1 @c This is part of the Emacs manual.
2 @c Copyright (C) 1985-1987, 1993-1995, 1997, 2001-2013 Free Software
4 @c See file emacs.texi for copying conditions.
6 @chapter Dealing with Common Problems
8 If you type an Emacs command you did not intend, the results are often
9 mysterious. This chapter tells what you can do to cancel your mistake or
10 recover from a mysterious situation. Emacs bugs and system crashes are
19 @section Quitting and Aborting
24 @itemx C-@key{BREAK} @r{(MS-DOS only)}
25 Quit: cancel running or partially typed command.
27 Abort innermost recursive editing level and cancel the command which
28 invoked it (@code{abort-recursive-edit}).
29 @item @key{ESC} @key{ESC} @key{ESC}
30 Either quit or abort, whichever makes sense (@code{keyboard-escape-quit}).
32 Abort all recursive editing levels that are currently executing.
36 Cancel a previously made change in the buffer contents (@code{undo}).
39 There are two ways of canceling a command before it has finished:
40 @dfn{quitting} with @kbd{C-g}, and @dfn{aborting} with @kbd{C-]} or
41 @kbd{M-x top-level}. Quitting cancels a partially typed command, or
42 one which is still running. Aborting exits a recursive editing level
43 and cancels the command that invoked the recursive edit
44 (@pxref{Recursive Edit}).
48 Quitting with @kbd{C-g} is the way to get rid of a partially typed
49 command, or a numeric argument that you don't want. Furthermore, if
50 you are in the middle of a command that is running, @kbd{C-g} stops
51 the command in a relatively safe way. For example, if you quit out of
52 a kill command that is taking a long time, either your text will
53 @emph{all} still be in the buffer, or it will @emph{all} be in the
54 kill ring, or maybe both. If the region is active, @kbd{C-g}
55 deactivates the mark, unless Transient Mark mode is off
56 (@pxref{Disabled Transient Mark}). If you are in the middle of an
57 incremental search, @kbd{C-g} behaves specially; it may take two
58 successive @kbd{C-g} characters to get out of a search.
59 @xref{Incremental Search}, for details.
61 On MS-DOS, the character @kbd{C-@key{BREAK}} serves as a quit character
62 like @kbd{C-g}. The reason is that it is not feasible, on MS-DOS, to
63 recognize @kbd{C-g} while a command is running, between interactions
64 with the user. By contrast, it @emph{is} feasible to recognize
65 @kbd{C-@key{BREAK}} at all times.
67 @xref{MS-DOS Keyboard,,,emacs-xtra, Specialized Emacs Features}.
70 @xref{MS-DOS Keyboard}.
74 @kbd{C-g} works by setting the variable @code{quit-flag} to @code{t}
75 the instant @kbd{C-g} is typed; Emacs Lisp checks this variable
76 frequently, and quits if it is non-@code{nil}. @kbd{C-g} is only
77 actually executed as a command if you type it while Emacs is waiting for
78 input. In that case, the command it runs is @code{keyboard-quit}.
80 On a text terminal, if you quit with @kbd{C-g} a second time before
81 the first @kbd{C-g} is recognized, you activate the ``emergency
82 escape'' feature and return to the shell. @xref{Emergency Escape}.
84 @cindex NFS and quitting
85 There are some situations where you cannot quit. When Emacs is
86 waiting for the operating system to do something, quitting is
87 impossible unless special pains are taken for the particular system
88 call within Emacs where the waiting occurs. We have done this for the
89 system calls that users are likely to want to quit from, but it's
90 possible you will encounter a case not handled. In one very common
91 case---waiting for file input or output using NFS---Emacs itself knows
92 how to quit, but many NFS implementations simply do not allow user
93 programs to stop waiting for NFS when the NFS server is hung.
95 @cindex aborting recursive edit
96 @findex abort-recursive-edit
98 Aborting with @kbd{C-]} (@code{abort-recursive-edit}) is used to get
99 out of a recursive editing level and cancel the command which invoked
100 it. Quitting with @kbd{C-g} does not do this, and could not do this,
101 because it is used to cancel a partially typed command @emph{within} the
102 recursive editing level. Both operations are useful. For example, if
103 you are in a recursive edit and type @kbd{C-u 8} to enter a numeric
104 argument, you can cancel that argument with @kbd{C-g} and remain in the
107 @findex keyboard-escape-quit
109 The sequence @kbd{@key{ESC} @key{ESC} @key{ESC}}
110 (@code{keyboard-escape-quit}) can either quit or abort. (We defined
111 it this way because @key{ESC} means ``get out'' in many PC programs.)
112 It can cancel a prefix argument, clear a selected region, or get out
113 of a Query Replace, like @kbd{C-g}. It can get out of the minibuffer
114 or a recursive edit, like @kbd{C-]}. It can also get out of splitting
115 the frame into multiple windows, as with @kbd{C-x 1}. One thing it
116 cannot do, however, is stop a command that is running. That's because
117 it executes as an ordinary command, and Emacs doesn't notice it until
118 it is ready for the next command.
121 The command @kbd{M-x top-level} is equivalent to ``enough''
122 @kbd{C-]} commands to get you out of all the levels of recursive edits
123 that you are in; it also exits the minibuffer if it is active.
124 @kbd{C-]} gets you out one level at a time, but @kbd{M-x top-level}
125 goes out all levels at once. Both @kbd{C-]} and @kbd{M-x top-level}
126 are like all other commands, and unlike @kbd{C-g}, in that they take
127 effect only when Emacs is ready for a command. @kbd{C-]} is an
128 ordinary key and has its meaning only because of its binding in the
129 keymap. @xref{Recursive Edit}.
131 @kbd{C-/} (@code{undo}) is not strictly speaking a way of canceling
132 a command, but you can think of it as canceling a command that already
133 finished executing. @xref{Undo}, for more information about the undo
137 @section Dealing with Emacs Trouble
139 This section describes how to recognize and deal with situations in
140 which Emacs does not work as you expect, such as keyboard code mixups,
141 garbled displays, running out of memory, and crashes and hangs.
