2 @c This is part of the GNU Emacs Lisp Reference Manual.
3 @c Copyright (C) 1990, 1991, 1992, 1993, 1994, 1995, 1998, 1999,
5 @c Free Software Foundation, Inc.
6 @c See the file elisp.texi for copying conditions.
7 @setfilename ../info/loading
8 @node Loading, Byte Compilation, Customization, Top
14 Loading a file of Lisp code means bringing its contents into the Lisp
15 environment in the form of Lisp objects. Emacs finds and opens the
16 file, reads the text, evaluates each form, and then closes the file.
18 The load functions evaluate all the expressions in a file just
19 as the @code{eval-current-buffer} function evaluates all the
20 expressions in a buffer. The difference is that the load functions
21 read and evaluate the text in the file as found on disk, not the text
24 @cindex top-level form
25 The loaded file must contain Lisp expressions, either as source code
26 or as byte-compiled code. Each form in the file is called a
27 @dfn{top-level form}. There is no special format for the forms in a
28 loadable file; any form in a file may equally well be typed directly
29 into a buffer and evaluated there. (Indeed, most code is tested this
30 way.) Most often, the forms are function definitions and variable
33 A file containing Lisp code is often called a @dfn{library}. Thus,
34 the ``Rmail library'' is a file containing code for Rmail mode.
35 Similarly, a ``Lisp library directory'' is a directory of files
39 * How Programs Do Loading:: The @code{load} function and others.
40 * Library Search:: Finding a library to load.
41 * Loading Non-ASCII:: Non-@acronym{ASCII} characters in Emacs Lisp files.
42 * Autoload:: Setting up a function to autoload.
43 * Repeated Loading:: Precautions about loading a file twice.
44 * Named Features:: Loading a library if it isn't already loaded.
45 * Unloading:: How to ``unload'' a library that was loaded.
46 * Hooks for Loading:: Providing code to be run when
47 particular libraries are loaded.
50 @node How Programs Do Loading
51 @section How Programs Do Loading
53 Emacs Lisp has several interfaces for loading. For example,
54 @code{autoload} creates a placeholder object for a function defined in a
55 file; trying to call the autoloading function loads the file to get the
56 function's real definition (@pxref{Autoload}). @code{require} loads a
57 file if it isn't already loaded (@pxref{Named Features}). Ultimately,
58 all these facilities call the @code{load} function to do the work.
60 @defun load filename &optional missing-ok nomessage nosuffix must-suffix
61 This function finds and opens a file of Lisp code, evaluates all the
62 forms in it, and closes the file.
64 To find the file, @code{load} first looks for a file named
65 @file{@var{filename}.elc}, that is, for a file whose name is
66 @var{filename} with @samp{.elc} appended. If such a file exists, it is
67 loaded. If there is no file by that name, then @code{load} looks for a
68 file named @file{@var{filename}.el}. If that file exists, it is loaded.
69 Finally, if neither of those names is found, @code{load} looks for a
70 file named @var{filename} with nothing appended, and loads it if it
71 exists. (The @code{load} function is not clever about looking at
72 @var{filename}. In the perverse case of a file named @file{foo.el.el},
73 evaluation of @code{(load "foo.el")} will indeed find it.)
75 If the optional argument @var{nosuffix} is non-@code{nil}, then the
76 suffixes @samp{.elc} and @samp{.el} are not tried. In this case, you
77 must specify the precise file name you want. By specifying the precise
78 file name and using @code{t} for @var{nosuffix}, you can prevent
79 perverse file names such as @file{foo.el.el} from being tried.
81 If the optional argument @var{must-suffix} is non-@code{nil}, then
82 @code{load} insists that the file name used must end in either
83 @samp{.el} or @samp{.elc}, unless it contains an explicit directory
84 name. If @var{filename} does not contain an explicit directory name,
85 and does not end in a suffix, then @code{load} insists on adding one.
