-;;; pascal.el --- major mode for editing pascal source in Emacs
+;;; pascal.el --- major mode for editing pascal source in Emacs -*- lexical-binding: t -*-
-;; Copyright (C) 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002
-;; 2003, 2004, 2005, 2006, 2007, 2008 Free Software Foundation, Inc.
+;; Copyright (C) 1993-2012 Free Software Foundation, Inc.
;; Author: Espen Skoglund <esk@gnu.org>
;; Keywords: languages
;; pascal-tab-always-indent t
;; pascal-auto-endcomments t
;; pascal-auto-lineup '(all)
-;; pascal-toggle-completions nil
;; pascal-type-keywords '("array" "file" "packed" "char"
;; "integer" "real" "string" "record")
;; pascal-start-keywords '("begin" "end" "function" "procedure"
\f
;;; Code:
+(eval-when-compile (require 'cl))
+
(defgroup pascal nil
"Major mode for editing Pascal source in Emacs."
:link '(custom-group-link :tag "Font Lock Faces group" font-lock-faces)
(define-key map ":" 'electric-pascal-colon)
(define-key map "=" 'electric-pascal-equal)
(define-key map "#" 'electric-pascal-hash)
- (define-key map "\r" 'electric-pascal-terminate-line)
- (define-key map "\t" 'electric-pascal-tab)
- (define-key map "\M-\t" 'pascal-complete-word)
- (define-key map "\M-?" 'pascal-show-completions)
+ ;; These are user preferences, so not to set by default.
+ ;;(define-key map "\r" 'electric-pascal-terminate-line)
+ ;;(define-key map "\t" 'electric-pascal-tab)
+ (define-key map "\M-\t" 'completion-at-point)
+ (define-key map "\M-?" 'completion-help-at-point)
(define-key map "\177" 'backward-delete-char-untabify)
(define-key map "\M-\C-h" 'pascal-mark-defun)
(define-key map "\C-c\C-b" 'pascal-insert-block)
"*List of contexts where auto lineup of :'s or ='s should be done.
Elements can be of type: 'paramlist', 'declaration' or 'case', which will
do auto lineup in parameterlist, declarations or case-statements
-respectively. The word 'all' will do all lineups. '(case paramlist) for
+respectively. The word 'all' will do all lineups. '(case paramlist) for
instance will do lineup in case-statements and parameterlist, while '(all)
will do all lineups."
:type '(set :extra-offset 8
(const :tag "Everything" all)
(const :tag "Parameter lists" paramlist)
- (const :tag "Decalrations" declaration)
+ (const :tag "Declarations" declaration)
(const :tag "Case statements" case))
:group 'pascal)
-(defcustom pascal-toggle-completions nil
- "*Non-nil means \\<pascal-mode-map>\\[pascal-complete-word] should try all possible completions one by one.
-Repeated use of \\[pascal-complete-word] will show you all of them.
+(defvar pascal-toggle-completions nil
+ "*Non-nil meant \\<pascal-mode-map>\\[pascal-complete-word] would try all possible completions one by one.
+Repeated use of \\[pascal-complete-word] would show you all of them.
Normally, when there is more than one possible completion,
-it displays a list of all possible completions."
- :type 'boolean
- :group 'pascal)
+it displays a list of all possible completions.")
+(make-obsolete-variable 'pascal-toggle-completions
+ 'completion-cycle-threshold "24.1")
(defcustom pascal-type-keywords
'("array" "file" "packed" "char" "integer" "real" "string" "record")
;;; Macros
;;;
-(defsubst pascal-get-beg-of-line (&optional arg)
- (save-excursion
- (beginning-of-line arg)
- (point)))
-
-(defsubst pascal-get-end-of-line (&optional arg)
- (save-excursion
- (end-of-line arg)
- (point)))
-
(defun pascal-declaration-end ()
(let ((nest 1))
(while (and (> nest 0)
(re-search-forward
"[:=]\\|\\(\\<record\\>\\)\\|\\(\\<end\\>\\)"
- (save-excursion (end-of-line 2) (point)) t))
+ (point-at-eol 2) t))
(cond ((match-beginning 1) (setq nest (1+ nest)))
((match-beginning 2) (setq nest (1- nest)))
((looking-at "[^(\n]+)") (setq nest 0))))))
(defun pascal-declaration-beg ()
(let ((nest 1))
(while (and (> nest 0)
- (re-search-backward "[:=]\\|\\<\\(type\\|var\\|label\\|const\\)\\>\\|\\(\\<record\\>\\)\\|\\(\\<end\\>\\)" (pascal-get-beg-of-line 0) t))
+ (re-search-backward "[:=]\\|\\<\\(type\\|var\\|label\\|const\\)\\>\\|\\(\\<record\\>\\)\\|\\(\\<end\\>\\)" (point-at-bol 0) t))
(cond ((match-beginning 1) (setq nest 0))
((match-beginning 2) (setq nest (1- nest)))
((match-beginning 3) (setq nest (1+ nest)))))
(defsubst pascal-within-string ()
- (save-excursion
- (nth 3 (parse-partial-sexp (pascal-get-beg-of-line) (point)))))
+ (nth 3 (parse-partial-sexp (point-at-bol) (point))))
;;;###autoload
-(defun pascal-mode ()
+(define-derived-mode pascal-mode prog-mode "Pascal"
"Major mode for editing Pascal code. \\<pascal-mode-map>
TAB indents for Pascal code. Delete converts tabs to spaces as it moves back.
