;;; loaddefs.el --- automatically extracted autoloads ;; ;;; Code: ;;;### (autoloads nil "5x5" "play/5x5.el" (0 0 0 0)) ;;; Generated autoloads from play/5x5.el (autoload '5x5 "5x5" "\ Play 5x5. The object of 5x5 is very simple, by moving around the grid and flipping squares you must fill the grid. 5x5 keyboard bindings are: \\<5x5-mode-map> Flip \\[5x5-flip-current] Move up \\[5x5-up] Move down \\[5x5-down] Move left \\[5x5-left] Move right \\[5x5-right] Start new game \\[5x5-new-game] New game with random grid \\[5x5-randomize] Random cracker \\[5x5-crack-randomly] Mutate current cracker \\[5x5-crack-mutating-current] Mutate best cracker \\[5x5-crack-mutating-best] Mutate xor cracker \\[5x5-crack-xor-mutate] Solve with Calc \\[5x5-solve-suggest] Rotate left Calc Solutions \\[5x5-solve-rotate-left] Rotate right Calc Solutions \\[5x5-solve-rotate-right] Quit current game \\[5x5-quit-game] \(fn &optional SIZE)" t nil) (autoload '5x5-crack-randomly "5x5" "\ Attempt to crack 5x5 using random solutions. \(fn)" t nil) (autoload '5x5-crack-mutating-current "5x5" "\ Attempt to crack 5x5 by mutating the current solution. \(fn)" t nil) (autoload '5x5-crack-mutating-best "5x5" "\ Attempt to crack 5x5 by mutating the best solution. \(fn)" t nil) (autoload '5x5-crack-xor-mutate "5x5" "\ Attempt to crack 5x5 by xoring the current and best solution. Mutate the result. \(fn)" t nil) (autoload '5x5-crack "5x5" "\ Attempt to find a solution for 5x5. 5x5-crack takes the argument BREEDER which should be a function that takes two parameters, the first will be a grid vector array that is the current solution and the second will be the best solution so far. The function should return a grid vector array that is the new solution. \(fn BREEDER)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "5x5" '("5x5-"))) ;;;*** ;;;### (autoloads nil "ada-mode" "progmodes/ada-mode.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/ada-mode.el (autoload 'ada-add-extensions "ada-mode" "\ Define SPEC and BODY as being valid extensions for Ada files. Going from body to spec with `ff-find-other-file' used these extensions. SPEC and BODY are two regular expressions that must match against the file name. \(fn SPEC BODY)" nil nil) (autoload 'ada-mode "ada-mode" "\ Ada mode is the major mode for editing Ada code. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ada-mode" '("ada-"))) ;;;*** ;;;### (autoloads nil "ada-prj" "progmodes/ada-prj.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/ada-prj.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ada-prj" '("ada-"))) ;;;*** ;;;### (autoloads nil "ada-stmt" "progmodes/ada-stmt.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/ada-stmt.el (autoload 'ada-header "ada-stmt" "\ Insert a descriptive header at the top of the file. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ada-stmt" '("ada-"))) ;;;*** ;;;### (autoloads nil "ada-xref" "progmodes/ada-xref.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/ada-xref.el (autoload 'ada-find-file "ada-xref" "\ Open FILENAME, from anywhere in the source path. Completion is available. \(fn FILENAME)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ada-xref" '("ada-"))) ;;;*** ;;;### (autoloads nil "add-log" "vc/add-log.el" (0 0 0 0)) ;;; Generated autoloads from vc/add-log.el (put 'change-log-default-name 'safe-local-variable 'string-or-null-p) (defvar add-log-current-defun-function nil "\ If non-nil, function to guess name of surrounding function. It is called by `add-log-current-defun' with no argument, and should return the function's name as a string, or nil if point is outside a function.") (custom-autoload 'add-log-current-defun-function "add-log" t) (defvar add-log-full-name nil "\ Full name of user, for inclusion in ChangeLog daily headers. This defaults to the value returned by the function `user-full-name'.") (custom-autoload 'add-log-full-name "add-log" t) (defvar add-log-mailing-address nil "\ Email addresses of user, for inclusion in ChangeLog headers. This defaults to the value of `user-mail-address'. In addition to being a simple string, this value can also be a list. All elements will be recognized as referring to the same user; when creating a new ChangeLog entry, one element will be chosen at random.") (custom-autoload 'add-log-mailing-address "add-log" t) (autoload 'prompt-for-change-log-name "add-log" "\ Prompt for a change log name. \(fn)" nil nil) (autoload 'find-change-log "add-log" "\ Find a change log file for \\[add-change-log-entry] and return the name. Optional arg FILE-NAME specifies the file to use. If FILE-NAME is nil, use the value of `change-log-default-name'. If `change-log-default-name' is nil, behave as though it were \"ChangeLog\" \(or whatever we use on this operating system). If `change-log-default-name' contains a leading directory component, then simply find it in the current directory. Otherwise, search in the current directory and its successive parents for a file so named. Stop at the first such file that exists (or has a buffer visiting it), or the first directory that contains any of `change-log-directory-files'. If no match is found, use the current directory. To override the choice of this function, simply create an empty ChangeLog file first by hand in the desired place. Once a file is found, `change-log-default-name' is set locally in the current buffer to the complete file name. Optional arg BUFFER-FILE overrides `buffer-file-name'. \(fn &optional FILE-NAME BUFFER-FILE)" nil nil) (autoload 'add-change-log-entry "add-log" "\ Find change log file, and add an entry for today and an item for this file. Optional arg WHOAMI (interactive prefix) non-nil means prompt for user name and email (stored in `add-log-full-name' and `add-log-mailing-address'). Second arg FILE-NAME is file name of the change log. If nil, use the value of `change-log-default-name'. Third arg OTHER-WINDOW non-nil means visit in other window. Fourth arg NEW-ENTRY non-nil means always create a new entry at the front; never append to an existing entry. Option `add-log-keep-changes-together' otherwise affects whether a new entry is created. Fifth arg PUT-NEW-ENTRY-ON-NEW-LINE non-nil means that if a new entry is created, put it on a new line by itself, do not put it after a comma on an existing line. Option `add-log-always-start-new-record' non-nil means always create a new record, even when the last record was made on the same date and by the same person. The change log file can start with a copyright notice and a copying permission notice. The first blank line indicates the end of these notices. Today's date is calculated according to `add-log-time-zone-rule' if non-nil, otherwise in local time. \(fn &optional WHOAMI FILE-NAME OTHER-WINDOW NEW-ENTRY PUT-NEW-ENTRY-ON-NEW-LINE)" t nil) (autoload 'add-change-log-entry-other-window "add-log" "\ Find change log file in other window and add entry and item. This is just like `add-change-log-entry' except that it displays the change log file in another window. \(fn &optional WHOAMI FILE-NAME)" t nil) (autoload 'change-log-mode "add-log" "\ Major mode for editing change logs; like Indented Text mode. Prevents numeric backups and sets `left-margin' to 8 and `fill-column' to 74. New log entries are usually made with \\[add-change-log-entry] or \\[add-change-log-entry-other-window]. Each entry behaves as a paragraph, and the entries for one day as a page. Runs `change-log-mode-hook'. \\{change-log-mode-map} \(fn)" t nil) (autoload 'add-log-current-defun "add-log" "\ Return name of function definition point is in, or nil. Understands C, Lisp, LaTeX (\"functions\" are chapters, sections, ...), Texinfo (@node titles) and Perl. Other modes are handled by a heuristic that looks in the 10K before point for uppercase headings starting in the first column or identifiers followed by `:' or `='. See variables `add-log-current-defun-header-regexp' and `add-log-current-defun-function'. Has a preference of looking backwards. \(fn)" nil nil) (autoload 'change-log-merge "add-log" "\ Merge the contents of change log file OTHER-LOG with this buffer. Both must be found in Change Log mode (since the merging depends on the appropriate motion commands). OTHER-LOG can be either a file name or a buffer. Entries are inserted in chronological order. Both the current and old-style time formats for entries are supported. \(fn OTHER-LOG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "add-log" '("change-log-" "add-log-"))) ;;;*** ;;;### (autoloads nil "advice" "emacs-lisp/advice.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/advice.el (defvar ad-redefinition-action 'warn "\ Defines what to do with redefinitions during Advice de/activation. Redefinition occurs if a previously activated function that already has an original definition associated with it gets redefined and then de/activated. In such a case we can either accept the current definition as the new original definition, discard the current definition and replace it with the old original, or keep it and raise an error. The values `accept', `discard', `error' or `warn' govern what will be done. `warn' is just like `accept' but it additionally prints a warning message. All other values will be interpreted as `error'.") (custom-autoload 'ad-redefinition-action "advice" t) (defvar ad-default-compilation-action 'maybe "\ Defines whether to compile advised definitions during activation. A value of `always' will result in unconditional compilation, `never' will always avoid compilation, `maybe' will compile if the byte-compiler is already loaded, and `like-original' will compile if the original definition of the advised function is compiled or a built-in function. Every other value will be interpreted as `maybe'. This variable will only be considered if the COMPILE argument of `ad-activate' was supplied as nil.") (custom-autoload 'ad-default-compilation-action "advice" t) (autoload 'ad-enable-advice "advice" "\ Enables the advice of FUNCTION with CLASS and NAME. \(fn FUNCTION CLASS NAME)" t nil) (autoload 'ad-disable-advice "advice" "\ Disable the advice of FUNCTION with CLASS and NAME. \(fn FUNCTION CLASS NAME)" t nil) (autoload 'ad-add-advice "advice" "\ Add a piece of ADVICE to FUNCTION's list of advices in CLASS. ADVICE has the form (NAME PROTECTED ENABLED DEFINITION), where NAME is the advice name; PROTECTED is a flag specifying whether to protect against non-local exits; ENABLED is a flag specifying whether to initially enable the advice; and DEFINITION has the form (advice . LAMBDA), where LAMBDA is a lambda expression. If FUNCTION already has a piece of advice with the same name, then POSITION is ignored, and the old advice is overwritten with the new one. If FUNCTION already has one or more pieces of advice of the specified CLASS, then POSITION determines where the new piece goes. POSITION can either be `first', `last' or a number (where 0 corresponds to `first', and numbers outside the valid range are mapped to the closest extremal position). If FUNCTION was not advised already, its advice info will be initialized. Redefining a piece of advice whose name is part of the cache-id will clear the cache. \(fn FUNCTION ADVICE CLASS POSITION)" nil nil) (autoload 'ad-activate "advice" "\ Activate all the advice information of an advised FUNCTION. If FUNCTION has a proper original definition then an advised definition will be generated from FUNCTION's advice info and the definition of FUNCTION will be replaced with it. If a previously cached advised definition was available, it will be used. The optional COMPILE argument determines whether the resulting function or a compilable cached definition will be compiled. If it is negative no compilation will be performed, if it is positive or otherwise non-nil the resulting function will be compiled, if it is nil the behavior depends on the value of `ad-default-compilation-action' (which see). Activation of an advised function that has an advice info but no actual pieces of advice is equivalent to a call to `ad-unadvise'. Activation of an advised function that has actual pieces of advice but none of them are enabled is equivalent to a call to `ad-deactivate'. The current advised definition will always be cached for later usage. \(fn FUNCTION &optional COMPILE)" t nil) (autoload 'defadvice "advice" "\ Define a piece of advice for FUNCTION (a symbol). The syntax of `defadvice' is as follows: (defadvice FUNCTION (CLASS NAME [POSITION] [ARGLIST] FLAG...) [DOCSTRING] [INTERACTIVE-FORM] BODY...) FUNCTION ::= Name of the function to be advised. CLASS ::= `before' | `around' | `after' | `activation' | `deactivation'. NAME ::= Non-nil symbol that names this piece of advice. POSITION ::= `first' | `last' | NUMBER. Optional, defaults to `first', see also `ad-add-advice'. ARGLIST ::= An optional argument list to be used for the advised function instead of the argument list of the original. The first one found in before/around/after-advices will be used. FLAG ::= `protect'|`disable'|`activate'|`compile'|`preactivate'. All flags can be specified with unambiguous initial substrings. DOCSTRING ::= Optional documentation for this piece of advice. INTERACTIVE-FORM ::= Optional interactive form to be used for the advised function. The first one found in before/around/after-advices will be used. BODY ::= Any s-expression. Semantics of the various flags: `protect': The piece of advice will be protected against non-local exits in any code that precedes it. If any around-advice of a function is protected then automatically all around-advices will be protected (the complete onion). `activate': All advice of FUNCTION will be activated immediately if FUNCTION has been properly defined prior to this application of `defadvice'. `compile': In conjunction with `activate' specifies that the resulting advised function should be compiled. `disable': The defined advice will be disabled, hence, it will not be used during activation until somebody enables it. `preactivate': Preactivates the advised FUNCTION at macro-expansion/compile time. This generates a compiled advised definition according to the current advice state that will be used during activation if appropriate. Only use this if the `defadvice' gets actually compiled. usage: (defadvice FUNCTION (CLASS NAME [POSITION] [ARGLIST] FLAG...) [DOCSTRING] [INTERACTIVE-FORM] BODY...) \(fn FUNCTION ARGS &rest BODY)" nil t) (function-put 'defadvice 'doc-string-elt '3) (function-put 'defadvice 'lisp-indent-function '2) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "advice" '("ad-"))) ;;;*** ;;;### (autoloads nil "align" "align.el" (0 0 0 0)) ;;; Generated autoloads from align.el (autoload 'align "align" "\ Attempt to align a region based on a set of alignment rules. BEG and END mark the region. If BEG and END are specifically set to nil (this can only be done programmatically), the beginning and end of the current alignment section will be calculated based on the location of point, and the value of `align-region-separate' (or possibly each rule's `separate' attribute). If SEPARATE is non-nil, it overrides the value of `align-region-separate' for all rules, except those that have their `separate' attribute set. RULES and EXCLUDE-RULES, if either is non-nil, will replace the default rule lists defined in `align-rules-list' and `align-exclude-rules-list'. See `align-rules-list' for more details on the format of these lists. \(fn BEG END &optional SEPARATE RULES EXCLUDE-RULES)" t nil) (autoload 'align-regexp "align" "\ Align the current region using an ad-hoc rule read from the minibuffer. BEG and END mark the limits of the region. Interactively, this function prompts for the regular expression REGEXP to align with. For example, let's say you had a list of phone numbers, and wanted to align them so that the opening parentheses would line up: Fred (123) 456-7890 Alice (123) 456-7890 Mary-Anne (123) 456-7890 Joe (123) 456-7890 There is no predefined rule to handle this, but you could easily do it using a REGEXP like \"(\". Interactively, all you would have to do is to mark the region, call `align-regexp' and enter that regular expression. REGEXP must contain at least one parenthesized subexpression, typically whitespace of the form \"\\\\(\\\\s-*\\\\)\". In normal interactive use, this is automatically added to the start of your regular expression after you enter it. You only need to supply the characters to be lined up, and any preceding whitespace is replaced. If you specify a prefix argument (or use this function non-interactively), you must enter the full regular expression, including the subexpression. The function also then prompts for which subexpression parenthesis GROUP \(default 1) within REGEXP to modify, the amount of SPACING (default `align-default-spacing') to use, and whether or not to REPEAT the rule throughout the line. See `align-rules-list' for more information about these options. The non-interactive form of the previous example would look something like: (align-regexp (point-min) (point-max) \"\\\\(\\\\s-*\\\\)(\") This function is a nothing more than a small wrapper that helps you construct a rule to pass to `align-region', which does the real work. \(fn BEG END REGEXP &optional GROUP SPACING REPEAT)" t nil) (autoload 'align-entire "align" "\ Align the selected region as if it were one alignment section. BEG and END mark the extent of the region. If RULES or EXCLUDE-RULES is set to a list of rules (see `align-rules-list'), it can be used to override the default alignment rules that would have been used to align that section. \(fn BEG END &optional RULES EXCLUDE-RULES)" t nil) (autoload 'align-current "align" "\ Call `align' on the current alignment section. This function assumes you want to align only the current section, and so saves you from having to specify the region. If RULES or EXCLUDE-RULES is set to a list of rules (see `align-rules-list'), it can be used to override the default alignment rules that would have been used to align that section. \(fn &optional RULES EXCLUDE-RULES)" t nil) (autoload 'align-highlight-rule "align" "\ Highlight the whitespace which a given rule would have modified. BEG and END mark the extent of the region. TITLE identifies the rule that should be highlighted. If RULES or EXCLUDE-RULES is set to a list of rules (see `align-rules-list'), it can be used to override the default alignment rules that would have been used to identify the text to be colored. \(fn BEG END TITLE &optional RULES EXCLUDE-RULES)" t nil) (autoload 'align-unhighlight-rule "align" "\ Remove any highlighting that was added by `align-highlight-rule'. \(fn)" t nil) (autoload 'align-newline-and-indent "align" "\ A replacement function for `newline-and-indent', aligning as it goes. The alignment is done by calling `align' on the region that was indented. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "align" '("align-"))) ;;;*** ;;;### (autoloads nil "allout" "allout.el" (0 0 0 0)) ;;; Generated autoloads from allout.el (push (purecopy '(allout 2 3)) package--builtin-versions) (autoload 'allout-auto-activation-helper "allout" "\ Institute `allout-auto-activation'. Intended to be used as the `allout-auto-activation' :set function. \(fn VAR VALUE)" nil nil) (autoload 'allout-setup "allout" "\ Do fundamental Emacs session for allout auto-activation. Establishes allout processing as part of visiting a file if `allout-auto-activation' is non-nil, or removes it otherwise. The proper way to use this is through customizing the setting of `allout-auto-activation'. \(fn)" nil nil) (defvar allout-auto-activation nil "\ Configure allout outline mode auto-activation. Control whether and how allout outline mode is automatically activated when files are visited with non-nil buffer-specific file variable `allout-layout'. When allout-auto-activation is \"On\" (t), allout mode is activated in buffers with non-nil `allout-layout', and the specified layout is applied. With value \"ask\", auto-mode-activation is enabled, and endorsement for performing auto-layout is asked of the user each time. With value \"activate\", only auto-mode-activation is enabled. Auto-layout is not. With value nil, inhibit any automatic allout-mode activation.") (custom-autoload 'allout-auto-activation "allout" nil) (put 'allout-use-hanging-indents 'safe-local-variable (if (fboundp 'booleanp) 'booleanp (lambda (x) (member x '(t nil))))) (put 'allout-reindent-bodies 'safe-local-variable (lambda (x) (memq x '(nil t text force)))) (put 'allout-show-bodies 'safe-local-variable (if (fboundp 'booleanp) 'booleanp (lambda (x) (member x '(t nil))))) (put 'allout-header-prefix 'safe-local-variable 'stringp) (put 'allout-primary-bullet 'safe-local-variable 'stringp) (put 'allout-plain-bullets-string 'safe-local-variable 'stringp) (put 'allout-distinctive-bullets-string 'safe-local-variable 'stringp) (put 'allout-use-mode-specific-leader 'safe-local-variable (lambda (x) (or (memq x '(t nil allout-mode-leaders comment-start)) (stringp x)))) (put 'allout-old-style-prefixes 'safe-local-variable (if (fboundp 'booleanp) 'booleanp (lambda (x) (member x '(t nil))))) (put 'allout-stylish-prefixes 'safe-local-variable (if (fboundp 'booleanp) 'booleanp (lambda (x) (member x '(t nil))))) (put 'allout-numbered-bullet 'safe-local-variable (if (fboundp 'string-or-null-p) 'string-or-null-p (lambda (x) (or (stringp x) (null x))))) (put 'allout-file-xref-bullet 'safe-local-variable (if (fboundp 'string-or-null-p) 'string-or-null-p (lambda (x) (or (stringp x) (null x))))) (put 'allout-presentation-padding 'safe-local-variable 'integerp) (put 'allout-layout 'safe-local-variable (lambda (x) (or (numberp x) (listp x) (memq x '(: * + -))))) (put 'allout-passphrase-verifier-string 'safe-local-variable 'stringp) (put 'allout-passphrase-hint-string 'safe-local-variable 'stringp) (autoload 'allout-mode-p "allout" "\ Return t if `allout-mode' is active in current buffer. \(fn)" nil t) (autoload 'allout-mode "allout" "\ Toggle Allout outline mode. With a prefix argument ARG, enable Allout outline mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. \\ Allout outline mode is a minor mode that provides extensive outline oriented formatting and manipulation. It enables structural editing of outlines, as well as navigation and exposure. It also is specifically aimed at accommodating syntax-sensitive text like programming languages. (For example, see the allout code itself, which is organized as an allout outline.) In addition to typical outline navigation and exposure, allout includes: - topic-oriented authoring, including keystroke-based topic creation, repositioning, promotion/demotion, cut, and paste - incremental search with dynamic exposure and reconcealment of hidden text - adjustable format, so programming code can be developed in outline-structure - easy topic encryption and decryption, symmetric or key-pair - \"Hot-spot\" operation, for single-keystroke maneuvering and exposure control - integral outline layout, for automatic initial exposure when visiting a file - independent extensibility, using comprehensive exposure and authoring hooks and many other features. Below is a description of the key bindings, and then description of special `allout-mode' features and terminology. See also the outline menubar additions for quick reference to many of the features. Customize `allout-auto-activation' to prepare your Emacs session for automatic activation of `allout-mode'. The bindings are those listed in `allout-prefixed-keybindings' and `allout-unprefixed-keybindings'. We recommend customizing `allout-command-prefix' to use just `\\C-c' as the command prefix, if the allout bindings don't conflict with any personal bindings you have on \\C-c. In any case, outline structure navigation and authoring is simplified by positioning the cursor on an item's bullet character, the \"hot-spot\" -- then you can invoke allout commands with just the un-prefixed, un-control-shifted command letters. This is described further in the HOT-SPOT Operation section. Exposure Control: ---------------- \\[allout-hide-current-subtree] `allout-hide-current-subtree' \\[allout-show-children] `allout-show-children' \\[allout-show-current-subtree] `allout-show-current-subtree' \\[allout-show-current-entry] `allout-show-current-entry' \\[allout-show-all] `allout-show-all' Navigation: ---------- \\[allout-next-visible-heading] `allout-next-visible-heading' \\[allout-previous-visible-heading] `allout-previous-visible-heading' \\[allout-up-current-level] `allout-up-current-level' \\[allout-forward-current-level] `allout-forward-current-level' \\[allout-backward-current-level] `allout-backward-current-level' \\[allout-end-of-entry] `allout-end-of-entry' \\[allout-beginning-of-current-entry] `allout-beginning-of-current-entry' (alternately, goes to hot-spot) \\[allout-beginning-of-line] `allout-beginning-of-line' -- like regular beginning-of-line, but if immediately repeated cycles to the beginning of the current item and then to the hot-spot (if `allout-beginning-of-line-cycles' is set). Topic Header Production: ----------------------- \\[allout-open-sibtopic] `allout-open-sibtopic' Create a new sibling after current topic. \\[allout-open-subtopic] `allout-open-subtopic' ... an offspring of current topic. \\[allout-open-supertopic] `allout-open-supertopic' ... a sibling of the current topic's parent. Topic Level and Prefix Adjustment: --------------------------------- \\[allout-shift-in] `allout-shift-in' Shift current topic and all offspring deeper \\[allout-shift-out] `allout-shift-out' ... less deep \\[allout-rebullet-current-heading] `allout-rebullet-current-heading' Prompt for alternate bullet for current topic \\[allout-rebullet-topic] `allout-rebullet-topic' Reconcile bullets of topic and its offspring -- distinctive bullets are not changed, others are alternated according to nesting depth. \\[allout-number-siblings] `allout-number-siblings' Number bullets of topic and siblings -- the offspring are not affected. With repeat count, revoke numbering. Topic-oriented Killing and Yanking: ---------------------------------- \\[allout-kill-topic] `allout-kill-topic' Kill current topic, including offspring. \\[allout-copy-topic-as-kill] `allout-copy-topic-as-kill' Copy current topic, including offspring. \\[allout-kill-line] `allout-kill-line' Kill line, attending to outline structure. \\[allout-copy-line-as-kill] `allout-copy-line-as-kill' Copy line but don't delete it. \\[allout-yank] `allout-yank' Yank, adjusting depth of yanked topic to depth of heading if yanking into bare topic heading (ie, prefix sans text). \\[allout-yank-pop] `allout-yank-pop' Is to `allout-yank' as `yank-pop' is to `yank'. Topic-oriented Encryption: ------------------------- \\[allout-toggle-current-subtree-encryption] `allout-toggle-current-subtree-encryption' Encrypt/Decrypt topic content Misc commands: ------------- M-x outlineify-sticky Activate outline mode for current buffer, and establish a default file-var setting for `allout-layout'. \\[allout-mark-topic] `allout-mark-topic' \\[allout-copy-exposed-to-buffer] `allout-copy-exposed-to-buffer' Duplicate outline, sans concealed text, to buffer with name derived from derived from that of current buffer -- \"*BUFFERNAME exposed*\". \\[allout-flatten-exposed-to-buffer] `allout-flatten-exposed-to-buffer' Like above `copy-exposed', but convert topic prefixes to section.subsection... numeric format. \\[customize-variable] allout-auto-activation Prepare Emacs session for allout outline mode auto-activation. Topic Encryption Outline mode supports gpg encryption of topics, with support for symmetric and key-pair modes, and auto-encryption of topics pending encryption on save. Topics pending encryption are, by default, automatically encrypted during file saves, including checkpoint saves, to avoid exposing the plain text of encrypted topics in the file system. If the content of the topic containing the cursor was encrypted for a save, it is automatically decrypted for continued editing. NOTE: A few GnuPG v2 versions improperly preserve incorrect symmetric decryption keys, preventing entry of the correct key on subsequent decryption attempts until the cache times-out. That can take several minutes. (Decryption of other entries is not affected.) Upgrade your EasyPG version, if you can, and you can deliberately clear your gpg-agent's cache by sending it a `-HUP' signal. See `allout-toggle-current-subtree-encryption' function docstring and `allout-encrypt-unencrypted-on-saves' customization variable for details. HOT-SPOT Operation Hot-spot operation provides a means for easy, single-keystroke outline navigation and exposure control. When the text cursor is positioned directly on the bullet character of a topic, regular characters (a to z) invoke the commands of the corresponding allout-mode keymap control chars. For example, \"f\" would invoke the command typically bound to \"C-cC-f\" \(\\[allout-forward-current-level] `allout-forward-current-level'). Thus, by positioning the cursor on a topic bullet, you can execute the outline navigation and manipulation commands with a single keystroke. Regular navigation keys (eg, \\[forward-char], \\[next-line]) don't get this special translation, so you can use them to get out of the hot-spot and back to normal editing operation. In allout-mode, the normal beginning-of-line command (\\[allout-beginning-of-line]) is replaced with one that makes it easy to get to the hot-spot. If you repeat it immediately it cycles (if `allout-beginning-of-line-cycles' is set) to the beginning of the item and then, if you hit it again immediately, to the hot-spot. Similarly, `allout-beginning-of-current-entry' \(\\[allout-beginning-of-current-entry]) moves to the hot-spot when the cursor is already located at the beginning of the current entry. Extending Allout Allout exposure and authoring activities all have associated hooks, by which independent code can cooperate with allout without changes to the allout core. Here are key ones: `allout-mode-hook' `allout-mode-deactivate-hook' (deprecated) `allout-mode-off-hook' `allout-exposure-change-functions' `allout-structure-added-functions' `allout-structure-deleted-functions' `allout-structure-shifted-functions' `allout-after-copy-or-kill-hook' `allout-post-undo-hook' Terminology Topic hierarchy constituents -- TOPICS and SUBTOPICS: ITEM: A unitary outline element, including the HEADER and ENTRY text. TOPIC: An ITEM and any ITEMs contained within it, ie having greater DEPTH and with no intervening items of lower DEPTH than the container. CURRENT ITEM: The visible ITEM most immediately containing the cursor. DEPTH: The degree of nesting of an ITEM; it increases with containment. The DEPTH is determined by the HEADER PREFIX. The DEPTH is also called the: LEVEL: The same as DEPTH. ANCESTORS: Those ITEMs whose TOPICs contain an ITEM. PARENT: An ITEM's immediate ANCESTOR. It has a DEPTH one less than that of the ITEM. OFFSPRING: The ITEMs contained within an ITEM's TOPIC. SUBTOPIC: An OFFSPRING of its ANCESTOR TOPICs. CHILD: An immediate SUBTOPIC of its PARENT. SIBLINGS: TOPICs having the same PARENT and DEPTH. Topic text constituents: HEADER: The first line of an ITEM, include the ITEM PREFIX and HEADER text. ENTRY: The text content of an ITEM, before any OFFSPRING, but including the HEADER text and distinct from the ITEM PREFIX. BODY: Same as ENTRY. PREFIX: The leading text of an ITEM which distinguishes it from normal ENTRY text. Allout recognizes the outline structure according to the strict PREFIX format. It consists of a PREFIX-LEAD string, PREFIX-PADDING, and a BULLET. The BULLET might be followed by a number, indicating the ordinal number of the topic among its siblings, or an asterisk indicating encryption, plus an optional space. After that is the ITEM HEADER text, which is not part of the PREFIX. The relative length of the PREFIX determines the nesting DEPTH of the ITEM. PREFIX-LEAD: The string at the beginning of a HEADER PREFIX, by default a `.'. It can be customized by changing the setting of `allout-header-prefix' and then reinitializing `allout-mode'. When the PREFIX-LEAD is set to the comment-string of a programming language, outline structuring can be embedded in program code without interfering with processing of the text (by Emacs or the language processor) as program code. This setting happens automatically when allout mode is used in programming-mode buffers. See `allout-use-mode-specific-leader' docstring for more detail. PREFIX-PADDING: Spaces or asterisks which separate the PREFIX-LEAD and the bullet, determining the ITEM's DEPTH. BULLET: A character at the end of the ITEM PREFIX, it must be one of the characters listed on `allout-plain-bullets-string' or `allout-distinctive-bullets-string'. When creating a TOPIC, plain BULLETs are by default used, according to the DEPTH of the TOPIC. Choice among the distinctive BULLETs is offered when you provide a universal argument (\\[universal-argument]) to the TOPIC creation command, or when explicitly rebulleting a TOPIC. The significance of the various distinctive bullets is purely by convention. See the documentation for the above bullet strings for more details. EXPOSURE: The state of a TOPIC which determines the on-screen visibility of its OFFSPRING and contained ENTRY text. CONCEALED: TOPICs and ENTRY text whose EXPOSURE is inhibited. Concealed text is represented by \"...\" ellipses. CONCEALED TOPICs are effectively collapsed within an ANCESTOR. CLOSED: A TOPIC whose immediate OFFSPRING and body-text is CONCEALED. OPEN: A TOPIC that is not CLOSED, though its OFFSPRING or BODY may be. \(fn &optional ARG)" t nil) (defalias 'outlinify-sticky 'outlineify-sticky) (autoload 'outlineify-sticky "allout" "\ Activate outline mode and establish file var so it is started subsequently. See `allout-layout' and customization of `allout-auto-activation' for details on preparing Emacs for automatic allout activation. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "allout" '("allout-"))) ;;;*** ;;;### (autoloads nil "allout-widgets" "allout-widgets.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from allout-widgets.el (push (purecopy '(allout-widgets 1 0)) package--builtin-versions) (autoload 'allout-widgets-setup "allout-widgets" "\ Commission or decommission allout-widgets-mode along with allout-mode. Meant to be used by customization of `allout-widgets-auto-activation'. \(fn VARNAME VALUE)" nil nil) (defvar allout-widgets-auto-activation nil "\ Activate to enable allout icon graphics wherever allout mode is active. Also enable `allout-auto-activation' for this to take effect upon visiting an outline. When this is set you can disable allout widgets in select files by setting `allout-widgets-mode-inhibit' Instead of setting `allout-widgets-auto-activation' you can explicitly invoke `allout-widgets-mode' in allout buffers where you want allout widgets operation. See `allout-widgets-mode' for allout widgets mode features.") (custom-autoload 'allout-widgets-auto-activation "allout-widgets" nil) (put 'allout-widgets-mode-inhibit 'safe-local-variable (if (fboundp 'booleanp) 'booleanp (lambda (x) (member x '(t nil))))) (autoload 'allout-widgets-mode "allout-widgets" "\ Toggle Allout Widgets mode. With a prefix argument ARG, enable Allout Widgets mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Allout Widgets mode is an extension of Allout mode that provides graphical decoration of outline structure. It is meant to operate along with `allout-mode', via `allout-mode-hook'. The graphics include: - guide lines connecting item bullet-icons with those of their subitems. - icons for item bullets, varying to indicate whether or not the item has subitems, and if so, whether or not the item is expanded. - cue area between the bullet-icon and the start of the body headline, for item numbering, encryption indicator, and distinctive bullets. The bullet-icon and guide line graphics provide keybindings and mouse bindings for easy outline navigation and exposure control, extending outline hot-spot navigation (see `allout-mode'). \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "allout-widgets" '("allout-"))) ;;;*** ;;;### (autoloads nil "ange-ftp" "net/ange-ftp.el" (0 0 0 0)) ;;; Generated autoloads from net/ange-ftp.el (defalias 'ange-ftp-re-read-dir 'ange-ftp-reread-dir) (autoload 'ange-ftp-reread-dir "ange-ftp" "\ Reread remote directory DIR to update the directory cache. The implementation of remote FTP file names caches directory contents for speed. Therefore, when new remote files are created, Emacs may not know they exist. You can use this command to reread a specific directory, so that Emacs will know its current contents. \(fn &optional DIR)" t nil) (autoload 'ange-ftp-hook-function "ange-ftp" "\ \(fn OPERATION &rest ARGS)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ange-ftp" '("ange-ftp-" "internal-ange-ftp-mode" "ftp-error"))) ;;;*** ;;;### (autoloads nil "animate" "play/animate.el" (0 0 0 0)) ;;; Generated autoloads from play/animate.el (autoload 'animate-string "animate" "\ Display STRING animations starting at position VPOS, HPOS. The characters start at randomly chosen places, and all slide in parallel to their final positions, passing through `animate-n-steps' positions before the final ones. If HPOS is nil (or omitted), center the string horizontally in the current window. \(fn STRING VPOS &optional HPOS)" nil nil) (autoload 'animate-sequence "animate" "\ Display animation strings from LIST-OF-STRING with buffer *Animation*. Strings will be separated from each other by SPACE lines. When the variable `animation-buffer-name' is non-nil display animation in the buffer named by variable's value, creating the buffer if one does not exist. \(fn LIST-OF-STRINGS SPACE)" nil nil) (autoload 'animate-birthday-present "animate" "\ Return a birthday present in the buffer *Birthday-Present*. When optional arg NAME is non-nil or called-interactively, prompt for NAME of birthday present receiver and return a birthday present in the buffer *Birthday-Present-for-Name*. \(fn &optional NAME)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "animate" '("animat"))) ;;;*** ;;;### (autoloads nil "ansi-color" "ansi-color.el" (0 0 0 0)) ;;; Generated autoloads from ansi-color.el (push (purecopy '(ansi-color 3 4 2)) package--builtin-versions) (autoload 'ansi-color-for-comint-mode-on "ansi-color" "\ Set `ansi-color-for-comint-mode' to t. \(fn)" t nil) (autoload 'ansi-color-process-output "ansi-color" "\ Maybe translate SGR control sequences of comint output into text properties. Depending on variable `ansi-color-for-comint-mode' the comint output is either not processed, SGR control sequences are filtered using `ansi-color-filter-region', or SGR control sequences are translated into text properties using `ansi-color-apply-on-region'. The comint output is assumed to lie between the marker `comint-last-output-start' and the process-mark. This is a good function to put in `comint-output-filter-functions'. \(fn IGNORED)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ansi-color" '("ansi-color-"))) ;;;*** ;;;### (autoloads nil "antlr-mode" "progmodes/antlr-mode.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from progmodes/antlr-mode.el (push (purecopy '(antlr-mode 2 2 3)) package--builtin-versions) (autoload 'antlr-show-makefile-rules "antlr-mode" "\ Show Makefile rules for all grammar files in the current directory. If the `major-mode' of the current buffer has the value `makefile-mode', the rules are directory inserted at point. Otherwise, a *Help* buffer is shown with the rules which are also put into the `kill-ring' for \\[yank]. This command considers import/export vocabularies and grammar inheritance and provides a value for the \"-glib\" option if necessary. Customize variable `antlr-makefile-specification' for the appearance of the rules. If the file for a super-grammar cannot be determined, special file names are used according to variable `antlr-unknown-file-formats' and a commentary with value `antlr-help-unknown-file-text' is added. The *Help* buffer always starts with the text in `antlr-help-rules-intro'. \(fn)" t nil) (autoload 'antlr-mode "antlr-mode" "\ Major mode for editing ANTLR grammar files. \(fn)" t nil) (autoload 'antlr-set-tabs "antlr-mode" "\ Use ANTLR's convention for TABs according to `antlr-tab-offset-alist'. Used in `antlr-mode'. Also a useful function in `java-mode-hook'. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "antlr-mode" '("antlr-"))) ;;;*** ;;;### (autoloads nil "appt" "calendar/appt.el" (0 0 0 0)) ;;; Generated autoloads from calendar/appt.el (autoload 'appt-add "appt" "\ Add an appointment for today at TIME with message MSG. The time should be in either 24 hour format or am/pm format. Optional argument WARNTIME is an integer (or string) giving the number of minutes before the appointment at which to start warning. The default is `appt-message-warning-time'. \(fn TIME MSG &optional WARNTIME)" t nil) (autoload 'appt-activate "appt" "\ Toggle checking of appointments. With optional numeric argument ARG, turn appointment checking on if ARG is positive, otherwise off. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "appt" '("appt-"))) ;;;*** ;;;### (autoloads nil "apropos" "apropos.el" (0 0 0 0)) ;;; Generated autoloads from apropos.el (autoload 'apropos-read-pattern "apropos" "\ Read an apropos pattern, either a word list or a regexp. Returns the user pattern, either a list of words which are matched literally, or a string which is used as a regexp to search for. SUBJECT is a string that is included in the prompt to identify what kind of objects to search. \(fn SUBJECT)" nil nil) (autoload 'apropos-user-option "apropos" "\ Show user options that match PATTERN. PATTERN can be a word, a list of words (separated by spaces), or a regexp (using some regexp special characters). If it is a word, search for matches for that word as a substring. If it is a list of words, search for matches for any two (or more) of those words. With \\[universal-argument] prefix, or if `apropos-do-all' is non-nil, also show variables, not just user options. \(fn PATTERN &optional DO-ALL)" t nil) (autoload 'apropos-variable "apropos" "\ Show variables that match PATTERN. With the optional argument DO-NOT-ALL non-nil (or when called interactively with the prefix \\[universal-argument]), show user options only, i.e. behave like `apropos-user-option'. \(fn PATTERN &optional DO-NOT-ALL)" t nil) (autoload 'apropos-local-variable "apropos" "\ Show buffer-local variables that match PATTERN. Optional arg BUFFER (default: current buffer) is the buffer to check. The output includes variables that are not yet set in BUFFER, but that will be buffer-local when set. \(fn PATTERN &optional BUFFER)" t nil) (defalias 'command-apropos 'apropos-command) (autoload 'apropos-command "apropos" "\ Show commands (interactively callable functions) that match PATTERN. PATTERN can be a word, a list of words (separated by spaces), or a regexp (using some regexp special characters). If it is a word, search for matches for that word as a substring. If it is a list of words, search for matches for any two (or more) of those words. With \\[universal-argument] prefix, or if `apropos-do-all' is non-nil, also show noninteractive functions. If VAR-PREDICATE is non-nil, show only variables, and only those that satisfy the predicate VAR-PREDICATE. When called from a Lisp program, a string PATTERN is used as a regexp, while a list of strings is used as a word list. \(fn PATTERN &optional DO-ALL VAR-PREDICATE)" t nil) (autoload 'apropos-documentation-property "apropos" "\ Like (documentation-property SYMBOL PROPERTY RAW) but handle errors. \(fn SYMBOL PROPERTY RAW)" nil nil) (autoload 'apropos "apropos" "\ Show all meaningful Lisp symbols whose names match PATTERN. Symbols are shown if they are defined as functions, variables, or faces, or if they have nonempty property lists. PATTERN can be a word, a list of words (separated by spaces), or a regexp (using some regexp special characters). If it is a word, search for matches for that word as a substring. If it is a list of words, search for matches for any two (or more) of those words. With \\[universal-argument] prefix, or if `apropos-do-all' is non-nil, consider all symbols (if they match PATTERN). Returns list of symbols and documentation found. \(fn PATTERN &optional DO-ALL)" t nil) (autoload 'apropos-library "apropos" "\ List the variables and functions defined by library FILE. FILE should be one of the libraries currently loaded and should thus be found in `load-history'. If `apropos-do-all' is non-nil, the output includes key-bindings of commands. \(fn FILE)" t nil) (autoload 'apropos-value "apropos" "\ Show all symbols whose value's printed representation matches PATTERN. PATTERN can be a word, a list of words (separated by spaces), or a regexp (using some regexp special characters). If it is a word, search for matches for that word as a substring. If it is a list of words, search for matches for any two (or more) of those words. With \\[universal-argument] prefix, or if `apropos-do-all' is non-nil, also looks at function definitions (arguments, documentation and body) and at the names and values of properties. Returns list of symbols and values found. \(fn PATTERN &optional DO-ALL)" t nil) (autoload 'apropos-local-value "apropos" "\ Show buffer-local variables whose values match PATTERN. This is like `apropos-value', but only for buffer-local variables. Optional arg BUFFER (default: current buffer) is the buffer to check. \(fn PATTERN &optional BUFFER)" t nil) (autoload 'apropos-documentation "apropos" "\ Show symbols whose documentation contains matches for PATTERN. PATTERN can be a word, a list of words (separated by spaces), or a regexp (using some regexp special characters). If it is a word, search for matches for that word as a substring. If it is a list of words, search for matches for any two (or more) of those words. Note that by default this command only searches in the file specified by `internal-doc-file-name'; i.e., the etc/DOC file. With \\[universal-argument] prefix, or if `apropos-do-all' is non-nil, it searches all currently defined documentation strings. Returns list of symbols and documentation found. \(fn PATTERN &optional DO-ALL)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "apropos" '("apropos-"))) ;;;*** ;;;### (autoloads nil "arc-mode" "arc-mode.el" (0 0 0 0)) ;;; Generated autoloads from arc-mode.el (autoload 'archive-mode "arc-mode" "\ Major mode for viewing an archive file in a dired-like way. You can move around using the usual cursor motion commands. Letters no longer insert themselves. Type `e' to pull a file out of the archive and into its own buffer; or click mouse-2 on the file's line in the archive mode buffer. If you edit a sub-file of this archive (as with the `e' command) and save it, the contents of that buffer will be saved back into the archive. \\{archive-mode-map} \(fn &optional FORCE)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "arc-mode" '("archive-"))) ;;;*** ;;;### (autoloads nil "array" "array.el" (0 0 0 0)) ;;; Generated autoloads from array.el (autoload 'array-mode "array" "\ Major mode for editing arrays. Array mode is a specialized mode for editing arrays. An array is considered to be a two-dimensional set of strings. The strings are NOT recognized as integers or real numbers. The array MUST reside at the top of the buffer. TABs are not respected, and may be converted into spaces at any time. Setting the variable `array-respect-tabs' to non-nil will prevent TAB conversion, but will cause many functions to give errors if they encounter one. Upon entering array mode, you will be prompted for the values of several variables. Others will be calculated based on the values you supply. These variables are all local to the buffer. Other buffer in array mode may have different values assigned to the variables. The variables are: Variables you assign: array-max-row: The number of rows in the array. array-max-column: The number of columns in the array. array-columns-per-line: The number of columns in the array per line of buffer. array-field-width: The width of each field, in characters. array-rows-numbered: A logical variable describing whether to ignore row numbers in the buffer. Variables which are calculated: array-line-length: The number of characters in a buffer line. array-lines-per-row: The number of buffer lines used to display each row. The following commands are available (an asterisk indicates it may take a numeric prefix argument): * \\\\[array-forward-column] Move forward one column. * \\[array-backward-column] Move backward one column. * \\[array-next-row] Move down one row. * \\[array-previous-row] Move up one row. * \\[array-copy-forward] Copy the current field into the column to the right. * \\[array-copy-backward] Copy the current field into the column to the left. * \\[array-copy-down] Copy the current field into the row below. * \\[array-copy-up] Copy the current field into the row above. * \\[array-copy-column-forward] Copy the current column into the column to the right. * \\[array-copy-column-backward] Copy the current column into the column to the left. * \\[array-copy-row-down] Copy the current row into the row below. * \\[array-copy-row-up] Copy the current row into the row above. \\[array-fill-rectangle] Copy the field at mark into every cell with row and column between that of point and mark. \\[array-what-position] Display the current array row and column. \\[array-goto-cell] Go to a particular array cell. \\[array-make-template] Make a template for a new array. \\[array-reconfigure-rows] Reconfigure the array. \\[array-expand-rows] Expand the array (remove row numbers and newlines inside rows) \\[array-display-local-variables] Display the current values of local variables. Entering array mode calls the function `array-mode-hook'. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "array" '("array-" "untabify-backward" "move-to-column-untabify" "current-line" "xor" "limit-index"))) ;;;*** ;;;### (autoloads nil "artist" "textmodes/artist.el" (0 0 0 0)) ;;; Generated autoloads from textmodes/artist.el (push (purecopy '(artist 1 2 6)) package--builtin-versions) (autoload 'artist-mode "artist" "\ Toggle Artist mode. With argument ARG, turn Artist mode on if ARG is positive. Artist lets you draw lines, squares, rectangles and poly-lines, ellipses and circles with your mouse and/or keyboard. How to quit Artist mode Type \\[artist-mode-off] to quit artist-mode. How to submit a bug report Type \\[artist-submit-bug-report] to submit a bug report. Drawing with the mouse: mouse-2 shift mouse-2 Pops up a menu where you can select what to draw with mouse-1, and where you can do some settings (described below). mouse-1 shift mouse-1 Draws lines, rectangles or poly-lines, erases, cuts, copies or pastes: Operation Not shifted Shifted -------------------------------------------------------------- Pen fill-char at point line from last point to new point -------------------------------------------------------------- Line Line in any direction Straight line -------------------------------------------------------------- Rectangle Rectangle Square -------------------------------------------------------------- Poly-line Poly-line in any dir Straight poly-lines -------------------------------------------------------------- Ellipses Ellipses Circles -------------------------------------------------------------- Text Text (see thru) Text (overwrite) -------------------------------------------------------------- Spray-can Spray-can Set size for spray -------------------------------------------------------------- Erase Erase character Erase rectangle -------------------------------------------------------------- Vaporize Erase single line Erase connected lines -------------------------------------------------------------- Cut Cut rectangle Cut square -------------------------------------------------------------- Copy Copy rectangle Copy square -------------------------------------------------------------- Paste Paste Paste -------------------------------------------------------------- Flood-fill Flood-fill Flood-fill -------------------------------------------------------------- * Straight lines can only go horizontally, vertically or diagonally. * Poly-lines are drawn while holding mouse-1 down. When you release the button, the point is set. If you want a segment to be straight, hold down shift before pressing the mouse-1 button. Click mouse-2 or mouse-3 to stop drawing poly-lines. * See thru for text means that text already in the buffer will be visible through blanks in the text rendered, while overwrite means the opposite. * Vaporizing connected lines only vaporizes lines whose _endpoints_ are connected. See also the variable `artist-vaporize-fuzziness'. * Cut copies, then clears the rectangle/square. * When drawing lines or poly-lines, you can set arrows. See below under \"Arrows\" for more info. * The mode line shows the currently selected drawing operation. In addition, if it has an asterisk (*) at the end, you are currently drawing something. * Be patient when flood-filling -- large areas take quite some time to fill. mouse-3 Erases character under pointer shift mouse-3 Erases rectangle Settings Set fill Sets the character used when filling rectangles/squares Set line Sets the character used when drawing lines Erase char Sets the character used when erasing Rubber-banding Toggles rubber-banding Trimming Toggles trimming of line-endings (that is: when the shape is drawn, extraneous white-space at end of lines is removed) Borders Toggles the drawing of line borders around filled shapes Drawing with keys \\[artist-key-set-point] Does one of the following: For lines/rectangles/squares: sets the first/second endpoint For poly-lines: sets a point (use C-u \\[artist-key-set-point] to set last point) When erase characters: toggles erasing When cutting/copying: Sets first/last endpoint of rect/square When pasting: Pastes \\[artist-select-operation] Selects what to draw Move around with \\[artist-next-line], \\[artist-previous-line], \\[artist-forward-char] and \\[artist-backward-char]. \\[artist-select-fill-char] Sets the character to use when filling \\[artist-select-line-char] Sets the character to use when drawing \\[artist-select-erase-char] Sets the character to use when erasing \\[artist-toggle-rubber-banding] Toggles rubber-banding \\[artist-toggle-trim-line-endings] Toggles trimming of line-endings \\[artist-toggle-borderless-shapes] Toggles borders on drawn shapes Arrows \\[artist-toggle-first-arrow] Sets/unsets an arrow at the beginning of the line/poly-line \\[artist-toggle-second-arrow] Sets/unsets an arrow at the end of the line/poly-line Selecting operation There are some keys for quickly selecting drawing operations: \\[artist-select-op-line] Selects drawing lines \\[artist-select-op-straight-line] Selects drawing straight lines \\[artist-select-op-rectangle] Selects drawing rectangles \\[artist-select-op-square] Selects drawing squares \\[artist-select-op-poly-line] Selects drawing poly-lines \\[artist-select-op-straight-poly-line] Selects drawing straight poly-lines \\[artist-select-op-ellipse] Selects drawing ellipses \\[artist-select-op-circle] Selects drawing circles \\[artist-select-op-text-see-thru] Selects rendering text (see thru) \\[artist-select-op-text-overwrite] Selects rendering text (overwrite) \\[artist-select-op-spray-can] Spray with spray-can \\[artist-select-op-spray-set-size] Set size for the spray-can \\[artist-select-op-erase-char] Selects erasing characters \\[artist-select-op-erase-rectangle] Selects erasing rectangles \\[artist-select-op-vaporize-line] Selects vaporizing single lines \\[artist-select-op-vaporize-lines] Selects vaporizing connected lines \\[artist-select-op-cut-rectangle] Selects cutting rectangles \\[artist-select-op-copy-rectangle] Selects copying rectangles \\[artist-select-op-paste] Selects pasting \\[artist-select-op-flood-fill] Selects flood-filling Variables This is a brief overview of the different variables. For more info, see the documentation for the variables (type \\[describe-variable] RET). artist-rubber-banding Interactively do rubber-banding or not artist-first-char What to set at first/second point... artist-second-char ...when not rubber-banding artist-interface-with-rect If cut/copy/paste should interface with rect artist-arrows The arrows to use when drawing arrows artist-aspect-ratio Character height-to-width for squares artist-trim-line-endings Trimming of line endings artist-flood-fill-right-border Right border when flood-filling artist-flood-fill-show-incrementally Update display while filling artist-pointer-shape Pointer shape to use while drawing artist-ellipse-left-char Character to use for narrow ellipses artist-ellipse-right-char Character to use for narrow ellipses artist-borderless-shapes If shapes should have borders artist-picture-compatibility Whether or not to be picture mode compatible artist-vaporize-fuzziness Tolerance when recognizing lines artist-spray-interval Seconds between repeated sprayings artist-spray-radius Size of the spray-area artist-spray-chars The spray-\"color\" artist-spray-new-chars Initial spray-\"color\" Hooks Turning the mode on or off runs `artist-mode-hook'. Keymap summary \\{artist-mode-map} \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "artist" '("artist-"))) ;;;*** ;;;### (autoloads nil "asm-mode" "progmodes/asm-mode.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/asm-mode.el (autoload 'asm-mode "asm-mode" "\ Major mode for editing typical assembler code. Features a private abbrev table and the following bindings: \\[asm-colon] outdent a preceding label, tab to next tab stop. \\[tab-to-tab-stop] tab to next tab stop. \\[asm-newline] newline, then tab to next tab stop. \\[asm-comment] smart placement of assembler comments. The character used for making comments is set by the variable `asm-comment-char' (which defaults to `?\\;'). Alternatively, you may set this variable in `asm-mode-set-comment-hook', which is called near the beginning of mode initialization. Turning on Asm mode runs the hook `asm-mode-hook' at the end of initialization. Special commands: \\{asm-mode-map} \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "asm-mode" '("asm-"))) ;;;*** ;;;### (autoloads nil "auth-source" "auth-source.el" (0 0 0 0)) ;;; Generated autoloads from auth-source.el (defvar auth-source-cache-expiry 7200 "\ How many seconds passwords are cached, or nil to disable expiring. Overrides `password-cache-expiry' through a let-binding.") (custom-autoload 'auth-source-cache-expiry "auth-source" t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "auth-source" '("auth-source"))) ;;;*** ;;;### (autoloads nil "auth-source-pass" "auth-source-pass.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from auth-source-pass.el (push (purecopy '(auth-source-pass 2 0 0)) package--builtin-versions) (autoload 'auth-source-pass-enable "auth-source-pass" "\ Enable auth-source-password-store. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "auth-source-pass" '("auth-source-pass-"))) ;;;*** ;;;### (autoloads nil "autoarg" "autoarg.el" (0 0 0 0)) ;;; Generated autoloads from autoarg.el (defvar autoarg-mode nil "\ Non-nil if Autoarg mode is enabled. See the `autoarg-mode' command for a description of this minor mode.") (custom-autoload 'autoarg-mode "autoarg" nil) (autoload 'autoarg-mode "autoarg" "\ Toggle Autoarg mode, a global minor mode. With a prefix argument ARG, enable Autoarg mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. \\ In Autoarg mode, digits are bound to `digit-argument', i.e. they supply prefix arguments as C-DIGIT and M-DIGIT normally do. Furthermore, C-DIGIT inserts DIGIT. \\[autoarg-terminate] terminates the prefix sequence and inserts the digits of the autoarg sequence into the buffer. Without a numeric prefix arg, the normal binding of \\[autoarg-terminate] is invoked, i.e. what it would be with Autoarg mode off. For example: `6 9 \\[autoarg-terminate]' inserts `69' into the buffer, as does `C-6 C-9'. `6 9 a' inserts 69 `a's into the buffer. `6 9 \\[autoarg-terminate] \\[autoarg-terminate]' inserts `69' into the buffer and then invokes the normal binding of \\[autoarg-terminate]. `C-u \\[autoarg-terminate]' invokes the normal binding of \\[autoarg-terminate] four times. \\{autoarg-mode-map} \(fn &optional ARG)" t nil) (defvar autoarg-kp-mode nil "\ Non-nil if Autoarg-Kp mode is enabled. See the `autoarg-kp-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `autoarg-kp-mode'.") (custom-autoload 'autoarg-kp-mode "autoarg" nil) (autoload 'autoarg-kp-mode "autoarg" "\ Toggle Autoarg-KP mode, a global minor mode. With a prefix argument ARG, enable Autoarg-KP mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. \\ This is similar to `autoarg-mode' but rebinds the keypad keys `kp-1' etc. to supply digit arguments. \\{autoarg-kp-mode-map} \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "autoarg" '("autoarg-"))) ;;;*** ;;;### (autoloads nil "autoconf" "progmodes/autoconf.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/autoconf.el (autoload 'autoconf-mode "autoconf" "\ Major mode for editing Autoconf configure.ac files. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "autoconf" '("autoconf-"))) ;;;*** ;;;### (autoloads nil "autoinsert" "autoinsert.el" (0 0 0 0)) ;;; Generated autoloads from autoinsert.el (autoload 'auto-insert "autoinsert" "\ Insert default contents into new files if variable `auto-insert' is non-nil. Matches the visited file name against the elements of `auto-insert-alist'. \(fn)" t nil) (autoload 'define-auto-insert "autoinsert" "\ Associate CONDITION with (additional) ACTION in `auto-insert-alist'. Optional AFTER means to insert action after all existing actions for CONDITION, or if CONDITION had no actions, after all other CONDITIONs. \(fn CONDITION ACTION &optional AFTER)" nil nil) (defvar auto-insert-mode nil "\ Non-nil if Auto-Insert mode is enabled. See the `auto-insert-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `auto-insert-mode'.") (custom-autoload 'auto-insert-mode "autoinsert" nil) (autoload 'auto-insert-mode "autoinsert" "\ Toggle Auto-insert mode, a global minor mode. With a prefix argument ARG, enable Auto-insert mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. When Auto-insert mode is enabled, when new files are created you can insert a template for the file depending on the mode of the buffer. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "autoinsert" '("auto-insert"))) ;;;*** ;;;### (autoloads nil "autoload" "emacs-lisp/autoload.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from emacs-lisp/autoload.el (put 'generated-autoload-file 'safe-local-variable 'stringp) (put 'generated-autoload-load-name 'safe-local-variable 'stringp) (put 'autoload-ensure-writable 'risky-local-variable t) (autoload 'update-file-autoloads "autoload" "\ Update the autoloads for FILE. If prefix arg SAVE-AFTER is non-nil, save the buffer too. If FILE binds `generated-autoload-file' as a file-local variable, autoloads are written into that file. Otherwise, the autoloads file is determined by OUTFILE. If called interactively, prompt for OUTFILE; if called from Lisp with OUTFILE nil, use the existing value of `generated-autoload-file'. Return FILE if there was no autoload cookie in it, else nil. \(fn FILE &optional SAVE-AFTER OUTFILE)" t nil) (autoload 'update-directory-autoloads "autoload" "\ Update autoload definitions for Lisp files in the directories DIRS. In an interactive call, you must give one argument, the name of a single directory. In a call from Lisp, you can supply multiple directories as separate arguments, but this usage is discouraged. The function does NOT recursively descend into subdirectories of the directory or directories specified. In an interactive call, prompt for a default output file for the autoload definitions, and temporarily bind the variable `generated-autoload-file' to this value. When called from Lisp, use the existing value of `generated-autoload-file'. If any Lisp file binds `generated-autoload-file' as a file-local variable, write its autoloads into the specified file instead. \(fn &rest DIRS)" t nil) (autoload 'batch-update-autoloads "autoload" "\ Update loaddefs.el autoloads in batch mode. Calls `update-directory-autoloads' on the command line arguments. Definitions are written to `generated-autoload-file' (which should be non-nil). \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "autoload" '("autoload-" "generate" "no-update-autoloads" "make-autoload"))) ;;;*** ;;;### (autoloads nil "autorevert" "autorevert.el" (0 0 0 0)) ;;; Generated autoloads from autorevert.el (autoload 'auto-revert-mode "autorevert" "\ Toggle reverting buffer when the file changes (Auto-Revert Mode). With a prefix argument ARG, enable Auto-Revert Mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Auto-Revert Mode is a minor mode that affects only the current buffer. When enabled, it reverts the buffer when the file on disk changes. When a buffer is reverted, a message is generated. This can be suppressed by setting `auto-revert-verbose' to nil. Use `global-auto-revert-mode' to automatically revert all buffers. Use `auto-revert-tail-mode' if you know that the file will only grow without being changed in the part that is already in the buffer. \(fn &optional ARG)" t nil) (autoload 'turn-on-auto-revert-mode "autorevert" "\ Turn on Auto-Revert Mode. This function is designed to be added to hooks, for example: (add-hook \\='c-mode-hook #\\='turn-on-auto-revert-mode) \(fn)" nil nil) (autoload 'auto-revert-tail-mode "autorevert" "\ Toggle reverting tail of buffer when the file grows. With a prefix argument ARG, enable Auto-Revert Tail Mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. When Auto-Revert Tail Mode is enabled, the tail of the file is constantly followed, as with the shell command `tail -f'. This means that whenever the file grows on disk (presumably because some background process is appending to it from time to time), this is reflected in the current buffer. You can edit the buffer and turn this mode off and on again as you please. But make sure the background process has stopped writing before you save the file! When a buffer is reverted, a message is generated. This can be suppressed by setting `auto-revert-verbose' to nil. Use `auto-revert-mode' for changes other than appends! \(fn &optional ARG)" t nil) (autoload 'turn-on-auto-revert-tail-mode "autorevert" "\ Turn on Auto-Revert Tail Mode. This function is designed to be added to hooks, for example: (add-hook \\='my-logfile-mode-hook #\\='turn-on-auto-revert-tail-mode) \(fn)" nil nil) (defvar global-auto-revert-mode nil "\ Non-nil if Global Auto-Revert mode is enabled. See the `global-auto-revert-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `global-auto-revert-mode'.") (custom-autoload 'global-auto-revert-mode "autorevert" nil) (autoload 'global-auto-revert-mode "autorevert" "\ Toggle Global Auto-Revert Mode. With a prefix argument ARG, enable Global Auto-Revert Mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Global Auto-Revert Mode is a global minor mode that reverts any buffer associated with a file when the file changes on disk. Use `auto-revert-mode' to revert a particular buffer. If `global-auto-revert-non-file-buffers' is non-nil, this mode may also revert some non-file buffers, as described in the documentation of that variable. It ignores buffers with modes matching `global-auto-revert-ignore-modes', and buffers with a non-nil vale of `global-auto-revert-ignore-buffer'. When a buffer is reverted, a message is generated. This can be suppressed by setting `auto-revert-verbose' to nil. This function calls the hook `global-auto-revert-mode-hook'. It displays the text that `global-auto-revert-mode-text' specifies in the mode line. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "autorevert" '("auto-revert-" "global-auto-revert-"))) ;;;*** ;;;### (autoloads nil "avl-tree" "emacs-lisp/avl-tree.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from emacs-lisp/avl-tree.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "avl-tree" '("avl-tree-"))) ;;;*** ;;;### (autoloads nil "avoid" "avoid.el" (0 0 0 0)) ;;; Generated autoloads from avoid.el (defvar mouse-avoidance-mode nil "\ Activate Mouse Avoidance mode. See function `mouse-avoidance-mode' for possible values. Setting this variable directly does not take effect; use either \\[customize] or the function `mouse-avoidance-mode'.") (custom-autoload 'mouse-avoidance-mode "avoid" nil) (autoload 'mouse-avoidance-mode "avoid" "\ Set Mouse Avoidance mode to MODE. MODE should be one of the symbols `banish', `exile', `jump', `animate', `cat-and-mouse', `proteus', or `none'. If MODE is nil, toggle mouse avoidance between `none' and `banish' modes. Positive numbers and symbols other than the above are treated as equivalent to `banish'; negative numbers and `-' are equivalent to `none'. Effects of the different modes: * banish: Move the mouse to the upper-right corner on any keypress. * exile: Move the mouse to the corner only if the cursor gets too close, and allow it to return once the cursor is out of the way. * jump: If the cursor gets too close to the mouse, displace the mouse a random distance & direction. * animate: As `jump', but shows steps along the way for illusion of motion. * cat-and-mouse: Same as `animate'. * proteus: As `animate', but changes the shape of the mouse pointer too. \(See `mouse-avoidance-threshold' for definition of \"too close\", and `mouse-avoidance-nudge-dist' and `mouse-avoidance-nudge-var' for definition of \"random distance\".) \(fn &optional MODE)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "avoid" '("mouse-avoidance-"))) ;;;*** ;;;### (autoloads nil "bat-mode" "progmodes/bat-mode.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/bat-mode.el (add-to-list 'auto-mode-alist '("\\.\\(bat\\|cmd\\)\\'" . bat-mode)) (autoload 'bat-mode "bat-mode" "\ Major mode for editing DOS/Windows batch files. Start a new script from `bat-template'. Read help pages for DOS commands with `bat-cmd-help'. Navigate between sections using `imenu'. Run script using `bat-run' and `bat-run-args'. \\{bat-mode-map} \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "bat-mode" '("bat-"))) ;;;*** ;;;### (autoloads nil "battery" "battery.el" (0 0 0 0)) ;;; Generated autoloads from battery.el (put 'battery-mode-line-string 'risky-local-variable t) (autoload 'battery "battery" "\ Display battery status information in the echo area. The text being displayed in the echo area is controlled by the variables `battery-echo-area-format' and `battery-status-function'. \(fn)" t nil) (defvar display-battery-mode nil "\ Non-nil if Display-Battery mode is enabled. See the `display-battery-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `display-battery-mode'.") (custom-autoload 'display-battery-mode "battery" nil) (autoload 'display-battery-mode "battery" "\ Toggle battery status display in mode line (Display Battery mode). With a prefix argument ARG, enable Display Battery mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. The text displayed in the mode line is controlled by `battery-mode-line-format' and `battery-status-function'. The mode line is be updated every `battery-update-interval' seconds. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "battery" '("battery-"))) ;;;*** ;;;### (autoloads nil "benchmark" "emacs-lisp/benchmark.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from emacs-lisp/benchmark.el (autoload 'benchmark-run "benchmark" "\ Time execution of FORMS. If REPETITIONS is supplied as a number, run forms that many times, accounting for the overhead of the resulting loop. Otherwise run FORMS once. Return a list of the total elapsed time for execution, the number of garbage collections that ran, and the time taken by garbage collection. See also `benchmark-run-compiled'. \(fn &optional REPETITIONS &rest FORMS)" nil t) (function-put 'benchmark-run 'lisp-indent-function '1) (autoload 'benchmark-run-compiled "benchmark" "\ Time execution of compiled version of FORMS. This is like `benchmark-run', but what is timed is a funcall of the byte code obtained by wrapping FORMS in a `lambda' and compiling the result. The overhead of the `lambda's is accounted for. \(fn &optional REPETITIONS &rest FORMS)" nil t) (function-put 'benchmark-run-compiled 'lisp-indent-function '1) (autoload 'benchmark "benchmark" "\ Print the time taken for REPETITIONS executions of FORM. Interactively, REPETITIONS is taken from the prefix arg. For non-interactive use see also `benchmark-run' and `benchmark-run-compiled'. \(fn REPETITIONS FORM)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "benchmark" '("benchmark-elapse"))) ;;;*** ;;;### (autoloads nil "bib-mode" "textmodes/bib-mode.el" (0 0 0 0)) ;;; Generated autoloads from textmodes/bib-mode.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "bib-mode" '("bib-" "unread-bib" "mark-bib" "return-key-bib" "addbib"))) ;;;*** ;;;### (autoloads nil "bibtex" "textmodes/bibtex.el" (0 0 0 0)) ;;; Generated autoloads from textmodes/bibtex.el (autoload 'bibtex-initialize "bibtex" "\ (Re)Initialize BibTeX buffers. Visit the BibTeX files defined by `bibtex-files' and return a list of corresponding buffers. Initialize in these buffers `bibtex-reference-keys' if not yet set. List of BibTeX buffers includes current buffer if CURRENT is non-nil and the current buffer visits a file using `bibtex-mode'. If FORCE is non-nil, (re)initialize `bibtex-reference-keys' even if already set. If SELECT is non-nil interactively select a BibTeX buffer. When called interactively, FORCE is t, CURRENT is t if current buffer visits a file using `bibtex-mode', and SELECT is t if current buffer does not use `bibtex-mode', \(fn &optional CURRENT FORCE SELECT)" t nil) (autoload 'bibtex-mode "bibtex" "\ Major mode for editing BibTeX files. General information on working with BibTeX mode: Use commands such as \\\\[bibtex-Book] to get a template for a specific entry. Then fill in all desired fields using \\[bibtex-next-field] to jump from field to field. After having filled in all desired fields in the entry, clean the new entry with the command \\[bibtex-clean-entry]. Some features of BibTeX mode are available only by setting the variable `bibtex-maintain-sorted-entries' to non-nil. However, then BibTeX mode works only with buffers containing valid (syntactically correct) and sorted entries. This is usually the case, if you have created a buffer completely with BibTeX mode and finished every new entry with \\[bibtex-clean-entry]. For third party BibTeX files, call the command \\[bibtex-convert-alien] to fully take advantage of all features of BibTeX mode. Special information: A command such as \\[bibtex-Book] outlines the fields for a BibTeX book entry. The names of optional fields start with the string OPT, and are thus ignored by BibTeX. The names of alternative fields from which only one is required start with the string ALT. The OPT or ALT string may be removed from the name of a field with \\[bibtex-remove-OPT-or-ALT]. \\[bibtex-make-field] inserts a new field after the current one. \\[bibtex-kill-field] kills the current field entirely. \\[bibtex-yank] yanks the last recently killed field after the current field. \\[bibtex-remove-delimiters] removes the double-quotes or braces around the text of the current field. \\[bibtex-empty-field] replaces the text of the current field with the default \"\" or {}. \\[bibtex-find-text] moves point to the end of the current field. \\[completion-at-point] completes word fragment before point according to context. The command \\[bibtex-clean-entry] cleans the current entry, i.e. it removes OPT/ALT from the names of all non-empty optional or alternative fields, checks that no required fields are empty, and does some formatting dependent on the value of `bibtex-entry-format'. Furthermore, it can automatically generate a key for the BibTeX entry, see `bibtex-generate-autokey'. Note: some functions in BibTeX mode depend on entries being in a special format (all fields beginning on separate lines), so it is usually a bad idea to remove `realign' from `bibtex-entry-format'. BibTeX mode supports Imenu and hideshow minor mode (`hs-minor-mode'). ---------------------------------------------------------- Entry to BibTeX mode calls the value of `bibtex-mode-hook' if that value is non-nil. \\{bibtex-mode-map} \(fn)" t nil) (autoload 'bibtex-search-entry "bibtex" "\ Move point to the beginning of BibTeX entry named KEY. Return position of entry if KEY is found or nil if not found. With GLOBAL non-nil, search KEY in `bibtex-files'. Otherwise the search is limited to the current buffer. Optional arg START is buffer position where the search starts. If it is nil, start search at beginning of buffer. If DISPLAY is non-nil, display the buffer containing KEY. Otherwise, use `set-buffer'. When called interactively, START is nil, DISPLAY is t. Also, GLOBAL is t if the current mode is not `bibtex-mode' or `bibtex-search-entry-globally' is non-nil. A prefix arg negates the value of `bibtex-search-entry-globally'. \(fn KEY &optional GLOBAL START DISPLAY)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "bibtex" '("bibtex-"))) ;;;*** ;;;### (autoloads nil "bibtex-style" "textmodes/bibtex-style.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from textmodes/bibtex-style.el (autoload 'bibtex-style-mode "bibtex-style" "\ Major mode for editing BibTeX style files. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "bibtex-style" '("bibtex-style-"))) ;;;*** ;;;### (autoloads nil "bindat" "emacs-lisp/bindat.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/bindat.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "bindat" '("bindat-"))) ;;;*** ;;;### (autoloads nil "binhex" "mail/binhex.el" (0 0 0 0)) ;;; Generated autoloads from mail/binhex.el (defconst binhex-begin-line "^:...............................................................$" "\ Regular expression matching the start of a BinHex encoded region.") (autoload 'binhex-decode-region-internal "binhex" "\ Binhex decode region between START and END without using an external program. If HEADER-ONLY is non-nil only decode header and return filename. \(fn START END &optional HEADER-ONLY)" t nil) (autoload 'binhex-decode-region-external "binhex" "\ Binhex decode region between START and END using external decoder. \(fn START END)" t nil) (autoload 'binhex-decode-region "binhex" "\ Binhex decode region between START and END. \(fn START END)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "binhex" '("binhex-"))) ;;;*** ;;;### (autoloads nil "blackbox" "play/blackbox.el" (0 0 0 0)) ;;; Generated autoloads from play/blackbox.el (autoload 'blackbox "blackbox" "\ Play blackbox. Optional prefix argument is the number of balls; the default is 4. What is blackbox? Blackbox is a game of hide and seek played on an 8 by 8 grid (the Blackbox). Your opponent (Emacs, in this case) has hidden several balls (usually 4) within this box. By shooting rays into the box and observing where they emerge it is possible to deduce the positions of the hidden balls. The fewer rays you use to find the balls, the lower your score. Overview of play: \\To play blackbox, type \\[blackbox]. An optional prefix argument specifies the number of balls to be hidden in the box; the default is four. The cursor can be moved around the box with the standard cursor movement keys. To shoot a ray, move the cursor to the edge of the box and press SPC. The result will be determined and the playfield updated. You may place or remove balls in the box by moving the cursor into the box and pressing \\[bb-romp]. When you think the configuration of balls you have placed is correct, press \\[bb-done]. You will be informed whether you are correct or not, and be given your score. Your score is the number of letters and numbers around the outside of the box plus five for each incorrectly placed ball. If you placed any balls incorrectly, they will be indicated with `x', and their actual positions indicated with `o'. Details: There are three possible outcomes for each ray you send into the box: Detour: the ray is deflected and emerges somewhere other than where you sent it in. On the playfield, detours are denoted by matching pairs of numbers -- one where the ray went in, and the other where it came out. Reflection: the ray is reflected and emerges in the same place it was sent in. On the playfield, reflections are denoted by the letter `R'. Hit: the ray strikes a ball directly and is absorbed. It does not emerge from the box. On the playfield, hits are denoted by the letter `H'. The rules for how balls deflect rays are simple and are best shown by example. As a ray approaches a ball it is deflected ninety degrees. Rays can be deflected multiple times. In the diagrams below, the dashes represent empty box locations and the letter `O' represents a ball. The entrance and exit points of each ray are marked with numbers as described under \"Detour\" above. Note that the entrance and exit points are always interchangeable. `*' denotes the path taken by the ray. Note carefully the relative positions of the ball and the ninety degree deflection it causes. 1 - * - - - - - - - - - - - - - - - - - - - - - - - * - - - - - - - - - - - - - - - - - - - - - - 1 * * - - - - - - - - - - - - - - - O - - - - O - - - O - - - - - - - O - - - - - - - * * * * - - - - - - - - - - - - - * * * * * 2 3 * * * - - * - - - - - - - - - - - - - * - - - - - - - O - * - - - - - - - - - - - - - * - - - - - - - - * * - - - - - - - - - - - - - * - - - - - - - - * - O - 2 3 As mentioned above, a reflection occurs when a ray emerges from the same point it was sent in. This can happen in several ways: - - - - - - - - - - - - - - - - - - - - - - - - - - - - O - - - - - O - O - - - - - - - - - - - R * * * * - - - - - - - * - - - - O - - - - - - - - - - - O - - - - - - * - - - - R - - - - - - - - - - - - - - - - - - - * - - - - - - - - - - - - - - - - - - - - - - - * - - - - - - - - - - - - - - - - - - - - R * * * * - - - - - - - - - - - - - - - - - - - - - - - - O - - - - - - - - - - - In the first example, the ray is deflected downwards by the upper ball, then left by the lower ball, and finally retraces its path to its point of origin. The second example is similar. The third example is a bit anomalous but can be rationalized by realizing the ray never gets a chance to get into the box. Alternatively, the ray can be thought of as being deflected downwards and immediately emerging from the box. A hit occurs when a ray runs straight into a ball: - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - O - - - - - - - - - - - - - - - O - - - H * * * * - - - - - - - - - - - - H * * * * O - - - - - - * - - - - - - - - - - - - - - - - O - - - - - - O - - - - H * * * O - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Be sure to compare the second example of a hit with the first example of a reflection. \(fn NUM)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "blackbox" '("blackbox-" "bb-"))) ;;;*** ;;;### (autoloads nil "bookmark" "bookmark.el" (0 0 0 0)) ;;; Generated autoloads from bookmark.el (define-key ctl-x-r-map "b" 'bookmark-jump) (define-key ctl-x-r-map "m" 'bookmark-set) (define-key ctl-x-r-map "M" 'bookmark-set-no-overwrite) (define-key ctl-x-r-map "l" 'bookmark-bmenu-list) (defvar bookmark-map (let ((map (make-sparse-keymap))) (define-key map "x" 'bookmark-set) (define-key map "m" 'bookmark-set) (define-key map "M" 'bookmark-set-no-overwrite) (define-key map "j" 'bookmark-jump) (define-key map "g" 'bookmark-jump) (define-key map "o" 'bookmark-jump-other-window) (define-key map "i" 'bookmark-insert) (define-key map "e" 'edit-bookmarks) (define-key map "f" 'bookmark-insert-location) (define-key map "r" 'bookmark-rename) (define-key map "d" 'bookmark-delete) (define-key map "l" 'bookmark-load) (define-key map "w" 'bookmark-write) (define-key map "s" 'bookmark-save) map) "\ Keymap containing bindings to bookmark functions. It is not bound to any key by default: to bind it so that you have a bookmark prefix, just use `global-set-key' and bind a key of your choice to `bookmark-map'. All interactive bookmark functions have a binding in this keymap.") (fset 'bookmark-map bookmark-map) (autoload 'bookmark-set "bookmark" "\ Set a bookmark named NAME at the current location. If NAME is nil, then prompt the user. With a prefix arg (non-nil NO-OVERWRITE), do not overwrite any existing bookmark that has the same name as NAME, but instead push the new bookmark onto the bookmark alist. The most recently set bookmark with name NAME is thus the one in effect at any given time, but the others are still there, should the user decide to delete the most recent one. To yank words from the text of the buffer and use them as part of the bookmark name, type C-w while setting a bookmark. Successive C-w's yank successive words. Typing C-u inserts (at the bookmark name prompt) the name of the last bookmark used in the document where the new bookmark is being set; this helps you use a single bookmark name to track progress through a large document. If there is no prior bookmark for this document, then C-u inserts an appropriate name based on the buffer or file. Use \\[bookmark-delete] to remove bookmarks (you give it a name and it removes only the first instance of a bookmark with that name from the list of bookmarks.) \(fn &optional NAME NO-OVERWRITE)" t nil) (autoload 'bookmark-set-no-overwrite "bookmark" "\ Set a bookmark named NAME at the current location. If NAME is nil, then prompt the user. If a bookmark named NAME already exists and prefix argument PUSH-BOOKMARK is non-nil, then push the new bookmark onto the bookmark alist. Pushing it means that among bookmarks named NAME, this one becomes the one in effect, but the others are still there, in order, and become effective again if the user ever deletes the most recent one. Otherwise, if a bookmark named NAME already exists but PUSH-BOOKMARK is nil, raise an error. To yank words from the text of the buffer and use them as part of the bookmark name, type C-w while setting a bookmark. Successive C-w's yank successive words. Typing C-u inserts (at the bookmark name prompt) the name of the last bookmark used in the document where the new bookmark is being set; this helps you use a single bookmark name to track progress through a large document. If there is no prior bookmark for this document, then C-u inserts an appropriate name based on the buffer or file. Use \\[bookmark-delete] to remove bookmarks (you give it a name and it removes only the first instance of a bookmark with that name from the list of bookmarks.) \(fn &optional NAME PUSH-BOOKMARK)" t nil) (autoload 'bookmark-jump "bookmark" "\ Jump to bookmark BOOKMARK (a point in some file). You may have a problem using this function if the value of variable `bookmark-alist' is nil. If that happens, you need to load in some bookmarks. See help on function `bookmark-load' for more about this. If the file pointed to by BOOKMARK no longer exists, you will be asked if you wish to give the bookmark a new location, and `bookmark-jump' will then jump to the new location, as well as recording it in place of the old one in the permanent bookmark record. BOOKMARK is usually a bookmark name (a string). It can also be a bookmark record, but this is usually only done by programmatic callers. If DISPLAY-FUNC is non-nil, it is a function to invoke to display the bookmark. It defaults to `switch-to-buffer'. A typical value for DISPLAY-FUNC would be `switch-to-buffer-other-window'. \(fn BOOKMARK &optional DISPLAY-FUNC)" t nil) (autoload 'bookmark-jump-other-window "bookmark" "\ Jump to BOOKMARK in another window. See `bookmark-jump' for more. \(fn BOOKMARK)" t nil) (autoload 'bookmark-relocate "bookmark" "\ Relocate BOOKMARK-NAME to another file, reading file name with minibuffer. This makes an already existing bookmark point to that file, instead of the one it used to point at. Useful when a file has been renamed after a bookmark was set in it. \(fn BOOKMARK-NAME)" t nil) (autoload 'bookmark-insert-location "bookmark" "\ Insert the name of the file associated with BOOKMARK-NAME. Optional second arg NO-HISTORY means don't record this in the minibuffer history list `bookmark-history'. \(fn BOOKMARK-NAME &optional NO-HISTORY)" t nil) (defalias 'bookmark-locate 'bookmark-insert-location) (autoload 'bookmark-rename "bookmark" "\ Change the name of OLD-NAME bookmark to NEW-NAME name. If called from keyboard, prompt for OLD-NAME and NEW-NAME. If called from menubar, select OLD-NAME from a menu and prompt for NEW-NAME. If called from Lisp, prompt for NEW-NAME if only OLD-NAME was passed as an argument. If called with two strings, then no prompting is done. You must pass at least OLD-NAME when calling from Lisp. While you are entering the new name, consecutive C-w's insert consecutive words from the text of the buffer into the new bookmark name. \(fn OLD-NAME &optional NEW-NAME)" t nil) (autoload 'bookmark-insert "bookmark" "\ Insert the text of the file pointed to by bookmark BOOKMARK-NAME. BOOKMARK-NAME is a bookmark name (a string), not a bookmark record. You may have a problem using this function if the value of variable `bookmark-alist' is nil. If that happens, you need to load in some bookmarks. See help on function `bookmark-load' for more about this. \(fn BOOKMARK-NAME)" t nil) (autoload 'bookmark-delete "bookmark" "\ Delete BOOKMARK-NAME from the bookmark list. Removes only the first instance of a bookmark with that name. If there are one or more other bookmarks with the same name, they will not be deleted. Defaults to the \"current\" bookmark (that is, the one most recently used in this file, if any). Optional second arg BATCH means don't update the bookmark list buffer, probably because we were called from there. \(fn BOOKMARK-NAME &optional BATCH)" t nil) (autoload 'bookmark-write "bookmark" "\ Write bookmarks to a file (reading the file name with the minibuffer). \(fn)" t nil) (function-put 'bookmark-write 'interactive-only 'bookmark-save) (autoload 'bookmark-save "bookmark" "\ Save currently defined bookmarks. Saves by default in the file defined by the variable `bookmark-default-file'. With a prefix arg, save it in file FILE \(second argument). If you are calling this from Lisp, the two arguments are PARG and FILE, and if you just want it to write to the default file, then pass no arguments. Or pass in nil and FILE, and it will save in FILE instead. If you pass in one argument, and it is non-nil, then the user will be interactively queried for a file to save in. When you want to load in the bookmarks from a file, use `bookmark-load', \\[bookmark-load]. That function will prompt you for a file, defaulting to the file defined by variable `bookmark-default-file'. \(fn &optional PARG FILE)" t nil) (autoload 'bookmark-load "bookmark" "\ Load bookmarks from FILE (which must be in bookmark format). Appends loaded bookmarks to the front of the list of bookmarks. If optional second argument OVERWRITE is non-nil, existing bookmarks are destroyed. Optional third arg NO-MSG means don't display any messages while loading. If you load a file that doesn't contain a proper bookmark alist, you will corrupt Emacs's bookmark list. Generally, you should only load in files that were created with the bookmark functions in the first place. Your own personal bookmark file, specified by the variable `bookmark-default-file', is maintained automatically by Emacs; you shouldn't need to load it explicitly. If you load a file containing bookmarks with the same names as bookmarks already present in your Emacs, the new bookmarks will get unique numeric suffixes \"<2>\", \"<3>\", etc. \(fn FILE &optional OVERWRITE NO-MSG)" t nil) (autoload 'bookmark-bmenu-list "bookmark" "\ Display a list of existing bookmarks. The list is displayed in a buffer named `*Bookmark List*'. The leftmost column displays a D if the bookmark is flagged for deletion, or > if it is flagged for displaying. \(fn)" t nil) (defalias 'list-bookmarks 'bookmark-bmenu-list) (defalias 'edit-bookmarks 'bookmark-bmenu-list) (autoload 'bookmark-bmenu-search "bookmark" "\ Incremental search of bookmarks, hiding the non-matches as we go. \(fn)" t nil) (defvar menu-bar-bookmark-map (let ((map (make-sparse-keymap "Bookmark functions"))) (bindings--define-key map [load] '(menu-item "Load a Bookmark File..." bookmark-load :help "Load bookmarks from a bookmark file)")) (bindings--define-key map [write] '(menu-item "Save Bookmarks As..." bookmark-write :help "Write bookmarks to a file (reading the file name with the minibuffer)")) (bindings--define-key map [save] '(menu-item "Save Bookmarks" bookmark-save :help "Save currently defined bookmarks")) (bindings--define-key map [edit] '(menu-item "Edit Bookmark List" bookmark-bmenu-list :help "Display a list of existing bookmarks")) (bindings--define-key map [delete] '(menu-item "Delete Bookmark..." bookmark-delete :help "Delete a bookmark from the bookmark list")) (bindings--define-key map [rename] '(menu-item "Rename Bookmark..." bookmark-rename :help "Change the name of a bookmark")) (bindings--define-key map [locate] '(menu-item "Insert Location..." bookmark-locate :help "Insert the name of the file associated with a bookmark")) (bindings--define-key map [insert] '(menu-item "Insert Contents..." bookmark-insert :help "Insert the text of the file pointed to by a bookmark")) (bindings--define-key map [set] '(menu-item "Set Bookmark..." bookmark-set :help "Set a bookmark named inside a file.")) (bindings--define-key map [jump] '(menu-item "Jump to Bookmark..." bookmark-jump :help "Jump to a bookmark (a point in some file)")) map)) (defalias 'menu-bar-bookmark-map menu-bar-bookmark-map) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "bookmark" '("bookmark" "with-buffer-modified-unmodified"))) ;;;*** ;;;### (autoloads nil "browse-url" "net/browse-url.el" (0 0 0 0)) ;;; Generated autoloads from net/browse-url.el (defvar browse-url-browser-function 'browse-url-default-browser "\ Function to display the current buffer in a WWW browser. This is used by the `browse-url-at-point', `browse-url-at-mouse', and `browse-url-of-file' commands. If the value is not a function it should be a list of pairs \(REGEXP . FUNCTION). In this case the function called will be the one associated with the first REGEXP which matches the current URL. The function is passed the URL and any other args of `browse-url'. The last regexp should probably be \".