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File ld2db.dsl of Package docbook-dsssl-stylesheets
<!DOCTYPE style-sheet PUBLIC "-//James Clark//DTD DSSSL Style Sheet//EN" > <style-sheet> <style-specification id="params"> <style-specification-body> ;; ;; linuxdoc to docbook transformation stylesheet ;; ;; Charles Bozeman ;; ;; $Id: ld2db.dsl,v 1.2 1998/10/05 18:40:46 cg Exp $ ;; ;; This transformation stylesheet attempts to "pretty print" the ;; resulting sgml document. ;; ;; Several of the procedure are copied from other sources such as ;; Norm Walsh's docbook stylesheets, Paul Prescod's transform.dsl, ;; and Mulberry Technologies DSSSL pages. ;; ;; Invocation example: ;; jade -t sgml -d ld2db.dsl#db in.sgm >out.sgm ;; ============================ PARAMETERS ============================== (define %transform-element-BF% "Emphasis") (define %transform-element-SL% "Emphasis") (define %transform-element-TT% "Literal") (define %ids-repl-list% `("0" "i-0" "1" "i-1" "2" "i-2" "3" "i-3" "4" "i-4" "5" "i-5" "6" "i-6" "7" "i-7" "8" "i-8" "9" "i-9")) </style-specification-body> </style-specification> <style-specification id="library" > <style-specification-body> (define debug (external-procedure "UNREGISTERED::James Clark//Procedure::debug")) ;(declare-characteristic preserve-sdata? ; "UNREGISTERED::James Clark//Characteristic::preserve-sdata?" ; #f) ;; ====================== Library Functions ======================== (define (node-list-first-element nodelist) ;; REFENTRY lib-node-list-first-element ;; PURP Return the first element node in a node list ;; DESC ;; This function returns the first node in a node list which is ;; an element (as opposed to a PI or anything else that might appear ;; in a node list). ;; /DESC ;; /REFENTRY (let loop ((nl nodelist)) (if (node-list-empty? nl) (empty-node-list) (if (gi (node-list-first nl)) (node-list-first nl) (loop (node-list-rest nl)))))) (define (ipreced nl) ;; REFENTRY lib-ipreced ;; PURP Implements ipreced as per ISO/IEC 10179:1996 ;; DESC ;; Implements 'ipreced' as per ISO/IEC 10179:1996 ;; /DESC ;; AUTHOR From ISO/IEC 10179:1996 ;; /REFENTRY (node-list-map (lambda (snl) (let loop ((prev (empty-node-list)) (rest (siblings snl))) (cond ((node-list-empty? rest) (empty-node-list)) ((node-list=? (node-list-first rest) snl) prev) (else (loop (node-list-first rest) (node-list-rest rest)))))) nl)) (define (ifollow nl) ;; REFENTRY ;; PURP Implements ifollow as per ISO/IEC 10179:1996 ;; DESC ;; Implements 'ifollow' as per ISO/IEC 10179:1996 ;; /DESC ;; AUTHOR From ISO/IEC 10179:1996 ;; /REFENTRY (node-list-map (lambda (snl) (let loop ((rest (siblings snl))) (cond ((node-list-empty? rest) (empty-node-list)) ((node-list=? (node-list-first rest) snl) (node-list-first (node-list-rest rest))) (else (loop (node-list-rest rest)))))) nl)) (define (siblings snl) ;; REFENTRY ;; PURP Implements siblings as per ISO/IEC 10179:1996 ;; DESC ;; Implements 'siblings' as per ISO/IEC 10179:1996 ;; /DESC ;; AUTHOR From ISO/IEC 10179:1996 ;; /REFENTRY (children (parent snl))) ;; ====================================================================== (define (sgml-root-element) ;; REFENTRY ;; PURP Returns the node that is the root element of the current document ;; DESC ;; Return the root element of the document by walking up from ;; wherever we are. (Isn't this built-in to DSSSL somehow???) ;; /DESC ;; /REFENTRY (let loop ((root (current-node))) (if (node-list-empty? (parent root)) root (loop (parent root))))) ;; ====================================================================== (define (repl-substring? string target pos) ;; REFENTRY lib-repl-substring-p ;; PURP Returns true if the specified substring can be replaced ;; DESC ;; Returns '#t' if 'target' occurs at 'pos' in 'string'. ;; /DESC ;; /REFENTRY (let* ((could-match (<= (+ pos (string-length target)) (string-length string))) (match (if could-match (substring string pos (+ pos (string-length target))) ""))) (and could-match (string=? match