-\\[pascal-complete-word] completes the word around current point with respect \
+\\[completion-at-point] completes the word around current point with respect \
to position in code
-\\[pascal-show-completions] shows all possible completions at this point.
+\\[completion-help-at-point] shows all possible completions at this point.
Other useful functions are:
Variables controlling indentation/edit style:
- pascal-indent-level (default 3)
+ `pascal-indent-level' (default 3)
Indentation of Pascal statements with respect to containing block.
- pascal-case-indent (default 2)
+ `pascal-case-indent' (default 2)
Indentation for case statements.
- pascal-auto-newline (default nil)
+ `pascal-auto-newline' (default nil)
Non-nil means automatically newline after semicolons and the punctuation
mark after an end.
- pascal-indent-nested-functions (default t)
+ `pascal-indent-nested-functions' (default t)
Non-nil means nested functions are indented.
- pascal-tab-always-indent (default t)
+ `pascal-tab-always-indent' (default t)
Non-nil means TAB in Pascal mode should always reindent the current line,
regardless of where in the line point is when the TAB command is used.
- pascal-auto-endcomments (default t)
+ `pascal-auto-endcomments' (default t)
Non-nil means a comment { ... } is set after the ends which ends cases and
functions. The name of the function or case will be set between the braces.
- pascal-auto-lineup (default t)
+ `pascal-auto-lineup' (default t)
List of contexts where auto lineup of :'s or ='s should be done.
-See also the user variables pascal-type-keywords, pascal-start-keywords and
-pascal-separator-keywords.
+See also the user variables `pascal-type-keywords', `pascal-start-keywords' and
+`pascal-separator-keywords'.
Turning on Pascal mode calls the value of the variable pascal-mode-hook with
no args, if that value is non-nil."
- (interactive)
- (kill-all-local-variables)
- (use-local-map pascal-mode-map)
- (setq major-mode 'pascal-mode)
- (setq mode-name "Pascal")
- (setq local-abbrev-table pascal-mode-abbrev-table)
- (set-syntax-table pascal-mode-syntax-table)
- (make-local-variable 'indent-line-function)
- (setq indent-line-function 'pascal-indent-line)
- (make-local-variable 'comment-indent-function)
- (setq comment-indent-function 'pascal-indent-comment)
- (make-local-variable 'parse-sexp-ignore-comments)
- (setq parse-sexp-ignore-comments nil)
- (make-local-variable 'blink-matching-paren-dont-ignore-comments)
- (setq blink-matching-paren-dont-ignore-comments t)
- (make-local-variable 'case-fold-search)
- (setq case-fold-search t)
- (make-local-variable 'comment-start)
- (setq comment-start "{")
- (make-local-variable 'comment-start-skip)
- (setq comment-start-skip "(\\*+ *\\|{ *")
- (make-local-variable 'comment-end)
- (setq comment-end "}")
+ (set (make-local-variable 'local-abbrev-table) pascal-mode-abbrev-table)
+ (set (make-local-variable 'indent-line-function) 'pascal-indent-line)
+ (set (make-local-variable 'comment-indent-function) 'pascal-indent-comment)
+ (set (make-local-variable 'parse-sexp-ignore-comments) nil)
+ (set (make-local-variable 'blink-matching-paren-dont-ignore-comments) t)
+ (set (make-local-variable 'case-fold-search) t)
+ (set (make-local-variable 'comment-start) "{")
+ (set (make-local-variable 'comment-start-skip) "(\\*+ *\\|{ *")
+ (set (make-local-variable 'comment-end) "}")
+ (add-hook 'completion-at-point-functions 'pascal-completions-at-point nil t)
;; Font lock support
- (make-local-variable 'font-lock-defaults)
- (setq font-lock-defaults '(pascal-font-lock-keywords nil t))
+ (set (make-local-variable 'font-lock-defaults)
+ '(pascal-font-lock-keywords nil t))
;; Imenu support
- (make-local-variable 'imenu-generic-expression)
- (setq imenu-generic-expression pascal-imenu-generic-expression)
- (setq imenu-case-fold-search t)
- (run-mode-hooks 'pascal-mode-hook))
+ (set (make-local-variable 'imenu-generic-expression)
+ pascal-imenu-generic-expression)
+ (set (make-local-variable 'imenu-case-fold-search) t)
+ ;; Pascal-mode's own hide/show support.
