;;; The contents of this file are subject to the Netscape Public License ;;; Version 1.0 (the "NPL"); you may not use this file except in ;;; compliance with the NPL. You may obtain a copy of the NPL at ;;; http://www.mozilla.org/NPL/ ;;; ;;; Software distributed under the NPL is distributed on an "AS IS" basis, ;;; WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL ;;; for the specific language governing rights and limitations under the ;;; NPL. ;;; ;;; The Initial Developer of this code under the NPL is Netscape ;;; Communications Corporation. Portions created by Netscape are ;;; Copyright (C) 1998 Netscape Communications Corporation. All Rights ;;; Reserved. ;;; ;;; RTF reader and writer ;;; ;;; Waldemar Horwat (waldemar@netscape.com) ;;; ;;; 1440 twips/inch ;;; 20 twips/pt (defparameter *rtf-definitions* '((:rtf-intro rtf 1 mac ansicpg 10000 uc 1 deff 0 deflang 2057 deflangfe 2057) ;Fonts ((+ :rtf-intro) :fonttbl) (:fonttbl (fonttbl :fonts)) (:times f 0) ((+ :fonts) (:times froman fcharset 256 fprq 2 (* panose "02020603050405020304") "Times New Roman;")) (:symbol f 3) ((+ :fonts) (:symbol ftech fcharset 2 fprq 2 "Symbol;")) (:helvetica f 4) ((+ :fonts) (:helvetica fnil fcharset 256 fprq 2 "Helvetica;")) (:courier f 5) ((+ :fonts) (:courier fmodern fcharset 256 fprq 2 "Courier New;")) (:palatino f 6) ((+ :fonts) (:palatino fnil fcharset 256 fprq 2 "Palatino;")) (:zapf-chancery f 7) ((+ :fonts) (:zapf-chancery fscript fcharset 256 fprq 2 "Zapf Chancery;")) (:zapf-dingbats f 8) ((+ :fonts) (:zapf-dingbats ftech fcharset 2 fprq 2 "Zapf Dingbats;")) ;Color table ((+ :rtf-intro) :colortbl) (:colortbl (colortbl ";" ;0 red 0 green 0 blue 0 ";" ;1 red 0 green 0 blue 255 ";" ;2 red 0 green 255 blue 255 ";" ;3 red 0 green 255 blue 0 ";" ;4 red 255 green 0 blue 255 ";" ;5 red 255 green 0 blue 0 ";" ;6 red 255 green 255 blue 0 ";" ;7 red 255 green 255 blue 255 ";" ;8 red 0 green 0 blue 128 ";" ;9 red 0 green 128 blue 128 ";" ;10 red 0 green 128 blue 0 ";" ;11 red 128 green 0 blue 128 ";" ;12 red 128 green 0 blue 0 ";" ;13 red 128 green 128 blue 0 ";" ;14 red 128 green 128 blue 128 ";" ;15 red 192 green 192 blue 192 ";")) ;16 (:black cf 1) (:blue cf 2) (:turquoise cf 3) (:bright-green cf 4) (:pink cf 5) (:red cf 6) (:yellow cf 7) (:white cf 8) (:dark-blue cf 9) (:teal cf 10) (:green cf 11) (:violet cf 12) (:dark-red cf 13) (:dark-yellow cf 14) (:gray-50 cf 15) (:gray-25 cf 16) ;Misc. (:tab2 tab) (:tab3 tab) (:8-pt fs 16) (:9-pt fs 18) (:10-pt fs 20) (:12-pt fs 24) (:no-language lang 1024) (:english lang 1033) (:english-uk lang 2057) (:reset-section sectd) (:new-section sect) (:reset-paragraph pard plain) ((:new-paragraph t) par) ((:new-line t) line) ;Symbols (-10 suffix means 10-point, etc.) ((:bullet 1) bullet) ((:minus 1) endash) ((:not-equal 1) u 8800 \' 173) ((:less-or-equal 1) u 8804 \' 178) ((:greater-or-equal 1) u 8805 \' 179) ((:infinity 1) u 8734 \' 176) ((:left-single-quote 1) lquote) ((:right-single-quote 1) rquote) ((:left-double-quote 1) ldblquote) ((:right-double-quote 1) rdblquote) ((:left-angle-quote 1) u 171 \' 199) ((:right-angle-quote 1) u 187 \' 200) ((:bottom-10 1) (field (* fldinst "SYMBOL 94 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:up-arrow-10 1) (field (* fldinst "SYMBOL 173 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:function-arrow-10 2) (field (* fldinst "SYMBOL 174 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:cartesian-product-10 2) (field (* fldinst "SYMBOL 180 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:identical-10 2) (field (* fldinst "SYMBOL 186 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:member-10 2) (field (* fldinst "SYMBOL 206 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:derives-10 2) (field (* fldinst "SYMBOL 222 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:left-triangle-bracket-10 