;;; fortran.el --- Fortran mode for GNU Emacs ;; Copyright (c) 1986, 1993, 1994, 1995 Free Software Foundation, Inc. ;; Author: Michael D. Prange ;; Maintainer: bug-fortran-mode@erl.mit.edu ;; Version 1.30.6-x (July 27, 1995) ;; Keywords: languages ;; This file is part of XEmacs. ;; XEmacs is free software; you can redistribute it and/or modify it ;; under the terms of the GNU General Public License as published by ;; the Free Software Foundation; either version 2, or (at your option) ;; any later version. ;; XEmacs is distributed in the hope that it will be useful, but ;; WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ;; General Public License for more details. ;; You should have received a copy of the GNU General Public License ;; along with XEmacs; see the file COPYING. If not, write to the Free ;; Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA ;; 02111-1307, USA. ;;; Synched up with: FSF 19.34. ;;; Commentary: ;; Fortran mode has been upgraded and is now maintained by Stephen A. Wood ;; (saw@cebaf.gov). It now will use either fixed format continuation line ;; markers (character in 6th column), or tab format continuation line style ;; (digit after a TAB character.) A auto-fill mode has been added to ;; automatically wrap fortran lines that get too long. ;; We acknowledge many contributions and valuable suggestions by ;; Lawrence R. Dodd, Ralf Fassel, Ralph Finch, Stephen Gildea, ;; Dr. Anil Gokhale, Ulrich Mueller, Mark Neale, Eric Prestemon, ;; Gary Sabot and Richard Stallman. ;; This file may be used with GNU Emacs version 18.xx if the following ;; variable and function substitutions are made. ;; Replace: ;; frame-width with screen-width ;; auto-fill-function with auto-fill-hook ;; comment-indent-function with comment-indent-hook ;; (setq unread-command-events (list c)) with (setq unread-command-char c) ;; Bugs to bug-fortran-mode@erl.mit.edu ;;; Code: (defconst fortran-mode-version "version 1.30.6-x") (defgroup fortran nil "Fortran mode for Emacs" :group 'languages) (defgroup fortran-indent nil "Indentation variables in Fortran mode" :prefix "fortran-" :group 'fortran) (defgroup fortran-comment nil "Comment-handling variables in Fortran mode" :prefix "fortran-" :group 'fortran) ;;;###autoload (defcustom fortran-tab-mode-default nil "*Default tabbing/carriage control style for empty files in Fortran mode. A value of t specifies tab-digit style of continuation control. A value of nil specifies that continuation lines are marked with a character in column 6." :type 'boolean :group 'fortran-indent) ;; Buffer local, used to display mode line. (defcustom fortran-tab-mode-string nil "String to appear in mode line when TAB format mode is on." :type '(choice (const nil) string) :group 'fortran-indent) (defcustom fortran-do-indent 3 "*Extra indentation applied to DO blocks." :type 'integer :group 'fortran-indent) (defcustom fortran-if-indent 3 "*Extra indentation applied to IF blocks." :type 'integer :group 'fortran-indent) (defcustom fortran-structure-indent 3 "*Extra indentation applied to STRUCTURE, UNION, MAP and INTERFACE blocks." :type 'integer :group 'fortran-indent) (defcustom fortran-continuation-indent 5 "*Extra indentation applied to Fortran continuation lines." :type 'integer :group 'fortran-indent) (defcustom fortran-comment-indent-style 'fixed "*nil forces comment lines not to be touched, 'fixed makes fixed comment indentation to `fortran-comment-line-extra-indent' columns beyond `fortran-minimum-statement-indent-fixed' (for `indent-tabs-mode' of nil) or `fortran-minimum-statement-indent-tab' (for `indent-tabs-mode' of t), and 'relative indents to current Fortran indentation plus `fortran-comment-line-extra-indent'." :type '(radio (const nil) (const fixed) (const relative)) :group 'fortran-indent) (defcustom fortran-comment-line-extra-indent 0 "*Amount of extra indentation for text within full-line comments." :type 'integer :group 'fortran-indent :group 'fortran-comment) (defcustom fortran-comment-line-start nil "*Delimiter inserted to start new full-line comment." :type '(choice string (const nil)) :group 'fortran-comment) (defcustom fortran-comment-line-start-skip nil "*Regexp to match the start of a full-line comment." :type '(choice string (const nil)) :group 'fortran-comment) (defcustom fortran-minimum-statement-indent-fixed 6 "*Minimum statement indentation for fixed format continuation style." :type 'integer :group 'fortran-indent) (defcustom fortran-minimum-statement-indent-tab (max tab-width 6) "*Minimum statement indentation for TAB format continuation style." :type 'integer :group 'fortran-indent) ;; Note that this is documented in the v18 manuals as being a string ;; of length one rather than a single character. ;; The code in this file accepts either format for compatibility. (defcustom fortran-comment-indent-char " " "*Single-character string inserted for Fortran comment indentation. Normally a space." :type 'string :group 'fortran-comment) (defcustom fortran-line-number-indent 1 "*Maximum indentation for Fortran line numbers. 5 means right-justify them within their five-column field." :type 'integer :group 'fortran-indent) (defcustom fortran-check-all-num-for-matching-do nil "*Non-nil causes all numbered lines to be treated as possible DO loop ends." :type 'boolean :group 'fortran) (defcustom fortran-blink-matching-if nil "*Non-nil causes \\[fortran-indent-line] on ENDIF statement to blink on matching IF. Also, from an ENDDO statement blink on matching DO [WHILE] statement." :type 'boolean :group 'fortran) (defcustom fortran-continuation-string "$" "*Single-character string used for Fortran continuation lines. In fixed format continuation style, this character is inserted in column 6 by \\[fortran-split-line] to begin a continuation line. Also, if \\[fortran-indent-line] finds this at the beginning of a line, it will convert the line into a continuation line of the appropriate style. Normally $." :type 'string :group 'fortran) (defcustom fortran-comment-region "c$$$" "*String inserted by \\[fortran-comment-region]\ at start of each line in region." :type 'string :group 'fortran-comment) (defcustom fortran-electric-line-number t "*Non-nil causes line number digits to be moved to the correct column as\ typed." :type 'boolean :group 'fortran) (defcustom fortran-startup-message t "*Non-nil displays a startup message when Fortran mode is first called." :type 'boolean :group 'fortran) (defvar fortran-column-ruler-fixed "0 4 6 10 20 30 40 5\ \0 60 70\n\ \[ ]|{ | | | | | | | | \ \| | | | |}\n" "*String displayed above current line by \\[fortran-column-ruler]. This variable used in fixed format mode.") (defvar fortran-column-ruler-tab "0 810 20 30 40 5\ \0 60 70\n\ \[ ]| { | | | | | | | | \ \| | | | |}\n" "*String displayed above current line by \\[fortran-column-ruler]. This variable used in TAB format mode.") (defconst bug-fortran-mode "bug-fortran-mode@erl.mit.edu" "Address of mailing list for Fortran mode bugs.") (defvar fortran-mode-syntax-table nil "Syntax table in use in Fortran mode buffers.") (defvar fortran-analyze-depth 100 "Number of lines to scan to determine whether to use fixed or TAB format\ style.") (defcustom fortran-break-before-delimiters t "*Non-nil causes `fortran-fill' to break lines before delimiters." :type 'boolean :group 'fortran) (if fortran-mode-syntax-table () (setq fortran-mode-syntax-table (make-syntax-table)) (modify-syntax-entry ?\; "w" fortran-mode-syntax-table) (modify-syntax-entry ?\r " " fortran-mode-syntax-table) (modify-syntax-entry ?+ "." fortran-mode-syntax-table) (modify-syntax-entry ?- "." fortran-mode-syntax-table) (modify-syntax-entry ?= "." fortran-mode-syntax-table) ;; XEmacs change ;;(modify-syntax-entry ?* "." fortran-mode-syntax-table) (modify-syntax-entry ?/ "." fortran-mode-syntax-table) (modify-syntax-entry ?