143 @xref{Bugs}, for what to do when you think you have found a bug in
147 * DEL Does Not Delete:: What to do if @key{DEL} doesn't delete.
148 * Stuck Recursive:: `[...]' in mode line around the parentheses.
149 * Screen Garbled:: Garbage on the screen.
150 * Text Garbled:: Garbage in the text.
151 * Memory Full:: How to cope when you run out of memory.
152 * Crashing:: What Emacs does when it crashes.
153 * After a Crash:: Recovering editing in an Emacs session that crashed.
154 * Emergency Escape:: What to do if Emacs stops responding.
157 @node DEL Does Not Delete
158 @subsection If @key{DEL} Fails to Delete
159 @cindex @key{DEL} vs @key{BACKSPACE}
160 @cindex @key{BACKSPACE} vs @key{DEL}
162 Every keyboard has a large key, usually labeled @key{Backspace},
163 which is ordinarily used to erase the last character that you typed.
164 In Emacs, this key is supposed to be equivalent to @key{DEL}.
166 When Emacs starts up on a graphical display, it determines
167 automatically which key should be @key{DEL}. In some unusual cases,
168 Emacs gets the wrong information from the system, and @key{Backspace}
169 ends up deleting forwards instead of backwards.
171 Some keyboards also have a @key{Delete} key, which is ordinarily
172 used to delete forwards. If this key deletes backward in Emacs, that
173 too suggests Emacs got the wrong information---but in the opposite
176 On a text terminal, if you find that @key{Backspace} prompts for a
177 Help command, like @kbd{Control-h}, instead of deleting a character,
178 it means that key is actually sending the @key{BS} character. Emacs
179 ought to be treating @key{BS} as @key{DEL}, but it isn't.
181 @findex normal-erase-is-backspace-mode
182 In all of those cases, the immediate remedy is the same: use the
183 command @kbd{M-x normal-erase-is-backspace-mode}. This toggles
184 between the two modes that Emacs supports for handling @key{DEL}, so
185 if Emacs starts in the wrong mode, this should switch to the right
186 mode. On a text terminal, if you want to ask for help when @key{BS}
187 is treated as @key{DEL}, use @key{F1}; @kbd{C-?} may also work, if it
188 sends character code 127.
190 To fix the problem in every Emacs session, put one of the following
191 lines into your initialization file (@pxref{Init File}). For the
192 first case above, where @key{Backspace} deletes forwards instead of
193 backwards, use this line to make @key{Backspace} act as @key{DEL}:
196 (normal-erase-is-backspace-mode 0)
200 For the other two cases, use this line:
203 (normal-erase-is-backspace-mode 1)
206 @vindex normal-erase-is-backspace
207 Another way to fix the problem for every Emacs session is to
208 customize the variable @code{normal-erase-is-backspace}: the value
209 @code{t} specifies the mode where @key{BS} or @key{BACKSPACE} is
210 @key{DEL}, and @code{nil} specifies the other mode. @xref{Easy
213 @node Stuck Recursive
214 @subsection Recursive Editing Levels
216 Recursive editing levels are important and useful features of Emacs, but
217 they can seem like malfunctions if you do not understand them.
219 If the mode line has square brackets @samp{[@dots{}]} around the
220 parentheses that contain the names of the major and minor modes, you
221 have entered a recursive editing level. If you did not do this on
222 purpose, or if you don't understand what that means, you should just
223 get out of the recursive editing level. To do so, type @kbd{M-x
224 top-level}. @xref{Recursive Edit}.
227 @subsection Garbage on the Screen
229 If the text on a text terminal looks wrong, the first thing to do is
230 see whether it is wrong in the buffer. Type @kbd{C-l} to redisplay
231 the entire screen. If the screen appears correct after this, the
232 problem was entirely in the previous screen update. (Otherwise, see
233 the following section.)
235 Display updating problems often result from an incorrect terminfo
236 entry for the terminal you are using. The file @file{etc/TERMS} in
237 the Emacs distribution gives the fixes for known problems of this
238 sort. @file{INSTALL} contains general advice for these problems in
239 one of its sections. If you seem to be using the right terminfo
240 entry, it is possible that there is a bug in the terminfo entry, or a
241 bug in Emacs that appears for certain terminal types.
244 @subsection Garbage in the Text
246 If @kbd{C-l} shows that the text is wrong, first type @kbd{C-h l} to
247 see what commands you typed to produce the observed results. Then try
248 undoing the changes step by step using @kbd{C-x u}, until it gets back
249 to a state you consider correct.
251 If a large portion of text appears to be missing at the beginning or
252 end of the buffer, check for the word @samp{Narrow} in the mode line.
253 If it appears, the text you don't see is probably still present, but
254 temporarily off-limits. To make it accessible again, type @kbd{C-x n
255 w}. @xref{Narrowing}.
258 @subsection Running out of Memory
260 @cindex out of memory
262 If you get the error message @samp{Virtual memory exceeded}, save
263 your modified buffers with @kbd{C-x s}. This method of saving them
264 has the smallest need for additional memory. Emacs keeps a reserve of
265 memory which it makes available when this error happens; that should
266 be enough to enable @kbd{C-x s} to complete its work. When the
267 reserve has been used, @samp{!MEM FULL!} appears at the beginning of
268 the mode line, indicating there is no more reserve.
270 Once you have saved your modified buffers, you can exit this Emacs
271 session and start another, or you can use @kbd{M-x kill-some-buffers}
272 to free space in the current Emacs job. If this frees up sufficient
273 space, Emacs will refill its memory reserve, and @samp{!MEM FULL!}
274 will disappear from the mode line. That means you can safely go on
275 editing in the same Emacs session.
277 Do not use @kbd{M-x buffer-menu} to save or kill buffers when you run
278 out of memory, because the Buffer Menu needs a fair amount of memory
279 itself, and the reserve supply may not be enough.