87 If @var{filename} is a relative file name, such as @file{foo} or
88 @file{baz/foo.bar}, @code{load} searches for the file using the variable
89 @code{load-path}. It appends @var{filename} to each of the directories
90 listed in @code{load-path}, and loads the first file it finds whose name
91 matches. The current default directory is tried only if it is specified
92 in @code{load-path}, where @code{nil} stands for the default directory.
93 @code{load} tries all three possible suffixes in the first directory in
94 @code{load-path}, then all three suffixes in the second directory, and
95 so on. @xref{Library Search}.
97 If you get a warning that @file{foo.elc} is older than @file{foo.el}, it
98 means you should consider recompiling @file{foo.el}. @xref{Byte
101 When loading a source file (not compiled), @code{load} performs
102 character set translation just as Emacs would do when visiting the file.
103 @xref{Coding Systems}.
105 Messages like @samp{Loading foo...} and @samp{Loading foo...done} appear
106 in the echo area during loading unless @var{nomessage} is
110 Any unhandled errors while loading a file terminate loading. If the
111 load was done for the sake of @code{autoload}, any function definitions
112 made during the loading are undone.
115 If @code{load} can't find the file to load, then normally it signals the
116 error @code{file-error} (with @samp{Cannot open load file
117 @var{filename}}). But if @var{missing-ok} is non-@code{nil}, then
118 @code{load} just returns @code{nil}.
120 You can use the variable @code{load-read-function} to specify a function
121 for @code{load} to use instead of @code{read} for reading expressions.
124 @code{load} returns @code{t} if the file loads successfully.
127 @deffn Command load-file filename
128 This command loads the file @var{filename}. If @var{filename} is a
129 relative file name, then the current default directory is assumed.
130 @code{load-path} is not used, and suffixes are not appended. Use this
131 command if you wish to specify precisely the file name to load.
134 @deffn Command load-library library
135 This command loads the library named @var{library}. It is equivalent to
136 @code{load}, except in how it reads its argument interactively.
139 @defvar load-in-progress
140 This variable is non-@code{nil} if Emacs is in the process of loading a
141 file, and it is @code{nil} otherwise.
144 @defvar load-read-function
145 @anchor{Definition of load-read-function}
146 This variable specifies an alternate expression-reading function for
147 @code{load} and @code{eval-region} to use instead of @code{read}.
148 The function should accept one argument, just as @code{read} does.
150 Normally, the variable's value is @code{nil}, which means those
151 functions should use @code{read}.
153 Instead of using this variable, it is cleaner to use another, newer
154 feature: to pass the function as the @var{read-function} argument to
155 @code{eval-region}. @xref{Definition of eval-region,, Eval}.
158 For information about how @code{load} is used in building Emacs, see
159 @ref{Building Emacs}.
162 @section Library Search
164 When Emacs loads a Lisp library, it searches for the library
165 in a list of directories specified by the variable @code{load-path}.
168 @cindex @code{EMACSLOADPATH} environment variable
169 The value of this variable is a list of directories to search when
170 loading files with @code{load}. Each element is a string (which must be
171 a directory name) or @code{nil} (which stands for the current working
175 The value of @code{load-path} is initialized from the environment
176 variable @code{EMACSLOADPATH}, if that exists; otherwise its default
177 value is specified in @file{emacs/src/epaths.h} when Emacs is built.
178 Then the list is expanded by adding subdirectories of the directories
181 The syntax of @code{EMACSLOADPATH} is the same as used for @code{PATH};
182 @samp{:} (or @samp{;}, according to the operating system) separates
183 directory names, and @samp{.} is used for the current default directory.
184 Here is an example of how to set your @code{EMACSLOADPATH} variable from
185 a @code{csh} @file{.login} file:
188 setenv EMACSLOADPATH .:/user/bil/emacs:/usr/local/share/emacs/20.3/lisp
191 Here is how to set it using @code{sh}:
195 EMACSLOADPATH=.:/user/bil/emacs:/usr/local/share/emacs/20.3/lisp
198 Here is an example of code you can place in your init file (@pxref{Init
199 File}) to add several directories to the front of your default
205 (append (list nil "/user/bil/emacs"
212 @c Wordy to rid us of an overfull hbox. --rjc 15mar92
214 In this example, the path searches the current working directory first,
215 followed then by the @file{/user/bil/emacs} directory, the
216 @file{/usr/local/lisplib} directory, and the @file{~/emacs} directory,
217 which are then followed by the standard directories for Lisp code.