\' "\"" fortran-mode-syntax-table) (modify-syntax-entry ?\" "\"" fortran-mode-syntax-table) (modify-syntax-entry ?\\ "/" fortran-mode-syntax-table) (modify-syntax-entry ?. "_" fortran-mode-syntax-table) (modify-syntax-entry ?_ "_" fortran-mode-syntax-table) (modify-syntax-entry ?$ "_" fortran-mode-syntax-table) (modify-syntax-entry ?@ "_" fortran-mode-syntax-table) (modify-syntax-entry ?\! "<" fortran-mode-syntax-table) ;; XEmacs change ;;(modify-syntax-entry ?\n ">" fortran-mode-syntax-table) ;; XEmacs: an attempt to make font-lock understand fortran comments. (modify-syntax-entry ?\n "> 1" fortran-mode-syntax-table) (modify-syntax-entry ?* ". 2" fortran-mode-syntax-table) (modify-syntax-entry ?c "w 2" fortran-mode-syntax-table) (modify-syntax-entry ?C "w 2" fortran-mode-syntax-table) ) ;; Comments are real pain in Fortran because there is no way to represent the ;; standard comment syntax in an Emacs syntax table (we can for VAX-style). ;; Therefore an unmatched quote in a standard comment will throw fontification ;; off on the wrong track. So we do syntactic fontification with regexps. ;; Regexps done by simon@gnu with help from Ulrik Dickow and ;; probably others Si's forgotten about (sorry). (defconst fortran-font-lock-keywords-1 nil "Subdued level highlighting for Fortran mode.") (defconst fortran-font-lock-keywords-2 nil "Medium level highlighting for Fortran mode.") (defconst fortran-font-lock-keywords-3 nil "Gaudy level highlighting for Fortran mode.") (let ((comment-chars "c!*") (fortran-type-types ; (make-regexp ; (let ((simple-types '("character" "byte" "integer" "logical" ; "none" "real" "complex" ; "double[ \t]*precision" "double[ \t]*complex")) ; (structured-types '("structure" "union" "map")) ; (other-types '("record" "dimension" "parameter" "common" "save" ; "external" "intrinsic" "data" "equivalence"))) ; (append ; (mapcar (lambda (x) (concat "implicit[ \t]*" x)) simple-types) ; simple-types ; (mapcar (lambda (x) (concat "end[ \t]*" x)) structured-types) ; structured-types ; other-types))) (concat "byte\\|c\\(haracter\\|om\\(mon\\|plex\\)\\)\\|" "d\\(ata\\|imension\\|ouble" "[ \t]*\\(complex\\|precision\\)\\)\\|" "e\\(nd[ \t]*\\(map\\|structure\\|union\\)\\|" "quivalence\\|xternal\\)\\|" "i\\(mplicit[ \t]*\\(byte\\|" "c\\(haracter\\|omplex\\)\\|" "double[ \t]*\\(complex\\|precision\\)\\|" "integer\\|logical\\|none\\|real\\)\\|" "nt\\(eger\\|rinsic\\)\\)\\|" "logical\\|map\\|none\\|parameter\\|re\\(al\\|cord\\)\\|" "s\\(ave\\|tructure\\)\\|union")) (fortran-keywords ; ("continue" "format" "end" "enddo" "if" "then" "else" "endif" ; "elseif" "while" "inquire" "stop" "return" "include" "open" ; "close" "read" "write" "format" "print") (concat "c\\(lose\\|ontinue\\)\\|" "e\\(lse\\(\\|if\\)\\|nd\\(\\|do\\|if\\)\\)\\|format\\|" "i\\(f\\|n\\(clude\\|quire\\)\\)\\|open\\|print\\|" "re\\(ad\\|turn\\)\\|stop\\|then\\|w\\(hile\\|rite\\)")) (fortran-logicals ; ("and" "or" "not" "lt" "le" "eq" "ge" "gt" "ne" "true" "false") "and\\|eq\\|false\\|g[et]\\|l[et]\\|n\\(e\\|ot\\)\\|or\\|true")) (setq fortran-font-lock-keywords-1 (list ;; ;; Fontify syntactically (assuming strings cannot be quoted or span lines). (cons (concat "^[" comment-chars "].*") 'font-lock-comment-face) '(fortran-match-!-comment . font-lock-comment-face) (list (concat "^[^" comment-chars "\t\n]" (make-string 71 ?.) "\\(.*\\)") '(1 font-lock-comment-face)) '("'[^'\n]*'?" . font-lock-string-face) ;; ;; Program, subroutine and function declarations, plus calls. (list (concat "\\<\\(block[ \t]*data\\|call\\|entry\\|function\\|" "program\\|subroutine\\)\\>[ \t]*\\(\\(\\sw\\|\\s_\\)+\\)?") '(1 font-lock-keyword-face) '(2 font-lock-function-name-face nil t)))) (setq fortran-font-lock-keywords-2 (append fortran-font-lock-keywords-1 (list ;; ;; Fontify all type specifiers (must be first; see below). (cons (concat "\\<\\(" fortran-type-types "\\)\\>") 'font-lock-type-face) ;; ;; Fontify all builtin keywords (except logical, do and goto; see below). (concat "\\<\\(" fortran-keywords "\\)\\>") ;; ;; Fontify all builtin operators. (concat "\\.\\(" fortran-logicals "\\)\\.") ;; ;; Fontify do/goto keywords and targets, and goto tags. (list "\\<\\(do\\|go *to\\)\\>[ \t]*\\([0-9]+\\)?" '(1 font-lock-keyword-face) '(2 font-lock-reference-face nil t)) (cons "^ *\\([0-9]+\\)" 'font-lock-reference-face)))) (setq fortran-font-lock-keywords-3 (append ;; ;; The list `fortran-font-lock-keywords-1'. fortran-font-lock-keywords-1 ;; ;; Fontify all type specifiers plus their declared items. (list (list (concat "\\<\\(" fortran-type-types "\\)\\>[ \t(/]*\\(*\\)?") ;; Fontify the type specifier. '(1 font-lock-type-face) ;; Fontify each declaration item (or just the /.../ block name). '(font-lock-match-c++-style-declaration-item-and-skip-to-next ;; Start after any *(...) expression. (and (match-beginning 15) (forward-sexp 1)) ;; No need to clean up. nil ;; Fontify as a variable name, functions are fontified elsewhere. (1 font-lock-variable-name-face nil t)))) ;; ;; Things extra to `fortran-font-lock-keywords-3' (must be done first). (list ;; ;; Fontify goto-like `err=label'/`end=label' in read/write statements. '(", *\\(e\\(nd\\|rr\\)\\)\\> *\\(= *\\([0-9]+\\)\\)?" (1 font-lock-keyword-face) (4 font-lock-reference-face nil t)) ;; ;; Highlight standard continuation character and in a TAB-formatted line. '("^ \\([^ 0]\\)" 1 font-lock-string-face) '("^\t\\([1-9]\\)" 1 font-lock-string-face)) ;; ;; The list `fortran-font-lock-keywords-2' less that for types (see above). (cdr (nthcdr (length fortran-font-lock-keywords-1) fortran-font-lock-keywords-2)))) ) (defvar fortran-font-lock-keywords fortran-font-lock-keywords-1 "Default expressions to highlight in Fortran mode.") ;; XEmacs change (put 'fortran-mode 'font-lock-defaults '((fortran-font-lock-keywords fortran-font-lock-keywords-1 fortran-font-lock-keywords-2 fortran-font-lock-keywords-3) t t ((?/ . "$/")))) ;; Our previous version. ;(defconst fortran-font-lock-keywords-1 ; (purecopy ; (list ; ;; fontify comments ; '("^[cC*].*$" . font-lock-comment-face) ; ;; ; ;; fontify preprocessor directives. ; '("^#[ \t]*[a-z]+" . font-lock-preprocessor-face) ; ;; ; ;; fontify names being defined. ; '("^#[ \t]*\\(define\\|undef\\)[ \t]+\\(\\(\\sw\\|\\s_\\)+\\)" 2 ; font-lock-function-name-face) ; ;; ; ;; fontify other preprocessor lines. ; '("^#[ \t]*\\(if\\|ifn?def\\|elif\\)[ \t]+\\([^\n]+\\)" ; 2 font-lock-function-name-face t) ; ;; Subroutine and function declarations ; '("^[ \t]*subroutine.*$" . font-lock-function-name-face) ; '("^[ \t].*function.*$" . font-lock-function-name-face) ; '("^[ \t].*program.*$" . font-lock-function-name-face) ; '("^[ \t].*entry.*$" . font-lock-function-name-face) ; )) ; "For consideration as a value of `fortran-font-lock-keywords'. ;This does fairly subdued highlighting of comments and function names.") ;(defconst fortran-font-lock-keywords-2 ; (purecopy ; (append fortran-font-lock-keywords-1 ; (list ; ;; Variable declarations ; '("^[ \t]*\\(\\(integer\\|logical\\|real\\|complex\\|double[ \t]*precision\\|character\\|parameter\\)[^ \t]*\\)" ; 1 font-lock-keyword-face) ; ;; Common blocks, external, etc ; '("^[ \t]*\\(common\\|save\\|external\\|intrinsic\\|data\\)" 1 font-lock-keyword-face) ; ;; Other keywords ; '("^[ \t]*[0-9]*[ \t]*\\(if\\)[ \t]*(" ; 1 font-lock-keyword-face) ; ;; Then ; ;; '("^\\(\\([ \t]*[0-9]*[ \t]*\\)\\|\\( [^ ]\\)\\).*[ \t]*\\(then\\)[ \t]*" ; ;; 4 font-lock-keyword-face) ; '("\\(then\\)[ \t]*$" 1 font-lock-keyword-face) ; ;; '("^[ \t]*[0-9]*[ \t]*\\(end[ \t]*if\\)[ \t]*$" ; '("\\(end[ \t]*if\\)[ \t]*$" ; 1 font-lock-keyword-face) ; ;; '("\\(else[ \t]*\\(if\\)?\\)" ; ;; the below works better ; '("^[ \t]*[0-9]*[ \t]*\\(else[ \t]*\\(if\\)?