2 @c This is part of the GNU Emacs Lisp Reference Manual.
3 @c Copyright (C) 1990-1995, 1998-1999, 2001-2012
4 @c Free Software Foundation, Inc.
5 @c See the file elisp.texi for copying conditions.
12 Loading a file of Lisp code means bringing its contents into the
13 Lisp environment in the form of Lisp objects. Emacs finds and opens
14 the file, reads the text, evaluates each form, and then closes the
15 file. Such a file is also called a @dfn{Lisp library}.
17 The load functions evaluate all the expressions in a file just
18 as the @code{eval-buffer} function evaluates all the
19 expressions in a buffer. The difference is that the load functions
20 read and evaluate the text in the file as found on disk, not the text
23 @cindex top-level form
24 The loaded file must contain Lisp expressions, either as source code
25 or as byte-compiled code. Each form in the file is called a
26 @dfn{top-level form}. There is no special format for the forms in a
27 loadable file; any form in a file may equally well be typed directly
28 into a buffer and evaluated there. (Indeed, most code is tested this
29 way.) Most often, the forms are function definitions and variable
33 * How Programs Do Loading:: The @code{load} function and others.
34 * Load Suffixes:: Details about the suffixes that @code{load} tries.
35 * Library Search:: Finding a library to load.
36 * Loading Non-ASCII:: Non-@acronym{ASCII} characters in Emacs Lisp files.
37 * Autoload:: Setting up a function to autoload.
38 * Repeated Loading:: Precautions about loading a file twice.
39 * Named Features:: Loading a library if it isn't already loaded.
40 * Where Defined:: Finding which file defined a certain symbol.
41 * Unloading:: How to "unload" a library that was loaded.
42 * Hooks for Loading:: Providing code to be run when
43 particular libraries are loaded.
46 @node How Programs Do Loading
47 @section How Programs Do Loading
49 Emacs Lisp has several interfaces for loading. For example,
50 @code{autoload} creates a placeholder object for a function defined in a
51 file; trying to call the autoloading function loads the file to get the
52 function's real definition (@pxref{Autoload}). @code{require} loads a
53 file if it isn't already loaded (@pxref{Named Features}). Ultimately,
54 all these facilities call the @code{load} function to do the work.
56 @defun load filename &optional missing-ok nomessage nosuffix must-suffix
57 This function finds and opens a file of Lisp code, evaluates all the
58 forms in it, and closes the file.
60 To find the file, @code{load} first looks for a file named
61 @file{@var{filename}.elc}, that is, for a file whose name is
62 @var{filename} with the extension @samp{.elc} appended. If such a
63 file exists, it is loaded. If there is no file by that name, then
64 @code{load} looks for a file named @file{@var{filename}.el}. If that
65 file exists, it is loaded. Finally, if neither of those names is
66 found, @code{load} looks for a file named @var{filename} with nothing
67 appended, and loads it if it exists. (The @code{load} function is not
68 clever about looking at @var{filename}. In the perverse case of a
69 file named @file{foo.el.el}, evaluation of @code{(load "foo.el")} will
72 If Auto Compression mode is enabled, as it is by default, then if
73 @code{load} can not find a file, it searches for a compressed version
74 of the file before trying other file names. It decompresses and loads
75 it if it exists. It looks for compressed versions by appending each
76 of the suffixes in @code{jka-compr-load-suffixes} to the file name.
77 The value of this variable must be a list of strings. Its standard
78 value is @code{(".gz")}.
80 If the optional argument @var{nosuffix} is non-@code{nil}, then
81 @code{load} does not try the suffixes @samp{.elc} and @samp{.el}. In
82 this case, you must specify the precise file name you want, except
83 that, if Auto Compression mode is enabled, @code{load} will still use
84 @code{jka-compr-load-suffixes} to find compressed versions. By
85 specifying the precise file name and using @code{t} for
86 @var{nosuffix}, you can prevent file names like @file{foo.el.el} from
89 If the optional argument @var{must-suffix} is non-@code{nil}, then
90 @code{load} insists that the file name used must end in either
91 @samp{.el} or @samp{.elc} (possibly extended with a compression
92 suffix), unless it contains an explicit directory name.
94 If @var{filename} is a relative file name, such as @file{foo} or
95 @file{baz/foo.bar}, @code{load} searches for the file using the variable
96 @code{load-path}. It appends @var{filename} to each of the directories
97 listed in @code{load-path}, and loads the first file it finds whose name
98 matches. The current default directory is tried only if it is specified
99 in @code{load-path}, where @code{nil} stands for the default directory.
100 @code{load} tries all three possible suffixes in the first directory in
101 @code{load-path}, then all three suffixes in the second directory, and
102 so on. @xref{Library Search}.
104 Whatever the name under which the file is eventually found, and the
105 directory where Emacs found it, Emacs sets the value of the variable
106 @code{load-file-name} to that file's name.
108 If you get a warning that @file{foo.elc} is older than @file{foo.el}, it
109 means you should consider recompiling @file{foo.el}. @xref{Byte
112 When loading a source file (not compiled), @code{load} performs
113 character set translation just as Emacs would do when visiting the file.
