed to ``Attachments''. Note that this menu also contains security
26355 related stuff, like signing and encryption (@pxref{Security, Security,,
26356 message, Message Manual}).
26359 @code{gnus-group-charset-alist} and
26360 @code{gnus-group-ignored-charsets-alist}.
26362 The regexps in these variables are compared with full group names
26363 instead of real group names in 5.8. Users who customize these
26364 variables should change those regexps accordingly. For example:
26366 ("^han\\>" euc-kr) -> ("\\(^\\|:\\)han\\>" euc-kr)
26370 Gnus supports @acronym{PGP} (RFC 1991/2440), @acronym{PGP/MIME} (RFC
26371 2015/3156) and @acronym{S/MIME} (RFC 2630-2633).
26373 It needs an external @acronym{S/MIME} and OpenPGP implementation, but no
26374 additional Lisp libraries. This add several menu items to the
26375 Attachments menu, and @kbd{C-c RET} key bindings, when composing
26376 messages. This also obsoletes @code{gnus-article-hide-pgp-hook}.
26379 Gnus inlines external parts (message/external).
26382 @acronym{MML} (Mime compose) prefix changed from @kbd{M-m} to @kbd{C-c
26385 This change was made to avoid conflict with the standard binding of
26386 @code{back-to-indentation}, which is also useful in message mode.
26389 The default for @code{message-forward-show-mml} changed to symbol @code{best}.
26391 The behavior for the @code{best} value is to show @acronym{MML} (i.e.,
26392 convert to @acronym{MIME}) when appropriate. @acronym{MML} will not be
26393 used when forwarding signed or encrypted messages, as the conversion
26394 invalidate the digital signature.
26401 @section The Manual
26405 This manual was generated from a TeXinfo file and then run through
26406 either @code{texi2dvi}
26408 or my own home-brewed TeXinfo to \LaTeX\ transformer,
26409 and then run through @code{latex} and @code{dvips}
26411 to get what you hold in your hands now.
26413 The following conventions have been used:
26418 This is a @samp{string}
26421 This is a @kbd{keystroke}
26424 This is a @file{file}
26427 This is a @code{symbol}
26431 So if I were to say ``set @code{flargnoze} to @samp{yes}'', that would
26435 (setq flargnoze "yes")
26438 If I say ``set @code{flumphel} to @code{yes}'', that would mean:
26441 (setq flumphel 'yes)
26444 @samp{yes} and @code{yes} are two @emph{very} different things---don't
26445 ever get them confused.
26449 Of course, everything in this manual is of vital interest, so you should
26450 read it all. Several times. However, if you feel like skimming the
26451 manual, look for that gnu head you should see in the margin over
26452 there---it means that what's being discussed is of more importance than
26453 the rest of the stuff. (On the other hand, if everything is infinitely
26454 important, how can anything be more important than that? Just one more
26455 of the mysteries of this world, I guess.)
26461 @node On Writing Manuals
26462 @section On Writing Manuals
26464 I guess most manuals are written after-the-fact; documenting a program
26465 that's already there. This is not how this manual is written. When
26466 implementing something, I write the manual entry for that something
26467 straight away. I then see that it's difficult to explain the
26468 functionality, so I write how it's supposed to be, and then I change the
26469 implementation. Writing the documentation and writing the code goes
26472 This, of course, means that this manual has no, or little, flow. It
26473 documents absolutely everything in Gnus, but often not where you're
26474 looking for it. It is a reference manual, and not a guide to how to get
26477 That would be a totally different book, that should be written using the
26478 reference manual as source material. It would look quite differently.
26483 @section Terminology
26485 @cindex terminology
26490 This is what you are supposed to use this thing for---reading news.
26491 News is generally fetched from a nearby @acronym{NNTP} server, and is
26492 generally publicly available to everybody. If you post news, the entire
26493 world is likely to read just what you have written, and they'll all
26494 snigger mischievously. Behind your back.
26498 Everything that's delivered to you personally is mail. Some news/mail
26499 readers (like Gnus) blur the distinction between mail and news, but
26500 there is a difference. Mail is private. News is public. Mailing is
26501 not posting, and replying is not following up.
26505 Send a mail to the person who has written what you are reading.
26509 Post an article to the current newsgroup responding to the article you
26514 Gnus considers mail and news to be mostly the same, really. The only
26515 difference is how to access the actual articles. News articles are
26516 commonly fetched via the protocol @acronym{NNTP}, whereas mail
26517 messages could be read from a file on the local disk. The internal
26518 architecture of Gnus thus comprises a ``front end'' and a number of
26519 ``back ends''. Internally, when you enter a group (by hitting
26520 @key{RET}, say), you thereby invoke a function in the front end in
26521 Gnus. The front end then ``talks'' to a back end and says things like
26522 ``Give me the list of articles in the foo group'' or ``Show me article
26525 So a back end mainly defines either a protocol (the @code{nntp} back
26526 end accesses news via @acronym{NNTP}, the @code{nnimap} back end
26527 accesses mail via @acronym{IMAP}) or a file format and directory
26528 layout (the @code{nnspool} back end accesses news via the common
26529 ``spool directory'' format, the @code{nnml} back end access mail via a
26530 file format and directory layout that's quite similar).
26532 Gnus does not handle the underlying media, so to speak---this is all
26533 done by the back ends. A back end is a collection of functions to
26534 access the articles.
26536 However, sometimes the term ``back end'' is also used where ``server''
26537 would have been more appropriate. And then there is the term ``select
26538 method'' which can mean either. The Gnus terminology can be quite
26543 Gnus will always use one method (and back end) as the @dfn{native}, or
26544 default, way of getting news.
26548 You can also have any number of foreign groups active at the same time.
26549 These are groups that use non-native non-secondary back ends for getting
26554 Secondary back ends are somewhere half-way between being native and being
26555 foreign, but they mostly act like they are native.
26559 A message that has been posted as news.
26562 @cindex mail message
26563 A message that has been mailed.
26567 A mail message or news article
26571 The top part of a message, where administrative information (etc.) is
26576 The rest of an article. Everything not in the head is in the
26581 A line from the head of an article.
26585 A collection of such lines, or a collection of heads. Or even a
26586 collection of @acronym{NOV} lines.
26588 @item @acronym{NOV}
26589 @cindex @acronym{NOV}
26590 When Gnus enters a group, it asks the back end for the headers of all
26591 unread articles in the group. Most servers support the News OverView
26592 format, which is more compact and much faster to read and parse than the
26593 normal @sc{head} format.
26597 Each group is subscribed at some @dfn{level} or other (1-9). The ones
26598 that have a lower level are ``more'' subscribed than the groups with a
26599 higher level. In fact, groups on levels 1-5 are considered
26600 @dfn{subscribed}; 6-7 are @dfn{unsubscribed}; 8 are @dfn{zombies}; and 9
26601 are @dfn{killed}. Commands for listing groups and scanning for new
26602 articles will all use the numeric prefix as @dfn{working level}.
26604 @item killed groups
26605 @cindex killed groups
26606 No information on killed groups is stored or updated, which makes killed
26607 groups much easier to handle than subscribed groups.
26609 @item zombie groups
26610 @cindex zombie groups
26611 Just like killed groups, only slightly less dead.
26614 @cindex active file
26615 The news server has to keep track of what articles it carries, and what
26616 groups exist. All this information in stored in the active file, which
26617 is rather large, as you might surmise.
26620 @cindex bogus groups
26621 A group that exists in the @file{.newsrc} file, but isn't known to the
26622 server (i.e., it isn't in the active file), is a @emph{bogus group}.
26623 This means that the group probably doesn't exist (any more).
26626 @cindex activating groups
26627 The act of asking the server for info on a group and computing the
26628 number of unread articles is called @dfn{activating the group}.
26629 Un-activated groups are listed with @samp{*} in the group buffer.
26633 News servers store their articles locally in one fashion or other.
26634 One old-fashioned storage method is to have just one file per
26635 article. That's called a ``traditional spool''.
26639 A machine one can connect to and get news (or mail) from.
26641 @item select method
26642 @cindex select method
26643 A structure that specifies the back end, the server and the virtual
26646 @item virtual server
26647 @cindex virtual server
26648 A named select method. Since a select method defines all there is to
26649 know about connecting to a (physical) server, taking the thing as a
26650 whole is a virtual server.
26654 Taking a buffer and running it through a filter of some sort. The
26655 result will (more often than not) be cleaner and more pleasing than the
26658 @item ephemeral groups
26659 @cindex ephemeral groups
26660 @cindex temporary groups
26661 Most groups store data on what articles you have read. @dfn{Ephemeral}
26662 groups are groups that will have no data stored---when you exit the
26663 group, it'll disappear into the aether.
26666 @cindex solid groups
26667 This is the opposite of ephemeral groups. All groups listed in the
26668 group buffer are solid groups.
26670 @item sparse articles
26671 @cindex sparse articles
26672 These are article placeholders shown in the summary buffer when
26673 @code{gnus-build-sparse-threads} has been switched on.