\\)" ; 1 font-lock-keyword-face) ; '("^[ \t]*[0-9]*[ \t]*\\(do\\)[ \t]*[0-9]+" ; 1 font-lock-keyword-face) ; '("^[ \t]*[0-9]*[ \t]*\\(do\\)[ \t]*[a-z0-9_$]+[ \t]*=" ; 1 font-lock-keyword-face) ; '("^[ \t]*[0-9]*[ \t]*\\(end[ \t]*do\\)" ; 1 font-lock-keyword-face) ; '("^[ \t]*[0-9]+[ \t]*\\(continue\\)" 1 font-lock-keyword-face) ; '("^[ \t]*[0-9]*[ \t]*\\(call\\)" 1 font-lock-keyword-face) ; '("^[ \t]*[0-9]*[ \t]*\\(go[ \t]*to\\)" 1 font-lock-keyword-face) ; '("^[ \t]*[0-9]*[ \t]*\\(open\\|close\\|read\\|write\\|format\\)[ \t]*(" ; 1 font-lock-keyword-face) ; '("^[ \t]*[0-9]*[ \t]*\\(print\\)[ \t]*[*'0-9]+" 1 font-lock-keyword-face) ; '("^[ \t]*[0-9]*[ \t]*\\(end\\|return\\)[ \t]*$" 1 font-lock-keyword-face) ; '("^[ \t]*[0-9]*[ \t]*\\(stop\\)[ \t]*['0-9]*" 1 font-lock-keyword-face) ; ;; Boolean and relational operations, logical true and false ; '("\\.\\(and\\|or\\|not\\|lt\\|le\\|eq\\|ge\\|gt\\|ne\\|true\\|false\\)\\." ; . font-lock-keyword-face) ; ))) ; "For consideration as a value of `fortran-font-lock-keywords'. ;This highlights variable types, \"keywords,\" etc.") (defvar fortran-mode-map () "Keymap used in Fortran mode.") (if fortran-mode-map () (setq fortran-mode-map (make-sparse-keymap)) (define-key fortran-mode-map ";" 'fortran-abbrev-start) (define-key fortran-mode-map "\C-c;" 'fortran-comment-region) (define-key fortran-mode-map "\e\C-a" 'beginning-of-fortran-subprogram) (define-key fortran-mode-map "\e\C-e" 'end-of-fortran-subprogram) (define-key fortran-mode-map "\e;" 'fortran-indent-comment) ;; Separate M-BS from C-M-h. The former should remain ;; backward-kill-word. (define-key fortran-mode-map [(control meta h)] 'mark-fortran-subprogram) (define-key fortran-mode-map "\e\n" 'fortran-split-line) (define-key fortran-mode-map "\n" 'fortran-indent-new-line) (define-key fortran-mode-map "\e\C-q" 'fortran-indent-subprogram) (define-key fortran-mode-map "\C-c\C-w" 'fortran-window-create-momentarily) (define-key fortran-mode-map "\C-c\C-r" 'fortran-column-ruler) (define-key fortran-mode-map "\C-c\C-p" 'fortran-previous-statement) (define-key fortran-mode-map "\C-c\C-n" 'fortran-next-statement) (define-key fortran-mode-map "\C-c\C-d" 'fortran-join-line) ; like f90 (define-key fortran-mode-map "\M-^" 'fortran-join-line) ; subvert delete-indentation (define-key fortran-mode-map "\t" 'fortran-indent-line) (define-key fortran-mode-map "0" 'fortran-electric-line-number) (define-key fortran-mode-map "1" 'fortran-electric-line-number) (define-key fortran-mode-map "2" 'fortran-electric-line-number) (define-key fortran-mode-map "3" 'fortran-electric-line-number) (define-key fortran-mode-map "4" 'fortran-electric-line-number) (define-key fortran-mode-map "5" 'fortran-electric-line-number) (define-key fortran-mode-map "6" 'fortran-electric-line-number) (define-key fortran-mode-map "7" 'fortran-electric-line-number) (define-key fortran-mode-map "8" 'fortran-electric-line-number) (define-key fortran-mode-map "9" 'fortran-electric-line-number)) (defvar fortran-mode-abbrev-table nil) (if fortran-mode-abbrev-table () (let ((ac abbrevs-changed)) (define-abbrev-table 'fortran-mode-abbrev-table ()) (define-abbrev fortran-mode-abbrev-table ";au" "automatic" nil) (define-abbrev fortran-mode-abbrev-table ";b" "byte" nil) (define-abbrev fortran-mode-abbrev-table ";bd" "block data" nil) (define-abbrev fortran-mode-abbrev-table ";ch" "character" nil) (define-abbrev fortran-mode-abbrev-table ";cl" "close" nil) (define-abbrev fortran-mode-abbrev-table ";c" "continue" nil) (define-abbrev fortran-mode-abbrev-table ";cm" "common" nil) (define-abbrev fortran-mode-abbrev-table ";cx" "complex" nil) (define-abbrev fortran-mode-abbrev-table ";df" "define" nil) (define-abbrev fortran-mode-abbrev-table ";di" "dimension" nil) (define-abbrev fortran-mode-abbrev-table ";do" "double" nil) (define-abbrev fortran-mode-abbrev-table ";dc" "double complex" nil) (define-abbrev fortran-mode-abbrev-table ";dp" "double precision" nil) (define-abbrev fortran-mode-abbrev-table ";dw" "do while" nil) (define-abbrev fortran-mode-abbrev-table ";e" "else" nil) (define-abbrev fortran-mode-abbrev-table ";ed" "enddo" nil) (define-abbrev fortran-mode-abbrev-table ";el" "elseif" nil) (define-abbrev fortran-mode-abbrev-table ";en" "endif" nil) (define-abbrev fortran-mode-abbrev-table ";eq" "equivalence" nil) (define-abbrev fortran-mode-abbrev-table ";ew" "endwhere" nil) (define-abbrev fortran-mode-abbrev-table ";ex" "external" nil) (define-abbrev fortran-mode-abbrev-table ";ey" "entry" nil) (define-abbrev fortran-mode-abbrev-table ";f" "format" nil) (define-abbrev fortran-mode-abbrev-table ";fa" ".false." nil) (define-abbrev fortran-mode-abbrev-table ";fu" "function" nil) (define-abbrev fortran-mode-abbrev-table ";g" "goto" nil) (define-abbrev fortran-mode-abbrev-table ";im" "implicit" nil) (define-abbrev fortran-mode-abbrev-table ";ib" "implicit byte" nil) (define-abbrev fortran-mode-abbrev-table ";ic" "implicit complex" nil) (define-abbrev fortran-mode-abbrev-table ";ich" "implicit character" nil) (define-abbrev fortran-mode-abbrev-table ";ii" "implicit integer" nil) (define-abbrev fortran-mode-abbrev-table ";il" "implicit logical" nil) (define-abbrev fortran-mode-abbrev-table ";ir" "implicit real" nil) (define-abbrev fortran-mode-abbrev-table ";inc" "include" nil) (define-abbrev fortran-mode-abbrev-table ";in" "integer" nil) (define-abbrev fortran-mode-abbrev-table ";intr" "intrinsic" nil) (define-abbrev fortran-mode-abbrev-table ";l" "logical" nil) (define-abbrev fortran-mode-abbrev-table ";n" "namelist" nil) (define-abbrev fortran-mode-abbrev-table ";o" "open" nil) ; was ;op (define-abbrev fortran-mode-abbrev-table ";pa" "parameter" nil) (define-abbrev fortran-mode-abbrev-table ";pr" "program" nil) (define-abbrev fortran-mode-abbrev-table ";ps" "pause" nil) (define-abbrev fortran-mode-abbrev-table ";p" "print" nil) (define-abbrev fortran-mode-abbrev-table ";rc" "record" nil) (define-abbrev fortran-mode-abbrev-table ";re" "real" nil) (define-abbrev fortran-mode-abbrev-table ";r" "read" nil) (define-abbrev fortran-mode-abbrev-table ";rt" "return" nil) (define-abbrev fortran-mode-abbrev-table ";rw" "rewind" nil) (define-abbrev fortran-mode-abbrev-table ";s" "stop" nil) (define-abbrev fortran-mode-abbrev-table ";sa" "save" nil) (define-abbrev fortran-mode-abbrev-table ";st" "structure" nil) (define-abbrev fortran-mode-abbrev-table ";sc" "static" nil) (define-abbrev fortran-mode-abbrev-table ";su" "subroutine" nil) (define-abbrev fortran-mode-abbrev-table ";tr" ".true." nil) (define-abbrev fortran-mode-abbrev-table ";ty" "type" nil) (define-abbrev fortran-mode-abbrev-table ";vo" "volatile" nil) (define-abbrev fortran-mode-abbrev-table ";w" "write" nil) (define-abbrev fortran-mode-abbrev-table ";wh" "where" nil) (setq abbrevs-changed ac))) ;;;###autoload (defun fortran-mode () "Major mode for editing Fortran code. \\[fortran-indent-line] indents the current Fortran line correctly. 