114 @xref{Coding Systems}.
116 @c This is referred to from the Macros chapter.
117 @c Not sure if it should be the other way round.
118 @cindex eager macro expansion
119 When loading an uncompiled file, Emacs tries to expand any macros
120 that the file contains (@pxref{Macros}). We refer to this as
121 @dfn{eager macro expansion}. Doing this (rather than deferring
122 the expansion until the relevant code runs) can significantly speed
123 up the execution of uncompiled code. Sometimes, this macro expansion
124 cannot be done, owing to a cyclic dependency. In the simplest
125 example of this, the file you are loading refers to a macro defined
126 in another file, and that file in turn requires the file you are
127 loading. This is generally harmless. Emacs prints a warning
128 (@samp{Eager macro-expansion skipped due to cycle@dots{}})
129 giving details of the problem, but it still loads the file, just
130 leaving the macro unexpanded for now. You may wish to restructure
131 your code so that this does not happen. Loading a compiled file does
132 not cause macroexpansion, because this should already have happened
133 during compilation. @xref{Compiling Macros}.
135 Messages like @samp{Loading foo...} and @samp{Loading foo...done} appear
136 in the echo area during loading unless @var{nomessage} is
140 Any unhandled errors while loading a file terminate loading. If the
141 load was done for the sake of @code{autoload}, any function definitions
142 made during the loading are undone.
145 If @code{load} can't find the file to load, then normally it signals the
146 error @code{file-error} (with @samp{Cannot open load file
147 @var{filename}}). But if @var{missing-ok} is non-@code{nil}, then
148 @code{load} just returns @code{nil}.
150 You can use the variable @code{load-read-function} to specify a function
151 for @code{load} to use instead of @code{read} for reading expressions.
154 @code{load} returns @code{t} if the file loads successfully.
157 @deffn Command load-file filename
158 This command loads the file @var{filename}. If @var{filename} is a
159 relative file name, then the current default directory is assumed.
160 This command does not use @code{load-path}, and does not append
161 suffixes. However, it does look for compressed versions (if Auto
162 Compression Mode is enabled). Use this command if you wish to specify
163 precisely the file name to load.
166 @deffn Command load-library library
167 This command loads the library named @var{library}. It is equivalent to
168 @code{load}, except for the way it reads its argument interactively.
169 @xref{Lisp Libraries,,,emacs, The GNU Emacs Manual}.
172 @defvar load-in-progress
173 This variable is non-@code{nil} if Emacs is in the process of loading a
174 file, and it is @code{nil} otherwise.
177 @defvar load-file-name
178 When Emacs is in the process of loading a file, this variable's value
179 is the name of that file, as Emacs found it during the search
180 described earlier in this section.
183 @defvar load-read-function
184 @anchor{Definition of load-read-function}
185 @c do not allow page break at anchor; work around Texinfo deficiency.
186 This variable specifies an alternate expression-reading function for
187 @code{load} and @code{eval-region} to use instead of @code{read}.
188 The function should accept one argument, just as @code{read} does.
190 Normally, the variable's value is @code{nil}, which means those
191 functions should use @code{read}.
193 Instead of using this variable, it is cleaner to use another, newer
194 feature: to pass the function as the @var{read-function} argument to
195 @code{eval-region}. @xref{Definition of eval-region,, Eval}.
198 For information about how @code{load} is used in building Emacs, see
199 @ref{Building Emacs}.
202 @section Load Suffixes
203 We now describe some technical details about the exact suffixes that
206 @defvar load-suffixes
207 This is a list of suffixes indicating (compiled or source) Emacs Lisp
208 files. It should not include the empty string. @code{load} uses
209 these suffixes in order when it appends Lisp suffixes to the specified
210 file name. The standard value is @code{(".elc" ".el")} which produces
211 the behavior described in the previous section.
214 @defvar load-file-rep-suffixes
215 This is a list of suffixes that indicate representations of the same
216 file. This list should normally start with the empty string.
217 When @code{load} searches for a file it appends the suffixes in this
218 list, in order, to the file name, before searching for another file.
220 Enabling Auto Compression mode appends the suffixes in
221 @code{jka-compr-load-suffixes} to this list and disabling Auto
222 Compression mode removes them again. The standard value of
223 @code{load-file-rep-suffixes} if Auto Compression mode is disabled is
224 @code{("")}. Given that the standard value of
225 @code{jka-compr-load-suffixes} is @code{(".gz")}, the standard value
226 of @code{load-file-rep-suffixes} if Auto Compression mode is enabled
227 is @code{("" ".gz")}.
230 @defun get-load-suffixes
231 This function returns the list of all suffixes that @code{load} should
232 try, in order, when its @var{must-suffix} argument is non-@code{nil}.