+ (add-to-invisibility-spec '(pascal . t)))
\f
(forward-char 1)
(delete-horizontal-space))
((and (looking-at "(\\*\\|\\*[^)]")
- (not (save-excursion
- (search-forward "*)" (pascal-get-end-of-line) t))))
+ (not (save-excursion (search-forward "*)" (point-at-eol) t))))
(setq setstar t))))
;; If last line was a star comment line then this one shall be too.
(if (null setstar)
(defun electric-pascal-semi-or-dot ()
"Insert `;' or `.' character and reindent the line."
(interactive)
- (insert last-command-char)
+ (insert last-command-event)
(save-excursion
(beginning-of-line)
(pascal-indent-line))
(electric-pascal-terminate-line)))
(defun electric-pascal-colon ()
- "Insert `:' and do all indentions except line indent on this line."
+ "Insert `:' and do all indentations except line indent on this line."
(interactive)
- (insert last-command-char)
+ (insert last-command-event)
;; Do nothing if within string.
(if (pascal-within-string)
()
(pascal-indent-command))))
(defun electric-pascal-equal ()
- "Insert `=', and do indention if within type declaration."
+ "Insert `=', and do indentation if within type declaration."
(interactive)
- (insert last-command-char)
+ (insert last-command-event)
(if (eq (car (pascal-calculate-indent)) 'declaration)
(let ((pascal-tab-always-indent nil))
(pascal-indent-command))))
(defun electric-pascal-hash ()
"Insert `#', and indent to column 0 if this is a CPP directive."
(interactive)
- (insert last-command-char)
+ (insert last-command-event)
(if (save-excursion (beginning-of-line) (looking-at "^[ \t]*#"))
(save-excursion (beginning-of-line)
(delete-horizontal-space))))
(if (and (looking-at "\\<end;")
(not (save-excursion
(end-of-line)
- (search-backward "{" (pascal-get-beg-of-line) t))))
+ (search-backward "{" (point-at-bol) t))))
(let ((type (car (pascal-calculate-indent))))
(if (eq type 'declaration)
()
(if (looking-at "[ \t]+$")
(skip-chars-forward " \t"))))
+(defvar ind) ;Used via `eval' in pascal-indent-alist.
(defun pascal-indent-line ()
"Indent current line as a Pascal statement."
(let* ((indent-str (pascal-calculate-indent))
(stpos (progn (goto-char (scan-lists (point) -1 1)) (point)))
(stcol (1+ (current-column)))
(edpos (progn (pascal-declaration-end)
- (search-backward ")" (pascal-get-beg-of-line) t)
+ (search-backward ")" (point-at-bol) t)
(point)))
(usevar (re-search-backward "\\<var\\>" stpos t)))
(if arg (progn
(setq ind (pascal-get-lineup-indent stpos edpos lineup))
(goto-char stpos)
(while (and (<= (point) edpos) (not (eobp)))
- (if (search-forward lineup (pascal-get-end-of-line) 'move)
+ (if (search-forward lineup (point-at-eol) 'move)
(forward-char -1))
(delete-horizontal-space)
(indent-to ind)
(goto-char b)
;; Get rightmost position
(while (< (point) e)
- (and (re-search-forward reg (min e (pascal-get-end-of-line 2)) 'move)
+ (and (re-search-forward reg (min e (point-at-eol 2)) 'move)
(cond ((match-beginning 1)
;; Skip record blocks
(pascal-declaration-end))
;;;
;;; Completion
-;;;
-(defvar pascal-str nil)
-(defvar pascal-all nil)
-(defvar pascal-pred nil)
-(defvar pascal-buffer-to-use nil)
-(defvar pascal-flag nil)
(defun pascal-string-diff (str1 str2)
"Return index of first letter where STR1 and STR2 differs."
;; completions for procedures if argument is `procedure' or both functions and
;; procedures otherwise.