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: comment-start Normally nil in Fortran mode. If you want 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 within full-line comments. (default 0) fortran-comment-indent-style nil means don't change indentation of text in full-line comments, fixed means indent that text at `fortran-comment-line-extra-indent' beyond the value of `fortran-minimum-statement-indent-fixed' (for fixed format continuation style) or `fortran-minimum-statement-indent-tab' (for TAB format continuation style). relative means indent at `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 Fortran statements in fixed format mode. (def.6) fortran-minimum-statement-indent-tab Minimum indentation for Fortran statements in TAB format mode. (default 9) fortran-line-number-indent Maximum indentation for line numbers. A line number will get less than this much indentation if necessary to avoid reaching column 5. (default 1) 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 statement to blink on matching IF. Also, from an ENDDO statement, blink on matching DO [WHILE] statement. (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 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 `fortran-fill' breaks lines before delimiters. (default t) fortran-startup-message Set to nil to inhibit message first time Fortran mode is used. Turning on Fortran mode calls the value of the variable `fortran-mode-hook' with no args, if that value is non-nil." (interactive) (kill-all-local-variables) (if fortran-startup-message (message "Emacs Fortran mode %s. Bugs to %s" fortran-mode-version bug-fortran-mode)) (setq fortran-startup-message nil) (setq local-abbrev-table fortran-mode-abbrev-table) (set-syntax-table fortran-mode-syntax-table) ;; Font Lock mode support. (Removed for XEmacs) ;; (make-local-variable 'font-lock-defaults) ;; (setq font-lock-defaults '((fortran-font-lock-keywords ;; fortran-font-lock-keywords-1 ;; fortran-font-lock-keywords-2 ;; fortran-font-lock-keywords-3) ;; t t ((?/ . "$/")))) (make-local-variable 'fortran-break-before-delimiters) (setq fortran-break-before-delimiters t) (make-local-variable 'indent-line-function) (setq indent-line-function 'fortran-indent-line) (make-local-variable 'comment-indent-function) (setq comment-indent-function 'fortran-comment-hook) (make-local-variable 'fortran-comment-line-start-skip) (setq fortran-comment-line-start-skip "^[Cc*]\\(\\([^ \t\n]\\)\\2\\2*\\)?[ \t]*\\|^#.*") (make-local-variable 'fortran-comment-line-start) (setq fortran-comment-line-start "c") (make-local-variable 'fortran-comment-start-skip) (setq comment-start-skip "![ \t]*") (make-local-variable 'comment-start) (setq comment-start nil) (make-local-variable 'require-final-newline) (setq require-final-newline t) (make-local-variable 'abbrev-all-caps) (setq abbrev-all-caps t) (make-local-variable 'indent-tabs-mode) (setq indent-tabs-mode nil) ;;;(setq abbrev-mode t) ; ?? (abbrev-mode 1) instead?? (setq fill-column 72) ; Already local? (use-local-map fortran-mode-map) (setq mode-name "Fortran") (setq major-mode 'fortran-mode) ;;;(make-local-variable 'fortran-tab-mode) (make-local-variable 'fortran-comment-line-extra-indent) (make-local-variable 'fortran-minimum-statement-indent-fixed) (make-local-variable 'fortran-minimum-statement-indent-tab) (make-local-variable 'fortran-column-ruler-fixed) (make-local-variable 'fortran-column-ruler-tab) (make-local-variable 'fortran-tab-mode-string) (setq fortran-tab-mode-string " TAB-format") (setq indent-tabs-mode (fortran-analyze-file-format)) (set (make-local-variable 'fill-paragraph-function) 'fortran-fill-paragraph) (set (make-local-variable 'normal-auto-fill-function) 'fortran-auto-fill) (run-hooks 'fortran-mode-hook)) (defun fortran-comment-hook () (save-excursion (skip-chars-backward " \t") (max (+ 1 (current-column)) comment-column))) (defun fortran-indent-comment () "Align or create comment on current line. Existing comments of all types are recognized and aligned. If the line has no comment, a side-by-side comment is inserted and aligned if the value of comment-start is not nil. Otherwise, a separate-line comment is inserted, on this line or on a new line inserted before this line if this line is not blank." (interactive) (beginning-of-line) ;; Recognize existing comments of either kind. (cond ((looking-at fortran-comment-line-start-skip) (fortran-indent-line)) ((fortran-find-comment-start-skip) ; catches any inline comment and ; leaves point after comment-start-skip (if comment-start-skip (progn (goto-char (match-beginning 0)) (if (not (= (current-column) (fortran-comment-hook))) (progn (delete-horizontal-space) (indent-to (fortran-comment-hook))))) (end-of-line))) ; otherwise goto end of line or sth else? ;; No existing comment. ;; If side-by-side comments are defined, insert one, ;; unless line is now blank. ((and comment-start (not (looking-at "^[ \t]*$"))) (end-of-line) (delete-horizontal-space) (indent-to (fortran-comment-hook)) (insert comment-start)) ;; Else insert separate-line comment, making a new line if nec. (t (if (looking-at "^[ \t]*$") (delete-horizontal-space) (beginning-of-line) (insert "\n") (forward-char -1)) (insert fortran-comment-line-start) (insert-char (if (stringp fortran-comment-indent-char) (aref fortran-comment-indent-char 0) fortran-comment-indent-char) (- (calculate-fortran-indent) (current-column)))))) (defun fortran-comment-region (beg-region end-region arg) "Comments every line in the region. Puts fortran-comment-region at the beginning of every line in the region. BEG-REGION and END-REGION are args which specify the region boundaries. With non-nil ARG, uncomments the region." (interactive "*r\nP") (let ((end-region-mark (make-marker)) (save-point (point-marker))) (set-marker end-region-mark end-region) (goto-char beg-region) (beginning-of-line) (if (not arg) ;comment the region (progn (insert fortran-comment-region) (while (and (= (forward-line 1) 0) (< (point) end-region-mark)) (insert fortran-comment-region))) (let ((com (regexp-quote fortran-comment-region))) ;uncomment the region (if (looking-at com) (delete-region (point) (match-end 0))) (while (and (= (forward-line 1) 0) (< (point) end-region-mark)) (if (looking-at com) (delete-region (point) (match-end 0)))))) (goto-char save-point) (set-marker end-region-mark nil) (set-marker save-point nil))) (defun fortran-abbrev-start () "Typing ;\\[help-command] or ;? lists all the Fortran abbrevs. Any other key combination is executed normally." (interactive) ;; XEmacs change (let (e c) (insert last-command-char) (setq e (next-command-event) c (event-to-character e)) ;; insert char if not equal to `?' (if (or (= c ??) (eq c help-char)) (fortran-abbrev-help) (setq unread-command-events (list e))))) (defun fortran-abbrev-help () "List the currently defined abbrevs in Fortran mode." (interactive) (message "Listing abbrev table...") (display-buffer (fortran-prepare-abbrev-list-buffer)) (message "Listing abbrev table...done")) (defun fortran-prepare-abbrev-list-buffer () (save-excursion (set-buffer (get-buffer-create "*Abbrevs*")) (erase-buffer) (insert-abbrev-table-description 'fortran-mode-abbrev-table t) (goto-char (point-min)) (set-buffer-modified-p nil) (edit-abbrevs-mode)) (get-buffer-create "*Abbrevs*")) (defun fortran-column-ruler () "Inserts a column ruler momentarily above current line, till next keystroke. The ruler is defined by the value of `fortran-column-ruler-fixed' when in fixed format mode, and `fortran-column-ruler-tab' when in TAB format mode. The key typed is executed unless it is SPC." (interactive) (momentary-string-display (if indent-tabs-mode fortran-column-ruler-tab fortran-column-ruler-fixed) (save-excursion (beginning-of-line) (if (eq (window-start (selected-window)) (window-point (selected-window))) (progn (forward-line) (point)) (point))) nil "Type SPC or any command to erase ruler.")) (defun fortran-window-create () "Makes the window 72 columns wide. See also `fortran-window-create-momentarily'." (interactive) (condition-case error (progn (let ((window-min-width 2)) (if (< (window-width) (frame-width)) (enlarge-window-horizontally (- (frame-width) (window-width) 1))) (split-window-horizontally 73) (other-window 1) (switch-to-buffer " fortran-window-extra" t) (select-window (previous-window)))) (error (message "No room for Fortran window.") 