26677 To put responses to articles directly after the articles they respond
26678 to---in a hierarchical fashion.
26682 @cindex thread root
26683 The first article in a thread is the root. It is the ancestor of all
26684 articles in the thread.
26688 An article that has responses.
26692 An article that responds to a different article---its parent.
26696 A collection of messages in one file. The most common digest format is
26697 specified by RFC 1153.
26700 @cindex splitting, terminolgy
26701 @cindex mail sorting
26702 @cindex mail filtering (splitting)
26703 The action of sorting your emails according to certain rules. Sometimes
26704 incorrectly called mail filtering.
26710 @node Customization
26711 @section Customization
26712 @cindex general customization
26714 All variables are properly documented elsewhere in this manual. This
26715 section is designed to give general pointers on how to customize Gnus
26716 for some quite common situations.
26719 * Slow/Expensive Connection:: You run a local Emacs and get the news elsewhere.
26720 * Slow Terminal Connection:: You run a remote Emacs.
26721 * Little Disk Space:: You feel that having large setup files is icky.
26722 * Slow Machine:: You feel like buying a faster machine.
26726 @node Slow/Expensive Connection
26727 @subsection Slow/Expensive NNTP Connection
26729 If you run Emacs on a machine locally, and get your news from a machine
26730 over some very thin strings, you want to cut down on the amount of data
26731 Gnus has to get from the @acronym{NNTP} server.
26735 @item gnus-read-active-file
26736 Set this to @code{nil}, which will inhibit Gnus from requesting the
26737 entire active file from the server. This file is often very large. You
26738 also have to set @code{gnus-check-new-newsgroups} and
26739 @code{gnus-check-bogus-newsgroups} to @code{nil} to make sure that Gnus
26740 doesn't suddenly decide to fetch the active file anyway.
26742 @item gnus-nov-is-evil
26743 This one has to be @code{nil}. If not, grabbing article headers from
26744 the @acronym{NNTP} server will not be very fast. Not all @acronym{NNTP} servers
26745 support @sc{xover}; Gnus will detect this by itself.
26749 @node Slow Terminal Connection
26750 @subsection Slow Terminal Connection
26752 Let's say you use your home computer for dialing up the system that runs
26753 Emacs and Gnus. If your modem is slow, you want to reduce (as much as
26754 possible) the amount of data sent over the wires.
26758 @item gnus-auto-center-summary
26759 Set this to @code{nil} to inhibit Gnus from re-centering the summary
26760 buffer all the time. If it is @code{vertical}, do only vertical
26761 re-centering. If it is neither @code{nil} nor @code{vertical}, do both
26762 horizontal and vertical recentering.
26764 @item gnus-visible-headers
26765 Cut down on the headers included in the articles to the
26766 minimum. You can, in fact, make do without them altogether---most of the
26767 useful data is in the summary buffer, anyway. Set this variable to
26768 @samp{^NEVVVVER} or @samp{From:}, or whatever you feel you need.
26770 Set this hook to all the available hiding commands:
26772 (setq gnus-treat-hide-headers 'head
26773 gnus-treat-hide-signature t
26774 gnus-treat-hide-citation t)
26777 @item gnus-use-full-window
26778 By setting this to @code{nil}, you can make all the windows smaller.
26779 While this doesn't really cut down much generally, it means that you
26780 have to see smaller portions of articles before deciding that you didn't
26781 want to read them anyway.
26783 @item gnus-thread-hide-subtree
26784 If this is non-@code{nil}, all threads in the summary buffer will be
26788 @item gnus-updated-mode-lines
26789 If this is @code{nil}, Gnus will not put information in the buffer mode
26790 lines, which might save some time.
26794 @node Little Disk Space
26795 @subsection Little Disk Space
26798 The startup files can get rather large, so you may want to cut their
26799 sizes a bit if you are running out of space.
26803 @item gnus-save-newsrc-file
26804 If this is @code{nil}, Gnus will never save @file{.newsrc}---it will
26805 only save @file{.newsrc.eld}. This means that you will not be able to
26806 use any other newsreaders than Gnus. This variable is @code{t} by
26809 @item gnus-read-newsrc-file
26810 If this is @code{nil}, Gnus will never read @file{.newsrc}---it will
26811 only read @file{.newsrc.eld}. This means that you will not be able to
26812 use any other newsreaders than Gnus. This variable is @code{t} by
26815 @item gnus-save-killed-list
26816 If this is @code{nil}, Gnus will not save the list of dead groups. You
26817 should also set @code{gnus-check-new-newsgroups} to @code{ask-server}
26818 and @code{gnus-check-bogus-newsgroups} to @code{nil} if you set this
26819 variable to @code{nil}. This variable is @code{t} by default.
26825 @subsection Slow Machine
26826 @cindex slow machine
26828 If you have a slow machine, or are just really impatient, there are a
26829 few things you can do to make Gnus run faster.
26831 Set @code{gnus-check-new-newsgroups} and
26832 @code{gnus-check-bogus-newsgroups} to @code{nil} to make startup faster.
26834 Set @code{gnus-show-threads}, @code{gnus-use-cross-reference} and
26835 @code{gnus-nov-is-evil} to @code{nil} to make entering and exiting the
26836 summary buffer faster.
26840 @node Troubleshooting
26841 @section Troubleshooting
26842 @cindex troubleshooting
26844 Gnus works @emph{so} well straight out of the box---I can't imagine any
26852 Make sure your computer is switched on.
26855 Make sure that you really load the current Gnus version. If you have
26856 been running @sc{gnus}, you need to exit Emacs and start it up again before
26860 Try doing an @kbd{M-x gnus-version}. If you get something that looks
26861 like @samp{Gnus v5.10.6} you have the right files loaded. Otherwise
26862 you have some old @file{.el} files lying around. Delete these.
26865 Read the help group (@kbd{G h} in the group buffer) for a
26866 @acronym{FAQ} and a how-to.
26869 @vindex max-lisp-eval-depth
26870 Gnus works on many recursive structures, and in some extreme (and very
26871 rare) cases Gnus may recurse down ``too deeply'' and Emacs will beep at
26872 you. If this happens to you, set @code{max-lisp-eval-depth} to 500 or
26873 something like that.
26876 If all else fails, report the problem as a bug.
26879 @cindex reporting bugs
26881 @kindex M-x gnus-bug
26883 If you find a bug in Gnus, you can report it with the @kbd{M-x gnus-bug}
26884 command. @kbd{M-x set-variable RET debug-on-error RET t RET}, and send
26885 me the backtrace. I will fix bugs, but I can only fix them if you send
26886 me a precise description as to how to reproduce the bug.
26888 You really can never be too detailed in a bug report. Always use the
26889 @kbd{M-x gnus-bug} command when you make bug reports, even if it creates
26890 a 10Kb mail each time you use it, and even if you have sent me your
26891 environment 500 times before. I don't care. I want the full info each
26894 It is also important to remember that I have no memory whatsoever. If
26895 you send a bug report, and I send you a reply, and then you just send
26896 back ``No, it's not! Moron!'', I will have no idea what you are
26897 insulting me about. Always over-explain everything. It's much easier
26898 for all of us---if I don't have all the information I need, I will just
26899 mail you and ask for more info, and everything takes more time.
26901 If the problem you're seeing is very visual, and you can't quite explain
26902 it, copy the Emacs window to a file (with @code{xwd}, for instance), put
26903 it somewhere it can be reached, and include the URL of the picture in
26907 If you would like to contribute a patch to fix bugs or make
26908 improvements, please produce the patch using @samp{diff -u}.
26911 If you want to debug your problem further before reporting, possibly
26912 in order to solve the problem yourself and send a patch, you can use
26913 edebug. Debugging Lisp code is documented in the Elisp manual
26914 (@pxref{Debugging, , Debugging Lisp Programs, elisp, The GNU Emacs
26915 Lisp Reference Manual}). To get you started with edebug, consider if
26916 you discover some weird behavior when pressing @kbd{c}, the first
26917 step is to do @kbd{C-h k c} and click on the hyperlink (Emacs only) in
26918 the documentation buffer that leads you to the function definition,
26919 then press @kbd{M-x edebug-defun RET} with point inside that function,
26920 return to Gnus and press @kbd{c} to invoke the code. You will be
26921 placed in the lisp buffer and can single step using @kbd{SPC} and
26922 evaluate expressions using @kbd{M-:} or inspect variables using
26923 @kbd{C-h v}, abort execution with @kbd{q}, and resume execution with
26924 @kbd{c} or @kbd{g}.
26929 Sometimes, a problem do not directly generate an elisp error but
26930 manifests itself by causing Gnus to be very slow. In these cases, you
26931 can use @kbd{M-x toggle-debug-on-quit} and press @kbd{C-g} when things are
26932 slow, and then try to analyze the backtrace (repeating the procedure
26933 helps isolating the real problem areas).
