;;; DO NOT MODIFY THIS FILE (if (featurep 'x-symbol-autoloads) (error "Already loaded")) ;;;### (autoloads nil "_pkg" "lisp/_pkg.el") (if (fboundp 'package-provide) (package-provide 'x-symbol :version 4.51 :type 'regular)) ;;;*** ;;;### (autoloads (x-symbol-initialize x-symbol-register-language x-symbol-fontify turn-on-x-symbol-conditionally x-symbol-mode x-symbol-key-autoload x-symbol-auto-mode-suffixes) "x-symbol-hooks" "lisp/x-symbol-hooks.el") (autoload 'x-symbol-auto-mode-suffixes "x-symbol-hooks" "\ Return REGEXPs of three-value elements in `auto-mode-alist'. These REGEXPs are added to SUFFIXES." nil nil) (autoload 'x-symbol-key-autoload "x-symbol-hooks" "\ Initialize package x-symbol and use the keys for this command again. Package x-symbol and the functions in `x-symbol-load-hook' should re-bind all key-sequence which invoke this command. You should provide a prefix argument ARG to this command if `x-symbol-auto-key-autoload' is nil." t nil) (defalias 'x-symbol-map-autoload 'x-symbol-key-autoload) (autoload 'x-symbol-mode "x-symbol-hooks" "\ Toggle X-Symbol mode. Toggle X-Symbol mode. If provided with a prefix argument, turn X-Symbol mode on if the numeric value of the argument is positive, else turn it off. If no token language can be deduced, ask for a token language; if provided with a non-numeric prefix argument, always ask. By default, X-Symbol mode is disabled in special major-modes visiting a file, e.g., `vm-mode'. Use a prefix argument to be asked whether to turn in on anyway. When not already defined, various buffer-local variables are set when turning on X-Symbol. See `x-symbol-auto-style-alist' and the language access `x-symbol-LANG-modes'. Turning X-Symbol mode on requires a valid `x-symbol-language' and also decodes tokens if the mode was turned off before, see \\[x-symbol-decode-recode]. Turning X-Symbol mode off also encodes x-symbol characters if the mode was turned on before, see \\[x-symbol-encode-recode]. If optional argument SPECIAL has value `init', the old mode status is assumed to be off." t nil) (autoload 'turn-on-x-symbol-conditionally "x-symbol-hooks" "\ Turn on x-symbol mode conditionally, see `x-symbol-mode'. Call `x-symbol-mode' with SPECIAL having value `init'." nil nil) (autoload 'x-symbol-fontify "x-symbol-hooks" "\ Re-fontify region between BEG and END." t nil) (autoload 'x-symbol-register-language "x-symbol-hooks" "\ Register token language LANGUAGE. FEATURE is a feature which `provide's LANGUAGE. MODES are major modes which typically use LANGUAGE. Using LANGUAGE's accesses will initialize LANGUAGE, see `x-symbol-language-value'." nil nil) (autoload 'x-symbol-initialize "x-symbol-hooks" "\ Initialize package X-Symbol. See variable `x-symbol-initialize' and function `x-symbol-after-init'. Also allocate colormap, see `x-symbol-image-colormap-allocation'. Unless optional argument ARG is non-nil, do not initialize package X-Symbol twice." t nil) ;;;*** ;;;### (autoloads (x-symbol-image-editor x-symbol-image-delete-extents x-symbol-image-after-change-function x-symbol-image-parse-buffer) "x-symbol-image" "lisp/x-symbol-image.el") (autoload 'x-symbol-image-parse-buffer "x-symbol-image" "\ *Parse buffer to find image insertion commands. Parse buffer to display glyphs at the end of image insertion commands. Image files are converted to \"image cache files\" with images not bigger than `x-symbol-image-max-width' and `x-symbol-image-max-height' having a image format XEmacs understands. The conversion is done by a program determined by `x-symbol-image-converter', currently you need \"convert\" from ImageMagick. To make this conversion fast, we use asynchronous processes and two cache hierarchies: * Memory cache (`x-symbol-image-memory-cache'): buffer-local alist FILE.eps -> GLYPH, see also `x-symbol-image-use-remote'. * File cache: the image cache file, mentioned above, are kept, see also `x-symbol-image-update-cache', which is shadowed by a non-nil UPDATE-CACHE and `x-symbol-image-cache-directories'. When the mouse is over an image insertion command, it is highlighted. button2 starts an image editor, see `x-symbol-image-editor-alist'. button3 pops up a menu, see `x-symbol-image-menu'. The image insertion commands are recognized by keywords in the language access `x-symbol-LANG-image-keywords' whose value have the form (IMAGE-REGEXP KEYWORD ...) IMAGE-REGEXP should match all images files and is used to initialize the buffer local memory cache, see `x-symbol-image-init-memory-cache'. Each KEYWORD looks like (REGEXP [FUNCTION] ARG...). Image insertion commands matched by REGEXP are highlighted. FUNCTION, which defaults to `x-symbol-image-default-file-name', is called with ARGs to get