\" to specify a default browser.") (custom-autoload 'browse-url-browser-function "browse-url" t) (autoload 'browse-url-of-file "browse-url" "\ Ask a WWW browser to display FILE. Display the current buffer's file if FILE is nil or if called interactively. Turn the filename into a URL with function `browse-url-file-url'. Pass the URL to a browser using the `browse-url' function then run `browse-url-of-file-hook'. \(fn &optional FILE)" t nil) (autoload 'browse-url-of-buffer "browse-url" "\ Ask a WWW browser to display BUFFER. Display the current buffer if BUFFER is nil. Display only the currently visible part of BUFFER (from a temporary file) if buffer is narrowed. \(fn &optional BUFFER)" t nil) (autoload 'browse-url-of-dired-file "browse-url" "\ In Dired, ask a WWW browser to display the file named on this line. \(fn)" t nil) (autoload 'browse-url-of-region "browse-url" "\ Ask a WWW browser to display the current region. \(fn MIN MAX)" t nil) (autoload 'browse-url "browse-url" "\ Ask a WWW browser to load URL. Prompt for a URL, defaulting to the URL at or before point. Invokes a suitable browser function which does the actual job. The variable `browse-url-browser-function' says which browser function to use. If the URL is a mailto: URL, consult `browse-url-mailto-function' first, if that exists. The additional ARGS are passed to the browser function. See the doc strings of the actual functions, starting with `browse-url-browser-function', for information about the significance of ARGS (most of the functions ignore it). If ARGS are omitted, the default is to pass `browse-url-new-window-flag' as ARGS. \(fn URL &rest ARGS)" t nil) (autoload 'browse-url-at-point "browse-url" "\ Ask a WWW browser to load the URL at or before point. Variable `browse-url-browser-function' says which browser to use. Optional prefix argument ARG non-nil inverts the value of the option `browse-url-new-window-flag'. \(fn &optional ARG)" t nil) (autoload 'browse-url-at-mouse "browse-url" "\ Ask a WWW browser to load a URL clicked with the mouse. The URL is the one around or before the position of the mouse click but point is not changed. Variable `browse-url-browser-function' says which browser to use. \(fn EVENT)" t nil) (autoload 'browse-url-xdg-open "browse-url" "\ Pass the specified URL to the \"xdg-open\" command. xdg-open is a desktop utility that calls your preferred web browser. The optional argument IGNORED is not used. \(fn URL &optional IGNORED)" t nil) (autoload 'browse-url-netscape "browse-url" "\ Ask the Netscape WWW browser to load URL. Default to the URL around or before point. The strings in variable `browse-url-netscape-arguments' are also passed to Netscape. When called interactively, if variable `browse-url-new-window-flag' is non-nil, load the document in a new Netscape window, otherwise use a random existing one. A non-nil interactive prefix argument reverses the effect of `browse-url-new-window-flag'. If `browse-url-netscape-new-window-is-tab' is non-nil, then whenever a document would otherwise be loaded in a new window, it is loaded in a new tab in an existing window instead. When called non-interactively, optional second argument NEW-WINDOW is used instead of `browse-url-new-window-flag'. \(fn URL &optional NEW-WINDOW)" t nil) (make-obsolete 'browse-url-netscape 'nil '"25.1") (autoload 'browse-url-mozilla "browse-url" "\ Ask the Mozilla WWW browser to load URL. Default to the URL around or before point. The strings in variable `browse-url-mozilla-arguments' are also passed to Mozilla. When called interactively, if variable `browse-url-new-window-flag' is non-nil, load the document in a new Mozilla window, otherwise use a random existing one. A non-nil interactive prefix argument reverses the effect of `browse-url-new-window-flag'. If `browse-url-mozilla-new-window-is-tab' is non-nil, then whenever a document would otherwise be loaded in a new window, it is loaded in a new tab in an existing window instead. When called non-interactively, optional second argument NEW-WINDOW is used instead of `browse-url-new-window-flag'. \(fn URL &optional NEW-WINDOW)" t nil) (autoload 'browse-url-firefox "browse-url" "\ Ask the Firefox WWW browser to load URL. Defaults to the URL around or before point. Passes the strings in the variable `browse-url-firefox-arguments' to Firefox. Interactively, if the variable `browse-url-new-window-flag' is non-nil, loads the document in a new Firefox window. A non-nil prefix argument reverses the effect of `browse-url-new-window-flag'. If `browse-url-firefox-new-window-is-tab' is non-nil, then whenever a document would otherwise be loaded in a new window, it is loaded in a new tab in an existing window instead. Non-interactively, this uses the optional second argument NEW-WINDOW instead of `browse-url-new-window-flag'. \(fn URL &optional NEW-WINDOW)" t nil) (autoload 'browse-url-chromium "browse-url" "\ Ask the Chromium WWW browser to load URL. Default to the URL around or before point. The strings in variable `browse-url-chromium-arguments' are also passed to Chromium. The optional argument NEW-WINDOW is not used. \(fn URL &optional NEW-WINDOW)" t nil) (autoload 'browse-url-galeon "browse-url" "\ Ask the Galeon WWW browser to load URL. Default to the URL around or before point. The strings in variable `browse-url-galeon-arguments' are also passed to Galeon. When called interactively, if variable `browse-url-new-window-flag' is non-nil, load the document in a new Galeon window, otherwise use a random existing one. A non-nil interactive prefix argument reverses the effect of `browse-url-new-window-flag'. If `browse-url-galeon-new-window-is-tab' is non-nil, then whenever a document would otherwise be loaded in a new window, it is loaded in a new tab in an existing window instead. When called non-interactively, optional second argument NEW-WINDOW is used instead of `browse-url-new-window-flag'. \(fn URL &optional NEW-WINDOW)" t nil) (make-obsolete 'browse-url-galeon 'nil '"25.1") (autoload 'browse-url-emacs "browse-url" "\ Ask Emacs to load URL into a buffer and show it in another window. \(fn URL &optional NEW-WINDOW)" t nil) (autoload 'browse-url-gnome-moz "browse-url" "\ Ask Mozilla/Netscape to load URL via the GNOME program `gnome-moz-remote'. Default to the URL around or before point. The strings in variable `browse-url-gnome-moz-arguments' are also passed. When called interactively, if variable `browse-url-new-window-flag' is non-nil, load the document in a new browser window, otherwise use an existing one. A non-nil interactive prefix argument reverses the effect of `browse-url-new-window-flag'. When called non-interactively, optional second argument NEW-WINDOW is used instead of `browse-url-new-window-flag'. \(fn URL &optional NEW-WINDOW)" t nil) (make-obsolete 'browse-url-gnome-moz 'nil '"25.1") (autoload 'browse-url-mosaic "browse-url" "\ Ask the XMosaic WWW browser to load URL. Default to the URL around or before point. The strings in variable `browse-url-mosaic-arguments' are also passed to Mosaic and the program is invoked according to the variable `browse-url-mosaic-program'. When called interactively, if variable `browse-url-new-window-flag' is non-nil, load the document in a new Mosaic window, otherwise use a random existing one. A non-nil interactive prefix argument reverses the effect of `browse-url-new-window-flag'. When called non-interactively, optional second argument NEW-WINDOW is used instead of `browse-url-new-window-flag'. \(fn URL &optional NEW-WINDOW)" t nil) (make-obsolete 'browse-url-mosaic 'nil '"25.1") (autoload 'browse-url-cci "browse-url" "\ Ask the XMosaic WWW browser to load URL. Default to the URL around or before point. This function only works for XMosaic version 2.5 or later. You must select `CCI' from XMosaic's File menu, set the CCI Port Address to the value of variable `browse-url-CCI-port', and enable `Accept requests'. When called interactively, if variable `browse-url-new-window-flag' is non-nil, load the document in a new browser window, otherwise use a random existing one. A non-nil interactive prefix argument reverses the effect of `browse-url-new-window-flag'. When called non-interactively, optional second argument NEW-WINDOW is used instead of `browse-url-new-window-flag'. \(fn URL &optional NEW-WINDOW)" t nil) (make-obsolete 'browse-url-cci 'nil '"25.1") (autoload 'browse-url-conkeror "browse-url" "\ Ask the Conkeror WWW browser to load URL. Default to the URL around or before point. Also pass the strings in the variable `browse-url-conkeror-arguments' to Conkeror. When called interactively, if variable `browse-url-new-window-flag' is non-nil, load the document in a new Conkeror window, otherwise use a random existing one. A non-nil interactive prefix argument reverses the effect of `browse-url-new-window-flag'. If variable `browse-url-conkeror-new-window-is-buffer' is non-nil, then whenever a document would otherwise be loaded in a new window, load it in a new buffer in an existing window instead. When called non-interactively, use optional second argument NEW-WINDOW instead of `browse-url-new-window-flag'. \(fn URL &optional NEW-WINDOW)" t nil) (autoload 'browse-url-w3 "browse-url" "\ Ask the w3 WWW browser to load URL. Default to the URL around or before point. When called interactively, if variable `browse-url-new-window-flag' is non-nil, load the document in a new window. A non-nil interactive prefix argument reverses the effect of `browse-url-new-window-flag'. When called non-interactively, optional second argument NEW-WINDOW is used instead of `browse-url-new-window-flag'. \(fn URL &optional NEW-WINDOW)" t nil) (autoload 'browse-url-w3-gnudoit "browse-url" "\ Ask another Emacs running gnuserv to load the URL using the W3 browser. The `browse-url-gnudoit-program' program is used with options given by `browse-url-gnudoit-args'. Default to the URL around or before point. \(fn URL &optional NEW-WINDOW)" t nil) (make-obsolete 'browse-url-w3-gnudoit 'nil '"25.1") (autoload 'browse-url-text-xterm "browse-url" "\ Ask a text browser to load URL. URL defaults to the URL around or before point. This runs the text browser specified by `browse-url-text-browser'. in an Xterm window using the Xterm program named by `browse-url-xterm-program' with possible additional arguments `browse-url-xterm-args'. The optional argument NEW-WINDOW is not used. \(fn URL &optional NEW-WINDOW)" t nil) (autoload 'browse-url-text-emacs "browse-url" "\ Ask a text browser to load URL. URL defaults to the URL around or before point. This runs the text browser specified by `browse-url-text-browser'. With a prefix argument, it runs a new browser process in a new buffer. When called interactively, if variable `browse-url-new-window-flag' is non-nil, load the document in a new browser process in a new term window, otherwise use any existing one. A non-nil interactive prefix argument reverses the effect of `browse-url-new-window-flag'. When called non-interactively, optional second argument NEW-WINDOW is used instead of `browse-url-new-window-flag'. \(fn URL &optional NEW-BUFFER)" t nil) (autoload 'browse-url-mail "browse-url" "\ Open a new mail message buffer within Emacs for the RFC 2368 URL. Default to using the mailto: URL around or before point as the recipient's address. Supplying a non-nil interactive prefix argument will cause the mail to be composed in another window rather than the current one. When called interactively, if variable `browse-url-new-window-flag' is non-nil use `compose-mail-other-window', otherwise `compose-mail'. A non-nil interactive prefix argument reverses the effect of `browse-url-new-window-flag'. When called non-interactively, optional second argument NEW-WINDOW is used instead of `browse-url-new-window-flag'. \(fn URL &optional NEW-WINDOW)" t nil) (autoload 'browse-url-generic "browse-url" "\ Ask the WWW browser defined by `browse-url-generic-program' to load URL. Default to the URL around or before point. A fresh copy of the browser is started up in a new process with possible additional arguments `browse-url-generic-args'. This is appropriate for browsers which don't offer a form of remote control. \(fn URL &optional NEW-WINDOW)" t nil) (autoload 'browse-url-kde "browse-url" "\ Ask the KDE WWW browser to load URL. Default to the URL around or before point. The optional argument NEW-WINDOW is not used. \(fn URL &optional NEW-WINDOW)" t nil) (autoload 'browse-url-elinks "browse-url" "\ Ask the Elinks WWW browser to load URL. Default to the URL around the point. The document is loaded in a new tab of a running Elinks or, if none yet running, a newly started instance. The Elinks command will be prepended by the program+arguments from `browse-url-elinks-wrapper'. \(fn URL &optional NEW-WINDOW)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "browse-url" '("browse-url-"))) ;;;*** ;;;### (autoloads nil "bs" "bs.el" (0 0 0 0)) ;;; Generated autoloads from bs.el (push (purecopy '(bs 1 17)) package--builtin-versions) (autoload 'bs-cycle-next "bs" "\ Select next buffer defined by buffer cycling. The buffers taking part in buffer cycling are defined by buffer configuration `bs-cycle-configuration-name'. \(fn)" t nil) (autoload 'bs-cycle-previous "bs" "\ Select previous buffer defined by buffer cycling. The buffers taking part in buffer cycling are defined by buffer configuration `bs-cycle-configuration-name'. \(fn)" t nil) (autoload 'bs-customize "bs" "\ Customization of group bs for Buffer Selection Menu. \(fn)" t nil) (autoload 'bs-show "bs" "\ Make a menu of buffers so you can manipulate buffers or the buffer list. \\ There are many key commands similar to `Buffer-menu-mode' for manipulating the buffer list and the buffers themselves. User can move with [up] or [down], select a buffer by \\[bs-select] or [SPC] Type \\[bs-kill] to leave Buffer Selection Menu without a selection. Type \\[bs-help] after invocation to get help on commands available. With prefix argument ARG show a different buffer list. Function `bs--configuration-name-for-prefix-arg' determine accordingly name of buffer configuration. \(fn ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "bs" '("bs-"))) ;;;*** ;;;### (autoloads nil "bubbles" "play/bubbles.el" (0 0 0 0)) ;;; Generated autoloads from play/bubbles.el (autoload 'bubbles "bubbles" "\ Play Bubbles game. \\ The goal is to remove all bubbles with as few moves as possible. \\[bubbles-plop] on a bubble removes that bubble and all connected bubbles of the same color. Unsupported bubbles fall down, and columns that do not contain any bubbles suck the columns on its right towards the left. \\[bubbles-set-game-easy] sets the difficulty to easy. \\[bubbles-set-game-medium] sets the difficulty to medium. \\[bubbles-set-game-difficult] sets the difficulty to difficult. \\[bubbles-set-game-hard] sets the difficulty to hard. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "bubbles" '("bubbles-"))) ;;;*** ;;;### (autoloads nil "bug-reference" "progmodes/bug-reference.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from progmodes/bug-reference.el (put 'bug-reference-url-format 'safe-local-variable (lambda (s) (or (stringp s) (and (symbolp s) (get s 'bug-reference-url-format))))) (put 'bug-reference-bug-regexp 'safe-local-variable 'stringp) (autoload 'bug-reference-mode "bug-reference" "\ Toggle hyperlinking bug references in the buffer (Bug Reference mode). With a prefix argument ARG, enable Bug Reference mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. \(fn &optional ARG)" t nil) (autoload 'bug-reference-prog-mode "bug-reference" "\ Like `bug-reference-mode', but only buttonize in comments and strings. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "bug-reference" '("bug-reference-"))) ;;;*** ;;;### (autoloads nil "byte-opt" "emacs-lisp/byte-opt.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from emacs-lisp/byte-opt.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "byte-opt" '("byte-" "disassemble-offset"))) ;;;*** ;;;### (autoloads nil "bytecomp" "emacs-lisp/bytecomp.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from emacs-lisp/bytecomp.el (put 'byte-compile-dynamic 'safe-local-variable 'booleanp) (put 'byte-compile-disable-print-circle 'safe-local-variable 'booleanp) (put 'byte-compile-dynamic-docstrings 'safe-local-variable 'booleanp) (put 'byte-compile-warnings 'safe-local-variable (lambda (v) (or (symbolp v) (null (delq nil (mapcar (lambda (x) (not (symbolp x))) v)))))) (autoload 'byte-compile-disable-warning "bytecomp" "\ Change `byte-compile-warnings' to disable WARNING. If `byte-compile-warnings' is t, set it to `(not WARNING)'. Otherwise, if the first element is `not', add WARNING, else remove it. Normally you should let-bind `byte-compile-warnings' before calling this, else the global value will be modified. \(fn WARNING)" nil nil) (autoload 'byte-compile-enable-warning "bytecomp" "\ Change `byte-compile-warnings' to enable WARNING. If `byte-compile-warnings' is t, do nothing. Otherwise, if the first element is `not', remove WARNING, else add it. Normally you should let-bind `byte-compile-warnings' before calling this, else the global value will be modified. \(fn WARNING)" nil nil) (autoload 'byte-force-recompile "bytecomp" "\ Recompile every `.el' file in DIRECTORY that already has a `.elc' file. Files in subdirectories of DIRECTORY are processed also. \(fn DIRECTORY)" t nil) (autoload 'byte-recompile-directory "bytecomp" "\ Recompile every `.el' file in DIRECTORY that needs recompilation. This happens when a `.elc' file exists but is older than the `.el' file. Files in subdirectories of DIRECTORY are processed also. If the `.elc' file does not exist, normally this function *does not* compile the corresponding `.el' file. However, if the prefix argument ARG is 0, that means do compile all those files. A nonzero ARG means ask the user, for each such `.el' file, whether to compile it. A nonzero ARG also means ask about each subdirectory before scanning it. If the third argument FORCE is non-nil, recompile every `.el' file that already has a `.elc' file. \(fn DIRECTORY &optional ARG FORCE)" t nil) (put 'no-byte-compile 'safe-local-variable 'booleanp) (autoload 'byte-compile-file "bytecomp" "\ Compile a file of Lisp code named FILENAME into a file of byte code. The output file's name is generated by passing FILENAME to the function `byte-compile-dest-file' (which see). With prefix arg (noninteractively: 2nd arg), LOAD the file after compiling. The value is non-nil if there were no errors, nil if errors. \(fn FILENAME &optional LOAD)" t nil) (autoload 'compile-defun "bytecomp" "\ Compile and evaluate the current top-level form. Print the result in the echo area. With argument ARG, insert value in current buffer after the form. \(fn &optional ARG)" t nil) (autoload 'byte-compile "bytecomp" "\ If FORM is a symbol, byte-compile its function definition. If FORM is a lambda or a macro, byte-compile it as a function. \(fn FORM)" nil nil) (autoload 'display-call-tree "bytecomp" "\ Display a call graph of a specified file. This lists which functions have been called, what functions called them, and what functions they call. The list includes all functions whose definitions have been compiled in this Emacs session, as well as all functions called by those functions. The call graph does not include macros, inline functions, or primitives that the byte-code interpreter knows about directly \(`eq', `cons', etc.). The call tree also lists those functions which are not known to be called \(that is, to which no calls have been compiled), and which cannot be invoked interactively. \(fn &optional FILENAME)" t nil) (autoload 'batch-byte-compile-if-not-done "bytecomp" "\ Like `byte-compile-file' but doesn't recompile if already up to date. Use this from the command line, with `-batch'; it won't work in an interactive Emacs. \(fn)" nil nil) (autoload 'batch-byte-compile "bytecomp" "\ Run `byte-compile-file' on the files remaining on the command line. Use this from the command line, with `-batch'; it won't work in an interactive Emacs. Each file is processed even if an error occurred previously. For example, invoke \"emacs -batch -f batch-byte-compile $emacs/ ~/*.el\". If NOFORCE is non-nil, don't recompile a file that seems to be already up-to-date. \(fn &optional NOFORCE)" nil nil) (autoload 'batch-byte-recompile-directory "bytecomp" "\ Run `byte-recompile-directory' on the dirs remaining on the command line. Must be used only with `-batch', and kills Emacs on completion. For example, invoke `emacs -batch -f batch-byte-recompile-directory .'. Optional argument ARG is passed as second argument ARG to `byte-recompile-directory'; see there for its possible values and corresponding effects. \(fn &optional ARG)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "bytecomp" '("batch-byte-compile-file" "byte-" "no-byte-compile" "displaying-byte-compile-warnings" "emacs-lisp-file-regexp"))) ;;;*** ;;;### (autoloads nil "cal-bahai" "calendar/cal-bahai.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from calendar/cal-bahai.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-bahai" '("diary-bahai-" "calendar-bahai-" "holiday-bahai"))) ;;;*** ;;;### (autoloads nil "cal-china" "calendar/cal-china.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from calendar/cal-china.el (put 'calendar-chinese-time-zone 'risky-local-variable t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-china" '("diary-chinese-" "calendar-chinese-" "holiday-chinese"))) ;;;*** ;;;### (autoloads nil "cal-coptic" "calendar/cal-coptic.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from calendar/cal-coptic.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-coptic" '("diary-" "calendar-"))) ;;;*** ;;;### (autoloads nil "cal-dst" "calendar/cal-dst.el" (0 0 0 0)) ;;; Generated autoloads from calendar/cal-dst.el (put 'calendar-daylight-savings-starts 'risky-local-variable t) (put 'calendar-daylight-savings-ends 'risky-local-variable t) (put 'calendar-current-time-zone-cache 'risky-local-variable t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-dst" '("dst-" "calendar-"))) ;;;*** ;;;### (autoloads nil "cal-french" "calendar/cal-french.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from calendar/cal-french.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-french" '("diary-french-date" "calendar-french-"))) ;;;*** ;;;### (autoloads nil "cal-hebrew" "calendar/cal-hebrew.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from calendar/cal-hebrew.el (autoload 'calendar-hebrew-list-yahrzeits "cal-hebrew" "\ List Yahrzeit dates for *Gregorian* DEATH-DATE from START-YEAR to END-YEAR. When called interactively from the calendar window, the date of death is taken from the cursor position. \(fn DEATH-DATE START-YEAR END-YEAR)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-hebrew" '("diary-hebrew-" "calendar-hebrew-" "holiday-hebrew"))) ;;;*** ;;;### (autoloads nil "cal-html" "calendar/cal-html.el" (0 0 0 0)) ;;; Generated autoloads from calendar/cal-html.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-html" '("cal-html-"))) ;;;*** ;;;### (autoloads nil "cal-islam" "calendar/cal-islam.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from calendar/cal-islam.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-islam" '("diary-islamic-" "calendar-islamic-" "holiday-islamic"))) ;;;*** ;;;### (autoloads nil "cal-iso" "calendar/cal-iso.el" (0 0 0 0)) ;;; Generated autoloads from calendar/cal-iso.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-iso" '("diary-iso-date" "calendar-iso-"))) ;;;*** ;;;### (autoloads nil "cal-julian" "calendar/cal-julian.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from calendar/cal-julian.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-julian" '("diary-" "calendar-" "holiday-julian"))) ;;;*** ;;;### (autoloads nil "cal-mayan" "calendar/cal-mayan.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from calendar/cal-mayan.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-mayan" '("diary-mayan-date" "calendar-mayan-"))) ;;;*** ;;;### (autoloads nil "cal-menu" "calendar/cal-menu.el" (0 0 0 0)) ;;; Generated autoloads from calendar/cal-menu.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-menu" '("cal"))) ;;;*** ;;;### (autoloads nil "cal-move" "calendar/cal-move.el" (0 0 0 0)) ;;; Generated autoloads from calendar/cal-move.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-move" '("calendar-"))) ;;;*** ;;;### (autoloads nil "cal-persia" "calendar/cal-persia.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from calendar/cal-persia.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-persia" '("diary-persian-date" "calendar-persian-"))) ;;;*** ;;;### (autoloads nil "cal-tex" "calendar/cal-tex.el" (0 0 0 0)) ;;; Generated autoloads from calendar/cal-tex.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-tex" '("cal-tex-"))) ;;;*** ;;;### (autoloads nil "cal-x" "calendar/cal-x.el" (0 0 0 0)) ;;; Generated autoloads from calendar/cal-x.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cal-x" '("calendar-" "diary-frame"))) ;;;*** ;;;### (autoloads nil "calc" "calc/calc.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc.el (define-key ctl-x-map "*" 'calc-dispatch) (autoload 'calc-dispatch "calc" "\ Invoke the GNU Emacs Calculator. See \\[calc-dispatch-help] for details. \(fn &optional ARG)" t nil) (autoload 'calc "calc" "\ The Emacs Calculator. Full documentation is listed under \"calc-mode\". \(fn &optional ARG FULL-DISPLAY INTERACTIVE)" t nil) (autoload 'full-calc "calc" "\ Invoke the Calculator and give it a full-sized window. \(fn &optional INTERACTIVE)" t nil) (autoload 'quick-calc "calc" "\ Do a quick calculation in the minibuffer without invoking full Calculator. With prefix argument INSERT, insert the result in the current buffer. Otherwise, the result is copied into the kill ring. \(fn &optional INSERT)" t nil) (autoload 'calc-eval "calc" "\ Do a quick calculation and return the result as a string. Return value will either be the formatted result in string form, or a list containing a character position and an error message in string form. \(fn STR &optional SEPARATOR &rest ARGS)" nil nil) (autoload 'calc-keypad "calc" "\ Invoke the Calculator in \"visual keypad\" mode. This is most useful in the X window system. In this mode, click on the Calc \"buttons\" using the left mouse button. Or, position the cursor manually and do M-x calc-keypad-press. \(fn &optional INTERACTIVE)" t nil) (autoload 'full-calc-keypad "calc" "\ Invoke the Calculator in full-screen \"visual keypad\" mode. See calc-keypad for details. \(fn &optional INTERACTIVE)" t nil) (autoload 'calc-grab-region "calc" "\ Parse the region as a vector of numbers and push it on the Calculator stack. \(fn TOP BOT ARG)" t nil) (autoload 'calc-grab-rectangle "calc" "\ Parse a rectangle as a matrix of numbers and push it on the Calculator stack. \(fn TOP BOT ARG)" t nil) (autoload 'calc-embedded "calc" "\ Start Calc Embedded mode on the formula surrounding point. \(fn ARG &optional END OBEG OEND)" t nil) (autoload 'calc-embedded-activate "calc" "\ Scan the current editing buffer for all embedded := and => formulas. Also looks for the equivalent TeX words, \\gets and \\evalto. \(fn &optional ARG CBUF)" t nil) (autoload 'defmath "calc" "\ Define Calc function. Like `defun' except that code in the body of the definition can make use of the full range of Calc data types and the usual arithmetic operations are converted to their Calc equivalents. The prefix `calcFunc-' is added to the specified name to get the actual Lisp function name. See Info node `(calc)Defining Functions'. \(fn FUNC ARGS &rest BODY)" nil t) (function-put 'defmath 'doc-string-elt '3) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc" '("math-" "calc" "var-" "inexact-result" "defcalcmodevar"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "calc-aent" "calc/calc-aent.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from calc/calc-aent.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-aent" '("math-" "calc"))) ;;;*** ;;;### (autoloads nil "calc-alg" "calc/calc-alg.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-alg.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-alg" '("math-" "calc"))) ;;;*** ;;;### (autoloads nil "calc-arith" "calc/calc-arith.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-arith.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-arith" '("math-" "calc"))) ;;;*** ;;;### (autoloads nil "calc-bin" "calc/calc-bin.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-bin.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-bin" '("math-" "calc"))) ;;;*** ;;;### (autoloads nil "calc-comb" "calc/calc-comb.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-comb.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-comb" '("math-" "calc"))) ;;;*** ;;;### (autoloads nil "calc-cplx" "calc/calc-cplx.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-cplx.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-cplx" '("calc" "math-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "calc-embed" "calc/calc-embed.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from calc/calc-embed.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-embed" '("calc-"))) ;;;*** ;;;### (autoloads nil "calc-ext" "calc/calc-ext.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-ext.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-ext" '("calc" "math-" "var-"))) ;;;*** ;;;### (autoloads nil "calc-fin" "calc/calc-fin.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-fin.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-fin" '("calc" "math-c"))) ;;;*** ;;;### (autoloads nil "calc-forms" "calc/calc-forms.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-forms.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-forms" '("math-" "calc" "var-TimeZone"))) ;;;*** ;;;### (autoloads nil "calc-frac" "calc/calc-frac.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-frac.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-frac" '("calc" "math-"))) ;;;*** ;;;### (autoloads nil "calc-funcs" "calc/calc-funcs.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-funcs.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-funcs" '("calc" "math-"))) ;;;*** ;;;### (autoloads nil "calc-graph" "calc/calc-graph.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-graph.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-graph" '("calc-"))) ;;;*** ;;;### (autoloads nil "calc-help" "calc/calc-help.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-help.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-help" '("calc-"))) ;;;*** ;;;### (autoloads nil "calc-incom" "calc/calc-incom.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-incom.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-incom" '("calc-"))) ;;;*** ;;;### (autoloads nil "calc-keypd" "calc/calc-keypd.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-keypd.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-keypd" '("calc-"))) ;;;*** ;;;### (autoloads nil "calc-lang" "calc/calc-lang.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-lang.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-lang" '("math-" "calc-"))) ;;;*** ;;;### (autoloads nil "calc-macs" "calc/calc-macs.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-macs.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-macs" '("Math-" "calc-" "math-"))) ;;;*** ;;;### (autoloads nil "calc-map" "calc/calc-map.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-map.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-map" '("math-" "calc"))) ;;;*** ;;;### (autoloads nil "calc-math" "calc/calc-math.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-math.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-math" '("calc" "math-"))) ;;;*** ;;;### (autoloads nil "calc-menu" "calc/calc-menu.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-menu.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-menu" '("calc-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "calc-misc" "calc/calc-misc.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from calc/calc-misc.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-misc" '("math-iipow"))) ;;;*** ;;;### (autoloads nil "calc-mode" "calc/calc-mode.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-mode.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-mode" '("calc-" "math-get-modes-vec"))) ;;;*** ;;;### (autoloads nil "calc-mtx" "calc/calc-mtx.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-mtx.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-mtx" '("calc" "math-"))) ;;;*** ;;;### (autoloads nil "calc-nlfit" "calc/calc-nlfit.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-nlfit.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-nlfit" '("calc-fit-" "math-nlfit-"))) ;;;*** ;;;### (autoloads nil "calc-poly" "calc/calc-poly.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-poly.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-poly" '("calcFunc-" "math-"))) ;;;*** ;;;### (autoloads nil "calc-prog" "calc/calc-prog.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-prog.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-prog" '("math-" "calc" "var-q"))) ;;;*** ;;;### (autoloads nil "calc-rewr" "calc/calc-rewr.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-rewr.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-rewr" '("math-" "calc"))) ;;;*** ;;;### (autoloads nil "calc-rules" "calc/calc-rules.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-rules.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-rules" '("calc-"))) ;;;*** ;;;### (autoloads nil "calc-sel" "calc/calc-sel.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-sel.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-sel" '("calc-"))) ;;;*** ;;;### (autoloads nil "calc-stat" "calc/calc-stat.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-stat.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-stat" '("math-" "calc"))) ;;;*** ;;;### (autoloads nil "calc-store" "calc/calc-store.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-store.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-store" '("calc"))) ;;;*** ;;;### (autoloads nil "calc-stuff" "calc/calc-stuff.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-stuff.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-stuff" '("math-" "calc"))) ;;;*** ;;;### (autoloads nil "calc-trail" "calc/calc-trail.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-trail.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-trail" '("calc-trail-"))) ;;;*** ;;;### (autoloads nil "calc-undo" "calc/calc-undo.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-undo.el (autoload 'calc-undo "calc-undo" "\ \(fn N)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-undo" '("calc-"))) ;;;*** ;;;### (autoloads nil "calc-units" "calc/calc-units.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-units.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-units" '("calc" "math-"))) ;;;*** ;;;### (autoloads nil "calc-vec" "calc/calc-vec.el" (0 0 0 0)) ;;; Generated autoloads from calc/calc-vec.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-vec" '("math-" "calc"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "calc-yank" "calc/calc-yank.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from calc/calc-yank.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calc-yank" '("calc-" "math-number-regexp"))) ;;;*** ;;;### (autoloads nil "calcalg2" "calc/calcalg2.el" (0 0 0 0)) ;;; Generated autoloads from calc/calcalg2.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calcalg2" '("calc" "math-" "var-IntegLimit"))) ;;;*** ;;;### (autoloads nil "calcalg3" "calc/calcalg3.el" (0 0 0 0)) ;;; Generated autoloads from calc/calcalg3.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calcalg3" '("math-" "calc"))) ;;;*** ;;;### (autoloads nil "calccomp" "calc/calccomp.el" (0 0 0 0)) ;;; Generated autoloads from calc/calccomp.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calccomp" '("math-" "calcFunc-c"))) ;;;*** ;;;### (autoloads nil "calcsel2" "calc/calcsel2.el" (0 0 0 0)) ;;; Generated autoloads from calc/calcsel2.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calcsel2" '("calc-"))) ;;;*** ;;;### (autoloads nil "calculator" "calculator.el" (0 0 0 0)) ;;; Generated autoloads from calculator.el (autoload 'calculator "calculator" "\ Run the Emacs calculator. See the documentation for `calculator-mode' for more information. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calculator" '("calculator-"))) ;;;*** ;;;### (autoloads nil "calendar" "calendar/calendar.el" (0 0 0 0)) ;;; Generated autoloads from calendar/calendar.el (autoload 'calendar "calendar" "\ Display a three-month Gregorian calendar. The three months appear side by side, with the current month in the middle surrounded by the previous and next months. The cursor is put on today's date. If optional prefix argument ARG is non-nil, prompts for the central month and year. Once in the calendar window, future or past months can be moved into view. Arbitrary months can be displayed, or the calendar can be scrolled forward or backward. The cursor can be moved forward or backward by one day, one week, one month, or one year. All of these commands take prefix arguments which, when negative, cause movement in the opposite direction. For convenience, the digit keys and the minus sign are automatically prefixes. Use \\[describe-mode] for details of the key bindings in the calendar window. Displays the calendar in a separate window, or optionally in a separate frame, depending on the value of `calendar-setup'. If `calendar-view-diary-initially-flag' is non-nil, also displays the diary entries for the current date (or however many days `diary-number-of-entries' specifies). This variable can be overridden by `calendar-setup'. As well as being displayed, diary entries can also be marked on the calendar (see `calendar-mark-diary-entries-flag'). Runs the following hooks: `calendar-today-visible-hook', `calendar-today-invisible-hook' - after generating a calendar, if today's date is visible or not, respectively `calendar-initial-window-hook' - after first creating a calendar This function is suitable for execution in an init file. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "calendar" '("calendar-" "solar-sunrises-buffer" "lunar-phases-buffer" "diary-" "holiday-buffer"))) ;;;*** ;;;### (autoloads nil "canlock" "gnus/canlock.el" (0 0 0 0)) ;;; Generated autoloads from gnus/canlock.el (autoload 'canlock-insert-header "canlock" "\ Insert a Cancel-Key and/or a Cancel-Lock header if possible. \(fn &optional ID-FOR-KEY ID-FOR-LOCK PASSWORD)" nil nil) (autoload 'canlock-verify "canlock" "\ Verify Cancel-Lock or Cancel-Key in BUFFER. If BUFFER is nil, the current buffer is assumed. Signal an error if it fails. \(fn &optional BUFFER)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "canlock" '("canlock-"))) ;;;*** ;;;### (autoloads nil "cc-align" "progmodes/cc-align.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cc-align.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cc-align" '("c-"))) ;;;*** ;;;### (autoloads nil "cc-awk" "progmodes/cc-awk.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cc-awk.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cc-awk" '("c-awk-" "awk-"))) ;;;*** ;;;### (autoloads nil "cc-bytecomp" "progmodes/cc-bytecomp.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from progmodes/cc-bytecomp.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cc-bytecomp" '("cc-"))) ;;;*** ;;;### (autoloads nil "cc-cmds" "progmodes/cc-cmds.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cc-cmds.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cc-cmds" '("c-"))) ;;;*** ;;;### (autoloads nil "cc-defs" "progmodes/cc-defs.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cc-defs.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cc-defs" '("cc-bytecomp-compiling-or-loading" "c-"))) ;;;*** ;;;### (autoloads nil "cc-engine" "progmodes/cc-engine.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from progmodes/cc-engine.el (autoload 'c-guess-basic-syntax "cc-engine" "\ Return the syntactic context of the current line. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cc-engine" '("c-"))) ;;;*** ;;;### (autoloads nil "cc-fonts" "progmodes/cc-fonts.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cc-fonts.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cc-fonts" '("autodoc-" "java" "gtkdoc-font-lock-" "c++-font-lock-keywords" "c-" "pike-font-lock-keywords" "idl-font-lock-keywords" "objc-font-lock-keywords"))) ;;;*** ;;;### (autoloads nil "cc-guess" "progmodes/cc-guess.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cc-guess.el (defvar c-guess-guessed-offsets-alist nil "\ Currently guessed offsets-alist.") (defvar c-guess-guessed-basic-offset nil "\ Currently guessed basic-offset.") (autoload 'c-guess "cc-guess" "\ Guess the style in the region up to `c-guess-region-max', and install it. The style is given a name based on the file's absolute file name. If given a prefix argument (or if the optional argument ACCUMULATE is non-nil) then the previous guess is extended, otherwise a new guess is made from scratch. \(fn &optional ACCUMULATE)" t nil) (autoload 'c-guess-no-install "cc-guess" "\ Guess the style in the region up to `c-guess-region-max'; don't install it. If given a prefix argument (or if the optional argument ACCUMULATE is non-nil) then the previous guess is extended, otherwise a new guess is made from scratch. \(fn &optional ACCUMULATE)" t nil) (autoload 'c-guess-buffer "cc-guess" "\ Guess the style on the whole current buffer, and install it. The style is given a name based on the file's absolute file name. If given a prefix argument (or if the optional argument ACCUMULATE is non-nil) then the previous guess is extended, otherwise a new guess is made from scratch. \(fn &optional ACCUMULATE)" t nil) (autoload 'c-guess-buffer-no-install "cc-guess" "\ Guess the style on the whole current buffer; don't install it. If given a prefix argument (or if the optional argument ACCUMULATE is non-nil) then the previous guess is extended, otherwise a new guess is made from scratch. \(fn &optional ACCUMULATE)" t nil) (autoload 'c-guess-region "cc-guess" "\ Guess the style on the region and install it. The style is given a name based on the file's absolute file name. If given a prefix argument (or if the optional argument ACCUMULATE is non-nil) then the previous guess is extended, otherwise a new guess is made from scratch. \(fn START END &optional ACCUMULATE)" t nil) (autoload 'c-guess-region-no-install "cc-guess" "\ Guess the style on the region; don't install it. Every line of code in the region is examined and values for the following two variables are guessed: * `c-basic-offset', and * the indentation values of the various syntactic symbols in `c-offsets-alist'. The guessed values are put into `c-guess-guessed-basic-offset' and `c-guess-guessed-offsets-alist'. Frequencies of use are taken into account when guessing, so minor inconsistencies in the indentation style shouldn't produce wrong guesses. If given a prefix argument (or if the optional argument ACCUMULATE is non-nil) then the previous examination is extended, otherwise a new guess is made from scratch. Note that the larger the region to guess in, the slower the guessing. So you can limit the region with `c-guess-region-max'. \(fn START END &optional ACCUMULATE)" t nil) (autoload 'c-guess-install "cc-guess" "\ Install the latest guessed style into the current buffer. \(This guessed style is a combination of `c-guess-guessed-basic-offset', `c-guess-guessed-offsets-alist' and `c-offsets-alist'.) The style is entered into CC Mode's style system by `c-add-style'. Its name is either STYLE-NAME, or a name based on the absolute file name of the file if STYLE-NAME is nil. \(fn &optional STYLE-NAME)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cc-guess" '("c-guess-"))) ;;;*** ;;;### (autoloads nil "cc-langs" "progmodes/cc-langs.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cc-langs.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cc-langs" '("c-"))) ;;;*** ;;;### (autoloads nil "cc-menus" "progmodes/cc-menus.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cc-menus.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cc-menus" '("cc-imenu-"))) ;;;*** ;;;### (autoloads nil "cc-mode" "progmodes/cc-mode.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cc-mode.el (autoload 'c-initialize-cc-mode "cc-mode" "\ Initialize CC Mode for use in the current buffer. If the optional NEW-STYLE-INIT is nil or left out then all necessary initialization to run CC Mode for the C language is done. Otherwise only some basic setup is done, and a call to `c-init-language-vars' or `c-init-language-vars-for' is necessary too (which gives more control). See \"cc-mode.el\" for more info. \(fn &optional NEW-STYLE-INIT)" nil nil) (add-to-list 'auto-mode-alist '("\\.\\(cc\\|hh\\)\\'" . c++-mode)) (add-to-list 'auto-mode-alist '("\\.[ch]\\(pp\\|xx\\|\\+\\+\\)\\'" . c++-mode)) (add-to-list 'auto-mode-alist '("\\.\\(CC?\\|HH?\\)\\'" . c++-mode)) (add-to-list 'auto-mode-alist '("\\.c\\'" . c-mode)) (add-to-list 'auto-mode-alist '("\\.h\\'" . c-or-c++-mode)) (add-to-list 'auto-mode-alist '("\\.y\\(acc\\)?\\'" . c-mode)) (add-to-list 'auto-mode-alist '("\\.lex\\'" . c-mode)) (add-to-list 'auto-mode-alist '("\\.i\\'" . c-mode)) (add-to-list 'auto-mode-alist '("\\.ii\\'" . c++-mode)) (autoload 'c-mode "cc-mode" "\ Major mode for editing C code. To submit a problem report, enter `\\[c-submit-bug-report]' from a c-mode buffer. This automatically sets up a mail buffer with version information already added. You just need to add a description of the problem, including a reproducible test case, and send the message. To see what version of CC Mode you are running, enter `\\[c-version]'. The hook `c-mode-common-hook' is run with no args at mode initialization, then `c-mode-hook'. Key bindings: \\{c-mode-map} \(fn)" t nil) (autoload 'c-or-c++-mode "cc-mode" "\ Analyse buffer and enable either C or C++ mode. Some people and projects use .h extension for C++ header files which is also the one used for C header files. This makes matching on file name insufficient for detecting major mode that should be used. This function attempts to use file contents to determine whether the code is C or C++ and based on that chooses whether to enable `c-mode' or `c++-mode'. \(fn)" nil nil) (autoload 'c++-mode "cc-mode" "\ Major mode for editing C++ code. To submit a problem report, enter `\\[c-submit-bug-report]' from a c++-mode buffer. This automatically sets up a mail buffer with version information already added. You just need to add a description of the problem, including a reproducible test case, and send the message. To see what version of CC Mode you are running, enter `\\[c-version]'. The hook `c-mode-common-hook' is run with no args at mode initialization, then `c++-mode-hook'. Key bindings: \\{c++-mode-map} \(fn)" t nil) (add-to-list 'auto-mode-alist '("\\.m\\'" . objc-mode)) (autoload 'objc-mode "cc-mode" "\ Major mode for editing Objective C code. To submit a problem report, enter `\\[c-submit-bug-report]' from an objc-mode buffer. This automatically sets up a mail buffer with version information already added. You just need to add a description of the problem, including a reproducible test case, and send the message. To see what version of CC Mode you are running, enter `\\[c-version]'. The hook `c-mode-common-hook' is run with no args at mode initialization, then `objc-mode-hook'. Key bindings: \\{objc-mode-map} \(fn)" t nil) (add-to-list 'auto-mode-alist '("\\.java\\'" . java-mode)) (autoload 'java-mode "cc-mode" "\ Major mode for editing Java code. To submit a problem report, enter `\\[c-submit-bug-report]' from a java-mode buffer. This automatically sets up a mail buffer with version information already added. You just need to add a description of the problem, including a reproducible test case, and send the message. To see what version of CC Mode you are running, enter `\\[c-version]'. The hook `c-mode-common-hook' is run with no args at mode initialization, then `java-mode-hook'. Key bindings: \\{java-mode-map} \(fn)" t nil) (add-to-list 'auto-mode-alist '("\\.idl\\'" . idl-mode)) (autoload 'idl-mode "cc-mode" "\ Major mode for editing CORBA's IDL, PSDL and CIDL code. To submit a problem report, enter `\\[c-submit-bug-report]' from an idl-mode buffer. This automatically sets up a mail buffer with version information already added. You just need to add a description of the problem, including a reproducible test case, and send the message. To see what version of CC Mode you are running, enter `\\[c-version]'. The hook `c-mode-common-hook' is run with no args at mode initialization, then `idl-mode-hook'. Key bindings: \\{idl-mode-map} \(fn)" t nil) (add-to-list 'auto-mode-alist '("\\.\\(u?lpc\\|pike\\|pmod\\(\\.in\\)?\\)\\'" . pike-mode)) (add-to-list 'interpreter-mode-alist '("pike" . pike-mode)) (autoload 'pike-mode "cc-mode" "\ Major mode for editing Pike code. To submit a problem report, enter `\\[c-submit-bug-report]' from a pike-mode buffer. This automatically sets up a mail buffer with version information already added. You just need to add a description of the problem, including a reproducible test case, and send the message. To see what version of CC Mode you are running, enter `\\[c-version]'. The hook `c-mode-common-hook' is run with no args at mode initialization, then `pike-mode-hook'. Key bindings: \\{pike-mode-map} \(fn)" t nil) (add-to-list 'auto-mode-alist '("\\.awk\\'" . awk-mode)) (add-to-list 'interpreter-mode-alist '("awk" . awk-mode)) (add-to-list 'interpreter-mode-alist '("mawk" . awk-mode)) (add-to-list 'interpreter-mode-alist '("nawk" . awk-mode)) (add-to-list 'interpreter-mode-alist '("gawk" . awk-mode)) (autoload 'awk-mode "cc-mode" "\ Major mode for editing AWK code. To submit a problem report, enter `\\[c-submit-bug-report]' from an awk-mode buffer. This automatically sets up a mail buffer with version information already added. You just need to add a description of the problem, including a reproducible test case, and send the message. To see what version of CC Mode you are running, enter `\\[c-version]'. The hook `c-mode-common-hook' is run with no args at mode initialization, then `awk-mode-hook'. Key bindings: \\{awk-mode-map} \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cc-mode" '("c++-mode-" "c-" "awk-mode-map" "pike-mode-" "idl-mode-" "java-mode-" "objc-mode-"))) ;;;*** ;;;### (autoloads nil "cc-styles" "progmodes/cc-styles.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from progmodes/cc-styles.el (autoload 'c-set-style "cc-styles" "\ Set the current buffer to use the style STYLENAME. STYLENAME, a string, must be an existing CC Mode style - These are contained in the variable `c-style-alist'. The variable `c-indentation-style' will get set to STYLENAME. \"Setting the style\" is done by setting CC Mode's \"style variables\" to the values indicated by the pertinent entry in `c-style-alist'. Other variables might get set too. If DONT-OVERRIDE is neither nil nor t, style variables whose default values have been set (more precisely, whose default values are not the symbol `set-from-style') will not be changed. This avoids overriding global settings done in your init file. It is useful to call c-set-style from a mode hook in this way. If DONT-OVERRIDE is t, style variables that already have values (i.e., whose values are not the symbol `set-from-style') will not be overridden. CC Mode calls c-set-style internally in this way whilst initializing a buffer; if cc-set-style is called like this from anywhere else, it will usually behave as a null operation. \(fn STYLENAME &optional DONT-OVERRIDE)" t nil) (autoload 'c-add-style "cc-styles" "\ Adds a style to `c-style-alist', or updates an existing one. STYLE is a string identifying the style to add or update. DESCRIPTION is an association list describing the style and must be of the form: ([BASESTYLE] (VARIABLE . VALUE) [(VARIABLE . VALUE) ...]) See the variable `c-style-alist' for the semantics of BASESTYLE, VARIABLE and VALUE. This function also sets the current style to STYLE using `c-set-style' if the optional SET-P flag is non-nil. \(fn STYLE DESCRIPTION &optional SET-P)" t nil) (autoload 'c-set-offset "cc-styles" "\ Change the value of a syntactic element symbol in `c-offsets-alist'. SYMBOL is the syntactic element symbol to change and OFFSET is the new offset for that syntactic element. The optional argument is not used and exists only for compatibility reasons. \(fn SYMBOL OFFSET &optional IGNORED)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cc-styles" '("c-" "cc-choose-style-for-mode"))) ;;;*** ;;;### (autoloads nil "cc-vars" "progmodes/cc-vars.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cc-vars.el (put 'c-basic-offset 'safe-local-variable 'integerp) (put 'c-backslash-column 'safe-local-variable 'integerp) (put 'c-file-style 'safe-local-variable 'string-or-null-p) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cc-vars" '("c++-" "c-" "pike-" "idl-" "java-" "objc-" "awk-mode-hook" "defcustom-c-stylevar"))) ;;;*** ;;;### (autoloads nil "ccl" "international/ccl.el" (0 0 0 0)) ;;; Generated autoloads from international/ccl.el (autoload 'ccl-compile "ccl" "\ Return the compiled code of CCL-PROGRAM as a vector of integers. \(fn CCL-PROGRAM)" nil nil) (autoload 'ccl-dump "ccl" "\ Disassemble compiled CCL-code CODE. \(fn CODE)" nil nil) (autoload 'declare-ccl-program "ccl" "\ Declare NAME as a name of CCL program. This macro exists for backward compatibility. In the old version of Emacs, to compile a CCL program which calls another CCL program not yet defined, it must be declared as a CCL program in advance. But, now CCL program names are resolved not at compile time but before execution. Optional arg VECTOR is a compiled CCL code of the CCL program. \(fn NAME &optional VECTOR)" nil t) (autoload 'define-ccl-program "ccl" "\ Set NAME the compiled code of CCL-PROGRAM. CCL-PROGRAM has this form: (BUFFER_MAGNIFICATION CCL_MAIN_CODE [ CCL_EOF_CODE ]) BUFFER_MAGNIFICATION is an integer value specifying the approximate output buffer magnification size compared with the bytes of input data text. It is assured that the actual output buffer has 256 bytes more than the size calculated by BUFFER_MAGNIFICATION. If the value is zero, the CCL program can't execute `read' and `write' commands. CCL_MAIN_CODE and CCL_EOF_CODE are CCL program codes. CCL_MAIN_CODE executed at first. If there's no more input data when `read' command is executed in CCL_MAIN_CODE, CCL_EOF_CODE is executed. If CCL_MAIN_CODE is terminated, CCL_EOF_CODE is not executed. Here's the syntax of CCL program code in BNF notation. The lines starting by two semicolons (and optional leading spaces) describe the semantics. CCL_MAIN_CODE := CCL_BLOCK CCL_EOF_CODE := CCL_BLOCK CCL_BLOCK := STATEMENT | (STATEMENT [STATEMENT ...]) STATEMENT := SET | IF | BRANCH | LOOP | REPEAT | BREAK | READ | WRITE | CALL | TRANSLATE | MAP | LOOKUP | END SET := (REG = EXPRESSION) | (REG ASSIGNMENT_OPERATOR EXPRESSION) ;; The following form is the same as (r0 = integer). | integer EXPRESSION := ARG | (EXPRESSION OPERATOR ARG) ;; Evaluate EXPRESSION. If the result is nonzero, execute ;; CCL_BLOCK_0. Otherwise, execute CCL_BLOCK_1. IF := (if EXPRESSION CCL_BLOCK_0 CCL_BLOCK_1) ;; Evaluate EXPRESSION. Provided that the result is N, execute ;; CCL_BLOCK_N. BRANCH := (branch EXPRESSION CCL_BLOCK_0 [CCL_BLOCK_1 ...]) ;; Execute STATEMENTs until (break) or (end) is executed. ;; Create a block of STATEMENTs for repeating. The STATEMENTs ;; are executed sequentially until REPEAT or BREAK is executed. ;; If REPEAT statement is executed, STATEMENTs are executed from the ;; start again. If BREAK statements is executed, the execution ;; exits from the block. If neither REPEAT nor BREAK is ;; executed, the execution exits from the block after executing the ;; last STATEMENT. LOOP := (loop STATEMENT [STATEMENT ...]) ;; Terminate the most inner loop. BREAK := (break) REPEAT := ;; Jump to the head of the most inner loop. (repeat) ;; Same as: ((write [REG | integer | string]) ;; (repeat)) | (write-repeat [REG | integer | string]) ;; Same as: ((write REG [ARRAY]) ;; (read REG) ;; (repeat)) | (write-read-repeat REG [ARRAY]) ;; Same as: ((write integer) ;; (read REG) ;; (repeat)) | (write-read-repeat REG integer) READ := ;; Set REG_0 to a byte read from the input text, set REG_1 ;; to the next byte read, and so on. (read REG_0 [REG_1 ...]) ;; Same as: ((read REG) ;; (if (REG OPERATOR ARG) CCL_BLOCK_0 CCL_BLOCK_1)) | (read-if (REG OPERATOR ARG) CCL_BLOCK_0 CCL_BLOCK_1) ;; Same as: ((read REG) ;; (branch REG CCL_BLOCK_0 [CCL_BLOCK_1 ...])) | (read-branch REG CCL_BLOCK_0 [CCL_BLOCK_1 ...]) ;; Read a character from the input text while parsing ;; multibyte representation, set REG_0 to the charset ID of ;; the character, set REG_1 to the code point of the ;; character. If the dimension of charset is two, set REG_1 ;; to ((CODE0 << 7) | CODE1), where CODE0 is the first code ;; point and CODE1 is the second code point. | (read-multibyte-character REG_0 REG_1) WRITE := ;; Write REG_0, REG_1, ... to the output buffer. If REG_N is ;; a multibyte character, write the corresponding multibyte ;; representation. (write REG_0 [REG_1 ...]) ;; Same as: ((r7 = EXPRESSION) ;; (write r7)) | (write EXPRESSION) ;; Write the value of `integer' to the output buffer. If it ;; is a multibyte character, write the corresponding multibyte ;; representation. | (write integer) ;; Write the byte sequence of `string' as is to the output ;; buffer. | (write string) ;; Same as: (write string) | string ;; Provided that the value of REG is N, write Nth element of ;; ARRAY to the output buffer. If it is a multibyte ;; character, write the corresponding multibyte ;; representation. | (write REG ARRAY) ;; Write a multibyte representation of a character whose ;; charset ID is REG_0 and code point is REG_1. If the ;; dimension of the charset is two, REG_1 should be ((CODE0 << ;; 7) | CODE1), where CODE0 is the first code point and CODE1 ;; is the second code point of the character. | (write-multibyte-character REG_0 REG_1) ;; Call CCL program whose name is ccl-program-name. CALL := (call ccl-program-name) ;; Terminate the CCL program. END := (end) ;; CCL registers that can contain any integer value. As r7 is also ;; used by CCL interpreter, its value is changed unexpectedly. REG := r0 | r1 | r2 | r3 | r4 | r5 | r6 | r7 ARG := REG | integer OPERATOR := ;; Normal arithmetic operators (same meaning as C code). + | - | * | / | % ;; Bitwise operators (same meaning as C code) | & | `|' | ^ ;; Shifting operators (same meaning as C code) | << | >> ;; (REG = ARG_0 <8 ARG_1) means: ;; (REG = ((ARG_0 << 8) | ARG_1)) | <8 ;; (REG = ARG_0 >8 ARG_1) means: ;; ((REG = (ARG_0 >> 8)) ;; (r7 = (ARG_0 & 255))) | >8 ;; (REG = ARG_0 // ARG_1) means: ;; ((REG = (ARG_0 / ARG_1)) ;; (r7 = (ARG_0 % ARG_1))) | // ;; Normal comparing operators (same meaning as C code) | < | > | == | <= | >= | != ;; If ARG_0 and ARG_1 are higher and lower byte of Shift-JIS ;; code, and CHAR is the corresponding JISX0208 character, ;; (REG = ARG_0 de-sjis ARG_1) means: ;; ((REG = CODE0) ;; (r7 = CODE1)) ;; where CODE0 is the first code point of CHAR, CODE1 is the ;; second code point of CHAR. | de-sjis ;; If ARG_0 and ARG_1 are the first and second code point of ;; JISX0208 character CHAR, and SJIS is the corresponding ;; Shift-JIS code, ;; (REG = ARG_0 en-sjis ARG_1) means: ;; ((REG = HIGH) ;; (r7 = LOW)) ;; where HIGH is the higher byte of SJIS, LOW is the lower ;; byte of SJIS. | en-sjis ASSIGNMENT_OPERATOR := ;; Same meaning as C code += | -= | *= | /= | %= | &= | `|=' | ^= | <<= | >>= ;; (REG <8= ARG) is the same as: ;; ((REG <<= 8) ;; (REG |= ARG)) | <8= ;; (REG >8= ARG) is the same as: ;; ((r7 = (REG & 255)) ;; (REG >>= 8)) ;; (REG //= ARG) is the same as: ;; ((r7 = (REG % ARG)) ;; (REG /= ARG)) | //= ARRAY := `[' integer ... `]' TRANSLATE := ;; Decode character SRC, translate it by translate table ;; TABLE, and encode it back to DST. TABLE is specified ;; by its id number in REG_0, SRC is specified by its ;; charset id number and codepoint in REG_1 and REG_2 ;; respectively. ;; On encoding, the charset of highest priority is selected. ;; After the execution, DST is specified by its charset ;; id number and codepoint in REG_1 and REG_2 respectively. (translate-character REG_0 REG_1 REG_2) ;; Same as above except for SYMBOL specifying the name of ;; the translate table defined by `define-translation-table'. | (translate-character SYMBOL REG_1 REG_2) LOOKUP := ;; Look up character SRC in hash table TABLE. TABLE is ;; specified by its name in SYMBOL, and SRC is specified by ;; its charset id number and codepoint in REG_1 and REG_2 ;; respectively. ;; If its associated value is an integer, set REG_1 to that ;; value, and set r7 to 1. Otherwise, set r7 to 0. (lookup-character SYMBOL REG_1 REG_2) ;; Look up integer value N in hash table TABLE. TABLE is ;; specified by its name in SYMBOL and N is specified in ;; REG. ;; If its associated value is a character, set REG to that ;; value, and set r7 to 1. Otherwise, set r7 to 0. | (lookup-integer SYMBOL REG(integer)) MAP := ;; The following statements are for internal use only. (iterate-multiple-map REG REG MAP-IDs) | (map-multiple REG REG (MAP-SET)) | (map-single REG REG MAP-ID) MAP-IDs := MAP-ID ... MAP-SET := MAP-IDs | (MAP-IDs) MAP-SET MAP-ID := integer \(fn NAME CCL-PROGRAM &optional DOC)" nil t) (function-put 'define-ccl-program 'doc-string-elt '3) (autoload 'check-ccl-program "ccl" "\ Check validity of CCL-PROGRAM. If CCL-PROGRAM is a symbol denoting a CCL program, return CCL-PROGRAM, else return nil. If CCL-PROGRAM is a vector and optional arg NAME (symbol) is supplied, register CCL-PROGRAM by name NAME, and return NAME. \(fn CCL-PROGRAM &optional NAME)" nil t) (autoload 'ccl-execute-with-args "ccl" "\ Execute CCL-PROGRAM with registers initialized by the remaining args. The return value is a vector of resulting CCL registers. See the documentation of `define-ccl-program' for the detail of CCL program. \(fn CCL-PROG &rest ARGS)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ccl" '("ccl-"))) ;;;*** ;;;### (autoloads nil "cconv" "emacs-lisp/cconv.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/cconv.el (autoload 'cconv-closure-convert "cconv" "\ Main entry point for closure conversion. -- FORM is a piece of Elisp code after macroexpansion. -- TOPLEVEL(optional) is a boolean variable, true if we are at the root of AST Returns a form where all lambdas don't have any free variables. \(fn FORM)" nil nil) (autoload 'cconv-warnings-only "cconv" "\ Add the warnings that closure conversion would encounter. \(fn FORM)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cconv" '("cconv-"))) ;;;*** ;;;### (autoloads nil "cdl" "cdl.el" (0 0 0 0)) ;;; Generated autoloads from cdl.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cdl" '("cdl-"))) ;;;*** ;;;### (autoloads nil "cedet" "cedet/cedet.el" (0 0 0 0)) ;;; Generated autoloads from cedet/cedet.el (push (purecopy '(cedet 2 0)) package--builtin-versions) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cedet" '("cedet-"))) ;;;*** ;;;### (autoloads nil "cedet-cscope" "cedet/cedet-cscope.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from cedet/cedet-cscope.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cedet-cscope" '("cedet-cscope-"))) ;;;*** ;;;### (autoloads nil "cedet-files" "cedet/cedet-files.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from cedet/cedet-files.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cedet-files" '("cedet-"))) ;;;*** ;;;### (autoloads nil "cedet-global" "cedet/cedet-global.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from cedet/cedet-global.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cedet-global" '("cedet-g"))) ;;;*** ;;;### (autoloads nil "cedet-idutils" "cedet/cedet-idutils.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from cedet/cedet-idutils.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cedet-idutils" '("cedet-idutils-"))) ;;;*** ;;;### (autoloads nil "cfengine" "progmodes/cfengine.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cfengine.el (push (purecopy '(cfengine 1 4)) package--builtin-versions) (autoload 'cfengine3-mode "cfengine" "\ Major mode for editing CFEngine3 input. There are no special keybindings by default. Action blocks are treated as defuns, i.e. \\[beginning-of-defun] moves to the action header. \(fn)" t nil) (autoload 'cfengine2-mode "cfengine" "\ Major mode for editing CFEngine2 input. There are no special keybindings by default. Action blocks are treated as defuns, i.e. \\[beginning-of-defun] moves to the action header. \(fn)" t nil) (autoload 'cfengine-auto-mode "cfengine" "\ Choose `cfengine2-mode' or `cfengine3-mode' by buffer contents. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cfengine" '("cfengine"))) ;;;*** ;;;### (autoloads nil "char-fold" "char-fold.el" (0 0 0 0)) ;;; Generated autoloads from char-fold.el (autoload 'char-fold-to-regexp "char-fold" "\ Return a regexp matching anything that char-folds into STRING. Any character in STRING that has an entry in `char-fold-table' is replaced with that entry (which is a regexp) and other characters are `regexp-quote'd. If the resulting regexp would be too long for Emacs to handle, just return the result of calling `regexp-quote' on STRING. FROM is for internal use. It specifies an index in the STRING from which to start. \(fn STRING &optional LAX FROM)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "char-fold" '("char-fold-"))) ;;;*** ;;;### (autoloads nil "chart" "emacs-lisp/chart.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/chart.el (push (purecopy '(chart 0 2)) package--builtin-versions) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "chart" '("chart"))) ;;;*** ;;;### (autoloads nil "check-declare" "emacs-lisp/check-declare.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/check-declare.el (autoload 'check-declare-file "check-declare" "\ Check veracity of all `declare-function' statements in FILE. See `check-declare-directory' for more information. \(fn FILE)" t nil) (autoload 'check-declare-directory "check-declare" "\ Check veracity of all `declare-function' statements under directory ROOT. Returns non-nil if any false statements are found. \(fn ROOT)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "check-declare" '("check-declare-"))) ;;;*** ;;;### (autoloads nil "checkdoc" "emacs-lisp/checkdoc.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from emacs-lisp/checkdoc.el (push (purecopy '(checkdoc 0 6 2)) package--builtin-versions) (put 'checkdoc-force-docstrings-flag 'safe-local-variable #'booleanp) (put 'checkdoc-force-history-flag 'safe-local-variable #'booleanp) (put 'checkdoc-permit-comma-termination-flag 'safe-local-variable #'booleanp) (put 'checkdoc-spellcheck-documentation-flag 'safe-local-variable #'booleanp) (put 'checkdoc-ispell-list-words 'safe-local-variable #'checkdoc-list-of-strings-p) (put 'checkdoc-arguments-in-order-flag 'safe-local-variable #'booleanp) (put 'checkdoc-verb-check-experimental-flag 'safe-local-variable #'booleanp) (put 'checkdoc-symbol-words 'safe-local-variable #'checkdoc-list-of-strings-p) (autoload 'checkdoc-list-of-strings-p "checkdoc" "\ Return t when OBJ is a list of strings. \(fn OBJ)" nil nil) (put 'checkdoc-proper-noun-regexp 'safe-local-variable 'stringp) (put 'checkdoc-common-verbs-regexp 'safe-local-variable 'stringp) (autoload 'checkdoc "checkdoc" "\ Interactively check the entire buffer for style errors. The current status of the check will be displayed in a buffer which the users will view as each check is completed. \(fn)" t nil) (autoload 'checkdoc-interactive "checkdoc" "\ Interactively check the current buffer for doc string errors. Prefix argument START-HERE will start the checking from the current point, otherwise the check starts at the beginning of the current buffer. Allows navigation forward and backwards through document errors. Does not check for comment or space warnings. Optional argument SHOWSTATUS indicates that we should update the checkdoc status window instead of the usual behavior. \(fn &optional START-HERE SHOWSTATUS)" t nil) (autoload 'checkdoc-message-interactive "checkdoc" "\ Interactively check the current buffer for message string errors. Prefix argument START-HERE will start the checking from the current point, otherwise the check starts at the beginning of the current buffer. Allows navigation forward and backwards through document errors. Does not check for comment or space warnings. Optional argument SHOWSTATUS indicates that we should update the checkdoc status window instead of the usual behavior. \(fn &optional START-HERE SHOWSTATUS)" t nil) (autoload 'checkdoc-eval-current-buffer "checkdoc" "\ Evaluate and check documentation for the current buffer. Evaluation is done first because good documentation for something that doesn't work is just not useful. Comments, doc strings, and rogue spacing are all verified. \(fn)" t nil) (autoload 'checkdoc-current-buffer "checkdoc" "\ Check current buffer for document, comment, error style, and rogue spaces. With a prefix argument (in Lisp, the argument TAKE-NOTES), store all errors found in a warnings buffer, otherwise stop after the first error. \(fn &optional TAKE-NOTES)" t nil) (autoload 'checkdoc-file "checkdoc" "\ Check FILE for document, comment, error style, and rogue spaces. \(fn FILE)" nil nil) (autoload 'checkdoc-start "checkdoc" "\ Start scanning the current buffer for documentation string style errors. Only documentation strings are checked. Use `checkdoc-continue' to continue checking if an error cannot be fixed. Prefix argument TAKE-NOTES means to collect all the warning messages into a separate buffer. \(fn &optional TAKE-NOTES)" t nil) (autoload 'checkdoc-continue "checkdoc" "\ Find the next doc string in the current buffer which has a style error. Prefix argument TAKE-NOTES means to continue through the whole buffer and save warnings in a separate buffer. Second optional argument START-POINT is the starting location. If this is nil, `point-min' is used instead. \(fn &optional TAKE-NOTES)" t nil) (autoload 'checkdoc-comments "checkdoc" "\ Find missing comment sections in the current Emacs Lisp file. Prefix argument TAKE-NOTES non-nil means to save warnings in a separate buffer. Otherwise print a message. This returns the error if there is one. \(fn &optional TAKE-NOTES)" t nil) (autoload 'checkdoc-rogue-spaces "checkdoc" "\ Find extra spaces at the end of lines in the current file. Prefix argument TAKE-NOTES non-nil means to save warnings in a separate buffer. Otherwise print a message. This returns the error if there is one. Optional argument INTERACT permits more interactive fixing. \(fn &optional TAKE-NOTES INTERACT)" t nil) (autoload 'checkdoc-message-text "checkdoc" "\ Scan the buffer for occurrences of the error function, and verify text. Optional argument TAKE-NOTES causes all errors to be logged. \(fn &optional TAKE-NOTES)" t nil) (autoload 'checkdoc-eval-defun "checkdoc" "\ Evaluate the current form with `eval-defun' and check its documentation. Evaluation is done first so the form will be read before the documentation is checked. If there is a documentation error, then the display of what was evaluated will be overwritten by the diagnostic message. \(fn)" t nil) (autoload 'checkdoc-defun "checkdoc" "\ Examine the doc string of the function or variable under point. Call `error' if the doc string has problems. If NO-ERROR is non-nil, then do not call error, but call `message' instead. If the doc string passes the test, then check the function for rogue white space at the end of each line. \(fn &optional NO-ERROR)" t nil) (autoload 'checkdoc-ispell "checkdoc" "\ Check the style and spelling of everything interactively. Calls `checkdoc' with spell-checking turned on. Prefix argument is the same as for `checkdoc' \(fn)" t nil) (autoload 'checkdoc-ispell-current-buffer "checkdoc" "\ Check the style and spelling of the current buffer. Calls `checkdoc-current-buffer' with spell-checking turned on. Prefix argument is the same as for `checkdoc-current-buffer' \(fn)" t nil) (autoload 'checkdoc-ispell-interactive "checkdoc" "\ Check the style and spelling of the current buffer interactively. Calls `checkdoc-interactive' with spell-checking turned on. Prefix argument is the same as for `checkdoc-interactive' \(fn)" t nil) (autoload 'checkdoc-ispell-message-interactive "checkdoc" "\ Check the style and spelling of message text interactively. Calls `checkdoc-message-interactive' with spell-checking turned on. Prefix argument is the same as for `checkdoc-message-interactive' \(fn)" t nil) (autoload 'checkdoc-ispell-message-text "checkdoc" "\ Check the style and spelling of message text interactively. Calls `checkdoc-message-text' with spell-checking turned on. Prefix argument is the same as for `checkdoc-message-text' \(fn)" t nil) (autoload 'checkdoc-ispell-start "checkdoc" "\ Check the style and spelling of the current buffer. Calls `checkdoc-start' with spell-checking turned on. Prefix argument is the same as for `checkdoc-start' \(fn)" t nil) (autoload 'checkdoc-ispell-continue "checkdoc" "\ Check the style and spelling of the current buffer after point. Calls `checkdoc-continue' with spell-checking turned on. Prefix argument is the same as for `checkdoc-continue' \(fn)" t nil) (autoload 'checkdoc-ispell-comments "checkdoc" "\ Check the style and spelling of the current buffer's comments. Calls `checkdoc-comments' with spell-checking turned on. Prefix argument is the same as for `checkdoc-comments' \(fn)" t nil) (autoload 'checkdoc-ispell-defun "checkdoc" "\ Check the style and spelling of the current defun with Ispell. Calls `checkdoc-defun' with spell-checking turned on. Prefix argument is the same as for `checkdoc-defun' \(fn)" t nil) (autoload 'checkdoc-minor-mode "checkdoc" "\ Toggle automatic docstring checking (Checkdoc minor mode). With a prefix argument ARG, enable Checkdoc minor mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. In Checkdoc minor mode, the usual bindings for `eval-defun' which is bound to \\\\[checkdoc-eval-defun] and `checkdoc-eval-current-buffer' are overridden to include checking of documentation strings. \\{checkdoc-minor-mode-map} \(fn &optional ARG)" t nil) (autoload 'checkdoc-package-keywords "checkdoc" "\ Find package keywords that aren't in `finder-known-keywords'. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "checkdoc" '("checkdoc-"))) ;;;*** ;;;### (autoloads nil "china-util" "language/china-util.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from language/china-util.el (autoload 'decode-hz-region "china-util" "\ Decode HZ/ZW encoded text in the current region. Return the length of resulting text. \(fn BEG END)" t nil) (autoload 'decode-hz-buffer "china-util" "\ Decode HZ/ZW encoded text in the current buffer. \(fn)" t nil) (autoload 'encode-hz-region "china-util" "\ Encode the text in the current region to HZ. Return the length of resulting text. \(fn BEG END)" t nil) (autoload 'encode-hz-buffer "china-util" "\ Encode the text in the current buffer to HZ. \(fn)" t nil) (autoload 'post-read-decode-hz "china-util" "\ \(fn LEN)" nil nil) (autoload 'pre-write-encode-hz "china-util" "\ \(fn FROM TO)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "china-util" '("hz/zw-start-gb" "hz-" "decode-hz-line-continuation" "zw-start-gb" "iso2022-"))) ;;;*** ;;;### (autoloads nil "chistory" "chistory.el" (0 0 0 0)) ;;; Generated autoloads from chistory.el (autoload 'repeat-matching-complex-command "chistory" "\ Edit and re-evaluate complex command with name matching PATTERN. Matching occurrences are displayed, most recent first, until you select a form for evaluation. If PATTERN is empty (or nil), every form in the command history is offered. The form is placed in the minibuffer for editing and the result is evaluated. \(fn &optional PATTERN)" t nil) (autoload 'list-command-history "chistory" "\ List history of commands that used the minibuffer. The number of commands listed is controlled by `list-command-history-max'. Calls value of `list-command-history-filter' (if non-nil) on each history element to judge if that element should be excluded from the list. The buffer is left in Command History mode. \(fn)" t nil) (autoload 'command-history "chistory" "\ Examine commands from `command-history' in a buffer. The number of commands listed is controlled by `list-command-history-max'. The command history is filtered by `list-command-history-filter' if non-nil. Use \\\\[command-history-repeat] to repeat the command on the current line. Otherwise much like Emacs-Lisp Mode except that there is no self-insertion and digits provide prefix arguments. Tab does not indent. \\{command-history-map} This command always recompiles the Command History listing and runs the normal hook `command-history-hook'. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "chistory" '("command-history-" "list-command-history-" "default-command-history-filter"))) ;;;*** ;;;### (autoloads nil "cl" "emacs-lisp/cl.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/cl.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cl" '("cl-" "defsetf" "define-" "lexical-let" "labels" "flet"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "cl-extra" "emacs-lisp/cl-extra.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/cl-extra.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cl-extra" '("cl-"))) ;;;*** ;;;### (autoloads nil "cl-generic" "emacs-lisp/cl-generic.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from emacs-lisp/cl-generic.el (push (purecopy '(cl-generic 1 0)) package--builtin-versions) ;;;*** ;;;### (autoloads nil "cl-indent" "emacs-lisp/cl-indent.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from emacs-lisp/cl-indent.el (autoload 'common-lisp-indent-function "cl-indent" "\ Function to indent the arguments of a Lisp function call. This is suitable for use as the value of the variable `lisp-indent-function'. INDENT-POINT is the point at which the indentation function is called, and STATE is the `parse-partial-sexp' state at that position. Browse the `lisp-indent' customize group for options affecting the behavior of this function. If the indentation point is in a call to a Lisp function, that function's `common-lisp-indent-function' property specifies how this function should indent it. Possible values for this property are: * defun, meaning indent according to `lisp-indent-defun-method'; i.e., like (4 &lambda &body), as explained below. * any other symbol, meaning a function to call. The function should take the arguments: PATH STATE INDENT-POINT SEXP-COLUMN NORMAL-INDENT. PATH is a list of integers describing the position of point in terms of list-structure with respect to the containing lists. For example, in ((a b c (d foo) f) g), foo has a path of (0 3 1). In other words, to reach foo take the 0th element of the outermost list, then the 3rd element of the next list, and finally the 1st element. STATE and INDENT-POINT are as in the arguments to `common-lisp-indent-function'. SEXP-COLUMN is the column of the open parenthesis of the innermost containing list. NORMAL-INDENT is the column the indentation point was originally in. This function should behave like `lisp-indent-259'. * an integer N, meaning indent the first N arguments like function arguments, and any further arguments like a body. This is equivalent to (4 4 ... &body). * a list. The list element in position M specifies how to indent the Mth function argument. If there are fewer elements than function arguments, the last list element applies to all remaining arguments. The accepted list elements are: * nil, meaning the default indentation. * an integer, specifying an explicit indentation. * &lambda. Indent the argument (which may be a list) by 4. * &rest. When used, this must be the penultimate element. The element after this one applies to all remaining arguments. * &body. This is equivalent to &rest lisp-body-indent, i.e., indent all remaining elements by `lisp-body-indent'. * &whole. This must be followed by nil, an integer, or a function symbol. This indentation is applied to the associated argument, and as a base indent for all remaining arguments. For example, an integer P means indent this argument by P, and all remaining arguments by P, plus the value specified by their associated list element. * a symbol. A function to call, with the 6 arguments specified above. * a list, with elements as described above. This applies when the associated function argument is itself a list. Each element of the list specifies how to indent the associated argument. For example, the function `case' has an indent property \(4 &rest (&whole 2 &rest 1)), meaning: * indent the first argument by 4. * arguments after the first should be lists, and there may be any number of them. The first list element has an offset of 2, all the rest have an offset of 2+1=3. If the current mode is actually `emacs-lisp-mode', look for a `common-lisp-indent-function-for-elisp' property before looking at `common-lisp-indent-function' and, if set, use its value instead. \(fn INDENT-POINT STATE)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cl-indent" '("lisp-" "common-lisp-"))) ;;;*** ;;;### (autoloads nil "cl-lib" "emacs-lisp/cl-lib.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/cl-lib.el (push (purecopy '(cl-lib 1 0)) package--builtin-versions) (define-obsolete-variable-alias 'custom-print-functions 'cl-custom-print-functions "24.3") (defvar cl-custom-print-functions nil "\ This is a list of functions that format user objects for printing. Each function is called in turn with three arguments: the object, the stream, and the print level (currently ignored). If it is able to print the object it returns true; otherwise it returns nil and the printer proceeds to the next function on the list. This variable is not used at present, but it is defined in hopes that a future Emacs interpreter will be able to use it.") (defvar cl-old-struct-compat-mode nil "\ Non-nil if Cl-Old-Struct-Compat mode is enabled. See the `cl-old-struct-compat-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `cl-old-struct-compat-mode'.") (custom-autoload 'cl-old-struct-compat-mode "cl-lib" nil) (autoload 'cl-old-struct-compat-mode "cl-lib" "\ Enable backward compatibility with old-style structs. This can be needed when using code byte-compiled using the old macro-expansion of `cl-defstruct' that used vectors objects instead of record objects. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cl-lib" '("cl-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "cl-macs" "emacs-lisp/cl-macs.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/cl-macs.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cl-macs" '("cl-"))) ;;;*** ;;;### (autoloads nil "cl-print" "emacs-lisp/cl-print.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from emacs-lisp/cl-print.el (push (purecopy '(cl-print 1 0)) package--builtin-versions) (autoload 'cl-print-object "cl-print" "\ Dispatcher to print OBJECT on STREAM according to its type. You can add methods to it to customize the output. But if you just want to print something, don't call this directly: call other entry points instead, such as `cl-prin1'. \(fn OBJECT STREAM)" nil nil) (autoload 'cl-prin1 "cl-print" "\ Print OBJECT on STREAM according to its type. Output is further controlled by the variables `cl-print-readably', `cl-print-compiled', along with output variables for the standard printing functions. See Info node `(elisp)Output Variables'. \(fn OBJECT &optional STREAM)" nil nil) (autoload 'cl-prin1-to-string "cl-print" "\ Return a string containing the `cl-prin1'-printed representation of OBJECT. \(fn OBJECT)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cl-print" '("cl-print-" "help-byte-code"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "cl-seq" "emacs-lisp/cl-seq.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/cl-seq.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cl-seq" '("cl--"))) ;;;*** ;;;### (autoloads nil "cmacexp" "progmodes/cmacexp.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cmacexp.el (autoload 'c-macro-expand "cmacexp" "\ Expand C macros in the region, using the C preprocessor. Normally display output in temp buffer, but prefix arg means replace the region with it. `c-macro-preprocessor' specifies the preprocessor to use. Tf the user option `c-macro-prompt-flag' is non-nil prompt for arguments to the preprocessor (e.g. `-DDEBUG -I ./include'), otherwise use `c-macro-cppflags'. Noninteractive args are START, END, SUBST. For use inside Lisp programs, see also `c-macro-expansion'. \(fn START END SUBST)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cmacexp" '("c-macro-"))) ;;;*** ;;;### (autoloads nil "cmuscheme" "cmuscheme.el" (0 0 0 0)) ;;; Generated autoloads from cmuscheme.el (autoload 'run-scheme "cmuscheme" "\ Run an inferior Scheme process, input and output via buffer `*scheme*'. If there is a process already running in `*scheme*', switch to that buffer. With argument, allows you to edit the command line (default is value of `scheme-program-name'). If the file `~/.emacs_SCHEMENAME' or `~/.emacs.d/init_SCHEMENAME.scm' exists, it is given as initial input. Note that this may lose due to a timing error if the Scheme processor discards input when it starts up. Runs the hook `inferior-scheme-mode-hook' (after the `comint-mode-hook' is run). \(Type \\[describe-mode] in the process buffer for a list of commands.) \(fn CMD)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cmuscheme" '("cmuscheme-load-hook" "switch-to-scheme" "scheme-" "inferior-scheme-"))) ;;;*** ;;;### (autoloads nil "color" "color.el" (0 0 0 0)) ;;; Generated autoloads from color.el (autoload 'color-name-to-rgb "color" "\ Convert COLOR string to a list of normalized RGB components. COLOR should be a color name (e.g. \"white\") or an RGB triplet string (e.g. \"#ffff1122eecc\"). Normally the return value is a list of three floating-point numbers, (RED GREEN BLUE), each between 0.0 and 1.0 inclusive. Optional argument FRAME specifies the frame where the color is to be displayed. If FRAME is omitted or nil, use the selected frame. If FRAME cannot display COLOR, return nil. \(fn COLOR &optional FRAME)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "color" '("color-"))) ;;;*** ;;;### (autoloads nil "comint" "comint.el" (0 0 0 0)) ;;; Generated autoloads from comint.el (defvar comint-output-filter-functions '(ansi-color-process-output comint-postoutput-scroll-to-bottom comint-watch-for-password-prompt) "\ Functions to call after output is inserted into the buffer. One possible function is `comint-postoutput-scroll-to-bottom'. These functions get one argument, a string containing the text as originally inserted. Note that this might not be the same as the buffer contents between `comint-last-output-start' and the buffer's `process-mark', if other filter functions have already modified the buffer. See also `comint-preoutput-filter-functions'. You can use `add-hook' to add functions to this list either globally or locally.") (autoload 'make-comint-in-buffer "comint" "\ Make a Comint process NAME in BUFFER, running PROGRAM. If BUFFER is nil, it defaults to NAME surrounded by `*'s. If there is a running process in BUFFER, it is not restarted. PROGRAM should be one of the following: - a string, denoting an executable program to create via `start-file-process' - a cons pair of the form (HOST . SERVICE), denoting a TCP connection to be opened via `open-network-stream' - nil, denoting a newly-allocated pty. Optional fourth arg STARTFILE is the name of a file, whose contents are sent to the process as its initial input. If PROGRAM is a string, any more args are arguments to PROGRAM. Return the (possibly newly created) process buffer. \(fn NAME BUFFER PROGRAM &optional STARTFILE &rest SWITCHES)" nil nil) (autoload 'make-comint "comint" "\ Make a Comint process NAME in a buffer, running PROGRAM. The name of the buffer is made by surrounding NAME with `*'s. PROGRAM should be either a string denoting an executable program to create via `start-file-process', or a cons pair of the form (HOST . SERVICE) denoting a TCP connection to be opened via `open-network-stream'. If there is already a running process in that buffer, it is not restarted. Optional third arg STARTFILE is the name of a file, whose contents are sent to the process as its initial input. If PROGRAM is a string, any more args are arguments to PROGRAM. Returns the (possibly newly created) process buffer. \(fn NAME PROGRAM &optional STARTFILE &rest SWITCHES)" nil nil) (autoload 'comint-run "comint" "\ Run PROGRAM in a Comint buffer and switch to it. The buffer name is made by surrounding the file name of PROGRAM with `*'s. The file name is used to make a symbol name, such as `comint-sh-hook', and any hooks on this symbol are run in the buffer. See `make-comint' and `comint-exec'. \(fn PROGRAM)" t nil) (function-put 'comint-run 'interactive-only 'make-comint) (defvar comint-file-name-prefix (purecopy "") "\ Prefix prepended to absolute file names taken from process input. This is used by Comint's and shell's completion functions, and by shell's directory tracking functions.") (autoload 'comint-redirect-send-command "comint" "\ Send COMMAND to process in current buffer, with output to OUTPUT-BUFFER. With prefix arg ECHO, echo output in process buffer. If NO-DISPLAY is non-nil, do not show the output buffer. \(fn COMMAND OUTPUT-BUFFER ECHO &optional NO-DISPLAY)" t nil) (autoload 'comint-redirect-send-command-to-process "comint" "\ Send COMMAND to PROCESS, with output to OUTPUT-BUFFER. With prefix arg, echo output in process buffer. If NO-DISPLAY is non-nil, do not show the output buffer. \(fn COMMAND OUTPUT-BUFFER PROCESS ECHO &optional NO-DISPLAY)" t nil) (autoload 'comint-redirect-results-list "comint" "\ Send COMMAND to current process. Return a list of expressions in the output which match REGEXP. REGEXP-GROUP is the regular expression group in REGEXP to use. \(fn COMMAND REGEXP REGEXP-GROUP)" nil nil) (autoload 'comint-redirect-results-list-from-process "comint" "\ Send COMMAND to PROCESS. Return a list of expressions in the output which match REGEXP. REGEXP-GROUP is the regular expression group in REGEXP to use. \(fn PROCESS COMMAND REGEXP REGEXP-GROUP)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "comint" '("comint-" "shell-strip-ctrl-m" "send-invisible"))) ;;;*** ;;;### (autoloads nil "compare-w" "vc/compare-w.el" (0 0 0 0)) ;;; Generated autoloads from vc/compare-w.el (autoload 'compare-windows "compare-w" "\ Compare text in current window with text in another window. The option `compare-windows-get-window-function' defines how to get another window. Compares the text starting at point in each window, moving over text in each one as far as they match. This command pushes the mark in each window at the prior location of point in that window. If both windows display the same buffer, the mark is pushed twice in that buffer: first in the other window, then in the selected window. A prefix arg means reverse the value of variable `compare-ignore-whitespace'. If `compare-ignore-whitespace' is nil, then a prefix arg means ignore changes in whitespace. If `compare-ignore-whitespace' is non-nil, then a prefix arg means don't ignore changes in whitespace. The variable `compare-windows-whitespace' controls how whitespace is skipped. If `compare-ignore-case' is non-nil, changes in case are also ignored. If `compare-windows-sync' is non-nil, then successive calls of this command work in interlaced mode: on first call it advances points to the next difference, on second call it synchronizes points by skipping the difference, on third call it again advances points to the next difference and so on. \(fn IGNORE-WHITESPACE)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "compare-w" '("compare-"))) ;;;*** ;;;### (autoloads nil "compface" "image/compface.el" (0 0 0 0)) ;;; Generated autoloads from image/compface.