219 Dumping Emacs uses a special value of @code{load-path}. If the value of
220 @code{load-path} at the end of dumping is unchanged (that is, still the
221 same special value), the dumped Emacs switches to the ordinary
222 @code{load-path} value when it starts up, as described above. But if
223 @code{load-path} has any other value at the end of dumping, that value
224 is used for execution of the dumped Emacs also.
226 Therefore, if you want to change @code{load-path} temporarily for
227 loading a few libraries in @file{site-init.el} or @file{site-load.el},
228 you should bind @code{load-path} locally with @code{let} around the
229 calls to @code{load}.
231 The default value of @code{load-path}, when running an Emacs which has
232 been installed on the system, includes two special directories (and
233 their subdirectories as well):
236 "/usr/local/share/emacs/@var{version}/site-lisp"
243 "/usr/local/share/emacs/site-lisp"
247 The first one is for locally installed packages for a particular Emacs
248 version; the second is for locally installed packages meant for use with
249 all installed Emacs versions.
251 There are several reasons why a Lisp package that works well in one
252 Emacs version can cause trouble in another. Sometimes packages need
253 updating for incompatible changes in Emacs; sometimes they depend on
254 undocumented internal Emacs data that can change without notice;
255 sometimes a newer Emacs version incorporates a version of the package,
256 and should be used only with that version.
258 Emacs finds these directories' subdirectories and adds them to
259 @code{load-path} when it starts up. Both immediate subdirectories and
260 subdirectories multiple levels down are added to @code{load-path}.
262 Not all subdirectories are included, though. Subdirectories whose
263 names do not start with a letter or digit are excluded. Subdirectories
264 named @file{RCS} or @file{CVS} are excluded. Also, a subdirectory which
265 contains a file named @file{.nosearch} is excluded. You can use these
266 methods to prevent certain subdirectories of the @file{site-lisp}
267 directories from being searched.
269 If you run Emacs from the directory where it was built---that is, an
270 executable that has not been formally installed---then @code{load-path}
271 normally contains two additional directories. These are the @code{lisp}
272 and @code{site-lisp} subdirectories of the main build directory. (Both
273 are represented as absolute file names.)
275 @deffn Command locate-library library &optional nosuffix path interactive-call
276 This command finds the precise file name for library @var{library}. It
277 searches for the library in the same way @code{load} does, and the
278 argument @var{nosuffix} has the same meaning as in @code{load}: don't
279 add suffixes @samp{.elc} or @samp{.el} to the specified name
282 If the @var{path} is non-@code{nil}, that list of directories is used
283 instead of @code{load-path}.
285 When @code{locate-library} is called from a program, it returns the file
286 name as a string. When the user runs @code{locate-library}
287 interactively, the argument @var{interactive-call} is @code{t}, and this
288 tells @code{locate-library} to display the file name in the echo area.
291 @defvar load-suffixes
292 This variable is a list of suffixes (strings) that @code{load} should
293 try adding to the specified file name. The default value is
294 @code{(".elc" ".el")}. There is no need to include the null suffix.
297 @node Loading Non-ASCII
298 @section Loading Non-@acronym{ASCII} Characters
300 When Emacs Lisp programs contain string constants with non-@acronym{ASCII}
301 characters, these can be represented within Emacs either as unibyte
302 strings or as multibyte strings (@pxref{Text Representations}). Which
303 representation is used depends on how the file is read into Emacs. If
304 it is read with decoding into multibyte representation, the text of the
305 Lisp program will be multibyte text, and its string constants will be
306 multibyte strings. If a file containing Latin-1 characters (for
307 example) is read without decoding, the text of the program will be
308 unibyte text, and its string constants will be unibyte strings.