the file name of the corresponding image file. If FUNCTION returns nil, the command is not highlighted. Relative image file names are expanded in the directory returned by the function in the language access `x-symbol-LANG-master-directory', value nil means function `default-directory'. Implicitly relative image file names are searched in a search path, see `x-symbol-image-use-remote'." t nil) (autoload 'x-symbol-image-after-change-function "x-symbol-image" "\ Function in `after-change-functions' for image insertion commands." nil nil) (autoload 'x-symbol-image-delete-extents "x-symbol-image" "\ Delete x-symbol image extents covering text between BEG and END. See also `x-symbol-image-buffer-extents'." nil nil) (autoload 'x-symbol-image-editor "x-symbol-image" "\ Start image editor for the image file FILE used in BUFFER. If BUFFER is nil, just return string describing the command. See `x-symbol-image-editor-alist' and `x-symbol-image-current-marker'." t nil) ;;;*** ;;;### (autoloads (x-symbol-tex-auto-coding-alist) "x-symbol-tex" "lisp/x-symbol-tex.el") (autoload 'x-symbol-tex-auto-coding-alist "x-symbol-tex" "\ Find encoding in file `x-symbol-tex-coding-master'. For ALIST and LIMIT, see `x-symbol-auto-coding-alist'." nil nil) ;;;*** ;;;### (autoloads (x-symbol-variable-interactive) "x-symbol-vars" "lisp/x-symbol-vars.el") (autoload 'x-symbol-variable-interactive "x-symbol-vars" "\ Provide interactive specification for `set-variable'. VAR's options has been defined with `x-symbol-define-user-options'." nil nil) ;;;*** ;;;### (autoloads (x-symbol-init-input x-symbol-rotate-key x-symbol-modify-key x-symbol-grid x-symbol-read-language x-symbol-init-language-interactive x-symbol-mode-internal x-symbol-auto-8bit-search x-symbol-auto-coding-alist x-symbol-unalias x-symbol-encode x-symbol-encode-recode x-symbol-decode x-symbol-decode-recode x-symbol-encode-all x-symbol-encode-string x-symbol-decode-single-token x-symbol-decode-all x-symbol-decode-region x-symbol-package-reply-to-report x-symbol-package-bug x-symbol-package-info x-symbol-package-web x-symbol-translate-to-ascii) "x-symbol" "lisp/x-symbol.el") (autoload 'x-symbol-translate-to-ascii "x-symbol" "\ Translate STRING to an ascii string. Non-ascii characters in STRING are converted to charsyms. Their ascii representation is determined by: * If CHARSYM is a key in `x-symbol-charsym-ascii-alist', use its ASCII. * Charsym is defined in the table to have an ascii representation, see ASCII in `x-symbol-init-cset'. * Compute ascii representation according to the CHARSYM's GROUP, SUBGROUP and `x-symbol-charsym-ascii-groups'. * Use \"\" otherwise." nil nil) (autoload 'x-symbol-package-web "x-symbol" "\ Ask a WWW browser to load URL `x-symbol-package-url'." t nil) (autoload 'x-symbol-package-info "x-symbol" "\ Read documentation for package X-Symbol in the info system." t nil) (autoload 'x-symbol-package-bug "x-symbol" "\ Send a bug/problem report to the maintainer of package X-Symbol. Please try to contact person in `x-symbol-installer-address' first. Normal reports are sent without prefix argument ARG. If you are sure that the problem cannot be solved locally, e.g., by contacting the person who has installed package X-Symbol, use prefix argument 2 to send the message to `x-symbol-maintainer-address'. If your message has nothing to do with a problem or a bug, use prefix 9 to send a short message to `x-symbol-maintainer-address'." t nil) (autoload 'x-symbol-package-reply-to-report "x-symbol" "\ Reply to a bug/problem report not using \\[x-symbol-package-bug]." t nil) (autoload 'x-symbol-decode-region "x-symbol" "\ Decode all tokens between BEG and END. Make sure that X-Symbol characters are correctly displayed under XEmacs/no-Mule even when font-lock is disabled." nil nil) (autoload 'x-symbol-decode-all "x-symbol" "\ Decode all tokens in buffer to characters. Use executables for decoding if buffer is larger than EXEC-THRESHOLD which defaults to `x-symbol-exec-threshold'. Before decoding, decode 8bit characters in CODING which defaults to `x-symbol-coding'." nil nil) (autoload 'x-symbol-decode-single-token "x-symbol" nil nil nil) (autoload 'x-symbol-encode-string "x-symbol" nil nil nil) (autoload 'x-symbol-encode-all "x-symbol" "\ Encode all characters in buffer to tokens. Use executables for decoding if buffer is larger than EXEC-THRESHOLD which defaults to `x-symbol-exec-threshold'. If CODING is non-nil, do not encode 8bit characters in CODING. Otherwise, do not encode 8bit characters in `x-symbol-coding' or `x-symbol-default-coding' if `x-symbol-8bits' is non-nil. If BUFFER is non-nil, copy contexts between START and END to BUFFER, make BUFFER current and do conversion there. If BUFFER is non-nil, START and END must be buffer positions or START is a string, see kludgy feature of `write-region'." nil nil) (autoload 'x-symbol-decode-recode "x-symbol" "\ Decode all tokens in active region or buffer to characters. If called interactively and if the region is active, BEG and END are the boundaries of the region. BEG and END default to the buffer boundaries. 