233 This takes both @code{load-suffixes} and @code{load-file-rep-suffixes}
234 into account. If @code{load-suffixes}, @code{jka-compr-load-suffixes}
235 and @code{load-file-rep-suffixes} all have their standard values, this
236 function returns @code{(".elc" ".elc.gz" ".el" ".el.gz")} if Auto
237 Compression mode is enabled and @code{(".elc" ".el")} if Auto
238 Compression mode is disabled.
241 To summarize, @code{load} normally first tries the suffixes in the
242 value of @code{(get-load-suffixes)} and then those in
243 @code{load-file-rep-suffixes}. If @var{nosuffix} is non-@code{nil},
244 it skips the former group, and if @var{must-suffix} is non-@code{nil},
245 it skips the latter group.
248 @section Library Search
249 @cindex library search
252 When Emacs loads a Lisp library, it searches for the library
253 in a list of directories specified by the variable @code{load-path}.
256 @cindex @env{EMACSLOADPATH} environment variable
257 The value of this variable is a list of directories to search when
258 loading files with @code{load}. Each element is a string (which must be
259 a directory name) or @code{nil} (which stands for the current working
263 Each time Emacs starts up, it sets up the value of @code{load-path}
264 in several steps. First, it initializes @code{load-path} to the
265 directories specified by the environment variable @env{EMACSLOADPATH},
266 if that exists. The syntax of @env{EMACSLOADPATH} is the same as used
267 for @code{PATH}; directory names are separated by @samp{:} (or
268 @samp{;}, on some operating systems), and @samp{.} stands for the
269 current default directory. Here is an example of how to set
270 @env{EMACSLOADPATH} variable from @command{sh}:
274 EMACSLOADPATH=/home/foo/.emacs.d/lisp:/opt/emacs/lisp
278 Here is how to set it from @code{csh}:
281 setenv EMACSLOADPATH /home/foo/.emacs.d/lisp:/opt/emacs/lisp
284 @cindex site-lisp directories
285 If @env{EMACSLOADPATH} is not set (which is usually the case), Emacs
286 initializes @code{load-path} with the following two directories:
289 "/usr/local/share/emacs/@var{version}/site-lisp"
296 "/usr/local/share/emacs/site-lisp"
300 The first one is for locally installed packages for a particular Emacs
301 version; the second is for locally installed packages meant for use
302 with all installed Emacs versions.
304 If you run Emacs from the directory where it was built---that is, an
305 executable that has not been formally installed---Emacs puts two more
306 directories in @code{load-path}. These are the @code{lisp} and
307 @code{site-lisp} subdirectories of the main build directory. (Both
308 are represented as absolute file names.)
310 Next, Emacs ``expands'' the initial list of directories in
311 @code{load-path} by adding the subdirectories of those directories.
312 Both immediate subdirectories and subdirectories multiple levels down
313 are added. But it excludes subdirectories whose names do not start
314 with a letter or digit, and subdirectories named @file{RCS} or
315 @file{CVS}, and subdirectories containing a file named
318 Next, Emacs adds any extra load directory that you specify using the
319 @samp{-L} command-line option (@pxref{Action Arguments,,,emacs, The
320 GNU Emacs Manual}). It also adds the directories where optional
321 packages are installed, if any (@pxref{Packaging Basics}).
323 It is common to add code to one's init file (@pxref{Init File}) to
324 add one or more directories to @code{load-path}. For example:
327 (push "~/.emacs.d/lisp" load-path)
330 Dumping Emacs uses a special value of @code{load-path}. If the
331 value of @code{load-path} at the end of dumping is unchanged (that is,
332 still the same special value), the dumped Emacs switches to the
333 ordinary @code{load-path} value when it starts up, as described above.
334 But if @code{load-path} has any other value at the end of dumping,
335 that value is used for execution of the dumped Emacs also.
337 @deffn Command locate-library library &optional nosuffix path interactive-call
338 This command finds the precise file name for library @var{library}. It
339 searches for the library in the same way @code{load} does, and the
340 argument @var{nosuffix} has the same meaning as in @code{load}: don't
341 add suffixes @samp{.elc} or @samp{.el} to the specified name
344 If the @var{path} is non-@code{nil}, that list of directories is used
345 instead of @code{load-path}.
347 When @code{locate-library} is called from a program, it returns the file
348 name as a string. When the user runs @code{locate-library}
349 interactively, the argument @var{interactive-call} is @code{t}, and this
350 tells @code{locate-library} to display the file name in the echo area.
353 @cindex shadowed Lisp files
354 @deffn Command list-load-path-shadows &optional stringp
355 This command shows a list of @dfn{shadowed} Emacs Lisp files. A
356 shadowed file is one that will not normally be loaded, despite being
357 in a directory on @code{load-path}, due to the existence of another
358 similarly-named file in a directory earlier on @code{load-path}.
360 For instance, suppose @code{load-path} is set to
363 ("/opt/emacs/site-lisp" "/usr/share/emacs/23.3/lisp")
367 and that both these directories contain a file named @file{foo.el}.
368 Then @code{(require 'foo)} never loads the file in the second
369 directory. Such a situation might indicate a problem in the way Emacs
372 When called from Lisp, this function prints a message listing the
373 shadowed files, instead of displaying them in a buffer. If the
374 optional argument @code{stringp} is non-@code{nil}, it instead returns
375 the shadowed files as a string.
