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4k.el
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4k.el
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;;; gfourk.el --- major mode for editing (G)Fourk sources
;; Copyright (C) 1995,1996,1997,1998,2000,2001,2003 Free Software Foundation, Inc.
;; This file is part of Gfourk.
;; GFourk is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY. No author or distributor
;; accepts responsibility to anyone for the consequences of using it
;; or for whether it serves any particular purpose or works at all,
;; unless he says so in writing. Refer to the GNU Emacs General Public
;; License for full details.
;; Everyone is granted permission to copy, modify and redistribute
;; GNU Emacs, but only under the conditions described in the
;; GNU Emacs General Public License. A copy of this license is
;; supposed to have been given to you along with Gfourk so you
;; can know your rights and responsibilities. It should be in a
;; file named COPYING. Among other things, the copyright notice
;; and this notice must be preserved on all copies.
;; Author: Goran Rydqvist <[email protected]>
;; Maintainer: David Kühling <[email protected]>
;; Created: 16 July 88 by Goran Rydqvist
;; Keywords: fourk, gfourk
;; Changes by anton
;; This is a variant of fourk.el that came with TILE.
;; I left most of this stuff untouched and made just a few changes for
;; the things I use (mainly indentation and syntax tables).
;; So there is still a lot of work to do to adapt this to gfourk.
;; Changes by David
;; Added a syntax-hilighting engine, rewrote auto-indentation engine.
;; Added support for block files.
;; Replaced fourk-process code with comint-based implementation.
;; Tested with Emacs 19.34, 20.5, 21 and XEmacs 21
;;-------------------------------------------------------------------
;; A Fourk indentation, documentation search and interaction library
;;-------------------------------------------------------------------
;;
;; Written by Goran Rydqvist, [email protected], Summer 1988
;; Started: 16 July 88
;; Version: 2.10
;; Last update: 5 December 1989 by Mikael Patel, [email protected]
;; Last update: 25 June 1990 by Goran Rydqvist, [email protected]
;;
;; Documentation: See fourk-mode (^HF fourk-mode)
;;-------------------------------------------------------------------
;;; Code:
;(setq debug-on-error t)
;; Code ripped from `version.el' for compatability with Emacs versions
;; prior to 19.23.
(if (not (boundp 'emacs-major-version))
(defconst emacs-major-version
(progn (string-match "^[0-9]+" emacs-version)
(string-to-int (match-string 0 emacs-version)))))
(defun fourk-emacs-older (major minor)
(or (< emacs-major-version major)
(and (= emacs-major-version major) (< emacs-minor-version minor))))
;; Code ripped from `subr.el' for compatability with Emacs versions
;; prior to 20.1
(eval-when-compile
(if (fourk-emacs-older 20 1)
(progn
(defmacro when (cond &rest body)
"If COND yields non-nil, do BODY, else return nil."
(list 'if cond (cons 'progn body)))
(defmacro unless (cond &rest body)
"If COND yields nil, do BODY, else return nil."
(cons 'if (cons cond (cons nil body)))))))
;; `no-error' argument of require not supported in Emacs versions
;; prior to 20.4 :-(
(defun fourk-require (feature)
(condition-case err (require feature) (error nil)))
(require 'font-lock)
;; define `font-lock-warning-face' in emacs-versions prior to 20.1
;; (ripped from `font-lock.el')
(unless (boundp 'font-lock-warning-face)
(message "defining font-lock-warning-face")
(make-face 'font-lock-warning-face)
(defvar font-lock-warning-face 'font-lock-warning-face)
(set-face-foreground font-lock-warning-face "red")
(make-face-bold font-lock-warning-face))
;; define `font-lock-constant-face' in XEmacs (just copy
;; `font-lock-preprocessor-face')
(unless (boundp 'font-lock-constant-face)
(copy-face font-lock-preprocessor-face 'font-lock-constant-face))
;; define `regexp-opt' in emacs versions prior to 20.1
;; (this implementation is extremely inefficient, though)
(eval-and-compile (fourk-require 'regexp-opt))
(unless (memq 'regexp-opt features)
(message (concat
"Warning: your Emacs version doesn't support `regexp-opt'. "
"Hilighting will be slow."))
(defun regexp-opt (STRINGS &optional PAREN)
(let ((open (if PAREN "\\(" "")) (close (if PAREN "\\)" "")))
(concat open (mapconcat 'regexp-quote STRINGS "\\|") close)))
(defun regexp-opt-depth (re)
(if (string= (substring re 0 2) "\\(") 1 0)))
; todo:
;
; Wörter ordentlich hilighten, die nicht auf Whitespace beginnen ( ..)IF
; -- mit aktueller Konzeption nicht möglich??
;
; Konfiguration über customization groups
;
; Bereich nur auf Wortanfang/ende ausweiten, wenn Anfang bzw Ende in einem
; Wort liegen (?) -- speed!
;
; 'fourk-word' property muss eindeutig sein!