282 @subsection When Emacs Crashes
286 @cindex @file{emacs_backtrace.txt} file, MS-Windows
287 Emacs is not supposed to crash, but if it does, it produces a
288 @dfn{crash report} prior to exiting. The crash report is printed to
289 the standard error stream. If Emacs was started from a graphical
290 desktop on a GNU or Unix system, the standard error stream is commonly
291 redirected to a file such as @file{~/.xsession-errors}, so you can
292 look for the crash report there. On MS-Windows, the crash report is
293 written to a file named @file{emacs_backtrace.txt} in the current
294 directory of the Emacs process, in addition to the standard error
297 The format of the crash report depends on the platform. On some
298 platforms, such as those using the GNU C Library, the crash report
299 includes a @dfn{backtrace} describing the execution state prior to
300 crashing, which can be used to help debug the crash. Here is an
301 example for a GNU system:
304 Fatal error 11: Segmentation fault
309 /lib64/libpthread.so.0[0x375220efe0]
310 /lib64/libpthread.so.0(read+0xe)[0x375220e08e]
317 The number @samp{11} is the system signal number corresponding to the
318 crash---in this case a segmentation fault. The hexadecimal numbers
319 are program addresses, which can be associated with source code lines
320 using a debugging tool. For example, the GDB command
321 @samp{list *0x509af6} prints the source-code lines corresponding to
322 the @samp{emacs[0x509af6]} entry. If your system has the
323 @command{addr2line} utility, the following shell command outputs a
324 backtrace with source-code line numbers:
327 sed -n 's/.*\[\(.*\)]$/\1/p' @var{backtrace} |
328 addr2line -C -f -i -p -e @var{bindir}/@var{emacs-binary}
332 Here, @var{backtrace} is the name of a text file containing a copy of
333 the backtrace, @var{bindir} is the name of the directory that
334 contains the Emacs executable, and @var{emacs-binary} is the name of
335 the Emacs executable file, normally @file{emacs} on GNU and Unix
336 systems and @file{emacs.exe} on MS-Windows and MS-DOS. Omit the
337 @option{-p} option if your version of @command{addr2line} is too old
341 Optionally, Emacs can generate a @dfn{core dump} when it crashes, on
342 systems that support core files. A core dump is a file containing
343 voluminous data about the state of the program prior to the crash,
344 usually examined by loading it into a debugger such as GDB@. On many
345 platforms, core dumps are disabled by default, and you must explicitly
346 enable them by running the shell command @samp{ulimit -c unlimited}
347 (e.g., in your shell startup script).
350 @subsection Recovery After a Crash
352 If Emacs or the computer crashes, you can recover the files you were
353 editing at the time of the crash from their auto-save files. To do
354 this, start Emacs again and type the command @kbd{M-x recover-session}.
356 This command initially displays a buffer which lists interrupted
357 session files, each with its date. You must choose which session to
358 recover from. Typically the one you want is the most recent one. Move
359 point to the one you choose, and type @kbd{C-c C-c}.
361 Then @code{recover-session} considers each of the files that you
362 were editing during that session; for each such file, it asks whether
363 to recover that file. If you answer @kbd{y} for a file, it shows the
364 dates of that file and its auto-save file, then asks once again
365 whether to recover that file. For the second question, you must
366 confirm with @kbd{yes}. If you do, Emacs visits the file but gets the
367 text from the auto-save file.
369 When @code{recover-session} is done, the files you've chosen to
370 recover are present in Emacs buffers. You should then save them. Only
371 this---saving them---updates the files themselves.
373 As a last resort, if you had buffers with content which were not
374 associated with any files, or if the autosave was not recent enough to
375 have recorded important changes, you can use the
376 @file{etc/emacs-buffer.gdb} script with GDB (the GNU Debugger) to
377 retrieve them from a core dump--provided that a core dump was saved,
378 and that the Emacs executable was not stripped of its debugging
381 As soon as you get the core dump, rename it to another name such as
382 @file{core.emacs}, so that another crash won't overwrite it.
384 To use this script, run @code{gdb} with the file name of your Emacs
385 executable and the file name of the core dump, e.g., @samp{gdb
386 /usr/bin/emacs core.emacs}. At the @code{(gdb)} prompt, load the
387 recovery script: @samp{source /usr/src/emacs/etc/emacs-buffer.gdb}.
388 Then type the command @code{ybuffer-list} to see which buffers are
389 available. For each buffer, it lists a buffer number. To save a
390 buffer, use @code{ysave-buffer}; you specify the buffer number, and
391 the file name to write that buffer into. You should use a file name
392 which does not already exist; if the file does exist, the script does
393 not make a backup of its old contents.
395 @node Emergency Escape
396 @subsection Emergency Escape
398 On text terminals, the @dfn{emergency escape} feature suspends Emacs
399 immediately if you type @kbd{C-g} a second time before Emacs can
400 actually respond to the first one by quitting. This is so you can
401 always get out of GNU Emacs no matter how badly it might be hung.
402 When things are working properly, Emacs recognizes and handles the
403 first @kbd{C-g} so fast that the second one won't trigger emergency
404 escape. However, if some problem prevents Emacs from handling the
405 first @kbd{C-g} properly, then the second one will get you back to the
408 When you resume Emacs after a suspension caused by emergency escape,
409 it asks two questions before going back to what it had been doing:
413 Abort (and dump core)? (y or n)
417 Answer each one with @kbd{y} or @kbd{n} followed by @key{RET}.
419 Saying @kbd{y} to @samp{Auto-save?} causes immediate auto-saving of
420 all modified buffers in which auto-saving is enabled. Saying @kbd{n}
423 Saying @kbd{y} to @samp{Abort (and dump core)?} causes Emacs to
424 crash, dumping core. This is to enable a wizard to figure out why
425 Emacs was failing to quit in the first place. Execution does not
426 continue after a core dump.
428 If you answer this question @kbd{n}, Emacs execution resumes. With
429 luck, Emacs will ultimately do the requested quit. If not, each
430 subsequent @kbd{C-g} invokes emergency escape again.