1) (field (* fldinst "SYMBOL 225 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:right-triangle-bracket-10 1) (field (* fldinst "SYMBOL 241 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:big-plus-10 2) (field (* fldinst "SYMBOL 58 \\f \"Zapf Dingbats\" \\s 10") (fldrslt :zapf-dingbats :10-pt))) ((:alpha 1) (field (* fldinst "SYMBOL 97 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:beta 1) (field (* fldinst "SYMBOL 98 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:chi 1) (field (* fldinst "SYMBOL 99 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:delta 1) (field (* fldinst "SYMBOL 100 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:epsilon 1) (field (* fldinst "SYMBOL 101 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:phi 1) (field (* fldinst "SYMBOL 102 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:gamma 1) (field (* fldinst "SYMBOL 103 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:eta 1) (field (* fldinst "SYMBOL 104 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:iota 1) (field (* fldinst "SYMBOL 105 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:kappa 1) (field (* fldinst "SYMBOL 107 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:lambda 1) (field (* fldinst "SYMBOL 108 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:mu 1) (field (* fldinst "SYMBOL 109 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:nu 1) (field (* fldinst "SYMBOL 110 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:omicron 1) (field (* fldinst "SYMBOL 111 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:pi 1) (field (* fldinst "SYMBOL 112 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:theta 1) (field (* fldinst "SYMBOL 113 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:rho 1) (field (* fldinst "SYMBOL 114 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:sigma 1) (field (* fldinst "SYMBOL 115 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:tau 1) (field (* fldinst "SYMBOL 116 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:upsilon 1) (field (* fldinst "SYMBOL 117 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:omega 1) (field (* fldinst "SYMBOL 119 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:xi 1) (field (* fldinst "SYMBOL 120 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:psi 1) (field (* fldinst "SYMBOL 121 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ((:zeta 1) (field (* fldinst "SYMBOL 122 \\f \"Symbol\" \\s 10") (fldrslt :symbol :10-pt))) ;Styles ((+ :rtf-intro) :stylesheet) (:stylesheet (stylesheet :styles)) (:normal-num 0) (:normal s :normal-num) ((+ :styles) (widctlpar :10-pt :english-uk snext :normal-num "Normal;")) (:body-text-num 1) (:body-text s :body-text-num qj sa 120 widctlpar :10-pt :english-uk) ((+ :styles) (:body-text sbasedon :normal-num snext :body-text-num "Body Text;")) (:section-heading-num 2) (:section-heading s :section-heading-num sa 60 keep keepn nowidctlpar hyphpar 0 level 3 b :12-pt :english-uk) ((+ :styles) (:section-heading sbasedon :subsection-heading-num snext :body-text-num "heading 3;")) (:subsection-heading-num 3) (:subsection-heading s :subsection-heading-num sa 30 keep keepn nowidctlpar hyphpar 0 level 4 b :10-pt :english-uk) ((+ :styles) (:subsection-heading sbasedon :normal-num snext :body-text-num "heading 4;")) (:grammar-num 10) (:grammar s :grammar-num nowidctlpar hyphpar 0 :10-pt :no-language) ((+ :styles) (:grammar sbasedon :normal-num snext :grammar-num "Grammar;")) (:grammar-header-num 11) (:grammar-header s :grammar-header-num sb 60 keep keepn nowidctlpar hyphpar 0 b :10-pt :english-uk) ((+ :styles) (:grammar-header sbasedon :normal-num snext :grammar-lhs-num "Grammar Header;")) (:grammar-lhs-num 12) (:grammar-lhs s :grammar-lhs-num fi -1440 li 1800 sb 120 keep keepn nowidctlpar hyphpar 0 outlinelevel 4 :10-pt :no-language) ((+ :styles) (:grammar-lhs sbasedon :grammar-num snext :grammar-rhs-num "Grammar LHS;")) (:grammar-lhs-last-num 13) (:grammar-lhs-last s :grammar-lhs-last-num fi -1440 li 1800 sb 120 sa 120 keep nowidctlpar hyphpar 0 outlinelevel 4 :10-pt :no-language) ((+ :styles) (:grammar-lhs-last sbasedon :grammar-num snext :grammar-lhs-num "Grammar LHS Last;")) (:grammar-rhs-num 14) (:grammar-rhs s :grammar-rhs-num fi -1260 li 1800 keep keepn nowidctlpar tx 720 hyphpar 0 :10-pt :no-language) ((+ :styles) (:grammar-rhs sbasedon :grammar-num snext :grammar-rhs-num "Grammar RHS;")) (:grammar-rhs-last-num 15) (:grammar-rhs-last s :grammar-rhs-last-num fi -1260 li 1800 sa 120 keep nowidctlpar tx 720 hyphpar 0 :10-pt :no-language) ((+ :styles) (:grammar-rhs-last sbasedon :grammar-rhs-num snext :grammar-lhs-num "Grammar RHS Last;")) (:grammar-argument-num 16) (:grammar-argument s :grammar-argument-num fi -1440 li 1800 sb 120 sa 120 keep nowidctlpar hyphpar 0 outlinelevel 4 :10-pt :no-language) ((+ :styles) (:grammar-argument sbasedon :grammar-num snext :grammar-lhs-num "Grammar Argument;")) (:semantics-num 20) (:semantics s :semantics-num li 180 sb 60 sa 60 keep nowidctlpar hyphpar 0 :10-pt :no-language) ((+ :styles) (:semantics sbasedon :normal-num snext :semantics-num "Semantics;")) (:semantics-next-num 21) (:semantics-next s :semantics-next-num li 540 sa 60 keep nowidctlpar hyphpar 0 :10-pt :no-language) ((+ :styles) (:semantics-next sbasedon :semantics-num snext :semantics-next-num "Semantics Next;")) (:default-paragraph-font-num 30) (:default-paragraph-font cs :default-paragraph-font-num) ((+ :styles) (* :default-paragraph-font additive "Default Paragraph Font;")) (:character-literal-num 31) (:character-literal cs :character-literal-num b :courier :blue :no-language) ((+ :styles) (* :character-literal additive sbasedon :default-paragraph-font-num "Character Literal;")) (:character-literal-control-num 32) (:character-literal-control cs :character-literal-control-num b 0 :times :dark-blue) ((+ :styles) (* :character-literal-control additive sbasedon :default-paragraph-font-num "Character Literal Control;")) (:terminal-num 33) (:terminal cs :terminal-num b :palatino :teal :no-language) ((+ :styles) (* :terminal additive sbasedon :default-paragraph-font-num "Terminal;")) (:terminal-keyword-num 34) (:terminal-keyword cs :terminal-keyword-num b :courier :blue :no-language) ((+ :styles) (* :terminal-keyword additive sbasedon :terminal-num "Terminal Keyword;")) (:nonterminal-num 35) (:nonterminal cs :nonterminal-num i :palatino :dark-red :no-language) ((+ :styles) (* :nonterminal additive sbasedon :default-paragraph-font-num "Nonterminal;")) (:nonterminal-attribute-num 36) (:nonterminal-attribute cs :nonterminal-attribute-num i 0) ((+ :styles) (* :nonterminal-attribute additive sbasedon :default-paragraph-font-num "Nonterminal Attribute;")) (:nonterminal-argument-num 37) (:nonterminal-argument cs :nonterminal-argument-num) ((+ :styles) (* :nonterminal-argument additive sbasedon :default-paragraph-font-num "Nonterminal Argument;")) (:semantic-keyword-num 40) (:semantic-keyword cs :semantic-keyword-num b :times) ((+ :styles) (* :semantic-keyword additive sbasedon :default-paragraph-font-num "Semantic Keyword;")) (:type-expression-num 41) (:type-expression cs :type-expression-num :times :red :no-language) ((+ :styles) (* :type-expression additive sbasedon :default-paragraph-font-num "Type Expression;")) (:type-name-num 42) (:type-name cs :type-name-num scaps :times :red :no-language) ((+ :styles) (* :type-name additive sbasedon :type-expression-num "Type Name;")) (:field-name-num 43) (:field-name cs :field-name-num :helvetica :red :no-language) ((+ :styles) (* :field-name additive