-(defun pascal-func-completion (type)
+(defun pascal-func-completion (type pascal-str)
;; Build regular expression for function/procedure names
- (if (string= pascal-str "")
- (setq pascal-str "[a-zA-Z_]"))
- (let ((pascal-str (concat (cond
- ((eq type 'procedure) "\\<\\(procedure\\)\\s +")
- ((eq type 'function) "\\<\\(function\\)\\s +")
- (t "\\<\\(function\\|procedure\\)\\s +"))
- "\\<\\(" pascal-str "[a-zA-Z0-9_.]*\\)\\>"))
- match)
+ (save-excursion
+ (if (string= pascal-str "")
+ (setq pascal-str "[a-zA-Z_]"))
+ (let ((pascal-str (concat (cond
+ ((eq type 'procedure) "\\<\\(procedure\\)\\s +")
+ ((eq type 'function) "\\<\\(function\\)\\s +")
+ (t "\\<\\(function\\|procedure\\)\\s +"))
+ "\\<\\(" pascal-str "[a-zA-Z0-9_.]*\\)\\>"))
+ (pascal-all ())
+ match)
+
+ (if (not (looking-at "\\<\\(function\\|procedure\\)\\>"))
+ (re-search-backward "\\<\\(function\\|procedure\\)\\>" nil t))
+ (forward-char 1)
+
+ ;; Search through all reachable functions
+ (while (pascal-beg-of-defun)
+ (if (re-search-forward pascal-str (point-at-eol) t)
+ (progn (setq match (buffer-substring (match-beginning 2)
+ (match-end 2)))
+ (push match pascal-all)))
+ (goto-char (match-beginning 0)))
- (if (not (looking-at "\\<\\(function\\|procedure\\)\\>"))
- (re-search-backward "\\<\\(function\\|procedure\\)\\>" nil t))
- (forward-char 1)
-
- ;; Search through all reachable functions
- (while (pascal-beg-of-defun)
- (if (re-search-forward pascal-str (pascal-get-end-of-line) t)
- (progn (setq match (buffer-substring (match-beginning 2)
- (match-end 2)))
- (if (or (null pascal-pred)
- (funcall pascal-pred match))
- (setq pascal-all (cons match pascal-all)))))
- (goto-char (match-beginning 0)))))
-
-(defun pascal-get-completion-decl ()
+ pascal-all)))
+
+(defun pascal-get-completion-decl (pascal-str)
;; Macro for searching through current declaration (var, type or const)
;; for matches of `str' and adding the occurrence to `all'
(let ((end (save-excursion (pascal-declaration-end)
(point)))
+ (pascal-all ())
match)
;; Traverse lines
(while (< (point) end)
- (if (re-search-forward "[:=]" (pascal-get-end-of-line) t)
+ (if (re-search-forward "[:=]" (point-at-eol) t)
;; Traverse current line
(while (and (re-search-backward
(concat "\\((\\|\\<\\(var\\|type\\|const\\)\\>\\)\\|"
pascal-symbol-re)
- (pascal-get-beg-of-line) t)
+ (point-at-bol) t)
(not (match-end 1)))
(setq match (buffer-substring (match-beginning 0) (match-end 0)))
(if (string-match (concat "\\<" pascal-str) match)
- (if (or (null pascal-pred)
- (funcall pascal-pred match))
- (setq pascal-all (cons match pascal-all))))))
- (if (re-search-forward "\\<record\\>" (pascal-get-end-of-line) t)
+ (push match pascal-all))))
+ (if (re-search-forward "\\<record\\>" (point-at-eol) t)
(pascal-declaration-end)
- (forward-line 1)))))
+ (forward-line 1)))
+
+ pascal-all))
-(defun pascal-type-completion ()
+(defun pascal-type-completion (pascal-str)
"Calculate all possible completions for types."
(let ((start (point))
+ (pascal-all ())
goon)
;; Search for all reachable type declarations
(while (or (pascal-beg-of-defun)
start t)
(not (match-end 1)))
;; Check current type declaration
- (pascal-get-completion-decl))))))
+ (setq pascal-all
+ (nconc (pascal-get-completion-decl pascal-str)
+ pascal-all)))))
-(defun pascal-var-completion ()
+ pascal-all))
+
+(defun pascal-var-completion (prefix)
"Calculate all possible completions for variables (or constants)."