'error))) (defun fortran-window-create-momentarily (&optional arg) "Momentarily makes the window 72 columns wide. Optional ARG non-nil and non-unity disables the momentary feature. See also `fortran-window-create'." (interactive "p") (if (or (not arg) (= arg 1)) (save-window-excursion (if (not (equal (fortran-window-create) 'error)) (progn (message "Type SPC to continue editing.") ;; XEmacs change (let ((char (next-command-event))) (or (equal (event-to-character char) ? ) (setq unread-command-events (list char))))))) (fortran-window-create))) (defun fortran-split-line () "Break line at point and insert continuation marker and alignment." (interactive) (delete-horizontal-space) (if (save-excursion (beginning-of-line) (looking-at fortran-comment-line-start-skip)) (insert "\n" fortran-comment-line-start " ") (if indent-tabs-mode (progn (insert "\n\t") (insert-char (fortran-numerical-continuation-char) 1)) (insert "\n " fortran-continuation-string)));Space after \n important (fortran-indent-line)) ;when the cont string is C, c or *. (defun fortran-numerical-continuation-char () "Return a digit for tab-digit style of continuation lines. If, previous line is a tab-digit continuation line, returns that digit plus one. Otherwise return 1. Zero not allowed." (save-excursion (forward-line -1) (if (looking-at "\t[1-9]") (+ ?1 (% (- (char-after (+ (point) 1)) ?0) 9)) ?1))) (defun delete-horizontal-regexp (chars) "Delete all characters in CHARS around point. CHARS is like the inside of a [...] in a regular expression except that ] is never special and \ quotes ^, - or \." (interactive "*s") (skip-chars-backward chars) (delete-region (point) (progn (skip-chars-forward chars) (point)))) (defun fortran-electric-line-number (arg) "Self insert, but if part of a Fortran line number indent it automatically. Auto-indent does not happen if a numeric arg is used." (interactive "P") (if (or arg (not fortran-electric-line-number)) (if arg (self-insert-command (prefix-numeric-value arg)) (self-insert-command 1)) (if (or (and (= 5 (current-column)) (save-excursion (beginning-of-line) (looking-at " ")));In col 5 with only spaces to left. (and (= (if indent-tabs-mode fortran-minimum-statement-indent-tab fortran-minimum-statement-indent-fixed) (current-column)) (save-excursion (beginning-of-line) (looking-at "\t"));In col 8 with a single tab to the left. (not (or (eq last-command 'fortran-indent-line) (eq last-command 'fortran-indent-new-line)))) (save-excursion (re-search-backward "[^ \t0-9]" (save-excursion (beginning-of-line) (point)) t)) ;not a line number (looking-at "[0-9]") ;within a line number ) (self-insert-command (prefix-numeric-value arg)) (skip-chars-backward " \t") (insert last-command-char) (fortran-indent-line)))) (defun beginning-of-fortran-subprogram () "Moves point to the beginning of the current Fortran subprogram." (interactive) (let ((case-fold-search t)) (beginning-of-line -1) (re-search-backward "^[ \t0-9]*end\\b[ \t]*[^ \t=(a-z]" nil 'move) (if (looking-at "^[ \t0-9]*end\\b[ \t]*[^ \t=(a-z]") (forward-line 1)))) (defun end-of-fortran-subprogram () "Moves point to the end of the current Fortran subprogram." (interactive) (let ((case-fold-search t)) (beginning-of-line 2) (re-search-forward "^[ \t0-9]*end\\b[ \t]*[^ \t=(a-z]" nil 'move) (goto-char (match-beginning 0)) (forward-line 1))) (defun mark-fortran-subprogram () "Put mark at end of Fortran subprogram, point at beginning. The marks are pushed." (interactive) (end-of-fortran-subprogram) (push-mark (point)) (beginning-of-fortran-subprogram)) (defun fortran-previous-statement () "Moves point to beginning of the previous Fortran statement. Returns `first-statement' if that statement is the first non-comment Fortran statement in the file, and nil otherwise." (interactive) (let (not-first-statement continue-test) (beginning-of-line) (setq continue-test (and (not (looking-at fortran-comment-line-start-skip)) (or (looking-at (concat "[ \t]*" (regexp-quote fortran-continuation-string))) (or (looking-at " [^ 0\n]") (looking-at "\t[1-9]"))))) (while (and (setq not-first-statement (= (forward-line -1) 0)) (or (looking-at fortran-comment-line-start-skip) (looking-at "[ \t]*$") (looking-at " [^ 0\n]") (looking-at "\t[1-9]") (looking-at (concat "[ \t]*" comment-start-skip))))) (cond ((and continue-test (not not-first-statement)) (message "Incomplete continuation statement.")) (continue-test (fortran-previous-statement)) ((not not-first-statement) 'first-statement)))) (defun fortran-next-statement () "Moves point to beginning of the next Fortran statement. Returns `last-statement' if that statement is the last non-comment Fortran statement in the file, and nil otherwise." (interactive) (let (not-last-statement) (beginning-of-line) (while (and (setq not-last-statement (and (= (forward-line 1) 0) (not (eobp)))) (or (looking-at fortran-comment-line-start-skip) (looking-at "[ \t]*$") (looking-at " [^ 0\n]") (looking-at "\t[1-9]") (looking-at (concat "[ \t]*" comment-start-skip))))) (if (not not-last-statement) 'last-statement))) (defun fortran-blink-matching-if () ;; From a Fortran ENDIF statement, blink the matching IF statement. (let ((top-of-window (window-start)) matching-if (endif-point (point)) message) (if (save-excursion (beginning-of-line) (skip-chars-forward " \t0-9") (looking-at "end[ \t]*if\\b")) (progn (if (not (setq matching-if (fortran-beginning-if))) (setq message "No matching if.") (if (< matching-if top-of-window) (save-excursion (goto-char matching-if) (beginning-of-line) (setq message (concat "Matches " (buffer-substring (point) (progn (end-of-line) (point)))))))) (if message (message "%s" message) (goto-char matching-if) (sit-for 1) (goto-char endif-point)))))) (defun fortran-blink-matching-do () ;; From a Fortran ENDDO statement, blink on the matching DO or DO WHILE ;; statement. This is basically copied from fortran-blink-matching-if. (let ((top-of-window (window-start)) matching-do (enddo-point (point)) message) (if (save-excursion (beginning-of-line) (skip-chars-forward " \t0-9") (looking-at "end[ \t]*do\\b")) (progn (if (not (setq matching-do (fortran-beginning-do))) (setq message "No matching do.") (if (< matching-do top-of-window) (save-excursion (goto-char matching-do) (beginning-of-line) (setq message (concat "Matches " (buffer-substring (point) (progn (end-of-line) (point)))))))) (if message (message "%s" message) (goto-char matching-do) (sit-for 1) (goto-char enddo-point)))))) (defun fortran-mark-do () "Put mark at end of Fortran DO [WHILE]-ENDDO construct, point at beginning. The marks are pushed." (interactive) (let (enddo-point do-point) (if (setq enddo-point (fortran-end-do)) (if (not (setq do-point (fortran-beginning-do))) (message "No matching do.") ;; Set mark, move point. (goto-char enddo-point) (push-mark) (goto-char do-point))))) (defun fortran-end-do () ;; Search forward for first unmatched ENDDO. Return point or nil. (if (save-excursion (beginning-of-line) (skip-chars-forward " \t0-9") (looking-at "end[ \t]*do\\b")) ;; Sitting on one. (match-beginning 0) ;; Search for one. (save-excursion (let ((count 1)) (while (and (not (= count 0)) (not (eq (fortran-next-statement) 'last-statement)) ;; Keep local to subprogram (not (looking-at "^[ \t0-9]*end\\b[ \t]*[^ \t=(a-z]"))) (skip-chars-forward " \t0-9") (cond ((looking-at "end[ \t]*do\\b") (setq count (- count 1))) ((looking-at "do[ \t]+[^0-9]") (setq count (+ count 1))))) (and (= count 0) ;; All pairs accounted for. (point)))))) (defun fortran-beginning-do () ;; Search backwards for first unmatched DO [WHILE]. Return point or nil. (if (save-excursion (beginning-of-line) (skip-chars-forward " \t0-9") (looking-at "do[ \t]+")) ;; Sitting on one. (match-beginning 0) ;; Search for one. (save-excursion (let ((count 1)) (while (and (not (= count 0)) (not (eq (fortran-previous-statement) 'first-statement)) ;; Keep local to subprogram (not (looking-at "^[ \t0-9]*end\\b[ \t]*[^ \t=(a-z]"))) (skip-chars-forward " \t0-9") (cond ((looking-at "do[ \t]+[^0-9]") (setq count (- count 1))) ((looking-at "end[ \t]*do\\b") (setq count (+ count 1))))) (and (= count 0) ;; All pairs accounted for. (point)))))) (defun fortran-mark-if () "Put mark at end of Fortran IF-ENDIF construct, point at beginning. The marks are pushed." (interactive) (let (endif-point if-point) (if (setq endif-point (fortran-end-if)) (if (not (setq if-point (fortran-beginning-if))) (message "No matching if.") ;; Set mark, move point. (goto-char endif-point) (push-mark) (goto-char if-point))))) (defun fortran-end-if () ;; Search forwards for first unmatched ENDIF. Return point or nil. (if (save-excursion (beginning-of-line) (skip-chars-forward " \t0-9") (looking-at "end[ \t]*if\\b")) ;; Sitting on one. (match-beginning 0) ;; Search for one. The point has been already been moved to first ;; letter on line but this should not cause troubles. (save-excursion (let ((count 1)) (while (and (not (= count 0)) (not (eq (fortran-next-statement) 'last-statement)) ;; Keep local to subprogram. (not (looking-at "^[ \t0-9]*end\\b[ \t]*[^ \t=(a-z]"))) (skip-chars-forward " \t0-9") (cond ((looking-at "end[ \t]*if\\b") (setq count (- count 1))) ((looking-at "if[ \t]*(") (save-excursion (if (or (looking-at ".