378 @node Loading Non-ASCII
379 @section Loading Non-@acronym{ASCII} Characters
381 When Emacs Lisp programs contain string constants with non-@acronym{ASCII}
382 characters, these can be represented within Emacs either as unibyte
383 strings or as multibyte strings (@pxref{Text Representations}). Which
384 representation is used depends on how the file is read into Emacs. If
385 it is read with decoding into multibyte representation, the text of the
386 Lisp program will be multibyte text, and its string constants will be
387 multibyte strings. If a file containing Latin-1 characters (for
388 example) is read without decoding, the text of the program will be
389 unibyte text, and its string constants will be unibyte strings.
390 @xref{Coding Systems}.
392 In most Emacs Lisp programs, the fact that non-@acronym{ASCII}
393 strings are multibyte strings should not be noticeable, since
394 inserting them in unibyte buffers converts them to unibyte
395 automatically. However, if this does make a difference, you can force
396 a particular Lisp file to be interpreted as unibyte by writing
397 @samp{coding: raw-text} in a local variables section. With
398 that designator, the file will unconditionally be interpreted as
399 unibyte. This can matter when making keybindings to
400 non-@acronym{ASCII} characters written as @code{?v@var{literal}}.
406 The @dfn{autoload} facility lets you register the existence of a
407 function or macro, but put off loading the file that defines it. The
408 first call to the function automatically loads the proper library, in
409 order to install the real definition and other associated code, then
410 runs the real definition as if it had been loaded all along.
411 Autoloading can also be triggered by looking up the documentation of
412 the function or macro (@pxref{Documentation Basics}).
414 There are two ways to set up an autoloaded function: by calling
415 @code{autoload}, and by writing a special ``magic'' comment in the
416 source before the real definition. @code{autoload} is the low-level
417 primitive for autoloading; any Lisp program can call @code{autoload} at
418 any time. Magic comments are the most convenient way to make a function
419 autoload, for packages installed along with Emacs. These comments do
420 nothing on their own, but they serve as a guide for the command
421 @code{update-file-autoloads}, which constructs calls to @code{autoload}
422 and arranges to execute them when Emacs is built.
424 @defun autoload function filename &optional docstring interactive type
425 This function defines the function (or macro) named @var{function} so as
426 to load automatically from @var{filename}. The string @var{filename}
427 specifies the file to load to get the real definition of @var{function}.
429 If @var{filename} does not contain either a directory name, or the
430 suffix @code{.el} or @code{.elc}, this function insists on adding one
431 of these suffixes, and it will not load from a file whose name is just
432 @var{filename} with no added suffix. (The variable
433 @code{load-suffixes} specifies the exact required suffixes.)
435 The argument @var{docstring} is the documentation string for the
436 function. Specifying the documentation string in the call to
437 @code{autoload} makes it possible to look at the documentation without
438 loading the function's real definition. Normally, this should be
439 identical to the documentation string in the function definition
440 itself. If it isn't, the function definition's documentation string
441 takes effect when it is loaded.
443 If @var{interactive} is non-@code{nil}, that says @var{function} can be
444 called interactively. This lets completion in @kbd{M-x} work without
445 loading @var{function}'s real definition. The complete interactive
446 specification is not given here; it's not needed unless the user
447 actually calls @var{function}, and when that happens, it's time to load
450 You can autoload macros and keymaps as well as ordinary functions.
451 Specify @var{type} as @code{macro} if @var{function} is really a macro.
452 Specify @var{type} as @code{keymap} if @var{function} is really a
453 keymap. Various parts of Emacs need to know this information without
454 loading the real definition.
456 An autoloaded keymap loads automatically during key lookup when a prefix
457 key's binding is the symbol @var{function}. Autoloading does not occur
458 for other kinds of access to the keymap. In particular, it does not
459 happen when a Lisp program gets the keymap from the value of a variable
460 and calls @code{define-key}; not even if the variable name is the same
461 symbol @var{function}.
463 @cindex function cell in autoload
464 if @var{function} already has non-void function definition that is not
465 an autoload object, this function does nothing and returns @code{nil}.
466 Otherwise, it constructs an autoload object (@pxref{Autoload Type}),
467 and stores it as the function definition for @var{function}. The
468 autoload object has this form:
471 (autoload @var{filename} @var{docstring} @var{interactive} @var{type})
478 (symbol-function 'run-prolog)
479 @result{} (autoload "prolog" 169681 t nil)
484 In this case, @code{"prolog"} is the name of the file to load, 169681
485 refers to the documentation string in the
486 @file{emacs/etc/DOC-@var{version}} file (@pxref{Documentation Basics}),
487 @code{t} means the function is interactive, and @code{nil} that it is
488 not a macro or a keymap.