26935 A fancier approach is to use the elisp profiler, ELP. The profiler is
26936 (or should be) fully documented elsewhere, but to get you started
26937 there are a few steps that need to be followed. First, instrument the
26938 part of Gnus you are interested in for profiling, e.g. @kbd{M-x
26939 elp-instrument-package RET gnus} or @kbd{M-x elp-instrument-package
26940 RET message}. Then perform the operation that is slow and press
26941 @kbd{M-x elp-results}. You will then see which operations that takes
26942 time, and can debug them further. If the entire operation takes much
26943 longer than the time spent in the slowest function in the profiler
26944 output, you probably profiled the wrong part of Gnus. To reset
26945 profiling statistics, use @kbd{M-x elp-reset-all}. @kbd{M-x
26946 elp-restore-all} is supposed to remove profiling, but given the
26947 complexities and dynamic code generation in Gnus, it might not always
26950 @cindex gnu.emacs.gnus
26951 @cindex ding mailing list
26952 If you just need help, you are better off asking on
26953 @samp{gnu.emacs.gnus}. I'm not very helpful. You can also ask on
26954 @email{ding@@gnus.org, the ding mailing list}. Write to
26955 @email{ding-request@@gnus.org} to subscribe.
26959 @node Gnus Reference Guide
26960 @section Gnus Reference Guide
26962 It is my hope that other people will figure out smart stuff that Gnus
26963 can do, and that other people will write those smart things as well. To
26964 facilitate that I thought it would be a good idea to describe the inner
26965 workings of Gnus. And some of the not-so-inner workings, while I'm at
26968 You can never expect the internals of a program not to change, but I
26969 will be defining (in some details) the interface between Gnus and its
26970 back ends (this is written in stone), the format of the score files
26971 (ditto), data structures (some are less likely to change than others)
26972 and general methods of operation.
26975 * Gnus Utility Functions:: Common functions and variable to use.
26976 * Back End Interface:: How Gnus communicates with the servers.
26977 * Score File Syntax:: A BNF definition of the score file standard.
26978 * Headers:: How Gnus stores headers internally.
26979 * Ranges:: A handy format for storing mucho numbers.
26980 * Group Info:: The group info format.
26981 * Extended Interactive:: Symbolic prefixes and stuff.
26982 * Emacs/XEmacs Code:: Gnus can be run under all modern Emacsen.
26983 * Various File Formats:: Formats of files that Gnus use.
26987 @node Gnus Utility Functions
26988 @subsection Gnus Utility Functions
26989 @cindex Gnus utility functions
26990 @cindex utility functions
26992 @cindex internal variables
26994 When writing small functions to be run from hooks (and stuff), it's
26995 vital to have access to the Gnus internal functions and variables.
26996 Below is a list of the most common ones.
27000 @item gnus-newsgroup-name
27001 @vindex gnus-newsgroup-name
27002 This variable holds the name of the current newsgroup.
27004 @item gnus-find-method-for-group
27005 @findex gnus-find-method-for-group
27006 A function that returns the select method for @var{group}.
27008 @item gnus-group-real-name
27009 @findex gnus-group-real-name
27010 Takes a full (prefixed) Gnus group name, and returns the unprefixed
27013 @item gnus-group-prefixed-name
27014 @findex gnus-group-prefixed-name
27015 Takes an unprefixed group name and a select method, and returns the full
27016 (prefixed) Gnus group name.
27018 @item gnus-get-info
27019 @findex gnus-get-info
27020 Returns the group info list for @var{group}.
27022 @item gnus-group-unread
27023 @findex gnus-group-unread
27024 The number of unread articles in @var{group}, or @code{t} if that is
27028 @findex gnus-active
27029 The active entry for @var{group}.
27031 @item gnus-set-active
27032 @findex gnus-set-active
27033 Set the active entry for @var{group}.
27035 @item gnus-add-current-to-buffer-list
27036 @findex gnus-add-current-to-buffer-list
27037 Adds the current buffer to the list of buffers to be killed on Gnus
27040 @item gnus-continuum-version
27041 @findex gnus-continuum-version
27042 Takes a Gnus version string as a parameter and returns a floating point
27043 number. Earlier versions will always get a lower number than later
27046 @item gnus-group-read-only-p
27047 @findex gnus-group-read-only-p
27048 Says whether @var{group} is read-only or not.
27050 @item gnus-news-group-p
27051 @findex gnus-news-group-p
27052 Says whether @var{group} came from a news back end.
27054 @item gnus-ephemeral-group-p
27055 @findex gnus-ephemeral-group-p
27056 Says whether @var{group} is ephemeral or not.
27058 @item gnus-server-to-method
27059 @findex gnus-server-to-method
27060 Returns the select method corresponding to @var{server}.
27062 @item gnus-server-equal
27063 @findex gnus-server-equal
27064 Says whether two virtual servers are equal.
27066 @item gnus-group-native-p
27067 @findex gnus-group-native-p
27068 Says whether @var{group} is native or not.
27070 @item gnus-group-secondary-p
27071 @findex gnus-group-secondary-p
27072 Says whether @var{group} is secondary or not.
27074 @item gnus-group-foreign-p
27075 @findex gnus-group-foreign-p
27076 Says whether @var{group} is foreign or not.
27078 @item gnus-group-find-parameter
27079 @findex gnus-group-find-parameter
27080 Returns the parameter list of @var{group}. If given a second parameter,
27081 returns the value of that parameter for @var{group}.
27083 @item gnus-group-set-parameter
27084 @findex gnus-group-set-parameter
27085 Takes three parameters; @var{group}, @var{parameter} and @var{value}.
27087 @item gnus-narrow-to-body
27088 @findex gnus-narrow-to-body
27089 Narrows the current buffer to the body of the article.
27091 @item gnus-check-backend-function
27092 @findex gnus-check-backend-function
27093 Takes two parameters, @var{function} and @var{group}. If the back end
27094 @var{group} comes from supports @var{function}, return non-@code{nil}.
27097 (gnus-check-backend-function "request-scan" "nnml:misc")
27101 @item gnus-read-method
27102 @findex gnus-read-method
27103 Prompts the user for a select method.
27108 @node Back End Interface
27109 @subsection Back End Interface
27111 Gnus doesn't know anything about @acronym{NNTP}, spools, mail or virtual
27112 groups. It only knows how to talk to @dfn{virtual servers}. A virtual
27113 server is a @dfn{back end} and some @dfn{back end variables}. As examples
27114 of the first, we have @code{nntp}, @code{nnspool} and @code{nnmbox}. As
27115 examples of the latter we have @code{nntp-port-number} and
27116 @code{nnmbox-directory}.
27118 When Gnus asks for information from a back end---say @code{nntp}---on
27119 something, it will normally include a virtual server name in the
27120 function parameters. (If not, the back end should use the ``current''
27121 virtual server.) For instance, @code{nntp-request-list} takes a virtual
27122 server as its only (optional) parameter. If this virtual server hasn't
27123 been opened, the function should fail.
27125 Note that a virtual server name has no relation to some physical server
27126 name. Take this example:
27130 (nntp-address "ifi.uio.no")
27131 (nntp-port-number 4324))
27134 Here the virtual server name is @samp{odd-one} while the name of
27135 the physical server is @samp{ifi.uio.no}.
27137 The back ends should be able to switch between several virtual servers.
27138 The standard back ends implement this by keeping an alist of virtual
27139 server environments that they pull down/push up when needed.
27141 There are two groups of interface functions: @dfn{required functions},
27142 which must be present, and @dfn{optional functions}, which Gnus will
27143 always check for presence before attempting to call 'em.
27145 All these functions are expected to return data in the buffer
27146 @code{nntp-server-buffer} (@samp{ *nntpd*}), which is somewhat
27147 unfortunately named, but we'll have to live with it. When I talk about
27148 @dfn{resulting data}, I always refer to the data in that buffer. When I
27149 talk about @dfn{return value}, I talk about the function value returned by
27150 the function call. Functions that fail should return @code{nil} as the
27153 Some back ends could be said to be @dfn{server-forming} back ends, and
27154 some might be said not to be. The latter are back ends that generally
27155 only operate on one group at a time, and have no concept of ``server''
27156 ---they have a group, and they deliver info on that group and nothing
27159 Gnus identifies each message by way of group name and article number. A
27160 few remarks about these article numbers might be useful. First of all,
27161 the numbers are positive integers. Secondly, it is normally not
27162 possible for later articles to ``re-use'' older article numbers without
27163 confusing Gnus. That is, if a group has ever contained a message
27164 numbered 42, then no other message may get that number, or Gnus will get
27165 mightily confused.@footnote{See the function
27166 @code{nnchoke-request-update-info}, @ref{Optional Back End Functions}.}
27167 Third, article numbers must be assigned in order of arrival in the
27168 group; this is not necessarily the same as the date of the message.
27170 The previous paragraph already mentions all the ``hard'' restrictions that
27171 article numbers must fulfill. But it seems that it might be useful to
27172 assign @emph{consecutive} article numbers, for Gnus gets quite confused
27173 if there are holes in the article numbering sequence. However, due to
27174 the ``no-reuse'' restriction, holes cannot be avoided altogether. It's
27175 also useful for the article numbers to start at 1 to avoid running out
27176 of numbers as long as possible.