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "compface" '("uncompface"))) ;;;*** ;;;### (autoloads nil "compile" "progmodes/compile.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/compile.el (defvar compilation-mode-hook nil "\ List of hook functions run by `compilation-mode'.") (custom-autoload 'compilation-mode-hook "compile" t) (defvar compilation-start-hook nil "\ Hook run after starting a new compilation process. The hook is run with one argument, the new process.") (custom-autoload 'compilation-start-hook "compile" t) (defvar compilation-window-height nil "\ Number of lines in a compilation window. If nil, use Emacs default.") (custom-autoload 'compilation-window-height "compile" t) (defvar compilation-process-setup-function nil "\ Function to call to customize the compilation process. This function is called immediately before the compilation process is started. It can be used to set any variables or functions that are used while processing the output of the compilation process.") (defvar compilation-buffer-name-function nil "\ Function to compute the name of a compilation buffer. The function receives one argument, the name of the major mode of the compilation buffer. It should return a string. If nil, compute the name with `(concat \"*\" (downcase major-mode) \"*\")'.") (defvar compilation-finish-function nil "\ Function to call when a compilation process finishes. It is called with two arguments: the compilation buffer, and a string describing how the process finished.") (defvar compilation-finish-functions nil "\ Functions to call when a compilation process finishes. Each function is called with two arguments: the compilation buffer, and a string describing how the process finished.") (put 'compilation-directory 'safe-local-variable 'stringp) (defvar compilation-ask-about-save t "\ Non-nil means \\[compile] asks which buffers to save before compiling. Otherwise, it saves all modified buffers without asking.") (custom-autoload 'compilation-ask-about-save "compile" t) (defvar compilation-search-path '(nil) "\ List of directories to search for source files named in error messages. Elements should be directory names, not file names of directories. The value nil as an element means to try the default directory.") (custom-autoload 'compilation-search-path "compile" t) (defvar compile-command (purecopy "make -k ") "\ Last shell command used to do a compilation; default for next compilation. Sometimes it is useful for files to supply local values for this variable. You might also use mode hooks to specify it in certain modes, like this: (add-hook \\='c-mode-hook (lambda () (unless (or (file-exists-p \"makefile\") (file-exists-p \"Makefile\")) (set (make-local-variable \\='compile-command) (concat \"make -k \" (if buffer-file-name (shell-quote-argument (file-name-sans-extension buffer-file-name)))))))) It's often useful to leave a space at the end of the value.") (custom-autoload 'compile-command "compile" t) (put 'compile-command 'safe-local-variable (lambda (a) (and (stringp a) (or (not (boundp 'compilation-read-command)) compilation-read-command)))) (defvar compilation-disable-input nil "\ If non-nil, send end-of-file as compilation process input. This only affects platforms that support asynchronous processes (see `start-process'); synchronous compilation processes never accept input.") (custom-autoload 'compilation-disable-input "compile" t) (autoload 'compile "compile" "\ Compile the program including the current buffer. Default: run `make'. Runs COMMAND, a shell command, in a separate process asynchronously with output going to the buffer `*compilation*'. You can then use the command \\[next-error] to find the next error message and move to the source code that caused it. If optional second arg COMINT is t the buffer will be in Comint mode with `compilation-shell-minor-mode'. Interactively, prompts for the command if the variable `compilation-read-command' is non-nil; otherwise uses `compile-command'. With prefix arg, always prompts. Additionally, with universal prefix arg, compilation buffer will be in comint mode, i.e. interactive. To run more than one compilation at once, start one then rename the `*compilation*' buffer to some other name with \\[rename-buffer]. Then _switch buffers_ and start the new compilation. It will create a new `*compilation*' buffer. On most systems, termination of the main compilation process kills its subprocesses. The name used for the buffer is actually whatever is returned by the function in `compilation-buffer-name-function', so you can set that to a function that generates a unique name. \(fn COMMAND &optional COMINT)" t nil) (autoload 'compilation-start "compile" "\ Run compilation command COMMAND (low level interface). If COMMAND starts with a cd command, that becomes the `default-directory'. The rest of the arguments are optional; for them, nil means use the default. MODE is the major mode to set in the compilation buffer. Mode may also be t meaning use `compilation-shell-minor-mode' under `comint-mode'. If NAME-FUNCTION is non-nil, call it with one argument (the mode name) to determine the buffer name. Otherwise, the default is to reuses the current buffer if it has the proper major mode, else use or create a buffer with name based on the major mode. If HIGHLIGHT-REGEXP is non-nil, `next-error' will temporarily highlight the matching section of the visited source line; the default is to use the global value of `compilation-highlight-regexp'. Returns the compilation buffer created. \(fn COMMAND &optional MODE NAME-FUNCTION HIGHLIGHT-REGEXP)" nil nil) (autoload 'compilation-mode "compile" "\ Major mode for compilation log buffers. \\To visit the source for a line-numbered error, move point to the error message line and type \\[compile-goto-error]. To kill the compilation, type \\[kill-compilation]. Runs `compilation-mode-hook' with `run-mode-hooks' (which see). \\{compilation-mode-map} \(fn &optional NAME-OF-MODE)" t nil) (put 'define-compilation-mode 'doc-string-elt 3) (autoload 'compilation-shell-minor-mode "compile" "\ Toggle Compilation Shell minor mode. With a prefix argument ARG, enable Compilation Shell minor mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. When Compilation Shell minor mode is enabled, all the error-parsing commands of the Compilation major mode are available but bound to keys that don't collide with Shell mode. See `compilation-mode'. \(fn &optional ARG)" t nil) (autoload 'compilation-minor-mode "compile" "\ Toggle Compilation minor mode. With a prefix argument ARG, enable Compilation minor mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. When Compilation minor mode is enabled, all the error-parsing commands of Compilation major mode are available. See `compilation-mode'. \(fn &optional ARG)" t nil) (autoload 'compilation-next-error-function "compile" "\ Advance to the next error message and visit the file where the error was. This is the value of `next-error-function' in Compilation buffers. \(fn N &optional RESET)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "compile" '("compil" "kill-compilation" "define-compilation-mode" "recompile"))) ;;;*** ;;;### (autoloads nil "completion" "completion.el" (0 0 0 0)) ;;; Generated autoloads from completion.el (defvar dynamic-completion-mode nil "\ Non-nil if Dynamic-Completion mode is enabled. See the `dynamic-completion-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `dynamic-completion-mode'.") (custom-autoload 'dynamic-completion-mode "completion" nil) (autoload 'dynamic-completion-mode "completion" "\ Toggle dynamic word-completion on or off. With a prefix argument ARG, enable the mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "completion" '("inside-locate-completion-entry" "interactive-completion-string-reader" "initialize-completions" "current-completion-source" "cdabbrev-" "clear-all-completions" "check-completion-length" "complet" "cmpl-" "use-completion-" "list-all-completions" "symbol-" "set-c" "save" "kill-" "accept-completion" "add-" "*lisp-def-regexp*" "*c-def-regexp*" "delete-completion" "find-" "make-c" "num-cmpl-sources" "next-cdabbrev" "reset-cdabbrev" "enable-completion"))) ;;;*** ;;;### (autoloads nil "conf-mode" "textmodes/conf-mode.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from textmodes/conf-mode.el (autoload 'conf-mode "conf-mode" "\ Mode for Unix and Windows Conf files and Java properties. Most conf files know only three kinds of constructs: parameter assignments optionally grouped into sections and comments. Yet there is a great range of variation in the exact syntax of conf files. See below for various wrapper commands that set up the details for some of the most widespread variants. This mode sets up font locking, outline, imenu and it provides alignment support through `conf-align-assignments'. If strings come out wrong, try `conf-quote-normal'. Some files allow continuation lines, either with a backslash at the end of line, or by indenting the next line (further). These constructs cannot currently be recognized. Because of this great variety of nuances, which are often not even clearly specified, please don't expect it to get every file quite right. Patches that clearly identify some special case, without breaking the general ones, are welcome. If instead you start this mode with the generic `conf-mode' command, it will parse the buffer. It will generally well identify the first four cases listed below. If the buffer doesn't have enough contents to decide, this is identical to `conf-windows-mode' on Windows, elsewhere to `conf-unix-mode'. See also `conf-space-mode', `conf-colon-mode', `conf-javaprop-mode', `conf-ppd-mode' and `conf-xdefaults-mode'. \\{conf-mode-map} \(fn)" t nil) (autoload 'conf-unix-mode "conf-mode" "\ Conf Mode starter for Unix style Conf files. Comments start with `#'. For details see `conf-mode'. \(fn)" t nil) (autoload 'conf-windows-mode "conf-mode" "\ Conf Mode starter for Windows style Conf files. Comments start with `;'. For details see `conf-mode'. Example: ; Conf mode font-locks this right on Windows and with \\[conf-windows-mode] \[ExtShellFolderViews] Default={5984FFE0-28D4-11CF-AE66-08002B2E1262} {5984FFE0-28D4-11CF-AE66-08002B2E1262}={5984FFE0-28D4-11CF-AE66-08002B2E1262} \[{5984FFE0-28D4-11CF-AE66-08002B2E1262}] PersistMoniker=file://Folder.htt \(fn)" t nil) (autoload 'conf-javaprop-mode "conf-mode" "\ Conf Mode starter for Java properties files. Comments start with `#' but are also recognized with `//' or between `/*' and `*/'. For details see `conf-mode'. Example: # Conf mode font-locks this right with \\[conf-javaprop-mode] (Java properties) // another kind of comment /* yet another */ name:value name=value name value x.1 = x.2.y.1.z.1 = x.2.y.1.z.2.zz = \(fn)" t nil) (autoload 'conf-space-mode "conf-mode" "\ Conf Mode starter for space separated conf files. \"Assignments\" are with ` '. Keywords before the parameters are recognized according to the variable `conf-space-keywords-alist'. Alternatively, you can specify a value for the file local variable `conf-space-keywords'. Use the function `conf-space-keywords' if you want to specify keywords in an interactive fashion instead. For details see `conf-mode'. Example: # Conf mode font-locks this right with \\[conf-space-mode] (space separated) image/jpeg jpeg jpg jpe image/png png image/tiff tiff tif # Or with keywords (from a recognized file name): class desktop # Standard multimedia devices add /dev/audio desktop add /dev/mixer desktop \(fn)" t nil) (autoload 'conf-space-keywords "conf-mode" "\ Enter Conf Space mode using regexp KEYWORDS to match the keywords. See `conf-space-mode'. \(fn KEYWORDS)" t nil) (autoload 'conf-colon-mode "conf-mode" "\ Conf Mode starter for Colon files. \"Assignments\" are with `:'. For details see `conf-mode'. Example: # Conf mode font-locks this right with \\[conf-colon-mode] (colon) : \"\\241\" exclamdown : \"\\242\" cent \(fn)" t nil) (autoload 'conf-ppd-mode "conf-mode" "\ Conf Mode starter for Adobe/CUPS PPD files. Comments start with `*%' and \"assignments\" are with `:'. For details see `conf-mode'. Example: *% Conf mode font-locks this right with \\[conf-ppd-mode] (PPD) *DefaultTransfer: Null *Transfer Null.Inverse: \"{ 1 exch sub }\" \(fn)" t nil) (autoload 'conf-xdefaults-mode "conf-mode" "\ Conf Mode starter for Xdefaults files. Comments start with `!' and \"assignments\" are with `:'. For details see `conf-mode'. Example: ! Conf mode font-locks this right with \\[conf-xdefaults-mode] (.Xdefaults) *background: gray99 *foreground: black \(fn)" t nil) (autoload 'conf-toml-mode "conf-mode" "\ Conf Mode starter for TOML files. Comments start with `#' and \"assignments\" are with `='. For details see `conf-mode'. Example: # Conf mode font-locks this right with \\[conf-toml-mode] \[entry] value = \"some string\" \(fn)" t nil) (autoload 'conf-desktop-mode "conf-mode" "\ Conf Mode started for freedesktop.org Desktop files. Comments start with `#' and \"assignments\" are with `='. For details see `conf-mode'. # Conf mode font-locks this correctly with \\[conf-desktop-mode] [Desktop Entry] Name=GNU Image Manipulation Program Name[oc]=Editor d'imatge GIMP Exec=gimp-2.8 %U Terminal=false \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "conf-mode" '("conf-"))) ;;;*** ;;;### (autoloads nil "cookie1" "play/cookie1.el" (0 0 0 0)) ;;; Generated autoloads from play/cookie1.el (autoload 'cookie "cookie1" "\ Return a random phrase from PHRASE-FILE. When the phrase file is read in, display STARTMSG at the beginning of load, ENDMSG at the end. Interactively, PHRASE-FILE defaults to `cookie-file', unless that is nil or a prefix argument is used. \(fn PHRASE-FILE &optional STARTMSG ENDMSG)" t nil) (autoload 'cookie-insert "cookie1" "\ Insert random phrases from PHRASE-FILE; COUNT of them. When the phrase file is read in, display STARTMSG at the beginning of load, ENDMSG at the end. \(fn PHRASE-FILE &optional COUNT STARTMSG ENDMSG)" nil nil) (autoload 'cookie-snarf "cookie1" "\ Reads in the PHRASE-FILE, returns it as a vector of strings. Emit STARTMSG and ENDMSG before and after. Caches the result; second and subsequent calls on the same file won't go to disk. \(fn PHRASE-FILE &optional STARTMSG ENDMSG)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cookie1" '("cookie"))) ;;;*** ;;;### (autoloads nil "copyright" "emacs-lisp/copyright.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from emacs-lisp/copyright.el (put 'copyright-at-end-flag 'safe-local-variable 'booleanp) (put 'copyright-names-regexp 'safe-local-variable 'stringp) (put 'copyright-year-ranges 'safe-local-variable 'booleanp) (autoload 'copyright-update "copyright" "\ Update copyright notice to indicate the current year. With prefix ARG, replace the years in the notice rather than adding the current year after them. If necessary, and `copyright-current-gpl-version' is set, any copying permissions following the copyright are updated as well. If non-nil, INTERACTIVEP tells the function to behave as when it's called interactively. \(fn &optional ARG INTERACTIVEP)" t nil) (autoload 'copyright-fix-years "copyright" "\ Convert 2 digit years to 4 digit years. Uses heuristic: year >= 50 means 19xx, < 50 means 20xx. If `copyright-year-ranges' (which see) is non-nil, also independently replaces consecutive years with a range. \(fn)" t nil) (autoload 'copyright "copyright" "\ Insert a copyright by $ORGANIZATION notice at cursor. \(fn &optional STR ARG)" t nil) (autoload 'copyright-update-directory "copyright" "\ Update copyright notice for all files in DIRECTORY matching MATCH. If FIX is non-nil, run `copyright-fix-years' instead. \(fn DIRECTORY MATCH &optional FIX)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "copyright" '("copyright-"))) ;;;*** ;;;### (autoloads nil "cperl-mode" "progmodes/cperl-mode.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from progmodes/cperl-mode.el (put 'cperl-indent-level 'safe-local-variable 'integerp) (put 'cperl-brace-offset 'safe-local-variable 'integerp) (put 'cperl-continued-brace-offset 'safe-local-variable 'integerp) (put 'cperl-label-offset 'safe-local-variable 'integerp) (put 'cperl-continued-statement-offset 'safe-local-variable 'integerp) (put 'cperl-extra-newline-before-brace 'safe-local-variable 'booleanp) (put 'cperl-merge-trailing-else 'safe-local-variable 'booleanp) (autoload 'cperl-mode "cperl-mode" "\ Major mode for editing Perl code. Expression and list commands understand all C brackets. Tab indents for Perl code. Paragraphs are separated by blank lines only. Delete converts tabs to spaces as it moves back. Various characters in Perl almost always come in pairs: {}, (), [], sometimes <>. When the user types the first, she gets the second as well, with optional special formatting done on {}. (Disabled by default.) You can always quote (with \\[quoted-insert]) the left \"paren\" to avoid the expansion. The processing of < is special, since most the time you mean \"less\". CPerl mode tries to guess whether you want to type pair <>, and inserts is if it appropriate. You can set `cperl-electric-parens-string' to the string that contains the parens from the above list you want to be electrical. Electricity of parens is controlled by `cperl-electric-parens'. You may also set `cperl-electric-parens-mark' to have electric parens look for active mark and \"embrace\" a region if possible.' CPerl mode provides expansion of the Perl control constructs: if, else, elsif, unless, while, until, continue, do, for, foreach, formy and foreachmy. and POD directives (Disabled by default, see `cperl-electric-keywords'.) The user types the keyword immediately followed by a space, which causes the construct to be expanded, and the point is positioned where she is most likely to want to be. E.g., when the user types a space following \"if\" the following appears in the buffer: if () { or if () } { } and the cursor is between the parentheses. The user can then type some boolean expression within the parens. Having done that, typing \\[cperl-linefeed] places you - appropriately indented - on a new line between the braces (if you typed \\[cperl-linefeed] in a POD directive line, then appropriate number of new lines is inserted). If CPerl decides that you want to insert \"English\" style construct like bite if angry; it will not do any expansion. See also help on variable `cperl-extra-newline-before-brace'. (Note that one can switch the help message on expansion by setting `cperl-message-electric-keyword' to nil.) \\[cperl-linefeed] is a convenience replacement for typing carriage return. It places you in the next line with proper indentation, or if you type it inside the inline block of control construct, like foreach (@lines) {print; print} and you are on a boundary of a statement inside braces, it will transform the construct into a multiline and will place you into an appropriately indented blank line. If you need a usual `newline-and-indent' behavior, it is on \\[newline-and-indent], see documentation on `cperl-electric-linefeed'. Use \\[cperl-invert-if-unless] to change a construction of the form if (A) { B } into B if A; \\{cperl-mode-map} Setting the variable `cperl-font-lock' to t switches on font-lock-mode \(even with older Emacsen), `cperl-electric-lbrace-space' to t switches on electric space between $ and {, `cperl-electric-parens-string' is the string that contains parentheses that should be electric in CPerl \(see also `cperl-electric-parens-mark' and `cperl-electric-parens'), setting `cperl-electric-keywords' enables electric expansion of control structures in CPerl. `cperl-electric-linefeed' governs which one of two linefeed behavior is preferable. You can enable all these options simultaneously (recommended mode of use) by setting `cperl-hairy' to t. In this case you can switch separate options off by setting them to `null'. Note that one may undo the extra whitespace inserted by semis and braces in `auto-newline'-mode by consequent \\[cperl-electric-backspace]. If your site has perl5 documentation in info format, you can use commands \\[cperl-info-on-current-command] and \\[cperl-info-on-command] to access it. These keys run commands `cperl-info-on-current-command' and `cperl-info-on-command', which one is which is controlled by variable `cperl-info-on-command-no-prompt' and `cperl-clobber-lisp-bindings' \(in turn affected by `cperl-hairy'). Even if you have no info-format documentation, short one-liner-style help is available on \\[cperl-get-help], and one can run perldoc or man via menu. It is possible to show this help automatically after some idle time. This is regulated by variable `cperl-lazy-help-time'. Default with `cperl-hairy' (if the value of `cperl-lazy-help-time' is nil) is 5 secs idle time . It is also possible to switch this on/off from the menu, or via \\[cperl-toggle-autohelp]. Requires `run-with-idle-timer'. Use \\[cperl-lineup] to vertically lineup some construction - put the beginning of the region at the start of construction, and make region span the needed amount of lines. Variables `cperl-pod-here-scan', `cperl-pod-here-fontify', `cperl-pod-face', `cperl-pod-head-face' control processing of POD and here-docs sections. With capable Emaxen results of scan are used for indentation too, otherwise they are used for highlighting only. Variables controlling indentation style: `cperl-tab-always-indent' Non-nil means TAB in CPerl mode should always reindent the current line, regardless of where in the line point is when the TAB command is used. `cperl-indent-left-aligned-comments' Non-nil means that the comment starting in leftmost column should indent. `cperl-auto-newline' Non-nil means automatically newline before and after braces, and after colons and semicolons, inserted in Perl code. The following \\[cperl-electric-backspace] will remove the inserted whitespace. Insertion after colons requires both this variable and `cperl-auto-newline-after-colon' set. `cperl-auto-newline-after-colon' Non-nil means automatically newline even after colons. Subject to `cperl-auto-newline' setting. `cperl-indent-level' Indentation of Perl statements within surrounding block. The surrounding block's indentation is the indentation of the line on which the open-brace appears. `cperl-continued-statement-offset' Extra indentation given to a substatement, such as the then-clause of an if, or body of a while, or just a statement continuation. `cperl-continued-brace-offset' Extra indentation given to a brace that starts a substatement. This is in addition to `cperl-continued-statement-offset'. `cperl-brace-offset' Extra indentation for line if it starts with an open brace. `cperl-brace-imaginary-offset' An open brace following other text is treated as if it the line started this far to the right of the actual line indentation. `cperl-label-offset' Extra indentation for line that is a label. `cperl-min-label-indent' Minimal indentation for line that is a label. Settings for classic indent-styles: K&R BSD=C++ GNU PerlStyle=Whitesmith `cperl-indent-level' 5 4 2 4 `cperl-brace-offset' 0 0 0 0 `cperl-continued-brace-offset' -5 -4 0 0 `cperl-label-offset' -5 -4 -2 -4 `cperl-continued-statement-offset' 5 4 2 4 CPerl knows several indentation styles, and may bulk set the corresponding variables. Use \\[cperl-set-style] to do this. Use \\[cperl-set-style-back] to restore the memorized preexisting values \(both available from menu). See examples in `cperl-style-examples'. Part of the indentation style is how different parts of if/elsif/else statements are broken into lines; in CPerl, this is reflected on how templates for these constructs are created (controlled by `cperl-extra-newline-before-brace'), and how reflow-logic should treat \"continuation\" blocks of else/elsif/continue, controlled by the same variable, and by `cperl-extra-newline-before-brace-multiline', `cperl-merge-trailing-else', `cperl-indent-region-fix-constructs'. If `cperl-indent-level' is 0, the statement after opening brace in column 0 is indented on `cperl-brace-offset'+`cperl-continued-statement-offset'. Turning on CPerl mode calls the hooks in the variable `cperl-mode-hook' with no args. DO NOT FORGET to read micro-docs (available from `Perl' menu) or as help on variables `cperl-tips', `cperl-problems', `cperl-praise', `cperl-speed'. \(fn)" t nil) (autoload 'cperl-perldoc "cperl-mode" "\ Run `perldoc' on WORD. \(fn WORD)" t nil) (autoload 'cperl-perldoc-at-point "cperl-mode" "\ Run a `perldoc' on the word around point. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cperl-mode" '("cperl-" "pod2man-program"))) ;;;*** ;;;### (autoloads nil "cpp" "progmodes/cpp.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cpp.el (autoload 'cpp-highlight-buffer "cpp" "\ Highlight C code according to preprocessor conditionals. This command pops up a buffer which you should edit to specify what kind of highlighting to use, and the criteria for highlighting. A prefix arg suppresses display of that buffer. \(fn ARG)" t nil) (autoload 'cpp-parse-edit "cpp" "\ Edit display information for cpp conditionals. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cpp" '("cpp-"))) ;;;*** ;;;### (autoloads nil "crm" "emacs-lisp/crm.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/crm.el (autoload 'completing-read-multiple "crm" "\ Read multiple strings in the minibuffer, with completion. The arguments are the same as those of `completing-read'. \\ Input multiple strings by separating each one with a string that matches the regexp `crm-separator'. For example, if the separator regexp is \",\", entering \"alice,bob,eve\" specifies the strings \"alice\", \"bob\", and \"eve\". We refer to contiguous strings of non-separator-characters as \"elements\". In this example there are three elements. Completion is available on a per-element basis. For example, if the contents of the minibuffer are \"alice,bob,eve\" and point is between \"l\" and \"i\", pressing \\[minibuffer-complete] operates on the element \"alice\". This function returns a list of the strings that were read, with empty strings removed. \(fn PROMPT TABLE &optional PREDICATE REQUIRE-MATCH INITIAL-INPUT HIST DEF INHERIT-INPUT-METHOD)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "crm" '("crm-"))) ;;;*** ;;;### (autoloads nil "css-mode" "textmodes/css-mode.el" (0 0 0 0)) ;;; Generated autoloads from textmodes/css-mode.el (autoload 'css-mode "css-mode" "\ Major mode to edit Cascading Style Sheets (CSS). \\ This mode provides syntax highlighting, indentation, completion, and documentation lookup for CSS. Use `\\[complete-symbol]' to complete CSS properties, property values, pseudo-elements, pseudo-classes, at-rules, bang-rules, and HTML tags, classes and IDs. Completion candidates for HTML class names and IDs are found by looking through open HTML mode buffers. Use `\\[info-lookup-symbol]' to look up documentation of CSS properties, at-rules, pseudo-classes, and pseudo-elements on the Mozilla Developer Network (MDN). \\{css-mode-map} \(fn)" t nil) (add-to-list 'auto-mode-alist '("\\.scss\\'" . scss-mode)) (autoload 'scss-mode "css-mode" "\ Major mode to edit \"Sassy CSS\" files. \(fn)" t nil) (autoload 'css-lookup-symbol "css-mode" "\ Display the CSS documentation for SYMBOL, as found on MDN. When this command is used interactively, it picks a default symbol based on the CSS text before point -- either an @-keyword, a property name, a pseudo-class, or a pseudo-element, depending on what is seen near point. \(fn SYMBOL)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "css-mode" '("css-" "scss-"))) ;;;*** ;;;### (autoloads nil "cua-base" "emulation/cua-base.el" (0 0 0 0)) ;;; Generated autoloads from emulation/cua-base.el (defvar cua-mode nil "\ Non-nil if Cua mode is enabled. See the `cua-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `cua-mode'.") (custom-autoload 'cua-mode "cua-base" nil) (autoload 'cua-mode "cua-base" "\ Toggle Common User Access style editing (CUA mode). With a prefix argument ARG, enable CUA mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. CUA mode is a global minor mode. When enabled, typed text replaces the active selection, and you can use C-z, C-x, C-c, and C-v to undo, cut, copy, and paste in addition to the normal Emacs bindings. The C-x and C-c keys only do cut and copy when the region is active, so in most cases, they do not conflict with the normal function of these prefix keys. If you really need to perform a command which starts with one of the prefix keys even when the region is active, you have three options: - press the prefix key twice very quickly (within 0.2 seconds), - press the prefix key and the following key within 0.2 seconds, or - use the SHIFT key with the prefix key, i.e. C-S-x or C-S-c. You can customize `cua-enable-cua-keys' to completely disable the CUA bindings, or `cua-prefix-override-inhibit-delay' to change the prefix fallback behavior. \(fn &optional ARG)" t nil) (autoload 'cua-selection-mode "cua-base" "\ Enable CUA selection mode without the C-z/C-x/C-c/C-v bindings. \(fn ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cua-base" '("cua-"))) ;;;*** ;;;### (autoloads nil "cua-gmrk" "emulation/cua-gmrk.el" (0 0 0 0)) ;;; Generated autoloads from emulation/cua-gmrk.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cua-gmrk" '("cua-"))) ;;;*** ;;;### (autoloads nil "cua-rect" "emulation/cua-rect.el" (0 0 0 0)) ;;; Generated autoloads from emulation/cua-rect.el (autoload 'cua-rectangle-mark-mode "cua-rect" "\ Toggle the region as rectangular. Activates the region if needed. Only lasts until the region is deactivated. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cua-rect" '("cua-"))) ;;;*** ;;;### (autoloads nil "cursor-sensor" "emacs-lisp/cursor-sensor.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/cursor-sensor.el (defvar cursor-sensor-inhibit nil) (autoload 'cursor-intangible-mode "cursor-sensor" "\ Keep cursor outside of any `cursor-intangible' text property. \(fn &optional ARG)" t nil) (autoload 'cursor-sensor-mode "cursor-sensor" "\ Handle the `cursor-sensor-functions' text property. This property should hold a list of functions which react to the motion of the cursor. They're called with three arguments (WINDOW OLDPOS DIR) where WINDOW is the affected window, OLDPOS is the last known position of the cursor and DIR can be `entered' or `left' depending on whether the cursor is entering the area covered by the text-property property or leaving it. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cursor-sensor" '("cursor-sensor-"))) ;;;*** ;;;### (autoloads nil "cus-dep" "cus-dep.el" (0 0 0 0)) ;;; Generated autoloads from cus-dep.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cus-dep" '("custom-" "generated-custom-dependencies-file"))) ;;;*** ;;;### (autoloads nil "cus-edit" "cus-edit.el" (0 0 0 0)) ;;; Generated autoloads from cus-edit.el (defvar custom-browse-sort-alphabetically nil "\ If non-nil, sort customization group alphabetically in `custom-browse'.") (custom-autoload 'custom-browse-sort-alphabetically "cus-edit" t) (defvar custom-buffer-sort-alphabetically t "\ Whether to sort customization groups alphabetically in Custom buffer.") (custom-autoload 'custom-buffer-sort-alphabetically "cus-edit" t) (defvar custom-menu-sort-alphabetically nil "\ If non-nil, sort each customization group alphabetically in menus.") (custom-autoload 'custom-menu-sort-alphabetically "cus-edit" t) (autoload 'customize-set-value "cus-edit" "\ Set VARIABLE to VALUE, and return VALUE. VALUE is a Lisp object. If VARIABLE has a `variable-interactive' property, that is used as if it were the arg to `interactive' (which see) to interactively read the value. If VARIABLE has a `custom-type' property, it must be a widget and the `:prompt-value' property of that widget will be used for reading the value. If given a prefix (or a COMMENT argument), also prompt for a comment. \(fn VARIABLE VALUE &optional COMMENT)" t nil) (autoload 'customize-set-variable "cus-edit" "\ Set the default for VARIABLE to VALUE, and return VALUE. VALUE is a Lisp object. If VARIABLE has a `custom-set' property, that is used for setting VARIABLE, otherwise `set-default' is used. If VARIABLE has a `variable-interactive' property, that is used as if it were the arg to `interactive' (which see) to interactively read the value. If VARIABLE has a `custom-type' property, it must be a widget and the `:prompt-value' property of that widget will be used for reading the value. If given a prefix (or a COMMENT argument), also prompt for a comment. \(fn VARIABLE VALUE &optional COMMENT)" t nil) (autoload 'customize-save-variable "cus-edit" "\ Set the default for VARIABLE to VALUE, and save it for future sessions. Return VALUE. If VARIABLE has a `custom-set' property, that is used for setting VARIABLE, otherwise `set-default' is used. If VARIABLE has a `variable-interactive' property, that is used as if it were the arg to `interactive' (which see) to interactively read the value. If VARIABLE has a `custom-type' property, it must be a widget and the `:prompt-value' property of that widget will be used for reading the value. If given a prefix (or a COMMENT argument), also prompt for a comment. \(fn VARIABLE VALUE &optional COMMENT)" t nil) (autoload 'customize-push-and-save "cus-edit" "\ Add ELTS to LIST-VAR and save for future sessions, safely. ELTS should be a list. This function adds each entry to the value of LIST-VAR using `add-to-list'. If Emacs is initialized, call `customize-save-variable' to save the resulting list value now. Otherwise, add an entry to `after-init-hook' to save it after initialization. \(fn LIST-VAR ELTS)" nil nil) (autoload 'customize "cus-edit" "\ Select a customization buffer which you can use to set user options. User options are structured into \"groups\". Initially the top-level group `Emacs' and its immediate subgroups are shown; the contents of those subgroups are initially hidden. \(fn)" t nil) (autoload 'customize-mode "cus-edit" "\ Customize options related to a major or minor mode. By default the current major mode is used. With a prefix argument or if the current major mode has no known group, prompt for the MODE to customize. \(fn MODE)" t nil) (autoload 'customize-group "cus-edit" "\ Customize GROUP, which must be a customization group. If OTHER-WINDOW is non-nil, display in another window. \(fn &optional GROUP OTHER-WINDOW)" t nil) (autoload 'customize-group-other-window "cus-edit" "\ Customize GROUP, which must be a customization group, in another window. \(fn &optional GROUP)" t nil) (defalias 'customize-variable 'customize-option) (autoload 'customize-option "cus-edit" "\ Customize SYMBOL, which must be a user option. \(fn SYMBOL)" t nil) (defalias 'customize-variable-other-window 'customize-option-other-window) (autoload 'customize-option-other-window "cus-edit" "\ Customize SYMBOL, which must be a user option. Show the buffer in another window, but don't select it. \(fn SYMBOL)" t nil) (defvar customize-package-emacs-version-alist nil "\ Alist mapping versions of a package to Emacs versions. We use this for packages that have their own names, but are released as part of Emacs itself. Each elements looks like this: (PACKAGE (PVERSION . EVERSION)...) Here PACKAGE is the name of a package, as a symbol. After PACKAGE come one or more elements, each associating a package version PVERSION with the first Emacs version EVERSION in which it (or a subsequent version of PACKAGE) was first released. Both PVERSION and EVERSION are strings. PVERSION should be a string that this package used in the :package-version keyword for `defcustom', `defgroup', and `defface'. For example, the MH-E package updates this alist as follows: (add-to-list \\='customize-package-emacs-version-alist \\='(MH-E (\"6.0\" . \"22.1\") (\"6.1\" . \"22.1\") (\"7.0\" . \"22.1\") (\"7.1\" . \"22.1\") (\"7.2\" . \"22.1\") (\"7.3\" . \"22.1\") (\"7.4\" . \"22.1\") (\"8.0\" . \"22.1\"))) The value of PACKAGE needs to be unique and it needs to match the PACKAGE value appearing in the :package-version keyword. Since the user might see the value in a error message, a good choice is the official name of the package, such as MH-E or Gnus.") (defalias 'customize-changed 'customize-changed-options) (autoload 'customize-changed-options "cus-edit" "\ Customize all settings whose meanings have changed in Emacs itself. This includes new user options and faces, and new customization groups, as well as older options and faces whose meanings or default values have changed since the previous major Emacs release. With argument SINCE-VERSION (a string), customize all settings that were added or redefined since that version. \(fn &optional SINCE-VERSION)" t nil) (autoload 'customize-face "cus-edit" "\ Customize FACE, which should be a face name or nil. If FACE is nil, customize all faces. If FACE is actually a face-alias, customize the face it is aliased to. If OTHER-WINDOW is non-nil, display in another window. Interactively, when point is on text which has a face specified, suggest to customize that face, if it's customizable. \(fn &optional FACE OTHER-WINDOW)" t nil) (autoload 'customize-face-other-window "cus-edit" "\ Show customization buffer for face FACE in other window. If FACE is actually a face-alias, customize the face it is aliased to. Interactively, when point is on text which has a face specified, suggest to customize that face, if it's customizable. \(fn &optional FACE)" t nil) (autoload 'customize-unsaved "cus-edit" "\ Customize all options and faces set in this session but not saved. \(fn)" t nil) (autoload 'customize-rogue "cus-edit" "\ Customize all user variables modified outside customize. \(fn)" t nil) (autoload 'customize-saved "cus-edit" "\ Customize all saved options and faces. \(fn)" t nil) (autoload 'customize-apropos "cus-edit" "\ Customize loaded options, faces and groups matching PATTERN. PATTERN can be a word, a list of words (separated by spaces), or a regexp (using some regexp special characters). If it is a word, search for matches for that word as a substring. If it is a list of words, search for matches for any two (or more) of those words. If TYPE is `options', include only options. If TYPE is `faces', include only faces. If TYPE is `groups', include only groups. \(fn PATTERN &optional TYPE)" t nil) (autoload 'customize-apropos-options "cus-edit" "\ Customize all loaded customizable options matching REGEXP. \(fn REGEXP &optional IGNORED)" t nil) (autoload 'customize-apropos-faces "cus-edit" "\ Customize all loaded faces matching REGEXP. \(fn REGEXP)" t nil) (autoload 'customize-apropos-groups "cus-edit" "\ Customize all loaded groups matching REGEXP. \(fn REGEXP)" t nil) (autoload 'custom-prompt-customize-unsaved-options "cus-edit" "\ Prompt user to customize any unsaved customization options. Return non-nil if user chooses to customize, for use in `kill-emacs-query-functions'. \(fn)" nil nil) (autoload 'custom-buffer-create "cus-edit" "\ Create a buffer containing OPTIONS. Optional NAME is the name of the buffer. OPTIONS should be an alist of the form ((SYMBOL WIDGET)...), where SYMBOL is a customization option, and WIDGET is a widget for editing that option. DESCRIPTION is unused. \(fn OPTIONS &optional NAME DESCRIPTION)" nil nil) (autoload 'custom-buffer-create-other-window "cus-edit" "\ Create a buffer containing OPTIONS, and display it in another window. The result includes selecting that window. Optional NAME is the name of the buffer. OPTIONS should be an alist of the form ((SYMBOL WIDGET)...), where SYMBOL is a customization option, and WIDGET is a widget for editing that option. DESCRIPTION is unused. \(fn OPTIONS &optional NAME DESCRIPTION)" nil nil) (autoload 'customize-browse "cus-edit" "\ Create a tree browser for the customize hierarchy. \(fn &optional GROUP)" t nil) (defvar custom-file nil "\ File used for storing customization information. The default is nil, which means to use your init file as specified by `user-init-file'. If the value is not nil, it should be an absolute file name. You can set this option through Custom, if you carefully read the last paragraph below. However, usually it is simpler to write something like the following in your init file: \(setq custom-file \"~/.emacs-custom.el\") \(load custom-file) Note that both lines are necessary: the first line tells Custom to save all customizations in this file, but does not load it. When you change this variable outside Custom, look in the previous custom file (usually your init file) for the forms `(custom-set-variables ...)' and `(custom-set-faces ...)', and copy them (whichever ones you find) to the new custom file. This will preserve your existing customizations. If you save this option using Custom, Custom will write all currently saved customizations, including the new one for this option itself, into the file you specify, overwriting any `custom-set-variables' and `custom-set-faces' forms already present in that file. It will not delete any customizations from the old custom file. You should do that manually if that is what you want. You also have to put something like (load \"CUSTOM-FILE\") in your init file, where CUSTOM-FILE is the actual name of the file. Otherwise, Emacs will not load the file when it starts up, and hence will not set `custom-file' to that file either.") (custom-autoload 'custom-file "cus-edit" t) (autoload 'custom-save-all "cus-edit" "\ Save all customizations in `custom-file'. \(fn)" nil nil) (autoload 'customize-save-customized "cus-edit" "\ Save all user options which have been set in this session. \(fn)" t nil) (autoload 'custom-menu-create "cus-edit" "\ Create menu for customization group SYMBOL. The menu is in a format applicable to `easy-menu-define'. \(fn SYMBOL)" nil nil) (autoload 'customize-menu-create "cus-edit" "\ Return a customize menu for customization group SYMBOL. If optional NAME is given, use that as the name of the menu. Otherwise the menu will be named `Customize'. The format is suitable for use with `easy-menu-define'. \(fn SYMBOL &optional NAME)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cus-edit" '("Custom-" "custom" "widget-"))) ;;;*** ;;;### (autoloads nil "cus-theme" "cus-theme.el" (0 0 0 0)) ;;; Generated autoloads from cus-theme.el (autoload 'customize-create-theme "cus-theme" "\ Create or edit a custom theme. THEME, if non-nil, should be an existing theme to edit. If THEME is `user', the resulting *Custom Theme* buffer also contains a checkbox for removing the theme settings specified in the buffer from the Custom save file. BUFFER, if non-nil, should be a buffer to use; the default is named *Custom Theme*. \(fn &optional THEME BUFFER)" t nil) (autoload 'custom-theme-visit-theme "cus-theme" "\ Set up a Custom buffer to edit custom theme THEME. \(fn THEME)" t nil) (autoload 'describe-theme "cus-theme" "\ Display a description of the Custom theme THEME (a symbol). \(fn THEME)" t nil) (autoload 'customize-themes "cus-theme" "\ Display a selectable list of Custom themes. When called from Lisp, BUFFER should be the buffer to use; if omitted, a buffer named *Custom Themes* is used. \(fn &optional BUFFER)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cus-theme" '("custom-" "describe-theme-1"))) ;;;*** ;;;### (autoloads nil "cvs-status" "vc/cvs-status.el" (0 0 0 0)) ;;; Generated autoloads from vc/cvs-status.el (autoload 'cvs-status-mode "cvs-status" "\ Mode used for cvs status output. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cvs-status" '("cvs-"))) ;;;*** ;;;### (autoloads nil "cwarn" "progmodes/cwarn.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/cwarn.el (push (purecopy '(cwarn 1 3 1)) package--builtin-versions) (autoload 'cwarn-mode "cwarn" "\ Minor mode that highlights suspicious C and C++ constructions. Suspicious constructs are highlighted using `font-lock-warning-face'. Note, in addition to enabling this minor mode, the major mode must be included in the variable `cwarn-configuration'. By default C and C++ modes are included. With a prefix argument ARG, enable the mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. \(fn &optional ARG)" t nil) (define-obsolete-function-alias 'turn-on-cwarn-mode 'cwarn-mode "24.1") (defvar global-cwarn-mode nil "\ Non-nil if Global Cwarn mode is enabled. See the `global-cwarn-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `global-cwarn-mode'.") (custom-autoload 'global-cwarn-mode "cwarn" nil) (autoload 'global-cwarn-mode "cwarn" "\ Toggle Cwarn mode in all buffers. With prefix ARG, enable Global Cwarn mode if ARG is positive; otherwise, disable it. If called from Lisp, enable the mode if ARG is omitted or nil. Cwarn mode is enabled in all buffers where `turn-on-cwarn-mode-if-enabled' would do it. See `cwarn-mode' for more information on Cwarn mode. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cwarn" '("turn-on-cwarn-mode-if-enabled" "cwarn-"))) ;;;*** ;;;### (autoloads nil "cyril-util" "language/cyril-util.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from language/cyril-util.el (autoload 'cyrillic-encode-koi8-r-char "cyril-util" "\ Return KOI8-R external character code of CHAR if appropriate. \(fn CHAR)" nil nil) (autoload 'cyrillic-encode-alternativnyj-char "cyril-util" "\ Return ALTERNATIVNYJ external character code of CHAR if appropriate. \(fn CHAR)" nil nil) (autoload 'standard-display-cyrillic-translit "cyril-util" "\ Display a cyrillic buffer using a transliteration. For readability, the table is slightly different from the one used for the input method `cyrillic-translit'. The argument is a string which specifies which language you are using; that affects the choice of transliterations slightly. Possible values are listed in `cyrillic-language-alist'. If the argument is t, we use the default cyrillic transliteration. If the argument is nil, we return the display table to its standard state. \(fn &optional CYRILLIC-LANGUAGE)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "cyril-util" '("cyrillic-language-alist"))) ;;;*** ;;;### (autoloads nil "dabbrev" "dabbrev.el" (0 0 0 0)) ;;; Generated autoloads from dabbrev.el (put 'dabbrev-case-fold-search 'risky-local-variable t) (put 'dabbrev-case-replace 'risky-local-variable t) (define-key esc-map "/" 'dabbrev-expand) (define-key esc-map [?\C-/] 'dabbrev-completion) (autoload 'dabbrev-completion "dabbrev" "\ Completion on current word. Like \\[dabbrev-expand] but finds all expansions in the current buffer and presents suggestions for completion. With a prefix argument ARG, it searches all buffers accepted by the function pointed out by `dabbrev-friend-buffer-function' to find the completions. If the prefix argument is 16 (which comes from \\[universal-argument] \\[universal-argument]), then it searches *all* buffers. \(fn &optional ARG)" t nil) (autoload 'dabbrev-expand "dabbrev" "\ Expand previous word \"dynamically\". Expands to the most recent, preceding word for which this is a prefix. If no suitable preceding word is found, words following point are considered. If still no suitable word is found, then look in the buffers accepted by the function pointed out by variable `dabbrev-friend-buffer-function', if `dabbrev-check-other-buffers' says so. Then, if `dabbrev-check-all-buffers' is non-nil, look in all the other buffers, subject to constraints specified by `dabbrev-ignored-buffer-names' and `dabbrev-ignored-regexps'. A positive prefix argument, N, says to take the Nth backward *distinct* possibility. A negative argument says search forward. If the cursor has not moved from the end of the previous expansion and no argument is given, replace the previously-made expansion with the next possible expansion not yet tried. The variable `dabbrev-backward-only' may be used to limit the direction of search to backward if set non-nil. See also `dabbrev-abbrev-char-regexp' and \\[dabbrev-completion]. \(fn ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dabbrev" '("dabbrev-"))) ;;;*** ;;;### (autoloads nil "data-debug" "cedet/data-debug.el" (0 0 0 0)) ;;; Generated autoloads from cedet/data-debug.el (autoload 'data-debug-new-buffer "data-debug" "\ Create a new data-debug buffer with NAME. \(fn NAME)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "data-debug" '("data-debug-"))) ;;;*** ;;;### (autoloads nil "dbus" "net/dbus.el" (0 0 0 0)) ;;; Generated autoloads from net/dbus.el (autoload 'dbus-handle-event "dbus" "\ Handle events from the D-Bus. EVENT is a D-Bus event, see `dbus-check-event'. HANDLER, being part of the event, is called with arguments ARGS. If the HANDLER returns a `dbus-error', it is propagated as return message. \(fn EVENT)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dbus" '("dbus-"))) ;;;*** ;;;### (autoloads nil "dcl-mode" "progmodes/dcl-mode.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/dcl-mode.el (autoload 'dcl-mode "dcl-mode" "\ Major mode for editing DCL-files. This mode indents command lines in blocks. (A block is commands between THEN-ELSE-ENDIF and between lines matching dcl-block-begin-regexp and dcl-block-end-regexp.) Labels are indented to a fixed position unless they begin or end a block. Whole-line comments (matching dcl-comment-line-regexp) are not indented. Data lines are not indented. Key bindings: \\{dcl-mode-map} Commands not usually bound to keys: \\[dcl-save-nondefault-options] Save changed options \\[dcl-save-all-options] Save all options \\[dcl-save-option] Save any option \\[dcl-save-mode] Save buffer mode Variables controlling indentation style and extra features: dcl-basic-offset Extra indentation within blocks. dcl-continuation-offset Extra indentation for continued lines. dcl-margin-offset Indentation for the first command line in a file or SUBROUTINE. dcl-margin-label-offset Indentation for a label. dcl-comment-line-regexp Lines matching this regexp will not be indented. dcl-block-begin-regexp dcl-block-end-regexp Regexps that match command lines that begin and end, respectively, a block of command lines that will be given extra indentation. Command lines between THEN-ELSE-ENDIF are always indented; these variables make it possible to define other places to indent. Set to nil to disable this feature. dcl-calc-command-indent-function Can be set to a function that customizes indentation for command lines. Two such functions are included in the package: dcl-calc-command-indent-multiple dcl-calc-command-indent-hang dcl-calc-cont-indent-function Can be set to a function that customizes indentation for continued lines. One such function is included in the package: dcl-calc-cont-indent-relative (set by default) dcl-tab-always-indent If t, pressing TAB always indents the current line. If nil, pressing TAB indents the current line if point is at the left margin. dcl-electric-characters Non-nil causes lines to be indented at once when a label, ELSE or ENDIF is typed. dcl-electric-reindent-regexps Use this variable and function dcl-electric-character to customize which words trigger electric indentation. dcl-tempo-comma dcl-tempo-left-paren dcl-tempo-right-paren These variables control the look of expanded templates. dcl-imenu-generic-expression Default value for imenu-generic-expression. The default includes SUBROUTINE labels in the main listing and sub-listings for other labels, CALL, GOTO and GOSUB statements. dcl-imenu-label-labels dcl-imenu-label-goto dcl-imenu-label-gosub dcl-imenu-label-call Change the text that is used as sub-listing labels in imenu. Loading this package calls the value of the variable `dcl-mode-load-hook' with no args, if that value is non-nil. Turning on DCL mode calls the value of the variable `dcl-mode-hook' with no args, if that value is non-nil. The following example uses the default values for all variables: $! This is a comment line that is not indented (it matches $! dcl-comment-line-regexp) $! Next follows the first command line. It is indented dcl-margin-offset. $ i = 1 $ ! Other comments are indented like command lines. $ ! A margin label indented dcl-margin-label-offset: $ label: $ if i.eq.1 $ then $ ! Lines between THEN-ELSE and ELSE-ENDIF are $ ! indented dcl-basic-offset $ loop1: ! This matches dcl-block-begin-regexp... $ ! ...so this line is indented dcl-basic-offset $ text = \"This \" + - ! is a continued line \"lined up with the command line\" $ type sys$input Data lines are not indented at all. $ endloop1: ! This matches dcl-block-end-regexp $ endif $ There is some minimal font-lock support (see vars `dcl-font-lock-defaults' and `dcl-font-lock-keywords'). \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dcl-mode" '("dcl-"))) ;;;*** ;;;### (autoloads nil "debug" "emacs-lisp/debug.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/debug.el (setq debugger 'debug) (autoload 'debug "debug" "\ Enter debugger. \\`\\[debugger-continue]' returns from the debugger. Arguments are mainly for use when this is called from the internals of the evaluator. You may call with no args, or you may pass nil as the first arg and any other args you like. In that case, the list of args after the first will be printed into the backtrace buffer. \(fn &rest ARGS)" t nil) (autoload 'debug-on-entry "debug" "\ Request FUNCTION to invoke debugger each time it is called. When called interactively, prompt for FUNCTION in the minibuffer. This works by modifying the definition of FUNCTION. If you tell the debugger to continue, FUNCTION's execution proceeds. If FUNCTION is a normal function or a macro written in Lisp, you can also step through its execution. FUNCTION can also be a primitive that is not a special form, in which case stepping is not possible. Break-on-entry for primitive functions only works when that function is called from Lisp. Use \\[cancel-debug-on-entry] to cancel the effect of this command. Redefining FUNCTION also cancels it. \(fn FUNCTION)" t nil) (autoload 'cancel-debug-on-entry "debug" "\ Undo effect of \\[debug-on-entry] on FUNCTION. If FUNCTION is nil, cancel debug-on-entry for all functions. When called interactively, prompt for FUNCTION in the minibuffer. To specify a nil argument interactively, exit with an empty minibuffer. \(fn &optional FUNCTION)" t nil) (autoload 'debug-on-variable-change "debug" "\ Trigger a debugger invocation when VARIABLE is changed. When called interactively, prompt for VARIABLE in the minibuffer. This works by calling `add-variable-watch' on VARIABLE. If you quit from the debugger, this will abort the change (unless the change is caused by the termination of a let-binding). The watchpoint may be circumvented by C code that changes the variable directly (i.e., not via `set'). Changing the value of the variable (e.g., `setcar' on a list variable) will not trigger watchpoint. Use \\[cancel-debug-on-variable-change] to cancel the effect of this command. Uninterning VARIABLE or making it an alias of another symbol also cancels it. \(fn VARIABLE)" t nil) (defalias 'debug-watch #'debug-on-variable-change) (autoload 'cancel-debug-on-variable-change "debug" "\ Undo effect of \\[debug-on-variable-change] on VARIABLE. If VARIABLE is nil, cancel debug-on-variable-change for all variables. When called interactively, prompt for VARIABLE in the minibuffer. To specify a nil argument interactively, exit with an empty minibuffer. \(fn &optional VARIABLE)" t nil) (defalias 'cancel-debug-watch #'cancel-debug-on-variable-change) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "debug" '("debug" "inhibit-debug-on-entry"))) ;;;*** ;;;### (autoloads nil "decipher" "play/decipher.el" (0 0 0 0)) ;;; Generated autoloads from play/decipher.el (autoload 'decipher "decipher" "\ Format a buffer of ciphertext for cryptanalysis and enter Decipher mode. \(fn)" t nil) (autoload 'decipher-mode "decipher" "\ Major mode for decrypting monoalphabetic substitution ciphers. Lower-case letters enter plaintext. Upper-case letters are commands. The buffer is made read-only so that normal Emacs commands cannot modify it. The most useful commands are: \\ \\[decipher-digram-list] Display a list of all digrams & their frequency \\[decipher-frequency-count] Display the frequency of each ciphertext letter \\[decipher-adjacency-list] Show adjacency list for current letter (lists letters appearing next to it) \\[decipher-make-checkpoint] Save the current cipher alphabet (checkpoint) \\[decipher-restore-checkpoint] Restore a saved cipher alphabet (checkpoint) \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "decipher" '("decipher-"))) ;;;*** ;;;### (autoloads nil "delim-col" "delim-col.el" (0 0 0 0)) ;;; Generated autoloads from delim-col.el (push (purecopy '(delim-col 2 1)) package--builtin-versions) (autoload 'delimit-columns-customize "delim-col" "\ Customization of `columns' group. \(fn)" t nil) (autoload 'delimit-columns-region "delim-col" "\ Prettify all columns in a text region. START and END delimits the text region. \(fn START END)" t nil) (autoload 'delimit-columns-rectangle "delim-col" "\ Prettify all columns in a text rectangle. START and END delimits the corners of text rectangle. \(fn START END)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "delim-col" '("delimit-columns-"))) ;;;*** ;;;### (autoloads nil "delsel" "delsel.el" (0 0 0 0)) ;;; Generated autoloads from delsel.el (defalias 'pending-delete-mode 'delete-selection-mode) (defvar delete-selection-mode nil "\ Non-nil if Delete-Selection mode is enabled. See the `delete-selection-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `delete-selection-mode'.") (custom-autoload 'delete-selection-mode "delsel" nil) (autoload 'delete-selection-mode "delsel" "\ Toggle Delete Selection mode. Interactively, with a prefix argument, enable Delete Selection mode if the prefix argument is positive, and disable it otherwise. If called from Lisp, toggle the mode if ARG is `toggle', disable the mode if ARG is a non-positive integer, and enable the mode otherwise \(including if ARG is omitted or nil or a positive integer). When Delete Selection mode is enabled, typed text replaces the selection if the selection is active. Otherwise, typed text is just inserted at point regardless of any selection. Also, commands that normally delete just one character will delete the entire selection instead. See `delete-selection-helper' and `delete-selection-pre-hook' for information on adapting behavior of commands in Delete Selection mode. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "delsel" '("del" "minibuffer-keyboard-quit"))) ;;;*** ;;;### (autoloads nil "derived" "emacs-lisp/derived.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/derived.el (autoload 'define-derived-mode "derived" "\ Create a new mode as a variant of an existing mode. The arguments to this command are as follow: CHILD: the name of the command for the derived mode. PARENT: the name of the command for the parent mode (e.g. `text-mode') or nil if there is no parent. NAME: a string which will appear in the status line (e.g. \"Hypertext\") DOCSTRING: an optional documentation string--if you do not supply one, the function will attempt to invent something useful. BODY: forms to execute just before running the hooks for the new mode. Do not use `interactive' here. BODY can start with a bunch of keyword arguments. The following keyword arguments are currently understood: :group GROUP Declare the customization group that corresponds to this mode. The command `customize-mode' uses this. :syntax-table TABLE Use TABLE instead of the default (CHILD-syntax-table). A nil value means to simply use the same syntax-table as the parent. :abbrev-table TABLE Use TABLE instead of the default (CHILD-abbrev-table). A nil value means to simply use the same abbrev-table as the parent. :after-hook FORM A single lisp form which is evaluated after the mode hooks have been run. It should not be quoted. Here is how you could define LaTeX-Thesis mode as a variant of LaTeX mode: (define-derived-mode LaTeX-thesis-mode LaTeX-mode \"LaTeX-Thesis\") You could then make new key bindings for `LaTeX-thesis-mode-map' without changing regular LaTeX mode. In this example, BODY is empty, and DOCSTRING is generated by default. On a more complicated level, the following command uses `sgml-mode' as the parent, and then sets the variable `case-fold-search' to nil: (define-derived-mode article-mode sgml-mode \"Article\" \"Major mode for editing technical articles.\" (setq case-fold-search nil)) Note that if the documentation string had been left out, it would have been generated automatically, with a reference to the keymap. The new mode runs the hook constructed by the function `derived-mode-hook-name'. See Info node `(elisp)Derived Modes' for more details. \(fn CHILD PARENT NAME &optional DOCSTRING &rest BODY)" nil t) (function-put 'define-derived-mode 'doc-string-elt '4) (autoload 'derived-mode-init-mode-variables "derived" "\ Initialize variables for a new MODE. Right now, if they don't already exist, set up a blank keymap, an empty syntax table, and an empty abbrev table -- these will be merged the first time the mode is used. \(fn MODE)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "derived" '("derived-mode-"))) ;;;*** ;;;### (autoloads nil "descr-text" "descr-text.el" (0 0 0 0)) ;;; Generated autoloads from descr-text.el (autoload 'describe-text-properties "descr-text" "\ Describe widgets, buttons, overlays, and text properties at POS. POS is taken to be in BUFFER or in current buffer if nil. Interactively, describe them for the character after point. If optional second argument OUTPUT-BUFFER is non-nil, insert the output into that buffer, and don't initialize or clear it otherwise. \(fn POS &optional OUTPUT-BUFFER BUFFER)" t nil) (autoload 'describe-char "descr-text" "\ Describe position POS (interactively, point) and the char after POS. POS is taken to be in BUFFER, or the current buffer if BUFFER is nil. The information is displayed in buffer `*Help*'. The position information includes POS; the total size of BUFFER; the region limits, if narrowed; the column number; and the horizontal scroll amount, if the buffer is horizontally scrolled. The character information includes the character code; charset and code points in it; syntax; category; how the character is encoded in BUFFER and in BUFFER's file; character composition information (if relevant); the font and font glyphs used to display the character; the character's canonical name and other properties defined by the Unicode Data Base; and widgets, buttons, overlays, and text properties relevant to POS. \(fn POS &optional BUFFER)" t nil) (autoload 'describe-char-eldoc "descr-text" "\ Return a description of character at point for use by ElDoc mode. Return nil if character at point is a printable ASCII character (i.e. codepoint between 32 and 127 inclusively). Otherwise return a description formatted by `describe-char-eldoc--format' function taking into account value of `eldoc-echo-area-use-multiline-p' variable and width of minibuffer window for width limit. This function is meant to be used as a value of `eldoc-documentation-function' variable. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "descr-text" '("describe-"))) ;;;*** ;;;### (autoloads nil "desktop" "desktop.el" (0 0 0 0)) ;;; Generated autoloads from desktop.el (defvar desktop-save-mode nil "\ Non-nil if Desktop-Save mode is enabled. See the `desktop-save-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `desktop-save-mode'.") (custom-autoload 'desktop-save-mode "desktop" nil) (autoload 'desktop-save-mode "desktop" "\ Toggle desktop saving (Desktop Save mode). With a prefix argument ARG, enable Desktop Save mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. When Desktop Save mode is enabled, the state of Emacs is saved from one session to another. In particular, Emacs will save the desktop when it exits (this may prompt you; see the option `desktop-save'). The next time Emacs starts, if this mode is active it will restore the desktop. To manually save the desktop at any time, use the command `\\[desktop-save]'. To load it, use `\\[desktop-read]'. Once a desktop file exists, Emacs will auto-save it according to the option `desktop-auto-save-timeout'. To see all the options you can set, browse the `desktop' customization group. For further details, see info node `(emacs)Saving Emacs Sessions'. \(fn &optional ARG)" t nil) (defvar desktop-locals-to-save '(desktop-locals-to-save truncate-lines case-fold-search case-replace fill-column overwrite-mode change-log-default-name line-number-mode column-number-mode size-indication-mode buffer-file-coding-system buffer-display-time indent-tabs-mode tab-width indicate-buffer-boundaries indicate-empty-lines show-trailing-whitespace) "\ List of local variables to save for each buffer. The variables are saved only when they really are local. Conventional minor modes are restored automatically; they should not be listed here.") (custom-autoload 'desktop-locals-to-save "desktop" t) (defvar-local desktop-save-buffer nil "\ When non-nil, save buffer status in desktop file. If the value is a function, it is called by `desktop-save' with argument DESKTOP-DIRNAME to obtain auxiliary information to save in the desktop file along with the state of the buffer for which it was called. When file names are returned, they should be formatted using the call \"(desktop-file-name FILE-NAME DESKTOP-DIRNAME)\". Later, when `desktop-read' evaluates the desktop file, auxiliary information is passed as the argument DESKTOP-BUFFER-MISC to functions in `desktop-buffer-mode-handlers'.") (defvar desktop-buffer-mode-handlers nil "\ Alist of major mode specific functions to restore a desktop buffer. Functions listed are called by `desktop-create-buffer' when `desktop-read' evaluates the desktop file. List elements must have the form (MAJOR-MODE . RESTORE-BUFFER-FUNCTION). Buffers with a major mode not specified here, are restored by the default handler `desktop-restore-file-buffer'. Handlers are called with argument list (DESKTOP-BUFFER-FILE-NAME DESKTOP-BUFFER-NAME DESKTOP-BUFFER-MISC) Furthermore, they may use the following variables: `desktop-file-version' `desktop-buffer-major-mode' `desktop-buffer-minor-modes' `desktop-buffer-point' `desktop-buffer-mark' `desktop-buffer-read-only' `desktop-buffer-locals' If a handler returns a buffer, then the saved mode settings and variable values for that buffer are copied into it. Modules that define a major mode that needs a special handler should contain code like (defun foo-restore-desktop-buffer ... (add-to-list \\='desktop-buffer-mode-handlers \\='(foo-mode . foo-restore-desktop-buffer)) The major mode function must either be autoloaded, or of the form \"foobar-mode\" and defined in library \"foobar\", so that desktop can guess how to load the mode's definition.") (put 'desktop-buffer-mode-handlers 'risky-local-variable t) (defvar desktop-minor-mode-handlers nil "\ Alist of functions to restore non-standard minor modes. Functions are called by `desktop-create-buffer' to restore minor modes. List elements must have the form (MINOR-MODE . RESTORE-FUNCTION). Minor modes not specified here, are restored by the standard minor mode function. Handlers are called with argument list (DESKTOP-BUFFER-LOCALS) Furthermore, they may use the following variables: `desktop-file-version' `desktop-buffer-file-name' `desktop-buffer-name' `desktop-buffer-major-mode' `desktop-buffer-minor-modes' `desktop-buffer-point' `desktop-buffer-mark' `desktop-buffer-read-only' `desktop-buffer-misc' When a handler is called, the buffer has been created and the major mode has been set, but local variables listed in desktop-buffer-locals has not yet been created and set. Modules that define a minor mode that needs a special handler should contain code like (defun foo-desktop-restore ... (add-to-list \\='desktop-minor-mode-handlers \\='(foo-mode . foo-desktop-restore)) The minor mode function must either be autoloaded, or of the form \"foobar-mode\" and defined in library \"foobar\", so that desktop can guess how to load the mode's definition. See also `desktop-minor-mode-table'.") (put 'desktop-minor-mode-handlers 'risky-local-variable t) (autoload 'desktop-clear "desktop" "\ Empty the Desktop. This kills all buffers except for internal ones and those with names matched by a regular expression in the list `desktop-clear-preserve-buffers'. Furthermore, it clears the variables listed in `desktop-globals-to-clear'. When called interactively and `desktop-restore-frames' is non-nil, it also deletes all frames except the selected one (and its minibuffer frame, if different). \(fn)" t nil) (autoload 'desktop-save "desktop" "\ Save the desktop in a desktop file. Parameter DIRNAME specifies where to save the desktop file. Optional parameter RELEASE says whether we're done with this desktop. If ONLY-IF-CHANGED is non-nil, compare the current desktop information to that in the desktop file, and if the desktop information has not changed since it was last saved then do not rewrite the file. This function can save the desktop in either format version 208 (which only Emacs 25.1 and later can read) or version 206 (which is readable by any Emacs from version 22.1 onwards). By default, it will use the same format the desktop file had when it was last saved, or version 208 when writing a fresh desktop file. To upgrade a version 206 file to version 208, call this command explicitly with a bare prefix argument: C-u M-x desktop-save. You are recommended to do this once you have firmly upgraded to Emacs 25.1 (or later). To downgrade a version 208 file to version 206, use a double command prefix: C-u C-u M-x desktop-save. Confirmation will be requested in either case. In a non-interactive call, VERSION can be given as an integer, either 206 or 208, which will be accepted as the format version in which to save the file without further confirmation. \(fn DIRNAME &optional RELEASE ONLY-IF-CHANGED VERSION)" t nil) (autoload 'desktop-remove "desktop" "\ Delete desktop file in `desktop-dirname'. This function also sets `desktop-dirname' to nil. \(fn)" t nil) (autoload 'desktop-read "desktop" "\ Read and process the desktop file in directory DIRNAME. Look for a desktop file in DIRNAME, or if DIRNAME is omitted, look in directories listed in `desktop-path'. If a desktop file is found, it is processed and `desktop-after-read-hook' is run. If no desktop file is found, clear the desktop and run `desktop-no-desktop-file-hook'. This function is a no-op when Emacs is running in batch mode. It returns t if a desktop file was loaded, nil otherwise. \(fn &optional DIRNAME)" t nil) (autoload 'desktop-load-default "desktop" "\ Load the `default' start-up library manually. Also inhibit further loading of it. \(fn)" nil nil) (make-obsolete 'desktop-load-default 'desktop-save-mode '"22.1") (autoload 'desktop-change-dir "desktop" "\ Change to desktop saved in DIRNAME. Kill the desktop as specified by variables `desktop-save-mode' and `desktop-save', then clear the desktop and load the desktop file in directory DIRNAME. \(fn DIRNAME)" t nil) (autoload 'desktop-save-in-desktop-dir "desktop" "\ Save the desktop in directory `desktop-dirname'. \(fn)" t nil) (autoload 'desktop-revert "desktop" "\ Revert to the last loaded desktop. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "desktop" '("desktop-"))) ;;;*** ;;;### (autoloads nil "deuglify" "gnus/deuglify.el" (0 0 0 0)) ;;; Generated autoloads from gnus/deuglify.el (autoload 'gnus-article-outlook-unwrap-lines "deuglify" "\ Unwrap lines that appear to be wrapped citation lines. You can control what lines will be unwrapped by frobbing `gnus-outlook-deuglify-unwrap-min' and `gnus-outlook-deuglify-unwrap-max', indicating the minimum and maximum length of an unwrapped citation line. If NODISPLAY is non-nil, don't redisplay the article buffer. \(fn &optional NODISPLAY)" t nil) (autoload 'gnus-article-outlook-repair-attribution "deuglify" "\ Repair a broken attribution line. If NODISPLAY is non-nil, don't redisplay the article buffer. \(fn &optional NODISPLAY)" t nil) (autoload 'gnus-outlook-deuglify-article "deuglify" "\ Full deuglify of broken Outlook (Express) articles. Treat dumbquotes, unwrap lines, repair attribution and rearrange citation. If NODISPLAY is non-nil, don't redisplay the article buffer. \(fn &optional NODISPLAY)" t nil) (autoload 'gnus-article-outlook-deuglify-article "deuglify" "\ Deuglify broken Outlook (Express) articles and redisplay. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "deuglify" '("gnus-"))) ;;;*** ;;;### (autoloads nil "dframe" "dframe.el" (0 0 0 0)) ;;; Generated autoloads from dframe.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dframe" '("dframe-"))) ;;;*** ;;;### (autoloads nil "diary-lib" "calendar/diary-lib.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from calendar/diary-lib.el (autoload 'diary "diary-lib" "\ Generate the diary window for ARG days starting with the current date. If no argument is provided, the number of days of diary entries is governed by the variable `diary-number-of-entries'. A value of ARG less than 1 does nothing. This function is suitable for execution in an init file. \(fn &optional ARG)" t nil) (autoload 'diary-mail-entries "diary-lib" "\ Send a mail message showing diary entries for next NDAYS days. If no prefix argument is given, NDAYS is set to `diary-mail-days'. Mail is sent to the address specified by `diary-mail-addr'. Here is an example of a script to call `diary-mail-entries', suitable for regular scheduling using cron (or at). Note that since `emacs -script' does not load your init file, you should ensure that all relevant variables are set. #!/usr/bin/emacs -script ;; diary-rem.el - run the Emacs diary-reminder \(setq diary-mail-days 3 diary-file \"/path/to/diary.file\" calendar-date-style \\='european diary-mail-addr \"user@host.name\") \(diary-mail-entries) # diary-rem.el ends here \(fn &optional NDAYS)" t nil) (autoload 'diary-mode "diary-lib" "\ Major mode for editing the diary file. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "diary-lib" '("diary-" "calendar-mark-"))) ;;;*** ;;;### (autoloads nil "diff" "vc/diff.el" (0 0 0 0)) ;;; Generated autoloads from vc/diff.el (defvar diff-switches (purecopy "-u") "\ A string or list of strings specifying switches to be passed to diff.") (custom-autoload 'diff-switches "diff" t) (defvar diff-command (purecopy "diff") "\ The command to use to run diff.") (custom-autoload 'diff-command "diff" t) (autoload 'diff "diff" "\ Find and display the differences between OLD and NEW files. When called interactively, read NEW, then OLD, using the minibuffer. The default for NEW is the current buffer's file name, and the default for OLD is a backup file for NEW, if one exists. If NO-ASYNC is non-nil, call diff synchronously. When called interactively with a prefix argument, prompt interactively for diff switches. Otherwise, the switches specified in the variable `diff-switches' are passed to the diff command. \(fn OLD NEW &optional SWITCHES NO-ASYNC)" t nil) (autoload 'diff-backup "diff" "\ Diff this file with its backup file or vice versa. Uses the latest backup, if there are several numerical backups. If this file is a backup, diff it with its original. The backup file is the first file given to `diff'. With prefix arg, prompt for diff switches. \(fn FILE &optional SWITCHES)" t nil) (autoload 'diff-latest-backup-file "diff" "\ Return the latest existing backup of FILE, or nil. \(fn FN)" nil nil) (autoload 'diff-buffer-with-file "diff" "\ View the differences between BUFFER and its associated file. This requires the external program `diff' to be in your `exec-path'. \(fn &optional BUFFER)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "diff" '("diff-"))) ;;;*** ;;;### (autoloads nil "diff-mode" "vc/diff-mode.el" (0 0 0 0)) ;;; Generated autoloads from vc/diff-mode.el (autoload 'diff-mode "diff-mode" "\ Major mode for viewing/editing context diffs. Supports unified and context diffs as well as (to a lesser extent) normal diffs. When the buffer is read-only, the ESC prefix is not necessary. If you edit the buffer manually, diff-mode will try to update the hunk headers for you on-the-fly. You can also switch between context diff and unified diff with \\[diff-context->unified], or vice versa with \\[diff-unified->context] and you can also reverse the direction of a diff with \\[diff-reverse-direction]. \\{diff-mode-map} \(fn)" t nil) (autoload 'diff-minor-mode "diff-mode" "\ Toggle Diff minor mode. With a prefix argument ARG, enable Diff minor mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. \\{diff-minor-mode-map} \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "diff-mode" '("diff-"))) ;;;*** ;;;### (autoloads nil "dig" "net/dig.el" (0 0 0 0)) ;;; Generated autoloads from net/dig.el (autoload 'dig "dig" "\ Query addresses of a DOMAIN using dig, by calling `dig-invoke'. Optional arguments are passed to `dig-invoke'. \(fn DOMAIN &optional QUERY-TYPE QUERY-CLASS QUERY-OPTION DIG-OPTION SERVER)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dig" '("query-dig" "dig-"))) ;;;*** ;;;### (autoloads nil "dired" "dired.el" (0 0 0 0)) ;;; Generated autoloads from dired.el (defvar dired-listing-switches (purecopy "-al") "\ Switches passed to `ls' for Dired. MUST contain the `l' option. May contain all other options that don't contradict `-l'; may contain even `F', `b', `i' and `s'. See also the variable `dired-ls-F-marks-symlinks' concerning the `F' switch. Options that include embedded whitespace must be quoted like this: \"--option=value with spaces\"; you can use `combine-and-quote-strings' to produce the correct quoting of each option. On systems such as MS-DOS and MS-Windows, which use `ls' emulation in Lisp, some of the `ls' switches are not supported; see the doc string of `insert-directory' in `ls-lisp.el' for more details.") (custom-autoload 'dired-listing-switches "dired" t) (defvar dired-directory nil "\ The directory name or wildcard spec that this Dired directory lists. Local to each Dired buffer. May be a list, in which case the car is the directory name and the cdr is the list of files to mention. The directory name must be absolute, but need not be fully expanded.") (define-key ctl-x-map "d" 'dired) (autoload 'dired "dired" "\ \"Edit\" directory DIRNAME--delete, rename, print, etc. some files in it. Optional second argument SWITCHES specifies the `ls' options used. \(Interactively, use a prefix argument to be able to specify SWITCHES.) If DIRNAME is a string, Dired displays a list of files in DIRNAME (which may also have shell wildcards appended to select certain files). If DIRNAME is a cons, its first element is taken as the directory name and the rest as an explicit list of files to make directory entries for. In this case, SWITCHES are applied to each of the files separately, and therefore switches that control the order of the files in the produced listing have no effect. \\You can flag files for deletion with \\[dired-flag-file-deletion] and then delete them by typing \\[dired-do-flagged-delete]. Type \\[describe-mode] after entering Dired for more info. If DIRNAME is already in a Dired buffer, that buffer is used without refresh. \(fn DIRNAME &optional SWITCHES)" t nil) (define-key ctl-x-4-map "d" 'dired-other-window) (autoload 'dired-other-window "dired" "\ \"Edit\" directory DIRNAME. Like `dired' but selects in another window. \(fn DIRNAME &optional SWITCHES)" t nil) (define-key ctl-x-5-map "d" 'dired-other-frame) (autoload 'dired-other-frame "dired" "\ \"Edit\" directory DIRNAME. Like `dired' but makes a new frame. \(fn DIRNAME &optional SWITCHES)" t nil) (autoload 'dired-noselect "dired" "\ Like `dired' but returns the Dired buffer as value, does not select it. \(fn DIR-OR-LIST &optional SWITCHES)" nil nil) (autoload 'dired-mode "dired" "\ Mode for \"editing\" directory listings. In Dired, you are \"editing\" a list of the files in a directory and (optionally) its subdirectories, in the format of `ls -lR'. Each directory is a page: use \\[backward-page] and \\[forward-page] to move pagewise. \"Editing\" means that you can run shell commands on files, visit, compress, load or byte-compile them, change their file attributes and insert subdirectories into the same buffer. You can \"mark\" files for later commands or \"flag\" them for deletion, either file by file or all files matching certain criteria. You can move using the usual cursor motion commands.\\ The buffer is read-only. Digits are prefix arguments. Type \\[dired-flag-file-deletion] to flag a file `D' for deletion. Type \\[dired-mark] to Mark a file or subdirectory for later commands. Most commands operate on the marked files and use the current file if no files are marked. Use a numeric prefix argument to operate on the next ARG (or previous -ARG if ARG<0) files, or just `1' to operate on the current file only. Prefix arguments override marks. Mark-using commands display a list of failures afterwards. Type \\[dired-summary] to see why something went wrong. Type \\[dired-unmark] to Unmark a file or all files of an inserted subdirectory. Type \\[dired-unmark-backward] to back up one line and unmark or unflag. Type \\[dired-do-flagged-delete] to delete (eXpunge) the files flagged `D'. Type \\[dired-find-file] to Find the current line's file (or dired it in another buffer, if it is a directory). Type \\[dired-find-file-other-window] to find file or Dired directory in Other window. Type \\[dired-maybe-insert-subdir] to Insert a subdirectory in this buffer. Type \\[dired-do-rename] to Rename a file or move the marked files to another directory. Type \\[dired-do-copy] to Copy files. Type \\[dired-sort-toggle-or-edit] to toggle Sorting by name/date or change the `ls' switches. Type \\[revert-buffer] to read all currently expanded directories aGain. This retains all marks and hides subdirs again that were hidden before. Use `SPC' and `DEL' to move down and up by lines. If Dired ever gets confused, you can either type \\[revert-buffer] to read the directories again, type \\[dired-do-redisplay] to relist the file at point or the marked files or a subdirectory, or type \\[dired-build-subdir-alist] to parse the buffer again for the directory tree. Customization variables (rename this buffer and type \\[describe-variable] on each line for more info): `dired-listing-switches' `dired-trivial-filenames' `dired-marker-char' `dired-del-marker' `dired-keep-marker-rename' `dired-keep-marker-copy' `dired-keep-marker-hardlink' `dired-keep-marker-symlink' Hooks (use \\[describe-variable] to see their documentation): `dired-before-readin-hook' `dired-after-readin-hook' `dired-mode-hook' `dired-load-hook' Keybindings: \\{dired-mode-map} \(fn &optional DIRNAME SWITCHES)" nil nil) (put 'dired-find-alternate-file 'disabled t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dired" '("dired-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "dired-aux" "dired-aux.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from dired-aux.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dired-aux" '("dired-" "minibuffer-default-add-dired-shell-commands"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "dired-x" "dired-x.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from dired-x.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dired-x" '("dired-" "virtual-dired"))) ;;;*** ;;;### (autoloads nil "dirtrack" "dirtrack.el" (0 0 0 0)) ;;; Generated autoloads from dirtrack.el (autoload 'dirtrack-mode "dirtrack" "\ Toggle directory tracking in shell buffers (Dirtrack mode). With a prefix argument ARG, enable Dirtrack mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. This method requires that your shell prompt contain the current working directory at all times, and that you set the variable `dirtrack-list' to match the prompt. This is an alternative to `shell-dirtrack-mode', which works by tracking `cd' and similar commands which change the shell working directory. \(fn &optional ARG)" t nil) (autoload 'dirtrack "dirtrack" "\ Determine the current directory from the process output for a prompt. This filter function is used by `dirtrack-mode'. It looks for the prompt specified by `dirtrack-list', and calls `shell-process-cd' if the directory seems to have changed away from `default-directory'. \(fn INPUT)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dirtrack" '("dirtrack-"))) ;;;*** ;;;### (autoloads nil "disass" "emacs-lisp/disass.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/disass.el (autoload 'disassemble "disass" "\ Print disassembled code for OBJECT in (optional) BUFFER. OBJECT can be a symbol defined as a function, or a function itself \(a lambda expression or a compiled-function object). If OBJECT is not already compiled, we compile it, but do not redefine OBJECT if it is a symbol. \(fn OBJECT &optional BUFFER INDENT INTERACTIVE-P)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "disass" '("disassemble-"))) ;;;*** ;;;### (autoloads nil "disp-table" "disp-table.el" (0 0 0 0)) ;;; Generated autoloads from disp-table.el (autoload 'make-display-table "disp-table" "\ Return a new, empty display table. \(fn)" nil nil) (autoload 'display-table-slot "disp-table" "\ Return the value of the extra slot in DISPLAY-TABLE named SLOT. SLOT may be a number from 0 to 5 inclusive, or a slot name (symbol). Valid symbols are `truncation', `wrap', `escape', `control', `selective-display', and `vertical-border'. \(fn DISPLAY-TABLE SLOT)" nil nil) (autoload 'set-display-table-slot "disp-table" "\ Set the value of the extra slot in DISPLAY-TABLE named SLOT to VALUE. SLOT may be a number from 0 to 5 inclusive, or a name (symbol). Valid symbols are `truncation', `wrap', `escape', `control', `selective-display', and `vertical-border'. \(fn DISPLAY-TABLE SLOT VALUE)" nil nil) (autoload 'describe-display-table "disp-table" "\ Describe the display table DT in a help buffer. \(fn DT)" nil nil) (autoload 'describe-current-display-table "disp-table" "\ Describe the display table in use in the selected window and buffer. \(fn)" t nil) (autoload 'standard-display-8bit "disp-table" "\ Display characters representing raw bytes in the range L to H literally. On a terminal display, each character in the range is displayed by sending the corresponding byte directly to the terminal. On a graphic display, each character in the range is displayed using the default font by a glyph whose code is the corresponding byte. Note that ASCII printable characters (SPC to TILDA) are displayed in the default way after this call. \(fn L H)" nil nil) (autoload 'standard-display-default "disp-table" "\ Display characters in the range L to H using the default notation. \(fn L H)" nil nil) (autoload 'standard-display-ascii "disp-table" "\ Display character C using printable string S. \(fn C S)" nil nil) (autoload 'standard-display-g1 "disp-table" "\ Display character C as character SC in the g1 character set. This function assumes that your terminal uses the SO/SI characters; it is meaningless for an X frame. \(fn C SC)" nil nil) (autoload 'standard-display-graphic "disp-table" "\ Display character C as character GC in graphics character set. This function assumes VT100-compatible escapes; it is meaningless for an X frame. \(fn C GC)" nil nil) (autoload 'standard-display-underline "disp-table" "\ Display character C as character UC plus underlining. \(fn C UC)" nil nil) (autoload 'create-glyph "disp-table" "\ Allocate a glyph code to display by sending STRING to the terminal. \(fn STRING)" nil nil) (autoload 'make-glyph-code "disp-table" "\ Return a glyph code representing char CHAR with face FACE. \(fn CHAR &optional FACE)" nil nil) (autoload 'glyph-char "disp-table" "\ Return the character of glyph code GLYPH. \(fn GLYPH)" nil nil) (autoload 'glyph-face "disp-table" "\ Return the face of glyph code GLYPH, or nil if glyph has default face. \(fn GLYPH)" nil nil) (autoload 'standard-display-european "disp-table" "\ Semi-obsolete way to toggle display of ISO 8859 European characters. This function is semi-obsolete; you probably don't need it, or else you probably should use `set-language-environment' or `set-locale-environment'. This function enables European character display if ARG is positive, disables it if negative. Otherwise, it toggles European character display. When this mode is enabled, characters in the range of 160 to 255 display not as octal escapes, but as accented characters. Codes 146 and 160 display as apostrophe and space, even though they are not the ASCII codes for apostrophe and space. Enabling European character display with this command noninteractively from Lisp code also selects Latin-1 as the language environment. This provides increased compatibility for users who call this function in `.emacs'. \(fn ARG)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "disp-table" '("display-table-print-array"))) ;;;*** ;;;### (autoloads nil "display-line-numbers" "display-line-numbers.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from display-line-numbers.el (autoload 'display-line-numbers-mode "display-line-numbers" "\ Toggle display of line numbers in the buffer. This uses `display-line-numbers' internally. To change the type of line numbers displayed by default, customize `display-line-numbers-type'. To change the type while the mode is on, set `display-line-numbers' directly. \(fn &optional ARG)" t nil) (defvar global-display-line-numbers-mode nil "\ Non-nil if Global Display-Line-Numbers mode is enabled. See the `global-display-line-numbers-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `global-display-line-numbers-mode'.") (custom-autoload 'global-display-line-numbers-mode "display-line-numbers" nil) (autoload 'global-display-line-numbers-mode "display-line-numbers" "\ Toggle Display-Line-Numbers mode in all buffers. With prefix ARG, enable Global Display-Line-Numbers mode if ARG is positive; otherwise, disable it. If called from Lisp, enable the mode if ARG is omitted or nil. Display-Line-Numbers mode is enabled in all buffers where `display-line-numbers--turn-on' would do it. See `display-line-numbers-mode' for more information on Display-Line-Numbers mode. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "display-line-numbers" '("display-line-numbers-"))) ;;;*** ;;;### (autoloads nil "dissociate" "play/dissociate.el" (0 0 0 0)) ;;; Generated autoloads from play/dissociate.el (autoload 'dissociated-press "dissociate" "\ Dissociate the text of the current buffer. Output goes in buffer named *Dissociation*, which is redisplayed each time text is added to it. Every so often the user must say whether to continue. If ARG is positive, require ARG chars of continuity. If ARG is negative, require -ARG words of continuity. Default is 2. \(fn &optional ARG)" t nil) ;;;*** ;;;### (autoloads nil "dnd" "dnd.el" (0 0 0 0)) ;;; Generated autoloads from dnd.el (defvar dnd-protocol-alist `((,(purecopy "^file:///") . dnd-open-local-file) (,(purecopy "^file://") . dnd-open-file) (,(purecopy "^file:") . dnd-open-local-file) (,(purecopy "^\\(https?\\|ftp\\|file\\|nfs\\)://") . dnd-open-file)) "\ The functions to call for different protocols when a drop is made. This variable is used by `dnd-handle-one-url' and `dnd-handle-file-name'. The list contains of (REGEXP . FUNCTION) pairs. The functions shall take two arguments, URL, which is the URL dropped and ACTION which is the action to be performed for the drop (move, copy, link, private or ask). If no match is found here, and the value of `browse-url-browser-function' is a pair of (REGEXP . FUNCTION), those regexps are tried for a match. If no match is found, the URL is inserted as text by calling `dnd-insert-text'. The function shall return the action done (move, copy, link or private) if some action was made, or nil if the URL is ignored.") (custom-autoload 'dnd-protocol-alist "dnd" t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dnd" '("dnd-"))) ;;;*** ;;;### (autoloads nil "dns" "net/dns.el" (0 0 0 0)) ;;; Generated autoloads from net/dns.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dns" '("dns-"))) ;;;*** ;;;### (autoloads nil "dns-mode" "textmodes/dns-mode.el" (0 0 0 0)) ;;; Generated autoloads from textmodes/dns-mode.el (autoload 'dns-mode "dns-mode" "\ Major mode for viewing and editing DNS master files. This mode is inherited from text mode. It add syntax highlighting, and some commands for handling DNS master files. Its keymap inherits from `text-mode' and it has the same variables for customizing indentation. It has its own abbrev table and its own syntax table. Turning on DNS mode runs `dns-mode-hook'. \(fn)" t nil) (defalias 'zone-mode 'dns-mode) (autoload 'dns-mode-soa-increment-serial "dns-mode" "\ Locate SOA record and increment the serial field. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dns-mode" '("dns-mode-"))) ;;;*** ;;;### (autoloads nil "doc-view" "doc-view.el" (0 0 0 0)) ;;; Generated autoloads from doc-view.el (autoload 'doc-view-mode-p "doc-view" "\ Return non-nil if document type TYPE is available for `doc-view'. Document types are symbols like `dvi', `ps', `pdf', or `odf' (any OpenDocument format). \(fn TYPE)" nil nil) (autoload 'doc-view-mode "doc-view" "\ Major mode in DocView buffers. DocView Mode is an Emacs document viewer. It displays PDF, PS and DVI files (as PNG images) in Emacs buffers. You can use \\\\[doc-view-toggle-display] to toggle between displaying the document or editing it as text. \\{doc-view-mode-map} \(fn)" t nil) (autoload 'doc-view-mode-maybe "doc-view" "\ Switch to `doc-view-mode' if possible. If the required external tools are not available, then fallback to the next best mode. \(fn)" nil nil) (autoload 'doc-view-minor-mode "doc-view" "\ Toggle displaying buffer via Doc View (Doc View minor mode). With a prefix argument ARG, enable Doc View minor mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. See the command `doc-view-mode' for more information on this mode. \(fn &optional ARG)" t nil) (autoload 'doc-view-bookmark-jump "doc-view" "\ \(fn BMK)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "doc-view" '("doc-view-"))) ;;;*** ;;;### (autoloads nil "doctor" "play/doctor.el" (0 0 0 0)) ;;; Generated autoloads from play/doctor.el (autoload 'doctor "doctor" "\ Switch to *doctor* buffer and start giving psychotherapy. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "doctor" '("doc" "make-doctor-variables"))) ;;;*** ;;;### (autoloads nil "dom" "dom.el" (0 0 0 0)) ;;; Generated autoloads from dom.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dom" '("dom-"))) ;;;*** ;;;### (autoloads nil "dos-fns" "dos-fns.el" (0 0 0 0)) ;;; Generated autoloads from dos-fns.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dos-fns" '("dos"))) ;;;*** ;;;### (autoloads nil "dos-vars" "dos-vars.el" (0 0 0 0)) ;;; Generated autoloads from dos-vars.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dos-vars" '("dos-codepage-setup-hook" "msdos-shells"))) ;;;*** ;;;### (autoloads nil "dos-w32" "dos-w32.el" (0 0 0 0)) ;;; Generated autoloads from dos-w32.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dos-w32" '("w32-" "file-name-buffer-file-type-alist" "find-"))) ;;;*** ;;;### (autoloads nil "double" "double.el" (0 0 0 0)) ;;; Generated autoloads from double.el (autoload 'double-mode "double" "\ Toggle special insertion on double keypresses (Double mode). With a prefix argument ARG, enable Double mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. When Double mode is enabled, some keys will insert different strings when pressed twice. See `double-map' for details. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "double" '("double-"))) ;;;*** ;;;### (autoloads nil "dunnet" "play/dunnet.el" (0 0 0 0)) ;;; Generated autoloads from play/dunnet.el (push (purecopy '(dunnet 2 2)) package--builtin-versions) (autoload 'dunnet "dunnet" "\ Switch to *dungeon* buffer and start game. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dunnet" '("dun" "obj-special"))) ;;;*** ;;;### (autoloads nil "dynamic-setting" "dynamic-setting.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from dynamic-setting.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "dynamic-setting" '("dynamic-setting-handle-config-changed-event" "font-setting-change-default-font"))) ;;;*** ;;;### (autoloads nil "easy-mmode" "emacs-lisp/easy-mmode.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from emacs-lisp/easy-mmode.el (defalias 'easy-mmode-define-minor-mode 'define-minor-mode) (autoload 'define-minor-mode "easy-mmode" "\ Define a new minor mode MODE. This defines the toggle command MODE and (by default) a control variable MODE (you can override this with the :variable keyword, see below). DOC is the documentation for the mode toggle command. The defined mode command takes one optional (prefix) argument. Interactively with no prefix argument, it toggles the mode. A prefix argument enables the mode if the argument is positive, and disables it otherwise. When called from Lisp, the mode command toggles the mode if the argument is `toggle', disables the mode if the argument is a non-positive integer, and enables the mode otherwise (including if the argument is omitted or nil or a positive integer). If DOC is nil, give the mode command a basic doc-string documenting what its argument does. Optional INIT-VALUE is the initial value of the mode's variable. Optional LIGHTER is displayed in the mode line when the mode is on. Optional KEYMAP is the default keymap bound to the mode keymap. If non-nil, it should be a variable name (whose value is a keymap), or an expression that returns either a keymap or a list of (KEY . BINDING) pairs where KEY and BINDING are suitable for `define-key'. If you supply a KEYMAP argument that is not a symbol, this macro defines the variable MODE-map and gives it the value that KEYMAP specifies. BODY contains code to execute each time the mode is enabled or disabled. It is executed after toggling the mode, and before running MODE-hook. Before the actual body code, you can write keyword arguments, i.e. alternating keywords and values. If you provide BODY, then you must provide (even if just nil) INIT-VALUE, LIGHTER, and KEYMAP, or provide at least one keyword argument, or both; otherwise, BODY would be misinterpreted as the first omitted argument. The following special keywords are supported (other keywords are passed to `defcustom' if the minor mode is global): :group GROUP Custom group name to use in all generated `defcustom' forms. Defaults to MODE without the possible trailing \"-mode\". Don't use this default group name unless you have written a `defgroup' to define that group properly. :global GLOBAL If non-nil specifies that the minor mode is not meant to be buffer-local, so don't make the variable MODE buffer-local. By default, the mode is buffer-local. :init-value VAL Same as the INIT-VALUE argument. Not used if you also specify :variable. :lighter SPEC Same as the LIGHTER argument. :keymap MAP Same as the KEYMAP argument. :require SYM Same as in `defcustom'. :variable PLACE The location to use instead of the variable MODE to store the state of the mode. This can be simply a different named variable, or a generalized variable. PLACE can also be of the form (GET . SET), where GET is an expression that returns the current state, and SET is a function that takes one argument, the new state, and sets it. If you specify a :variable, this function does not define a MODE variable (nor any of the terms used in :variable). :after-hook A single lisp form which is evaluated after the mode hooks have been run. It should not be quoted. For example, you could write (define-minor-mode foo-mode \"If enabled, foo on you!\" :lighter \" Foo\" :require \\='foo :global t :group \\='hassle :version \"27.5\" ...BODY CODE...) \(fn MODE DOC &optional INIT-VALUE LIGHTER KEYMAP &rest BODY)" nil t) (function-put 'define-minor-mode 'doc-string-elt '2) (defalias 'easy-mmode-define-global-mode 'define-globalized-minor-mode) (defalias 'define-global-minor-mode 'define-globalized-minor-mode) (autoload 'define-globalized-minor-mode "easy-mmode" "\ Make a global mode GLOBAL-MODE corresponding to buffer-local minor MODE. TURN-ON is a function that will be called with no args in every buffer and that should try to turn MODE on if applicable for that buffer. KEYS is a list of CL-style keyword arguments. As the minor mode defined by this function is always global, any :global keyword is ignored. Other keywords have the same meaning as in `define-minor-mode', which see. In particular, :group specifies the custom group. The most useful keywords are those that are passed on to the `defcustom'. It normally makes no sense to pass the :lighter or :keymap keywords to `define-globalized-minor-mode', since these are usually passed to the buffer-local version of the minor mode. If MODE's set-up depends on the major mode in effect when it was enabled, then disabling and reenabling MODE should make MODE work correctly with the current major mode. This is important to prevent problems with derived modes, that is, major modes that call another major mode in their body. When a major mode is initialized, MODE is actually turned on just after running the major mode's hook. However, MODE is not turned on if the hook has explicitly disabled it. \(fn GLOBAL-MODE MODE TURN-ON &rest KEYS)" nil t) (function-put 'define-globalized-minor-mode 'doc-string-elt '2) (autoload 'easy-mmode-define-keymap "easy-mmode" "\ Return a keymap built from bindings BS. BS must be a list of (KEY . BINDING) where KEY and BINDINGS are suitable for `define-key'. Optional NAME is passed to `make-sparse-keymap'. Optional map M can be used to modify an existing map. ARGS is a list of additional keyword arguments. Valid keywords and arguments are: :name Name of the keymap; overrides NAME argument. :dense Non-nil for a dense keymap. :inherit Parent keymap. :group Ignored. :suppress Non-nil to call `suppress-keymap' on keymap, `nodigits' to suppress digits as prefix arguments. \(fn BS &optional NAME M ARGS)" nil nil) (autoload 'easy-mmode-defmap "easy-mmode" "\ Define a constant M whose value is the result of `easy-mmode-define-keymap'. The M, BS, and ARGS arguments are as per that function. DOC is the constant's documentation. \(fn M BS DOC &rest ARGS)" nil t) (function-put 'easy-mmode-defmap 'lisp-indent-function '1) (autoload 'easy-mmode-defsyntax "easy-mmode" "\ Define variable ST as a syntax-table. CSS contains a list of syntax specifications of the form (CHAR . SYNTAX). \(fn ST CSS DOC &rest ARGS)" nil t) (function-put 'easy-mmode-defsyntax 'lisp-indent-function '1) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "easy-mmode" '("easy-mmode-"))) ;;;*** ;;;### (autoloads nil "easymenu" "emacs-lisp/easymenu.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from emacs-lisp/easymenu.el (autoload 'easy-menu-define "easymenu" "\ Define a pop-up menu and/or menu bar menu specified by MENU. If SYMBOL is non-nil, define SYMBOL as a function to pop up the submenu defined by MENU, with DOC as its doc string. MAPS, if non-nil, should be a keymap or a list of keymaps; add the submenu defined by MENU to the keymap or each of the keymaps, as a top-level menu bar item. The first element of MENU must be a string. It is the menu bar item name. It may be followed by the following keyword argument pairs: :filter FUNCTION FUNCTION must be a function which, if called with one argument---the list of the other menu items---returns the items to actually display. :visible INCLUDE INCLUDE is an expression. The menu is visible if the expression evaluates to a non-nil value. `:included' is an alias for `:visible'. :active ENABLE ENABLE is an expression. The menu is enabled for selection if the expression evaluates to a non-nil value. `:enable' is an alias for `:active'. The rest of the elements in MENU are menu items. A menu item can be a vector of three elements: [NAME CALLBACK ENABLE] NAME is a string--the menu item name. CALLBACK is a command to run when the item is chosen, or an expression to evaluate when the item is chosen. ENABLE is an expression; the item is enabled for selection if the expression evaluates to a non-nil value. Alternatively, a menu item may have the form: [ NAME CALLBACK [ KEYWORD ARG ]... ] where NAME and CALLBACK have the same meanings as above, and each optional KEYWORD and ARG pair should be one of the following: :keys KEYS KEYS is a string; a keyboard equivalent to the menu item. This is normally not needed because keyboard equivalents are usually computed automatically. KEYS is expanded with `substitute-command-keys' before it is used. :key-sequence KEYS KEYS is a hint for speeding up Emacs's first display of the menu. It should be nil if you know that the menu item has no keyboard equivalent; otherwise it should be a string or vector specifying a keyboard equivalent for the menu item. :active ENABLE ENABLE is an expression; the item is enabled for selection whenever this expression's value is non-nil. `:enable' is an alias for `:active'. :visible INCLUDE INCLUDE is an expression; this item is only visible if this expression has a non-nil value. `:included' is an alias for `:visible'. :label FORM FORM is an expression that is dynamically evaluated and whose value serves as the menu item's label (the default is NAME). :suffix FORM FORM is an expression that is dynamically evaluated and whose value is concatenated with the menu entry's label. :style STYLE STYLE is a symbol describing the type of menu item; it should be `toggle' (a checkbox), or `radio' (a radio button), or any other value (meaning an ordinary menu item). :selected SELECTED SELECTED is an expression; the checkbox or radio button is selected whenever the expression's value is non-nil. :help HELP HELP is a string, the help to display for the menu item. Alternatively, a menu item can be a string. Then that string appears in the menu as unselectable text. A string consisting solely of dashes is displayed as a menu separator. Alternatively, a menu item can be a list with the same format as MENU. This is a submenu. \(fn SYMBOL MAPS DOC MENU)" nil t) (function-put 'easy-menu-define 'lisp-indent-function 'defun) (autoload 'easy-menu-do-define "easymenu" "\ \(fn SYMBOL MAPS DOC MENU)" nil nil) (autoload 'easy-menu-create-menu "easymenu" "\ Create a menu called MENU-NAME with items described in MENU-ITEMS. MENU-NAME is a string, the name of the menu. MENU-ITEMS is a list of items possibly preceded by keyword pairs as described in `easy-menu-define'. \(fn MENU-NAME MENU-ITEMS)" nil nil) (autoload 'easy-menu-change "easymenu" "\ Change menu found at PATH as item NAME to contain ITEMS. PATH is a list of strings for locating the menu that should contain a submenu named NAME. ITEMS is a list of menu items, as in `easy-menu-define'. These items entirely replace the previous items in that submenu. If MAP is specified, it should normally be a keymap; nil stands for the local menu-bar keymap. It can also be a symbol, which has earlier been used as the first argument in a call to `easy-menu-define', or the value of such a symbol. If the menu located by PATH has no submenu named NAME, add one. If the optional argument BEFORE is present, add it just before the submenu named BEFORE, otherwise add it at the end of the menu. To implement dynamic menus, either call this from `menu-bar-update-hook' or use a menu filter. \(fn PATH NAME ITEMS &optional BEFORE MAP)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "easymenu" '("easy-menu-" "add-submenu"))) ;;;*** ;;;### (autoloads nil "ebnf-abn" "progmodes/ebnf-abn.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/ebnf-abn.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ebnf-abn" '("ebnf-abn-"))) ;;;*** ;;;### (autoloads nil "ebnf-bnf" "progmodes/ebnf-bnf.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/ebnf-bnf.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ebnf-bnf" '("ebnf-"))) ;;;*** ;;;### (autoloads nil "ebnf-dtd" "progmodes/ebnf-dtd.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/ebnf-dtd.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ebnf-dtd" '("ebnf-dtd-"))) ;;;*** ;;;### (autoloads nil "ebnf-ebx" "progmodes/ebnf-ebx.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/ebnf-ebx.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ebnf-ebx" '("ebnf-ebx-"))) ;;;*** ;;;### (autoloads nil "ebnf-iso" "progmodes/ebnf-iso.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/ebnf-iso.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ebnf-iso" '("ebnf-"))) ;;;*** ;;;### (autoloads nil "ebnf-otz" "progmodes/ebnf-otz.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/ebnf-otz.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ebnf-otz" '("ebnf-"))) ;;;*** ;;;### (autoloads nil "ebnf-yac" "progmodes/ebnf-yac.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/ebnf-yac.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ebnf-yac" '("ebnf-yac-"))) ;;;*** ;;;### (autoloads nil "ebnf2ps" "progmodes/ebnf2ps.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/ebnf2ps.el (push (purecopy '(ebnf2ps 4 4)) package--builtin-versions) (autoload 'ebnf-customize "ebnf2ps" "\ Customization for ebnf group. \(fn)" t nil) (autoload 'ebnf-print-directory "ebnf2ps" "\ Generate and print a PostScript syntactic chart image of DIRECTORY. If DIRECTORY is nil, it's used `default-directory'. The files in DIRECTORY that matches `ebnf-file-suffix-regexp' (which see) are processed. See also `ebnf-print-buffer'. \(fn &optional DIRECTORY)" t nil) (autoload 'ebnf-print-file "ebnf2ps" "\ Generate and print a PostScript syntactic chart image of the file FILE. If optional arg DO-NOT-KILL-BUFFER-WHEN-DONE is non-nil, the buffer isn't killed after process termination. See also `ebnf-print-buffer'. \(fn FILE &optional DO-NOT-KILL-BUFFER-WHEN-DONE)" t nil) (autoload 'ebnf-print-buffer "ebnf2ps" "\ Generate and print a PostScript syntactic chart image of the buffer. When called with a numeric prefix argument (\\[universal-argument]), prompts the user for the name of a file to save the PostScript image in, instead of sending it to the printer. More specifically, the FILENAME argument is treated as follows: if it is nil, send the image to the printer. If FILENAME is a string, save the PostScript image in a file with that name. If FILENAME is a number, prompt the user for the name of the file to save in. \(fn &optional FILENAME)" t nil) (autoload 'ebnf-print-region "ebnf2ps" "\ Generate and print a PostScript syntactic chart image of the region. Like `ebnf-print-buffer', but prints just the current region. \(fn FROM TO &optional FILENAME)" t nil) (autoload 'ebnf-spool-directory "ebnf2ps" "\ Generate and spool a PostScript syntactic chart image of DIRECTORY. If DIRECTORY is nil, it's used `default-directory'. The files in DIRECTORY that matches `ebnf-file-suffix-regexp' (which see) are processed. See also `ebnf-spool-buffer'. \(fn &optional DIRECTORY)" t nil) (autoload 'ebnf-spool-file "ebnf2ps" "\ Generate and spool a PostScript syntactic chart image of the file FILE. If optional arg DO-NOT-KILL-BUFFER-WHEN-DONE is non-nil, the buffer isn't killed after process termination. See also `ebnf-spool-buffer'. \(fn FILE &optional DO-NOT-KILL-BUFFER-WHEN-DONE)" t nil) (autoload 'ebnf-spool-buffer "ebnf2ps" "\ Generate and spool a PostScript syntactic chart image of the buffer. Like `ebnf-print-buffer' except that the PostScript image is saved in a local buffer to be sent to the printer later. Use the command `ebnf-despool' to send the spooled images to the printer. \(fn)" t nil) (autoload 'ebnf-spool-region "ebnf2ps" "\ Generate a PostScript syntactic chart image of the region and spool locally. Like `ebnf-spool-buffer', but spools just the current region. Use the command `ebnf-despool' to send the spooled images to the printer. \(fn FROM TO)" t nil) (autoload 'ebnf-eps-directory "ebnf2ps" "\ Generate EPS files from EBNF files in DIRECTORY. If DIRECTORY is nil, it's used `default-directory'. The files in DIRECTORY that matches `ebnf-file-suffix-regexp' (which see) are processed. See also `ebnf-eps-buffer'. \(fn &optional DIRECTORY)" t nil) (autoload 'ebnf-eps-file "ebnf2ps" "\ Generate an EPS file from EBNF file FILE. If optional arg DO-NOT-KILL-BUFFER-WHEN-DONE is non-nil, the buffer isn't killed after EPS generation. See also `ebnf-eps-buffer'. \(fn FILE &optional DO-NOT-KILL-BUFFER-WHEN-DONE)" t nil) (autoload 'ebnf-eps-buffer "ebnf2ps" "\ Generate a PostScript syntactic chart image of the buffer in an EPS file. Generate an EPS file for each production in the buffer. The EPS file name has the following form: .eps is given by variable `ebnf-eps-prefix'. The default value is \"ebnf--\". is the production name. Some characters in the production file name are replaced to produce a valid file name. For example, the production name \"A/B + C\" is modified to produce \"A_B_+_C\", and the EPS file name used in this case will be \"ebnf--A_B_+_C.eps\". WARNING: This function does *NOT* ask any confirmation to override existing files. \(fn)" t nil) (autoload 'ebnf-eps-region "ebnf2ps" "\ Generate a PostScript syntactic chart image of the region in an EPS file. Generate an EPS file for each production in the region. The EPS file name has the following form: .eps is given by variable `ebnf-eps-prefix'. The default value is \"ebnf--\". is the production name. Some characters in the production file name are replaced to produce a valid file name. For example, the production name \"A/B + C\" is modified to produce \"A_B_+_C\", and the EPS file name used in this case will be \"ebnf--A_B_+_C.eps\". WARNING: This function does *NOT* ask any confirmation to override existing files. \(fn FROM TO)" t nil) (defalias 'ebnf-despool #'ps-despool) (autoload 'ebnf-syntax-directory "ebnf2ps" "\ Do a syntactic analysis of the files in DIRECTORY. If DIRECTORY is nil, use `default-directory'. Only the files in DIRECTORY that match `ebnf-file-suffix-regexp' (which see) are processed. See also `ebnf-syntax-buffer'. \(fn &optional DIRECTORY)" t nil) (autoload 'ebnf-syntax-file "ebnf2ps" "\ Do a syntactic analysis of the named FILE. If optional arg DO-NOT-KILL-BUFFER-WHEN-DONE is non-nil, the buffer isn't killed after syntax checking. See also `ebnf-syntax-buffer'. \(fn FILE &optional DO-NOT-KILL-BUFFER-WHEN-DONE)" t nil) (autoload 'ebnf-syntax-buffer "ebnf2ps" "\ Do a syntactic analysis of the current buffer. \(fn)" t nil) (autoload 'ebnf-syntax-region "ebnf2ps" "\ Do a syntactic analysis of a region. \(fn FROM TO)" t nil) (autoload 'ebnf-setup "ebnf2ps" "\ Return the current ebnf2ps setup. \(fn)" nil nil) (autoload 'ebnf-find-style "ebnf2ps" "\ Return style definition if NAME is already defined; otherwise, return nil. See `ebnf-style-database' documentation. \(fn NAME)" t nil) (autoload 'ebnf-insert-style "ebnf2ps" "\ Insert a new style NAME with inheritance INHERITS and values VALUES. See `ebnf-style-database' documentation. \(fn NAME INHERITS &rest VALUES)" t nil) (autoload 'ebnf-delete-style "ebnf2ps" "\ Delete style NAME. See `ebnf-style-database' documentation. \(fn NAME)" t nil) (autoload 'ebnf-merge-style "ebnf2ps" "\ Merge values of style NAME with style VALUES. See `ebnf-style-database' documentation. \(fn NAME &rest VALUES)" t nil) (autoload 'ebnf-apply-style "ebnf2ps" "\ Set STYLE as the current style. Returns the old style symbol. See `ebnf-style-database' documentation. \(fn STYLE)" t nil) (autoload 'ebnf-reset-style "ebnf2ps" "\ Reset current style. Returns the old style symbol. See `ebnf-style-database' documentation. \(fn &optional STYLE)" t nil) (autoload 'ebnf-push-style "ebnf2ps" "\ Push the current style onto a stack and set STYLE as the current style. Returns the old style symbol. See also `ebnf-pop-style'. See `ebnf-style-database' documentation. \(fn &optional STYLE)" t nil) (autoload 'ebnf-pop-style "ebnf2ps" "\ Pop a style from the stack of pushed styles and set it as the current style. Returns the old style symbol. See also `ebnf-push-style'. See `ebnf-style-database' documentation. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ebnf2ps" '("ebnf-"))) ;;;*** ;;;### (autoloads nil "ebrowse" "progmodes/ebrowse.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/ebrowse.el (autoload 'ebrowse-tree-mode "ebrowse" "\ Major mode for Ebrowse class tree buffers. Each line corresponds to a class in a class tree. Letters do not insert themselves, they are commands. File operations in the tree buffer work on class tree data structures. E.g.\\[save-buffer] writes the tree to the file it was loaded from. Tree mode key bindings: \\{ebrowse-tree-mode-map} \(fn)" t nil) (autoload 'ebrowse-electric-choose-tree "ebrowse" "\ Return a buffer containing a tree or nil if no tree found or canceled. \(fn)" t nil) (autoload 'ebrowse-member-mode "ebrowse" "\ Major mode for Ebrowse member buffers. \(fn)" t nil) (autoload 'ebrowse-tags-view-declaration "ebrowse" "\ View declaration of member at point. \(fn)" t nil) (autoload 'ebrowse-tags-find-declaration "ebrowse" "\ Find declaration of member at point. \(fn)" t nil) (autoload 'ebrowse-tags-view-definition "ebrowse" "\ View definition of member at point. \(fn)" t nil) (autoload 'ebrowse-tags-find-definition "ebrowse" "\ Find definition of member at point. \(fn)" t nil) (autoload 'ebrowse-tags-find-declaration-other-window "ebrowse" "\ Find declaration of member at point in other window. \(fn)" t nil) (autoload 'ebrowse-tags-view-definition-other-window "ebrowse" "\ View definition of member at point in other window. \(fn)" t nil) (autoload 'ebrowse-tags-find-definition-other-window "ebrowse" "\ Find definition of member at point in other window. \(fn)" t nil) (autoload 'ebrowse-tags-find-declaration-other-frame "ebrowse" "\ Find definition of member at point in other frame. \(fn)" t nil) (autoload 'ebrowse-tags-view-definition-other-frame "ebrowse" "\ View definition of member at point in other frame. \(fn)" t nil) (autoload 'ebrowse-tags-find-definition-other-frame "ebrowse" "\ Find definition of member at point in other frame. \(fn)" t nil) (autoload 'ebrowse-tags-complete-symbol "ebrowse" "\ Perform completion on the C++ symbol preceding point. A second call of this function without changing point inserts the next match. A call with prefix PREFIX reads the symbol to insert from the minibuffer with completion. \(fn PREFIX)" t nil) (autoload 'ebrowse-tags-loop-continue "ebrowse" "\ Repeat last operation on files in tree. FIRST-TIME non-nil means this is not a repetition, but the first time. TREE-BUFFER if indirectly specifies which files to loop over. \(fn &optional FIRST-TIME TREE-BUFFER)" t nil) (autoload 'ebrowse-tags-search "ebrowse" "\ Search for REGEXP in all files in a tree. If marked classes exist, process marked classes, only. If regular expression is nil, repeat last search. \(fn REGEXP)" t nil) (autoload 'ebrowse-tags-query-replace "ebrowse" "\ Query replace FROM with TO in all files of a class tree. With prefix arg, process files of marked classes only. \(fn FROM TO)" t nil) (autoload 'ebrowse-tags-search-member-use "ebrowse" "\ Search for call sites of a member. If FIX-NAME is specified, search uses of that member. Otherwise, read a member name from the minibuffer. Searches in all files mentioned in a class tree for something that looks like a function call to the member. \(fn &optional FIX-NAME)" t nil) (autoload 'ebrowse-back-in-position-stack "ebrowse" "\ Move backward in the position stack. Prefix arg ARG says how much. \(fn ARG)" t nil) (autoload 'ebrowse-forward-in-position-stack "ebrowse" "\ Move forward in the position stack. Prefix arg ARG says how much. \(fn ARG)" t nil) (autoload 'ebrowse-electric-position-menu "ebrowse" "\ List positions in the position stack in an electric buffer. \(fn)" t nil) (autoload 'ebrowse-save-tree "ebrowse" "\ Save current tree in same file it was loaded from. \(fn)" t nil) (autoload 'ebrowse-save-tree-as "ebrowse" "\ Write the current tree data structure to a file. Read the file name from the minibuffer if interactive. Otherwise, FILE-NAME specifies the file to save the tree in. \(fn &optional FILE-NAME)" t nil) (autoload 'ebrowse-statistics "ebrowse" "\ Display statistics for a class tree. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ebrowse" '("electric-buffer-menu-mode-hook" "ebrowse-"))) ;;;*** ;;;### (autoloads nil "ebuff-menu" "ebuff-menu.el" (0 0 0 0)) ;;; Generated autoloads from ebuff-menu.el (autoload 'electric-buffer-list "ebuff-menu" "\ Pop up the Buffer Menu in an \"electric\" window. If you type SPC or RET (`Electric-buffer-menu-select'), that selects the buffer at point and quits the \"electric\" window. Otherwise, you can move around in the Buffer Menu, marking buffers to be selected, saved or deleted; these other commands are much like those of `Buffer-menu-mode'. Run hooks in `electric-buffer-menu-mode-hook' on entry. \\ \\[keyboard-quit] or \\[Electric-buffer-menu-quit] -- exit buffer menu, returning to previous window and buffer configuration. If the very first character typed is a space, it also has this effect. \\[Electric-buffer-menu-select] -- select buffer of line point is on. Also show buffers marked with m in other windows, deletes buffers marked with \"D\", and saves those marked with \"S\". \\[Buffer-menu-mark] -- mark buffer to be displayed. \\[Buffer-menu-not-modified] -- clear modified-flag on that buffer. \\[Buffer-menu-save] -- mark that buffer to be saved. \\[Buffer-menu-delete] or \\[Buffer-menu-delete-backwards] -- mark that buffer to be deleted. \\[Buffer-menu-unmark] -- remove all kinds of marks from current line. \\[Buffer-menu-unmark-all] -- remove all kinds of marks from all lines. \\[Electric-buffer-menu-mode-view-buffer] -- view buffer, returning when done. \\[Buffer-menu-backup-unmark] -- back up a line and remove marks. \(fn ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ebuff-menu" '("electric-buffer-" "Electric-buffer-menu-"))) ;;;*** ;;;### (autoloads nil "echistory" "echistory.el" (0 0 0 0)) ;;; Generated autoloads from echistory.el (autoload 'Electric-command-history-redo-expression "echistory" "\ Edit current history line in minibuffer and execute result. With prefix arg NOCONFIRM, execute current line as-is without editing. \(fn &optional NOCONFIRM)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "echistory" '("Electric-history-" "electric-"))) ;;;*** ;;;### (autoloads nil "ecomplete" "ecomplete.el" (0 0 0 0)) ;;; Generated autoloads from ecomplete.el (autoload 'ecomplete-setup "ecomplete" "\ \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ecomplete" '("ecomplete-"))) ;;;*** ;;;### (autoloads nil "ede" "cedet/ede.el" (0 0 0 0)) ;;; Generated autoloads from cedet/ede.el (push (purecopy '(ede 1 2)) package--builtin-versions) (defvar global-ede-mode nil "\ Non-nil if Global Ede mode is enabled. See the `global-ede-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `global-ede-mode'.") (custom-autoload 'global-ede-mode "ede" nil) (autoload 'global-ede-mode "ede" "\ Toggle global EDE (Emacs Development Environment) mode. With a prefix argument ARG, enable global EDE mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. This global minor mode enables `ede-minor-mode' in all buffers in an EDE controlled project. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede" '("project-try-ede" "ede" "global-ede-mode-map"))) ;;;*** ;;;### (autoloads nil "ede/auto" "cedet/ede/auto.el" (0 0 0 0)) ;;; Generated autoloads from cedet/ede/auto.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/auto" '("ede-"))) ;;;*** ;;;### (autoloads nil "ede/autoconf-edit" "cedet/ede/autoconf-edit.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/autoconf-edit.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/autoconf-edit" '("autoconf-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/base" "cedet/ede/base.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/base.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/base" '("ede-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/config" "cedet/ede/config.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/config.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/config" '("ede-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/cpp-root" ;;;;;; "cedet/ede/cpp-root.el" (0 0 0 0)) ;;; Generated autoloads from cedet/ede/cpp-root.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/cpp-root" '("ede-c"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/custom" "cedet/ede/custom.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/custom.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/custom" '("eieio-ede-old-variables" "ede-"))) ;;;*** ;;;### (autoloads nil "ede/detect" "cedet/ede/detect.el" (0 0 0 0)) ;;; Generated autoloads from cedet/ede/detect.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/detect" '("ede-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/dired" "cedet/ede/dired.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/dired.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/dired" '("ede-dired-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/emacs" "cedet/ede/emacs.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/emacs.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/emacs" '("ede-emacs-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/files" "cedet/ede/files.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/files.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/files" '("ede-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/generic" ;;;;;; "cedet/ede/generic.el" (0 0 0 0)) ;;; Generated autoloads from cedet/ede/generic.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/generic" '("ede-generic-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/linux" "cedet/ede/linux.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/linux.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/linux" '("ede-linux-" "project-linux-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/locate" "cedet/ede/locate.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/locate.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/locate" '("ede-locate-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/make" "cedet/ede/make.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/make.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/make" '("ede-make-"))) ;;;*** ;;;### (autoloads nil "ede/makefile-edit" "cedet/ede/makefile-edit.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/makefile-edit.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/makefile-edit" '("makefile-"))) ;;;*** ;;;### (autoloads nil "ede/pconf" "cedet/ede/pconf.el" (0 0 0 0)) ;;; Generated autoloads from cedet/ede/pconf.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/pconf" '("ede-pconf-create-file-query"))) ;;;*** ;;;### (autoloads nil "ede/pmake" "cedet/ede/pmake.el" (0 0 0 0)) ;;; Generated autoloads from cedet/ede/pmake.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/pmake" '("ede-pmake-"))) ;;;*** ;;;### (autoloads nil "ede/proj" "cedet/ede/proj.el" (0 0 0 0)) ;;; Generated autoloads from cedet/ede/proj.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/proj" '("ede-proj-"))) ;;;*** ;;;### (autoloads nil "ede/proj-archive" "cedet/ede/proj-archive.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/proj-archive.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/proj-archive" '("ede-"))) ;;;*** ;;;### (autoloads nil "ede/proj-aux" "cedet/ede/proj-aux.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from cedet/ede/proj-aux.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/proj-aux" '("ede-"))) ;;;*** ;;;### (autoloads nil "ede/proj-comp" "cedet/ede/proj-comp.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from cedet/ede/proj-comp.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/proj-comp" '("proj-comp-insert-variable-once" "ede-"))) ;;;*** ;;;### (autoloads nil "ede/proj-elisp" "cedet/ede/proj-elisp.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/proj-elisp.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/proj-elisp" '("ede-"))) ;;;*** ;;;### (autoloads nil "ede/proj-info" "cedet/ede/proj-info.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from cedet/ede/proj-info.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/proj-info" '("ede-"))) ;;;*** ;;;### (autoloads nil "ede/proj-misc" "cedet/ede/proj-misc.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from cedet/ede/proj-misc.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/proj-misc" '("ede-"))) ;;;*** ;;;### (autoloads nil "ede/proj-obj" "cedet/ede/proj-obj.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from cedet/ede/proj-obj.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/proj-obj" '("ede-"))) ;;;*** ;;;### (autoloads nil "ede/proj-prog" "cedet/ede/proj-prog.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from cedet/ede/proj-prog.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/proj-prog" '("ede-proj-target-makefile-program"))) ;;;*** ;;;### (autoloads nil "ede/proj-scheme" "cedet/ede/proj-scheme.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/proj-scheme.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/proj-scheme" '("ede-proj-target-scheme"))) ;;;*** ;;;### (autoloads nil "ede/proj-shared" "cedet/ede/proj-shared.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/proj-shared.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/proj-shared" '("ede-"))) ;;;*** ;;;### (autoloads nil "ede/project-am" "cedet/ede/project-am.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/project-am.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/project-am" '("project-am-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/shell" "cedet/ede/shell.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/shell.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/shell" '("ede-shell-run-command"))) ;;;*** ;;;### (autoloads nil "ede/simple" "cedet/ede/simple.el" (0 0 0 0)) ;;; Generated autoloads from cedet/ede/simple.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/simple" '("ede-simple-"))) ;;;*** ;;;### (autoloads nil "ede/source" "cedet/ede/source.el" (0 0 0 0)) ;;; Generated autoloads from cedet/ede/source.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/source" '("ede-source"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/speedbar" ;;;;;; "cedet/ede/speedbar.el" (0 0 0 0)) ;;; Generated autoloads from cedet/ede/speedbar.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/speedbar" '("ede-"))) ;;;*** ;;;### (autoloads nil "ede/srecode" "cedet/ede/srecode.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from cedet/ede/srecode.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/srecode" '("ede-srecode-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ede/util" "cedet/ede/util.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from cedet/ede/util.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ede/util" '("ede-make-buffer-writable"))) ;;;*** ;;;### (autoloads nil "edebug" "emacs-lisp/edebug.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/edebug.el (defvar edebug-all-defs nil "\ If non-nil, evaluating defining forms instruments for Edebug. This applies to `eval-defun', `eval-region', `eval-buffer', and `eval-current-buffer'. `eval-region' is also called by `eval-last-sexp', and `eval-print-last-sexp'. You can use the command `edebug-all-defs' to toggle the value of this variable. You may wish to make it local to each buffer with \(make-local-variable \\='edebug-all-defs) in your `emacs-lisp-mode-hook'.") (custom-autoload 'edebug-all-defs "edebug" t) (defvar edebug-all-forms nil "\ Non-nil means evaluation of all forms will instrument for Edebug. This doesn't apply to loading or evaluations in the minibuffer. Use the command `edebug-all-forms' to toggle the value of this option.") (custom-autoload 'edebug-all-forms "edebug" t) (autoload 'edebug-basic-spec "edebug" "\ Return t if SPEC uses only extant spec symbols. An extant spec symbol is a symbol that is not a function and has a `edebug-form-spec' property. \(fn SPEC)" nil nil) (defalias 'edebug-defun 'edebug-eval-top-level-form) (autoload 'edebug-eval-top-level-form "edebug" "\ Evaluate the top level form point is in, stepping through with Edebug. This is like `eval-defun' except that it steps the code for Edebug before evaluating it. It displays the value in the echo area using `eval-expression' (which see). If you do this on a function definition such as a defun or defmacro, it defines the function and instruments its definition for Edebug, so it will do Edebug stepping when called later. It displays `Edebug: FUNCTION' in the echo area to indicate that FUNCTION is now instrumented for Edebug. If the current defun is actually a call to `defvar' or `defcustom', evaluating it this way resets the variable using its initial value expression even if the variable already has some other value. \(Normally `defvar' and `defcustom' do not alter the value if there already is one.) \(fn)" t nil) (autoload 'edebug-all-defs "edebug" "\ Toggle edebugging of all definitions. \(fn)" t nil) (autoload 'edebug-all-forms "edebug" "\ Toggle edebugging of all forms. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "edebug" '("edebug" "get-edebug-spec" "global-edebug-" "cancel-edebug-on-entry"))) ;;;*** ;;;### (autoloads nil "ediff" "vc/ediff.el" (0 0 0 0)) ;;; Generated autoloads from vc/ediff.el (push (purecopy '(ediff 2 81 4)) package--builtin-versions) (autoload 'ediff-files "ediff" "\ Run Ediff on a pair of files, FILE-A and FILE-B. \(fn FILE-A FILE-B &optional STARTUP-HOOKS)" t nil) (autoload 'ediff-files3 "ediff" "\ Run Ediff on three files, FILE-A, FILE-B, and FILE-C. \(fn FILE-A FILE-B FILE-C &optional STARTUP-HOOKS)" t nil) (defalias 'ediff3 'ediff-files3) (defalias 'ediff 'ediff-files) (autoload 'ediff-current-file "ediff" "\ Start ediff between current buffer and its file on disk. This command can be used instead of `revert-buffer'. If there is nothing to revert then this command fails. \(fn)" t nil) (autoload 'ediff-backup "ediff" "\ Run Ediff on FILE and its backup file. Uses the latest backup, if there are several numerical backups. If this file is a backup, `ediff' it with its original. \(fn FILE)" t nil) (autoload 'ediff-buffers "ediff" "\ Run Ediff on a pair of buffers, BUFFER-A and BUFFER-B. \(fn BUFFER-A BUFFER-B &optional STARTUP-HOOKS JOB-NAME)" t nil) (defalias 'ebuffers 'ediff-buffers) (autoload 'ediff-buffers3 "ediff" "\ Run Ediff on three buffers, BUFFER-A, BUFFER-B, and BUFFER-C. \(fn BUFFER-A BUFFER-B BUFFER-C &optional STARTUP-HOOKS JOB-NAME)" t nil) (defalias 'ebuffers3 'ediff-buffers3) (autoload 'ediff-directories "ediff" "\ Run Ediff on a pair of directories, DIR1 and DIR2, comparing files that have the same name in both. The third argument, REGEXP, is nil or a regular expression; only file names that match the regexp are considered. \(fn DIR1 DIR2 REGEXP)" t nil) (defalias 'edirs 'ediff-directories) (autoload 'ediff-directory-revisions "ediff" "\ Run Ediff on a directory, DIR1, comparing its files with their revisions. The second argument, REGEXP, is a regular expression that filters the file names. Only the files that are under revision control are taken into account. \(fn DIR1 REGEXP)" t nil) (defalias 'edir-revisions 'ediff-directory-revisions) (autoload 'ediff-directories3 "ediff" "\ Run Ediff on three directories, DIR1, DIR2, and DIR3, comparing files that have the same name in all three. The last argument, REGEXP, is nil or a regular expression; only file names that match the regexp are considered. \(fn DIR1 DIR2 DIR3 REGEXP)" t nil) (defalias 'edirs3 'ediff-directories3) (autoload 'ediff-merge-directories "ediff" "\ Run Ediff on a pair of directories, DIR1 and DIR2, merging files that have the same name in both. The third argument, REGEXP, is nil or a regular expression; only file names that match the regexp are considered. \(fn DIR1 DIR2 REGEXP &optional MERGE-AUTOSTORE-DIR)" t nil) (defalias 'edirs-merge 'ediff-merge-directories) (autoload 'ediff-merge-directories-with-ancestor "ediff" "\ Merge files in directories DIR1 and DIR2 using files in ANCESTOR-DIR as ancestors. Ediff merges files that have identical names in DIR1, DIR2. If a pair of files in DIR1 and DIR2 doesn't have an ancestor in ANCESTOR-DIR, Ediff will merge without ancestor. The fourth argument, REGEXP, is nil or a regular expression; only file names that match the regexp are considered. \(fn DIR1 DIR2 ANCESTOR-DIR REGEXP &optional MERGE-AUTOSTORE-DIR)" t nil) (autoload 'ediff-merge-directory-revisions "ediff" "\ Run Ediff on a directory, DIR1, merging its files with their revisions. The second argument, REGEXP, is a regular expression that filters the file names. Only the files that are under revision control are taken into account. \(fn DIR1 REGEXP &optional MERGE-AUTOSTORE-DIR)" t nil) (defalias 'edir-merge-revisions 'ediff-merge-directory-revisions) (autoload 'ediff-merge-directory-revisions-with-ancestor "ediff" "\ Run Ediff on a directory, DIR1, merging its files with their revisions and ancestors. The second argument, REGEXP, is a regular expression that filters the file names. Only the files that are under revision control are taken into account. \(fn DIR1 REGEXP &optional MERGE-AUTOSTORE-DIR)" t nil) (defalias 'edir-merge-revisions-with-ancestor 'ediff-merge-directory-revisions-with-ancestor) (defalias 'edirs-merge-with-ancestor 'ediff-merge-directories-with-ancestor) (autoload 'ediff-windows-wordwise "ediff" "\ Compare WIND-A and WIND-B, which are selected by clicking, wordwise. With prefix argument, DUMB-MODE, or on a non-windowing display, works as follows: If WIND-A is nil, use selected window. If WIND-B is nil, use window next to WIND-A. \(fn DUMB-MODE &optional WIND-A WIND-B STARTUP-HOOKS)" t nil) (autoload 'ediff-windows-linewise "ediff" "\ Compare WIND-A and WIND-B, which are selected by clicking, linewise. With prefix argument, DUMB-MODE, or on a non-windowing display, works as follows: If WIND-A is nil, use selected window. If WIND-B is nil, use window next to WIND-A. \(fn DUMB-MODE &optional WIND-A WIND-B STARTUP-HOOKS)" t nil) (autoload 'ediff-regions-wordwise "ediff" "\ Run Ediff on a pair of regions in specified buffers. Regions (i.e., point and mark) can be set in advance or marked interactively. This function is effective only for relatively small regions, up to 200 lines. For large regions, use `ediff-regions-linewise'. \(fn BUFFER-A BUFFER-B &optional STARTUP-HOOKS)" t nil) (autoload 'ediff-regions-linewise "ediff" "\ Run Ediff on a pair of regions in specified buffers. Regions (i.e., point and mark) can be set in advance or marked interactively. Each region is enlarged to contain full lines. This function is effective for large regions, over 100-200 lines. For small regions, use `ediff-regions-wordwise'. \(fn BUFFER-A BUFFER-B &optional STARTUP-HOOKS)" t nil) (defalias 'ediff-merge 'ediff-merge-files) (autoload 'ediff-merge-files "ediff" "\ Merge two files without ancestor. \(fn FILE-A FILE-B &optional STARTUP-HOOKS MERGE-BUFFER-FILE)" t nil) (autoload 'ediff-merge-files-with-ancestor "ediff" "\ Merge two files with ancestor. \(fn FILE-A FILE-B FILE-ANCESTOR &optional STARTUP-HOOKS MERGE-BUFFER-FILE)" t nil) (defalias 'ediff-merge-with-ancestor 'ediff-merge-files-with-ancestor) (autoload 'ediff-merge-buffers "ediff" "\ Merge buffers without ancestor. \(fn BUFFER-A BUFFER-B &optional STARTUP-HOOKS JOB-NAME MERGE-BUFFER-FILE)" t nil) (autoload 'ediff-merge-buffers-with-ancestor "ediff" "\ Merge buffers with ancestor. \(fn BUFFER-A BUFFER-B BUFFER-ANCESTOR &optional STARTUP-HOOKS JOB-NAME MERGE-BUFFER-FILE)" t nil) (autoload 'ediff-merge-revisions "ediff" "\ Run Ediff by merging two revisions of a file. The file is the optional FILE argument or the file visited by the current buffer. \(fn &optional FILE STARTUP-HOOKS MERGE-BUFFER-FILE)" t nil) (autoload 'ediff-merge-revisions-with-ancestor "ediff" "\ Run Ediff by merging two revisions of a file with a common ancestor. The file is the optional FILE argument or the file visited by the current buffer. \(fn &optional FILE STARTUP-HOOKS MERGE-BUFFER-FILE)" t nil) (autoload 'ediff-patch-file "ediff" "\ Query for a file name, and then run Ediff by patching that file. If optional PATCH-BUF is given, use the patch in that buffer and don't ask the user. If prefix argument, then: if even argument, assume that the patch is in a buffer. If odd -- assume it is in a file. \(fn &optional ARG PATCH-BUF)" t nil) (autoload 'ediff-patch-buffer "ediff" "\ Run Ediff by patching the buffer specified at prompt. Without the optional prefix ARG, asks if the patch is in some buffer and prompts for the buffer or a file, depending on the answer. With ARG=1, assumes the patch is in a file and prompts for the file. With ARG=2, assumes the patch is in a buffer and prompts for the buffer. PATCH-BUF is an optional argument, which specifies the buffer that contains the patch. If not given, the user is prompted according to the prefix argument. \(fn &optional ARG PATCH-BUF)" t nil) (defalias 'epatch 'ediff-patch-file) (defalias 'epatch-buffer 'ediff-patch-buffer) (autoload 'ediff-revision "ediff" "\ Run Ediff by comparing versions of a file. The file is an optional FILE argument or the file entered at the prompt. Default: the file visited by the current buffer. Uses `vc.el' or `rcs.el' depending on `ediff-version-control-package'. \(fn &optional FILE STARTUP-HOOKS)" t nil) (defalias 'erevision 'ediff-revision) (autoload 'ediff-version "ediff" "\ Return string describing the version of Ediff. When called interactively, displays the version. \(fn)" t nil) (autoload 'ediff-documentation "ediff" "\ Display Ediff's manual. With optional NODE, goes to that node. \(fn &optional NODE)" t nil) (autoload 'ediff-files-command "ediff" "\ \(fn)" nil nil) (autoload 'ediff3-files-command "ediff" "\ \(fn)" nil nil) (autoload 'ediff-merge-command "ediff" "\ \(fn)" nil nil) (autoload 'ediff-merge-with-ancestor-command "ediff" "\ \(fn)" nil nil) (autoload 'ediff-directories-command "ediff" "\ \(fn)" nil nil) (autoload 'ediff-directories3-command "ediff" "\ \(fn)" nil nil) (autoload 'ediff-merge-directories-command "ediff" "\ \(fn)" nil nil) (autoload 'ediff-merge-directories-with-ancestor-command "ediff" "\ \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ediff" '("ediff-"))) ;;;*** ;;;### (autoloads nil "ediff-diff" "vc/ediff-diff.el" (0 0 0 0)) ;;; Generated autoloads from vc/ediff-diff.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ediff-diff" '("ediff-"))) ;;;*** ;;;### (autoloads nil "ediff-help" "vc/ediff-help.el" (0 0 0 0)) ;;; Generated autoloads from vc/ediff-help.el (autoload 'ediff-customize "ediff-help" "\ \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ediff-help" '("ediff-"))) ;;;*** ;;;### (autoloads nil "ediff-init" "vc/ediff-init.el" (0 0 0 0)) ;;; Generated autoloads from vc/ediff-init.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ediff-init" '("ediff-" "stipple-pixmap"))) ;;;*** ;;;### (autoloads nil "ediff-merg" "vc/ediff-merg.el" (0 0 0 0)) ;;; Generated autoloads from vc/ediff-merg.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ediff-merg" '("ediff-"))) ;;;*** ;;;### (autoloads nil "ediff-mult" "vc/ediff-mult.el" (0 0 0 0)) ;;; Generated autoloads from vc/ediff-mult.el (autoload 'ediff-show-registry "ediff-mult" "\ Display Ediff's registry. \(fn)" t nil) (defalias 'eregistry 'ediff-show-registry) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ediff-mult" '("ediff-"))) ;;;*** ;;;### (autoloads nil "ediff-ptch" "vc/ediff-ptch.el" (0 0 0 0)) ;;; Generated autoloads from vc/ediff-ptch.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ediff-ptch" '("ediff-"))) ;;;*** ;;;### (autoloads nil "ediff-util" "vc/ediff-util.el" (0 0 0 0)) ;;; Generated autoloads from vc/ediff-util.el (autoload 'ediff-toggle-multiframe "ediff-util" "\ Switch from multiframe display to single-frame display and back. To change the default, set the variable `ediff-window-setup-function', which see. \(fn)" t nil) (autoload 'ediff-toggle-use-toolbar "ediff-util" "\ Enable or disable Ediff toolbar. Works only in versions of Emacs that support toolbars. To change the default, set the variable `ediff-use-toolbar-p', which see. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ediff-util" '("ediff-"))) ;;;*** ;;;### (autoloads nil "ediff-vers" "vc/ediff-vers.el" (0 0 0 0)) ;;; Generated autoloads from vc/ediff-vers.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ediff-vers" '("ediff-" "rcs-ediff-view-revision"))) ;;;*** ;;;### (autoloads nil "ediff-wind" "vc/ediff-wind.el" (0 0 0 0)) ;;; Generated autoloads from vc/ediff-wind.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ediff-wind" '("ediff-"))) ;;;*** ;;;### (autoloads nil "edmacro" "edmacro.el" (0 0 0 0)) ;;; Generated autoloads from edmacro.el (push (purecopy '(edmacro 2 1)) package--builtin-versions) (autoload 'edit-kbd-macro "edmacro" "\ Edit a keyboard macro. At the prompt, type any key sequence which is bound to a keyboard macro. Or, type `C-x e' or RET to edit the last keyboard macro, `C-h l' to edit the last 300 keystrokes as a keyboard macro, or `\\[execute-extended-command]' to edit a macro by its command name. With a prefix argument, format the macro in a more concise way. \(fn KEYS &optional PREFIX FINISH-HOOK STORE-HOOK)" t nil) (autoload 'edit-last-kbd-macro "edmacro" "\ Edit the most recently defined keyboard macro. \(fn &optional PREFIX)" t nil) (autoload 'edit-named-kbd-macro "edmacro" "\ Edit a keyboard macro which has been given a name by `name-last-kbd-macro'. \(fn &optional PREFIX)" t nil) (autoload 'read-kbd-macro "edmacro" "\ Read the region as a keyboard macro definition. The region is interpreted as spelled-out keystrokes, e.g., \"M-x abc RET\". See documentation for `edmacro-mode' for details. Leading/trailing \"C-x (\" and \"C-x )\" in the text are allowed and ignored. The resulting macro is installed as the \"current\" keyboard macro. In Lisp, may also be called with a single STRING argument in which case the result is returned rather than being installed as the current macro. The result will be a string if possible, otherwise an event vector. Second argument NEED-VECTOR means to return an event vector always. \(fn START &optional END)" t nil) (autoload 'format-kbd-macro "edmacro" "\ Return the keyboard macro MACRO as a human-readable string. This string is suitable for passing to `read-kbd-macro'. Second argument VERBOSE means to put one command per line with comments. If VERBOSE is `1', put everything on one line. If VERBOSE is omitted or nil, use a compact 80-column format. \(fn &optional MACRO VERBOSE)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "edmacro" '("edmacro-"))) ;;;*** ;;;### (autoloads nil "edt" "emulation/edt.el" (0 0 0 0)) ;;; Generated autoloads from emulation/edt.el (autoload 'edt-set-scroll-margins "edt" "\ Set scroll margins. Argument TOP is the top margin in number of lines or percent of window. Argument BOTTOM is the bottom margin in number of lines or percent of window. \(fn TOP BOTTOM)" t nil) (autoload 'edt-emulation-on "edt" "\ Turn on EDT Emulation. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "edt" '("edt-"))) ;;;*** ;;;### (autoloads nil "edt-lk201" "emulation/edt-lk201.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from emulation/edt-lk201.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "edt-lk201" '("*EDT-keys*"))) ;;;*** ;;;### (autoloads nil "edt-mapper" "emulation/edt-mapper.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from emulation/edt-mapper.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "edt-mapper" '("edt-"))) ;;;*** ;;;### (autoloads nil "edt-pc" "emulation/edt-pc.el" (0 0 0 0)) ;;; Generated autoloads from emulation/edt-pc.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "edt-pc" '("*EDT-keys*"))) ;;;*** ;;;### (autoloads nil "edt-vt100" "emulation/edt-vt100.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from emulation/edt-vt100.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "edt-vt100" '("edt-set-term-width-"))) ;;;*** ;;;### (autoloads nil "ehelp" "ehelp.el" (0 0 0 0)) ;;; Generated autoloads from ehelp.el (autoload 'with-electric-help "ehelp" "\ Pop up an \"electric\" help buffer. THUNK is a function of no arguments which is called to initialize the contents of BUFFER. BUFFER defaults to `*Help*'. BUFFER will be erased before THUNK is called unless NOERASE is non-nil. THUNK will be called while BUFFER is current and with `standard-output' bound to the buffer specified by BUFFER. If THUNK returns nil, we display BUFFER starting at the top, and shrink the window to fit. If THUNK returns non-nil, we don't do those things. After THUNK has been called, this function \"electrically\" pops up a window in which BUFFER is displayed and allows the user to scroll through that buffer in `electric-help-mode'. The window's height will be at least MINHEIGHT if this value is non-nil. If THUNK returns nil, we display BUFFER starting at the top, and shrink the window to fit if `electric-help-shrink-window' is non-nil. If THUNK returns non-nil, we don't do those things. When the user exits (with `electric-help-exit', or otherwise), the help buffer's window disappears (i.e., we use `save-window-excursion'), and BUFFER is put back into its original major mode. \(fn THUNK &optional BUFFER NOERASE MINHEIGHT)" nil nil) (autoload 'electric-helpify "ehelp" "\ \(fn FUN &optional NAME)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ehelp" '("electric-" "ehelp-"))) ;;;*** ;;;### (autoloads nil "eieio" "emacs-lisp/eieio.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/eieio.el (push (purecopy '(eieio 1 4)) package--builtin-versions) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eieio" '("eieio-" "oref" "oset" "obj" "find-class" "set-slot-value" "same-class-p" "slot-" "child-of-class-p" "with-slots" "defclass"))) ;;;*** ;;;### (autoloads nil "eieio-base" "emacs-lisp/eieio-base.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from emacs-lisp/eieio-base.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eieio-base" '("eieio-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "eieio-compat" ;;;;;; "emacs-lisp/eieio-compat.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/eieio-compat.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eieio-compat" '("no-" "next-method-p" "generic-p" "eieio--generic-static-symbol-specializers"))) ;;;*** ;;;### (autoloads nil "eieio-core" "emacs-lisp/eieio-core.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from emacs-lisp/eieio-core.el (push (purecopy '(eieio-core 1 4)) package--builtin-versions) (autoload 'eieio-defclass-autoload "eieio-core" "\ Create autoload symbols for the EIEIO class CNAME. SUPERCLASSES are the superclasses that CNAME inherits from. DOC is the docstring for CNAME. This function creates a mock-class for CNAME and adds it into SUPERCLASSES as children. It creates an autoload function for CNAME's constructor. \(fn CNAME SUPERCLASSES FILENAME DOC)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eieio-core" '("eieio-" "invalid-slot-" "inconsistent-class-hierarchy" "unbound-slot" "class-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "eieio-custom" ;;;;;; "emacs-lisp/eieio-custom.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/eieio-custom.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eieio-custom" '("eieio-"))) ;;;*** ;;;### (autoloads nil "eieio-datadebug" "emacs-lisp/eieio-datadebug.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/eieio-datadebug.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eieio-datadebug" '("data-debug-insert-object-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "eieio-opt" "emacs-lisp/eieio-opt.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/eieio-opt.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eieio-opt" '("eieio-"))) ;;;*** ;;;### (autoloads nil "eieio-speedbar" "emacs-lisp/eieio-speedbar.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/eieio-speedbar.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eieio-speedbar" '("eieio-speedbar"))) ;;;*** ;;;### (autoloads nil "elec-pair" "elec-pair.el" (0 0 0 0)) ;;; Generated autoloads from elec-pair.el (defvar electric-pair-mode nil "\ Non-nil if Electric-Pair mode is enabled. See the `electric-pair-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `electric-pair-mode'.") (custom-autoload 'electric-pair-mode "elec-pair" nil) (autoload 'electric-pair-mode "elec-pair" "\ Toggle automatic parens pairing (Electric Pair mode). With a prefix argument ARG, enable Electric Pair mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Electric Pair mode is a global minor mode. When enabled, typing an open parenthesis automatically inserts the corresponding closing parenthesis. (Likewise for brackets, etc.). To toggle the mode in a single buffer, use `electric-pair-local-mode'. \(fn &optional ARG)" t nil) (autoload 'electric-pair-local-mode "elec-pair" "\ Toggle `electric-pair-mode' only in this buffer. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "elec-pair" '("electric-pair-"))) ;;;*** ;;;### (autoloads nil "elide-head" "elide-head.el" (0 0 0 0)) ;;; Generated autoloads from elide-head.el (autoload 'elide-head "elide-head" "\ Hide header material in buffer according to `elide-head-headers-to-hide'. The header is made invisible with an overlay. With a prefix arg, show an elided material again. This is suitable as an entry on `find-file-hook' or appropriate mode hooks. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "elide-head" '("elide-head-"))) ;;;*** ;;;### (autoloads nil "elint" "emacs-lisp/elint.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/elint.el (autoload 'elint-file "elint" "\ Lint the file FILE. \(fn FILE)" t nil) (autoload 'elint-directory "elint" "\ Lint all the .el files in DIRECTORY. A complicated directory may require a lot of memory. \(fn DIRECTORY)" t nil) (autoload 'elint-current-buffer "elint" "\ Lint the current buffer. If necessary, this first calls `elint-initialize'. \(fn)" t nil) (autoload 'elint-defun "elint" "\ Lint the function at point. If necessary, this first calls `elint-initialize'. \(fn)" t nil) (autoload 'elint-initialize "elint" "\ Initialize elint. If elint is already initialized, this does nothing, unless optional prefix argument REINIT is non-nil. \(fn &optional REINIT)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "elint" '("elint-"))) ;;;*** ;;;### (autoloads nil "elp" "emacs-lisp/elp.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/elp.el (autoload 'elp-instrument-function "elp" "\ Instrument FUNSYM for profiling. FUNSYM must be a symbol of a defined function. \(fn FUNSYM)" t nil) (autoload 'elp-instrument-list "elp" "\ Instrument, for profiling, all functions in `elp-function-list'. Use optional LIST if provided instead. If called interactively, read LIST using the minibuffer. \(fn &optional LIST)" t nil) (autoload 'elp-instrument-package "elp" "\ Instrument for profiling, all functions which start with PREFIX. For example, to instrument all ELP functions, do the following: \\[elp-instrument-package] RET elp- RET \(fn PREFIX)" t nil) (autoload 'elp-results "elp" "\ Display current profiling results. If `elp-reset-after-results' is non-nil, then current profiling information for all instrumented functions is reset after results are displayed. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "elp" '("elp-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-alias" "eshell/em-alias.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-alias.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-alias" '("eshell" "pcomplete/eshell-mode/alias"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-banner" "eshell/em-banner.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-banner.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-banner" '("eshell-banner-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-basic" "eshell/em-basic.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-basic.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-basic" '("eshell"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-cmpl" "eshell/em-cmpl.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-cmpl.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-cmpl" '("eshell-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-dirs" "eshell/em-dirs.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-dirs.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-dirs" '("eshell"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-glob" "eshell/em-glob.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-glob.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-glob" '("eshell-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-hist" "eshell/em-hist.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-hist.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-hist" '("eshell"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-ls" "eshell/em-ls.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-ls.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-ls" '("eshell"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-pred" "eshell/em-pred.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-pred.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-pred" '("eshell-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-prompt" "eshell/em-prompt.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-prompt.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-prompt" '("eshell-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-rebind" "eshell/em-rebind.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-rebind.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-rebind" '("eshell-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-script" "eshell/em-script.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-script.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-script" '("eshell"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-smart" "eshell/em-smart.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-smart.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-smart" '("eshell-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-term" "eshell/em-term.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-term.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-term" '("eshell-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-tramp" "eshell/em-tramp.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-tramp.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-tramp" '("eshell"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-unix" "eshell/em-unix.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-unix.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-unix" '("eshell" "nil-blank-string" "pcomplete/"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "em-xtra" "eshell/em-xtra.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from eshell/em-xtra.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "em-xtra" '("pcomplete/bcc" "eshell/"))) ;;;*** ;;;### (autoloads nil "emacs-lock" "emacs-lock.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lock.el (autoload 'emacs-lock-mode "emacs-lock" "\ Toggle Emacs Lock mode in the current buffer. If called with a plain prefix argument, ask for the locking mode to be used. With any other prefix ARG, turn mode on if ARG is positive, off otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Initially, if the user does not pass an explicit locking mode, it defaults to `emacs-lock-default-locking-mode' (which see); afterwards, the locking mode most recently set on the buffer is used instead. When called from Elisp code, ARG can be any locking mode: exit -- Emacs cannot exit while the buffer is locked kill -- the buffer cannot be killed, but Emacs can exit as usual all -- the buffer is locked against both actions Other values are interpreted as usual. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "emacs-lock" '("toggle-emacs-lock" "emacs-lock-"))) ;;;*** ;;;### (autoloads nil "emacsbug" "mail/emacsbug.el" (0 0 0 0)) ;;; Generated autoloads from mail/emacsbug.el (autoload 'report-emacs-bug "emacsbug" "\ Report a bug in GNU Emacs. Prompts for bug subject. Leaves you in a mail buffer. \(fn TOPIC &optional UNUSED)" t nil) (set-advertised-calling-convention 'report-emacs-bug '(topic) '"24.5") (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "emacsbug" '("report-emacs-bug-"))) ;;;*** ;;;### (autoloads nil "emerge" "vc/emerge.el" (0 0 0 0)) ;;; Generated autoloads from vc/emerge.el (autoload 'emerge-files "emerge" "\ Run Emerge on two files. \(fn ARG FILE-A FILE-B FILE-OUT &optional STARTUP-HOOKS QUIT-HOOKS)" t nil) (autoload 'emerge-files-with-ancestor "emerge" "\ Run Emerge on two files, giving another file as the ancestor. \(fn ARG FILE-A FILE-B FILE-ANCESTOR FILE-OUT &optional STARTUP-HOOKS QUIT-HOOKS)" t nil) (autoload 'emerge-buffers "emerge" "\ Run Emerge on two buffers. \(fn BUFFER-A BUFFER-B &optional STARTUP-HOOKS QUIT-HOOKS)" t nil) (autoload 'emerge-buffers-with-ancestor "emerge" "\ Run Emerge on two buffers, giving another buffer as the ancestor. \(fn BUFFER-A BUFFER-B BUFFER-ANCESTOR &optional STARTUP-HOOKS QUIT-HOOKS)" t nil) (autoload 'emerge-files-command "emerge" "\ \(fn)" nil nil) (autoload 'emerge-files-with-ancestor-command "emerge" "\ \(fn)" nil nil) (autoload 'emerge-files-remote "emerge" "\ \(fn FILE-A FILE-B FILE-OUT)" nil nil) (autoload 'emerge-files-with-ancestor-remote "emerge" "\ \(fn FILE-A FILE-B FILE-ANC FILE-OUT)" nil nil) (autoload 'emerge-revisions "emerge" "\ Emerge two RCS revisions of a file. \(fn ARG FILE REVISION-A REVISION-B &optional STARTUP-HOOKS QUIT-HOOKS)" t nil) (autoload 'emerge-revisions-with-ancestor "emerge" "\ Emerge two RCS revisions of a file, with another revision as ancestor. \(fn ARG FILE REVISION-A REVISION-B ANCESTOR &optional STARTUP-HOOKS QUIT-HOOKS)" t nil) (autoload 'emerge-merge-directories "emerge" "\ \(fn A-DIR B-DIR ANCESTOR-DIR OUTPUT-DIR)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "emerge" '("emerge-"))) ;;;*** ;;;### (autoloads nil "enriched" "textmodes/enriched.el" (0 0 0 0)) ;;; Generated autoloads from textmodes/enriched.el (autoload 'enriched-mode "enriched" "\ Minor mode for editing text/enriched files. These are files with embedded formatting information in the MIME standard text/enriched format. With a prefix argument ARG, enable the mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Turning the mode on or off runs `enriched-mode-hook'. More information about Enriched mode is available in the file \"enriched.txt\" in `data-directory'. Commands: \\{enriched-mode-map} \(fn &optional ARG)" t nil) (autoload 'enriched-encode "enriched" "\ \(fn FROM TO ORIG-BUF)" nil nil) (autoload 'enriched-decode "enriched" "\ \(fn FROM TO)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "enriched" '("enriched-"))) ;;;*** ;;;### (autoloads nil "epa" "epa.el" (0 0 0 0)) ;;; Generated autoloads from epa.el (autoload 'epa-list-keys "epa" "\ List all keys matched with NAME from the public keyring. \(fn &optional NAME)" t nil) (autoload 'epa-list-secret-keys "epa" "\ List all keys matched with NAME from the private keyring. \(fn &optional NAME)" t nil) (autoload 'epa-select-keys "epa" "\ Display a user's keyring and ask him to select keys. CONTEXT is an epg-context. PROMPT is a string to prompt with. NAMES is a list of strings to be matched with keys. If it is nil, all the keys are listed. If SECRET is non-nil, list secret keys instead of public keys. \(fn CONTEXT PROMPT &optional NAMES SECRET)" nil nil) (autoload 'epa-decrypt-file "epa" "\ Decrypt DECRYPT-FILE into PLAIN-FILE. If you do not specify PLAIN-FILE, this functions prompts for the value to use. \(fn DECRYPT-FILE &optional PLAIN-FILE)" t nil) (autoload 'epa-verify-file "epa" "\ Verify FILE. \(fn FILE)" t nil) (autoload 'epa-sign-file "epa" "\ Sign FILE by SIGNERS keys selected. \(fn FILE SIGNERS MODE)" t nil) (autoload 'epa-encrypt-file "epa" "\ Encrypt FILE for RECIPIENTS. \(fn FILE RECIPIENTS)" t nil) (autoload 'epa-decrypt-region "epa" "\ Decrypt the current region between START and END. If MAKE-BUFFER-FUNCTION is non-nil, call it to prepare an output buffer. It should return that buffer. If it copies the input, it should delete the text now being decrypted. It should leave point at the proper place to insert the plaintext. Be careful about using this command in Lisp programs! Since this function operates on regions, it does some tricks such as coding-system detection and unibyte/multibyte conversion. If you are sure how the data in the region should be treated, you should consider using the string based counterpart `epg-decrypt-string', or the file based counterpart `epg-decrypt-file' instead. For example: \(let ((context (epg-make-context \\='OpenPGP))) (decode-coding-string (epg-decrypt-string context (buffer-substring start end)) \\='utf-8)) \(fn START END &optional MAKE-BUFFER-FUNCTION)" t nil) (autoload 'epa-decrypt-armor-in-region "epa" "\ Decrypt OpenPGP armors in the current region between START and END. Don't use this command in Lisp programs! See the reason described in the `epa-decrypt-region' documentation. \(fn START END)" t nil) (function-put 'epa-decrypt-armor-in-region 'interactive-only 't) (autoload 'epa-verify-region "epa" "\ Verify the current region between START and END. Don't use this command in Lisp programs! Since this function operates on regions, it does some tricks such as coding-system detection and unibyte/multibyte conversion. If you are sure how the data in the region should be treated, you should consider using the string based counterpart `epg-verify-string', or the file based counterpart `epg-verify-file' instead. For example: \(let ((context (epg-make-context \\='OpenPGP))) (decode-coding-string (epg-verify-string context (buffer-substring start end)) \\='utf-8)) \(fn START END)" t nil) (function-put 'epa-verify-region 'interactive-only 't) (autoload 'epa-verify-cleartext-in-region "epa" "\ Verify OpenPGP cleartext signed messages in the current region between START and END. Don't use this command in Lisp programs! See the reason described in the `epa-verify-region' documentation. \(fn START END)" t nil) (function-put 'epa-verify-cleartext-in-region 'interactive-only 't) (autoload 'epa-sign-region "epa" "\ Sign the current region between START and END by SIGNERS keys selected. Don't use this command in Lisp programs! Since this function operates on regions, it does some tricks such as coding-system detection and unibyte/multibyte conversion. If you are sure how the data should be treated, you should consider using the string based counterpart `epg-sign-string', or the file based counterpart `epg-sign-file' instead. For example: \(let ((context (epg-make-context \\='OpenPGP))) (epg-sign-string context (encode-coding-string (buffer-substring start end) \\='utf-8))) \(fn START END SIGNERS MODE)" t nil) (function-put 'epa-sign-region 'interactive-only 't) (autoload 'epa-encrypt-region "epa" "\ Encrypt the current region between START and END for RECIPIENTS. Don't use this command in Lisp programs! Since this function operates on regions, it does some tricks such as coding-system detection and unibyte/multibyte conversion. If you are sure how the data should be treated, you should consider using the string based counterpart `epg-encrypt-string', or the file based counterpart `epg-encrypt-file' instead. For example: \(let ((context (epg-make-context \\='OpenPGP))) (epg-encrypt-string context (encode-coding-string (buffer-substring start end) \\='utf-8) nil)) \(fn START END RECIPIENTS SIGN SIGNERS)" t nil) (function-put 'epa-encrypt-region 'interactive-only 't) (autoload 'epa-delete-keys "epa" "\ Delete selected KEYS. \(fn KEYS &optional ALLOW-SECRET)" t nil) (autoload 'epa-import-keys "epa" "\ Import keys from FILE. \(fn FILE)" t nil) (autoload 'epa-import-keys-region "epa" "\ Import keys from the region. \(fn START END)" t nil) (autoload 'epa-import-armor-in-region "epa" "\ Import keys in the OpenPGP armor format in the current region between START and END. \(fn START END)" t nil) (autoload 'epa-export-keys "epa" "\ Export selected KEYS to FILE. \(fn KEYS FILE)" t nil) (autoload 'epa-insert-keys "epa" "\ Insert selected KEYS after the point. \(fn KEYS)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "epa" '("epa-"))) ;;;*** ;;;### (autoloads nil "epa-dired" "epa-dired.el" (0 0 0 0)) ;;; Generated autoloads from epa-dired.el (autoload 'epa-dired-do-decrypt "epa-dired" "\ Decrypt marked files. \(fn)" t nil) (autoload 'epa-dired-do-verify "epa-dired" "\ Verify marked files. \(fn)" t nil) (autoload 'epa-dired-do-sign "epa-dired" "\ Sign marked files. \(fn)" t nil) (autoload 'epa-dired-do-encrypt "epa-dired" "\ Encrypt marked files. \(fn)" t nil) ;;;*** ;;;### (autoloads nil "epa-file" "epa-file.el" (0 0 0 0)) ;;; Generated autoloads from epa-file.el (autoload 'epa-file-handler "epa-file" "\ \(fn OPERATION &rest ARGS)" nil nil) (autoload 'epa-file-enable "epa-file" "\ \(fn)" t nil) (autoload 'epa-file-disable "epa-file" "\ \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "epa-file" '("epa-"))) ;;;*** ;;;### (autoloads nil "epa-mail" "epa-mail.el" (0 0 0 0)) ;;; Generated autoloads from epa-mail.el (autoload 'epa-mail-mode "epa-mail" "\ A minor-mode for composing encrypted/clearsigned mails. With a prefix argument ARG, enable the mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. \(fn &optional ARG)" t nil) (autoload 'epa-mail-decrypt "epa-mail" "\ Decrypt OpenPGP armors in the current buffer. The buffer is expected to contain a mail message. \(fn)" t nil) (function-put 'epa-mail-decrypt 'interactive-only 't) (autoload 'epa-mail-verify "epa-mail" "\ Verify OpenPGP cleartext signed messages in the current buffer. The buffer is expected to contain a mail message. \(fn)" t nil) (function-put 'epa-mail-verify 'interactive-only 't) (autoload 'epa-mail-sign "epa-mail" "\ Sign the current buffer. The buffer is expected to contain a mail message. \(fn START END SIGNERS MODE)" t nil) (function-put 'epa-mail-sign 'interactive-only 't) (autoload 'epa-mail-encrypt "epa-mail" "\ Encrypt the outgoing mail message in the current buffer. Takes the recipients from the text in the header in the buffer and translates them through `epa-mail-aliases'. With prefix argument, asks you to select among them interactively and also whether and how to sign. Called from Lisp, the optional argument RECIPIENTS is a list of recipient addresses, t to perform symmetric encryption, or nil meaning use the defaults. SIGNERS is a list of keys to sign the message with. \(fn &optional RECIPIENTS SIGNERS)" t nil) (autoload 'epa-mail-import-keys "epa-mail" "\ Import keys in the OpenPGP armor format in the current buffer. The buffer is expected to contain a mail message. \(fn)" t nil) (function-put 'epa-mail-import-keys 'interactive-only 't) (defvar epa-global-mail-mode nil "\ Non-nil if Epa-Global-Mail mode is enabled. See the `epa-global-mail-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `epa-global-mail-mode'.") (custom-autoload 'epa-global-mail-mode "epa-mail" nil) (autoload 'epa-global-mail-mode "epa-mail" "\ Minor mode to hook EasyPG into Mail mode. With a prefix argument ARG, enable the mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "epa-mail" '("epa-mail-"))) ;;;*** ;;;### (autoloads nil "epg" "epg.el" (0 0 0 0)) ;;; Generated autoloads from epg.el (push (purecopy '(epg 1 0 0)) package--builtin-versions) (autoload 'epg-make-context "epg" "\ Return a context object. \(fn &optional PROTOCOL ARMOR TEXTMODE INCLUDE-CERTS CIPHER-ALGORITHM DIGEST-ALGORITHM COMPRESS-ALGORITHM)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "epg" '("epg-"))) ;;;*** ;;;### (autoloads nil "epg-config" "epg-config.el" (0 0 0 0)) ;;; Generated autoloads from epg-config.el (autoload 'epg-find-configuration "epg-config" "\ Find or create a usable configuration to handle PROTOCOL. This function first looks at the existing configuration found by the previous invocation of this function, unless NO-CACHE is non-nil. Then it walks through PROGRAM-ALIST or `epg-config--program-alist'. If `epg-gpg-program' or `epg-gpgsm-program' is already set with custom, use it. Otherwise, it tries the programs listed in the entry until the version requirement is met. \(fn PROTOCOL &optional NO-CACHE PROGRAM-ALIST)" nil nil) (autoload 'epg-configuration "epg-config" "\ Return a list of internal configuration parameters of `epg-gpg-program'. \(fn)" nil nil) (make-obsolete 'epg-configuration 'epg-find-configuration '"25.1") (autoload 'epg-check-configuration "epg-config" "\ Verify that a sufficient version of GnuPG is installed. \(fn CONFIG &optional MINIMUM-VERSION)" nil nil) (autoload 'epg-expand-group "epg-config" "\ Look at CONFIG and try to expand GROUP. \(fn CONFIG GROUP)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "epg-config" '("epg-"))) ;;;*** ;;;### (autoloads nil "erc" "erc/erc.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc.el (push (purecopy '(erc 5 3)) package--builtin-versions) (autoload 'erc-select-read-args "erc" "\ Prompt the user for values of nick, server, port, and password. \(fn)" nil nil) (autoload 'erc "erc" "\ ERC is a powerful, modular, and extensible IRC client. This function is the main entry point for ERC. It permits you to select connection parameters, and then starts ERC. Non-interactively, it takes the keyword arguments (server (erc-compute-server)) (port (erc-compute-port)) (nick (erc-compute-nick)) password (full-name (erc-compute-full-name))) That is, if called with (erc :server \"irc.freenode.net\" :full-name \"Harry S Truman\") then the server and full-name will be set to those values, whereas `erc-compute-port', `erc-compute-nick' and `erc-compute-full-name' will be invoked for the values of the other parameters. \(fn &key (SERVER (erc-compute-server)) (PORT (erc-compute-port)) (NICK (erc-compute-nick)) PASSWORD (FULL-NAME (erc-compute-full-name)))" t nil) (defalias 'erc-select 'erc) (autoload 'erc-tls "erc" "\ Interactively select TLS connection parameters and run ERC. Arguments are the same as for `erc'. \(fn &rest R)" t nil) (autoload 'erc-handle-irc-url "erc" "\ Use ERC to IRC on HOST:PORT in CHANNEL as USER with PASSWORD. If ERC is already connected to HOST:PORT, simply /join CHANNEL. Otherwise, connect to HOST:PORT as USER and /join CHANNEL. \(fn HOST PORT CHANNEL USER PASSWORD)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc" '("erc-" "define-erc-module"))) ;;;*** ;;;### (autoloads nil "erc-autoaway" "erc/erc-autoaway.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from erc/erc-autoaway.el (autoload 'erc-autoaway-mode "erc-autoaway") (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-autoaway" '("erc-auto" "autoaway"))) ;;;*** ;;;### (autoloads nil "erc-backend" "erc/erc-backend.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-backend.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-backend" '("erc-"))) ;;;*** ;;;### (autoloads nil "erc-button" "erc/erc-button.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-button.el (autoload 'erc-button-mode "erc-button" nil t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-button" '("erc-" "button"))) ;;;*** ;;;### (autoloads nil "erc-capab" "erc/erc-capab.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-capab.el (autoload 'erc-capab-identify-mode "erc-capab" nil t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-capab" '("erc-capab-identify-" "capab-identify"))) ;;;*** ;;;### (autoloads nil "erc-compat" "erc/erc-compat.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-compat.el (autoload 'erc-define-minor-mode "erc-compat") (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-compat" '("erc-"))) ;;;*** ;;;### (autoloads nil "erc-dcc" "erc/erc-dcc.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-dcc.el (autoload 'erc-dcc-mode "erc-dcc") (autoload 'erc-cmd-DCC "erc-dcc" "\ Parser for /dcc command. This figures out the dcc subcommand and calls the appropriate routine to handle it. The function dispatched should be named \"erc-dcc-do-FOO-command\", where FOO is one of CLOSE, GET, SEND, LIST, CHAT, etc. \(fn CMD &rest ARGS)" nil nil) (autoload 'pcomplete/erc-mode/DCC "erc-dcc" "\ Provides completion for the /DCC command. \(fn)" nil nil) (defvar erc-ctcp-query-DCC-hook '(erc-ctcp-query-DCC) "\ Hook variable for CTCP DCC queries.") (autoload 'erc-ctcp-query-DCC "erc-dcc" "\ The function called when a CTCP DCC request is detected by the client. It examines the DCC subcommand, and calls the appropriate routine for that subcommand. \(fn PROC NICK LOGIN HOST TO QUERY)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-dcc" '("erc-" "pcomplete/erc-mode/" "dcc"))) ;;;*** ;;;### (autoloads nil "erc-desktop-notifications" "erc/erc-desktop-notifications.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from erc/erc-desktop-notifications.el (autoload 'erc-notifications-mode "erc-desktop-notifications" "" t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-desktop-notifications" '("notifications" "erc-notifications-"))) ;;;*** ;;;### (autoloads nil "erc-ezbounce" "erc/erc-ezbounce.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from erc/erc-ezbounce.el (autoload 'erc-cmd-ezb "erc-ezbounce" "\ Send EZB commands to the EZBouncer verbatim. \(fn LINE &optional FORCE)" nil nil) (autoload 'erc-ezb-get-login "erc-ezbounce" "\ Return an appropriate EZBounce login for SERVER and PORT. Look up entries in `erc-ezb-login-alist'. If the username or password in the alist is nil, prompt for the appropriate values. \(fn SERVER PORT)" nil nil) (autoload 'erc-ezb-lookup-action "erc-ezbounce" "\ \(fn MESSAGE)" nil nil) (autoload 'erc-ezb-notice-autodetect "erc-ezbounce" "\ React on an EZBounce NOTICE request. \(fn PROC PARSED)" nil nil) (autoload 'erc-ezb-identify "erc-ezbounce" "\ Identify to the EZBouncer server. \(fn MESSAGE)" nil nil) (autoload 'erc-ezb-init-session-list "erc-ezbounce" "\ Reset the EZBounce session list to nil. \(fn MESSAGE)" nil nil) (autoload 'erc-ezb-end-of-session-list "erc-ezbounce" "\ Indicate the end of the EZBounce session listing. \(fn MESSAGE)" nil nil) (autoload 'erc-ezb-add-session "erc-ezbounce" "\ Add an EZBounce session to the session list. \(fn MESSAGE)" nil nil) (autoload 'erc-ezb-select "erc-ezbounce" "\ Select an IRC server to use by EZBounce, in ERC style. \(fn MESSAGE)" nil nil) (autoload 'erc-ezb-select-session "erc-ezbounce" "\ Select a detached EZBounce session. \(fn)" nil nil) (autoload 'erc-ezb-initialize "erc-ezbounce" "\ Add EZBouncer convenience functions to ERC. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-ezbounce" '("erc-ezb-"))) ;;;*** ;;;### (autoloads nil "erc-fill" "erc/erc-fill.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-fill.el (autoload 'erc-fill-mode "erc-fill" nil t) (autoload 'erc-fill "erc-fill" "\ Fill a region using the function referenced in `erc-fill-function'. You can put this on `erc-insert-modify-hook' and/or `erc-send-modify-hook'. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-fill" '("erc-"))) ;;;*** ;;;### (autoloads nil "erc-goodies" "erc/erc-goodies.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-goodies.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-goodies" '("erc-" "unmorse" "scrolltobottom" "smiley" "irccontrols" "noncommands" "keep-place" "move-to-prompt" "readonly"))) ;;;*** ;;;### (autoloads nil "erc-ibuffer" "erc/erc-ibuffer.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-ibuffer.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-ibuffer" '("erc-"))) ;;;*** ;;;### (autoloads nil "erc-identd" "erc/erc-identd.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-identd.el (autoload 'erc-identd-mode "erc-identd") (autoload 'erc-identd-start "erc-identd" "\ Start an identd server listening to port 8113. Port 113 (auth) will need to be redirected to port 8113 on your machine -- using iptables, or a program like redir which can be run from inetd. The idea is to provide a simple identd server when you need one, without having to install one globally on your system. \(fn &optional PORT)" t nil) (autoload 'erc-identd-stop "erc-identd" "\ \(fn &rest IGNORE)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-identd" '("erc-identd-" "identd"))) ;;;*** ;;;### (autoloads nil "erc-imenu" "erc/erc-imenu.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-imenu.el (autoload 'erc-create-imenu-index "erc-imenu" "\ \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-imenu" '("erc-unfill-notice"))) ;;;*** ;;;### (autoloads nil "erc-join" "erc/erc-join.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-join.el (autoload 'erc-autojoin-mode "erc-join" nil t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-join" '("erc-" "autojoin"))) ;;;*** ;;;### (autoloads nil "erc-lang" "erc/erc-lang.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-lang.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-lang" '("erc-cmd-LANG" "language" "iso-638-languages"))) ;;;*** ;;;### (autoloads nil "erc-list" "erc/erc-list.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-list.el (autoload 'erc-list-mode "erc-list") (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-list" '("erc-" "list"))) ;;;*** ;;;### (autoloads nil "erc-log" "erc/erc-log.