/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmake.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #if defined(_WIN32) && !defined(__CYGWIN__) && !defined(CMAKE_BOOT_MINGW) # include #endif #include #include #if !defined(CMAKE_BOOTSTRAP) && !defined(_WIN32) # include #endif #include "cmsys/FStream.hxx" #include "cmsys/Glob.hxx" #include "cmsys/RegularExpression.hxx" #include "cm_sys_stat.h" #include "cmBuildOptions.h" #include "cmCMakePath.h" #include "cmCMakePresetsGraph.h" #include "cmCommandLineArgument.h" #include "cmCommands.h" #include "cmDocumentation.h" #include "cmDocumentationEntry.h" #include "cmDuration.h" #include "cmExternalMakefileProjectGenerator.h" #include "cmFileTimeCache.h" #include "cmGeneratorTarget.h" #include "cmGlobalGenerator.h" #include "cmGlobalGeneratorFactory.h" #include "cmLinkLineComputer.h" #include "cmLocalGenerator.h" #include "cmMakefile.h" #if !defined(CMAKE_BOOTSTRAP) # include "cmMakefileProfilingData.h" #endif #include "cmMessenger.h" #include "cmState.h" #include "cmStateDirectory.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" #include "cmTarget.h" #include "cmTargetLinkLibraryType.h" #include "cmUVProcessChain.h" #include "cmUtils.hxx" #include "cmVersionConfig.h" #include "cmWorkingDirectory.h" #if !defined(CMAKE_BOOTSTRAP) # include # include # include # include "cmConfigureLog.h" # include "cmFileAPI.h" # include "cmGraphVizWriter.h" # include "cmVariableWatch.h" #endif #if defined(__MINGW32__) && defined(CMAKE_BOOTSTRAP) # define CMAKE_BOOT_MINGW #endif // include the generator #if defined(_WIN32) && !defined(__CYGWIN__) # if !defined(CMAKE_BOOT_MINGW) # include # include "cmGlobalBorlandMakefileGenerator.h" # include "cmGlobalJOMMakefileGenerator.h" # include "cmGlobalNMakeMakefileGenerator.h" # include "cmGlobalVisualStudio11Generator.h" # include "cmGlobalVisualStudio12Generator.h" # include "cmGlobalVisualStudio14Generator.h" # include "cmGlobalVisualStudio9Generator.h" # include "cmGlobalVisualStudioVersionedGenerator.h" # include "cmVSSetupHelper.h" # define CMAKE_HAVE_VS_GENERATORS # endif # include "cmGlobalMSYSMakefileGenerator.h" # include "cmGlobalMinGWMakefileGenerator.h" #else #endif #if defined(CMAKE_USE_WMAKE) # include "cmGlobalWatcomWMakeGenerator.h" #endif #if !defined(CMAKE_BOOTSTRAP) # include "cmGlobalNinjaGenerator.h" # include "cmGlobalUnixMakefileGenerator3.h" #elif defined(CMAKE_BOOTSTRAP_MAKEFILES) # include "cmGlobalUnixMakefileGenerator3.h" #elif defined(CMAKE_BOOTSTRAP_NINJA) # include "cmGlobalNinjaGenerator.h" #endif #if !defined(CMAKE_BOOTSTRAP) # include "cmExtraCodeBlocksGenerator.h" # include "cmExtraCodeLiteGenerator.h" # include "cmExtraEclipseCDT4Generator.h" # include "cmExtraKateGenerator.h" # include "cmExtraSublimeTextGenerator.h" #endif // NOTE: the __linux__ macro is predefined on Android host too, but // main CMakeLists.txt filters out this generator by host name. #if (defined(__linux__) && !defined(__ANDROID__)) || defined(_WIN32) # include "cmGlobalGhsMultiGenerator.h" #endif #if defined(__APPLE__) # if !defined(CMAKE_BOOTSTRAP) # include "cmGlobalXCodeGenerator.h" # define CMAKE_USE_XCODE 1 # endif # include # include #endif namespace { #if !defined(CMAKE_BOOTSTRAP) using JsonValueMapType = std::unordered_map; #endif auto IgnoreAndTrueLambda = [](std::string const&, cmake*) -> bool { return true; }; using CommandArgument = cmCommandLineArgument; #ifndef CMAKE_BOOTSTRAP void cmWarnUnusedCliWarning(const std::string& variable, int /*unused*/, void* ctx, const char* /*unused*/, const cmMakefile* /*unused*/) { cmake* cm = reinterpret_cast(ctx); cm->MarkCliAsUsed(variable); } #endif bool cmakeCheckStampFile(const std::string& stampName) { // The stamp file does not exist. Use the stamp dependencies to // determine whether it is really out of date. This works in // conjunction with cmLocalVisualStudio7Generator to avoid // repeatedly re-running CMake when the user rebuilds the entire // solution. std::string stampDepends = cmStrCat(stampName, ".depend"); #if defined(_WIN32) || defined(__CYGWIN__) cmsys::ifstream fin(stampDepends.c_str(), std::ios::in | std::ios::binary); #else cmsys::ifstream fin(stampDepends.c_str()); #endif if (!fin) { // The stamp dependencies file cannot be read. Just assume the // build system is really out of date. std::cout << "CMake is re-running because " << stampName << " dependency file is missing.\n"; return false; } // Compare the stamp dependencies against the dependency file itself. { cmFileTimeCache ftc; std::string dep; while (cmSystemTools::GetLineFromStream(fin, dep)) { int result; if (!dep.empty() && dep[0] != '#' && (!ftc.Compare(stampDepends, dep, &result) || result < 0)) { // The stamp depends file is older than this dependency. The // build system is really out of date. /* clang-format off */ std::cout << "CMake is re-running because " << stampName << " is out-of-date.\n" " the file '" << dep << "'\n" " is newer than '" << stampDepends << "'\n" " result='" << result << "'\n"; /* clang-format on */ return false; } } } // The build system is up to date. The stamp file has been removed // by the VS IDE due to a "rebuild" request. Restore it atomically. std::ostringstream stampTempStream; stampTempStream << stampName << ".tmp" << cmSystemTools::RandomSeed(); std::string stampTemp = stampTempStream.str(); { // TODO: Teach cmGeneratedFileStream to use a random temp file (with // multiple tries in unlikely case of conflict) and use that here. cmsys::ofstream stamp(stampTemp.c_str()); stamp << "# CMake generation timestamp file for this directory.\n"; } std::string err; if (cmSystemTools::RenameFile(stampTemp, stampName, cmSystemTools::Replace::Yes, &err) == cmSystemTools::RenameResult::Success) { // CMake does not need to re-run because the stamp file is up-to-date. return true; } cmSystemTools::RemoveFile(stampTemp); cmSystemTools::Error( cmStrCat("Cannot restore timestamp \"", stampName, "\": ", err)); return false; } bool cmakeCheckStampList(const std::string& stampList) { // If the stamp list does not exist CMake must rerun to generate it. if (!cmSystemTools::FileExists(stampList)) { std::cout << "CMake is re-running because generate.stamp.list " "is missing.\n"; return false; } cmsys::ifstream fin(stampList.c_str()); if (!fin) { std::cout << "CMake is re-running because generate.stamp.list " "could not be read.\n"; return false; } // Check each stamp. std::string stampName; while (cmSystemTools::GetLineFromStream(fin, stampName)) { if (!cmakeCheckStampFile(stampName)) { return false; } } return true; } } // namespace cmDocumentationEntry cmake::CMAKE_STANDARD_OPTIONS_TABLE[18] = { { "-S ", "Explicitly specify a source directory." }, { "-B ", "Explicitly specify a build directory." }, { "-C ", "Pre-load a script to populate the cache." }, { "-D [:]=", "Create or update a cmake cache entry." }, { "-U ", "Remove matching entries from CMake cache." }, { "-G ", "Specify a build system generator." }, { "-T ", "Specify toolset name if supported by generator." }, { "-A ", "Specify platform name if supported by generator." }, { "--toolchain ", "Specify toolchain file [CMAKE_TOOLCHAIN_FILE]." }, { "--install-prefix ", "Specify install directory [CMAKE_INSTALL_PREFIX]." }, { "-Wdev", "Enable developer warnings." }, { "-Wno-dev", "Suppress developer warnings." }, { "-Werror=dev", "Make developer warnings errors." }, { "-Wno-error=dev", "Make developer warnings not errors." }, { "-Wdeprecated", "Enable deprecation warnings." }, { "-Wno-deprecated", "Suppress deprecation warnings." }, { "-Werror=deprecated", "Make deprecated macro and function warnings " "errors." }, { "-Wno-error=deprecated", "Make deprecated macro and function warnings " "not errors." } }; cmake::cmake(Role role, cmState::Mode mode, cmState::ProjectKind projectKind) : CMakeWorkingDirectory(cmSystemTools::GetCurrentWorkingDirectory()) , FileTimeCache(cm::make_unique()) #ifndef CMAKE_BOOTSTRAP , VariableWatch(cm::make_unique()) #endif , State(cm::make_unique(mode, projectKind)) , Messenger(cm::make_unique()) { this->TraceFile.close(); this->CurrentSnapshot = this->State->CreateBaseSnapshot(); #ifdef __APPLE__ struct rlimit rlp; if (!getrlimit(RLIMIT_STACK, &rlp)) { if (rlp.rlim_cur != rlp.rlim_max) { rlp.rlim_cur = rlp.rlim_max; setrlimit(RLIMIT_STACK, &rlp); } } #endif this->AddDefaultGenerators(); this->AddDefaultExtraGenerators(); if (role == RoleScript || role == RoleProject) { this->AddScriptingCommands(); } if (role == RoleProject) { this->AddProjectCommands(); } if (mode == cmState::Project || mode == cmState::Help) { this->LoadEnvironmentPresets(); } // Make sure we can capture the build tool output. cmSystemTools::EnableVSConsoleOutput(); // Set up a list of source and header extensions. // These are used to find files when the extension is not given. { auto setupExts = [](FileExtensions& exts, std::initializer_list extList) { // Fill ordered vector exts.ordered.reserve(extList.size()); for (cm::string_view ext : extList) { exts.ordered.emplace_back(ext); } // Fill unordered set exts.unordered.insert(exts.ordered.begin(), exts.ordered.end()); }; // The "c" extension MUST precede the "C" extension. setupExts(this->CLikeSourceFileExtensions, { "c", "C", "c++", "cc", "cpp", "cxx", "cu", "mpp", "m", "M", "mm", "ixx", "cppm" }); setupExts(this->HeaderFileExtensions, { "h", "hh", "h++", "hm", "hpp", "hxx", "in", "txx" }); setupExts(this->CudaFileExtensions, { "cu" }); setupExts(this->FortranFileExtensions, { "f", "F", "for", "f77", "f90", "f95", "f03" }); setupExts(this->HipFileExtensions, { "hip" }); setupExts(this->ISPCFileExtensions, { "ispc" }); } } cmake::~cmake() = default; #if !defined(CMAKE_BOOTSTRAP) Json::Value cmake::ReportVersionJson() const { Json::Value version = Json::objectValue; version["string"] = CMake_VERSION; version["major"] = CMake_VERSION_MAJOR; version["minor"] = CMake_VERSION_MINOR; version["suffix"] = CMake_VERSION_SUFFIX; version["isDirty"] = (CMake_VERSION_IS_DIRTY == 1); version["patch"] = CMake_VERSION_PATCH; return version; } Json::Value cmake::ReportCapabilitiesJson() const { Json::Value obj = Json::objectValue; // Version information: obj["version"] = this->ReportVersionJson(); // Generators: std::vector generatorInfoList; this->GetRegisteredGenerators(generatorInfoList); auto* curlVersion = curl_version_info(CURLVERSION_FIRST); JsonValueMapType generatorMap; for (cmake::GeneratorInfo const& gi : generatorInfoList) { if (gi.isAlias) { // skip aliases, they are there for compatibility reasons // only continue; } if (gi.extraName.empty()) { Json::Value gen = Json::objectValue; gen["name"] = gi.name; gen["toolsetSupport"] = gi.supportsToolset; gen["platformSupport"] = gi.supportsPlatform; if (!gi.supportedPlatforms.empty()) { Json::Value supportedPlatforms = Json::arrayValue; for (std::string const& platform : gi.supportedPlatforms) { supportedPlatforms.append(platform); } gen["supportedPlatforms"] = std::move(supportedPlatforms); } gen["extraGenerators"] = Json::arrayValue; generatorMap[gi.name] = gen; } else { Json::Value& gen = generatorMap[gi.baseName]; gen["extraGenerators"].append(gi.extraName); } } Json::Value generators = Json::arrayValue; for (auto const& i : generatorMap) { generators.append(i.second); } obj["generators"] = generators; obj["fileApi"] = cmFileAPI::ReportCapabilities(); obj["serverMode"] = false; obj["tls"] = static_cast(curlVersion->features & CURL_VERSION_SSL); return obj; } #endif std::string cmake::ReportCapabilities() const { std::string result; #if !defined(CMAKE_BOOTSTRAP) Json::FastWriter writer; result = writer.write(this->ReportCapabilitiesJson()); #else result = "Not supported"; #endif return result; } void cmake::CleanupCommandsAndMacros() { this->CurrentSnapshot = this->State->Reset(); this->State->RemoveUserDefinedCommands(); this->CurrentSnapshot.SetDefaultDefinitions(); // FIXME: InstalledFiles probably belongs in the global generator. this->InstalledFiles.clear(); } #ifndef CMAKE_BOOTSTRAP void cmake::SetWarningFromPreset(const std::string& name, const cm::optional& warning, const cm::optional& error) { if (warning) { if (*warning) { this->DiagLevels[name] = std::max(this->DiagLevels[name], DIAG_WARN); } else { this->DiagLevels[name] = DIAG_IGNORE; } } if (error) { if (*error) { this->DiagLevels[name] = DIAG_ERROR; } else { this->DiagLevels[name] = std::min(this->DiagLevels[name], DIAG_WARN); } } } void cmake::ProcessPresetVariables() { for (auto const& var : this->UnprocessedPresetVariables) { if (!var.second) { continue; } cmStateEnums::CacheEntryType type = cmStateEnums::UNINITIALIZED; if (!var.second->Type.empty()) { type = cmState::StringToCacheEntryType(var.second->Type); } this->ProcessCacheArg(var.first, var.second->Value, type); } } void cmake::PrintPresetVariables() { bool first = true; for (auto const& var : this->UnprocessedPresetVariables) { if (!var.second) { continue; } cmStateEnums::CacheEntryType type = cmStateEnums::UNINITIALIZED; if (!var.second->Type.empty()) { type = cmState::StringToCacheEntryType(var.second->Type); } if (first) { std::cout << "Preset CMake variables:\n\n"; first = false; } std::cout << " " << var.first; if (type != cmStateEnums::UNINITIALIZED) { std::cout << ':' << cmState::CacheEntryTypeToString(type); } std::cout << "=\"" << var.second->Value << "\"\n"; } if (!first) { std::cout << '\n'; } this->UnprocessedPresetVariables.clear(); } void cmake::ProcessPresetEnvironment() { for (auto const& var : this->UnprocessedPresetEnvironment) { if (var.second) { cmSystemTools::PutEnv(cmStrCat(var.first, '=', *var.second)); } } } void cmake::PrintPresetEnvironment() { bool first = true; for (auto const& var : this->UnprocessedPresetEnvironment) { if (!var.second) { continue; } if (first) { std::cout << "Preset environment variables:\n\n"; first = false; } std::cout << " " << var.first << "=\"" << *var.second << "\"\n"; } if (!first) { std::cout << '\n'; } this->UnprocessedPresetEnvironment.clear(); } #endif // Parse the args bool cmake::SetCacheArgs(const std::vector& args) { auto DefineLambda = [](std::string const& entry, cmake* state) -> bool { std::string var; std::string value; cmStateEnums::CacheEntryType type = cmStateEnums::UNINITIALIZED; if (cmState::ParseCacheEntry(entry, var, value, type)) { #ifndef CMAKE_BOOTSTRAP state->UnprocessedPresetVariables.erase(var); #endif state->ProcessCacheArg(var, value, type); } else { cmSystemTools::Error(cmStrCat("Parse error in command line argument: ", entry, "\n Should be: VAR:type=value\n")); return false; } return true; }; auto WarningLambda = [](cm::string_view entry, cmake* state) -> bool { bool foundNo = false; bool foundError = false; if (cmHasLiteralPrefix(entry, "no-")) { foundNo = true; entry.remove_prefix(3); } if (cmHasLiteralPrefix(entry, "error=")) { foundError = true; entry.remove_prefix(6); } if (entry.empty()) { cmSystemTools::Error("No warning name provided."); return false; } std::string const name = std::string(entry); if (!foundNo && !foundError) { // -W state->DiagLevels[name] = std::max(state->DiagLevels[name], DIAG_WARN); } else if (foundNo && !foundError) { // -Wno state->DiagLevels[name] = DIAG_IGNORE; } else if (!foundNo && foundError) { // -Werror= state->DiagLevels[name] = DIAG_ERROR; } else { // -Wno-error= // This can downgrade an error to a warning, but should not enable // or disable a warning in the first place. auto dli = state->DiagLevels.find(name); if (dli != state->DiagLevels.end()) { dli->second = std::min(dli->second, DIAG_WARN); } } return true; }; auto UnSetLambda = [](std::string const& entryPattern, cmake* state) -> bool { cmsys::RegularExpression regex( cmsys::Glob::PatternToRegex(entryPattern, true, true)); // go through all cache entries and collect the vars which will be // removed std::vector entriesToDelete; std::vector cacheKeys = state->State->GetCacheEntryKeys(); for (std::string const& ck : cacheKeys) { cmStateEnums::CacheEntryType t = state->State->GetCacheEntryType(ck); if (t != cmStateEnums::STATIC) { if (regex.find(ck)) { entriesToDelete.push_back(ck); } } } // now remove them from the cache for (std::string const& currentEntry : entriesToDelete) { #ifndef CMAKE_BOOTSTRAP state->UnprocessedPresetVariables.erase(currentEntry); #endif state->State->RemoveCacheEntry(currentEntry); } return true; }; auto ScriptLambda = [&](std::string const& path, cmake* state) -> bool { // Register fake project commands that hint misuse in script mode. GetProjectCommandsInScriptMode(state->GetState()); // Documented behavior of CMAKE{,_CURRENT}_{SOURCE,BINARY}_DIR is to be // set to $PWD for -P mode. state->SetWorkingMode(SCRIPT_MODE); state->SetHomeDirectory(cmSystemTools::GetCurrentWorkingDirectory()); state->SetHomeOutputDirectory(cmSystemTools::GetCurrentWorkingDirectory()); state->ReadListFile(args, path); return true; }; auto PrefixLambda = [&](std::string const& path, cmake* state) -> bool { const std::string var = "CMAKE_INSTALL_PREFIX"; cmStateEnums::CacheEntryType type = cmStateEnums::PATH; cmCMakePath absolutePath(path); if (absolutePath.IsAbsolute()) { #ifndef CMAKE_BOOTSTRAP state->UnprocessedPresetVariables.erase(var); #endif state->ProcessCacheArg(var, path, type); return true; } cmSystemTools::Error("Absolute paths are required for --install-prefix"); return false; }; auto ToolchainLambda = [&](std::string const& path, cmake* state) -> bool { const std::string var = "CMAKE_TOOLCHAIN_FILE"; cmStateEnums::CacheEntryType type = cmStateEnums::FILEPATH; #ifndef CMAKE_BOOTSTRAP state->UnprocessedPresetVariables.erase(var); #endif state->ProcessCacheArg(var, path, type); return true; }; std::vector arguments = { CommandArgument{ "-D", "-D must be followed with VAR=VALUE.", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, DefineLambda }, CommandArgument{ "-W", "-W must be followed with [no-].", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, WarningLambda }, CommandArgument{ "-U", "-U must be followed with VAR.", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, UnSetLambda }, CommandArgument{ "-C", "-C must be followed by a file name.", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, [&](std::string const& value, cmake* state) -> bool { if (value.empty()) { cmSystemTools::Error("No file name specified for -C"); return false; } cmSystemTools::Stdout("loading initial cache file " + value + "\n"); // Resolve script path specified on command line // relative to $PWD. auto path = cmSystemTools::CollapseFullPath(value); state->ReadListFile(args, path); return true; } }, CommandArgument{ "-P", "-P must be followed by a file name.", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, ScriptLambda }, CommandArgument{ "--toolchain", "No file specified for --toolchain", CommandArgument::Values::One, ToolchainLambda }, CommandArgument{ "--install-prefix", "No install directory specified for --install-prefix", CommandArgument::Values::One, PrefixLambda }, CommandArgument{ "--find-package", CommandArgument::Values::Zero, IgnoreAndTrueLambda }, }; for (decltype(args.size()) i = 1; i < args.size(); ++i) { std::string const& arg = args[i]; if (arg == "--" && this->GetWorkingMode() == SCRIPT_MODE) { // Stop processing CMake args and avoid possible errors // when arbitrary args are given to CMake script. break; } for (auto const& m : arguments) { if (m.matches(arg)) { const bool parsedCorrectly = m.parse(arg, i, args, this); if (!parsedCorrectly) { return false; } } } } if (this->GetWorkingMode() == FIND_PACKAGE_MODE) { return this->FindPackage(args); } return true; } void cmake::ProcessCacheArg(const std::string& var, const std::string& value, cmStateEnums::CacheEntryType type) { // The value is transformed if it is a filepath for example, so // we can't compare whether the value is already in the cache until // after we call AddCacheEntry. bool haveValue = false; std::string cachedValue; if (this->WarnUnusedCli) { if (cmValue v = this->State->GetInitializedCacheValue(var)) { haveValue = true; cachedValue = *v; } } this->AddCacheEntry( var, value, "No help, variable specified on the command line.", type); if (this->WarnUnusedCli) { if (!haveValue || cachedValue != *this->State->GetInitializedCacheValue(var)) { this->WatchUnusedCli(var); } } } void cmake::ReadListFile(const std::vector& args, const std::string& path) { // if a generator was not yet created, temporarily create one cmGlobalGenerator* gg = this->GetGlobalGenerator(); // if a generator was not specified use a generic one std::unique_ptr gen; if (!gg) { gen = cm::make_unique(this); gg = gen.get(); } // read in the list file to fill the cache if (!path.empty()) { this->CurrentSnapshot = this->State->Reset(); cmStateSnapshot snapshot = this->GetCurrentSnapshot(); snapshot.GetDirectory().SetCurrentBinary(this->GetHomeOutputDirectory()); snapshot.GetDirectory().SetCurrentSource(this->GetHomeDirectory()); snapshot.SetDefaultDefinitions(); cmMakefile mf(gg, snapshot); if (this->GetWorkingMode() != NORMAL_MODE) { std::string file(cmSystemTools::CollapseFullPath(path)); cmSystemTools::ConvertToUnixSlashes(file); mf.SetScriptModeFile(file); mf.SetArgcArgv(args); } if (!mf.ReadListFile(path)) { cmSystemTools::Error("Error processing file: " + path); } } } bool cmake::FindPackage(const std::vector& args) { this->SetHomeDirectory(cmSystemTools::GetCurrentWorkingDirectory()); this->SetHomeOutputDirectory(cmSystemTools::GetCurrentWorkingDirectory()); this->SetGlobalGenerator(cm::make_unique(this)); cmStateSnapshot snapshot = this->GetCurrentSnapshot(); snapshot.GetDirectory().SetCurrentBinary( cmSystemTools::GetCurrentWorkingDirectory()); snapshot.GetDirectory().SetCurrentSource( cmSystemTools::GetCurrentWorkingDirectory()); // read in the list file to fill the cache snapshot.SetDefaultDefinitions(); auto mfu = cm::make_unique(this->GetGlobalGenerator(), snapshot); cmMakefile* mf = mfu.get(); this->GlobalGenerator->AddMakefile(std::move(mfu)); mf->SetArgcArgv(args); std::string systemFile = mf->GetModulesFile("CMakeFindPackageMode.cmake"); mf->ReadListFile(systemFile); std::string language = mf->GetSafeDefinition("LANGUAGE"); std::string mode = mf->GetSafeDefinition("MODE"); std::string packageName = mf->GetSafeDefinition("NAME"); bool packageFound = mf->IsOn("PACKAGE_FOUND"); bool quiet = mf->IsOn("PACKAGE_QUIET"); if (!packageFound) { if (!quiet) { printf("%s not found.\n", packageName.c_str()); } } else if (mode == "EXIST"_s) { if (!quiet) { printf("%s found.\n", packageName.c_str()); } } else if (mode == "COMPILE"_s) { std::string includes = mf->GetSafeDefinition("PACKAGE_INCLUDE_DIRS"); std::vector includeDirs = cmExpandedList(includes); this->GlobalGenerator->CreateGenerationObjects(); const auto& lg = this->GlobalGenerator->LocalGenerators[0]; std::string includeFlags = lg->GetIncludeFlags(includeDirs, nullptr, language, std::string()); std::string definitions = mf->GetSafeDefinition("PACKAGE_DEFINITIONS"); printf("%s %s\n", includeFlags.c_str(), definitions.c_str()); } else if (mode == "LINK"_s) { const char* targetName = "dummy"; std::vector srcs; cmTarget* tgt = mf->AddExecutable(targetName, srcs, true); tgt->SetProperty("LINKER_LANGUAGE", language); std::string libs = mf->GetSafeDefinition("PACKAGE_LIBRARIES"); std::vector libList = cmExpandedList(libs); for (std::string const& lib : libList) { tgt->AddLinkLibrary(*mf, lib, GENERAL_LibraryType); } std::string buildType = mf->GetSafeDefinition("CMAKE_BUILD_TYPE"); buildType = cmSystemTools::UpperCase(buildType); std::string linkLibs; std::string frameworkPath; std::string linkPath; std::string flags; std::string linkFlags; this->GlobalGenerator->CreateGenerationObjects(); cmGeneratorTarget* gtgt = this->GlobalGenerator->FindGeneratorTarget(tgt->GetName()); cmLocalGenerator* lg = gtgt->GetLocalGenerator(); cmLinkLineComputer linkLineComputer(lg, lg->GetStateSnapshot().GetDirectory()); lg->GetTargetFlags(&linkLineComputer, buildType, linkLibs, flags, linkFlags, frameworkPath, linkPath, gtgt); linkLibs = frameworkPath + linkPath + linkLibs; printf("%s\n", linkLibs.c_str()); /* if ( use_win32 ) { tgt->SetProperty("WIN32_EXECUTABLE", "ON"); } if ( use_macbundle) { tgt->SetProperty("MACOSX_BUNDLE", "ON"); }*/ } return packageFound; } void cmake::LoadEnvironmentPresets() { std::string envGenVar; bool hasEnvironmentGenerator = false; if (cmSystemTools::GetEnv("CMAKE_GENERATOR", envGenVar)) { hasEnvironmentGenerator = true; this->EnvironmentGenerator = envGenVar; } auto readGeneratorVar = [&](std::string const& name, std::string& key) { std::string varValue; if (cmSystemTools::GetEnv(name, varValue)) { if (hasEnvironmentGenerator) { key = varValue; } else if (!this->GetIsInTryCompile()) { std::string message = cmStrCat("Warning: Environment variable ", name, " will be ignored, because CMAKE_GENERATOR is not set."); cmSystemTools::Message(message, "Warning"); } } }; readGeneratorVar("CMAKE_GENERATOR_INSTANCE", this->GeneratorInstance); readGeneratorVar("CMAKE_GENERATOR_PLATFORM", this->GeneratorPlatform); readGeneratorVar("CMAKE_GENERATOR_TOOLSET", this->GeneratorToolset); } namespace { enum class ListPresets { None, Configure, Build, Test, Package, Workflow, All, }; } // Parse the args void cmake::SetArgs(const std::vector& args) { bool haveToolset = false; bool havePlatform = false; bool haveBArg = false; std::string possibleUnknownArg; std::string extraProvidedPath; #if !defined(CMAKE_BOOTSTRAP) std::string profilingFormat; std::string profilingOutput; std::string presetName; ListPresets listPresets = ListPresets::None; #endif auto EmptyStringArgLambda = [](std::string const&, cmake* state) -> bool { state->IssueMessage( MessageType::WARNING, "Ignoring empty string (\"\") provided on the command line."); return true; }; auto SourceArgLambda = [](std::string const& value, cmake* state) -> bool { if (value.empty()) { cmSystemTools::Error("No source directory specified for -S"); return false; } std::string path = cmSystemTools::CollapseFullPath(value); cmSystemTools::ConvertToUnixSlashes(path); state->SetHomeDirectoryViaCommandLine(path); return true; }; auto BuildArgLambda = [&](std::string const& value, cmake* state) -> bool { if (value.empty()) { cmSystemTools::Error("No build directory specified for -B"); return false; } std::string path = cmSystemTools::CollapseFullPath(value); cmSystemTools::ConvertToUnixSlashes(path); state->SetHomeOutputDirectory(path); haveBArg = true; return true; }; auto PlatformLambda = [&](std::string const& value, cmake* state) -> bool { if (havePlatform) { cmSystemTools::Error("Multiple -A options not allowed"); return false; } state->SetGeneratorPlatform(value); havePlatform = true; return true; }; auto ToolsetLambda = [&](std::string const& value, cmake* state) -> bool { if (haveToolset) { cmSystemTools::Error("Multiple -T options not allowed"); return false; } state->SetGeneratorToolset(value); haveToolset = true; return true; }; std::vector arguments = { CommandArgument{ "", CommandArgument::Values::Zero, EmptyStringArgLambda }, CommandArgument{ "-S", "No source directory specified for -S", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, SourceArgLambda }, CommandArgument{ "-H", "No source directory specified for -H", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, SourceArgLambda }, CommandArgument{ "-O", CommandArgument::Values::Zero, IgnoreAndTrueLambda }, CommandArgument{ "-B", "No build directory specified for -B", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, BuildArgLambda }, CommandArgument{ "--fresh", CommandArgument::Values::Zero, [](std::string const&, cmake* cm) -> bool { cm->FreshCache = true; return true; } }, CommandArgument{ "-P", "-P must be followed by a file name.", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, IgnoreAndTrueLambda }, CommandArgument{ "-D", "-D must be followed with VAR=VALUE.", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, IgnoreAndTrueLambda }, CommandArgument{ "-C", "-C must be followed by a file name.", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, IgnoreAndTrueLambda }, CommandArgument{ "-U", "-U must be followed with VAR.", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, IgnoreAndTrueLambda }, CommandArgument{ "-W", "-W must be followed with [no-].", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, IgnoreAndTrueLambda }, CommandArgument{ "-A", "No platform specified for -A", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, PlatformLambda }, CommandArgument{ "-T", "No toolset specified for -T", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, ToolsetLambda }, CommandArgument{ "--toolchain", "No file specified for --toolchain", CommandArgument::Values::One, IgnoreAndTrueLambda }, CommandArgument{ "--install-prefix", "No install directory specified for --install-prefix", CommandArgument::Values::One, IgnoreAndTrueLambda }, CommandArgument{ "--check-build-system", CommandArgument::Values::Two, [](std::string const& value, cmake* state) -> bool { std::vector values = cmExpandedList(value); state->CheckBuildSystemArgument = values[0]; state->ClearBuildSystem = (atoi(values[1].c_str()) > 0); return true; } }, CommandArgument{ "--check-stamp-file", CommandArgument::Values::One, [](std::string const& value, cmake* state) -> bool { state->CheckStampFile = value; return true; } }, CommandArgument{ "--check-stamp-list", CommandArgument::Values::One, [](std::string const& value, cmake* state) -> bool { state->CheckStampList = value; return true; } }, CommandArgument{ "--regenerate-during-build", CommandArgument::Values::Zero, [](std::string const&, cmake* state) -> bool { state->RegenerateDuringBuild = true; return true; } }, CommandArgument{ "--find-package", CommandArgument::Values::Zero, IgnoreAndTrueLambda }, CommandArgument{ "--graphviz", "No file specified for --graphviz", CommandArgument::Values::One, [](std::string const& value, cmake* state) -> bool { std::string path = cmSystemTools::CollapseFullPath(value); cmSystemTools::ConvertToUnixSlashes(path); state->GraphVizFile = path; return true; } }, CommandArgument{ "--debug-trycompile", CommandArgument::Values::Zero, [](std::string const&, cmake* state) -> bool { std::cout << "debug trycompile on\n"; state->DebugTryCompileOn(); return true; } }, CommandArgument{ "--debug-output", CommandArgument::Values::Zero, [](std::string const&, cmake* state) -> bool { std::cout << "Running with debug output on.