;
; Fourk-Menu
;
; Interface zu GFourk Prozessen (Patches von Michael Scholz)
;
; Byte-compile-Code rausschmeißen, Compilieren im Makefile über Emacs
; batch-Modus
;
; fourk-help Kram rausschmeißen
;
; XEmacs Kompatibilität? imenu/speedbar -> fume?
;
; Folding neuschreiben (neue Parser-Informationen benutzen)
;;; Motion-hooking (dk)
;;;
(defun fourk-idle-function ()
"Function that is called when Emacs is idle to detect cursor motion
in fourk-block-mode buffers (which is mainly used for screen number
display in). Currently ignores fourk-mode buffers but that may change
in the future."
(if (eq major-mode 'fourk-block-mode)
(fourk-check-motion)))
(defvar fourk-idle-function-timer nil
"Timer that runs `fourk-idle-function' or nil if no timer installed.")
(defun fourk-install-motion-hook ()
"Install the motion-hooking mechanism. Currently uses idle timers
but might be transparently changed in the future."
(unless fourk-idle-function-timer
;; install idle function only once (first time fourk-mode is used)
(setq fourk-idle-function-timer
(run-with-idle-timer .05 t 'fourk-idle-function))))
(defvar fourk-was-point nil)
(defun fourk-check-motion ()
"Run `fourk-motion-hooks', if `point' changed since last call. This
used to be called via `post-command-hook' but uses idle timers now as
users complaint about lagging performance."
(when (or (eq fourk-was-point nil) (/= fourk-was-point (point)))
(setq fourk-was-point (point))
(run-hooks 'fourk-motion-hooks)))
;;; Hilighting and indentation engine (dk)
;;;
(defvar fourk-disable-parser nil
"*Non-nil means to disable on-the-fly parsing of Fourk-code.
This will disable hilighting of fourk-mode buffers and will decrease
the smartness of the indentation engine. Only set it to non-nil, if
your computer is very slow. To disable hilighting, set
`fourk-hilight-level' to zero.")
(defvar fourk-jit-parser nil
"*Non-nil means to parse Fourk-code just-in-time.
This eliminates the need for initially parsing fourk-mode buffers and
thus speeds up loading of Fourk files. That feature is only available
in Emacs21 (and newer versions).")
(defvar fourk-words nil
"List of words for hilighting and recognition of parsed text areas.
Hilighting of object-oriented Fourk code is achieved, by appending either
`fourk-objects-words' or `fourk-oof-words' to the list, depending on the values of `fourk-use-objects' or `fourk-use-oof'.
After `fourk-words' changed, `fourk-compile-words' must be called to
make the changes take effect.
Each item of `fourk-words' has the form
(MATCHER TYPE HILIGHT . &optional PARSED-TEXT ...)
MATCHER is either a list of strings to match, or a REGEXP.
If it's a REGEXP, it should not be surrounded by '\\<' or '\\>', since
that'll be done automatically by the search routines.
TYPE should be one of 'definiton-starter', 'definition-ender', 'compile-only',
'immediate' or 'non-immediate'. Those information are required to determine
whether a word actually parses (and whether that parsed text needs to be
hilighted).
HILIGHT is a cons cell of the form (FACE . MINIMUM-LEVEL)
Where MINIMUM-LEVEL specifies the minimum value of `fourk-hilight-level',
that's required for matching text to be hilighted.
PARSED-TEXT specifies whether and how a word parses following text. You can
specify as many subsequent PARSED-TEXT as you wish, but that shouldn't be
necessary very often. It has the following form:
(DELIM-REGEXP SKIP-LEADING-FLAG PARSED-TYPE HILIGHT)
DELIM-REGEXP is a regular expression that should match strings of length 1,
which are delimiters for the parsed text.
A non-nil value for PARSE-LEADING-FLAG means, that leading delimiter strings
before parsed text should be skipped. This is the parsing behaviour of the
Fourk word WORD. Set it to t for name-parsing words, nil for comments and
strings.
PARSED-TYPE specifies what kind of text is parsed. It should be on of 'name',
'string' or 'comment'.")
