/****************************************************************************** * * Copyright (C) 1997-2015 by Dimitri van Heesch. * * Permission to use, copy, modify, and distribute this software and its * documentation under the terms of the GNU General Public License is hereby * granted. No representations are made about the suitability of this software * for any purpose. It is provided "as is" without express or implied warranty. * See the GNU General Public License for more details. * * Documents produced by Doxygen are derivative works derived from the * input used in their production; they are not affected by this license. * */ #include #include #include "context.h" #include "config.h" #include "index.h" #include "classlist.h" #include "doxygen.h" #include "namespacedef.h" #include "filedef.h" #include "pagedef.h" #include "groupdef.h" #include "util.h" #include "version.h" #include "language.h" #include "message.h" #include "vhdldocgen.h" #include "filename.h" #include "dirdef.h" #include "docparser.h" #include "htmlgen.h" #include "htmldocvisitor.h" #include "latexgen.h" #include "latexdocvisitor.h" #include "dot.h" #include "diagram.h" #include "example.h" #include "membername.h" #include "parserintf.h" #include "portable.h" #include "arguments.h" #include "groupdef.h" #include "searchindex.h" // TODO: pass the current file to Dot*::writeGraph, so the user can put dot graphs in other // files as well #define ADD_PROPERTY(name) addProperty(#name,this,&Private::name); enum ContextOutputFormat { ContextOutputFormat_Unspecified=0, ContextOutputFormat_Html, ContextOutputFormat_Latex, ContextOutputFormat_Rtf, ContextOutputFormat_ManPage, ContextOutputFormat_DocBook, ContextOutputFormat_Xml, ContextOutputFormat_TagFile }; struct ContextGlobals { int dynSectionId; QCString outputDir; ContextOutputFormat outputFormat; } g_globals; /** @brief Scoped smart pointer */ template class ScopedPtr { private: T *m_ptr; ScopedPtr(const ScopedPtr &); ScopedPtr &operator=(const ScopedPtr &); void operator==(const ScopedPtr &) const; void operator!=(const ScopedPtr &) const; public: typedef T Type; explicit ScopedPtr(T *p=0) : m_ptr(p) {} ~ScopedPtr() { delete m_ptr; }; T &operator*() const { return *m_ptr; } T *operator->() const { return m_ptr; } T *get() const { return m_ptr; } operator bool() const { return m_ptr!=0; } void reset(T *p=0) { if (p!=m_ptr) { delete m_ptr; m_ptr = p; } } }; /** @brief Reference counting smart pointer */ template class SharedPtr { private: T *m_ptr; SharedPtr(const SharedPtr &); SharedPtr &operator=(const SharedPtr &p); void operator==(const SharedPtr &) const; void operator!=(const SharedPtr &) const; public: typedef T Type; explicit SharedPtr(T *p=0) : m_ptr(p) { if (m_ptr) m_ptr->addRef(); } ~SharedPtr() { if (m_ptr) m_ptr->release(); }; T &operator*() const { return *m_ptr; } T *operator->() const { return m_ptr; } T *get() const { return m_ptr; } operator bool() const { return m_ptr!=0; } void reset(T *p=0) { if (p) p->addRef(); if (m_ptr) m_ptr->release(); m_ptr = p; } }; /** @brief Template List iterator support */ class GenericConstIterator : public TemplateListIntf::ConstIterator { public: GenericConstIterator(const QList &list) : m_it(list) { } virtual ~GenericConstIterator() {} void toFirst() { m_it.toFirst(); } void toLast() { m_it.toLast(); } void toNext() { if (m_it.current()) ++m_it; } void toPrev() { if (m_it.current()) --m_it; } bool current(TemplateVariant &v) const { if (m_it.current()) { v = *m_it.current(); return TRUE; } else { v = TemplateVariant(); return FALSE; } } private: QListIterator m_it; }; //------------------------------------------------------------------------ /** @brief standard template list implementation */ class GenericNodeListContext : public TemplateListIntf { public: GenericNodeListContext() : m_refCount(0) { m_children.setAutoDelete(TRUE); } static GenericNodeListContext *alloc() { return new GenericNodeListContext; } // TemplateListIntf methods int count() const { return (int)m_children.count(); } TemplateVariant at(int index) const { TemplateVariant result; if (index>=0 && index m_children; int m_refCount; }; //------------------------------------------------------------------------ /** @brief Helper class to map a property name to a handler member function */ class PropertyMapper { private: struct PropertyFuncIntf { virtual ~PropertyFuncIntf() {} virtual TemplateVariant operator()() const = 0; }; template struct PropertyFunc : public PropertyFuncIntf { typedef TemplateVariant (T::*Handler)() const; PropertyFunc(const T *o,Handler h) : obj(o), handler(h) {} TemplateVariant operator()() const { return (obj->*handler)(); } const T *obj; Handler handler; }; public: PropertyMapper() { m_map.setAutoDelete(TRUE); } /** Add a property to the map * @param[in] name The name of the property to add. * @param[in] obj The object handling access to the property. * @param[in] handle The method to call when the property is accessed. */ template void addProperty(const char *name,const T* obj, typename PropertyFunc::Handler handle) { if (m_map.find(name)) { err("Error: adding property '%s' more than once",name); } else { m_map.insert(name,new PropertyFunc(obj,handle)); } } /** Gets the value of a property. * @param[in] name The name of the property. * @returns A variant representing the properties value or an * invalid variant if it was not found. */ TemplateVariant get(const char *name) const { //printf("PropertyMapper::get(%s)\n",name); TemplateVariant result; PropertyFuncIntf *func = m_map.find(name); if (func) { result = (*func)(); } return result; } private: QDict m_map; }; //------------------------------------------------------------------------ //%% struct Config : configuration options //%% { class ConfigContext::Private { public: Private() { m_cachedLists.setAutoDelete(TRUE); } virtual ~Private() { } TemplateVariant fetchList(const QCString &name,const QStrList *list) { TemplateVariant *v = m_cachedLists.find(name); if (v==0) { TemplateList *tlist = TemplateList::alloc(); m_cachedLists.insert(name,new TemplateVariant(tlist)); QStrListIterator li(*list); char *s; for (li.toFirst();(s=li.current());++li) { tlist->append(s); } return tlist; } else { return *v; } } private: QDict m_cachedLists; }; //%% } ConfigContext::ConfigContext() : RefCountedContext("ConfigContext") { p = new Private; } ConfigContext::~ConfigContext() { delete p; } TemplateVariant ConfigContext::get(const char *name) const { TemplateVariant result; if (name) { ConfigOption *option = Config::instance()->get(name); if (option) { switch (option->kind()) { case ConfigOption::O_Bool: return TemplateVariant(*((ConfigBool*)option)->valueRef()); case ConfigOption::O_Int: return TemplateVariant(*((ConfigInt*)option)->valueRef()); case ConfigOption::O_Enum: return TemplateVariant(*((ConfigEnum*)option)->valueRef()); case ConfigOption::O_String: return TemplateVariant(*((ConfigString*)option)->valueRef()); case ConfigOption::O_List: return p->fetchList(name,((ConfigList*)option)->valueRef()); break; default: break; } } } return result; } //------------------------------------------------------------------------ //%% struct Doxygen: global information //%% { class DoxygenContext::Private : public PropertyMapper { public: TemplateVariant version() const { return versionString; } TemplateVariant date() const { return dateToString(TRUE); } TemplateVariant maxJaxCodeFile() const { return m_cache.maxJaxCodeFile; } Private() { //%% string version addProperty("version",this,&Private::version); //makeProperty(this,&Private::version)); //%% string date addProperty("date", this,&Private::date); //%% string maxJaxCodeFile addProperty("mathJaxCodeFile", this,&Private::maxJaxCodeFile); } private: struct Cachable { Cachable() { maxJaxCodeFile=fileToString(Config_getString("MATHJAX_CODEFILE")); } QCString maxJaxCodeFile; }; mutable Cachable m_cache; }; //%% } DoxygenContext::DoxygenContext() : RefCountedContext("DoxygenContext") { p = new Private; } DoxygenContext::~DoxygenContext() { delete p; } TemplateVariant DoxygenContext::get(const char *n) const { return p->get(n); } //------------------------------------------------------------------------ //%% struct Translator: translation methods //%% { class TranslateContext::Private : public PropertyMapper { public: TemplateVariant handleGeneratedAt(const QValueList &args) const { if (args.count()==2) { return theTranslator->trGeneratedAt(args[0].toString(),args[1].toString()); } else { err("tr.generateAt should take two arguments, got %d!\n",args.count()); } return TemplateVariant(); } TemplateVariant handleInheritanceDiagramFor(const QValueList &args) const { if (args.count()==1) { return theTranslator->trClassDiagram(args[0].toString()); } else { err("tr.inheritanceDiagramFor should take one argument, got %d!\n",args.count()); } return TemplateVariant(); } TemplateVariant handleCollaborationDiagramFor(const QValueList &args) const { if (args.count()==1) { return theTranslator->trCollaborationDiagram(args[0].toString()); } else { err("tr.collaborationDiagramFor should take one argument, got %d!\n",args.count()); } return TemplateVariant(); } TemplateVariant handleInheritsList(const QValueList &args) const { if (args.count()==1) { return theTranslator->trInheritsList(args[0].toInt()); } else { err("tr.inheritsList should take one integer argument, got %d!\n",args.count()); } return TemplateVariant(); } TemplateVariant handleInheritedByList(const QValueList &args) const { if (args.count()==1) { return theTranslator->trInheritedByList(args[0].toInt()); } else { err("tr.inheritedByList should take one integer argument, got %d!\n",args.count()); } return TemplateVariant(); } TemplateVariant handleWriteList(const QValueList &args) const { if (args.count()==1) { return theTranslator->trWriteList(args[0].toInt()); } else { err("tr.*List should take one integer argument, got %d!\n",args.count()); } return TemplateVariant(); } TemplateVariant handleImplementedBy(const QValueList &args) const { if (args.count()==1) { return theTranslator->trImplementedInList(args[0].toInt()); } else { err("tr.implementedBy should take one integer argument, got %d!\n",args.count()); } return TemplateVariant(); } TemplateVariant handleReimplementedBy(const QValueList &args) const { if (args.count()==1) { return theTranslator->trReimplementedInList(args[0].toInt()); } else { err("tr.reimplementedBy should take one integer argument, got %d!\n",args.count()); } return TemplateVariant(); } TemplateVariant handleSourceRefs(const QValueList &args) const { if (args.count()==1) { return theTranslator->trReferences()+" "+theTranslator->trWriteList(args[0].toInt())+"."; } else { err("tr.sourceRefs should take one integer argument, got %d\n",args.count()); } return TemplateVariant(); } TemplateVariant handleSourceRefBys(const QValueList &args) const { if (args.count()==1) { return theTranslator->trReferencedBy()+" "+theTranslator->trWriteList(args[0].toInt())+"."; } else { err("tr.sourceRefBys should take one integer argument, got %d\n",args.count()); } return TemplateVariant(); } TemplateVariant handleIncludeDependencyGraph(const QValueList &args) const { if (args.count()==1) { return theTranslator->trInclDepGraph(args[0].toString()); } else { err("tr.includeDependencyGraph should take one string argument, got %d\n",args.count()); } return TemplateVariant(); } TemplateVariant generatedBy() const { return theTranslator->trGeneratedBy(); } TemplateVariant generatedAt() const { return TemplateVariant::Delegate::fromMethod(this); } TemplateVariant inheritanceDiagramFor() const { return TemplateVariant::Delegate::fromMethod(this); } TemplateVariant collaborationDiagramFor() const { return TemplateVariant::Delegate::fromMethod(this); } TemplateVariant search() const { return theTranslator->trSearch(); } TemplateVariant mainPage() const { return theTranslator->trMainPage(); } TemplateVariant classes() const { return theTranslator->trClasses(); // TODO: VHDL: trVhdlType(VhdlDocGen::ENTITY,FALSE) // TODO: Fortran: trDataTypes() } TemplateVariant classList() const { return theTranslator->trCompoundList(); } TemplateVariant classListDescription() const { return theTranslator->trCompoundListDescription(); } TemplateVariant classIndex() const { return theTranslator->trCompoundIndex(); } TemplateVariant namespaceIndex() const { return theTranslator->trNamespaceIndex(); } TemplateVariant classHierarchy() const { return theTranslator->trClassHierarchy(); } TemplateVariant classMembers() const { return theTranslator->trCompoundMembers(); } TemplateVariant modules() const { return theTranslator->trModules(); } TemplateVariant moduleIndex() const { return theTranslator->trModuleIndex(); } TemplateVariant namespaces() const { if (m_javaOpt || m_vhdlOpt) { return theTranslator->trPackages(); } else if (m_fortranOpt) { return theTranslator->trModules(); } else { return theTranslator->trNamespaces(); } } TemplateVariant files() const { return theTranslator->trFile(TRUE,FALSE); } TemplateVariant fileIndex() const { return theTranslator->trFileIndex(); } TemplateVariant pages() const { return theTranslator->trRelatedPages(); } TemplateVariant examples() const { return theTranslator->trExamples(); } TemplateVariant namespaceList() const { if (m_javaOpt || m_vhdlOpt) { return theTranslator->trPackages(); } else if (m_fortranOpt) { return theTranslator->trModulesList(); } else { return theTranslator->trNamespaceList(); } } TemplateVariant namespaceMembers() const { if (m_javaOpt || m_vhdlOpt) { return theTranslator->trPackageMembers(); } else if (m_fortranOpt) { return theTranslator->trModulesMembers(); } else { return theTranslator->trNamespaceMembers(); } } TemplateVariant moduleDocumentation() const { return theTranslator->trModuleDocumentation(); } TemplateVariant fileDocumentation() const { return theTranslator->trFileDocumentation(); } TemplateVariant fileList() const { return theTranslator->trFileList(); } TemplateVariant fileMembers() const { return theTranslator->trFileMembers(); } TemplateVariant fileMembersDescription() const { static bool extractAll = Config_getBool("EXTRACT_ALL"); return theTranslator->trFileMembersDescription(extractAll); } TemplateVariant namespaceMembersDescription() const { static bool extractAll = Config_getBool("EXTRACT_ALL"); return theTranslator->trNamespaceMemberDescription(extractAll); } TemplateVariant classHierarchyDescription() const { return theTranslator->trClassHierarchyDescription(); } TemplateVariant gotoGraphicalHierarchy() const { return theTranslator->trGotoGraphicalHierarchy(); } TemplateVariant gotoTextualHierarchy() const { return theTranslator->trGotoTextualHierarchy(); } TemplateVariant classMembersDescription() const { static bool extractAll = Config_getBool("EXTRACT_ALL"); static bool fortranOpt = Config_getBool("OPTIMIZE_FOR_FORTRAN"); if (fortranOpt) { return theTranslator->trCompoundMembersDescriptionFortran(extractAll); } else { return theTranslator->trCompoundMembersDescription(extractAll); } } TemplateVariant relatedPagesDesc() const { return theTranslator->trRelatedPagesDescription(); } TemplateVariant more() const { return theTranslator->trMore(); } TemplateVariant detailedDesc() const { return theTranslator->trDetailedDescription(); } TemplateVariant inheritsList() const { return TemplateVariant::Delegate::fromMethod(this); } TemplateVariant inheritedByList() const { return TemplateVariant::Delegate::fromMethod(this); } TemplateVariant definedAtLineInSourceFile() const { return theTranslator->trDefinedAtLineInSourceFile(); } TemplateVariant typeConstraints() const { return theTranslator->trTypeConstraints(); } TemplateVariant exampleList() const { return TemplateVariant::Delegate::fromMethod(this); } TemplateVariant listOfAllMembers() const { return theTranslator->trListOfAllMembers(); } TemplateVariant memberList() const { return theTranslator->trMemberList(); } TemplateVariant theListOfAllMembers() const { return theTranslator->trThisIsTheListOfAllMembers(); } TemplateVariant incInheritedMembers() const { return theTranslator->trIncludingInheritedMembers(); } TemplateVariant defineValue() const { return theTranslator->trDefineValue(); } TemplateVariant initialValue() const { return theTranslator->trInitialValue(); } TemplateVariant enumerationValues() const { return theTranslator->trEnumerationValues(); } TemplateVariant implements() const { return theTranslator->trImplementedFromList(1); } TemplateVariant reimplements() const { return theTranslator->trReimplementedFromList(1); } TemplateVariant implementedBy() const { return TemplateVariant::Delegate::fromMethod(this); } TemplateVariant reimplementedBy() const { return TemplateVariant::Delegate::fromMethod(this); } TemplateVariant sourceRefs() const { return TemplateVariant::Delegate::fromMethod(this); } TemplateVariant sourceRefBys() const { return TemplateVariant::Delegate::fromMethod(this); } TemplateVariant callGraph() const { return theTranslator->trCallGraph(); } TemplateVariant callerGraph() const { return theTranslator->trCallerGraph(); } TemplateVariant inheritedFrom() const { return theTranslator->trInheritedFrom("@0","@1"); } TemplateVariant additionalInheritedMembers() const { return theTranslator->trAdditionalInheritedMembers(); } TemplateVariant includeDependencyGraph() const { return TemplateVariant::Delegate::fromMethod(this); } TemplateVariant includedByDependencyGraph() const { return theTranslator->trInclByDepGraph(); } TemplateVariant gotoSourceCode() const { return theTranslator->trGotoSourceCode(); } TemplateVariant gotoDocumentation() const { return theTranslator->trGotoDocumentation(); } TemplateVariant constantgroups() const { return theTranslator->trConstantGroups(); } TemplateVariant classDocumentation() const { return theTranslator->trClassDocumentation(); } TemplateVariant namespaceDocumentation() const { return theTranslator->trNamespaceDocumentation(); } TemplateVariant compoundMembers() const { return theTranslator->trCompoundMembers(); } TemplateVariant detailLevel() const { return theTranslator->trDetailLevel(); } TemplateVariant fileListDescription() const { bool extractAll = Config_getBool("EXTRACT_ALL"); return theTranslator->trFileListDescription(extractAll); } TemplateVariant modulesDescription() const { bool extractAll = Config_getBool("EXTRACT_ALL"); return theTranslator->trModulesListDescription(extractAll); } TemplateVariant namespaceListDescription() const { bool extractAll = Config_getBool("EXTRACT_ALL"); return theTranslator->trNamespaceListDescription(extractAll); } TemplateVariant directories() const { return theTranslator->trDirectories(); } TemplateVariant all() const { return theTranslator->trAll(); } TemplateVariant functions() const { static bool fortranOpt = Config_getBool("OPTIMIZE_FOR_FORTRAN"); static bool vhdlOpt = Config_getBool("OPTIMIZE_OUTPUT_VHDL"); return fortranOpt ? theTranslator->trSubprograms() : vhdlOpt ? VhdlDocGen::trFunctionAndProc() : theTranslator->trFunctions(); } TemplateVariant variables() const { return theTranslator->trVariables(); } TemplateVariant typedefs() const { return theTranslator->trTypedefs(); } TemplateVariant enums() const { return theTranslator->trEnumerations(); } TemplateVariant properties() const { return theTranslator->trProperties(); } TemplateVariant events() const { return theTranslator->trEvents(); } TemplateVariant related() const { return theTranslator->trRelatedFunctions(); } TemplateVariant macros() const { return theTranslator->trDefines(); } TemplateVariant loading() const { return theTranslator->trLoading(); } TemplateVariant searching() const { return theTranslator->trSearching(); } TemplateVariant noMatches() const { return theTranslator->trNoMatches(); } TemplateVariant enumName() const { return theTranslator->trEnumName(); } TemplateVariant enumValue() const { return theTranslator->trEnumValue(); } TemplateVariant referenceManual() const { return theTranslator->trReferenceManual(); } TemplateVariant index() const { return theTranslator->trRTFGeneralIndex(); } TemplateVariant panelSyncOn() const { return theTranslator->trPanelSynchronisationTooltip(FALSE); } TemplateVariant panelSyncOff() const { return theTranslator->trPanelSynchronisationTooltip(TRUE); } Private() { //%% string generatedBy addProperty("generatedBy", this,&Private::generatedBy); //%% string generatedAt addProperty("generatedAt", this,&Private::generatedAt); //%% string search addProperty("search", this,&Private::search); //%% string mainPage addProperty("mainPage", this,&Private::mainPage); //%% string classes addProperty("classes", this,&Private::classes); //%% string classList addProperty("classList", this,&Private::classList); //%% string classListDescription addProperty("classListDescription", this,&Private::classListDescription); //%% string classIndex addProperty("classIndex", this,&Private::classIndex); //%% string namespaceIndex addProperty("namespaceIndex", this,&Private::namespaceIndex); //%% string classHierarchy addProperty("classHierarchy", this,&Private::classHierarchy); //%% string classMembers addProperty("classMembers", this,&Private::classMembers); //%% string classMembersDescription addProperty("classMembersDescription",this,&Private::classMembersDescription); //%% string modules addProperty("modules", this,&Private::modules); //%% string moduleIndex addProperty("moduleIndex", this,&Private::moduleIndex); //%% string namespaces addProperty("namespaces", this,&Private::namespaces); //%% string fileIndex addProperty("fileIndex", this,&Private::fileIndex); //%% string files addProperty("files", this,&Private::files); //%% string pages addProperty("pages", this,&Private::pages); //%% string examples addProperty("examples", this,&Private::examples); //%% string namespaceList addProperty("namespaceList", this,&Private::namespaceList); //%% string namespaceMembers addProperty("namespaceMembers", this,&Private::namespaceMembers); //%% srting fileList addProperty("fileList", this,&Private::fileList); //%% string fileMembers addProperty("fileMembers", this,&Private::fileMembers); //%% string fileMembersDescription addProperty("fileMembersDescription", this,&Private::fileMembersDescription); //%% string relatedPagesDescripiton addProperty("relatedPagesDesc", this,&Private::relatedPagesDesc); //%% string more addProperty("more", this,&Private::more); //%% string detailedDescription addProperty("detailedDesc", this,&Private::detailedDesc); //%% string inheritanceDiagramFor addProperty("inheritanceDiagramFor", this,&Private::inheritanceDiagramFor); //%% string collaborationDiagramFor addProperty("collaborationDiagramFor", this,&Private::collaborationDiagramFor); //%% markerstring inheritsList addProperty("inheritsList", this,&Private::inheritsList); //%% markerstring inheritedByList addProperty("inheritedByList", this,&Private::inheritedByList); //%% markerstring definedAtLineInSourceFile addProperty("definedAtLineInSourceFile", this,&Private::definedAtLineInSourceFile); //%% string typeConstraints addProperty("typeConstraints", this,&Private::typeConstraints); //%% string exampleList addProperty("exampleList", this,&Private::exampleList); //%% string listOfAllMembers addProperty("listOfAllMembers", this,&Private::listOfAllMembers); //%% string memberList addProperty("memberList", this,&Private::memberList); //%% string theListOfAllMembers addProperty("theListOfAllMembers",this,&Private::theListOfAllMembers); //%% string incInheritedMembers addProperty("incInheritedMembers",this,&Private::incInheritedMembers); //%% string defineValue addProperty("defineValue", this,&Private::defineValue); //%% string initialValue addProperty("initialValue", this,&Private::initialValue); //%% markerstring implements addProperty("implements", this,&Private::implements); //%% markerstring reimplements addProperty("reimplements", this,&Private::reimplements); //%% markerstring implementedBy addProperty("implementedBy", this,&Private::implementedBy); //%% markerstring reimplementedBy addProperty("reimplementedBy", this,&Private::reimplementedBy); //%% markerstring sourceRefs addProperty("sourceRefs", this,&Private::sourceRefs); //%% markerstring sourceRefBys addProperty("sourceRefBys", this,&Private::sourceRefBys); //%% string callGraph addProperty("callGraph", this,&Private::callGraph); //%% string callerGraph addProperty("callerGraph", this,&Private::callerGraph); //%% markerstring inheritedFrom addProperty("inheritedFrom", this,&Private::inheritedFrom); //%% string addtionalInheritedMembers addProperty("additionalInheritedMembers",this,&Private::additionalInheritedMembers); //%% string includeDependencyGraph:container_name addProperty("includeDependencyGraph",this,&Private::includeDependencyGraph); //%% string includedByDependencyGraph addProperty("includedByDependencyGraph",this,&Private::includedByDependencyGraph); //%% string gotoSourceCode addProperty("gotoSourceCode", this,&Private::gotoSourceCode); //%% string gotoDocumentation addProperty("gotoDocumentation", this,&Private::gotoDocumentation); //%% string constantgroups addProperty("constantgroups", this,&Private::constantgroups); //%% string classDocumentation addProperty("classDocumentation", this,&Private::classDocumentation); //%% string namespaceDocumentation addProperty("namespaceDocumentation", this,&Private::namespaceDocumentation); //%% string moduleDocumentation addProperty("moduleDocumentation",this,&Private::moduleDocumentation); //%% string fileDocumentation addProperty("fileDocumentation", this,&Private::fileDocumentation); //%% string compoundMembers addProperty("compoundMembers", this,&Private::compoundMembers); //%% string detailLevel addProperty("detailLevel", this,&Private::detailLevel); //%% string fileListDescription addProperty("fileListDescription",this,&Private::fileListDescription); //%% string namespaceListDescription addProperty("namespaceListDescription",this,&Private::namespaceListDescription); //%% string directories addProperty("directories", this,&Private::directories); //%% string moduleDescription addProperty("modulesDescription", this,&Private::modulesDescription); //%% string all addProperty("all", this,&Private::all); //%% string functions addProperty("functions", this,&Private::functions); //%% string variables addProperty("variables", this,&Private::variables); //%% string typedefs addProperty("typedefs", this,&Private::typedefs); //%% string enums addProperty("enums", this,&Private::enums); //%% string enumValues addProperty("enumValues", this,&Private::enumerationValues); //%% string properties addProperty("properties", this,&Private::properties); //%% string events addProperty("events", this,&Private::events); //%% string related addProperty("related", this,&Private::related); //%% string macros addProperty("macros", this,&Private::macros); //%% string namespaceMembersDescription addProperty("namespaceMembersDescription",this,&Private::namespaceMembersDescription); //%% string classHierarchyDescription addProperty("classHierarchyDescription",this,&Private::classHierarchyDescription); //%% string gotoGraphicalHierarchy addProperty("gotoGraphicalHierarchy",this,&Private::gotoGraphicalHierarchy); //%% string gotoTextualHierarchy addProperty("gotoTextualHierarchy",this,&Private::gotoTextualHierarchy); //%% string loading