*)[ \t]*then\\b[ \t]*[^ \t(=a-z0-9]") (let (then-test) ; Multi-line if-then. (while (and (= (forward-line 1) 0) ;; Search forward for then. (or (looking-at " [^ 0\n]") (looking-at "\t[1-9]")) (not (setq then-test (looking-at ".*then\\b[ \t]*[^ \t(=a-z0-9]"))))) then-test)) (setq count (+ count 1))))))) (and (= count 0) ;; All pairs accounted for. (point)))))) (defun fortran-beginning-if () ;; Search backwards for first unmatched IF-THEN. Return point or nil. (if (save-excursion ;; May be sitting on multi-line if-then statement, first move to ;; beginning of current statement. Note: `fortran-previous-statement' ;; moves to previous statement *unless* current statement is first ;; one. Only move forward if not first-statement. (if (not (eq (fortran-previous-statement) 'first-statement)) (fortran-next-statement)) (skip-chars-forward " \t0-9") (and (looking-at "if[ \t]*(") (save-match-data (or (looking-at ".*)[ \t]*then\\b[ \t]*[^ \t(=a-z0-9]") ;; Multi-line if-then. (let (then-test) (while (and (= (forward-line 1) 0) ;; Search forward for then. (or (looking-at " [^ 0\n]") (looking-at "\t[1-9]")) (not (setq then-test (looking-at ".*then\\b[ \t]*[^ \t(=a-z0-9]"))))) then-test))))) ;; Sitting on one. (match-beginning 0) ;; Search for one. (save-excursion (let ((count 1)) (while (and (not (= count 0)) (not (eq (fortran-previous-statement) 'first-statement)) ;; Keep local to subprogram. (not (looking-at "^[ \t0-9]*end\\b[ \t]*[^ \t=(a-z]"))) (skip-chars-forward " \t0-9") (cond ((looking-at "if[ \t]*(") (save-excursion (if (or (looking-at ".*)[ \t]*then\\b[ \t]*[^ \t(=a-z0-9]") (let (then-test) ; Multi-line if-then. (while (and (= (forward-line 1) 0) ;; Search forward for then. (or (looking-at " [^ 0\n]") (looking-at "\t[1-9]")) (not (setq then-test (looking-at ".*then\\b[ \t]*[^ \t(=a-z0-9]"))))) then-test)) (setq count (- count 1))))) ((looking-at "end[ \t]*if\\b") (setq count (+ count 1))))) (and (= count 0) ;; All pairs accounted for. (point)))))) (defun fortran-indent-line () "Indents current Fortran line based on its contents and on previous lines." (interactive) (let ((cfi (calculate-fortran-indent))) (save-excursion (beginning-of-line) (if (or (not (= cfi (fortran-current-line-indentation))) (and (re-search-forward "^[ \t]*[0-9]+" (+ (point) 4) t) (not (fortran-line-number-indented-correctly-p)))) (fortran-indent-to-column cfi) (beginning-of-line) (if (and (not (looking-at fortran-comment-line-start-skip)) (fortran-find-comment-start-skip)) (fortran-indent-comment)))) ;; Never leave point in left margin. (if (< (current-column) cfi) (move-to-column cfi)) (if (and auto-fill-function (> (save-excursion (end-of-line) (current-column)) fill-column)) (save-excursion (end-of-line) (fortran-fill))) (if fortran-blink-matching-if (progn (fortran-blink-matching-if) (fortran-blink-matching-do))))) (defun fortran-indent-new-line () "Reindent the current Fortran line, insert a newline and indent the newline. An abbrev before point is expanded if `abbrev-mode' is non-nil." (interactive) (if abbrev-mode (expand-abbrev)) (save-excursion (beginning-of-line) (skip-chars-forward " \t") (if (or (looking-at "[0-9]") ;Reindent only where it is most (looking-at "end") ;likely to be necessary (looking-at "else") (looking-at (regexp-quote fortran-continuation-string))) (fortran-indent-line))) (newline) (fortran-indent-line)) (defun fortran-indent-subprogram () "Properly indents the Fortran subprogram which contains point." (interactive) (save-excursion (mark-fortran-subprogram) (message "Indenting subprogram...") (indent-region (point) (mark t) nil)) ; XEmacs change (message "Indenting subprogram...done.")) (defun calculate-fortran-indent () "Calculates the Fortran indent column based on previous lines." (let (icol first-statement (case-fold-search t) (fortran-minimum-statement-indent (if indent-tabs-mode fortran-minimum-statement-indent-tab fortran-minimum-statement-indent-fixed))) (save-excursion (setq first-statement (fortran-previous-statement)) (if first-statement (setq icol fortran-minimum-statement-indent) (progn (if (= (point) (point-min)) (setq icol fortran-minimum-statement-indent) (setq icol (fortran-current-line-indentation))) (skip-chars-forward " \t0-9") (cond ((looking-at "if[ \t]*(") (if (or (looking-at ".*)[ \t]*then\\b[ \t]*[^ \t_$(=a-z0-9]") (let (then-test) ;multi-line if-then (while (and (= (forward-line 1) 0) ;;search forward for then (or (looking-at " [^ 0\n]") (looking-at "\t[1-9]")) (not (setq then-test (looking-at ".*then\\b[ \t]\ *[^ \t_$(=a-z0-9]"))))) then-test)) (setq icol (+ icol fortran-if-indent)))) ((looking-at "\\(else\\|elseif\\)\\b") (setq icol (+ icol fortran-if-indent))) ((looking-at "select[ \t]*case[ \t](.*)\\b") (setq icol (+ icol fortran-if-indent))) ((looking-at "case[ \t]*(.*)[ \t]*\n") (setq icol (+ icol fortran-if-indent))) ((looking-at "case[ \t]*default\\b") (setq icol (+ icol fortran-if-indent))) ((looking-at "\\(otherwise\\|else[ \t]*where\\)\\b") (setq icol (+ icol fortran-if-indent))) ((looking-at "where[ \t]*(.*)[ \t]*\n") (setq icol (+ icol fortran-if-indent))) ((looking-at "do\\b") (setq icol (+ icol fortran-do-indent))) ((looking-at "\\(structure\\|union\\|map\\|interface\\)\\b[ \t]*[^ \t=(a-z]") (setq icol (+ icol fortran-structure-indent))) ((looking-at "end\\b[ \t]*[^ \t=(a-z]") ;; Previous END resets indent to minimum (setq icol fortran-minimum-statement-indent)))))) (save-excursion (beginning-of-line) (cond ((looking-at "[ \t]*$")) ((looking-at fortran-comment-line-start-skip) (cond ((eq fortran-comment-indent-style 'relative) (setq icol (+ icol fortran-comment-line-extra-indent))) ((eq fortran-comment-indent-style 'fixed) (setq icol (+ fortran-minimum-statement-indent fortran-comment-line-extra-indent)))) (setq fortran-minimum-statement-indent 0)) ((or (looking-at (concat "[ \t]*" (regexp-quote fortran-continuation-string))) (looking-at " [^ 0\n]") (looking-at "\t[1-9]")) (setq icol (+ icol fortran-continuation-indent))) ((looking-at "[ \t]*#") ; Check for cpp directive. (setq fortran-minimum-statement-indent 0 icol 0)) (first-statement) ((and fortran-check-all-num-for-matching-do (looking-at "[ \t]*[0-9]+") (fortran-check-for-matching-do)) (setq icol (- icol fortran-do-indent))) (t (skip-chars-forward " \t0-9") (cond ((looking-at "end[ \t]*if\\b") (setq icol (- icol fortran-if-indent))) ((looking-at "\\(else\\|elseif\\)\\b") (setq icol (- icol fortran-if-indent))) ((looking-at "case[ \t]*(.