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-log.el (autoload 'erc-log-mode "erc-log" nil t) (autoload 'erc-logging-enabled "erc-log" "\ Return non-nil if logging is enabled for BUFFER. If BUFFER is nil, the value of `current-buffer' is used. Logging is enabled if `erc-log-channels-directory' is non-nil, the directory is writable (it will be created as necessary) and `erc-enable-logging' returns a non-nil value. \(fn &optional BUFFER)" nil nil) (autoload 'erc-save-buffer-in-logs "erc-log" "\ Append BUFFER contents to the log file, if logging is enabled. If BUFFER is not provided, current buffer is used. Logging is enabled if `erc-logging-enabled' returns non-nil. This is normally done on exit, to save the unsaved portion of the buffer, since only the text that runs off the buffer limit is logged automatically. You can save every individual message by putting this function on `erc-insert-post-hook'. \(fn &optional BUFFER)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-log" '("erc-" "log"))) ;;;*** ;;;### (autoloads nil "erc-match" "erc/erc-match.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-match.el (autoload 'erc-match-mode "erc-match") (autoload 'erc-add-pal "erc-match" "\ Add pal interactively to `erc-pals'. \(fn)" t nil) (autoload 'erc-delete-pal "erc-match" "\ Delete pal interactively to `erc-pals'. \(fn)" t nil) (autoload 'erc-add-fool "erc-match" "\ Add fool interactively to `erc-fools'. \(fn)" t nil) (autoload 'erc-delete-fool "erc-match" "\ Delete fool interactively to `erc-fools'. \(fn)" t nil) (autoload 'erc-add-keyword "erc-match" "\ Add keyword interactively to `erc-keywords'. \(fn)" t nil) (autoload 'erc-delete-keyword "erc-match" "\ Delete keyword interactively to `erc-keywords'. \(fn)" t nil) (autoload 'erc-add-dangerous-host "erc-match" "\ Add dangerous-host interactively to `erc-dangerous-hosts'. \(fn)" t nil) (autoload 'erc-delete-dangerous-host "erc-match" "\ Delete dangerous-host interactively to `erc-dangerous-hosts'. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-match" '("erc-" "match"))) ;;;*** ;;;### (autoloads nil "erc-menu" "erc/erc-menu.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-menu.el (autoload 'erc-menu-mode "erc-menu" nil t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-menu" '("erc-menu-" "menu"))) ;;;*** ;;;### (autoloads nil "erc-netsplit" "erc/erc-netsplit.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from erc/erc-netsplit.el (autoload 'erc-netsplit-mode "erc-netsplit") (autoload 'erc-cmd-WHOLEFT "erc-netsplit" "\ Show who's gone. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-netsplit" '("erc-" "netsplit"))) ;;;*** ;;;### (autoloads nil "erc-networks" "erc/erc-networks.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from erc/erc-networks.el (autoload 'erc-determine-network "erc-networks" "\ Return the name of the network or \"Unknown\" as a symbol. Use the server parameter NETWORK if provided, otherwise parse the server name and search for a match in `erc-networks-alist'. \(fn)" nil nil) (autoload 'erc-server-select "erc-networks" "\ Interactively select a server to connect to using `erc-server-alist'. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-networks" '("erc-" "networks"))) ;;;*** ;;;### (autoloads nil "erc-notify" "erc/erc-notify.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-notify.el (autoload 'erc-notify-mode "erc-notify" nil t) (autoload 'erc-cmd-NOTIFY "erc-notify" "\ Change `erc-notify-list' or list current notify-list members online. Without args, list the current list of notified people online, with args, toggle notify status of people. \(fn &rest ARGS)" nil nil) (autoload 'pcomplete/erc-mode/NOTIFY "erc-notify" "\ \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-notify" '("erc-" "notify"))) ;;;*** ;;;### (autoloads nil "erc-page" "erc/erc-page.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-page.el (autoload 'erc-page-mode "erc-page") (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-page" '("erc-" "page"))) ;;;*** ;;;### (autoloads nil "erc-pcomplete" "erc/erc-pcomplete.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from erc/erc-pcomplete.el (autoload 'erc-completion-mode "erc-pcomplete" nil t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-pcomplete" '("pcomplete" "erc-pcomplet"))) ;;;*** ;;;### (autoloads nil "erc-replace" "erc/erc-replace.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-replace.el (autoload 'erc-replace-mode "erc-replace") (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-replace" '("replace" "erc-replace-"))) ;;;*** ;;;### (autoloads nil "erc-ring" "erc/erc-ring.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-ring.el (autoload 'erc-ring-mode "erc-ring" nil t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-ring" '("erc-" "ring"))) ;;;*** ;;;### (autoloads nil "erc-services" "erc/erc-services.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from erc/erc-services.el (autoload 'erc-services-mode "erc-services" nil t) (autoload 'erc-nickserv-identify-mode "erc-services" "\ Set up hooks according to which MODE the user has chosen. \(fn MODE)" t nil) (autoload 'erc-nickserv-identify "erc-services" "\ Send an \"identify \" message to NickServ. When called interactively, read the password using `read-passwd'. \(fn PASSWORD)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-services" '("erc-" "services"))) ;;;*** ;;;### (autoloads nil "erc-sound" "erc/erc-sound.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-sound.el (autoload 'erc-sound-mode "erc-sound") (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-sound" '("erc-" "sound"))) ;;;*** ;;;### (autoloads nil "erc-speedbar" "erc/erc-speedbar.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from erc/erc-speedbar.el (autoload 'erc-speedbar-browser "erc-speedbar" "\ Initialize speedbar to display an ERC browser. This will add a speedbar major display mode. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-speedbar" '("erc-"))) ;;;*** ;;;### (autoloads nil "erc-spelling" "erc/erc-spelling.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from erc/erc-spelling.el (autoload 'erc-spelling-mode "erc-spelling" nil t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-spelling" '("erc-spelling-" "spelling"))) ;;;*** ;;;### (autoloads nil "erc-stamp" "erc/erc-stamp.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-stamp.el (autoload 'erc-timestamp-mode "erc-stamp" nil t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-stamp" '("erc-" "stamp"))) ;;;*** ;;;### (autoloads nil "erc-track" "erc/erc-track.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-track.el (defvar erc-track-minor-mode nil "\ Non-nil if Erc-Track minor mode is enabled. See the `erc-track-minor-mode' command for a description of this minor mode.") (custom-autoload 'erc-track-minor-mode "erc-track" nil) (autoload 'erc-track-minor-mode "erc-track" "\ Toggle mode line display of ERC activity (ERC Track minor mode). With a prefix argument ARG, enable ERC Track minor mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. ERC Track minor mode is a global minor mode. It exists for the sole purpose of providing the C-c C-SPC and C-c C-@ keybindings. Make sure that you have enabled the track module, otherwise the keybindings will not do anything useful. \(fn &optional ARG)" t nil) (autoload 'erc-track-mode "erc-track" nil t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-track" '("erc-" "track"))) ;;;*** ;;;### (autoloads nil "erc-truncate" "erc/erc-truncate.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from erc/erc-truncate.el (autoload 'erc-truncate-mode "erc-truncate" nil t) (autoload 'erc-truncate-buffer-to-size "erc-truncate" "\ Truncates the buffer to the size SIZE. If BUFFER is not provided, the current buffer is assumed. The deleted region is logged if `erc-logging-enabled' returns non-nil. \(fn SIZE &optional BUFFER)" nil nil) (autoload 'erc-truncate-buffer "erc-truncate" "\ Truncates the current buffer to `erc-max-buffer-size'. Meant to be used in hooks, like `erc-insert-post-hook'. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-truncate" '("truncate" "erc-max-buffer-size"))) ;;;*** ;;;### (autoloads nil "erc-xdcc" "erc/erc-xdcc.el" (0 0 0 0)) ;;; Generated autoloads from erc/erc-xdcc.el (autoload 'erc-xdcc-mode "erc-xdcc") (autoload 'erc-xdcc-add-file "erc-xdcc" "\ Add a file to `erc-xdcc-files'. \(fn FILE)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "erc-xdcc" '("erc-" "xdcc"))) ;;;*** ;;;### (autoloads nil "ert" "emacs-lisp/ert.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/ert.el (autoload 'ert-deftest "ert" "\ Define NAME (a symbol) as a test. BODY is evaluated as a `progn' when the test is run. It should signal a condition on failure or just return if the test passes. `should', `should-not', `should-error' and `skip-unless' are useful for assertions in BODY. Use `ert' to run tests interactively. Tests that are expected to fail can be marked as such using :expected-result. See `ert-test-result-type-p' for a description of valid values for RESULT-TYPE. \(fn NAME () [DOCSTRING] [:expected-result RESULT-TYPE] [:tags \\='(TAG...)] BODY...)" nil t) (function-put 'ert-deftest 'doc-string-elt '3) (function-put 'ert-deftest 'lisp-indent-function '2) (put 'ert-deftest 'lisp-indent-function 2) (put 'ert-info 'lisp-indent-function 1) (autoload 'ert-run-tests-batch "ert" "\ Run the tests specified by SELECTOR, printing results to the terminal. SELECTOR works as described in `ert-select-tests', except if SELECTOR is nil, in which case all tests rather than none will be run; this makes the command line \"emacs -batch -l my-tests.el -f ert-run-tests-batch-and-exit\" useful. Returns the stats object. \(fn &optional SELECTOR)" nil nil) (autoload 'ert-run-tests-batch-and-exit "ert" "\ Like `ert-run-tests-batch', but exits Emacs when done. The exit status will be 0 if all test results were as expected, 1 on unexpected results, or 2 if the tool detected an error outside of the tests (e.g. invalid SELECTOR or bug in the code that runs the tests). \(fn &optional SELECTOR)" nil nil) (autoload 'ert-run-tests-interactively "ert" "\ Run the tests specified by SELECTOR and display the results in a buffer. SELECTOR works as described in `ert-select-tests'. OUTPUT-BUFFER-NAME and MESSAGE-FN should normally be nil; they are used for automated self-tests and specify which buffer to use and how to display message. \(fn SELECTOR &optional OUTPUT-BUFFER-NAME MESSAGE-FN)" t nil) (defalias 'ert 'ert-run-tests-interactively) (autoload 'ert-describe-test "ert" "\ Display the documentation for TEST-OR-TEST-NAME (a symbol or ert-test). \(fn TEST-OR-TEST-NAME)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ert" '("ert-"))) ;;;*** ;;;### (autoloads nil "ert-x" "emacs-lisp/ert-x.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/ert-x.el (put 'ert-with-test-buffer 'lisp-indent-function 1) (autoload 'ert-kill-all-test-buffers "ert-x" "\ Kill all test buffers that are still live. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ert-x" '("ert-"))) ;;;*** ;;;### (autoloads nil "esh-arg" "eshell/esh-arg.el" (0 0 0 0)) ;;; Generated autoloads from eshell/esh-arg.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "esh-arg" '("eshell-"))) ;;;*** ;;;### (autoloads nil "esh-cmd" "eshell/esh-cmd.el" (0 0 0 0)) ;;; Generated autoloads from eshell/esh-cmd.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "esh-cmd" '("eshell" "pcomplete/eshell-mode/eshell-debug"))) ;;;*** ;;;### (autoloads nil "esh-ext" "eshell/esh-ext.el" (0 0 0 0)) ;;; Generated autoloads from eshell/esh-ext.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "esh-ext" '("eshell"))) ;;;*** ;;;### (autoloads nil "esh-io" "eshell/esh-io.el" (0 0 0 0)) ;;; Generated autoloads from eshell/esh-io.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "esh-io" '("eshell-"))) ;;;*** ;;;### (autoloads nil "esh-mode" "eshell/esh-mode.el" (0 0 0 0)) ;;; Generated autoloads from eshell/esh-mode.el (autoload 'eshell-mode "esh-mode" "\ Emacs shell interactive mode. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "esh-mode" '("eshell"))) ;;;*** ;;;### (autoloads nil "esh-module" "eshell/esh-module.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from eshell/esh-module.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "esh-module" '("eshell-"))) ;;;*** ;;;### (autoloads nil "esh-opt" "eshell/esh-opt.el" (0 0 0 0)) ;;; Generated autoloads from eshell/esh-opt.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "esh-opt" '("eshell-"))) ;;;*** ;;;### (autoloads nil "esh-proc" "eshell/esh-proc.el" (0 0 0 0)) ;;; Generated autoloads from eshell/esh-proc.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "esh-proc" '("eshell"))) ;;;*** ;;;### (autoloads nil "esh-util" "eshell/esh-util.el" (0 0 0 0)) ;;; Generated autoloads from eshell/esh-util.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "esh-util" '("eshell-"))) ;;;*** ;;;### (autoloads nil "esh-var" "eshell/esh-var.el" (0 0 0 0)) ;;; Generated autoloads from eshell/esh-var.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "esh-var" '("eshell" "pcomplete/eshell-mode/"))) ;;;*** ;;;### (autoloads nil "eshell" "eshell/eshell.el" (0 0 0 0)) ;;; Generated autoloads from eshell/eshell.el (push (purecopy '(eshell 2 4 2)) package--builtin-versions) (autoload 'eshell "eshell" "\ Create an interactive Eshell buffer. The buffer used for Eshell sessions is determined by the value of `eshell-buffer-name'. If there is already an Eshell session active in that buffer, Emacs will simply switch to it. Otherwise, a new session will begin. A numeric prefix arg (as in `C-u 42 M-x eshell RET') switches to the session with that number, creating it if necessary. A nonnumeric prefix arg means to create a new session. Returns the buffer selected (or created). \(fn &optional ARG)" t nil) (autoload 'eshell-command "eshell" "\ Execute the Eshell command string COMMAND. With prefix ARG, insert output into the current buffer at point. \(fn &optional COMMAND ARG)" t nil) (autoload 'eshell-command-result "eshell" "\ Execute the given Eshell COMMAND, and return the result. The result might be any Lisp object. If STATUS-VAR is a symbol, it will be set to the exit status of the command. This is the only way to determine whether the value returned corresponding to a successful execution. \(fn COMMAND &optional STATUS-VAR)" nil nil) (define-obsolete-function-alias 'eshell-report-bug 'report-emacs-bug "23.1") (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eshell" '("eshell-"))) ;;;*** ;;;### (autoloads nil "etags" "progmodes/etags.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/etags.el (defvar tags-file-name nil "\ File name of tags table. To switch to a new tags table, do not set this variable; instead, invoke `visit-tags-table', which is the only reliable way of setting the value of this variable, whether buffer-local or global. Use the `etags' program to make a tags table file.") (put 'tags-file-name 'variable-interactive (purecopy "fVisit tags table: ")) (put 'tags-file-name 'safe-local-variable 'stringp) (defvar tags-case-fold-search 'default "\ Whether tags operations should be case-sensitive. A value of t means case-insensitive, a value of nil means case-sensitive. Any other value means use the setting of `case-fold-search'.") (custom-autoload 'tags-case-fold-search "etags" t) (defvar tags-table-list nil "\ List of file names of tags tables to search. An element that is a directory means the file \"TAGS\" in that directory. To switch to a new list of tags tables, setting this variable is sufficient. If you set this variable, do not also set `tags-file-name'. Use the `etags' program to make a tags table file.") (custom-autoload 'tags-table-list "etags" t) (defvar tags-compression-info-list (purecopy '("" ".Z" ".bz2" ".gz" ".xz" ".tgz")) "\ List of extensions tried by etags when `auto-compression-mode' is on. An empty string means search the non-compressed file.") (custom-autoload 'tags-compression-info-list "etags" t) (defvar tags-add-tables 'ask-user "\ Control whether to add a new tags table to the current list. t means do; nil means don't (always start a new list). Any other value means ask the user whether to add a new tags table to the current list (as opposed to starting a new list).") (custom-autoload 'tags-add-tables "etags" t) (defvar find-tag-hook nil "\ Hook to be run by \\[find-tag] after finding a tag. See `run-hooks'. The value in the buffer in which \\[find-tag] is done is used, not the value in the buffer \\[find-tag] goes to.") (custom-autoload 'find-tag-hook "etags" t) (defvar find-tag-default-function nil "\ A function of no arguments used by \\[find-tag] to pick a default tag. If nil, and the symbol that is the value of `major-mode' has a `find-tag-default-function' property (see `put'), that is used. Otherwise, `find-tag-default' is used.") (custom-autoload 'find-tag-default-function "etags" t) (autoload 'tags-table-mode "etags" "\ Major mode for tags table file buffers. \(fn)" t nil) (autoload 'visit-tags-table "etags" "\ Tell tags commands to use tags table file FILE. FILE should be the name of a file created with the `etags' program. A directory name is ok too; it means file TAGS in that directory. Normally \\[visit-tags-table] sets the global value of `tags-file-name'. With a prefix arg, set the buffer-local value instead. When called from Lisp, if the optional arg LOCAL is non-nil, set the local value. When you find a tag with \\[find-tag], the buffer it finds the tag in is given a local value of this variable which is the name of the tags file the tag was in. \(fn FILE &optional LOCAL)" t nil) (autoload 'visit-tags-table-buffer "etags" "\ Select the buffer containing the current tags table. Optional arg CONT specifies which tags table to visit. If CONT is a string, visit that file as a tags table. If CONT is t, visit the next table in `tags-table-list'. If CONT is the atom `same', don't look for a new table; just select the buffer visiting `tags-file-name'. If CONT is nil or absent, choose a first buffer from information in `tags-file-name', `tags-table-list', `tags-table-list-pointer'. Optional second arg CBUF, if non-nil, specifies the initial buffer, which is important if that buffer has a local value of `tags-file-name'. Returns t if it visits a tags table, or nil if there are no more in the list. \(fn &optional CONT CBUF)" nil nil) (autoload 'tags-table-files "etags" "\ Return a list of files in the current tags table. Assumes the tags table is the current buffer. The file names are returned as they appeared in the `etags' command that created the table, usually without directory names. \(fn)" nil nil) (autoload 'tags-lazy-completion-table "etags" "\ \(fn)" nil nil) (defun tags-completion-at-point-function () (if (or tags-table-list tags-file-name) (progn (load "etags") (tags-completion-at-point-function)))) (autoload 'find-tag-noselect "etags" "\ Find tag (in current tags table) whose name contains TAGNAME. Returns the buffer containing the tag's definition and moves its point there, but does not select the buffer. The default for TAGNAME is the expression in the buffer near point. If second arg NEXT-P is t (interactively, with prefix arg), search for another tag that matches the last tagname or regexp used. When there are multiple matches for a tag, more exact matches are found first. If NEXT-P is the atom `-' (interactively, with prefix arg that is a negative number or just \\[negative-argument]), pop back to the previous tag gone to. If third arg REGEXP-P is non-nil, treat TAGNAME as a regexp. A marker representing the point when this command is invoked is pushed onto a ring and may be popped back to with \\[pop-tag-mark]. Contrast this with the ring of marks gone to by the command. See documentation of variable `tags-file-name'. \(fn TAGNAME &optional NEXT-P REGEXP-P)" t nil) (autoload 'find-tag "etags" "\ Find tag (in current tags table) whose name contains TAGNAME. Select the buffer containing the tag's definition, and move point there. The default for TAGNAME is the expression in the buffer around or before point. If second arg NEXT-P is t (interactively, with prefix arg), search for another tag that matches the last tagname or regexp used. When there are multiple matches for a tag, more exact matches are found first. If NEXT-P is the atom `-' (interactively, with prefix arg that is a negative number or just \\[negative-argument]), pop back to the previous tag gone to. If third arg REGEXP-P is non-nil, treat TAGNAME as a regexp. A marker representing the point when this command is invoked is pushed onto a ring and may be popped back to with \\[pop-tag-mark]. Contrast this with the ring of marks gone to by the command. See documentation of variable `tags-file-name'. \(fn TAGNAME &optional NEXT-P REGEXP-P)" t nil) (make-obsolete 'find-tag 'xref-find-definitions '"25.1") (autoload 'find-tag-other-window "etags" "\ Find tag (in current tags table) whose name contains TAGNAME. Select the buffer containing the tag's definition in another window, and move point there. The default for TAGNAME is the expression in the buffer around or before point. If second arg NEXT-P is t (interactively, with prefix arg), search for another tag that matches the last tagname or regexp used. When there are multiple matches for a tag, more exact matches are found first. If NEXT-P is negative (interactively, with prefix arg that is a negative number or just \\[negative-argument]), pop back to the previous tag gone to. If third arg REGEXP-P is non-nil, treat TAGNAME as a regexp. A marker representing the point when this command is invoked is pushed onto a ring and may be popped back to with \\[pop-tag-mark]. Contrast this with the ring of marks gone to by the command. See documentation of variable `tags-file-name'. \(fn TAGNAME &optional NEXT-P REGEXP-P)" t nil) (make-obsolete 'find-tag-other-window 'xref-find-definitions-other-window '"25.1") (autoload 'find-tag-other-frame "etags" "\ Find tag (in current tags table) whose name contains TAGNAME. Select the buffer containing the tag's definition in another frame, and move point there. The default for TAGNAME is the expression in the buffer around or before point. If second arg NEXT-P is t (interactively, with prefix arg), search for another tag that matches the last tagname or regexp used. When there are multiple matches for a tag, more exact matches are found first. If NEXT-P is negative (interactively, with prefix arg that is a negative number or just \\[negative-argument]), pop back to the previous tag gone to. If third arg REGEXP-P is non-nil, treat TAGNAME as a regexp. A marker representing the point when this command is invoked is pushed onto a ring and may be popped back to with \\[pop-tag-mark]. Contrast this with the ring of marks gone to by the command. See documentation of variable `tags-file-name'. \(fn TAGNAME &optional NEXT-P)" t nil) (make-obsolete 'find-tag-other-frame 'xref-find-definitions-other-frame '"25.1") (autoload 'find-tag-regexp "etags" "\ Find tag (in current tags table) whose name matches REGEXP. Select the buffer containing the tag's definition and move point there. If second arg NEXT-P is t (interactively, with prefix arg), search for another tag that matches the last tagname or regexp used. When there are multiple matches for a tag, more exact matches are found first. If NEXT-P is negative (interactively, with prefix arg that is a negative number or just \\[negative-argument]), pop back to the previous tag gone to. If third arg OTHER-WINDOW is non-nil, select the buffer in another window. A marker representing the point when this command is invoked is pushed onto a ring and may be popped back to with \\[pop-tag-mark]. Contrast this with the ring of marks gone to by the command. See documentation of variable `tags-file-name'. \(fn REGEXP &optional NEXT-P OTHER-WINDOW)" t nil) (make-obsolete 'find-tag-regexp 'xref-find-apropos '"25.1") (defalias 'pop-tag-mark 'xref-pop-marker-stack) (autoload 'next-file "etags" "\ Select next file among files in current tags table. A first argument of t (prefix arg, if interactive) initializes to the beginning of the list of files in the tags table. If the argument is neither nil nor t, it is evalled to initialize the list of files. Non-nil second argument NOVISIT means use a temporary buffer to save time and avoid uninteresting warnings. Value is nil if the file was already visited; if the file was newly read in, the value is the filename. \(fn &optional INITIALIZE NOVISIT)" t nil) (autoload 'tags-loop-continue "etags" "\ Continue last \\[tags-search] or \\[tags-query-replace] command. Used noninteractively with non-nil argument to begin such a command (the argument is passed to `next-file', which see). Two variables control the processing we do on each file: the value of `tags-loop-scan' is a form to be executed on each file to see if it is interesting (it returns non-nil if so) and `tags-loop-operate' is a form to evaluate to operate on an interesting file. If the latter evaluates to nil, we exit; otherwise we scan the next file. \(fn &optional FIRST-TIME)" t nil) (autoload 'tags-search "etags" "\ Search through all files listed in tags table for match for REGEXP. Stops when a match is found. To continue searching for next match, use command \\[tags-loop-continue]. If FILE-LIST-FORM is non-nil, it should be a form that, when evaluated, will return a list of file names. The search will be restricted to these files. Also see the documentation of the `tags-file-name' variable. \(fn REGEXP &optional FILE-LIST-FORM)" t nil) (autoload 'tags-query-replace "etags" "\ Do `query-replace-regexp' of FROM with TO on all files listed in tags table. Third arg DELIMITED (prefix arg) means replace only word-delimited matches. If you exit (\\[keyboard-quit], RET or q), you can resume the query replace with the command \\[tags-loop-continue]. Fourth arg FILE-LIST-FORM non-nil means initialize the replacement loop. If FILE-LIST-FORM is non-nil, it is a form to evaluate to produce the list of files to search. See also the documentation of the variable `tags-file-name'. \(fn FROM TO &optional DELIMITED FILE-LIST-FORM)" t nil) (autoload 'list-tags "etags" "\ Display list of tags in file FILE. This searches only the first table in the list, and no included tables. FILE should be as it appeared in the `etags' command, usually without a directory specification. \(fn FILE &optional NEXT-MATCH)" t nil) (autoload 'tags-apropos "etags" "\ Display list of all tags in tags table REGEXP matches. \(fn REGEXP)" t nil) (make-obsolete 'tags-apropos 'xref-find-apropos '"25.1") (autoload 'select-tags-table "etags" "\ Select a tags table file from a menu of those you have already used. The list of tags tables to select from is stored in `tags-table-set-list'; see the doc of that variable if you want to add names to the list. \(fn)" t nil) (autoload 'complete-tag "etags" "\ Perform tags completion on the text around point. Completes to the set of names listed in the current tags table. The string to complete is chosen in the same way as the default for \\[find-tag] (which see). \(fn)" t nil) (autoload 'etags--xref-backend "etags" "\ \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "etags" '("xref-" "etags-" "snarf-tag-function" "select-tags-table-" "tag" "file-of-tag" "find-tag-" "list-tags-function" "last-tag" "initialize-new-tags-table" "verify-tags-table-function" "goto-tag-location-function" "next-file-list" "default-tags-table-function"))) ;;;*** ;;;### (autoloads nil "ethio-util" "language/ethio-util.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from language/ethio-util.el (autoload 'setup-ethiopic-environment-internal "ethio-util" "\ \(fn)" nil nil) (autoload 'ethio-sera-to-fidel-buffer "ethio-util" "\ Convert the current buffer from SERA to FIDEL. The variable `ethio-primary-language' specifies the primary language and `ethio-secondary-language' specifies the secondary. If the 1st optional argument SECONDARY is non-nil, assume the buffer begins with the secondary language; otherwise with the primary language. If the 2nd optional argument FORCE is non-nil, perform conversion even if the buffer is read-only. See also the descriptions of the variables `ethio-use-colon-for-colon' and `ethio-use-three-dot-question'. \(fn &optional SECONDARY FORCE)" t nil) (autoload 'ethio-sera-to-fidel-region "ethio-util" "\ Convert the characters in region from SERA to FIDEL. The variable `ethio-primary-language' specifies the primary language and `ethio-secondary-language' specifies the secondary. If the 3rd argument SECONDARY is given and non-nil, assume the region begins with the secondary language; otherwise with the primary language. If the 4th argument FORCE is given and non-nil, perform conversion even if the buffer is read-only. See also the descriptions of the variables `ethio-use-colon-for-colon' and `ethio-use-three-dot-question'. \(fn BEGIN END &optional SECONDARY FORCE)" t nil) (autoload 'ethio-sera-to-fidel-marker "ethio-util" "\ Convert the regions surrounded by \"\" and \"\" from SERA to FIDEL. Assume that each region begins with `ethio-primary-language'. The markers \"\" and \"\" themselves are not deleted. \(fn &optional FORCE)" t nil) (autoload 'ethio-fidel-to-sera-buffer "ethio-util" "\ Replace all the FIDEL characters in the current buffer to the SERA format. The variable `ethio-primary-language' specifies the primary language and `ethio-secondary-language' specifies the secondary. If the 1st optional argument SECONDARY is non-nil, try to convert the region so that it begins with the secondary language; otherwise with the primary language. If the 2nd optional argument FORCE is non-nil, convert even if the buffer is read-only. See also the descriptions of the variables `ethio-use-colon-for-colon', `ethio-use-three-dot-question', `ethio-quote-vowel-always' and `ethio-numeric-reduction'. \(fn &optional SECONDARY FORCE)" t nil) (autoload 'ethio-fidel-to-sera-region "ethio-util" "\ Replace all the FIDEL characters in the region to the SERA format. The variable `ethio-primary-language' specifies the primary language and `ethio-secondary-language' specifies the secondary. If the 3rd argument SECONDARY is given and non-nil, convert the region so that it begins with the secondary language; otherwise with the primary language. If the 4th argument FORCE is given and non-nil, convert even if the buffer is read-only. See also the descriptions of the variables `ethio-use-colon-for-colon', `ethio-use-three-dot-question', `ethio-quote-vowel-always' and `ethio-numeric-reduction'. \(fn BEGIN END &optional SECONDARY FORCE)" t nil) (autoload 'ethio-fidel-to-sera-marker "ethio-util" "\ Convert the regions surrounded by \"\" and \"\" from FIDEL to SERA. The markers \"\" and \"\" themselves are not deleted. \(fn &optional FORCE)" t nil) (autoload 'ethio-modify-vowel "ethio-util" "\ Modify the vowel of the FIDEL that is under the cursor. \(fn)" t nil) (autoload 'ethio-replace-space "ethio-util" "\ Replace ASCII spaces with Ethiopic word separators in the region. In the specified region, replace word separators surrounded by two Ethiopic characters, depending on the first argument CH, which should be 1, 2, or 3. If CH = 1, word separator will be replaced with an ASCII space. If CH = 2, with two ASCII spaces. If CH = 3, with the Ethiopic colon-like word separator. The 2nd and 3rd arguments BEGIN and END specify the region. \(fn CH BEGIN END)" t nil) (autoload 'ethio-input-special-character "ethio-util" "\ This function is deprecated. \(fn ARG)" t nil) (autoload 'ethio-fidel-to-tex-buffer "ethio-util" "\ Convert each fidel characters in the current buffer into a fidel-tex command. \(fn)" t nil) (autoload 'ethio-tex-to-fidel-buffer "ethio-util" "\ Convert fidel-tex commands in the current buffer into fidel chars. \(fn)" t nil) (autoload 'ethio-fidel-to-java-buffer "ethio-util" "\ Convert Ethiopic characters into the Java escape sequences. Each escape sequence is of the form \\uXXXX, where XXXX is the character's codepoint (in hex) in Unicode. If `ethio-java-save-lowercase' is non-nil, use [0-9a-f]. Otherwise, [0-9A-F]. \(fn)" nil nil) (autoload 'ethio-java-to-fidel-buffer "ethio-util" "\ Convert the Java escape sequences into corresponding Ethiopic characters. \(fn)" nil nil) (autoload 'ethio-find-file "ethio-util" "\ Transliterate file content into Ethiopic depending on filename suffix. \(fn)" nil nil) (autoload 'ethio-write-file "ethio-util" "\ Transliterate Ethiopic characters in ASCII depending on the file extension. \(fn)" nil nil) (autoload 'ethio-insert-ethio-space "ethio-util" "\ Insert the Ethiopic word delimiter (the colon-like character). With ARG, insert that many delimiters. \(fn ARG)" t nil) (autoload 'ethio-composition-function "ethio-util" "\ \(fn POS TO FONT-OBJECT STRING)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ethio-util" '("exit-ethiopic-environment" "ethio-"))) ;;;*** ;;;### (autoloads nil "eudc" "net/eudc.el" (0 0 0 0)) ;;; Generated autoloads from net/eudc.el (autoload 'eudc-set-server "eudc" "\ Set the directory server to SERVER using PROTOCOL. Unless NO-SAVE is non-nil, the server is saved as the default server for future sessions. \(fn SERVER PROTOCOL &optional NO-SAVE)" t nil) (autoload 'eudc-get-email "eudc" "\ Get the email field of NAME from the directory server. If ERROR is non-nil, report an error if there is none. \(fn NAME &optional ERROR)" t nil) (autoload 'eudc-get-phone "eudc" "\ Get the phone field of NAME from the directory server. If ERROR is non-nil, report an error if there is none. \(fn NAME &optional ERROR)" t nil) (autoload 'eudc-expand-inline "eudc" "\ Query the directory server, and expand the query string before point. The query string consists of the buffer substring from the point back to the preceding comma, colon or beginning of line. The variable `eudc-inline-query-format' controls how to associate the individual inline query words with directory attribute names. After querying the server for the given string, the expansion specified by `eudc-inline-expansion-format' is inserted in the buffer at point. If REPLACE is non-nil, then this expansion replaces the name in the buffer. `eudc-expansion-overwrites-query' being non-nil inverts the meaning of REPLACE. Multiple servers can be tried with the same query until one finds a match, see `eudc-inline-expansion-servers' \(fn &optional REPLACE)" t nil) (autoload 'eudc-query-form "eudc" "\ Display a form to query the directory server. If given a non-nil argument GET-FIELDS-FROM-SERVER, the function first queries the server for the existing fields and displays a corresponding form. \(fn &optional GET-FIELDS-FROM-SERVER)" t nil) (autoload 'eudc-load-eudc "eudc" "\ Load the Emacs Unified Directory Client. This does nothing except loading eudc by autoload side-effect. \(fn)" t nil) (cond ((not (featurep 'xemacs)) (defvar eudc-tools-menu (let ((map (make-sparse-keymap "Directory Servers"))) (define-key map [phone] `(menu-item ,(purecopy "Get Phone") eudc-get-phone :help ,(purecopy "Get the phone field of name from the directory server"))) (define-key map [email] `(menu-item ,(purecopy "Get Email") eudc-get-email :help ,(purecopy "Get the email field of NAME from the directory server"))) (define-key map [separator-eudc-email] menu-bar-separator) (define-key map [expand-inline] `(menu-item ,(purecopy "Expand Inline Query") eudc-expand-inline :help ,(purecopy "Query the directory server, and expand the query string before point"))) (define-key map [query] `(menu-item ,(purecopy "Query with Form") eudc-query-form :help ,(purecopy "Display a form to query the directory server"))) (define-key map [separator-eudc-query] menu-bar-separator) (define-key map [new] `(menu-item ,(purecopy "New Server") eudc-set-server :help ,(purecopy "Set the directory server to SERVER using PROTOCOL"))) (define-key map [load] `(menu-item ,(purecopy "Load Hotlist of Servers") eudc-load-eudc :help ,(purecopy "Load the Emacs Unified Directory Client"))) map)) (fset 'eudc-tools-menu (symbol-value 'eudc-tools-menu))) (t (let ((menu '("Directory Servers" ["Load Hotlist of Servers" eudc-load-eudc t] ["New Server" eudc-set-server t] ["---" nil nil] ["Query with Form" eudc-query-form t] ["Expand Inline Query" eudc-expand-inline t] ["---" nil nil] ["Get Email" eudc-get-email t] ["Get Phone" eudc-get-phone t]))) (if (not (featurep 'eudc-autoloads)) (if (featurep 'xemacs) (if (and (featurep 'menubar) (not (featurep 'infodock))) (add-submenu '("Tools") menu)) (require 'easymenu) (cond ((fboundp 'easy-menu-add-item) (easy-menu-add-item nil '("tools") (easy-menu-create-menu (car menu) (cdr menu)))) ((fboundp 'easy-menu-create-keymaps) (define-key global-map [menu-bar tools eudc] (cons "Directory Servers" (easy-menu-create-keymaps "Directory Servers" (cdr menu))))))))))) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eudc" '("eudc-"))) ;;;*** ;;;### (autoloads nil "eudc-bob" "net/eudc-bob.el" (0 0 0 0)) ;;; Generated autoloads from net/eudc-bob.el (autoload 'eudc-display-generic-binary "eudc-bob" "\ Display a button for unidentified binary DATA. \(fn DATA)" nil nil) (autoload 'eudc-display-url "eudc-bob" "\ Display URL and make it clickable. \(fn URL)" nil nil) (autoload 'eudc-display-mail "eudc-bob" "\ Display e-mail address and make it clickable. \(fn MAIL)" nil nil) (autoload 'eudc-display-sound "eudc-bob" "\ Display a button to play the sound DATA. \(fn DATA)" nil nil) (autoload 'eudc-display-jpeg-inline "eudc-bob" "\ Display the JPEG DATA inline at point if possible. \(fn DATA)" nil nil) (autoload 'eudc-display-jpeg-as-button "eudc-bob" "\ Display a button for the JPEG DATA. \(fn DATA)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eudc-bob" '("eudc-"))) ;;;*** ;;;### (autoloads nil "eudc-export" "net/eudc-export.el" (0 0 0 0)) ;;; Generated autoloads from net/eudc-export.el (autoload 'eudc-insert-record-at-point-into-bbdb "eudc-export" "\ Insert record at point into the BBDB database. This function can only be called from a directory query result buffer. \(fn)" t nil) (autoload 'eudc-try-bbdb-insert "eudc-export" "\ Call `eudc-insert-record-at-point-into-bbdb' if on a record. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eudc-export" '("eudc-"))) ;;;*** ;;;### (autoloads nil "eudc-hotlist" "net/eudc-hotlist.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from net/eudc-hotlist.el (autoload 'eudc-edit-hotlist "eudc-hotlist" "\ Edit the hotlist of directory servers in a specialized buffer. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eudc-hotlist" '("eudc-hotlist-"))) ;;;*** ;;;### (autoloads nil "eudc-vars" "net/eudc-vars.el" (0 0 0 0)) ;;; Generated autoloads from net/eudc-vars.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eudc-vars" '("eudc-"))) ;;;*** ;;;### (autoloads nil "eudcb-bbdb" "net/eudcb-bbdb.el" (0 0 0 0)) ;;; Generated autoloads from net/eudcb-bbdb.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eudcb-bbdb" '("eudc-bbdb-"))) ;;;*** ;;;### (autoloads nil "eudcb-ldap" "net/eudcb-ldap.el" (0 0 0 0)) ;;; Generated autoloads from net/eudcb-ldap.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eudcb-ldap" '("eudc-"))) ;;;*** ;;;### (autoloads nil "eudcb-mab" "net/eudcb-mab.el" (0 0 0 0)) ;;; Generated autoloads from net/eudcb-mab.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eudcb-mab" '("eudc-"))) ;;;*** ;;;### (autoloads nil "ewoc" "emacs-lisp/ewoc.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/ewoc.el (autoload 'ewoc-create "ewoc" "\ Create an empty ewoc. The ewoc will be inserted in the current buffer at the current position. PRETTY-PRINTER should be a function that takes one argument, an element, and inserts a string representing it in the buffer (at point). The string PRETTY-PRINTER inserts may be empty or span several lines. The PRETTY-PRINTER should use `insert', and not `insert-before-markers'. Optional second and third arguments HEADER and FOOTER are strings, possibly empty, that will always be present at the top and bottom, respectively, of the ewoc. Normally, a newline is automatically inserted after the header, the footer and every node's printed representation. Optional fourth arg NOSEP non-nil inhibits this. \(fn PRETTY-PRINTER &optional HEADER FOOTER NOSEP)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ewoc" '("ewoc-"))) ;;;*** ;;;### (autoloads nil "eww" "net/eww.el" (0 0 0 0)) ;;; Generated autoloads from net/eww.el (defvar eww-suggest-uris '(eww-links-at-point url-get-url-at-point eww-current-url) "\ List of functions called to form the list of default URIs for `eww'. Each of the elements is a function returning either a string or a list of strings. The results will be joined into a single list with duplicate entries (if any) removed.") (custom-autoload 'eww-suggest-uris "eww" t) (autoload 'eww "eww" "\ Fetch URL and render the page. If the input doesn't look like an URL or a domain name, the word(s) will be searched for via `eww-search-prefix'. \(fn URL)" t nil) (defalias 'browse-web 'eww) (autoload 'eww-open-file "eww" "\ Render FILE using EWW. \(fn FILE)" t nil) (autoload 'eww-search-words "eww" "\ Search the web for the text between BEG and END. If region is active (and not whitespace), search the web for the text between BEG and END. Else, prompt the user for a search string. See the `eww-search-prefix' variable for the search engine used. \(fn)" t nil) (autoload 'eww-mode "eww" "\ Mode for browsing the web. \(fn)" t nil) (autoload 'eww-browse-url "eww" "\ \(fn URL &optional NEW-WINDOW)" nil nil) (autoload 'eww-list-bookmarks "eww" "\ Display the bookmarks. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "eww" '("eww-"))) ;;;*** ;;;### (autoloads nil "executable" "progmodes/executable.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from progmodes/executable.el (autoload 'executable-command-find-posix-p "executable" "\ Check if PROGRAM handles arguments Posix-style. If PROGRAM is non-nil, use that instead of \"find\". \(fn &optional PROGRAM)" nil nil) (autoload 'executable-interpret "executable" "\ Run script with user-specified args, and collect output in a buffer. While script runs asynchronously, you can use the \\[next-error] command to find the next error. The buffer is also in `comint-mode' and `compilation-shell-minor-mode', so that you can answer any prompts. \(fn COMMAND)" t nil) (autoload 'executable-set-magic "executable" "\ Set this buffer's interpreter to INTERPRETER with optional ARGUMENT. The variables `executable-magicless-file-regexp', `executable-prefix-env', `executable-insert', `executable-query' and `executable-chmod' control when and how magic numbers are inserted or replaced and scripts made executable. \(fn INTERPRETER &optional ARGUMENT NO-QUERY-FLAG INSERT-FLAG)" t nil) (autoload 'executable-make-buffer-file-executable-if-script-p "executable" "\ Make file executable according to umask if not already executable. If file already has any execute bits set at all, do not change existing file modes. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "executable" '("executable-"))) ;;;*** ;;;### (autoloads nil "expand" "expand.el" (0 0 0 0)) ;;; Generated autoloads from expand.el (autoload 'expand-add-abbrevs "expand" "\ Add a list of abbreviations to abbrev table TABLE. ABBREVS is a list of abbrev definitions; each abbrev description entry has the form (ABBREV EXPANSION ARG). ABBREV is the abbreviation to replace. EXPANSION is the replacement string or a function which will make the expansion. For example, you could use the DMacros or skeleton packages to generate such functions. ARG is an optional argument which can be a number or a list of numbers. If ARG is a number, point is placed ARG chars from the beginning of the expanded text. If ARG is a list of numbers, point is placed according to the first member of the list, but you can visit the other specified positions cyclically with the functions `expand-jump-to-previous-slot' and `expand-jump-to-next-slot'. If ARG is omitted, point is placed at the end of the expanded text. \(fn TABLE ABBREVS)" nil nil) (autoload 'expand-abbrev-hook "expand" "\ Abbrev hook used to do the expansion job of expand abbrevs. See `expand-add-abbrevs'. Value is non-nil if expansion was done. \(fn)" nil nil) (autoload 'expand-jump-to-previous-slot "expand" "\ Move the cursor to the previous slot in the last abbrev expansion. This is used only in conjunction with `expand-add-abbrevs'. \(fn)" t nil) (autoload 'expand-jump-to-next-slot "expand" "\ Move the cursor to the next slot in the last abbrev expansion. This is used only in conjunction with `expand-add-abbrevs'. \(fn)" t nil) (define-key abbrev-map "p" 'expand-jump-to-previous-slot) (define-key abbrev-map "n" 'expand-jump-to-next-slot) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "expand" '("expand-"))) ;;;*** ;;;### (autoloads nil "ezimage" "ezimage.el" (0 0 0 0)) ;;; Generated autoloads from ezimage.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ezimage" '("ezimage-"))) ;;;*** ;;;### (autoloads nil "f90" "progmodes/f90.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/f90.el (autoload 'f90-mode "f90" "\ Major mode for editing Fortran 90,95 code in free format. For fixed format code, use `fortran-mode'. \\[f90-indent-line] indents the current line. \\[f90-indent-new-line] indents current line and creates a new indented line. \\[f90-indent-subprogram] indents the current subprogram. Type \\=`? or \\=`\\[help-command] to display a list of built-in abbrevs for F90 keywords. Key definitions: \\{f90-mode-map} Variables controlling indentation style and extra features: `f90-do-indent' Extra indentation within do blocks (default 3). `f90-if-indent' Extra indentation within if/select/where/forall blocks (default 3). `f90-type-indent' Extra indentation within type/enum/interface/block-data blocks (default 3). `f90-program-indent' Extra indentation within program/module/subroutine/function blocks (default 2). `f90-associate-indent' Extra indentation within associate blocks (default 2). `f90-critical-indent' Extra indentation within critical/block blocks (default 2). `f90-continuation-indent' Extra indentation applied to continuation lines (default 5). `f90-comment-region' String inserted by function \\[f90-comment-region] at start of each line in region (default \"!!!$\"). `f90-indented-comment-re' Regexp determining the type of comment to be intended like code (default \"!\"). `f90-directive-comment-re' Regexp of comment-like directive like \"!HPF\\\\$\", not to be indented (default \"!hpf\\\\$\"). `f90-break-delimiters' Regexp holding list of delimiters at which lines may be broken (default \"[-+*/><=,% \\t]\"). `f90-break-before-delimiters' Non-nil causes `f90-do-auto-fill' to break lines before delimiters (default t). `f90-beginning-ampersand' Automatic insertion of `&' at beginning of continuation lines (default t). `f90-smart-end' From an END statement, check and fill the end using matching block start. Allowed values are `blink', `no-blink', and nil, which determine whether to blink the matching beginning (default `blink'). `f90-auto-keyword-case' Automatic change of case of keywords (default nil). The possibilities are `downcase-word', `upcase-word', `capitalize-word'. `f90-leave-line-no' Do not left-justify line numbers (default nil). Turning on F90 mode calls the value of the variable `f90-mode-hook' with no args, if that value is non-nil. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "f90" '("f90-"))) ;;;*** ;;;### (autoloads nil "face-remap" "face-remap.el" (0 0 0 0)) ;;; Generated autoloads from face-remap.el (autoload 'face-remap-add-relative "face-remap" "\ Add a face remapping entry of FACE to SPECS in the current buffer. Return a cookie which can be used to delete this remapping with `face-remap-remove-relative'. The remaining arguments, SPECS, should form a list of faces. Each list element should be either a face name or a property list of face attribute/value pairs. If more than one face is listed, that specifies an aggregate face, in the same way as in a `face' text property, except for possible priority changes noted below. The face remapping specified by SPECS takes effect alongside the remappings from other calls to `face-remap-add-relative' for the same FACE, as well as the normal definition of FACE (at lowest priority). This function tries to sort multiple remappings for the same face, so that remappings specifying relative face attributes are applied after remappings specifying absolute face attributes. The base (lowest priority) remapping may be set to something other than the normal definition of FACE via `face-remap-set-base'. \(fn FACE &rest SPECS)" nil nil) (autoload 'face-remap-reset-base "face-remap" "\ Set the base remapping of FACE to the normal definition of FACE. This causes the remappings specified by `face-remap-add-relative' to apply on top of the normal definition of FACE. \(fn FACE)" nil nil) (autoload 'face-remap-set-base "face-remap" "\ Set the base remapping of FACE in the current buffer to SPECS. This causes the remappings specified by `face-remap-add-relative' to apply on top of the face specification given by SPECS. The remaining arguments, SPECS, should form a list of faces. Each list element should be either a face name or a property list of face attribute/value pairs, like in a `face' text property. If SPECS is empty, call `face-remap-reset-base' to use the normal definition of FACE as the base remapping; note that this is different from SPECS containing a single value nil, which means not to inherit from the global definition of FACE at all. \(fn FACE &rest SPECS)" nil nil) (autoload 'text-scale-set "face-remap" "\ Set the scale factor of the default face in the current buffer to LEVEL. If LEVEL is non-zero, `text-scale-mode' is enabled, otherwise it is disabled. LEVEL is a number of steps, with 0 representing the default size. Each step scales the height of the default face by the variable `text-scale-mode-step' (a negative number decreases the height by the same amount). \(fn LEVEL)" t nil) (autoload 'text-scale-increase "face-remap" "\ Increase the height of the default face in the current buffer by INC steps. If the new height is other than the default, `text-scale-mode' is enabled. Each step scales the height of the default face by the variable `text-scale-mode-step' (a negative number of steps decreases the height by the same amount). As a special case, an argument of 0 will remove any scaling currently active. \(fn INC)" t nil) (autoload 'text-scale-decrease "face-remap" "\ Decrease the height of the default face in the current buffer by DEC steps. See `text-scale-increase' for more details. \(fn DEC)" t nil) (define-key ctl-x-map [(control ?+)] 'text-scale-adjust) (define-key ctl-x-map [(control ?-)] 'text-scale-adjust) (define-key ctl-x-map [(control ?=)] 'text-scale-adjust) (define-key ctl-x-map [(control ?0)] 'text-scale-adjust) (autoload 'text-scale-adjust "face-remap" "\ Adjust the height of the default face by INC. INC may be passed as a numeric prefix argument. The actual adjustment made depends on the final component of the key-binding used to invoke the command, with all modifiers removed: +, = Increase the default face height by one step - Decrease the default face height by one step 0 Reset the default face height to the global default After adjusting, continue to read input events and further adjust the face height as long as the input event read \(with all modifiers removed) is one of the above characters. Each step scales the height of the default face by the variable `text-scale-mode-step' (a negative number of steps decreases the height by the same amount). As a special case, an argument of 0 will remove any scaling currently active. This command is a special-purpose wrapper around the `text-scale-increase' command which makes repetition convenient even when it is bound in a non-top-level keymap. For binding in a top-level keymap, `text-scale-increase' or `text-scale-decrease' may be more appropriate. \(fn INC)" t nil) (autoload 'buffer-face-mode "face-remap" "\ Minor mode for a buffer-specific default face. With a prefix argument ARG, enable the mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. When enabled, the face specified by the variable `buffer-face-mode-face' is used to display the buffer text. \(fn &optional ARG)" t nil) (autoload 'buffer-face-set "face-remap" "\ Enable `buffer-face-mode', using face specs SPECS. Each argument in SPECS should be a face, i.e. either a face name or a property list of face attributes and values. If more than one face is listed, that specifies an aggregate face, like in a `face' text property. If SPECS is nil or omitted, disable `buffer-face-mode'. This function makes the variable `buffer-face-mode-face' buffer local, and sets it to FACE. \(fn &rest SPECS)" t nil) (autoload 'buffer-face-toggle "face-remap" "\ Toggle `buffer-face-mode', using face specs SPECS. Each argument in SPECS should be a face, i.e. either a face name or a property list of face attributes and values. If more than one face is listed, that specifies an aggregate face, like in a `face' text property. If `buffer-face-mode' is already enabled, and is currently using the face specs SPECS, then it is disabled; if `buffer-face-mode' is disabled, or is enabled and currently displaying some other face, then is left enabled, but the face changed to reflect SPECS. This function will make the variable `buffer-face-mode-face' buffer local, and set it to SPECS. \(fn &rest SPECS)" t nil) (autoload 'variable-pitch-mode "face-remap" "\ Variable-pitch default-face mode. An interface to `buffer-face-mode' which uses the `variable-pitch' face. Besides the choice of face, it is the same as `buffer-face-mode'. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "face-remap" '("buffer-face-mode-" "text-scale-m" "face-" "internal-lisp-face-attributes"))) ;;;*** ;;;### (autoloads nil "faceup" "emacs-lisp/faceup.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/faceup.el (push (purecopy '(faceup 0 0 6)) package--builtin-versions) (autoload 'faceup-view-buffer "faceup" "\ Display the faceup representation of the current buffer. \(fn)" t nil) (autoload 'faceup-write-file "faceup" "\ Save the faceup representation of the current buffer to the file FILE-NAME. Unless a name is given, the file will be named xxx.faceup, where xxx is the file name associated with the buffer. If optional second arg CONFIRM is non-nil, this function asks for confirmation before overwriting an existing file. Interactively, confirmation is required unless you supply a prefix argument. \(fn &optional FILE-NAME CONFIRM)" t nil) (autoload 'faceup-render-view-buffer "faceup" "\ Convert BUFFER containing Faceup markup to a new buffer and display it. \(fn &optional BUFFER)" t nil) (autoload 'faceup-clean-buffer "faceup" "\ Remove faceup markup from buffer. \(fn)" t nil) (autoload 'faceup-defexplainer "faceup" "\ Defines an Ert explainer function for FUNCTION. FUNCTION must return an explanation when the test fails and `faceup-test-explain' is set. \(fn FUNCTION)" nil t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "faceup" '("faceup-"))) ;;;*** ;;;### (autoloads nil "feedmail" "mail/feedmail.el" (0 0 0 0)) ;;; Generated autoloads from mail/feedmail.el (push (purecopy '(feedmail 11)) package--builtin-versions) (autoload 'feedmail-send-it "feedmail" "\ Send the current mail buffer using the Feedmail package. This is a suitable value for `send-mail-function'. It can be used with various lower-level mechanisms to provide features such as queueing. \(fn)" nil nil) (autoload 'feedmail-run-the-queue-no-prompts "feedmail" "\ Like `feedmail-run-the-queue', but suppress confirmation prompts. \(fn &optional ARG)" t nil) (autoload 'feedmail-run-the-queue-global-prompt "feedmail" "\ Like `feedmail-run-the-queue', but with a global confirmation prompt. This is generally most useful if run non-interactively, since you can bail out with an appropriate answer to the global confirmation prompt. \(fn &optional ARG)" t nil) (autoload 'feedmail-run-the-queue "feedmail" "\ Visit each message in the feedmail queue directory and send it out. Return value is a list of three things: number of messages sent, number of messages skipped, and number of non-message things in the queue (commonly backup file names and the like). \(fn &optional ARG)" t nil) (autoload 'feedmail-queue-reminder "feedmail" "\ Perform some kind of reminder activity about queued and draft messages. Called with an optional symbol argument which says what kind of event is triggering the reminder activity. The default is `on-demand', which is what you typically would use if you were putting this in your Emacs start-up or mail hook code. Other recognized values for WHAT-EVENT (these are passed internally by feedmail): after-immediate (a message has just been sent in immediate mode) after-queue (a message has just been queued) after-draft (a message has just been placed in the draft directory) after-run (the queue has just been run, possibly sending messages) WHAT-EVENT is used as a key into the table `feedmail-queue-reminder-alist'. If the associated value is a function, it is called without arguments and is expected to perform the reminder activity. You can supply your own reminder functions by redefining `feedmail-queue-reminder-alist'. If you don't want any reminders, you can set `feedmail-queue-reminder-alist' to nil. \(fn &optional WHAT-EVENT)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "feedmail" '("feedmail-"))) ;;;*** ;;;### (autoloads nil "ffap" "ffap.el" (0 0 0 0)) ;;; Generated autoloads from ffap.el (autoload 'ffap-next "ffap" "\ Search buffer for next file or URL, and run ffap. Optional argument BACK says to search backwards. Optional argument WRAP says to try wrapping around if necessary. Interactively: use a single prefix \\[universal-argument] to search backwards, double prefix to wrap forward, triple to wrap backwards. Actual search is done by the function `ffap-next-guess'. \(fn &optional BACK WRAP)" t nil) (autoload 'find-file-at-point "ffap" "\ Find FILENAME, guessing a default from text around point. If `ffap-url-regexp' is not nil, the FILENAME may also be an URL. With a prefix, this command behaves exactly like `ffap-file-finder'. If `ffap-require-prefix' is set, the prefix meaning is reversed. See also the variables `ffap-dired-wildcards', `ffap-newfile-prompt', `ffap-url-unwrap-local', `ffap-url-unwrap-remote', and the functions `ffap-file-at-point' and `ffap-url-at-point'. \(fn &optional FILENAME)" t nil) (defalias 'ffap 'find-file-at-point) (autoload 'ffap-menu "ffap" "\ Put up a menu of files and URLs mentioned in this buffer. Then set mark, jump to choice, and try to fetch it. The menu is cached in `ffap-menu-alist', and rebuilt by `ffap-menu-rescan'. The optional RESCAN argument (a prefix, interactively) forces a rebuild. Searches with `ffap-menu-regexp'. \(fn &optional RESCAN)" t nil) (autoload 'ffap-at-mouse "ffap" "\ Find file or URL guessed from text around mouse click. Interactively, calls `ffap-at-mouse-fallback' if no guess is found. Return value: * if a guess string is found, return it (after finding it) * if the fallback is called, return whatever it returns * otherwise, nil \(fn E)" t nil) (autoload 'dired-at-point "ffap" "\ Start Dired, defaulting to file at point. See `ffap'. If `dired-at-point-require-prefix' is set, the prefix meaning is reversed. \(fn &optional FILENAME)" t nil) (autoload 'ffap-guess-file-name-at-point "ffap" "\ Try to get a file name at point. This hook is intended to be put in `file-name-at-point-functions'. \(fn)" nil nil) (autoload 'ffap-bindings "ffap" "\ Evaluate the forms in variable `ffap-bindings'. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ffap" '("find-file-literally-at-point" "ffap-" "dired-at-point-"))) ;;;*** ;;;### (autoloads nil "filecache" "filecache.el" (0 0 0 0)) ;;; Generated autoloads from filecache.el (autoload 'file-cache-add-directory "filecache" "\ Add all files in DIRECTORY to the file cache. If called from Lisp with a non-nil REGEXP argument is non-nil, only add files whose names match REGEXP. \(fn DIRECTORY &optional REGEXP)" t nil) (autoload 'file-cache-add-directory-list "filecache" "\ Add DIRECTORIES (a list of directory names) to the file cache. If called interactively, read the directory names one by one. If the optional REGEXP argument is non-nil, only files which match it will be added to the cache. Note that the REGEXP is applied to the files in each directory, not to the directory list itself. \(fn DIRECTORIES &optional REGEXP)" t nil) (autoload 'file-cache-add-file "filecache" "\ Add FILE to the file cache. \(fn FILE)" t nil) (autoload 'file-cache-add-directory-using-find "filecache" "\ Use the `find' command to add files to the file cache. Find is run in DIRECTORY. \(fn DIRECTORY)" t nil) (autoload 'file-cache-add-directory-using-locate "filecache" "\ Use the `locate' command to add files to the file cache. STRING is passed as an argument to the locate command. \(fn STRING)" t nil) (autoload 'file-cache-add-directory-recursively "filecache" "\ Adds DIR and any subdirectories to the file-cache. This function does not use any external programs. If the optional REGEXP argument is non-nil, only files which match it will be added to the cache. Note that the REGEXP is applied to the files in each directory, not to the directory list itself. \(fn DIR &optional REGEXP)" t nil) (autoload 'file-cache-minibuffer-complete "filecache" "\ Complete a filename in the minibuffer using a preloaded cache. Filecache does two kinds of substitution: it completes on names in the cache, and, once it has found a unique name, it cycles through the directories that the name is available in. With a prefix argument, the name is considered already unique; only the second substitution \(directories) is done. \(fn ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "filecache" '("file-cache-"))) ;;;*** ;;;### (autoloads nil "filenotify" "filenotify.el" (0 0 0 0)) ;;; Generated autoloads from filenotify.el (autoload 'file-notify-handle-event "filenotify" "\ Handle file system monitoring event. If EVENT is a filewatch event, call its callback. It has the format (file-notify (DESCRIPTOR ACTIONS FILE [FILE1-OR-COOKIE]) CALLBACK) Otherwise, signal a `file-notify-error'. \(fn EVENT)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "filenotify" '("file-notify-"))) ;;;*** ;;;### (autoloads nil "files-x" "files-x.el" (0 0 0 0)) ;;; Generated autoloads from files-x.el (autoload 'add-file-local-variable "files-x" "\ Add file-local VARIABLE with its VALUE to the Local Variables list. This command deletes all existing settings of VARIABLE (except `mode' and `eval') and adds a new file-local VARIABLE with VALUE to the Local Variables list. If there is no Local Variables list in the current file buffer then this function adds the first line containing the string `Local Variables:' and the last line containing the string `End:'. \(fn VARIABLE VALUE &optional INTERACTIVE)" t nil) (autoload 'delete-file-local-variable "files-x" "\ Delete all settings of file-local VARIABLE from the Local Variables list. \(fn VARIABLE &optional INTERACTIVE)" t nil) (autoload 'add-file-local-variable-prop-line "files-x" "\ Add file-local VARIABLE with its VALUE to the -*- line. This command deletes all existing settings of VARIABLE (except `mode' and `eval') and adds a new file-local VARIABLE with VALUE to the -*- line. If there is no -*- line at the beginning of the current file buffer then this function adds it. \(fn VARIABLE VALUE &optional INTERACTIVE)" t nil) (autoload 'delete-file-local-variable-prop-line "files-x" "\ Delete all settings of file-local VARIABLE from the -*- line. \(fn VARIABLE &optional INTERACTIVE)" t nil) (autoload 'add-dir-local-variable "files-x" "\ Add directory-local VARIABLE with its VALUE and MODE to .dir-locals.el. \(fn MODE VARIABLE VALUE)" t nil) (autoload 'delete-dir-local-variable "files-x" "\ Delete all MODE settings of file-local VARIABLE from .dir-locals.el. \(fn MODE VARIABLE)" t nil) (autoload 'copy-file-locals-to-dir-locals "files-x" "\ Copy file-local variables to .dir-locals.el. \(fn)" t nil) (autoload 'copy-dir-locals-to-file-locals "files-x" "\ Copy directory-local variables to the Local Variables list. \(fn)" t nil) (autoload 'copy-dir-locals-to-file-locals-prop-line "files-x" "\ Copy directory-local variables to the -*- line. \(fn)" t nil) (defvar enable-connection-local-variables t "\ Non-nil means enable use of connection-local variables.") (autoload 'connection-local-set-profiles "files-x" "\ Add PROFILES for CRITERIA. CRITERIA is a plist identifying a connection and the application using this connection, see `connection-local-criteria-alist'. PROFILES are the names of connection profiles (a symbol). When a connection to a remote server is opened and CRITERIA matches to that server, the connection-local variables from PROFILES are applied to the corresponding process buffer. The variables for a connection profile are defined using `connection-local-set-profile-variables'. \(fn CRITERIA &rest PROFILES)" nil nil) (autoload 'connection-local-set-profile-variables "files-x" "\ Map the symbol PROFILE to a list of variable settings. VARIABLES is a list that declares connection-local variables for the connection profile. An element in VARIABLES is an alist whose elements are of the form (VAR . VALUE). When a connection to a remote server is opened, the server's connection profiles are found. A server may be assigned a connection profile using `connection-local-set-profile'. Then variables are set in the server's process buffer according to the VARIABLES list of the connection profile. The list is processed in order. \(fn PROFILE VARIABLES)" nil nil) (autoload 'hack-connection-local-variables-apply "files-x" "\ Apply connection-local variables identified by CRITERIA. Other local variables, like file-local and dir-local variables, will not be changed. \(fn CRITERIA)" nil nil) (autoload 'with-connection-local-profiles "files-x" "\ Apply connection-local variables according to PROFILES in current buffer. Execute BODY, and unwind connection-local variables. \(fn PROFILES &rest BODY)" nil t) (function-put 'with-connection-local-profiles 'lisp-indent-function '1) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "files-x" '("hack-connection-local-variables" "connection-local-" "modify-" "read-file-local-variable"))) ;;;*** ;;;### (autoloads nil "filesets" "filesets.el" (0 0 0 0)) ;;; Generated autoloads from filesets.el (autoload 'filesets-init "filesets" "\ Filesets initialization. Set up hooks, load the cache file -- if existing -- and build the menu. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "filesets" '("filesets-"))) ;;;*** ;;;### (autoloads nil "find-cmd" "find-cmd.el" (0 0 0 0)) ;;; Generated autoloads from find-cmd.el (push (purecopy '(find-cmd 0 6)) package--builtin-versions) (autoload 'find-cmd "find-cmd" "\ Initiate the building of a find command. For example: \(find-cmd \\='(prune (name \".svn\" \".git\" \".CVS\")) \\='(and (or (name \"*.pl\" \"*.pm\" \"*.t\") (mtime \"+1\")) (fstype \"nfs\" \"ufs\")))) `default-directory' is used as the initial search path. The result is a string that should be ready for the command line. \(fn &rest SUBFINDS)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "find-cmd" '("find-"))) ;;;*** ;;;### (autoloads nil "find-dired" "find-dired.el" (0 0 0 0)) ;;; Generated autoloads from find-dired.el (autoload 'find-dired "find-dired" "\ Run `find' and go into Dired mode on a buffer of the output. The command run (after changing into DIR) is essentially find . \\( ARGS \\) -ls except that the car of the variable `find-ls-option' specifies what to use in place of \"-ls\" as the final argument. \(fn DIR ARGS)" t nil) (autoload 'find-name-dired "find-dired" "\ Search DIR recursively for files matching the globbing pattern PATTERN, and run Dired on those files. PATTERN is a shell wildcard (not an Emacs regexp) and need not be quoted. The default command run (after changing into DIR) is find . -name \\='PATTERN\\=' -ls See `find-name-arg' to customize the arguments. \(fn DIR PATTERN)" t nil) (autoload 'find-grep-dired "find-dired" "\ Find files in DIR matching a regexp REGEXP and start Dired on output. The command run (after changing into DIR) is find . \\( -type f -exec `grep-program' `find-grep-options' \\ -e REGEXP {} \\; \\) -ls where the car of the variable `find-ls-option' specifies what to use in place of \"-ls\" as the final argument. \(fn DIR REGEXP)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "find-dired" '("find-" "lookfor-dired" "kill-find"))) ;;;*** ;;;### (autoloads nil "find-file" "find-file.el" (0 0 0 0)) ;;; Generated autoloads from find-file.el (defvar ff-special-constructs `((,(purecopy "^#\\s *\\(include\\|import\\)\\s +[<\"]\\(.*\\)[>\"]") lambda nil (buffer-substring (match-beginning 2) (match-end 2)))) "\ List of special constructs recognized by `ff-treat-as-special'. Each element, tried in order, has the form (REGEXP . EXTRACT). If REGEXP matches the current line (from the beginning of the line), `ff-treat-as-special' calls function EXTRACT with no args. If EXTRACT returns nil, keep trying. Otherwise, return the filename that EXTRACT returned.") (custom-autoload 'ff-special-constructs "find-file" t) (autoload 'ff-get-other-file "find-file" "\ Find the header or source file corresponding to this file. See also the documentation for `ff-find-other-file'. If optional IN-OTHER-WINDOW is non-nil, find the file in another window. \(fn &optional IN-OTHER-WINDOW)" t nil) (defalias 'ff-find-related-file 'ff-find-other-file) (autoload 'ff-find-other-file "find-file" "\ Find the header or source file corresponding to this file. Being on a `#include' line pulls in that file. If optional IN-OTHER-WINDOW is non-nil, find the file in the other window. If optional IGNORE-INCLUDE is non-nil, ignore being on `#include' lines. Variables of interest include: - `ff-case-fold-search' Non-nil means ignore cases in matches (see `case-fold-search'). If you have extensions in different cases, you will want this to be nil. - `ff-always-in-other-window' If non-nil, always open the other file in another window, unless an argument is given to `ff-find-other-file'. - `ff-ignore-include' If non-nil, ignores #include lines. - `ff-always-try-to-create' If non-nil, always attempt to create the other file if it was not found. - `ff-quiet-mode' If non-nil, traces which directories are being searched. - `ff-special-constructs' A list of regular expressions specifying how to recognize special constructs such as include files etc, and an associated method for extracting the filename from that construct. - `ff-other-file-alist' Alist of extensions to find given the current file's extension. - `ff-search-directories' List of directories searched through with each extension specified in `ff-other-file-alist' that matches this file's extension. - `ff-pre-find-hook' List of functions to be called before the search for the file starts. - `ff-pre-load-hook' List of functions to be called before the other file is loaded. - `ff-post-load-hook' List of functions to be called after the other file is loaded. - `ff-not-found-hook' List of functions to be called if the other file could not be found. - `ff-file-created-hook' List of functions to be called if the other file has been created. \(fn &optional IN-OTHER-WINDOW IGNORE-INCLUDE)" t nil) (autoload 'ff-mouse-find-other-file "find-file" "\ Visit the file you click on. \(fn EVENT)" t nil) (autoload 'ff-mouse-find-other-file-other-window "find-file" "\ Visit the file you click on in another window. \(fn EVENT)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "find-file" '("ff-" "modula2-other-file-alist" "cc-"))) ;;;*** ;;;### (autoloads nil "find-func" "emacs-lisp/find-func.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from emacs-lisp/find-func.el (autoload 'find-library "find-func" "\ Find the Emacs Lisp source of LIBRARY. Interactively, prompt for LIBRARY using the one at or near point. \(fn LIBRARY)" t nil) (autoload 'find-library-other-window "find-func" "\ Find the Emacs Lisp source of LIBRARY in another window. See `find-library' for more details. \(fn LIBRARY)" t nil) (autoload 'find-library-other-frame "find-func" "\ Find the Emacs Lisp source of LIBRARY in another frame. See `find-library' for more details. \(fn LIBRARY)" t nil) (autoload 'find-function-search-for-symbol "find-func" "\ Search for SYMBOL's definition of type TYPE in LIBRARY. Visit the library in a buffer, and return a cons cell (BUFFER . POSITION), or just (BUFFER . nil) if the definition can't be found in the file. If TYPE is nil, look for a function definition. Otherwise, TYPE specifies the kind of definition, and it is interpreted via `find-function-regexp-alist'. The search is done in the source for library LIBRARY. \(fn SYMBOL TYPE LIBRARY)" nil nil) (autoload 'find-function-noselect "find-func" "\ Return a pair (BUFFER . POINT) pointing to the definition of FUNCTION. Finds the source file containing the definition of FUNCTION in a buffer and the point of the definition. The buffer is not selected. If the function definition can't be found in the buffer, returns (BUFFER). If FUNCTION is a built-in function, this function normally attempts to find it in the Emacs C sources; however, if LISP-ONLY is non-nil, signal an error instead. If the file where FUNCTION is defined is not known, then it is searched for in `find-function-source-path' if non-nil, otherwise in `load-path'. \(fn FUNCTION &optional LISP-ONLY)" nil nil) (autoload 'find-function "find-func" "\ Find the definition of the FUNCTION near point. Finds the source file containing the definition of the function near point (selected by `function-called-at-point') in a buffer and places point before the definition. Set mark before moving, if the buffer already existed. The library where FUNCTION is defined is searched for in `find-function-source-path', if non-nil, otherwise in `load-path'. See also `find-function-recenter-line' and `find-function-after-hook'. \(fn FUNCTION)" t nil) (autoload 'find-function-other-window "find-func" "\ Find, in another window, the definition of FUNCTION near point. See `find-function' for more details. \(fn FUNCTION)" t nil) (autoload 'find-function-other-frame "find-func" "\ Find, in another frame, the definition of FUNCTION near point. See `find-function' for more details. \(fn FUNCTION)" t nil) (autoload 'find-variable-noselect "find-func" "\ Return a pair `(BUFFER . POINT)' pointing to the definition of VARIABLE. Finds the library containing the definition of VARIABLE in a buffer and the point of the definition. The buffer is not selected. If the variable's definition can't be found in the buffer, return (BUFFER). The library where VARIABLE is defined is searched for in FILE or `find-function-source-path', if non-nil, otherwise in `load-path'. \(fn VARIABLE &optional FILE)" nil nil) (autoload 'find-variable "find-func" "\ Find the definition of the VARIABLE at or before point. Finds the library containing the definition of the variable near point (selected by `variable-at-point') in a buffer and places point before the definition. Set mark before moving, if the buffer already existed. The library where VARIABLE is defined is searched for in `find-function-source-path', if non-nil, otherwise in `load-path'. See also `find-function-recenter-line' and `find-function-after-hook'. \(fn VARIABLE)" t nil) (autoload 'find-variable-other-window "find-func" "\ Find, in another window, the definition of VARIABLE near point. See `find-variable' for more details. \(fn VARIABLE)" t nil) (autoload 'find-variable-other-frame "find-func" "\ Find, in another frame, the definition of VARIABLE near point. See `find-variable' for more details. \(fn VARIABLE)" t nil) (autoload 'find-definition-noselect "find-func" "\ Return a pair `(BUFFER . POINT)' pointing to the definition of SYMBOL. If the definition can't be found in the buffer, return (BUFFER). TYPE says what type of definition: nil for a function, `defvar' for a variable, `defface' for a face. This function does not switch to the buffer nor display it. The library where SYMBOL is defined is searched for in FILE or `find-function-source-path', if non-nil, otherwise in `load-path'. \(fn SYMBOL TYPE &optional FILE)" nil nil) (autoload 'find-face-definition "find-func" "\ Find the definition of FACE. FACE defaults to the name near point. Finds the Emacs Lisp library containing the definition of the face near point (selected by `variable-at-point') in a buffer and places point before the definition. Set mark before moving, if the buffer already existed. The library where FACE is defined is searched for in `find-function-source-path', if non-nil, otherwise in `load-path'. See also `find-function-recenter-line' and `find-function-after-hook'. \(fn FACE)" t nil) (autoload 'find-function-on-key "find-func" "\ Find the function that KEY invokes. KEY is a string. Set mark before moving, if the buffer already existed. \(fn KEY)" t nil) (autoload 'find-function-on-key-other-window "find-func" "\ Find, in the other window, the function that KEY invokes. See `find-function-on-key'. \(fn KEY)" t nil) (autoload 'find-function-on-key-other-frame "find-func" "\ Find, in the other frame, the function that KEY invokes. See `find-function-on-key'. \(fn KEY)" t nil) (autoload 'find-function-at-point "find-func" "\ Find directly the function at point in the other window. \(fn)" t nil) (autoload 'find-variable-at-point "find-func" "\ Find directly the variable at point in the other window. \(fn)" t nil) (autoload 'find-function-setup-keys "find-func" "\ Define some key bindings for the find-function family of functions. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "find-func" '("find-" "read-library-name"))) ;;;*** ;;;### (autoloads nil "find-lisp" "find-lisp.el" (0 0 0 0)) ;;; Generated autoloads from find-lisp.el (autoload 'find-lisp-find-dired "find-lisp" "\ Find files in DIR, matching REGEXP. \(fn DIR REGEXP)" t nil) (autoload 'find-lisp-find-dired-subdirectories "find-lisp" "\ Find all subdirectories of DIR. \(fn DIR)" t nil) (autoload 'find-lisp-find-dired-filter "find-lisp" "\ Change the filter on a `find-lisp-find-dired' buffer to REGEXP. \(fn REGEXP)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "find-lisp" '("find-lisp-"))) ;;;*** ;;;### (autoloads nil "finder" "finder.el" (0 0 0 0)) ;;; Generated autoloads from finder.el (push (purecopy '(finder 1 0)) package--builtin-versions) (autoload 'finder-list-keywords "finder" "\ Display descriptions of the keywords in the Finder buffer. \(fn)" t nil) (autoload 'finder-commentary "finder" "\ Display FILE's commentary section. FILE should be in a form suitable for passing to `locate-library'. \(fn FILE)" t nil) (autoload 'finder-by-keyword "finder" "\ Find packages matching a given keyword. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "finder" '("finder-" "generated-finder-keywords-file"))) ;;;*** ;;;### (autoloads nil "flow-ctrl" "flow-ctrl.el" (0 0 0 0)) ;;; Generated autoloads from flow-ctrl.el (autoload 'enable-flow-control "flow-ctrl" "\ Toggle flow control handling. When handling is enabled, user can type C-s as C-\\, and C-q as C-^. With arg, enable flow control mode if arg is positive, otherwise disable. \(fn &optional ARGUMENT)" t nil) (autoload 'enable-flow-control-on "flow-ctrl" "\ Enable flow control if using one of a specified set of terminal types. Use `(enable-flow-control-on \"vt100\" \"h19\")' to enable flow control on VT-100 and H19 terminals. When flow control is enabled, you must type C-\\ to get the effect of a C-s, and type C-^ to get the effect of a C-q. \(fn &rest LOSING-TERMINAL-TYPES)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "flow-ctrl" '("flow-control-c-"))) ;;;*** ;;;### (autoloads nil "flow-fill" "mail/flow-fill.el" (0 0 0 0)) ;;; Generated autoloads from mail/flow-fill.el (autoload 'fill-flowed-encode "flow-fill" "\ \(fn &optional BUFFER)" nil nil) (autoload 'fill-flowed "flow-fill" "\ \(fn &optional BUFFER DELETE-SPACE)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "flow-fill" '("fill-flowed-"))) ;;;*** ;;;### (autoloads nil "flymake" "progmodes/flymake.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/flymake.el (push (purecopy '(flymake 0 3)) package--builtin-versions) (autoload 'flymake-log "flymake" "\ Log, at level LEVEL, the message MSG formatted with ARGS. LEVEL is passed to `display-warning', which is used to display the warning. If this form is included in a byte-compiled file, the generated warning contains an indication of the file that generated it. \(fn LEVEL MSG &rest ARGS)" nil t) (autoload 'flymake-make-diagnostic "flymake" "\ Make a Flymake diagnostic for BUFFER's region from BEG to END. TYPE is a key to `flymake-diagnostic-types-alist' and TEXT is a description of the problem detected in this region. \(fn BUFFER BEG END TYPE TEXT)" nil nil) (autoload 'flymake-diagnostics "flymake" "\ Get Flymake diagnostics in region determined by BEG and END. If neither BEG or END is supplied, use the whole buffer, otherwise if BEG is non-nil and END is nil, consider only diagnostics at BEG. \(fn &optional BEG END)" nil nil) (autoload 'flymake-diag-region "flymake" "\ Compute BUFFER's region (BEG . END) corresponding to LINE and COL. If COL is nil, return a region just for LINE. Return nil if the region is invalid. \(fn BUFFER LINE &optional COL)" nil nil) (autoload 'flymake-mode "flymake" "\ Toggle Flymake mode on or off. With a prefix argument ARG, enable Flymake mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil, and toggle it if ARG is `toggle'. Flymake is an Emacs minor mode for on-the-fly syntax checking. Flymake collects diagnostic information from multiple sources, called backends, and visually annotates the buffer with the results. Flymake performs these checks while the user is editing. The customization variables `flymake-start-on-flymake-mode', `flymake-no-changes-timeout' and `flymake-start-syntax-check-on-newline' determine the exact circumstances whereupon Flymake decides to initiate a check of the buffer. The commands `flymake-goto-next-error' and `flymake-goto-prev-error' can be used to navigate among Flymake diagnostics annotated in the buffer. The visual appearance of each type of diagnostic can be changed in the variable `flymake-diagnostic-types-alist'. Activation or deactivation of backends used by Flymake in each buffer happens via the special hook `flymake-diagnostic-functions'. Some backends may take longer than others to respond or complete, and some may decide to disable themselves if they are not suitable for the current buffer. The commands `flymake-running-backends', `flymake-disabled-backends' and `flymake-reporting-backends' summarize the situation, as does the special *Flymake log* buffer. \(fn &optional ARG)" t nil) (autoload 'flymake-mode-on "flymake" "\ Turn Flymake mode on. \(fn)" nil nil) (autoload 'flymake-mode-off "flymake" "\ Turn Flymake mode off. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "flymake" '("flymake-"))) ;;;*** ;;;### (autoloads nil "flymake-proc" "progmodes/flymake-proc.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from progmodes/flymake-proc.el (push (purecopy '(flymake-proc 0 3)) package--builtin-versions) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "flymake-proc" '("flymake-proc-"))) ;;;*** ;;;### (autoloads nil "flyspell" "textmodes/flyspell.el" (0 0 0 0)) ;;; Generated autoloads from textmodes/flyspell.el (autoload 'flyspell-prog-mode "flyspell" "\ Turn on `flyspell-mode' for comments and strings. \(fn)" t nil) (defvar flyspell-mode nil "Non-nil if Flyspell mode is enabled.") (autoload 'flyspell-mode "flyspell" "\ Toggle on-the-fly spell checking (Flyspell mode). With a prefix argument ARG, enable Flyspell mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Flyspell mode is a buffer-local minor mode. When enabled, it spawns a single Ispell process and checks each word. The default flyspell behavior is to highlight incorrect words. Bindings: \\[ispell-word]: correct words (using Ispell). \\[flyspell-auto-correct-word]: automatically correct word. \\[flyspell-auto-correct-previous-word]: automatically correct the last misspelled word. \\[flyspell-correct-word] (or down-mouse-2): popup correct words. Hooks: This runs `flyspell-mode-hook' after flyspell mode is entered or exit. Remark: `flyspell-mode' uses `ispell-mode'. Thus all Ispell options are valid. For instance, a different dictionary can be used by invoking `ispell-change-dictionary'. Consider using the `ispell-parser' to check your text. For instance consider adding: \(add-hook \\='tex-mode-hook (function (lambda () (setq ispell-parser \\='tex)))) in your init file. \\[flyspell-region] checks all words inside a region. \\[flyspell-buffer] checks the whole buffer. \(fn &optional ARG)" t nil) (autoload 'turn-on-flyspell "flyspell" "\ Unconditionally turn on Flyspell mode. \(fn)" nil nil) (autoload 'turn-off-flyspell "flyspell" "\ Unconditionally turn off Flyspell mode. \(fn)" nil nil) (autoload 'flyspell-mode-off "flyspell" "\ Turn Flyspell mode off. \(fn)" nil nil) (autoload 'flyspell-region "flyspell" "\ Flyspell text between BEG and END. \(fn BEG END)" t nil) (autoload 'flyspell-buffer "flyspell" "\ Flyspell whole buffer. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "flyspell" '("flyspell-" "mail-mode-flyspell-verify" "make-flyspell-overlay" "sgml-mode-flyspell-verify" "tex"))) ;;;*** ;;;### (autoloads nil "foldout" "foldout.el" (0 0 0 0)) ;;; Generated autoloads from foldout.el (push (purecopy '(foldout 1 10)) package--builtin-versions) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "foldout" '("foldout-"))) ;;;*** ;;;### (autoloads nil "follow" "follow.el" (0 0 0 0)) ;;; Generated autoloads from follow.el (autoload 'turn-on-follow-mode "follow" "\ Turn on Follow mode. Please see the function `follow-mode'. \(fn)" nil nil) (autoload 'turn-off-follow-mode "follow" "\ Turn off Follow mode. Please see the function `follow-mode'. \(fn)" nil nil) (autoload 'follow-mode "follow" "\ Toggle Follow mode. With a prefix argument ARG, enable Follow mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Follow mode is a minor mode that combines windows into one tall virtual window. This is accomplished by two main techniques: * The windows always displays adjacent sections of the buffer. This means that whenever one window is moved, all the others will follow. (Hence the name Follow mode.) * Should point (cursor) end up outside a window, another window displaying that point is selected, if possible. This makes it possible to walk between windows using normal cursor movement commands. Follow mode comes to its prime when used on a large screen and two or more side-by-side windows are used. The user can, with the help of Follow mode, use these full-height windows as though they were one. Imagine yourself editing a large function, or section of text, and being able to use 144 or 216 lines instead of the normal 72... (your mileage may vary). To split one large window into two side-by-side windows, the commands `\\[split-window-right]' or `\\[follow-delete-other-windows-and-split]' can be used. Only windows displayed in the same frame follow each other. This command runs the normal hook `follow-mode-hook'. Keys specific to Follow mode: \\{follow-mode-map} \(fn &optional ARG)" t nil) (autoload 'follow-scroll-up-window "follow" "\ Scroll text in a Follow mode window up by that window's size. The other windows in the window chain will scroll synchronously. If called with no ARG, the `next-screen-context-lines' last lines of the window will be visible after the scroll. If called with an argument, scroll ARG lines up. Negative ARG means scroll downward. Works like `scroll-up' when not in Follow mode. \(fn &optional ARG)" t nil) (autoload 'follow-scroll-down-window "follow" "\ Scroll text in a Follow mode window down by that window's size. The other windows in the window chain will scroll synchronously. If called with no ARG, the `next-screen-context-lines' top lines of the window in the chain will be visible after the scroll. If called with an argument, scroll ARG lines down. Negative ARG means scroll upward. Works like `scroll-down' when not in Follow mode. \(fn &optional ARG)" t nil) (autoload 'follow-scroll-up "follow" "\ Scroll text in a Follow mode window chain up. If called with no ARG, the `next-screen-context-lines' last lines of the bottom window in the chain will be visible in the top window. If called with an argument, scroll ARG lines up. Negative ARG means scroll downward. Works like `scroll-up' when not in Follow mode. \(fn &optional ARG)" t nil) (autoload 'follow-scroll-down "follow" "\ Scroll text in a Follow mode window chain down. If called with no ARG, the `next-screen-context-lines' top lines of the top window in the chain will be visible in the bottom window. If called with an argument, scroll ARG lines down. Negative ARG means scroll upward. Works like `scroll-down' when not in Follow mode. \(fn &optional ARG)" t nil) (autoload 'follow-delete-other-windows-and-split "follow" "\ Create two side by side windows and enter Follow mode. Execute this command to display as much as possible of the text in the selected window. All other windows, in the current frame, are deleted and the selected window is split in two side-by-side windows. Follow mode is activated, hence the two windows always will display two successive pages. \(If one window is moved, the other one will follow.) If ARG is positive, the leftmost window is selected. If negative, the rightmost is selected. If ARG is nil, the leftmost window is selected if the original window is the first one in the frame. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "follow" '("follow-"))) ;;;*** ;;;### (autoloads nil "fontset" "international/fontset.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from international/fontset.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "fontset" '("charset-script-alist" "create-" "set" "standard-fontset-spec" "fontset-" "generate-fontset-menu" "xlfd-" "x-"))) ;;;*** ;;;### (autoloads nil "footnote" "mail/footnote.el" (0 0 0 0)) ;;; Generated autoloads from mail/footnote.el (push (purecopy '(footnote 0 19)) package--builtin-versions) (autoload 'footnote-mode "footnote" "\ Toggle Footnote mode. With a prefix argument ARG, enable Footnote mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Footnote mode is a buffer-local minor mode. If enabled, it provides footnote support for `message-mode'. To get started, play around with the following keys: \\{footnote-minor-mode-map} \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "footnote" '("footnote-" "Footnote-"))) ;;;*** ;;;### (autoloads nil "format-spec" "format-spec.el" (0 0 0 0)) ;;; Generated autoloads from format-spec.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "format-spec" '("format-spec"))) ;;;*** ;;;### (autoloads nil "forms" "forms.el" (0 0 0 0)) ;;; Generated autoloads from forms.el (autoload 'forms-mode "forms" "\ Major mode to visit files in a field-structured manner using a form. Commands: Equivalent keys in read-only mode: TAB forms-next-field TAB C-c TAB forms-next-field C-c < forms-first-record < C-c > forms-last-record > C-c ? describe-mode ? C-c C-k forms-delete-record C-c C-q forms-toggle-read-only q C-c C-o forms-insert-record C-c C-l forms-jump-record l C-c C-n forms-next-record n C-c C-p forms-prev-record p C-c C-r forms-search-reverse r C-c C-s forms-search-forward s C-c C-x forms-exit x \(fn &optional PRIMARY)" t nil) (autoload 'forms-find-file "forms" "\ Visit a file in Forms mode. \(fn FN)" t nil) (autoload 'forms-find-file-other-window "forms" "\ Visit a file in Forms mode in other window. \(fn FN)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "forms" '("forms-"))) ;;;*** ;;;### (autoloads nil "fortran" "progmodes/fortran.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/fortran.el (autoload 'fortran-mode "fortran" "\ Major mode for editing Fortran code in fixed format. For free format code, use `f90-mode'. \\[fortran-indent-line] indents the current Fortran line correctly. Note that DO statements must not share a common CONTINUE. Type ;? or ;\\[help-command] to display a list of built-in abbrevs for Fortran keywords. Key definitions: \\{fortran-mode-map} Variables controlling indentation style and extra features: `fortran-comment-line-start' To use comments starting with `!', set this to the string \"!