27178 Note that by convention, back ends are named @code{nnsomething}, but
27179 Gnus also comes with some @code{nnnotbackends}, such as
27180 @file{nnheader.el}, @file{nnmail.el} and @file{nnoo.el}.
27182 In the examples and definitions I will refer to the imaginary back end
27185 @cindex @code{nnchoke}
27188 * Required Back End Functions:: Functions that must be implemented.
27189 * Optional Back End Functions:: Functions that need not be implemented.
27190 * Error Messaging:: How to get messages and report errors.
27191 * Writing New Back Ends:: Extending old back ends.
27192 * Hooking New Back Ends Into Gnus:: What has to be done on the Gnus end.
27193 * Mail-like Back Ends:: Some tips on mail back ends.
27197 @node Required Back End Functions
27198 @subsubsection Required Back End Functions
27202 @item (nnchoke-retrieve-headers ARTICLES &optional GROUP SERVER FETCH-OLD)
27204 @var{articles} is either a range of article numbers or a list of
27205 @code{Message-ID}s. Current back ends do not fully support either---only
27206 sequences (lists) of article numbers, and most back ends do not support
27207 retrieval of @code{Message-ID}s. But they should try for both.
27209 The result data should either be HEADs or @acronym{NOV} lines, and the result
27210 value should either be @code{headers} or @code{nov} to reflect this.
27211 This might later be expanded to @code{various}, which will be a mixture
27212 of HEADs and @acronym{NOV} lines, but this is currently not supported by Gnus.
27214 If @var{fetch-old} is non-@code{nil} it says to try fetching ``extra
27215 headers'', in some meaning of the word. This is generally done by
27216 fetching (at most) @var{fetch-old} extra headers less than the smallest
27217 article number in @code{articles}, and filling the gaps as well. The
27218 presence of this parameter can be ignored if the back end finds it
27219 cumbersome to follow the request. If this is non-@code{nil} and not a
27220 number, do maximum fetches.
27222 Here's an example HEAD:
27225 221 1056 Article retrieved.
27226 Path: ifi.uio.no!sturles
27227 From: sturles@@ifi.uio.no (Sturle Sunde)
27228 Newsgroups: ifi.discussion
27229 Subject: Re: Something very droll
27230 Date: 27 Oct 1994 14:02:57 +0100
27231 Organization: Dept. of Informatics, University of Oslo, Norway
27233 Message-ID: <38o8e1$a0o@@holmenkollen.ifi.uio.no>
27234 References: <38jdmq$4qu@@visbur.ifi.uio.no>
27235 NNTP-Posting-Host: holmenkollen.ifi.uio.no
27239 So a @code{headers} return value would imply that there's a number of
27240 these in the data buffer.
27242 Here's a BNF definition of such a buffer:
27246 head = error / valid-head
27247 error-message = [ "4" / "5" ] 2number " " <error message> eol
27248 valid-head = valid-message *header "." eol
27249 valid-message = "221 " <number> " Article retrieved." eol
27250 header = <text> eol
27254 (The version of BNF used here is the one used in RFC822.)
27256 If the return value is @code{nov}, the data buffer should contain
27257 @dfn{network overview database} lines. These are basically fields
27261 nov-buffer = *nov-line
27262 nov-line = field 7*8[ <TAB> field ] eol
27263 field = <text except TAB>
27266 For a closer look at what should be in those fields,
27270 @item (nnchoke-open-server SERVER &optional DEFINITIONS)
27272 @var{server} is here the virtual server name. @var{definitions} is a
27273 list of @code{(VARIABLE VALUE)} pairs that define this virtual server.
27275 If the server can't be opened, no error should be signaled. The back end
27276 may then choose to refuse further attempts at connecting to this
27277 server. In fact, it should do so.
27279 If the server is opened already, this function should return a
27280 non-@code{nil} value. There should be no data returned.
27283 @item (nnchoke-close-server &optional SERVER)
27285 Close connection to @var{server} and free all resources connected
27286 to it. Return @code{nil} if the server couldn't be closed for some
27289 There should be no data returned.
27292 @item (nnchoke-request-close)
27294 Close connection to all servers and free all resources that the back end
27295 have reserved. All buffers that have been created by that back end
27296 should be killed. (Not the @code{nntp-server-buffer}, though.) This
27297 function is generally only called when Gnus is shutting down.
27299 There should be no data returned.
27302 @item (nnchoke-server-opened &optional SERVER)
27304 If @var{server} is the current virtual server, and the connection to the
27305 physical server is alive, then this function should return a
27306 non-@code{nil} value. This function should under no circumstances
27307 attempt to reconnect to a server we have lost connection to.
27309 There should be no data returned.
27312 @item (nnchoke-status-message &optional SERVER)
27314 This function should return the last error message from @var{server}.
27316 There should be no data returned.
27319 @item (nnchoke-request-article ARTICLE &optional GROUP SERVER TO-BUFFER)
27321 The result data from this function should be the article specified by
27322 @var{article}. This might either be a @code{Message-ID} or a number.
27323 It is optional whether to implement retrieval by @code{Message-ID}, but
27324 it would be nice if that were possible.
27326 If @var{to-buffer} is non-@code{nil}, the result data should be returned
27327 in this buffer instead of the normal data buffer. This is to make it
27328 possible to avoid copying large amounts of data from one buffer to
27329 another, while Gnus mainly requests articles to be inserted directly
27330 into its article buffer.
27332 If it is at all possible, this function should return a cons cell where
27333 the @code{car} is the group name the article was fetched from, and the @code{cdr} is
27334 the article number. This will enable Gnus to find out what the real
27335 group and article numbers are when fetching articles by
27336 @code{Message-ID}. If this isn't possible, @code{t} should be returned
27337 on successful article retrieval.
27340 @item (nnchoke-request-group GROUP &optional SERVER FAST)
27342 Get data on @var{group}. This function also has the side effect of
27343 making @var{group} the current group.
27345 If @var{fast}, don't bother to return useful data, just make @var{group}
27348 Here's an example of some result data and a definition of the same:
27351 211 56 1000 1059 ifi.discussion
27354 The first number is the status, which should be 211. Next is the
27355 total number of articles in the group, the lowest article number, the
27356 highest article number, and finally the group name. Note that the total
27357 number of articles may be less than one might think while just
27358 considering the highest and lowest article numbers, but some articles
27359 may have been canceled. Gnus just discards the total-number, so
27360 whether one should take the bother to generate it properly (if that is a
27361 problem) is left as an exercise to the reader. If the group contains no
27362 articles, the lowest article number should be reported as 1 and the
27366 group-status = [ error / info ] eol
27367 error = [ "4" / "5" ] 2<number> " " <Error message>
27368 info = "211 " 3* [ <number> " " ] <string>
27372 @item (nnchoke-close-group GROUP &optional SERVER)
27374 Close @var{group} and free any resources connected to it. This will be
27375 a no-op on most back ends.
27377 There should be no data returned.
27380 @item (nnchoke-request-list &optional SERVER)
27382 Return a list of all groups available on @var{server}. And that means
27385 Here's an example from a server that only carries two groups:
27388 ifi.test 0000002200 0000002000 y
27389 ifi.discussion 3324 3300 n
27392 On each line we have a group name, then the highest article number in
27393 that group, the lowest article number, and finally a flag. If the group
27394 contains no articles, the lowest article number should be reported as 1
27395 and the highest as 0.
27398 active-file = *active-line
27399 active-line = name " " <number> " " <number> " " flags eol
27401 flags = "n" / "y" / "m" / "x" / "j" / "=" name
27404 The flag says whether the group is read-only (@samp{n}), is moderated
27405 (@samp{m}), is dead (@samp{x}), is aliased to some other group
27406 (@samp{=other-group}) or none of the above (@samp{y}).
27409 @item (nnchoke-request-post &optional SERVER)
27411 This function should post the current buffer. It might return whether
27412 the posting was successful or not, but that's not required. If, for
27413 instance, the posting is done asynchronously, it has generally not been
27414 completed by the time this function concludes. In that case, this
27415 function should set up some kind of sentinel to beep the user loud and
27416 clear if the posting could not be completed.
27418 There should be no result data from this function.
27423 @node Optional Back End Functions
27424 @subsubsection Optional Back End Functions
27428 @item (nnchoke-retrieve-groups GROUPS &optional SERVER)
27430 @var{groups} is a list of groups, and this function should request data
27431 on all those groups. How it does it is of no concern to Gnus, but it
27432 should attempt to do this in a speedy fashion.
27434 The return value of this function can be either @code{active} or
27435 @code{group}, which says what the format of the result data is. The
27436 former is in the same format as the data from
27437 @code{nnchoke-request-list}, while the latter is a buffer full of lines
27438 in the same format as @code{nnchoke-request-group} gives.
27441 group-buffer = *active-line / *group-status
27445 @item (nnchoke-request-update-info GROUP INFO &optional SERVER)
27447 A Gnus group info (@pxref{Group Info}) is handed to the back end for
27448 alterations. This comes in handy if the back end really carries all
27449 the information (as is the case with virtual and imap groups). This
27450 function should destructively alter the info to suit its needs, and
27451 should return a non-@code{nil} value.