(setq fourk-words
'(
(("[") definition-ender (font-lock-keyword-face . 1))
(("]" "]l") definition-starter (font-lock-keyword-face . 1))
((":") definition-starter (font-lock-keyword-face . 1)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("immediate" "compile-only" "restrict")
immediate (font-lock-keyword-face . 1))
(("does>") compile-only (font-lock-keyword-face . 1))
((":noname") definition-starter (font-lock-keyword-face . 1))
((";" ";code") definition-ender (font-lock-keyword-face . 1))
(("include" "require" "needs" "use")
non-immediate (font-lock-keyword-face . 1)
(("Render:" "Display:") definition-starter (font-lock-keyword-face . 1))
((";Render" ";Display") definition-ender (font-lock-keyword-face . 1))
"[\n\t ]" t string (font-lock-string-face . 1))
(("included" "required" "thru" "load")
non-immediate (font-lock-keyword-face . 1))
(("[char]") compile-only (font-lock-keyword-face . 1)
"[ \t\n]" t string (font-lock-string-face . 1))
(("c:") compile-only (font-lock-keyword-face . 1)
"[ \t\n]" t string (font-lock-string-face . 1))
(("char") non-immediate (font-lock-keyword-face . 1)
"[ \t\n]" t string (font-lock-string-face . 1))
(("s\"" "c\"") immediate (font-lock-string-face . 1)
"[\"\n]" nil string (font-lock-string-face . 1))
((".\"") compile-only (font-lock-string-face . 1)
"[\"\n]" nil string (font-lock-string-face . 1))
(("\"") compile-only (font-lock-string-face . 1)
"[\"]" nil string (font-lock-string-face . 1))
(("abort\"") compile-only (font-lock-keyword-face . 1)
"[\"\n]" nil string (font-lock-string-face . 1))
(("{") compile-only (font-lock-variable-name-face . 1)
"[\n}]" nil name (font-lock-variable-name-face . 1))
((".(" "(") immediate (font-lock-comment-face . 1)
")" nil comment (font-lock-comment-face . 1))
(("(*") immediate (font-lock-comment-face . 1)
"*)" nil comment (font-lock-comment-face . 1))
(("|" "\\" "\\G") immediate (font-lock-comment-face . 1)
"[\n]" nil comment (font-lock-comment-face . 1))
(("[if]" "[?do]" "[do]" "[for]" "[begin]"
"[endif]" "[then]" "[loop]" "[+loop]" "[next]" "[until]" "[repeat]"
"[again]" "[while]" "[else]")
immediate (font-lock-keyword-face . 2))
(("[ifdef]" "[ifundef]") immediate (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("if" "begin" "ahead" "do" "?do" "+do" "u+do" "-do" "u-do" "for"
"case" "of" "?dup-if" "?dup-0=-if" "then" "endif" "until"
"repeat" "again" "leave" "?leave"
"loop" "+loop" "-loop" "next" "endcase" "endof" "else" "while" "try"
"recover" "endtry" "assert(" "assert0(" "assert1(" "assert2("
"assert3(" ")" "<interpretation" "<compilation" "interpretation>"
"compilation>")
compile-only (font-lock-keyword-face . 2))
(("true" "false" "c/l" "bl" "cell" "pi" "w/o" "r/o" "r/w")
non-immediate (font-lock-constant-face . 2))
(("~~" "break:" "dbg") compile-only (font-lock-warning-face . 2))
(("break\"") compile-only (font-lock-warning-face . 1)
"[\"\n]" nil string (font-lock-string-face . 1))
(("postpone" "[is]" "defers" "[']" "[compile]")
compile-only (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("is" "what's") immediate (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("<is>" "'" "see") non-immediate (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("[to]") compile-only (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-variable-name-face . 3))
(("to") immediate (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-variable-name-face . 3))
(("<to>") non-immediate (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-variable-name-face . 3))
(("create" "variable" "constant" "2variable" "2constant" "fvariable"
"fconstant" "value" "field" "user" "vocabulary"
"create-interpret/compile")
non-immediate (font-lock-type-face . 2)
"[ \t\n]" t name (font-lock-variable-name-face . 3))
("\\S-+%" non-immediate (font-lock-type-face . 2))
(("defer" "alias" "create-interpret/compile:")
non-immediate (font-lock-type-face . 1)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("end-struct") non-immediate (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-type-face . 3))
(("struct") non-immediate (font-lock-keyword-face . 2))
("-?[0-9]+\\(\\.[0-9]*e\\(-?[0-9]+\\)?\\|\\.?[0-9a-f]*\\)"
immediate (font-lock-constant-face . 3))
))
(defvar fourk-use-objects nil
"*Non-nil makes fourk-mode also hilight words from the \"Objects\" package.")
(defvar fourk-objects-words
'(((":m") definition-starter (font-lock-keyword-face . 1)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("m:") definition-starter (font-lock-keyword-face . 1))
((";m") definition-ender (font-lock-keyword-face . 1))
(("[current]" "[parent]") compile-only (font-lock-keyword-face . 1)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("current" "overrides") non-immediate (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("[to-inst]") compile-only (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-variable-name-face . 3))
(("[bind]") compile-only (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-type-face . 3)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("bind") non-immediate (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-type-face . 3)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("inst-var" "inst-value") non-immediate (font-lock-type-face . 2)
"[ \t\n]" t name (font-lock-variable-name-face . 3))
(("method" "selector")
non-immediate (font-lock-type-face . 1)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("end-class" "end-interface")
non-immediate (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-type-face . 3))
(("public" "protected" "class" "exitm" "implementation" "interface"
"methods" "end-methods" "this")
non-immediate (font-lock-keyword-face . 2))
(("object") non-immediate (font-lock-type-face . 2)))
"Hilighting description for words of the \"Objects\" package")
(defvar fourk-use-oof nil
"*Non-nil makes fourk-mode also hilight words from the \"OOF\" package.")