309 @xref{Coding Systems}.
311 To make the results more predictable, Emacs always performs decoding
312 into the multibyte representation when loading Lisp files, even if it
313 was started with the @samp{--unibyte} option. This means that string
314 constants with non-@acronym{ASCII} characters translate into multibyte
315 strings. The only exception is when a particular file specifies no
318 The reason Emacs is designed this way is so that Lisp programs give
319 predictable results, regardless of how Emacs was started. In addition,
320 this enables programs that depend on using multibyte text to work even
321 in a unibyte Emacs. Of course, such programs should be designed to
322 notice whether the user prefers unibyte or multibyte text, by checking
323 @code{default-enable-multibyte-characters}, and convert representations
326 In most Emacs Lisp programs, the fact that non-@acronym{ASCII} strings are
327 multibyte strings should not be noticeable, since inserting them in
328 unibyte buffers converts them to unibyte automatically. However, if
329 this does make a difference, you can force a particular Lisp file to be
330 interpreted as unibyte by writing @samp{-*-unibyte: t;-*-} in a
331 comment on the file's first line. With that designator, the file will
332 unconditionally be interpreted as unibyte, even in an ordinary
333 multibyte Emacs session. This can matter when making keybindings to
334 non-@acronym{ASCII} characters written as @code{?v@var{literal}}.
340 The @dfn{autoload} facility allows you to make a function or macro
341 known in Lisp, but put off loading the file that defines it. The first
342 call to the function automatically reads the proper file to install the
343 real definition and other associated code, then runs the real definition
344 as if it had been loaded all along.
346 There are two ways to set up an autoloaded function: by calling
347 @code{autoload}, and by writing a special ``magic'' comment in the
348 source before the real definition. @code{autoload} is the low-level
349 primitive for autoloading; any Lisp program can call @code{autoload} at
350 any time. Magic comments are the most convenient way to make a function
351 autoload, for packages installed along with Emacs. These comments do
352 nothing on their own, but they serve as a guide for the command
353 @code{update-file-autoloads}, which constructs calls to @code{autoload}
354 and arranges to execute them when Emacs is built.
356 @defun autoload function filename &optional docstring interactive type
357 This function defines the function (or macro) named @var{function} so as
358 to load automatically from @var{filename}. The string @var{filename}
359 specifies the file to load to get the real definition of @var{function}.
361 If @var{filename} does not contain either a directory name, or the
362 suffix @code{.el} or @code{.elc}, then @code{autoload} insists on adding
363 one of these suffixes, and it will not load from a file whose name is
364 just @var{filename} with no added suffix.
366 The argument @var{docstring} is the documentation string for the
367 function. Normally, this should be identical to the documentation string
368 in the function definition itself. Specifying the documentation string
369 in the call to @code{autoload} makes it possible to look at the
370 documentation without loading the function's real definition.
372 If @var{interactive} is non-@code{nil}, that says @var{function} can be
373 called interactively. This lets completion in @kbd{M-x} work without
374 loading @var{function}'s real definition. The complete interactive
375 specification is not given here; it's not needed unless the user
376 actually calls @var{function}, and when that happens, it's time to load
379 You can autoload macros and keymaps as well as ordinary functions.
380 Specify @var{type} as @code{macro} if @var{function} is really a macro.
381 Specify @var{type} as @code{keymap} if @var{function} is really a
382 keymap. Various parts of Emacs need to know this information without
383 loading the real definition.
385 An autoloaded keymap loads automatically during key lookup when a prefix
386 key's binding is the symbol @var{function}. Autoloading does not occur
387 for other kinds of access to the keymap. In particular, it does not
388 happen when a Lisp program gets the keymap from the value of a variable
389 and calls @code{define-key}; not even if the variable name is the same
390 symbol @var{function}.
392 @cindex function cell in autoload
393 If @var{function} already has a non-void function definition that is not
394 an autoload object, @code{autoload} does nothing and returns @code{nil}.