sbasedon :type-expression-num "Field Name;")) (:global-variable-num 44) (:global-variable cs :global-variable-num i :times :green :no-language) ((+ :styles) (* :global-variable additive sbasedon :default-paragraph-font-num "Global Variable;")) (:local-variable-num 45) (:local-variable cs :local-variable-num i :times :bright-green :no-language) ((+ :styles) (* :local-variable additive sbasedon :default-paragraph-font-num "Local Variable;")) (:action-name-num 46) (:action-name cs :action-name-num :zapf-chancery :violet :no-language) ((+ :styles) (* :action-name additive sbasedon :default-paragraph-font-num "Action Name;")) ;Document Formatting ((+ :rtf-intro) :docfmt) (:docfmt widowctrl ftnbj ;footnotes at bottom of page aenddoc ;endnotes at end of document fet 0 ;footnotes only -- no endnotes formshade ;shade form fields viewkind 4 ;normal view mode viewscale 125 ;125% view pgbrdrhead ;page border surrounds header pgbrdrfoot) ;page border surrounds footer ;Section Formatting ;Specials (:invisible v) ((:but-not 6) (b "except")) (:subscript sub) (:superscript super) (:plain-subscript b 0 i 0 :subscript) ((:action-begin 1) "[") ((:action-end 1) "]") ((:vector-begin 1) (b "[")) ((:vector-end 1) (b "]")) ((:empty-vector 2) (b "[]")) ((:vector-append 2) :big-plus-10) ((:tuple-begin 1) (b :left-triangle-bracket-10)) ((:tuple-end 1) (b :right-triangle-bracket-10)) ((:unit 4) (:global-variable "unit")) ((:true 4) (:global-variable "true")) ((:false 5) (:global-variable "false")) )) ;;; ------------------------------------------------------------------------------------------------------ ;;; SIMPLE LINE BREAKER (defparameter *limited-line-right-margin* 100) ; Housekeeping dynamic variables (defvar *current-limited-lines*) ;Items written so far via break-line to the innermost write-limited-lines (defvar *current-limited-lines-non-empty*) ;True if something was written to *current-limited-lines* (defvar *current-limited-position*) ;Number of characters written since the last newline to *current-limited-lines* ; Capture the text written by the emitter function to its single parameter ; (an output stream), dividing the text as specified by dynamically scoped calls ; to break-line. Return the text as a base-string. (defun write-limited-lines (emitter) (let ((limited-stream (make-string-output-stream :element-type 'base-character)) (*current-limited-lines* (make-string-output-stream :element-type 'base-character)) (*current-limited-lines-non-empty* nil) (*current-limited-position* 0)) (funcall emitter limited-stream) (break-line limited-stream) (get-output-stream-string *current-limited-lines*))) ; Capture the text written by the emitter body to stream-var, ; dividing the text as specified by dynamically scoped calls ; to break-line. Write the result to the stream-var stream. (defmacro write-limited-block (stream-var &body emitter) `(progn (write-string (write-limited-lines #'(lambda (,stream-var) ,@emitter)) ,stream-var) nil)) ; Indicate that this is a potential place for a line break in the stream provided ; by write-limited-lines. If subdivide is true, also indicate that line breaks can ; be inserted anywhere between this point and the last such point indicated by break-line ; (or the beginning of write-limited-lines, whichever came last). (defun break-line (limited-stream &optional subdivide) (let* ((new-chars (get-output-stream-string limited-stream)) (length (length new-chars))) (unless (zerop length) (labels ((subdivide-new-chars (start) (let ((length-remaining (- length start)) (room-on-line (- *limited-line-right-margin* *current-limited-position*))) (if (>= room-on-line length-remaining) (progn (write-string new-chars *current-limited-lines* :start start) (incf *current-limited-position* length-remaining)) (let ((end (+ start room-on-line))) (write-string