27453 There should be no result data from this function.
27456 @item (nnchoke-request-type GROUP &optional ARTICLE)
27458 When the user issues commands for ``sending news'' (@kbd{F} in the
27459 summary buffer, for instance), Gnus has to know whether the article the
27460 user is following up on is news or mail. This function should return
27461 @code{news} if @var{article} in @var{group} is news, @code{mail} if it
27462 is mail and @code{unknown} if the type can't be decided. (The
27463 @var{article} parameter is necessary in @code{nnvirtual} groups which
27464 might very well combine mail groups and news groups.) Both @var{group}
27465 and @var{article} may be @code{nil}.
27467 There should be no result data from this function.
27470 @item (nnchoke-request-set-mark GROUP ACTION &optional SERVER)
27472 Set/remove/add marks on articles. Normally Gnus handles the article
27473 marks (such as read, ticked, expired etc) internally, and store them in
27474 @file{~/.newsrc.eld}. Some back ends (such as @acronym{IMAP}) however carry
27475 all information about the articles on the server, so Gnus need to
27476 propagate the mark information to the server.
27478 @var{action} is a list of mark setting requests, having this format:
27481 (RANGE ACTION MARK)
27484 @var{range} is a range of articles you wish to update marks on.
27485 @var{action} is @code{add} or @code{del}, used to add marks or remove
27486 marks (preserving all marks not mentioned). @var{mark} is a list of
27487 marks; where each mark is a symbol. Currently used marks are
27488 @code{read}, @code{tick}, @code{reply}, @code{expire}, @code{killed},
27489 @code{dormant}, @code{save}, @code{download}, @code{unsend},
27490 @code{forward} and @code{recent}, but your back end should, if
27491 possible, not limit itself to these.
27493 Given contradictory actions, the last action in the list should be the
27494 effective one. That is, if your action contains a request to add the
27495 @code{tick} mark on article 1 and, later in the list, a request to
27496 remove the mark on the same article, the mark should in fact be removed.
27498 An example action list:
27501 (((5 12 30) 'del '(tick))
27502 ((10 . 90) 'add '(read expire))
27503 ((92 94) 'del '(read)))
27506 The function should return a range of articles it wasn't able to set the
27507 mark on (currently not used for anything).
27509 There should be no result data from this function.
27511 @item (nnchoke-request-update-mark GROUP ARTICLE MARK)
27513 If the user tries to set a mark that the back end doesn't like, this
27514 function may change the mark. Gnus will use whatever this function
27515 returns as the mark for @var{article} instead of the original
27516 @var{mark}. If the back end doesn't care, it must return the original
27517 @var{mark}, and not @code{nil} or any other type of garbage.
27519 The only use for this I can see is what @code{nnvirtual} does with
27520 it---if a component group is auto-expirable, marking an article as read
27521 in the virtual group should result in the article being marked as
27524 There should be no result data from this function.
27527 @item (nnchoke-request-scan &optional GROUP SERVER)
27529 This function may be called at any time (by Gnus or anything else) to
27530 request that the back end check for incoming articles, in one way or
27531 another. A mail back end will typically read the spool file or query
27532 the @acronym{POP} server when this function is invoked. The
27533 @var{group} doesn't have to be heeded---if the back end decides that
27534 it is too much work just scanning for a single group, it may do a
27535 total scan of all groups. It would be nice, however, to keep things
27536 local if that's practical.
27538 There should be no result data from this function.
27541 @item (nnchoke-request-group-description GROUP &optional SERVER)
27543 The result data from this function should be a description of
27547 description-line = name <TAB> description eol
27549 description = <text>
27552 @item (nnchoke-request-list-newsgroups &optional SERVER)
27554 The result data from this function should be the description of all
27555 groups available on the server.
27558 description-buffer = *description-line
27562 @item (nnchoke-request-newgroups DATE &optional SERVER)
27564 The result data from this function should be all groups that were
27565 created after @samp{date}, which is in normal human-readable date format
27566 (i.e., the date format used in mail and news headers, and returned by
27567 the function @code{message-make-date} by default). The data should be
27568 in the active buffer format.
27570 It is okay for this function to return ``too many'' groups; some back ends
27571 might find it cheaper to return the full list of groups, rather than
27572 just the new groups. But don't do this for back ends with many groups.
27573 Normally, if the user creates the groups herself, there won't be too
27574 many groups, so @code{nnml} and the like are probably safe. But for
27575 back ends like @code{nntp}, where the groups have been created by the
27576 server, it is quite likely that there can be many groups.
27579 @item (nnchoke-request-create-group GROUP &optional SERVER)
27581 This function should create an empty group with name @var{group}.
27583 There should be no return data.
27586 @item (nnchoke-request-expire-articles ARTICLES &optional GROUP SERVER FORCE)
27588 This function should run the expiry process on all articles in the
27589 @var{articles} range (which is currently a simple list of article
27590 numbers.) It is left up to the back end to decide how old articles
27591 should be before they are removed by this function. If @var{force} is
27592 non-@code{nil}, all @var{articles} should be deleted, no matter how new
27595 This function should return a list of articles that it did not/was not
27598 There should be no result data returned.
27601 @item (nnchoke-request-move-article ARTICLE GROUP SERVER ACCEPT-FORM &optional LAST)
27603 This function should move @var{article} (which is a number) from
27604 @var{group} by calling @var{accept-form}.
27606 This function should ready the article in question for moving by
27607 removing any header lines it has added to the article, and generally
27608 should ``tidy up'' the article. Then it should @code{eval}
27609 @var{accept-form} in the buffer where the ``tidy'' article is. This
27610 will do the actual copying. If this @code{eval} returns a
27611 non-@code{nil} value, the article should be removed.
27613 If @var{last} is @code{nil}, that means that there is a high likelihood
27614 that there will be more requests issued shortly, so that allows some
27617 The function should return a cons where the @code{car} is the group name and
27618 the @code{cdr} is the article number that the article was entered as.
27620 There should be no data returned.
27623 @item (nnchoke-request-accept-article GROUP &optional SERVER LAST)
27625 This function takes the current buffer and inserts it into @var{group}.
27626 If @var{last} in @code{nil}, that means that there will be more calls to
27627 this function in short order.
27629 The function should return a cons where the @code{car} is the group name and
27630 the @code{cdr} is the article number that the article was entered as.
27632 The group should exist before the back end is asked to accept the
27633 article for that group.
27635 There should be no data returned.
27638 @item (nnchoke-request-replace-article ARTICLE GROUP BUFFER)
27640 This function should remove @var{article} (which is a number) from
27641 @var{group} and insert @var{buffer} there instead.
27643 There should be no data returned.
27646 @item (nnchoke-request-delete-group GROUP FORCE &optional SERVER)
27648 This function should delete @var{group}. If @var{force}, it should
27649 really delete all the articles in the group, and then delete the group
27650 itself. (If there is such a thing as ``the group itself''.)
27652 There should be no data returned.
27655 @item (nnchoke-request-rename-group GROUP NEW-NAME &optional SERVER)
27657 This function should rename @var{group} into @var{new-name}. All
27658 articles in @var{group} should move to @var{new-name}.
27660 There should be no data returned.
27665 @node Error Messaging
27666 @subsubsection Error Messaging
27668 @findex nnheader-report
27669 @findex nnheader-get-report
27670 The back ends should use the function @code{nnheader-report} to report
27671 error conditions---they should not raise errors when they aren't able to
27672 perform a request. The first argument to this function is the back end
27673 symbol, and the rest are interpreted as arguments to @code{format} if
27674 there are multiple of them, or just a string if there is one of them.
27675 This function must always returns @code{nil}.
27678 (nnheader-report 'nnchoke "You did something totally bogus")
27680 (nnheader-report 'nnchoke "Could not request group %s" group)
27683 Gnus, in turn, will call @code{nnheader-get-report} when it gets a
27684 @code{nil} back from a server, and this function returns the most
27685 recently reported message for the back end in question. This function
27686 takes one argument---the server symbol.
27688 Internally, these functions access @var{back-end}@code{-status-string},
27689 so the @code{nnchoke} back end will have its error message stored in
27690 @code{nnchoke-status-string}.
27693 @node Writing New Back Ends
27694 @subsubsection Writing New Back Ends
27696 Many back ends are quite similar. @code{nnml} is just like
27697 @code{nnspool}, but it allows you to edit the articles on the server.
27698 @code{nnmh} is just like @code{nnml}, but it doesn't use an active file,
27699 and it doesn't maintain overview databases. @code{nndir} is just like
27700 @code{nnml}, but it has no concept of ``groups'', and it doesn't allow
27703 It would make sense if it were possible to ``inherit'' functions from
27704 back ends when writing new back ends. And, indeed, you can do that if you
27705 want to. (You don't have to if you don't want to, of course.)
27707 All the back ends declare their public variables and functions by using a
27708 package called @code{nnoo}.