395 If the function cell of @var{function} is void, or is already an autoload
396 object, then it is defined as an autoload object like this:
399 (autoload @var{filename} @var{docstring} @var{interactive} @var{type})
406 (symbol-function 'run-prolog)
407 @result{} (autoload "prolog" 169681 t nil)
412 In this case, @code{"prolog"} is the name of the file to load, 169681
413 refers to the documentation string in the
414 @file{emacs/etc/DOC-@var{version}} file (@pxref{Documentation Basics}),
415 @code{t} means the function is interactive, and @code{nil} that it is
416 not a macro or a keymap.
419 @cindex autoload errors
420 The autoloaded file usually contains other definitions and may require
421 or provide one or more features. If the file is not completely loaded
422 (due to an error in the evaluation of its contents), any function
423 definitions or @code{provide} calls that occurred during the load are
424 undone. This is to ensure that the next attempt to call any function
425 autoloading from this file will try again to load the file. If not for
426 this, then some of the functions in the file might be defined by the
427 aborted load, but fail to work properly for the lack of certain
428 subroutines not loaded successfully because they come later in the file.
430 If the autoloaded file fails to define the desired Lisp function or
431 macro, then an error is signaled with data @code{"Autoloading failed to
432 define function @var{function-name}"}.
434 @findex update-file-autoloads
435 @findex update-directory-autoloads
436 A magic autoload comment consists of @samp{;;;###autoload}, on a line
437 by itself, just before the real definition of the function in its
438 autoloadable source file. The command @kbd{M-x update-file-autoloads}
439 writes a corresponding @code{autoload} call into @file{loaddefs.el}.
440 Building Emacs loads @file{loaddefs.el} and thus calls @code{autoload}.
441 @kbd{M-x update-directory-autoloads} is even more powerful; it updates
442 autoloads for all files in the current directory.
444 The same magic comment can copy any kind of form into
445 @file{loaddefs.el}. If the form following the magic comment is not a
446 function-defining form or a @code{defcustom} form, it is copied
447 verbatim. ``Function-defining forms'' include @code{define-skeleton},
448 @code{define-derived-mode}, @code{define-generic-mode} and
449 @code{define-minor-mode} as well as @code{defun} and
450 @code{defmacro}. To save space, a @code{defcustom} form is converted to
451 a @code{defvar} in @file{loaddefs.el}, with some additional information
452 if it uses @code{:require}.
454 You can also use a magic comment to execute a form at build time
455 @emph{without} executing it when the file itself is loaded. To do this,
456 write the form @emph{on the same line} as the magic comment. Since it
457 is in a comment, it does nothing when you load the source file; but
458 @kbd{M-x update-file-autoloads} copies it to @file{loaddefs.el}, where
459 it is executed while building Emacs.
461 The following example shows how @code{doctor} is prepared for
462 autoloading with a magic comment:
467 "Switch to *doctor* buffer and start giving psychotherapy."
469 (switch-to-buffer "*doctor*")
474 Here's what that produces in @file{loaddefs.el}:
477 (autoload 'doctor "doctor" "\
478 Switch to *doctor* buffer and start giving psychotherapy."
483 The backslash and newline immediately following the double-quote are a
484 convention used only in the preloaded uncompiled Lisp files such as
485 @file{loaddefs.el}; they tell @code{make-docfile} to put the
486 documentation string in the @file{etc/DOC} file. @xref{Building Emacs}.
487 See also the commentary in @file{lib-src/make-docfile.c}.
489 If you write a function definition with an unusual macro that is not
490 one of the known and recognized function definition methods, use of an
491 ordinary magic autoload comment would copy the whole definition into
492 @code{loaddefs.el}. That is not desirable. You can put the desired
493 @code{autoload} call into @code{loaddefs.el} instead by writing this:
496 ;;;###autoload (autoload 'foo "myfile")
501 @node Repeated Loading
502 @section Repeated Loading
503 @cindex repeated loading
505 You can load a given file more than once in an Emacs session. For
506 example, after you have rewritten and reinstalled a function definition
507 by editing it in a buffer, you may wish to return to the original
508 version; you can do this by reloading the file it came from.