8bit characters are treated according to `x-symbol-coding'. See also commands `x-symbol-encode' and `x-symbol-mode'. Note that in most token languages, different tokens might be decoded to the same character, e.g., \\neq and \\ne in `tex', Ä and Ä in `sgml', see `x-symbol-unique'!" t nil) (autoload 'x-symbol-decode "x-symbol" "\ Decode all tokens in active region or buffer to characters. As opposed to `x-symbol-decode-recode', this function performs no recoding, i.e., `x-symbol-coding' is considered to have the value of `x-symbol-default-coding'." t nil) (autoload 'x-symbol-encode-recode "x-symbol" "\ Encode all characters in active region or buffer to tokens. If called interactively and if the region is active, BEG and END are the boundaries of the region. BEG and END default to the buffer boundaries. Variables `x-symbol-8bits' and `x-symbol-coding' determine whether to encode 8bit characters. See also commands `x-symbol-decode' and `x-symbol-mode'." t nil) (autoload 'x-symbol-encode "x-symbol" "\ Encode all characters in active region or buffer to tokens. As opposed to `x-symbol-encode-recode', this function performs no recoding, i.e., `x-symbol-coding' is considered to have the value of `x-symbol-default-coding'. Additionally, `x-symbol-8bits' is assumed to be nil if `x-symbol-coding' is not nil or not having the same value as `x-symbol-default-coding'." t nil) (autoload 'x-symbol-unalias "x-symbol" "\ Resolve all character aliases in active region or buffer. A char alias is a character which is also a character in a font with another registry, e.g., `adiaeresis' is defined in all supported latin fonts. XEmacs distinguish between these four characters. In package x-symbol, one of them, with `x-symbol-default-coding' if possible, is supported by the input methods, the other ones are char aliases to the supported one. The character and all the aliases are represented by the same charsym. The info in the minibuffer displays char aliases, you can resolve a single character before point with \\[x-symbol-modify-key]. 8bit characters in files with a file coding `x-symbol-coding' other than `x-symbol-default-coding' are converted to the \"normal\" form. E.g., if you have a latin-1 font by default, the `adiaeresis' in a latin-2 encoded file is a latin-1 `adiaeresis' in the buffer. When saving the buffer, its is again the right 8bit character in the latin-2 encoded file. Seven positions in latin-3 fonts are not used, the corresponding 8bit bytes in latin-3 encoded files are not changed. In normal cases, buffers do not have char aliases: with Mule support, this is only possible if you copy characters from buffers with characters considered as char aliases by package x-symbol, e.g., from the Mule file \"european.el\". Without Mule support, this is only possible if you use commands like `\\[universal-argument] 2 3 4'. The reason why package x-symbol does not support all versions of `adiaeresis'es: * It is confusing to the user to choose among four similar characters. * These four versions are not distinguished in Unicode. * There are not different tokens for them, neither in the token language \"TeX macro\", nor \"SGML entity\"." t nil) (autoload 'x-symbol-auto-coding-alist "x-symbol" "\ Return first match for ALIST in buffer limited by LIMIT. Each element in ALIST looks like (REGEXP . RESULT) or (REGEXP MATCH (KEY . RESULT)...) Search forward from the start of the buffer for a match with REGEXP. With the first form, return RESULT. With the second form, return RESULT where KEY is equal to the MATCH'th regexp group of the match." nil nil) (autoload 'x-symbol-auto-8bit-search "x-symbol" nil nil nil) (autoload 'x-symbol-mode-internal "x-symbol" "\ Setup X-Symbol mode according to buffer-local variables. If CONVERSION is non-nil, do conversion with EXEC-THRESHOLD. See command `x-symbol-mode' for details." nil nil) (autoload 'x-symbol-init-language-interactive "x-symbol" "\ Initialize token language LANGUAGE. See `x-symbol-init-language'." t nil) (autoload 'x-symbol-read-language "x-symbol" "\ Read token language in the minibuffer with completion. Use PROMPT in minibuffer. If the inserted string is empty, use DEFAULT as return value. If PREDICATE non-nil, only match languages if PREDICATE with argument (NAME . LANGUAGE) returns non-nil." nil