491 @defun autoloadp object
492 This function returns non-@code{nil} if @var{object} is an autoload
493 object. For example, to check if @code{run-prolog} is defined as an
494 autoloaded function, evaluate
497 (autoloadp (symbol-function 'run-prolog))
501 @cindex autoload errors
502 The autoloaded file usually contains other definitions and may require
503 or provide one or more features. If the file is not completely loaded
504 (due to an error in the evaluation of its contents), any function
505 definitions or @code{provide} calls that occurred during the load are
506 undone. This is to ensure that the next attempt to call any function
507 autoloading from this file will try again to load the file. If not for
508 this, then some of the functions in the file might be defined by the
509 aborted load, but fail to work properly for the lack of certain
510 subroutines not loaded successfully because they come later in the file.
512 If the autoloaded file fails to define the desired Lisp function or
513 macro, then an error is signaled with data @code{"Autoloading failed to
514 define function @var{function-name}"}.
516 @findex update-file-autoloads
517 @findex update-directory-autoloads
518 @cindex magic autoload comment
519 @cindex autoload cookie
520 @anchor{autoload cookie}
521 A magic autoload comment (often called an @dfn{autoload cookie})
522 consists of @samp{;;;###autoload}, on a line by itself,
523 just before the real definition of the function in its
524 autoloadable source file. The command @kbd{M-x update-file-autoloads}
525 writes a corresponding @code{autoload} call into @file{loaddefs.el}.
526 (The string that serves as the autoload cookie and the name of the
527 file generated by @code{update-file-autoloads} can be changed from the
528 above defaults, see below.)
529 Building Emacs loads @file{loaddefs.el} and thus calls @code{autoload}.
530 @kbd{M-x update-directory-autoloads} is even more powerful; it updates
531 autoloads for all files in the current directory.
533 The same magic comment can copy any kind of form into
534 @file{loaddefs.el}. The form following the magic comment is copied
535 verbatim, @emph{except} if it is one of the forms which the autoload
536 facility handles specially (e.g.@: by conversion into an
537 @code{autoload} call). The forms which are not copied verbatim are
541 @item Definitions for function or function-like objects:
542 @code{defun} and @code{defmacro}; also @code{cl-defun} and
543 @code{cl-defmacro} (@pxref{Argument Lists,,,cl,Common Lisp Extensions}),
544 and @code{define-overloadable-function} (see the commentary in
545 @file{mode-local.el}).
547 @item Definitions for major or minor modes:
548 @code{define-minor-mode}, @code{define-globalized-minor-mode},
549 @code{define-generic-mode}, @code{define-derived-mode},
550 @code{easy-mmode-define-minor-mode},
551 @code{easy-mmode-define-global-mode}, @code{define-compilation-mode},
552 and @code{define-global-minor-mode}.
554 @item Other definition types:
555 @code{defcustom}, @code{defgroup}, @code{defclass}
556 (@pxref{Top,EIEIO,,eieio,EIEIO}), and @code{define-skeleton} (see the
557 commentary in @file{skeleton.el}).
560 You can also use a magic comment to execute a form at build time
561 @emph{without} executing it when the file itself is loaded. To do this,
562 write the form @emph{on the same line} as the magic comment. Since it
563 is in a comment, it does nothing when you load the source file; but
564 @kbd{M-x update-file-autoloads} copies it to @file{loaddefs.el}, where
565 it is executed while building Emacs.
567 The following example shows how @code{doctor} is prepared for
568 autoloading with a magic comment:
573 "Switch to *doctor* buffer and start giving psychotherapy."
575 (switch-to-buffer "*doctor*")
580 Here's what that produces in @file{loaddefs.el}:
583 (autoload (quote doctor) "doctor" "\
584 Switch to *doctor* buffer and start giving psychotherapy.
590 @cindex @code{fn} in function's documentation string
591 The backslash and newline immediately following the double-quote are a
592 convention used only in the preloaded uncompiled Lisp files such as
593 @file{loaddefs.el}; they tell @code{make-docfile} to put the
594 documentation string in the @file{etc/DOC} file. @xref{Building Emacs}.
595 See also the commentary in @file{lib-src/make-docfile.c}. @samp{(fn)}
596 in the usage part of the documentation string is replaced with the
597 function's name when the various help functions (@pxref{Help
598 Functions}) display it.
600 If you write a function definition with an unusual macro that is not
601 one of the known and recognized function definition methods, use of an
602 ordinary magic autoload comment would copy the whole definition into
603 @code{loaddefs.el}. That is not desirable. You can put the desired
604 @code{autoload} call into @code{loaddefs.el} instead by writing this:
607 ;;;###autoload (autoload 'foo "myfile")
612 You can use a non-default string as the autoload cookie and have the
613 corresponding autoload calls written into a file whose name is
614 different from the default @file{loaddefs.el}. Emacs provides two
615 variables to control this:
617 @defvar generate-autoload-cookie
618 The value of this variable should be a string whose syntax is a Lisp
619 comment. @kbd{M-x update-file-autoloads} copies the Lisp form that
620 follows the cookie into the autoload file it generates. The default
621 value of this variable is @code{";;;###autoload"}.
