/** * \file ExternalTemplate.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Asger Alstrup Nielsen * \author Angus Leeming * * Full author contact details are available in file CREDITS. */ #include #include "ExternalTemplate.h" #include "Lexer.h" #include "support/debug.h" #include "support/filetools.h" #include "support/lstrings.h" #include "support/Package.h" #include "support/Path.h" #include using namespace std; using namespace lyx::support; namespace lyx { namespace external { typedef Translator TransformIDTranslator; static TransformIDTranslator const initIDTranslator() { TransformIDTranslator translator(TransformID(-1), ""); translator.addPair(Rotate, "Rotate"); translator.addPair(Resize, "Resize"); translator.addPair(Clip, "Clip"); translator.addPair(Extra, "Extra"); return translator; } static TransformIDTranslator const & transformIDTranslator() { static TransformIDTranslator const translator = initIDTranslator(); return translator; } // We have to have dummy default commands for security reasons! Template::Template() : inputFormat("*"), automaticProduction(false), preview_mode(PREVIEW_OFF) {} Template::Format::Format() {} TemplateManager::TemplateManager() { readTemplates(package().user_support()); if (lyxerr.debugging(Debug::EXTERNAL)) { dumpPreambleDefs(lyxerr); lyxerr << '\n'; dumpTemplates(lyxerr); } } class DumpPreambleDef { public: typedef TemplateManager::PreambleDefs::value_type value_type; DumpPreambleDef(ostream & os) : os_(os) {} void operator()(value_type const & vt) { os_ << "PreambleDef " << vt.first << '\n' << vt.second << "PreambleDefEnd" << endl; } private: ostream & os_; }; class DumpTemplate { public: typedef TemplateManager::Templates::value_type value_type; DumpTemplate(ostream & os) : os_(os) {} void operator()(value_type const & vt) { Template const & et = vt.second; os_ << "Template " << et.lyxName << '\n' << "\tGuiName " << et.guiName << '\n' << "\tHelpText\n" << et.helpText << "\tHelpTextEnd\n" << "\tInputFormat " << et.inputFormat << '\n' << "\tFileFilter " << et.fileRegExp << '\n' << "\tAutomaticProduction " << et.automaticProduction << '\n' << "\tPreview "; switch (et.preview_mode) { case PREVIEW_OFF: os_ << "Off\n"; break; case PREVIEW_GRAPHICS: os_ << "Graphics\n"; break; case PREVIEW_INSTANT: os_ << "InstantPreview\n"; break; } typedef vector IDs; IDs::const_iterator it = et.transformIds.begin(); IDs::const_iterator end = et.transformIds.end(); for (; it != end; ++it) { os_ << "\tTransform " << transformIDTranslator().find(*it) << '\n'; } et.dumpFormats(os_); os_ << "TemplateEnd" << endl; } private: ostream & os_; }; class DumpFormat { public: typedef Template::Formats::value_type value_type; DumpFormat(ostream & o) : os_(o) {} void operator()(value_type const & vt) const { Template::Format const & ft = vt.second; os_ << "\tFormat " << vt.first << '\n' << "\t\tProduct " << ft.product << '\n' << "\t\tUpdateFormat " << ft.updateFormat << '\n' << "\t\tUpdateResult " << ft.updateResult << '\n'; vector::const_iterator qit = ft.requirements.begin(); vector::const_iterator qend = ft.requirements.end(); for (; qit != qend; ++qit) { lyxerr << "req:" << *qit << endl; os_ << "\t\tRequirement " << *qit << '\n'; } typedef vector Options; Options::const_iterator oit = ft.options.begin(); Options::const_iterator oend = ft.options.end(); for (; oit != oend; ++oit) { os_ << "\t\tOption " << oit->name << ": " << oit->option << '\n'; } vector::const_iterator pit = ft.preambleNames.begin(); vector::const_iterator pend = ft.preambleNames.end(); for (; pit != pend; ++pit) { os_ << "\t\tPreamble " << *pit << '\n'; } typedef Template::Format::FileMap FileMap; FileMap::const_iterator rit = ft.referencedFiles.begin(); FileMap::const_iterator rend = ft.referencedFiles.end(); for (; rit != rend; ++rit) { vector::const_iterator fit = rit->second.begin(); vector::const_iterator fend = rit->second.end(); for (; fit != fend; ++fit) { os_ << "\t\tReferencedFile " << rit->first << " \"" << *fit << "\"\n"; } } os_ << "\tFormatEnd\n"; } private: ostream & os_; }; void Template::dumpFormats(ostream & os) const { for_each(formats.begin(), formats.end(), DumpFormat(os)); } void TemplateManager::dumpPreambleDefs(ostream & os) const { for_each(preambledefs.begin(), preambledefs.end(), DumpPreambleDef(os)); } void TemplateManager::dumpTemplates(ostream & os) const { for_each(templates.begin(), templates.end(), DumpTemplate(os)); } TemplateManager & TemplateManager::get() { static TemplateManager externalTemplateManager; return externalTemplateManager; } TemplateManager::Templates const & TemplateManager::getTemplates() const { return templates; } Template const * TemplateManager::getTemplateByName(string const & name) const { Templates::const_iterator it = templates.find(name); return (it == templates.end()) ? 0 : &it->second; } string const TemplateManager::getPreambleDefByName(string const & name) const { string const trimmed_name = trim(name); if (trimmed_name.empty()) return string(); PreambleDefs::const_iterator it = preambledefs.find(trimmed_name); if (it == preambledefs.end()) return string(); return it->second; } void TemplateManager::readTemplates(FileName const & path) { PathChanger p(path); enum { TM_PREAMBLEDEF = 1, TM_PREAMBLEDEF_END, TM_TEMPLATE, TM_TEMPLATE_END }; LexerKeyword templatetags[] = { { "preambledef", TM_PREAMBLEDEF }, { "preambledefend", TM_PREAMBLEDEF_END }, { "template", TM_TEMPLATE }, { "templateend", TM_TEMPLATE_END } }; Lexer lex(templatetags); FileName const filename = libFileSearch("", "external_templates"); if (filename.empty() || !lex.setFile(filename)) { lex.printError("external::TemplateManager::readTemplates: " "No template file"); return; } char const * const preamble_end_tag = templatetags[TM_PREAMBLEDEF_END-1].tag; while (lex.isOK()) { switch (lex.lex()) { case TM_PREAMBLEDEF: { lex.next(); string const name = lex.getString(); preambledefs[name] = lex.getLongString(preamble_end_tag); } break; case TM_TEMPLATE: { lex.next(); string const name = lex.getString(); Template & tmp = templates[name]; tmp.lyxName = name; tmp.readTemplate(lex); } break; case TM_TEMPLATE_END: lex.printError("Warning: End outside Template."); break; case TM_PREAMBLEDEF_END: lex.printError("Warning: End outside PreambleDef."); break; } } } void Template::readTemplate(Lexer & lex) { enum { TO_GUINAME = 1, TO_HELPTEXT, TO_INPUTFORMAT, TO_FILTER, TO_AUTOMATIC, TO_PREVIEW, TO_TRANSFORM, TO_FORMAT, TO_END }; LexerKeyword templateoptiontags[] = { { "automaticproduction", TO_AUTOMATIC }, { "filefilter", TO_FILTER }, { "format", TO_FORMAT }, { "guiname", TO_GUINAME }, { "helptext", TO_HELPTEXT }, { "inputformat", TO_INPUTFORMAT }, { "preview", TO_PREVIEW }, { "templateend", TO_END }, { "transform", TO_TRANSFORM } }; PushPopHelper pph(lex, templateoptiontags); lex.setContext("Template::readTemplate"); string token; while (lex.isOK()) { switch (lex.lex()) { case TO_GUINAME: lex.next(true); guiName = lex.getString(); break; case TO_HELPTEXT: helpText = lex.getLongString("HelpTextEnd"); break; case TO_INPUTFORMAT: lex.next(true); inputFormat = lex.getString(); break; case TO_FILTER: lex.next(true); fileRegExp = lex.getString(); break; case TO_AUTOMATIC: lex.next(); automaticProduction = lex.getBool(); break; case TO_PREVIEW: lex >> token; if (token == "InstantPreview") preview_mode = PREVIEW_INSTANT; else if (token == "Graphics") preview_mode = PREVIEW_GRAPHICS; else preview_mode = PREVIEW_OFF; break; case TO_TRANSFORM: { lex >> token; TransformID id = transformIDTranslator().find(token); if (int(id) == -1) LYXERR0("Transform " << token << " is not recognized"); else transformIds.push_back(id); break; } case TO_FORMAT: lex.next(true); formats[lex.getString()].readFormat(lex); break; case TO_END: return; default: lex.printError("external::Template::readTemplate: " "Wrong tag: $$Token"); LASSERT(false, /**/); break; } } } namespace { void transform_not_found(ostream & os, string const & transform) { os << "external::Format::readFormat. Transformation \"" << transform << "\" is unrecognized." << endl; } void transform_class_not_found(ostream & os, string const & tclass) { os << "external::Format::readFormat. Transformation class \"" << tclass << "\" is unrecognized." << endl; } void setCommandFactory(Template::Format & format, string const & transform, string const & transformer_class) { bool class_found = false; if (transform == "Resize" && transformer_class == "ResizeLatexCommand") { class_found = true; ResizeCommandFactory factory = ResizeLatexCommand::factory; format.command_transformers[Resize] = TransformStore(Resize, factory); } else if (transform == "Rotate" && transformer_class == "RotationLatexCommand") { class_found = true; RotationCommandFactory factory = RotationLatexCommand::factory; format.command_transformers[Rotate] = TransformStore(Rotate, factory); } else transform_not_found(lyxerr, transform); if (!class_found) transform_class_not_found(lyxerr, transformer_class); } void setOptionFactory(Template::Format & format, string const & transform, string const & transformer_class) { bool class_found = false; if (transform == "Clip" && transformer_class == "ClipLatexOption") { class_found = true; ClipOptionFactory factory = ClipLatexOption::factory; format.option_transformers[Clip] = TransformStore(Clip, factory); } else if (transform == "Extra" && transformer_class == "ExtraOption") { class_found = true; ExtraOptionFactory factory = ExtraOption::factory; format.option_transformers[Extra] = TransformStore(Extra, factory); } else if (transform == "Resize" && transformer_class == "ResizeLatexOption") { class_found = true; ResizeOptionFactory factory = ResizeLatexOption::factory; format.option_transformers[Resize] = TransformStore(Resize, factory); } else if (transform == "Rotate" && transformer_class == "RotationLatexOption") { class_found = true; RotationOptionFactory factory = RotationLatexOption::factory; format.option_transformers[Rotate] = TransformStore(Rotate, factory); } else transform_not_found(lyxerr, transform); if (!class_found) transform_class_not_found(lyxerr, transformer_class); } } // namespace anon void Template::Format::readFormat(Lexer & lex) { enum { FO_PRODUCT = 1, FO_UPDATEFORMAT, FO_UPDATERESULT, FO_REQUIREMENT, FO_OPTION, FO_PREAMBLE, FO_TRANSFORMCOMMAND, FO_TRANSFORMOPTION, FO_REFERENCEDFILE, FO_END }; LexerKeyword formattags[] = { { "formatend", FO_END }, { "option", FO_OPTION }, { "preamble", FO_PREAMBLE }, { "product", FO_PRODUCT }, { "referencedfile", FO_REFERENCEDFILE }, { "requirement", FO_REQUIREMENT }, { "transformcommand", FO_TRANSFORMCOMMAND }, { "transformoption", FO_TRANSFORMOPTION }, { "updateformat", FO_UPDATEFORMAT }, { "updateresult", FO_UPDATERESULT } }; PushPopHelper pph(lex, formattags); while (lex.isOK()) { switch (lex.lex()) { case FO_PRODUCT: lex.next(true); product = lex.getString(); break; case FO_UPDATEFORMAT: lex.next(true); updateFormat = lex.getString(); break; case FO_UPDATERESULT: lex.next(true); updateResult = lex.getString(); break; case FO_REQUIREMENT: lex.next(true); requirements.push_back(lex.getString()); break; case FO_PREAMBLE: lex.next(true); preambleNames.push_back(lex.getString()); break; case FO_TRANSFORMCOMMAND: { lex.next(true); string const name = lex.getString(); lex.next(true); setCommandFactory(*this, name, lex.getString()); break; } case FO_TRANSFORMOPTION: { lex.next(true); string const name = lex.getString(); lex.next(true); setOptionFactory(*this, name, lex.getString()); break; } case FO_OPTION: { lex.next(true); string const name = lex.getString(); lex.next(true); string const opt = lex.getString(); options.push_back(Option(name, opt)); break; } case FO_REFERENCEDFILE: { lex.next(true); string const format = lex.getString(); lex.next(true); string const file = lex.getString(); referencedFiles[format].push_back(file); break; } case FO_END: return; } } } } // namespace external } // namespace lyx