\". `fortran-do-indent' Extra indentation within DO blocks (default 3). `fortran-if-indent' Extra indentation within IF blocks (default 3). `fortran-structure-indent' Extra indentation within STRUCTURE, UNION, MAP and INTERFACE blocks. (default 3) `fortran-continuation-indent' Extra indentation applied to continuation statements (default 5). `fortran-comment-line-extra-indent' Amount of extra indentation for text in full-line comments (default 0). `fortran-comment-indent-style' How to indent the text in full-line comments. Allowed values are: nil don't change the indentation `fixed' indent to `fortran-comment-line-extra-indent' beyond the value of either `fortran-minimum-statement-indent-fixed' (fixed format) or `fortran-minimum-statement-indent-tab' (TAB format), depending on the continuation format in use. `relative' indent to `fortran-comment-line-extra-indent' beyond the indentation for a line of code. (default `fixed') `fortran-comment-indent-char' Single-character string to be inserted instead of space for full-line comment indentation (default \" \"). `fortran-minimum-statement-indent-fixed' Minimum indentation for statements in fixed format mode (default 6). `fortran-minimum-statement-indent-tab' Minimum indentation for statements in TAB format mode (default 9). `fortran-line-number-indent' Maximum indentation for line numbers (default 1). A line number will get less than this much indentation if necessary to avoid reaching column 5. `fortran-check-all-num-for-matching-do' Non-nil causes all numbered lines to be treated as possible \"continue\" statements (default nil). `fortran-blink-matching-if' Non-nil causes \\[fortran-indent-line] on an ENDIF (or ENDDO) statement to blink on the matching IF (or DO [WHILE]). (default nil) `fortran-continuation-string' Single-character string to be inserted in column 5 of a continuation line (default \"$\"). `fortran-comment-region' String inserted by \\[fortran-comment-region] at start of each line in the region (default \"c$$$\"). `fortran-electric-line-number' Non-nil causes line number digits to be moved to the correct column as typed (default t). `fortran-break-before-delimiters' Non-nil causes lines to be broken before delimiters (default t). Turning on Fortran mode calls the value of the variable `fortran-mode-hook' with no args, if that value is non-nil. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "fortran" '("fortran-"))) ;;;*** ;;;### (autoloads nil "fortune" "play/fortune.el" (0 0 0 0)) ;;; Generated autoloads from play/fortune.el (autoload 'fortune-add-fortune "fortune" "\ Add STRING to a fortune file FILE. Interactively, if called with a prefix argument, read the file name to use. Otherwise use the value of `fortune-file'. \(fn STRING FILE)" t nil) (autoload 'fortune-from-region "fortune" "\ Append the current region to a local fortune-like data file. Interactively, if called with a prefix argument, read the file name to use. Otherwise use the value of `fortune-file'. \(fn BEG END FILE)" t nil) (autoload 'fortune-compile "fortune" "\ Compile fortune file. If called with a prefix asks for the FILE to compile, otherwise uses the value of `fortune-file'. This currently cannot handle directories. \(fn &optional FILE)" t nil) (autoload 'fortune-to-signature "fortune" "\ Create signature from output of the fortune program. If called with a prefix asks for the FILE to choose the fortune from, otherwise uses the value of `fortune-file'. If you want to have fortune choose from a set of files in a directory, call interactively with prefix and choose the directory as the fortune-file. \(fn &optional FILE)" t nil) (autoload 'fortune-message "fortune" "\ Display a fortune cookie to the mini-buffer. If called with a prefix, it has the same behavior as `fortune'. Optional FILE is a fortune file from which a cookie will be selected. \(fn &optional FILE)" t nil) (autoload 'fortune "fortune" "\ Display a fortune cookie. If called with a prefix asks for the FILE to choose the fortune from, otherwise uses the value of `fortune-file'. If you want to have fortune choose from a set of files in a directory, call interactively with prefix and choose the directory as the fortune-file. \(fn &optional FILE)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "fortune" '("fortune-"))) ;;;*** ;;;### (autoloads nil "frameset" "frameset.el" (0 0 0 0)) ;;; Generated autoloads from frameset.el (defvar frameset-session-filter-alist '((name . :never) (left . frameset-filter-iconified) (minibuffer . frameset-filter-minibuffer) (top . frameset-filter-iconified)) "\ Minimum set of parameters to filter for live (on-session) framesets. DO NOT MODIFY. See `frameset-filter-alist' for a full description.") (defvar frameset-persistent-filter-alist (nconc '((background-color . frameset-filter-sanitize-color) (buffer-list . :never) (buffer-predicate . :never) (buried-buffer-list . :never) (delete-before . :never) (font . frameset-filter-font-param) (foreground-color . frameset-filter-sanitize-color) (fullscreen . frameset-filter-shelve-param) (GUI:font . frameset-filter-unshelve-param) (GUI:fullscreen . frameset-filter-unshelve-param) (GUI:height . frameset-filter-unshelve-param) (GUI:width . frameset-filter-unshelve-param) (height . frameset-filter-shelve-param) (outer-window-id . :never) (parent-frame . :never) (parent-id . :never) (mouse-wheel-frame . :never) (tty . frameset-filter-tty-to-GUI) (tty-type . frameset-filter-tty-to-GUI) (width . frameset-filter-shelve-param) (window-id . :never) (window-system . :never)) frameset-session-filter-alist) "\ Parameters to filter for persistent framesets. DO NOT MODIFY. See `frameset-filter-alist' for a full description.") (defvar frameset-filter-alist frameset-persistent-filter-alist "\ Alist of frame parameters and filtering functions. This alist is the default value of the FILTERS argument of `frameset-save' and `frameset-restore' (which see). Initially, `frameset-filter-alist' is set to, and shares the value of, `frameset-persistent-filter-alist'. You can override any item in this alist by `push'ing a new item onto it. If, for some reason, you intend to modify existing values, do (setq frameset-filter-alist (copy-tree frameset-filter-alist)) before changing anything. On saving, PARAMETERS is the parameter alist of each frame processed, and FILTERED is the parameter alist that gets saved to the frameset. On restoring, PARAMETERS is the parameter alist extracted from the frameset, and FILTERED is the resulting frame parameter alist used to restore the frame. Elements of `frameset-filter-alist' are conses (PARAM . ACTION), where PARAM is a parameter name (a symbol identifying a frame parameter), and ACTION can be: nil The parameter is copied to FILTERED. :never The parameter is never copied to FILTERED. :save The parameter is copied only when saving the frame. :restore The parameter is copied only when restoring the frame. FILTER A filter function. FILTER can be a symbol FILTER-FUN, or a list (FILTER-FUN ARGS...). FILTER-FUN is invoked with (apply FILTER-FUN CURRENT FILTERED PARAMETERS SAVING ARGS) where CURRENT A cons (PARAM . VALUE), where PARAM is the one being filtered and VALUE is its current value. FILTERED The resulting alist (so far). PARAMETERS The complete alist of parameters being filtered, SAVING Non-nil if filtering before saving state, nil if filtering before restoring it. ARGS Any additional arguments specified in the ACTION. FILTER-FUN is allowed to modify items in FILTERED, but no other arguments. It must return: nil Skip CURRENT (do not add it to FILTERED). t Add CURRENT to FILTERED as is. (NEW-PARAM . NEW-VALUE) Add this to FILTERED instead of CURRENT. Frame parameters not on this alist are passed intact, as if they were defined with ACTION = nil.") (autoload 'frameset-frame-id "frameset" "\ Return the frame id of FRAME, if it has one; else, return nil. A frame id is a string that uniquely identifies a frame. It is persistent across `frameset-save' / `frameset-restore' invocations, and once assigned is never changed unless the same frame is duplicated (via `frameset-restore'), in which case the newest frame keeps the id and the old frame's is set to nil. \(fn FRAME)" nil nil) (autoload 'frameset-frame-id-equal-p "frameset" "\ Return non-nil if FRAME's id matches ID. \(fn FRAME ID)" nil nil) (autoload 'frameset-frame-with-id "frameset" "\ Return the live frame with id ID, if exists; else nil. If FRAME-LIST is a list of frames, check these frames only. If nil, check all live frames. \(fn ID &optional FRAME-LIST)" nil nil) (autoload 'frameset-save "frameset" "\ Return a frameset for FRAME-LIST, a list of frames. Dead frames and non-frame objects are silently removed from the list. If nil, FRAME-LIST defaults to the output of `frame-list' (all live frames). APP, NAME and DESCRIPTION are optional data; see the docstring of the `frameset' defstruct for details. FILTERS is an alist of parameter filters; if nil, the value of the variable `frameset-filter-alist' is used instead. PREDICATE is a predicate function, which must return non-nil for frames that should be saved; if PREDICATE is nil, all frames from FRAME-LIST are saved. PROPERTIES is a user-defined property list to add to the frameset. \(fn FRAME-LIST &key APP NAME DESCRIPTION FILTERS PREDICATE PROPERTIES)" nil nil) (autoload 'frameset-restore "frameset" "\ Restore a FRAMESET into the current display(s). PREDICATE is a function called with two arguments, the parameter alist and the window-state of the frame being restored, in that order (see the docstring of the `frameset' defstruct for additional details). If PREDICATE returns nil, the frame described by that parameter alist and window-state is not restored. FILTERS is an alist of parameter filters; if nil, the value of `frameset-filter-alist' is used instead. REUSE-FRAMES selects the policy to reuse frames when restoring: t All existing frames can be reused. nil No existing frame can be reused. match Only frames with matching frame ids can be reused. PRED A predicate function; it receives as argument a live frame, and must return non-nil to allow reusing it, nil otherwise. FORCE-DISPLAY can be: t Frames are restored in the current display. nil Frames are restored, if possible, in their original displays. delete Frames in other displays are deleted instead of restored. PRED A function called with two arguments, the parameter alist and the window state (in that order). It must return t, nil or `delete', as above but affecting only the frame that will be created from that parameter alist. FORCE-ONSCREEN can be: t Force onscreen only those frames that are fully offscreen. nil Do not force any frame back onscreen. all Force onscreen any frame fully or partially offscreen. PRED A function called with three arguments, - the live frame just restored, - a list (LEFT TOP WIDTH HEIGHT), describing the frame, - a list (LEFT TOP WIDTH HEIGHT), describing the workarea. It must return non-nil to force the frame onscreen, nil otherwise. CLEANUP-FRAMES allows \"cleaning up\" the frame list after restoring a frameset: t Delete all frames that were not created or restored upon. nil Keep all frames. FUNC A function called with two arguments: - FRAME, a live frame. - ACTION, which can be one of :rejected Frame existed, but was not a candidate for reuse. :ignored Frame existed, was a candidate, but wasn't reused. :reused Frame existed, was a candidate, and restored upon. :created Frame didn't exist, was created and restored upon. Return value is ignored. Note the timing and scope of the operations described above: REUSE-FRAMES affects existing frames; PREDICATE, FILTERS and FORCE-DISPLAY affect the frame being restored before that happens; FORCE-ONSCREEN affects the frame once it has been restored; and CLEANUP-FRAMES affects all frames alive after the restoration, including those that have been reused or created anew. All keyword parameters default to nil. \(fn FRAMESET &key PREDICATE FILTERS REUSE-FRAMES FORCE-DISPLAY FORCE-ONSCREEN CLEANUP-FRAMES)" nil nil) (autoload 'frameset--jump-to-register "frameset" "\ Restore frameset from DATA stored in register. Called from `jump-to-register'. Internal use only. \(fn DATA)" nil nil) (autoload 'frameset--print-register "frameset" "\ Print basic info about frameset stored in DATA. Called from `list-registers' and `view-register'. Internal use only. \(fn DATA)" nil nil) (autoload 'frameset-to-register "frameset" "\ Store the current frameset in register REGISTER. Use \\[jump-to-register] to restore the frameset. Argument is a character, naming the register. Interactively, reads the register using `register-read-with-preview'. \(fn REGISTER)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "frameset" '("frameset-"))) ;;;*** ;;;### (autoloads nil "fringe" "fringe.el" (0 0 0 0)) ;;; Generated autoloads from fringe.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "fringe" '("fringe-" "set-fringe-"))) ;;;*** ;;;### (autoloads nil "gamegrid" "play/gamegrid.el" (0 0 0 0)) ;;; Generated autoloads from play/gamegrid.el (push (purecopy '(gamegrid 1 2)) package--builtin-versions) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gamegrid" '("gamegrid-"))) ;;;*** ;;;### (autoloads nil "gametree" "play/gametree.el" (0 0 0 0)) ;;; Generated autoloads from play/gametree.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gametree" '("gametree-"))) ;;;*** ;;;### (autoloads nil "gdb-mi" "progmodes/gdb-mi.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/gdb-mi.el (defvar gdb-enable-debug nil "\ Non-nil if Gdb-Enable-Debug mode is enabled. See the `gdb-enable-debug' command for a description of this minor mode.") (custom-autoload 'gdb-enable-debug "gdb-mi" nil) (autoload 'gdb-enable-debug "gdb-mi" "\ Toggle logging of transaction between Emacs and Gdb. The log is stored in `gdb-debug-log' as an alist with elements whose cons is send, send-item or recv and whose cdr is the string being transferred. This list may grow up to a size of `gdb-debug-log-max' after which the oldest element (at the end of the list) is deleted every time a new one is added (at the front). \(fn &optional ARG)" t nil) (autoload 'gdb "gdb-mi" "\ Run gdb passing it COMMAND-LINE as arguments. If COMMAND-LINE names a program FILE to debug, gdb will run in a buffer named *gud-FILE*, and the directory containing FILE becomes the initial working directory and source-file directory for your debugger. If COMMAND-LINE requests that gdb attaches to a process PID, gdb will run in *gud-PID*, otherwise it will run in *gud*; in these cases the initial working directory is the default-directory of the buffer in which this command was invoked. COMMAND-LINE should include \"-i=mi\" to use gdb's MI text interface. Note that the old \"--annotate\" option is no longer supported. If option `gdb-many-windows' is nil (the default value) then gdb just pops up the GUD buffer unless `gdb-show-main' is t. In this case it starts with two windows: one displaying the GUD buffer and the other with the source file with the main routine of the inferior. If option `gdb-many-windows' is t, regardless of the value of `gdb-show-main', the layout below will appear. Keybindings are shown in some of the buffers. Watch expressions appear in the speedbar/slowbar. The following commands help control operation : `gdb-many-windows' - Toggle the number of windows gdb uses. `gdb-restore-windows' - To restore the window layout. See Info node `(emacs)GDB Graphical Interface' for a more detailed description of this mode. +----------------------------------------------------------------------+ | GDB Toolbar | +-----------------------------------+----------------------------------+ | GUD buffer (I/O of GDB) | Locals buffer | | | | | | | | | | +-----------------------------------+----------------------------------+ | Source buffer | I/O buffer (of debugged program) | | | (comint-mode) | | | | | | | | | | | | | | | | | | | +-----------------------------------+----------------------------------+ | Stack buffer | Breakpoints buffer | | RET gdb-select-frame | SPC gdb-toggle-breakpoint | | | RET gdb-goto-breakpoint | | | D gdb-delete-breakpoint | +-----------------------------------+----------------------------------+ \(fn COMMAND-LINE)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gdb-mi" '("gdb" "gud-" "def-gdb-" "breakpoint-" "nil"))) ;;;*** ;;;### (autoloads nil "generator" "emacs-lisp/generator.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from emacs-lisp/generator.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "generator" '("cps-" "iter-"))) ;;;*** ;;;### (autoloads nil "generic" "emacs-lisp/generic.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/generic.el (defvar generic-mode-list nil "\ A list of mode names for `generic-mode'. Do not add entries to this list directly; use `define-generic-mode' instead (which see).") (autoload 'define-generic-mode "generic" "\ Create a new generic mode MODE. MODE is the name of the command for the generic mode; don't quote it. The optional DOCSTRING is the documentation for the mode command. If you do not supply it, `define-generic-mode' uses a default documentation string instead. COMMENT-LIST is a list in which each element is either a character, a string of one or two characters, or a cons cell. A character or a string is set up in the mode's syntax table as a \"comment starter\". If the entry is a cons cell, the `car' is set up as a \"comment starter\" and the `cdr' as a \"comment ender\". (Use nil for the latter if you want comments to end at the end of the line.) Note that the syntax table has limitations about what comment starters and enders are actually possible. KEYWORD-LIST is a list of keywords to highlight with `font-lock-keyword-face'. Each keyword should be a string. FONT-LOCK-LIST is a list of additional expressions to highlight. Each element of this list should have the same form as an element of `font-lock-keywords'. AUTO-MODE-LIST is a list of regular expressions to add to `auto-mode-alist'. These regular expressions are added when Emacs runs the macro expansion. FUNCTION-LIST is a list of functions to call to do some additional setup. The mode command calls these functions just before it runs the mode hook `MODE-hook'. See the file generic-x.el for some examples of `define-generic-mode'. \(fn MODE COMMENT-LIST KEYWORD-LIST FONT-LOCK-LIST AUTO-MODE-LIST FUNCTION-LIST &optional DOCSTRING)" nil t) (function-put 'define-generic-mode 'lisp-indent-function '1) (function-put 'define-generic-mode 'doc-string-elt '7) (autoload 'generic-mode-internal "generic" "\ Go into the generic mode MODE. \(fn MODE COMMENT-LIST KEYWORD-LIST FONT-LOCK-LIST FUNCTION-LIST)" nil nil) (autoload 'generic-mode "generic" "\ Enter generic mode MODE. Generic modes provide basic comment and font-lock functionality for \"generic\" files. (Files which are too small to warrant their own mode, but have comment characters, keywords, and the like.) To define a generic-mode, use the function `define-generic-mode'. Some generic modes are defined in `generic-x.el'. \(fn MODE)" t nil) (autoload 'generic-make-keywords-list "generic" "\ Return a `font-lock-keywords' construct that highlights KEYWORD-LIST. KEYWORD-LIST is a list of keyword strings that should be highlighted with face FACE. This function calculates a regular expression that matches these keywords and concatenates it with PREFIX and SUFFIX. Then it returns a construct based on this regular expression that can be used as an element of `font-lock-keywords'. \(fn KEYWORD-LIST FACE &optional PREFIX SUFFIX)" nil nil) (make-obsolete 'generic-make-keywords-list 'regexp-opt '"24.4") (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "generic" '("generic-"))) ;;;*** ;;;### (autoloads nil "generic-x" "generic-x.el" (0 0 0 0)) ;;; Generated autoloads from generic-x.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "generic-x" '("generic-" "default-generic-mode"))) ;;;*** ;;;### (autoloads nil "glasses" "progmodes/glasses.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/glasses.el (autoload 'glasses-mode "glasses" "\ Minor mode for making identifiers likeThis readable. With a prefix argument ARG, enable the mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. When this mode is active, it tries to add virtual separators (like underscores) at places they belong to. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "glasses" '("glasses-"))) ;;;*** ;;;### (autoloads nil "gmm-utils" "gnus/gmm-utils.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gmm-utils.el (autoload 'gmm-regexp-concat "gmm-utils" "\ Potentially concat a list of regexps into a single one. The concatenation is done with logical ORs. \(fn REGEXP)" nil nil) (autoload 'gmm-message "gmm-utils" "\ If LEVEL is lower than `gmm-verbose' print ARGS using `message'. Guideline for numbers: 1 - error messages 3 - non-serious error messages 5 - messages for things that take a long time 7 - not very important messages on stuff 9 - messages inside loops. \(fn LEVEL &rest ARGS)" nil nil) (autoload 'gmm-error "gmm-utils" "\ Beep an error if LEVEL is equal to or less than `gmm-verbose'. ARGS are passed to `message'. \(fn LEVEL &rest ARGS)" nil nil) (autoload 'gmm-widget-p "gmm-utils" "\ Non-nil if SYMBOL is a widget. \(fn SYMBOL)" nil nil) (autoload 'gmm-tool-bar-from-list "gmm-utils" "\ Make a tool bar from ICON-LIST. Within each entry of ICON-LIST, the first element is a menu command, the second element is an icon file name and the third element is a test function. You can use \\[describe-key] to find out the name of a menu command. The fourth and all following elements are passed as the PROPS argument to the function `tool-bar-local-item'. If ZAP-LIST is a list, remove those item from the default `tool-bar-map'. If it is t, start with a new sparse map. You can use \\[describe-key] to find out the name of an icon item. When \\[describe-key] shows \" runs the command find-file\", then use `new-file' in ZAP-LIST. DEFAULT-MAP specifies the default key map for ICON-LIST. \(fn ICON-LIST ZAP-LIST DEFAULT-MAP)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gmm-utils" '("gmm-" "defun-gmm"))) ;;;*** ;;;### (autoloads nil "gnus" "gnus/gnus.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus.el (push (purecopy '(gnus 5 13)) package--builtin-versions) (when (fboundp 'custom-autoload) (custom-autoload 'gnus-select-method "gnus")) (autoload 'gnus-slave-no-server "gnus" "\ Read network news as a slave, without connecting to the local server. \(fn &optional ARG)" t nil) (autoload 'gnus-no-server "gnus" "\ Read network news. If ARG is a positive number, Gnus will use that as the startup level. If ARG is nil, Gnus will be started at level 2. If ARG is non-nil and not a positive number, Gnus will prompt the user for the name of an NNTP server to use. As opposed to `gnus', this command will not connect to the local server. \(fn &optional ARG SLAVE)" t nil) (autoload 'gnus-slave "gnus" "\ Read news as a slave. \(fn &optional ARG)" t nil) (autoload 'gnus-other-frame "gnus" "\ Pop up a frame to read news. This will call one of the Gnus commands which is specified by the user option `gnus-other-frame-function' (default `gnus') with the argument ARG if Gnus is not running, otherwise pop up a Gnus frame and run the command specified by `gnus-other-frame-resume-function'. The optional second argument DISPLAY should be a standard display string such as \"unix:0\" to specify where to pop up a frame. If DISPLAY is omitted or the function `make-frame-on-display' is not available, the current display is used. \(fn &optional ARG DISPLAY)" t nil) (autoload 'gnus "gnus" "\ Read network news. If ARG is non-nil and a positive number, Gnus will use that as the startup level. If ARG is non-nil and not a positive number, Gnus will prompt the user for the name of an NNTP server to use. \(fn &optional ARG DONT-CONNECT SLAVE)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-agent" "gnus/gnus-agent.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-agent.el (autoload 'gnus-unplugged "gnus-agent" "\ Start Gnus unplugged. \(fn)" t nil) (autoload 'gnus-plugged "gnus-agent" "\ Start Gnus plugged. \(fn)" t nil) (autoload 'gnus-slave-unplugged "gnus-agent" "\ Read news as a slave unplugged. \(fn &optional ARG)" t nil) (autoload 'gnus-agentize "gnus-agent" "\ Allow Gnus to be an offline newsreader. The gnus-agentize function is now called internally by gnus when gnus-agent is set. If you wish to avoid calling gnus-agentize, customize gnus-agent to nil. This will modify the `gnus-setup-news-hook', and `message-send-mail-real-function' variables, and install the Gnus agent minor mode in all Gnus buffers. \(fn)" t nil) (autoload 'gnus-agent-possibly-save-gcc "gnus-agent" "\ Save GCC if Gnus is unplugged. \(fn)" nil nil) (autoload 'gnus-agent-rename-group "gnus-agent" "\ Rename fully-qualified OLD-GROUP as NEW-GROUP. Always updates the agent, even when disabled, as the old agent files would corrupt gnus when the agent was next enabled. Depends upon the caller to determine whether group renaming is supported. \(fn OLD-GROUP NEW-GROUP)" nil nil) (autoload 'gnus-agent-delete-group "gnus-agent" "\ Delete fully-qualified GROUP. Always updates the agent, even when disabled, as the old agent files would corrupt gnus when the agent was next enabled. Depends upon the caller to determine whether group deletion is supported. \(fn GROUP)" nil nil) (autoload 'gnus-agent-get-undownloaded-list "gnus-agent" "\ Construct list of articles that have not been downloaded. \(fn)" nil nil) (autoload 'gnus-agent-possibly-alter-active "gnus-agent" "\ Possibly expand a group's active range to include articles downloaded into the agent. \(fn GROUP ACTIVE &optional INFO)" nil nil) (autoload 'gnus-agent-find-parameter "gnus-agent" "\ Search for GROUPs SYMBOL in the group's parameters, the group's topic parameters, the group's category, or the customizable variables. Returns the first non-nil value found. \(fn GROUP SYMBOL)" nil nil) (autoload 'gnus-agent-batch-fetch "gnus-agent" "\ Start Gnus and fetch session. \(fn)" t nil) (autoload 'gnus-agent-batch "gnus-agent" "\ Start Gnus, send queue and fetch session. \(fn)" t nil) (autoload 'gnus-agent-regenerate "gnus-agent" "\ Regenerate all agent covered files. CLEAN is obsolete and ignored. \(fn &optional CLEAN REREAD)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-agent" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-art" "gnus/gnus-art.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-art.el (autoload 'gnus-article-prepare-display "gnus-art" "\ Make the current buffer look like a nice article. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-art" '("gnus-" "article-"))) ;;;*** ;;;### (autoloads nil "gnus-async" "gnus/gnus-async.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-async.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-async" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-bcklg" "gnus/gnus-bcklg.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-bcklg.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-bcklg" '("gnus-backlog-"))) ;;;*** ;;;### (autoloads nil "gnus-bookmark" "gnus/gnus-bookmark.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from gnus/gnus-bookmark.el (autoload 'gnus-bookmark-set "gnus-bookmark" "\ Set a bookmark for this article. \(fn)" t nil) (autoload 'gnus-bookmark-jump "gnus-bookmark" "\ Jump to a Gnus bookmark (BMK-NAME). \(fn &optional BMK-NAME)" t nil) (autoload 'gnus-bookmark-bmenu-list "gnus-bookmark" "\ Display a list of existing Gnus bookmarks. The list is displayed in a buffer named `*Gnus Bookmark List*'. The leftmost column displays a D if the bookmark is flagged for deletion, or > if it is flagged for displaying. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-bookmark" '("gnus-bookmark-"))) ;;;*** ;;;### (autoloads nil "gnus-cache" "gnus/gnus-cache.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-cache.el (autoload 'gnus-jog-cache "gnus-cache" "\ Go through all groups and put the articles into the cache. Usage: $ emacs -batch -l ~/.emacs -l gnus -f gnus-jog-cache \(fn)" t nil) (autoload 'gnus-cache-generate-active "gnus-cache" "\ Generate the cache active file. \(fn &optional DIRECTORY)" t nil) (autoload 'gnus-cache-generate-nov-databases "gnus-cache" "\ Generate NOV files recursively starting in DIR. \(fn DIR)" t nil) (autoload 'gnus-cache-rename-group "gnus-cache" "\ Rename OLD-GROUP as NEW-GROUP. Always updates the cache, even when disabled, as the old cache files would corrupt Gnus when the cache was next enabled. It depends on the caller to determine whether group renaming is supported. \(fn OLD-GROUP NEW-GROUP)" nil nil) (autoload 'gnus-cache-delete-group "gnus-cache" "\ Delete GROUP from the cache. Always updates the cache, even when disabled, as the old cache files would corrupt gnus when the cache was next enabled. Depends upon the caller to determine whether group deletion is supported. \(fn GROUP)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-cache" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-cite" "gnus/gnus-cite.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-cite.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-cite" '("turn-o" "gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-cloud" "gnus/gnus-cloud.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-cloud.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-cloud" '("gnus-cloud-"))) ;;;*** ;;;### (autoloads nil "gnus-cus" "gnus/gnus-cus.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-cus.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-cus" '("gnus-" "category-fields"))) ;;;*** ;;;### (autoloads nil "gnus-delay" "gnus/gnus-delay.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-delay.el (autoload 'gnus-delay-article "gnus-delay" "\ Delay this article by some time. DELAY is a string, giving the length of the time. Possible values are: * for in minutes (`m'), hours (`h'), days (`d'), weeks (`w'), months (`M'), or years (`Y'); * YYYY-MM-DD for a specific date. The time of day is given by the variable `gnus-delay-default-hour', minute and second are zero. * hh:mm for a specific time. Use 24h format. If it is later than this time, then the deadline is tomorrow, else today. \(fn DELAY)" t nil) (autoload 'gnus-delay-send-queue "gnus-delay" "\ Send all the delayed messages that are due now. \(fn)" t nil) (autoload 'gnus-delay-initialize "gnus-delay" "\ Initialize the gnus-delay package. This sets up a key binding in `message-mode' to delay a message. This tells Gnus to look for delayed messages after getting new news. The optional arg NO-KEYMAP is ignored. Checking delayed messages is skipped if optional arg NO-CHECK is non-nil. \(fn &optional NO-KEYMAP NO-CHECK)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-delay" '("gnus-delay-"))) ;;;*** ;;;### (autoloads nil "gnus-demon" "gnus/gnus-demon.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-demon.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-demon" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-diary" "gnus/gnus-diary.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-diary.el (autoload 'gnus-user-format-function-d "gnus-diary" "\ \(fn HEADER)" nil nil) (autoload 'gnus-user-format-function-D "gnus-diary" "\ \(fn HEADER)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-diary" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-dired" "gnus/gnus-dired.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-dired.el (autoload 'turn-on-gnus-dired-mode "gnus-dired" "\ Convenience method to turn on gnus-dired-mode. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-dired" '("gnus-dired-"))) ;;;*** ;;;### (autoloads nil "gnus-draft" "gnus/gnus-draft.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-draft.el (autoload 'gnus-draft-reminder "gnus-draft" "\ Reminder user if there are unsent drafts. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-draft" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-dup" "gnus/gnus-dup.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-dup.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-dup" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-eform" "gnus/gnus-eform.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-eform.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-eform" '("gnus-edit-form"))) ;;;*** ;;;### (autoloads nil "gnus-fun" "gnus/gnus-fun.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-fun.el (autoload 'gnus--random-face-with-type "gnus-fun" "\ Return file from DIR with extension EXT, omitting matches of OMIT, processed by FUN. \(fn DIR EXT OMIT FUN)" nil nil) (autoload 'message-goto-eoh "message" nil t) (autoload 'gnus-random-x-face "gnus-fun" "\ Return X-Face header data chosen randomly from `gnus-x-face-directory'. Files matching `gnus-x-face-omit-files' are not considered. \(fn)" t nil) (autoload 'gnus-insert-random-x-face-header "gnus-fun" "\ Insert a random X-Face header from `gnus-x-face-directory'. \(fn)" t nil) (autoload 'gnus-x-face-from-file "gnus-fun" "\ Insert an X-Face header based on an image FILE. Depending on `gnus-convert-image-to-x-face-command' it may accept different input formats. \(fn FILE)" t nil) (autoload 'gnus-face-from-file "gnus-fun" "\ Return a Face header based on an image FILE. Depending on `gnus-convert-image-to-face-command' it may accept different input formats. \(fn FILE)" t nil) (autoload 'gnus-convert-face-to-png "gnus-fun" "\ Convert FACE (which is base64-encoded) to a PNG. The PNG is returned as a string. \(fn FACE)" nil nil) (autoload 'gnus-convert-png-to-face "gnus-fun" "\ Convert FILE to a Face. FILE should be a PNG file that's 48x48 and smaller than or equal to 726 bytes. \(fn FILE)" nil nil) (autoload 'gnus-random-face "gnus-fun" "\ Return randomly chosen Face from `gnus-face-directory'. Files matching `gnus-face-omit-files' are not considered. \(fn)" t nil) (autoload 'gnus-insert-random-face-header "gnus-fun" "\ Insert a random Face header from `gnus-face-directory'. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-fun" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-gravatar" "gnus/gnus-gravatar.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from gnus/gnus-gravatar.el (autoload 'gnus-treat-from-gravatar "gnus-gravatar" "\ Display gravatar in the From header. If gravatar is already displayed, remove it. \(fn &optional FORCE)" t nil) (autoload 'gnus-treat-mail-gravatar "gnus-gravatar" "\ Display gravatars in the Cc and To headers. If gravatars are already displayed, remove them. \(fn &optional FORCE)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-gravatar" '("gnus-gravatar-"))) ;;;*** ;;;### (autoloads nil "gnus-group" "gnus/gnus-group.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-group.el (autoload 'gnus-fetch-group "gnus-group" "\ Start Gnus if necessary and enter GROUP. If ARTICLES, display those articles. Returns whether the fetching was successful or not. \(fn GROUP &optional ARTICLES)" t nil) (autoload 'gnus-fetch-group-other-frame "gnus-group" "\ Pop up a frame and enter GROUP. \(fn GROUP)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-group" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-html" "gnus/gnus-html.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-html.el (autoload 'gnus-article-html "gnus-html" "\ \(fn &optional HANDLE)" nil nil) (autoload 'gnus-html-prefetch-images "gnus-html" "\ \(fn SUMMARY)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-html" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-icalendar" "gnus/gnus-icalendar.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from gnus/gnus-icalendar.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-icalendar" '("gnus-icalendar"))) ;;;*** ;;;### (autoloads nil "gnus-int" "gnus/gnus-int.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-int.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-int" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-kill" "gnus/gnus-kill.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-kill.el (defalias 'gnus-batch-kill 'gnus-batch-score) (autoload 'gnus-batch-score "gnus-kill" "\ Run batched scoring. Usage: emacs -batch -l ~/.emacs -l gnus -f gnus-batch-score \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-kill" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-logic" "gnus/gnus-logic.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-logic.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-logic" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-mh" "gnus/gnus-mh.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-mh.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-mh" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-ml" "gnus/gnus-ml.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-ml.el (autoload 'turn-on-gnus-mailing-list-mode "gnus-ml" "\ \(fn)" nil nil) (autoload 'gnus-mailing-list-insinuate "gnus-ml" "\ Setup group parameters from List-Post header. If FORCE is non-nil, replace the old ones. \(fn &optional FORCE)" t nil) (autoload 'gnus-mailing-list-mode "gnus-ml" "\ Minor mode for providing mailing-list commands. \\{gnus-mailing-list-mode-map} \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-ml" '("gnus-mailing-list-"))) ;;;*** ;;;### (autoloads nil "gnus-mlspl" "gnus/gnus-mlspl.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-mlspl.el (autoload 'gnus-group-split-setup "gnus-mlspl" "\ Set up the split for `nnmail-split-fancy'. Sets things up so that nnmail-split-fancy is used for mail splitting, and defines the variable nnmail-split-fancy according with group parameters. If AUTO-UPDATE is non-nil (prefix argument accepted, if called interactively), it makes sure nnmail-split-fancy is re-computed before getting new mail, by adding `gnus-group-split-update' to `nnmail-pre-get-new-mail-hook'. A non-nil CATCH-ALL replaces the current value of `gnus-group-split-default-catch-all-group'. This variable is only used by gnus-group-split-update, and only when its CATCH-ALL argument is nil. This argument may contain any fancy split, that will be added as the last split in a `|' split produced by `gnus-group-split-fancy', unless overridden by any group marked as a catch-all group. Typical uses are as simple as the name of a default mail group, but more elaborate fancy splits may also be useful to split mail that doesn't match any of the group-specified splitting rules. See `gnus-group-split-fancy' for details. \(fn &optional AUTO-UPDATE CATCH-ALL)" t nil) (autoload 'gnus-group-split-update "gnus-mlspl" "\ Computes nnmail-split-fancy from group params and CATCH-ALL. It does this by calling (gnus-group-split-fancy nil nil CATCH-ALL). If CATCH-ALL is nil, `gnus-group-split-default-catch-all-group' is used instead. This variable is set by `gnus-group-split-setup'. \(fn &optional CATCH-ALL)" t nil) (autoload 'gnus-group-split "gnus-mlspl" "\ Use information from group parameters in order to split mail. See `gnus-group-split-fancy' for more information. `gnus-group-split' is a valid value for `nnmail-split-methods'. \(fn)" nil nil) (autoload 'gnus-group-split-fancy "gnus-mlspl" "\ Uses information from group parameters in order to split mail. It can be embedded into `nnmail-split-fancy' lists with the SPLIT \(: gnus-group-split-fancy GROUPS NO-CROSSPOST CATCH-ALL) GROUPS may be a regular expression or a list of group names, that will be used to select candidate groups. If it is omitted or nil, all existing groups are considered. if NO-CROSSPOST is omitted or nil, a & split will be returned, otherwise, a | split, that does not allow crossposting, will be returned. For each selected group, a SPLIT is composed like this: if SPLIT-SPEC is specified, this split is returned as-is (unless it is nil: in this case, the group is ignored). Otherwise, if TO-ADDRESS, TO-LIST and/or EXTRA-ALIASES are specified, a regexp that matches any of them is constructed (extra-aliases may be a list). Additionally, if SPLIT-REGEXP is specified, the regexp will be extended so that it matches this regexp too, and if SPLIT-EXCLUDE is specified, RESTRICT clauses will be generated. If CATCH-ALL is nil, no catch-all handling is performed, regardless of catch-all marks in group parameters. Otherwise, if there is no selected group whose SPLIT-REGEXP matches the empty string, nor is there a selected group whose SPLIT-SPEC is `catch-all', this fancy split (say, a group name) will be appended to the returned SPLIT list, as the last element of a `|' SPLIT. For example, given the following group parameters: nnml:mail.bar: \((to-address . \"bar@femail.com\") (split-regexp . \".*@femail\\\\.com\")) nnml:mail.foo: \((to-list . \"foo@nowhere.gov\") (extra-aliases \"foo@localhost\" \"foo-redist@home\") (split-exclude \"bugs-foo\" \"rambling-foo\") (admin-address . \"foo-request@nowhere.gov\")) nnml:mail.others: \((split-spec . catch-all)) Calling (gnus-group-split-fancy nil nil \"mail.others\") returns: \(| (& (any \"\\\\(bar@femail\\\\.com\\\\|.*@femail\\\\.com\\\\)\" \"mail.bar\") (any \"\\\\(foo@nowhere\\\\.gov\\\\|foo@localhost\\\\|foo-redist@home\\\\)\" - \"bugs-foo\" - \"rambling-foo\" \"mail.foo\")) \"mail.others\") \(fn &optional GROUPS NO-CROSSPOST CATCH-ALL)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-mlspl" '("gnus-group-split-"))) ;;;*** ;;;### (autoloads nil "gnus-msg" "gnus/gnus-msg.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-msg.el (autoload 'gnus-msg-mail "gnus-msg" "\ Start editing a mail message to be sent. Like `message-mail', but with Gnus paraphernalia, particularly the Gcc: header for archiving purposes. If Gnus isn't running, a plain `message-mail' setup is used instead. \(fn &optional TO SUBJECT OTHER-HEADERS CONTINUE SWITCH-ACTION YANK-ACTION SEND-ACTIONS RETURN-ACTION)" t nil) (autoload 'gnus-button-mailto "gnus-msg" "\ Mail to ADDRESS. \(fn ADDRESS)" nil nil) (autoload 'gnus-button-reply "gnus-msg" "\ Like `message-reply'. \(fn &optional TO-ADDRESS WIDE)" t nil) (define-mail-user-agent 'gnus-user-agent 'gnus-msg-mail 'message-send-and-exit 'message-kill-buffer 'message-send-hook) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-msg" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-notifications" "gnus/gnus-notifications.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-notifications.el (autoload 'gnus-notifications "gnus-notifications" "\ Send a notification on new message. This check for new messages that are in group with a level lower or equal to `gnus-notifications-minimum-level' and send a notification using `notifications-notify' for it. This is typically a function to add in `gnus-after-getting-new-news-hook' \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-notifications" '("gnus-notifications-"))) ;;;*** ;;;### (autoloads nil "gnus-picon" "gnus/gnus-picon.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-picon.el (autoload 'gnus-treat-from-picon "gnus-picon" "\ Display picons in the From header. If picons are already displayed, remove them. \(fn)" t nil) (autoload 'gnus-treat-mail-picon "gnus-picon" "\ Display picons in the Cc and To headers. If picons are already displayed, remove them. \(fn)" t nil) (autoload 'gnus-treat-newsgroups-picon "gnus-picon" "\ Display picons in the Newsgroups and Followup-To headers. If picons are already displayed, remove them. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-picon" '("gnus-picon-"))) ;;;*** ;;;### (autoloads nil "gnus-range" "gnus/gnus-range.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-range.el (autoload 'gnus-sorted-difference "gnus-range" "\ Return a list of elements of LIST1 that do not appear in LIST2. Both lists have to be sorted over <. The tail of LIST1 is not copied. \(fn LIST1 LIST2)" nil nil) (autoload 'gnus-sorted-ndifference "gnus-range" "\ Return a list of elements of LIST1 that do not appear in LIST2. Both lists have to be sorted over <. LIST1 is modified. \(fn LIST1 LIST2)" nil nil) (autoload 'gnus-sorted-complement "gnus-range" "\ Return a list of elements that are in LIST1 or LIST2 but not both. Both lists have to be sorted over <. \(fn LIST1 LIST2)" nil nil) (autoload 'gnus-intersection "gnus-range" "\ \(fn LIST1 LIST2)" nil nil) (autoload 'gnus-sorted-intersection "gnus-range" "\ Return intersection of LIST1 and LIST2. LIST1 and LIST2 have to be sorted over <. \(fn LIST1 LIST2)" nil nil) (autoload 'gnus-sorted-range-intersection "gnus-range" "\ Return intersection of RANGE1 and RANGE2. RANGE1 and RANGE2 have to be sorted over <. \(fn RANGE1 RANGE2)" nil nil) (defalias 'gnus-set-sorted-intersection 'gnus-sorted-nintersection) (autoload 'gnus-sorted-nintersection "gnus-range" "\ Return intersection of LIST1 and LIST2 by modifying cdr pointers of LIST1. LIST1 and LIST2 have to be sorted over <. \(fn LIST1 LIST2)" nil nil) (autoload 'gnus-sorted-union "gnus-range" "\ Return union of LIST1 and LIST2. LIST1 and LIST2 have to be sorted over <. \(fn LIST1 LIST2)" nil nil) (autoload 'gnus-sorted-nunion "gnus-range" "\ Return union of LIST1 and LIST2 by modifying cdr pointers of LIST1. LIST1 and LIST2 have to be sorted over <. \(fn LIST1 LIST2)" nil nil) (autoload 'gnus-add-to-sorted-list "gnus-range" "\ Add NUM into sorted LIST by side effect. \(fn LIST NUM)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-range" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-registry" "gnus/gnus-registry.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from gnus/gnus-registry.el (autoload 'gnus-registry-initialize "gnus-registry" "\ Initialize the Gnus registry. \(fn)" t nil) (autoload 'gnus-registry-install-hooks "gnus-registry" "\ Install the registry hooks. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-registry" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-rfc1843" "gnus/gnus-rfc1843.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from gnus/gnus-rfc1843.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-rfc1843" '("rfc1843-"))) ;;;*** ;;;### (autoloads nil "gnus-salt" "gnus/gnus-salt.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-salt.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-salt" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-score" "gnus/gnus-score.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-score.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-score" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-sieve" "gnus/gnus-sieve.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-sieve.el (autoload 'gnus-sieve-update "gnus-sieve" "\ Update the Sieve script in gnus-sieve-file, by replacing the region between gnus-sieve-region-start and gnus-sieve-region-end with \(gnus-sieve-script gnus-sieve-select-method gnus-sieve-crosspost), then execute gnus-sieve-update-shell-command. See the documentation for these variables and functions for details. \(fn)" t nil) (autoload 'gnus-sieve-generate "gnus-sieve" "\ Generate the Sieve script in gnus-sieve-file, by replacing the region between gnus-sieve-region-start and gnus-sieve-region-end with \(gnus-sieve-script gnus-sieve-select-method gnus-sieve-crosspost). See the documentation for these variables and functions for details. \(fn)" t nil) (autoload 'gnus-sieve-article-add-rule "gnus-sieve" "\ \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-sieve" '("gnus-sieve-"))) ;;;*** ;;;### (autoloads nil "gnus-spec" "gnus/gnus-spec.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-spec.el (autoload 'gnus-update-format "gnus-spec" "\ Update the format specification near point. \(fn VAR)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-spec" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-srvr" "gnus/gnus-srvr.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-srvr.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-srvr" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-start" "gnus/gnus-start.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-start.el (autoload 'gnus-declare-backend "gnus-start" "\ Declare back end NAME with ABILITIES as a Gnus back end. \(fn NAME &rest ABILITIES)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-start" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-sum" "gnus/gnus-sum.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-sum.el (autoload 'gnus-summary-bookmark-jump "gnus-sum" "\ Handler function for record returned by `gnus-summary-bookmark-make-record'. BOOKMARK is a bookmark name or a bookmark record. \(fn BOOKMARK)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-sum" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-topic" "gnus/gnus-topic.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-topic.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-topic" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-undo" "gnus/gnus-undo.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-undo.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-undo" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-util" "gnus/gnus-util.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-util.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-util" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-uu" "gnus/gnus-uu.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-uu.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-uu" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-vm" "gnus/gnus-vm.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-vm.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-vm" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnus-win" "gnus/gnus-win.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gnus-win.el (autoload 'gnus-add-configuration "gnus-win" "\ Add the window configuration CONF to `gnus-buffer-configuration'. \(fn CONF)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnus-win" '("gnus-"))) ;;;*** ;;;### (autoloads nil "gnutls" "net/gnutls.el" (0 0 0 0)) ;;; Generated autoloads from net/gnutls.el (defvar gnutls-min-prime-bits 256 "\ Minimum number of prime bits accepted by GnuTLS for key exchange. During a Diffie-Hellman handshake, if the server sends a prime number with fewer than this number of bits, the handshake is rejected. (The smaller the prime number, the less secure the key exchange is against man-in-the-middle attacks.) A value of nil says to use the default GnuTLS value.") (custom-autoload 'gnutls-min-prime-bits "gnutls" t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gnutls" '("gnutls-" "open-gnutls-stream"))) ;;;*** ;;;### (autoloads nil "gomoku" "play/gomoku.el" (0 0 0 0)) ;;; Generated autoloads from play/gomoku.el (autoload 'gomoku "gomoku" "\ Start a Gomoku game between you and Emacs. If a game is in progress, this command allows you to resume it. If optional arguments N and M are given, an N by M board is used. If prefix arg is given for N, M is prompted for. You and Emacs play in turn by marking a free square. You mark it with X and Emacs marks it with O. The winner is the first to get five contiguous marks horizontally, vertically or in diagonal. You play by moving the cursor over the square you choose and hitting \\\\[gomoku-human-plays]. This program actually plays a simplified or archaic version of the Gomoku game, and ought to be upgraded to use the full modern rules. Use \\[describe-mode] for more info. \(fn &optional N M)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gomoku" '("gomoku-"))) ;;;*** ;;;### (autoloads nil "goto-addr" "net/goto-addr.el" (0 0 0 0)) ;;; Generated autoloads from net/goto-addr.el (define-obsolete-function-alias 'goto-address-at-mouse 'goto-address-at-point "22.1") (autoload 'goto-address-at-point "goto-addr" "\ Send to the e-mail address or load the URL at point. Send mail to address at point. See documentation for `goto-address-find-address-at-point'. If no address is found there, then load the URL at or before point. \(fn &optional EVENT)" t nil) (autoload 'goto-address "goto-addr" "\ Sets up goto-address functionality in the current buffer. Allows user to use mouse/keyboard command to click to go to a URL or to send e-mail. By default, goto-address binds `goto-address-at-point' to mouse-2 and C-c RET only on URLs and e-mail addresses. Also fontifies the buffer appropriately (see `goto-address-fontify-p' and `goto-address-highlight-p' for more information). \(fn)" t nil) (put 'goto-address 'safe-local-eval-function t) (autoload 'goto-address-mode "goto-addr" "\ Minor mode to buttonize URLs and e-mail addresses in the current buffer. With a prefix argument ARG, enable the mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. \(fn &optional ARG)" t nil) (autoload 'goto-address-prog-mode "goto-addr" "\ Like `goto-address-mode', but only for comments and strings. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "goto-addr" '("goto-address-"))) ;;;*** ;;;### (autoloads nil "gravatar" "image/gravatar.el" (0 0 0 0)) ;;; Generated autoloads from image/gravatar.el (autoload 'gravatar-retrieve "gravatar" "\ Retrieve MAIL-ADDRESS gravatar and call CB on retrieval. You can provide a list of argument to pass to CB in CBARGS. \(fn MAIL-ADDRESS CB &optional CBARGS)" nil nil) (autoload 'gravatar-retrieve-synchronously "gravatar" "\ Retrieve MAIL-ADDRESS gravatar and returns it. \(fn MAIL-ADDRESS)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gravatar" '("gravatar-"))) ;;;*** ;;;### (autoloads nil "grep" "progmodes/grep.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/grep.el (defvar grep-window-height nil "\ Number of lines in a grep window. If nil, use `compilation-window-height'.") (custom-autoload 'grep-window-height "grep" t) (defvar grep-command nil "\ The default grep command for \\[grep]. If the grep program used supports an option to always include file names in its output (such as the `-H' option to GNU grep), it's a good idea to include it when specifying `grep-command'. In interactive usage, the actual value of this variable is set up by `grep-compute-defaults'; to change the default value, use Customize or call the function `grep-apply-setting'.") (custom-autoload 'grep-command "grep" nil) (defvar grep-find-command nil "\ The default find command for \\[grep-find]. In interactive usage, the actual value of this variable is set up by `grep-compute-defaults'; to change the default value, use Customize or call the function `grep-apply-setting'.") (custom-autoload 'grep-find-command "grep" nil) (defvar grep-setup-hook nil "\ List of hook functions run by `grep-process-setup' (see `run-hooks').") (custom-autoload 'grep-setup-hook "grep" t) (defconst grep-regexp-alist `((,(concat "^\\(?:" "\\(?1:[^\n]+\\)\\(?3:\\)\\(?2:[0-9]+\\):" "\\|" "\\(?1:[^\n:]+?[^\n/:]\\):[ ]*\\(?2:[1-9][0-9]*\\)[ ]*:" "\\)") 1 2 (,(lambda nil (when grep-highlight-matches (let* ((beg (match-end 0)) (end (save-excursion (goto-char beg) (line-end-position))) (mbeg (text-property-any beg end 'font-lock-face 'grep-match-face))) (when mbeg (- mbeg beg))))) \, (lambda nil (when grep-highlight-matches (let* ((beg (match-end 0)) (end (save-excursion (goto-char beg) (line-end-position))) (mbeg (text-property-any beg end 'font-lock-face 'grep-match-face)) (mend (and mbeg (next-single-property-change mbeg 'font-lock-face nil end)))) (when mend (- mend beg)))))) nil nil (3 '(face nil display ":"))) ("^Binary file \\(.+\\) matches$" 1 nil nil 0 1)) "\ Regexp used to match grep hits. See `compilation-error-regexp-alist' for format details.") (defvar grep-program (purecopy "grep") "\ The default grep program for `grep-command' and `grep-find-command'. This variable's value takes effect when `grep-compute-defaults' is called.") (defvar find-program (purecopy "find") "\ The default find program. This is used by commands like `grep-find-command', `find-dired' and others.") (defvar xargs-program (purecopy "xargs") "\ The default xargs program for `grep-find-command'. See `grep-find-use-xargs'. This variable's value takes effect when `grep-compute-defaults' is called.") (defvar grep-find-use-xargs nil "\ How to invoke find and grep. If `exec', use `find -exec {} ;'. If `exec-plus' use `find -exec {} +'. If `gnu', use `find -print0' and `xargs -0'. Any other value means to use `find -print' and `xargs'. This variable's value takes effect when `grep-compute-defaults' is called.") (defvar grep-history nil "\ History list for grep.") (defvar grep-find-history nil "\ History list for grep-find.") (autoload 'grep-process-setup "grep" "\ Setup compilation variables and buffer for `grep'. Set up `compilation-exit-message-function' and run `grep-setup-hook'. \(fn)" nil nil) (autoload 'grep-compute-defaults "grep" "\ \(fn)" nil nil) (autoload 'grep-mode "grep" "\ Sets `grep-last-buffer' and `compilation-window-height'. \(fn)" nil nil) (autoload 'grep "grep" "\ Run Grep with user-specified COMMAND-ARGS, collect output in a buffer. While Grep runs asynchronously, you can use \\[next-error] (M-x next-error), or \\\\[compile-goto-error] in the *grep* buffer, to go to the lines where Grep found matches. To kill the Grep job before it finishes, type \\[kill-compilation]. Noninteractively, COMMAND-ARGS should specify the Grep command-line arguments. For doing a recursive `grep', see the `rgrep' command. For running Grep in a specific directory, see `lgrep'. This command uses a special history list for its COMMAND-ARGS, so you can easily repeat a grep command. A prefix argument says to default the COMMAND-ARGS based on the current tag the cursor is over, substituting it into the last Grep command in the Grep command history (or into `grep-command' if that history list is empty). \(fn COMMAND-ARGS)" t nil) (autoload 'grep-find "grep" "\ Run grep via find, with user-specified args COMMAND-ARGS. Collect output in a buffer. While find runs asynchronously, you can use the \\[next-error] command to find the text that grep hits refer to. This command uses a special history list for its arguments, so you can easily repeat a find command. \(fn COMMAND-ARGS)" t nil) (defalias 'find-grep 'grep-find) (autoload 'lgrep "grep" "\ Run grep, searching for REGEXP in FILES in directory DIR. The search is limited to file names matching shell pattern FILES. FILES may use abbreviations defined in `grep-files-aliases', e.g. entering `ch' is equivalent to `*.[ch]'. With \\[universal-argument] prefix, you can edit the constructed shell command line before it is executed. With two \\[universal-argument] prefixes, directly edit and run `grep-command'. Collect output in a buffer. While grep runs asynchronously, you can use \\[next-error] (M-x next-error), or \\\\[compile-goto-error] in the grep output buffer, to go to the lines where grep found matches. This command shares argument histories with \\[rgrep] and \\[grep]. \(fn REGEXP &optional FILES DIR CONFIRM)" t nil) (autoload 'rgrep "grep" "\ Recursively grep for REGEXP in FILES in directory tree rooted at DIR. The search is limited to file names matching shell pattern FILES. FILES may use abbreviations defined in `grep-files-aliases', e.g. entering `ch' is equivalent to `*.[ch]'. With \\[universal-argument] prefix, you can edit the constructed shell command line before it is executed. With two \\[universal-argument] prefixes, directly edit and run `grep-find-command'. Collect output in a buffer. While the recursive grep is running, you can use \\[next-error] (M-x next-error), or \\\\[compile-goto-error] in the grep output buffer, to visit the lines where matches were found. To kill the job before it finishes, type \\[kill-compilation]. This command shares argument histories with \\[lgrep] and \\[grep-find]. When called programmatically and FILES is nil, REGEXP is expected to specify a command to run. \(fn REGEXP &optional FILES DIR CONFIRM)" t nil) (autoload 'zrgrep "grep" "\ Recursively grep for REGEXP in gzipped FILES in tree rooted at DIR. Like `rgrep' but uses `zgrep' for `grep-program', sets the default file name to `*.gz', and sets `grep-highlight-matches' to `always'. \(fn REGEXP &optional FILES DIR CONFIRM TEMPLATE)" t nil) (defalias 'rzgrep 'zrgrep) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "grep" '("rgrep-" "grep-" "kill-grep"))) ;;;*** ;;;### (autoloads nil "gssapi" "gnus/gssapi.el" (0 0 0 0)) ;;; Generated autoloads from gnus/gssapi.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gssapi" '("open-gssapi-stream" "gssapi-program"))) ;;;*** ;;;### (autoloads nil "gud" "progmodes/gud.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/gud.el (autoload 'gud-gdb "gud" "\ Run gdb passing it COMMAND-LINE as arguments. If COMMAND-LINE names a program FILE to debug, gdb will run in a buffer named *gud-FILE*, and the directory containing FILE becomes the initial working directory and source-file directory for your debugger. If COMMAND-LINE requests that gdb attaches to a process PID, gdb will run in *gud-PID*, otherwise it will run in *gud*; in these cases the initial working directory is the default-directory of the buffer in which this command was invoked. \(fn COMMAND-LINE)" t nil) (autoload 'sdb "gud" "\ Run sdb on program FILE in buffer *gud-FILE*. The directory containing FILE becomes the initial working directory and source-file directory for your debugger. \(fn COMMAND-LINE)" t nil) (autoload 'dbx "gud" "\ Run dbx on program FILE in buffer *gud-FILE*. The directory containing FILE becomes the initial working directory and source-file directory for your debugger. \(fn COMMAND-LINE)" t nil) (autoload 'xdb "gud" "\ Run xdb on program FILE in buffer *gud-FILE*. The directory containing FILE becomes the initial working directory and source-file directory for your debugger. You can set the variable `gud-xdb-directories' to a list of program source directories if your program contains sources from more than one directory. \(fn COMMAND-LINE)" t nil) (autoload 'perldb "gud" "\ Run perldb on program FILE in buffer *gud-FILE*. The directory containing FILE becomes the initial working directory and source-file directory for your debugger. \(fn COMMAND-LINE)" t nil) (autoload 'pdb "gud" "\ Run pdb on program FILE in buffer `*gud-FILE*'. The directory containing FILE becomes the initial working directory and source-file directory for your debugger. \(fn COMMAND-LINE)" t nil) (autoload 'guiler "gud" "\ Run guiler on program FILE in buffer `*gud-FILE*'. The directory containing FILE becomes the initial working directory and source-file directory for your debugger. \(fn COMMAND-LINE)" t nil) (autoload 'jdb "gud" "\ Run jdb with command line COMMAND-LINE in a buffer. The buffer is named \"*gud*\" if no initial class is given or \"*gud-*\" if there is. If the \"-classpath\" switch is given, omit all whitespace between it and its value. See `gud-jdb-use-classpath' and `gud-jdb-classpath' documentation for information on how jdb accesses source files. Alternatively (if `gud-jdb-use-classpath' is nil), see `gud-jdb-directories' for the original source file access method. For general information about commands available to control jdb from gud, see `gud-mode'. \(fn COMMAND-LINE)" t nil) (autoload 'gdb-script-mode "gud" "\ Major mode for editing GDB scripts. \(fn)" t nil) (defvar gud-tooltip-mode nil "\ Non-nil if Gud-Tooltip mode is enabled. See the `gud-tooltip-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `gud-tooltip-mode'.") (custom-autoload 'gud-tooltip-mode "gud" nil) (autoload 'gud-tooltip-mode "gud" "\ Toggle the display of GUD tooltips. With a prefix argument ARG, enable the feature if ARG is positive, and disable it otherwise. If called from Lisp, enable it if ARG is omitted or nil. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gud" '("gdb-" "gud-"))) ;;;*** ;;;### (autoloads nil "gv" "emacs-lisp/gv.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/gv.el (autoload 'gv-get "gv" "\ Build the code that applies DO to PLACE. PLACE must be a valid generalized variable. DO must be a function; it will be called with 2 arguments: GETTER and SETTER, where GETTER is a (copyable) Elisp expression that returns the value of PLACE, and SETTER is a function which returns the code to set PLACE when called with a (not necessarily copyable) Elisp expression that returns the value to set it to. DO must return an Elisp expression. \(fn PLACE DO)" nil nil) (autoload 'gv-letplace "gv" "\ Build the code manipulating the generalized variable PLACE. GETTER will be bound to a copyable expression that returns the value of PLACE. SETTER will be bound to a function that takes an expression V and returns a new expression that sets PLACE to V. BODY should return some Elisp expression E manipulating PLACE via GETTER and SETTER. The returned value will then be an Elisp expression that first evaluates all the parts of PLACE that can be evaluated and then runs E. \(fn (GETTER SETTER) PLACE &rest BODY)" nil t) (function-put 'gv-letplace 'lisp-indent-function '2) (autoload 'gv-define-expander "gv" "\ Use HANDLER to handle NAME as a generalized var. NAME is a symbol: the name of a function, macro, or special form. HANDLER is a function which takes an argument DO followed by the same arguments as NAME. DO is a function as defined in `gv-get'. \(fn NAME HANDLER)" nil t) (function-put 'gv-define-expander 'lisp-indent-function '1) (autoload 'gv--defun-declaration "gv" "\ \(fn SYMBOL NAME ARGS HANDLER &optional FIX)" nil nil) (or (assq 'gv-expander defun-declarations-alist) (let ((x `(gv-expander ,(apply-partially #'gv--defun-declaration 'gv-expander)))) (push x macro-declarations-alist) (push x defun-declarations-alist))) (or (assq 'gv-setter defun-declarations-alist) (push `(gv-setter ,(apply-partially #'gv--defun-declaration 'gv-setter)) defun-declarations-alist)) (autoload 'gv-define-setter "gv" "\ Define a setter method for generalized variable NAME. This macro is an easy-to-use substitute for `gv-define-expander' that works well for simple place forms. Assignments of VAL to (NAME ARGS...) are expanded by binding the argument forms (VAL ARGS...) according to ARGLIST, then executing BODY, which must return a Lisp form that does the assignment. The first arg in ARGLIST (the one that receives VAL) receives an expression which can do arbitrary things, whereas the other arguments are all guaranteed to be pure and copyable. Example use: (gv-define-setter aref (v a i) \\=`(aset ,a ,i ,v)) \(fn NAME ARGLIST &rest BODY)" nil t) (function-put 'gv-define-setter 'lisp-indent-function '2) (autoload 'gv-define-simple-setter "gv" "\ Define a simple setter method for generalized variable NAME. This macro is an easy-to-use substitute for `gv-define-expander' that works well for simple place forms. Assignments of VAL to (NAME ARGS...) are turned into calls of the form (SETTER ARGS... VAL). If FIX-RETURN is non-nil, then SETTER is not assumed to return VAL and instead the assignment is turned into something equivalent to (let ((temp VAL)) (SETTER ARGS... temp) temp) so as to preserve the semantics of `setf'. \(fn NAME SETTER &optional FIX-RETURN)" nil t) (autoload 'setf "gv" "\ Set each PLACE to the value of its VAL. This is a generalized version of `setq'; the PLACEs may be symbolic references such as (car x) or (aref x i), as well as plain symbols. For example, (setf (cadr x) y) is equivalent to (setcar (cdr x) y). The return value is the last VAL in the list. \(fn PLACE VAL PLACE VAL ...)" nil t) (put 'gv-place 'edebug-form-spec 'edebug-match-form) (autoload 'gv-ref "gv" "\ Return a reference to PLACE. This is like the `&' operator of the C language. Note: this only works reliably with lexical binding mode, except for very simple PLACEs such as (symbol-function \\='foo) which will also work in dynamic binding mode. \(fn PLACE)" nil t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "gv" '("gv-"))) ;;;*** ;;;### (autoloads nil "handwrite" "play/handwrite.el" (0 0 0 0)) ;;; Generated autoloads from play/handwrite.el (autoload 'handwrite "handwrite" "\ Turns the buffer into a \"handwritten\" document. The functions `handwrite-10pt', `handwrite-11pt', `handwrite-12pt' and `handwrite-13pt' set up for various sizes of output. Variables: `handwrite-linespace' (default 12) `handwrite-fontsize' (default 11) `handwrite-numlines' (default 60) `handwrite-pagenumbering' (default nil) \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "handwrite" '("handwrite-" "menu-bar-handwrite-map"))) ;;;*** ;;;### (autoloads nil "hanja-util" "language/hanja-util.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from language/hanja-util.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hanja-util" '("han"))) ;;;*** ;;;### (autoloads nil "hanoi" "play/hanoi.el" (0 0 0 0)) ;;; Generated autoloads from play/hanoi.el (autoload 'hanoi "hanoi" "\ Towers of Hanoi diversion. Use NRINGS rings. \(fn NRINGS)" t nil) (autoload 'hanoi-unix "hanoi" "\ Towers of Hanoi, UNIX doomsday version. Displays 32-ring towers that have been progressing at one move per second since 1970-01-01 00:00:00 GMT. Repent before ring 31 moves. \(fn)" t nil) (autoload 'hanoi-unix-64 "hanoi" "\ Like hanoi-unix, but pretend to have a 64-bit clock. This is, necessarily (as of Emacs 20.3), a crock. When the current-time interface is made s2G-compliant, hanoi.el will need to be updated. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hanoi" '("hanoi-"))) ;;;*** ;;;### (autoloads nil "hashcash" "mail/hashcash.el" (0 0 0 0)) ;;; Generated autoloads from mail/hashcash.el (autoload 'hashcash-insert-payment "hashcash" "\ Insert X-Payment and X-Hashcash headers with a payment for ARG \(fn ARG)" t nil) (autoload 'hashcash-insert-payment-async "hashcash" "\ Insert X-Payment and X-Hashcash headers with a payment for ARG Only start calculation. Results are inserted when ready. \(fn ARG)" t nil) (autoload 'hashcash-verify-payment "hashcash" "\ Verify a hashcash payment \(fn TOKEN &optional RESOURCE AMOUNT)" nil nil) (autoload 'mail-add-payment "hashcash" "\ Add X-Payment: and X-Hashcash: headers with a hashcash payment for each recipient address. Prefix arg sets default payment temporarily. Set ASYNC to t to start asynchronous calculation. (See `mail-add-payment-async'). \(fn &optional ARG ASYNC)" t nil) (autoload 'mail-add-payment-async "hashcash" "\ Add X-Payment: and X-Hashcash: headers with a hashcash payment for each recipient address. Prefix arg sets default payment temporarily. Calculation is asynchronous. \(fn &optional ARG)" t nil) (autoload 'mail-check-payment "hashcash" "\ Look for a valid X-Payment: or X-Hashcash: header. Prefix arg sets default accept amount temporarily. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hashcash" '("hashcash-"))) ;;;*** ;;;### (autoloads nil "help-at-pt" "help-at-pt.el" (0 0 0 0)) ;;; Generated autoloads from help-at-pt.el (autoload 'help-at-pt-string "help-at-pt" "\ Return the help-echo string at point. Normally, the string produced by the `help-echo' text or overlay property, or nil, is returned. If KBD is non-nil, `kbd-help' is used instead, and any `help-echo' property is ignored. In this case, the return value can also be t, if that is the value of the `kbd-help' property. \(fn &optional KBD)" nil nil) (autoload 'help-at-pt-kbd-string "help-at-pt" "\ Return the keyboard help string at point. If the `kbd-help' text or overlay property at point produces a string, return it. Otherwise, use the `help-echo' property. If this produces no string either, return nil. \(fn)" nil nil) (autoload 'display-local-help "help-at-pt" "\ Display local help in the echo area. This displays a short help message, namely the string produced by the `kbd-help' property at point. If `kbd-help' does not produce a string, but the `help-echo' property does, then that string is printed instead. A numeric argument ARG prevents display of a message in case there is no help. While ARG can be used interactively, it is mainly meant for use from Lisp. \(fn &optional ARG)" t nil) (autoload 'help-at-pt-cancel-timer "help-at-pt" "\ Cancel any timer set by `help-at-pt-set-timer'. This disables `help-at-pt-display-when-idle'. \(fn)" t nil) (autoload 'help-at-pt-set-timer "help-at-pt" "\ Enable `help-at-pt-display-when-idle'. This is done by setting a timer, if none is currently active. \(fn)" t nil) (defvar help-at-pt-display-when-idle 'never "\ Automatically show local help on point-over. If the value is t, the string obtained from any `kbd-help' or `help-echo' property at point is automatically printed in the echo area, if nothing else is already displayed there, or after a quit. If both `kbd-help' and `help-echo' produce help strings, `kbd-help' is used. If the value is a list, the help only gets printed if there is a text or overlay property at point that is included in this list. Suggested properties are `keymap', `local-map', `button' and `kbd-help'. Any value other than t or a non-empty list disables the feature. This variable only takes effect after a call to `help-at-pt-set-timer'. The help gets printed after Emacs has been idle for `help-at-pt-timer-delay' seconds. You can call `help-at-pt-cancel-timer' to cancel the timer set by, and the effect of, `help-at-pt-set-timer'. When this variable is set through Custom, `help-at-pt-set-timer' is called automatically, unless the value is `never', in which case `help-at-pt-cancel-timer' is called. Specifying an empty list of properties through Custom will set the timer, thus enabling buffer local values. It sets the actual value to nil. Thus, Custom distinguishes between a nil value and other values that disable the feature, which Custom identifies with `never'. The default is `never'.") (custom-autoload 'help-at-pt-display-when-idle "help-at-pt" nil) (autoload 'scan-buf-move-to-region "help-at-pt" "\ Go to the start of the next region with non-nil PROP property. Then run HOOK, which should be a quoted symbol that is a normal hook variable, or an expression evaluating to such a symbol. Adjacent areas with different non-nil PROP properties are considered different regions. With numeric argument ARG, move to the start of the ARGth next such region, then run HOOK. If ARG is negative, move backward. If point is already in a region, then that region does not count toward ARG. If ARG is 0 and point is inside a region, move to the start of that region. If ARG is 0 and point is not in a region, print a message to that effect, but do not move point and do not run HOOK. If there are not enough regions to move over, an error results and the number of available regions is mentioned in the error message. Point is not moved and HOOK is not run. \(fn PROP &optional ARG HOOK)" nil nil) (autoload 'scan-buf-next-region "help-at-pt" "\ Go to the start of the next region with non-nil help-echo. Print the help found there using `display-local-help'. Adjacent areas with different non-nil help-echo properties are considered different regions. With numeric argument ARG, move to the start of the ARGth next help-echo region. If ARG is negative, move backward. If point is already in a help-echo region, then that region does not count toward ARG. If ARG is 0 and point is inside a help-echo region, move to the start of that region. If ARG is 0 and point is not in such a region, just print a message to that effect. If there are not enough regions to move over, an error results and the number of available regions is mentioned in the error message. A potentially confusing subtlety is that point can be in a help-echo region without any local help being available. This is because `help-echo' can be a function evaluating to nil. This rarely happens in practice. \(fn &optional ARG)" t nil) (autoload 'scan-buf-previous-region "help-at-pt" "\ Go to the start of the previous region with non-nil help-echo. Print the help found there using `display-local-help'. Adjacent areas with different non-nil help-echo properties are considered different regions. With numeric argument ARG, behaves like `scan-buf-next-region' with argument -ARG. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "help-at-pt" '("scan-buf-move-hook" "help-at-pt-"))) ;;;*** ;;;### (autoloads nil "help-fns" "help-fns.el" (0 0 0 0)) ;;; Generated autoloads from help-fns.el (autoload 'describe-function "help-fns" "\ Display the full documentation of FUNCTION (a symbol). When called from lisp, FUNCTION may also be a function object. \(fn FUNCTION)" t nil) (autoload 'help-C-file-name "help-fns" "\ Return the name of the C file where SUBR-OR-VAR is defined. KIND should be `var' for a variable or `subr' for a subroutine. \(fn SUBR-OR-VAR KIND)" nil nil) (autoload 'find-lisp-object-file-name "help-fns" "\ Guess the file that defined the Lisp object OBJECT, of type TYPE. OBJECT should be a symbol associated with a function, variable, or face; alternatively, it can be a function definition. If TYPE is `defvar', search for a variable definition. If TYPE is `defface', search for a face definition. If TYPE is not a symbol, search for a function definition. The return value is the absolute name of a readable file where OBJECT is defined. If several such files exist, preference is given to a file found via `load-path'. The return value can also be `C-source', which means that OBJECT is a function or variable defined in C. If no suitable file is found, return nil. \(fn OBJECT TYPE)" nil nil) (autoload 'describe-function-1 "help-fns" "\ \(fn FUNCTION)" nil nil) (autoload 'variable-at-point "help-fns" "\ Return the bound variable symbol found at or before point. Return 0 if there is no such symbol. If ANY-SYMBOL is non-nil, don't insist the symbol be bound. \(fn &optional ANY-SYMBOL)" nil nil) (autoload 'describe-variable "help-fns" "\ Display the full documentation of VARIABLE (a symbol). Returns the documentation as a string, also. If VARIABLE has a buffer-local value in BUFFER or FRAME \(default to the current buffer and current frame), it is displayed along with the global value. \(fn VARIABLE &optional BUFFER FRAME)" t nil) (autoload 'describe-symbol "help-fns" "\ Display the full documentation of SYMBOL. Will show the info of SYMBOL as a function, variable, and/or face. Optional arguments BUFFER and FRAME specify for which buffer and frame to show the information about SYMBOL; they default to the current buffer and the selected frame, respectively. \(fn SYMBOL &optional BUFFER FRAME)" t nil) (autoload 'describe-syntax "help-fns" "\ Describe the syntax specifications in the syntax table of BUFFER. The descriptions are inserted in a help buffer, which is then displayed. BUFFER defaults to the current buffer. \(fn &optional BUFFER)" t nil) (autoload 'describe-categories "help-fns" "\ Describe the category specifications in the current category table. The descriptions are inserted in a buffer, which is then displayed. If BUFFER is non-nil, then describe BUFFER's category table instead. BUFFER should be a buffer or a buffer name. \(fn &optional BUFFER)" t nil) (autoload 'doc-file-to-man "help-fns" "\ Produce an nroff buffer containing the doc-strings from the DOC file. \(fn FILE)" t nil) (autoload 'doc-file-to-info "help-fns" "\ Produce a texinfo buffer with sorted doc-strings from the DOC file. \(fn FILE)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "help-fns" '("help-" "describe-"))) ;;;*** ;;;### (autoloads nil "help-macro" "help-macro.el" (0 0 0 0)) ;;; Generated autoloads from help-macro.el (defvar three-step-help nil "\ Non-nil means give more info about Help command in three steps. The three steps are simple prompt, prompt with all options, and window listing and describing the options. A value of nil means skip the middle step, so that \\[help-command] \\[help-command] gives the window that lists the options.") (custom-autoload 'three-step-help "help-macro" t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "help-macro" '("make-help-screen"))) ;;;*** ;;;### (autoloads nil "help-mode" "help-mode.el" (0 0 0 0)) ;;; Generated autoloads from help-mode.el (autoload 'help-mode "help-mode" "\ Major mode for viewing help text and navigating references in it. Entry to this mode runs the normal hook `help-mode-hook'. Commands: \\{help-mode-map} \(fn)" t nil) (autoload 'help-mode-setup "help-mode" "\ Enter Help Mode in the current buffer. \(fn)" nil nil) (autoload 'help-mode-finish "help-mode" "\ Finalize Help Mode setup in current buffer. \(fn)" nil nil) (autoload 'help-setup-xref "help-mode" "\ Invoked from commands using the \"*Help*\" buffer to install some xref info. ITEM is a (FUNCTION . ARGS) pair appropriate for recreating the help buffer after following a reference. INTERACTIVE-P is non-nil if the calling command was invoked interactively. In this case the stack of items for help buffer \"back\" buttons is cleared. This should be called very early, before the output buffer is cleared, because we want to record the \"previous\" position of point so we can restore it properly when going back. \(fn ITEM INTERACTIVE-P)" nil nil) (autoload 'help-buffer "help-mode" "\ Return the name of a buffer for inserting help. If `help-xref-following' is non-nil, this is the name of the current buffer. Signal an error if this buffer is not derived from `help-mode'. Otherwise, return \"*Help*\", creating a buffer with that name if it does not already exist. \(fn)" nil nil) (autoload 'help-make-xrefs "help-mode" "\ Parse and hyperlink documentation cross-references in the given BUFFER. Find cross-reference information in a buffer and activate such cross references for selection with `help-follow'. Cross-references have the canonical form `...' and the type of reference may be disambiguated by the preceding word(s) used in `help-xref-symbol-regexp'. Faces only get cross-referenced if preceded or followed by the word `face'. Variables without variable documentation do not get cross-referenced, unless preceded by the word `variable' or `option'. If the variable `help-xref-mule-regexp' is non-nil, find also cross-reference information related to multilingual environment \(e.g., coding-systems). This variable is also used to disambiguate the type of reference as the same way as `help-xref-symbol-regexp'. A special reference `back' is made to return back through a stack of help buffers. Variable `help-back-label' specifies the text for that. \(fn &optional BUFFER)" t nil) (autoload 'help-xref-button "help-mode" "\ Make a hyperlink for cross-reference text previously matched. MATCH-NUMBER is the subexpression of interest in the last matched regexp. TYPE is the type of button to use. Any remaining arguments are passed to the button's help-function when it is invoked. See `help-make-xrefs'. \(fn MATCH-NUMBER TYPE &rest ARGS)" nil nil) (autoload 'help-insert-xref-button "help-mode" "\ Insert STRING and make a hyperlink from cross-reference text on it. TYPE is the type of button to use. Any remaining arguments are passed to the button's help-function when it is invoked. See `help-make-xrefs'. \(fn STRING TYPE &rest ARGS)" nil nil) (autoload 'help-xref-on-pp "help-mode" "\ Add xrefs for symbols in `pp's output between FROM and TO. \(fn FROM TO)" nil nil) (define-obsolete-function-alias 'help-xref-interned 'describe-symbol "25.1") (autoload 'help-bookmark-jump "help-mode" "\ Jump to help-mode bookmark BOOKMARK. Handler function for record returned by `help-bookmark-make-record'. BOOKMARK is a bookmark name or a bookmark record. \(fn BOOKMARK)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "help-mode" '("help-" "describe-symbol-backends"))) ;;;*** ;;;### (autoloads nil "helper" "emacs-lisp/helper.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/helper.el (autoload 'Helper-describe-bindings "helper" "\ Describe local key bindings of current mode. \(fn)" t nil) (autoload 'Helper-help "helper" "\ Provide help for current mode. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "helper" '("Helper-"))) ;;;*** ;;;### (autoloads nil "hex-util" "hex-util.el" (0 0 0 0)) ;;; Generated autoloads from hex-util.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hex-util" '("encode-hex-string" "decode-hex-string"))) ;;;*** ;;;### (autoloads nil "hexl" "hexl.el" (0 0 0 0)) ;;; Generated autoloads from hexl.el (autoload 'hexl-mode "hexl" "\ \\A mode for editing binary files in hex dump format. This is not an ordinary major mode; it alters some aspects of the current mode's behavior, but not all; also, you can exit Hexl mode and return to the previous mode using `hexl-mode-exit'. This function automatically converts a buffer into the hexl format using the function `hexlify-buffer'. Each line in the buffer has an \"address\" (displayed in hexadecimal) representing the offset into the file that the characters on this line are at and 16 characters from the file (displayed as hexadecimal values grouped every `hexl-bits' bits, and as their ASCII values). If any of the characters (displayed as ASCII characters) are unprintable (control or meta characters) they will be replaced by periods. If `hexl-mode' is invoked with an argument the buffer is assumed to be in hexl format. A sample format: HEX ADDR: 0011 2233 4455 6677 8899 aabb ccdd eeff ASCII-TEXT -------- ---- ---- ---- ---- ---- ---- ---- ---- ---------------- 00000000: 5468 6973 2069 7320 6865 786c 2d6d 6f64 This is hexl-mod 00000010: 652e 2020 4561 6368 206c 696e 6520 7265 e. Each line re 00000020: 7072 6573 656e 7473 2031 3620 6279 7465 presents 16 byte 00000030: 7320 6173 2068 6578 6164 6563 696d 616c s as hexadecimal 00000040: 2041 5343 4949 0a61 6e64 2070 7269 6e74 ASCII.and print 00000050: 6162 6c65 2041 5343 4949 2063 6861 7261 able ASCII chara 00000060: 6374 6572 732e 2020 416e 7920 636f 6e74 cters. Any cont 00000070: 726f 6c20 6f72 206e 6f6e 2d41 5343 4949 rol or non-ASCII 00000080: 2063 6861 7261 6374 6572 730a 6172 6520 characters.are 00000090: 6469 7370 6c61 7965 6420 6173 2070 6572 displayed as per 000000a0: 696f 6473 2069 6e20 7468 6520 7072 696e iods in the prin 000000b0: 7461 626c 6520 6368 6172 6163 7465 7220 table character 000000c0: 7265 6769 6f6e 2e0a region.. Movement is as simple as movement in a normal Emacs text buffer. Most cursor movement bindings are the same: use \\[hexl-backward-char], \\[hexl-forward-char], \\[hexl-next-line], and \\[hexl-previous-line] to move the cursor left, right, down, and up. Advanced cursor movement commands (ala \\[hexl-beginning-of-line], \\[hexl-end-of-line], \\[hexl-beginning-of-buffer], and \\[hexl-end-of-buffer]) are also supported. There are several ways to change text in hexl mode: ASCII characters (character between space (0x20) and tilde (0x7E)) are bound to self-insert so you can simply type the character and it will insert itself (actually overstrike) into the buffer. \\[hexl-quoted-insert] followed by another keystroke allows you to insert the key even if it isn't bound to self-insert. An octal number can be supplied in place of another key to insert the octal number's ASCII representation. \\[hexl-insert-hex-char] will insert a given hexadecimal value (if it is between 0 and 0xFF) into the buffer at the current point. \\[hexl-insert-octal-char] will insert a given octal value (if it is between 0 and 0377) into the buffer at the current point. \\[hexl-insert-decimal-char] will insert a given decimal value (if it is between 0 and 255) into the buffer at the current point. \\[hexl-mode-exit] will exit `hexl-mode'. Note: saving the file with any of the usual Emacs commands will actually convert it back to binary format while saving. You can use \\[hexl-find-file] to visit a file in Hexl mode. \\[describe-bindings] for advanced commands. \(fn &optional ARG)" t nil) (autoload 'hexl-find-file "hexl" "\ Edit file FILENAME as a binary file in hex dump format. Switch to a buffer visiting file FILENAME, creating one if none exists, and edit the file in `hexl-mode'. \(fn FILENAME)" t nil) (autoload 'hexlify-buffer "hexl" "\ Convert a binary buffer to hexl format. This discards the buffer's undo information. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hexl" '("hexl-" "dehexlify-buffer"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "hfy-cmap" "hfy-cmap.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from hfy-cmap.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hfy-cmap" '("hfy-" "htmlfontify-unload-rgb-file"))) ;;;*** ;;;### (autoloads nil "hi-lock" "hi-lock.el" (0 0 0 0)) ;;; Generated autoloads from hi-lock.el (autoload 'hi-lock-mode "hi-lock" "\ Toggle selective highlighting of patterns (Hi Lock mode). With a prefix argument ARG, enable Hi Lock mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Hi Lock mode is automatically enabled when you invoke any of the highlighting commands listed below, such as \\[highlight-regexp]. To enable Hi Lock mode in all buffers, use `global-hi-lock-mode' or add (global-hi-lock-mode 1) to your init file. In buffers where Font Lock mode is enabled, patterns are highlighted using font lock. In buffers where Font Lock mode is disabled, patterns are applied using overlays; in this case, the highlighting will not be updated as you type. When Hi Lock mode is enabled, a \"Regexp Highlighting\" submenu is added to the \"Edit\" menu. The commands in the submenu, which can be called interactively, are: \\[highlight-regexp] REGEXP FACE Highlight matches of pattern REGEXP in current buffer with FACE. \\[highlight-phrase] PHRASE FACE Highlight matches of phrase PHRASE in current buffer with FACE. (PHRASE can be any REGEXP, but spaces will be replaced by matches to whitespace and initial lower-case letters will become case insensitive.) \\[highlight-lines-matching-regexp] REGEXP FACE Highlight lines containing matches of REGEXP in current buffer with FACE. \\[highlight-symbol-at-point] Highlight the symbol found near point without prompting, using the next available face automatically. \\[unhighlight-regexp] REGEXP Remove highlighting on matches of REGEXP in current buffer. \\[hi-lock-write-interactive-patterns] Write active REGEXPs into buffer as comments (if possible). They may be read the next time file is loaded or when the \\[hi-lock-find-patterns] command is issued. The inserted regexps are in the form of font lock keywords. (See `font-lock-keywords'.) They may be edited and re-loaded with \\[hi-lock-find-patterns], any valid `font-lock-keywords' form is acceptable. When a file is loaded the patterns are read if `hi-lock-file-patterns-policy' is `ask' and the user responds y to the prompt, or if `hi-lock-file-patterns-policy' is bound to a function and that function returns t. \\[hi-lock-find-patterns] Re-read patterns stored in buffer (in the format produced by \\[hi-lock-write-interactive-patterns]). When hi-lock is started and if the mode is not excluded or patterns rejected, the beginning of the buffer is searched for lines of the form: Hi-lock: FOO where FOO is a list of patterns. The patterns must start before position (number of characters into buffer) `hi-lock-file-patterns-range'. Patterns will be read until Hi-lock: end is found. A mode is excluded if it's in the list `hi-lock-exclude-modes'. \(fn &optional ARG)" t nil) (defvar global-hi-lock-mode nil "\ Non-nil if Global Hi-Lock mode is enabled. See the `global-hi-lock-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `global-hi-lock-mode'.") (custom-autoload 'global-hi-lock-mode "hi-lock" nil) (autoload 'global-hi-lock-mode "hi-lock" "\ Toggle Hi-Lock mode in all buffers. With prefix ARG, enable Global Hi-Lock mode if ARG is positive; otherwise, disable it. If called from Lisp, enable the mode if ARG is omitted or nil. Hi-Lock mode is enabled in all buffers where `turn-on-hi-lock-if-enabled' would do it. See `hi-lock-mode' for more information on Hi-Lock mode. \(fn &optional ARG)" t nil) (defalias 'highlight-lines-matching-regexp 'hi-lock-line-face-buffer) (autoload 'hi-lock-line-face-buffer "hi-lock" "\ Set face of all lines containing a match of REGEXP to FACE. Interactively, prompt for REGEXP using `read-regexp', then FACE. Use the global history list for FACE. Use Font lock mode, if enabled, to highlight REGEXP. Otherwise, use overlays for highlighting. If overlays are used, the highlighting will not update as you type. \(fn REGEXP &optional FACE)" t nil) (defalias 'highlight-regexp 'hi-lock-face-buffer) (autoload 'hi-lock-face-buffer "hi-lock" "\ Set face of each match of REGEXP to FACE. Interactively, prompt for REGEXP using `read-regexp', then FACE. Use the global history list for FACE. Use Font lock mode, if enabled, to highlight REGEXP. Otherwise, use overlays for highlighting. If overlays are used, the highlighting will not update as you type. \(fn REGEXP &optional FACE)" t nil) (defalias 'highlight-phrase 'hi-lock-face-phrase-buffer) (autoload 'hi-lock-face-phrase-buffer "hi-lock" "\ Set face of each match of phrase REGEXP to FACE. Interactively, prompt for REGEXP using `read-regexp', then FACE. Use the global history list for FACE. When called interactively, replace whitespace in user-provided regexp with arbitrary whitespace, and make initial lower-case letters case-insensitive, before highlighting with `hi-lock-set-pattern'. Use Font lock mode, if enabled, to highlight REGEXP. Otherwise, use overlays for highlighting. If overlays are used, the highlighting will not update as you type. \(fn REGEXP &optional FACE)" t nil) (defalias 'highlight-symbol-at-point 'hi-lock-face-symbol-at-point) (autoload 'hi-lock-face-symbol-at-point "hi-lock" "\ Highlight each instance of the symbol at point. Uses the next face from `hi-lock-face-defaults' without prompting, unless you use a prefix argument. Uses `find-tag-default-as-symbol-regexp' to retrieve the symbol at point. This uses Font lock mode if it is enabled; otherwise it uses overlays, in which case the highlighting will not update as you type. \(fn)" t nil) (defalias 'unhighlight-regexp 'hi-lock-unface-buffer) (autoload 'hi-lock-unface-buffer "hi-lock" "\ Remove highlighting of each match to REGEXP set by hi-lock. Interactively, prompt for REGEXP, accepting only regexps previously inserted by hi-lock interactive functions. If REGEXP is t (or if \\[universal-argument] was specified interactively), then remove all hi-lock highlighting. \(fn REGEXP)" t nil) (autoload 'hi-lock-write-interactive-patterns "hi-lock" "\ Write interactively added patterns, if any, into buffer at point. Interactively added patterns are those normally specified using `highlight-regexp' and `highlight-lines-matching-regexp'; they can be found in variable `hi-lock-interactive-patterns'. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hi-lock" '("hi-lock-" "turn-on-hi-lock-if-enabled"))) ;;;*** ;;;### (autoloads nil "hideif" "progmodes/hideif.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/hideif.el (autoload 'hide-ifdef-mode "hideif" "\ Toggle features to hide/show #ifdef blocks (Hide-Ifdef mode). With a prefix argument ARG, enable Hide-Ifdef mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Hide-Ifdef mode is a buffer-local minor mode for use with C and C-like major modes. When enabled, code within #ifdef constructs that the C preprocessor would eliminate may be hidden from view. Several variables affect how the hiding is done: `hide-ifdef-env' An association list of defined and undefined symbols for the current project. Initially, the global value of `hide-ifdef-env' is used. This variable was a buffer-local variable, which limits hideif to parse only one C/C++ file at a time. We've extended hideif to support parsing a C/C++ project containing multiple C/C++ source files opened simultaneously in different buffers. Therefore `hide-ifdef-env' can no longer be buffer local but must be global. `hide-ifdef-define-alist' An association list of defined symbol lists. Use `hide-ifdef-set-define-alist' to save the current `hide-ifdef-env' and `hide-ifdef-use-define-alist' to set the current `hide-ifdef-env' from one of the lists in `hide-ifdef-define-alist'. `hide-ifdef-lines' Set to non-nil to not show #if, #ifdef, #ifndef, #else, and #endif lines when hiding. `hide-ifdef-initially' Indicates whether `hide-ifdefs' should be called when Hide-Ifdef mode is activated. `hide-ifdef-read-only' Set to non-nil if you want to make buffers read only while hiding. After `show-ifdefs', read-only status is restored to previous value. \\{hide-ifdef-mode-map} \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hideif" '("hif-" "hide-ifdef" "show-ifdef" "previous-ifdef" "next-ifdef" "up-ifdef" "down-ifdef" "backward-ifdef" "forward-ifdef" "intern-safe"))) ;;;*** ;;;### (autoloads nil "hideshow" "progmodes/hideshow.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/hideshow.el (defvar hs-special-modes-alist (mapcar 'purecopy '((c-mode "{" "}" "/[*/]" nil nil) (c++-mode "{" "}" "/[*/]" nil nil) (bibtex-mode ("@\\S(*\\(\\s(\\)" 1)) (java-mode "{" "}" "/[*/]" nil nil) (js-mode "{" "}" "/[*/]" nil))) "\ Alist for initializing the hideshow variables for different modes. Each element has the form (MODE START END COMMENT-START FORWARD-SEXP-FUNC ADJUST-BEG-FUNC). If non-nil, hideshow will use these values as regexps to define blocks and comments, respectively for major mode MODE. START, END and COMMENT-START are regular expressions. A block is defined as text surrounded by START and END. As a special case, START may be a list of the form (COMPLEX-START MDATA-SELECTOR), where COMPLEX-START is a regexp w/ multiple parts and MDATA-SELECTOR an integer that specifies which sub-match is the proper place to adjust point, before calling `hs-forward-sexp-func'. Point is adjusted to the beginning of the specified match. For example, see the `hs-special-modes-alist' entry for `bibtex-mode'. For some major modes, `forward-sexp' does not work properly. In those cases, FORWARD-SEXP-FUNC specifies another function to use instead. See the documentation for `hs-adjust-block-beginning' to see what is the use of ADJUST-BEG-FUNC. If any of the elements is left nil or omitted, hideshow tries to guess appropriate values. The regexps should not contain leading or trailing whitespace. Case does not matter.") (autoload 'hs-minor-mode "hideshow" "\ Minor mode to selectively hide/show code and comment blocks. With a prefix argument ARG, enable the mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. When hideshow minor mode is on, the menu bar is augmented with hideshow commands and the hideshow commands are enabled. The value (hs . t) is added to `buffer-invisibility-spec'. The main commands are: `hs-hide-all', `hs-show-all', `hs-hide-block', `hs-show-block', `hs-hide-level' and `hs-toggle-hiding'. There is also `hs-hide-initial-comment-block' and `hs-mouse-toggle-hiding'. Turning hideshow minor mode off reverts the menu bar and the variables to default values and disables the hideshow commands. Lastly, the normal hook `hs-minor-mode-hook' is run using `run-hooks'. Key bindings: \\{hs-minor-mode-map} \(fn &optional ARG)" t nil) (autoload 'turn-off-hideshow "hideshow" "\ Unconditionally turn off `hs-minor-mode'. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hideshow" '("hs-"))) ;;;*** ;;;### (autoloads nil "hilit-chg" "hilit-chg.el" (0 0 0 0)) ;;; Generated autoloads from hilit-chg.el (autoload 'highlight-changes-mode "hilit-chg" "\ Toggle highlighting changes in this buffer (Highlight Changes mode). With a prefix argument ARG, enable Highlight Changes mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. When Highlight Changes is enabled, changes are marked with a text property. Normally they are displayed in a distinctive face, but command \\[highlight-changes-visible-mode] can be used to toggle this on and off. Other functions for buffers in this mode include: \\[highlight-changes-next-change] - move point to beginning of next change \\[highlight-changes-previous-change] - move to beginning of previous change \\[highlight-changes-remove-highlight] - remove the change face from the region \\[highlight-changes-rotate-faces] - rotate different \"ages\" of changes through various faces. \\[highlight-compare-with-file] - mark text as changed by comparing this buffer with the contents of a file \\[highlight-compare-buffers] highlights differences between two buffers. \(fn &optional ARG)" t nil) (autoload 'highlight-changes-visible-mode "hilit-chg" "\ Toggle visibility of highlighting due to Highlight Changes mode. With a prefix argument ARG, enable Highlight Changes Visible mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Highlight Changes Visible mode only has an effect when Highlight Changes mode is on. When enabled, the changed text is displayed in a distinctive face. The default value can be customized with variable `highlight-changes-visibility-initial-state'. This command does not itself set Highlight Changes mode. \(fn &optional ARG)" t nil) (autoload 'highlight-changes-remove-highlight "hilit-chg" "\ Remove the change face from the region between BEG and END. This allows you to manually remove highlighting from uninteresting changes. \(fn BEG END)" t nil) (autoload 'highlight-changes-next-change "hilit-chg" "\ Move to the beginning of the next change, if in Highlight Changes mode. \(fn)" t nil) (autoload 'highlight-changes-previous-change "hilit-chg" "\ Move to the beginning of the previous change, if in Highlight Changes mode. \(fn)" t nil) (autoload 'highlight-changes-rotate-faces "hilit-chg" "\ Rotate the faces if in Highlight Changes mode and the changes are visible. Current changes are displayed in the face described by the first element of `highlight-changes-face-list', one level older changes are shown in face described by the second element, and so on. Very old changes remain shown in the last face in the list. You can automatically rotate colors when the buffer is saved by adding this function to `write-file-functions' as a buffer-local value. To do this, eval the following in the buffer to be saved: (add-hook \\='write-file-functions \\='highlight-changes-rotate-faces nil t) \(fn)" t nil) (autoload 'highlight-compare-buffers "hilit-chg" "\ Compare two buffers and highlight the differences. The default is the current buffer and the one in the next window. If either buffer is modified and is visiting a file, you are prompted to save the file. Unless the buffer is unmodified and visiting a file, the buffer is written to a temporary file for comparison. If a buffer is read-only, differences will be highlighted but no property changes are made, so \\[highlight-changes-next-change] and \\[highlight-changes-previous-change] will not work. \(fn BUF-A BUF-B)" t nil) (autoload 'highlight-compare-with-file "hilit-chg" "\ Compare this buffer with a file, and highlight differences. If the buffer has a backup filename, it is used as the default when this function is called interactively. If the current buffer is visiting the file being compared against, it also will have its differences highlighted. Otherwise, the file is read in temporarily but the buffer is deleted. If the buffer is read-only, differences will be highlighted but no property changes are made, so \\[highlight-changes-next-change] and \\[highlight-changes-previous-change] will not work. \(fn FILE-B)" t nil) (defvar global-highlight-changes-mode nil "\ Non-nil if Global Highlight-Changes mode is enabled. See the `global-highlight-changes-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `global-highlight-changes-mode'.") (custom-autoload 'global-highlight-changes-mode "hilit-chg" nil) (autoload 'global-highlight-changes-mode "hilit-chg" "\ Toggle Highlight-Changes mode in all buffers. With prefix ARG, enable Global Highlight-Changes mode if ARG is positive; otherwise, disable it. If called from Lisp, enable the mode if ARG is omitted or nil. Highlight-Changes mode is enabled in all buffers where `highlight-changes-mode-turn-on' would do it. See `highlight-changes-mode' for more information on Highlight-Changes mode. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hilit-chg" '("highlight-" "hilit-chg-" "global-highlight-changes"))) ;;;*** ;;;### (autoloads nil "hippie-exp" "hippie-exp.el" (0 0 0 0)) ;;; Generated autoloads from hippie-exp.el (push (purecopy '(hippie-exp 1 6)) package--builtin-versions) (defvar hippie-expand-try-functions-list '(try-complete-file-name-partially try-complete-file-name try-expand-all-abbrevs try-expand-list try-expand-line try-expand-dabbrev try-expand-dabbrev-all-buffers try-expand-dabbrev-from-kill try-complete-lisp-symbol-partially try-complete-lisp-symbol) "\ The list of expansion functions tried in order by `hippie-expand'. To change the behavior of `hippie-expand', remove, change the order of, or insert functions in this list.") (custom-autoload 'hippie-expand-try-functions-list "hippie-exp" t) (autoload 'hippie-expand "hippie-exp" "\ Try to expand text before point, using multiple methods. The expansion functions in `hippie-expand-try-functions-list' are tried in order, until a possible expansion is found. Repeated application of `hippie-expand' inserts successively possible expansions. With a positive numeric argument, jumps directly to the ARG next function in this list. With a negative argument or just \\[universal-argument], undoes the expansion. \(fn ARG)" t nil) (autoload 'make-hippie-expand-function "hippie-exp" "\ Construct a function similar to `hippie-expand'. Make it use the expansion functions in TRY-LIST. An optional second argument VERBOSE non-nil makes the function verbose. \(fn TRY-LIST &optional VERBOSE)" nil t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hippie-exp" '("hippie-expand-" "he-" "try-"))) ;;;*** ;;;### (autoloads nil "hl-line" "hl-line.el" (0 0 0 0)) ;;; Generated autoloads from hl-line.el (autoload 'hl-line-mode "hl-line" "\ Toggle highlighting of the current line (Hl-Line mode). With a prefix argument ARG, enable Hl-Line mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Hl-Line mode is a buffer-local minor mode. If `hl-line-sticky-flag' is non-nil, Hl-Line mode highlights the line about the buffer's point in all windows. Caveat: the buffer's point might be different from the point of a non-selected window. Hl-Line mode uses the function `hl-line-highlight' on `post-command-hook' in this case. When `hl-line-sticky-flag' is nil, Hl-Line mode highlights the line about point in the selected window only. In this case, it uses the function `hl-line-maybe-unhighlight' in addition to `hl-line-highlight' on `post-command-hook'. \(fn &optional ARG)" t nil) (defvar global-hl-line-mode nil "\ Non-nil if Global Hl-Line mode is enabled. See the `global-hl-line-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `global-hl-line-mode'.") (custom-autoload 'global-hl-line-mode "hl-line" nil) (autoload 'global-hl-line-mode "hl-line" "\ Toggle line highlighting in all buffers (Global Hl-Line mode). With a prefix argument ARG, enable Global Hl-Line mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. If `global-hl-line-sticky-flag' is non-nil, Global Hl-Line mode highlights the line about the current buffer's point in all live windows. Global-Hl-Line mode uses the functions `global-hl-line-highlight' and `global-hl-line-maybe-unhighlight' on `post-command-hook'. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hl-line" '("hl-line-" "global-hl-line-"))) ;;;*** ;;;### (autoloads nil "hmac-def" "net/hmac-def.el" (0 0 0 0)) ;;; Generated autoloads from net/hmac-def.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hmac-def" '("define-hmac-function"))) ;;;*** ;;;### (autoloads nil "hmac-md5" "net/hmac-md5.el" (0 0 0 0)) ;;; Generated autoloads from net/hmac-md5.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "hmac-md5" '("hmac-md5" "md5-binary"))) ;;;*** ;;;### (autoloads nil "holidays" "calendar/holidays.el" (0 0 0 0)) ;;; Generated autoloads from calendar/holidays.el (defvar holiday-general-holidays (mapcar 'purecopy '((holiday-fixed 1 1 "New Year's Day") (holiday-float 1 1 3 "Martin Luther King Day") (holiday-fixed 2 2 "Groundhog Day") (holiday-fixed 2 14 "Valentine's Day") (holiday-float 2 1 3 "President's Day") (holiday-fixed 3 17 "St. Patrick's Day") (holiday-fixed 4 1 "April Fools' Day") (holiday-float 5 0 2 "Mother's Day") (holiday-float 5 1 -1 "Memorial Day") (holiday-fixed 6 14 "Flag Day") (holiday-float 6 0 3 "Father's Day") (holiday-fixed 7 4 "Independence Day") (holiday-float 9 1 1 "Labor Day") (holiday-float 10 1 2 "Columbus Day") (holiday-fixed 10 31 "Halloween") (holiday-fixed 11 11 "Veteran's Day") (holiday-float 11 4 4 "Thanksgiving"))) "\ General holidays. Default value is for the United States. See the documentation for `calendar-holidays' for details.") (custom-autoload 'holiday-general-holidays "holidays" t) (put 'holiday-general-holidays 'risky-local-variable t) (defvar holiday-oriental-holidays (mapcar 'purecopy '((holiday-chinese-new-year) (if calendar-chinese-all-holidays-flag (append (holiday-chinese 1 15 "Lantern Festival") (holiday-chinese-qingming) (holiday-chinese 5 5 "Dragon Boat Festival") (holiday-chinese 7 7 "Double Seventh Festival") (holiday-chinese 8 15 "Mid-Autumn Festival") (holiday-chinese 9 9 "Double Ninth Festival") (holiday-chinese-winter-solstice))))) "\ Oriental holidays. See the documentation for `calendar-holidays' for details.") (custom-autoload 'holiday-oriental-holidays "holidays" t) (put 'holiday-oriental-holidays 'risky-local-variable t) (defvar holiday-local-holidays nil "\ Local holidays. See the documentation for `calendar-holidays' for details.") (custom-autoload 'holiday-local-holidays "holidays" t) (put 'holiday-local-holidays 'risky-local-variable t) (defvar holiday-other-holidays nil "\ User defined holidays. See the documentation for `calendar-holidays' for details.") (custom-autoload 'holiday-other-holidays "holidays" t) (put 'holiday-other-holidays 'risky-local-variable t) (defvar holiday-hebrew-holidays (mapcar 'purecopy '((holiday-hebrew-passover) (holiday-hebrew-rosh-hashanah) (holiday-hebrew-hanukkah) (if calendar-hebrew-all-holidays-flag (append (holiday-hebrew-tisha-b-av) (holiday-hebrew-misc))))) "\ Jewish holidays. See the documentation for `calendar-holidays' for details.") (custom-autoload 'holiday-hebrew-holidays "holidays" t) (put 'holiday-hebrew-holidays 'risky-local-variable t) (defvar holiday-christian-holidays (mapcar 'purecopy '((holiday-easter-etc) (holiday-fixed 12 25 "Christmas") (if calendar-christian-all-holidays-flag (append (holiday-fixed 1 6 "Epiphany") (holiday-julian 12 25 "Christmas (Julian calendar)") (holiday-greek-orthodox-easter) (holiday-fixed 8 15 "Assumption") (holiday-advent 0 "Advent"))))) "\ Christian holidays. See the documentation for `calendar-holidays' for details.") (custom-autoload 'holiday-christian-holidays "holidays" t) (put 'holiday-christian-holidays 'risky-local-variable t) (defvar holiday-islamic-holidays (mapcar 'purecopy '((holiday-islamic-new-year) (holiday-islamic 9 1 "Ramadan Begins") (if calendar-islamic-all-holidays-flag (append (holiday-islamic 1 10 "Ashura") (holiday-islamic 3 12 "Mulad-al-Nabi") (holiday-islamic 7 26 "Shab-e-Mi'raj") (holiday-islamic 8 15 "Shab-e-Bara't") (holiday-islamic 9 27 "Shab-e Qadr") (holiday-islamic 10 1 "Id-al-Fitr") (holiday-islamic 12 10 "Id-al-Adha"))))) "\ Islamic holidays. See the documentation for `calendar-holidays' for details.") (custom-autoload 'holiday-islamic-holidays "holidays" t) (put 'holiday-islamic-holidays 'risky-local-variable t) (defvar holiday-bahai-holidays (mapcar 'purecopy '((holiday-bahai-new-year) (holiday-bahai-ridvan) (holiday-fixed 5 23 "Declaration of the Báb") (holiday-fixed 5 29 "Ascension of Bahá’u’lláh") (holiday-fixed 7 9 "Martyrdom of the Báb") (holiday-fixed 10 20 "Birth of the Báb") (holiday-fixed 11 12 "Birth of Bahá’u’lláh") (if calendar-bahai-all-holidays-flag (append (holiday-fixed 11 26 "Day of the Covenant") (holiday-fixed 11 28 "Ascension of `Abdu’l-Bahá"))))) "\ Bahá’í holidays. See the documentation for `calendar-holidays' for details.") (custom-autoload 'holiday-bahai-holidays "holidays" t) (put 'holiday-bahai-holidays 'risky-local-variable t) (defvar holiday-solar-holidays (mapcar 'purecopy '((solar-equinoxes-solstices) (holiday-sexp calendar-daylight-savings-starts (format "Daylight Saving Time Begins %s" (solar-time-string (/ calendar-daylight-savings-starts-time (float 60)) calendar-standard-time-zone-name))) (holiday-sexp calendar-daylight-savings-ends (format "Daylight Saving Time Ends %s" (solar-time-string (/ calendar-daylight-savings-ends-time (float 60)) calendar-daylight-time-zone-name))))) "\ Sun-related holidays. See the documentation for `calendar-holidays' for details.") (custom-autoload 'holiday-solar-holidays "holidays" t) (put 'holiday-solar-holidays 'risky-local-variable t) (put 'calendar-holidays 'risky-local-variable t) (autoload 'holidays "holidays" "\ Display the holidays for last month, this month, and next month. If called with an optional prefix argument ARG, prompts for month and year. This function is suitable for execution in a init file. \(fn &optional ARG)" t nil) (autoload 'list-holidays "holidays" "\ Display holidays for years Y1 to Y2 (inclusive). Y2 defaults to Y1. The optional list of holidays L defaults to `calendar-holidays'. If you want to control what holidays are displayed, use a different list. For example, (list-holidays 2006 2006 (append holiday-general-holidays holiday-local-holidays)) will display holidays for the year 2006 defined in the two mentioned lists, and nothing else. When called interactively, this command offers a choice of holidays, based on the variables `holiday-solar-holidays' etc. See the documentation of `calendar-holidays' for a list of the variables that control the choices, as well as a description of the format of a holiday list. The optional LABEL is used to label the buffer created. \(fn Y1 &optional Y2 L LABEL)" t nil) (defalias 'holiday-list 'list-holidays) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "holidays" '("holiday-" "calendar-"))) ;;;*** ;;;### (autoloads nil "htmlfontify" "htmlfontify.el" (0 0 0 0)) ;;; Generated autoloads from htmlfontify.el (push (purecopy '(htmlfontify 0 21)) package--builtin-versions) (autoload 'htmlfontify-buffer "htmlfontify" "\ Create a new buffer, named for the current buffer + a .html extension, containing an inline CSS-stylesheet and formatted CSS-markup HTML that reproduces the look of the current Emacs buffer as closely as possible. Dangerous characters in the existing buffer are turned into HTML entities, so you should even be able to do HTML-within-HTML fontified display. You should, however, note that random control or non-ASCII characters such as ^L (U+000C FORM FEED (FF)) or ¤ (U+00A4 CURRENCY SIGN) won't get mapped yet. If the SRCDIR and FILE arguments are set, lookup etags derived entries in the `hfy-tags-cache' and add HTML anchors and hyperlinks as appropriate. \(fn &optional SRCDIR FILE)" t nil) (autoload 'htmlfontify-copy-and-link-dir "htmlfontify" "\ Trawl SRCDIR and write fontified-and-hyperlinked output in DSTDIR. F-EXT and L-EXT specify values for `hfy-extn' and `hfy-link-extn'. You may also want to set `hfy-page-header' and `hfy-page-footer'. \(fn SRCDIR DSTDIR &optional F-EXT L-EXT)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "htmlfontify" '("hfy-" "htmlfontify-"))) ;;;*** ;;;### (autoloads "actual autoloads are elsewhere" "ibuf-ext" "ibuf-ext.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from ibuf-ext.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ibuf-ext" '("ibuffer-" "file" "shell-command-" "starred-name" "size" "alphabetic" "major-mode" "mod" "print" "process" "predicate" "content" "view-and-eval" "visiting-file" "derived-mode" "directory" "basename" "name" "used-mode" "query-replace" "rename-uniquely" "revert" "replace-regexp" "eval"))) ;;;*** ;;;### (autoloads nil "ibuf-macs" "ibuf-macs.el" (0 0 0 0)) ;;; Generated autoloads from ibuf-macs.el (autoload 'define-ibuffer-column "ibuf-macs" "\ Define a column SYMBOL for use with `ibuffer-formats'. BODY will be called with `buffer' bound to the buffer object, and `mark' bound to the current mark on the buffer. The original ibuffer buffer will be bound to `ibuffer-buf'. If NAME is given, it will be used as a title for the column. Otherwise, the title will default to a capitalized version of the SYMBOL's name. PROPS is a plist of additional properties to add to the text, such as `mouse-face'. And SUMMARIZER, if given, is a function which will be passed a list of all the strings in its column; it should return a string to display at the bottom. If HEADER-MOUSE-MAP is given, it will be used as a keymap for the title of the column. Note that this macro expands into a `defun' for a function named ibuffer-make-column-NAME. If INLINE is non-nil, then the form will be inlined into the compiled format versions. This means that if you change its definition, you should explicitly call `ibuffer-recompile-formats'. \(fn SYMBOL (&key NAME INLINE PROPS SUMMARIZER) &rest BODY)" nil t) (function-put 'define-ibuffer-column 'lisp-indent-function 'defun) (autoload 'define-ibuffer-sorter "ibuf-macs" "\ Define a method of sorting named NAME. DOCUMENTATION is the documentation of the function, which will be called `ibuffer-do-sort-by-NAME'. DESCRIPTION is a short string describing the sorting method. For sorting, the forms in BODY will be evaluated with `a' bound to one buffer object, and `b' bound to another. BODY should return a non-nil value if and only if `a' is \"less than\" `b'. \(fn NAME DOCUMENTATION (&key DESCRIPTION) &rest BODY)" nil t) (function-put 'define-ibuffer-sorter 'lisp-indent-function '1) (function-put 'define-ibuffer-sorter 'doc-string-elt '2) (autoload 'define-ibuffer-op "ibuf-macs" "\ Generate a function which operates on a buffer. OP becomes the name of the function; if it doesn't begin with `ibuffer-do-', then that is prepended to it. When an operation is performed, this function will be called once for each marked buffer, with that buffer current. ARGS becomes the formal parameters of the function. DOCUMENTATION becomes the docstring of the function. INTERACTIVE becomes the interactive specification of the function. MARK describes which type of mark (:deletion, or nil) this operation uses. :deletion means the function operates on buffers marked for deletion, otherwise it acts on normally marked buffers. MODIFIER-P describes how the function modifies buffers. This is used to set the modification flag of the Ibuffer buffer itself. Valid values are: nil - the function never modifiers buffers t - the function it always modifies buffers :maybe - attempt to discover this information by comparing the buffer's modification flag. DANGEROUS is a boolean which should be set if the user should be prompted before performing this operation. OPSTRING is a string which will be displayed to the user after the operation is complete, in the form: \"Operation complete; OPSTRING x buffers\" ACTIVE-OPSTRING is a string which will be displayed to the user in a confirmation message, in the form: \"Really ACTIVE-OPSTRING x buffers?\" BEFORE is a form to evaluate before start the operation. AFTER is a form to evaluate once the operation is complete. COMPLEX means this function is special; if COMPLEX is nil BODY evaluates once for each marked buffer, MBUF, with MBUF current and saving the point. If COMPLEX is non-nil, BODY evaluates without requiring MBUF current. BODY define the operation; they are forms to evaluate per each marked buffer. BODY is evaluated with `buf' bound to the buffer object. \(fn OP ARGS DOCUMENTATION (&key INTERACTIVE MARK MODIFIER-P DANGEROUS OPSTRING ACTIVE-OPSTRING BEFORE AFTER COMPLEX) &rest BODY)" nil t) (function-put 'define-ibuffer-op 'lisp-indent-function '2) (function-put 'define-ibuffer-op 'doc-string-elt '3) (autoload 'define-ibuffer-filter "ibuf-macs" "\ Define a filter named NAME. DOCUMENTATION is the documentation of the function. READER is a form which should read a qualifier from the user. DESCRIPTION is a short string describing the filter. BODY should contain forms which will be evaluated to test whether or not a particular buffer should be displayed or not. The forms in BODY will be evaluated with BUF bound to the buffer object, and QUALIFIER bound to the current value of the filter. \(fn NAME DOCUMENTATION (&key READER DESCRIPTION) &rest BODY)" nil t) (function-put 'define-ibuffer-filter 'lisp-indent-function '2) (function-put 'define-ibuffer-filter 'doc-string-elt '2) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ibuf-macs" '("ibuffer-"))) ;;;*** ;;;### (autoloads nil "ibuffer" "ibuffer.el" (0 0 0 0)) ;;; Generated autoloads from ibuffer.el (autoload 'ibuffer-list-buffers "ibuffer" "\ Display a list of buffers, in another window. If optional argument FILES-ONLY is non-nil, then add a filter for buffers which are visiting a file. \(fn &optional FILES-ONLY)" t nil) (autoload 'ibuffer-other-window "ibuffer" "\ Like `ibuffer', but displayed in another window by default. If optional argument FILES-ONLY is non-nil, then add a filter for buffers which are visiting a file. \(fn &optional FILES-ONLY)" t nil) (autoload 'ibuffer "ibuffer" "\ Begin using Ibuffer to edit a list of buffers. Type `h' after entering ibuffer for more information. All arguments are optional. OTHER-WINDOW-P says to use another window. NAME specifies the name of the buffer (defaults to \"*Ibuffer*\"). QUALIFIERS is an initial set of filtering qualifiers to use; see `ibuffer-filtering-qualifiers'. NOSELECT means don't select the Ibuffer buffer. SHRINK means shrink the buffer to minimal size. The special value `onewindow' means always use another window. FILTER-GROUPS is an initial set of filtering groups to use; see `ibuffer-filter-groups'. FORMATS is the value to use for `ibuffer-formats'. If specified, then the variable `ibuffer-formats' will have that value locally in this buffer. \(fn &optional OTHER-WINDOW-P NAME QUALIFIERS NOSELECT SHRINK FILTER-GROUPS FORMATS)" t nil) (autoload 'ibuffer-jump "ibuffer" "\ Call Ibuffer and set point at the line listing the current buffer. If optional arg OTHER-WINDOW is non-nil, then use another window. \(fn &optional OTHER-WINDOW)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ibuffer" '("ibuffer-" "filename" "process" "mark" "mod" "size" "name" "locked" "read-only"))) ;;;*** ;;;### (autoloads nil "icalendar" "calendar/icalendar.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from calendar/icalendar.el (push (purecopy '(icalendar 0 19)) package--builtin-versions) (autoload 'icalendar-export-file "icalendar" "\ Export diary file to iCalendar format. All diary entries in the file DIARY-FILENAME are converted to iCalendar format. The result is appended to the file ICAL-FILENAME. \(fn DIARY-FILENAME ICAL-FILENAME)" t nil) (autoload 'icalendar-export-region "icalendar" "\ Export region in diary file to iCalendar format. All diary entries in the region from MIN to MAX in the current buffer are converted to iCalendar format. The result is appended to the file ICAL-FILENAME. This function attempts to return t if something goes wrong. In this case an error string which describes all the errors and problems is written into the buffer `*icalendar-errors*'. \(fn MIN MAX ICAL-FILENAME)" t nil) (autoload 'icalendar-import-file "icalendar" "\ Import an iCalendar file and append to a diary file. Argument ICAL-FILENAME output iCalendar file. Argument DIARY-FILENAME input `diary-file'. Optional argument NON-MARKING determines whether events are created as non-marking or not. \(fn ICAL-FILENAME DIARY-FILENAME &optional NON-MARKING)" t nil) (autoload 'icalendar-import-buffer "icalendar" "\ Extract iCalendar events from current buffer. This function searches the current buffer for the first iCalendar object, reads it and adds all VEVENT elements to the diary DIARY-FILE. It will ask for each appointment whether to add it to the diary unless DO-NOT-ASK is non-nil. When called interactively, DO-NOT-ASK is nil, so that you are asked for each event. NON-MARKING determines whether diary events are created as non-marking. Return code t means that importing worked well, return code nil means that an error has occurred. Error messages will be in the buffer `*icalendar-errors*'. \(fn &optional DIARY-FILE DO-NOT-ASK NON-MARKING)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "icalendar" '("icalendar-"))) ;;;*** ;;;### (autoloads nil "icomplete" "icomplete.el" (0 0 0 0)) ;;; Generated autoloads from icomplete.el (defvar icomplete-mode nil "\ Non-nil if Icomplete mode is enabled. See the `icomplete-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `icomplete-mode'.") (custom-autoload 'icomplete-mode "icomplete" nil) (autoload 'icomplete-mode "icomplete" "\ Toggle incremental minibuffer completion (Icomplete mode). With a prefix argument ARG, enable Icomplete mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. When this global minor mode is enabled, typing in the minibuffer continuously displays a list of possible completions that match the string you have typed. See `icomplete-completions' for a description of how prospective completions are displayed. For more information, see Info node `(emacs)Icomplete'. For options you can set, `\\[customize-group] icomplete'. You can use the following key bindings to navigate and select completions: \\{icomplete-minibuffer-map} \(fn &optional ARG)" t nil) (when (locate-library "obsolete/iswitchb") (autoload 'iswitchb-mode "iswitchb" "Toggle Iswitchb mode." t) (make-obsolete 'iswitchb-mode "use `icomplete-mode' or `ido-mode' instead." "24.4")) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "icomplete" '("icomplete-"))) ;;;*** ;;;### (autoloads nil "icon" "progmodes/icon.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/icon.el (autoload 'icon-mode "icon" "\ Major mode for editing Icon code. Expression and list commands understand all Icon brackets. Tab indents for Icon code. Paragraphs are separated by blank lines only. Delete converts tabs to spaces as it moves back. \\{icon-mode-map} Variables controlling indentation style: icon-tab-always-indent Non-nil means TAB in Icon mode should always reindent the current line, regardless of where in the line point is when the TAB command is used. icon-auto-newline Non-nil means automatically newline before and after braces inserted in Icon code. icon-indent-level Indentation of Icon statements within surrounding block. The surrounding block's indentation is the indentation of the line on which the open-brace appears. icon-continued-statement-offset Extra indentation given to a substatement, such as the then-clause of an if or body of a while. icon-continued-brace-offset Extra indentation given to a brace that starts a substatement. This is in addition to `icon-continued-statement-offset'. icon-brace-offset Extra indentation for line if it starts with an open brace. icon-brace-imaginary-offset An open brace following other text is treated as if it were this far to the right of the start of its line. Turning on Icon mode calls the value of the variable `icon-mode-hook' with no args, if that value is non-nil. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "icon" '("indent-icon-exp" "icon-" "electric-icon-brace" "end-of-icon-defun" "beginning-of-icon-defun" "mark-icon-function" "calculate-icon-indent"))) ;;;*** ;;;### (autoloads nil "idlw-complete-structtag" "progmodes/idlw-complete-structtag.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from progmodes/idlw-complete-structtag.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "idlw-complete-structtag" '("idlwave-"))) ;;;*** ;;;### (autoloads nil "idlw-help" "progmodes/idlw-help.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from progmodes/idlw-help.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "idlw-help" '("idlwave-"))) ;;;*** ;;;### (autoloads nil "idlw-shell" "progmodes/idlw-shell.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from progmodes/idlw-shell.el (autoload 'idlwave-shell "idlw-shell" "\ Run an inferior IDL, with I/O through buffer `(idlwave-shell-buffer)'. If buffer exists but shell process is not running, start new IDL. If buffer exists and shell process is running, just switch to the buffer. When called with a prefix ARG, or when `idlwave-shell-use-dedicated-frame' is non-nil, the shell buffer and the source buffers will be in separate frames. The command to run comes from variable `idlwave-shell-explicit-file-name', with options taken from `idlwave-shell-command-line-options'. The buffer is put in `idlwave-shell-mode', providing commands for sending input and controlling the IDL job. See help on `idlwave-shell-mode'. See also the variable `idlwave-shell-prompt-pattern'. \(Type \\[describe-mode] in the shell buffer for a list of commands.) \(fn &optional ARG QUICK)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "idlw-shell" '("idlwave-"))) ;;;*** ;;;### (autoloads nil "idlw-toolbar" "progmodes/idlw-toolbar.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from progmodes/idlw-toolbar.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "idlw-toolbar" '("idlwave-toolbar-"))) ;;;*** ;;;### (autoloads nil "idlwave" "progmodes/idlwave.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/idlwave.el (push (purecopy '(idlwave 6 1 22)) package--builtin-versions) (autoload 'idlwave-mode "idlwave" "\ Major mode for editing IDL source files (version 6.1_em22). The main features of this mode are 1. Indentation and Formatting -------------------------- Like other Emacs programming modes, C-j inserts a newline and indents. TAB is used for explicit indentation of the current line. To start a continuation line, use \\[idlwave-split-line]. This function can also be used in the middle of a line to split the line at that point. When used inside a long constant string, the string is split at that point with the `+' concatenation operator. Comments are indented as follows: `;;;' Indentation remains unchanged. `;;' Indent like the surrounding code `;' Indent to a minimum column. The indentation of comments starting in column 0 is never changed. Use \\[idlwave-fill-paragraph] to refill a paragraph inside a comment. The indentation of the second line of the paragraph relative to the first will be retained. Use \\[idlwave-auto-fill-mode] to toggle auto-fill mode for these comments. When the variable `idlwave-fill-comment-line-only' is nil, code can also be auto-filled and auto-indented. To convert pre-existing IDL code to your formatting style, mark the entire buffer with \\[mark-whole-buffer] and execute \\[idlwave-expand-region-abbrevs]. Then mark the entire buffer again followed by \\[indent-region] (`indent-region'). 2. Routine Info ------------ IDLWAVE displays information about the calling sequence and the accepted keyword parameters of a procedure or function with \\[idlwave-routine-info]. \\[idlwave-find-module] jumps to the source file of a module. These commands know about system routines, all routines in idlwave-mode buffers and (when the idlwave-shell is active) about all modules currently compiled under this shell. It also makes use of pre-compiled or custom-scanned user and library catalogs many popular libraries ship with by default. Use \\[idlwave-update-routine-info] to update this information, which is also used for completion (see item 4). 3. Online IDL Help --------------- \\[idlwave-context-help] displays the IDL documentation relevant for the system variable, keyword, or routines at point. A single key stroke gets you directly to the right place in the docs. See the manual to configure where and how the HTML help is displayed. 4. Completion ---------- \\[idlwave-complete] completes the names of procedures, functions class names, keyword parameters, system variables and tags, class tags, structure tags, filenames and much more. It is context sensitive and figures out what is expected at point. Lower case strings are completed in lower case, other strings in mixed or upper case. 5. Code Templates and Abbreviations -------------------------------- Many Abbreviations are predefined to expand to code fragments and templates. The abbreviations start generally with a `\\'. Some examples: \\pr PROCEDURE template \\fu FUNCTION template \\c CASE statement template \\sw SWITCH statement template \\f FOR loop template \\r REPEAT Loop template \\w WHILE loop template \\i IF statement template \\elif IF-ELSE statement template \\b BEGIN For a full list, use \\[idlwave-list-abbrevs]. Some templates also have direct keybindings - see the list of keybindings below. \\[idlwave-doc-header] inserts a documentation header at the beginning of the current program unit (pro, function or main). Change log entries can be added to the current program unit with \\[idlwave-doc-modification]. 6. Automatic Case Conversion ------------------------- The case of reserved words and some abbrevs is controlled by `idlwave-reserved-word-upcase' and `idlwave-abbrev-change-case'. 7. Automatic END completion ------------------------ If the variable `idlwave-expand-generic-end' is non-nil, each END typed will be converted to the specific version, like ENDIF, ENDFOR, etc. 8. Hooks ----- Loading idlwave.el runs `idlwave-load-hook'. Turning on `idlwave-mode' runs `idlwave-mode-hook'. 9. Documentation and Customization ------------------------------- Info documentation for this package is available. Use \\[idlwave-info] to display (complain to your sysadmin if that does not work). For Postscript, PDF, and HTML versions of the documentation, check IDLWAVE's homepage at URL `http://github.com/jdtsmith/idlwave'. IDLWAVE has customize support - see the group `idlwave'. 10.Keybindings ----------- Here is a list of all keybindings of this mode. If some of the key bindings below show with ??, use \\[describe-key] followed by the key sequence to see what the key sequence does. \\{idlwave-mode-map} \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "idlwave" '("idlwave-"))) ;;;*** ;;;### (autoloads nil "ido" "ido.el" (0 0 0 0)) ;;; Generated autoloads from ido.el (defvar ido-mode nil "\ Determines for which buffer/file Ido should be enabled. The following values are possible: - `buffer': Turn only on Ido buffer behavior (switching, killing, displaying...) - `file': Turn only on Ido file behavior (finding, writing, inserting...) - `both': Turn on Ido buffer and file behavior. - nil: Turn off any Ido switching. Setting this variable directly does not take effect; use either \\[customize] or the function `ido-mode'.") (custom-autoload 'ido-mode "ido" nil) (autoload 'ido-mode "ido" "\ Toggle Ido mode on or off. With ARG, turn Ido mode on if arg is positive, off otherwise. Turning on Ido mode will remap (via a minor-mode keymap) the default keybindings for the `find-file' and `switch-to-buffer' families of commands to the Ido versions of these functions. However, if ARG arg equals `files', remap only commands for files, or if it equals `buffers', remap only commands for buffer switching. This function also adds a hook to the minibuffer. \(fn &optional ARG)" t nil) (autoload 'ido-switch-buffer "ido" "\ Switch to another buffer. The buffer is displayed according to `ido-default-buffer-method' -- the default is to show it in the same window, unless it is already visible in another frame. As you type in a string, all of the buffers matching the string are displayed if substring-matching is used (default). Look at `ido-enable-prefix' and `ido-toggle-prefix'. When you have found the buffer you want, it can then be selected. As you type, most keys have their normal keybindings, except for the following: \\ RET Select the buffer at the front of the list of matches. If the list is empty, possibly prompt to create new buffer. \\[ido-select-text] Use the current input string verbatim. \\[ido-next-match] Put the first element at the end of the list. \\[ido-prev-match] Put the last element at the start of the list. \\[ido-complete] Complete a common suffix to the current string that matches all buffers. If there is only one match, select that buffer. If there is no common suffix, show a list of all matching buffers in a separate window. \\[ido-edit-input] Edit input string. \\[ido-fallback-command] Fallback to non-ido version of current command. \\[ido-toggle-regexp] Toggle regexp searching. \\[ido-toggle-prefix] Toggle between substring and prefix matching. \\[ido-toggle-case] Toggle case-sensitive searching of buffer names. \\[ido-completion-help] Show list of matching buffers in separate window. \\[ido-enter-find-file] Drop into `ido-find-file'. \\[ido-kill-buffer-at-head] Kill buffer at head of buffer list. \\[ido-toggle-ignore] Toggle ignoring buffers listed in `ido-ignore-buffers'. \(fn)" t nil) (autoload 'ido-switch-buffer-other-window "ido" "\ Switch to another buffer and show it in another window. The buffer name is selected interactively by typing a substring. For details of keybindings, see `ido-switch-buffer'. \(fn)" t nil) (autoload 'ido-display-buffer "ido" "\ Display a buffer in another window but don't select it. The buffer name is selected interactively by typing a substring. For details of keybindings, see `ido-switch-buffer'. \(fn)" t nil) (autoload 'ido-display-buffer-other-frame "ido" "\ Display a buffer preferably in another frame. The buffer name is selected interactively by typing a substring. For details of keybindings, see `ido-switch-buffer'. \(fn)" t nil) (autoload 'ido-kill-buffer "ido" "\ Kill a buffer. The buffer name is selected interactively by typing a substring. For details of keybindings, see `ido-switch-buffer'. \(fn)" t nil) (autoload 'ido-insert-buffer "ido" "\ Insert contents of a buffer in current buffer after point. The buffer name is selected interactively by typing a substring. For details of keybindings, see `ido-switch-buffer'. \(fn)" t nil) (autoload 'ido-switch-buffer-other-frame "ido" "\ Switch to another buffer and show it in another frame. The buffer name is selected interactively by typing a substring. For details of keybindings, see `ido-switch-buffer'. \(fn)" t nil) (autoload 'ido-find-file-in-dir "ido" "\ Switch to another file starting from DIR. \(fn DIR)" t nil) (autoload 'ido-find-file "ido" "\ Edit file with name obtained via minibuffer. The file is displayed according to `ido-default-file-method' -- the default is to show it in the same window, unless it is already visible in another frame. The file name is selected interactively by typing a substring. As you type in a string, all of the filenames matching the string are displayed if substring-matching is used (default). Look at `ido-enable-prefix' and `ido-toggle-prefix'. When you have found the filename you want, it can then be selected. As you type, most keys have their normal keybindings, except for the following: \\ RET Select the file at the front of the list of matches. If the list is empty, possibly prompt to create new file. \\[ido-select-text] Use the current input string verbatim. \\[ido-next-match] Put the first element at the end of the list. \\[ido-prev-match] Put the last element at the start of the list. \\[ido-complete] Complete a common suffix to the current string that matches all files. If there is only one match, select that file. If there is no common suffix, show a list of all matching files in a separate window. \\[ido-magic-delete-char] Open the specified directory in Dired mode. \\[ido-edit-input] Edit input string (including directory). \\[ido-prev-work-directory] Go to previous directory in work directory history. \\[ido-next-work-directory] Go to next directory in work directory history. \\[ido-merge-work-directories] Search for file in the work directory history. \\[ido-forget-work-directory] Remove current directory from the work directory history. \\[ido-prev-work-file] Cycle to previous file in work file history. \\[ido-next-work-file] Cycle to next file in work file history. \\[ido-wide-find-file-or-pop-dir] Prompt for a file and use find to locate it. \\[ido-wide-find-dir-or-delete-dir] Prompt for a directory and use find to locate it. \\[ido-make-directory] Prompt for a directory to create in current directory. \\[ido-fallback-command] Fallback to non-Ido version of current command. \\[ido-toggle-regexp] Toggle regexp searching. \\[ido-toggle-prefix] Toggle between substring and prefix matching. \\[ido-toggle-case] Toggle case-sensitive searching of file names. \\[ido-toggle-literal] Toggle literal reading of this file. \\[ido-completion-help] Show list of matching files in separate window. \\[ido-toggle-ignore] Toggle ignoring files listed in `ido-ignore-files'. \(fn)" t nil) (autoload 'ido-find-file-other-window "ido" "\ Switch to another file and show it in another window. The file name is selected interactively by typing a substring. For details of keybindings, see `ido-find-file'. \(fn)" t nil) (autoload 'ido-find-alternate-file "ido" "\ Switch to another file and show it in another window. The file name is selected interactively by typing a substring. For details of keybindings, see `ido-find-file'. \(fn)" t nil) (autoload 'ido-find-alternate-file-other-window "ido" "\ Find file as a replacement for the file in the next window. The file name is selected interactively by typing a substring. For details of keybindings, see `ido-find-file'. \(fn)" t nil) (autoload 'ido-find-file-read-only "ido" "\ Edit file read-only with name obtained via minibuffer. The file name is selected interactively by typing a substring. For details of keybindings, see `ido-find-file'. \(fn)" t nil) (autoload 'ido-find-file-read-only-other-window "ido" "\ Edit file read-only in other window with name obtained via minibuffer. The file name is selected interactively by typing a substring. For details of keybindings, see `ido-find-file'. \(fn)" t nil) (autoload 'ido-find-file-read-only-other-frame "ido" "\ Edit file read-only in other frame with name obtained via minibuffer. The file name is selected interactively by typing a substring. For details of keybindings, see `ido-find-file'. \(fn)" t nil) (autoload 'ido-display-file "ido" "\ Display a file in another window but don't select it. The file name is selected interactively by typing a substring. For details of keybindings, see `ido-find-file'. \(fn)" t nil) (autoload 'ido-find-file-other-frame "ido" "\ Switch to another file and show it in another frame. The file name is selected interactively by typing a substring. For details of keybindings, see `ido-find-file'. \(fn)" t nil) (autoload 'ido-write-file "ido" "\ Write current buffer to a file. The file name is selected interactively by typing a substring. For details of keybindings, see `ido-find-file'. \(fn)" t nil) (autoload 'ido-insert-file "ido" "\ Insert contents of file in current buffer. The file name is selected interactively by typing a substring. For details of keybindings, see `ido-find-file'. \(fn)" t nil) (autoload 'ido-dired "ido" "\ Call `dired' the Ido way. The directory is selected interactively by typing a substring. For details of keybindings, see `ido-find-file'. \(fn)" t nil) (autoload 'ido-dired-other-window "ido" "\ \"Edit\" a directory. Like `ido-dired' but selects in another window. The directory is selected interactively by typing a substring. For details of keybindings, see `ido-find-file'. \(fn)" t nil) (autoload 'ido-dired-other-frame "ido" "\ \"Edit\" a directory. Like `ido-dired' but makes a new frame. The directory is selected interactively by typing a substring. For details of keybindings, see `ido-find-file'. \(fn)" t nil) (autoload 'ido-read-buffer "ido" "\ Ido replacement for the built-in `read-buffer'. Return the name of a buffer selected. PROMPT is the prompt to give to the user. DEFAULT if given is the default buffer to be selected, which will go to the front of the list. If REQUIRE-MATCH is non-nil, an existing buffer must be selected. \(fn PROMPT &optional DEFAULT REQUIRE-MATCH PREDICATE)" nil nil) (autoload 'ido-read-file-name "ido" "\ Ido replacement for the built-in `read-file-name'. Read file name, prompting with PROMPT and completing in directory DIR. See `read-file-name' for additional parameters. \(fn PROMPT &optional DIR DEFAULT-FILENAME MUSTMATCH INITIAL PREDICATE)" nil nil) (autoload 'ido-read-directory-name "ido" "\ Ido replacement for the built-in `read-directory-name'. Read directory name, prompting with PROMPT and completing in directory DIR. See `read-directory-name' for additional parameters. \(fn PROMPT &optional DIR DEFAULT-DIRNAME MUSTMATCH INITIAL)" nil nil) (autoload 'ido-completing-read "ido" "\ Ido replacement for the built-in `completing-read'. Read a string in the minibuffer with Ido-style completion. PROMPT is a string to prompt with; normally it ends in a colon and a space. CHOICES is a list of strings which are the possible completions. PREDICATE and INHERIT-INPUT-METHOD are currently ignored; they are included to be compatible with `completing-read'. If REQUIRE-MATCH is non-nil, the user is not allowed to exit unless the input is (or completes to) an element of CHOICES or is null. If the input is null, `ido-completing-read' returns DEF, or an empty string if DEF is nil, regardless of the value of REQUIRE-MATCH. If INITIAL-INPUT is non-nil, insert it in the minibuffer initially, with point positioned at the end. HIST, if non-nil, specifies a history list. DEF, if non-nil, is the default value. \(fn PROMPT CHOICES &optional PREDICATE REQUIRE-MATCH INITIAL-INPUT HIST DEF INHERIT-INPUT-METHOD)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ido" '("ido-"))) ;;;*** ;;;### (autoloads nil "ielm" "ielm.el" (0 0 0 0)) ;;; Generated autoloads from ielm.el (autoload 'ielm "ielm" "\ Interactively evaluate Emacs Lisp expressions. Switches to the buffer `*ielm*', or creates it if it does not exist. See `inferior-emacs-lisp-mode' for details. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ielm" '("inferior-emacs-lisp-mode" "ielm-"))) ;;;*** ;;;### (autoloads nil "ietf-drums" "mail/ietf-drums.el" (0 0 0 0)) ;;; Generated autoloads from mail/ietf-drums.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ietf-drums" '("ietf-drums-"))) ;;;*** ;;;### (autoloads nil "iimage" "iimage.el" (0 0 0 0)) ;;; Generated autoloads from iimage.el (define-obsolete-function-alias 'turn-on-iimage-mode 'iimage-mode "24.1") (autoload 'iimage-mode "iimage" "\ Toggle Iimage mode on or off. With a prefix argument ARG, enable Iimage mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil, and toggle it if ARG is `toggle'. \\{iimage-mode-map} \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "iimage" '("iimage-" "turn-off-iimage-mode"))) ;;;*** ;;;### (autoloads nil "image" "image.el" (0 0 0 0)) ;;; Generated autoloads from image.el (autoload 'image-type-from-data "image" "\ Determine the image type from image data DATA. Value is a symbol specifying the image type or nil if type cannot be determined. \(fn DATA)" nil nil) (autoload 'image-type-from-buffer "image" "\ Determine the image type from data in the current buffer. Value is a symbol specifying the image type or nil if type cannot be determined. \(fn)" nil nil) (autoload 'image-type-from-file-header "image" "\ Determine the type of image file FILE from its first few bytes. Value is a symbol specifying the image type, or nil if type cannot be determined. \(fn FILE)" nil nil) (autoload 'image-type-from-file-name "image" "\ Determine the type of image file FILE from its name. Value is a symbol specifying the image type, or nil if type cannot be determined. \(fn FILE)" nil nil) (autoload 'image-type "image" "\ Determine and return image type. SOURCE is an image file name or image data. Optional TYPE is a symbol describing the image type. If TYPE is omitted or nil, try to determine the image type from its first few bytes of image data. If that doesn't work, and SOURCE is a file name, use its file extension as image type. Optional DATA-P non-nil means SOURCE is a string containing image data. \(fn SOURCE &optional TYPE DATA-P)" nil nil) (autoload 'image-type-available-p "image" "\ Return non-nil if image type TYPE is available. Image types are symbols like `xbm' or `jpeg'. \(fn TYPE)" nil nil) (autoload 'image-type-auto-detected-p "image" "\ Return t if the current buffer contains an auto-detectable image. This function is intended to be used from `magic-fallback-mode-alist'. The buffer is considered to contain an auto-detectable image if its beginning matches an image type in `image-type-header-regexps', and that image type is present in `image-type-auto-detectable' with a non-nil value. If that value is non-nil, but not t, then the image type must be available. \(fn)" nil nil) (autoload 'create-image "image" "\ Create an image. FILE-OR-DATA is an image file name or image data. Optional TYPE is a symbol describing the image type. If TYPE is omitted or nil, try to determine the image type from its first few bytes of image data. If that doesn't work, and FILE-OR-DATA is a file name, use its file extension as image type. Optional DATA-P non-nil means FILE-OR-DATA is a string containing image data. Optional PROPS are additional image attributes to assign to the image, like, e.g. `:mask MASK'. Value is the image created, or nil if images of type TYPE are not supported. Images should not be larger than specified by `max-image-size'. Image file names that are not absolute are searched for in the \"images\" sub-directory of `data-directory' and `x-bitmap-file-path' (in that order). \(fn FILE-OR-DATA &optional TYPE DATA-P &rest PROPS)" nil nil) (autoload 'put-image "image" "\ Put image IMAGE in front of POS in the current buffer. IMAGE must be an image created with `create-image' or `defimage'. IMAGE is displayed by putting an overlay into the current buffer with a `before-string' STRING that has a `display' property whose value is the image. STRING is defaulted if you omit it. The overlay created will have the `put-image' property set to t. POS may be an integer or marker. AREA is where to display the image. AREA nil or omitted means display it in the text area, a value of `left-margin' means display it in the left marginal area, a value of `right-margin' means display it in the right marginal area. \(fn IMAGE POS &optional STRING AREA)" nil nil) (autoload 'insert-image "image" "\ Insert IMAGE into current buffer at point. IMAGE is displayed by inserting STRING into the current buffer with a `display' property whose value is the image. STRING defaults to a single space if you omit it. AREA is where to display the image. AREA nil or omitted means display it in the text area, a value of `left-margin' means display it in the left marginal area, a value of `right-margin' means display it in the right marginal area. SLICE specifies slice of IMAGE to insert. SLICE nil or omitted means insert whole image. SLICE is a list (X Y WIDTH HEIGHT) specifying the X and Y positions and WIDTH and HEIGHT of image area to insert. A float value 0.0 - 1.0 means relative to the width or height of the image; integer values are taken as pixel values. \(fn IMAGE &optional STRING AREA SLICE)" nil nil) (autoload 'insert-sliced-image "image" "\ Insert IMAGE into current buffer at point. IMAGE is displayed by inserting STRING into the current buffer with a `display' property whose value is the image. The default STRING is a single space. AREA is where to display the image. AREA nil or omitted means display it in the text area, a value of `left-margin' means display it in the left marginal area, a value of `right-margin' means display it in the right marginal area. The image is automatically split into ROWS x COLS slices. \(fn IMAGE &optional STRING AREA ROWS COLS)" nil nil) (autoload 'remove-images "image" "\ Remove images between START and END in BUFFER. Remove only images that were put in BUFFER with calls to `put-image'. BUFFER nil or omitted means use the current buffer. \(fn START END &optional BUFFER)" nil nil) (autoload 'find-image "image" "\ Find an image, choosing one of a list of image specifications. SPECS is a list of image specifications. Each image specification in SPECS is a property list. The contents of a specification are image type dependent. All specifications must at least contain the properties `:type TYPE' and either `:file FILE' or `:data DATA', where TYPE is a symbol specifying the image type, e.g. `xbm', FILE is the file to load the image from, and DATA is a string containing the actual image data. The specification whose TYPE is supported, and FILE exists, is used to construct the image specification to be returned. Return nil if no specification is satisfied. The image is looked for in `image-load-path'. Image files should not be larger than specified by `max-image-size'. \(fn SPECS)" nil nil) (autoload 'defimage "image" "\ Define SYMBOL as an image, and return SYMBOL. SPECS is a list of image specifications. DOC is an optional documentation string. Each image specification in SPECS is a property list. The contents of a specification are image type dependent. All specifications must at least contain the properties `:type TYPE' and either `:file FILE' or `:data DATA', where TYPE is a symbol specifying the image type, e.g. `xbm', FILE is the file to load the image from, and DATA is a string containing the actual image data. The first image specification whose TYPE is supported, and FILE exists, is used to define SYMBOL. Example: (defimage test-image ((:type xpm :file \"~/test1.xpm\") (:type xbm :file \"~/test1.xbm\"))) \(fn SYMBOL SPECS &optional DOC)" nil t) (function-put 'defimage 'doc-string-elt '3) (autoload 'imagemagick-register-types "image" "\ Register file types that can be handled by ImageMagick. This function is called at startup, after loading the init file. It registers the ImageMagick types returned by `imagemagick-filter-types'. Registered image types are added to `auto-mode-alist', so that Emacs visits them in Image mode. They are also added to `image-type-file-name-regexps', so that the `image-type' function recognizes these files as having image type `imagemagick'. If Emacs is compiled without ImageMagick support, this does nothing. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "image" '("image"))) ;;;*** ;;;### (autoloads nil "image-dired" "image-dired.el" (0 0 0 0)) ;;; Generated autoloads from image-dired.el (push (purecopy '(image-dired 0 4 11)) package--builtin-versions) (autoload 'image-dired-dired-toggle-marked-thumbs "image-dired" "\ Toggle thumbnails in front of file names in the dired buffer. If no marked file could be found, insert or hide thumbnails on the current line. ARG, if non-nil, specifies the files to use instead of the marked files. If ARG is an integer, use the next ARG (or previous -ARG, if ARG<0) files. \(fn &optional ARG)" t nil) (autoload 'image-dired-dired-with-window-configuration "image-dired" "\ Open directory DIR and create a default window configuration. Convenience command that: - Opens dired in folder DIR - Splits windows in most useful (?) way - Set `truncate-lines' to t After the command has finished, you would typically mark some image files in dired and type \\[image-dired-display-thumbs] (`image-dired-display-thumbs'). If called with prefix argument ARG, skip splitting of windows. The current window configuration is saved and can be restored by calling `image-dired-restore-window-configuration'. \(fn DIR &optional ARG)" t nil) (autoload 'image-dired-display-thumbs "image-dired" "\ Display thumbnails of all marked files, in `image-dired-thumbnail-buffer'. If a thumbnail image does not exist for a file, it is created on the fly. With prefix argument ARG, display only thumbnail for file at point (this is useful if you have marked some files but want to show another one). Recommended usage is to split the current frame horizontally so that you have the dired buffer in the left window and the `image-dired-thumbnail-buffer' buffer in the right window. With optional argument APPEND, append thumbnail to thumbnail buffer instead of erasing it first. Optional argument DO-NOT-POP controls if `pop-to-buffer' should be used or not. If non-nil, use `display-buffer' instead of `pop-to-buffer'. This is used from functions like `image-dired-next-line-and-display' and `image-dired-previous-line-and-display' where we do not want the thumbnail buffer to be selected. \(fn &optional ARG APPEND DO-NOT-POP)" t nil) (autoload 'image-dired-show-all-from-dir "image-dired" "\ Make a preview buffer for all images in DIR and display it. If the number of files in DIR matching `image-file-name-regexp' exceeds `image-dired-show-all-from-dir-max-files', a warning will be displayed. \(fn DIR)" t nil) (defalias 'image-dired 'image-dired-show-all-from-dir) (define-obsolete-function-alias 'tumme 'image-dired "24.4") (autoload 'image-dired-tag-files "image-dired" "\ Tag marked file(s) in dired. With prefix ARG, tag file at point. \(fn ARG)" t nil) (autoload 'image-dired-delete-tag "image-dired" "\ Remove tag for selected file(s). With prefix argument ARG, remove tag from file at point. \(fn ARG)" t nil) (autoload 'image-dired-jump-thumbnail-buffer "image-dired" "\ Jump to thumbnail buffer. \(fn)" t nil) (autoload 'image-dired-minor-mode "image-dired" "\ Setup easy-to-use keybindings for the commands to be used in dired mode. Note that n, p and and will be hijacked and bound to `image-dired-dired-x-line'. \(fn &optional ARG)" t nil) (define-obsolete-function-alias 'image-dired-setup-dired-keybindings 'image-dired-minor-mode "26.1") (autoload 'image-dired-display-thumbs-append "image-dired" "\ Append thumbnails to `image-dired-thumbnail-buffer'. \(fn)" t nil) (autoload 'image-dired-display-thumb "image-dired" "\ Shorthand for `image-dired-display-thumbs' with prefix argument. \(fn)" t nil) (autoload 'image-dired-dired-display-external "image-dired" "\ Display file at point using an external viewer. \(fn)" t nil) (autoload 'image-dired-dired-display-image "image-dired" "\ Display current image file. See documentation for `image-dired-display-image' for more information. With prefix argument ARG, display image in its original size. \(fn &optional ARG)" t nil) (autoload 'image-dired-dired-comment-files "image-dired" "\ Add comment to current or marked files in dired. \(fn)" t nil) (autoload 'image-dired-mark-tagged-files "image-dired" "\ Use regexp to mark files with matching tag. A `tag' is a keyword, a piece of meta data, associated with an image file and stored in image-dired's database file. This command lets you input a regexp and this will be matched against all tags on all image files in the database file. The files that have a matching tag will be marked in the dired buffer. \(fn)" t nil) (autoload 'image-dired-dired-edit-comment-and-tags "image-dired" "\ Edit comment and tags of current or marked image files. Edit comment and tags for all marked image files in an easy-to-use form. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "image-dired" '("image-dired-"))) ;;;*** ;;;### (autoloads nil "image-file" "image-file.el" (0 0 0 0)) ;;; Generated autoloads from image-file.el (defvar image-file-name-extensions (purecopy '("png" "jpeg" "jpg" "gif" "tiff" "tif" "xbm" "xpm" "pbm" "pgm" "ppm" "pnm" "svg")) "\ A list of image-file filename extensions. Filenames having one of these extensions are considered image files, in addition to those matching `image-file-name-regexps'. See `auto-image-file-mode'; if `auto-image-file-mode' is enabled, setting this variable directly does not take effect unless `auto-image-file-mode' is re-enabled; this happens automatically when the variable is set using \\[customize].") (custom-autoload 'image-file-name-extensions "image-file" nil) (defvar image-file-name-regexps nil "\ List of regexps matching image-file filenames. Filenames matching one of these regexps are considered image files, in addition to those with an extension in `image-file-name-extensions'. See function `auto-image-file-mode'; if `auto-image-file-mode' is enabled, setting this variable directly does not take effect unless `auto-image-file-mode' is re-enabled; this happens automatically when the variable is set using \\[customize].") (custom-autoload 'image-file-name-regexps "image-file" nil) (autoload 'image-file-name-regexp "image-file" "\ Return a regular expression matching image-file filenames. \(fn)" nil nil) (autoload 'insert-image-file "image-file" "\ Insert the image file FILE into the current buffer. Optional arguments VISIT, BEG, END, and REPLACE are interpreted as for the command `insert-file-contents'. \(fn FILE &optional VISIT BEG END REPLACE)" nil nil) (defvar auto-image-file-mode nil "\ Non-nil if Auto-Image-File mode is enabled. See the `auto-image-file-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `auto-image-file-mode'.") (custom-autoload 'auto-image-file-mode "image-file" nil) (autoload 'auto-image-file-mode "image-file" "\ Toggle visiting of image files as images (Auto Image File mode). With a prefix argument ARG, enable Auto Image File mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. An image file is one whose name has an extension in `image-file-name-extensions', or matches a regexp in `image-file-name-regexps'. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "image-file" '("image-file-"))) ;;;*** ;;;### (autoloads nil "image-mode" "image-mode.el" (0 0 0 0)) ;;; Generated autoloads from image-mode.el (autoload 'image-mode "image-mode" "\ Major mode for image files. You can use \\\\[image-toggle-display] or \\\\[image-toggle-hex-display] to toggle between display as an image and display as text or hex. Key bindings: \\{image-mode-map} \(fn)" t nil) (autoload 'image-minor-mode "image-mode" "\ Toggle Image minor mode in this buffer. With a prefix argument ARG, enable Image minor mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Image minor mode provides the key \\\\[image-toggle-display], to switch back to `image-mode' and display an image file as the actual image. \(fn &optional ARG)" t nil) (autoload 'image-mode-to-text "image-mode" "\ Set a non-image mode as major mode in combination with image minor mode. A non-mage major mode found from `auto-mode-alist' or fundamental mode displays an image file as text. \(fn)" nil nil) (autoload 'image-bookmark-jump "image-mode" "\ \(fn BMK)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "image-mode" '("image-"))) ;;;*** ;;;### (autoloads nil "imap" "net/imap.el" (0 0 0 0)) ;;; Generated autoloads from net/imap.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "imap" '("imap-"))) ;;;*** ;;;### (autoloads nil "imenu" "imenu.el" (0 0 0 0)) ;;; Generated autoloads from imenu.el (defvar imenu-sort-function nil "\ The function to use for sorting the index mouse-menu. Affects only the mouse index menu. Set this to nil if you don't want any sorting (faster). The items in the menu are then presented in the order they were found in the buffer. Set it to `imenu--sort-by-name' if you want alphabetic sorting. The function should take two arguments and return t if the first element should come before the second. The arguments are cons cells; \(NAME . POSITION). Look at `imenu--sort-by-name' for an example.") (custom-autoload 'imenu-sort-function "imenu" t) (defvar imenu-generic-expression nil "\ List of definition matchers for creating an Imenu index. Each element of this list should have the form (MENU-TITLE REGEXP INDEX [FUNCTION] [ARGUMENTS...]) MENU-TITLE should be nil (in which case the matches for this element are put in the top level of the buffer index) or a string (which specifies the title of a submenu into which the matches are put). REGEXP is a regular expression matching a definition construct which is to be displayed in the menu. REGEXP may also be a function, called without arguments. It is expected to search backwards. It must return true and set `match-data' if it finds another element. INDEX is an integer specifying which subexpression of REGEXP matches the definition's name; this subexpression is displayed as the menu item. FUNCTION, if present, specifies a function to call when the index item is selected by the user. This function is called with arguments consisting of the item name, the buffer position, and the ARGUMENTS. The variable `imenu-case-fold-search' determines whether or not the regexp matches are case sensitive, and `imenu-syntax-alist' can be used to alter the syntax table for the search. If non-nil this pattern is passed to `imenu--generic-function' to create a buffer index. For example, see the value of `fortran-imenu-generic-expression' used by `fortran-mode' with `imenu-syntax-alist' set locally to give the characters which normally have \"symbol\" syntax \"word\" syntax during matching.") (put 'imenu-generic-expression 'risky-local-variable t) (make-variable-buffer-local 'imenu-generic-expression) (defvar imenu-create-index-function 'imenu-default-create-index-function "\ The function to use for creating an index alist of the current buffer. It should be a function that takes no arguments and returns an index alist of the current buffer. The function is called within a `save-excursion'. See `imenu--index-alist' for the format of the buffer index alist.") (make-variable-buffer-local 'imenu-create-index-function) (defvar imenu-prev-index-position-function 'beginning-of-defun "\ Function for finding the next index position. If `imenu-create-index-function' is set to `imenu-default-create-index-function', then you must set this variable to a function that will find the next index, looking backwards in the file. The function should leave point at the place to be connected to the index and it should return nil when it doesn't find another index.") (make-variable-buffer-local 'imenu-prev-index-position-function) (defvar imenu-extract-index-name-function nil "\ Function for extracting the index item name, given a position. This function is called after `imenu-prev-index-position-function' finds a position for an index item, with point at that position. It should return the name for that index item.") (make-variable-buffer-local 'imenu-extract-index-name-function) (defvar imenu-name-lookup-function nil "\ Function to compare string with index item. This function will be called with two strings, and should return non-nil if they match. If nil, comparison is done with `string='. Set this to some other function for more advanced comparisons, such as \"begins with\" or \"name matches and number of arguments match\".") (make-variable-buffer-local 'imenu-name-lookup-function) (defvar imenu-default-goto-function 'imenu-default-goto-function "\ The default function called when selecting an Imenu item. The function in this variable is called when selecting a normal index-item.") (make-variable-buffer-local 'imenu-default-goto-function) (put 'imenu--index-alist 'risky-local-variable t) (make-variable-buffer-local 'imenu-syntax-alist) (make-variable-buffer-local 'imenu-case-fold-search) (autoload 'imenu-add-to-menubar "imenu" "\ Add an `imenu' entry to the menu bar for the current buffer. NAME is a string used to name the menu bar item. See the command `imenu' for more information. \(fn NAME)" t nil) (autoload 'imenu-add-menubar-index "imenu" "\ Add an Imenu \"Index\" entry on the menu bar for the current buffer. A trivial interface to `imenu-add-to-menubar' suitable for use in a hook. \(fn)" t nil) (autoload 'imenu "imenu" "\ Jump to a place in the buffer chosen using a buffer menu or mouse menu. INDEX-ITEM specifies the position. See `imenu-choose-buffer-index' for more information. \(fn INDEX-ITEM)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "imenu" '("imenu-"))) ;;;*** ;;;### (autoloads nil "ind-util" "language/ind-util.el" (0 0 0 0)) ;;; Generated autoloads from language/ind-util.el (autoload 'indian-compose-region "ind-util" "\ Compose the region according to `composition-function-table'. \(fn FROM TO)" t nil) (autoload 'indian-compose-string "ind-util" "\ \(fn STRING)" nil nil) (autoload 'in-is13194-post-read-conversion "ind-util" "\ \(fn LEN)" nil nil) (autoload 'in-is13194-pre-write-conversion "ind-util" "\ \(fn FROM TO)" nil nil) (autoload 'indian-2-column-to-ucs-region "ind-util" "\ Convert old Emacs Devanagari characters to UCS. \(fn FROM TO)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ind-util" '("indian-" "ucs-to-is"))) ;;;*** ;;;### (autoloads nil "inf-lisp" "progmodes/inf-lisp.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/inf-lisp.el (autoload 'inferior-lisp "inf-lisp" "\ Run an inferior Lisp process, input and output via buffer `*inferior-lisp*'. If there is a process already running in `*inferior-lisp*', just switch to that buffer. With argument, allows you to edit the command line (default is value of `inferior-lisp-program'). Runs the hooks from `inferior-lisp-mode-hook' (after the `comint-mode-hook' is run). \(Type \\[describe-mode] in the process buffer for a list of commands.) \(fn CMD)" t nil) (defalias 'run-lisp 'inferior-lisp) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "inf-lisp" '("inferior-lisp-" "lisp-" "switch-to-lisp"))) ;;;*** ;;;### (autoloads nil "info" "info.el" (0 0 0 0)) ;;; Generated autoloads from info.el (defcustom Info-default-directory-list (let* ((config-dir (file-name-as-directory (or (and (featurep 'ns) (let ((dir (expand-file-name "../info" data-directory))) (if (file-directory-p dir) dir))) configure-info-directory))) (prefixes (prune-directory-list '("/usr/local/" "/usr/" "/opt/"))) (suffixes '("share/" "")) (standard-info-dirs (apply #'nconc (mapcar (lambda (pfx) (let ((dirs (mapcar (lambda (sfx) (concat pfx sfx "info/")) suffixes))) (prune-directory-list dirs))) prefixes))) (dirs (if (member config-dir standard-info-dirs) (nconc standard-info-dirs (list config-dir)) (cons config-dir standard-info-dirs)))) (if (not (eq system-type 'windows-nt)) dirs (let* ((instdir (file-name-directory invocation-directory)) (dir1 (expand-file-name "../info/" instdir)) (dir2 (expand-file-name "../../../info/" instdir))) (cond ((file-exists-p dir1) (append dirs (list dir1))) ((file-exists-p dir2) (append dirs (list dir2))) (t dirs))))) "\ Default list of directories to search for Info documentation files. They are searched in the order they are given in the list. Therefore, the directory of Info files that come with Emacs normally should come last (so that local files override standard ones), unless Emacs is installed into a non-standard directory. In the latter case, the directory of Info files that come with Emacs should be first in this list. Once Info is started, the list of directories to search comes from the variable `Info-directory-list'. This variable `Info-default-directory-list' is used as the default for initializing `Info-directory-list' when Info is started, unless the environment variable INFOPATH is set. Although this is a customizable variable, that is mainly for technical reasons. Normally, you should either set INFOPATH or customize `Info-additional-directory-list', rather than changing this variable." :initialize (quote custom-initialize-delay) :type (quote (repeat directory)) :group (quote info)) (autoload 'info-other-window "info" "\ Like `info' but show the Info buffer in another window. \(fn &optional FILE-OR-NODE BUFFER)" t nil) (put 'info 'info-file (purecopy "emacs")) (autoload 'info "info" "\ Enter Info, the documentation browser. Optional argument FILE-OR-NODE specifies the file to examine; the default is the top-level directory of Info. Called from a program, FILE-OR-NODE may specify an Info node of the form \"(FILENAME)NODENAME\". Optional argument BUFFER specifies the Info buffer name; the default buffer name is *info*. If BUFFER exists, just switch to BUFFER. Otherwise, create a new buffer with the top-level Info directory. In interactive use, a non-numeric prefix argument directs this command to read a file name from the minibuffer. A numeric prefix argument of N selects an Info buffer named \"*info*\". The search path for Info files is in the variable `Info-directory-list'. The top-level Info directory is made by combining all the files named `dir' in all the directories in that path. See a list of available Info commands in `Info-mode'. \(fn &optional FILE-OR-NODE BUFFER)" t nil) (autoload 'info-emacs-manual "info" "\ Display the Emacs manual in Info mode. \(fn)" t nil) (autoload 'info-emacs-bug "info" "\ Display the \"Reporting Bugs\" section of the Emacs manual in Info mode. \(fn)" t nil) (autoload 'info-standalone "info" "\ Run Emacs as a standalone Info reader. Usage: emacs -f info-standalone [filename] In standalone mode, \\\\[Info-exit] exits Emacs itself. \(fn)" nil nil) (autoload 'Info-on-current-buffer "info" "\ Use Info mode to browse the current Info buffer. With a prefix arg, this queries for the node name to visit first; otherwise, that defaults to `Top'. \(fn &optional NODENAME)" t nil) (autoload 'Info-directory "info" "\ Go to the Info directory node. \(fn)" t nil) (autoload 'Info-index "info" "\ Look up a string TOPIC in the index for this manual and go to that entry. If there are no exact matches to the specified topic, this chooses the first match which is a case-insensitive substring of a topic. Use the \\\\[Info-index-next] command to see the other matches. Give an empty topic name to go to the Index node itself. \(fn TOPIC)" t nil) (autoload 'info-apropos "info" "\ Grovel indices of all known Info files on your system for STRING. Build a menu of the possible matches. \(fn STRING)" t nil) (autoload 'info-finder "info" "\ Display descriptions of the keywords in the Finder virtual manual. In interactive use, a prefix argument directs this command to read a list of keywords separated by comma. After that, it displays a node with a list of packages that contain all specified keywords. \(fn &optional KEYWORDS)" t nil) (autoload 'Info-mode "info" "\ Info mode provides commands for browsing through the Info documentation tree. Documentation in Info is divided into \"nodes\", each of which discusses one topic and contains references to other nodes which discuss related topics. Info has commands to follow the references and show you other nodes. \\\\[Info-help] Invoke the Info tutorial. \\[Info-exit] Quit Info: reselect previously selected buffer. Selecting other nodes: \\[Info-mouse-follow-nearest-node] Follow a node reference you click on. This works with menu items, cross references, and the \"next\", \"previous\" and \"up\", depending on where you click. \\[Info-follow-nearest-node] Follow a node reference near point, like \\[Info-mouse-follow-nearest-node]. \\[Info-next] Move to the \"next\" node of this node. \\[Info-prev] Move to the \"previous\" node of this node. \\[Info-up] Move \"up\" from this node. \\[Info-menu] Pick menu item specified by name (or abbreviation). Picking a menu item causes another node to be selected. \\[Info-directory] Go to the Info directory node. \\[Info-top-node] Go to the Top node of this file. \\[Info-final-node] Go to the final node in this file. \\[Info-backward-node] Go backward one node, considering all nodes as forming one sequence. \\[Info-forward-node] Go forward one node, considering all nodes as forming one sequence. \\[Info-next-reference] Move cursor to next cross-reference or menu item. \\[Info-prev-reference] Move cursor to previous cross-reference or menu item. \\[Info-follow-reference] Follow a cross reference. Reads name of reference. \\[Info-history-back] Move back in history to the last node you were at. \\[Info-history-forward] Move forward in history to the node you returned from after using \\[Info-history-back]. \\[Info-history] Go to menu of visited nodes. \\[Info-toc] Go to table of contents of the current Info file. Moving within a node: \\[Info-scroll-up] Normally, scroll forward a full screen. Once you scroll far enough in a node that its menu appears on the screen but after point, the next scroll moves into its first subnode. When after all menu items (or if there is no menu), move up to the parent node. \\[Info-scroll-down] Normally, scroll backward. If the beginning of the buffer is already visible, try to go to the previous menu entry, or up if there is none. \\[beginning-of-buffer] Go to beginning of node. Advanced commands: \\[Info-search] Search through this Info file for specified regexp, and select the node in which the next occurrence is found. \\[Info-search-case-sensitively] Search through this Info file for specified regexp case-sensitively. \\[isearch-forward], \\[isearch-forward-regexp] Use Isearch to search through multiple Info nodes. \\[Info-index] Search for a topic in this manual's Index and go to index entry. \\[Info-index-next] (comma) Move to the next match from a previous \\\\[Info-index] command. \\[Info-virtual-index] Look for a string and display the index node with results. \\[info-apropos] Look for a string in the indices of all manuals. \\[Info-goto-node] Move to node specified by name. You may include a filename as well, as (FILENAME)NODENAME. 1 .. 9 Pick first ... ninth item in node's menu. Every third `*' is highlighted to help pick the right number. \\[Info-copy-current-node-name] Put name of current Info node in the kill ring. \\[clone-buffer] Select a new cloned Info buffer in another window. \\[universal-argument] \\[info] Move to new Info file with completion. \\[universal-argument] N \\[info] Select Info buffer with prefix number in the name *info*. \(fn)" t nil) (put 'Info-goto-emacs-command-node 'info-file (purecopy "emacs")) (autoload 'Info-goto-emacs-command-node "info" "\ Go to the Info node in the Emacs manual for command COMMAND. The command is found by looking up in Emacs manual's indices or in another manual found via COMMAND's `info-file' property or the variable `Info-file-list-for-emacs'. COMMAND must be a symbol or string. \(fn COMMAND)" t nil) (put 'Info-goto-emacs-key-command-node 'info-file (purecopy "emacs")) (autoload 'Info-goto-emacs-key-command-node "info" "\ Go to the node in the Emacs manual which describes the command bound to KEY. KEY is a string. Interactively, if the binding is `execute-extended-command', a command is read. The command is found by looking up in Emacs manual's indices or in another manual found via COMMAND's `info-file' property or the variable `Info-file-list-for-emacs'. \(fn KEY)" t nil) (autoload 'Info-speedbar-browser "info" "\ Initialize speedbar to display an Info node browser. This will add a speedbar major display mode. \(fn)" t nil) (autoload 'Info-bookmark-jump "info" "\ This implements the `handler' function interface for the record type returned by `Info-bookmark-make-record', which see. \(fn BMK)" nil nil) (autoload 'info-display-manual "info" "\ Display an Info buffer displaying MANUAL. If there is an existing Info buffer for MANUAL, display it. Otherwise, visit the manual in a new Info buffer. In interactive use, a prefix argument directs this command to limit the completion alternatives to currently visited manuals. \(fn MANUAL)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "info" '("info-" "Info-"))) ;;;*** ;;;### (autoloads nil "info-look" "info-look.el" (0 0 0 0)) ;;; Generated autoloads from info-look.el (autoload 'info-lookup-reset "info-look" "\ Throw away all cached data. This command is useful if the user wants to start at the beginning without quitting Emacs, for example, after some Info documents were updated on the system. \(fn)" t nil) (put 'info-lookup-symbol 'info-file "emacs") (autoload 'info-lookup-symbol "info-look" "\ Display the definition of SYMBOL, as found in the relevant manual. When this command is called interactively, it reads SYMBOL from the minibuffer. In the minibuffer, use M-n to yank the default argument value into the minibuffer so you can edit it. The default symbol is the one found at point. With prefix arg MODE a query for the symbol help mode is offered. \(fn SYMBOL &optional MODE)" t nil) (put 'info-lookup-file 'info-file "emacs") (autoload 'info-lookup-file "info-look" "\ Display the documentation of a file. When this command is called interactively, it reads FILE from the minibuffer. In the minibuffer, use M-n to yank the default file name into the minibuffer so you can edit it. The default file name is the one found at point. With prefix arg MODE a query for the file help mode is offered. \(fn FILE &optional MODE)" t nil) (autoload 'info-complete-symbol "info-look" "\ Perform completion on symbol preceding point. \(fn &optional MODE)" t nil) (autoload 'info-complete-file "info-look" "\ Perform completion on file preceding point. \(fn &optional MODE)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "info-look" '("info-"))) ;;;*** ;;;### (autoloads nil "info-xref" "info-xref.el" (0 0 0 0)) ;;; Generated autoloads from info-xref.el (push (purecopy '(info-xref 3)) package--builtin-versions) (autoload 'info-xref-check "info-xref" "\ Check external references in FILENAME, an info document. Interactively from an `Info-mode' or `texinfo-mode' buffer the current info file is the default. Results are shown in a `compilation-mode' buffer. The format is a bit rough, but there shouldn't be many problems normally. The file:line:column: is the info document, but of course normally any correction should be made in the original .texi file. Finding the right place in the .texi is a manual process. When a target info file doesn't exist there's obviously no way to validate node references within it. A message is given for missing target files once per source document. It could be simply that you don't have the target installed, or it could be a mistake in the reference. Indirect info files are understood, just pass the top-level foo.info to `info-xref-check' and it traverses all sub-files. Compressed info files are accepted too as usual for `Info-mode'. \"makeinfo\" checks references internal to an info document, but not external references, which makes it rather easy for mistakes to creep in or node name changes to go unnoticed. `Info-validate' doesn't check external references either. \(fn FILENAME)" t nil) (autoload 'info-xref-check-all "info-xref" "\ Check external references in all info documents in the info path. `Info-directory-list' and `Info-additional-directory-list' are the info paths. See `info-xref-check' for how each file is checked. The search for \"all\" info files is rather permissive, since info files don't necessarily have a \".info\" extension and in particular the Emacs manuals normally don't. If you have a source code directory in `Info-directory-list' then a lot of extraneous files might be read. This will be time consuming but should be harmless. \(fn)" t nil) (autoload 'info-xref-check-all-custom "info-xref" "\ Check info references in all customize groups and variables. Info references can be in `custom-manual' or `info-link' entries of the `custom-links' for a variable. Any `custom-load' autoloads in variables are loaded in order to get full link information. This will be a lot of Lisp packages and can take a long time. \(fn)" t nil) (autoload 'info-xref-docstrings "info-xref" "\ Check docstring info node references in source files. The given files are searched for docstring hyperlinks like Info node `(elisp)Documentation Tips' and those links checked by attempting to visit the target nodes as per `info-xref-check' does. Interactively filenames are read as a wildcard pattern like \"foo*.el\", with the current file as a default. Usually this will be lisp sources, but anything with such hyperlinks can be checked, including the Emacs .c sources (or the etc/DOC file of all builtins). Because info node hyperlinks are found by a simple regexp search in the files, the Lisp code checked doesn't have to be loaded, and links can be in the file commentary or elsewhere too. Even .elc files can usually be checked successfully if you don't have the sources handy. \(fn FILENAME-LIST)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "info-xref" '("info-xref-"))) ;;;*** ;;;### (autoloads nil "informat" "informat.el" (0 0 0 0)) ;;; Generated autoloads from informat.el (autoload 'Info-tagify "informat" "\ Create or update Info file tag table in current buffer or in a region. \(fn &optional INPUT-BUFFER-NAME)" t nil) (defvar Info-split-threshold 262144 "\ The number of characters by which `Info-split' splits an info file.") (custom-autoload 'Info-split-threshold "informat" t) (autoload 'Info-split "informat" "\ Split an info file into an indirect file plus bounded-size subfiles. Each subfile will be up to the number of characters that `Info-split-threshold' specifies, plus one node. To use this command, first visit a large Info file that has a tag table. The buffer is modified into a (small) indirect info file which should be saved in place of the original visited file. The subfiles are written in the same directory the original file is in, with names generated by appending `-' and a number to the original file name. The indirect file still functions as an Info file, but it contains just the tag table and a directory of subfiles. \(fn)" t nil) (autoload 'Info-validate "informat" "\ Check current buffer for validity as an Info file. Check that every node pointer points to an existing node. \(fn)" t nil) (autoload 'batch-info-validate "informat" "\ Runs `Info-validate' on the files remaining on the command line. Must be used only with -batch, and kills Emacs on completion. Each file will be processed even if an error occurred previously. For example, invoke \"emacs -batch -f batch-info-validate $info/ ~/*.info\" \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "informat" '("Info-validate-"))) ;;;*** ;;;### (autoloads nil "inline" "emacs-lisp/inline.