/*========================================================================= Program: CMake - Cross-Platform Makefile Generator Module: $RCSfile$ Language: C++ Date: $Date$ Version: $Revision$ Copyright (c) 2002 Kitware, Inc., Insight Consortium. All rights reserved. See Copyright.txt or http://www.cmake.org/HTML/Copyright.html for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notices for more information. =========================================================================*/ #ifndef cmTarget_h #define cmTarget_h #include "cmCustomCommand.h" class cmMakefile; class cmSourceFile; class cmGlobalGenerator; /** \class cmTarget * \brief Represent a library or executable target loaded from a makefile. * * cmTarget represents a target loaded from * a makefile. */ class cmTarget { public: cmTarget(); enum TargetType { EXECUTABLE, STATIC_LIBRARY, SHARED_LIBRARY, MODULE_LIBRARY, UTILITY, INSTALL_FILES, INSTALL_PROGRAMS }; enum CustomCommandType { PRE_BUILD, PRE_LINK, POST_BUILD }; /** * Return the type of target. */ TargetType GetType() { return m_TargetType; } /** * Set the target type */ void SetType(TargetType f, const char* name); ///! Set/Get the name of the target const char* GetName() {return m_Name.c_str();} /** * Indicate whether the target is part of the all target */ bool IsInAll() { return this->GetPropertyAsBool("IN_ALL"); } bool GetInAll() { return this->GetPropertyAsBool("IN_ALL"); } void SetInAll(bool f) { this->SetProperty("IN_ALL", (f) ?"TRUE" : "FALSE"); } ///! Set the cmMakefile that owns this target void SetMakefile(cmMakefile *mf); cmMakefile *GetMakefile() { return m_Makefile;}; /** * Get the list of the custom commands for this target */ std::vector &GetPreBuildCommands() {return m_PreBuildCommands;} std::vector &GetPreLinkCommands() {return m_PreLinkCommands;} std::vector &GetPostBuildCommands() {return m_PostBuildCommands;} /** * Get the list of the source lists used by this target */ std::vector &GetSourceLists() {return m_SourceLists;} ///! Return the list of frameworks being linked to this target std::vector &GetFrameworks() {return m_Frameworks;} /** * Get the list of the source files used by this target */ std::vector &GetSourceFiles() {return m_SourceFiles;} /** * Get the list of the source files used by this target */ enum LinkLibraryType {GENERAL, DEBUG, OPTIMIZED}; typedef std::vector > LinkLibraries; const LinkLibraries &GetLinkLibraries() {return m_LinkLibraries;} /** * Clear the dependency information recorded for this target, if any. */ void ClearDependencyInformation(cmMakefile& mf, const char* target); // Check to see if a library is a framework and treat it different on Mac bool AddFramework(const std::string& lib, LinkLibraryType llt); void AddLinkLibrary(cmMakefile& mf, const char *target, const char* lib, LinkLibraryType llt); void AddLinkLibrary(const std::string& lib, LinkLibraryType llt); void MergeLinkLibraries( cmMakefile& mf, const char* selfname, const LinkLibraries& libs ); const std::vector& GetLinkDirectories(); void AddLinkDirectory(const char* d); /** * Set the path where this target should be installed. This is relative to * INSTALL_PREFIX */ std::string GetInstallPath() {return m_InstallPath;} void SetInstallPath(const char *name) {m_InstallPath = name;} /** * Set the path where this target (if it has a runtime part) should be * installed. This is relative to INSTALL_PREFIX */ std::string GetRuntimeInstallPath() {return m_RuntimeInstallPath;} void SetRuntimeInstallPath(const char *name) {m_RuntimeInstallPath = name;} /** * Generate the SourceFilesList from the SourceLists. This should only be * done once to be safe. */ void GenerateSourceFilesFromSourceLists(cmMakefile &mf); /** Add a utility on which this project depends. A utility is an executable * name as would be specified to the ADD_EXECUTABLE or UTILITY_SOURCE * commands. It is not a full path nor does it have an extension. */ void AddUtility(const char* u) { m_Utilities.insert(u);} ///! Get the utilities used by this target std::setconst& GetUtilities() { return m_Utilities; } void AnalyzeLibDependencies( const cmMakefile& mf ); ///! Set/Get a property of this target file void SetProperty(const char *prop, const char *value); const char *GetProperty(const char *prop); bool GetPropertyAsBool(const char *prop); const char* GetDirectory(); const char* GetLocation(const char* config); /** * Trace through the source files in this target and add al source files * that they depend on, used by the visual studio generators */ void TraceVSDependencies(std::string projName, cmMakefile *mf); ///! Return the prefered linker language for this target const char* GetLinkerLanguage(cmGlobalGenerator*); ///! Return the rule variable used to create this type of target, // need to add CMAKE_(LANG) for full name. const char* GetCreateRuleVariable(); /** Get the full name of the target according to the settings in its makefile. */ std::string GetFullName(const