nil) (autoload 'x-symbol-grid "x-symbol" "\ Displays characters in a grid-like fashion for mouse selection. Display global or language dependent grid, see `x-symbol-local-grid'. See `x-symbol-list-mode' for key and mouse bindings. Without optional argument ARG and non-nil `x-symbol-grid-reuse', just popup old grid buffer if it already exists, but is not displayed. Store window configuration current before the invocation if `x-symbol-temp-grid' is non-nil, see `x-symbol-list-restore'." t nil) (autoload 'x-symbol-modify-key "x-symbol" "\ Modify key for input method CONTEXT. If character before point is a char alias, resolve alias, see \\[x-symbol-unalias]. If character before point is a character supported by package x-symbol, replace it by the next valid character in the modify-to chain. Otherwise replace longest context before point by a character which looks similar to it. See also \\[x-symbol-rotate-key] and `x-symbol-electric-input'. If called interactively and if the region is active, restrict context to the region between BEG and END." t nil) (autoload 'x-symbol-rotate-key "x-symbol" "\ Rotate key for input method CONTEXT. If character before point is a char alias, resolve alias, see \\[x-symbol-unalias]. If character before point is a character supported by package x-symbol, replace it by the next valid character in the rotate-to chain. With optional prefix argument ARG, the \"direction\" of the new character should be according to ARG and `x-symbol-rotate-prefix-alist'. Otherwise replace longest context before point by a character which looks similar to it, assuming an additional context suffix `x-symbol-rotate-suffix-char'. See also \\[x-symbol-modify-key] and `x-symbol-electric-input'. If called interactively and if the region is active, restrict context to the region between BEG and END." t nil) (autoload 'x-symbol-init-input "x-symbol" "\ Initialize all input methods for all charsyms defined so far. Run `x-symbol-after-init-input-hook' afterwards. This function should be called if new charsyms have been added, but not too often since it takes some time to complete. Input methods TOKEN and READ-TOKEN are defined with `x-symbol-init-language'. As explained in the docstring of `x-symbol-init-cset', charsyms are defined with \"character descriptions\" which consist of different \"aspects\" and \"contexts\", which can also be inherited from a \"parent\" character. All characters which are connected with parents, form a \"component\". Aspects and contexts are used to determine the Modify-to and Rotate-to chain for characters, the contexts for input method CONTEXT and ELECTRIC, the key bindings, and the position in the MENU and the GRID. If a table entry of a charsym does not define its own contexts, they are the same as the contexts of the charsym in an earlier position in the \"modify chain\" (see below), or the contexts of the first charsym with defined contexts in the modify chain. The modify context of a charsym is the first context. Characters in the same component whose aspects only differ by their \"direction\" (east,...), a key in `x-symbol-rotate-aspects-alist', are circularly connected by \"rotate-to\". The sequence in the \"rotate chain\" is determined by rotate scores depending on the values in the rotate aspects. Charsyms with the same \"rotate-aspects\" are not connected (charsyms with the smallest modify scores are preferred). Characters in the same components whose aspects only differ by their \"size\" (big,...), \"shape\" (round, square,...) and/or \"shift\" (up, down,...), keys in `x-symbol-modify-aspects-alist', are circularly connected by \"modify-to\", if all their modify contexts are used exclusively, i.e., no other modify chain uses any of them. The sequence in the \"modify chain\" is determined by modify scores depending on the values in the modify aspects and the charsym score. Otherwise, the \"modify chain\" is divided into modify subchains, which are those charsyms sharing the same modify context. All modify subchains using the same modify context, build a \"horizontal chain\" whose charsyms are circularly connected by \"modify-to\". We build a \"key chain\" for all contexts (not just modify contexts), consisting of all charsyms (sorted according to modify scores) having the context. Input method CONTEXT modifies the context to the first charsym in the \"key chain\". If there is only one charsym in the key chain, `x-symbol-compose-key' plus the context inserts the charsym. Otherwise, we use a digit (1..9, 0) as a suffix for each charsym in the key chain. `x-symbol-compose-key' plus the context plus the optional suffix inserts the charsym." nil nil) ;;;*** (provide 'x-symbol-autoloads)