addProperty("loading", this,&Private::loading); //%% string searching addProperty("searching", this,&Private::searching); //%% string noMatches addProperty("noMatches", this,&Private::noMatches); //%% string enumValue addProperty("enumValue", this,&Private::enumValue); //%% string enumName addProperty("enumName", this,&Private::enumName); //%% string referenceManual addProperty("referenceManual", this,&Private::referenceManual); //%% string index addProperty("index", this,&Private::index); //%% string panelSyncOn addProperty("panelSyncOn", this,&Private::panelSyncOn); //%% string panelSyncOff addProperty("panelSyncOff", this,&Private::panelSyncOff); m_javaOpt = Config_getBool("OPTIMIZE_OUTPUT_JAVA"); m_fortranOpt = Config_getBool("OPTIMIZE_FOR_FORTRAN"); m_vhdlOpt = Config_getBool("OPTIMIZE_OUTPUT_VHDL"); } private: bool m_javaOpt; bool m_fortranOpt; bool m_vhdlOpt; }; //%% } TranslateContext::TranslateContext() : RefCountedContext("TranslateContext") { p = new Private; } TranslateContext::~TranslateContext() { delete p; } TemplateVariant TranslateContext::get(const char *n) const { return p->get(n); } static TemplateVariant parseDoc(Definition *def,const QCString &file,int line, const QCString &relPath,const QCString &docStr,bool isBrief) { TemplateVariant result; DocRoot *root = validatingParseDoc(file,line,def,0,docStr,TRUE,FALSE,0,isBrief,FALSE); QGString docs; { FTextStream ts(&docs); switch (g_globals.outputFormat) { case ContextOutputFormat_Html: { HtmlCodeGenerator codeGen(ts,relPath); HtmlDocVisitor visitor(ts,codeGen,def); root->accept(&visitor); } break; case ContextOutputFormat_Latex: { LatexCodeGenerator codeGen(ts,relPath,file); LatexDocVisitor visitor(ts,codeGen,def->getDefFileExtension(),FALSE); root->accept(&visitor); } break; // TODO: support other generators default: err("context.cpp: output format not yet supported"); break; } } bool isEmpty = root->isEmpty(); if (isEmpty) result = ""; else result = TemplateVariant(docs,TRUE); delete root; return result; } static TemplateVariant parseCode(MemberDef *md,const QCString &scopeName,const QCString &relPath, const QCString &code,int startLine=-1,int endLine=-1,bool showLineNumbers=FALSE) { ParserInterface *pIntf = Doxygen::parserManager->getParser(md->getDefFileExtension()); pIntf->resetCodeParserState(); QGString s; FTextStream t(&s); switch (g_globals.outputFormat) { case ContextOutputFormat_Html: { HtmlCodeGenerator codeGen(t,relPath); pIntf->parseCode(codeGen,scopeName,code,md->getLanguage(),FALSE,0,md->getBodyDef(), startLine,endLine,TRUE,md,showLineNumbers,md); } break; case ContextOutputFormat_Latex: { LatexCodeGenerator codeGen(t,relPath,md->docFile()); pIntf->parseCode(codeGen,scopeName,code,md->getLanguage(),FALSE,0,md->getBodyDef(), startLine,endLine,TRUE,md,showLineNumbers,md); } break; // TODO: support other generators default: err("context.cpp: output format not yet supported"); break; } return TemplateVariant(s.data(),TRUE); } static TemplateVariant parseCode(FileDef *fd,const QCString &relPath) { static bool filterSourceFiles = Config_getBool("FILTER_SOURCE_FILES"); ParserInterface *pIntf = Doxygen::parserManager->getParser(fd->getDefFileExtension()); pIntf->resetCodeParserState(); QGString s; FTextStream t(&s); switch (g_globals.outputFormat) { case ContextOutputFormat_Html: { HtmlCodeGenerator codeGen(t,relPath); pIntf->parseCode(codeGen,0, fileToString(fd->absFilePath(),filterSourceFiles,TRUE), // the sources fd->getLanguage(), // lang FALSE, // isExampleBlock 0, // exampleName fd, // fileDef -1, // startLine -1, // endLine FALSE, // inlineFragment 0, // memberDef TRUE, // showLineNumbers 0, // searchCtx TRUE // collectXRefs, TODO: should become FALSE ); } break; case ContextOutputFormat_Latex: { LatexCodeGenerator codeGen(t,relPath,fd->docFile()); pIntf->parseCode(codeGen,0, fileToString(fd->absFilePath(),filterSourceFiles,TRUE), // the sources fd->getLanguage(), // lang FALSE, // isExampleBlock 0, // exampleName fd, // fileDef -1, // startLine -1, // endLine FALSE, // inlineFragment 0, // memberDef TRUE, // showLineNumbers 0, // searchCtx TRUE // collectXRefs, TODO: should become FALSE ); } break; // TODO: support other generators default: err("context.cpp: output format not yet supported"); break; } return TemplateVariant(s.data(),TRUE); } //------------------------------------------------------------------------ //%% struct Symbol: shared info for all symbols //%% { template class DefinitionContext : public PropertyMapper { public: DefinitionContext(Definition *d) : m_def(d) { assert(d!=0); //%% string name: the name of the symbol addProperty("name",this,&DefinitionContext::name); //%% string bareName: the bare name of the symbol with scope info addProperty("bareName",this,&DefinitionContext::bareName); //%% string relPath: the relative path to the root of the output (CREATE_SUBDIRS) addProperty("relPath",this,&DefinitionContext::relPath); //%% string fileName: the file name of the output file associated with the symbol (without extension) addProperty("fileName",this,&DefinitionContext::fileName); //%% string anchor: anchor within the page addProperty("anchor",this,&DefinitionContext::anchor); //%% string details: the detailed documentation for this symbol addProperty("details",this,&DefinitionContext::details); //%% string brief: the brief description for this symbol addProperty("brief",this,&DefinitionContext::brief); //%% string inbodyDocs: the documentation found in the body addProperty("inbodyDocs",this,&DefinitionContext::inbodyDocs); //%% string sourceFileName: the file name of the source file (without extension) addProperty("sourceFileName",this,&DefinitionContext::sourceFileName); //%% bool isLinkable: can the symbol be linked to? addProperty("isLinkable",this,&DefinitionContext::isLinkable); //%% bool isLinkableInProject: can the symbol be linked within this project? addProperty("isLinkableInProject",this,&DefinitionContext::isLinkableInProject); //%% int dynSectionId: identifier that can be used for collapsable sections addProperty("dynSectionId",this,&DefinitionContext::dynSectionId); //%% string language: the programming language in which the symbol is written addProperty("language",this,&DefinitionContext::language); //%% string sourceDef: A link to the source definition addProperty("sourceDef",this,&DefinitionContext::sourceDef); //%% list[Definition] navigationPath: Breadcrumb navigation path to this item addProperty("navigationPath",this,&DefinitionContext::navigationPath); m_cache.sourceDef.reset(TemplateList::alloc()); m_cache.lineLink.reset(TemplateStruct::alloc()); m_cache.fileLink.reset(TemplateStruct::alloc()); if (m_def && !m_def->getSourceFileBase().isEmpty()) { m_cache.lineLink->set("text",m_def->getStartBodyLine()); m_cache.lineLink->set("isLinkable",TRUE); m_cache.lineLink->set("fileName",m_def->getSourceFileBase()); m_cache.lineLink->set("anchor",m_def->getSourceAnchor()); if (m_def->definitionType()==Definition::TypeFile) { m_cache.fileLink->set("text",m_def->name()); } else if (m_def->getBodyDef()) { m_cache.fileLink->set("text",m_def->getBodyDef()->name()); } else { m_cache.fileLink->set("text",name()); } m_cache.fileLink->set("isLinkable",TRUE); m_cache.fileLink->set("fileName",m_def->getSourceFileBase()); m_cache.fileLink->set("anchor",QCString()); m_cache.sourceDef->append(m_cache.lineLink.get()); m_cache.sourceDef->append(m_cache.fileLink.get()); } } TemplateVariant fileName() const { return m_def->getOutputFileBase(); } TemplateVariant anchor() const { return m_def->anchor(); } TemplateVariant sourceFileName() const { return m_def->getSourceFileBase(); } TemplateVariant isLinkable() const { return m_def->isLinkable(); } TemplateVariant isLinkableInProject() const { return m_def->isLinkableInProject(); } TemplateVariant name() const { return m_def->displayName(TRUE); } TemplateVariant bareName() const { return m_def->displayName(FALSE); } QCString relPathAsString() const { static bool createSubdirs = Config_getBool("CREATE_SUBDIRS"); return createSubdirs ? QCString("../../") : QCString(""); } virtual TemplateVariant relPath() const { return relPathAsString(); } TemplateVariant details() const { if (!m_cache.details || g_globals.outputFormat!=m_cache.detailsOutputFormat) { m_cache.details.reset(new TemplateVariant(parseDoc(m_def,m_def->docFile(),m_def->docLine(), relPathAsString(),m_def->documentation(),FALSE))); m_cache.detailsOutputFormat = g_globals.outputFormat; } return *m_cache.details; } TemplateVariant brief() const { if (!m_cache.brief || g_globals.outputFormat!=m_cache.briefOutputFormat) { if (m_def->hasBriefDescription()) { m_cache.brief.reset(new TemplateVariant(parseDoc(m_def,m_def->briefFile(),m_def->briefLine(), relPathAsString(),m_def->briefDescription(),TRUE))); m_cache.briefOutputFormat = g_globals.outputFormat; } else { m_cache.brief.reset(new TemplateVariant("")); } } return *m_cache.brief; } TemplateVariant inbodyDocs() const { if (!m_cache.inbodyDocs || g_globals.outputFormat!=m_cache.inbodyDocsOutputFormat) { if (!m_def->inbodyDocumentation().isEmpty()) { m_cache.inbodyDocs.reset(new TemplateVariant(parseDoc(m_def,m_def->inbodyFile(),m_def->inbodyLine(), relPathAsString(),m_def->inbodyDocumentation(),FALSE))); m_cache.inbodyDocsOutputFormat = g_globals.outputFormat; } else { m_cache.inbodyDocs.reset(new TemplateVariant("")); } } return *m_cache.inbodyDocs; } TemplateVariant dynSectionId() const { return g_globals.dynSectionId; } TemplateVariant language() const { SrcLangExt lang = m_def->getLanguage(); QCString result = "unknown"; switch (lang) { case SrcLangExt_Unknown: break; case SrcLangExt_IDL: result="idl"; break; case SrcLangExt_Java: result="java"; break; case SrcLangExt_CSharp: result="csharp"; break; case SrcLangExt_D: result="d"; break; case SrcLangExt_PHP: result="php"; break; case SrcLangExt_ObjC: result="objc"; break; case SrcLangExt_Cpp: result="cpp"; break; case SrcLangExt_JS: result="js"; break; case SrcLangExt_Python: result="python"; break; case SrcLangExt_Fortran: result="fortran"; break; case SrcLangExt_VHDL: result="vhdl"; break; case SrcLangExt_XML: result="xml"; break; case SrcLangExt_Tcl: result="tcl"; break; case SrcLangExt_Markdown: result="markdown"; break; } return result; } TemplateVariant sourceDef() const { if (m_cache.sourceDef->count()==2) { return m_cache.sourceDef.get(); } else { return FALSE; } } void fillPath(Definition *def,TemplateList *list) const { Definition *outerScope = def->getOuterScope(); Definition::DefType type = def->definitionType(); if (outerScope && outerScope!=Doxygen::globalScope) { fillPath(outerScope,list); } else if (type==Definition::TypeFile && ((const FileDef*)def)->getDirDef()) { fillPath(((const FileDef*)def)->getDirDef(),list); } list->append(NavPathElemContext::alloc(def)); } TemplateVariant navigationPath() const { if (!m_cache.navPath) { TemplateList *list = TemplateList::alloc(); if (m_def->getOuterScope() && m_def->getOuterScope()!=Doxygen::globalScope) { fillPath(m_def->getOuterScope(),list); } else if (m_def->definitionType()==Definition::TypeFile && ((const FileDef *)m_def)->getDirDef()) { fillPath(((const FileDef *)m_def)->getDirDef(),list); } m_cache.navPath.reset(list); } return m_cache.navPath.get(); } private: Definition *m_def; struct Cachable { Cachable() { } ScopedPtr details; ContextOutputFormat detailsOutputFormat; ScopedPtr brief; ContextOutputFormat briefOutputFormat; ScopedPtr inbodyDocs; ContextOutputFormat inbodyDocsOutputFormat; SharedPtr navPath; SharedPtr sourceDef; SharedPtr fileLink; SharedPtr lineLink; }; mutable Cachable m_cache; }; //%% } //------------------------------------------------------------------------ //%% struct IncludeInfo: include file information //%% { class IncludeInfoContext::Private : public PropertyMapper { public: Private(const IncludeInfo *info,SrcLangExt lang) : m_info(info), m_lang(lang) { if (m_info) { addProperty("file",this,&Private::file); addProperty("name",this,&Private::name); addProperty("isImport",this,&Private::isImport); addProperty("isLocal",this,&Private::isLocal); } } TemplateVariant isLocal() const { bool isIDLorJava = m_lang==SrcLangExt_IDL || m_lang==SrcLangExt_Java; return m_info->local || isIDLorJava; } TemplateVariant isImport() const { return m_info->imported; } TemplateVariant file() const { if (!m_fileContext && m_info && m_info->fileDef) { m_fileContext.reset(FileContext::alloc(m_info->fileDef)); } if (m_fileContext) { return m_fileContext.get(); } else { return FALSE; } } TemplateVariant name() const { return m_info->includeName; } private: const IncludeInfo *m_info; mutable SharedPtr m_fileContext; SrcLangExt m_lang; }; IncludeInfoContext::IncludeInfoContext(const IncludeInfo *info,SrcLangExt lang) : RefCountedContext("IncludeContext") { p = new Private(info,lang); } IncludeInfoContext::~IncludeInfoContext() { delete p; } TemplateVariant IncludeInfoContext::get(const char *n) const { return p->get(n); } //%% } //------------------------------------------------------------------------ //%% list IncludeInfoList[Class] : list of nested classes class IncludeInfoListContext::Private : public GenericNodeListContext { public: Private(const QList &list,SrcLangExt lang) { QListIterator li(list); IncludeInfo *ii; for (li.toFirst();(ii=li.current());++li) { if (!ii->indirect) { append(IncludeInfoContext::alloc(ii,lang)); } } } }; IncludeInfoListContext::IncludeInfoListContext(const QList &list,SrcLangExt lang) : RefCountedContext("IncludeListContext") { p = new Private(list,lang); } IncludeInfoListContext::~IncludeInfoListContext() { delete p; } // TemplateListIntf int IncludeInfoListContext::count() const { return p->count(); } TemplateVariant IncludeInfoListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *IncludeInfoListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% struct Class(Symbol): class information //%% { class ClassContext::Private : public DefinitionContext { public: Private(ClassDef *cd) : DefinitionContext(cd), m_classDef(cd) { addProperty("title", this,&Private::title); addProperty("highlight", this,&Private::highlight); addProperty("subhighlight", this,&Private::subHighlight); addProperty("hasDetails", this,&Private::hasDetails); addProperty("generatedFromFiles", this,&Private::generatedFromFiles); addProperty("usedFiles", this,&Private::usedFiles); addProperty("hasInheritanceDiagram", this,&Private::hasInheritanceDiagram); addProperty("inheritanceDiagram", this,&Private::inheritanceDiagram); addProperty("hasCollaborationDiagram", this,&Private::hasCollaborationDiagram); addProperty("collaborationDiagram", this,&Private::collaborationDiagram); addProperty("includeInfo", this,&Private::includeInfo); addProperty("inherits", this,&Private::inherits); addProperty("inheritedBy", this,&Private::inheritedBy); addProperty("unoIDLServices", this,&Private::unoIDLServices); addProperty("unoIDLInterfaces", this,&Private::unoIDLInterfaces); addProperty("signals", this,&Private::signals); addProperty("publicTypes", this,&Private::publicTypes); addProperty("publicMethods", this,&Private::publicMethods); addProperty("publicStaticMethods", this,&Private::publicStaticMethods); addProperty("publicAttributes", this,&Private::publicAttributes); addProperty("publicStaticAttributes", this,&Private::publicStaticAttributes); addProperty("publicSlots", this,&Private::publicSlots); addProperty("protectedTypes", this,&Private::protectedTypes); addProperty("protectedMethods", this,&Private::protectedMethods); addProperty("protectedStaticMethods", this,&Private::protectedStaticMethods); addProperty("protectedAttributes", this,&Private::protectedAttributes); addProperty("protectedStaticAttributes", this,&Private::protectedStaticAttributes); addProperty("protectedSlots", this,&Private::protectedSlots); addProperty("privateTypes", this,&Private::privateTypes); addProperty("privateMethods", this,&Private::privateMethods); addProperty("privateStaticMethods", this,&Private::privateStaticMethods); addProperty("privateAttributes", this,&Private::privateAttributes); addProperty("privateStaticAttributes", this,&Private::privateStaticAttributes); addProperty("privateSlots", this,&Private::privateSlots); addProperty("packageTypes", this,&Private::packageTypes); addProperty("packageMethods", this,&Private::packageMethods); addProperty("packageStaticMethods", this,&Private::packageStaticMethods); addProperty("packageAttributes", this,&Private::packageAttributes); addProperty("packageStaticAttributes", this,&Private::packageStaticAttributes); addProperty("properties", this,&Private::properties); addProperty("events", this,&Private::events); addProperty("friends", this,&Private::friends); addProperty("related", this,&Private::related); addProperty("detailedTypedefs", this,&Private::detailedTypedefs); addProperty("detailedEnums", this,&Private::detailedEnums); addProperty("detailedServices", this,&Private::detailedServices); addProperty("detailedInterfaces", this,&Private::detailedInterfaces); addProperty("detailedConstructors", this,&Private::detailedConstructors); addProperty("detailedMethods", this,&Private::detailedMethods); addProperty("detailedRelated", this,&Private::detailedRelated); addProperty("detailedVariables", this,&Private::detailedVariables); addProperty("detailedProperties", this,&Private::detailedProperties); addProperty("detailedEvents", this,&Private::detailedEvents); addProperty("classes", this,&Private::classes); addProperty("compoundType", this,&Private::compoundType); addProperty("templateDecls", this,&Private::templateDecls); addProperty("typeConstraints", this,&Private::typeConstraints); addProperty("examples", this,&Private::examples); addProperty("members", this,&Private::members); addProperty("allMembersList", this,&Private::allMembersList); addProperty("allMembersFileName", this,&Private::allMembersFileName); addProperty("memberGroups", this,&Private::memberGroups); addProperty("additionalInheritedMembers",this,&Private::additionalInheritedMembers); } virtual ~Private() {} TemplateVariant title() const { return TemplateVariant(m_classDef->title()); } TemplateVariant highlight() const { return TemplateVariant("classes"); } TemplateVariant subHighlight() const { return TemplateVariant(""); } TemplateVariant hasDetails() const { return m_classDef->hasDetailedDescription(); } TemplateVariant generatedFromFiles() const { return m_classDef->generatedFromFiles(); } TemplateVariant usedFiles() const { if (!m_cache.usedFiles) { m_cache.usedFiles.reset(UsedFilesContext::alloc(m_classDef)); } return m_cache.usedFiles.get(); } DotClassGraph *getClassGraph() const { if (!m_cache.classGraph) { m_cache.classGraph.reset(new DotClassGraph(m_classDef,DotNode::Inheritance)); } return m_cache.classGraph.get(); } int numInheritanceNodes() const { if (m_cache.inheritanceNodes==-1) { m_cache.inheritanceNodes=m_classDef->countInheritanceNodes(); } return m_cache.inheritanceNodes>0; } TemplateVariant hasInheritanceDiagram() const { bool result=FALSE; static bool haveDot = Config_getBool("HAVE_DOT"); static bool classDiagrams = Config_getBool("CLASS_DIAGRAMS"); static bool classGraph = Config_getBool("CLASS_GRAPH"); if (haveDot && (classDiagrams || classGraph)) { DotClassGraph *cg = getClassGraph(); result = !cg->isTrivial() && !cg->isTooBig(); } else if (classDiagrams) { result = numInheritanceNodes()>0; } return result; } TemplateVariant inheritanceDiagram() const { QGString result; static bool haveDot = Config_getBool("HAVE_DOT"); static bool classDiagrams = Config_getBool("CLASS_DIAGRAMS"); static bool classGraph = Config_getBool("CLASS_GRAPH"); if (haveDot && (classDiagrams || classGraph)) { DotClassGraph *cg = getClassGraph(); FTextStream t(&result); switch (g_globals.outputFormat) { case ContextOutputFormat_Html: { cg->writeGraph(t,GOF_BITMAP,EOF_Html, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_classDef->getOutputFileBase()+Doxygen::htmlFileExtension, relPathAsString(),TRUE,TRUE,g_globals.dynSectionId ); } break; case ContextOutputFormat_Latex: { cg->writeGraph(t,GOF_EPS,EOF_LaTeX, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_classDef->getOutputFileBase()+".tex", relPathAsString(),TRUE,TRUE,g_globals.dynSectionId ); } break; // TODO: support other generators default: err("context.cpp: output format not yet supported"); break; } } else if (classDiagrams) { ClassDiagram d(m_classDef); FTextStream t(&result); switch (g_globals.outputFormat) { case ContextOutputFormat_Html: { QCString name = convertToHtml(m_classDef->displayName()); t << "
" << endl; t << "getOutputFileBase(); t << ".png\" usemap=\"#" << name << "_map\" alt=\"\"/>" << endl; t << "" << endl; d.writeImage(t,g_globals.outputDir, relPathAsString(), m_classDef->getOutputFileBase()); t << "
"; } break; case ContextOutputFormat_Latex: { d.writeFigure(t,g_globals.outputDir,m_classDef->getOutputFileBase()); } break; // TODO: support other generators default: err("context.cpp: output format not yet supported"); break; } } g_globals.dynSectionId++; return TemplateVariant(result.data(),TRUE); } DotClassGraph *getCollaborationGraph() const { if (!m_cache.collaborationGraph) { m_cache.collaborationGraph.reset(new DotClassGraph(m_classDef,DotNode::Collaboration)); } return m_cache.collaborationGraph.get(); } TemplateVariant hasCollaborationDiagram() const { static bool haveDot = Config_getBool("HAVE_DOT"); return haveDot && !getCollaborationGraph()->isTrivial(); } TemplateVariant collaborationDiagram() const { static bool haveDot = Config_getBool("HAVE_DOT"); QGString result; if (haveDot) { DotClassGraph *cg = getCollaborationGraph(); FTextStream t(&result); switch (g_globals.outputFormat) { case ContextOutputFormat_Html: { cg->writeGraph(t,GOF_BITMAP,EOF_Html, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_classDef->getOutputFileBase()+Doxygen::htmlFileExtension, relPathAsString(),TRUE,TRUE,g_globals.dynSectionId ); } break; case ContextOutputFormat_Latex: { cg->writeGraph(t,GOF_EPS,EOF_LaTeX, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_classDef->getOutputFileBase()+".tex", relPathAsString(),TRUE,TRUE,g_globals.dynSectionId ); } break; // TODO: support other generators default: err("context.cpp: output format not yet supported"); break; } } g_globals.dynSectionId++; return TemplateVariant(result.data(),TRUE); } TemplateVariant includeInfo() const { if (!m_cache.includeInfo && m_classDef->includeInfo()) { m_cache.includeInfo.reset(IncludeInfoContext::alloc(m_classDef->includeInfo(),m_classDef->getLanguage())); } if (m_cache.includeInfo) { return m_cache.includeInfo.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant inherits() const { if (!m_cache.inheritsList) { m_cache.inheritsList.reset(InheritanceListContext::alloc(m_classDef->baseClasses(),TRUE)); } return m_cache.inheritsList.get(); } TemplateVariant inheritedBy() const { if (!m_cache.inheritedByList) { m_cache.inheritedByList.reset(InheritanceListContext::alloc(m_classDef->subClasses(),FALSE)); } return m_cache.inheritedByList.get(); } TemplateVariant getMemberList(SharedPtr &list, MemberListType type,const char *title,bool detailed=FALSE) const { if (!list) { MemberList *ml = m_classDef->getMemberList(type); if (ml) { list.reset(MemberListInfoContext::alloc(m_classDef,relPathAsString(),ml,title,"")); } } if (list) { return list.