27710 To inherit functions from other back ends (and allow other back ends to
27711 inherit functions from the current back end), you should use the
27717 This macro declares the first parameter to be a child of the subsequent
27718 parameters. For instance:
27721 (nnoo-declare nndir
27725 @code{nndir} has declared here that it intends to inherit functions from
27726 both @code{nnml} and @code{nnmh}.
27729 This macro is equivalent to @code{defvar}, but registers the variable as
27730 a public server variable. Most state-oriented variables should be
27731 declared with @code{defvoo} instead of @code{defvar}.
27733 In addition to the normal @code{defvar} parameters, it takes a list of
27734 variables in the parent back ends to map the variable to when executing
27735 a function in those back ends.
27738 (defvoo nndir-directory nil
27739 "Where nndir will look for groups."
27740 nnml-current-directory nnmh-current-directory)
27743 This means that @code{nnml-current-directory} will be set to
27744 @code{nndir-directory} when an @code{nnml} function is called on behalf
27745 of @code{nndir}. (The same with @code{nnmh}.)
27747 @item nnoo-define-basics
27748 This macro defines some common functions that almost all back ends should
27752 (nnoo-define-basics nndir)
27756 This macro is just like @code{defun} and takes the same parameters. In
27757 addition to doing the normal @code{defun} things, it registers the
27758 function as being public so that other back ends can inherit it.
27760 @item nnoo-map-functions
27761 This macro allows mapping of functions from the current back end to
27762 functions from the parent back ends.
27765 (nnoo-map-functions nndir
27766 (nnml-retrieve-headers 0 nndir-current-group 0 0)
27767 (nnmh-request-article 0 nndir-current-group 0 0))
27770 This means that when @code{nndir-retrieve-headers} is called, the first,
27771 third, and fourth parameters will be passed on to
27772 @code{nnml-retrieve-headers}, while the second parameter is set to the
27773 value of @code{nndir-current-group}.
27776 This macro allows importing functions from back ends. It should be the
27777 last thing in the source file, since it will only define functions that
27778 haven't already been defined.
27784 nnmh-request-newgroups)
27788 This means that calls to @code{nndir-request-list} should just be passed
27789 on to @code{nnmh-request-list}, while all public functions from
27790 @code{nnml} that haven't been defined in @code{nndir} yet should be
27795 Below is a slightly shortened version of the @code{nndir} back end.
27798 ;;; @r{nndir.el --- single directory newsgroup access for Gnus}
27799 ;; @r{Copyright (C) 1995,96 Free Software Foundation, Inc.}
27803 (require 'nnheader)
27807 (eval-when-compile (require 'cl))
27809 (nnoo-declare nndir
27812 (defvoo nndir-directory nil
27813 "Where nndir will look for groups."
27814 nnml-current-directory nnmh-current-directory)
27816 (defvoo nndir-nov-is-evil nil
27817 "*Non-nil means that nndir will never retrieve NOV headers."
27820 (defvoo nndir-current-group ""
27822 nnml-current-group nnmh-current-group)
27823 (defvoo nndir-top-directory nil nil nnml-directory nnmh-directory)
27824 (defvoo nndir-get-new-mail nil nil nnml-get-new-mail nnmh-get-new-mail)
27826 (defvoo nndir-status-string "" nil nnmh-status-string)
27827 (defconst nndir-version "nndir 1.0")
27829 ;;; @r{Interface functions.}
27831 (nnoo-define-basics nndir)
27833 (deffoo nndir-open-server (server &optional defs)
27834 (setq nndir-directory
27835 (or (cadr (assq 'nndir-directory defs))
27837 (unless (assq 'nndir-directory defs)
27838 (push `(nndir-directory ,server) defs))
27839 (push `(nndir-current-group
27840 ,(file-name-nondirectory
27841 (directory-file-name nndir-directory)))
27843 (push `(nndir-top-directory
27844 ,(file-name-directory (directory-file-name nndir-directory)))
27846 (nnoo-change-server 'nndir server defs))
27848 (nnoo-map-functions nndir
27849 (nnml-retrieve-headers 0 nndir-current-group 0 0)
27850 (nnmh-request-article 0 nndir-current-group 0 0)
27851 (nnmh-request-group nndir-current-group 0 0)
27852 (nnmh-close-group nndir-current-group 0))
27856 nnmh-status-message
27858 nnmh-request-newgroups))
27864 @node Hooking New Back Ends Into Gnus
27865 @subsubsection Hooking New Back Ends Into Gnus
27867 @vindex gnus-valid-select-methods
27868 @findex gnus-declare-backend
27869 Having Gnus start using your new back end is rather easy---you just
27870 declare it with the @code{gnus-declare-backend} functions. This will
27871 enter the back end into the @code{gnus-valid-select-methods} variable.
27873 @code{gnus-declare-backend} takes two parameters---the back end name and
27874 an arbitrary number of @dfn{abilities}.
27879 (gnus-declare-backend "nnchoke" 'mail 'respool 'address)
27882 The above line would then go in the @file{nnchoke.el} file.
27884 The abilities can be:
27888 This is a mailish back end---followups should (probably) go via mail.
27890 This is a newsish back end---followups should (probably) go via news.
27892 This back end supports both mail and news.
27894 This is neither a post nor mail back end---it's something completely
27897 It supports respooling---or rather, it is able to modify its source
27898 articles and groups.
27900 The name of the server should be in the virtual server name. This is
27901 true for almost all back ends.
27902 @item prompt-address
27903 The user should be prompted for an address when doing commands like
27904 @kbd{B} in the group buffer. This is true for back ends like
27905 @code{nntp}, but not @code{nnmbox}, for instance.
27909 @node Mail-like Back Ends
27910 @subsubsection Mail-like Back Ends
27912 One of the things that separate the mail back ends from the rest of the
27913 back ends is the heavy dependence by most of the mail back ends on
27914 common functions in @file{nnmail.el}. For instance, here's the
27915 definition of @code{nnml-request-scan}:
27918 (deffoo nnml-request-scan (&optional group server)
27919 (setq nnml-article-file-alist nil)
27920 (nnmail-get-new-mail 'nnml 'nnml-save-nov nnml-directory group))
27923 It simply calls @code{nnmail-get-new-mail} with a few parameters,
27924 and @code{nnmail} takes care of all the moving and splitting of the
27927 This function takes four parameters.
27931 This should be a symbol to designate which back end is responsible for
27934 @item exit-function
27935 This function should be called after the splitting has been performed.
27937 @item temp-directory
27938 Where the temporary files should be stored.
27941 This optional argument should be a group name if the splitting is to be
27942 performed for one group only.
27945 @code{nnmail-get-new-mail} will call @var{back-end}@code{-save-mail} to
27946 save each article. @var{back-end}@code{-active-number} will be called to
27947 find the article number assigned to this article.
27949 The function also uses the following variables:
27950 @var{back-end}@code{-get-new-mail} (to see whether to get new mail for
27951 this back end); and @var{back-end}@code{-group-alist} and
27952 @var{back-end}@code{-active-file} to generate the new active file.
27953 @var{back-end}@code{-group-alist} should be a group-active alist, like
27957 (("a-group" (1 . 10))
27958 ("some-group" (34 . 39)))
27962 @node Score File Syntax
27963 @subsection Score File Syntax
27965 Score files are meant to be easily parseable, but yet extremely
27966 mallable. It was decided that something that had the same read syntax
27967 as an Emacs Lisp list would fit that spec.
27969 Here's a typical score file:
27973 ("win95" -10000 nil s)
27980 BNF definition of a score file:
27983 score-file = "" / "(" *element ")"
27984 element = rule / atom
27985 rule = string-rule / number-rule / date-rule
27986 string-rule = "(" quote string-header quote space *string-match ")"
27987 number-rule = "(" quote number-header quote space *number-match ")"
27988 date-rule = "(" quote date-header quote space *date-match ")"
27990 string-header = "subject" / "from" / "references" / "message-id" /
27991 "xref" / "body" / "head" / "all" / "followup"
27992 number-header = "lines" / "chars"
27993 date-header = "date"
27994 string-match = "(" quote <string> quote [ "" / [ space score [ "" /
27995 space date [ "" / [ space string-match-t ] ] ] ] ] ")"
27996 score = "nil" / <integer>
27997 date = "nil" / <natural number>
27998 string-match-t = "nil" / "s" / "substring" / "S" / "Substring" /
27999 "r" / "regex" / "R" / "Regex" /
28000 "e" / "exact" / "E" / "Exact" /
28001 "f" / "fuzzy" / "F" / "Fuzzy"
28002 number-match = "(" <integer> [ "" / [ space score [ "" /
28003 space date [ "" / [ space number-match-t ] ] ] ] ] ")"
28004 number-match-t = "nil" / "=" / "<" / ">" / ">=" / "<="
28005 date-match = "(" quote <string> quote [ "" / [ space score [ "" /
28006 space date [ "" / [ space date-match-t ] ] ] ] ")"
28007 date-match-t = "nil" / "at" / "before" / "after"
28008 atom = "(" [ required-atom / optional-atom ] ")"
28009 required-atom = mark / expunge / mark-and-expunge / files /
28010 exclude-files / read-only / touched
28011 optional-atom = adapt / local / eval
28012 mark = "mark" space nil-or-number
28013 nil-or-number = "nil" / <integer>
28014 expunge = "expunge" space nil-or-number
28015 mark-and-expunge = "mark-and-expunge" space nil-or-number
28016 files = "files" *[ space <string> ]
28017 exclude-files = "exclude-files" *[ space <string> ]
28018 read-only = "read-only" [ space "nil" / space "t" ]
28019 adapt = "adapt" [ space "ignore" / space "t" / space adapt-rule ]
28020 adapt-rule = "(" *[ <string> *[ "(" <string> <integer> ")" ] ")"
28021 local = "local" *[ space "(" <string> space <form> ")" ]
28022 eval = "eval" space <form>
28023 space = *[ " " / <TAB> / <NEWLINE> ]
28026 Any unrecognized elements in a score file should be ignored, but not
28029 As you can see, white space is needed, but the type and amount of white
28030 space is irrelevant. This means that formatting of the score file is
28031 left up to the programmer---if it's simpler to just spew it all out on
28032 one looong line, then that's ok.