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/inline.el (autoload 'define-inline "inline" "\ \(fn NAME ARGS &rest BODY)" nil t) (function-put 'define-inline 'lisp-indent-function 'defun) (function-put 'define-inline 'doc-string-elt '3) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "inline" '("inline-"))) ;;;*** ;;;### (autoloads nil "inversion" "cedet/inversion.el" (0 0 0 0)) ;;; Generated autoloads from cedet/inversion.el (push (purecopy '(inversion 1 3)) package--builtin-versions) (autoload 'inversion-require-emacs "inversion" "\ Declare that you need either EMACS-VER, XEMACS-VER or SXEMACS-ver. Only checks one based on which kind of Emacs is being run. \(fn EMACS-VER XEMACS-VER SXEMACS-VER)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "inversion" '("inversion-"))) ;;;*** ;;;### (autoloads nil "isearch-x" "international/isearch-x.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from international/isearch-x.el (autoload 'isearch-toggle-specified-input-method "isearch-x" "\ Select an input method and turn it on in interactive search. \(fn)" t nil) (autoload 'isearch-toggle-input-method "isearch-x" "\ Toggle input method in interactive search. \(fn)" t nil) (autoload 'isearch-process-search-multibyte-characters "isearch-x" "\ \(fn LAST-CHAR &optional COUNT)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "isearch-x" '("isearch-"))) ;;;*** ;;;### (autoloads nil "isearchb" "isearchb.el" (0 0 0 0)) ;;; Generated autoloads from isearchb.el (push (purecopy '(isearchb 1 5)) package--builtin-versions) (autoload 'isearchb-activate "isearchb" "\ Active isearchb mode for subsequent alphanumeric keystrokes. Executing this command again will terminate the search; or, if the search has not yet begun, will toggle to the last buffer accessed via isearchb. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "isearchb" '("isearchb"))) ;;;*** ;;;### (autoloads nil "iso-ascii" "international/iso-ascii.el" (0 ;;;;;; 0 0 0)) ;;; Generated autoloads from international/iso-ascii.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "iso-ascii" '("iso-ascii-"))) ;;;*** ;;;### (autoloads nil "iso-cvt" "international/iso-cvt.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from international/iso-cvt.el (autoload 'iso-spanish "iso-cvt" "\ Translate net conventions for Spanish to ISO 8859-1. Translate the region between FROM and TO using the table `iso-spanish-trans-tab'. Optional arg BUFFER is ignored (for use in `format-alist'). \(fn FROM TO &optional BUFFER)" t nil) (autoload 'iso-german "iso-cvt" "\ Translate net conventions for German to ISO 8859-1. Translate the region FROM and TO using the table `iso-german-trans-tab'. Optional arg BUFFER is ignored (for use in `format-alist'). \(fn FROM TO &optional BUFFER)" t nil) (autoload 'iso-iso2tex "iso-cvt" "\ Translate ISO 8859-1 characters to TeX sequences. Translate the region between FROM and TO using the table `iso-iso2tex-trans-tab'. Optional arg BUFFER is ignored (for use in `format-alist'). \(fn FROM TO &optional BUFFER)" t nil) (autoload 'iso-tex2iso "iso-cvt" "\ Translate TeX sequences to ISO 8859-1 characters. Translate the region between FROM and TO using the table `iso-tex2iso-trans-tab'. Optional arg BUFFER is ignored (for use in `format-alist'). \(fn FROM TO &optional BUFFER)" t nil) (autoload 'iso-gtex2iso "iso-cvt" "\ Translate German TeX sequences to ISO 8859-1 characters. Translate the region between FROM and TO using the table `iso-gtex2iso-trans-tab'. Optional arg BUFFER is ignored (for use in `format-alist'). \(fn FROM TO &optional BUFFER)" t nil) (autoload 'iso-iso2gtex "iso-cvt" "\ Translate ISO 8859-1 characters to German TeX sequences. Translate the region between FROM and TO using the table `iso-iso2gtex-trans-tab'. Optional arg BUFFER is ignored (for use in `format-alist'). \(fn FROM TO &optional BUFFER)" t nil) (autoload 'iso-iso2duden "iso-cvt" "\ Translate ISO 8859-1 characters to Duden sequences. Translate the region between FROM and TO using the table `iso-iso2duden-trans-tab'. Optional arg BUFFER is ignored (for use in `format-alist'). \(fn FROM TO &optional BUFFER)" t nil) (autoload 'iso-iso2sgml "iso-cvt" "\ Translate ISO 8859-1 characters in the region to SGML entities. Use entities from \"ISO 8879:1986//ENTITIES Added Latin 1//EN\". Optional arg BUFFER is ignored (for use in `format-alist'). \(fn FROM TO &optional BUFFER)" t nil) (autoload 'iso-sgml2iso "iso-cvt" "\ Translate SGML entities in the region to ISO 8859-1 characters. Use entities from \"ISO 8879:1986//ENTITIES Added Latin 1//EN\". Optional arg BUFFER is ignored (for use in `format-alist'). \(fn FROM TO &optional BUFFER)" t nil) (autoload 'iso-cvt-read-only "iso-cvt" "\ Warn that format is read-only. \(fn &rest IGNORE)" t nil) (autoload 'iso-cvt-write-only "iso-cvt" "\ Warn that format is write-only. \(fn &rest IGNORE)" t nil) (autoload 'iso-cvt-define-menu "iso-cvt" "\ Add submenus to the File menu, to convert to and from various formats. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "iso-cvt" '("iso-"))) ;;;*** ;;;### (autoloads nil "iso-transl" "international/iso-transl.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from international/iso-transl.el (define-key key-translation-map "\C-x8" 'iso-transl-ctl-x-8-map) (autoload 'iso-transl-ctl-x-8-map "iso-transl" "Keymap for C-x 8 prefix." t 'keymap) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "iso-transl" '("iso-transl-"))) ;;;*** ;;;### (autoloads nil "ispell" "textmodes/ispell.el" (0 0 0 0)) ;;; Generated autoloads from textmodes/ispell.el (put 'ispell-check-comments 'safe-local-variable (lambda (a) (memq a '(nil t exclusive)))) (defvar ispell-personal-dictionary nil "\ File name of your personal spelling dictionary, or nil. If nil, the default personal dictionary for your spelling checker is used.") (custom-autoload 'ispell-personal-dictionary "ispell" t) (put 'ispell-local-dictionary 'safe-local-variable 'string-or-null-p) (defvar ispell-menu-map nil "\ Key map for ispell menu.") (defvar ispell-menu-map-needed (unless ispell-menu-map 'reload)) (if ispell-menu-map-needed (progn (setq ispell-menu-map (make-sparse-keymap "Spell")) (define-key ispell-menu-map [ispell-change-dictionary] `(menu-item ,(purecopy "Change Dictionary...") ispell-change-dictionary :help ,(purecopy "Supply explicit dictionary file name"))) (define-key ispell-menu-map [ispell-kill-ispell] `(menu-item ,(purecopy "Kill Process") (lambda nil (interactive) (ispell-kill-ispell nil 'clear)) :enable (and (boundp 'ispell-process) ispell-process (eq (ispell-process-status) 'run)) :help ,(purecopy "Terminate Ispell subprocess"))) (define-key ispell-menu-map [ispell-pdict-save] `(menu-item ,(purecopy "Save Dictionary") (lambda nil (interactive) (ispell-pdict-save t t)) :help ,(purecopy "Save personal dictionary"))) (define-key ispell-menu-map [ispell-customize] `(menu-item ,(purecopy "Customize...") (lambda nil (interactive) (customize-group 'ispell)) :help ,(purecopy "Customize spell checking options"))) (define-key ispell-menu-map [ispell-help] `(menu-item ,(purecopy "Help") (lambda nil (interactive) (describe-function 'ispell-help)) :help ,(purecopy "Show standard Ispell keybindings and commands"))) (define-key ispell-menu-map [flyspell-mode] `(menu-item ,(purecopy "Automatic spell checking (Flyspell)") flyspell-mode :help ,(purecopy "Check spelling while you edit the text") :button (:toggle bound-and-true-p flyspell-mode))) (define-key ispell-menu-map [ispell-complete-word] `(menu-item ,(purecopy "Complete Word") ispell-complete-word :help ,(purecopy "Complete word at cursor using dictionary"))) (define-key ispell-menu-map [ispell-complete-word-interior-frag] `(menu-item ,(purecopy "Complete Word Fragment") ispell-complete-word-interior-frag :help ,(purecopy "Complete word fragment at cursor"))))) (if ispell-menu-map-needed (progn (define-key ispell-menu-map [ispell-continue] `(menu-item ,(purecopy "Continue Spell-Checking") ispell-continue :enable (and (boundp 'ispell-region-end) (marker-position ispell-region-end) (equal (marker-buffer ispell-region-end) (current-buffer))) :help ,(purecopy "Continue spell checking last region"))) (define-key ispell-menu-map [ispell-word] `(menu-item ,(purecopy "Spell-Check Word") ispell-word :help ,(purecopy "Spell-check word at cursor"))) (define-key ispell-menu-map [ispell-comments-and-strings] `(menu-item ,(purecopy "Spell-Check Comments") ispell-comments-and-strings :help ,(purecopy "Spell-check only comments and strings"))))) (if ispell-menu-map-needed (progn (define-key ispell-menu-map [ispell-region] `(menu-item ,(purecopy "Spell-Check Region") ispell-region :enable mark-active :help ,(purecopy "Spell-check text in marked region"))) (define-key ispell-menu-map [ispell-message] `(menu-item ,(purecopy "Spell-Check Message") ispell-message :visible (eq major-mode 'mail-mode) :help ,(purecopy "Skip headers and included message text"))) (define-key ispell-menu-map [ispell-buffer] `(menu-item ,(purecopy "Spell-Check Buffer") ispell-buffer :help ,(purecopy "Check spelling of selected buffer"))) (fset 'ispell-menu-map (symbol-value 'ispell-menu-map)))) (defvar ispell-skip-region-alist `((ispell-words-keyword forward-line) (ispell-dictionary-keyword forward-line) (ispell-pdict-keyword forward-line) (ispell-parsing-keyword forward-line) (,(purecopy "^---*BEGIN PGP [A-Z ]*--*") \, (purecopy "^---*END PGP [A-Z ]*--*")) (,(purecopy "^begin [0-9][0-9][0-9] [^ ]+$") \, (purecopy "\nend\n")) (,(purecopy "^%!PS-Adobe-[123].0") \, (purecopy "\n%%EOF\n")) (,(purecopy "^---* \\(Start of \\)?[Ff]orwarded [Mm]essage") \, (purecopy "^---* End of [Ff]orwarded [Mm]essage"))) "\ Alist expressing beginning and end of regions not to spell check. The alist key must be a regular expression. Valid forms include: (KEY) - just skip the key. (KEY . REGEXP) - skip to the end of REGEXP. REGEXP may be string or symbol. (KEY REGEXP) - skip to end of REGEXP. REGEXP must be a string. (KEY FUNCTION ARGS) - FUNCTION called with ARGS returns end of region.") (defvar ispell-tex-skip-alists (purecopy '((("\\\\addcontentsline" ispell-tex-arg-end 2) ("\\\\add\\(tocontents\\|vspace\\)" ispell-tex-arg-end) ("\\\\\\([aA]lph\\|arabic\\)" ispell-tex-arg-end) ("\\\\cref" ispell-tex-arg-end) ("\\\\bibliographystyle" ispell-tex-arg-end) ("\\\\makebox" ispell-tex-arg-end 0) ("\\\\e?psfig" ispell-tex-arg-end) ("\\\\document\\(class\\|style\\)" . "\\\\begin[ \n]*{[ \n]*document[ \n]*}")) (("\\(figure\\|table\\)\\*?" ispell-tex-arg-end 0) ("list" ispell-tex-arg-end 2) ("program" . "\\\\end[ \n]*{[ \n]*program[ \n]*}") ("verbatim\\*?" . "\\\\end[ \n]*{[ \n]*verbatim\\*?[ \n]*}")))) "\ Lists of regions to be skipped in TeX mode. First list is used raw. Second list has key placed inside \\begin{}. Delete or add any regions you want to be automatically selected for skipping in latex mode.") (defconst ispell-html-skip-alists '(("<[cC][oO][dD][eE]\\>[^>]*>" "") ("<[sS][cC][rR][iI][pP][tT]\\>[^>]*>" "") ("<[aA][pP][pP][lL][eE][tT]\\>[^>]*>" "") ("<[vV][eE][rR][bB]\\>[^>]*>" "<[vV][eE][rR][bB]\\>[^>]*>") ("<[tT][tT]/" "/") ("<[^ \n>]" ">") ("&[^ \n;]" "[; \n]")) "\ Lists of start and end keys to skip in HTML buffers. Same format as `ispell-skip-region-alist'. Note - substrings of other matches must come last (e.g. \"<[tT][tT]/\" and \"<[^ \\t\\n>]\").") (put 'ispell-local-pdict 'safe-local-variable 'stringp) (define-key esc-map "$" 'ispell-word) (autoload 'ispell-word "ispell" "\ Check spelling of word under or before the cursor. If the word is not found in dictionary, display possible corrections in a window allowing you to choose one. If optional argument FOLLOWING is non-nil or if `ispell-following-word' is non-nil when called interactively, then the following word \(rather than preceding) is checked when the cursor is not over a word. When the optional argument QUIETLY is non-nil or `ispell-quietly' is non-nil when called interactively, non-corrective messages are suppressed. With a prefix argument (or if CONTINUE is non-nil), resume interrupted spell-checking of a buffer or region. Interactively, in Transient Mark mode when the mark is active, call `ispell-region' to check the active region for spelling errors. Word syntax is controlled by the definition of the chosen dictionary, which is in `ispell-local-dictionary-alist' or `ispell-dictionary-alist'. This will check or reload the dictionary. Use \\[ispell-change-dictionary] or \\[ispell-region] to update the Ispell process. Return values: nil word is correct or spelling is accepted. 0 word is inserted into buffer-local definitions. \"word\" word corrected from word list. \(\"word\" arg) word is hand entered. quit spell session exited. \(fn &optional FOLLOWING QUIETLY CONTINUE REGION)" t nil) (autoload 'ispell-pdict-save "ispell" "\ Check to see if the personal dictionary has been modified. If so, ask if it needs to be saved. \(fn &optional NO-QUERY FORCE-SAVE)" t nil) (autoload 'ispell-help "ispell" "\ Display a list of the options available when a misspelling is encountered. Selections are: DIGIT: Replace the word with a digit offered in the *Choices* buffer. SPC: Accept word this time. `i': Accept word and insert into private dictionary. `a': Accept word for this session. `A': Accept word and place in `buffer-local dictionary'. `r': Replace word with typed-in value. Rechecked. `R': Replace word with typed-in value. Query-replaced in buffer. Rechecked. `?': Show these commands. `x': Exit spelling buffer. Move cursor to original point. `X': Exit spelling buffer. Leaves cursor at the current point, and permits the aborted check to be completed later. `q': Quit spelling session (Kills ispell process). `l': Look up typed-in replacement in alternate dictionary. Wildcards okay. `u': Like `i', but the word is lower-cased first. `m': Place typed-in value in personal dictionary, then recheck current word. `C-l': Redraw screen. `C-r': Recursive edit. `C-z': Suspend Emacs or iconify frame. \(fn)" nil nil) (autoload 'ispell-kill-ispell "ispell" "\ Kill current Ispell process (so that you may start a fresh one). With NO-ERROR, just return non-nil if there was no Ispell running. With CLEAR, buffer session localwords are cleaned. \(fn &optional NO-ERROR CLEAR)" t nil) (autoload 'ispell-change-dictionary "ispell" "\ Change to dictionary DICT for Ispell. With a prefix arg, set it \"globally\", for all buffers. Without a prefix arg, set it \"locally\", just for this buffer. By just answering RET you can find out what the current dictionary is. \(fn DICT &optional ARG)" t nil) (autoload 'ispell-region "ispell" "\ Interactively check a region for spelling errors. Return nil if spell session was terminated, otherwise returns shift offset amount for last line processed. \(fn REG-START REG-END &optional RECHECKP SHIFT)" t nil) (autoload 'ispell-comments-and-strings "ispell" "\ Check comments and strings in the current buffer for spelling errors. \(fn)" t nil) (autoload 'ispell-buffer "ispell" "\ Check the current buffer for spelling errors interactively. \(fn)" t nil) (autoload 'ispell-buffer-with-debug "ispell" "\ `ispell-buffer' with some output sent to `ispell-debug-buffer' buffer. If APPEND is non-n il, append the info to previous buffer if exists. \(fn &optional APPEND)" t nil) (autoload 'ispell-continue "ispell" "\ Continue a halted spelling session beginning with the current word. \(fn)" t nil) (autoload 'ispell-complete-word "ispell" "\ Try to complete the word before or at point. If optional INTERIOR-FRAG is non-nil, then the word may be a character sequence inside of a word. Standard ispell choices are then available. \(fn &optional INTERIOR-FRAG)" t nil) (autoload 'ispell-complete-word-interior-frag "ispell" "\ Completes word matching character sequence inside a word. \(fn)" t nil) (autoload 'ispell "ispell" "\ Interactively check a region or buffer for spelling errors. If `transient-mark-mode' is on, and a region is active, spell-check that region. Otherwise spell-check the buffer. Ispell dictionaries are not distributed with Emacs. If you are looking for a dictionary, please see the distribution of the GNU ispell program, or do an Internet search; there are various dictionaries available on the net. \(fn)" t nil) (autoload 'ispell-minor-mode "ispell" "\ Toggle last-word spell checking (Ispell minor mode). With a prefix argument ARG, enable Ispell minor mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Ispell minor mode is a buffer-local minor mode. When enabled, typing SPC or RET warns you if the previous word is incorrectly spelled. All the buffer-local variables and dictionaries are ignored. To read them into the running Ispell process, type \\[ispell-word] SPC. For spell-checking \"on the fly\", not just after typing SPC or RET, use `flyspell-mode'. \(fn &optional ARG)" t nil) (autoload 'ispell-message "ispell" "\ Check the spelling of a mail message or news post. Don't check spelling of message headers except the Subject field. Don't check included messages. To abort spell checking of a message region and send the message anyway, use the `x' command. (Any subsequent regions will be checked.) The `X' command aborts sending the message so that you can edit the buffer. To spell-check whenever a message is sent, include the appropriate lines in your init file: (add-hook \\='message-send-hook #\\='ispell-message) ;; GNUS 5 (add-hook \\='news-inews-hook #\\='ispell-message) ;; GNUS 4 (add-hook \\='mail-send-hook #\\='ispell-message) (add-hook \\='mh-before-send-letter-hook #\\='ispell-message) You can bind this to the key C-c i in GNUS or mail by adding to `news-reply-mode-hook' or `mail-mode-hook' the following lambda expression: (function (lambda () (local-set-key \"\\C-ci\" \\='ispell-message))) \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ispell" '("ispell-" "check-ispell-version"))) ;;;*** ;;;### (autoloads nil "ja-dic-cnv" "international/ja-dic-cnv.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from international/ja-dic-cnv.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ja-dic-cnv" '("skkdic-" "batch-skkdic-convert" "ja-dic-filename"))) ;;;*** ;;;### (autoloads nil "ja-dic-utl" "international/ja-dic-utl.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from international/ja-dic-utl.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ja-dic-utl" '("skkdic-"))) ;;;*** ;;;### (autoloads nil "japan-util" "language/japan-util.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from language/japan-util.el (autoload 'setup-japanese-environment-internal "japan-util" "\ \(fn)" nil nil) (autoload 'japanese-katakana "japan-util" "\ Convert argument to Katakana and return that. The argument may be a character or string. The result has the same type. The argument object is not altered--the value is a copy. Optional argument HANKAKU t means to convert to `hankaku' Katakana \(`japanese-jisx0201-kana'), in which case return value may be a string even if OBJ is a character if two Katakanas are necessary to represent OBJ. \(fn OBJ &optional HANKAKU)" nil nil) (autoload 'japanese-hiragana "japan-util" "\ Convert argument to Hiragana and return that. The argument may be a character or string. The result has the same type. The argument object is not altered--the value is a copy. \(fn OBJ)" nil nil) (autoload 'japanese-hankaku "japan-util" "\ Convert argument to `hankaku' and return that. The argument may be a character or string. The result has the same type. The argument object is not altered--the value is a copy. Optional argument ASCII-ONLY non-nil means to return only ASCII character. \(fn OBJ &optional ASCII-ONLY)" nil nil) (autoload 'japanese-zenkaku "japan-util" "\ Convert argument to `zenkaku' and return that. The argument may be a character or string. The result has the same type. The argument object is not altered--the value is a copy. \(fn OBJ)" nil nil) (autoload 'japanese-katakana-region "japan-util" "\ Convert Japanese `hiragana' chars in the region to `katakana' chars. Optional argument HANKAKU t means to convert to `hankaku katakana' character of which charset is `japanese-jisx0201-kana'. \(fn FROM TO &optional HANKAKU)" t nil) (autoload 'japanese-hiragana-region "japan-util" "\ Convert Japanese `katakana' chars in the region to `hiragana' chars. \(fn FROM TO)" t nil) (autoload 'japanese-hankaku-region "japan-util" "\ Convert Japanese `zenkaku' chars in the region to `hankaku' chars. `Zenkaku' chars belong to `japanese-jisx0208' `Hankaku' chars belong to `ascii' or `japanese-jisx0201-kana'. Optional argument ASCII-ONLY non-nil means to convert only to ASCII char. \(fn FROM TO &optional ASCII-ONLY)" t nil) (autoload 'japanese-zenkaku-region "japan-util" "\ Convert hankaku' chars in the region to Japanese `zenkaku' chars. `Zenkaku' chars belong to `japanese-jisx0208' `Hankaku' chars belong to `ascii' or `japanese-jisx0201-kana'. Optional argument KATAKANA-ONLY non-nil means to convert only KATAKANA char. \(fn FROM TO &optional KATAKANA-ONLY)" t nil) (autoload 'read-hiragana-string "japan-util" "\ Read a Hiragana string from the minibuffer, prompting with string PROMPT. If non-nil, second arg INITIAL-INPUT is a string to insert before reading. \(fn PROMPT &optional INITIAL-INPUT)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "japan-util" '("japanese-"))) ;;;*** ;;;### (autoloads nil "jka-compr" "jka-compr.el" (0 0 0 0)) ;;; Generated autoloads from jka-compr.el (defvar jka-compr-inhibit nil "\ Non-nil means inhibit automatic uncompression temporarily. Lisp programs can bind this to t to do that. It is not recommended to set this variable permanently to anything but nil.") (autoload 'jka-compr-handler "jka-compr" "\ \(fn OPERATION &rest ARGS)" nil nil) (autoload 'jka-compr-uninstall "jka-compr" "\ Uninstall jka-compr. This removes the entries in `file-name-handler-alist' and `auto-mode-alist' and `inhibit-local-variables-suffixes' that were added by `jka-compr-installed'. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "jka-compr" '("jka-compr-" "compression-error"))) ;;;*** ;;;### (autoloads nil "js" "progmodes/js.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/js.el (push (purecopy '(js 9)) package--builtin-versions) (autoload 'js-mode "js" "\ Major mode for editing JavaScript. \(fn)" t nil) (autoload 'js-jsx-mode "js" "\ Major mode for editing JSX. To customize the indentation for this mode, set the SGML offset variables (`sgml-basic-offset', `sgml-attribute-offset' et al.) locally, like so: (defun set-jsx-indentation () (setq-local sgml-basic-offset js-indent-level)) (add-hook \\='js-jsx-mode-hook #\\='set-jsx-indentation) \(fn)" t nil) (defalias 'javascript-mode 'js-mode) (dolist (name (list "node" "nodejs" "gjs" "rhino")) (add-to-list 'interpreter-mode-alist (cons (purecopy name) 'js-mode))) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "js" '("js-" "with-js"))) ;;;*** ;;;### (autoloads nil "json" "json.el" (0 0 0 0)) ;;; Generated autoloads from json.el (push (purecopy '(json 1 4)) package--builtin-versions) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "json" '("json-"))) ;;;*** ;;;### (autoloads nil "kermit" "kermit.el" (0 0 0 0)) ;;; Generated autoloads from kermit.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "kermit" '("kermit-"))) ;;;*** ;;;### (autoloads nil "keypad" "emulation/keypad.el" (0 0 0 0)) ;;; Generated autoloads from emulation/keypad.el (defvar keypad-setup nil "\ Specifies the keypad setup for unshifted keypad keys when NumLock is off. When selecting the plain numeric keypad setup, the character returned by the decimal key must be specified.") (custom-autoload 'keypad-setup "keypad" nil) (defvar keypad-numlock-setup nil "\ Specifies the keypad setup for unshifted keypad keys when NumLock is on. When selecting the plain numeric keypad setup, the character returned by the decimal key must be specified.") (custom-autoload 'keypad-numlock-setup "keypad" nil) (defvar keypad-shifted-setup nil "\ Specifies the keypad setup for shifted keypad keys when NumLock is off. When selecting the plain numeric keypad setup, the character returned by the decimal key must be specified.") (custom-autoload 'keypad-shifted-setup "keypad" nil) (defvar keypad-numlock-shifted-setup nil "\ Specifies the keypad setup for shifted keypad keys when NumLock is off. When selecting the plain numeric keypad setup, the character returned by the decimal key must be specified.") (custom-autoload 'keypad-numlock-shifted-setup "keypad" nil) (autoload 'keypad-setup "keypad" "\ Set keypad bindings in `function-key-map' according to SETUP. If optional second argument NUMLOCK is non-nil, the NumLock On bindings are changed. Otherwise, the NumLock Off bindings are changed. If optional third argument SHIFT is non-nil, the shifted keypad keys are bound. Setup Binding ------------------------------------------------------------- `prefix' Command prefix argument, i.e. M-0 .. M-9 and M-- `S-cursor' Bind shifted keypad keys to the shifted cursor movement keys. `cursor' Bind keypad keys to the cursor movement keys. `numeric' Plain numeric keypad, i.e. 0 .. 9 and . (or DECIMAL arg) `none' Removes all bindings for keypad keys in function-key-map; this enables any user-defined bindings for the keypad keys in the global and local keymaps. If SETUP is `numeric' and the optional fourth argument DECIMAL is non-nil, the decimal key on the keypad is mapped to DECIMAL instead of `.' \(fn SETUP &optional NUMLOCK SHIFT DECIMAL)" nil nil) ;;;*** ;;;### (autoloads nil "kinsoku" "international/kinsoku.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from international/kinsoku.el (autoload 'kinsoku "kinsoku" "\ Go to a line breaking position near point by doing `kinsoku' processing. LINEBEG is a buffer position we can't break a line before. `Kinsoku' processing is to prohibit specific characters to be placed at beginning of line or at end of line. Characters not to be placed at beginning and end of line have character category `>' and `<' respectively. This restriction is dissolved by making a line longer or shorter. `Kinsoku' is a Japanese word which originally means ordering to stay in one place, and is used for the text processing described above in the context of text formatting. \(fn LINEBEG)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "kinsoku" '("kinsoku-"))) ;;;*** ;;;### (autoloads nil "kkc" "international/kkc.el" (0 0 0 0)) ;;; Generated autoloads from international/kkc.el (defvar kkc-after-update-conversion-functions nil "\ Functions to run after a conversion is selected in `japanese' input method. With this input method, a user can select a proper conversion from candidate list. Each time he changes the selection, functions in this list are called with two arguments; starting and ending buffer positions that contains the current selection.") (autoload 'kkc-region "kkc" "\ Convert Kana string in the current region to Kanji-Kana mixed string. Users can select a desirable conversion interactively. When called from a program, expects two arguments, positions FROM and TO (integers or markers) specifying the target region. When it returns, the point is at the tail of the selected conversion, and the return value is the length of the conversion. \(fn FROM TO)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "kkc" '("kkc-"))) ;;;*** ;;;### (autoloads nil "kmacro" "kmacro.el" (0 0 0 0)) ;;; Generated autoloads from kmacro.el (global-set-key "\C-x(" 'kmacro-start-macro) (global-set-key "\C-x)" 'kmacro-end-macro) (global-set-key "\C-xe" 'kmacro-end-and-call-macro) (global-set-key [f3] 'kmacro-start-macro-or-insert-counter) (global-set-key [f4] 'kmacro-end-or-call-macro) (global-set-key "\C-x\C-k" 'kmacro-keymap) (autoload 'kmacro-keymap "kmacro" "Keymap for keyboard macro commands." t 'keymap) (autoload 'kmacro-exec-ring-item "kmacro" "\ Execute item ITEM from the macro ring. ARG is the number of times to execute the item. \(fn ITEM ARG)" nil nil) (autoload 'kmacro-start-macro "kmacro" "\ Record subsequent keyboard input, defining a keyboard macro. The commands are recorded even as they are executed. Use \\[kmacro-end-macro] to finish recording and make the macro available. Use \\[kmacro-end-and-call-macro] to execute the macro. Non-nil arg (prefix arg) means append to last macro defined. With \\[universal-argument] prefix, append to last keyboard macro defined. Depending on `kmacro-execute-before-append', this may begin by re-executing the last macro as if you typed it again. Otherwise, it sets `kmacro-counter' to ARG or 0 if missing before defining the macro. Use \\[kmacro-insert-counter] to insert (and increment) the macro counter. The counter value can be set or modified via \\[kmacro-set-counter] and \\[kmacro-add-counter]. The format of the counter can be modified via \\[kmacro-set-format]. Use \\[kmacro-name-last-macro] to give it a name that will remain valid even after another macro is defined. Use \\[kmacro-bind-to-key] to bind it to a key sequence. \(fn ARG)" t nil) (autoload 'kmacro-end-macro "kmacro" "\ Finish defining a keyboard macro. The definition was started by \\[kmacro-start-macro]. The macro is now available for use via \\[kmacro-call-macro], or it can be given a name with \\[kmacro-name-last-macro] and then invoked under that name. With numeric arg, repeat macro now that many times, counting the definition just completed as the first repetition. An argument of zero means repeat until error. \(fn ARG)" t nil) (autoload 'kmacro-call-macro "kmacro" "\ Call the keyboard MACRO that you defined with \\[kmacro-start-macro]. A prefix argument serves as a repeat count. Zero means repeat until error. MACRO defaults to `last-kbd-macro'. When you call the macro, you can call the macro again by repeating just the last key in the key sequence that you used to call this command. See `kmacro-call-repeat-key' and `kmacro-call-repeat-with-arg' for details on how to adjust or disable this behavior. To give a macro a name so you can call it even after defining others, use \\[kmacro-name-last-macro]. \(fn ARG &optional NO-REPEAT END-MACRO MACRO)" t nil) (autoload 'kmacro-start-macro-or-insert-counter "kmacro" "\ Record subsequent keyboard input, defining a keyboard macro. The commands are recorded even as they are executed. Sets the `kmacro-counter' to ARG (or 0 if no prefix arg) before defining the macro. With \\[universal-argument], appends to current keyboard macro (keeping the current value of `kmacro-counter'). When defining/executing macro, inserts macro counter and increments the counter with ARG or 1 if missing. With \\[universal-argument], inserts previous `kmacro-counter' (but do not modify counter). The macro counter can be modified via \\[kmacro-set-counter] and \\[kmacro-add-counter]. The format of the counter can be modified via \\[kmacro-set-format]. \(fn ARG)" t nil) (autoload 'kmacro-end-or-call-macro "kmacro" "\ End kbd macro if currently being defined; else call last kbd macro. With numeric prefix ARG, repeat macro that many times. With \\[universal-argument], call second macro in macro ring. \(fn ARG &optional NO-REPEAT)" t nil) (autoload 'kmacro-end-and-call-macro "kmacro" "\ Call last keyboard macro, ending it first if currently being defined. With numeric prefix ARG, repeat macro that many times. Zero argument means repeat until there is an error. To give a macro a name, so you can call it even after defining other macros, use \\[kmacro-name-last-macro]. \(fn ARG &optional NO-REPEAT)" t nil) (autoload 'kmacro-end-call-mouse "kmacro" "\ Move point to the position clicked with the mouse and call last kbd macro. If kbd macro currently being defined end it before activating it. \(fn EVENT)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "kmacro" '("kmacro-"))) ;;;*** ;;;### (autoloads nil "korea-util" "language/korea-util.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from language/korea-util.el (defvar default-korean-keyboard (purecopy (if (string-match "3" (or (getenv "HANGUL_KEYBOARD_TYPE") "")) "3" "")) "\ The kind of Korean keyboard for Korean input method. \"\" for 2, \"3\" for 3.") (autoload 'setup-korean-environment-internal "korea-util" "\ \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "korea-util" '("exit-korean-environment" "korean-key-bindings" "isearch-" "quail-hangul-switch-" "toggle-korean-input-method"))) ;;;*** ;;;### (autoloads nil "lao-util" "language/lao-util.el" (0 0 0 0)) ;;; Generated autoloads from language/lao-util.el (autoload 'lao-compose-string "lao-util" "\ \(fn STR)" nil nil) (autoload 'lao-transcribe-single-roman-syllable-to-lao "lao-util" "\ Transcribe a Romanized Lao syllable in the region FROM and TO to Lao string. Only the first syllable is transcribed. The value has the form: (START END LAO-STRING), where START and END are the beginning and end positions of the Roman Lao syllable, LAO-STRING is the Lao character transcription of it. Optional 3rd arg STR, if non-nil, is a string to search for Roman Lao syllable. In that case, FROM and TO are indexes to STR. \(fn FROM TO &optional STR)" nil nil) (autoload 'lao-transcribe-roman-to-lao-string "lao-util" "\ Transcribe Romanized Lao string STR to Lao character string. \(fn STR)" nil nil) (autoload 'lao-composition-function "lao-util" "\ \(fn GSTRING)" nil nil) (autoload 'lao-compose-region "lao-util" "\ \(fn FROM TO)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "lao-util" '("lao-"))) ;;;*** ;;;### (autoloads nil "latexenc" "international/latexenc.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from international/latexenc.el (defvar latex-inputenc-coding-alist (purecopy '(("ansinew" . windows-1252) ("applemac" . mac-roman) ("ascii" . us-ascii) ("cp1250" . windows-1250) ("cp1252" . windows-1252) ("cp1257" . cp1257) ("cp437de" . cp437) ("cp437" . cp437) ("cp850" . cp850) ("cp852" . cp852) ("cp858" . cp858) ("cp865" . cp865) ("latin1" . iso-8859-1) ("latin2" . iso-8859-2) ("latin3" . iso-8859-3) ("latin4" . iso-8859-4) ("latin5" . iso-8859-5) ("latin9" . iso-8859-15) ("next" . next) ("utf8" . utf-8) ("utf8x" . utf-8))) "\ Mapping from LaTeX encodings in \"inputenc.sty\" to Emacs coding systems. LaTeX encodings are specified with \"\\usepackage[encoding]{inputenc}\". Used by the function `latexenc-find-file-coding-system'.") (custom-autoload 'latex-inputenc-coding-alist "latexenc" t) (autoload 'latexenc-inputenc-to-coding-system "latexenc" "\ Return the corresponding coding-system for the specified input encoding. Return nil if no matching coding system can be found. \(fn INPUTENC)" nil nil) (autoload 'latexenc-coding-system-to-inputenc "latexenc" "\ Return the corresponding input encoding for the specified coding system. Return nil if no matching input encoding can be found. \(fn CS)" nil nil) (autoload 'latexenc-find-file-coding-system "latexenc" "\ Determine the coding system of a LaTeX file if it uses \"inputenc.sty\". The mapping from LaTeX's \"inputenc.sty\" encoding names to Emacs coding system names is determined from `latex-inputenc-coding-alist'. \(fn ARG-LIST)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "latexenc" '("latexenc-dont-use-"))) ;;;*** ;;;### (autoloads nil "latin1-disp" "international/latin1-disp.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from international/latin1-disp.el (defvar latin1-display nil "\ Set up Latin-1/ASCII display for ISO8859 character sets. This is done for each character set in the list `latin1-display-sets', if no font is available to display it. Characters are displayed using the corresponding Latin-1 characters where they match. Otherwise ASCII sequences are used, mostly following the Latin prefix input methods. Some different ASCII sequences are used if `latin1-display-mnemonic' is non-nil. This option also treats some characters in the `mule-unicode-...' charsets if you don't have a Unicode font with which to display them. Setting this variable directly does not take effect; use either \\[customize] or the function `latin1-display'.") (custom-autoload 'latin1-display "latin1-disp" nil) (autoload 'latin1-display "latin1-disp" "\ Set up Latin-1/ASCII display for the arguments character SETS. See option `latin1-display' for the method. The members of the list must be in `latin1-display-sets'. With no arguments, reset the display for all of `latin1-display-sets'. See also `latin1-display-setup'. \(fn &rest SETS)" nil nil) (defvar latin1-display-ucs-per-lynx nil "\ Set up Latin-1/ASCII display for Unicode characters. This uses the transliterations of the Lynx browser. The display isn't changed if the display can render Unicode characters. Setting this variable directly does not take effect; use either \\[customize] or the function `latin1-display'.") (custom-autoload 'latin1-display-ucs-per-lynx "latin1-disp" nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "latin1-disp" '("latin1-display-"))) ;;;*** ;;;### (autoloads nil "ld-script" "progmodes/ld-script.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from progmodes/ld-script.el (autoload 'ld-script-mode "ld-script" "\ A major mode to edit GNU ld script files \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ld-script" '("ld-script-"))) ;;;*** ;;;### (autoloads nil "ldap" "net/ldap.el" (0 0 0 0)) ;;; Generated autoloads from net/ldap.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ldap" '("ldap-"))) ;;;*** ;;;### (autoloads nil "legacy-gnus-agent" "gnus/legacy-gnus-agent.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from gnus/legacy-gnus-agent.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "legacy-gnus-agent" '("gnus-agent-"))) ;;;*** ;;;### (autoloads nil "less-css-mode" "textmodes/less-css-mode.el" ;;;;;; (0 0 0 0)) ;;; Generated autoloads from textmodes/less-css-mode.el (put 'less-css-compile-at-save 'safe-local-variable 'booleanp) (put 'less-css-lessc-options 'safe-local-variable t) (put 'less-css-output-directory 'safe-local-variable 'stringp) (put 'less-css-input-file-name 'safe-local-variable 'stringp) (add-to-list 'auto-mode-alist '("\\.less\\'" . less-css-mode)) (autoload 'less-css-mode "less-css-mode" "\ Major mode for editing Less files (http://lesscss.org/). Special commands: \\{less-css-mode-map} \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "less-css-mode" '("less-css-"))) ;;;*** ;;;### (autoloads nil "let-alist" "emacs-lisp/let-alist.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from emacs-lisp/let-alist.el (push (purecopy '(let-alist 1 0 5)) package--builtin-versions) (autoload 'let-alist "let-alist" "\ Let-bind dotted symbols to their cdrs in ALIST and execute BODY. Dotted symbol is any symbol starting with a `.'. Only those present in BODY are let-bound and this search is done at compile time. For instance, the following code (let-alist alist (if (and .title .body) .body .site .site.contents)) essentially expands to (let ((.title (cdr (assq \\='title alist))) (.body (cdr (assq \\='body alist))) (.site (cdr (assq \\='site alist))) (.site.contents (cdr (assq \\='contents (cdr (assq \\='site alist)))))) (if (and .title .body) .body .site .site.contents)) If you nest `let-alist' invocations, the inner one can't access the variables of the outer one. You can, however, access alists inside the original alist by using dots inside the symbol, as displayed in the example above. \(fn ALIST &rest BODY)" nil t) (function-put 'let-alist 'lisp-indent-function '1) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "let-alist" '("let-alist--"))) ;;;*** ;;;### (autoloads nil "life" "play/life.el" (0 0 0 0)) ;;; Generated autoloads from play/life.el (autoload 'life "life" "\ Run Conway's Life simulation. The starting pattern is randomly selected. Prefix arg (optional first arg non-nil from a program) is the number of seconds to sleep between generations (this defaults to 1). \(fn &optional SLEEPTIME)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "life" '("life-"))) ;;;*** ;;;### (autoloads nil "linum" "linum.el" (0 0 0 0)) ;;; Generated autoloads from linum.el (push (purecopy '(linum 0 9 24)) package--builtin-versions) (autoload 'linum-mode "linum" "\ Toggle display of line numbers in the left margin (Linum mode). With a prefix argument ARG, enable Linum mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Linum mode is a buffer-local minor mode. \(fn &optional ARG)" t nil) (defvar global-linum-mode nil "\ Non-nil if Global Linum mode is enabled. See the `global-linum-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `global-linum-mode'.") (custom-autoload 'global-linum-mode "linum" nil) (autoload 'global-linum-mode "linum" "\ Toggle Linum mode in all buffers. With prefix ARG, enable Global Linum mode if ARG is positive; otherwise, disable it. If called from Lisp, enable the mode if ARG is omitted or nil. Linum mode is enabled in all buffers where `linum-on' would do it. See `linum-mode' for more information on Linum mode. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "linum" '("linum-"))) ;;;*** ;;;### (autoloads nil "lisp-mnt" "emacs-lisp/lisp-mnt.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from emacs-lisp/lisp-mnt.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "lisp-mnt" '("lm-"))) ;;;*** ;;;### (autoloads nil "loadhist" "loadhist.el" (0 0 0 0)) ;;; Generated autoloads from loadhist.el (autoload 'unload-feature "loadhist" "\ Unload the library that provided FEATURE. If the feature is required by any other loaded code, and prefix arg FORCE is nil, raise an error. Standard unloading activities include restoring old autoloads for functions defined by the library, undoing any additions that the library has made to hook variables or to `auto-mode-alist', undoing ELP profiling of functions in that library, unproviding any features provided by the library, and canceling timers held in variables defined by the library. If a function `FEATURE-unload-function' is defined, this function calls it with no arguments, before doing anything else. That function can do whatever is appropriate to undo the loading of the library. If `FEATURE-unload-function' returns non-nil, that suppresses the standard unloading of the library. Otherwise the standard unloading proceeds. `FEATURE-unload-function' has access to the package's list of definitions in the variable `unload-function-defs-list' and could remove symbols from it in the event that the package has done something strange, such as redefining an Emacs function. \(fn FEATURE &optional FORCE)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "loadhist" '("loadhist-" "unload-" "read-feature" "feature-" "file-"))) ;;;*** ;;;### (autoloads nil "locate" "locate.el" (0 0 0 0)) ;;; Generated autoloads from locate.el (defvar locate-ls-subdir-switches (purecopy "-al") "\ `ls' switches for inserting subdirectories in `*Locate*' buffers. This should contain the \"-l\" switch, but not the \"-F\" or \"-b\" switches.") (custom-autoload 'locate-ls-subdir-switches "locate" t) (autoload 'locate "locate" "\ Run the program `locate', putting results in `*Locate*' buffer. Pass it SEARCH-STRING as argument. Interactively, prompt for SEARCH-STRING. With prefix arg ARG, prompt for the exact shell command to run instead. This program searches for those file names in a database that match SEARCH-STRING and normally outputs all matching absolute file names, one per line. The database normally consists of all files on your system, or of all files that you have access to. Consult the documentation of the program for the details about how it determines which file names match SEARCH-STRING. (Those details vary highly with the version.) You can specify another program for this command to run by customizing the variables `locate-command' or `locate-make-command-line'. The main use of FILTER is to implement `locate-with-filter'. See the docstring of that function for its meaning. After preparing the results buffer, this runs `dired-mode-hook' and then `locate-post-command-hook'. \(fn SEARCH-STRING &optional FILTER ARG)" t nil) (autoload 'locate-with-filter "locate" "\ Run the executable program `locate' with a filter. This function is similar to the function `locate', which see. The difference is that, when invoked interactively, the present function prompts for both SEARCH-STRING and FILTER. It passes SEARCH-STRING to the locate executable program. It produces a `*Locate*' buffer that lists only those lines in the output of the locate program that contain a match for the regular expression FILTER; this is often useful to constrain a big search. ARG is the interactive prefix arg, which has the same effect as in `locate'. When called from Lisp, this function is identical with `locate', except that FILTER is not optional. \(fn SEARCH-STRING FILTER &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "locate" '("locate-"))) ;;;*** ;;;### (autoloads nil "log-edit" "vc/log-edit.el" (0 0 0 0)) ;;; Generated autoloads from vc/log-edit.el (autoload 'log-edit "log-edit" "\ Setup a buffer to enter a log message. The buffer is put in mode MODE or `log-edit-mode' if MODE is nil. \\ If SETUP is non-nil, erase the buffer and run `log-edit-hook'. Set mark and point around the entire contents of the buffer, so that it is easy to kill the contents of the buffer with \\[kill-region]. Once the user is done editing the message, invoking the command \\[log-edit-done] (`log-edit-done') will call CALLBACK to do the actual commit. PARAMS if non-nil is an alist of variables and buffer-local values to give them in the Log Edit buffer. Possible keys and associated values: `log-edit-listfun' -- function taking no arguments that returns the list of files that are concerned by the current operation (using relative names); `log-edit-diff-function' -- function taking no arguments that displays a diff of the files concerned by the current operation. `vc-log-fileset' -- the VC fileset to be committed (if any). If BUFFER is non-nil `log-edit' will jump to that buffer, use it to edit the log message and go back to the current buffer when done. Otherwise, it uses the current buffer. \(fn CALLBACK &optional SETUP PARAMS BUFFER MODE &rest IGNORE)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "log-edit" '("log-edit-" "vc-log-"))) ;;;*** ;;;### (autoloads nil "log-view" "vc/log-view.el" (0 0 0 0)) ;;; Generated autoloads from vc/log-view.el (autoload 'log-view-mode "log-view" "\ Major mode for browsing CVS log output. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "log-view" '("log-view-"))) ;;;*** ;;;### (autoloads nil "lpr" "lpr.el" (0 0 0 0)) ;;; Generated autoloads from lpr.el (defvar lpr-windows-system (memq system-type '(ms-dos windows-nt)) "\ Non-nil if running on MS-DOS or MS Windows.") (defvar lpr-lp-system (memq system-type '(usg-unix-v hpux)) "\ Non-nil if running on a system type that uses the \"lp\" command.") (defvar printer-name (and (eq system-type 'ms-dos) "PRN") "\ The name of a local printer to which data is sent for printing. \(Note that PostScript files are sent to `ps-printer-name', which see.) On Unix-like systems, a string value should be a name understood by lpr's -P option; otherwise the value should be nil. On MS-DOS and MS-Windows systems, a string value is taken as the name of a printer device or port, provided `lpr-command' is set to \"\". Typical non-default settings would be \"LPT1\" to \"LPT3\" for parallel printers, or \"COM1\" to \"COM4\" or \"AUX\" for serial printers, or \"//hostname/printer\" for a shared network printer. You can also set it to the name of a file, in which case the output gets appended to that file. If you want to discard the printed output, set this to \"NUL\".") (custom-autoload 'printer-name "lpr" t) (defvar lpr-switches nil "\ List of strings to pass as extra options for the printer program. It is recommended to set `printer-name' instead of including an explicit switch on this list. See `lpr-command'.") (custom-autoload 'lpr-switches "lpr" t) (defvar lpr-command (purecopy (cond (lpr-windows-system "") (lpr-lp-system "lp") (t "lpr"))) "\ Name of program for printing a file. On MS-DOS and MS-Windows systems, if the value is an empty string then Emacs will write directly to the printer port named by `printer-name'. The programs `print' and `nprint' (the standard print programs on Windows NT and Novell Netware respectively) are handled specially, using `printer-name' as the destination for output; any other program is treated like `lpr' except that an explicit filename is given as the last argument.") (custom-autoload 'lpr-command "lpr" t) (autoload 'lpr-buffer "lpr" "\ Print buffer contents without pagination or page headers. See the variables `lpr-switches' and `lpr-command' for customization of the printer command. \(fn)" t nil) (autoload 'print-buffer "lpr" "\ Paginate and print buffer contents. The variable `lpr-headers-switches' controls how to paginate. If it is nil (the default), we run the `pr' program (or whatever program `lpr-page-header-program' specifies) to paginate. `lpr-page-header-switches' specifies the switches for that program. Otherwise, the switches in `lpr-headers-switches' are used in the print command itself; we expect them to request pagination. See the variables `lpr-switches' and `lpr-command' for further customization of the printer command. \(fn)" t nil) (autoload 'lpr-region "lpr" "\ Print region contents without pagination or page headers. See the variables `lpr-switches' and `lpr-command' for customization of the printer command. \(fn START END)" t nil) (autoload 'print-region "lpr" "\ Paginate and print the region contents. The variable `lpr-headers-switches' controls how to paginate. If it is nil (the default), we run the `pr' program (or whatever program `lpr-page-header-program' specifies) to paginate. `lpr-page-header-switches' specifies the switches for that program. Otherwise, the switches in `lpr-headers-switches' are used in the print command itself; we expect them to request pagination. See the variables `lpr-switches' and `lpr-command' for further customization of the printer command. \(fn START END)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "lpr" '("lpr-" "print"))) ;;;*** ;;;### (autoloads nil "ls-lisp" "ls-lisp.el" (0 0 0 0)) ;;; Generated autoloads from ls-lisp.el (defvar ls-lisp-support-shell-wildcards t "\ Non-nil means ls-lisp treats file patterns as shell wildcards. Otherwise they are treated as Emacs regexps (for backward compatibility).") (custom-autoload 'ls-lisp-support-shell-wildcards "ls-lisp" t) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "ls-lisp" '("ls-lisp-"))) ;;;*** ;;;### (autoloads nil "lunar" "calendar/lunar.el" (0 0 0 0)) ;;; Generated autoloads from calendar/lunar.el (autoload 'lunar-phases "lunar" "\ Display the quarters of the moon for last month, this month, and next month. If called with an optional prefix argument ARG, prompts for month and year. This function is suitable for execution in an init file. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "lunar" '("lunar-" "diary-lunar-phases" "calendar-lunar-phases"))) ;;;*** ;;;### (autoloads nil "m4-mode" "progmodes/m4-mode.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/m4-mode.el (autoload 'm4-mode "m4-mode" "\ A major mode to edit m4 macro files. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "m4-mode" '("m4-"))) ;;;*** ;;;### (autoloads nil "macros" "macros.el" (0 0 0 0)) ;;; Generated autoloads from macros.el (autoload 'name-last-kbd-macro "macros" "\ Assign a name to the last keyboard macro defined. Argument SYMBOL is the name to define. The symbol's function definition becomes the keyboard macro string. Such a \"function\" cannot be called from Lisp, but it is a valid editor command. \(fn SYMBOL)" t nil) (autoload 'insert-kbd-macro "macros" "\ Insert in buffer the definition of kbd macro MACRONAME, as Lisp code. MACRONAME should be a symbol. Optional second arg KEYS means also record the keys it is on \(this is the prefix argument, when calling interactively). This Lisp code will, when executed, define the kbd macro with the same definition it has now. If you say to record the keys, the Lisp code will also rebind those keys to the macro. Only global key bindings are recorded since executing this Lisp code always makes global bindings. To save a kbd macro, visit a file of Lisp code such as your `~/.emacs', use this command, and then save the file. \(fn MACRONAME &optional KEYS)" t nil) (autoload 'kbd-macro-query "macros" "\ Query user during kbd macro execution. With prefix argument, enters recursive edit, reading keyboard commands even within a kbd macro. You can give different commands each time the macro executes. Without prefix argument, asks whether to continue running the macro. Your options are: \\ \\[act] Finish this iteration normally and continue with the next. \\[skip] Skip the rest of this iteration, and start the next. \\[exit] Stop the macro entirely right now. \\[recenter] Redisplay the screen, then ask again. \\[edit] Enter recursive edit; ask again when you exit from that. \(fn FLAG)" t nil) (autoload 'apply-macro-to-region-lines "macros" "\ Apply last keyboard macro to all lines in the region. For each line that begins in the region, move to the beginning of the line, and run the last keyboard macro. When called from lisp, this function takes two arguments TOP and BOTTOM, describing the current region. TOP must be before BOTTOM. The optional third argument MACRO specifies a keyboard macro to execute. This is useful for quoting or unquoting included text, adding and removing comments, or producing tables where the entries are regular. For example, in Usenet articles, sections of text quoted from another author are indented, or have each line start with `>'. To quote a section of text, define a keyboard macro which inserts `>', put point and mark at opposite ends of the quoted section, and use `\\[apply-macro-to-region-lines]' to mark the entire section. Suppose you wanted to build a keyword table in C where each entry looked like this: { \"foo\", foo_data, foo_function }, { \"bar\", bar_data, bar_function }, { \"baz\", baz_data, baz_function }, You could enter the names in this format: foo bar baz and write a macro to massage a word into a table entry: \\C-x ( \\M-d { \"\\C-y\", \\C-y_data, \\C-y_function }, \\C-x ) and then select the region of un-tablified names and use `\\[apply-macro-to-region-lines]' to build the table from the names. \(fn TOP BOTTOM &optional MACRO)" t nil) (define-key ctl-x-map "q" 'kbd-macro-query) ;;;*** ;;;### (autoloads nil "mail-extr" "mail/mail-extr.el" (0 0 0 0)) ;;; Generated autoloads from mail/mail-extr.el (autoload 'mail-extract-address-components "mail-extr" "\ Given an RFC-822 address ADDRESS, extract full name and canonical address. Returns a list of the form (FULL-NAME CANONICAL-ADDRESS). If no name can be extracted, FULL-NAME will be nil. Also see `mail-extr-ignore-single-names' and `mail-extr-ignore-realname-equals-mailbox-name'. If the optional argument ALL is non-nil, then ADDRESS can contain zero or more recipients, separated by commas, and we return a list of the form ((FULL-NAME CANONICAL-ADDRESS) ...) with one element for each recipient. If ALL is nil, then if ADDRESS contains more than one recipients, all but the first is ignored. ADDRESS may be a string or a buffer. If it is a buffer, the visible \(narrowed) portion of the buffer will be interpreted as the address. \(This feature exists so that the clever caller might be able to avoid consing a string.) \(fn ADDRESS &optional ALL)" nil nil) (autoload 'what-domain "mail-extr" "\ Convert mail domain DOMAIN to the country it corresponds to. \(fn DOMAIN)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mail-extr" '("mail-extr-"))) ;;;*** ;;;### (autoloads nil "mail-hist" "mail/mail-hist.el" (0 0 0 0)) ;;; Generated autoloads from mail/mail-hist.el (autoload 'mail-hist-define-keys "mail-hist" "\ Define keys for accessing mail header history. For use in hooks. \(fn)" nil nil) (autoload 'mail-hist-enable "mail-hist" "\ \(fn)" nil nil) (defvar mail-hist-keep-history t "\ Non-nil means keep a history for headers and text of outgoing mail.") (custom-autoload 'mail-hist-keep-history "mail-hist" t) (autoload 'mail-hist-put-headers-into-history "mail-hist" "\ Put headers and contents of this message into mail header history. Each header has its own independent history, as does the body of the message. This function normally would be called when the message is sent. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mail-hist" '("mail-hist-"))) ;;;*** ;;;### (autoloads nil "mail-parse" "mail/mail-parse.el" (0 0 0 0)) ;;; Generated autoloads from mail/mail-parse.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mail-parse" '("mail-"))) ;;;*** ;;;### (autoloads nil "mail-prsvr" "mail/mail-prsvr.el" (0 0 0 0)) ;;; Generated autoloads from mail/mail-prsvr.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mail-prsvr" '("mail-parse-"))) ;;;*** ;;;### (autoloads nil "mail-source" "gnus/mail-source.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from gnus/mail-source.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mail-source" '("mail-source"))) ;;;*** ;;;### (autoloads nil "mail-utils" "mail/mail-utils.el" (0 0 0 0)) ;;; Generated autoloads from mail/mail-utils.el (defvar mail-use-rfc822 nil "\ If non-nil, use a full, hairy RFC822 parser on mail addresses. Otherwise, (the default) use a smaller, somewhat faster, and often correct parser.") (custom-autoload 'mail-use-rfc822 "mail-utils" t) (defvar mail-dont-reply-to-names nil "\ Regexp specifying addresses to prune from a reply message. If this is nil, it is set the first time you compose a reply, to a value which excludes your own email address. Matching addresses are excluded from the CC field in replies, and also the To field, unless this would leave an empty To field.") (custom-autoload 'mail-dont-reply-to-names "mail-utils" t) (autoload 'mail-file-babyl-p "mail-utils" "\ Return non-nil if FILE is a Babyl file. \(fn FILE)" nil nil) (autoload 'mail-quote-printable "mail-utils" "\ Convert a string to the \"quoted printable\" Q encoding if necessary. If the string contains only ASCII characters and no troublesome ones, we return it unconverted. If the optional argument WRAPPER is non-nil, we add the wrapper characters =?ISO-8859-1?Q?....?=. \(fn STRING &optional WRAPPER)" nil nil) (autoload 'mail-quote-printable-region "mail-utils" "\ Convert the region to the \"quoted printable\" Q encoding. If the optional argument WRAPPER is non-nil, we add the wrapper characters =?ISO-8859-1?Q?....?=. \(fn BEG END &optional WRAPPER)" t nil) (autoload 'mail-unquote-printable "mail-utils" "\ Undo the \"quoted printable\" encoding. If the optional argument WRAPPER is non-nil, we expect to find and remove the wrapper characters =?ISO-8859-1?Q?....?=. \(fn STRING &optional WRAPPER)" nil nil) (autoload 'mail-unquote-printable-region "mail-utils" "\ Undo the \"quoted printable\" encoding in buffer from BEG to END. If the optional argument WRAPPER is non-nil, we expect to find and remove the wrapper characters =?ISO-8859-1?Q?....?=. On encountering malformed quoted-printable text, exits with an error, unless NOERROR is non-nil, in which case it continues, and returns nil when finished. Returns non-nil on successful completion. If UNIBYTE is non-nil, insert converted characters as unibyte. That is useful if you are going to character code decoding afterward, as Rmail does. \(fn BEG END &optional WRAPPER NOERROR UNIBYTE)" t nil) (autoload 'mail-fetch-field "mail-utils" "\ Return the value of the header field whose type is FIELD-NAME. If second arg LAST is non-nil, use the last field of type FIELD-NAME. If third arg ALL is non-nil, concatenate all such fields with commas between. If 4th arg LIST is non-nil, return a list of all such fields. The buffer should be narrowed to just the header, else false matches may be returned from the message body. \(fn FIELD-NAME &optional LAST ALL LIST)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mail-utils" '("mail-"))) ;;;*** ;;;### (autoloads nil "mailabbrev" "mail/mailabbrev.el" (0 0 0 0)) ;;; Generated autoloads from mail/mailabbrev.el (defvar mail-abbrevs-mode nil "\ Non-nil if Mail-Abbrevs mode is enabled. See the `mail-abbrevs-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `mail-abbrevs-mode'.") (custom-autoload 'mail-abbrevs-mode "mailabbrev" nil) (autoload 'mail-abbrevs-mode "mailabbrev" "\ Toggle abbrev expansion of mail aliases (Mail Abbrevs mode). With a prefix argument ARG, enable Mail Abbrevs mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Mail Abbrevs mode is a global minor mode. When enabled, abbrev-like expansion is performed when editing certain mail headers (those specified by `mail-abbrev-mode-regexp'), based on the entries in your `mail-personal-alias-file'. \(fn &optional ARG)" t nil) (autoload 'mail-abbrevs-setup "mailabbrev" "\ Initialize use of the `mailabbrev' package. \(fn)" nil nil) (autoload 'build-mail-abbrevs "mailabbrev" "\ Read mail aliases from personal mail alias file and set `mail-abbrevs'. By default this is the file specified by `mail-personal-alias-file'. \(fn &optional FILE RECURSIVEP)" nil nil) (autoload 'define-mail-abbrev "mailabbrev" "\ Define NAME as a mail alias abbrev that translates to DEFINITION. If DEFINITION contains multiple addresses, separate them with commas. Optional argument FROM-MAILRC-FILE means that DEFINITION comes from a mailrc file. In that case, addresses are separated with spaces and addresses with embedded spaces are surrounded by double-quotes. \(fn NAME DEFINITION &optional FROM-MAILRC-FILE)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mailabbrev" '("merge-mail-abbrevs" "mail-" "rebuild-mail-abbrevs"))) ;;;*** ;;;### (autoloads nil "mailalias" "mail/mailalias.el" (0 0 0 0)) ;;; Generated autoloads from mail/mailalias.el (defvar mail-complete-style 'angles "\ Specifies how \\[mail-complete] formats the full name when it completes. If nil, they contain just the return address like: king@grassland.com If `parens', they look like: king@grassland.com (Elvis Parsley) If `angles', they look like: Elvis Parsley ") (custom-autoload 'mail-complete-style "mailalias" t) (autoload 'expand-mail-aliases "mailalias" "\ Expand all mail aliases in suitable header fields found between BEG and END. If interactive, expand in header fields. Suitable header fields are `To', `From', `CC' and `BCC', `Reply-to', and their `Resent-' variants. Optional second arg EXCLUDE may be a regular expression defining text to be removed from alias expansions. \(fn BEG END &optional EXCLUDE)" t nil) (autoload 'define-mail-alias "mailalias" "\ Define NAME as a mail alias that translates to DEFINITION. This means that sending a message to NAME will actually send to DEFINITION. Normally, the addresses in DEFINITION must be separated by commas. If FROM-MAILRC-FILE is non-nil, then addresses in DEFINITION can be separated by spaces; an address can contain spaces if it is quoted with double-quotes. \(fn NAME DEFINITION &optional FROM-MAILRC-FILE)" t nil) (autoload 'mail-completion-at-point-function "mailalias" "\ Compute completion data for mail aliases. For use on `completion-at-point-functions'. \(fn)" nil nil) (autoload 'mail-complete "mailalias" "\ Perform completion on header field or word preceding point. Completable headers are according to `mail-complete-alist'. If none matches current header, calls `mail-complete-function' and passes prefix ARG if any. \(fn ARG)" t nil) (make-obsolete 'mail-complete 'mail-completion-at-point-function '"24.1") (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mailalias" '("mail-" "build-mail-aliases"))) ;;;*** ;;;### (autoloads nil "mailcap" "net/mailcap.el" (0 0 0 0)) ;;; Generated autoloads from net/mailcap.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mailcap" '("mailcap-"))) ;;;*** ;;;### (autoloads nil "mailclient" "mail/mailclient.el" (0 0 0 0)) ;;; Generated autoloads from mail/mailclient.el (autoload 'mailclient-send-it "mailclient" "\ Pass current buffer on to the system's mail client. Suitable value for `send-mail-function'. The mail client is taken to be the handler of mailto URLs. \(fn)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mailclient" '("mailclient-"))) ;;;*** ;;;### (autoloads nil "mailheader" "mail/mailheader.el" (0 0 0 0)) ;;; Generated autoloads from mail/mailheader.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mailheader" '("mail-header"))) ;;;*** ;;;### (autoloads nil "mairix" "net/mairix.el" (0 0 0 0)) ;;; Generated autoloads from net/mairix.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mairix" '("mairix-"))) ;;;*** ;;;### (autoloads nil "make-mode" "progmodes/make-mode.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from progmodes/make-mode.el (autoload 'makefile-mode "make-mode" "\ Major mode for editing standard Makefiles. If you are editing a file for a different make, try one of the variants `makefile-automake-mode', `makefile-gmake-mode', `makefile-makepp-mode', `makefile-bsdmake-mode' or, `makefile-imake-mode'. All but the last should be correctly chosen based on the file name, except if it is *.mk. This function ends by invoking the function(s) `makefile-mode-hook'. It is strongly recommended to use `font-lock-mode', because that provides additional parsing information. This is used for example to see that a rule action `echo foo: bar' is a not rule dependency, despite the colon. \\{makefile-mode-map} In the browser, use the following keys: \\{makefile-browser-map} Makefile mode can be configured by modifying the following variables: `makefile-browser-buffer-name': Name of the macro- and target browser buffer. `makefile-target-colon': The string that gets appended to all target names inserted by `makefile-insert-target'. \":\" or \"::\" are quite common values. `makefile-macro-assign': The string that gets appended to all macro names inserted by `makefile-insert-macro'. The normal value should be \" = \", since this is what standard make expects. However, newer makes such as dmake allow a larger variety of different macro assignments, so you might prefer to use \" += \" or \" := \" . `makefile-tab-after-target-colon': If you want a TAB (instead of a space) to be appended after the target colon, then set this to a non-nil value. `makefile-browser-leftmost-column': Number of blanks to the left of the browser selection mark. `makefile-browser-cursor-column': Column in which the cursor is positioned when it moves up or down in the browser. `makefile-browser-selected-mark': String used to mark selected entries in the browser. `makefile-browser-unselected-mark': String used to mark unselected entries in the browser. `makefile-browser-auto-advance-after-selection-p': If this variable is set to a non-nil value the cursor will automagically advance to the next line after an item has been selected in the browser. `makefile-pickup-everything-picks-up-filenames-p': If this variable is set to a non-nil value then `makefile-pickup-everything' also picks up filenames as targets (i.e. it calls `makefile-pickup-filenames-as-targets'), otherwise filenames are omitted. `makefile-cleanup-continuations': If this variable is set to a non-nil value then Makefile mode will assure that no line in the file ends with a backslash (the continuation character) followed by any whitespace. This is done by silently removing the trailing whitespace, leaving the backslash itself intact. IMPORTANT: Please note that enabling this option causes Makefile mode to MODIFY A FILE WITHOUT YOUR CONFIRMATION when \"it seems necessary\". `makefile-browser-hook': A function or list of functions to be called just before the browser is entered. This is executed in the makefile buffer. `makefile-special-targets-list': List of special targets. You will be offered to complete on one of those in the minibuffer whenever you enter a `.'. at the beginning of a line in Makefile mode. \(fn)" t nil) (autoload 'makefile-automake-mode "make-mode" "\ An adapted `makefile-mode' that knows about automake. \(fn)" t nil) (autoload 'makefile-gmake-mode "make-mode" "\ An adapted `makefile-mode' that knows about gmake. \(fn)" t nil) (autoload 'makefile-makepp-mode "make-mode" "\ An adapted `makefile-mode' that knows about makepp. \(fn)" t nil) (autoload 'makefile-bsdmake-mode "make-mode" "\ An adapted `makefile-mode' that knows about BSD make. \(fn)" t nil) (autoload 'makefile-imake-mode "make-mode" "\ An adapted `makefile-mode' that knows about imake. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "make-mode" '("makefile-"))) ;;;*** ;;;### (autoloads nil "makeinfo" "textmodes/makeinfo.el" (0 0 0 0)) ;;; Generated autoloads from textmodes/makeinfo.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "makeinfo" '("makeinfo-"))) ;;;*** ;;;### (autoloads nil "makesum" "makesum.el" (0 0 0 0)) ;;; Generated autoloads from makesum.el (autoload 'make-command-summary "makesum" "\ Make a summary of current key bindings in the buffer *Summary*. Previous contents of that buffer are killed first. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "makesum" '("double-column"))) ;;;*** ;;;### (autoloads nil "man" "man.el" (0 0 0 0)) ;;; Generated autoloads from man.el (defalias 'manual-entry 'man) (autoload 'man "man" "\ Get a Un*x manual page and put it in a buffer. This command is the top-level command in the man package. It runs a Un*x command to retrieve and clean a manpage in the background and places the results in a `Man-mode' browsing buffer. The variable `Man-width' defines the number of columns in formatted manual pages. The buffer is displayed immediately. The variable `Man-notify-method' defines how the buffer is displayed. If a buffer already exists for this man page, it will be displayed without running the man command. For a manpage from a particular section, use either of the following. \"cat(1)\" is how cross-references appear and is passed to man as \"1 cat\". cat(1) 1 cat To see manpages from all sections related to a subject, use an \"all pages\" option (which might be \"-a\" if it's not the default), then step through with `Man-next-manpage' (\\\\[Man-next-manpage]) etc. Add to `Man-switches' to make this option permanent. -a chmod An explicit filename can be given too. Use -l if it might otherwise look like a page name. /my/file/name.1.gz -l somefile.1 An \"apropos\" query with -k gives a buffer of matching page names or descriptions. The pattern argument is usually an \"grep -E\" style regexp. -k pattern \(fn MAN-ARGS)" t nil) (autoload 'man-follow "man" "\ Get a Un*x manual page of the item under point and put it in a buffer. \(fn MAN-ARGS)" t nil) (autoload 'Man-bookmark-jump "man" "\ Default bookmark handler for Man buffers. \(fn BOOKMARK)" nil nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "man" '("Man-" "man"))) ;;;*** ;;;### (autoloads nil "mantemp" "progmodes/mantemp.el" (0 0 0 0)) ;;; Generated autoloads from progmodes/mantemp.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mantemp" '("mantemp-"))) ;;;*** ;;;### (autoloads nil "map" "emacs-lisp/map.el" (0 0 0 0)) ;;; Generated autoloads from emacs-lisp/map.el (push (purecopy '(map 1 2)) package--builtin-versions) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "map" '("map"))) ;;;*** ;;;### (autoloads nil "master" "master.el" (0 0 0 0)) ;;; Generated autoloads from master.el (push (purecopy '(master 1 0 2)) package--builtin-versions) (autoload 'master-mode "master" "\ Toggle Master mode. With a prefix argument ARG, enable Master mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. When Master mode is enabled, you can scroll the slave buffer using the following commands: \\{master-mode-map} The slave buffer is stored in the buffer-local variable `master-of'. You can set this variable using `master-set-slave'. You can show yourself the value of `master-of' by calling `master-show-slave'. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "master" '("master-"))) ;;;*** ;;;### (autoloads nil "mb-depth" "mb-depth.el" (0 0 0 0)) ;;; Generated autoloads from mb-depth.el (defvar minibuffer-depth-indicate-mode nil "\ Non-nil if Minibuffer-Depth-Indicate mode is enabled. See the `minibuffer-depth-indicate-mode' command for a description of this minor mode. Setting this variable directly does not take effect; either customize it (see the info node `Easy Customization') or call the function `minibuffer-depth-indicate-mode'.") (custom-autoload 'minibuffer-depth-indicate-mode "mb-depth" nil) (autoload 'minibuffer-depth-indicate-mode "mb-depth" "\ Toggle Minibuffer Depth Indication mode. With a prefix argument ARG, enable Minibuffer Depth Indication mode if ARG is positive, and disable it otherwise. If called from Lisp, enable the mode if ARG is omitted or nil. Minibuffer Depth Indication mode is a global minor mode. When enabled, any recursive use of the minibuffer will show the recursion depth in the minibuffer prompt. This is only useful if `enable-recursive-minibuffers' is non-nil. \(fn &optional ARG)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mb-depth" '("minibuffer-depth-"))) ;;;*** ;;;### (autoloads nil "md4" "md4.el" (0 0 0 0)) ;;; Generated autoloads from md4.el (push (purecopy '(md4 1 0)) package--builtin-versions) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "md4" '("md4"))) ;;;*** ;;;### (autoloads nil "message" "gnus/message.el" (0 0 0 0)) ;;; Generated autoloads from gnus/message.el (define-mail-user-agent 'message-user-agent 'message-mail 'message-send-and-exit 'message-kill-buffer 'message-send-hook) (autoload 'message-mode "message" "\ Major mode for editing mail and news to be sent. Like Text Mode but with these additional commands:\\ C-c C-s `message-send' (send the message) C-c C-c `message-send-and-exit' C-c C-d Postpone sending the message C-c C-k Kill the message C-c C-f move to a header field (and create it if there isn't): C-c C-f C-t move to To C-c C-f C-s move to Subject C-c C-f C-c move to Cc C-c C-f C-b move to Bcc C-c C-f C-w move to Fcc C-c C-f C-r move to Reply-To C-c C-f C-u move to Summary C-c C-f C-n move to Newsgroups C-c C-f C-k move to Keywords C-c C-f C-d move to Distribution C-c C-f C-o move to From (\"Originator\") C-c C-f C-f move to Followup-To C-c C-f C-m move to Mail-Followup-To C-c C-f C-e move to Expires C-c C-f C-i cycle through Importance values C-c C-f s change subject and append \"(was: )\" C-c C-f x crossposting with FollowUp-To header and note in body C-c C-f t replace To: header with contents of Cc: or Bcc: C-c C-f a Insert X-No-Archive: header and a note in the body C-c C-t `message-insert-to' (add a To header to a news followup) C-c C-l `message-to-list-only' (removes all but list address in to/cc) C-c C-n `message-insert-newsgroups' (add a Newsgroup header to a news reply) C-c C-b `message-goto-body' (move to beginning of message text). C-c C-i `message-goto-signature' (move to the beginning of the signature). C-c C-w `message-insert-signature' (insert `message-signature-file' file). C-c C-y `message-yank-original' (insert current message, if any). C-c C-q `message-fill-yanked-message' (fill what was yanked). C-c C-e `message-elide-region' (elide the text between point and mark). C-c C-v `message-delete-not-region' (remove the text outside the region). C-c C-z `message-kill-to-signature' (kill the text up to the signature). C-c C-r `message-caesar-buffer-body' (rot13 the message body). C-c C-a `mml-attach-file' (attach a file as MIME). C-c C-u `message-insert-or-toggle-importance' (insert or cycle importance). C-c M-n `message-insert-disposition-notification-to' (request receipt). C-c M-m `message-mark-inserted-region' (mark region with enclosing tags). C-c M-f `message-mark-insert-file' (insert file marked with enclosing tags). M-RET `message-newline-and-reformat' (break the line and reformat). \(fn)" t nil) (autoload 'message-mail "message" "\ Start editing a mail message to be sent. OTHER-HEADERS is an alist of header/value pairs. CONTINUE says whether to continue editing a message already being composed. SWITCH-FUNCTION is a function used to switch to and display the mail buffer. \(fn &optional TO SUBJECT OTHER-HEADERS CONTINUE SWITCH-FUNCTION YANK-ACTION SEND-ACTIONS RETURN-ACTION &rest IGNORED)" t nil) (autoload 'message-news "message" "\ Start editing a news article to be sent. \(fn &optional NEWSGROUPS SUBJECT)" t nil) (autoload 'message-reply "message" "\ Start editing a reply to the article in the current buffer. \(fn &optional TO-ADDRESS WIDE SWITCH-FUNCTION)" t nil) (autoload 'message-wide-reply "message" "\ Make a \"wide\" reply to the message in the current buffer. \(fn &optional TO-ADDRESS)" t nil) (autoload 'message-followup "message" "\ Follow up to the message in the current buffer. If TO-NEWSGROUPS, use that as the new Newsgroups line. \(fn &optional TO-NEWSGROUPS)" t nil) (autoload 'message-cancel-news "message" "\ Cancel an article you posted. If ARG, allow editing of the cancellation message. \(fn &optional ARG)" t nil) (autoload 'message-supersede "message" "\ Start composing a message to supersede the current message. This is done simply by taking the old article and adding a Supersedes header line with the old Message-ID. \(fn)" t nil) (autoload 'message-recover "message" "\ Reread contents of current buffer from its last auto-save file. \(fn)" t nil) (autoload 'message-forward "message" "\ Forward the current message via mail. Optional NEWS will use news to forward instead of mail. Optional DIGEST will use digest to forward. \(fn &optional NEWS DIGEST)" t nil) (autoload 'message-forward-make-body "message" "\ \(fn FORWARD-BUFFER &optional DIGEST)" nil nil) (autoload 'message-forward-rmail-make-body "message" "\ \(fn FORWARD-BUFFER)" nil nil) (autoload 'message-insinuate-rmail "message" "\ Let RMAIL use message to forward. \(fn)" t nil) (autoload 'message-resend "message" "\ Resend the current article to ADDRESS. \(fn ADDRESS)" t nil) (autoload 'message-bounce "message" "\ Re-mail the current message. This only makes sense if the current message is a bounce message that contains some mail you have written which has been bounced back to you. \(fn)" t nil) (autoload 'message-mail-other-window "message" "\ Like `message-mail' command, but display mail buffer in another window. \(fn &optional TO SUBJECT)" t nil) (autoload 'message-mail-other-frame "message" "\ Like `message-mail' command, but display mail buffer in another frame. \(fn &optional TO SUBJECT)" t nil) (autoload 'message-news-other-window "message" "\ Start editing a news article to be sent. \(fn &optional NEWSGROUPS SUBJECT)" t nil) (autoload 'message-news-other-frame "message" "\ Start editing a news article to be sent. \(fn &optional NEWSGROUPS SUBJECT)" t nil) (autoload 'message-bold-region "message" "\ Bold all nonblank characters in the region. Works by overstriking characters. Called from program, takes two arguments START and END which specify the range to operate on. \(fn START END)" t nil) (autoload 'message-unbold-region "message" "\ Remove all boldness (overstruck characters) in the region. Called from program, takes two arguments START and END which specify the range to operate on. \(fn START END)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "message" '("message-" "nil"))) ;;;*** ;;;### (autoloads nil "meta-mode" "progmodes/meta-mode.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from progmodes/meta-mode.el (push (purecopy '(meta-mode 1 0)) package--builtin-versions) (autoload 'metafont-mode "meta-mode" "\ Major mode for editing Metafont sources. \(fn)" t nil) (autoload 'metapost-mode "meta-mode" "\ Major mode for editing MetaPost sources. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "meta-mode" '("meta" "font-lock-match-meta-declaration-item-and-skip-to-next"))) ;;;*** ;;;### (autoloads nil "metamail" "mail/metamail.el" (0 0 0 0)) ;;; Generated autoloads from mail/metamail.el (autoload 'metamail-interpret-header "metamail" "\ Interpret a header part of a MIME message in current buffer. Its body part is not interpreted at all. \(fn)" t nil) (autoload 'metamail-interpret-body "metamail" "\ Interpret a body part of a MIME message in current buffer. Optional argument VIEWMODE specifies the value of the EMACS_VIEW_MODE environment variable (defaulted to 1). Optional argument NODISPLAY non-nil means buffer is not redisplayed as output is inserted. Its header part is not interpreted at all. \(fn &optional VIEWMODE NODISPLAY)" t nil) (autoload 'metamail-buffer "metamail" "\ Process current buffer through `metamail'. Optional argument VIEWMODE specifies the value of the EMACS_VIEW_MODE environment variable (defaulted to 1). Optional argument BUFFER specifies a buffer to be filled (nil means current). Optional argument NODISPLAY non-nil means buffer is not redisplayed as output is inserted. \(fn &optional VIEWMODE BUFFER NODISPLAY)" t nil) (autoload 'metamail-region "metamail" "\ Process current region through `metamail'. Optional argument VIEWMODE specifies the value of the EMACS_VIEW_MODE environment variable (defaulted to 1). Optional argument BUFFER specifies a buffer to be filled (nil means current). Optional argument NODISPLAY non-nil means buffer is not redisplayed as output is inserted. \(fn BEG END &optional VIEWMODE BUFFER NODISPLAY)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "metamail" '("metamail-"))) ;;;*** ;;;### (autoloads nil "mh-acros" "mh-e/mh-acros.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-acros.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-acros" '("mh-" "with-mh-folder-updating" "defun-mh" "defmacro-mh"))) ;;;*** ;;;### (autoloads nil "mh-alias" "mh-e/mh-alias.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-alias.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-alias" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-buffers" "mh-e/mh-buffers.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-buffers.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-buffers" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-comp" "mh-e/mh-comp.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-comp.el (autoload 'mh-smail "mh-comp" "\ Compose a message with the MH mail system. See `mh-send' for more details on composing mail. \(fn)" t nil) (autoload 'mh-smail-other-window "mh-comp" "\ Compose a message with the MH mail system in other window. See `mh-send' for more details on composing mail. \(fn)" t nil) (autoload 'mh-smail-batch "mh-comp" "\ Compose a message with the MH mail system. This function does not prompt the user for any header fields, and thus is suitable for use by programs that want to create a mail buffer. Users should use \\[mh-smail] to compose mail. Optional arguments for setting certain fields include TO, SUBJECT, and OTHER-HEADERS. Additional arguments are IGNORED. This function remains for Emacs 21 compatibility. New applications should use `mh-user-agent-compose'. \(fn &optional TO SUBJECT OTHER-HEADERS &rest IGNORED)" nil nil) (define-mail-user-agent 'mh-e-user-agent 'mh-user-agent-compose 'mh-send-letter 'mh-fully-kill-draft 'mh-before-send-letter-hook) (autoload 'mh-user-agent-compose "mh-comp" "\ Set up mail composition draft with the MH mail system. This is the `mail-user-agent' entry point to MH-E. This function conforms to the contract specified by `define-mail-user-agent' which means that this function should accept the same arguments as `compose-mail'. The optional arguments TO and SUBJECT specify recipients and the initial Subject field, respectively. OTHER-HEADERS is an alist specifying additional header fields. Elements look like (HEADER . VALUE) where both HEADER and VALUE are strings. CONTINUE, SWITCH-FUNCTION, YANK-ACTION, SEND-ACTIONS, and RETURN-ACTION and any additional arguments are IGNORED. \(fn &optional TO SUBJECT OTHER-HEADERS CONTINUE SWITCH-FUNCTION YANK-ACTION SEND-ACTIONS RETURN-ACTION &rest IGNORED)" nil nil) (autoload 'mh-send-letter "mh-comp" "\ Save draft and send message. When you are all through editing a message, you send it with this command. You can give a prefix argument ARG to monitor the first stage of the delivery; this output can be found in a buffer called \"*MH-E Mail Delivery*\". The hook `mh-before-send-letter-hook' is run at the beginning of this command. For example, if you want to check your spelling in your message before sending, add the function `ispell-message'. Unless `mh-insert-auto-fields' had previously been called manually, the function `mh-insert-auto-fields' is called to insert fields based upon the recipients. If fields are added, you are given a chance to see and to confirm these fields before the message is actually sent. You can do away with this confirmation by turning off the option `mh-auto-fields-prompt-flag'. In case the MH \"send\" program is installed under a different name, use `mh-send-prog' to tell MH-E the name. The hook `mh-annotate-msg-hook' is run after annotating the message and scan line. \(fn &optional ARG)" t nil) (autoload 'mh-fully-kill-draft "mh-comp" "\ Quit editing and delete draft message. If for some reason you are not happy with the draft, you can use this command to kill the draft buffer and delete the draft message. Use the command \\[kill-buffer] if you don't want to delete the draft message. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-comp" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-compat" "mh-e/mh-compat.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-compat.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-compat" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-e" "mh-e/mh-e.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-e.el (push (purecopy '(mh-e 8 6 -4)) package--builtin-versions) (put 'mh-progs 'risky-local-variable t) (put 'mh-lib 'risky-local-variable t) (put 'mh-lib-progs 'risky-local-variable t) (autoload 'mh-version "mh-e" "\ Display version information about MH-E and the MH mail handling system. \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-e" '("mh-" "defgroup-mh" "defcustom-mh" "defface-mh"))) ;;;*** ;;;### (autoloads nil "mh-folder" "mh-e/mh-folder.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-folder.el (autoload 'mh-rmail "mh-folder" "\ Incorporate new mail with MH. Scan an MH folder if ARG is non-nil. This function is an entry point to MH-E, the Emacs interface to the MH mail system. \(fn &optional ARG)" t nil) (autoload 'mh-nmail "mh-folder" "\ Check for new mail in inbox folder. Scan an MH folder if ARG is non-nil. This function is an entry point to MH-E, the Emacs interface to the MH mail system. \(fn &optional ARG)" t nil) (autoload 'mh-folder-mode "mh-folder" "\ Major MH-E mode for \"editing\" an MH folder scan listing.\\ You can show the message the cursor is pointing to, and step through the messages. Messages can be marked for deletion or refiling into another folder; these commands are executed all at once with a separate command. Options that control this mode can be changed with \\[customize-group]; specify the \"mh\" group. In particular, please see the `mh-scan-format-file' option if you wish to modify scan's format. When a folder is visited, the hook `mh-folder-mode-hook' is run. Ranges ====== Many commands that operate on individual messages, such as `mh-forward' or `mh-refile-msg' take a RANGE argument. This argument can be used in several ways. If you provide the prefix argument (\\[universal-argument]) to these commands, then you will be prompted for the message range. This can be any valid MH range which can include messages, sequences, and the abbreviations (described in the mh(1) man page): - Indicates all messages in the range to , inclusive. The range must be nonempty. :N :+N :-N Up to N messages beginning with (or ending with) message num. Num may be any of the predefined symbols: first, prev, cur, next or last. first:N prev:N next:N last:N The first, previous, next or last messages, if they exist. all All of the messages. For example, a range that shows all of these things is `1 2 3 5-10 last:5 unseen'. If the option `transient-mark-mode' is set to t and you set a region in the MH-Folder buffer, then the MH-E command will perform the operation on all messages in that region. \\{mh-folder-mode-map} \(fn)" t nil) (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-folder" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-funcs" "mh-e/mh-funcs.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-funcs.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-funcs" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-identity" "mh-e/mh-identity.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from mh-e/mh-identity.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-identity" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-inc" "mh-e/mh-inc.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-inc.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-inc" '("mh-inc-spool-"))) ;;;*** ;;;### (autoloads nil "mh-junk" "mh-e/mh-junk.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-junk.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-junk" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-letter" "mh-e/mh-letter.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-letter.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-letter" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-limit" "mh-e/mh-limit.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-limit.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-limit" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-mime" "mh-e/mh-mime.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-mime.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-mime" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-print" "mh-e/mh-print.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-print.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-print" '("mh-p"))) ;;;*** ;;;### (autoloads nil "mh-scan" "mh-e/mh-scan.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-scan.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-scan" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-search" "mh-e/mh-search.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-search.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-search" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-seq" "mh-e/mh-seq.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-seq.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-seq" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-show" "mh-e/mh-show.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-show.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-show" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-speed" "mh-e/mh-speed.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-speed.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-speed" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-thread" "mh-e/mh-thread.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-thread.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-thread" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-tool-bar" "mh-e/mh-tool-bar.el" (0 0 0 ;;;;;; 0)) ;;; Generated autoloads from mh-e/mh-tool-bar.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-tool-bar" '("mh-tool-bar-"))) ;;;*** ;;;### (autoloads nil "mh-utils" "mh-e/mh-utils.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-utils.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-utils" '("mh-"))) ;;;*** ;;;### (autoloads nil "mh-xface" "mh-e/mh-xface.el" (0 0 0 0)) ;;; Generated autoloads from mh-e/mh-xface.el (if (fboundp 'register-definition-prefixes) (register-definition-prefixes "mh-xface" '("mh-"))) ;;;*** ;;;### (autoloads nil "mhtml-mode" "textmodes/mhtml-mode.el" (0 0 ;;;;;; 0 0)) ;;; Generated autoloads from textmodes/mhtml-mode.el (autoload 'mhtml-mode "mhtml-mode" "\ Major mode based on `html-mode', but works with embedded JS and CSS. Code inside a