/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmDepends.h" #include #include "cmsys/FStream.hxx" #include "cmFileTime.h" #include "cmFileTimeCache.h" #include "cmGeneratedFileStream.h" #include "cmLocalUnixMakefileGenerator3.h" #include "cmMakefile.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" cmDepends::cmDepends(cmLocalUnixMakefileGenerator3* lg, std::string targetDir) : LocalGenerator(lg) , TargetDirectory(std::move(targetDir)) { } cmDepends::~cmDepends() = default; bool cmDepends::Write(std::ostream& makeDepends, std::ostream& internalDepends) { std::map> dependencies; { // Lookup the set of sources to scan. std::vector pairs; { std::string const srcLang = "CMAKE_DEPENDS_CHECK_" + this->Language; cmMakefile* mf = this->LocalGenerator->GetMakefile(); cmExpandList(mf->GetSafeDefinition(srcLang), pairs); } for (auto si = pairs.begin(); si != pairs.end();) { // Get the source and object file. std::string const& src = *si++; if (si == pairs.end()) { break; } std::string const& obj = *si++; dependencies[obj].insert(src); } } for (auto const& d : dependencies) { // Write the dependencies for this pair. if (!this->WriteDependencies(d.second, d.first, makeDepends, internalDepends)) { return false; } } return this->Finalize(makeDepends, internalDepends); } bool cmDepends::Finalize(std::ostream& /*unused*/, std::ostream& /*unused*/) { return true; } bool cmDepends::Check(const std::string& makeFile, const std::string& internalFile, DependencyMap& validDeps) { // Check whether dependencies must be regenerated. bool okay = true; cmsys::ifstream fin(internalFile.c_str()); if (!(fin && this->CheckDependencies(fin, internalFile, validDeps))) { // Clear all dependencies so they will be regenerated. this->Clear(makeFile); cmSystemTools::RemoveFile(internalFile); this->FileTimeCache->Remove(internalFile); okay = false; } return okay; } void cmDepends::Clear(const std::string& file) { // Print verbose output. if (this->Verbose) { cmSystemTools::Stdout( cmStrCat("Clearing dependencies in \"", file, "\".\n")); } // Write an empty dependency file. cmGeneratedFileStream depFileStream(file); depFileStream << "# Empty dependencies file\n" "# This may be replaced when dependencies are built.\n"; } bool cmDepends::WriteDependencies(const std::set& /*unused*/, const std::string& /*unused*/, std::ostream& /*unused*/, std::ostream& /*unused*/) { // This should be implemented by the subclass. return false; } bool cmDepends::CheckDependencies(std::istream& internalDepends, const std::string& internalDependsFileName, DependencyMap& validDeps) { // Read internal depends file time cmFileTime internalDependsTime; if (!this->FileTimeCache->Load(internalDependsFileName, internalDependsTime)) { return false; } // Parse dependencies from the stream. If any dependee is missing // or newer than the depender then dependencies should be // regenerated. bool okay = true; bool dependerExists = false; std::string line; line.reserve(1024); std::string depender; std::string dependee; cmFileTime dependerTime; cmFileTime dependeeTime; std::vector* currentDependencies = nullptr; while (std::getline(internalDepends, line)) { // Check if this an empty or a comment line if (line.empty() || line.front() == '#') { continue; } // Drop carriage return character at the end if (line.back() == '\r') { line.pop_back(); if (line.empty()) { continue; } } // Check if this a depender line if (line.front() != ' ') { depender = line; dependerExists = this->FileTimeCache->Load(depender, dependerTime); // If we erase validDeps[this->Depender] by overwriting it with an empty // vector, we lose dependencies for dependers that have multiple // entries. No need to initialize the entry, std::map will do so on first // access. currentDependencies = &validDeps[depender]; continue; } // This is a dependee line dependee = line.substr(1); // Add dependee to depender's list if (currentDependencies != nullptr) { currentDependencies->push_back(dependee); } // Dependencies must be regenerated // * if the dependee does not exist // * if the depender exists and is older than the dependee. // * if the depender does not exist, but the dependee is newer than the // depends file bool regenerate = false; bool dependeeExists = this->FileTimeCache->Load(dependee, dependeeTime); if (!dependeeExists) { // The dependee does not exist. regenerate = true; // Print verbose output. if (this->Verbose) { cmSystemTools::Stdout(cmStrCat("Dependee \"", dependee, "\" does not exist for depender \"", depender, "\".\n")); } } else if (dependerExists) { // The dependee and depender both exist. Compare file times. if (dependerTime.Older(dependeeTime)) { // The depender is older than the dependee. regenerate = true; // Print verbose output. if (this->Verbose) { cmSystemTools::Stdout(cmStrCat("Dependee \"", dependee, "\" is newer than depender \"", depender, "\".\n")); } } } else { // The dependee exists, but the depender doesn't. Regenerate if the // internalDepends file is older than the dependee. if (internalDependsTime.Older(dependeeTime)) { // The depends-file is older than the dependee. regenerate = true; // Print verbose output. if (this->Verbose) { cmSystemTools::Stdout(cmStrCat("Dependee \"", dependee, "\" is newer than depends file \"", internalDependsFileName, "\".\n")); } } } if (regenerate) { // Dependencies must be regenerated. okay = false; // Remove the information of this depender from the map, it needs // to be rescanned if (currentDependencies != nullptr) { validDeps.erase(depender); currentDependencies = nullptr; } // Remove the depender to be sure it is rebuilt. if (dependerExists) { cmSystemTools::RemoveFile(depender); this->FileTimeCache->Remove(depender); dependerExists = false; } } } return okay; } void cmDepends::SetIncludePathFromLanguage(const std::string& lang) { // Look for the new per "TARGET_" variant first: const char* includePath = nullptr; std::string includePathVar = cmStrCat("CMAKE_", lang, "_TARGET_INCLUDE_PATH"); cmMakefile* mf = this->LocalGenerator->GetMakefile(); includePath = mf->GetDefinition(includePathVar); if (includePath) { cmExpandList(includePath, this->IncludePath); } else { // Fallback to the old directory level variable if no per-target var: includePathVar = cmStrCat("CMAKE_", lang, "_INCLUDE_PATH"); includePath = mf->GetDefinition(includePathVar); if (includePath) { cmExpandList(includePath, this->IncludePath); } } }