510 When you load or reload files, bear in mind that the @code{load} and
511 @code{load-library} functions automatically load a byte-compiled file
512 rather than a non-compiled file of similar name. If you rewrite a file
513 that you intend to save and reinstall, you need to byte-compile the new
514 version; otherwise Emacs will load the older, byte-compiled file instead
515 of your newer, non-compiled file! If that happens, the message
516 displayed when loading the file includes, @samp{(compiled; note, source is
517 newer)}, to remind you to recompile it.
519 When writing the forms in a Lisp library file, keep in mind that the
520 file might be loaded more than once. For example, think about whether
521 each variable should be reinitialized when you reload the library;
522 @code{defvar} does not change the value if the variable is already
523 initialized. (@xref{Defining Variables}.)
525 The simplest way to add an element to an alist is like this:
528 (setq minor-mode-alist
529 (cons '(leif-mode " Leif") minor-mode-alist))
533 But this would add multiple elements if the library is reloaded.
534 To avoid the problem, write this:
537 (or (assq 'leif-mode minor-mode-alist)
538 (setq minor-mode-alist
539 (cons '(leif-mode " Leif") minor-mode-alist)))
542 To add an element to a list just once, you can also use @code{add-to-list}
543 (@pxref{Setting Variables}).
545 Occasionally you will want to test explicitly whether a library has
546 already been loaded. Here's one way to test, in a library, whether it
547 has been loaded before:
550 (defvar foo-was-loaded nil)
552 (unless foo-was-loaded
553 @var{execute-first-time-only}
554 (setq foo-was-loaded t))
558 If the library uses @code{provide} to provide a named feature, you can
559 use @code{featurep} earlier in the file to test whether the
560 @code{provide} call has been executed before.
562 @xref{Named Features}.
568 @cindex requiring features
569 @cindex providing features
571 @code{provide} and @code{require} are an alternative to
572 @code{autoload} for loading files automatically. They work in terms of
573 named @dfn{features}. Autoloading is triggered by calling a specific
574 function, but a feature is loaded the first time another program asks
577 A feature name is a symbol that stands for a collection of functions,
578 variables, etc. The file that defines them should @dfn{provide} the
579 feature. Another program that uses them may ensure they are defined by
580 @dfn{requiring} the feature. This loads the file of definitions if it
581 hasn't been loaded already.
583 To require the presence of a feature, call @code{require} with the
584 feature name as argument. @code{require} looks in the global variable
585 @code{features} to see whether the desired feature has been provided
586 already. If not, it loads the feature from the appropriate file. This
587 file should call @code{provide} at the top level to add the feature to
588 @code{features}; if it fails to do so, @code{require} signals an error.
589 @cindex load error with require
591 For example, in @file{emacs/lisp/prolog.el},
592 the definition for @code{run-prolog} includes the following code:
596 "Run an inferior Prolog process, with I/O via buffer *prolog*."
599 (switch-to-buffer (make-comint "prolog" prolog-program-name))
600 (inferior-prolog-mode))
604 The expression @code{(require 'comint)} loads the file @file{comint.el}
605 if it has not yet been loaded. This ensures that @code{make-comint} is
606 defined. Features are normally named after the files that provide them,
607 so that @code{require} need not be given the file name.
609 The @file{comint.el} file contains the following top-level expression:
616 This adds @code{comint} to the global @code{features} list, so that
617 @code{(require 'comint)} will henceforth know that nothing needs to be
620 @cindex byte-compiling @code{require}
621 When @code{require} is used at top level in a file, it takes effect
622 when you byte-compile that file (@pxref{Byte Compilation}) as well as
623 when you load it. This is in case the required package contains macros
624 that the byte compiler must know about. It also avoids byte-compiler
625 warnings for functions and variables defined in the file loaded with
628 Although top-level calls to @code{require} are evaluated during
629 byte compilation, @code{provide} calls are not. Therefore, you can
630 ensure that a file of definitions is loaded before it is byte-compiled
631 by including a @code{provide} followed by a @code{require} for the same
632 feature, as in the following example.
