/** * \file TextClass.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 Angus Leeming * \author John Levon * \author André Pönitz * * Full author contact details are available in file CREDITS. */ #include #include "TextClass.h" #include "LayoutFile.h" #include "Color.h" #include "Counters.h" #include "Floating.h" #include "FloatList.h" #include "Layout.h" #include "Lexer.h" #include "Font.h" #include "frontends/alert.h" #include "support/debug.h" #include "support/ExceptionMessage.h" #include "support/FileName.h" #include "support/filetools.h" #include "support/gettext.h" #include "support/lstrings.h" #include "support/os.h" #include #include #include #include "boost/assert.hpp" using namespace std; using namespace lyx::support; namespace lyx { namespace { class LayoutNamesEqual : public unary_function { public: LayoutNamesEqual(docstring const & name) : name_(name) {} bool operator()(Layout const & c) const { return c.name() == name_; } private: docstring name_; }; int const FORMAT = 6; bool layout2layout(FileName const & filename, FileName const & tempfile) { FileName const script = libFileSearch("scripts", "layout2layout.py"); if (script.empty()) { lyxerr << "Could not find layout conversion " "script layout2layout.py." << endl; return false; } ostringstream command; command << os::python() << ' ' << quoteName(script.toFilesystemEncoding()) << ' ' << quoteName(filename.toFilesystemEncoding()) << ' ' << quoteName(tempfile.toFilesystemEncoding()); string const command_str = command.str(); LYXERR(Debug::TCLASS, "Running `" << command_str << '\''); cmd_ret const ret = runCommand(command_str); if (ret.first != 0) { lyxerr << "Could not run layout conversion " "script layout2layout.py." << endl; return false; } return true; } std::string translateRT(TextClass::ReadType rt) { switch (rt) { case TextClass::BASECLASS: return "textclass"; case TextClass::MERGE: return "input file"; case TextClass::MODULE: return "module file"; case TextClass::VALIDATION: return "validation"; } // shutup warning return string(); } } // namespace anon docstring const TextClass::emptylayout_ = from_ascii("PlainLayout"); InsetLayout DocumentClass::empty_insetlayout_; TextClass::TextClass() { outputType_ = LATEX; columns_ = 1; sides_ = OneSide; secnumdepth_ = 3; tocdepth_ = 3; pagestyle_ = "default"; defaultfont_ = sane_font; opt_fontsize_ = "10|11|12"; opt_pagestyle_ = "empty|plain|headings|fancy"; titletype_ = TITLE_COMMAND_AFTER; titlename_ = "maketitle"; loaded_ = false; // a hack to make this available for translation // i'm sure there must be a better way (rgh) _("PlainLayout"); } bool TextClass::readStyle(Lexer & lexrc, Layout & lay) { LYXERR(Debug::TCLASS, "Reading style " << to_utf8(lay.name())); if (!lay.read(lexrc, *this)) { lyxerr << "Error parsing style `" << to_utf8(lay.name()) << '\'' << endl; return false; } // Resolve fonts lay.resfont = lay.font; lay.resfont.realize(defaultfont_); lay.reslabelfont = lay.labelfont; lay.reslabelfont.realize(defaultfont_); return true; // no errors } enum TextClassTags { TC_OUTPUTTYPE = 1, TC_INPUT, TC_STYLE, TC_DEFAULTSTYLE, TC_INSETLAYOUT, TC_ENVIRONMENT, TC_NOSTYLE, TC_COLUMNS, TC_SIDES, TC_PAGESTYLE, TC_DEFAULTFONT, TC_SECNUMDEPTH, TC_TOCDEPTH, TC_CLASSOPTIONS, TC_PREAMBLE, TC_PROVIDES, TC_REQUIRES, TC_LEFTMARGIN, TC_RIGHTMARGIN, TC_FLOAT, TC_COUNTER, TC_NOFLOAT, TC_TITLELATEXNAME, TC_TITLELATEXTYPE, TC_FORMAT }; namespace { keyword_item textClassTags[] = { { "classoptions", TC_CLASSOPTIONS }, { "columns", TC_COLUMNS }, { "counter", TC_COUNTER }, { "defaultfont", TC_DEFAULTFONT }, { "defaultstyle", TC_DEFAULTSTYLE }, { "environment", TC_ENVIRONMENT }, { "float", TC_FLOAT }, { "format", TC_FORMAT }, { "input", TC_INPUT }, { "insetlayout", TC_INSETLAYOUT }, { "leftmargin", TC_LEFTMARGIN }, { "nofloat", TC_NOFLOAT }, { "nostyle", TC_NOSTYLE }, { "outputtype", TC_OUTPUTTYPE }, { "pagestyle", TC_PAGESTYLE }, { "preamble", TC_PREAMBLE }, { "provides", TC_PROVIDES }, { "requires", TC_REQUIRES }, { "rightmargin", TC_RIGHTMARGIN }, { "secnumdepth", TC_SECNUMDEPTH }, { "sides", TC_SIDES }, { "style", TC_STYLE }, { "titlelatexname", TC_TITLELATEXNAME }, { "titlelatextype", TC_TITLELATEXTYPE }, { "tocdepth", TC_TOCDEPTH } }; } //namespace anon bool TextClass::convertLayoutFormat(support::FileName const & filename, ReadType rt) { LYXERR(Debug::TCLASS, "Converting layout file to " << FORMAT); FileName const tempfile = FileName::tempName(); bool success = layout2layout(filename, tempfile); if (success) success = read(tempfile, rt); tempfile.removeFile(); return success; } bool TextClass::read(FileName const & filename, ReadType rt) { if (!filename.isReadableFile()) { lyxerr << "Cannot read layout file `" << filename << "'." << endl; return false; } LYXERR(Debug::TCLASS, "Reading " + translateRT(rt) + ": " + to_utf8(makeDisplayPath(filename.absFilename()))); // Define the `empty' layout used in table cells, ert, etc. Note that // we do this before loading any layout file, so that classes can // override features of this layout if they should choose to do so. if (rt == BASECLASS && !hasLayout(emptylayout_)) { static char const * s = "Margin Static\n" "LatexType Paragraph\n" "LatexName dummy\n" "Align Block\n" "AlignPossible Left, Right, Center\n" "LabelType No_Label\n" "End"; istringstream ss(s); Lexer lex(textClassTags, sizeof(textClassTags) / sizeof(textClassTags[0])); lex.setStream(ss); Layout lay; lay.setName(emptylayout_); if (!readStyle(lex, lay)) { // The only way this happens is because the hardcoded layout above // is wrong. BOOST_ASSERT(false); }; layoutlist_.push_back(lay); } Lexer lexrc(textClassTags, sizeof(textClassTags) / sizeof(textClassTags[0])); lexrc.setFile(filename); ReturnValues retval = read(lexrc, rt); LYXERR(Debug::TCLASS, "Finished reading " + translateRT(rt) + ": " + to_utf8(makeDisplayPath(filename.absFilename()))); if (retval != FORMAT_MISMATCH) return retval == OK; bool const worx = convertLayoutFormat(filename, rt); if (!worx) { lyxerr << "Unable to convert " << filename << " to format " << FORMAT << std::endl; return false; } return true; } bool TextClass::validate(std::string const & str) { TextClass tc; return tc.read(str, VALIDATION); } bool TextClass::read(std::string const & str, ReadType rt) { Lexer lexrc(textClassTags, sizeof(textClassTags) / sizeof(textClassTags[0])); istringstream is(str); lexrc.setStream(is); ReturnValues retval = read(lexrc, rt); if (retval != FORMAT_MISMATCH) return retval == OK; // write the layout string to a temporary file FileName const tempfile = FileName::tempName(); ofstream os(tempfile.toFilesystemEncoding().c_str()); if (!os) { lyxerr << "Unable to create tempoary file in TextClass::read!!" << std::endl; return false; } os << str; os.close(); // now try to convert it bool const worx = convertLayoutFormat(tempfile, rt); if (!worx) { lyxerr << "Unable to convert internal layout information to format " << FORMAT << std::endl; } tempfile.removeFile(); return worx; } // Reads a textclass structure from file. TextClass::ReturnValues TextClass::read(Lexer & lexrc, ReadType rt) { bool error = !lexrc.isOK(); // Format of files before the 'Format' tag was introduced int format = 1; // parsing while (lexrc.isOK() && !error) { int le = lexrc.lex(); switch (le) { case Lexer::LEX_FEOF: continue; case Lexer::LEX_UNDEF: lexrc.printError("Unknown TextClass tag `$$Token'"); error = true; continue; default: break; } switch (static_cast(le)) { case TC_FORMAT: if (lexrc.next()) format = lexrc.getInteger(); break; case