432 If Emacs is not really hung, just slow, you may invoke the double
433 @kbd{C-g} feature without really meaning to. Then just resume and
434 answer @kbd{n} to both questions, and you will get back to the former
435 state. The quit you requested will happen by and by.
437 Emergency escape is active only for text terminals. On graphical
438 displays, you can use the mouse to kill Emacs or switch to another
441 On MS-DOS, you must type @kbd{C-@key{BREAK}} (twice) to cause
442 emergency escape---but there are cases where it won't work, when
443 system call hangs or when Emacs is stuck in a tight loop in C code.
446 @section Reporting Bugs
449 If you think you have found a bug in Emacs, please report it. We
450 cannot promise to fix it, or always to agree that it is a bug, but we
451 certainly want to hear about it. The same applies for new features
452 you would like to see added. The following sections will help you to
453 construct an effective bug report.
456 * Known Problems:: How to read about known problems and bugs.
457 * Criteria: Bug Criteria. Have you really found a bug?
458 * Understanding Bug Reporting:: How to report a bug effectively.
459 * Checklist:: Steps to follow for a good bug report.
460 * Sending Patches:: How to send a patch for GNU Emacs.
464 @subsection Reading Existing Bug Reports and Known Problems
466 Before reporting a bug, if at all possible please check to see if it
467 is already known about. Indeed, it may already have been fixed in a
468 later release of Emacs, or in the development version. Here is a list
469 of the main places you can read about known issues:
473 The @file{etc/PROBLEMS} file; type @kbd{C-h C-p} to read it. This
474 file contains a list of particularly well-known issues that have been
475 encountered in compiling, installing and running Emacs. Often, there
476 are suggestions for workarounds and solutions.
479 Some additional user-level problems can be found in @ref{Bugs and
480 problems, , Bugs and problems, efaq, GNU Emacs FAQ}.
484 The GNU Bug Tracker at @url{http://debbugs.gnu.org}. Emacs bugs are
485 filed in the tracker under the @samp{emacs} package. The tracker
486 records information about the status of each bug, the initial bug
487 report, and the follow-up messages by the bug reporter and Emacs
488 developers. You can search for bugs by subject, severity, and other
491 @cindex debbugs package
492 Instead of browsing the bug tracker as a webpage, you can browse it
493 from Emacs using the @code{debbugs} package, which can be downloaded
494 via the Package Menu (@pxref{Packages}). This package provides the
495 command @kbd{M-x debbugs-gnu} to list bugs, and @kbd{M-x
496 debbugs-gnu-search} to search for a specific bug. User tags, applied
497 by the Emacs maintainers, are shown by @kbd{M-x debbugs-gnu-usertags}.
500 The @samp{bug-gnu-emacs} mailing list (also available as the newsgroup
501 @samp{gnu.emacs.bug}). You can read the list archives at
502 @url{http://lists.gnu.org/mailman/listinfo/bug-gnu-emacs}. This list
503 works as a ``mirror'' of the Emacs bug reports and follow-up messages
504 which are sent to the bug tracker. It also contains old bug reports
505 from before the bug tracker was introduced (in early 2008).
507 If you like, you can subscribe to the list. Be aware that its purpose
508 is to provide the Emacs maintainers with information about bugs and
509 feature requests, so reports may contain fairly large amounts of data;
510 spectators should not complain about this.
513 The @samp{emacs-pretest-bug} mailing list. This list is no longer
514 used, and is mainly of historical interest. At one time, it was used
515 for bug reports in development (i.e., not yet released) versions of
516 Emacs. You can read the archives for 2003 to mid 2007 at
517 @url{http://lists.gnu.org/archive/html/emacs-pretest-bug/}. Nowadays,
518 it is an alias for @samp{bug-gnu-emacs}.
521 The @samp{emacs-devel} mailing list. Sometimes people report bugs to
522 this mailing list. This is not the main purpose of the list, however,
523 and it is much better to send bug reports to the bug list. You should
524 not feel obliged to read this list before reporting a bug.
530 @subsection When Is There a Bug
532 If Emacs accesses an invalid memory location (``segmentation
533 fault''), or exits with an operating system error message that
534 indicates a problem in the program (as opposed to something like
535 ``disk full''), then it is certainly a bug.
537 If the Emacs display does not correspond properly to the contents of
538 the buffer, then it is a bug. But you should check that features like
539 buffer narrowing (@pxref{Narrowing}), which can hide parts of the
540 buffer or change how it is displayed, are not responsible.
542 Taking forever to complete a command can be a bug, but you must make
543 sure that it is really Emacs's fault. Some commands simply take a
544 long time. Type @kbd{C-g} (@kbd{C-@key{BREAK}} on MS-DOS) and then
545 @kbd{C-h l} to see whether the input Emacs received was what you
546 intended to type; if the input was such that you @emph{know} it should
547 have been processed quickly, report a bug. If you don't know whether
548 the command should take a long time, find out by looking in the manual
549 or by asking for assistance.
551 If a command you are familiar with causes an Emacs error message in a
552 case where its usual definition ought to be reasonable, it is probably a
555 If a command does the wrong thing, that is a bug. But be sure you
556 know for certain what it ought to have done. If you aren't familiar
557 with the command, it might actually be working right. If in doubt,
558 read the command's documentation (@pxref{Name Help}).
560 A command's intended definition may not be the best possible
561 definition for editing with. This is a very important sort of
562 problem, but it is also a matter of judgment. Also, it is easy to
563 come to such a conclusion out of ignorance of some of the existing
564 features. It is probably best not to complain about such a problem
565 until you have checked the documentation in the usual ways, feel
566 confident that you understand it, and know for certain that what you
567 want is not available. Ask other Emacs users, too. If you are not
568 sure what the command is supposed to do after a careful reading of the
569 manual, check the index and glossary for any terms that may be
572 If after careful rereading of the manual you still do not understand
573 what the command should do, that indicates a bug in the manual, which
574 you should report. The manual's job is to make everything clear to
575 people who are not Emacs experts---including you. It is just as
576 important to report documentation bugs as program bugs.