636 (provide 'my-feature) ; @r{Ignored by byte compiler,}
637 ; @r{evaluated by @code{load}.}
638 (require 'my-feature) ; @r{Evaluated by byte compiler.}
643 The compiler ignores the @code{provide}, then processes the
644 @code{require} by loading the file in question. Loading the file does
645 execute the @code{provide} call, so the subsequent @code{require} call
646 does nothing when the file is loaded.
648 @defun provide feature &optional subfeatures
649 This function announces that @var{feature} is now loaded, or being
650 loaded, into the current Emacs session. This means that the facilities
651 associated with @var{feature} are or will be available for other Lisp
654 The direct effect of calling @code{provide} is to add @var{feature} to
655 the front of the list @code{features} if it is not already in the list.
656 The argument @var{feature} must be a symbol. @code{provide} returns
659 If provided, @var{subfeatures} should be a list of symbols indicating
660 a set of specific subfeatures provided by this version of @var{feature}.
661 You can test the presence of a subfeature using @code{featurep}.
670 @result{} (foo bar bish)
673 When a file is loaded to satisfy an autoload, and it stops due to an
674 error in the evaluation of its contents, any function definitions or
675 @code{provide} calls that occurred during the load are undone.
679 @defun require feature &optional filename noerror
680 This function checks whether @var{feature} is present in the current
681 Emacs session (using @code{(featurep @var{feature})}; see below). The
682 argument @var{feature} must be a symbol.
684 If the feature is not present, then @code{require} loads @var{filename}
685 with @code{load}. If @var{filename} is not supplied, then the name of
686 the symbol @var{feature} is used as the base file name to load.
687 However, in this case, @code{require} insists on finding @var{feature}
688 with an added suffix; a file whose name is just @var{feature} won't be
691 If @var{noerror} is non-@code{nil}, that suppresses errors from actual
692 loading of the file. In that case, @code{require} returns @code{nil}
693 if loading the file fails. Normally, @code{require} returns
696 If loading the file succeeds but does not provide @var{feature},
697 @code{require} signals an error, @samp{Required feature @var{feature}
701 @defun featurep feature &optional subfeature
702 This function returns @code{t} if @var{feature} has been provided in
703 the current Emacs session (i.e.@:, if @var{feature} is a member of
704 @code{features}.) If @var{subfeature} is non-@code{nil}, then the
705 function returns @code{t} only if that subfeature is provided as well
706 (i.e.@: if @var{subfeature} is a member of the @code{subfeature}
707 property of the @var{feature} symbol.)
711 The value of this variable is a list of symbols that are the features
712 loaded in the current Emacs session. Each symbol was put in this list
713 with a call to @code{provide}. The order of the elements in the
714 @code{features} list is not significant.
722 You can discard the functions and variables loaded by a library to
723 reclaim memory for other Lisp objects. To do this, use the function
724 @code{unload-feature}:
726 @deffn Command unload-feature feature &optional force
727 This command unloads the library that provided feature @var{feature}.
728 It undefines all functions, macros, and variables defined in that
729 library with @code{defun}, @code{defalias}, @code{defsubst},
730 @code{defmacro}, @code{defconst}, @code{defvar}, and @code{defcustom}.
731 It then restores any autoloads formerly associated with those symbols.
732 (Loading saves these in the @code{autoload} property of the symbol.)
734 @vindex unload-feature-special-hooks
735 Before restoring the previous definitions, @code{unload-feature} runs
736 @code{remove-hook} to remove functions in the library from certain
737 hooks. These hooks include variables whose names end in @samp{hook}
738 or @samp{-hooks}, plus those listed in
739 @code{unload-feature-special-hooks}. This is to prevent Emacs from
740 ceasing to function because important hooks refer to functions that
741 are no longer defined.