TC_OUTPUTTYPE: // output type definition readOutputType(lexrc); break; case TC_INPUT: // Include file if (lexrc.next()) { string const inc = lexrc.getString(); FileName tmp = libFileSearch("layouts", inc, "layout"); if (tmp.empty()) { lexrc.printError("Could not find input file: " + inc); error = true; } else if (!read(tmp, MERGE)) { lexrc.printError("Error reading input" "file: " + tmp.absFilename()); error = true; } } break; case TC_DEFAULTSTYLE: if (lexrc.next()) { docstring const name = from_utf8(subst(lexrc.getString(), '_', ' ')); defaultlayout_ = name; } break; case TC_ENVIRONMENT: case TC_STYLE: if (lexrc.next()) { docstring const name = from_utf8(subst(lexrc.getString(), '_', ' ')); if (name.empty()) { string s = "Could not read name for style: `$$Token' " + lexrc.getString() + " is probably not valid UTF-8!"; lexrc.printError(s.c_str()); Layout lay; // Since we couldn't read the name, we just scan the rest // of the style and discard it. error = !readStyle(lexrc, lay); } else if (hasLayout(name)) { Layout & lay = operator[](name); error = !readStyle(lexrc, lay); } else { Layout lay; lay.setName(name); if (le == TC_ENVIRONMENT) lay.is_environment = true; error = !readStyle(lexrc, lay); if (!error) layoutlist_.push_back(lay); if (defaultlayout_.empty()) { // We do not have a default layout yet, so we choose // the first layout we encounter. defaultlayout_ = name; } } } else { //FIXME Should we also eat the style here? viz: //Layout lay; //readStyle(lexrc, lay); //as above... lexrc.printError("No name given for style: `$$Token'."); error = true; } break; case TC_NOSTYLE: if (lexrc.next()) { docstring const style = from_utf8(subst(lexrc.getString(), '_', ' ')); if (!deleteLayout(style)) lyxerr << "Cannot delete style `" << to_utf8(style) << '\'' << endl; } break; case TC_COLUMNS: if (lexrc.next()) columns_ = lexrc.getInteger(); break; case TC_SIDES: if (lexrc.next()) { switch (lexrc.getInteger()) { case 1: sides_ = OneSide; break; case 2: sides_ = TwoSides; break; default: lyxerr << "Impossible number of page" " sides, setting to one." << endl; sides_ = OneSide; break; } } break; case TC_PAGESTYLE: lexrc.next(); pagestyle_ = rtrim(lexrc.getString()); break; case TC_DEFAULTFONT: defaultfont_ = lyxRead(lexrc); if (!defaultfont_.resolved()) { lexrc.printError("Warning: defaultfont should " "be fully instantiated!"); defaultfont_.realize(sane_font); } break; case TC_SECNUMDEPTH: lexrc.next(); secnumdepth_ = lexrc.getInteger(); break; case TC_TOCDEPTH: lexrc.next(); tocdepth_ = lexrc.getInteger(); break; // First step to support options case TC_CLASSOPTIONS: readClassOptions(lexrc); break; case TC_PREAMBLE: preamble_ = from_utf8(lexrc.getLongString("EndPreamble")); break; case TC_PROVIDES: { lexrc.next(); string const feature = lexrc.getString(); lexrc.next(); if (lexrc.getInteger()) provides_.insert(feature); else provides_.erase(feature); break; } case TC_REQUIRES: { lexrc.eatLine(); vector const req = getVectorFromString(lexrc.getString()); requires_.insert(req.begin(), req.end()); break; } case TC_LEFTMARGIN: // left margin type if (lexrc.next()) leftmargin_ = lexrc.getDocString(); break; case TC_RIGHTMARGIN: // right margin type if (lexrc.next()) rightmargin_ = lexrc.getDocString(); break; case TC_INSETLAYOUT: if (lexrc.next()) { InsetLayout il; if (il.read(lexrc)) { insetlayoutlist_[il.name()] = il; } // else there was an error, so forget it } break; case TC_FLOAT: readFloat(lexrc); break; case TC_COUNTER: readCounter(lexrc); break; case TC_TITLELATEXTYPE: readTitleType(lexrc); break; case TC_TITLELATEXNAME: if (lexrc.next()) titlename_ = lexrc.getString(); break; case TC_NOFLOAT: if (lexrc.next()) { string const nofloat = lexrc.getString(); floatlist_.erase(nofloat); } break; } //Note