/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmQtAutoGenerator.h" #include #include #include "cmsys/FStream.hxx" #include "cmQtAutoGen.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" #include "cmValue.h" cmQtAutoGenerator::Logger::Logger() { // Initialize logger { std::string verbose; if (cmSystemTools::GetEnv("VERBOSE", verbose) && !verbose.empty()) { unsigned long iVerbose = 0; if (cmStrToULong(verbose, &iVerbose)) { this->SetVerbosity(static_cast(iVerbose)); } else { // Non numeric verbosity this->SetVerbose(cmIsOn(verbose)); } } } { std::string colorEnv; cmSystemTools::GetEnv("COLOR", colorEnv); if (!colorEnv.empty()) { this->SetColorOutput(cmIsOn(colorEnv)); } else { this->SetColorOutput(true); } } } void cmQtAutoGenerator::Logger::RaiseVerbosity(unsigned int value) { if (this->Verbosity_ < value) { this->Verbosity_ = value; } } void cmQtAutoGenerator::Logger::SetColorOutput(bool value) { this->ColorOutput_ = value; } std::string cmQtAutoGenerator::Logger::HeadLine(cm::string_view title) { return cmStrCat(title, '\n', std::string(title.size(), '-'), '\n'); } void cmQtAutoGenerator::Logger::Info(GenT genType, cm::string_view message) const { std::string msg = cmStrCat(GeneratorName(genType), ": ", message, cmHasSuffix(message, '\n') ? "" : "\n"); { std::lock_guard lock(this->Mutex_); cmSystemTools::Stdout(msg); } } void cmQtAutoGenerator::Logger::Warning(GenT genType, cm::string_view message) const { std::string msg; if (message.find('\n') == std::string::npos) { // Single line message msg = cmStrCat(GeneratorName(genType), " warning: ", message, cmHasSuffix(message, '\n') ? "\n" : "\n\n"); } else { // Multi line message msg = cmStrCat(HeadLine(cmStrCat(GeneratorName(genType), " warning")), message, cmHasSuffix(message, '\n') ? "\n" : "\n\n"); } { std::lock_guard lock(this->Mutex_); cmSystemTools::Stdout(msg); } } void cmQtAutoGenerator::Logger::Error(GenT genType, cm::string_view message) const { std::string msg = cmStrCat('\n', HeadLine(cmStrCat(GeneratorName(genType), " error")), message, cmHasSuffix(message, '\n') ? "\n" : "\n\n"); { std::lock_guard lock(this->Mutex_); cmSystemTools::Stderr(msg); } } void cmQtAutoGenerator::Logger::ErrorCommand( GenT genType, cm::string_view message, std::vector const& command, std::string const& output) const { std::string msg = cmStrCat( '\n', HeadLine(cmStrCat(GeneratorName(genType), " subprocess error")), message, cmHasSuffix(message, '\n') ? "\n" : "\n\n"); msg += cmStrCat(HeadLine("Command"), QuotedCommand(command), "\n\n"); msg += cmStrCat(HeadLine("Output"), output, cmHasSuffix(output, '\n') ? "\n" : "\n\n"); { std::lock_guard lock(this->Mutex_); cmSystemTools::Stderr(msg); } } bool cmQtAutoGenerator::MakeParentDirectory(std::string const& filename) { bool success = true; std::string const dirName = cmSystemTools::GetFilenamePath(filename); if (!dirName.empty()) { success = static_cast(cmSystemTools::MakeDirectory(dirName)); } return success; } bool cmQtAutoGenerator::FileRead(std::string& content, std::string const& filename, std::string* error) { content.clear(); if (!cmSystemTools::FileExists(filename, true)) { if (error) { *error = "Not a file."; } return false; } unsigned long const length = cmSystemTools::FileLength(filename); cmsys::ifstream ifs(filename.c_str(), (std::ios::in | std::ios::binary)); // Use lambda to save destructor calls of ifs return [&ifs, length, &content, error]() -> bool { if (!ifs) { if (error) { *error = "Opening the file for reading failed."; } return false; } content.reserve(length); using IsIt = std::istreambuf_iterator; content.assign(IsIt{ ifs }, IsIt{}); if (!ifs) { content.clear(); if (error) { *error = "Reading from the file failed."; } return false; } return true; }(); } bool cmQtAutoGenerator::FileWrite(std::string const& filename, std::string const& content, std::string* error) { // Make