target)))) (define (repl-substring string target repl pos) ;; REFENTRY lib-repl-substring ;; PURP Replace substring in a string ;; DESC ;; Replaces 'target' with 'repl' in 'string' at 'pos'. ;; /DESC ;; /REFENTRY (let ((matches (repl-substring? string target pos))) (if matches (string-append (substring string 0 pos) repl (substring string (+ pos (string-length target)) (string-length string))) string))) (define (repl-substring-list? string replace-list pos) ;; REFENTRY lib-repl-substring-list-p ;; PURP Perform repl-substring? with a list of target/replacement pairs ;; DESC ;; Returns '#t' if any target in 'replace-list' occurs at 'pos' in 'string'. ;; ARGS ;; ARG 'string' ;; The string in which replacement should be tested. ;; /ARG ;; ARG 'replace-list' ;; A list of target/replacement pairs. This list is just a list of ;; strings, treated as pairs. For example, '("was" "x" "is" "y")'. ;; In this example, 'was' may be replaced by 'x' and 'is' may be ;; replaced by 'y'. ;; /ARG ;; ARG 'pos' ;; The location within 'string' where the test will occur. ;; /ARG ;; /ARGS ;; /DESC ;; EXAMPLE ;; '(repl-substring-list? "this is it" ("was" "x" "is" "y") 2)' ;; returns '#t': "is" could be replaced by "y". ;; /EXAMPLE ;; /REFENTRY (let loop ((list replace-list)) (let ((target (car list)) (repl (car (cdr list))) (rest (cdr (cdr list)))) (if (repl-substring? string target pos) #t (if (null? rest) #f (loop rest)))))) (define (repl-substring-list-target string replace-list pos) ;; REFENTRY lib-repl-substring-list-target ;; PURP Return the target that matches in a string ;; DESC ;; Returns the target in 'replace-list' that matches in 'string' at 'pos' ;; See also 'repl-substring-list?'. ;; /DESC ;; /REFENTRY (let loop ((list replace-list)) (let ((target (car list)) (repl (car (cdr list))) (rest (cdr (cdr list)))) (if (repl-substring? string target pos) target (if (null? rest) #f (loop rest)))))) (define (repl-substring-list-repl string replace-list pos) ;; REFENTRY lib-repl-substring-list-repl ;; PURP Return the replacement that would be used in the string ;; DESC ;; Returns the replacement in 'replace-list' that would be used for the ;; target that matches in 'string' at 'pos' ;; See also 'repl-substring-list?'. ;; /DESC ;; /REFENTRY (let loop ((list replace-list)) (let ((target (car list)) (repl (car (cdr list))) (rest (cdr (cdr list)))) (if (repl-substring? string target pos) repl (if (null? rest) #f (loop rest)))))) (define (repl-substring-list string replace-list pos) ;; REFENTRY lib-repl-substring-list ;; PURP Replace the first target in the replacement list that matches ;; DESC ;; Replaces the first target in 'replace-list' that matches in 'string' ;; at 'pos' with its replacement. ;; See also 'repl-substring-list?'. ;; /DESC ;; /REFENTRY (if (repl-substring-list? string replace-list pos) (let ((target (repl-substring-list-target string replace-list pos)) (repl (repl-substring-list-repl string replace-list pos))) (repl-substring string target repl pos)) string)) (define (string-replace string target repl) ;; REFENTRY lib-string-replace ;; PURP Replace all occurances of a target substring in a string ;; DESC ;; Replaces all occurances of 'target' in 'string' with 'repl'. ;; /DESC ;; /REFENTRY (let loop ((str string) (pos 0)) (if (>= pos (string-length str)) str (loop (repl-substring str target repl pos) (if (repl-substring? str target pos) (+ (string-length repl) pos) (+ 1 pos)))))) (define (node-list-first-element-after-match nodelist match-el) ;; REFENTRY lib-node-list-first-element ;; PURP Return the first element node in a node list after given element ;; DESC ;; This function returns the first node in a node list which appears ;; after the given match element n element (as opposed to a PI or ;; aanything else that might appear n a node list). ;; /DESC ;; /REFENTRY (let loop ((nl nodelist)) (if (node-list-empty? nl) (empty-node-list) (if (equal? (gi (node-list-first nl)) match-el) (let loop-2 ((nl (node-list-rest nl))) (if (node-list-empty? nl) (empty-node-list) (if (gi (node-list-first nl)) (node-list-first nl) (loop-2 (node-list-rest nl))))) (loop (node-list-rest nl)))))) </style-specification-body> </style-specification> <style-specification id="common" > <style-specification-body> ;; ============================ TOP LEVEL ============================== (declare-flow-object-class formatting-instruction "UNREGISTERED::James Clark//Flow Object Class::formatting-instruction") (declare-flow-object-class element "UNREGISTERED::James Clark//Flow Object Class::element") (declare-flow-object-class empty-element "UNREGISTERED::James Clark//Flow Object Class::empty-element") (declare-flow-object-class document-type "UNREGISTERED::James Clark//Flow Object Class::document-type") (declare-flow-object-class processing-instruction "UNREGISTERED::James Clark//Flow Object Class::processing-instruction") (declare-flow-object-class entity "UNREGISTERED::James Clark//Flow Object Class::entity") (declare-flow-object-class entity-ref "UNREGISTERED::James Clark//Flow Object Class::entity-ref") (declare-characteristic preserve-sdata? "UNREGISTERED::James Clark//Characteristic::preserve-sdata?" #t) (define (start-tag str) (string-append "<" str ">" )) (define (end-tag str) (string-append "</" str ">")) (define (comment-tag str) (string-append "<" "--" str "--" ">")) ; newline ;(define %RE% "\U-000D") (define %RE% "&#RE;") (define (write-string str) (make formatting-instruction data: str)) (define (write-string-RE str) (make formatting-instruction data: (string-append str %RE%))) (define (RE-write-string str) (make formatting-instruction data: (string-append %RE% str))) (define (RE-write-string-RE str) (make formatting-instruction data: (string-append %RE% str %RE%))) ; procedure for enclosing inline data between pre and aft text (define ($make-inline$ pre aft) (sosofo-append (write-string pre) (process-children) (write-string aft))) ; procedure for enclosing a block of data between pre and aft text ; Note: always terminates with a newline (define ($make-block$ pre aft) (sosofo-append (write-string pre) (process-children) (write-string-RE aft))) (define ($remap-attr$ el) (cons (list "REMAP" el) `())) (define (attr-name lis) (car (car lis))) (define (attr-value lis) (car (cdr (car lis)))) ; given a list of attribute pairs, output them (define ($out-attributes$ attlist) (let loop ((rest attlist)) (if (equal? rest `()) (write-string ">") (make sequence (write-string (string-append " " (attr-name rest) "=\"" ; open quote (attr-value rest) "\"")) ; close quote (loop (cdr rest)))))) (define (make-block-element #!optional #!key gind attributes (sosofo (process-children))) (let ((gi-nd (if gind gind (gi (current-node))))) (sosofo-append (RE-write-string (string-append "<" gi-nd)) (if attributes ($out-attributes$ attributes) (write-string-RE ">")) sosofo (RE-write-string-RE (end-tag gi-nd))))) (define (make-comment-element #!optional #!key gind attributes (sosofo (process-children))) (let ((gi-nd (if gind gind (gi (current-node))))) (sosofo-append (RE-write-string (string-append "<" "!--" gi-nd "--" ">")) (if attributes ($out-attributes$ attributes) (write-string-RE ">")) sosofo (RE-write-string-RE (string-append "<" "!--" "/" gi-nd "--" ">"))))) (define (make-inline-element #!optional #!key gind attributes (sosofo (process-children))) (let ((gi-nd (if gind gind (gi (current-node))))) (sosofo-append (write-string (string-append "<" gi-nd)) (if attributes ($out-attributes$ attributes) (write-string ">")) sosofo (write-string (end-tag gi-nd))))) (define (make-empty-inline-element #!optional #!key gind attributes (sosofo (process-children))) (let ((gi-nd (if gind gind (gi (current-node))))) (sosofo-append (write-string (string-append "<" gi-nd)) (if attributes ($out-attributes$ attributes) (write-string ">")) sosofo))) (define (make-line-element #!optional #!key gind attributes (sosofo (process-children))) (let ((gi-nd (if gind gind (gi (current-node))))) (sosofo-append (RE-write-string (string-append "<" gi-nd)) (if attributes ($out-attributes$ attributes) (write-string ">")) sosofo (write-string-RE (end-tag gi-nd))))) (define (make-empty-line-element #!optional #!key gind attributes (sosofo (process-children))) (let ((gi-nd (if gind gind (gi (current-node))))) (sosofo-append (RE-write-string (string-append "<" gi-nd)) (if attributes ($out-attributes$ attributes) (write-string ">")) sosofo))) </style-specification-body> </style-specification> <style-specification id="db" use="common library params"> <style-specification-body> ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; From the DSSSL Cookbook ;; http://www.mulberrytech.com/dsssl/dsssldoc/cookbook/cookbook.html ;; Default rule (default (output-element)) (define (output-element #!optional (node (current-node))) (if (node-property "must-omit-end-tag?" node) (make empty-element attributes: (copy-attributes)) (make element attributes: (copy-attributes)))) (define (copy-attributes #!optional (nd (current-node))) (let loop ((atts (named-node-list-names (attributes nd)))) (if (null? atts) '() (let* ((name (car atts)) (value (attribute-string name nd))) (if value (cons (list name value) (loop (cdr atts))) (loop (cdr atts))))))) (element LINUXDOC (process-children)) (element ARTICLE (make sequence (make document-type name: "Article" public-id: "-//Davenport//DTD DocBook V3.0//EN") (make-block-element gind: "Article"))) (element BOOK (make sequence (make document-type name: "Book" public-id: "-//Davenport//DTD DocBook V3.0//EN" ) (make-block-element gind: "Book"))) (element REPORT (make sequence (make document-type name: "Book" public-id: "-//Davenport//DTD DocBook V3.0//EN" ) (make-block-element gind: "Book" attributes: `(("remap" "report"))))) (element TITLEPAG (if (equal? (gi (parent (current-node))) "ARTICLE") (make-block-element gind: "ArtHeader") (make-block-element gind: "BookInfo" sosofo: (make-block-element gind: "BookBiblio")))) (element DATE (make-line-element gind: "PubDate")) ; this may need to be fixed-up manually (element NAME (let ((htmlurl-nl (select-elements (children (current-node)) "HTMLURL"))) (make sequence (make-line-element gind: "FirstName") (if (node-list-empty? htmlurl-nl) (empty-sosofo) (make-block-element gind: "AuthorBlurb" sosofo: (make-line-element gind: "Para" sosofo: (with-mode name-htmlurl (process-node-list htmlurl-nl)))))))) ;; does'nt work well, correct by hand ;(element INST (make element gi: "OrgName")) (element INST (empty-sosofo)) (element ABSTRACT (make-block-element gind: "Abstract" sosofo: (make-block-element gind: "Para"))) ;; Norm's stylesheets build this stuff (element TOC (empty-sosofo)) (element LOT (empty-sosofo)) (element LOF (empty-sosofo)) (element TITLE (make-line-element gind: "Title")) ;; ========================== BLOCK ELEMENTS ============================ (element P (let ((para-empty (if (and (equal? 0 (string-length (data (current-node)))) (node-list-empty? (children (current-node)))) #t #f))) (if para-empty (empty-sosofo) ; don't leave empty paragraphs lying around! (make-block-element gind: "Para" )))) (element APPENDIX (let* ((follow-nd (ifollow (current-node))) (chapt-next (if (equal? (gi follow-nd) "CHAPT") #t #f))) (if chapt-next (empty-sosofo) (make-empty-line-element sosofo: (make-line-element gind: "Title" sosofo: (literal "Appendix")))))) (element CHAPT (let* ((preced-nd (ipreced (current-node))) (apdx-prev (if (equal? (gi preced-nd) "APPENDIX") #t #f))) (if apdx-prev ($make-sect$ "Appendix") ($make-sect$ "Chapter")))) (element SECT ($make-sect$ "Sect1")) (element SECT1 ($make-sect$ "Sect2")) (element SECT2 ($make-sect$ "Sect3")) (element SECT3 ($make-sect$ "Sect4")) (element SECT4 ($make-sect$ "Sect5")) ;; build a section (or chapter) (define ($make-sect$ gi-name) (let ((attrs ($get-sect-id$ (current-node)))) (make-block-element gind: gi-name attributes: attrs))) ;; look for a label element in a heading element then put the 'id' in ;; the section (or chapter) attribute (define ($get-sect-id$ nd) (let* ((heading (node-list-first (select-elements (children nd) "HEADING"))) (label (select-elements (children heading) "LABEL")) (label-id (if (node-list-empty? label) #f ($fix-ids$ (attribute-string "id" (node-list-first label))))) (attrs (if label-id (cons (list "id" ($fix-ids$ label-id)) (copy-attributes)) (copy-attributes)))) attrs)) ;; look for a label element in a child elements (define ($get-child-id$ nd) (let* ((label (select-elements (children nd) "LABEL"))) (if (node-list-empty? label) #f ($fix-ids$ (attribute-string "id" (node-list-first label)))))) (element HEADING (make-line-element gind: "Title" )) (element HEADER (empty-sosofo)) (element LHEAD (empty-sosofo)) (element RHEAD (empty-sosofo)) ;; ============================== LISTS ================================= (element ITEM (let ((para-nl (select-elements (children (current-node)) "P")) (item-empty (if (equal? 0 (string-length (data (current-node)))) #t #f))) (make sequence (write-string-RE (start-tag "ListItem")) (if (node-list-empty? para-nl) (make-block-element gind: "Para") (if item-empty (process-children) (make sequence (write-string-RE (start-tag "Para")) (process-children)))) (write-string-RE (end-tag "ListItem"))))) (element ENUM (make-block-element gind: "OrderedList" )) (element ITEMIZE (make-block-element gind: "ItemizedList" )) (element DESCRIP (make sequence (write-string-RE (start-tag "VariableList")) (process-children) (write-string-RE (end-tag "VarListEntry")) (write-string (end-tag "VariableList")))) (element TAG (let ((END-ENTRY (cond ((> (child-number) 1) (end-tag "VarListEntry")) (else "")))) (make sequence (write-string END-ENTRY) (RE-write-string (start-tag "VarListEntry")) (make-line-element gind: "Term") (write-string (start-tag "ListItem"))))) ;; =========================== FONT CHANGES ============================= (element EM (if (equal? (gi (parent)) "TT") (process-children) (make-inline-element gind: "Emphasis"))) (element TT (make-inline-element gind: %transform-element-TT% attributes: `(("remap" "tt")))) (element BF (if (equal? (gi (parent)) "TT") (process-children) (make-inline-element gind: %transform-element-BF% attributes: `(("remap" "bf"))))) (element IT (if (equal? (gi (parent)) "TT") (process-children) (make-inline-element gind: "Emphasis" attributes: `(("remap" "it"))))) (element SL (make-inline-element gind: %transform-element-SL% attributes: `(("remap" "sl")))) (element CODE (make-block-element gind: "ProgramListing")) (element TSCREEN (make-block-element gind: "Screen")) (element VERB (process-children)) ;============================ Linking ================================== ;; ID and IDREF cannot begin with a number and cannot have embedded spaces ;; or under bars. (define ($fix-ids$ string) (let* ((nw-str (string-replace string " " "-")) (ub-str (string-replace nw-str "_" "-"))) (repl-substring-list ub-str %ids-repl-list% 0))) (element REF (make-empty-inline-element gind: "XRef" attributes: `(("LinkEnd" ,($fix-ids$ (attribute-string "id")))))) (element HTMLURL (if (equal? (gi (parent (current-node))) "NAME") (empty-sosofo) (make element gi: "ULink" attributes: `(("URL" ,(attribute-string "URL"))) (if (attribute-string "NAME") (literal (attribute-string "NAME")) (literal (attribute-string "URL")) )))) (element URL (make element gi: "ULink" attributes: `(("URL" ,(attribute-string "URL"))) (if (attribute-string "NAME") (literal (attribute-string "NAME")) (literal (attribute-string "URL")) ))) ; FIXME: Name attribute (element LABEL (if (equal? (gi (parent (current-node))) "P") (make-empty-inline-element gind: "Anchor" attributes: `(("id" ,($fix-ids$ (attribute-string "id"))))) (empty-sosofo))) ;; for when htmlurl is a child of name (mode name-htmlurl (element HTMLURL (make-block-element gind: "ULink" attributes: `(("URL" ,(attribute-string "URL"))) sosofo: (if (attribute-string "NAME") (literal (attribute-string "NAME")) (literal (attribute-string "URL")) )))) ;; ======================== FIGURES