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant unoIDLServices() const { return getMemberList(m_cache.unoIDLServices,MemberListType_services,theTranslator->trServices()); } TemplateVariant unoIDLInterfaces() const { return getMemberList(m_cache.unoIDLInterfaces,MemberListType_interfaces,theTranslator->trInterfaces()); } TemplateVariant signals() const { return getMemberList(m_cache.signals,MemberListType_signals,theTranslator->trSignals()); } TemplateVariant publicTypes() const { return getMemberList(m_cache.publicTypes,MemberListType_pubTypes,theTranslator->trPublicTypes()); } TemplateVariant publicMethods() const { return getMemberList(m_cache.publicMethods,MemberListType_pubMethods, m_classDef->getLanguage()==SrcLangExt_ObjC ? theTranslator->trInstanceMethods() : theTranslator->trPublicMembers()); } TemplateVariant publicStaticMethods() const { return getMemberList(m_cache.publicStaticMethods,MemberListType_pubStaticMethods, m_classDef->getLanguage()==SrcLangExt_ObjC ? theTranslator->trClassMethods() : theTranslator->trStaticPublicMembers()); } TemplateVariant publicAttributes() const { return getMemberList(m_cache.publicAttributes,MemberListType_pubAttribs,theTranslator->trPublicAttribs()); } TemplateVariant publicStaticAttributes() const { return getMemberList(m_cache.publicStaticAttributes,MemberListType_pubStaticAttribs,theTranslator->trStaticPublicAttribs()); } TemplateVariant publicSlots() const { return getMemberList(m_cache.publicSlots,MemberListType_pubSlots,theTranslator->trPublicSlots()); } TemplateVariant protectedTypes() const { return getMemberList(m_cache.protectedTypes,MemberListType_proTypes,theTranslator->trProtectedTypes()); } TemplateVariant protectedMethods() const { return getMemberList(m_cache.protectedMethods,MemberListType_proMethods,theTranslator->trProtectedMembers()); } TemplateVariant protectedStaticMethods() const { return getMemberList(m_cache.protectedStaticMethods,MemberListType_proStaticMethods,theTranslator->trStaticProtectedMembers()); } TemplateVariant protectedAttributes() const { return getMemberList(m_cache.protectedAttributes,MemberListType_proAttribs,theTranslator->trProtectedAttribs()); } TemplateVariant protectedStaticAttributes() const { return getMemberList(m_cache.protectedStaticAttributes,MemberListType_proStaticAttribs,theTranslator->trStaticProtectedAttribs()); } TemplateVariant protectedSlots() const { return getMemberList(m_cache.protectedSlots,MemberListType_proSlots,theTranslator->trProtectedSlots()); } TemplateVariant privateTypes() const { return getMemberList(m_cache.privateTypes,MemberListType_priTypes,theTranslator->trPrivateTypes()); } TemplateVariant privateSlots() const { return getMemberList(m_cache.privateSlots,MemberListType_priSlots,theTranslator->trPrivateSlots()); } TemplateVariant privateMethods() const { return getMemberList(m_cache.privateMethods,MemberListType_priMethods,theTranslator->trPrivateMembers()); } TemplateVariant privateStaticMethods() const { return getMemberList(m_cache.privateStaticMethods,MemberListType_priStaticMethods,theTranslator->trStaticPrivateMembers()); } TemplateVariant privateAttributes() const { return getMemberList(m_cache.privateAttributes,MemberListType_priAttribs,theTranslator->trPrivateAttribs()); } TemplateVariant privateStaticAttributes() const { return getMemberList(m_cache.privateStaticAttributes,MemberListType_priStaticAttribs,theTranslator->trStaticPrivateAttribs()); } TemplateVariant packageTypes() const { return getMemberList(m_cache.packageTypes,MemberListType_pacTypes,theTranslator->trPackageTypes()); } TemplateVariant packageMethods() const { return getMemberList(m_cache.packageMethods,MemberListType_pacMethods,theTranslator->trPackageMembers()); } TemplateVariant packageStaticMethods() const { return getMemberList(m_cache.packageStaticMethods,MemberListType_pacStaticMethods,theTranslator->trStaticPackageMembers()); } TemplateVariant packageAttributes() const { return getMemberList(m_cache.packageAttributes,MemberListType_pacAttribs,theTranslator->trPackageAttribs()); } TemplateVariant packageStaticAttributes() const { return getMemberList(m_cache.packageStaticAttributes,MemberListType_pacStaticAttribs,theTranslator->trStaticPackageAttribs()); } TemplateVariant properties() const { return getMemberList(m_cache.properties,MemberListType_properties,theTranslator->trProperties()); } TemplateVariant events() const { return getMemberList(m_cache.events,MemberListType_events,theTranslator->trEvents()); } TemplateVariant friends() const { return getMemberList(m_cache.friends,MemberListType_friends,theTranslator->trFriends()); } TemplateVariant related() const { return getMemberList(m_cache.related,MemberListType_related,theTranslator->trRelatedFunctions()); } TemplateVariant detailedTypedefs() const { return getMemberList(m_cache.detailedTypedefs,MemberListType_typedefMembers,theTranslator->trMemberTypedefDocumentation(),TRUE); } TemplateVariant detailedEnums() const { return getMemberList(m_cache.detailedEnums,MemberListType_enumMembers,theTranslator->trMemberEnumerationDocumentation(),TRUE); } TemplateVariant detailedServices() const { return getMemberList(m_cache.detailedServices,MemberListType_serviceMembers,theTranslator->trServices(),TRUE); } TemplateVariant detailedInterfaces() const { return getMemberList(m_cache.detailedInterfaces,MemberListType_interfaceMembers,theTranslator->trInterfaces(),TRUE); } TemplateVariant detailedConstructors() const { return getMemberList(m_cache.detailedConstructors,MemberListType_constructors,theTranslator->trConstructorDocumentation(),TRUE); } TemplateVariant detailedMethods() const { return getMemberList(m_cache.detailedMethods,MemberListType_functionMembers,theTranslator->trMemberFunctionDocumentation(),TRUE); } TemplateVariant detailedRelated() const { return getMemberList(m_cache.detailedRelated,MemberListType_relatedMembers,theTranslator->trRelatedFunctionDocumentation(),TRUE); } TemplateVariant detailedVariables() const { return getMemberList(m_cache.detailedVariables,MemberListType_variableMembers,theTranslator->trMemberDataDocumentation(),TRUE); } TemplateVariant detailedProperties() const { return getMemberList(m_cache.detailedProperties,MemberListType_propertyMembers,theTranslator->trPropertyDocumentation(),TRUE); } TemplateVariant detailedEvents() const { return getMemberList(m_cache.detailedEvents,MemberListType_eventMembers,theTranslator->trEventDocumentation(),TRUE); } TemplateVariant classes() const { if (!m_cache.classes) { TemplateList *classList = TemplateList::alloc(); if (m_classDef->getClassSDict()) { ClassSDict::Iterator sdi(*m_classDef->getClassSDict()); ClassDef *cd; for (sdi.toFirst();(cd=sdi.current());++sdi) { if (cd->visibleInParentsDeclList()) { classList->append(ClassContext::alloc(cd)); } } } m_cache.classes.reset(classList); } return m_cache.classes.get(); } TemplateVariant compoundType() const { return m_classDef->compoundTypeString(); } void addTemplateDecls(Definition *d,TemplateList *tl) const { if (d->definitionType()==Definition::TypeClass) { Definition *parent = d->getOuterScope(); if (parent) { addTemplateDecls(parent,tl); } ClassDef *cd=(ClassDef *)d; if (cd->templateArguments()) { ArgumentListContext *al = ArgumentListContext::alloc(cd->templateArguments(),cd,relPathAsString()); // since a TemplateVariant does take ownership of the object, we add it // a separate list just to be able to delete it and avoid a memory leak tl->append(al); } } } void addExamples(TemplateList *list) const { if (m_classDef->hasExamples()) { ExampleSDict::Iterator it(*m_classDef->exampleList()); Example *ex; for (it.toFirst();(ex=it.current());++it) { TemplateStruct *s = TemplateStruct::alloc(); s->set("text",ex->name); s->set("isLinkable",TRUE); s->set("anchor",ex->anchor); s->set("fileName",ex->file); list->append(s); } } } TemplateVariant templateDecls() const { if (!m_cache.templateDecls) { TemplateList *tl = TemplateList::alloc(); addTemplateDecls(m_classDef,tl); m_cache.templateDecls.reset(tl); } return m_cache.templateDecls.get(); } TemplateVariant typeConstraints() const { if (m_classDef->typeConstraints()) { if (!m_cache.typeConstraints && m_classDef->typeConstraints()) { m_cache.typeConstraints.reset(ArgumentListContext::alloc(m_classDef->typeConstraints(),m_classDef,relPathAsString())); } return m_cache.typeConstraints.get(); } return FALSE; } TemplateVariant examples() const { if (!m_cache.examples) { TemplateList *exampleList = TemplateList::alloc(); addExamples(exampleList); m_cache.examples.reset(exampleList); } return m_cache.examples.get(); } void addMembers(ClassDef *cd,MemberListType lt) const { MemberList *ml = cd->getMemberList(lt); if (ml) { MemberListIterator li(*ml); const MemberDef *md; for (li.toFirst();(md=li.current());++li) { if (md->isBriefSectionVisible()) { m_cache.allMembers.append(md); } } } } TemplateVariant members() const { if (!m_cache.members) { addMembers(m_classDef,MemberListType_pubTypes); addMembers(m_classDef,MemberListType_services); addMembers(m_classDef,MemberListType_interfaces); addMembers(m_classDef,MemberListType_pubSlots); addMembers(m_classDef,MemberListType_signals); addMembers(m_classDef,MemberListType_pubMethods); addMembers(m_classDef,MemberListType_pubStaticMethods); addMembers(m_classDef,MemberListType_pubAttribs); addMembers(m_classDef,MemberListType_pubStaticAttribs); addMembers(m_classDef,MemberListType_proTypes); addMembers(m_classDef,MemberListType_proSlots); addMembers(m_classDef,MemberListType_proMethods); addMembers(m_classDef,MemberListType_proStaticMethods); addMembers(m_classDef,MemberListType_proAttribs); addMembers(m_classDef,MemberListType_proStaticAttribs); addMembers(m_classDef,MemberListType_pacTypes); addMembers(m_classDef,MemberListType_pacMethods); addMembers(m_classDef,MemberListType_pacStaticMethods); addMembers(m_classDef,MemberListType_pacAttribs); addMembers(m_classDef,MemberListType_pacStaticAttribs); addMembers(m_classDef,MemberListType_properties); addMembers(m_classDef,MemberListType_events); addMembers(m_classDef,MemberListType_priTypes); addMembers(m_classDef,MemberListType_priSlots); addMembers(m_classDef,MemberListType_priMethods); addMembers(m_classDef,MemberListType_priStaticMethods); addMembers(m_classDef,MemberListType_priAttribs); addMembers(m_classDef,MemberListType_priStaticAttribs); addMembers(m_classDef,MemberListType_related); m_cache.members.reset(MemberListContext::alloc(&m_cache.allMembers)); } return m_cache.members.get(); } TemplateVariant allMembersList() const { if (!m_cache.allMembersList) { if (m_classDef->memberNameInfoSDict()) { AllMembersListContext *ml = AllMembersListContext::alloc(m_classDef->memberNameInfoSDict()); m_cache.allMembersList.reset(ml); } else { m_cache.allMembersList.reset(AllMembersListContext::alloc()); } } return m_cache.allMembersList.get(); } TemplateVariant allMembersFileName() const { return m_classDef->getMemberListFileName(); } TemplateVariant memberGroups() const { if (!m_cache.memberGroups) { if (m_classDef->getMemberGroupSDict()) { m_cache.memberGroups.reset(MemberGroupListContext::alloc(m_classDef,relPathAsString(),m_classDef->getMemberGroupSDict(),m_classDef->subGrouping())); } else { m_cache.memberGroups.reset(MemberGroupListContext::alloc()); } } return m_cache.memberGroups.get(); } TemplateVariant additionalInheritedMembers() const { if (!m_cache.additionalInheritedMembers) { InheritedMemberInfoListContext *ctx = InheritedMemberInfoListContext::alloc(); ctx->addMemberList(m_classDef,MemberListType_pubTypes,theTranslator->trPublicTypes()); ctx->addMemberList(m_classDef,MemberListType_services,theTranslator->trServices()); ctx->addMemberList(m_classDef,MemberListType_interfaces,theTranslator->trInterfaces()); ctx->addMemberList(m_classDef,MemberListType_pubSlots,theTranslator->trPublicSlots()); ctx->addMemberList(m_classDef,MemberListType_signals,theTranslator->trSignals()); ctx->addMemberList(m_classDef,MemberListType_pubMethods, m_classDef->getLanguage()==SrcLangExt_ObjC ? theTranslator->trInstanceMethods() : theTranslator->trPublicMembers()); ctx->addMemberList(m_classDef,MemberListType_pubStaticMethods, m_classDef->getLanguage()==SrcLangExt_ObjC ? theTranslator->trClassMethods() : theTranslator->trStaticPublicMembers()); ctx->addMemberList(m_classDef,MemberListType_pubAttribs,theTranslator->trPublicAttribs()); ctx->addMemberList(m_classDef,MemberListType_pubStaticAttribs,theTranslator->trStaticPublicAttribs()); ctx->addMemberList(m_classDef,MemberListType_proTypes,theTranslator->trProtectedTypes()); ctx->addMemberList(m_classDef,MemberListType_proSlots,theTranslator->trProtectedSlots()); ctx->addMemberList(m_classDef,MemberListType_proMethods,theTranslator->trProtectedMembers()); ctx->addMemberList(m_classDef,MemberListType_proStaticMethods,theTranslator->trStaticProtectedMembers()); ctx->addMemberList(m_classDef,MemberListType_proAttribs,theTranslator->trProtectedAttribs()); ctx->addMemberList(m_classDef,MemberListType_proStaticAttribs,theTranslator->trStaticProtectedAttribs()); ctx->addMemberList(m_classDef,MemberListType_pacTypes,theTranslator->trPackageTypes()); ctx->addMemberList(m_classDef,MemberListType_pacMethods,theTranslator->trPackageMembers()); ctx->addMemberList(m_classDef,MemberListType_pacStaticMethods,theTranslator->trStaticPackageMembers()); ctx->addMemberList(m_classDef,MemberListType_pacAttribs,theTranslator->trPackageAttribs()); ctx->addMemberList(m_classDef,MemberListType_pacStaticAttribs,theTranslator->trStaticPackageAttribs()); ctx->addMemberList(m_classDef,MemberListType_properties,theTranslator->trProperties()); ctx->addMemberList(m_classDef,MemberListType_events,theTranslator->trEvents()); ctx->addMemberList(m_classDef,MemberListType_priTypes,theTranslator->trPrivateTypes()); ctx->addMemberList(m_classDef,MemberListType_priSlots,theTranslator->trPrivateSlots()); ctx->addMemberList(m_classDef,MemberListType_priMethods,theTranslator->trPrivateMembers()); ctx->addMemberList(m_classDef,MemberListType_priStaticMethods,theTranslator->trStaticPrivateMembers()); ctx->addMemberList(m_classDef,MemberListType_priAttribs,theTranslator->trPrivateAttribs()); ctx->addMemberList(m_classDef,MemberListType_priStaticAttribs,theTranslator->trStaticPrivateAttribs()); ctx->addMemberList(m_classDef,MemberListType_related,theTranslator->trRelatedFunctions()); m_cache.additionalInheritedMembers.reset(ctx); } return m_cache.additionalInheritedMembers.get(); } private: ClassDef *m_classDef; struct Cachable { Cachable() : inheritanceNodes(-1) { } SharedPtr includeInfo; SharedPtr inheritsList; SharedPtr inheritedByList; ScopedPtr classGraph; ScopedPtr collaborationGraph; SharedPtr classes; SharedPtr publicTypes; SharedPtr publicMethods; SharedPtr publicStaticMethods; SharedPtr publicAttributes; SharedPtr publicStaticAttributes; SharedPtr publicSlots; SharedPtr protectedTypes; SharedPtr protectedMethods; SharedPtr protectedStaticMethods; SharedPtr protectedAttributes; SharedPtr protectedStaticAttributes; SharedPtr protectedSlots; SharedPtr privateTypes; SharedPtr privateMethods; SharedPtr privateStaticMethods; SharedPtr privateAttributes; SharedPtr privateStaticAttributes; SharedPtr privateSlots; SharedPtr packageTypes; SharedPtr packageMethods; SharedPtr packageStaticMethods; SharedPtr packageAttributes; SharedPtr packageStaticAttributes; SharedPtr unoIDLServices; SharedPtr unoIDLInterfaces; SharedPtr signals; SharedPtr properties; SharedPtr events; SharedPtr friends; SharedPtr related; SharedPtr detailedTypedefs; SharedPtr detailedEnums; SharedPtr detailedServices; SharedPtr detailedInterfaces; SharedPtr detailedConstructors; SharedPtr detailedMethods; SharedPtr detailedRelated; SharedPtr detailedVariables; SharedPtr detailedProperties; SharedPtr detailedEvents; SharedPtr memberGroups; SharedPtr allMembersList; SharedPtr typeConstraints; SharedPtr examples; SharedPtr templateDecls; SharedPtr additionalInheritedMembers; SharedPtr members; SharedPtr usedFiles; SharedPtr exampleList; int inheritanceNodes; MemberList allMembers; }; mutable Cachable m_cache; }; //%% } ClassContext::ClassContext(ClassDef *cd) : RefCountedContext("ClassContext") { //printf("ClassContext::ClassContext(%s)\n",cd?cd->name().data():""); p = new Private(cd); } ClassContext::~ClassContext() { delete p; } TemplateVariant ClassContext::get(const char *n) const { return p->get(n); } //------------------------------------------------------------------------ //%% struct Namespace(Symbol): namespace information //%% { class NamespaceContext::Private : public DefinitionContext { public: Private(NamespaceDef *nd) : DefinitionContext(nd) , m_namespaceDef(nd) { addProperty("title", this,&Private::title); addProperty("highlight", this,&Private::highlight); addProperty("subhighlight", this,&Private::subHighlight); addProperty("compoundType", this,&Private::compoundType); addProperty("hasDetails", this,&Private::hasDetails); addProperty("classes", this,&Private::classes); addProperty("namespaces", this,&Private::namespaces); addProperty("constantgroups", this,&Private::constantgroups); addProperty("typedefs", this,&Private::typedefs); addProperty("enums", this,&Private::enums); addProperty("functions", this,&Private::functions); addProperty("variables", this,&Private::variables); addProperty("memberGroups", this,&Private::memberGroups); addProperty("detailedTypedefs", this,&Private::detailedTypedefs); addProperty("detailedEnums", this,&Private::detailedEnums); addProperty("detailedFunctions", this,&Private::detailedFunctions); addProperty("detailedVariables", this,&Private::detailedVariables); addProperty("inlineClasses", this,&Private::inlineClasses); } virtual ~Private() {} TemplateVariant title() const { return TemplateVariant(m_namespaceDef->title()); } TemplateVariant highlight() const { return TemplateVariant("namespaces"); } TemplateVariant subHighlight() const { return TemplateVariant(""); } TemplateVariant compoundType() const { return m_namespaceDef->compoundTypeString(); } TemplateVariant hasDetails() const { return m_namespaceDef->hasDetailedDescription(); } TemplateVariant classes() const { if (!m_cache.classes) { TemplateList *classList = TemplateList::alloc(); if (m_namespaceDef->getClassSDict()) { ClassSDict::Iterator sdi(*m_namespaceDef->getClassSDict()); ClassDef *cd; for (sdi.toFirst();(cd=sdi.current());++sdi) { if (cd->visibleInParentsDeclList()) { classList->append(ClassContext::alloc(cd)); } } } m_cache.classes.reset(classList); } return m_cache.classes.get(); } TemplateVariant namespaces() const { if (!m_cache.namespaces) { TemplateList *namespaceList = TemplateList::alloc(); if (m_namespaceDef->getNamespaceSDict()) { NamespaceSDict::Iterator sdi(*m_namespaceDef->getNamespaceSDict()); NamespaceDef *nd; for (sdi.toFirst();(nd=sdi.current());++sdi) { if (nd->isLinkable() && !nd->isConstantGroup()) { namespaceList->append(NamespaceContext::alloc(nd)); } } } m_cache.namespaces.reset(namespaceList); } return m_cache.namespaces.get(); } TemplateVariant constantgroups() const { if (!m_cache.constantgroups) { TemplateList *namespaceList = TemplateList::alloc(); if (m_namespaceDef->getNamespaceSDict()) { NamespaceSDict::Iterator sdi(*m_namespaceDef->getNamespaceSDict()); NamespaceDef *nd; for (sdi.toFirst();(nd=sdi.current());++sdi) { if (nd->isLinkable() && nd->isConstantGroup()) { namespaceList->append(NamespaceContext::alloc(nd)); } } } m_cache.constantgroups.reset(namespaceList); } return m_cache.constantgroups.get(); } TemplateVariant getMemberList(SharedPtr &list, MemberListType type,const char *title,bool detailed=FALSE) const { if (!list) { MemberList *ml = m_namespaceDef->getMemberList(type); if (ml) { list.reset(MemberListInfoContext::alloc(m_namespaceDef,relPathAsString(),ml,title,"")); } } if (list) { return list.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant typedefs() const { return getMemberList(m_cache.typedefs,MemberListType_decTypedefMembers,theTranslator->trTypedefs()); } TemplateVariant enums() const { return getMemberList(m_cache.enums,MemberListType_decEnumMembers,theTranslator->trEnumerations()); } TemplateVariant functions() const { QCString title = theTranslator->trFunctions(); SrcLangExt lang = m_namespaceDef->getLanguage(); if (lang==SrcLangExt_Fortran) title=theTranslator->trSubprograms(); else if (lang==SrcLangExt_VHDL) title=VhdlDocGen::trFunctionAndProc(); return getMemberList(m_cache.functions,MemberListType_decFuncMembers,title); } TemplateVariant variables() const { return getMemberList(m_cache.variables,MemberListType_decVarMembers,theTranslator->trVariables()); } TemplateVariant memberGroups() const { if (!m_cache.memberGroups) { if (m_namespaceDef->getMemberGroupSDict()) { m_cache.memberGroups.reset(MemberGroupListContext::alloc(m_namespaceDef,relPathAsString(),m_namespaceDef->getMemberGroupSDict(),m_namespaceDef->subGrouping())); } else { m_cache.memberGroups.reset(MemberGroupListContext::alloc()); } } return m_cache.memberGroups.get(); } TemplateVariant detailedTypedefs() const { return getMemberList(m_cache.detailedTypedefs,MemberListType_docTypedefMembers,theTranslator->trTypedefDocumentation()); } TemplateVariant detailedEnums() const { return getMemberList(m_cache.detailedEnums,MemberListType_docEnumMembers,theTranslator->trEnumerationTypeDocumentation()); } TemplateVariant detailedFunctions() const { QCString title = theTranslator->trFunctionDocumentation(); SrcLangExt lang = m_namespaceDef->getLanguage(); if (lang==SrcLangExt_Fortran) title=theTranslator->trSubprogramDocumentation(); return getMemberList(m_cache.detailedFunctions,MemberListType_docFuncMembers,title); } TemplateVariant detailedVariables() const { return getMemberList(m_cache.detailedVariables,MemberListType_docVarMembers,theTranslator->trVariableDocumentation()); } TemplateVariant inlineClasses() const { if (!m_cache.inlineClasses) { TemplateList *classList = TemplateList::alloc(); if (m_namespaceDef->getClassSDict()) { ClassSDict::Iterator sdi(*m_namespaceDef->getClassSDict()); ClassDef *cd; for (sdi.toFirst();(cd=sdi.current());++sdi) { if (cd->name().find('@')==-1 && cd->isLinkableInProject() && cd->isEmbeddedInOuterScope() && cd->partOfGroups()==0) { classList->append(ClassContext::alloc(cd)); } } } m_cache.inlineClasses.reset(classList); } return m_cache.inlineClasses.get(); } private: NamespaceDef *m_namespaceDef; struct Cachable { SharedPtr classes; SharedPtr namespaces; SharedPtr constantgroups; SharedPtr typedefs; SharedPtr enums; SharedPtr functions; SharedPtr variables; SharedPtr memberGroups; SharedPtr detailedTypedefs; SharedPtr detailedEnums; SharedPtr detailedFunctions; SharedPtr detailedVariables; SharedPtr inlineClasses; }; mutable Cachable m_cache; }; //%% } NamespaceContext::NamespaceContext(NamespaceDef *nd) : RefCountedContext("NamespaceContext") { p = new Private(nd); } NamespaceContext::~NamespaceContext() { delete p; } TemplateVariant NamespaceContext::get(const char *n) const { return p->get(n); } //------------------------------------------------------------------------ //%% struct File(Symbol): file information //%% { class FileContext::Private : public DefinitionContext { public: Private(FileDef *fd) : DefinitionContext(fd) , m_fileDef(fd) { if (fd==0) abort(); addProperty("title", this,&Private::title); addProperty("highlight", this,&Private::highlight); addProperty("subhighlight", this,&Private::subHighlight); addProperty("versionInfo", this,&Private::versionInfo); addProperty("includeList", this,&Private::includeList); addProperty("hasIncludeGraph", this,&Private::hasIncludeGraph); addProperty("hasIncludedByGraph", this,&Private::hasIncludedByGraph); addProperty("includeGraph", this,&Private::includeGraph); addProperty("includedByGraph", this,&Private::includedByGraph); addProperty("hasDetails", this,&Private::hasDetails); addProperty("hasSourceFile", this,&Private::hasSourceFile); addProperty("sources", this,&Private::sources); addProperty("version", this,&Private::version); addProperty("classes", this,&Private::classes); addProperty("namespaces", this,&Private::namespaces); addProperty("constantgroups", this,&Private::constantgroups); addProperty("macros", this,&Private::macros); addProperty("typedefs", this,&Private::typedefs); addProperty("enums", this,&Private::enums); addProperty("functions", this,&Private::functions); addProperty("variables", this,&Private::variables); addProperty("memberGroups", this,&Private::memberGroups); addProperty("detailedMacros", this,&Private::detailedMacros); addProperty("detailedTypedefs", this,&Private::detailedTypedefs); addProperty("detailedEnums", this,&Private::detailedEnums); addProperty("detailedFunctions", this,&Private::detailedFunctions); addProperty("detailedVariables", this,&Private::detailedVariables); addProperty("inlineClasses", this,&Private::inlineClasses); addProperty("compoundType", this,&Private::compoundType); } virtual ~Private() {} TemplateVariant title() const { return m_fileDef->title(); } TemplateVariant highlight() const { return TemplateVariant("files"); } TemplateVariant subHighlight() const { return TemplateVariant(""); } TemplateVariant versionInfo() const { return m_fileDef->getVersion(); } TemplateVariant includeList() const { if (!m_cache.includeInfoList && m_fileDef->includeFileList()) { m_cache.includeInfoList.reset(IncludeInfoListContext::alloc( *m_fileDef->includeFileList(),m_fileDef->getLanguage())); } if (m_cache.includeInfoList) { return m_cache.includeInfoList.get(); } else { return TemplateVariant(FALSE); } } DotInclDepGraph *getIncludeGraph() const { if (!m_cache.includeGraph) { m_cache.includeGraph.reset(new DotInclDepGraph(m_fileDef,FALSE)); } return m_cache.includeGraph.get(); } TemplateVariant hasIncludeGraph() const { static bool haveDot = Config_getBool("HAVE_DOT"); DotInclDepGraph *incGraph = getIncludeGraph(); return (haveDot && !incGraph->isTooBig() && !incGraph->isTrivial()); } TemplateVariant includeGraph() const { static bool haveDot = Config_getBool("HAVE_DOT"); QGString result; if (haveDot) { DotInclDepGraph *cg = getIncludeGraph(); FTextStream t(&result); switch (g_globals.outputFormat) { case ContextOutputFormat_Html: { cg->writeGraph(t,GOF_BITMAP,EOF_Html, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_fileDef->getOutputFileBase()+Doxygen::htmlFileExtension, relPathAsString(),TRUE,g_globals.dynSectionId ); } break; case ContextOutputFormat_Latex: { cg->writeGraph(t,GOF_EPS,EOF_LaTeX, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_fileDef->getOutputFileBase()+".tex", relPathAsString(),TRUE,g_globals.dynSectionId ); } break; // TODO: support other generators default: err("context.cpp: output format not yet supported"); break; } } g_globals.dynSectionId++; return TemplateVariant(result.data(),TRUE); } DotInclDepGraph *getIncludedByGraph() const { if (!m_cache.includedByGraph) { m_cache.includedByGraph.reset(new DotInclDepGraph(m_fileDef,TRUE)); } return m_cache.includedByGraph.get(); } TemplateVariant hasIncludedByGraph() const { static bool haveDot = Config_getBool("HAVE_DOT"); DotInclDepGraph *incGraph = getIncludedByGraph(); return (haveDot && !incGraph->isTooBig() && !incGraph->isTrivial()); } TemplateVariant includedByGraph() const { static bool haveDot = Config_getBool("HAVE_DOT"); QGString result; if (haveDot) { DotInclDepGraph *cg = getIncludedByGraph(); FTextStream t(&result); switch (g_globals.outputFormat) { case ContextOutputFormat_Html: { cg->writeGraph(t,GOF_BITMAP,EOF_Html, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_fileDef->getOutputFileBase()+Doxygen::htmlFileExtension, relPathAsString(),TRUE,g_globals.dynSectionId ); } break; case ContextOutputFormat_Latex: { cg->writeGraph(t,GOF_EPS,EOF_LaTeX, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_fileDef->getOutputFileBase()+".tex", relPathAsString(),TRUE,g_globals.dynSectionId ); } break; // TODO: support other generators default: err("context.cpp: output format not yet supported"); break; } } g_globals.dynSectionId++; return TemplateVariant(result.data(),TRUE); } TemplateVariant hasDetails() const { return m_fileDef->hasDetailedDescription(); } TemplateVariant hasSourceFile() const { return m_fileDef->generateSourceFile(); } TemplateVariant sources() const { if (!m_cache.sources) { if (m_fileDef->generateSourceFile()) { m_cache.sources.reset(new TemplateVariant(parseCode(m_fileDef,relPathAsString()))); } else { m_cache.sources.reset(new TemplateVariant("")); } } return *m_cache.sources; } TemplateVariant version() const { return m_fileDef->fileVersion(); } TemplateVariant classes() const { if (!m_cache.classes) { TemplateList *classList = TemplateList::alloc(); if (m_fileDef->getClassSDict()) { ClassSDict::Iterator sdi(*m_fileDef->getClassSDict()); ClassDef *cd; for (sdi.toFirst();(cd=sdi.current());++sdi) { if (cd->visibleInParentsDeclList()) { classList->append(ClassContext::alloc(cd)); } } } m_cache.classes.reset(classList); } return m_cache.classes.get(); } TemplateVariant namespaces() const { if (!m_cache.namespaces) { TemplateList *namespaceList = TemplateList::alloc(); if (m_fileDef->getNamespaceSDict()) { NamespaceSDict::Iterator sdi(*m_fileDef->getNamespaceSDict()); NamespaceDef *nd; for (sdi.toFirst();(nd=sdi.current());++sdi) { if (nd->isLinkable() && !nd->isConstantGroup()) { namespaceList->append(NamespaceContext::alloc(nd)); } } } m_cache.namespaces.reset(namespaceList); } return m_cache.namespaces.get(); } TemplateVariant constantgroups() const { if (!m_cache.constantgroups) { TemplateList *namespaceList = TemplateList::alloc(); if (m_fileDef->getNamespaceSDict()) { NamespaceSDict::Iterator sdi(*m_fileDef->getNamespaceSDict()); NamespaceDef *nd; for (sdi.toFirst();(nd=sdi.current());++sdi) { if (nd->isLinkable() && nd->isConstantGroup()) { namespaceList->append(NamespaceContext::alloc(nd)); } } } m_cache.constantgroups.reset(namespaceList); } return m_cache.constantgroups.get(); } TemplateVariant getMemberList(SharedPtr &list, MemberListType type,const char *title,bool detailed=FALSE) const { if (!list) { MemberList *ml = m_fileDef->getMemberList(type); if (ml) { list.reset(MemberListInfoContext::alloc(m_fileDef,relPathAsString(),ml,title,"")); } } if (list) { return list.