sure the parent directory exists if (!cmQtAutoGenerator::MakeParentDirectory(filename)) { if (error) { *error = "Could not create parent directory."; } return false; } cmsys::ofstream ofs; ofs.open(filename.c_str(), (std::ios::out | std::ios::binary | std::ios::trunc)); // Use lambda to save destructor calls of ofs return [&ofs, &content, error]() -> bool { if (!ofs) { if (error) { *error = "Opening file for writing failed."; } return false; } ofs << content; if (!ofs.good()) { if (error) { *error = "File writing failed."; } return false; } return true; }(); } bool cmQtAutoGenerator::FileDiffers(std::string const& filename, std::string const& content) { bool differs = true; std::string oldContents; if (FileRead(oldContents, filename) && (oldContents == content)) { differs = false; } return differs; } cmQtAutoGenerator::cmQtAutoGenerator(GenT genType) : GenType_(genType) { } cmQtAutoGenerator::~cmQtAutoGenerator() = default; bool cmQtAutoGenerator::InfoT::Read(std::istream& istr) { try { istr >> this->Json_; } catch (...) { return false; } return true; } bool cmQtAutoGenerator::InfoT::GetJsonArray(std::vector& list, Json::Value const& jval) { Json::ArrayIndex const arraySize = jval.size(); if (arraySize == 0) { return false; } bool picked = false; list.reserve(list.size() + arraySize); for (Json::ArrayIndex ii = 0; ii != arraySize; ++ii) { Json::Value const& ival = jval[ii]; if (ival.isString()) { list.emplace_back(ival.asString()); picked = true; } } return picked; } bool cmQtAutoGenerator::InfoT::GetJsonArray( std::unordered_set& list, Json::Value const& jval) { Json::ArrayIndex const arraySize = jval.size(); if (arraySize == 0) { return false; } bool picked = false; list.reserve(list.size() + arraySize); for (Json::ArrayIndex ii = 0; ii != arraySize; ++ii) { Json::Value const& ival = jval[ii]; if (ival.isString()) { list.emplace(ival.asString()); picked = true; } } return picked; } std::string cmQtAutoGenerator::InfoT::ConfigKey(cm::string_view key) const { return cmStrCat(key, '_', this->Gen_.InfoConfig()); } bool cmQtAutoGenerator::InfoT::GetString(std::string const& key, std::string& value, bool required) const { Json::Value const& jval = this->Json_[key]; if (!jval.isString()) { if (!jval.isNull() || required) { return this->LogError(cmStrCat(key, " is not a string.")); } } else { value = jval.asString(); if (value.empty() && required) { return this->LogError(cmStrCat(key, " is empty.")); } } return true; } bool cmQtAutoGenerator::InfoT::GetStringConfig(std::string const& key, std::string& value, bool required) const { { // Try config std::string const configKey = this->ConfigKey(key); Json::Value const& jval = this->Json_[configKey]; if (!jval.isNull()) { if (!jval.isString()) { return this->LogError(cmStrCat(configKey, " is not a string.")); } value = jval.asString(); if (required && value.empty()) { return this->LogError(cmStrCat(configKey, " is empty.")); } return true; } } // Try plain return this->GetString(key, value, required); } bool cmQtAutoGenerator::InfoT::GetBool(std::string const& key, bool& value, bool required) const { Json::Value const& jval = this->Json_[key]; if (jval.isBool()) { value = jval.asBool(); } else { if (!jval.isNull() || required) { return this->LogError(cmStrCat(key, " is not a boolean.")); } } return true; } bool cmQtAutoGenerator::InfoT::GetUInt(std::string const& key, unsigned int& value, bool required) const { Json::Value const& jval = this->Json_[key]; if (jval.isUInt()) { value = jval.asUInt(); } else { if (!jval.isNull() || required) { return this->LogError(cmStrCat(key, " is not an unsigned integer.")); } } return true; } bool cmQtAutoGenerator::InfoT::GetArray(std::string const& key, std::vector& list, bool required) const { Json::Value const& jval = this->Json_[key]; if (!jval.isArray()) { if (!jval.isNull() || required) { return