578 If the built-in documentation for a function or variable disagrees
579 with the manual, one of them must be wrong; that is a bug.
581 @node Understanding Bug Reporting
582 @subsection Understanding Bug Reporting
584 @findex emacs-version
585 When you decide that there is a bug, it is important to report it
586 and to report it in a way which is useful. What is most useful is an
587 exact description of what commands you type, starting with the shell
588 command to run Emacs, until the problem happens.
590 The most important principle in reporting a bug is to report
591 @emph{facts}. Hypotheses and verbal descriptions are no substitute
592 for the detailed raw data. Reporting the facts is straightforward,
593 but many people strain to posit explanations and report them instead
594 of the facts. If the explanations are based on guesses about how
595 Emacs is implemented, they will be useless; meanwhile, lacking the
596 facts, we will have no real information about the bug. If you want to
597 actually @emph{debug} the problem, and report explanations that are
598 more than guesses, that is useful---but please include the raw facts
601 For example, suppose that you type @kbd{C-x C-f /glorp/baz.ugh
602 @key{RET}}, visiting a file which (you know) happens to be rather
603 large, and Emacs displays @samp{I feel pretty today}. The bug report
604 would need to provide all that information. You should not assume
605 that the problem is due to the size of the file and say, ``I visited a
606 large file, and Emacs displayed @samp{I feel pretty today}.'' This is
607 what we mean by ``guessing explanations''. The problem might be due
608 to the fact that there is a @samp{z} in the file name. If this is so,
609 then when we got your report, we would try out the problem with some
610 ``large file'', probably with no @samp{z} in its name, and not see any
611 problem. There is no way we could guess that we should try visiting a
612 file with a @samp{z} in its name.
614 You should not even say ``visit a file'' instead of @kbd{C-x C-f}.
615 Similarly, rather than saying ``if I have three characters on the
616 line'', say ``after I type @kbd{@key{RET} A B C @key{RET} C-p}'', if
617 that is the way you entered the text.
619 If possible, try quickly to reproduce the bug by invoking Emacs with
620 @command{emacs -Q} (so that Emacs starts with no initial
621 customizations; @pxref{Initial Options}), and repeating the steps that
622 you took to trigger the bug. If you can reproduce the bug this way,
623 that rules out bugs in your personal customizations. Then your bug
624 report should begin by stating that you started Emacs with
625 @command{emacs -Q}, followed by the exact sequence of steps for
626 reproducing the bug. If possible, inform us of the exact contents of
627 any file that is needed to reproduce the bug.
629 Some bugs are not reproducible from @command{emacs -Q}; some are not
630 easily reproducible at all. In that case, you should report what you
631 have---but, as before, please stick to the raw facts about what you
632 did to trigger the bug the first time.
635 @subsection Checklist for Bug Reports
637 @cindex reporting bugs
639 Before reporting a bug, first try to see if the problem has already
640 been reported (@pxref{Known Problems}).
642 If you are able to, try the latest release of Emacs to see if the
643 problem has already been fixed. Even better is to try the latest
644 development version. We recognize that this is not easy for some
645 people, so do not feel that you absolutely must do this before making
648 @findex report-emacs-bug
649 The best way to write a bug report for Emacs is to use the command
650 @kbd{M-x report-emacs-bug}. This sets up a mail buffer
651 (@pxref{Sending Mail}) and automatically inserts @emph{some} of the
652 essential information. However, it cannot supply all the necessary
653 information; you should still read and follow the guidelines below, so
654 you can enter the other crucial information by hand before you send
655 the message. You may feel that some of the information inserted by
656 @kbd{M-x report-emacs-bug} is not relevant, but unless you are
657 absolutely sure it is best to leave it, so that the developers can
658 decide for themselves.
660 When you have finished writing your report, type @kbd{C-c C-c} and it
661 will be sent to the Emacs maintainers at
663 @email{bug-gnu-emacs@@gnu.org}.
666 @url{http://lists.gnu.org/mailman/listinfo/bug-gnu-emacs, bug-gnu-emacs}.
668 (If you want to suggest an improvement or new feature, use the same
669 address.) If you cannot send mail from inside Emacs, you can copy the
670 text of your report to your normal mail client (if your system
671 supports it, you can type @kbd{C-c M-i} to have Emacs do this for you)
672 and send it to that address. Or you can simply send an email to that
673 address describing the problem.
675 Your report will be sent to the @samp{bug-gnu-emacs} mailing list, and
676 stored in the GNU Bug Tracker at @url{http://debbugs.gnu.org}. Please
677 include a valid reply email address, in case we need to ask you for
678 more information about your report. Submissions are moderated, so
679 there may be a delay before your report appears.
681 You do not need to know how the Gnu Bug Tracker works in order to
682 report a bug, but if you want to, you can read the tracker's online
683 documentation to see the various features you can use.
685 All mail sent to the @samp{bug-gnu-emacs} mailing list is also
686 gatewayed to the @samp{gnu.emacs.bug} newsgroup. The reverse is also
687 true, but we ask you not to post bug reports (or replies) via the
688 newsgroup. It can make it much harder to contact you if we need to ask
689 for more information, and it does not integrate well with the bug
692 If your data is more than 500,000 bytes, please don't include it
693 directly in the bug report; instead, offer to send it on request, or
694 make it available by ftp and say where.
696 To enable maintainers to investigate a bug, your report
697 should include all these things:
701 The version number of Emacs. Without this, we won't know whether there is any
702 point in looking for the bug in the current version of GNU Emacs.
704 @kbd{M-x report-emacs-bug} includes this information automatically,
705 but if you are not using that command for your report you can get the
706 version number by typing @kbd{M-x emacs-version @key{RET}}. If that
707 command does not work, you probably have something other than GNU
708 Emacs, so you will have to report the bug somewhere else.
711 The type of machine you are using, and the operating system name and
712 version number (again, automatically included by @kbd{M-x
713 report-emacs-bug}). @kbd{M-x emacs-version @key{RET}} provides this
714 information too. Copy its output from the @file{*Messages*} buffer,
715 so that you get it all and get it accurately.