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant macros() const { return getMemberList(m_cache.macros,MemberListType_decDefineMembers,theTranslator->trDefines()); } TemplateVariant typedefs() const { return getMemberList(m_cache.typedefs,MemberListType_decTypedefMembers,theTranslator->trTypedefs()); } TemplateVariant enums() const { return getMemberList(m_cache.enums,MemberListType_decEnumMembers,theTranslator->trEnumerations()); } TemplateVariant functions() const { QCString title = theTranslator->trFunctions(); SrcLangExt lang = m_fileDef->getLanguage(); if (lang==SrcLangExt_Fortran) title=theTranslator->trSubprograms(); else if (lang==SrcLangExt_VHDL) title=VhdlDocGen::trFunctionAndProc(); return getMemberList(m_cache.functions,MemberListType_decFuncMembers,title); } TemplateVariant variables() const { return getMemberList(m_cache.variables,MemberListType_decVarMembers,theTranslator->trVariables()); } TemplateVariant memberGroups() const { if (!m_cache.memberGroups) { if (m_fileDef->getMemberGroupSDict()) { m_cache.memberGroups.reset(MemberGroupListContext::alloc(m_fileDef,relPathAsString(),m_fileDef->getMemberGroupSDict(),m_fileDef->subGrouping())); } else { m_cache.memberGroups.reset(MemberGroupListContext::alloc()); } } return m_cache.memberGroups.get(); } TemplateVariant detailedMacros() const { return getMemberList(m_cache.detailedMacros,MemberListType_docDefineMembers,theTranslator->trDefineDocumentation()); } TemplateVariant detailedTypedefs() const { return getMemberList(m_cache.detailedTypedefs,MemberListType_docTypedefMembers,theTranslator->trTypedefDocumentation()); } TemplateVariant detailedEnums() const { return getMemberList(m_cache.detailedEnums,MemberListType_docEnumMembers,theTranslator->trEnumerationTypeDocumentation()); } TemplateVariant detailedFunctions() const { QCString title = theTranslator->trFunctionDocumentation(); SrcLangExt lang = m_fileDef->getLanguage(); if (lang==SrcLangExt_Fortran) title=theTranslator->trSubprogramDocumentation(); return getMemberList(m_cache.detailedFunctions,MemberListType_docFuncMembers,title); } TemplateVariant detailedVariables() const { return getMemberList(m_cache.detailedVariables,MemberListType_docVarMembers,theTranslator->trVariableDocumentation()); } TemplateVariant inlineClasses() const { if (!m_cache.inlineClasses) { TemplateList *classList = TemplateList::alloc(); if (m_fileDef->getClassSDict()) { ClassSDict::Iterator sdi(*m_fileDef->getClassSDict()); ClassDef *cd; for (sdi.toFirst();(cd=sdi.current());++sdi) { if (cd->name().find('@')==-1 && cd->isLinkableInProject() && cd->isEmbeddedInOuterScope() && cd->partOfGroups()==0) { classList->append(ClassContext::alloc(cd)); } } } m_cache.inlineClasses.reset(classList); } return m_cache.inlineClasses.get(); } TemplateVariant compoundType() const { return theTranslator->trFile(FALSE,TRUE); } private: FileDef *m_fileDef; struct Cachable { SharedPtr includeInfoList; ScopedPtr includeGraph; ScopedPtr includedByGraph; ScopedPtr sources; SharedPtr classes; SharedPtr namespaces; SharedPtr constantgroups; SharedPtr macros; SharedPtr typedefs; SharedPtr enums; SharedPtr functions; SharedPtr variables; SharedPtr memberGroups; SharedPtr detailedMacros; SharedPtr detailedTypedefs; SharedPtr detailedEnums; SharedPtr detailedFunctions; SharedPtr detailedVariables; SharedPtr inlineClasses; }; mutable Cachable m_cache; }; //%% } FileContext::FileContext(FileDef *fd) : RefCountedContext("FileContext") { p = new Private(fd); } FileContext::~FileContext() { delete p; } TemplateVariant FileContext::get(const char *n) const { return p->get(n); } //------------------------------------------------------------------------ //%% struct Dir(Symbol): directory information //%% { class DirContext::Private : public DefinitionContext { public: Private(DirDef *dd) : DefinitionContext(dd) , m_dirDef(dd) { addProperty("title", this,&Private::title); addProperty("highlight", this,&Private::highlight); addProperty("subhighlight", this,&Private::subHighlight); addProperty("dirName", this,&Private::dirName); addProperty("dirs", this,&Private::dirs); addProperty("files", this,&Private::files); addProperty("hasDetails", this,&Private::hasDetails); addProperty("compoundType", this,&Private::compoundType); } virtual ~Private() {} TemplateVariant title() const { return TemplateVariant(m_dirDef->shortTitle()); } TemplateVariant highlight() const { return TemplateVariant("files"); } TemplateVariant subHighlight() const { return TemplateVariant(""); } TemplateVariant dirName() const { return TemplateVariant(m_dirDef->shortName()); } TemplateVariant dirs() const { if (!m_cache.dirs) { m_cache.dirs.reset(TemplateList::alloc()); const DirList &subDirs = m_dirDef->subDirs(); QListIterator it(subDirs); DirDef *dd; for (it.toFirst();(dd=it.current());++it) { DirContext *dc = new DirContext(dd); m_cache.dirs->append(dc); } } return m_cache.dirs.get(); } TemplateVariant files() const { // FileList *list = m_dirDef->getFiles(); if (!m_cache.files) { m_cache.files.reset(TemplateList::alloc()); FileList *files = m_dirDef->getFiles(); if (files) { QListIterator it(*files); FileDef *fd; for (it.toFirst();(fd=it.current());++it) { FileContext *fc = FileContext::alloc(fd); m_cache.files->append(fc); } } } return m_cache.files.get(); } TemplateVariant hasDetails() const { return m_dirDef->hasDetailedDescription(); } TemplateVariant compoundType() const { return theTranslator->trDir(FALSE,TRUE); } TemplateVariant relPath() const { return ""; } private: DirDef *m_dirDef; struct Cachable { Cachable() {} SharedPtr dirs; SharedPtr files; }; mutable Cachable m_cache; }; //%% } DirContext::DirContext(DirDef *fd) : RefCountedContext("DirContext") { p = new Private(fd); } DirContext::~DirContext() { delete p; } TemplateVariant DirContext::get(const char *n) const { return p->get(n); } //------------------------------------------------------------------------ //%% struct Page(Symbol): page information //%% { class PageContext::Private : public DefinitionContext { public: Private(PageDef *pd,bool isMainPage) : DefinitionContext(pd) , m_pageDef(pd), m_isMainPage(isMainPage) { addProperty("title",this,&Private::title); addProperty("highlight",this,&Private::highlight); addProperty("subhighlight",this,&Private::subHighlight); } virtual ~Private() {} TemplateVariant title() const { if (m_isMainPage) { if (mainPageHasTitle()) { return m_pageDef->title(); } else { return theTranslator->trMainPage(); } } else { return m_pageDef->title(); } } TemplateVariant relPath() const { if (m_isMainPage) { return ""; } else { return DefinitionContext::relPath(); } } TemplateVariant highlight() const { if (m_isMainPage) { return "main"; } else { return "pages"; } } TemplateVariant subHighlight() const { return ""; } private: PageDef *m_pageDef; bool m_isMainPage; }; //%% } PageContext::PageContext(PageDef *pd,bool isMainPage) : RefCountedContext("PageContext") { p = new Private(pd,isMainPage); } PageContext::~PageContext() { delete p; } TemplateVariant PageContext::get(const char *n) const { return p->get(n); } //------------------------------------------------------------------------ class TextGeneratorHtml : public TextGeneratorIntf { public: TextGeneratorHtml(FTextStream &ts,const QCString &relPath) : m_ts(ts), m_relPath(relPath) {} void writeString(const char *s,bool keepSpaces) const { if (s==0) return; if (keepSpaces) { const char *p=s; char c; while ((c=*p++)) { switch(c) { case '<': m_ts << "<"; break; case '>': m_ts << ">"; break; case '\'': m_ts << "'"; break; case '"': m_ts << """; break; case '&': m_ts << "&"; break; case ' ': m_ts << " "; break; } } } else { m_ts << convertToHtml(s); } } void writeBreak(int indent) const { m_ts << "
"; for (int i=0;i"; m_ts << convertToHtml(name); m_ts << ""; } private: FTextStream &m_ts; QCString m_relPath; }; //------------------------------------------------------------------------ class TextGeneratorLatex : public TextGeneratorIntf { public: TextGeneratorLatex(FTextStream &ts) : m_ts(ts) {} void writeString(const char *s,bool keepSpaces) const { if (s==0) return; m_ts << convertToLaTeX(s,FALSE,keepSpaces); } void writeBreak(int indent) const { m_ts << "\\\\*\n"; for (int i=0;icreate(ts,relPath); if (tg) { linkifyText(*tg,def->getOuterScope(),def->getBodyDef(),def,text); return TemplateVariant(s.data(),TRUE); } else { return text; } } //%% struct Member(Symbol): member information //%% { class MemberContext::Private : public DefinitionContext { public: Private(MemberDef *md) : DefinitionContext(md) , m_memberDef(md) { addProperty("isSignal", this,&Private::isSignal); addProperty("isSlot", this,&Private::isSlot); addProperty("isVariable", this,&Private::isVariable); addProperty("isEnumeration", this,&Private::isEnumeration); addProperty("isEnumValue", this,&Private::isEnumValue); addProperty("isTypedef", this,&Private::isTypedef); addProperty("isFunction", this,&Private::isFunction); addProperty("isFunctionPtr", this,&Private::isFunctionPtr); addProperty("isDefine", this,&Private::isDefine); addProperty("isFriend", this,&Private::isFriend); addProperty("isProperty", this,&Private::isProperty); addProperty("isEvent", this,&Private::isEvent); addProperty("isRelated", this,&Private::isRelated); addProperty("isForeign", this,&Private::isForeign); addProperty("isStatic", this,&Private::isStatic); addProperty("isInline", this,&Private::isInline); addProperty("isExplicit", this,&Private::isExplicit); addProperty("isMutable", this,&Private::isMutable); addProperty("isGettable", this,&Private::isGettable); addProperty("isPrivateGettable", this,&Private::isPrivateGettable); addProperty("isProtectedGettable", this,&Private::isProtectedGettable); addProperty("isSettable", this,&Private::isSettable); addProperty("isPrivateSettable", this,&Private::isPrivateSettable); addProperty("isProtectedSettable", this,&Private::isProtectedSettable); addProperty("isReadable", this,&Private::isReadable); addProperty("isWritable", this,&Private::isWritable); addProperty("isAddable", this,&Private::isAddable); addProperty("isRemovable", this,&Private::isRemovable); addProperty("isRaisable", this,&Private::isRaisable); addProperty("isFinal", this,&Private::isFinal); addProperty("isAbstract", this,&Private::isAbstract); addProperty("isOverride", this,&Private::isOverride); addProperty("isInitonly", this,&Private::isInitonly); addProperty("isOptional", this,&Private::isOptional); addProperty("isRequired", this,&Private::isRequired); addProperty("isNonAtomic", this,&Private::isNonAtomic); addProperty("isCopy", this,&Private::isCopy); addProperty("isAssign", this,&Private::isAssign); addProperty("isRetain", this,&Private::isRetain); addProperty("isWeak", this,&Private::isWeak); addProperty("isStrong", this,&Private::isStrong); addProperty("isUnretained", this,&Private::isUnretained); addProperty("isNew", this,&Private::isNew); addProperty("isSealed", this,&Private::isSealed); addProperty("isImplementation", this,&Private::isImplementation); addProperty("isExternal", this,&Private::isExternal); addProperty("isAlias", this,&Private::isAlias); addProperty("isDefault", this,&Private::isDefault); addProperty("isDelete", this,&Private::isDelete); addProperty("isNoExcept", this,&Private::isNoExcept); addProperty("isAttribute", this,&Private::isAttribute); addProperty("isUNOProperty", this,&Private::isUNOProperty); addProperty("isReadonly", this,&Private::isReadonly); addProperty("isBound", this,&Private::isBound); addProperty("isConstrained", this,&Private::isConstrained); addProperty("isTransient", this,&Private::isTransient); addProperty("isMaybeVoid", this,&Private::isMaybeVoid); addProperty("isMaybeDefault", this,&Private::isMaybeDefault); addProperty("isMaybeAmbiguous", this,&Private::isMaybeAmbiguous); addProperty("isPublished", this,&Private::isPublished); addProperty("isTemplateSpecialization",this,&Private::isTemplateSpecialization); addProperty("isObjCMethod", this,&Private::isObjCMethod); addProperty("isObjCProperty", this,&Private::isObjCProperty); addProperty("isAnonymous", this,&Private::isAnonymous); addProperty("hasParameters", this,&Private::hasParameters); addProperty("declType", this,&Private::declType); addProperty("declArgs", this,&Private::declArgs); addProperty("anonymousType", this,&Private::anonymousType); addProperty("anonymousMember", this,&Private::anonymousMember); addProperty("hasDetails", this,&Private::hasDetails); addProperty("exception", this,&Private::exception); addProperty("bitfields", this,&Private::bitfields); addProperty("initializer", this,&Private::initializer); addProperty("initializerAsCode", this,&Private::initializerAsCode); addProperty("hasOneLineInitializer", this,&Private::hasOneLineInitializer); addProperty("hasMultiLineInitializer", this,&Private::hasMultiLineInitializer); addProperty("templateArgs", this,&Private::templateArgs); addProperty("templateAlias", this,&Private::templateAlias); addProperty("propertyAttrs", this,&Private::propertyAttrs); addProperty("eventAttrs", this,&Private::eventAttrs); addProperty("category", this,&Private::category); addProperty("class", this,&Private::getClass); addProperty("file", this,&Private::getFile); addProperty("namespace", this,&Private::getNamespace); addProperty("definition", this,&Private::definition); addProperty("parameters", this,&Private::parameters); addProperty("hasConstQualifier", this,&Private::hasConstQualifier); addProperty("hasVolatileQualifier",this,&Private::hasVolatileQualifier); addProperty("trailingReturnType", this,&Private::trailingReturnType); addProperty("extraTypeChars", this,&Private::extraTypeChars); addProperty("templateDecls", this,&Private::templateDecls); addProperty("labels", this,&Private::labels); addProperty("enumBaseType", this,&Private::enumBaseType); addProperty("enumValues", this,&Private::enumValues); addProperty("paramDocs", this,&Private::paramDocs); addProperty("reimplements", this,&Private::reimplements); addProperty("implements", this,&Private::implements); addProperty("reimplementedBy", this,&Private::reimplementedBy); addProperty("implementedBy", this,&Private::implementedBy); addProperty("examples", this,&Private::examples); addProperty("typeConstraints", this,&Private::typeConstraints); addProperty("functionQualifier", this,&Private::functionQualifier); addProperty("sourceRefs", this,&Private::sourceRefs); addProperty("sourceRefBys", this,&Private::sourceRefBys); addProperty("hasSources", this,&Private::hasSources); addProperty("sourceCode", this,&Private::sourceCode); addProperty("hasCallGraph", this,&Private::hasCallGraph); addProperty("callGraph", this,&Private::callGraph); addProperty("hasCallerGraph", this,&Private::hasCallerGraph); addProperty("callerGraph", this,&Private::callerGraph); addProperty("fieldType", this,&Private::fieldType); addProperty("type", this,&Private::type); m_cache.propertyAttrs.reset(TemplateList::alloc()); if (md && md->isProperty()) { if (md->isGettable()) m_cache.propertyAttrs->append("get"); if (md->isPrivateGettable()) m_cache.propertyAttrs->append("private get"); if (md->isProtectedGettable()) m_cache.propertyAttrs->append("protected get"); if (md->isSettable()) m_cache.propertyAttrs->append("set"); if (md->isPrivateSettable()) m_cache.propertyAttrs->append("private set"); if (md->isProtectedSettable()) m_cache.propertyAttrs->append("protected set"); } m_cache.eventAttrs.reset(TemplateList::alloc()); if (md && md->isEvent()) { if (md->isAddable()) m_cache.eventAttrs->append("add"); if (md->isRemovable()) m_cache.eventAttrs->append("remove"); if (md->isRaisable()) m_cache.eventAttrs->append("raise"); } } virtual ~Private() {} TemplateVariant fieldType() const { return createLinkedText(m_memberDef,relPathAsString(),m_memberDef->fieldType()); } TemplateVariant declType() const { return createLinkedText(m_memberDef,relPathAsString(),m_memberDef->getDeclType()); } TemplateVariant declArgs() const { return createLinkedText(m_memberDef,relPathAsString(),m_memberDef->argsString()); } TemplateVariant exception() const { return createLinkedText(m_memberDef,relPathAsString(),m_memberDef->excpString()); } TemplateVariant bitfields() const { return createLinkedText(m_memberDef,relPathAsString(),m_memberDef->bitfieldString()); } TemplateVariant isStatic() const { return m_memberDef->isStatic(); } TemplateVariant isObjCMethod() const { return m_memberDef->isObjCMethod(); } TemplateVariant isObjCProperty() const { return m_memberDef->isObjCProperty(); } TemplateVariant isImplementation() const { return m_memberDef->isImplementation(); } TemplateVariant isSignal() const { return m_memberDef->isSignal(); } TemplateVariant isSlot() const { return m_memberDef->isSlot(); } TemplateVariant isTypedef() const { return m_memberDef->isTypedef(); } TemplateVariant isFunction() const { return m_memberDef->isFunction(); } TemplateVariant isFunctionPtr() const { return m_memberDef->isFunctionPtr(); } TemplateVariant isFriend() const { return m_memberDef->isFriend(); } TemplateVariant isForeign() const { return m_memberDef->isForeign(); } TemplateVariant isEvent() const { return m_memberDef->isEvent(); } TemplateVariant isInline() const { return m_memberDef->isInline(); } TemplateVariant isExplicit() const { return m_memberDef->isExplicit(); } TemplateVariant isMutable() const { return m_memberDef->isMutable(); } TemplateVariant isGettable() const { return m_memberDef->isGettable(); } TemplateVariant isPrivateGettable() const { return m_memberDef->isPrivateGettable(); } TemplateVariant isProtectedGettable() const { return m_memberDef->isProtectedGettable(); } TemplateVariant isSettable() const { return m_memberDef->isSettable(); } TemplateVariant isPrivateSettable() const { return m_memberDef->isPrivateSettable(); } TemplateVariant isProtectedSettable() const { return m_memberDef->isProtectedSettable(); } TemplateVariant isReadable() const { return m_memberDef->isReadable(); } TemplateVariant isWritable() const { return m_memberDef->isWritable(); } TemplateVariant isAddable() const { return m_memberDef->isAddable(); } TemplateVariant isRemovable() const { return m_memberDef->isRemovable(); } TemplateVariant isRaisable() const { return m_memberDef->isRaisable(); } TemplateVariant isFinal() const { return m_memberDef->isFinal(); } TemplateVariant isAbstract() const { return m_memberDef->isAbstract(); } TemplateVariant isOverride() const { return m_memberDef->isOverride(); } TemplateVariant isInitonly() const { return m_memberDef->isInitonly(); } TemplateVariant isOptional() const { return m_memberDef->isOptional(); } TemplateVariant isRequired() const { return m_memberDef->isRequired(); } TemplateVariant isNonAtomic() const { return m_memberDef->isNonAtomic(); } TemplateVariant isCopy() const { return m_memberDef->isCopy(); } TemplateVariant isAssign() const { return m_memberDef->isAssign(); } TemplateVariant isRetain() const { return m_memberDef->isRetain(); } TemplateVariant isWeak() const { return m_memberDef->isWeak(); } TemplateVariant isStrong() const { return m_memberDef->isStrong(); } TemplateVariant isUnretained() const { return m_memberDef->isUnretained(); } TemplateVariant isNew() const { return m_memberDef->isNew(); } TemplateVariant isSealed() const { return m_memberDef->isSealed(); } TemplateVariant isExternal() const { return m_memberDef->isExternal(); } TemplateVariant isAlias() const { return m_memberDef->isAlias(); } TemplateVariant isDefault() const { return m_memberDef->isDefault(); } TemplateVariant isDelete() const { return m_memberDef->isDelete(); } TemplateVariant isNoExcept() const { return m_memberDef->isNoExcept(); } TemplateVariant isAttribute() const { return m_memberDef->isAttribute(); } TemplateVariant isUNOProperty() const { return m_memberDef->isUNOProperty(); } TemplateVariant isReadonly() const { return m_memberDef->isReadonly(); } TemplateVariant isBound() const { return m_memberDef->isBound(); } TemplateVariant isConstrained() const { return m_memberDef->isConstrained(); } TemplateVariant isTransient() const { return m_memberDef->isTransient(); } TemplateVariant isMaybeVoid() const { return m_memberDef->isMaybeVoid(); } TemplateVariant isMaybeDefault() const { return m_memberDef->isMaybeDefault(); } TemplateVariant isMaybeAmbiguous() const { return m_memberDef->isMaybeAmbiguous(); } TemplateVariant isPublished() const { return m_memberDef->isPublished(); } TemplateVariant isTemplateSpecialization() const { return m_memberDef->isTemplateSpecialization(); } TemplateVariant isProperty() const { return m_memberDef->isProperty(); } TemplateVariant isEnumValue() const { return m_memberDef->isEnumValue(); } TemplateVariant isVariable() const { return m_memberDef->isVariable(); } TemplateVariant isEnumeration() const { return m_memberDef->isEnumerate(); } TemplateVariant hasDetails() const { return m_memberDef->isDetailedSectionLinkable(); } TemplateVariant initializer() const { return createLinkedText(m_memberDef,relPathAsString(),m_memberDef->initializer()); } TemplateVariant initializerAsCode() const { if (!m_cache.initializerParsed) { QCString scopeName; if (m_memberDef->getClassDef()) { scopeName = m_memberDef->getClassDef()->name(); } else if (m_memberDef->getNamespaceDef()) { scopeName = m_memberDef->getNamespaceDef()->name(); } m_cache.initializer = parseCode(m_memberDef,scopeName,relPathAsString(), m_memberDef->initializer()); m_cache.initializerParsed = TRUE; } return m_cache.initializer; } TemplateVariant isDefine() const { return m_memberDef->isDefine(); } TemplateVariant isAnonymous() const { QCString name = m_memberDef->name(); return !name.isEmpty() && name.at(0)=='@'; } TemplateVariant anonymousType() const { if (!m_cache.anonymousType) { ClassDef *cd = m_memberDef->getClassDefOfAnonymousType(); if (cd) { m_cache.anonymousType.reset(ClassContext::alloc(cd)); } } if (m_cache.anonymousType) { return m_cache.anonymousType.get(); } else { return FALSE; } } TemplateVariant anonymousMember() const { if (!m_cache.anonymousMember) { MemberDef *md = m_memberDef->fromAnonymousMember(); if (md) { m_cache.anonymousMember.reset(MemberContext::alloc(md)); } } if (m_cache.anonymousMember) { return m_cache.anonymousMember.get(); } else { return FALSE; } } TemplateVariant isRelated() const { return m_memberDef->isRelated(); } TemplateVariant enumBaseType() const { return m_memberDef->enumBaseType(); } TemplateVariant hasOneLineInitializer() const { return m_memberDef->hasOneLineInitializer(); } TemplateVariant hasMultiLineInitializer() const { return m_memberDef->hasMultiLineInitializer(); } TemplateVariant enumValues() const { if (!m_cache.enumValues) { MemberList *ml = m_memberDef->enumFieldList(); if (ml) { m_cache.enumValues.reset(MemberListContext::alloc(ml)); } else { m_cache.enumValues.reset(MemberListContext::alloc()); } } return m_cache.enumValues.get(); } TemplateVariant templateArgs() const { if (!m_cache.templateArgs && m_memberDef->templateArguments()) { m_cache.templateArgs.reset(ArgumentListContext::alloc(m_memberDef->templateArguments(),m_memberDef,relPathAsString())); } if (m_cache.templateArgs) { return m_cache.templateArgs.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant templateAlias() const { if (m_memberDef->isAlias()) { return createLinkedText(m_memberDef,relPathAsString(), QCString(" = ")+m_memberDef->typeString()); } return ""; } TemplateVariant propertyAttrs() const { return m_cache.propertyAttrs.get(); } TemplateVariant eventAttrs() const { return m_cache.eventAttrs.get(); } TemplateVariant getClass() const { if (!m_cache.classDef && m_memberDef->getClassDef()) { m_cache.classDef.reset(ClassContext::alloc(m_memberDef->getClassDef())); } if (m_cache.classDef) { return m_cache.classDef.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant category() const { if (!m_cache.category && m_memberDef->category()) { m_cache.category.reset(ClassContext::alloc(m_memberDef->category())); } if (m_cache.category) { return m_cache.category.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant getFile() const { if (!m_cache.fileDef && m_memberDef->getFileDef()) { m_cache.fileDef.reset(FileContext::alloc(m_memberDef->getFileDef())); } if (m_cache.fileDef) { return m_cache.fileDef.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant getNamespace() const { if (!m_cache.namespaceDef && m_memberDef->getNamespaceDef()) { m_cache.namespaceDef.reset(NamespaceContext::alloc(m_memberDef->getNamespaceDef())); } if (m_cache.namespaceDef) { return m_cache.namespaceDef.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant definition() const { return createLinkedText(m_memberDef,relPathAsString(), m_memberDef->displayDefinition()); } ArgumentList *getDefArgList() const { return (m_memberDef->isDocsForDefinition()) ? m_memberDef->argumentList() : m_memberDef->declArgumentList(); } TemplateVariant parameters() const { if (!m_cache.arguments) { ArgumentList *defArgList = getDefArgList(); if (defArgList && !m_memberDef->isProperty()) { m_cache.arguments.reset(ArgumentListContext::alloc(defArgList,m_memberDef,relPathAsString())); } else { m_cache.arguments.reset(ArgumentListContext::alloc()); } } return m_cache.arguments.get(); } TemplateVariant hasParameters() const { return getDefArgList()!=0; } TemplateVariant hasConstQualifier() const { ArgumentList *al = getDefArgList(); return al ? al->constSpecifier : FALSE; } TemplateVariant hasVolatileQualifier() const { ArgumentList *al = getDefArgList(); return al ? al->volatileSpecifier : FALSE; } TemplateVariant trailingReturnType() const { ArgumentList *al = getDefArgList(); if (al && !al->trailingReturnType.isEmpty()) { return createLinkedText(m_memberDef,relPathAsString(), al->trailingReturnType); } else { return ""; } } TemplateVariant extraTypeChars() const { return m_memberDef->extraTypeChars(); } void addTemplateDecls(TemplateList *tl) const { ClassDef *cd=m_memberDef->getClassDef(); if (m_memberDef->definitionTemplateParameterLists()) { QListIterator ali(*m_memberDef->definitionTemplateParameterLists()); ArgumentList *tal; for (ali.toFirst();(tal=ali.current());++ali) { if (tal->count()>0) { ArgumentListContext *al = ArgumentListContext::alloc(tal,m_memberDef,relPathAsString()); tl->append(al); } } } else { if (cd && !m_memberDef->isRelated() && !m_memberDef->isTemplateSpecialization()) { QList tempParamLists; cd->getTemplateParameterLists(tempParamLists); //printf("#tempParamLists=%d\n",tempParamLists.count()); QListIterator ali(tempParamLists); ArgumentList *tal; for (ali.toFirst();(tal=ali.current());++ali) { if (tal->count()>0) { ArgumentListContext *al = ArgumentListContext::alloc(tal,m_memberDef,relPathAsString()); tl->append(al); } } } if (m_memberDef->templateArguments()) // function template prefix { ArgumentListContext *al = ArgumentListContext::alloc( m_memberDef->templateArguments(),m_memberDef,relPathAsString()); tl->append(al); } } } TemplateVariant templateDecls() const { if (!m_cache.templateDecls) { TemplateList *tl = TemplateList::alloc(); addTemplateDecls(tl); m_cache.templateDecls.reset(tl); } return m_cache.templateDecls.get(); } TemplateVariant labels() const { if (!m_cache.labels) { QStrList sl; m_memberDef->getLabels(sl,m_memberDef->getOuterScope()); TemplateList *tl = TemplateList::alloc(); if (sl.count()>0) { QStrListIterator it(sl); for (;it.current();++it) { tl->append(*it); } } m_cache.labels.reset(tl); } return m_cache.labels.get(); } TemplateVariant paramDocs() const { if (!m_cache.paramDocs) { if (m_memberDef->argumentList() && m_memberDef->argumentList()->hasDocumentation()) { QCString paramDocs; ArgumentListIterator ali(*m_memberDef->argumentList()); Argument *a; // convert the parameter documentation into a list of @param commands for (ali.toFirst();(a=ali.current());++ali) { if (a->hasDocumentation()) { QCString direction = extractDirection(a->docs); paramDocs+="@param"+direction+" "+a->name+" "+a->docs; } } m_cache.paramDocs.reset(new TemplateVariant(parseDoc(m_memberDef, m_memberDef->docFile(),m_memberDef->docLine(), relPathAsString(),paramDocs,FALSE))); } else { m_cache.paramDocs.reset(new TemplateVariant("")); } } return *m_cache.paramDocs; } TemplateVariant implements() const { if (!m_cache.implements) { MemberDef *md = m_memberDef->reimplements(); m_cache.implements.reset(TemplateList::alloc()); if (md) { ClassDef *cd = md->getClassDef(); if (cd && (md->virtualness()==Pure || cd->compoundType()==ClassDef::Interface)) { MemberContext *mc = MemberContext::alloc(md); m_cache.implements->append(mc); } } } return m_cache.implements.get(); } TemplateVariant reimplements() const { if (!m_cache.reimplements) { MemberDef *md = m_memberDef->reimplements(); m_cache.reimplements.reset(TemplateList::alloc()); if (md) { ClassDef *cd = md->getClassDef(); if (cd && md->virtualness()!