(defvar fourk-oof-words
'((("class") non-immediate (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-type-face . 3))
(("var") non-immediate (font-lock-type-face . 2)
"[ \t\n]" t name (font-lock-variable-name-face . 3))
(("method" "early") non-immediate (font-lock-type-face . 2)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("::" "super" "bind" "bound" "link")
immediate (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-function-name-face . 3))
(("ptr" "asptr" "[]")
immediate (font-lock-keyword-face . 2)
"[ \t\n]" t name (font-lock-variable-name-face . 3))
(("class;" "how:" "self" "new" "new[]" "definitions" "class?" "with"
"endwith")
non-immediate (font-lock-keyword-face . 2))
(("object") non-immediate (font-lock-type-face . 2)))
"Hilighting description for words of the \"OOF\" package")
(defvar fourk-local-words nil
"List of Fourk words to prepend to `fourk-words'. Should be set by a
fourk source, using a local variables list at the end of the file
(\"Local Variables: ... fourk-local-words: ... End:\" construct).")
(defvar fourk-custom-words nil
"List of Fourk words to prepend to `fourk-words'. Should be set in your
.emacs.")
(defvar fourk-hilight-level 3 "*Level of hilighting of Fourk code.")
(defvar fourk-compiled-words nil "Compiled representation of `fourk-words'.")
(defvar fourk-indent-words nil
"List of words that have indentation behaviour.
Each element of `fourk-indent-words' should have the form
(MATCHER INDENT1 INDENT2 &optional TYPE)
MATCHER is either a list of strings to match, or a REGEXP.
If it's a REGEXP, it should not be surrounded by `\\<` or `\\>`, since
that'll be done automatically by the search routines.
TYPE might be omitted. If it's specified, the only allowed value is
currently the symbol `non-immediate', meaning that the word will not
have any effect on indentation inside definitions. (:NONAME is a good
example for this kind of word).
INDENT1 specifies how to indent a word that's located at the beginning
of a line, following any number of whitespaces.
INDENT2 specifies how to indent words that are not located at the
beginning of a line.
INDENT1 and INDENT2 are indentation specifications of the form
(SELF-INDENT . NEXT-INDENT), where SELF-INDENT is a numerical value,
specifying how the matching line and all following lines are to be
indented, relative to previous lines. NEXT-INDENT specifies how to indent
following lines, relative to the matching line.
Even values of SELF-INDENT and NEXT-INDENT correspond to multiples of
`fourk-indent-level'. Odd values get an additional
`fourk-minor-indent-level' added/substracted. Eg a value of -2 indents
1 * fourk-indent-level to the left, wheras 3 indents
1 * fourk-indent-level + fourk-minor-indent-level columns to the right.")
(setq fourk-indent-words
'((("if" "begin" "do" "?do" "+do" "-do" "u+do"
"u-do" "?dup-if" "?dup-0=-if" "case" "of" "try"
"[if]" "[ifdef]" "[ifundef]" "[begin]" "[for]" "[do]" "[?do]" "Render:" "Display" )
(0 . 2) (0 . 2))
((":" ":noname" "code" "struct" "m:" ":m" "class" "interface")
(0 . 2) (0 . 2) non-immediate)
("\\S-+%$" (0 . 2) (0 . 0) non-immediate)
((";" ";m") (-2 . 0) (0 . -2))
(("again" "then" "endif" "endtry" "endcase" "endof"
"[then]" "[endif]" "[loop]" "[+loop]" "[next]"
"[until]" "[again]" "loop" ";Render" ";Display" )
(-2 . 0) (0 . -2))
(("end-code" "end-class" "end-interface" "end-class-noname"
"end-interface-noname" "end-struct" "class;")
(-2 . 0) (0 . -2) non-immediate)
(("protected" "public" "how:") (-1 . 1) (0 . 0) non-immediate)
(("+loop" "-loop" "until") (-2 . 0) (-2 . 0))
(("else" "recover" "[else]") (-2 . 2) (0 . 0))
(("does>") (-1 . 1) (0 . 0))
(("while" "[while]") (-2 . 4) (0 . 2))
(("repeat" "[repeat]") (-4 . 0) (0 . -4))
(("\\g") (-2 . 2) (0 . 0))))
(defvar fourk-local-indent-words nil
"List of Fourk words to prepend to `fourk-indent-words', when a fourk-mode
buffer is created. Should be set by a Fourk source, using a local variables
list at the end of the file (\"Local Variables: ... fourk-local-words: ...
End:\" construct).")
(defvar fourk-custom-indent-words nil
"List of Fourk words to prepend to `fourk-indent-words'. Should be set in
your .emacs.")
(defvar fourk-indent-level 4
"*Indentation of Fourk statements.")
(defvar fourk-minor-indent-level 2
"*Minor indentation of Fourk statements.")
(defvar fourk-compiled-indent-words nil)
;(setq debug-on-error t)
;; Filter list by predicate. This is a somewhat standard function for
;; functional programming languages. So why isn't it already implemented
;; in Lisp??
(defun fourk-filter (predicate list)
(let ((filtered nil))
(mapcar (lambda (item)
(when (funcall predicate item)
(if filtered
(nconc filtered (list item))
(setq filtered (cons item nil))))
nil) list)
filtered))
;; Helper function for `fourk-compile-word': return whether word has to be
;; added to the compiled word list, for syntactic parsing and hilighting.