718 The operands given to the @code{configure} command when Emacs was
719 installed (automatically included by @kbd{M-x report-emacs-bug}).
722 A complete list of any modifications you have made to the Emacs source.
723 (We may not have time to investigate the bug unless it happens in an
724 unmodified Emacs. But if you've made modifications and you don't tell
725 us, you are sending us on a wild goose chase.)
727 Be precise about these changes. A description in English is not
728 enough---send a context diff for them.
730 Adding files of your own, or porting to another machine, is a
731 modification of the source.
734 Details of any other deviations from the standard procedure for installing
738 The complete text of any files needed to reproduce the bug.
740 If you can tell us a way to cause the problem without visiting any files,
741 please do so. This makes it much easier to debug. If you do need files,
742 make sure you arrange for us to see their exact contents. For example, it
743 can matter whether there are spaces at the ends of lines, or a
744 newline after the last line in the buffer (nothing ought to care whether
745 the last line is terminated, but try telling the bugs that).
748 The precise commands we need to type to reproduce the bug. If at all
749 possible, give a full recipe for an Emacs started with the @samp{-Q}
750 option (@pxref{Initial Options}). This bypasses your personal
753 @findex open-dribble-file
755 @cindex logging keystrokes
756 One way to record the input to Emacs precisely is to write a dribble
757 file. To start the file, use the @kbd{M-x open-dribble-file
758 @key{RET}} command. From then on, Emacs copies all your input to the
759 specified dribble file until the Emacs process is killed.
762 @findex open-termscript
763 @cindex termscript file
764 @cindex @env{TERM} environment variable
765 For possible display bugs, the terminal type (the value of environment
766 variable @env{TERM}), the complete termcap entry for the terminal from
767 @file{/etc/termcap} (since that file is not identical on all machines),
768 and the output that Emacs actually sent to the terminal.
770 The way to collect the terminal output is to execute the Lisp expression
773 (open-termscript "~/termscript")
777 using @kbd{M-:} or from the @file{*scratch*} buffer just after
778 starting Emacs. From then on, Emacs copies all terminal output to the
779 specified termscript file as well, until the Emacs process is killed.
780 If the problem happens when Emacs starts up, put this expression into
781 your Emacs initialization file so that the termscript file will be
782 open when Emacs displays the screen for the first time.
784 Be warned: it is often difficult, and sometimes impossible, to fix a
785 terminal-dependent bug without access to a terminal of the type that
789 If non-@acronym{ASCII} text or internationalization is relevant, the locale that
790 was current when you started Emacs. On GNU/Linux and Unix systems, or
791 if you use a Posix-style shell such as Bash, you can use this shell
792 command to view the relevant values:
795 echo LC_ALL=$LC_ALL LC_COLLATE=$LC_COLLATE LC_CTYPE=$LC_CTYPE \
796 LC_MESSAGES=$LC_MESSAGES LC_TIME=$LC_TIME LANG=$LANG
799 Alternatively, use the @command{locale} command, if your system has it,
800 to display your locale settings.
802 You can use the @kbd{M-!} command to execute these commands from
803 Emacs, and then copy the output from the @file{*Messages*} buffer into
804 the bug report. Alternatively, @kbd{M-x getenv @key{RET} LC_ALL
805 @key{RET}} will display the value of @code{LC_ALL} in the echo area, and
806 you can copy its output from the @file{*Messages*} buffer.
809 A description of what behavior you observe that you believe is
810 incorrect. For example, ``The Emacs process gets a fatal signal'', or,
811 ``The resulting text is as follows, which I think is wrong.''
813 Of course, if the bug is that Emacs gets a fatal signal, then one can't
814 miss it. But if the bug is incorrect text, the maintainer might fail to
815 notice what is wrong. Why leave it to chance?
817 Even if the problem you experience is a fatal signal, you should still
818 say so explicitly. Suppose something strange is going on, such as, your
819 copy of the source is out of sync, or you have encountered a bug in the
820 C library on your system. (This has happened!) Your copy might crash
821 and the copy here might not. If you @emph{said} to expect a crash, then
822 when Emacs here fails to crash, we would know that the bug was not
823 happening. If you don't say to expect a crash, then we would not know
824 whether the bug was happening---we would not be able to draw any
825 conclusion from our observations.
828 If the bug is that the Emacs Manual or the Emacs Lisp Reference Manual
829 fails to describe the actual behavior of Emacs, or that the text is
830 confusing, copy in the text from the online manual which you think is
831 at fault. If the section is small, just the section name is enough.
834 If the manifestation of the bug is an Emacs error message, it is
835 important to report the precise text of the error message, and a
836 backtrace showing how the Lisp program in Emacs arrived at the error.
838 To get the error message text accurately, copy it from the
839 @file{*Messages*} buffer into the bug report. Copy all of it, not just
842 @findex toggle-debug-on-error
844 To make a backtrace for the error, use @kbd{M-x toggle-debug-on-error}
845 before the error happens (that is to say, you must give that command
846 and then make the bug happen). This causes the error to start the Lisp
847 debugger, which shows you a backtrace. Copy the text of the
848 debugger's backtrace into the bug report. @xref{Debugger,, The Lisp
849 Debugger, elisp, the Emacs Lisp Reference Manual}, for information on
850 debugging Emacs Lisp programs with the Edebug package.
852 This use of the debugger is possible only if you know how to make the
853 bug happen again. If you can't make it happen again, at least copy
854 the whole error message.
856 @vindex debug-on-quit
857 If Emacs appears to be stuck in an infinite loop or in a very long
858 operation, typing @kbd{C-g} with the variable @code{debug-on-quit}
859 non-@code{nil} will start the Lisp debugger and show a backtrace.
860 This backtrace is useful for debugging such long loops, so if you can
861 produce it, copy it into the bug report.