=Pure && cd->compoundType()!=ClassDef::Interface) { MemberContext *mc = MemberContext::alloc(md); m_cache.reimplements->append(mc); } } } return m_cache.reimplements.get(); } TemplateVariant implementedBy() const { if (!m_cache.implementedBy) { MemberList *ml = m_memberDef->reimplementedBy(); m_cache.implementedBy.reset(TemplateList::alloc()); if (ml) { MemberListIterator mli(*ml); MemberDef *md=0; for (mli.toFirst();(md=mli.current());++mli) { ClassDef *cd = md->getClassDef(); if (cd && (md->virtualness()==Pure || cd->compoundType()==ClassDef::Interface)) { MemberContext *mc = new MemberContext(md); m_cache.implementedBy->append(mc); } } } } return m_cache.implementedBy.get(); } TemplateVariant reimplementedBy() const { if (!m_cache.reimplementedBy) { m_cache.reimplementedBy.reset(TemplateList::alloc()); MemberList *ml = m_memberDef->reimplementedBy(); if (ml) { MemberListIterator mli(*ml); MemberDef *md=0; for (mli.toFirst();(md=mli.current());++mli) { ClassDef *cd = md->getClassDef(); if (cd && md->virtualness()!=Pure && cd->compoundType()!=ClassDef::Interface) { MemberContext *mc = new MemberContext(md); m_cache.reimplementedBy->append(mc); } } } } return m_cache.reimplementedBy.get(); } void addExamples(TemplateList *list) const { if (m_memberDef->hasExamples()) { ExampleSDict::Iterator it(*m_memberDef->getExamples()); Example *ex; for (it.toFirst();(ex=it.current());++it) { TemplateStruct *s = TemplateStruct::alloc(); s->set("text",ex->name); s->set("isLinkable",TRUE); s->set("anchor",ex->anchor); s->set("fileName",ex->file); list->append(s); } } } TemplateVariant examples() const { if (!m_cache.examples) { TemplateList *exampleList = TemplateList::alloc(); addExamples(exampleList); m_cache.examples.reset(exampleList); } return m_cache.examples.get(); } TemplateVariant typeConstraints() const { if (!m_cache.typeConstraints && m_memberDef->typeConstraints()) { m_cache.typeConstraints.reset(ArgumentListContext::alloc(m_memberDef->typeConstraints(),m_memberDef,relPathAsString())); } else { m_cache.typeConstraints.reset(ArgumentListContext::alloc()); } return m_cache.typeConstraints.get(); } TemplateVariant functionQualifier() const { if (!m_memberDef->isObjCMethod() && (m_memberDef->isFunction() || m_memberDef->isSlot() || m_memberDef->isPrototype() || m_memberDef->isSignal() ) ) { return "()"; } else { return ""; } } TemplateVariant sourceRefs() const { if (!m_cache.sourceRefs) { m_cache.sourceRefs.reset(MemberListContext::alloc(m_memberDef->getReferencesMembers(),TRUE)); } return m_cache.sourceRefs.get(); } TemplateVariant sourceRefBys() const { if (!m_cache.sourceRefBys) { m_cache.sourceRefBys.reset(MemberListContext::alloc(m_memberDef->getReferencedByMembers(),TRUE)); } return m_cache.sourceRefBys.get(); } TemplateVariant hasSources() const { return TemplateVariant(m_memberDef->hasSources()); } TemplateVariant sourceCode() const { if (!m_cache.sourceCodeParsed) { QCString codeFragment; FileDef *fd = m_memberDef->getBodyDef(); int startLine = m_memberDef->getStartBodyLine(); int endLine = m_memberDef->getEndBodyLine(); if (fd && readCodeFragment(fd->absFilePath(), startLine,endLine,codeFragment) ) { QCString scopeName; if (m_memberDef->getClassDef()) { scopeName = m_memberDef->getClassDef()->name(); } else if (m_memberDef->getNamespaceDef()) { scopeName = m_memberDef->getNamespaceDef()->name(); } m_cache.sourceCode = parseCode(m_memberDef,scopeName,relPathAsString(),codeFragment,startLine,endLine,TRUE); m_cache.sourceCodeParsed = TRUE; } } return m_cache.sourceCode; } DotCallGraph *getCallGraph() const { if (!m_cache.callGraph) { m_cache.callGraph.reset(new DotCallGraph(m_memberDef,FALSE)); } return m_cache.callGraph.get(); } TemplateVariant hasCallGraph() const { static bool haveDot = Config_getBool("HAVE_DOT"); if (m_memberDef->hasCallGraph() && haveDot && (m_memberDef->isFunction() || m_memberDef->isSlot() || m_memberDef->isSignal())) { DotCallGraph *cg = getCallGraph(); return !cg->isTooBig() && !cg->isTrivial(); } return TemplateVariant(FALSE); } TemplateVariant callGraph() const { if (hasCallGraph().toBool()) { DotCallGraph *cg = getCallGraph(); QGString result; FTextStream t(&result); switch (g_globals.outputFormat) { case ContextOutputFormat_Html: { cg->writeGraph(t,GOF_BITMAP,EOF_Html, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_memberDef->getOutputFileBase()+Doxygen::htmlFileExtension, relPathAsString(),TRUE,g_globals.dynSectionId ); } break; case ContextOutputFormat_Latex: { cg->writeGraph(t,GOF_EPS,EOF_LaTeX, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_memberDef->getOutputFileBase()+".tex", relPathAsString(),TRUE,g_globals.dynSectionId ); } break; // TODO: support other generators default: err("context.cpp: output format not yet supported"); break; } g_globals.dynSectionId++; return TemplateVariant(result.data(),TRUE); } else { return TemplateVariant(""); } } DotCallGraph *getCallerGraph() const { if (!m_cache.callerGraph) { m_cache.callerGraph.reset(new DotCallGraph(m_memberDef,TRUE)); } return m_cache.callerGraph.get(); } TemplateVariant hasCallerGraph() const { static bool haveDot = Config_getBool("HAVE_DOT"); if (m_memberDef->hasCallerGraph() && haveDot && (m_memberDef->isFunction() || m_memberDef->isSlot() || m_memberDef->isSignal())) { DotCallGraph *cg = getCallerGraph(); return !cg->isTooBig() && !cg->isTrivial(); } return TemplateVariant(FALSE); } TemplateVariant callerGraph() const { if (hasCallerGraph().toBool()) { DotCallGraph *cg = getCallerGraph(); QGString result; FTextStream t(&result); switch (g_globals.outputFormat) { case ContextOutputFormat_Html: { cg->writeGraph(t,GOF_BITMAP,EOF_Html, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_memberDef->getOutputFileBase()+Doxygen::htmlFileExtension, relPathAsString(),TRUE,g_globals.dynSectionId ); } break; case ContextOutputFormat_Latex: { cg->writeGraph(t,GOF_EPS,EOF_LaTeX, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_memberDef->getOutputFileBase()+".tex", relPathAsString(),TRUE,g_globals.dynSectionId ); } break; // TODO: support other generators default: err("context.cpp: output format not yet supported"); break; } g_globals.dynSectionId++; return TemplateVariant(result.data(),TRUE); } else { return TemplateVariant(""); } } TemplateVariant type() const { return m_memberDef->typeString(); } private: MemberDef *m_memberDef; struct Cachable { Cachable() : initializerParsed(FALSE), sourceCodeParsed(FALSE) { } SharedPtr templateArgs; SharedPtr arguments; SharedPtr enumValues; SharedPtr fileDef; SharedPtr namespaceDef; SharedPtr category; SharedPtr classDef; SharedPtr anonymousType; SharedPtr templateDecls; ScopedPtr paramDocs; SharedPtr implements; SharedPtr reimplements; SharedPtr implementedBy; SharedPtr sourceRefs; SharedPtr sourceRefBys; ScopedPtr callGraph; ScopedPtr callerGraph; SharedPtr anonymousMember; SharedPtr reimplementedBy; SharedPtr labels; TemplateVariant initializer; bool initializerParsed; TemplateVariant sourceCode; bool sourceCodeParsed; SharedPtr examples; SharedPtr exampleList; SharedPtr typeConstraints; SharedPtr propertyAttrs; SharedPtr eventAttrs; }; mutable Cachable m_cache; }; //%% } MemberContext::MemberContext(MemberDef *md) : RefCountedContext("MemberContext") { p = new Private(md); } MemberContext::~MemberContext() { delete p; } TemplateVariant MemberContext::get(const char *n) const { return p->get(n); } //------------------------------------------------------------------------ //%% struct Module(Symbol): group information //%% { class ModuleContext::Private : public DefinitionContext { public: Private(GroupDef *gd) : DefinitionContext(gd) , m_groupDef(gd) { addProperty("title", this,&Private::title); addProperty("highlight", this,&Private::highlight); addProperty("subhighlight", this,&Private::subHighlight); addProperty("hasGroupGraph", this,&Private::hasGroupGraph); addProperty("groupGraph", this,&Private::groupGraph); addProperty("hasDetails", this,&Private::hasDetails); addProperty("modules", this,&Private::modules); addProperty("dirs", this,&Private::dirs); addProperty("files", this,&Private::files); addProperty("namespaces", this,&Private::namespaces); addProperty("classes", this,&Private::classes); addProperty("constantgroups", this,&Private::constantgroups); addProperty("examples", this,&Private::examples); addProperty("macros", this,&Private::macros); addProperty("typedefs", this,&Private::typedefs); addProperty("enums", this,&Private::enums); addProperty("enumvalues", this,&Private::enumValues); addProperty("functions", this,&Private::functions); addProperty("variables", this,&Private::variables); addProperty("signals", this,&Private::signals); addProperty("publicSlots", this,&Private::publicSlots); addProperty("protectedSlots", this,&Private::protectedSlots); addProperty("privateSlots", this,&Private::privateSlots); addProperty("events", this,&Private::events); addProperty("properties", this,&Private::properties); addProperty("friends", this,&Private::friends); addProperty("memberGroups", this,&Private::memberGroups); addProperty("detailedMacros", this,&Private::detailedMacros); addProperty("detailedTypedefs", this,&Private::detailedTypedefs); addProperty("detailedEnums", this,&Private::detailedEnums); addProperty("detailedEnumValues", this,&Private::detailedEnumValues); addProperty("detailedFunctions", this,&Private::detailedFunctions); addProperty("detailedVariables", this,&Private::detailedVariables); addProperty("detailedSignals", this,&Private::detailedSignals); addProperty("detailedPublicSlots", this,&Private::detailedPublicSlots); addProperty("detailedProtectedSlots", this,&Private::detailedProtectedSlots); addProperty("detailedPrivateSlots", this,&Private::detailedPrivateSlots); addProperty("detailedEvents", this,&Private::detailedEvents); addProperty("detailedProperties", this,&Private::detailedProperties); addProperty("detailedFriends", this,&Private::detailedFriends); addProperty("inlineClasses", this,&Private::inlineClasses); addProperty("compoundType", this,&Private::compoundType); } virtual ~Private() {} TemplateVariant title() const { return TemplateVariant(m_groupDef->groupTitle()); } TemplateVariant highlight() const { return TemplateVariant("modules"); } TemplateVariant subHighlight() const { return TemplateVariant(""); } DotGroupCollaboration *getGroupGraph() const { if (!m_cache.groupGraph) { m_cache.groupGraph.reset(new DotGroupCollaboration(m_groupDef)); } return m_cache.groupGraph.get(); } TemplateVariant hasGroupGraph() const { bool result=FALSE; static bool haveDot = Config_getBool("HAVE_DOT"); static bool groupGraphs = Config_getBool("GROUP_GRAPHS"); if (haveDot && groupGraphs) { DotGroupCollaboration *graph = getGroupGraph(); result = !graph->isTrivial(); } return result; } TemplateVariant groupGraph() const { QGString result; static bool haveDot = Config_getBool("HAVE_DOT"); static bool groupGraphs = Config_getBool("GROUP_GRAPHS"); if (haveDot && groupGraphs) { DotGroupCollaboration *graph = getGroupGraph(); FTextStream t(&result); switch (g_globals.outputFormat) { case ContextOutputFormat_Html: { graph->writeGraph(t,GOF_BITMAP, EOF_Html, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_groupDef->getOutputFileBase()+Doxygen::htmlFileExtension, relPathAsString(), TRUE, g_globals.dynSectionId); } break; case ContextOutputFormat_Latex: { graph->writeGraph(t,GOF_EPS, EOF_LaTeX, g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+m_groupDef->getOutputFileBase()+".tex", relPathAsString(), TRUE, g_globals.dynSectionId); } break; // TODO: support other generators default: err("context.cpp: output format not yet supported"); break; } } g_globals.dynSectionId++; return TemplateVariant(result.data(),TRUE); } TemplateVariant hasDetails() const { return m_groupDef->hasDetailedDescription(); } TemplateVariant modules() const { if (!m_cache.modules) { TemplateList *moduleList = TemplateList::alloc(); if (m_groupDef->getSubGroups()) { GroupListIterator gli(*m_groupDef->getSubGroups()); GroupDef *gd; for (gli.toFirst();(gd=gli.current());++gli) { if (gd->isVisible()) { moduleList->append(ModuleContext::alloc(gd)); } } } m_cache.modules.reset(moduleList); } return m_cache.modules.get(); } TemplateVariant examples() const { if (!m_cache.examples) { TemplateList *exampleList = TemplateList::alloc(); if (m_groupDef->getExamples()) { PageSDict::Iterator eli(*m_groupDef->getExamples()); PageDef *ex; for (eli.toFirst();(ex=eli.current());++eli) { exampleList->append(PageContext::alloc(ex)); } } m_cache.examples.reset(exampleList); } return m_cache.examples.get(); } TemplateVariant pages() const { if (!m_cache.pages) { TemplateList *pageList = TemplateList::alloc(); if (m_groupDef->getExamples()) { PageSDict::Iterator eli(*m_groupDef->getPages()); PageDef *ex; for (eli.toFirst();(ex=eli.current());++eli) { pageList->append(PageContext::alloc(ex)); } } m_cache.pages.reset(pageList); } return m_cache.pages.get(); } TemplateVariant dirs() const { if (!m_cache.dirs) { TemplateList *dirList = TemplateList::alloc(); if (m_groupDef->getDirs()) { QListIterator it(*m_groupDef->getDirs()); DirDef *dd; for (it.toFirst();(dd=it.current());++it) { dirList->append(DirContext::alloc(dd)); } } m_cache.dirs.reset(dirList); } return m_cache.dirs.get(); } TemplateVariant files() const { if (!m_cache.files) { TemplateList *fileList = TemplateList::alloc(); if (m_groupDef->getFiles()) { QListIterator it(*m_groupDef->getFiles()); FileDef *fd; for (it.toFirst();(fd=it.current());++it) { fileList->append(FileContext::alloc(fd)); } } m_cache.files.reset(fileList); } return m_cache.files.get(); } TemplateVariant classes() const { if (!m_cache.classes) { TemplateList *classList = TemplateList::alloc(); if (m_groupDef->getClasses()) { ClassSDict::Iterator sdi(*m_groupDef->getClasses()); ClassDef *cd; for (sdi.toFirst();(cd=sdi.current());++sdi) { if (cd->visibleInParentsDeclList()) { classList->append(ClassContext::alloc(cd)); } } } m_cache.classes.reset(classList); } return m_cache.classes.get(); } TemplateVariant namespaces() const { if (!m_cache.namespaces) { TemplateList *namespaceList = TemplateList::alloc(); if (m_groupDef->getNamespaces()) { NamespaceSDict::Iterator sdi(*m_groupDef->getNamespaces()); NamespaceDef *nd; for (sdi.toFirst();(nd=sdi.current());++sdi) { if (nd->isLinkable() && !nd->isConstantGroup()) { namespaceList->append(NamespaceContext::alloc(nd)); } } } m_cache.namespaces.reset(namespaceList); } return m_cache.namespaces.get(); } TemplateVariant constantgroups() const { if (!m_cache.constantgroups) { TemplateList *namespaceList = TemplateList::alloc(); if (m_groupDef->getNamespaces()) { NamespaceSDict::Iterator sdi(*m_groupDef->getNamespaces()); NamespaceDef *nd; for (sdi.toFirst();(nd=sdi.current());++sdi) { if (nd->isLinkable() && nd->isConstantGroup()) { namespaceList->append(NamespaceContext::alloc(nd)); } } } m_cache.constantgroups.reset(namespaceList); } return m_cache.constantgroups.get(); } TemplateVariant getMemberList(SharedPtr &list, MemberListType type,const char *title,bool detailed=FALSE) const { if (!list) { MemberList *ml = m_groupDef->getMemberList(type); if (ml) { list.reset(MemberListInfoContext::alloc(m_groupDef,relPathAsString(),ml,title,"")); } } if (list) { return list.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant macros() const { return getMemberList(m_cache.macros,MemberListType_decDefineMembers,theTranslator->trDefines()); } TemplateVariant typedefs() const { return getMemberList(m_cache.typedefs,MemberListType_decTypedefMembers,theTranslator->trTypedefs()); } TemplateVariant enums() const { return getMemberList(m_cache.enums,MemberListType_decEnumMembers,theTranslator->trEnumerations()); } TemplateVariant enumValues() const { return getMemberList(m_cache.enums,MemberListType_decEnumValMembers,theTranslator->trEnumerationValues()); } TemplateVariant functions() const { QCString title = theTranslator->trFunctions(); SrcLangExt lang = m_groupDef->getLanguage(); if (lang==SrcLangExt_Fortran) title=theTranslator->trSubprograms(); else if (lang==SrcLangExt_VHDL) title=VhdlDocGen::trFunctionAndProc(); return getMemberList(m_cache.functions,MemberListType_decFuncMembers,title); } TemplateVariant variables() const { return getMemberList(m_cache.variables,MemberListType_decVarMembers,theTranslator->trVariables()); } TemplateVariant signals() const { return getMemberList(m_cache.signals,MemberListType_signals,theTranslator->trSignals()); } TemplateVariant publicSlots() const { return getMemberList(m_cache.publicSlots,MemberListType_pubSlots,theTranslator->trPublicSlots()); } TemplateVariant protectedSlots() const { return getMemberList(m_cache.protectedSlots,MemberListType_proSlots,theTranslator->trProtectedSlots()); } TemplateVariant privateSlots() const { return getMemberList(m_cache.privateSlots,MemberListType_priSlots,theTranslator->trPrivateSlots()); } TemplateVariant events() const { return getMemberList(m_cache.events,MemberListType_events,theTranslator->trEvents()); } TemplateVariant properties() const { return getMemberList(m_cache.properties,MemberListType_properties,theTranslator->trProperties()); } TemplateVariant friends() const { return getMemberList(m_cache.friends,MemberListType_friends,theTranslator->trFriends()); } TemplateVariant memberGroups() const { if (!m_cache.memberGroups) { if (m_groupDef->getMemberGroupSDict()) { m_cache.memberGroups.reset(MemberGroupListContext::alloc(m_groupDef,relPathAsString(),m_groupDef->getMemberGroupSDict(),m_groupDef->subGrouping())); } else { m_cache.memberGroups.reset(MemberGroupListContext::alloc()); } } return m_cache.memberGroups.get(); } TemplateVariant detailedMacros() const { return getMemberList(m_cache.detailedMacros,MemberListType_docDefineMembers,theTranslator->trDefineDocumentation()); } TemplateVariant detailedTypedefs() const { return getMemberList(m_cache.detailedTypedefs,MemberListType_docTypedefMembers,theTranslator->trTypedefDocumentation()); } TemplateVariant detailedEnums() const { return getMemberList(m_cache.detailedEnums,MemberListType_docEnumMembers,theTranslator->trEnumerationTypeDocumentation()); } TemplateVariant detailedEnumValues() const { return getMemberList(m_cache.detailedEnumValues,MemberListType_docEnumValMembers,theTranslator->trEnumerationValueDocumentation()); } TemplateVariant detailedFunctions() const { QCString title = theTranslator->trFunctionDocumentation(); SrcLangExt lang = m_groupDef->getLanguage(); if (lang==SrcLangExt_Fortran) title=theTranslator->trSubprogramDocumentation(); return getMemberList(m_cache.detailedFunctions,MemberListType_docFuncMembers,title); } TemplateVariant detailedVariables() const { return getMemberList(m_cache.detailedVariables,MemberListType_docVarMembers,theTranslator->trVariableDocumentation()); } TemplateVariant detailedSignals() const { return getMemberList(m_cache.detailedSignals,MemberListType_docSignalMembers,theTranslator->trSignals()); } TemplateVariant detailedPublicSlots() const { return getMemberList(m_cache.detailedPublicSlots,MemberListType_docPubSlotMembers,theTranslator->trPublicSlots()); } TemplateVariant detailedProtectedSlots() const { return getMemberList(m_cache.detailedProtectedSlots,MemberListType_docProSlotMembers,theTranslator->trProtectedSlots()); } TemplateVariant detailedPrivateSlots() const { return getMemberList(m_cache.detailedPrivateSlots,MemberListType_docPriSlotMembers,theTranslator->trPrivateSlots()); } TemplateVariant detailedEvents() const { return getMemberList(m_cache.detailedEvents,MemberListType_docEventMembers,theTranslator->trEventDocumentation(),TRUE); } TemplateVariant detailedProperties() const { return getMemberList(m_cache.detailedProperties,MemberListType_docPropMembers,theTranslator->trPropertyDocumentation(),TRUE); } TemplateVariant detailedFriends() const { return getMemberList(m_cache.detailedFriends,MemberListType_docFriendMembers,theTranslator->trFriends(),TRUE); } TemplateVariant inlineClasses() const { if (!m_cache.inlineClasses) { TemplateList *classList = TemplateList::alloc(); if (m_groupDef->getClasses()) { ClassSDict::Iterator sdi(*m_groupDef->getClasses()); ClassDef *cd; for (sdi.toFirst();(cd=sdi.current());++sdi) { if (cd->name().find('@')==-1 && cd->isLinkableInProject() && cd->isEmbeddedInOuterScope() && cd->partOfGroups()==0) { classList->append(ClassContext::alloc(cd)); } } } m_cache.inlineClasses.reset(classList); } return m_cache.inlineClasses.get(); } TemplateVariant compoundType() const { return "module"; //theTranslator->trGroup(FALSE,TRUE); } private: GroupDef *m_groupDef; struct Cachable { SharedPtr modules; SharedPtr dirs; SharedPtr files; SharedPtr classes; SharedPtr namespaces; SharedPtr constantgroups; SharedPtr examples; SharedPtr pages; SharedPtr macros; SharedPtr typedefs; SharedPtr enums; SharedPtr enumValues; SharedPtr functions; SharedPtr variables; SharedPtr signals; SharedPtr publicSlots; SharedPtr protectedSlots; SharedPtr privateSlots; SharedPtr events; SharedPtr properties; SharedPtr friends; SharedPtr memberGroups; SharedPtr detailedMacros; SharedPtr detailedTypedefs; SharedPtr detailedEnums; SharedPtr detailedEnumValues; SharedPtr detailedFunctions; SharedPtr detailedVariables; SharedPtr detailedSignals; SharedPtr detailedPublicSlots; SharedPtr detailedProtectedSlots; SharedPtr detailedPrivateSlots; SharedPtr detailedEvents; SharedPtr detailedProperties; SharedPtr detailedFriends; SharedPtr inlineClasses; ScopedPtr groupGraph; }; mutable Cachable m_cache; }; //%% } ModuleContext::ModuleContext(GroupDef *gd) : RefCountedContext("ModuleContext") { p = new Private(gd); } ModuleContext::~ModuleContext() { delete p; } TemplateVariant ModuleContext::get(const char *n) const { return p->get(n); } //------------------------------------------------------------------------ //%% list ClassList[Class] : list of classes class ClassListContext::Private : public GenericNodeListContext { public: void addClasses(const ClassSDict &classSDict) { ClassSDict::Iterator cli(classSDict); ClassDef *cd; for (cli.toFirst() ; (cd=cli.current()) ; ++cli ) { if (cd->getLanguage()==SrcLangExt_VHDL && ((VhdlDocGen::VhdlClasses)cd->protection()==VhdlDocGen::PACKAGECLASS || (VhdlDocGen::VhdlClasses)cd->protection()==VhdlDocGen::PACKBODYCLASS) ) // no architecture { continue; } if (cd->isLinkableInProject() && cd->templateMaster()==0) { append(ClassContext::alloc(cd)); } } } }; ClassListContext::ClassListContext() : RefCountedContext("ClassListContext") { p = new Private; p->addClasses(*Doxygen::classSDict); p->addClasses(*Doxygen::hiddenClasses); } ClassListContext::~ClassListContext() { delete p; } // TemplateListIntf int ClassListContext::count() const { return p->count(); } TemplateVariant ClassListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *ClassListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% list ClassIndex[Class] : list of classes class ClassIndexContext::Private : public PropertyMapper { public: Private() { addProperty("list", this,&Private::list); addProperty("fileName", this,&Private::fileName); addProperty("relPath", this,&Private::relPath); addProperty("highlight", this,&Private::highlight); addProperty("subhighlight",this,&Private::subhighlight); addProperty("title", this,&Private::title); } TemplateVariant list() const { if (!m_cache.classes) { TemplateList *classList = TemplateList::alloc(); if (Doxygen::classSDict) { ClassSDict::Iterator cli(*Doxygen::classSDict); ClassDef *cd; for (cli.toFirst() ; (cd=cli.current()) ; ++cli ) { if (cd->getLanguage()==SrcLangExt_VHDL && ((VhdlDocGen::VhdlClasses)cd->protection()==VhdlDocGen::PACKAGECLASS || (VhdlDocGen::VhdlClasses)cd->protection()==VhdlDocGen::PACKBODYCLASS) ) // no architecture { continue; } if (cd->isLinkableInProject() && cd->templateMaster()==0) { classList->append(ClassContext::alloc(cd)); } } } m_cache.classes.reset(classList); } return m_cache.classes.get(); } TemplateVariant fileName() const { return "classes"; } TemplateVariant relPath() const { return ""; } TemplateVariant highlight() const { return "classes"; } TemplateVariant subhighlight() const { return "classindex"; } TemplateVariant title() const { static bool fortranOpt = Config_getBool("OPTIMIZE_FOR_FORTRAN"); static bool vhdlOpt = Config_getBool("OPTIMIZE_OUTPUT_VHDL"); if (fortranOpt) { return theTranslator->trDataTypes(); } else if (vhdlOpt) { return VhdlDocGen::trDesignUnits(); } else { return theTranslator->trCompoundIndex(); } } private: struct Cachable { SharedPtr classes; }; mutable Cachable m_cache; }; ClassIndexContext::ClassIndexContext() : RefCountedContext("ClassIndexContext") { p = new Private; //p->addClasses(*Doxygen::hiddenClasses); } ClassIndexContext::~ClassIndexContext() { delete p; } // TemplateStructIntf TemplateVariant ClassIndexContext::get(const char *n) const { return p->get(n); } //------------------------------------------------------------------------ static int computeMaxDepth(const TemplateListIntf *list) { int maxDepth=0; if (list) { TemplateListIntf::ConstIterator *it = list->createIterator(); TemplateVariant v; for (it->toFirst();it->current(v);it->toNext()) { const TemplateStructIntf *s = v.toStruct(); TemplateVariant child = s->get("children"); int d = computeMaxDepth(child.toList())+1; if (d>maxDepth) maxDepth=d; } delete it; } return maxDepth; } static int computeNumNodesAtLevel(const TemplateStructIntf *s,int level,int maxLevel) { int num=0; if (levelget("children"); if (child.toList()) { TemplateListIntf::ConstIterator *it = child.toList()->createIterator(); TemplateVariant v; for (it->toFirst();it->current(v);it->toNext()) { num+=computeNumNodesAtLevel(v.toStruct(),level+1,maxLevel); } delete it; } } return num; } static int computePreferredDepth(const TemplateListIntf *list,int maxDepth) { int preferredNumEntries = Config_getInt("HTML_INDEX_NUM_ENTRIES"); int preferredDepth=1; if (preferredNumEntries>0) { int depth = maxDepth; for (int i=1;i<=depth;i++) { int num=0; TemplateListIntf::ConstIterator *it = list->createIterator(); TemplateVariant v; for (it->toFirst();it->current(v);it->toNext()) { num+=computeNumNodesAtLevel(v.toStruct(),0,i); } delete it; if (num<=preferredNumEntries) { preferredDepth=i; } else { break; } } } return preferredDepth; } //------------------------------------------------------------------------ //%% struct ClassHierarchy: inheritance tree //%% { class ClassHierarchyContext::Private : public PropertyMapper { public: Private() { m_classTree.reset(NestingContext::alloc(0,0)); initClassHierarchy(Doxygen::classSDict); initClassHierarchy(Doxygen::hiddenClasses); m_classTree->addClassHierarchy(*Doxygen::classSDict,TRUE); m_classTree->addClassHierarchy(*Doxygen::hiddenClasses,TRUE); //%% ClassInheritance tree addProperty("tree", this,&Private::tree); addProperty("fileName", this,&Private::fileName); addProperty("relPath", this,&Private::relPath); addProperty("highlight", this,&Private::highlight); addProperty("subhighlight", this,&Private::subhighlight); addProperty("title", this,&Private::title); addProperty("preferredDepth", this,&Private::preferredDepth); addProperty("maxDepth", this,&Private::maxDepth); addProperty("diagrams", this,&Private::diagrams); } TemplateVariant