that this is triggered the first time through the loop unless //we hit a format tag. if (format != FORMAT) break; } if (format != FORMAT) return FORMAT_MISMATCH; if (rt != BASECLASS) return (error ? ERROR : OK); if (defaultlayout_.empty()) { lyxerr << "Error: Textclass '" << name_ << "' is missing a defaultstyle." << endl; error = true; } //Try to erase "stdinsets" from the provides_ set. //The // Provides stdinsets 1 //declaration simply tells us that the standard insets have been //defined. (It's found in stdinsets.inc but could also be used in //user-defined files.) There isn't really any such package. So we //might as well go ahead and erase it. //If we do not succeed, then it was not there, which means that //the textclass did not provide the definitions of the standard //insets. So we need to try to load them. int erased = provides_.erase("stdinsets"); if (!erased) { FileName tmp = libFileSearch("layouts", "stdinsets.inc"); if (tmp.empty()) { throw ExceptionMessage(WarningException, _("Missing File"), _("Could not find stdinsets.inc! This may lead to data loss!")); error = true; } else if (!read(tmp, MERGE)) { throw ExceptionMessage(WarningException, _("Corrupt File"), _("Could not read stdinsets.inc! This may lead to data loss!")); error = true; } } min_toclevel_ = Layout::NOT_IN_TOC; max_toclevel_ = Layout::NOT_IN_TOC; const_iterator lit = begin(); const_iterator len = end(); for (; lit != len; ++lit) { int const toclevel = lit->toclevel; if (toclevel != Layout::NOT_IN_TOC) { if (min_toclevel_ == Layout::NOT_IN_TOC) min_toclevel_ = toclevel; else min_toclevel_ = min(min_toclevel_, toclevel); max_toclevel_ = max(max_toclevel_, toclevel); } } LYXERR(Debug::TCLASS, "Minimum TocLevel is " << min_toclevel_ << ", maximum is " << max_toclevel_); return (error ? ERROR : OK); } void TextClass::readTitleType(Lexer & lexrc) { keyword_item titleTypeTags[] = { { "commandafter", TITLE_COMMAND_AFTER }, { "environment", TITLE_ENVIRONMENT } }; PushPopHelper pph(lexrc, titleTypeTags, TITLE_ENVIRONMENT); int le = lexrc.lex(); switch (le) { case Lexer::LEX_UNDEF: lexrc.printError("Unknown output type `$$Token'"); return; case TITLE_COMMAND_AFTER: case TITLE_ENVIRONMENT: titletype_ = static_cast(le); break; default: lyxerr << "Unhandled value " << le << " in TextClass::readTitleType." << endl; break; } } void TextClass::readOutputType(Lexer & lexrc) { keyword_item outputTypeTags[] = { { "docbook", DOCBOOK }, { "latex", LATEX }, { "literate", LITERATE } }; PushPopHelper pph(lexrc, outputTypeTags, LITERATE); int le = lexrc.lex(); switch (le) { case Lexer::LEX_UNDEF: lexrc.printError("Unknown output type `$$Token'"); return; case LATEX: case DOCBOOK: case LITERATE: outputType_ = static_cast(le); break; default: lyxerr << "Unhandled value " << le << " in TextClass::readOutputType." << endl; break; } } enum ClassOptionsTags { CO_FONTSIZE = 1, CO_PAGESTYLE, CO_OTHER, CO_HEADER, CO_END }; void TextClass::readClassOptions(Lexer & lexrc) { keyword_item classOptionsTags[] = { {"end", CO_END }, {"fontsize", CO_FONTSIZE }, {"header", CO_HEADER }, {"other", CO_OTHER }, {"pagestyle", CO_PAGESTYLE } }; lexrc.pushTable(classOptionsTags, CO_END); bool getout = false; while (!getout && lexrc.isOK()) { int le = lexrc.lex(); switch (le) { case Lexer::LEX_UNDEF: lexrc.printError("Unknown ClassOption tag `$$Token'"); continue; default: break; } switch (static_cast(le)) { case CO_FONTSIZE: lexrc.next(); opt_fontsize_ = rtrim(lexrc.getString()); break; case CO_PAGESTYLE: lexrc.next(); opt_pagestyle_ = rtrim(lexrc.getString()); break; case CO_OTHER: lexrc.next(); options_ = lexrc.getString(); break; case CO_HEADER: lexrc.next(); class_header_ = subst(lexrc.getString(), """, "\""); break; case CO_END: getout = true; break; } } lexrc.popTable(); } enum FloatTags { FT_TYPE = 1, FT_NAME, FT_PLACEMENT, FT_EXT, FT_WITHIN, FT_STYLE, FT_LISTNAME, FT_BUILTIN, FT_END }; void TextClass::readFloat(Lexer & lexrc) { keyword_item floatTags[] = { { "end", FT_END }, { "extension", FT_EXT }, { "guiname", FT_NAME }, { "latexbuiltin", FT_BUILTIN }, { "listname", FT_LISTNAME }, { "numberwithin", FT_WITHIN }, { "placement", FT_PLACEMENT }, { "style", FT_STYLE }, { "type", FT_TYPE } }; lexrc.pushTable(floatTags, FT_END); string type; string placement; string ext; string within; string style; string name; string listName; bool builtin = false; bool getout = false; while (!getout && lexrc.isOK()) { int le = lexrc.lex(); switch (le) { case Lexer::LEX_UNDEF: lexrc.printError("Unknown float tag `$$Token'"); continue; default: break; } switch (static_cast(le)) { case FT_TYPE: lexrc.next(); type = lexrc.getString(); if (floatlist_.typeExist(type)) { Floating const & fl = floatlist_.getType(type); placement = fl.placement(); ext = fl.ext(); within = fl.within(); style = fl.style(); name = fl.name(); listName = fl.listName(); builtin = fl.builtin(); } break; case FT_NAME: lexrc.next(); name = lexrc.getString(); break; case FT_PLACEMENT: lexrc.next(); placement = lexrc.getString(); break; case FT_EXT: lexrc.next(); ext = lexrc.getString(); break; case FT_WITHIN: lexrc.next(); within = lexrc.getString(); if (within == "none") within.erase(); break; case FT_STYLE: lexrc.next(); style = lexrc.getString(); break; case FT_LISTNAME: lexrc.next(); listName = lexrc.getString(); break; case FT_BUILTIN: lexrc.next(); builtin = lexrc.getBool(); break; case FT_END: getout = true; break; } } // Here if have a full float if getout == true if (getout) { Floating fl(type, placement, ext, within, style, name, listName, builtin); floatlist_.newFloat(fl); // each float has its own counter counters_.newCounter(from_ascii(type), from_ascii(within), docstring(), docstring()); // also define sub-float counters docstring const subtype = "sub-" + from_ascii(type); counters_.newCounter(subtype, from_ascii(type), "\\alph{" + subtype + "}", docstring()); } lexrc.popTable(); } enum CounterTags { CT_NAME = 1, CT_WITHIN, CT_LABELSTRING, CT_LABELSTRING_APPENDIX, CT_END }; void TextClass::readCounter(Lexer & lexrc) { keyword_item counterTags[] = { { "end", CT_END }, { "labelstring", CT_LABELSTRING }, { "labelstringappendix", CT_LABELSTRING_APPENDIX }, { "name", CT_NAME }, { "within", CT_WITHIN } }; lexrc.pushTable(counterTags, CT_END); docstring name; docstring within; docstring labelstring; docstring labelstring_appendix; bool getout = false; while (!getout && lexrc.isOK()) { int le = lexrc.lex(); switch (le) { case Lexer::LEX_UNDEF: lexrc.printError("Unknown counter tag `$$Token'"); continue; default: break; } switch (static_cast(le)) { case CT_NAME: lexrc.next(); name = lexrc.getDocString(); if (counters_.hasCounter(name)) LYXERR(Debug::TCLASS, "Reading existing counter " << to_utf8(name)); else LYXERR(Debug::TCLASS, "Reading new counter " << to_utf8(name)); break; case CT_WITHIN: lexrc.next(); within = lexrc.getDocString(); if (within == "none") within.erase(); break; case CT_LABELSTRING: lexrc.next(); labelstring = lexrc.getDocString(); labelstring_appendix = labelstring; break; case CT_LABELSTRING_APPENDIX: lexrc.next(); labelstring_appendix = lexrc.getDocString(); break; case CT_END: getout = true; break; } } // Here if have a full counter if getout == true if (getout) counters_.newCounter(name, within, labelstring, labelstring_appendix); lexrc.popTable(); } bool TextClass::hasLayout(docstring const & n) const { docstring const name = n.empty() ? defaultLayoutName() : n; return find_if(layoutlist_.begin(), layoutlist_.end(), LayoutNamesEqual(name)) != layoutlist_.end(); } Layout