*)[ \t]*\n") (setq icol (- icol fortran-if-indent))) ((looking-at "case[ \t]*default\\b") (setq icol (- icol fortran-if-indent))) ((looking-at "\\(otherwise\\|else[ \t]*where\\)\\b") (setq icol (- icol fortran-if-indent))) ((looking-at "end[ \t]*where\\b") (setq icol (- icol fortran-if-indent))) ((and (looking-at "continue\\b") (fortran-check-for-matching-do)) (setq icol (- icol fortran-do-indent))) ((looking-at "end[ \t]*do\\b") (setq icol (- icol fortran-do-indent))) ((looking-at "end[ \t]*\ \\(structure\\|union\\|map\\|interface\\)\\b[ \t]*[^ \t=(a-z]") (setq icol (- icol fortran-structure-indent))) ((looking-at "end[ \t]*select\\b[ \t]*[^ \t=(a-z]") (setq icol (- icol fortran-if-indent))) ((and (looking-at "end\\b[ \t]*[^ \t=(a-z]") (not (= icol fortran-minimum-statement-indent))) (message "Warning: `end' not in column %d. Probably\ an unclosed block." fortran-minimum-statement-indent)))))) (max fortran-minimum-statement-indent icol))) (defun fortran-current-line-indentation () "Indentation of current line, ignoring Fortran line number or continuation. This is the column position of the first non-whitespace character aside from the line number and/or column 5/8 line-continuation character. For comment lines, returns indentation of the first non-indentation text within the comment." (save-excursion (beginning-of-line) (cond ((looking-at fortran-comment-line-start-skip) (goto-char (match-end 0)) (skip-chars-forward (if (stringp fortran-comment-indent-char) fortran-comment-indent-char (char-to-string fortran-comment-indent-char)))) ((or (looking-at " [^ 0\n]") (looking-at "\t[1-9]")) (goto-char (match-end 0))) (t ;; Move past line number. (skip-chars-forward "[ \t0-9]");From Uli )) ;; Move past whitespace. (skip-chars-forward " \t") (current-column))) (defun fortran-indent-to-column (col) "Indents current line with spaces to column COL. notes: 1) A non-zero/non-blank character in column 5 indicates a continuation line, and this continuation character is retained on indentation; 2) If `fortran-continuation-string' is the first non-whitespace character, this is a continuation line; 3) A non-continuation line which has a number as the first non-whitespace character is a numbered line. 4) A TAB followed by a digit indicates a continuation line." (save-excursion (beginning-of-line) (if (looking-at fortran-comment-line-start-skip) (if fortran-comment-indent-style (let ((char (if (stringp fortran-comment-indent-char) (aref fortran-comment-indent-char 0) fortran-comment-indent-char))) (goto-char (match-end 0)) (delete-horizontal-regexp (concat " \t" (char-to-string char))) (insert-char char (- col (current-column))))) (if (looking-at "\t[1-9]") (if indent-tabs-mode (goto-char (match-end 0)) (delete-char 2) (insert " ") (insert fortran-continuation-string)) (if (looking-at " [^ 0\n]") (if indent-tabs-mode (progn (delete-char 6) (insert "\t") (insert-char (fortran-numerical-continuation-char) 1)) (forward-char 6)) (delete-horizontal-space) ;; Put line number in columns 0-4 ;; or put continuation character in column 5. (cond ((eobp)) ((looking-at (regexp-quote fortran-continuation-string)) (if indent-tabs-mode (progn (indent-to (if indent-tabs-mode fortran-minimum-statement-indent-tab fortran-minimum-statement-indent-fixed)) (delete-char 1) (insert-char (fortran-numerical-continuation-char) 1)) (indent-to 5) (forward-char 1))) ((looking-at "[0-9]+") (let ((extra-space (- 5 (- (match-end 0) (point))))) (if (< extra-space 0) (message "Warning: line number exceeds 5-digit limit.") (indent-to (min fortran-line-number-indent extra-space)))) (skip-chars-forward "0-9"))))) ;; Point is now after any continuation character or line number. ;; Put body of statement where specified. (delete-horizontal-space) (indent-to col) ;; Indent any comment following code on the same line. (if (and comment-start-skip (fortran-find-comment-start-skip)) (progn (goto-char (match-beginning 0)) (if (not (= (current-column) (fortran-comment-hook))) (progn (delete-horizontal-space) (indent-to (fortran-comment-hook))))))))) (defun fortran-line-number-indented-correctly-p () "Return t if current line's line number is correctly indented. Do not call if there is no line number." (save-excursion (beginning-of-line) (skip-chars-forward " \t") (and (<= (current-column) fortran-line-number-indent) (or (= (current-column) fortran-line-number-indent) (progn (skip-chars-forward "0-9") (= (current-column) 5)))))) (defun fortran-check-for-matching-do () "When called from a numbered statement, returns t if matching DO is found. Otherwise return a nil." (let (charnum (case-fold-search t)) (save-excursion (beginning-of-line) (if (looking-at "[ \t]*[0-9]+") (progn (skip-chars-forward " \t") (skip-chars-forward "0") ;skip past leading zeros (setq charnum (buffer-substring (point) (progn (skip-chars-forward "0-9") (point)))) (beginning-of-line) (and (re-search-backward (concat "\\(^[ \t0-9]*end\\b[ \t]*[^ \t=(a-z]\\)\\|" "\\(^[ \t0-9]*do[ \t]*0*" charnum "\\b\\)\\|" "\\(^[ \t]*0*" charnum "\\b\\)") nil t) (looking-at (concat "^[ \t0-9]*do[ \t]*0*" charnum)))))))) (defun fortran-find-comment-start-skip () "Move to past `comment-start-skip' found on current line. Return t if `comment-start-skip' found, nil if not." ;;; In order to move point only if comment-start-skip is found, ;;; this one uses a lot of save-excursions. Note that re-search-forward ;;; moves point even if comment-start-skip is inside a string-constant. ;;; Some code expects certain values for match-beginning and end (interactive) (if (save-excursion (re-search-forward comment-start-skip (save-excursion (end-of-line) (point)) t)) (let ((save-match-beginning (match-beginning 0)) (save-match-end (match-end 0))) (if (fortran-is-in-string-p (match-beginning 0)) (save-excursion (goto-char save-match-end) (fortran-find-comment-start-skip)) ; recurse for rest of line (goto-char save-match-beginning) (re-search-forward comment-start-skip (save-excursion (end-of-line) (point)) t) (goto-char (match-end 0)) t)) nil)) ;;;From: simon@gnu (Simon Marshall) ;;; Find the next ! not in a string. (defun fortran-match-!-comment (limit) (let (found) (while (and (setq found (search-forward "!" limit t)) (fortran-is-in-string-p (point)))) (if (not found) nil ;; Cheaper than `looking-at' "!.*". (store-match-data (list (1- (point)) (progn (end-of-line) (min (point) limit)))) t))) ;; The above function is about 10% faster than the below... ;;(defun fortran-match-!-comment (limit) ;; (let (found) ;; (while (and (setq found (re-search-forward "!.*" limit t)) ;; (fortran-is-in-string-p (match-beginning 0)))) ;; found)) ;;;From: ralf@up3aud1.gwdg.de (Ralf Fassel) ;;; Test if TAB format continuation lines work. (defun fortran-is-in-string-p (where) "Return non-nil if POS (a buffer position) is inside a Fortran string, nil else." (save-excursion (goto-char where) (cond ((bolp) nil) ; bol is never inside a string ((save-excursion ; comment lines too (beginning-of-line)(looking-at fortran-comment-line-start-skip)) nil) (t (let (;; ok, serious now. Init some local vars: (parse-state '(0 nil nil nil nil nil 0)) (quoted-comment-start (if comment-start (regexp-quote comment-start))) (not-done t) parse-limit end-of-line ) ;; move to start of current statement (fortran-next-statement) (fortran-previous-statement) ;; now parse up to WHERE (while not-done (if (or ;; skip to next line if: ;; - comment line? (looking-at fortran-comment-line-start-skip) ;; - at end of line? (eolp) ;; - not in a string and after comment-start? (and (not (nth 3 parse-state)) comment-start (equal comment-start (char-to-string (preceding-char))))) ;; get around a bug in forward-line in versions <= 18.57 (if (or (> (forward-line 1) 0) (eobp)) (setq not-done nil)) ;; else: ;; if we are at beginning of code line, skip any ;; whitespace, labels and tab continuation markers. (if (bolp) (skip-chars-forward " \t0-9")) ;; if we are in column <= 5 now, check for continuation char (cond ((= 5 (current-column)) (forward-char 1)) ((and (< (current-column) 5) (equal fortran-continuation-string (char-to-string (following-char))) (forward-char 1)))) ;; find