- (let ((start (point))
- goon twice)
- ;; Search for all reachable var declarations
- (while (or (pascal-beg-of-defun)
- (setq goon (not goon)))
- (save-excursion
- (if (> start (prog1 (save-excursion (pascal-end-of-defun)
- (point))))
- () ; Declarations not reachable
- (if (search-forward "(" (pascal-get-end-of-line) t)
- ;; Check parameterlist
- (pascal-get-completion-decl))
- (setq twice 2)
- (while (>= (setq twice (1- twice)) 0)
- (cond ((and (re-search-forward
- (concat "\\<\\(var\\|const\\)\\>\\|"
- "\\<\\(begin\\|function\\|procedure\\)\\>")
- start t)
- (not (match-end 2)))
- ;; Check var/const declarations
- (pascal-get-completion-decl))
- ((match-end 2)
- (setq twice 0)))))))))
-
-
-(defun pascal-keyword-completion (keyword-list)
+ (save-excursion
+ (let ((start (point))
+ (pascal-all ())
+ goon twice)
+ ;; Search for all reachable var declarations
+ (while (or (pascal-beg-of-defun)
+ (setq goon (not goon)))
+ (save-excursion
+ (if (> start (prog1 (save-excursion (pascal-end-of-defun)
+ (point))))
+ () ; Declarations not reachable
+ (if (search-forward "(" (point-at-eol) t)
+ ;; Check parameterlist
+ ;; FIXME: pascal-get-completion-decl doesn't understand
+ ;; the var declarations in parameter lists :-(
+ (setq pascal-all
+ (nconc (pascal-get-completion-decl prefix)
+ pascal-all)))
+ (setq twice 2)
+ (while (>= (setq twice (1- twice)) 0)
+ (cond
+ ((and (re-search-forward
+ (concat "\\<\\(var\\|const\\)\\>\\|"
+ "\\<\\(begin\\|function\\|procedure\\)\\>")
+ start t)
+ (not (match-end 2)))
+ ;; Check var/const declarations
+ (setq pascal-all
+ (nconc (pascal-get-completion-decl prefix)
+ pascal-all)))
+ ((match-end 2)
+ (setq twice 0)))))))
+ pascal-all)))
+
+
+(defun pascal-keyword-completion (keyword-list pascal-str)
"Give list of all possible completions of keywords in KEYWORD-LIST."
- (mapcar '(lambda (s)
- (if (string-match (concat "\\<" pascal-str) s)
- (if (or (null pascal-pred)
- (funcall pascal-pred s))
- (setq pascal-all (cons s pascal-all)))))
- keyword-list))
+ (let ((pascal-all ()))
+ (dolist (s keyword-list)
+ (if (string-match (concat "\\<" pascal-str) s)
+ (push s pascal-all)))
+ pascal-all))
;; Function passed to completing-read, try-completion or
;; all-completions to get completion on STR. If predicate is non-nil,
;; is 'lambda, the function returns t if STR is an exact match, nil
;; otherwise.
-(defun pascal-completion (pascal-str pascal-pred pascal-flag)
- (save-excursion
- (let ((pascal-all nil))
- ;; Set buffer to use for searching labels. This should be set
- ;; within functions which use pascal-completions
- (set-buffer pascal-buffer-to-use)
+(defvar pascal-completion-cache nil)
- ;; Determine what should be completed
+(defun pascal-completion (pascal-str pascal-pred pascal-flag)
+ (let ((all (car pascal-completion-cache)))
+ ;; Check the cache's freshness.
+ (unless (and pascal-completion-cache
+ (string-prefix-p (nth 1 pascal-completion-cache) pascal-str)
+ (eq (current-buffer) (nth 2 pascal-completion-cache))
+ (eq (field-beginning) (nth 3 pascal-completion-cache)))
(let ((state (car (pascal-calculate-indent))))
- (cond (;--Within a declaration or parameterlist
- (or (eq state 'declaration) (eq state 'paramlist)
- (and (eq state 'defun)
- (save-excursion
- (re-search-backward ")[ \t]*:"
- (pascal-get-beg-of-line) t))))
- (if (or (eq state 'paramlist) (eq state 'defun))
- (pascal-beg-of-defun))
- (pascal-type-completion)
- (pascal-keyword-completion pascal-type-keywords))
- (;--Starting a new statement
- (and (not (eq state 'contexp))
- (save-excursion
- (skip-chars-backward "a-zA-Z0-9_.")