this->LogError(cmStrCat(key, " is not an array.")); } } return GetJsonArray(list, jval) || !required; } bool cmQtAutoGenerator::InfoT::GetArray(std::string const& key, std::unordered_set& list, bool required) const { Json::Value const& jval = this->Json_[key]; if (!jval.isArray()) { if (!jval.isNull() || required) { return this->LogError(cmStrCat(key, " is not an array.")); } } return GetJsonArray(list, jval) || !required; } bool cmQtAutoGenerator::InfoT::GetArrayConfig(std::string const& key, std::vector& list, bool required) const { { // Try config std::string const configKey = this->ConfigKey(key); Json::Value const& jval = this->Json_[configKey]; if (!jval.isNull()) { if (!jval.isArray()) { return this->LogError(cmStrCat(configKey, " is not an array string.")); } if (!GetJsonArray(list, jval) && required) { return this->LogError(cmStrCat(configKey, " is empty.")); } return true; } } // Try plain return this->GetArray(key, list, required); } bool cmQtAutoGenerator::InfoT::LogError(GenT genType, cm::string_view message) const { this->Gen_.Log().Error(genType, cmStrCat("Info error in info file\n", Quoted(this->Gen_.InfoFile()), ":\n", message)); return false; } bool cmQtAutoGenerator::InfoT::LogError(cm::string_view message) const { return this->LogError(this->Gen_.GenType_, message); } std::string cmQtAutoGenerator::SettingsFind(cm::string_view content, cm::string_view key) { cm::string_view res; std::string const prefix = cmStrCat(key, ':'); cm::string_view::size_type pos = content.find(prefix); if (pos != cm::string_view::npos) { pos += prefix.size(); if (pos < content.size()) { cm::string_view::size_type posE = content.find('\n', pos); if ((posE != cm::string_view::npos) && (posE != pos)) { res = content.substr(pos, posE - pos); } } } return std::string(res); } std::string cmQtAutoGenerator::MessagePath(cm::string_view path) const { std::string res; if (cmHasPrefix(path, this->ProjectDirs().Source)) { res = cmStrCat("SRC:", path.substr(this->ProjectDirs().Source.size())); } else if (cmHasPrefix(path, this->ProjectDirs().Binary)) { res = cmStrCat("BIN:", path.substr(this->ProjectDirs().Binary.size())); } else { res = std::string(path); } return cmQtAutoGen::Quoted(res); } bool cmQtAutoGenerator::Run(cm::string_view infoFile, cm::string_view config, cm::string_view executableConfig) { // Info config this->InfoConfig_ = std::string(config); this->ExecutableConfig_ = std::string(executableConfig); // Info file this->InfoFile_ = std::string(infoFile); cmSystemTools::CollapseFullPath(this->InfoFile_); this->InfoDir_ = cmSystemTools::GetFilenamePath(this->InfoFile_); // Load info file time if (!this->InfoFileTime_.Load(this->InfoFile_)) { cmSystemTools::Stderr(cmStrCat("AutoGen: The info file ", Quoted(this->InfoFile_), " is not readable\n")); return false; } { InfoT info(*this); // Read info file { cmsys::ifstream ifs(this->InfoFile_.c_str(), (std::ios::in | std::ios::binary)); if (!ifs) { this->Log().Error( this->GenType_, cmStrCat("Could not to open info file ", Quoted(this->InfoFile_))); return false; } if (!info.Read(ifs)) { this->Log().Error( this->GenType_, cmStrCat("Could not read info file ", Quoted(this->InfoFile_))); return false; } } // -- Read common info settings { unsigned int verbosity = 0; // Info: setup project directories if (!info.GetUInt("VERBOSITY", verbosity, false) || !info.GetString("CMAKE_SOURCE_DIR", this->ProjectDirs_.Source, true) || !info.GetString("CMAKE_BINARY_DIR", this->ProjectDirs_.Binary, true) || !info.GetString("CMAKE_CURRENT_SOURCE_DIR", this->ProjectDirs_.CurrentSource, true) || !info.GetString("CMAKE_CURRENT_BINARY_DIR", this->ProjectDirs_.CurrentBinary, true)) { return false; } this->Logger_.RaiseVerbosity(verbosity); } // -- Call virtual init from info method. if (!this->InitFromInfo(info)) { return false; } } // Call virtual process method. return this->Process(); }