out parse-limit from here (setq end-of-line (save-excursion (end-of-line)(point))) (setq parse-limit (min where end-of-line)) ;; parse max up to comment-start, if non-nil and in current line (if comment-start (save-excursion (if (re-search-forward quoted-comment-start end-of-line t) (setq parse-limit (min (point) parse-limit))))) ;; now parse if still in limits (if (< (point) where) (setq parse-state (parse-partial-sexp (point) parse-limit nil nil parse-state)) (setq not-done nil)) )) ;; result is (nth 3 parse-state)))))) (defun fortran-auto-fill-mode (arg) "Toggle fortran-auto-fill mode. With ARG, turn `fortran-auto-fill' mode on iff ARG is positive. In `fortran-auto-fill' mode, inserting a space at a column beyond `fill-column' automatically breaks the line at a previous space." (interactive "P") (prog1 (setq auto-fill-function (if (if (null arg) (not auto-fill-function) (> (prefix-numeric-value arg) 0)) 'fortran-do-auto-fill nil)) (redraw-modeline))) (defun fortran-do-auto-fill () (if (> (current-column) fill-column) (fortran-indent-line))) (defun fortran-fill () (interactive) (let* ((opoint (point)) (bol (save-excursion (beginning-of-line) (point))) (eol (save-excursion (end-of-line) (point))) (bos (min eol (+ bol (fortran-current-line-indentation)))) (quote (save-excursion (goto-char bol) (if (looking-at fortran-comment-line-start-skip) nil ; OK to break quotes on comment lines. (move-to-column fill-column) (cond ((fortran-is-in-string-p (point)) (save-excursion (re-search-backward "[^']'[^']" bol t) (if fortran-break-before-delimiters (point) (1+ (point))))) (t nil))))) ;; ;; decide where to split the line. If a position for a quoted ;; string was found above then use that, else break the line ;; before the last delimiter. ;; Delimiters are whitespace, commas, and operators. ;; Will break before a pair of *'s. ;; (fill-point (or quote (save-excursion (move-to-column (1+ fill-column)) (skip-chars-backward "^ \t\n,'+-/*=)" ;;; (if fortran-break-before-delimiters ;;; "^ \t\n,'+-/*=" "^ \t\n,'+-/*=)") ) (if (<= (point) (1+ bos)) (progn (move-to-column (1+ fill-column)) ;;;what is this doing??? (if (not (re-search-forward "[\t\n,'+-/*)=]" eol t)) (goto-char bol)))) (if (bolp) (re-search-forward "[ \t]" opoint t) (forward-char -1) (if (looking-at "'") (forward-char 1) (skip-chars-backward " \t\*"))) (if fortran-break-before-delimiters (point) (1+ (point)))))) ) ;; if we are in an in-line comment, don't break unless the ;; line of code is longer than it should be. Otherwise ;; break the line at the column computed above. ;; ;; Need to use fortran-find-comment-start-skip to make sure that quoted !'s ;; don't prevent a break. (if (not (or (save-excursion (if (and (re-search-backward comment-start-skip bol t) (not (fortran-is-in-string-p (point)))) (progn (skip-chars-backward " \t") (< (current-column) (1+ fill-column))))) (save-excursion (goto-char fill-point) (bolp)))) (if (> (save-excursion (goto-char fill-point) (current-column)) (1+ fill-column)) (progn (goto-char fill-point) (fortran-break-line)) (save-excursion (if (> (save-excursion (goto-char fill-point) (current-column)) (+ (calculate-fortran-indent) fortran-continuation-indent)) (progn (goto-char fill-point) (fortran-break-line)))))) )) (defun fortran-break-line () (let ((bol (save-excursion (beginning-of-line) (point))) (eol (save-excursion (end-of-line) (point))) (comment-string nil)) (save-excursion (if (and comment-start-skip (fortran-find-comment-start-skip)) (progn (re-search-backward comment-start-skip bol t) (setq comment-string (buffer-substring (point) eol)) (delete-region (point) eol)))) ;;; Forward line 1 really needs to go to next non white line (if (save-excursion (forward-line 1) (or (looking-at " [^ 0\n]") (looking-at "\t[1-9]"))) (progn (end-of-line) (delete-region (point) (match-end 0)) (delete-horizontal-space) (fortran-fill)) (fortran-split-line)) (if comment-string (save-excursion (goto-char bol) (end-of-line) (delete-horizontal-space) (indent-to (fortran-comment-hook)) (insert comment-string))))) (defun fortran-analyze-file-format () "Returns nil if fixed format is used, t if TAB formatting is used. Use `fortran-tab-mode-default' if no non-comment statements are found in the file before the end or the first `fortran-analyze-depth' lines." (let ((i 0)) (save-excursion (goto-char (point-min)) (setq i 0) (while (not (or (eobp) (looking-at "\t") (looking-at " ") (> i fortran-analyze-depth))) (forward-line) (setq i (1+ i))) (cond ((looking-at "\t") t) ((looking-at " ") nil) (fortran-tab-mode-default t) (t nil))))) (or (assq 'fortran-tab-mode-string minor-mode-alist) (setq minor-mode-alist (cons '(fortran-tab-mode-string (indent-tabs-mode fortran-tab-mode-string)) minor-mode-alist))) ; fortran-join-line and fill ; imported from GNU Emacs 21.3.1 by s.ballestrero@firenze.linux.it (defun fortran-remove-continuation () (if (looking-at "\\( [^ 0\n]\\|\t[1-9]\\|&\\)") (progn (replace-match "") (delete-indentation) t))) (defun fortran-join-line (arg) "Join current line to the previous one and re-indent. With a prefix argument, repeat this operation that many times. If the prefix argument ARG is negative, join the next -ARG lines. Continuation lines are correctly handled." (interactive "*p") (save-excursion (when (> 0 arg) (setq arg (- arg)) (forward-line arg)) (while (not (zerop arg)) (beginning-of-line) (or (fortran-remove-continuation) (delete-indentation)) (setq arg (1- arg))) (fortran-indent-line))) (defun fortran-fill-paragraph (&optional justify) "Fill surrounding comment block as paragraphs, else fill statement. Intended as the value of `fill-paragraph-function'." (interactive "P") (save-excursion (beginning-of-line) (if (not (looking-at fortran-comment-line-start-skip)) (fortran-fill-statement) ;; We're in a comment block. Find the start and end of a ;; paragraph, delimited either by non-comment lines or empty ;; comments. (Get positions as markers, since the ;; `indent-region' below can shift the block's end). (let* ((non-empty-comment (concat fortran-comment-line-start-skip "[^ \t\n]")) (start (save-excursion ;; Find (start of) first line. (while (and (zerop (forward-line -1)) (looking-at non-empty-comment))) (or (looking-at non-empty-comment) (forward-line)) ; overshot (point-marker))) (end (save-excursion ;; Find start of first line past region to fill. (while (progn (forward-line) (looking-at non-empty-comment))) (point-marker)))) ;; Indent the block, find the string comprising the effective ;; comment start skip and use that as a fill-prefix for ;; filling the region. (indent-region start end nil) (let ((paragraph-ignore-fill-prefix nil) (fill-prefix (progn (beginning-of-line) (looking-at fortran-comment-line-start-skip) (match-string 0)))) (let (fill-paragraph-function) (fill-region start end justify))) ; with normal `fill-paragraph' (set-marker start nil) (set-marker end nil)))) t) (defun fortran-fill-statement () "Fill a fortran statement up to `fill-column'." (interactive) (let ((auto-fill-function #'fortran-auto-fill)) (if (not (save-excursion (beginning-of-line) (or (looking-at "[ \t]*$") (looking-at fortran-comment-line-start-skip) (and comment-start-skip (looking-at (concat "[ \t]*" comment-start-skip)))))) (save-excursion ;; Find beginning of statement. (fortran-next-statement) (fortran-previous-statement) ;; Re-indent initially. (fortran-indent-line) ;; Replace newline plus continuation field plus indentation with ;; single space. (while (progn (forward-line) (fortran-remove-continuation))) (fortran-previous-statement))) (fortran-indent-line))) ;; XEmacs additions ;;;###autoload(add-to-list 'auto-mode-alist '("\\.f\\(?:or\\)?\\'" . fortran-mode)) ;;;###autoload(add-to-list 'auto-mode-alist '("\\.F\\(?:OR\\)?\\'" . fortran-mode)) (provide 'fortran) ;;; fortran.el ends here