- (backward-sexp 1)
- (or (looking-at pascal-nosemi-re)
- (progn
- (forward-sexp 1)
- (looking-at "\\s *\\(;\\|:[^=]\\)")))))
- (save-excursion (pascal-var-completion))
- (pascal-func-completion 'procedure)
- (pascal-keyword-completion pascal-start-keywords))
- (t;--Anywhere else
- (save-excursion (pascal-var-completion))
- (pascal-func-completion 'function)
- (pascal-keyword-completion pascal-separator-keywords))))
-
- ;; Now we have built a list of all matches. Give response to caller
- (pascal-completion-response))))
-
-(defun pascal-completion-response ()
- (cond ((or (equal pascal-flag 'lambda) (null pascal-flag))
- ;; This was not called by all-completions
- (if (null pascal-all)
- ;; Return nil if there was no matching label
- nil
- ;; Get longest string common in the labels
- (let* ((elm (cdr pascal-all))
- (match (car pascal-all))
- (min (length match))
- tmp)
- (if (string= match pascal-str)
- ;; Return t if first match was an exact match
- (setq match t)
- (while (not (null elm))
- ;; Find longest common string
- (if (< (setq tmp (pascal-string-diff match (car elm))) min)
- (progn
- (setq min tmp)
- (setq match (substring match 0 min))))
- ;; Terminate with match=t if this is an exact match
- (if (string= (car elm) pascal-str)
- (progn
- (setq match t)
- (setq elm nil))
- (setq elm (cdr elm)))))
- ;; If this is a test just for exact match, return nil ot t
- (if (and (equal pascal-flag 'lambda) (not (equal match 't)))
- nil
- match))))
- ;; If flag is t, this was called by all-completions. Return
- ;; list of all possible completions
- (pascal-flag
- pascal-all)))
+ (setq all
+ ;; Determine what should be completed
+ (cond
+ ( ;--Within a declaration or parameterlist
+ (or (eq state 'declaration) (eq state 'paramlist)
+ (and (eq state 'defun)
+ (save-excursion
+ (re-search-backward ")[ \t]*:" (point-at-bol) t))))
+ (if (or (eq state 'paramlist) (eq state 'defun))
+ (pascal-beg-of-defun))
+ (nconc
+ (pascal-type-completion pascal-str)
+ (pascal-keyword-completion pascal-type-keywords pascal-str)))
+ ( ;--Starting a new statement
+ (and (not (eq state 'contexp))
+ (save-excursion
+ (skip-chars-backward "a-zA-Z0-9_.")
+ (backward-sexp 1)
+ (or (looking-at pascal-nosemi-re)
+ (progn
+ (forward-sexp 1)
+ (looking-at "\\s *\\(;\\|:[^=]\\)")))))
+ (nconc
+ (pascal-var-completion pascal-str)
+ (pascal-func-completion 'procedure pascal-str)
+ (pascal-keyword-completion pascal-start-keywords pascal-str)))
+ (t ;--Anywhere else
+ (nconc
+ (pascal-var-completion pascal-str)
+ (pascal-func-completion 'function pascal-str)
+ (pascal-keyword-completion pascal-separator-keywords
+ pascal-str)))))
+
+ (setq pascal-completion-cache
+ (list all pascal-str (current-buffer) (field-beginning)))))
+
+ ;; Now we have built a list of all matches. Give response to caller
+ (complete-with-action pascal-flag all pascal-str pascal-pred)))
(defvar pascal-last-word-numb 0)
(defvar pascal-last-word-shown nil)
(defvar pascal-last-completions nil)
-(defun pascal-complete-word ()
- "Complete word at current point.
-\(See also `pascal-toggle-completions', `pascal-type-keywords',
-`pascal-start-keywords' and `pascal-separator-keywords'.)"
- (interactive)
+(defun pascal-completions-at-point ()
(let* ((b (save-excursion (skip-chars-backward "a-zA-Z0-9_") (point)))
- (e (save-excursion (skip-chars-forward "a-zA-Z0-9_") (point)))
- (pascal-str (buffer-substring b e))
- ;; The following variable is used in pascal-completion
- (pascal-buffer-to-use (current-buffer))
- (allcomp (if (and pascal-toggle-completions
- (string= pascal-last-word-shown pascal-str))
- pascal-last-completions
- (all-completions pascal-str 'pascal-completion)))
- (match (if pascal-toggle-completions
- "" (try-completion
- pascal-str (mapcar '(lambda (elm)
- (cons elm 0)) allcomp)))))
- ;; Delete old string
- (delete-region b e)
-
- ;; Toggle-completions inserts whole labels
- (if pascal-toggle-completions
- (progn
- ;; Update entry number in list
- (setq pascal-last-completions allcomp
- pascal-last-word-numb
- (if (>= pascal-last-word-numb (1- (length allcomp)))
- 0
- (1+ pascal-last-word-numb)))
- (setq pascal-last-word-shown (elt allcomp pascal-last-word-numb))
- ;; Display next match or same string if no match was found
- (if (not (null allcomp))
- (insert "" pascal-last-word-shown)
- (insert "" pascal-str)
- (message "(No match)")))
- ;; The other form of completion does not necessarily do that.