new-chars *current-limited-lines* :start start :end end) (write-char #\newline *current-limited-lines*) (setq *current-limited-position* 0) (subdivide-new-chars end)))))) (let ((position (+ *current-limited-position* length)) (has-newlines (find #\newline new-chars))) (cond ((or has-newlines (and (> position *limited-line-right-margin*) (not subdivide))) (when *current-limited-lines-non-empty* (write-char #\newline *current-limited-lines*)) (write-string new-chars *current-limited-lines*) ;Force a line break if break-line is called again and the current ;new-chars contained a line break. (setq *current-limited-position* (if has-newlines (1+ *limited-line-right-margin*) length))) ((<= position *limited-line-right-margin*) (write-string new-chars *current-limited-lines*) (setq *current-limited-position* position)) ((>= *current-limited-position* *limited-line-right-margin*) (write-char #\newline *current-limited-lines*) (setq *current-limited-position* 0) (subdivide-new-chars 0)) (t (subdivide-new-chars 0))) (setq *current-limited-lines-non-empty* t)))))) ;;; ------------------------------------------------------------------------------------------------------ ;;; RTF READER ; Return true if char can be a part of an RTF control word. (defun rtf-control-word-char? (char) (and (char>= char #\a) (char<= char #\z))) ; Read RTF from the character stream and return it in list form. ; Each { ... } group is a sublist. ; Each RTF control symbol or word is represented by a lisp symbol. ; If an RTF control has a numeric argument, then its lisp symbol is followed ; by an integer equal to the argument's value. ; Newlines not escaped by backslashes are ignored. (defun read-rtf (stream) (labels ((read (&optional (eof-error-p t)) (read-char stream eof-error-p nil)) (read-group (nested) (let ((char (read nested))) (case char ((nil) nil) (#\} (if nested nil (error "Mismatched }"))) (#\{ (cons (read-group t) (read-group nested))) (#\\ (append (read-control) (read-group nested))) (#\newline (read-group nested)) (t (read-text nested (list char)))))) (read-text (nested chars) (let ((char (read nested))) (case char ((nil) (list (coerce (nreverse chars) 'string))) ((#\{ #\} #\\) (cons (coerce (nreverse chars) 'string) (progn (unread-char char stream) (read-group nested)))) (#\newline (read-text nested chars)) (t (read-text nested (cons char chars)))))) (read-integer (value need-digit) (let* ((char (read)) (digit (digit-char-p char))) (cond (digit (read-integer (+ (* value 10) digit) nil)) (need-digit (error "Empty number")) ((eql char #\space) value) (t (unread-char char stream) value)))) (read-hex (n-digits) (let ((value 0)) (dotimes (n n-digits) (let ((digit (digit-char-p (read) 16))) (unless digit (error "Bad hex digit")) (setq value (+ (* value 16) digit)))) value)) (read-control () (let ((char (read))) (if (rtf-control-word-char? char) (let* ((control-string (read-control-word (list char))) (control-symbol (intern (string-upcase control-string))) (char (read))) (case char (#\space (list control-symbol)) (#\- (list control-symbol (- (read-integer 0 t)))) ((#\0 #\1 #\2 #\3 #\4 #\5 #\6 #\7 #\8 #\9) (unread-char char stream) (list control-symbol (read-integer 0 t))) (t (unread-char char stream) (list control-symbol)))) (let* ((control-string (string char)) (control-symbol (intern (string-upcase control-string)))) (if (eq control-symbol '\') (list control-symbol (read-hex 2)) (list control-symbol)))))) (read-control-word (chars) (let ((char (read))) (if (rtf-control-word-char? char) (read-control-word (cons char chars)) (progn (unread-char char stream) (coerce (nreverse chars) 'string)))))) (read-group nil))) ; Read RTF from the text file with the given name (relative to the ; local directory) and return it in list form. (defun read-rtf-from-local-file (filename) (with-open-file (stream (merge-pathnames filename *semantic-engine-directory*) :direction :input) (read-rtf stream))) ;;; ------------------------------------------------------------------------------------------------------ ;;; RTF WRITER (defconstant *rtf-special* '(#\\ #\{ #\})) ; Return the string with characters in *rtf-special* preceded by backslashes. ; If there are no such characters, the returned string may be eq to the input string. (defun escape-rtf (string) (let ((i (position-if #'(lambda (char) (member char *rtf-special*)) string))) (if i (let* ((string-length (length string)) (result-string (make-array string-length :element-type 'base-character :adjustable t :fill-pointer i))) (replace result-string string) (do ((i i (1+ i))) ((= i string-length)) (let ((char (char string i))) (when (member char *rtf-special*) (vector-push-extend #\\ result-string)) (vector-push-extend char result-string))) result-string) string))) ; Write RTF to the character stream. See read-rtf for a description ; of the layout of the rtf list. (defun write-rtf (rtf &optional (stream t)) (labels ((write-group-contents (rtf stream) (let ((first-rtf (first rtf)) (rest-rtf (rest rtf))) (cond ((listp first-rtf) (write-group first-rtf stream t)) ((stringp first-rtf) (write-string (escape-rtf first-rtf) stream) (break-line stream t)) ((symbolp first-rtf) (write-char #\\ stream) (write first-rtf :stream stream) (cond ((alpha-char-p (char (symbol-name first-rtf) 0)) (when (integerp (first rest-rtf)) (write (first rest-rtf) :stream stream) (setq rest-rtf (rest rest-rtf))) (let ((first-rest (first rest-rtf))) (when (and (stringp first-rest) (or (zerop (length first-rest)) (let ((ch (char first-rest 0))) (or (alphanumericp ch) (eql ch #\space) (eql ch #\-) (eql ch #\+))))) (write-char #\space stream)))) ((eq first-rtf '\') (unless (integerp (first rest-rtf)) (error "Bad rtf: ~S" rtf)) (format stream "~2,'0x" (first rest-rtf)) (setq rest-rtf (rest rest-rtf))))) (t (error "Bad rtf: ~S" rtf))) (when rest-rtf (break-line stream) (write-group-contents rest-rtf stream)))) (write-group (rtf stream nested) (write-limited-block stream (when nested (write-char #\{ stream)) (when rtf (write-group-contents rtf stream)) (when nested (write-char #\} stream))))) (with-standard-io-syntax (let ((*print-readably* nil) (*print-escape* nil) (*print-case* :downcase)) (write-group rtf stream nil))))) ; Write RTF to the text file with the given name (relative to the ; local directory). (defun write-rtf-to-local-file (filename rtf) (with-open-file (stream (merge-pathnames filename *semantic-engine-directory*) :direction :output :if-exists :supersede #+mcl :external-format #+mcl "RTF " #+mcl :mac-file-creator #+mcl "MSWD") (write-rtf rtf stream))) ;;; ------------------------------------------------------------------------------------------------------ ;;; RTF STREAMS (defstruct (rtf-stream (:include markup-stream) (:constructor allocate-rtf-stream (env head tail level logical-position)) (:copier nil) (:predicate rtf-stream?)) (style nil :type symbol)) ;Current section or paragraph style or nil if none or emitting paragraph contents (defmethod print-object ((rtf-stream rtf-stream) stream) (print-unreadable-object (rtf-stream stream :identity t) (write-string "rtf-stream" stream))) ; Make a new, empty, open rtf-stream with the given definitions for its markup-env. (defun make-rtf-stream (markup-env level &optional logical-position) (let ((head (list nil))) (allocate-rtf-stream markup-env head head level logical-position))) ; Make a new, empty, open, top-level rtf-stream with the given definitions ; for its markup-env. (defun make-top-level-rtf-stream (rtf-definitions) (let ((head (list nil)) (markup-env (make-markup-env))) (markup-env-define-alist markup-env rtf-definitions) (allocate-rtf-stream markup-env head head *markup-stream-top-level* nil))) ; Append a block to the end of the rtf-stream. The block may be inlined ; if nothing else follows it in the rtf-stream. (defun rtf-stream-append-or-inline-block (rtf-stream block) (assert-type block list) (when block (let ((pretail (markup-stream-tail rtf-stream))) (markup-stream-append1 rtf-stream block) (setf (markup-stream-pretail rtf-stream) pretail)))) ; Return the approximate width of the rtf item; return t if it is a line break. ; Also allow rtf groups as long as they do not contain line breaks. (defmethod markup-group-width ((rtf-stream rtf-stream) item) (if (consp item) (reduce #'+ item :key #'(lambda (subitem) (markup-group-width rtf-stream subitem))) (markup-width rtf-stream item))) ; Create a top-level rtf-stream and call emitter to emit its contents. ; emitter takes one argument -- an rtf-stream to which it should emit paragraphs. ; Return the top-level rtf-stream. (defun depict-rtf-top-level (emitter) (let* ((top-rtf-stream (make-top-level-rtf-stream *rtf-definitions*)) (rtf-stream (make-rtf-stream (markup-stream-env top-rtf-stream) *markup-stream-paragraph-level*))) (markup-stream-append1 rtf-stream ':rtf-intro) (markup-stream-append1 rtf-stream ':reset-section) (funcall emitter rtf-stream) (markup-stream-append1 top-rtf-stream (markup-stream-unexpanded-output rtf-stream)) top-rtf-stream)) ; Create a top-level rtf-stream and call emitter to emit its contents. ; emitter takes one argument -- an rtf-stream to which it should emit paragraphs. ; Write the resulting RTF to the text file with the given name (relative to the ; local directory). (defun depict-rtf-to-local-file (filename emitter) (let ((top-rtf-stream (depict-rtf-top-level emitter))) (write-rtf-to-local-file filename (markup-stream-output top-rtf-stream)))) ; Return the markup accumulated in the markup-stream after expanding all of its macros. ; The markup-stream is closed after this function is called. (defmethod markup-stream-output ((rtf-stream rtf-stream)) (markup-env-expand (markup-stream-env rtf-stream) (markup-stream-unexpanded-output rtf-stream) nil)) (defmethod depict-block-style-f ((rtf-stream rtf-stream) block-style emitter) (declare (ignore block-style)) (assert-true (= (markup-stream-level rtf-stream) *markup-stream-paragraph-level*)) (funcall emitter rtf-stream)) (defmethod depict-paragraph-f ((rtf-stream rtf-stream) paragraph-style emitter) (assert-true (= (markup-stream-level rtf-stream) *markup-stream-paragraph-level*)) (assert-true (and paragraph-style (symbolp paragraph-style))) (unless (eq paragraph-style (rtf-stream-style rtf-stream)) (markup-stream-append1 rtf-stream ':reset-paragraph) (markup-stream-append1 rtf-stream paragraph-style)) (setf (rtf-stream-style rtf-stream) nil) (setf (markup-stream-level rtf-stream) *markup-stream-content-level*) (setf (markup-stream-logical-position rtf-stream) (make-logical-position)) (prog1 (funcall emitter rtf-stream) (setf (markup-stream-level rtf-stream) *markup-stream-paragraph-level*) (setf (rtf-stream-style rtf-stream) paragraph-style) (setf (markup-stream-logical-position rtf-stream) nil) (markup-stream-append1 rtf-stream ':new-paragraph))) (defmethod depict-char-style-f ((rtf-stream rtf-stream) char-style emitter) (assert-true (>= (markup-stream-level rtf-stream) *markup-stream-content-level*)) (assert-true (and char-style (symbolp char-style))) (let ((inner-rtf-stream (make-rtf-stream (markup-stream-env rtf-stream) *markup-stream-content-level* (markup-stream-logical-position rtf-stream)))) (markup-stream-append1 inner-rtf-stream char-style) (prog1 (funcall emitter inner-rtf-stream) (rtf-stream-append-or-inline-block rtf-stream (markup-stream-unexpanded-output inner-rtf-stream))))) #| (setq r (read-rtf-from-local-file "SampleStyles.rtf")) (write-rtf-to-local-file "Y.rtf" r) |#