863 @vindex debug-on-event
864 If you cannot get Emacs to respond to @kbd{C-g} (e.g., because
865 @code{inhibit-quit} is set), then you can try sending the signal
866 specified by @code{debug-on-event} (default SIGUSR2) from outside
867 Emacs to cause it to enter the debugger.
870 Check whether any programs you have loaded into the Lisp world,
871 including your initialization file, set any variables that may affect
872 the functioning of Emacs. Also, see whether the problem happens in a
873 freshly started Emacs without loading your initialization file (start
874 Emacs with the @code{-Q} switch to prevent loading the init files).
875 If the problem does @emph{not} occur then, you must report the precise
876 contents of any programs that you must load into the Lisp world in
877 order to cause the problem to occur.
880 If the problem does depend on an init file or other Lisp programs that
881 are not part of the standard Emacs system, then you should make sure it
882 is not a bug in those programs by complaining to their maintainers
883 first. After they verify that they are using Emacs in a way that is
884 supposed to work, they should report the bug.
887 If you wish to mention something in the GNU Emacs source, show the line
888 of code with a few lines of context. Don't just give a line number.
890 The line numbers in the development sources don't match those in your
891 sources. It would take extra work for the maintainers to determine what
892 code is in your version at a given line number, and we could not be
896 Additional information from a C debugger such as GDB might enable
897 someone to find a problem on a machine which he does not have available.
898 If you don't know how to use GDB, please read the GDB manual---it is not
899 very long, and using GDB is easy. You can find the GDB distribution,
900 including the GDB manual in online form, in most of the same places you
901 can find the Emacs distribution. To run Emacs under GDB, you should
902 switch to the @file{src} subdirectory in which Emacs was compiled, then
903 do @samp{gdb emacs}. It is important for the directory @file{src} to be
904 current so that GDB will read the @file{.gdbinit} file in this
907 However, you need to think when you collect the additional information
908 if you want it to show what causes the bug.
910 @cindex backtrace for bug reports
911 For example, many people send just a backtrace, but that is not very
912 useful by itself. A simple backtrace with arguments often conveys
913 little about what is happening inside GNU Emacs, because most of the
914 arguments listed in the backtrace are pointers to Lisp objects. The
915 numeric values of these pointers have no significance whatever; all that
916 matters is the contents of the objects they point to (and most of the
917 contents are themselves pointers).
920 To provide useful information, you need to show the values of Lisp
921 objects in Lisp notation. Do this for each variable which is a Lisp
922 object, in several stack frames near the bottom of the stack. Look at
923 the source to see which variables are Lisp objects, because the debugger
924 thinks of them as integers.
926 To show a variable's value in Lisp syntax, first print its value, then
927 use the user-defined GDB command @code{pr} to print the Lisp object in
928 Lisp syntax. (If you must use another debugger, call the function
929 @code{debug_print} with the object as an argument.) The @code{pr}
930 command is defined by the file @file{.gdbinit}, and it works only if you
931 are debugging a running process (not with a core dump).
933 To make Lisp errors stop Emacs and return to GDB, put a breakpoint at
936 For a short listing of Lisp functions running, type the GDB
937 command @code{xbacktrace}.
939 The file @file{.gdbinit} defines several other commands that are useful
940 for examining the data types and contents of Lisp objects. Their names
941 begin with @samp{x}. These commands work at a lower level than
942 @code{pr}, and are less convenient, but they may work even when
943 @code{pr} does not, such as when debugging a core dump or when Emacs has
946 @cindex debugging Emacs, tricks and techniques
947 More detailed advice and other useful techniques for debugging Emacs
948 are available in the file @file{etc/DEBUG} in the Emacs distribution.
949 That file also includes instructions for investigating problems
950 whereby Emacs stops responding (many people assume that Emacs is
951 ``hung'', whereas in fact it might be in an infinite loop).
953 To find the file @file{etc/DEBUG} in your Emacs installation, use the
954 directory name stored in the variable @code{data-directory}.
957 Here are some things that are not necessary in a bug report:
961 A description of the envelope of the bug---this is not necessary for a
964 Often people who encounter a bug spend a lot of time investigating
965 which changes to the input file will make the bug go away and which
966 changes will not affect it.
968 This is often time-consuming and not very useful, because the way we
969 will find the bug is by running a single example under the debugger
970 with breakpoints, not by pure deduction from a series of examples.
971 You might as well save time by not searching for additional examples.
972 It is better to send the bug report right away, go back to editing,
973 and find another bug to report.
975 Of course, if you can find a simpler example to report @emph{instead} of
976 the original one, that is a convenience. Errors in the output will be
977 easier to spot, running under the debugger will take less time, etc.
979 However, simplification is not vital; if you can't do this or don't have
980 time to try, please report the bug with your original test case.
985 Debugging the core dump might be useful, but it can only be done on
986 your machine, with your Emacs executable. Therefore, sending the core
987 dump file to the Emacs maintainers won't be useful. Above all, don't
988 include the core file in an email bug report! Such a large message
989 can be extremely inconvenient.
992 A system-call trace of Emacs execution.
994 System-call traces are very useful for certain special kinds of
995 debugging, but in most cases they give little useful information. It is
996 therefore strange that many people seem to think that @emph{the} way to
997 report information about a crash is to send a system-call trace. Perhaps
998 this is a habit formed from experience debugging programs that don't
999 have source code or debugging symbols.
1001 In most programs, a backtrace is normally far, far more informative than
1002 a system-call trace. Even in Emacs, a simple backtrace is generally
1003 more informative, though to give full information you should supplement
1004 the backtrace by displaying variable values and printing them as Lisp
1005 objects with @code{pr} (see above).
1008 A patch for the bug.
1010 A patch for the bug is useful if it is a good one. But don't omit the
1011 other information that a bug report needs, such as the test case, on the
1012 assumption that a patch is sufficient. We might see problems with your
1013 patch and decide to fix the problem another way, or we might not
1014 understand it at all. And if we can't understand what bug you are
1015 trying to fix, or why your patch should be an improvement, we mustn't
1019 @xref{Sending Patches}, for guidelines on how to make it easy for us to
1020 understand and install your patches.