624 @defvar generated-autoload-file
625 The value of this variable names an Emacs Lisp file where the autoload
626 calls should go. The default value is @file{loaddefs.el}, but you can
627 override that, e.g., in the ``Local Variables'' section of a
628 @file{.el} file (@pxref{File Local Variables}). The autoload file is
629 assumed to contain a trailer starting with a formfeed character.
632 The following function may be used to explicitly load the library
633 specified by an autoload object:
635 @defun autoload-do-load autoload &optional name macro-only
636 This function performs the loading specified by @var{autoload}, which
637 should be an autoload object. The optional argument @var{name}, if
638 non-@code{nil}, should be a symbol whose function value is
639 @var{autoload}; in that case, the return value of this function is the
640 symbol's new function value. If the value of the optional argument
641 @var{macro-only} is @code{macro}, this function avoids loading a
642 function, only a macro.
645 @node Repeated Loading
646 @section Repeated Loading
647 @cindex repeated loading
649 You can load a given file more than once in an Emacs session. For
650 example, after you have rewritten and reinstalled a function definition
651 by editing it in a buffer, you may wish to return to the original
652 version; you can do this by reloading the file it came from.
654 When you load or reload files, bear in mind that the @code{load} and
655 @code{load-library} functions automatically load a byte-compiled file
656 rather than a non-compiled file of similar name. If you rewrite a file
657 that you intend to save and reinstall, you need to byte-compile the new
658 version; otherwise Emacs will load the older, byte-compiled file instead
659 of your newer, non-compiled file! If that happens, the message
660 displayed when loading the file includes, @samp{(compiled; note, source is
661 newer)}, to remind you to recompile it.
663 When writing the forms in a Lisp library file, keep in mind that the
664 file might be loaded more than once. For example, think about whether
665 each variable should be reinitialized when you reload the library;
666 @code{defvar} does not change the value if the variable is already
667 initialized. (@xref{Defining Variables}.)
669 The simplest way to add an element to an alist is like this:
672 (push '(leif-mode " Leif") minor-mode-alist)
676 But this would add multiple elements if the library is reloaded. To
677 avoid the problem, use @code{add-to-list} (@pxref{List Variables}):
680 (add-to-list 'minor-mode-alist '(leif-mode " Leif"))
683 Occasionally you will want to test explicitly whether a library has
684 already been loaded. If the library uses @code{provide} to provide a
685 named feature, you can use @code{featurep} earlier in the file to test
686 whether the @code{provide} call has been executed before (@pxref{Named
687 Features}). Alternatively, you could use something like this:
690 (defvar foo-was-loaded nil)
692 (unless foo-was-loaded
693 @var{execute-first-time-only}
694 (setq foo-was-loaded t))
702 @cindex requiring features
703 @cindex providing features
705 @code{provide} and @code{require} are an alternative to
706 @code{autoload} for loading files automatically. They work in terms of
707 named @dfn{features}. Autoloading is triggered by calling a specific
708 function, but a feature is loaded the first time another program asks
711 A feature name is a symbol that stands for a collection of functions,
712 variables, etc. The file that defines them should @dfn{provide} the
713 feature. Another program that uses them may ensure they are defined by
714 @dfn{requiring} the feature. This loads the file of definitions if it
715 hasn't been loaded already.
717 @cindex load error with require
718 To require the presence of a feature, call @code{require} with the
719 feature name as argument. @code{require} looks in the global variable
720 @code{features} to see whether the desired feature has been provided
721 already. If not, it loads the feature from the appropriate file. This
722 file should call @code{provide} at the top level to add the feature to
723 @code{features}; if it fails to do so, @code{require} signals an error.
725 For example, in @file{idlwave.el}, the definition for
726 @code{idlwave-complete-filename} includes the following code:
729 (defun idlwave-complete-filename ()
730 "Use the comint stuff to complete a file name."
732 (let* ((comint-file-name-chars "~/A-Za-z0-9+@:_.$#%=@{@}\\-")
733 (comint-completion-addsuffix nil)
735 (comint-dynamic-complete-filename)))
739 The expression @code{(require 'comint)} loads the file @file{comint.el}
740 if it has not yet been loaded, ensuring that
741 @code{comint-dynamic-complete-filename} is defined. Features are
742 normally named after the files that provide them, so that
743 @code{require} need not be given the file name. (Note that it is
744 important that the @code{require} statement be outside the body of the
745 @code{let}. Loading a library while its variables are let-bound can
746 have unintended consequences, namely the variables becoming unbound
747 after the let exits.)
749 The @file{comint.el} file contains the following top-level expression:
756 This adds @code{comint} to the global @code{features} list, so that
757 @code{(require 'comint)} will henceforth know that nothing needs to be
760 @cindex byte-compiling @code{require}
761 When @code{require} is used at top level in a file, it takes effect
762 when you byte-compile that file (@pxref{Byte Compilation}) as well as
763 when you load it. This is in case the required package contains macros
764 that the byte compiler must know about. It also avoids byte compiler
765 warnings for functions and variables defined in the file loaded with
768 Although top-level calls to @code{require} are evaluated during
769 byte compilation, @code{provide} calls are not. Therefore, you can
770 ensure that a file of definitions is loaded before it is byte-compiled
771 by including a @code{provide} followed by a @code{require} for the same
772 feature, as in the following example.