and TABLES ========================== (define (make-graphic-el fileref) (make-line-element gind: "Graphic" attributes: `(("FileRef" ,fileref)))) (element FIGURE (let* ((caption-nl (select-elements (descendants (current-node)) "CAPTION")) (label-id ($get-child-id$ caption-nl)) (eps (select-elements (children (current-node)) "EPS")) (file (attribute-string "file" (node-list-first eps)))) (make-block-element gind: "Figure" attributes: (if label-id `(("id" ,($fix-ids$ label-id))) `()) sosofo: (if (not (node-list-empty? caption-nl)) (make sequence (with-mode caption-to-title (process-node-list caption-nl)) (make-graphic-el (if file file "dummy"))) (make-graphic-el (if file file "dummy")))))) (element EPS (empty-sosofo)) (element PH (empty-sosofo)) (element CAPTION (empty-sosofo)) (mode caption-to-title (element CAPTION (make-line-element gind: "Title"))) ;; currently the frame attribute must be set manually (element TABLE (let* ((caption-nl (select-elements (descendants (current-node)) "CAPTION")) (label-id ($get-child-id$ caption-nl))) (if (node-list-empty? caption-nl) (make-block-element gind: "InformalTable") (make-block-element gind: "Table" attributes: (if label-id `(("id" ,($fix-ids$ label-id))) `()) sosofo: (make sequence (with-mode caption-to-title (process-node-list caption-nl)) (process-children)))))) (define ($count-cols$ ca-str) (let loop ((cnt 0) (str ca-str)) (if (equal? (string-length str) 0) cnt (if (equal? (substring str 0 1) "|") (loop cnt (substring str 1 (string-length str))) (loop (+ 1 cnt) (substring str 1 (string-length str))))))) (define ($make-colspecs$ ca-str) (if (equal? (string-length ca-str) 0) (empty-sosofo) (if (equal? (substring ca-str 0 1) "|") ($make-colspecs$ (substring ca-str 1 (string-length ca-str))) (let loop ((str ca-str)) (if (equal? (string-length str) 0) (empty-sosofo) (let* ((col-sep (if (> (string-length str) 1) (if (equal? (substring str 1 2) "|") #t #f) #f)) (pos (if col-sep 2 1))) (make sequence ($build-colspec$ (substring str 0 1) col-sep) (loop (substring str pos (string-length str)))))))))) (define ($build-colspec$ cell-align col-sep) (let* ((cellalign (case cell-align (("l") "Left") (("c") "Center") (("r") "Right") (else "Left"))) (attrs (cons (list "Align" cellalign) (cons (if col-sep (list "Colsep" "1") (list "Colsep" "0")) `())))) (make-empty-line-element gind: "ColSpec" attributes: attrs sosofo: (empty-sosofo)))) (element TABULAR (let* ((col-attr (attribute-string "CA")) (colcnt ($count-cols$ col-attr))) (make-block-element gind: "TGroup" attributes: `(("Cols" ,(number->string colcnt))) sosofo: (make sequence ($make-colspecs$ col-attr) (RE-write-string-RE (start-tag "TBody")) (row-check-border (node-list-first (children (current-node)))) (write-string (start-tag "Entry")) (process-children) (write-string-RE (end-tag "Entry")) (write-string-RE (end-tag "Row")) (write-string-RE (end-tag "TBody")))))) (element COLSEP (make sequence (write-string (end-tag "Entry")) (RE-write-string (start-tag "Entry")))) ;; find the next "rowsep" then check if a "hline" immediatly follows (define (row-check-border nd) (let* ((follow-nl (follow nd)) (af-nl (node-list-first-element-after-match follow-nl "ROWSEP")) (hline-next (if (equal? (gi af-nl) "HLINE") #t #f))) (if hline-next (make sequence (write-string (string-append "<" "Row")) (if attributes (make sequence ($out-attributes$ `(("RowSep" "1"))) (write-string %RE%)) (write-string-RE ">"))) (write-string-RE (start-tag "Row"))))) (element ROWSEP (make sequence (write-string-RE (end-tag "Entry")) (write-string-RE (end-tag "Row")) (row-check-border (current-node)) (write-string-RE (start-tag "Entry")))) ; for now (element HLINE (empty-sosofo)) ; don't do any math (element DM (empty-sosofo)) (element FOOTNOTE (make-block-element sosofo: (make-block-element gind: "Para"))) (element NEWLINE (write-string %RE%)) </style-specification-body> </style-specification> </style-sheet>
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