(defun fourk-words-filter (word)
(let* ((hilight (nth 2 word))
(level (cdr hilight))
(parsing-flag (nth 3 word)))
(or parsing-flag
(<= level fourk-hilight-level))))
;; Helper function for `fourk-compile-word': translate one entry from
;; `fourk-words' into the form (regexp regexp-depth word-description)
(defun fourk-compile-words-mapper (word)
;; warning: we cannot rely on regexp-opt's PAREN argument, since
;; XEmacs will use shy parens by default :-(
(let* ((matcher (car word))
(regexp
(concat "\\(" (cond ((stringp matcher) matcher)
((listp matcher) (regexp-opt matcher))
(t (error "Invalid matcher `%s'")))
"\\)"))
(depth (regexp-opt-depth regexp))
(description (cdr word)))
(list regexp depth description)))
;; Read `words' and create a compiled representation suitable for efficient
;; parsing of the form
;; (regexp (subexp-count word-description) (subexp-count2 word-description2)
;; ...)
(defun fourk-compile-wordlist (words)
(let* ((mapped (mapcar 'fourk-compile-words-mapper words))
(regexp (concat "\\<\\("
(mapconcat 'car mapped "\\|")
"\\)\\>"))
(sub-count 2)
(sub-list (mapcar
(lambda (i)
(let ((sub (cons sub-count (nth 2 i))))
(setq sub-count (+ sub-count (nth 1 i)))
sub
))
mapped)))
(let ((result (cons regexp sub-list)))
(byte-compile 'result)
result)))
(defun fourk-compile-words ()
"Compile the the words from `fourk-words' and `fourk-indent-words' into
the format that's later used for doing the actual hilighting/indentation.
Store the resulting compiled wordlists in `fourk-compiled-words' and
`fourk-compiled-indent-words', respective"
(setq fourk-compiled-words
(fourk-compile-wordlist
(fourk-filter 'fourk-words-filter fourk-words)))
(setq fourk-compiled-indent-words
(fourk-compile-wordlist fourk-indent-words)))
(defun fourk-hack-local-variables ()
"Parse and bind local variables, set in the contents of the current
fourk-mode buffer. Prepend `fourk-local-words' to `fourk-words' and
`fourk-local-indent-words' to `fourk-indent-words'."
(hack-local-variables)
(setq fourk-words (append fourk-local-words fourk-words))
(setq fourk-indent-words (append fourk-local-indent-words
fourk-indent-words)))
(defun fourk-customize-words ()
"Add the words from `fourk-custom-words' and `fourk-custom-indent-words'
to `fourk-words' and `fourk-indent-words', respective. Add
`fourk-objects-words' and/or `fourk-oof-words' to `fourk-words', if
`fourk-use-objects' and/or `fourk-use-oof', respective is set."
(setq fourk-words (append fourk-custom-words fourk-words
(if fourk-use-oof fourk-oof-words nil)
(if fourk-use-objects fourk-objects-words nil)))
(setq fourk-indent-words (append
fourk-custom-indent-words fourk-indent-words)))
;; get location of first character of previous fourk word that's got
;; properties
(defun fourk-previous-start (pos)
(let* ((word (get-text-property pos 'fourk-word))
(prev (previous-single-property-change
(min (point-max) (1+ pos)) 'fourk-word
(current-buffer) (point-min))))
(if (or (= (point-min) prev) word) prev
(if (get-text-property (1- prev) 'fourk-word)
(previous-single-property-change
prev 'fourk-word (current-buffer) (point-min))
(point-min)))))
;; Get location of the last character of the current/next fourk word that's
;; got properties, text that's parsed by the word is considered as parts of
;; the word.
(defun fourk-next-end (pos)
(let* ((word (get-text-property pos 'fourk-word))
(next (next-single-property-change pos 'fourk-word
(current-buffer) (point-max))))
(if word next
(if (get-text-property next 'fourk-word)
(next-single-property-change
next 'fourk-word (current-buffer) (point-max))
(point-max)))))
(defun fourk-next-whitespace (pos)
(save-excursion
(goto-char pos)
(skip-syntax-forward "-" (point-max))
(point)))
(defun fourk-previous-word (pos)
(save-excursion
(goto-char pos)
(re-search-backward "\\<" pos (point-min) 1)
(point)))
;; Delete all properties, used by Fourk mode, from `from' to `to'.
(defun fourk-delete-properties (from to)
(remove-text-properties
from to '(face nil fontified nil
fourk-parsed nil fourk-word nil fourk-state nil)))
;; Get the index of the branch of the most recently evaluated regular
;; expression that matched. (used for identifying branches "a\\|b\\|c...")