-
- ;; Insert match if found, or the original string if no match
- (if (or (null match) (equal match 't))
- (progn (insert "" pascal-str)
- (message "(No match)"))
- (insert "" match))
- ;; Give message about current status of completion
- (cond ((equal match 't)
- (if (not (null (cdr allcomp)))
- (message "(Complete but not unique)")
- (message "(Sole completion)")))
- ;; Display buffer if the current completion didn't help
- ;; on completing the label.
- ((and (not (null (cdr allcomp))) (= (length pascal-str)
- (length match)))
- (with-output-to-temp-buffer "*Completions*"
- (display-completion-list allcomp pascal-str))
- ;; Wait for a keypress. Then delete *Completion* window
- (momentary-string-display "" (point))
- (delete-window (get-buffer-window (get-buffer "*Completions*")))
- )))))
-
-(defun pascal-show-completions ()
- "Show all possible completions at current point."
- (interactive)
- (let* ((b (save-excursion (skip-chars-backward "a-zA-Z0-9_") (point)))
- (e (save-excursion (skip-chars-forward "a-zA-Z0-9_") (point)))
- (pascal-str (buffer-substring b e))
- ;; The following variable is used in pascal-completion
- (pascal-buffer-to-use (current-buffer))
- (allcomp (if (and pascal-toggle-completions
- (string= pascal-last-word-shown pascal-str))
- pascal-last-completions
- (all-completions pascal-str 'pascal-completion))))
- ;; Show possible completions in a temporary buffer.
- (with-output-to-temp-buffer "*Completions*"
- (display-completion-list allcomp pascal-str))
- ;; Wait for a keypress. Then delete *Completion* window
- (momentary-string-display "" (point))
- (delete-window (get-buffer-window (get-buffer "*Completions*")))))
+ (e (save-excursion (skip-chars-forward "a-zA-Z0-9_") (point))))
+ (when (> e b)
+ (list b e #'pascal-completion))))
+
+(define-obsolete-function-alias 'pascal-complete-word
+ 'completion-at-point "24.1")
+
+(define-obsolete-function-alias 'pascal-show-completions
+ 'completion-help-at-point "24.1")
(defun pascal-get-default-symbol ()
(defun pascal-comp-defun (pascal-str pascal-pred pascal-flag)
(save-excursion
- (let ((pascal-all nil)
- match)
-
- ;; Set buffer to use for searching labels. This should be set
- ;; within functions which use pascal-completions
- (set-buffer pascal-buffer-to-use)
-
- (let ((pascal-str pascal-str))
- ;; Build regular expression for functions
- (if (string= pascal-str "")
- (setq pascal-str (pascal-build-defun-re "[a-zA-Z_]"))
- (setq pascal-str (pascal-build-defun-re pascal-str)))
- (goto-char (point-min))
-
- ;; Build a list of all possible completions
- (while (re-search-forward pascal-str nil t)
- (setq match (buffer-substring (match-beginning 2) (match-end 2)))
- (if (or (null pascal-pred)
- (funcall pascal-pred match))
- (setq pascal-all (cons match pascal-all)))))
+ (let ((pascal-all nil))
+
+ ;; Build regular expression for functions
+ (let ((pascal-str (pascal-build-defun-re (if (string= pascal-str "")
+ "[a-zA-Z_]"
+ pascal-str))))
+ (goto-char (point-min))
+
+ ;; Build a list of all possible completions
+ (while (re-search-forward pascal-str nil t)
+ (push (match-string 2) pascal-all)))
;; Now we have built a list of all matches. Give response to caller
- (pascal-completion-response))))
+ (complete-with-action pascal-flag pascal-all pascal-str pascal-pred))))
(defun pascal-goto-defun ()
"Move to specified Pascal function/procedure.
The default is a name found in the buffer around point."
(interactive)
(let* ((default (pascal-get-default-symbol))
- ;; The following variable is used in pascal-comp-function
- (pascal-buffer-to-use (current-buffer))
(default (if (pascal-comp-defun default nil 'lambda)
default ""))
- (label (if (not (string= default ""))
- ;; Do completion with default
- (completing-read (concat "Label (default " default "): ")
- 'pascal-comp-defun nil t "")
- ;; There is no default value. Complete without it
- (completing-read "Label: "
- 'pascal-comp-defun nil t ""))))
+ (label
+ ;; Do completion with default
+ (completing-read (if (not (string= default ""))
+ (concat "Label (default " default "): ")
+ "Label: ")
+ ;; Complete with the defuns found in the
+ ;; current-buffer.
