/** * \file Layout.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Lars Gullik Bjønnes * \author Jean-Marc Lasgouttes * \author André Pönitz * * Full author contact details are available in file CREDITS. */ #include #include "Layout.h" #include "Language.h" #include "TextClass.h" #include "Lexer.h" #include "Font.h" #include "support/Messages.h" #include "support/debug.h" #include "support/lassert.h" #include "support/lstrings.h" #include using namespace std; using namespace lyx::support; namespace lyx { /// Special value of toclevel for layouts that to not belong in a TOC const int Layout::NOT_IN_TOC = -1000; // The order of the LayoutTags enum is no more important. [asierra300396] // Tags indexes. enum LayoutTags { LT_ALIGN = 1, LT_ALIGNPOSSIBLE, LT_MARGIN, LT_BOTTOMSEP, LT_CATEGORY, LT_COMMANDDEPTH, LT_COPYSTYLE, LT_DEPENDSON, LT_OBSOLETEDBY, //LT_EMPTY, LT_END, //LT_ENVIRONMENT_DEFAULT, //LT_FANCYHDR, LT_FILL_BOTTOM, LT_FILL_TOP, //LT_FIRST_COUNTER, LT_FONT, LT_FREE_SPACING, LT_PASS_THRU, //LT_HEADINGS, LT_ITEMSEP, LT_KEEPEMPTY, LT_LABEL_BOTTOMSEP, LT_LABELFONT, LT_TEXTFONT, LT_LABELINDENT, LT_LABELSEP, LT_LABELSTRING, LT_LABELSTRING_APPENDIX, LT_LABELCOUNTER, LT_LABELTYPE, LT_ENDLABELSTRING, LT_ENDLABELTYPE, LT_LATEXNAME, LT_LATEXPARAM, LT_OPTARGS, LT_LATEXTYPE, LT_LEFTMARGIN, LT_NEED_PROTECT, LT_NEWLINE, LT_NEXTNOINDENT, LT_PARINDENT, LT_PARSEP, LT_PARSKIP, //LT_PLAIN, LT_PREAMBLE, LT_LANGPREAMBLE, LT_BABELPREAMBLE, LT_REQUIRES, LT_RIGHTMARGIN, LT_SPACING, LT_TOPSEP, LT_TOCLEVEL, LT_INNERTAG, LT_LABELTAG, LT_ITEMTAG, LT_INTITLE // keep this last! }; ///////////////////// Layout::Layout() { unknown_ = false; margintype = MARGIN_STATIC; latextype = LATEX_PARAGRAPH; intitle = false; optionalargs = 0; needprotect = false; keepempty = false; font = inherit_font; labelfont = inherit_font; resfont = sane_font; reslabelfont = sane_font; nextnoindent = false; parskip = 0.0; itemsep = 0; topsep = 0.0; bottomsep = 0.0; labelbottomsep = 0.0; parsep = 0; align = LYX_ALIGN_BLOCK; alignpossible = LYX_ALIGN_NONE | LYX_ALIGN_LAYOUT; labeltype = LABEL_NO_LABEL; endlabeltype = END_LABEL_NO_LABEL; // Should or should not. That is the question. // spacing.set(Spacing::OneHalf); fill_top = false; fill_bottom = false; newline_allowed = true; free_spacing = false; pass_thru = false; toclevel = NOT_IN_TOC; commanddepth = 0; } bool Layout::read(Lexer & lex, TextClass const & tclass) { // This table is sorted alphabetically [asierra 30March96] LexerKeyword layoutTags[] = { { "align", LT_ALIGN }, { "alignpossible", LT_ALIGNPOSSIBLE }, { "babelpreamble", LT_BABELPREAMBLE }, { "bottomsep", LT_BOTTOMSEP }, { "category", LT_CATEGORY }, { "commanddepth", LT_COMMANDDEPTH }, { "copystyle", LT_COPYSTYLE }, { "dependson", LT_DEPENDSON }, { "end", LT_END }, { "endlabelstring", LT_ENDLABELSTRING }, { "endlabeltype", LT_ENDLABELTYPE }, { "fill_bottom", LT_FILL_BOTTOM }, { "fill_top", LT_FILL_TOP }, { "font", LT_FONT }, { "freespacing", LT_FREE_SPACING }, { "innertag", LT_INNERTAG }, { "intitle", LT_INTITLE }, { "itemsep", LT_ITEMSEP }, { "itemtag", LT_ITEMTAG }, { "keepempty", LT_KEEPEMPTY }, { "labelbottomsep", LT_LABEL_BOTTOMSEP }, { "labelcounter", LT_LABELCOUNTER }, { "labelfont", LT_LABELFONT }, { "labelindent", LT_LABELINDENT }, { "labelsep", LT_LABELSEP }, { "labelstring", LT_LABELSTRING }, { "labelstringappendix", LT_LABELSTRING_APPENDIX }, { "labeltag", LT_LABELTAG }, { "labeltype", LT_LABELTYPE }, { "langpreamble", LT_LANGPREAMBLE }, { "latexname", LT_LATEXNAME }, { "latexparam", LT_LATEXPARAM }, { "latextype", LT_LATEXTYPE }, { "leftmargin", LT_LEFTMARGIN }, { "margin", LT_MARGIN }, { "needprotect", LT_NEED_PROTECT }, { "newline", LT_NEWLINE }, { "nextnoindent", LT_NEXTNOINDENT }, { "obsoletedby", LT_OBSOLETEDBY }, { "optionalargs", LT_OPTARGS }, { "parindent", LT_PARINDENT }, { "parsep", LT_PARSEP }, { "parskip", LT_PARSKIP }, { "passthru", LT_PASS_THRU }, { "preamble", LT_PREAMBLE }, { "requires", LT_REQUIRES }, { "rightmargin", LT_RIGHTMARGIN }, { "spacing", LT_SPACING }, { "textfont", LT_TEXTFONT }, { "toclevel", LT_TOCLEVEL }, { "topsep", LT_TOPSEP } }; bool error = false; bool finished = false; lex.pushTable(layoutTags); // parse style section while (!finished && lex.isOK() && !error) { int le = lex.lex(); // See comment in LyXRC.cpp. switch (le) { case Lexer::LEX_FEOF: continue; case Lexer::LEX_UNDEF: // parse error lex.printError("Unknown layout tag `$$Token'"); error = true; continue; default: break; } switch (static_cast(le)) { case LT_END: // end of structure finished = true; break; case LT_CATEGORY: lex >> category_; break; case LT_COPYSTYLE: { // initialize with a known style docstring style; lex >> style; style = subst(style, '_', ' '); if (tclass.hasLayout(style)) { docstring const tmpname = name_; this->operator=(tclass[style]); name_ = tmpname; } else { LYXERR0("Cannot copy unknown style `" << style << "'\n" << "All layouts so far:"); DocumentClass::const_iterator lit = tclass.begin(); DocumentClass::const_iterator len = tclass.end(); for (; lit != len; ++lit) LYXERR0(lit->name()); } break; } case LT_OBSOLETEDBY: { // replace with a known style docstring style; lex >> style; style = subst(style, '_', ' '); if (tclass.hasLayout(style)) { docstring const tmpname = name_; this->operator=(tclass[style]); name_ = tmpname; if (obsoleted_by().empty()) obsoleted_by_ = style; } else { LYXERR0("Cannot replace with unknown style `" << style << '\''); //lex.printError("Cannot replace with" // " unknown style " // "`$$Token'"); } break; } case LT_DEPENDSON: lex >> depends_on_; depends_on_ = subst(depends_on_, '_', ' '); break; case LT_MARGIN: // margin style definition. readMargin(lex); break; case LT_LATEXTYPE: // LaTeX style definition. readLatexType(lex); break; case LT_INTITLE: lex >> intitle; break; case LT_TOCLEVEL: lex >> toclevel; break; case LT_OPTARGS: lex >> optionalargs ; break; case LT_NEED_PROTECT: lex >> needprotect; break; case LT_KEEPEMPTY: lex >> keepempty; break; case LT_FONT: font = lyxRead(lex, font); labelfont = font; break; case LT_TEXTFONT: font = lyxRead(lex, font); break; case LT_LABELFONT: labelfont = lyxRead(lex, labelfont); break; case LT_NEXTNOINDENT: // Indent next paragraph? lex >> nextnoindent; break; case LT_COMMANDDEPTH: lex >> commanddepth; break; case LT_LATEXNAME: lex >> latexname_; break; case LT_LATEXPARAM: lex >> latexparam_; latexparam_ = subst(latexparam_, """, "\""); break; case LT_INNERTAG: lex >> innertag_; break; case LT_LABELTAG: lex >> labeltag_; break; case LT_ITEMTAG: lex >> itemtag_; break; case LT_PREAMBLE: preamble_ = from_utf8(lex.getLongString("EndPreamble")); break; case LT_LANGPREAMBLE: langpreamble_ = from_utf8(lex.getLongString("EndLangPreamble")); break; case LT_BABELPREAMBLE: babelpreamble_ = from_utf8(lex.getLongString("EndBabelPreamble")); break; case LT_LABELTYPE: readLabelType(lex); break; case LT_ENDLABELTYPE: readEndLabelType(lex); break; case LT_LEFTMARGIN: // left margin type lex >> leftmargin; break; case LT_RIGHTMARGIN: // right margin type lex >> rightmargin; break; case LT_LABELINDENT: // label indenting flag lex >> labelindent; break; case LT_PARINDENT: // paragraph indent. flag lex >> parindent; break; case LT_PARSKIP: // paragraph skip size lex >> parskip; break; case LT_ITEMSEP: // item separation size lex >> itemsep; break; case LT_TOPSEP: // top separation size lex >> topsep; break; case LT_BOTTOMSEP: // bottom separation size lex >> bottomsep; break; case LT_LABEL_BOTTOMSEP: // label bottom separation size lex >> labelbottomsep; break; case LT_LABELSEP: // label separator lex >> labelsep; labelsep = subst(labelsep, 'x', ' '); break; case LT_PARSEP: // par. separation size lex >> parsep; break; case LT_FILL_TOP: // fill top flag lex >> fill_top; break; case LT_FILL_BOTTOM: // fill bottom flag lex >> fill_bottom; break; case LT_NEWLINE: // newlines allowed? lex >> newline_allowed; break; case LT_ALIGN: // paragraph align readAlign(lex); break; case LT_ALIGNPOSSIBLE: // paragraph allowed align readAlignPossible(lex); break; case LT_LABELSTRING: // label string definition // FIXME: this means LT_ENDLABELSTRING may only // occur after LT_LABELSTRING lex >> labelstring_; labelstring_ = trim(labelstring_); labelstring_appendix_ = labelstring_; break; case LT_ENDLABELSTRING: // endlabel string definition lex >> endlabelstring_; endlabelstring_ = trim(endlabelstring_); break; case LT_LABELSTRING_APPENDIX: // label string appendix definition lex >> labelstring_appendix_; labelstring_appendix_ = trim(labelstring_appendix_); break; case LT_LABELCOUNTER: // name of counter to use lex >> counter; counter = trim(counter); break; case LT_FREE_SPACING: // Allow for free spacing. lex >> free_spacing; break; case LT_PASS_THRU: // Allow for pass thru. lex >> pass_thru; break; case LT_SPACING: // setspace.sty readSpacing(lex); break; case LT_REQUIRES: lex.eatLine(); vector const req = getVectorFromString(lex.getString()); requires_.insert(req.begin(), req.end()); break; } } lex.popTable(); return !error; } enum { AT_BLOCK = 1, AT_LEFT, AT_RIGHT, AT_CENTER, AT_LAYOUT }; LexerKeyword alignTags[] = { { "block", AT_BLOCK }, { "center", AT_CENTER }, { "layout", AT_LAYOUT }, { "left", AT_LEFT }, { "right", AT_RIGHT } }; void Layout::readAlign(Lexer & lex) { PushPopHelper pph(lex, alignTags); int le = lex.lex(); switch (le) { case Lexer::LEX_UNDEF: lex.printError("Unknown alignment `$$Token'"); return; default: break; }; switch (le) { case AT_BLOCK: align = LYX_ALIGN_BLOCK; break; case AT_LEFT: align = LYX_ALIGN_LEFT; break; case