(defun fourk-get-regexp-branch ()
(let ((count 2))
(while (not (condition-case err (match-beginning count)
(args-out-of-range t))) ; XEmacs requires error handling
(setq count (1+ count)))
count))
;; seek to next fourk-word and return its "word-description"
(defun fourk-next-known-fourk-word (to)
(if (<= (point) to)
(progn
(let* ((regexp (car fourk-compiled-words))
(pos (re-search-forward regexp to t)))
(if pos (let ((branch (fourk-get-regexp-branch))
(descr (cdr fourk-compiled-words)))
(goto-char (match-beginning 0))
(cdr (assoc branch descr)))
'nil)))
nil))
;; Set properties of fourk word at `point', eventually parsing subsequent
;; words, and parsing all whitespaces. Set point to delimiter after word.
;; The word, including it's parsed text gets the `fourk-word' property, whose
;; value is unique, and may be used for getting the word's start/end
;; positions.
(defun fourk-set-word-properties (state data)
(let* ((start (point))
(end (progn (re-search-forward "[ \t]\\|$" (point-max) 1)
(point)))
(type (car data))
(hilight (nth 1 data))
(bad-word (and (not state) (eq type 'compile-only)))
(hlface (if bad-word font-lock-warning-face
(if (<= (cdr hilight) fourk-hilight-level)
(car hilight) nil))))
(when hlface (put-text-property start end 'face hlface))
;; if word parses in current state, process parsed range of text
(when (or (not state) (eq type 'compile-only) (eq type 'immediate))
(let ((parse-data (nthcdr 2 data)))
(while parse-data
(let ((delim (nth 0 parse-data))
(skip-leading (nth 1 parse-data))
(parse-type (nth 2 parse-data))
(parsed-hilight (nth 3 parse-data))
(parse-start (point))
(parse-end))
(when skip-leading
(while (and (looking-at delim) (> (match-end 0) (point))
(not (looking-at "\n")))
(forward-char)))
(re-search-forward delim (point-max) 1)
(setq parse-end (point))
(fourk-delete-properties end parse-end)
(when (<= (cdr parsed-hilight) fourk-hilight-level)
(put-text-property
parse-start parse-end 'face (car parsed-hilight)))
(put-text-property
parse-start parse-end 'fourk-parsed parse-type)
(setq end parse-end)
(setq parse-data (nthcdr 4 parse-data))))))
(put-text-property start end 'fourk-word start)))
;; Search for known Fourk words in the range `from' to `to', using
;; `fourk-next-known-fourk-word' and set their properties via
;; `fourk-set-word-properties'.
(defun fourk-update-properties (from to &optional loudly)
(save-excursion
(let ((msg-count 0) (state) (word-descr) (last-location))
(goto-char (fourk-previous-word (fourk-previous-start
(max (point-min) (1- from)))))
(setq to (fourk-next-end (min (point-max) (1+ to))))
;; `to' must be on a space delimiter, if a parsing word was changed
(setq to (fourk-next-whitespace to))
(setq state (get-text-property (point) 'fourk-state))
(setq last-location (point))
(fourk-delete-properties (point) to)
(put-text-property (point) to 'fontified t)
;; hilight loop...
(while (setq word-descr (fourk-next-known-fourk-word to))
(when loudly
(when (equal 0 (% msg-count 100))
(message "Parsing Fourk code...%s"
(make-string (/ msg-count 100) ?.)))
(setq msg-count (1+ msg-count)))
(fourk-set-word-properties state word-descr)
(when state (put-text-property last-location (point) 'fourk-state t))
(let ((type (car word-descr)))
(if (eq type 'definition-starter) (setq state t))
(if (eq type 'definition-ender) (setq state nil))
(setq last-location (point))))
;; update state property up to `to'
(if (and state (< (point) to))
(put-text-property last-location to 'fourk-state t))
;; extend search if following state properties differ from current state
(if (< to (point-max))
(if (not (equal state (get-text-property (1+ to) 'fourk-state)))
(let ((extend-to (next-single-property-change
to 'fourk-state (current-buffer) (point-max))))
(fourk-update-properties to extend-to))
))
)))
;; save-buffer-state borrowed from `font-lock.el'
(eval-when-compile
(defmacro fourk-save-buffer-state (varlist &rest body)
"Bind variables according to VARLIST and eval BODY restoring buffer state."
(` (let* ((,@ (append varlist
'((modified (buffer-modified-p)) (buffer-undo-list t)
(inhibit-read-only t) (inhibit-point-motion-hooks t)
before-change-functions after-change-functions
deactivate-mark buffer-file-name buffer-file-truename))))
(,@ body)
(when (and (not modified) (buffer-modified-p))
(set-buffer-modified-p nil))))))
;; Function that is added to the `change-functions' hook. Calls
;; `fourk-update-properties' and keeps care of disabling undo information
;; and stuff like that.
(defun fourk-change-function (from to len &optional loudly)
(save-match-data
(fourk-save-buffer-state
()
(unless fourk-disable-parser (fourk-update-properties from to loudly))
(fourk-update-warn-long-lines))))
(defun fourk-fontification-function (from)
"Function to be called from `fontification-functions' of Emacs 21."