28034 The meaning of the various atoms are explained elsewhere in this
28035 manual (@pxref{Score File Format}).
28039 @subsection Headers
28041 Internally Gnus uses a format for storing article headers that
28042 corresponds to the @acronym{NOV} format in a mysterious fashion. One could
28043 almost suspect that the author looked at the @acronym{NOV} specification and
28044 just shamelessly @emph{stole} the entire thing, and one would be right.
28046 @dfn{Header} is a severely overloaded term. ``Header'' is used in
28047 RFC 1036 to talk about lines in the head of an article (e.g.,
28048 @code{From}). It is used by many people as a synonym for
28049 ``head''---``the header and the body''. (That should be avoided, in my
28050 opinion.) And Gnus uses a format internally that it calls ``header'',
28051 which is what I'm talking about here. This is a 9-element vector,
28052 basically, with each header (ouch) having one slot.
28054 These slots are, in order: @code{number}, @code{subject}, @code{from},
28055 @code{date}, @code{id}, @code{references}, @code{chars}, @code{lines},
28056 @code{xref}, and @code{extra}. There are macros for accessing and
28057 setting these slots---they all have predictable names beginning with
28058 @code{mail-header-} and @code{mail-header-set-}, respectively.
28060 All these slots contain strings, except the @code{extra} slot, which
28061 contains an alist of header/value pairs (@pxref{To From Newsgroups}).
28067 @sc{gnus} introduced a concept that I found so useful that I've started
28068 using it a lot and have elaborated on it greatly.
28070 The question is simple: If you have a large amount of objects that are
28071 identified by numbers (say, articles, to take a @emph{wild} example)
28072 that you want to qualify as being ``included'', a normal sequence isn't
28073 very useful. (A 200,000 length sequence is a bit long-winded.)
28075 The solution is as simple as the question: You just collapse the
28079 (1 2 3 4 5 6 10 11 12)
28082 is transformed into
28085 ((1 . 6) (10 . 12))
28088 To avoid having those nasty @samp{(13 . 13)} elements to denote a
28089 lonesome object, a @samp{13} is a valid element:
28092 ((1 . 6) 7 (10 . 12))
28095 This means that comparing two ranges to find out whether they are equal
28096 is slightly tricky:
28099 ((1 . 5) 7 8 (10 . 12))
28105 ((1 . 5) (7 . 8) (10 . 12))
28108 are equal. In fact, any non-descending list is a range:
28114 is a perfectly valid range, although a pretty long-winded one. This is
28121 and is equal to the previous range.
28123 Here's a BNF definition of ranges. Of course, one must remember the
28124 semantic requirement that the numbers are non-descending. (Any number
28125 of repetition of the same number is allowed, but apt to disappear in
28129 range = simple-range / normal-range
28130 simple-range = "(" number " . " number ")"
28131 normal-range = "(" start-contents ")"
28132 contents = "" / simple-range *[ " " contents ] /
28133 number *[ " " contents ]
28136 Gnus currently uses ranges to keep track of read articles and article
28137 marks. I plan on implementing a number of range operators in C if The
28138 Powers That Be are willing to let me. (I haven't asked yet, because I
28139 need to do some more thinking on what operators I need to make life
28140 totally range-based without ever having to convert back to normal
28145 @subsection Group Info
28147 Gnus stores all permanent info on groups in a @dfn{group info} list.
28148 This list is from three to six elements (or more) long and exhaustively
28149 describes the group.
28151 Here are two example group infos; one is a very simple group while the
28152 second is a more complex one:
28155 ("no.group" 5 ((1 . 54324)))
28157 ("nnml:my.mail" 3 ((1 . 5) 9 (20 . 55))
28158 ((tick (15 . 19)) (replied 3 6 (19 . 3)))
28160 ((auto-expire . t) (to-address . "ding@@gnus.org")))
28163 The first element is the @dfn{group name}---as Gnus knows the group,
28164 anyway. The second element is the @dfn{subscription level}, which
28165 normally is a small integer. (It can also be the @dfn{rank}, which is a
28166 cons cell where the @code{car} is the level and the @code{cdr} is the
28167 score.) The third element is a list of ranges of read articles. The
28168 fourth element is a list of lists of article marks of various kinds.
28169 The fifth element is the select method (or virtual server, if you like).
28170 The sixth element is a list of @dfn{group parameters}, which is what
28171 this section is about.
28173 Any of the last three elements may be missing if they are not required.
28174 In fact, the vast majority of groups will normally only have the first
28175 three elements, which saves quite a lot of cons cells.
28177 Here's a BNF definition of the group info format:
28180 info = "(" group space ralevel space read
28181 [ "" / [ space marks-list [ "" / [ space method [ "" /
28182 space parameters ] ] ] ] ] ")"
28183 group = quote <string> quote
28184 ralevel = rank / level
28185 level = <integer in the range of 1 to inf>
28186 rank = "(" level "." score ")"
28187 score = <integer in the range of 1 to inf>
28189 marks-lists = nil / "(" *marks ")"
28190 marks = "(" <string> range ")"
28191 method = "(" <string> *elisp-forms ")"
28192 parameters = "(" *elisp-forms ")"
28195 Actually that @samp{marks} rule is a fib. A @samp{marks} is a
28196 @samp{<string>} consed on to a @samp{range}, but that's a bitch to say
28199 If you have a Gnus info and want to access the elements, Gnus offers a
28200 series of macros for getting/setting these elements.
28203 @item gnus-info-group
28204 @itemx gnus-info-set-group
28205 @findex gnus-info-group
28206 @findex gnus-info-set-group
28207 Get/set the group name.
28209 @item gnus-info-rank
28210 @itemx gnus-info-set-rank
28211 @findex gnus-info-rank
28212 @findex gnus-info-set-rank
28213 Get/set the group rank (@pxref{Group Score}).
28215 @item gnus-info-level
28216 @itemx gnus-info-set-level
28217 @findex gnus-info-level
28218 @findex gnus-info-set-level
28219 Get/set the group level.
28221 @item gnus-info-score
28222 @itemx gnus-info-set-score
28223 @findex gnus-info-score
28224 @findex gnus-info-set-score
28225 Get/set the group score (@pxref{Group Score}).
28227 @item gnus-info-read
28228 @itemx gnus-info-set-read
28229 @findex gnus-info-read
28230 @findex gnus-info-set-read
28231 Get/set the ranges of read articles.
28233 @item gnus-info-marks
28234 @itemx gnus-info-set-marks
28235 @findex gnus-info-marks
28236 @findex gnus-info-set-marks
28237 Get/set the lists of ranges of marked articles.
28239 @item gnus-info-method
28240 @itemx gnus-info-set-method
28241 @findex gnus-info-method
28242 @findex gnus-info-set-method
28243 Get/set the group select method.
28245 @item gnus-info-params
28246 @itemx gnus-info-set-params
28247 @findex gnus-info-params
28248 @findex gnus-info-set-params
28249 Get/set the group parameters.
28252 All the getter functions take one parameter---the info list. The setter
28253 functions take two parameters---the info list and the new value.
28255 The last three elements in the group info aren't mandatory, so it may be
28256 necessary to extend the group info before setting the element. If this
28257 is necessary, you can just pass on a non-@code{nil} third parameter to
28258 the three final setter functions to have this happen automatically.
28261 @node Extended Interactive
28262 @subsection Extended Interactive
28263 @cindex interactive
28264 @findex gnus-interactive
28266 Gnus extends the standard Emacs @code{interactive} specification
28267 slightly to allow easy use of the symbolic prefix (@pxref{Symbolic
28268 Prefixes}). Here's an example of how this is used:
28271 (defun gnus-summary-increase-score (&optional score symp)
28272 (interactive (gnus-interactive "P\ny"))
28277 The best thing to do would have been to implement
28278 @code{gnus-interactive} as a macro which would have returned an
28279 @code{interactive} form, but this isn't possible since Emacs checks
28280 whether a function is interactive or not by simply doing an @code{assq}
28281 on the lambda form. So, instead we have @code{gnus-interactive}
28282 function that takes a string and returns values that are usable to
28283 @code{interactive}.