743 @vindex @var{feature}-unload-hook
744 If these measures are not sufficient to prevent malfunction, a library
745 can define an explicit unload hook. If @code{@var{feature}-unload-hook}
746 is defined, it is run as a normal hook before restoring the previous
747 definitions, @emph{instead of} the usual hook-removing actions. The
748 unload hook ought to undo all the global state changes made by the
749 library that might cease to work once the library is unloaded.
750 @code{unload-feature} can cause problems with libraries that fail to do
751 this, so it should be used with caution.
753 Ordinarily, @code{unload-feature} refuses to unload a library on which
754 other loaded libraries depend. (A library @var{a} depends on library
755 @var{b} if @var{a} contains a @code{require} for @var{b}.) If the
756 optional argument @var{force} is non-@code{nil}, dependencies are
757 ignored and you can unload any library.
760 The @code{unload-feature} function is written in Lisp; its actions are
761 based on the variable @code{load-history}.
764 This variable's value is an alist connecting library names with the
765 names of functions and variables they define, the features they provide,
766 and the features they require.
768 Each element is a list and describes one library. The @sc{car} of the
769 list is the name of the library, as a string. The rest of the list
770 elements have these forms:
774 The function @var{fun} was defined by this library.
775 @item (t . @var{fun})
776 The function @var{fun} was previously an autoload before this library
777 redefined it as a function. The following element is always the
778 symbol @var{fun}, which signifies that the library defined @var{fun}
780 @item (autoload . @var{fun})
781 The function @var{fun} was defined as an autoload.
782 @item (defvar . @var{var})
783 The symbol @var{var} was defined as a variable.
784 @item (require . @var{feature})
785 The feature @var{feature} was required.
786 @item (provide . @var{feature})
787 The feature @var{feature} was provided.
790 The value of @code{load-history} may have one element whose @sc{car} is
791 @code{nil}. This element describes definitions made with
792 @code{eval-buffer} on a buffer that is not visiting a file.
795 The command @code{eval-region} updates @code{load-history}, but does so
796 by adding the symbols defined to the element for the file being visited,
797 rather than replacing that element. @xref{Eval}.
799 @defvar unload-feature-special-hooks
800 This variable holds a list of hooks to be scanned before unloading a
801 library, to remove functions defined in the library.
804 @node Hooks for Loading
805 @section Hooks for Loading
806 @cindex loading hooks
807 @cindex hooks for loading
809 You can ask for code to be executed if and when a particular library is
810 loaded, by calling @code{eval-after-load}.
812 @defun eval-after-load library form
813 This function arranges to evaluate @var{form} at the end of loading the
814 library @var{library}, if and when @var{library} is loaded. If
815 @var{library} is already loaded, it evaluates @var{form} right away.
817 If @var{library} is a string, it must exactly match the argument of
818 @code{load} used to load the library. To get the proper results when an
819 installed library is found by searching @code{load-path}, you should not
820 include any directory names in @var{library}.
822 @var{library} can also be a feature (i.e.@: a symbol), in which case
823 @var{form} is evaluated when @code{(provide @var{library})} is called.
825 An error in @var{form} does not undo the load, but does prevent
826 execution of the rest of @var{form}.
829 In general, well-designed Lisp programs should not use this feature.
830 The clean and modular ways to interact with a Lisp library are (1)
831 examine and set the library's variables (those which are meant for
832 outside use), and (2) call the library's functions. If you wish to
833 do (1), you can do it immediately---there is no need to wait for when
834 the library is loaded. To do (2), you must load the library (preferably
835 with @code{require}).
837 But it is OK to use @code{eval-after-load} in your personal
838 customizations if you don't feel they must meet the design standards for
839 programs meant for wider use.
841 @defvar after-load-alist
842 This variable holds an alist of expressions to evaluate if and when
843 particular libraries are loaded. Each element looks like this:
846 (@var{filename} @var{forms}@dots{})
849 The function @code{load} checks @code{after-load-alist} in order to
850 implement @code{eval-after-load}.
856 arch-tag: df731f89-0900-4389-a436-9105241b6f7a