(save-match-data
(fourk-save-buffer-state
((to (min (point-max) (+ from 100))))
(unless (or fourk-disable-parser (not fourk-jit-parser)
(get-text-property from 'fontified))
(fourk-update-properties from to)))))
(eval-when-compile
(byte-compile 'fourk-set-word-properties)
(byte-compile 'fourk-next-known-fourk-word)
(byte-compile 'fourk-update-properties)
(byte-compile 'fourk-delete-properties)
(byte-compile 'fourk-get-regexp-branch))
;;; imenu support
;;;
(defvar fourk-defining-words
'("VARIABLE" "CONSTANT" "2VARIABLE" "2CONSTANT" "FVARIABLE" "FCONSTANT"
"USER" "VALUE" "field" "end-struct" "VOCABULARY" "CREATE" ":" "CODE"
"DEFER" "ALIAS")
"List of words, that define the following word.
Used for imenu index generation.")
(defvar fourk-defining-words-regexp nil
"Regexp that's generated for matching `fourk-defining-words'")
(defun fourk-next-definition-starter ()
(progn
(let* ((pos (re-search-forward fourk-defining-words-regexp (point-max) t)))
(if pos
(if (or (text-property-not-all (match-beginning 0) (match-end 0)
'fourk-parsed nil)
(text-property-not-all (match-beginning 0) (match-end 0)
'fourk-state nil))
(fourk-next-definition-starter)
t)
nil))))
(defun fourk-create-index ()
(let* ((fourk-defining-words-regexp
(concat "\\<\\(" (regexp-opt fourk-defining-words) "\\)\\>"))
(index nil))
(goto-char (point-min))
(while (fourk-next-definition-starter)
(if (looking-at "[ \t]*\\([^ \t\n]+\\)")
(setq index (cons (cons (match-string 1) (point)) index))))
index))
;; top-level require is executed at byte-compile and load time
(eval-and-compile (fourk-require 'speedbar))
;; this code is executed at load-time only
(when (memq 'speedbar features)
(speedbar-add-supported-extension ".fs")
(speedbar-add-supported-extension ".fb"))
;; (require 'profile)
;; (setq profile-functions-list '(fourk-set-word-properties fourk-next-known-fourk-word fourk-update-properties fourk-delete-properties fourk-get-regexp-branch))
;;; Indentation
;;;
;; Return, whether `pos' is the first fourk word on its line
(defun fourk-first-word-on-line-p (pos)
(save-excursion
(beginning-of-line)
(skip-chars-forward " \t")
(= pos (point))))
;; Return indentation data (SELF-INDENT . NEXT-INDENT) of next known
;; indentation word, or nil if there is no word up to `to'.
;; Position `point' at location just after found word, or at `to'. Parsed
;; ranges of text will not be taken into consideration!
(defun fourk-next-known-indent-word (to)
(if (<= (point) to)
(progn
(let* ((regexp (car fourk-compiled-indent-words))
(pos (re-search-forward regexp to t)))
(if pos
(let* ((start (match-beginning 0))
(end (match-end 0))
(branch (fourk-get-regexp-branch))
(descr (cdr fourk-compiled-indent-words))
(indent (cdr (assoc branch descr)))
(type (nth 2 indent)))
;; skip words that are parsed (strings/comments) and
;; non-immediate words inside definitions
(if (or (text-property-not-all start end 'fourk-parsed nil)
(and (eq type 'non-immediate)
(text-property-not-all start end
'fourk-state nil)))
(fourk-next-known-indent-word to)
(if (fourk-first-word-on-line-p (match-beginning 0))
(nth 0 indent) (nth 1 indent))))
nil)))
nil))
;; Translate indentation value `indent' to indentation column. Multiples of
;; 2 correspond to multiples of `fourk-indent-level'. Odd numbers get an
;; additional `fourk-minor-indent-level' added (or substracted).
(defun fourk-convert-to-column (indent)
(let* ((sign (if (< indent 0) -1 1))
(value (abs indent))
(major (* (/ value 2) fourk-indent-level))
(minor (* (% value 2) fourk-minor-indent-level)))
(* sign (+ major minor))))
;; Return the column increment, that the current line of fourk code does to
;; the current or following lines. `which' specifies which indentation values
;; to use. 0 means the indentation of following lines relative to current
;; line, 1 means the indentation of the current line relative to the previous
;; line. Return `nil', if there are no indentation words on the current line.
(defun fourk-get-column-incr (which)
(save-excursion
(let ((regexp (car fourk-compiled-indent-words))
(word-indent)
(self-indent nil)
(next-indent nil)
(to (save-excursion (end-of-line) (point))))
(beginning-of-line)
(while (setq word-indent (fourk-next-known-indent-word to))
(let* ((self-incr (car word-indent))
(next-incr (cdr word-indent))
(self-column-incr (fourk-convert-to-column self-incr))
(next-column-incr (fourk-convert-to-column next-incr)))
(setq next-indent (if next-indent next-indent 0))
(setq self-indent (if self-indent self-indent 0))
(if (or (and (> next-indent 0) (< self-column-incr 0))
(and (< next-indent 0) (> self-column-incr 0)))
(setq next-indent (+ next-indent self-column-incr))
(setq self-indent (+ self-indent self-column-incr)))
(setq next-indent (+ next-indent next-column-incr))))
(nth which (list self-indent next-indent)))))
;; Find previous line that contains indentation words, return the column,
;; to which following text should be indented to.