tree() const { return m_classTree.get(); } TemplateVariant fileName() const { return "hierarchy"; } TemplateVariant relPath() const { return ""; } TemplateVariant highlight() const { return "classes"; } TemplateVariant subhighlight() const { return "classhierarchy"; } DotGfxHierarchyTable *getHierarchy() const { if (!m_cache.hierarchy) { m_cache.hierarchy.reset(new DotGfxHierarchyTable()); } return m_cache.hierarchy.get(); } TemplateVariant diagrams() const { if (!m_cache.diagrams) { TemplateList *diagrams = TemplateList::alloc(); DotGfxHierarchyTable *hierarchy = getHierarchy(); if (hierarchy->subGraphs()) { int id=0; QListIterator li(*hierarchy->subGraphs()); DotNode *n; for (li.toFirst();(n=li.current());++li) { diagrams->append(InheritanceGraphContext::alloc(hierarchy,n,id++)); } } m_cache.diagrams.reset(diagrams); } return m_cache.diagrams.get(); } TemplateVariant title() const { static bool vhdlOpt = Config_getBool("OPTIMIZE_OUTPUT_VHDL"); if (vhdlOpt) { return VhdlDocGen::trDesignUnitHierarchy(); } else { return theTranslator->trClassHierarchy(); } } TemplateVariant maxDepth() const { if (!m_cache.maxDepthComputed) { m_cache.maxDepth = computeMaxDepth(m_classTree.get()); m_cache.maxDepthComputed=TRUE; } return m_cache.maxDepth; } TemplateVariant preferredDepth() const { if (!m_cache.preferredDepthComputed) { m_cache.preferredDepth = computePreferredDepth(m_classTree.get(),maxDepth().toInt()); m_cache.preferredDepthComputed=TRUE; } return m_cache.preferredDepth; } private: SharedPtr m_classTree; struct Cachable { Cachable() : maxDepth(0), maxDepthComputed(FALSE), preferredDepth(0), preferredDepthComputed(FALSE), hierarchy(0) {} int maxDepth; bool maxDepthComputed; int preferredDepth; bool preferredDepthComputed; SharedPtr diagrams; ScopedPtr hierarchy; }; mutable Cachable m_cache; }; //%% } ClassHierarchyContext::ClassHierarchyContext() : RefCountedContext("ClassHierarchyContext") { p = new Private; } ClassHierarchyContext::~ClassHierarchyContext() { delete p; } TemplateVariant ClassHierarchyContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% struct NestingNode: node is a nesting relation tree //%% { class NestingNodeContext::Private : public PropertyMapper { public: Private(const NestingNodeContext *parent,const NestingNodeContext *thisNode, Definition *d,int index,int level,bool addCls,bool inherit, bool hideSuper) : m_parent(parent), m_def(d), m_level(level), m_index(index) { m_children.reset(NestingContext::alloc(thisNode,level+1)); //%% bool is_leaf_node: true if this node does not have any children addProperty("is_leaf_node",this,&Private::isLeafNode); //%% Nesting children: list of nested classes/namespaces addProperty("children",this,&Private::children); //%% [optional] Class class: class info (if this node represents a class) addProperty("class",this,&Private::getClass); //%% [optional] Namespace namespace: namespace info (if this node represents a namespace) addProperty("namespace",this,&Private::getNamespace); //%% [optional] File file: file info (if this node represents a file) addProperty("file",this,&Private::getFile); //%% [optional] Dir dir: directory info (if this node represents a directory) addProperty("dir",this,&Private::getDir); //%% [optional] Page page: page info (if this node represents a page) addProperty("page",this,&Private::getPage); //%% [optional] Module module: module info (if this node represents a module) addProperty("module",this,&Private::getModule); //%% int id addProperty("id",this,&Private::id); //%% string level addProperty("level",this,&Private::level); //%% string name addProperty("name",this,&Private::name); //%% string brief addProperty("brief",this,&Private::brief); //%% bool isLinkable addProperty("isLinkable",this,&Private::isLinkable); addProperty("anchor",this,&Private::anchor); addProperty("fileName",this,&Private::fileName); addNamespaces(addCls); addClasses(inherit,hideSuper); addDirFiles(); addPages(); addModules(); } TemplateVariant isLeafNode() const { return m_children->count()==0; } TemplateVariant children() const { return m_children.get(); } TemplateVariant getClass() const { if (!m_cache.classContext && m_def->definitionType()==Definition::TypeClass) { m_cache.classContext.reset(ClassContext::alloc((ClassDef*)m_def)); } if (m_cache.classContext) { return m_cache.classContext.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant getNamespace() const { if (!m_cache.namespaceContext && m_def->definitionType()==Definition::TypeNamespace) { m_cache.namespaceContext.reset(NamespaceContext::alloc((NamespaceDef*)m_def)); } if (m_cache.namespaceContext) { return m_cache.namespaceContext.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant getDir() const { if (!m_cache.dirContext && m_def->definitionType()==Definition::TypeDir) { m_cache.dirContext.reset(DirContext::alloc((DirDef*)m_def)); } if (m_cache.dirContext) { return m_cache.dirContext.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant getFile() const { if (!m_cache.fileContext && m_def->definitionType()==Definition::TypeFile) { m_cache.fileContext.reset(FileContext::alloc((FileDef*)m_def)); } if (m_cache.fileContext) { return m_cache.fileContext.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant getPage() const { if (!m_cache.pageContext && m_def->definitionType()==Definition::TypePage) { m_cache.pageContext.reset(PageContext::alloc((PageDef*)m_def)); } if (m_cache.pageContext) { return m_cache.pageContext.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant getModule() const { if (!m_cache.moduleContext && m_def->definitionType()==Definition::TypeGroup) { m_cache.moduleContext.reset(ModuleContext::alloc((GroupDef*)m_def)); } if (m_cache.moduleContext) { return m_cache.moduleContext.get(); } else { return TemplateVariant(FALSE); } } TemplateVariant level() const { return m_level; } TemplateVariant id() const { QCString result; if (m_parent) result=m_parent->id(); result+=QCString().setNum(m_index)+"_"; return result; } TemplateVariant name() const { return m_def->displayName(FALSE); } QCString relPathAsString() const { static bool createSubdirs = Config_getBool("CREATE_SUBDIRS"); return createSubdirs ? QCString("../../") : QCString(""); } TemplateVariant brief() const { if (!m_cache.brief) { if (m_def->hasBriefDescription()) { m_cache.brief.reset(new TemplateVariant(parseDoc(m_def,m_def->briefFile(),m_def->briefLine(), "",m_def->briefDescription(),TRUE))); } else { m_cache.brief.reset(new TemplateVariant("")); } } return *m_cache.brief; } TemplateVariant isLinkable() const { return m_def->isLinkable(); } TemplateVariant anchor() const { return m_def->anchor(); } TemplateVariant fileName() const { return m_def->getOutputFileBase(); } //------------------------------------------------------------------ void addClasses(bool inherit, bool hideSuper) { ClassDef *cd = m_def->definitionType()==Definition::TypeClass ? (ClassDef*)m_def : 0; if (cd && inherit) { bool hasChildren = !cd->visited && !hideSuper && classHasVisibleChildren(cd); if (hasChildren) { bool wasVisited=cd->visited; cd->visited=TRUE; if (cd->getLanguage()==SrcLangExt_VHDL) { m_children->addDerivedClasses(cd->baseClasses(),wasVisited); } else { m_children->addDerivedClasses(cd->subClasses(),wasVisited); } } } else { if (cd && cd->getClassSDict()) { m_children->addClasses(*cd->getClassSDict(),FALSE); } } } void addNamespaces(bool addClasses) { NamespaceDef *nd = m_def->definitionType()==Definition::TypeNamespace ? (NamespaceDef*)m_def : 0; if (nd && nd->getNamespaceSDict()) { m_children->addNamespaces(*nd->getNamespaceSDict(),FALSE,addClasses); } if (addClasses && nd && nd->getClassSDict()) { m_children->addClasses(*nd->getClassSDict(),FALSE); } } void addDirFiles() { DirDef *dd = m_def->definitionType()==Definition::TypeDir ? (DirDef*)m_def : 0; if (dd) { m_children->addDirs(dd->subDirs()); if (dd && dd->getFiles()) { m_children->addFiles(*dd->getFiles()); } } } void addPages() { PageDef *pd = m_def->definitionType()==Definition::TypePage ? (PageDef*)m_def : 0; if (pd && pd->getSubPages()) { m_children->addPages(*pd->getSubPages(),FALSE); } } void addModules() { GroupDef *gd = m_def->definitionType()==Definition::TypeGroup ? (GroupDef*)m_def : 0; if (gd && gd->getSubGroups()) { m_children->addModules(*gd->getSubGroups()); } } private: const NestingNodeContext *m_parent; Definition *m_def; SharedPtr m_children; int m_level; int m_index; struct Cachable { SharedPtr classContext; SharedPtr namespaceContext; SharedPtr dirContext; SharedPtr fileContext; SharedPtr pageContext; SharedPtr moduleContext; ScopedPtr brief; }; mutable Cachable m_cache; }; //%% } NestingNodeContext::NestingNodeContext(const NestingNodeContext *parent, Definition *d,int index,int level,bool addClass,bool inherit,bool hideSuper) : RefCountedContext("NestingNodeContext") { p = new Private(parent,this,d,index,level,addClass,inherit,hideSuper); } NestingNodeContext::~NestingNodeContext() { delete p; } TemplateVariant NestingNodeContext::get(const char *n) const { return p->get(n); } QCString NestingNodeContext::id() const { return p->id().toString(); } //------------------------------------------------------------------------ //%% list Nesting[NestingNode]: namespace and class nesting relations class NestingContext::Private : public GenericNodeListContext { public: Private(const NestingNodeContext *parent,int level) : m_parent(parent), m_level(level), m_index(0) {} void addNamespaces(const NamespaceSDict &nsDict,bool rootOnly,bool addClasses) { NamespaceSDict::Iterator nli(nsDict); NamespaceDef *nd; for (nli.toFirst();(nd=nli.current());++nli) { if (nd->localName().find('@')==-1 && (!rootOnly || nd->getOuterScope()==Doxygen::globalScope)) { bool hasChildren = namespaceHasVisibleChild(nd,addClasses); bool isLinkable = nd->isLinkableInProject(); if (isLinkable || hasChildren) { NestingNodeContext *nnc = NestingNodeContext::alloc(m_parent,nd,m_index,m_level,addClasses,FALSE,FALSE); append(nnc); m_index++; } } } } void addClasses(const ClassSDict &clDict,bool rootOnly) { ClassSDict::Iterator cli(clDict); ClassDef *cd; for (;(cd=cli.current());++cli) { if (cd->getLanguage()==SrcLangExt_VHDL) { if ((VhdlDocGen::VhdlClasses)cd->protection()==VhdlDocGen::PACKAGECLASS || (VhdlDocGen::VhdlClasses)cd->protection()==VhdlDocGen::PACKBODYCLASS )// no architecture { continue; } } if (!rootOnly || cd->getOuterScope()==0 || cd->getOuterScope()==Doxygen::globalScope ) { if (classVisibleInIndex(cd) && cd->templateMaster()==0) { NestingNodeContext *nnc = NestingNodeContext::alloc(m_parent,cd,m_index,m_level,TRUE,FALSE,FALSE); append(nnc); m_index++; } } } } void addDirs(const DirSDict &dirDict) { SDict::Iterator dli(dirDict); DirDef *dd; for (dli.toFirst();(dd=dli.current());++dli) { if (dd->getOuterScope()==Doxygen::globalScope) { append(NestingNodeContext::alloc(m_parent,dd,m_index,m_level,FALSE,FALSE,FALSE)); m_index++; } } } void addDirs(const DirList &dirList) { QListIterator li(dirList); DirDef *dd; for (li.toFirst();(dd=li.current());++li) { append(NestingNodeContext::alloc(m_parent,dd,m_index,m_level,FALSE,FALSE,FALSE)); m_index++; } } void addFiles(const FileNameList &fnList) { FileNameListIterator fnli(fnList); FileName *fn; for (fnli.toFirst();(fn=fnli.current());++fnli) { FileNameIterator fni(*fn); FileDef *fd; for (;(fd=fni.current());++fni) { if (fd->getDirDef()==0) // top level file { append(NestingNodeContext::alloc(m_parent,fd,m_index,m_level,FALSE,FALSE,FALSE)); m_index++; } } } } void addFiles(const FileList &fList) { QListIterator li(fList); FileDef *fd; for (li.toFirst();(fd=li.current());++li) { append(NestingNodeContext::alloc(m_parent,fd,m_index,m_level,FALSE,FALSE,FALSE)); m_index++; } } void addPages(const PageSDict &pages,bool rootOnly) { SDict::Iterator pli(pages); PageDef *pd; for (pli.toFirst();(pd=pli.current());++pli) { if (!rootOnly || pd->getOuterScope()==0 || pd->getOuterScope()->definitionType()!=Definition::TypePage) { append(NestingNodeContext::alloc(m_parent,pd,m_index,m_level,FALSE,FALSE,FALSE)); m_index++; } } } void addModules(const GroupSDict &groups) { GroupSDict::Iterator gli(groups); GroupDef *gd; for (gli.toFirst();(gd=gli.current());++gli) { static bool externalGroups = Config_getBool("EXTERNAL_GROUPS"); if (!gd->isASubGroup() && gd->isVisible() && (!gd->isReference() || externalGroups) ) { append(NestingNodeContext::alloc(m_parent,gd,m_index,m_level,FALSE,FALSE,FALSE)); m_index++; } } } void addModules(const GroupList &list) { GroupListIterator gli(list); GroupDef *gd; for (gli.toFirst();(gd=gli.current());++gli) { if (gd->isVisible()) { append(NestingNodeContext::alloc(m_parent,gd,m_index,m_level,FALSE,FALSE,FALSE)); m_index++; } } } void addDerivedClasses(const BaseClassList *bcl,bool hideSuper) { if (bcl==0) return; BaseClassListIterator bcli(*bcl); BaseClassDef *bcd; for (bcli.toFirst() ; (bcd=bcli.current()) ; ++bcli) { ClassDef *cd=bcd->classDef; if (cd->getLanguage()==SrcLangExt_VHDL && (VhdlDocGen::VhdlClasses)cd->protection()!=VhdlDocGen::ENTITYCLASS) { continue; } bool b; if (cd->getLanguage()==SrcLangExt_VHDL) { b=hasVisibleRoot(cd->subClasses()); } else { b=hasVisibleRoot(cd->baseClasses()); } if (cd->isVisibleInHierarchy() && b) { NestingNodeContext *tnc = NestingNodeContext::alloc(m_parent,cd,m_index,m_level,TRUE,TRUE,hideSuper); append(tnc); m_index++; } } } void addClassHierarchy(const ClassSDict &classSDict,bool) { ClassSDict::Iterator cli(classSDict); ClassDef *cd; for (cli.toFirst();(cd=cli.current());++cli) { bool b; if (cd->getLanguage()==SrcLangExt_VHDL) { if ((VhdlDocGen::VhdlClasses)cd->protection()!=VhdlDocGen::ENTITYCLASS) { continue; } b=!hasVisibleRoot(cd->subClasses()); } else { b=!hasVisibleRoot(cd->baseClasses()); } if (b) { if (cd->isVisibleInHierarchy()) // should it be visible { // new root level class NestingNodeContext *nnc = NestingNodeContext::alloc(m_parent,cd,m_index,m_level,TRUE,TRUE,cd->visited); append(nnc); m_index++; } } } } private: const NestingNodeContext *m_parent; int m_level; int m_index; }; NestingContext::NestingContext(const NestingNodeContext *parent,int level) : RefCountedContext("NestingContext") { p = new Private(parent,level); } NestingContext::~NestingContext() { delete p; } // TemplateListIntf int NestingContext::count() const { return p->count(); } TemplateVariant NestingContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *NestingContext::createIterator() const { return p->createIterator(); } void NestingContext::addClasses(const ClassSDict &clDict,bool rootOnly) { p->addClasses(clDict,rootOnly); } void NestingContext::addNamespaces(const NamespaceSDict &nsDict,bool rootOnly,bool addClasses) { p->addNamespaces(nsDict,rootOnly,addClasses); } void NestingContext::addDirs(const DirSDict &dirs) { p->addDirs(dirs); } void NestingContext::addDirs(const DirList &dirs) { p->addDirs(dirs); } void NestingContext::addFiles(const FileNameList &files) { p->addFiles(files); } void NestingContext::addFiles(const FileList &files) { p->addFiles(files); } void NestingContext::addPages(const PageSDict &pages,bool rootOnly) { p->addPages(pages,rootOnly); } void NestingContext::addModules(const GroupSDict &modules) { p->addModules(modules); } void NestingContext::addModules(const GroupList &modules) { p->addModules(modules); } void NestingContext::addClassHierarchy(const ClassSDict &classSDict,bool rootOnly) { p->addClassHierarchy(classSDict,rootOnly); } void NestingContext::addDerivedClasses(const BaseClassList *bcl,bool hideSuper) { p->addDerivedClasses(bcl,hideSuper); } //------------------------------------------------------------------------ //%% struct ClassTree: Class nesting relations //%% { class ClassTreeContext::Private : public PropertyMapper { public: Private() { m_classTree.reset(NestingContext::alloc(0,0)); if (Doxygen::namespaceSDict) { m_classTree->addNamespaces(*Doxygen::namespaceSDict,TRUE,TRUE); } if (Doxygen::classSDict) { m_classTree->addClasses(*Doxygen::classSDict,TRUE); } //%% Nesting tree addProperty("tree",this,&Private::tree); addProperty("fileName",this,&Private::fileName); addProperty("relPath",this,&Private::relPath); addProperty("highlight",this,&Private::highlight); addProperty("subhighlight",this,&Private::subhighlight); addProperty("title",this,&Private::title); addProperty("preferredDepth",this,&Private::preferredDepth); addProperty("maxDepth",this,&Private::maxDepth); } TemplateVariant tree() const { return m_classTree.get(); } TemplateVariant fileName() const { return "annotated"; } TemplateVariant relPath() const { return ""; } TemplateVariant highlight() const { return "classes"; } TemplateVariant subhighlight() const { return "classlist"; } TemplateVariant title() const { static bool fortranOpt = Config_getBool("OPTIMIZE_FOR_FORTRAN"); static bool vhdlOpt = Config_getBool("OPTIMIZE_OUTPUT_VHDL"); if (fortranOpt) { return theTranslator->trCompoundListFortran(); } else if (vhdlOpt) { return VhdlDocGen::trDesignUnitList(); } else { return theTranslator->trClasses(); } } TemplateVariant maxDepth() const { if (!m_cache.maxDepthComputed) { m_cache.maxDepth = computeMaxDepth(m_classTree.get()); m_cache.maxDepthComputed=TRUE; } return m_cache.maxDepth; } TemplateVariant preferredDepth() const { if (!m_cache.preferredDepthComputed) { m_cache.preferredDepth = computePreferredDepth(m_classTree.get(),maxDepth().toInt()); m_cache.preferredDepthComputed=TRUE; } return m_cache.preferredDepth; } private: SharedPtr m_classTree; struct Cachable { Cachable() : maxDepth(0), maxDepthComputed(FALSE), preferredDepth(0), preferredDepthComputed(FALSE) {} int maxDepth; bool maxDepthComputed; int preferredDepth; bool preferredDepthComputed; }; mutable Cachable m_cache; }; //%% } ClassTreeContext::ClassTreeContext() : RefCountedContext("ClassTreeContext") { p = new Private; } ClassTreeContext::~ClassTreeContext() { delete p; } TemplateVariant ClassTreeContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% list NamespaceList[Namespace] : list of namespaces class NamespaceListContext::Private : public GenericNodeListContext { public: void addNamespaces(const NamespaceSDict &nsDict) { NamespaceSDict::Iterator nli(nsDict); NamespaceDef *nd; for (nli.toFirst();(nd=nli.current());++nli) { if (nd->isLinkableInProject()) { append(NamespaceContext::alloc(nd)); } } } }; NamespaceListContext::NamespaceListContext() : RefCountedContext("NamespaceListContext") { p = new Private; p->addNamespaces(*Doxygen::namespaceSDict); } NamespaceListContext::~NamespaceListContext() { delete p; } // TemplateListIntf int NamespaceListContext::count() const { return p->count(); } TemplateVariant NamespaceListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *NamespaceListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% struct NamespaceTree: tree of nested namespace //%% { class NamespaceTreeContext::Private : public PropertyMapper { public: Private() { m_namespaceTree.reset(NestingContext::alloc(0,0)); if (Doxygen::namespaceSDict) { m_namespaceTree->addNamespaces(*Doxygen::namespaceSDict,TRUE,FALSE); } //%% Nesting tree addProperty("tree",this,&Private::tree); addProperty("fileName",this,&Private::fileName); addProperty("relPath",this,&Private::relPath); addProperty("highlight",this,&Private::highlight); addProperty("subhighlight",this,&Private::subhighlight); addProperty("title",this,&Private::title); addProperty("preferredDepth",this,&Private::preferredDepth); addProperty("maxDepth",this,&Private::maxDepth); } TemplateVariant tree() const { return m_namespaceTree.get(); } TemplateVariant fileName() const { return "namespaces"; } TemplateVariant relPath() const { return ""; } TemplateVariant highlight() const { return "namespaces"; } TemplateVariant subhighlight() const { return "namespacelist"; } TemplateVariant title() const { static bool javaOpt = Config_getBool("OPTIMIZE_OUTPUT_JAVA"); static bool fortranOpt = Config_getBool("OPTIMIZE_FOR_FORTRAN"); static bool vhdlOpt = Config_getBool("OPTIMIZE_OUTPUT_VHDL"); if (javaOpt || vhdlOpt) { return theTranslator->trPackages(); } else if (fortranOpt) { return theTranslator->trModulesList(); } else { return theTranslator->trNamespaceList(); } } TemplateVariant maxDepth() const { if (!m_cache.maxDepthComputed) { m_cache.maxDepth = computeMaxDepth(m_namespaceTree.get()); m_cache.maxDepthComputed=TRUE; } return m_cache.maxDepth; } TemplateVariant preferredDepth() const { if (!m_cache.preferredDepthComputed) { m_cache.preferredDepth = computePreferredDepth(m_namespaceTree.get(),maxDepth().toInt()); m_cache.preferredDepthComputed=TRUE; } return m_cache.preferredDepth; } private: SharedPtr m_namespaceTree; struct Cachable { Cachable() : maxDepthComputed(FALSE), preferredDepthComputed(FALSE) {} int maxDepth; bool maxDepthComputed; int preferredDepth; bool preferredDepthComputed; }; mutable Cachable m_cache; }; //%% } NamespaceTreeContext::NamespaceTreeContext() : RefCountedContext("NamespaceTreeContext") { p = new Private; } NamespaceTreeContext::~NamespaceTreeContext() { delete p; } TemplateVariant NamespaceTreeContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% list FileList[File] : list of files class FileListContext::Private : public GenericNodeListContext { public: void addFiles(const FileNameList &fnList) { // TODO: if FULL_PATH_NAMES is enabled, the ordering should be dir+file FileNameListIterator fnli(fnList); FileName *fn; for (fnli.toFirst();(fn=fnli.current());++fnli) { FileNameIterator fni(*fn); FileDef *fd; for (fni.toFirst();(fd=fni.current());++fni) { bool doc = fd->isLinkableInProject(); bool src = fd->generateSourceFile(); bool nameOk = !fd->isDocumentationFile(); if (nameOk && (doc || src) && !fd->isReference()) { append(FileContext::alloc(fd)); } } } } }; FileListContext::FileListContext() : RefCountedContext("FileListContext") { p = new Private; if (Doxygen::inputNameList) p->addFiles(*Doxygen::inputNameList); } FileListContext::~FileListContext() { delete p; } // TemplateListIntf int FileListContext::count() const { return p->count(); } TemplateVariant FileListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *FileListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% list DirList[Dir] : list of files class DirListContext::Private : public GenericNodeListContext { public: Private() { DirDef *dir; DirSDict::Iterator sdi(*Doxygen::directories); for (sdi.toFirst();(dir=sdi.current());++sdi) { append(DirContext::alloc(dir)); } } }; DirListContext::DirListContext() : RefCountedContext("DirListContext") { p = new Private; } DirListContext::~DirListContext() { delete p; } // TemplateListIntf int DirListContext::count() const { return p->count(); } TemplateVariant DirListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *DirListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% list UsedFiles[File] : list of files class UsedFilesContext::Private : public GenericNodeListContext { public: void addFile(FileDef *fd) { append(FileContext::alloc(fd)); } }; UsedFilesContext::UsedFilesContext(ClassDef *cd) : RefCountedContext("UsedFilesContext") { p = new Private; if (cd) { QListIterator li(cd->usedFiles()); FileDef *fd; for (li.toFirst();(fd=li.current());++li) { p->addFile(fd); } } } UsedFilesContext::~UsedFilesContext() { delete p; } // TemplateListIntf int UsedFilesContext::count() const { return p->count(); } TemplateVariant UsedFilesContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *UsedFilesContext::createIterator() const { return p->createIterator(); } void UsedFilesContext::addFile(FileDef *fd) { p->addFile(fd); } //------------------------------------------------------------------------ //%% struct FileTree: tree of directories and files //%% { class FileTreeContext::Private : public PropertyMapper { public: Private() { // Add dirs tree m_dirFileTree.reset(NestingContext::alloc(0,0)); if (Doxygen::directories) { m_dirFileTree->addDirs(*Doxygen::directories); } if (Doxygen::inputNameList) { m_dirFileTree->addFiles(*Doxygen::inputNameList); } //%% DirFile tree: addProperty("tree",this,&Private::tree); addProperty("fileName",this,&Private::fileName); addProperty("relPath",this,&Private::relPath); addProperty("highlight",this,&Private::highlight); addProperty("subhighlight",this,&Private::subhighlight); addProperty("title",this,&Private::title); addProperty("preferredDepth",this,&Private::preferredDepth); addProperty("maxDepth",this,&Private::maxDepth); } TemplateVariant tree() const { return m_dirFileTree.get(); } TemplateVariant fileName() const { return "files"; } TemplateVariant relPath() const { return ""; } TemplateVariant highlight() const { return "files"; } TemplateVariant subhighlight() const { return "filelist"; } TemplateVariant title() const { return theTranslator->trFileList(); } TemplateVariant maxDepth() const { if (!m_cache.maxDepthComputed) { m_cache.maxDepth = computeMaxDepth(m_dirFileTree.get()); m_cache.maxDepthComputed=TRUE; } return m_cache.maxDepth; } TemplateVariant preferredDepth() const { if (!m_cache.preferredDepthComputed) { m_cache.preferredDepth = computePreferredDepth(m_dirFileTree.get(),maxDepth().toInt()); m_cache.preferredDepthComputed=TRUE; } return m_cache.preferredDepth; } private: SharedPtr m_dirFileTree; struct Cachable { Cachable() : maxDepth(0), maxDepthComputed(FALSE), preferredDepth(0), preferredDepthComputed(FALSE) {} int maxDepth; bool maxDepthComputed; int preferredDepth; bool preferredDepthComputed; }; mutable Cachable m_cache; }; //%% } FileTreeContext::FileTreeContext() : RefCountedContext("FileTreeContext") { p = new Private; } FileTreeContext::~FileTreeContext() { delete p; } TemplateVariant FileTreeContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% struct PageTree: tree of related pages //%% { class PageTreeContext::Private : public PropertyMapper { public: Private() { m_pageTree.reset(NestingContext::alloc(0,0)); // Add pages if (Doxygen::pageSDict) { m_pageTree->addPages(*Doxygen::pageSDict,TRUE); } //%% PageNodeList tree: addProperty("tree",this,&Private::tree); addProperty("fileName",this,&Private::fileName); addProperty("relPath",this,&Private::relPath); addProperty("highlight",this,&Private::highlight); addProperty("subhighlight",this,&Private::subhighlight); addProperty("title",this,&Private::title); addProperty("preferredDepth",this,&Private::preferredDepth); addProperty("maxDepth",this,&Private::maxDepth); } TemplateVariant tree() const { return m_pageTree.get(); } TemplateVariant fileName() const { return "pages"; } TemplateVariant relPath() const { return ""; } TemplateVariant highlight() const { return "pages"; } TemplateVariant subhighlight() const { return ""; } TemplateVariant title() const { return theTranslator->trRelatedPages(); } TemplateVariant maxDepth() const { if (!m_cache.maxDepthComputed) { m_cache.maxDepth = computeMaxDepth(m_pageTree.get()); m_cache.maxDepthComputed=TRUE; } return m_cache.maxDepth; } TemplateVariant preferredDepth() const { if (!m_cache.preferredDepthComputed) { m_cache.preferredDepth = computePreferredDepth(m_pageTree.get(),maxDepth().toInt()); m_cache.preferredDepthComputed=TRUE; } return m_cache.preferredDepth; } private: SharedPtr m_pageTree; struct Cachable { Cachable() : maxDepthComputed(FALSE), preferredDepthComputed(FALSE) {} int maxDepth; bool maxDepthComputed; int preferredDepth; bool