char* config=0, bool implib = false); void GetFullName(std::string& prefix, std::string& base, std::string& suffix, const char* config=0, bool implib = false); /** Get the full path to the target according to the settings in its makefile and the configuration type. */ std::string GetFullPath(const char* config=0, bool implib = false); /** Get the names of the library needed to generate a build rule that takes into account shared library version numbers. This should be called only on a library target. */ void GetLibraryNames(std::string& name, std::string& soName, std::string& realName, std::string& impName, const char* config); /** Get the names of the library used to remove existing copies of the library from the build tree either before linking or during a clean step. This should be called only on a library target. */ void GetLibraryCleanNames(std::string& staticName, std::string& sharedName, std::string& sharedSOName, std::string& sharedRealName, std::string& importName, const char* config); /** Get the names of the executable needed to generate a build rule that takes into account executable version numbers. This should be called only on an executable target. */ void GetExecutableNames(std::string& name, std::string& realName, const char* config); /** Get the names of the executable used to remove existing copies of the executable from the build tree either before linking or during a clean step. This should be called only on an executable target. */ void GetExecutableCleanNames(std::string& name, std::string& realName, const char* config); /** * Compute whether this target must be relinked before installing. */ bool NeedRelinkBeforeInstall(); bool HaveBuildTreeRPATH(); bool HaveInstallTreeRPATH(); private: /** * A list of direct dependencies. Use in conjunction with DependencyMap. */ typedef std::vector DependencyList; /** * This map holds the dependency graph. map[x] returns a set of * direct dependencies of x. Note that the direct depenencies are * ordered. This is necessary to handle direct dependencies that * themselves have no dependency information. */ typedef std::map< cmStdString, std::vector< cmStdString > > DependencyMap; /** * Maps a library name to its internal structure */ typedef std::map< cmStdString, std::pair > LibTypeMap; /** * Inserts \a dep at the end of the dependency list of \a lib. */ void InsertDependency( DependencyMap& depMap, const cmStdString& lib, const cmStdString& dep ); /* * Deletes \a dep from the dependency list of \a lib. */ void DeleteDependency( DependencyMap& depMap, const cmStdString& lib, const cmStdString& dep ); /** * Emits the library \a lib and all its dependencies into link_line. * \a emitted keeps track of the libraries that have been emitted to * avoid duplicates--it is more efficient than searching * link_line. \a visited is used detect cycles. Note that \a * link_line is in reverse order, in that the dependencies of a * library are listed before the library itself. */ void Emit( const std::string& lib, const DependencyMap& dep_map, std::set& emitted, std::set& visited, std::vector& link_line ); /** * Finds the dependencies for \a lib and inserts them into \a * dep_map. */ void GatherDependencies( const cmMakefile& mf, const std::string& lib, DependencyMap& dep_map ); const char* GetSuffixVariableInternal(TargetType type, bool implib); const char* GetPrefixVariableInternal(TargetType type, bool implib); std::string GetFullNameInternal(TargetType type, const char* config, bool implib); void GetFullNameInternal(TargetType type, const char* config, bool implib, std::string& outPrefix, std::string& outBase, std::string& outSuffix); void GetLibraryNamesInternal(std::string& name, std::string& soName, std::string& realName, std::string& impName, TargetType type, const char* config); void GetExecutableNamesInternal(std::string& name, std::string& realName, TargetType type, const char* config); // update the value of the LOCATION var void UpdateLocation(); // Use a makefile variable to set a default for the given property. // If the variable is not defined use the given default instead. void SetPropertyDefault(const char* property, const char* default_value); private: std::string m_Name; std::vector m_PreBuildCommands; std::vector m_PreLinkCommands; std::vector m_PostBuildCommands; std::vector m_SourceLists; TargetType m_TargetType; std::vector m_SourceFiles; LinkLibraries m_LinkLibraries; LinkLibraries m_PrevLinkedLibraries; bool m_LinkLibrariesAnalyzed; bool m_LinkDirectoriesComputed; std::vector m_Frameworks; std::vector m_LinkDirectories; std::vector m_ExplicitLinkDirectories; std::string m_InstallPath; std::string m_RuntimeInstallPath; std::string m_Directory; std::string m_Location; std::set m_Utilities; bool m_RecordDependencies; std::map m_Properties; // The cmMakefile instance that owns this target. This should // always be set. cmMakefile* m_Makefile; }; typedef std::map cmTargets; #endif