const & TextClass::operator[](docstring const & name) const { BOOST_ASSERT(!name.empty()); const_iterator it = find_if(begin(), end(), LayoutNamesEqual(name)); if (it == end()) { lyxerr << "We failed to find the layout '" << to_utf8(name) << "' in the layout list. You MUST investigate!" << endl; for (const_iterator cit = begin(); cit != end(); ++cit) lyxerr << " " << to_utf8(cit->name()) << endl; // we require the name to exist BOOST_ASSERT(false); } return *it; } Layout & TextClass::operator[](docstring const & name) { BOOST_ASSERT(!name.empty()); iterator it = find_if(begin(), end(), LayoutNamesEqual(name)); if (it == end()) { lyxerr << "We failed to find the layout '" << to_utf8(name) << "' in the layout list. You MUST investigate!" << endl; for (const_iterator cit = begin(); cit != end(); ++cit) lyxerr << " " << to_utf8(cit->name()) << endl; // we require the name to exist BOOST_ASSERT(false); } return *it; } bool TextClass::deleteLayout(docstring const & name) { if (name == defaultLayoutName() || name == emptyLayoutName()) return false; LayoutList::iterator it = remove_if(layoutlist_.begin(), layoutlist_.end(), LayoutNamesEqual(name)); LayoutList::iterator end = layoutlist_.end(); bool const ret = (it != end); layoutlist_.erase(it, end); return ret; } // Load textclass info if not loaded yet bool TextClass::load(string const & path) const { if (loaded_) return true; // Read style-file, provided path is searched before the system ones FileName layout_file; if (!path.empty()) layout_file = FileName(addName(path, name_ + ".layout")); if (layout_file.empty() || !layout_file.exists()) layout_file = libFileSearch("layouts", name_, "layout"); loaded_ = const_cast(this)->read(layout_file); if (!loaded_) { lyxerr << "Error reading `" << to_utf8(makeDisplayPath(layout_file.absFilename())) << "'\n(Check `" << name_ << "')\nCheck your installation and " "try Options/Reconfigure..." << endl; } return loaded_; } InsetLayout const & DocumentClass::insetLayout(docstring const & name) const { docstring n = name; InsetLayouts::const_iterator cen = insetlayoutlist_.end(); while (!n.empty()) { InsetLayouts::const_iterator cit = insetlayoutlist_.lower_bound(n); if (cit != cen && cit->first == n) return cit->second; size_t i = n.find(':'); if (i == string::npos) break; n = n.substr(0,i); } return empty_insetlayout_; } docstring const & TextClass::defaultLayoutName() const { // This really should come from the actual layout... (Lgb) return defaultlayout_; } Layout const & TextClass::defaultLayout() const { return operator[](defaultLayoutName()); } bool TextClass::isDefaultLayout(Layout const & lay) const { return lay.name() == defaultLayoutName(); } bool TextClass::isEmptyLayout(Layout const & lay) const { return lay.name() == emptyLayoutName(); } DocumentClass & DocumentClassBundle::newClass(LayoutFile const & baseClass) { DocumentClass * dc = new DocumentClass(baseClass); tc_list_.push_back(dc); return *tc_list_.back(); } DocumentClassBundle & DocumentClassBundle::get() { static DocumentClassBundle singleton; return singleton; } DocumentClass::DocumentClass(LayoutFile const & tc) : TextClass(tc) {} bool DocumentClass::hasLaTeXLayout(std::string const & lay) const { LayoutList::const_iterator it = layoutlist_.begin(); LayoutList::const_iterator end = layoutlist_.end(); for (; it != end; ++it) if (it->latexname() == lay) return true; return false; } bool DocumentClass::provides(string const & p) const { return provides_.find(p) != provides_.end(); } bool DocumentClass::hasTocLevels() const { return min_toclevel_ != Layout::NOT_IN_TOC; } ostream & operator<<(ostream & os, PageSides p) { switch (p) { case OneSide: os << '1'; break; case TwoSides: os << '2'; break; } return os; } } // namespace lyx