+ (lexical-let ((buf (current-buffer)))
+ (lambda (s p a)
+ (with-current-buffer buf
+ (pascal-comp-defun s p a))))
+ nil t "")))
;; If there was no response on prompt, use default value
(if (string= label "")
(setq label default))
map)
"Keymap used in Pascal Outline mode.")
-(define-obsolete-function-alias 'pascal-outline 'pascal-outline-mode)
+(define-obsolete-function-alias 'pascal-outline 'pascal-outline-mode "22.1")
(define-minor-mode pascal-outline-mode
"Outline-line minor mode for Pascal mode.
When in Pascal Outline mode, portions
(unless pascal-outline-mode
(pascal-show-all)))
-(defun pascal-outline-change (b e pascal-flag)
- (save-excursion
- ;; This used to use selective display so the boundaries used by the
- ;; callers didn't have to be precise, since it just looked for \n or \^M
- ;; and switched them.
- (goto-char b) (setq b (line-end-position))
- (goto-char e) (setq e (line-end-position)))
+(defun pascal-outline-change (b e hide)
(when (> e b)
;; We could try and optimize this in the case where the region is
;; already hidden. But I'm not sure it's worth the trouble.
(remove-overlays b e 'invisible 'pascal)
- (when (eq pascal-flag ?\^M)
+ (when hide
(let ((ol (make-overlay b e nil t nil)))
(overlay-put ol 'invisible 'pascal)
(overlay-put ol 'evaporate t)))))
(defun pascal-show-all ()
"Show all of the text in the buffer."
(interactive)
- (pascal-outline-change (point-min) (point-max) ?\n))
+ (pascal-outline-change (point-min) (point-max) nil))
(defun pascal-hide-other-defuns ()
"Show only the current defun."
(save-excursion
(let ((beg (progn (if (not (looking-at "\\(function\\|procedure\\)\\>"))
(pascal-beg-of-defun))
- (point)))
+ (line-beginning-position)))
(end (progn (pascal-end-of-defun)
(backward-sexp 1)
- (search-forward "\n\\|\^M" nil t)
- (point)))
+ (line-beginning-position 2)))
(opoint (point-min)))
+ ;; BEG at BOL.
+ ;; OPOINT at EOL.
+ ;; END at BOL.
(goto-char (point-min))
;; Hide all functions before current function
- (while (re-search-forward "^\\(function\\|procedure\\)\\>" beg 'move)
- (pascal-outline-change opoint (1- (match-beginning 0)) ?\^M)
- (setq opoint (point))
+ (while (re-search-forward "^[ \t]*\\(function\\|procedure\\)\\>"
+ beg 'move)
+ (pascal-outline-change opoint (line-end-position 0) t)
+ (setq opoint (line-end-position))
;; Functions may be nested
(if (> (progn (pascal-end-of-defun) (point)) beg)
(goto-char opoint)))
(if (> beg opoint)
- (pascal-outline-change opoint (1- beg) ?\^M))
+ (pascal-outline-change opoint (1- beg) t))
;; Show current function
- (pascal-outline-change beg end ?\n)
+ (pascal-outline-change (1- beg) end nil)
;; Hide nested functions
(forward-char 1)
(while (re-search-forward "^\\(function\\|procedure\\)\\>" end 'move)
- (setq opoint (point))
+ (setq opoint (line-end-position))
(pascal-end-of-defun)
- (pascal-outline-change opoint (point) ?\^M))
+ (pascal-outline-change opoint (line-end-position) t))
(goto-char end)
(setq opoint end)
;; Hide all function after current function
(while (re-search-forward "^\\(function\\|procedure\\)\\>" nil 'move)
- (pascal-outline-change opoint (1- (match-beginning 0)) ?\^M)
- (setq opoint (point))
+ (pascal-outline-change opoint (line-end-position 0) t)
+ (setq opoint (line-end-position))
(pascal-end-of-defun))
- (pascal-outline-change opoint (point-max) ?\^M)
+ (pascal-outline-change opoint (point-max) t)
;; Hide main program
(if (< (progn (forward-line -1) (point)) end)
(goto-char beg)
(pascal-end-of-defun)
(backward-sexp 1)
- (pascal-outline-change (point) (point-max) ?\^M))))))
+ (pascal-outline-change (line-end-position) (point-max) t))))))
(defun pascal-outline-next-defun ()
"Move to next function/procedure, hiding all others."
(provide 'pascal)
-;; arch-tag: 04535136-fd93-40b4-a505-c9bebdc051f5
;;; pascal.el ends here