preferredDepthComputed; }; mutable Cachable m_cache; }; //%% } PageTreeContext::PageTreeContext() : RefCountedContext("PageTreeContext") { p = new Private; } PageTreeContext::~PageTreeContext() { delete p; } TemplateVariant PageTreeContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% list PageList[Page]: list of pages class PageListContext::Private : public GenericNodeListContext { public: void addPages(const PageSDict &pages) { PageSDict::Iterator pdi(pages); PageDef *pd=0; for (pdi.toFirst();(pd=pdi.current());++pdi) { if (!pd->getGroupDef() && !pd->isReference()) { append(PageContext::alloc(pd)); } } } }; PageListContext::PageListContext(const PageSDict *pages) : RefCountedContext("PageListContext") { p = new Private; if (pages) p->addPages(*pages); } PageListContext::~PageListContext() { delete p; } // TemplateListIntf int PageListContext::count() const { return p->count(); } TemplateVariant PageListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *PageListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% list ModuleList[ModuleNode]: list of directories and/or files class ModuleListContext::Private : public GenericNodeListContext { public: void addModules() { GroupSDict::Iterator gli(*Doxygen::groupSDict); GroupDef *gd; for (gli.toFirst();(gd=gli.current());++gli) { if (!gd->isReference()) { append(ModuleContext::alloc(gd)); } } } }; ModuleListContext::ModuleListContext() : RefCountedContext("ModuleListContext") { p = new Private; p->addModules(); } ModuleListContext::~ModuleListContext() { delete p; } // TemplateListIntf int ModuleListContext::count() const { return p->count(); } TemplateVariant ModuleListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *ModuleListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% struct ModuleTree: tree of modules //%% { class ModuleTreeContext::Private : public PropertyMapper { public: Private() { m_moduleTree.reset(NestingContext::alloc(0,0)); // Add modules if (Doxygen::groupSDict) { m_moduleTree->addModules(*Doxygen::groupSDict); } //%% ModuleList tree: addProperty("tree",this,&Private::tree); addProperty("fileName",this,&Private::fileName); addProperty("relPath",this,&Private::relPath); addProperty("highlight",this,&Private::highlight); addProperty("subhighlight",this,&Private::subhighlight); addProperty("title",this,&Private::title); addProperty("preferredDepth",this,&Private::preferredDepth); addProperty("maxDepth",this,&Private::maxDepth); } TemplateVariant tree() const { return m_moduleTree.get(); } TemplateVariant fileName() const { return "modules"; } TemplateVariant relPath() const { return ""; } TemplateVariant highlight() const { return "modules"; } TemplateVariant subhighlight() const { return ""; } TemplateVariant title() const { return theTranslator->trModules(); } TemplateVariant maxDepth() const { if (!m_cache.maxDepthComputed) { m_cache.maxDepth = computeMaxDepth(m_moduleTree.get()); m_cache.maxDepthComputed=TRUE; } return m_cache.maxDepth; } TemplateVariant preferredDepth() const { if (!m_cache.preferredDepthComputed) { m_cache.preferredDepth = computePreferredDepth(m_moduleTree.get(),maxDepth().toInt()); m_cache.preferredDepthComputed=TRUE; } return m_cache.preferredDepth; } private: SharedPtr m_moduleTree; struct Cachable { Cachable() : maxDepthComputed(FALSE), preferredDepthComputed(FALSE) {} int maxDepth; bool maxDepthComputed; int preferredDepth; bool preferredDepthComputed; }; mutable Cachable m_cache; }; //%% } ModuleTreeContext::ModuleTreeContext() : RefCountedContext("ModuleTreeContext") { p = new Private; } ModuleTreeContext::~ModuleTreeContext() { delete p; } TemplateVariant ModuleTreeContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% struct NavPathElem: list of examples page //%% { class NavPathElemContext::Private : public PropertyMapper { public: Private(Definition *def) : m_def(def) { addProperty("isLinkable",this,&Private::isLinkable); addProperty("fileName",this,&Private::fileName); addProperty("anchor",this,&Private::anchor); addProperty("text",this,&Private::text); } TemplateVariant isLinkable() const { return m_def->isLinkable(); } TemplateVariant anchor() const { return m_def->anchor(); } TemplateVariant fileName() const { return m_def->getOutputFileBase(); } TemplateVariant text() const { Definition::DefType type = m_def->definitionType(); QCString text = m_def->localName(); if (type==Definition::TypeGroup) { text = ((const GroupDef*)m_def)->groupTitle(); } else if (type==Definition::TypePage && !(((const PageDef*)m_def)->title().isEmpty())) { text = ((const PageDef*)m_def)->title(); } else if (type==Definition::TypeClass) { if (text.right(2)=="-p") { text = text.left(text.length()-2); } } return text; } private: Definition *m_def; }; //%% } NavPathElemContext::NavPathElemContext(Definition *def) : RefCountedContext("NavPathElemContext") { p = new Private(def); } NavPathElemContext::~NavPathElemContext() { delete p; } TemplateVariant NavPathElemContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% struct ExampleList: list of examples page //%% { class ExampleListContext::Private : public PropertyMapper { public: TemplateVariant items() const { return m_pageList.get(); } TemplateVariant fileName() const { return "examples"; } TemplateVariant relPath() const { return ""; } TemplateVariant highlight() const { return "examples"; } TemplateVariant subhighlight() const { return ""; } TemplateVariant title() const { return theTranslator->trExamples(); } Private() { m_pageList.reset(PageListContext::alloc(Doxygen::exampleSDict)); addProperty("items",this,&Private::items); addProperty("fileName",this,&Private::fileName); addProperty("relPath",this,&Private::relPath); addProperty("highlight",this,&Private::highlight); addProperty("subhighlight",this,&Private::subhighlight); addProperty("title",this,&Private::title); } private: SharedPtr m_pageList; }; //%% } ExampleListContext::ExampleListContext() : RefCountedContext("ExampleListContext") { p = new Private; } ExampleListContext::~ExampleListContext() { delete p; } TemplateVariant ExampleListContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% struct GlobalsIndex: list of examples page //%% { class GlobalsIndexContext::Private : public PropertyMapper { public: Private() { addProperty("all", this,&Private::all); addProperty("functions", this,&Private::functions); addProperty("variables", this,&Private::variables); addProperty("typedefs", this,&Private::typedefs); addProperty("enums", this,&Private::enums); addProperty("enumValues", this,&Private::enumValues); addProperty("macros", this,&Private::macros); addProperty("properties", this,&Private::properties); addProperty("events", this,&Private::events); addProperty("related", this,&Private::related); addProperty("fileName", this,&Private::fileName); addProperty("relPath", this,&Private::relPath); addProperty("highlight", this,&Private::highlight); addProperty("subhighlight",this,&Private::subhighlight); addProperty("title", this,&Private::title); } typedef bool (MemberDef::*MemberFunc)() const; TemplateVariant getMembersFiltered(SharedPtr &listRef,MemberFunc filter) const { if (!listRef) { TemplateList *list = TemplateList::alloc(); MemberName *mn; MemberNameSDict::Iterator fnli(*Doxygen::functionNameSDict); for (fnli.toFirst();(mn=fnli.current());++fnli) { MemberDef *md; MemberNameIterator mni(*mn); for (mni.toFirst();(md=mni.current());++mni) { FileDef *fd=md->getFileDef(); if (fd && fd->isLinkableInProject() && !md->name().isEmpty() && !md->getNamespaceDef() && md->isLinkableInProject()) { if (filter==0 || (md->*filter)()) { list->append(MemberContext::alloc(md)); } } } } listRef.reset(list); } return listRef.get(); } TemplateVariant all() const { return getMembersFiltered(m_cache.all,0); } TemplateVariant functions() const { return getMembersFiltered(m_cache.functions,&MemberDef::isFunction); } TemplateVariant variables() const { return getMembersFiltered(m_cache.variables,&MemberDef::isVariable); } TemplateVariant typedefs() const { return getMembersFiltered(m_cache.typedefs,&MemberDef::isTypedef); } TemplateVariant enums() const { return getMembersFiltered(m_cache.enums,&MemberDef::isEnumerate); } TemplateVariant enumValues() const { return getMembersFiltered(m_cache.enumValues,&MemberDef::isEnumValue); } TemplateVariant macros() const { return getMembersFiltered(m_cache.macros,&MemberDef::isDefine); } TemplateVariant properties() const { return FALSE; } TemplateVariant events() const { return FALSE; } TemplateVariant related() const { return FALSE; } TemplateVariant fileName() const { return "globals"; } TemplateVariant relPath() const { return ""; } TemplateVariant highlight() const { return "files"; } TemplateVariant subhighlight() const { return "filemembers"; } TemplateVariant title() const { return theTranslator->trFileMembers(); } private: struct Cachable { Cachable() {} SharedPtr all; SharedPtr functions; SharedPtr variables; SharedPtr typedefs; SharedPtr enums; SharedPtr enumValues; SharedPtr macros; }; mutable Cachable m_cache; }; //%% } GlobalsIndexContext::GlobalsIndexContext() : RefCountedContext("GlobalsIndexContext") { p = new Private; } GlobalsIndexContext::~GlobalsIndexContext() { delete p; } TemplateVariant GlobalsIndexContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% struct ClassMembersIndex: list of examples page //%% { class ClassMembersIndexContext::Private : public PropertyMapper { public: Private() { addProperty("all", this,&Private::all); addProperty("functions", this,&Private::functions); addProperty("variables", this,&Private::variables); addProperty("typedefs", this,&Private::typedefs); addProperty("enums", this,&Private::enums); addProperty("enumValues", this,&Private::enumValues); addProperty("macros", this,&Private::macros); addProperty("properties", this,&Private::properties); addProperty("events", this,&Private::events); addProperty("related", this,&Private::related); addProperty("fileName", this,&Private::fileName); addProperty("relPath", this,&Private::relPath); addProperty("highlight", this,&Private::highlight); addProperty("subhighlight",this,&Private::subhighlight); addProperty("title", this,&Private::title); } typedef bool (MemberDef::*MemberFunc)() const; TemplateVariant getMembersFiltered(SharedPtr &listRef,MemberFunc filter) const { if (!listRef) { TemplateList *list = TemplateList::alloc(); MemberName *mn; MemberNameSDict::Iterator mnli(*Doxygen::memberNameSDict); for (mnli.toFirst();(mn=mnli.current());++mnli) { MemberDef *md; MemberNameIterator mni(*mn); for (mni.toFirst();(md=mni.current());++mni) { ClassDef *cd = md->getClassDef(); if (cd && cd->isLinkableInProject() && cd->templateMaster()==0 && md->isLinkableInProject() && !md->name().isEmpty()) { if (filter==0 || (md->*filter)()) { list->append(MemberContext::alloc(md)); } } } } listRef.reset(list); } return listRef.get(); } TemplateVariant all() const { return getMembersFiltered(m_cache.all,&MemberDef::isNotFriend); } TemplateVariant functions() const { return getMembersFiltered(m_cache.functions,&MemberDef::isFunctionOrSignalSlot); } TemplateVariant variables() const { return getMembersFiltered(m_cache.variables,&MemberDef::isVariable); } TemplateVariant typedefs() const { return getMembersFiltered(m_cache.typedefs,&MemberDef::isTypedef); } TemplateVariant enums() const { return getMembersFiltered(m_cache.enums,&MemberDef::isEnumerate); } TemplateVariant enumValues() const { return getMembersFiltered(m_cache.enumValues,&MemberDef::isEnumValue); } TemplateVariant macros() const { return FALSE; } TemplateVariant properties() const { return getMembersFiltered(m_cache.properties,&MemberDef::isProperty); } TemplateVariant events() const { return getMembersFiltered(m_cache.events,&MemberDef::isEvent); } TemplateVariant related() const { return getMembersFiltered(m_cache.related,&MemberDef::isRelated); } TemplateVariant fileName() const { return "functions"; } TemplateVariant relPath() const { return ""; } TemplateVariant highlight() const { return "classes"; } TemplateVariant subhighlight() const { return "classmembers"; } TemplateVariant title() const { return theTranslator->trCompoundMembers(); } private: struct Cachable { Cachable() {} SharedPtr all; SharedPtr functions; SharedPtr variables; SharedPtr typedefs; SharedPtr enums; SharedPtr enumValues; SharedPtr properties; SharedPtr events; SharedPtr related; }; mutable Cachable m_cache; }; //%% } ClassMembersIndexContext::ClassMembersIndexContext() : RefCountedContext("ClassMembersIndexContext") { p = new Private; } ClassMembersIndexContext::~ClassMembersIndexContext() { delete p; } TemplateVariant ClassMembersIndexContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% struct NamespaceMembersIndex: list of examples page //%% { class NamespaceMembersIndexContext::Private : public PropertyMapper { public: Private() { addProperty("all", this,&Private::all); addProperty("functions", this,&Private::functions); addProperty("variables", this,&Private::variables); addProperty("typedefs", this,&Private::typedefs); addProperty("enums", this,&Private::enums); addProperty("enumValues", this,&Private::enumValues); addProperty("macros", this,&Private::macros); addProperty("properties", this,&Private::properties); addProperty("events", this,&Private::events); addProperty("related", this,&Private::related); addProperty("fileName", this,&Private::fileName); addProperty("relPath", this,&Private::relPath); addProperty("highlight", this,&Private::highlight); addProperty("subhighlight",this,&Private::subhighlight); addProperty("title", this,&Private::title); } typedef bool (MemberDef::*MemberFunc)() const; TemplateVariant getMembersFiltered(SharedPtr &listRef,MemberFunc filter) const { if (!listRef) { TemplateList *list = TemplateList::alloc(); MemberName *mn; MemberNameSDict::Iterator fnli(*Doxygen::functionNameSDict); for (fnli.toFirst();(mn=fnli.current());++fnli) { MemberDef *md; MemberNameIterator mni(*mn); for (mni.toFirst();(md=mni.current());++mni) { NamespaceDef *nd=md->getNamespaceDef(); if (nd && nd->isLinkableInProject() && !md->name().isEmpty() && md->isLinkableInProject()) { if (filter==0 || (md->*filter)()) { list->append(MemberContext::alloc(md)); } } } } listRef.reset(list); } return listRef.get(); } TemplateVariant all() const { return getMembersFiltered(m_cache.all,0); } TemplateVariant functions() const { return getMembersFiltered(m_cache.functions,&MemberDef::isFunction); } TemplateVariant variables() const { return getMembersFiltered(m_cache.variables,&MemberDef::isVariable); } TemplateVariant typedefs() const { return getMembersFiltered(m_cache.typedefs,&MemberDef::isTypedef); } TemplateVariant enums() const { return getMembersFiltered(m_cache.enums,&MemberDef::isEnumerate); } TemplateVariant enumValues() const { return getMembersFiltered(m_cache.enumValues,&MemberDef::isEnumValue); } TemplateVariant macros() const { return FALSE; } TemplateVariant properties() const { return FALSE; } TemplateVariant events() const { return FALSE; } TemplateVariant related() const { return FALSE; } TemplateVariant fileName() const { return "namespacemembers"; } TemplateVariant relPath() const { return ""; } TemplateVariant highlight() const { return "namespaces"; } TemplateVariant subhighlight() const { return "namespacemembers"; } TemplateVariant title() const { return theTranslator->trNamespaceMembers(); } private: struct Cachable { Cachable() {} SharedPtr all; SharedPtr functions; SharedPtr variables; SharedPtr typedefs; SharedPtr enums; SharedPtr enumValues; }; mutable Cachable m_cache; }; //%% } NamespaceMembersIndexContext::NamespaceMembersIndexContext() : RefCountedContext("NamespaceMembersIndexContext") { p = new Private; } NamespaceMembersIndexContext::~NamespaceMembersIndexContext() { delete p; } TemplateVariant NamespaceMembersIndexContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% struct InheritanceGraph: a connected graph reprenting part of the overall interitance tree //%% { class InheritanceGraphContext::Private : public PropertyMapper { public: Private(DotGfxHierarchyTable *hierarchy,DotNode *n,int id) : m_hierarchy(hierarchy), m_node(n), m_id(id) { addProperty("graph",this,&Private::graph); } TemplateVariant graph() const { QGString result; static bool haveDot = Config_getBool("HAVE_DOT"); static bool graphicalHierarchy = Config_getBool("GRAPHICAL_HIERARCHY"); if (haveDot && graphicalHierarchy) { FTextStream t(&result); m_hierarchy->createGraph(m_node,t, /*GOF_BITMAP, EOF_Html,*/ g_globals.outputDir, g_globals.outputDir+portable_pathSeparator()+"inherits"+Doxygen::htmlFileExtension, m_id); } return TemplateVariant(result.data(),TRUE); } private: DotGfxHierarchyTable *m_hierarchy; DotNode *m_node; int m_id; }; InheritanceGraphContext::InheritanceGraphContext(DotGfxHierarchyTable *hierarchy,DotNode *n,int id) : RefCountedContext("InheritanceGraphContext") { p = new Private(hierarchy,n,id); } InheritanceGraphContext::~InheritanceGraphContext() { delete p; } TemplateVariant InheritanceGraphContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% struct InheritanceNode: a class in the inheritance list //%% { class InheritanceNodeContext::Private : public PropertyMapper { public: Private(ClassDef *cd,const QCString &name) : m_classDef(cd), m_name(name) { addProperty("class",this,&Private::getClass); addProperty("name",this,&Private::name); } TemplateVariant getClass() const { if (!m_classContext) { m_classContext.reset(ClassContext::alloc(m_classDef)); } return m_classContext.get(); } TemplateVariant name() const { return m_name; } private: ClassDef *m_classDef; mutable SharedPtr m_classContext; QCString m_name; }; //%% } InheritanceNodeContext::InheritanceNodeContext(ClassDef *cd,const QCString &name) : RefCountedContext("InheritanceNodeContext") { p = new Private(cd,name); } InheritanceNodeContext::~InheritanceNodeContext() { delete p; } TemplateVariant InheritanceNodeContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% list InheritanceList[InheritanceNode] : list of inherited classes class InheritanceListContext::Private : public GenericNodeListContext { public: void addClass(ClassDef *cd,const QCString &name) { append(InheritanceNodeContext::alloc(cd,name)); } }; InheritanceListContext::InheritanceListContext(const BaseClassList *list, bool baseClasses) : RefCountedContext("InheritanceListContext") { p = new Private; if (list) { BaseClassListIterator li(*list); BaseClassDef *bcd; for (li.toFirst();(bcd=li.current());++li) { ClassDef *cd=bcd->classDef; QCString name; if (baseClasses) { name = insertTemplateSpecifierInScope( cd->displayName(),bcd->templSpecifiers); } else { name = cd->displayName(); } //printf("InheritanceListContext: adding %s baseClass=%d\n",name.data(),baseClasses); p->addClass(cd,name); } } } InheritanceListContext::~InheritanceListContext() { delete p; } // TemplateListIntf int InheritanceListContext::count() const { return p->count(); } TemplateVariant InheritanceListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *InheritanceListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% list MemberList[Member] : list of inherited classes class MemberListContext::Private : public GenericNodeListContext { public: void addMember(MemberDef *md) { append(MemberContext::alloc(md)); } }; MemberListContext::MemberListContext() : RefCountedContext("MemberListContext") { p = new Private; } MemberListContext::MemberListContext(const MemberList *list) : RefCountedContext("MemberListContext") { p = new Private; if (list) { bool details = list->listType()&MemberListType_detailedLists; MemberListIterator mli(*list); MemberDef *md; for (mli.toFirst();(md=mli.current());++mli) { if ((md->isBriefSectionVisible() && !details) || (md->isDetailedSectionLinkable() && details) ) { p->addMember(md); } } } } MemberListContext::MemberListContext(MemberSDict *list,bool doSort) : RefCountedContext("MemberListContext") { p = new Private; if (list) { if (doSort) { list->sort(); } MemberSDict::Iterator it(*list); MemberDef *md; for (it.toFirst();(md=it.current());++it) { p->addMember(md); } } } MemberListContext::~MemberListContext() { delete p; } // TemplateListIntf int MemberListContext::count() const { return p->count(); } TemplateVariant MemberListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *MemberListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% struct MemberInfo: member information //%% { class MemberInfoContext::Private : public PropertyMapper { public: Private(const MemberInfo *mi) : m_memberInfo(mi) { //%% string protection addProperty("protection",this,&Private::protection); //%% string virtualness addProperty("virtualness",this,&Private::virtualness); //%% string ambiguityScope addProperty("ambiguityScope",this,&Private::ambiguityScope); //%% Member member addProperty("member",this,&Private::member); } TemplateVariant protection() const { switch (m_memberInfo->prot) { case ::Public: return "public"; case ::Protected: return "protected"; case ::Private: return "private"; case ::Package: return "package"; } return ""; } TemplateVariant virtualness() const { switch (m_memberInfo->virt) { case ::Normal: return "normal"; case ::Virtual: return "virtual"; case ::Pure: return "pure"; } return ""; } TemplateVariant ambiguityScope() const { return m_memberInfo->ambiguityResolutionScope; } TemplateVariant member() const { if (!m_member && m_memberInfo->memberDef) { m_member.reset(MemberContext::alloc(m_memberInfo->memberDef)); } if (m_member) { return m_member.get(); } else { return TemplateVariant(FALSE); } } private: const MemberInfo *m_memberInfo; mutable SharedPtr m_member; }; //%% } MemberInfoContext::MemberInfoContext(const MemberInfo *mi) : RefCountedContext("MemberInfoContext") { p = new Private(mi); } MemberInfoContext::~MemberInfoContext() { delete p; } TemplateVariant MemberInfoContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% list AllMembersList[MemberList] : list of inherited classes class AllMembersListContext::Private : public GenericNodeListContext { public: Private(const MemberNameInfoSDict *ml) { if (ml) { static bool hideUndocMembers = Config_getBool("HIDE_UNDOC_MEMBERS"); MemberNameInfoSDict::Iterator mnii(*ml); MemberNameInfo *mni; for (mnii.toFirst();(mni=mnii.current());++mnii) { MemberNameInfoIterator mnii2(*mni); MemberInfo *mi; for (mnii2.toFirst();(mi=mnii2.current());++mnii2) { MemberDef *md=mi->memberDef; ClassDef *cd=md->getClassDef(); if (cd && !md->name().isEmpty() && md->name()[0]!='@') { if ((cd->isLinkable() && md->isLinkable()) || (!cd->isArtificial() && !hideUndocMembers && (protectionLevelVisible(md->protection()) || md->isFriend()) ) ) { append(MemberInfoContext::alloc(mi)); } } } } } } }; AllMembersListContext::AllMembersListContext() : RefCountedContext("AllMembersListContext") { p = new Private(0); } AllMembersListContext::AllMembersListContext(const MemberNameInfoSDict *ml) : RefCountedContext("AllMembersListContext") { p = new Private(ml); } AllMembersListContext::~AllMembersListContext() { delete p; } // TemplateListIntf int AllMembersListContext::count() const { return p->count(); } TemplateVariant AllMembersListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *AllMembersListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% struct MemberGroupInfo: member group information //%% { class MemberGroupInfoContext::Private : public PropertyMapper { public: Private(Definition *def,const QCString &relPath,const MemberGroup *mg) : m_def(def), m_relPath(relPath), m_memberGroup(mg) { addProperty("members", this,&Private::members); addProperty("title", this,&Private::groupTitle); addProperty("subtitle", this,&Private::groupSubtitle); addProperty("anchor", this,&Private::groupAnchor); addProperty("memberGroups", this,&Private::memberGroups); addProperty("docs", this,&Private::docs); addProperty("inherited", this,&Private::inherited); } TemplateVariant members() const { if (!m_cache.memberListContext) { m_cache.memberListContext.reset(MemberListContext::alloc(m_memberGroup->members())); } return m_cache.memberListContext.get(); } TemplateVariant groupTitle() const { return m_memberGroup->header(); } TemplateVariant groupSubtitle() const { return ""; } TemplateVariant groupAnchor() const { return m_memberGroup->anchor(); } TemplateVariant memberGroups() const { if (!m_cache.memberGroups) { m_cache.memberGroups.reset(MemberGroupListContext::alloc(m_def,m_relPath,0)); } return m_cache.memberGroups.get(); } TemplateVariant docs() const { if (!m_cache.docs) { QCString docs = m_memberGroup->documentation(); if (!docs.isEmpty()) { m_cache.docs.reset(new TemplateVariant( parseDoc(m_def,"[@name docs]",-1, // TODO store file & line m_relPath, m_memberGroup->documentation()+"\n",FALSE))); } else { m_cache.docs.reset(new TemplateVariant("")); } } return *m_cache.docs; } TemplateVariant inherited() const { return FALSE; } private: Definition *m_def; QCString m_relPath; const MemberGroup *m_memberGroup; struct Cachable { SharedPtr memberListContext; SharedPtr memberGroups; ScopedPtr docs; }; mutable Cachable m_cache; }; //%% } MemberGroupInfoContext::MemberGroupInfoContext(Definition *def, const QCString &relPath,const MemberGroup *mg) : RefCountedContext("MemberGroupInfoContext") { p = new Private(def,relPath,mg); } MemberGroupInfoContext::~MemberGroupInfoContext() { delete p; } TemplateVariant MemberGroupInfoContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% list MemberGroupList[MemberGroupInfo] : list of member groups class MemberGroupListContext::Private : public GenericNodeListContext { public: void addMemberGroup(Definition *def,const QCString &relPath,const MemberGroup *mg) { append(MemberGroupInfoContext::alloc(def,relPath,mg)); } }; MemberGroupListContext::MemberGroupListContext() : RefCountedContext("MemberGroupListContext") { p = new Private; } MemberGroupListContext::MemberGroupListContext(Definition *def,const QCString &relPath,const MemberGroupList *list) : RefCountedContext("MemberGroupListContext") { p = new Private; if (list) { MemberGroupListIterator mgli(*list); MemberGroup *mg; for (;(mg=mgli.current());++mgli) { p->addMemberGroup(def,relPath,mg); } } } MemberGroupListContext::MemberGroupListContext(Definition *def,const QCString &relPath,const MemberGroupSDict *dict,bool subGrouping) : RefCountedContext("MemberGroupListContext") { p = new Private; if (dict) { MemberGroupSDict::Iterator di(*dict); const MemberGroup *mg; for (di.toFirst();(mg=di.current());++di) { if (!mg->allMembersInSameSection() || !subGrouping) { p->addMemberGroup(def,relPath,mg); } } } } MemberGroupListContext::~MemberGroupListContext() { delete p; } // TemplateListIntf int MemberGroupListContext::count() const { return p->count(); } TemplateVariant MemberGroupListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *MemberGroupListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% struct MemberListInfo: member list information //%% { class MemberListInfoContext::Private : public PropertyMapper { public: Private(Definition *def,const QCString &relPath,const MemberList *ml,const QCString &title,const QCString &subtitle) : m_def(def), m_memberList(ml), m_relPath(relPath), m_title(title), m_subtitle(subtitle) { addProperty("members", this,&Private::members); addProperty("title", this,&Private::title); addProperty("subtitle", this,&Private::subtitle); addProperty("anchor", this,&Private::anchor); addProperty("memberGroups", this,&Private::memberGroups); addProperty("inherited", this,&Private::inherited); } TemplateVariant