(defun fourk-get-anchor-column ()
(save-excursion
(if (/= 0 (forward-line -1)) 0
(let ((indent))
(while (not (or (setq indent (fourk-get-column-incr 1))
(<= (point) (point-min))))
(forward-line -1))
(+ (current-indentation) (if indent indent 0))))))
(defun fourk-indent-line (&optional flag)
"Correct indentation of the current Fourk line."
(let* ((anchor (fourk-get-anchor-column))
(column-incr (fourk-get-column-incr 0)))
(fourk-indent-to (if column-incr (+ anchor column-incr) anchor))))
(defun fourk-current-column ()
(- (point) (save-excursion (beginning-of-line) (point))))
(defun fourk-current-indentation ()
(- (save-excursion (beginning-of-line) (forward-to-indentation 0) (point))
(save-excursion (beginning-of-line) (point))))
(defun fourk-indent-to (x)
(let ((p nil))
(setq p (- (fourk-current-column) (fourk-current-indentation)))
(fourk-delete-indentation)
(beginning-of-line)
(indent-to x)
(if (> p 0) (forward-char p))))
(defun fourk-delete-indentation ()
(save-excursion
(delete-region
(progn (beginning-of-line) (point))
(progn (back-to-indentation) (point)))))
(defun fourk-indent-command ()
(interactive)
(fourk-indent-line t))
;; remove trailing whitespaces in current line
(defun fourk-remove-trailing ()
(save-excursion
(end-of-line)
(delete-region (point) (progn (skip-chars-backward " \t") (point)))))
;; insert newline, removing any trailing whitespaces in the current line
(defun fourk-newline-remove-trailing ()
(save-excursion
(delete-region (point) (progn (skip-chars-backward " \t") (point))))
(newline))
; (let ((was-point (point-marker)))
; (unwind-protect
; (progn (forward-line -1) (fourk-remove-trailing))
; (goto-char (was-point)))))
;; workaround for bug in `reindent-then-newline-and-indent'
(defun fourk-reindent-then-newline-and-indent ()
(interactive "*")
(indent-according-to-mode)
(fourk-newline-remove-trailing)
(indent-according-to-mode))
;;; Block file encoding/decoding (dk)
;;;
(defconst fourk-c/l 64 "Number of characters per block line")
(defconst fourk-l/b 16 "Number of lines per block")
;; Check whether the unconverted block file line, point is in, does not
;; contain `\n' and `\t' characters.
(defun fourk-check-block-line (line)
(let ((end (save-excursion (beginning-of-line) (forward-char fourk-c/l)
(point))))
(save-excursion
(beginning-of-line)
(when (search-forward "\n" end t)
(message "Warning: line %i contains newline character #10" line)
(ding t))
(beginning-of-line)
(when (search-forward "\t" end t)
(message "Warning: line %i contains tab character #8" line)
(ding t)))))
(defun fourk-convert-from-block (from to)
"Convert block file format to stream source in current buffer."
(let ((line (count-lines (point-min) from)))
(save-excursion
(goto-char from)
(set-mark to)
(while (< (+ (point) fourk-c/l) (mark t))
(setq line (1+ line))
(fourk-check-block-line line)
(forward-char fourk-c/l)
(fourk-newline-remove-trailing))
(when (= (+ (point) fourk-c/l) (mark t))
(fourk-remove-trailing))
(mark t))))
;; Pad a line of a block file up to `fourk-c/l' characters, positioning `point'
;; at the end of line.
(defun fourk-pad-block-line ()
(save-excursion
(end-of-line)
(if (<= (current-column) fourk-c/l)
(move-to-column fourk-c/l t)
(message "Line %i longer than %i characters, truncated"
(count-lines (point-min) (point)) fourk-c/l)
(ding t)
(move-to-column fourk-c/l t)
(delete-region (point) (progn (end-of-line) (point))))))
;; Replace tab characters in current line by spaces.
(defun fourk-convert-tabs-in-line ()
(save-excursion
(beginning-of-line)
(while (search-forward "\t" (save-excursion (end-of-line) (point)) t)
(backward-char)
(delete-region (point) (1+ (point)))
(insert-char ?\ (- tab-width (% (current-column) tab-width))))))
;; Delete newline at end of current line, concatenating it with the following
;; line. Place `point' at end of newly formed line.
(defun fourk-delete-newline ()
(end-of-line)
(delete-region (point) (progn (beginning-of-line 2) (point))))
(defun fourk-convert-to-block (from to &optional original-buffer)
"Convert range of text to block file format in current buffer."
(let* ((lines 0)) ; I have to count lines myself, since `count-lines' has
; problems with trailing newlines...
(save-excursion
(goto-char from)
(set-mark to)
;; pad lines to full length (`fourk-c/l' characters per line)
(while (< (save-excursion (end-of-line) (point)) (mark t))
(setq lines (1+ lines))
(fourk-pad-block-line)
(fourk-convert-tabs-in-line)