776 (provide 'my-feature) ; @r{Ignored by byte compiler,}
777 ; @r{evaluated by @code{load}.}
778 (require 'my-feature) ; @r{Evaluated by byte compiler.}
783 The compiler ignores the @code{provide}, then processes the
784 @code{require} by loading the file in question. Loading the file does
785 execute the @code{provide} call, so the subsequent @code{require} call
786 does nothing when the file is loaded.
788 @defun provide feature &optional subfeatures
789 This function announces that @var{feature} is now loaded, or being
790 loaded, into the current Emacs session. This means that the facilities
791 associated with @var{feature} are or will be available for other Lisp
794 The direct effect of calling @code{provide} is if not already in
795 @var{features} then to add @var{feature} to the front of that list and
796 call any @code{eval-after-load} code waiting for it (@pxref{Hooks for
797 Loading}). The argument @var{feature} must be a symbol.
798 @code{provide} returns @var{feature}.
800 If provided, @var{subfeatures} should be a list of symbols indicating
801 a set of specific subfeatures provided by this version of
802 @var{feature}. You can test the presence of a subfeature using
803 @code{featurep}. The idea of subfeatures is that you use them when a
804 package (which is one @var{feature}) is complex enough to make it
805 useful to give names to various parts or functionalities of the
806 package, which might or might not be loaded, or might or might not be
807 present in a given version. @xref{Network Feature Testing}, for
817 @result{} (foo bar bish)
820 When a file is loaded to satisfy an autoload, and it stops due to an
821 error in the evaluation of its contents, any function definitions or
822 @code{provide} calls that occurred during the load are undone.
826 @defun require feature &optional filename noerror
827 This function checks whether @var{feature} is present in the current
828 Emacs session (using @code{(featurep @var{feature})}; see below). The
829 argument @var{feature} must be a symbol.
831 If the feature is not present, then @code{require} loads @var{filename}
832 with @code{load}. If @var{filename} is not supplied, then the name of
833 the symbol @var{feature} is used as the base file name to load.
834 However, in this case, @code{require} insists on finding @var{feature}
835 with an added @samp{.el} or @samp{.elc} suffix (possibly extended with
836 a compression suffix); a file whose name is just @var{feature} won't
837 be used. (The variable @code{load-suffixes} specifies the exact
838 required Lisp suffixes.)
840 If @var{noerror} is non-@code{nil}, that suppresses errors from actual
841 loading of the file. In that case, @code{require} returns @code{nil}
842 if loading the file fails. Normally, @code{require} returns
845 If loading the file succeeds but does not provide @var{feature},
846 @code{require} signals an error, @samp{Required feature @var{feature}
850 @defun featurep feature &optional subfeature
851 This function returns @code{t} if @var{feature} has been provided in
852 the current Emacs session (i.e.@:, if @var{feature} is a member of
853 @code{features}.) If @var{subfeature} is non-@code{nil}, then the
854 function returns @code{t} only if that subfeature is provided as well
855 (i.e.@: if @var{subfeature} is a member of the @code{subfeature}
856 property of the @var{feature} symbol.)
860 The value of this variable is a list of symbols that are the features
861 loaded in the current Emacs session. Each symbol was put in this list
862 with a call to @code{provide}. The order of the elements in the
863 @code{features} list is not significant.
867 @section Which File Defined a Certain Symbol
869 @defun symbol-file symbol &optional type
870 This function returns the name of the file that defined @var{symbol}.
871 If @var{type} is @code{nil}, then any kind of definition is acceptable.
872 If @var{type} is @code{defun}, @code{defvar}, or @code{defface}, that
873 specifies function definition, variable definition, or face definition
876 The value is normally an absolute file name. It can also be @code{nil},
877 if the definition is not associated with any file. If @var{symbol}
878 specifies an autoloaded function, the value can be a relative file name
882 The basis for @code{symbol-file} is the data in the variable
886 The value of this variable is an alist that associates the names of
887 loaded library files with the names of the functions and variables
888 they defined, as well as the features they provided or required.
890 Each element in this alist describes one loaded library (including
891 libraries that are preloaded at startup). It is a list whose @sc{car}
892 is the absolute file name of the library (a string). The rest of the
893 list elements have these forms:
897 The symbol @var{var} was defined as a variable.
898 @item (defun . @var{fun})
899 The function @var{fun} was defined.
900 @item (t . @var{fun})
901 The function @var{fun} was previously an autoload before this library
902 redefined it as a function. The following element is always
903 @code{(defun . @var{fun})}, which represents defining @var{fun} as a
905 @item (autoload . @var{fun})
906 The function @var{fun} was defined as an autoload.
907 @item (defface . @var{face})
908 The face @var{face} was defined.
909 @item (require . @var{feature})
910 The feature @var{feature} was required.
911 @item (provide . @var{feature})
912 The feature @var{feature} was provided.
915 The value of @code{load-history} may have one element whose @sc{car} is
916 @code{nil}. This element describes definitions made with
917 @code{eval-buffer} on a buffer that is not visiting a file.