1024 A guess about what the bug is or what it depends on.
1026 Such guesses are usually wrong. Even experts can't guess right about
1027 such things without first using the debugger to find the facts.
1030 @node Sending Patches
1031 @subsection Sending Patches for GNU Emacs
1033 @cindex sending patches for GNU Emacs
1034 @cindex patches, sending
1035 If you would like to write bug fixes or improvements for GNU Emacs,
1036 that is very helpful. When you send your changes, please follow these
1037 guidelines to make it easy for the maintainers to use them. If you
1038 don't follow these guidelines, your information might still be useful,
1039 but using it will take extra work. Maintaining GNU Emacs is a lot of
1040 work in the best of circumstances, and we can't keep up unless you do
1045 Send an explanation with your changes of what problem they fix or what
1046 improvement they bring about. For a fix for an existing bug, it is
1047 best to reply to the relevant discussion on the @samp{bug-gnu-emacs}
1048 list, or the bug entry in the GNU Bug Tracker at
1049 @url{http://debbugs.gnu.org}. Explain why your change fixes the bug.
1052 Always include a proper bug report for the problem you think you have
1053 fixed. We need to convince ourselves that the change is right before
1054 installing it. Even if it is correct, we might have trouble
1055 understanding it if we don't have a way to reproduce the problem.
1058 Include all the comments that are appropriate to help people reading the
1059 source in the future understand why this change was needed.
1062 Don't mix together changes made for different reasons.
1063 Send them @emph{individually}.
1065 If you make two changes for separate reasons, then we might not want to
1066 install them both. We might want to install just one. If you send them
1067 all jumbled together in a single set of diffs, we have to do extra work
1068 to disentangle them---to figure out which parts of the change serve
1069 which purpose. If we don't have time for this, we might have to ignore
1070 your changes entirely.
1072 If you send each change as soon as you have written it, with its own
1073 explanation, then two changes never get tangled up, and we can consider
1074 each one properly without any extra work to disentangle them.
1077 Send each change as soon as that change is finished. Sometimes people
1078 think they are helping us by accumulating many changes to send them all
1079 together. As explained above, this is absolutely the worst thing you
1082 Since you should send each change separately, you might as well send it
1083 right away. That gives us the option of installing it immediately if it
1087 Use @samp{diff -c} to make your diffs. Diffs without context are hard
1088 to install reliably. More than that, they are hard to study; we must
1089 always study a patch to decide whether we want to install it. Unidiff
1090 format is better than contextless diffs, but not as easy to read as
1093 If you have GNU diff, use @samp{diff -c -F'^[_a-zA-Z0-9$]+ *('} when
1094 making diffs of C code. This shows the name of the function that each
1098 Avoid any ambiguity as to which is the old version and which is the new.
1099 Please make the old version the first argument to diff, and the new
1100 version the second argument. And please give one version or the other a
1101 name that indicates whether it is the old version or your new changed
1105 Write the change log entries for your changes. This is both to save us
1106 the extra work of writing them, and to help explain your changes so we
1107 can understand them.
1109 The purpose of the change log is to show people where to find what was
1110 changed. So you need to be specific about what functions you changed;
1111 in large functions, it's often helpful to indicate where within the
1112 function the change was.
1114 On the other hand, once you have shown people where to find the change,
1115 you need not explain its purpose in the change log. Thus, if you add a
1116 new function, all you need to say about it is that it is new. If you
1117 feel that the purpose needs explaining, it probably does---but put the
1118 explanation in comments in the code. It will be more useful there.
1120 Please read the @file{ChangeLog} files in the @file{src} and
1121 @file{lisp} directories to see what sorts of information to put in,
1122 and to learn the style that we use. @xref{Change Log}.
1125 When you write the fix, keep in mind that we can't install a change that
1126 would break other systems. Please think about what effect your change
1127 will have if compiled on another type of system.
1129 Sometimes people send fixes that @emph{might} be an improvement in
1130 general---but it is hard to be sure of this. It's hard to install
1131 such changes because we have to study them very carefully. Of course,
1132 a good explanation of the reasoning by which you concluded the change
1133 was correct can help convince us.
1135 The safest changes are changes to the configuration files for a
1136 particular machine. These are safe because they can't create new bugs
1139 Please help us keep up with the workload by designing the patch in a
1140 form that is clearly safe to install.
1144 @section Contributing to Emacs Development
1145 @cindex contributing to Emacs
1147 If you would like to work on improving Emacs, please contact the maintainers at
1149 @email{emacs-devel@@gnu.org}.
1152 @url{http://lists.gnu.org/mailman/listinfo/emacs-devel, the
1153 emacs-devel mailing list}.
1155 You can ask for suggested projects or suggest your own ideas.
1157 If you have already written an improvement, please tell us about it. If
1158 you have not yet started work, it is useful to contact
1160 @email{emacs-devel@@gnu.org}
1163 @url{http://lists.gnu.org/mailman/listinfo/emacs-devel, emacs-devel}
1165 before you start; it might be possible to suggest ways to make your
1166 extension fit in better with the rest of Emacs.
1168 The development version of Emacs can be downloaded from the
1169 repository where it is actively maintained by a group of developers.
1170 See the Emacs project page
1171 @url{http://savannah.gnu.org/projects/emacs/} for details.
1173 For more information on how to contribute, see the @file{etc/CONTRIBUTE}
1174 file in the Emacs distribution.
1177 @section How To Get Help with GNU Emacs
1179 If you need help installing, using or changing GNU Emacs, there are two
1186 the mailing list @email{help-gnu-emacs@@gnu.org},
1189 @url{http://lists.gnu.org/mailman/listinfo/help-gnu-emacs, the
1190 help-gnu-emacs mailing list},
1192 or post your request on newsgroup @code{gnu.emacs.help}. (This
1193 mailing list and newsgroup interconnect, so it does not matter which
1197 Look in the service directory for someone who might help you for a fee.
1198 The service directory is found in the file named @file{etc/SERVICE} in the