members() const { if (!m_cache.memberListContext) { m_cache.memberListContext.reset(MemberListContext::alloc(m_memberList)); } return m_cache.memberListContext.get(); } TemplateVariant title() const { return m_title; } TemplateVariant subtitle() const { return m_subtitle; } TemplateVariant anchor() const { return MemberList::listTypeAsString(m_memberList->listType()); } TemplateVariant memberGroups() const { if (!m_cache.memberGroups) { m_cache.memberGroups.reset(MemberGroupListContext::alloc(m_def,m_relPath,m_memberList->getMemberGroupList())); } return m_cache.memberGroups.get(); } TemplateVariant inherited() const { if (!m_cache.inherited && (m_memberList->listType()&MemberListType_detailedLists)==0 && m_def->definitionType()==Definition::TypeClass) { InheritedMemberInfoListContext *ctx = InheritedMemberInfoListContext::alloc(); ctx->addMemberList((ClassDef*)m_def,m_memberList->listType(),m_title,FALSE); m_cache.inherited.reset(ctx); } if (m_cache.inherited) { return m_cache.inherited.get(); } else { return TemplateVariant(FALSE); } } private: Definition *m_def; const MemberList *m_memberList; QCString m_relPath; QCString m_title; QCString m_subtitle; struct Cachable { SharedPtr memberListContext; SharedPtr memberGroups; SharedPtr inherited; }; mutable Cachable m_cache; }; //%% } MemberListInfoContext::MemberListInfoContext( Definition *def,const QCString &relPath,const MemberList *ml, const QCString &title,const QCString &subtitle) : RefCountedContext("MemberListInfoContext") { p = new Private(def,relPath,ml,title,subtitle); } MemberListInfoContext::~MemberListInfoContext() { delete p; } TemplateVariant MemberListInfoContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% struct InheritedMemberInfo: inherited member information //%% { class InheritedMemberInfoContext::Private : public PropertyMapper { public: Private(ClassDef *cd,MemberList *ml,const QCString &title) : m_class(cd), m_memberList(ml), m_title(title) { addProperty("class", this,&Private::getClass); addProperty("title", this,&Private::title); addProperty("members", this,&Private::members); addProperty("id", this,&Private::id); addProperty("inheritedFrom", this,&Private::inheritedFrom); } virtual ~Private() { delete m_memberList; } TemplateVariant getClass() const { if (!m_classCtx) { m_classCtx.reset(ClassContext::alloc(m_class)); } return m_classCtx.get(); } TemplateVariant title() const { return m_title; } TemplateVariant members() const { if (!m_memberListCtx) { m_memberListCtx.reset(MemberListContext::alloc(m_memberList)); } return m_memberListCtx.get(); } TemplateVariant id() const { return substitute(MemberList::listTypeAsString(m_memberList->listType()),"-","_")+"_"+ stripPath(m_class->getOutputFileBase()); } TemplateVariant inheritedFrom() const { if (!m_inheritedFrom) { m_inheritedFrom.reset(TemplateList::alloc()); m_inheritedFrom->append(title()); m_inheritedFrom->append(getClass()); } return m_inheritedFrom.get(); } private: ClassDef * m_class; MemberList *m_memberList; QCString m_title; mutable SharedPtr m_classCtx; mutable SharedPtr m_memberListCtx; mutable SharedPtr m_inheritedFrom; }; //%% } InheritedMemberInfoContext::InheritedMemberInfoContext(ClassDef *cd,MemberList *ml, const QCString &title) : RefCountedContext("InheritedMemberInfoContext") { p = new Private(cd,ml,title); } InheritedMemberInfoContext::~InheritedMemberInfoContext() { delete p; } TemplateVariant InheritedMemberInfoContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% list InheritedMemberList[InheritedMemberInfo] : list of inherited classes class InheritedMemberInfoListContext::Private : public GenericNodeListContext { public: void addMemberList(ClassDef *inheritedFrom,MemberList *ml,MemberList *combinedList) { if (ml) { MemberListIterator li(*ml); MemberDef *md; for (li.toFirst();(md=li.current());++li) { if (md->isBriefSectionVisible() && !md->isReimplementedBy(inheritedFrom)) { combinedList->append(md); } } } } void addMemberListIncludingGrouped(ClassDef *inheritedFrom,MemberList *ml,MemberList *combinedList) { if (ml) { addMemberList(inheritedFrom,ml,combinedList); if (ml->getMemberGroupList()) { MemberGroupListIterator mgli(*ml->getMemberGroupList()); MemberGroup *mg; for (mgli.toFirst();(mg=mgli.current());++mgli) { addMemberList(inheritedFrom,mg->members(),combinedList); } } } } void addMemberGroupsOfClass(ClassDef *inheritedFrom, ClassDef *cd,MemberListType lt,MemberList *combinedList) { if (cd->getMemberGroupSDict()) { MemberGroupSDict::Iterator mgli(*cd->getMemberGroupSDict()); MemberGroup *mg; for (;(mg=mgli.current());++mgli) { if (mg->members() && (!mg->allMembersInSameSection() || !cd->subGrouping())) // group is in its own section { MemberListIterator li(*mg->members()); MemberDef *md; for (li.toFirst();(md=li.current());++li) { if (lt==md->getSectionList(mg->parent())->listType() && !md->isReimplementedBy(inheritedFrom) && md->isBriefSectionVisible()) { combinedList->append(md); } } } } } } void addInheritedMembers(ClassDef *inheritedFrom,ClassDef *cd,MemberListType lt, MemberListType lt1,int lt2,const QCString &title,bool additionalList) { int count = cd->countMembersIncludingGrouped(lt1,inheritedFrom,additionalList); if (lt2!=-1) count += cd->countMembersIncludingGrouped((MemberListType)lt2,inheritedFrom,additionalList); if (count>0) { MemberList *ml = cd->getMemberList(lt1); MemberList *ml2 = lt2!=-1 ? cd->getMemberList((MemberListType)lt2) : 0; MemberList *combinedList = new MemberList(lt); addMemberListIncludingGrouped(inheritedFrom,ml,combinedList); addMemberListIncludingGrouped(inheritedFrom,ml2,combinedList); addMemberGroupsOfClass(inheritedFrom,cd,lt,combinedList); if (lt2!=-1) addMemberGroupsOfClass(inheritedFrom,cd,(MemberListType)lt2,combinedList); append(InheritedMemberInfoContext::alloc(cd,combinedList,title)); } } void findInheritedMembers(ClassDef *inheritedFrom,ClassDef *cd,MemberListType lt, int lt2, const QCString &title,bool additionalList, QPtrDict *visitedClasses) { if (cd->baseClasses()) { BaseClassListIterator it(*cd->baseClasses()); BaseClassDef *ibcd; for (it.toFirst();(ibcd=it.current());++it) { ClassDef *icd=ibcd->classDef; if (icd->isLinkable()) { int lt1,lt3; convertProtectionLevel(lt,ibcd->prot,<1,<3); if (lt2==-1 && lt3!=-1) { lt2=lt3; } if (visitedClasses->find(icd)==0) { visitedClasses->insert(icd,icd); // guard for multiple virtual inheritance if (lt1!=-1) { // add member info for members of cd with list type lt addInheritedMembers(inheritedFrom,icd,lt,(MemberListType)lt1,lt2,title,additionalList); // recurse down the inheritance tree findInheritedMembers(inheritedFrom,icd,(MemberListType)lt1,lt2,title,additionalList,visitedClasses); } } } } } } }; InheritedMemberInfoListContext::InheritedMemberInfoListContext() : RefCountedContext("InheritedMemberInfoListContext") { p = new Private; } void InheritedMemberInfoListContext::addMemberList( ClassDef *cd,MemberListType lt,const QCString &title,bool additionalList) { QPtrDict visited(17); bool memberInSection = cd->countMembersIncludingGrouped(lt,cd,FALSE)>0; bool show = (additionalList && !memberInSection) || // inherited member to show in the additional inherited members list (!additionalList && memberInSection); // inherited member to show in a member list of the class //printf("%s:%s show=%d\n",cd->name().data(),MemberList::listTypeAsString(lt).data(),show); if (show) { p->findInheritedMembers(cd,cd,lt,-1,title,additionalList,&visited); } } InheritedMemberInfoListContext::~InheritedMemberInfoListContext() { delete p; } // TemplateListIntf int InheritedMemberInfoListContext::count() const { return p->count(); } TemplateVariant InheritedMemberInfoListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *InheritedMemberInfoListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% struct Argument: parameter information //%% { class ArgumentContext::Private : public PropertyMapper { public: Private(const Argument *arg,Definition *def,const QCString &relPath) : m_argument(arg), m_def(def), m_relPath(relPath) { addProperty("type", this,&Private::type); addProperty("name", this,&Private::name); addProperty("defVal", this,&Private::defVal); addProperty("docs", this,&Private::docs); addProperty("attrib", this,&Private::attrib); addProperty("array", this,&Private::array); addProperty("namePart", this,&Private::namePart); } TemplateVariant type() const { return createLinkedText(m_def,m_relPath,m_argument->type); } TemplateVariant attrib() const { return m_argument->attrib; } TemplateVariant name() const { return m_argument->name; } TemplateVariant defVal() const { return createLinkedText(m_def,m_relPath,m_argument->defval); } TemplateVariant array() const { return m_argument->array; } TemplateVariant docs() const { if (!m_cache.docs && m_def) { if (!m_argument->docs.isEmpty()) { m_cache.docs.reset(new TemplateVariant( parseDoc(m_def,m_def->docFile(),m_def->docLine(), m_relPath,m_argument->docs,TRUE))); } else { m_cache.docs.reset(new TemplateVariant("")); } } return *m_cache.docs; } TemplateVariant namePart() const { QCString result = m_argument->attrib; int l = result.length(); if (l>2 && result.at(0)=='[' && result.at(l-1)==']') { result = result.mid(1,l-2); if (result!=",") result+=":"; // for normal keywords add colon } return result; } private: const Argument *m_argument; Definition *m_def; QCString m_relPath; struct Cachable { ScopedPtr docs; }; mutable Cachable m_cache; }; //%% } ArgumentContext::ArgumentContext(const Argument *al,Definition *def,const QCString &relPath) : RefCountedContext("ArgumentContext") { p = new Private(al,def,relPath); } ArgumentContext::~ArgumentContext() { delete p; } TemplateVariant ArgumentContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% list ArgumentList[Argument] : list of inherited classes class ArgumentListContext::Private : public GenericNodeListContext { public: void addArgument(const Argument *arg,Definition *def,const QCString &relPath) { append(ArgumentContext::alloc(arg,def,relPath)); } }; ArgumentListContext::ArgumentListContext() : RefCountedContext("ArgumentListContext") { p = new Private; } ArgumentListContext::ArgumentListContext(const ArgumentList *list, Definition *def,const QCString &relPath) : RefCountedContext("ArgumentListContext") { p = new Private; if (list) { ArgumentListIterator ali(*list); const Argument *arg; for (ali.toFirst();(arg=ali.current());++ali) { p->addArgument(arg,def,relPath); } } } ArgumentListContext::~ArgumentListContext() { delete p; } // TemplateListIntf int ArgumentListContext::count() const { return p->count(); } TemplateVariant ArgumentListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *ArgumentListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ // SymbolIndex // - name: string // - letter: string // - symbolGroups: SymbolGroupList // SymbolGroupList: list of SymbolGroups // SymbolGroup // - id // - name // - symbols: SymbolList // SymbolList: list of Symbols // Symbol // - obj // - scope // - relPath //------------------------------------------------------------------------ //%% struct SymbolGroup: search group of similar symbols //%% { class SymbolContext::Private : public PropertyMapper { public: Private(const Definition *d,const Definition *prev, const Definition *next) : m_def(d), m_prevDef(prev), m_nextDef(next) { addProperty("fileName",this,&Private::fileName); addProperty("anchor", this,&Private::anchor); addProperty("scope", this,&Private::scope); addProperty("relPath", this,&Private::relPath); } TemplateVariant fileName() const { return m_def->getOutputFileBase(); } TemplateVariant anchor() const { return m_def->anchor(); } TemplateVariant scope() const { const Definition *scope = m_def->getOuterScope(); const Definition *next = m_nextDef; const Definition *prev = m_prevDef; const Definition *nextScope = next ? next->getOuterScope() : 0; const Definition *prevScope = prev ? prev->getOuterScope() : 0; bool isMemberDef = m_def->definitionType()==Definition::TypeMember; const MemberDef *md = isMemberDef ? (const MemberDef*)m_def : 0; bool isFunctionLike = md && (md->isFunction() || md->isSlot() || md->isSignal()); bool overloadedFunction = isFunctionLike && ((prevScope!=0 && scope==prevScope) || (scope && scope==nextScope)); QCString prefix; if (md) prefix=md->localName(); if (overloadedFunction) // overloaded member function { prefix+=md->argsString(); // show argument list to disambiguate overloaded functions } else if (md && isFunctionLike) // unique member function { prefix+="()"; // only to show it is a function } bool found=FALSE; QCString name; if (m_def->definitionType()==Definition::TypeClass) { name = m_def->displayName(); found = TRUE; } else if (m_def->definitionType()==Definition::TypeNamespace) { name = m_def->displayName(); found = TRUE; } else if (scope==0 || scope==Doxygen::globalScope) // in global scope { if (md) { FileDef *fd = md->getBodyDef(); if (fd==0) fd = md->getFileDef(); if (fd) { if (!prefix.isEmpty()) prefix+=": "; name = prefix + convertToXML(fd->localName()); found = TRUE; } } } else if (md && (md->getClassDef() || md->getNamespaceDef())) // member in class or namespace scope { SrcLangExt lang = md->getLanguage(); name = m_def->getOuterScope()->qualifiedName() + getLanguageSpecificSeparator(lang) + prefix; found = TRUE; } else if (scope) // some thing else? -> show scope { name = prefix + convertToXML(scope->name()); found = TRUE; } if (!found) // fallback { name = prefix + "("+theTranslator->trGlobalNamespace()+")"; } return name; } TemplateVariant relPath() const { return externalRef("../",m_def->getReference(),TRUE); } private: const Definition *m_def; const Definition *m_prevDef; const Definition *m_nextDef; }; //%% } SymbolContext::SymbolContext(const Definition *def,const Definition *prevDef,const Definition *nextDef) : RefCountedContext("SymbolContext") { p = new Private(def,prevDef,nextDef); } SymbolContext::~SymbolContext() { delete p; } TemplateVariant SymbolContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% list SymbolList[Symbol] : list of search symbols with the same name class SymbolListContext::Private : public GenericNodeListContext { public: Private(const SearchDefinitionList *sdl) { QListIterator li(*sdl); Definition *def; Definition *prev = 0; for (li.toFirst();(def=li.current());) { ++li; const Definition *next = li.current(); append(SymbolContext::alloc(def,prev,next)); prev = def; } } }; SymbolListContext::SymbolListContext(const SearchDefinitionList *sdl) : RefCountedContext("SymbolListContext") { p = new Private(sdl); } SymbolListContext::~SymbolListContext() { delete p; } // TemplateListIntf int SymbolListContext::count() const { return p->count(); } TemplateVariant SymbolListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *SymbolListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% struct SymbolGroup: search group of similar symbols //%% { class SymbolGroupContext::Private : public PropertyMapper { public: Private(const SearchDefinitionList *sdl) : m_sdl(sdl) { addProperty("id", this,&Private::id); addProperty("name", this,&Private::name); addProperty("symbols",this,&Private::symbolList); } TemplateVariant id() const { return m_sdl->id(); } TemplateVariant name() const { return m_sdl->name(); } TemplateVariant symbolList() const { if (!m_cache.symbolList) { m_cache.symbolList.reset(SymbolListContext::alloc(m_sdl)); } return m_cache.symbolList.get(); } private: const SearchDefinitionList *m_sdl; struct Cachable { SharedPtr symbolList; }; mutable Cachable m_cache; }; //%% } SymbolGroupContext::SymbolGroupContext(const SearchDefinitionList *sdl) : RefCountedContext("SymbolGroupContext") { p = new Private(sdl); } SymbolGroupContext::~SymbolGroupContext() { delete p; } TemplateVariant SymbolGroupContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% list SymbolGroupList[SymbolGroup] : list of search groups one per by name class SymbolGroupListContext::Private : public GenericNodeListContext { public: Private(const SearchIndexList *sil) { SDict::Iterator li(*sil); SearchDefinitionList *dl; for (li.toFirst();(dl=li.current());++li) { append(SymbolGroupContext::alloc(dl)); } } }; SymbolGroupListContext::SymbolGroupListContext(const SearchIndexList *sil) : RefCountedContext("SymbolGroupListContext") { p = new Private(sil); } SymbolGroupListContext::~SymbolGroupListContext() { delete p; } // TemplateListIntf int SymbolGroupListContext::count() const { return p->count(); } TemplateVariant SymbolGroupListContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *SymbolGroupListContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% struct SymbolIndex: search index //%% { class SymbolIndexContext::Private : public PropertyMapper { public: Private(const SearchIndexList *sl,const QCString &name) : m_searchList(sl), m_name(name) { addProperty("name", this,&Private::name); addProperty("letter", this,&Private::letter); addProperty("symbolGroups",this,&Private::symbolGroups); } TemplateVariant name() const { return m_name; } TemplateVariant letter() const { return QString(QChar(m_searchList->letter())).utf8(); } TemplateVariant symbolGroups() const { if (!m_cache.symbolGroups) { m_cache.symbolGroups.reset(SymbolGroupListContext::alloc(m_searchList)); } return m_cache.symbolGroups.get(); } private: const SearchIndexList *m_searchList; QCString m_name; struct Cachable { SharedPtr symbolGroups; }; mutable Cachable m_cache; }; //%% } SymbolIndexContext::SymbolIndexContext(const SearchIndexList *sl,const QCString &name) : RefCountedContext("SymbolIndexContext") { p = new Private(sl,name); } SymbolIndexContext::~SymbolIndexContext() { delete p; } TemplateVariant SymbolIndexContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% list SymbolIndices[SymbolIndex] : list of search indices one per by type class SymbolIndicesContext::Private : public GenericNodeListContext { public: Private(const SearchIndexInfo *info) { // use info->symbolList to populate the list SIntDict::Iterator it(info->symbolList); const SearchIndexList *sl; for (it.toFirst();(sl=it.current());++it) // for each letter { append(SymbolIndexContext::alloc(sl,info->name)); } } }; SymbolIndicesContext::SymbolIndicesContext(const SearchIndexInfo *info) : RefCountedContext("SymbolIndicesContext") { p = new Private(info); } SymbolIndicesContext::~SymbolIndicesContext() { delete p; } // TemplateListIntf int SymbolIndicesContext::count() const { return p->count(); } TemplateVariant SymbolIndicesContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *SymbolIndicesContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ //%% struct SearchIndex: search index //%% { class SearchIndexContext::Private : public PropertyMapper { public: Private(const SearchIndexInfo *info) : m_info(info) { addProperty("name", this,&Private::name); addProperty("text", this,&Private::text); addProperty("symbolIndices",this,&Private::symbolIndices); } TemplateVariant name() const { return m_info->name; } TemplateVariant text() const { return m_info->text; } TemplateVariant symbolIndices() const { if (!m_cache.symbolIndices) { m_cache.symbolIndices.reset(SymbolIndicesContext::alloc(m_info)); } return m_cache.symbolIndices.get(); } private: const SearchIndexInfo *m_info; struct Cachable { SharedPtr symbolIndices; }; mutable Cachable m_cache; }; //%% } SearchIndexContext::SearchIndexContext(const SearchIndexInfo *info) : RefCountedContext("SearchIndexContext") { p = new Private(info); } SearchIndexContext::~SearchIndexContext() { delete p; } TemplateVariant SearchIndexContext::get(const char *name) const { return p->get(name); } //------------------------------------------------------------------------ //%% list SearchIndices[SearchIndex] : list of search indices one per by type class SearchIndicesContext::Private : public GenericNodeListContext { public: Private() { const SearchIndexInfo *indices = getSearchIndices(); for (int i=0;icount(); } TemplateVariant SearchIndicesContext::at(int index) const { return p->at(index); } TemplateListIntf::ConstIterator *SearchIndicesContext::createIterator() const { return p->createIterator(); } //------------------------------------------------------------------------ class HtmlEscaper : public TemplateEscapeIntf { public: QCString escape(const QCString &s) { return convertToHtml(s,TRUE); } void enableTabbing(bool) {} }; //------------------------------------------------------------------------ class LatexSpaceless : public TemplateSpacelessIntf { public: LatexSpaceless() { reset(); } void reset() { } QCString remove(const QCString &s) { QGString result; const char *p = s.data(); char c; while ((c=*p++)) { switch(c) { case '\t': case ' ': case '\n': break; default: result+=c; break; } } result+='\0'; return result.data(); } private: }; //------------------------------------------------------------------------ class HtmlSpaceless : public TemplateSpacelessIntf { public: HtmlSpaceless() { reset(); } void reset() { m_insideTag = FALSE; m_insideString = '\0'; m_removeSpaces = TRUE; } QCString remove(const QCString &s) { QGString result; const char *p = s.data(); char c; while ((c=*p++)) { switch(c) { case '<': // start of a tag if (!m_insideString) m_insideTag=TRUE,m_removeSpaces=FALSE; result+=c; break; case '>': // end of a tag if (!m_insideString) m_insideTag=FALSE,m_removeSpaces=TRUE; result+=c; break; case '\\': // escaped character in a string result+=c; if (m_insideString && *p) result+=*p++; break; case '"': case '\'': if (m_insideTag) { if (m_insideString==c) // end of string { m_insideString='\0'; } else if (m_insideString=='\0') // start of string { m_insideString=c; } } result+=c; break; case ' ': case '\t': case '\n': // whitespace if (!m_insideTag) // outside tags strip consecutive whitespace { m_removeSpaces=TRUE; } else { result+=' '; } break; default: //if (m_removeSpaces) result+=' '; result+=c; m_removeSpaces=FALSE; break; } } result+='\0'; //printf("HtmlSpaceless::remove({%s})={%s} m_insideTag=%d m_insideString=%c (%d) removeSpaces=%d\n",s.data(),result.data(), // m_insideTag,m_insideString,m_insideString,m_removeSpaces); return result.data(); } private: bool m_insideTag; char m_insideString; bool m_removeSpaces; }; //------------------------------------------------------------------------ class LatexEscaper : public TemplateEscapeIntf { public: LatexEscaper() : m_tabbing(FALSE) {} QCString escape(const QCString &s) { return convertToLaTeX(s,m_tabbing); } void enableTabbing(bool b) { m_tabbing=b; } private: bool m_tabbing; }; //------------------------------------------------------------------------ #if DEBUG_REF int RefCountedContext::s_totalCount; #endif void generateOutputViaTemplate() { msg("Generating output via template engine...\n"); { TemplateEngine e; TemplateContext *ctx = e.createContext(); if (ctx) { SharedPtr doxygen (DoxygenContext::alloc()); SharedPtr config (ConfigContext::alloc()); SharedPtr tr (TranslateContext::alloc()); SharedPtr classList (ClassListContext::alloc()); SharedPtr classIndex (ClassIndexContext::alloc()); SharedPtr classTree (ClassTreeContext::alloc()); SharedPtr classHierarchy (ClassHierarchyContext::alloc()); SharedPtr namespaceList (NamespaceListContext::alloc()); SharedPtr namespaceTree (NamespaceTreeContext::alloc()); SharedPtr dirList (DirListContext::alloc()); SharedPtr fileList (FileListContext::alloc()); SharedPtr fileTree (FileTreeContext::alloc()); SharedPtr pageTree (PageTreeContext::alloc()); SharedPtr pageList (PageListContext::alloc(Doxygen::pageSDict)); SharedPtr exampleList (ExampleListContext::alloc()); SharedPtr moduleTree (ModuleTreeContext::alloc()); SharedPtr moduleList (ModuleListContext::alloc()); SharedPtr globalsIndex (GlobalsIndexContext::alloc()); SharedPtr classMembersIndex (ClassMembersIndexContext::alloc()); SharedPtr namespaceMembersIndex(NamespaceMembersIndexContext::alloc()); SharedPtr searchIndices (SearchIndicesContext::alloc()); //%% Doxygen doxygen: ctx->set("doxygen",doxygen.get()); //%% Translator tr: ctx->set("tr",tr.get()); //%% Config config: ctx->set("config",config.get()); //%% ClassList classList: ctx->set("classList",classList.get()); // not used for standard HTML //%% ClassTree classTree: ctx->set("classTree",classTree.get()); //%% ClassIndex classIndex: ctx->set("classIndex",classIndex.get()); //%% ClassHierarchy classHierarchy: ctx->set("classHierarchy",classHierarchy.get()); //%% NamespaceList namespaceList: ctx->set("namespaceList",namespaceList.get()); //%% NamespaceTree namespaceTree: ctx->set("namespaceTree",namespaceTree.get()); //%% FileList fileList: ctx->set("fileList",fileList.get()); //%% FileTree fileTree: ctx->set("fileTree",fileTree.get()); //%% PageList pageList ctx->set("pageList",pageList.get()); //%% PageTree pageTree ctx->set("pageTree",pageTree.get()); //%% ExampleList exampleList ctx->set("exampleList",exampleList.get()); //%% ModuleTree moduleTree ctx->set("moduleTree",moduleTree.get()); //%% ModuleList moduleList ctx->set("moduleList",moduleList.get()); //%% DirList dirList ctx->set("dirList",dirList.get()); //%% Page mainPage if (Doxygen::mainPage) { SharedPtr mainPage(PageContext::alloc(Doxygen::mainPage,TRUE)); ctx->set("mainPage",mainPage.get()); } else { // TODO: for LaTeX output index should be main... => solve in template Doxygen::mainPage = new PageDef("[generated]",1,"index","",theTranslator->trMainPage()); Doxygen::mainPage->setFileName("index",TRUE); SharedPtr mainPage(PageContext::alloc(Doxygen::mainPage,TRUE)); ctx->set("mainPage",mainPage.get()); } //%% GlobalsIndex globalsIndex: ctx->set("globalsIndex",globalsIndex.get()); //%% ClassMembersIndex classMembersIndex: ctx->set("classMembersIndex",classMembersIndex.get()); //%% NamespaceMembersIndex namespaceMembersIndex: ctx->set("namespaceMembersIndex",namespaceMembersIndex.get()); //%% SearchIndicaes searchindicaes ctx->set("searchIndices",searchIndices.get()); //%% string space ctx->set("space"," "); //if (Config_getBool("GENERATE_HTML")) { // render HTML output Template *tpl = e.loadByName("htmllayout.tpl",1); if (tpl) { g_globals.outputFormat = ContextOutputFormat_Html; g_globals.dynSectionId = 0; g_globals.outputDir = Config_getString("HTML_OUTPUT"); QDir dir(g_globals.outputDir); createSubDirs(dir); HtmlEscaper htmlEsc; ctx->setEscapeIntf(Config_getString("HTML_FILE_EXTENSION"),&htmlEsc); HtmlSpaceless spl; ctx->setSpacelessIntf(&spl); ctx->setOutputDirectory(g_globals.outputDir); FTextStream ts; tpl->render(ts,ctx); e.unload(tpl); } } // TODO: clean index before each run... //if (Config_getBool("GENERATE_LATEX")) { // render LaTeX output Template *tpl = e.loadByName("latexlayout.tpl",1); if (tpl) { g_globals.outputFormat = ContextOutputFormat_Latex; g_globals.dynSectionId = 0; g_globals.outputDir = Config_getString("LATEX_OUTPUT"); QDir dir(g_globals.outputDir); createSubDirs(dir); LatexEscaper latexEsc; ctx->setEscapeIntf(".tex",&latexEsc); LatexSpaceless spl; ctx->setSpacelessIntf(&spl); ctx->setOutputDirectory(g_globals.outputDir); FTextStream ts; tpl->render(ts,ctx); e.unload(tpl); } } e.destroyContext(ctx); } } #if DEBUG_REF // should be 0, i.e. all objects are deleted printf("==== total ref count %d\n",RefCountedContext::s_totalCount); #endif }