920 The command @code{eval-region} updates @code{load-history}, but does so
921 by adding the symbols defined to the element for the file being visited,
922 rather than replacing that element. @xref{Eval}.
926 @cindex unloading packages
929 You can discard the functions and variables loaded by a library to
930 reclaim memory for other Lisp objects. To do this, use the function
931 @code{unload-feature}:
933 @deffn Command unload-feature feature &optional force
934 This command unloads the library that provided feature @var{feature}.
935 It undefines all functions, macros, and variables defined in that
936 library with @code{defun}, @code{defalias}, @code{defsubst},
937 @code{defmacro}, @code{defconst}, @code{defvar}, and @code{defcustom}.
938 It then restores any autoloads formerly associated with those symbols.
939 (Loading saves these in the @code{autoload} property of the symbol.)
941 Before restoring the previous definitions, @code{unload-feature} runs
942 @code{remove-hook} to remove functions in the library from certain
943 hooks. These hooks include variables whose names end in @samp{-hook}
944 (or the deprecated suffix @samp{-hooks}), plus those listed in
945 @code{unload-feature-special-hooks}, as well as
946 @code{auto-mode-alist}. This is to prevent Emacs from ceasing to
947 function because important hooks refer to functions that are no longer
950 Standard unloading activities also undoes ELP profiling of functions
951 in that library, unprovides any features provided by the library, and
952 cancels timers held in variables defined by the library.
954 @vindex @var{feature}-unload-function
955 If these measures are not sufficient to prevent malfunction, a library
956 can define an explicit unloader named @code{@var{feature}-unload-function}.
957 If that symbol is defined as a function, @code{unload-feature} calls
958 it with no arguments before doing anything else. It can do whatever
959 is appropriate to unload the library. If it returns @code{nil},
960 @code{unload-feature} proceeds to take the normal unload actions.
961 Otherwise it considers the job to be done.
963 Ordinarily, @code{unload-feature} refuses to unload a library on which
964 other loaded libraries depend. (A library @var{a} depends on library
965 @var{b} if @var{a} contains a @code{require} for @var{b}.) If the
966 optional argument @var{force} is non-@code{nil}, dependencies are
967 ignored and you can unload any library.
970 The @code{unload-feature} function is written in Lisp; its actions are
971 based on the variable @code{load-history}.
973 @defvar unload-feature-special-hooks
974 This variable holds a list of hooks to be scanned before unloading a
975 library, to remove functions defined in the library.
978 @node Hooks for Loading
979 @section Hooks for Loading
980 @cindex loading hooks
981 @cindex hooks for loading
983 You can ask for code to be executed each time Emacs loads a library,
984 by using the variable @code{after-load-functions}:
986 @defvar after-load-functions
987 This abnormal hook is run after loading a file. Each function in the
988 hook is called with a single argument, the absolute filename of the
989 file that was just loaded.
992 If you want code to be executed when a @emph{particular} library is
993 loaded, use the function @code{eval-after-load}:
995 @defun eval-after-load library form
996 This function arranges to evaluate @var{form} at the end of loading
997 the file @var{library}, each time @var{library} is loaded. If
998 @var{library} is already loaded, it evaluates @var{form} right away.
999 Don't forget to quote @var{form}!
1001 You don't need to give a directory or extension in the file name
1002 @var{library}. Normally, you just give a bare file name, like this:
1005 (eval-after-load "edebug" '(def-edebug-spec c-point t))
1008 To restrict which files can trigger the evaluation, include a
1009 directory or an extension or both in @var{library}. Only a file whose
1010 absolute true name (i.e., the name with all symbolic links chased out)
1011 matches all the given name components will match. In the following
1012 example, @file{my_inst.elc} or @file{my_inst.elc.gz} in some directory
1013 @code{..../foo/bar} will trigger the evaluation, but not
1017 (eval-after-load "foo/bar/my_inst.elc" @dots{})
1020 @var{library} can also be a feature (i.e.@: a symbol), in which case
1021 @var{form} is evaluated at the end of any file where
1022 @code{(provide @var{library})} is called.
1024 An error in @var{form} does not undo the load, but does prevent
1025 execution of the rest of @var{form}.
1028 Normally, well-designed Lisp programs should not use
1029 @code{eval-after-load}. If you need to examine and set the variables
1030 defined in another library (those meant for outside use), you can do
1031 it immediately---there is no need to wait until the library is loaded.
1032 If you need to call functions defined by that library, you should load
1033 the library, preferably with @code{require} (@pxref{Named Features}).
1035 @defvar after-load-alist
1036 This variable stores an alist built by @code{eval-after-load},
1037 containing the expressions to evaluate when certain libraries are
1038 loaded. Each element looks like this:
1041 (@var{regexp-or-feature} @var{forms}@dots{})
1044 The key @var{regexp-or-feature} is either a regular expression or a
1045 symbol, and the value is a list of forms. The forms are evaluated
1046 when the key matches the absolute true name or feature name of the
1047 library being loaded.