28285 This function accepts (almost) all normal @code{interactive} specs, but
28290 @vindex gnus-current-prefix-symbol
28291 The current symbolic prefix---the @code{gnus-current-prefix-symbol}
28295 @vindex gnus-current-prefix-symbols
28296 A list of the current symbolic prefixes---the
28297 @code{gnus-current-prefix-symbol} variable.
28300 The current article number---the @code{gnus-summary-article-number}
28304 The current article header---the @code{gnus-summary-article-header}
28308 The current group name---the @code{gnus-group-group-name}
28314 @node Emacs/XEmacs Code
28315 @subsection Emacs/XEmacs Code
28319 While Gnus runs under Emacs, XEmacs and Mule, I decided that one of the
28320 platforms must be the primary one. I chose Emacs. Not because I don't
28321 like XEmacs or Mule, but because it comes first alphabetically.
28323 This means that Gnus will byte-compile under Emacs with nary a warning,
28324 while XEmacs will pump out gigabytes of warnings while byte-compiling.
28325 As I use byte-compilation warnings to help me root out trivial errors in
28326 Gnus, that's very useful.
28328 I've also consistently used Emacs function interfaces, but have used
28329 Gnusey aliases for the functions. To take an example: Emacs defines a
28330 @code{run-at-time} function while XEmacs defines a @code{start-itimer}
28331 function. I then define a function called @code{gnus-run-at-time} that
28332 takes the same parameters as the Emacs @code{run-at-time}. When running
28333 Gnus under Emacs, the former function is just an alias for the latter.
28334 However, when running under XEmacs, the former is an alias for the
28335 following function:
28338 (defun gnus-xmas-run-at-time (time repeat function &rest args)
28342 (,function ,@@args))
28346 This sort of thing has been done for bunches of functions. Gnus does
28347 not redefine any native Emacs functions while running under XEmacs---it
28348 does this @code{defalias} thing with Gnus equivalents instead. Cleaner
28351 In the cases where the XEmacs function interface was obviously cleaner,
28352 I used it instead. For example @code{gnus-region-active-p} is an alias
28353 for @code{region-active-p} in XEmacs, whereas in Emacs it is a function.
28355 Of course, I could have chosen XEmacs as my native platform and done
28356 mapping functions the other way around. But I didn't. The performance
28357 hit these indirections impose on Gnus under XEmacs should be slight.
28360 @node Various File Formats
28361 @subsection Various File Formats
28364 * Active File Format:: Information on articles and groups available.
28365 * Newsgroups File Format:: Group descriptions.
28369 @node Active File Format
28370 @subsubsection Active File Format
28372 The active file lists all groups available on the server in
28373 question. It also lists the highest and lowest current article numbers
28376 Here's an excerpt from a typical active file:
28379 soc.motss 296030 293865 y
28380 alt.binaries.pictures.fractals 3922 3913 n
28381 comp.sources.unix 1605 1593 m
28382 comp.binaries.ibm.pc 5097 5089 y
28383 no.general 1000 900 y
28386 Here's a pseudo-BNF definition of this file:
28389 active = *group-line
28390 group-line = group spc high-number spc low-number spc flag <NEWLINE>
28391 group = <non-white-space string>
28393 high-number = <non-negative integer>
28394 low-number = <positive integer>
28395 flag = "y" / "n" / "m" / "j" / "x" / "=" group
28398 For a full description of this file, see the manual pages for
28399 @samp{innd}, in particular @samp{active(5)}.
28402 @node Newsgroups File Format
28403 @subsubsection Newsgroups File Format
28405 The newsgroups file lists groups along with their descriptions. Not all
28406 groups on the server have to be listed, and not all groups in the file
28407 have to exist on the server. The file is meant purely as information to
28410 The format is quite simple; a group name, a tab, and the description.
28411 Here's the definition:
28415 line = group tab description <NEWLINE>
28416 group = <non-white-space string>
28418 description = <string>
28423 @node Emacs for Heathens
28424 @section Emacs for Heathens
28426 Believe it or not, but some people who use Gnus haven't really used
28427 Emacs much before they embarked on their journey on the Gnus Love Boat.
28428 If you are one of those unfortunates whom ``@kbd{C-M-a}'', ``kill the
28429 region'', and ``set @code{gnus-flargblossen} to an alist where the key
28430 is a regexp that is used for matching on the group name'' are magical
28431 phrases with little or no meaning, then this appendix is for you. If
28432 you are already familiar with Emacs, just ignore this and go fondle your
28436 * Keystrokes:: Entering text and executing commands.
28437 * Emacs Lisp:: The built-in Emacs programming language.
28442 @subsection Keystrokes
28446 Q: What is an experienced Emacs user?
28449 A: A person who wishes that the terminal had pedals.
28452 Yes, when you use Emacs, you are apt to use the control key, the shift
28453 key and the meta key a lot. This is very annoying to some people
28454 (notably @code{vi}le users), and the rest of us just love the hell out
28455 of it. Just give up and submit. Emacs really does stand for
28456 ``Escape-Meta-Alt-Control-Shift'', and not ``Editing Macros'', as you
28457 may have heard from other disreputable sources (like the Emacs author).
28459 The shift keys are normally located near your pinky fingers, and are
28460 normally used to get capital letters and stuff. You probably use it all
28461 the time. The control key is normally marked ``CTRL'' or something like
28462 that. The meta key is, funnily enough, never marked as such on any
28463 keyboard. The one I'm currently at has a key that's marked ``Alt'',
28464 which is the meta key on this keyboard. It's usually located somewhere
28465 to the left hand side of the keyboard, usually on the bottom row.
28467 Now, us Emacs people don't say ``press the meta-control-m key'',
28468 because that's just too inconvenient. We say ``press the @kbd{C-M-m}
28469 key''. @kbd{M-} is the prefix that means ``meta'' and ``C-'' is the
28470 prefix that means ``control''. So ``press @kbd{C-k}'' means ``press
28471 down the control key, and hold it down while you press @kbd{k}''.
28472 ``Press @kbd{C-M-k}'' means ``press down and hold down the meta key and
28473 the control key and then press @kbd{k}''. Simple, ay?
28475 This is somewhat complicated by the fact that not all keyboards have a
28476 meta key. In that case you can use the ``escape'' key. Then @kbd{M-k}
28477 means ``press escape, release escape, press @kbd{k}''. That's much more
28478 work than if you have a meta key, so if that's the case, I respectfully
28479 suggest you get a real keyboard with a meta key. You can't live without
28485 @subsection Emacs Lisp
28487 Emacs is the King of Editors because it's really a Lisp interpreter.
28488 Each and every key you tap runs some Emacs Lisp code snippet, and since
28489 Emacs Lisp is an interpreted language, that means that you can configure
28490 any key to run any arbitrary code. You just, like, do it.
28492 Gnus is written in Emacs Lisp, and is run as a bunch of interpreted
28493 functions. (These are byte-compiled for speed, but it's still
28494 interpreted.) If you decide that you don't like the way Gnus does
28495 certain things, it's trivial to have it do something a different way.
28496 (Well, at least if you know how to write Lisp code.) However, that's
28497 beyond the scope of this manual, so we are simply going to talk about
28498 some common constructs that you normally use in your @file{.emacs} file
28501 If you want to set the variable @code{gnus-florgbnize} to four (4), you
28502 write the following:
28505 (setq gnus-florgbnize 4)
28508 This function (really ``special form'') @code{setq} is the one that can
28509 set a variable to some value. This is really all you need to know. Now
28510 you can go and fill your @file{.emacs} file with lots of these to change
28513 If you have put that thing in your @file{.emacs} file, it will be read
28514 and @code{eval}ed (which is lisp-ese for ``run'') the next time you
28515 start Emacs. If you want to change the variable right away, simply say
28516 @kbd{C-x C-e} after the closing parenthesis. That will @code{eval} the
28517 previous ``form'', which is a simple @code{setq} statement here.
28519 Go ahead---just try it, if you're located at your Emacs. After you
28520 @kbd{C-x C-e}, you will see @samp{4} appear in the echo area, which
28521 is the return value of the form you @code{eval}ed.
28525 If the manual says ``set @code{gnus-read-active-file} to @code{some}'',
28529 (setq gnus-read-active-file 'some)
28532 On the other hand, if the manual says ``set @code{gnus-nntp-server} to
28533 @samp{nntp.ifi.uio.no}'', that means:
28536 (setq gnus-nntp-server "nntp.ifi.uio.no")
28539 So be careful not to mix up strings (the latter) with symbols (the
28540 former). The manual is unambiguous, but it can be confusing.
28543 @include gnus-faq.texi
28563 @c Local Variables:
28565 @c coding: iso-8859-1
28569 arch-tag: c9fa47e7-78ca-4681-bda9-9fef45d1c819