AT_RIGHT: align = LYX_ALIGN_RIGHT; break; case AT_CENTER: align = LYX_ALIGN_CENTER; break; case AT_LAYOUT: align = LYX_ALIGN_LAYOUT; break; } } void Layout::readAlignPossible(Lexer & lex) { lex.pushTable(alignTags); alignpossible = LYX_ALIGN_NONE | LYX_ALIGN_LAYOUT; int lineno = lex.lineNumber(); do { int le = lex.lex(); switch (le) { case Lexer::LEX_UNDEF: lex.printError("Unknown alignment `$$Token'"); continue; default: break; }; switch (le) { case AT_BLOCK: alignpossible |= LYX_ALIGN_BLOCK; break; case AT_LEFT: alignpossible |= LYX_ALIGN_LEFT; break; case AT_RIGHT: alignpossible |= LYX_ALIGN_RIGHT; break; case AT_CENTER: alignpossible |= LYX_ALIGN_CENTER; break; case AT_LAYOUT: alignpossible |= LYX_ALIGN_LAYOUT; break; } } while (lineno == lex.lineNumber()); lex.popTable(); } void Layout::readLabelType(Lexer & lex) { enum { LA_NO_LABEL = 1, LA_MANUAL, LA_TOP_ENVIRONMENT, LA_CENTERED_TOP_ENVIRONMENT, LA_STATIC, LA_SENSITIVE, LA_COUNTER, LA_ENUMERATE, LA_ITEMIZE, LA_BIBLIO }; LexerKeyword labelTypeTags[] = { { "bibliography", LA_BIBLIO }, { "centered_top_environment", LA_CENTERED_TOP_ENVIRONMENT }, { "counter", LA_COUNTER }, { "enumerate", LA_ENUMERATE }, { "itemize", LA_ITEMIZE }, { "manual", LA_MANUAL }, { "no_label", LA_NO_LABEL }, { "sensitive", LA_SENSITIVE }, { "static", LA_STATIC }, { "top_environment", LA_TOP_ENVIRONMENT } }; PushPopHelper pph(lex, labelTypeTags); int le = lex.lex(); switch (le) { case Lexer::LEX_UNDEF: lex.printError("Unknown labeltype tag `$$Token'"); return; default: break; } switch (le) { case LA_NO_LABEL: labeltype = LABEL_NO_LABEL; break; case LA_MANUAL: labeltype = LABEL_MANUAL; break; case LA_TOP_ENVIRONMENT: labeltype = LABEL_TOP_ENVIRONMENT; break; case LA_CENTERED_TOP_ENVIRONMENT: labeltype = LABEL_CENTERED_TOP_ENVIRONMENT; break; case LA_STATIC: labeltype = LABEL_STATIC; break; case LA_SENSITIVE: labeltype = LABEL_SENSITIVE; break; case LA_COUNTER: labeltype = LABEL_COUNTER; break; case LA_ENUMERATE: labeltype = LABEL_ENUMERATE; break; case LA_ITEMIZE: labeltype = LABEL_ITEMIZE; break; case LA_BIBLIO: labeltype = LABEL_BIBLIO; break; } } void Layout::readEndLabelType(Lexer & lex) { static LexerKeyword endlabelTypeTags[] = { { "box", END_LABEL_BOX }, { "filled_box", END_LABEL_FILLED_BOX }, { "no_label", END_LABEL_NO_LABEL }, { "static", END_LABEL_STATIC } }; PushPopHelper pph(lex, endlabelTypeTags); int le = lex.lex(); switch (le) { case Lexer::LEX_UNDEF: lex.printError("Unknown labeltype tag `$$Token'"); break; case END_LABEL_STATIC: case END_LABEL_BOX: case END_LABEL_FILLED_BOX: case END_LABEL_NO_LABEL: endlabeltype = static_cast(le); break; default: LYXERR0("Unhandled value " << le); break; } } void Layout::readMargin(Lexer & lex) { LexerKeyword marginTags[] = { { "dynamic", MARGIN_DYNAMIC }, { "first_dynamic", MARGIN_FIRST_DYNAMIC }, { "manual", MARGIN_MANUAL }, { "right_address_box", MARGIN_RIGHT_ADDRESS_BOX }, { "static", MARGIN_STATIC } }; PushPopHelper pph(lex, marginTags); int le = lex.lex(); switch (le) { case Lexer::LEX_UNDEF: lex.printError("Unknown margin type tag `$$Token'"); return; case MARGIN_STATIC: case MARGIN_MANUAL: case MARGIN_DYNAMIC: case MARGIN_FIRST_DYNAMIC: case MARGIN_RIGHT_ADDRESS_BOX: margintype = static_cast(le); break; default: LYXERR0("Unhandled value " << le); break; } } void Layout::readLatexType(Lexer & lex) { LexerKeyword latexTypeTags[] = { { "bib_environment", LATEX_BIB_ENVIRONMENT }, { "command", LATEX_COMMAND }, { "environment", LATEX_ENVIRONMENT }, { "item_environment", LATEX_ITEM_ENVIRONMENT }, { "list_environment", LATEX_LIST_ENVIRONMENT }, { "paragraph", LATEX_PARAGRAPH } }; PushPopHelper pph(lex, latexTypeTags); int le = lex.lex(); switch (le) { case Lexer::LEX_UNDEF: lex.printError("Unknown latextype tag `$$Token'"); return; case LATEX_PARAGRAPH: case LATEX_COMMAND: case LATEX_ENVIRONMENT: case LATEX_ITEM_ENVIRONMENT: case LATEX_BIB_ENVIRONMENT: case LATEX_LIST_ENVIRONMENT: latextype = static_cast(le); break; default: LYXERR0("Unhandled value " << le); break; } } void Layout::readSpacing(Lexer & lex) { enum { ST_SPACING_SINGLE = 1, ST_SPACING_ONEHALF, ST_SPACING_DOUBLE, ST_OTHER }; LexerKeyword spacingTags[] = { {"double", ST_SPACING_DOUBLE }, {"onehalf", ST_SPACING_ONEHALF }, {"other", ST_OTHER }, {"single", ST_SPACING_SINGLE } }; PushPopHelper pph(lex, spacingTags); int le = lex.lex(); switch (le) { case Lexer::LEX_UNDEF: lex.printError("Unknown spacing token `$$Token'"); return; default: break; } switch (le) { case ST_SPACING_SINGLE: spacing.set(Spacing::Single); break; case ST_SPACING_ONEHALF: spacing.set(Spacing::Onehalf); break; case ST_SPACING_DOUBLE: spacing.set(Spacing::Double); break; case ST_OTHER: lex.next(); spacing.set(Spacing::Other, lex.getString()); break; } } docstring const & Layout::name() const { return name_; } void Layout::setName(docstring const & name) { name_ = name; } docstring const & Layout::obsoleted_by() const { return obsoleted_by_; } docstring const & Layout::depends_on() const { return depends_on_; } namespace { docstring const i18npreamble(Language const * lang, docstring const & templ) { if (templ.empty()) return templ; string preamble = subst(to_utf8(templ), "$$lang", lang->babel()); #ifdef TEX2LYX // tex2lyx does not have getMessages() LASSERT(false, /**/); #else // FIXME UNICODE // boost::regex is not unicode-safe. // Should use QRegExp or (boost::u32regex, but that requires ICU) static boost::regex const reg("_\\(([^\\)]+)\\)"); boost::smatch sub; while (boost::regex_search(preamble, sub, reg)) { string const key = sub.str(1); string translated; if (isAscii(key)) translated = to_utf8(getMessages(lang->code()).get(key)); else { lyxerr << "Warning: not translating `" << key << "' because it is not pure ASCII." << endl; translated = key; } preamble = subst(preamble, sub.str(), translated); } #endif return from_utf8(preamble); } } docstring const Layout::langpreamble(Language const * lang) const { return i18npreamble(lang, langpreamble_); } docstring const Layout::babelpreamble(Language const * lang) const { return i18npreamble(lang, babelpreamble_); } bool Layout::operator==(Layout const & rhs) const { // This is enough for the applications we actually make, // at least at the moment. But we could check more. return name() == rhs.name() && latexname() == rhs.latexname() && latextype == rhs.latextype; } } // namespace lyx