\n"; state->SetDebugOutputOn(true); return true; } }, CommandArgument{ "--log-level", "Invalid level specified for --log-level", CommandArgument::Values::One, [](std::string const& value, cmake* state) -> bool { const auto logLevel = StringToLogLevel(value); if (logLevel == Message::LogLevel::LOG_UNDEFINED) { cmSystemTools::Error( "Invalid level specified for --log-level"); return false; } state->SetLogLevel(logLevel); state->LogLevelWasSetViaCLI = true; return true; } }, // This is supported for backward compatibility. This option only // appeared in the 3.15.x release series and was renamed to // --log-level in 3.16.0 CommandArgument{ "--loglevel", "Invalid level specified for --loglevel", CommandArgument::Values::One, [](std::string const& value, cmake* state) -> bool { const auto logLevel = StringToLogLevel(value); if (logLevel == Message::LogLevel::LOG_UNDEFINED) { cmSystemTools::Error( "Invalid level specified for --loglevel"); return false; } state->SetLogLevel(logLevel); state->LogLevelWasSetViaCLI = true; return true; } }, CommandArgument{ "--log-context", CommandArgument::Values::Zero, [](std::string const&, cmake* state) -> bool { state->SetShowLogContext(true); return true; } }, CommandArgument{ "--debug-find", CommandArgument::Values::Zero, [](std::string const&, cmake* state) -> bool { std::cout << "Running with debug output on for the `find` commands.\n"; state->SetDebugFindOutput(true); return true; } }, CommandArgument{ "--debug-find-pkg", "Provide a package argument for --debug-find-pkg", CommandArgument::Values::One, CommandArgument::RequiresSeparator::Yes, [](std::string const& value, cmake* state) -> bool { std::vector find_pkgs(cmTokenize(value, ",")); std::cout << "Running with debug output on for the 'find' commands " "for package(s)"; for (auto const& v : find_pkgs) { std::cout << ' ' << v; state->SetDebugFindOutputPkgs(v); } std::cout << ".\n"; return true; } }, CommandArgument{ "--debug-find-var", CommandArgument::Values::One, CommandArgument::RequiresSeparator::Yes, [](std::string const& value, cmake* state) -> bool { std::vector find_vars(cmTokenize(value, ",")); std::cout << "Running with debug output on for the variable(s)"; for (auto const& v : find_vars) { std::cout << ' ' << v; state->SetDebugFindOutputVars(v); } std::cout << ".\n"; return true; } }, CommandArgument{ "--trace-expand", CommandArgument::Values::Zero, [](std::string const&, cmake* state) -> bool { std::cout << "Running with expanded trace output on.\n"; state->SetTrace(true); state->SetTraceExpand(true); return true; } }, CommandArgument{ "--trace-format", CommandArgument::Values::One, [](std::string const& value, cmake* state) -> bool { state->SetTrace(true); const auto traceFormat = StringToTraceFormat(value); if (traceFormat == TraceFormat::TRACE_UNDEFINED) { cmSystemTools::Error( "Invalid format specified for --trace-format. " "Valid formats are human, json-v1."); return false; } state->SetTraceFormat(traceFormat); return true; } }, CommandArgument{ "--trace-source", CommandArgument::Values::One, [](std::string const& value, cmake* state) -> bool { std::string file(value); cmSystemTools::ConvertToUnixSlashes(file); state->AddTraceSource(file); state->SetTrace(true); return true; } }, CommandArgument{ "--trace-redirect", CommandArgument::Values::One, [](std::string const& value, cmake* state) -> bool { std::string file(value); cmSystemTools::ConvertToUnixSlashes(file); state->SetTraceFile(file); state->SetTrace(true); return true; } }, CommandArgument{ "--trace", CommandArgument::Values::Zero, [](std::string const&, cmake* state) -> bool { std::cout << "Running with trace output on.\n"; state->SetTrace(true); state->SetTraceExpand(false); return true; } }, CommandArgument{ "--warn-uninitialized", CommandArgument::Values::Zero, [](std::string const&, cmake* state) -> bool { std::cout << "Warn about uninitialized values.\n"; state->SetWarnUninitialized(true); return true; } }, CommandArgument{ "--warn-unused-vars", CommandArgument::Values::Zero, IgnoreAndTrueLambda }, // Option was removed. CommandArgument{ "--no-warn-unused-cli", CommandArgument::Values::Zero, [](std::string const&, cmake* state) -> bool { std::cout << "Not searching for unused variables given on the " "command line.\n"; state->SetWarnUnusedCli(false); return true; } }, CommandArgument{ "--check-system-vars", CommandArgument::Values::Zero, [](std::string const&, cmake* state) -> bool { std::cout << "Also check system files when warning about unused and " "uninitialized variables.\n"; state->SetCheckSystemVars(true); return true; } }, CommandArgument{ "--compile-no-warning-as-error", CommandArgument::Values::Zero, [](std::string const&, cmake* state) -> bool { std::cout << "Ignoring COMPILE_WARNING_AS_ERROR target property and " "CMAKE_COMPILE_WARNING_AS_ERROR variable.\n"; state->SetIgnoreWarningAsError(true); return true; } } }; #if defined(CMAKE_HAVE_VS_GENERATORS) arguments.emplace_back("--vs-solution-file", CommandArgument::Values::One, [](std::string const& value, cmake* state) -> bool { state->VSSolutionFile = value; return true; }); #endif #if !defined(CMAKE_BOOTSTRAP) arguments.emplace_back("--profiling-format", "No format specified for --profiling-format", CommandArgument::Values::One, [&](std::string const& value, cmake*) -> bool { profilingFormat = value; return true; }); arguments.emplace_back( "--profiling-output", "No path specified for --profiling-output", CommandArgument::Values::One, [&](std::string const& value, cmake*) -> bool { profilingOutput = cmSystemTools::CollapseFullPath(value); cmSystemTools::ConvertToUnixSlashes(profilingOutput); return true; }); arguments.emplace_back("--preset", "No preset specified for --preset", CommandArgument::Values::One, [&](std::string const& value, cmake*) -> bool { presetName = value; return true; }); arguments.emplace_back( "--list-presets", CommandArgument::Values::ZeroOrOne, [&](std::string const& value, cmake*) -> bool { if (value.empty() || value == "configure") { listPresets = ListPresets::Configure; } else if (value == "build") { listPresets = ListPresets::Build; } else if (value == "test") { listPresets = ListPresets::Test; } else if (value == "package") { listPresets = ListPresets::Package; } else if (value == "workflow") { listPresets = ListPresets::Workflow; } else if (value == "all") { listPresets = ListPresets::All; } else { cmSystemTools::Error( "Invalid value specified for --list-presets.\n" "Valid values are configure, build, test, package, or all. " "When no value is passed the default is configure."); return false; } return true; }); #endif bool badGeneratorName = false; CommandArgument generatorCommand( "-G", "No generator specified for -G", CommandArgument::Values::One, CommandArgument::RequiresSeparator::No, [&](std::string const& value, cmake* state) -> bool { bool valid = state->CreateAndSetGlobalGenerator(value, true); badGeneratorName = !valid; return valid; }); for (decltype(args.size()) i = 1; i < args.size(); ++i) { // iterate each argument std::string const& arg = args[i]; if (this->GetWorkingMode() == SCRIPT_MODE && arg == "--") { // Stop processing CMake args and avoid possible errors // when arbitrary args are given to CMake script. break; } // Generator flag has special handling for when to print help // so it becomes the exception if (generatorCommand.matches(arg)) { bool parsed = generatorCommand.parse(arg, i, args, this); if (!parsed && !badGeneratorName) { this->PrintGeneratorList(); return; } continue; } bool matched = false; bool parsedCorrectly = true; // needs to be true so we can ignore // arguments so as -E for (auto const& m : arguments) { if (m.matches(arg)) { matched = true; parsedCorrectly = m.parse(arg, i, args, this); break; } } // We have an issue where arguments to a "-P" script mode // can be provided before the "-P" argument. This means // that we need to lazily check this argument after checking // all args. // Additionally it can't be the source/binary tree location if (!parsedCorrectly) { cmSystemTools::Error("Run 'cmake --help' for all supported options."); exit(1); } else if (!matched && cmHasLiteralPrefix(arg, "-")) { possibleUnknownArg = arg; } else if (!matched) { bool parsedDirectory = this->SetDirectoriesFromFile(arg); if (!parsedDirectory) { extraProvidedPath = arg; } } } if (!extraProvidedPath.empty() && this->GetWorkingMode() == NORMAL_MODE) { this->IssueMessage(MessageType::WARNING, cmStrCat("Ignoring extra path from command line:\n \"", extraProvidedPath, "\"")); } if (!possibleUnknownArg.empty() && this->GetWorkingMode() != SCRIPT_MODE) { cmSystemTools::Error(cmStrCat("Unknown argument ", possibleUnknownArg)); cmSystemTools::Error("Run 'cmake --help' for all supported options."); exit(1); } // Empty instance, platform and toolset if only a generator is specified if (this->GlobalGenerator) { this->GeneratorInstance = ""; if (!this->GeneratorPlatformSet) { this->GeneratorPlatform = ""; } if (!this->GeneratorToolsetSet) { this->GeneratorToolset = ""; } } #if !defined(CMAKE_BOOTSTRAP) if (!profilingOutput.empty() || !profilingFormat.empty()) { if (profilingOutput.empty()) { cmSystemTools::Error( "--profiling-format specified but no --profiling-output!"); return; } if (profilingFormat == "google-trace"_s) { try { this->ProfilingOutput = cm::make_unique(profilingOutput); } catch (std::runtime_error& e) { cmSystemTools::Error( cmStrCat("Could not start profiling: ", e.what())); return; } } else { cmSystemTools::Error("Invalid format specified for --profiling-format"); return; } } #endif const bool haveSourceDir = !this->GetHomeDirectory().empty(); const bool haveBinaryDir = !this->GetHomeOutputDirectory().empty(); const bool havePreset = #ifdef CMAKE_BOOTSTRAP false; #else !presetName.empty(); #endif if (this->CurrentWorkingMode == cmake::NORMAL_MODE && !haveSourceDir && !haveBinaryDir && !havePreset) { this->IssueMessage( MessageType::WARNING, "No source or binary directory provided. Both will be assumed to be " "the same as the current working directory, but note that this " "warning will become a fatal error in future CMake releases."); } if (!haveSourceDir) { this->SetHomeDirectory(cmSystemTools::GetCurrentWorkingDirectory()); } if (!haveBinaryDir) { this->SetHomeOutputDirectory(cmSystemTools::GetCurrentWorkingDirectory()); } #if !defined(CMAKE_BOOTSTRAP) if (listPresets != ListPresets::None || !presetName.empty()) { cmCMakePresetsGraph presetsGraph; auto result = presetsGraph.ReadProjectPresets(this->GetHomeDirectory()); if (result != cmCMakePresetsGraph::ReadFileResult::READ_OK) { std::string errorMsg = cmStrCat("Could not read presets from ", this->GetHomeDirectory(), ": ", cmCMakePresetsGraph::ResultToString(result)); if (!presetsGraph.errors.empty()) { errorMsg = cmStrCat(errorMsg, "\nErrors:\n", presetsGraph.errors); } cmSystemTools::Error(errorMsg); return; } if (listPresets != ListPresets::None) { if (listPresets == ListPresets::Configure) { this->PrintPresetList(presetsGraph); } else if (listPresets == ListPresets::Build) { presetsGraph.PrintBuildPresetList(); } else if (listPresets == ListPresets::Test) { presetsGraph.PrintTestPresetList(); } else if (listPresets == ListPresets::Package) { presetsGraph.PrintPackagePresetList(); } else if (listPresets == ListPresets::Workflow) { presetsGraph.PrintWorkflowPresetList(); } else if (listPresets == ListPresets::All) { presetsGraph.PrintAllPresets(); } this->SetWorkingMode(WorkingMode::HELP_MODE); return; } auto preset = presetsGraph.ConfigurePresets.find(presetName); if (preset == presetsGraph.ConfigurePresets.end()) { cmSystemTools::Error(cmStrCat("No such preset in ", this->GetHomeDirectory(), ": \"", presetName, '"')); this->PrintPresetList(presetsGraph); return; } if (preset->second.Unexpanded.Hidden) { cmSystemTools::Error(cmStrCat("Cannot use hidden preset in ", this->GetHomeDirectory(), ": \"", presetName, '"')); this->PrintPresetList(presetsGraph); return; } auto const& expandedPreset = preset->second.Expanded; if (!expandedPreset) { cmSystemTools::Error(cmStrCat("Could not evaluate preset \"", preset->second.Unexpanded.Name, "\": Invalid macro expansion")); return; } if (!expandedPreset->ConditionResult) { cmSystemTools::Error(cmStrCat("Could not use disabled preset \"", preset->second.Unexpanded.Name, "\"")); return; } if (!this->State->IsCacheLoaded() && !haveBArg && !expandedPreset->BinaryDir.empty()) { this->SetHomeOutputDirectory(expandedPreset->BinaryDir); } if (!this->GlobalGenerator && !expandedPreset->Generator.empty()) { if (!this->CreateAndSetGlobalGenerator(expandedPreset->Generator, false)) { return; } } this->UnprocessedPresetVariables = expandedPreset->CacheVariables; this->UnprocessedPresetEnvironment = expandedPreset->Environment; if (!expandedPreset->InstallDir.empty() && !this->State->GetInitializedCacheValue("CMAKE_INSTALL_PREFIX")) { this->UnprocessedPresetVariables["CMAKE_INSTALL_PREFIX"] = { "PATH", expandedPreset->InstallDir }; } if (!expandedPreset->ToolchainFile.empty() && !this->State->GetInitializedCacheValue("CMAKE_TOOLCHAIN_FILE")) { this->UnprocessedPresetVariables["CMAKE_TOOLCHAIN_FILE"] = { "FILEPATH", expandedPreset->ToolchainFile }; } if (!expandedPreset->ArchitectureStrategy || expandedPreset->ArchitectureStrategy == cmCMakePresetsGraph::ArchToolsetStrategy::Set) { if (!this->GeneratorPlatformSet) { this->SetGeneratorPlatform(expandedPreset->Architecture); } } if (!expandedPreset->ToolsetStrategy || expandedPreset->ToolsetStrategy == cmCMakePresetsGraph::ArchToolsetStrategy::Set) { if (!this->GeneratorToolsetSet) { this->SetGeneratorToolset(expandedPreset->Toolset); } } this->SetWarningFromPreset("dev", expandedPreset->WarnDev, expandedPreset->ErrorDev); this->SetWarningFromPreset("deprecated", expandedPreset->WarnDeprecated, expandedPreset->ErrorDeprecated); if (expandedPreset->WarnUninitialized == true) { this->SetWarnUninitialized(true); } if (expandedPreset->WarnUnusedCli == false) { this->SetWarnUnusedCli(false); } if (expandedPreset->WarnSystemVars == true) { this->SetCheckSystemVars(true); } if (expandedPreset->DebugOutput == true) { this->SetDebugOutputOn(true); } if (expandedPreset->DebugTryCompile == true) { this->DebugTryCompileOn(); } if (expandedPreset->DebugFind == true) { this->SetDebugFindOutput(true); } } #endif } namespace { using LevelsPair = std::pair; using LevelsPairArray = std::array; const LevelsPairArray& getStringToLogLevelPairs() { static const LevelsPairArray levels = { { { "error", Message::LogLevel::LOG_ERROR }, { "warning", Message::LogLevel::LOG_WARNING }, { "notice", Message::LogLevel::LOG_NOTICE }, { "status", Message::LogLevel::LOG_STATUS }, { "verbose", Message::LogLevel::LOG_VERBOSE }, { "debug", Message::LogLevel::LOG_DEBUG }, { "trace", Message::LogLevel::LOG_TRACE } } }; return levels; } } // namespace Message::LogLevel cmake::StringToLogLevel(cm::string_view levelStr) { const LevelsPairArray& levels = getStringToLogLevelPairs(); const auto levelStrLowCase = cmSystemTools::LowerCase(std::string{ levelStr }); // NOLINTNEXTLINE(readability-qualified-auto) const auto it = std::find_if(levels.cbegin(), levels.cend(), [&levelStrLowCase](const LevelsPair& p) { return p.first == levelStrLowCase; }); return (it != levels.cend()) ? it->second : Message::LogLevel::LOG_UNDEFINED; } std::string cmake::LogLevelToString(Message::LogLevel level) { const LevelsPairArray& levels = getStringToLogLevelPairs(); // NOLINTNEXTLINE(readability-qualified-auto) const auto it = std::find_if(levels.cbegin(), levels.cend(), [&level](const LevelsPair& p) { return p.second == level; }); const cm::string_view levelStrLowerCase = (it != levels.cend()) ? it->first : "undefined"; std::string levelStrUpperCase = cmSystemTools::UpperCase(std::string{ levelStrLowerCase }); return levelStrUpperCase; } cmake::TraceFormat cmake::StringToTraceFormat(const std::string& traceStr) { using TracePair = std::pair; static const std::vector levels = { { "human", TraceFormat::TRACE_HUMAN }, { "json-v1", TraceFormat::TRACE_JSON_V1 }, }; const auto traceStrLowCase = cmSystemTools::LowerCase(traceStr); const auto it = std::find_if(levels.cbegin(), levels.cend(), [&traceStrLowCase](const TracePair& p) { return p.first == traceStrLowCase; }); return (it != levels.cend()) ? it->second : TraceFormat::TRACE_UNDEFINED; } void cmake::SetTraceFile(const std::string& file) { this->TraceFile.close(); this->TraceFile.open(file.c_str()); if (!this->TraceFile) { std::stringstream ss; ss << "Error opening trace file " << file << ": " << cmSystemTools::GetLastSystemError(); cmSystemTools::Error(ss.str()); return; } std::cout << "Trace will be written to " << file << '\n'; } void cmake::PrintTraceFormatVersion() { if (!this->GetTrace()) { return; } std::string msg; switch (this->GetTraceFormat()) { case TraceFormat::TRACE_JSON_V1: { #ifndef CMAKE_BOOTSTRAP Json::Value val; Json::Value version; Json::StreamWriterBuilder builder; builder["indentation"] = ""; version["major"] = 1; version["minor"] = 2; val["version"] = version; msg = Json::writeString(builder, val); #endif break; } case TraceFormat::TRACE_HUMAN: msg = ""; break; case TraceFormat::TRACE_UNDEFINED: msg = "INTERNAL ERROR: Trace format is TRACE_UNDEFINED"; break; } if (msg.empty()) { return; } auto& f = this->GetTraceFile(); if (f) { f << msg << '\n'; } else { cmSystemTools::Message(msg); } } void cmake::SetTraceRedirect(cmake* other) { this->Trace = other->Trace; this->TraceExpand = other->TraceExpand; this->TraceFormatVar = other->TraceFormatVar; this->TraceOnlyThisSources = other->TraceOnlyThisSources; this->TraceRedirect = other; } bool cmake::SetDirectoriesFromFile(const std::string& arg) { // Check if the argument refers to a CMakeCache.txt or // CMakeLists.txt file. std::string listPath; std::string cachePath; bool is_source_dir = false; bool is_empty_directory = false; if (cmSystemTools::FileIsDirectory(arg)) { std::string path = cmSystemTools::CollapseFullPath(arg); cmSystemTools::ConvertToUnixSlashes(path); std::string cacheFile = cmStrCat(path, "/CMakeCache.txt"); std::string listFile = cmStrCat(path, "/CMakeLists.txt"); is_empty_directory = true; if (cmSystemTools::FileExists(cacheFile)) { cachePath = path; is_empty_directory = false; } if (cmSystemTools::FileExists(listFile)) { listPath = path; is_empty_directory = false; is_source_dir = true; } } else if (cmSystemTools::FileExists(arg)) { std::string fullPath = cmSystemTools::CollapseFullPath(arg); std::string name = cmSystemTools::GetFilenameName(fullPath); name = cmSystemTools::LowerCase(name); if (name == "cmakecache.txt"_s) { cachePath = cmSystemTools::GetFilenamePath(fullPath); } else if (name == "cmakelists.txt"_s) { listPath = cmSystemTools::GetFilenamePath(fullPath); } } else { // Specified file or directory does not exist. Try to set things // up to produce a meaningful error message. std::string fullPath = cmSystemTools::CollapseFullPath(arg); std::string name = cmSystemTools::GetFilenameName(fullPath); name = cmSystemTools::LowerCase(name); if (name == "cmakecache.txt"_s || name == "cmakelists.txt"_s) { listPath = cmSystemTools::GetFilenamePath(fullPath); } else { listPath = fullPath; } } // If there is a CMakeCache.txt file, use its settings. if (!cachePath.empty()) { if (this->LoadCache(cachePath)) { cmValue existingValue = this->State->GetCacheEntryValue("CMAKE_HOME_DIRECTORY"); if (existingValue) { this->SetHomeOutputDirectory(cachePath); this->SetHomeDirectory(*existingValue); return true; } } } bool no_source_tree = this->GetHomeDirectory().empty(); bool no_build_tree = this->GetHomeOutputDirectory().empty(); // When invoked with a path that points to an existing CMakeCache // This function is called multiple times with the same path const bool passed_same_path = (listPath == this->GetHomeDirectory()) || (listPath == this->GetHomeOutputDirectory()); bool used_provided_path = (passed_same_path || is_source_dir || no_build_tree); // If there is a CMakeLists.txt file, use it as the source tree. if (!listPath.empty()) { // When invoked with a path that points to an existing CMakeCache // This function is called multiple times with the same path if (is_source_dir) { this->SetHomeDirectoryViaCommandLine(listPath); if (no_build_tree) { std::string cwd = cmSystemTools::GetCurrentWorkingDirectory(); this->SetHomeOutputDirectory(cwd); } } else if (no_source_tree && no_build_tree) { this->SetHomeDirectory(listPath); std::string cwd = cmSystemTools::GetCurrentWorkingDirectory(); this->SetHomeOutputDirectory(cwd); } else if (no_build_tree) { this->SetHomeOutputDirectory(listPath); } } else { if (no_source_tree) { // We didn't find a CMakeLists.txt and it wasn't specified // with -S. Assume it is the path to the source tree std::string full = cmSystemTools::CollapseFullPath(arg); this->SetHomeDirectory(full); } if (no_build_tree && !no_source_tree && is_empty_directory) { // passed `-S when build_dir is an empty directory std::string full = cmSystemTools::CollapseFullPath(arg); this->SetHomeOutputDirectory(full); } else if (no_build_tree) { // We didn't find a CMakeCache.txt and it wasn't specified // with -B. Assume the current working directory as the build tree. std::string cwd = cmSystemTools::GetCurrentWorkingDirectory(); this->SetHomeOutputDirectory(cwd); used_provided_path = false; } } return used_provided_path; } // at the end of this CMAKE_ROOT and CMAKE_COMMAND should be added to the // cache int cmake::AddCMakePaths() { // Save the value in the cache this->AddCacheEntry("CMAKE_COMMAND", cmSystemTools::GetCMakeCommand(), "Path to CMake executable.", cmStateEnums::INTERNAL); #ifndef CMAKE_BOOTSTRAP this->AddCacheEntry("CMAKE_CTEST_COMMAND", cmSystemTools::GetCTestCommand(), "Path to ctest program executable.", cmStateEnums::INTERNAL); this->AddCacheEntry("CMAKE_CPACK_COMMAND", cmSystemTools::GetCPackCommand(), "Path to cpack program executable.", cmStateEnums::INTERNAL); #endif if (!cmSystemTools::FileExists( (cmSystemTools::GetCMakeRoot() + "/Modules/CMake.cmake"))) { // couldn't find modules cmSystemTools::Error( "Could not find CMAKE_ROOT !!!\n" "CMake has most likely not been installed correctly.\n" "Modules directory not found in\n" + cmSystemTools::GetCMakeRoot()); return 0; } this->AddCacheEntry("CMAKE_ROOT", cmSystemTools::GetCMakeRoot(), "Path to CMake installation.", cmStateEnums::INTERNAL); return 1; } void cmake::AddDefaultExtraGenerators() { #if !defined(CMAKE_BOOTSTRAP) this->ExtraGenerators.push_back(cmExtraCodeBlocksGenerator::GetFactory()); this->ExtraGenerators.push_back(cmExtraCodeLiteGenerator::GetFactory()); this->ExtraGenerators.push_back(cmExtraEclipseCDT4Generator::GetFactory()); this->ExtraGenerators.push_back(cmExtraKateGenerator::GetFactory()); this->ExtraGenerators.push_back(cmExtraSublimeTextGenerator::GetFactory()); #endif } void cmake::GetRegisteredGenerators(std::vector& generators, bool includeNamesWithPlatform) const { for (const auto& gen : this->Generators) { std::vector names = gen->GetGeneratorNames(); if (includeNamesWithPlatform) { cm::append(names, gen->GetGeneratorNamesWithPlatform()); } for (std::string const& name : names) { GeneratorInfo info; info.supportsToolset = gen->SupportsToolset(); info.supportsPlatform = gen->SupportsPlatform(); info.supportedPlatforms = gen->GetKnownPlatforms(); info.defaultPlatform = gen->GetDefaultPlatformName(); info.name = name; info.baseName = name; info.isAlias = false; generators.push_back(std::move(info)); } } for (cmExternalMakefileProjectGeneratorFactory* eg : this->ExtraGenerators) { const std::vector genList = eg->GetSupportedGlobalGenerators(); for (std::string const& gen : genList) { GeneratorInfo info; info.name = cmExternalMakefileProjectGenerator::CreateFullGeneratorName( gen, eg->GetName()); info.baseName = gen; info.extraName = eg->GetName(); info.supportsPlatform = false; info.supportsToolset = false; info.isAlias = false; generators.push_back(std::move(info)); } for (std::string const& a : eg->Aliases) { GeneratorInfo info; info.name = a; if (!genList.empty()) { info.baseName = genList.at(0); } info.extraName = eg->GetName(); info.supportsPlatform = false; info.supportsToolset = false; info.isAlias = true; generators.push_back(std::move(info)); } } } static std::pair, std::string> createExtraGenerator( const std::vector& in, const std::string& name) { for (cmExternalMakefileProjectGeneratorFactory* i : in) { const std::vector generators = i->GetSupportedGlobalGenerators(); if (i->GetName() == name) { // Match aliases return { i->CreateExternalMakefileProjectGenerator(), generators.at(0) }; } for (std::string const& g : generators) { const std::string fullName = cmExternalMakefileProjectGenerator::CreateFullGeneratorName( g, i->GetName()); if (fullName == name) { return { i->CreateExternalMakefileProjectGenerator(), g }; } } } return { nullptr, name }; } std::unique_ptr cmake::CreateGlobalGenerator( const std::string& gname, bool allowArch) { std::pair, std::string> extra = createExtraGenerator(this->ExtraGenerators, gname); std::unique_ptr& extraGenerator = extra.first; const std::string& name = extra.second; std::unique_ptr generator; for (const auto& g : this->Generators) { generator = g->CreateGlobalGenerator(name, allowArch, this); if (generator) { break; } } if (generator) { generator->SetExternalMakefileProjectGenerator(std::move(extraGenerator)); } return generator; } bool cmake::CreateAndSetGlobalGenerator(const std::string& name, bool allowArch) { auto gen = this->CreateGlobalGenerator(name, allowArch); if (!gen) { std::string kdevError; std::string vsError; if (name.find("KDevelop3", 0) != std::string::npos) { kdevError = "\nThe KDevelop3 generator is not supported anymore."; } if (!allowArch && cmHasLiteralPrefix(name, "Visual Studio ") && name.length() >= cmStrLen("Visual Studio xx xxxx ")) { vsError = "\nUsing platforms in Visual Studio generator names is not " "supported in CMakePresets.json."; } cmSystemTools::Error( cmStrCat("Could not create named generator ", name, kdevError, vsError)); this->PrintGeneratorList(); return false; } this->SetGlobalGenerator(std::move(gen)); return true; } #ifndef CMAKE_BOOTSTRAP void cmake::PrintPresetList(const cmCMakePresetsGraph& graph) const { std::vector generators; this->GetRegisteredGenerators(generators, false); auto filter = [&generators](const cmCMakePresetsGraph::ConfigurePreset& preset) -> bool { if (preset.Generator.empty()) { return true; } auto condition = [&preset](const GeneratorInfo& info) -> bool { return info.name == preset.Generator; }; auto it = std::find_if(generators.begin(), generators.end(), condition); return it != generators.end(); }; graph.PrintConfigurePresetList(filter); } #endif void cmake::SetHomeDirectoryViaCommandLine(std::string const& path) { if (path.empty()) { return; } auto prev_path = this->GetHomeDirectory(); if (prev_path != path && !prev_path.empty() && this->GetWorkingMode() == NORMAL_MODE) { this->IssueMessage(MessageType::WARNING, cmStrCat("Ignoring extra path from command line:\n \"", prev_path, "\"")); } this->SetHomeDirectory(path); } void cmake::SetHomeDirectory(const std::string& dir) { this->State->SetSourceDirectory(dir); if (this->CurrentSnapshot.IsValid()) { this->CurrentSnapshot.SetDefinition("CMAKE_SOURCE_DIR", dir); } if (this->State->GetProjectKind() == cmState::ProjectKind::Normal) { this->Messenger->SetTopSource(this->GetHomeDirectory()); } else { this->Messenger->SetTopSource(cm::nullopt); } } std::string const& cmake::GetHomeDirectory() const { return this->State->GetSourceDirectory(); } void cmake::SetHomeOutputDirectory(const std::string& dir) { this->State->SetBinaryDirectory(dir); if (this->CurrentSnapshot.IsValid()) { this->CurrentSnapshot.SetDefinition("CMAKE_BINARY_DIR", dir); } } std::string const& cmake::GetHomeOutputDirectory() const { return this->State->GetBinaryDirectory(); } std::string cmake::FindCacheFile(const std::string& binaryDir) { std::string cachePath = binaryDir; cmSystemTools::ConvertToUnixSlashes(cachePath); std::string cacheFile = cmStrCat(cachePath, "/CMakeCache.txt"); if (!cmSystemTools::FileExists(cacheFile)) { // search in parent directories for cache std::string cmakeFiles = cmStrCat(cachePath, "/CMakeFiles"); if (cmSystemTools::FileExists(cmakeFiles)) { std::string cachePathFound = cmSystemTools::FileExistsInParentDirectories("CMakeCache.txt", cachePath, "/"); if (!cachePathFound.empty()) { cachePath = cmSystemTools::GetFilenamePath(cachePathFound); } } } return cachePath; } void cmake::SetGlobalGenerator(std::unique_ptr gg) { if (!gg) { cmSystemTools::Error("Error SetGlobalGenerator called with null"); return; } if (this->GlobalGenerator) { // restore the original environment variables CXX and CC std::string env = "CC="; if (!this->CCEnvironment.empty()) { env += this->CCEnvironment; cmSystemTools::PutEnv(env); } else { cmSystemTools::UnPutEnv(env); } env = "CXX="; if (!this->CXXEnvironment.empty()) { env += this->CXXEnvironment; cmSystemTools::PutEnv(env); } else { cmSystemTools::UnPutEnv(env); } } // set the new this->GlobalGenerator = std::move(gg); // set the global flag for unix style paths on cmSystemTools as soon as // the generator is set. This allows gmake to be used on windows. cmSystemTools::SetForceUnixPaths(this->GlobalGenerator->GetForceUnixPaths()); // Save the environment variables CXX and CC if (!cmSystemTools::GetEnv("CXX", this->CXXEnvironment)) { this->CXXEnvironment.clear(); } if (!cmSystemTools::GetEnv("CC", this->CCEnvironment)) { this->CCEnvironment.clear(); } } int cmake::DoPreConfigureChecks() { // Make sure the Source directory contains a CMakeLists.txt file. std::string srcList = cmStrCat(this->GetHomeDirectory(), "/CMakeLists.txt"); if (!cmSystemTools::FileExists(srcList)) { std::ostringstream err; if (cmSystemTools::FileIsDirectory(this->GetHomeDirectory())) { err << "The source directory \"" << this->GetHomeDirectory() << "\" does not appear to contain CMakeLists.txt.\n"; } else if (cmSystemTools::FileExists(this->GetHomeDirectory())) { err << "The source directory \"" << this->GetHomeDirectory() << "\" is a file, not a directory.\n"; } else { err << "The source directory \"" << this->GetHomeDirectory() << "\" does not exist.\n"; } err << "Specify --help for usage, or press the help button on the CMake " "GUI."; cmSystemTools::Error(err.str()); return -2; } // do a sanity check on some values if (this->State->GetInitializedCacheValue("CMAKE_HOME_DIRECTORY")) { std::string cacheStart = cmStrCat(*this->State->GetInitializedCacheValue("CMAKE_HOME_DIRECTORY"), "/CMakeLists.txt"); std::string currentStart = cmStrCat(this->GetHomeDirectory(), "/CMakeLists.txt"); if (!cmSystemTools::SameFile(cacheStart, currentStart)) { std::string message = cmStrCat("The source \"", currentStart, "\" does not match the source \"", cacheStart, "\" used to generate cache. Re-run cmake with a different " "source directory."); cmSystemTools::Error(message); return -2; } } else { return 0; } return 1; } struct SaveCacheEntry { std::string key; std::string value; std::string help; cmStateEnums::CacheEntryType type; }; int cmake::HandleDeleteCacheVariables(const std::string& var) { std::vector argsSplit = cmExpandedList(var, true); // erase the property to avoid infinite recursion this->State->SetGlobalProperty("__CMAKE_DELETE_CACHE_CHANGE_VARS_", ""); if (this->GetIsInTryCompile()) { return 0; } std::vector saved; std::ostringstream warning; warning << "You have changed variables that require your cache to be deleted.\n" "Configure will be re-run and you may have to reset some variables.\n" "The following variables have changed:\n"; for (auto i = argsSplit.begin(); i != argsSplit.end(); ++i) { SaveCacheEntry save; save.key = *i; warning << *i << "= "; i++; if (i != argsSplit.end()) { save.value = *i; warning << *i << '\n'; } else { warning << '\n'; i -= 1; } cmValue existingValue = this->State->GetCacheEntryValue(save.key); if (existingValue) { save.type = this->State->GetCacheEntryType(save.key); if (cmValue help = this->State->GetCacheEntryProperty(save.key, "HELPSTRING")) { save.help = *help; } } else { save.type = cmStateEnums::CacheEntryType::UNINITIALIZED; } saved.push_back(std::move(save)); } // remove the cache this->DeleteCache(this->GetHomeOutputDirectory()); // load the empty cache this->LoadCache(); // restore the changed compilers for (SaveCacheEntry const& i : saved) { this->AddCacheEntry(i.key, i.value, i.help.c_str(), i.type); } cmSystemTools::Message(warning.str()); // avoid reconfigure if there were errors if (!cmSystemTools::GetErrorOccurredFlag()) { // re-run configure return this->Configure(); } return 0; } int cmake::Configure() { #if !defined(CMAKE_BOOTSTRAP) auto profilingRAII = this->CreateProfilingEntry("project", "configure"); #endif DiagLevel diagLevel; if (this->DiagLevels.count("deprecated") == 1) { diagLevel = this->DiagLevels["deprecated"]; if (diagLevel == DIAG_IGNORE) { this->SetSuppressDeprecatedWarnings(true); this->SetDeprecatedWarningsAsErrors(false); } else if (diagLevel == DIAG_WARN) { this->SetSuppressDeprecatedWarnings(false); this->SetDeprecatedWarningsAsErrors(false); } else if (diagLevel == DIAG_ERROR) { this->SetSuppressDeprecatedWarnings(false); this->SetDeprecatedWarningsAsErrors(true); } } if (this->DiagLevels.count("dev") == 1) { bool setDeprecatedVariables = false; cmValue cachedWarnDeprecated = this->State->GetCacheEntryValue("CMAKE_WARN_DEPRECATED"); cmValue cachedErrorDeprecated = this->State->GetCacheEntryValue("CMAKE_ERROR_DEPRECATED"); // don't overwrite deprecated warning setting from a previous invocation if (!cachedWarnDeprecated && !cachedErrorDeprecated) { setDeprecatedVariables = true; } diagLevel = this->DiagLevels["dev"]; if (diagLevel == DIAG_IGNORE) { this->SetSuppressDevWarnings(true); this->SetDevWarningsAsErrors(false); if (setDeprecatedVariables) { this->SetSuppressDeprecatedWarnings(true); this->SetDeprecatedWarningsAsErrors(false); } } else if (diagLevel == DIAG_WARN) { this->SetSuppressDevWarnings(false); this->SetDevWarningsAsErrors(false); if (setDeprecatedVariables) { this->SetSuppressDeprecatedWarnings(false); this->SetDeprecatedWarningsAsErrors(false); } } else if (diagLevel == DIAG_ERROR) { this->SetSuppressDevWarnings(false); this->SetDevWarningsAsErrors(true); if (setDeprecatedVariables) { this->SetSuppressDeprecatedWarnings(false); this->SetDeprecatedWarningsAsErrors(true); } } } // Cache variables may have already been set by a previous invocation, // so we cannot rely on command line options alone. Always ensure our // messenger is in sync with the cache. cmValue value = this->State->GetCacheEntryValue("CMAKE_WARN_DEPRECATED"); this->Messenger->SetSuppressDeprecatedWarnings(value && cmIsOff(*value)); value = this->State->GetCacheEntryValue("CMAKE_ERROR_DEPRECATED"); this->Messenger->SetDeprecatedWarningsAsErrors(cmIsOn(value)); value = this->State->GetCacheEntryValue("CMAKE_SUPPRESS_DEVELOPER_WARNINGS"); this->Messenger->SetSuppressDevWarnings(cmIsOn(value)); value = this->State->GetCacheEntryValue("CMAKE_SUPPRESS_DEVELOPER_ERRORS"); this->Messenger->SetDevWarningsAsErrors(value && cmIsOff(*value)); int ret = this->ActualConfigure(); cmValue delCacheVars = this->State->GetGlobalProperty("__CMAKE_DELETE_CACHE_CHANGE_VARS_"); if (delCacheVars && !delCacheVars->empty()) { return this->HandleDeleteCacheVariables(*delCacheVars); } return ret; } int cmake::ActualConfigure() { // Construct right now our path conversion table before it's too late: this->UpdateConversionPathTable(); this->CleanupCommandsAndMacros(); cmSystemTools::RemoveADirectory(this->GetHomeOutputDirectory() + "/CMakeFiles/CMakeScratch"); int res = this->DoPreConfigureChecks(); if (res < 0) { return -2; } if (!res) { this->AddCacheEntry( "CMAKE_HOME_DIRECTORY", this->GetHomeDirectory(), "Source directory with the top level CMakeLists.txt file for this " "project", cmStateEnums::INTERNAL); } // We want to create the package redirects directory as early as possible, // but not before pre-configure checks have passed. This ensures we get // errors about inappropriate source/binary directories first. const auto redirectsDir = cmStrCat(this->GetHomeOutputDirectory(), "/CMakeFiles/pkgRedirects"); cmSystemTools::RemoveADirectory(redirectsDir); if (!cmSystemTools::MakeDirectory(redirectsDir)) { cmSystemTools::Error( "Unable to (re)create the private pkgRedirects directory:\n" + redirectsDir); return -1; } this->AddCacheEntry("CMAKE_FIND_PACKAGE_REDIRECTS_DIR", redirectsDir, "Value Computed by CMake.", cmStateEnums::STATIC); // no generator specified on the command line if (!this->GlobalGenerator) { cmValue genName = this->State->GetInitializedCacheValue("CMAKE_GENERATOR"); cmValue extraGenName = this->State->GetInitializedCacheValue("CMAKE_EXTRA_GENERATOR"); if (genName) { std::string fullName = cmExternalMakefileProjectGenerator::CreateFullGeneratorName( *genName, extraGenName ? *extraGenName : ""); this->GlobalGenerator = this->CreateGlobalGenerator(fullName); } if (this->GlobalGenerator) { // set the global flag for unix style paths on cmSystemTools as // soon as the generator is set. This allows gmake to be used // on windows. cmSystemTools::SetForceUnixPaths( this->GlobalGenerator->GetForceUnixPaths()); } else { this->CreateDefaultGlobalGenerator(); } if (!this->GlobalGenerator) { cmSystemTools::Error("Could not create generator"); return -1; } } cmValue genName = this->State->GetInitializedCacheValue("CMAKE_GENERATOR"); if (genName) { if (!this->GlobalGenerator->MatchesGeneratorName(*genName)) { std::string message = cmStrCat("Error: generator : ", this->GlobalGenerator->GetName(), "\nDoes not match the generator used previously: ", *genName, "\nEither remove the CMakeCache.txt file and CMakeFiles " "directory or choose a different binary directory."); cmSystemTools::Error(message); return -2; } } if (!this->State->GetInitializedCacheValue("CMAKE_GENERATOR")) { this->AddCacheEntry("CMAKE_GENERATOR", this->GlobalGenerator->GetName(), "Name of generator.", cmStateEnums::INTERNAL); this->AddCacheEntry( "CMAKE_EXTRA_GENERATOR", this->GlobalGenerator->GetExtraGeneratorName(), "Name of external makefile project generator.", cmStateEnums::INTERNAL); if (!this->State->GetInitializedCacheValue("CMAKE_TOOLCHAIN_FILE")) { std::string envToolchain; if (cmSystemTools::GetEnv("CMAKE_TOOLCHAIN_FILE", envToolchain) && !envToolchain.empty()) { this->AddCacheEntry("CMAKE_TOOLCHAIN_FILE", envToolchain, "The CMake toolchain file", cmStateEnums::FILEPATH); } } } if (cmValue instance = this->State->GetInitializedCacheValue("CMAKE_GENERATOR_INSTANCE")) { if (this->GeneratorInstanceSet && this->GeneratorInstance != *instance) { std::string message = cmStrCat("Error: generator instance: ", this->GeneratorInstance, "\nDoes not match the instance used previously: ", *instance, "\nEither remove the CMakeCache.txt file and CMakeFiles " "directory or choose a different binary directory."); cmSystemTools::Error(message); return -2; } } else { this->AddCacheEntry("CMAKE_GENERATOR_INSTANCE", this->GeneratorInstance, "Generator instance identifier.", cmStateEnums::INTERNAL); } if (cmValue platformName = this->State->GetInitializedCacheValue("CMAKE_GENERATOR_PLATFORM")) { if (this->GeneratorPlatformSet && this->GeneratorPlatform != *platformName) { std::string message = cmStrCat( "Error: generator platform: ", this->GeneratorPlatform, "\nDoes not match the platform used previously: ", *platformName, "\nEither remove the CMakeCache.txt file and CMakeFiles " "directory or choose a different binary directory."); cmSystemTools::Error(message); return -2; } } else { this->AddCacheEntry("CMAKE_GENERATOR_PLATFORM", this->GeneratorPlatform, "Name of generator platform.", cmStateEnums::INTERNAL); } if (cmValue tsName = this->State->GetInitializedCacheValue("CMAKE_GENERATOR_TOOLSET")) { if (this->GeneratorToolsetSet && this->GeneratorToolset != *tsName) { std::string message = cmStrCat("Error: generator toolset: ", this->GeneratorToolset, "\nDoes not match the toolset used previously: ", *tsName, "\nEither remove the CMakeCache.txt file and CMakeFiles " "directory or choose a different binary directory."); cmSystemTools::Error(message); return -2; } } else { this->AddCacheEntry("CMAKE_GENERATOR_TOOLSET", this->GeneratorToolset, "Name of generator toolset.", cmStateEnums::INTERNAL); } // reset any system configuration information, except for when we are // InTryCompile. With TryCompile the system info is taken from the parent's // info to save time if (!this->GetIsInTryCompile()) { this->GlobalGenerator->ClearEnabledLanguages(); } #if !defined(CMAKE_BOOTSTRAP) this->FileAPI = cm::make_unique(this); this->FileAPI->ReadQueries(); if (!this->GetIsInTryCompile()) { this->TruncateOutputLog("CMakeConfigureLog.yaml"); this->ConfigureLog = cm::make_unique( cmStrCat(this->GetHomeOutputDirectory(), "/CMakeFiles"_s), this->FileAPI->GetConfigureLogVersions()); } #endif // actually do the configure this->GlobalGenerator->Configure(); #if !defined(CMAKE_BOOTSTRAP) this->ConfigureLog.reset(); #endif // Before saving the cache // if the project did not define one of the entries below, add them now // so users can edit the values in the cache: // We used to always present LIBRARY_OUTPUT_PATH and // EXECUTABLE_OUTPUT_PATH. They are now documented as old-style and // should no longer be used. Therefore we present them only if the // project requires compatibility with CMake 2.4. We detect this // here by looking for the old CMAKE_BACKWARDS_COMPATIBILITY // variable created when CMP0001 is not set to NEW. if (this->State->GetInitializedCacheValue("CMAKE_BACKWARDS_COMPATIBILITY")) { if (!this->State->GetInitializedCacheValue("LIBRARY_OUTPUT_PATH")) { this->AddCacheEntry( "LIBRARY_OUTPUT_PATH", "", "Single output directory for building all libraries.", cmStateEnums::PATH); } if (!this->State->GetInitializedCacheValue("EXECUTABLE_OUTPUT_PATH")) { this->AddCacheEntry( "EXECUTABLE_OUTPUT_PATH", "", "Single output directory for building all executables.", cmStateEnums::PATH); } } const auto& mf = this->GlobalGenerator->GetMakefiles()[0]; if (mf->IsOn("CTEST_USE_LAUNCHERS") && !this->State->GetGlobalProperty("RULE_LAUNCH_COMPILE")) { cmSystemTools::Error( "CTEST_USE_LAUNCHERS is enabled, but the " "RULE_LAUNCH_COMPILE global property is not defined.\n" "Did you forget to include(CTest) in the toplevel " "CMakeLists.txt ?"); } this->State->SaveVerificationScript(this->GetHomeOutputDirectory(), this->Messenger.get()); this->SaveCache(this->GetHomeOutputDirectory()); if (cmSystemTools::GetErrorOccurredFlag()) { return -1; } return 0; } std::unique_ptr cmake::EvaluateDefaultGlobalGenerator() { if (!this->EnvironmentGenerator.empty()) { auto gen = this->CreateGlobalGenerator(this->EnvironmentGenerator); if (!gen) { cmSystemTools::Error("CMAKE_GENERATOR was set but the specified " "generator doesn't exist. Using CMake default."); } else { return gen; } } #if defined(_WIN32) && !defined(__CYGWIN__) && !defined(CMAKE_BOOT_MINGW) std::string found; // Try to find the newest VS installed on the computer and // use that as a default if -G is not specified const std::string vsregBase = "HKEY_LOCAL_MACHINE\\SOFTWARE\\Microsoft\\"; static const char* const vsVariants[] = { /* clang-format needs this comment to break after the opening brace */ "VisualStudio\\", "VCExpress\\", "WDExpress\\" }; struct VSVersionedGenerator { const char* MSVersion; const char* GeneratorName; }; static VSVersionedGenerator const vsGenerators[] = { { "14.0", "Visual Studio 14 2015" }, // { "12.0", "Visual Studio 12 2013" }, // { "11.0", "Visual Studio 11 2012" }, // { "9.0", "Visual Studio 9 2008" } }; static const char* const vsEntries[] = { "\\Setup\\VC;ProductDir", // ";InstallDir" // }; if (cmVSSetupAPIHelper(17).IsVSInstalled()) { found = "Visual Studio 17 2022"; } else if (cmVSSetupAPIHelper(16).IsVSInstalled()) { found = "Visual Studio 16 2019"; } else if (cmVSSetupAPIHelper(15).IsVSInstalled()) { found = "Visual Studio 15 2017"; } else { for (VSVersionedGenerator const* g = cm::cbegin(vsGenerators); found.empty() && g != cm::cend(vsGenerators); ++g) { for (const char* const* v = cm::cbegin(vsVariants); found.empty() && v != cm::cend(vsVariants); ++v) { for (const char* const* e = cm::cbegin(vsEntries); found.empty() && e != cm::cend(vsEntries); ++e) { std::string const reg = vsregBase + *v + g->MSVersion + *e; std::string dir; if (cmSystemTools::ReadRegistryValue(reg, dir, cmSystemTools::KeyWOW64_32) && cmSystemTools::PathExists(dir)) { found = g->GeneratorName; } } } } } auto gen = this->CreateGlobalGenerator(found); if (!gen) { gen = cm::make_unique(this); } return std::unique_ptr(std::move(gen)); #elif defined(CMAKE_BOOTSTRAP_NINJA) return std::unique_ptr( cm::make_unique(this)); #else return std::unique_ptr( cm::make_unique(this)); #endif } void cmake::CreateDefaultGlobalGenerator() { auto gen = this->EvaluateDefaultGlobalGenerator(); #if defined(_WIN32) && !defined(__CYGWIN__) && !defined(CMAKE_BOOT_MINGW) // This print could be unified for all platforms std::cout << "-- Building for: " << gen->GetName() << '\n'; #endif this->SetGlobalGenerator(std::move(gen)); } void cmake::PreLoadCMakeFiles() { std::vector args; std::string pre_load = this->GetHomeDirectory(); if (!pre_load.empty()) { pre_load += "/PreLoad.cmake"; if (cmSystemTools::FileExists(pre_load)) { this->ReadListFile(args, pre_load); } } pre_load = this->GetHomeOutputDirectory(); if (!pre_load.empty()) { pre_load += "/PreLoad.cmake"; if (cmSystemTools::FileExists(pre_load)) { this->ReadListFile(args, pre_load); } } } // handle a command line invocation int cmake::Run(const std::vector& args, bool noconfigure) { // Process the arguments this->SetArgs(args); if (cmSystemTools::GetErrorOccurredFlag()) { return -1; } if (this->GetWorkingMode() == HELP_MODE) { return 0; } // Log the trace format version to the desired output if (this->GetTrace()) { this->PrintTraceFormatVersion(); } // If we are given a stamp list file check if it is really out of date. if (!this->CheckStampList.empty() && cmakeCheckStampList(this->CheckStampList)) { return 0; } // If we are given a stamp file check if it is really out of date. if (!this->CheckStampFile.empty() && cmakeCheckStampFile(this->CheckStampFile)) { return 0; } if (this->GetWorkingMode() == NORMAL_MODE) { if (this->FreshCache) { this->DeleteCache(this->GetHomeOutputDirectory()); } // load the cache if (this->LoadCache() < 0) { cmSystemTools::Error("Error executing cmake::LoadCache(). Aborting.\n"); return -1; } } else { if (this->FreshCache) { cmSystemTools::Error("--fresh allowed only when configuring a project"); return -1; } this->AddCMakePaths(); } #ifndef CMAKE_BOOTSTRAP this->ProcessPresetVariables(); this->ProcessPresetEnvironment(); #endif // Add any cache args if (!this->SetCacheArgs(args)) { cmSystemTools::Error("Run 'cmake --help' for all supported options."); return -1; } #ifndef CMAKE_BOOTSTRAP this->PrintPresetVariables(); this->PrintPresetEnvironment(); #endif // In script mode we terminate after running the script. if (this->GetWorkingMode() != NORMAL_MODE) { if (cmSystemTools::GetErrorOccurredFlag()) { return -1; } return 0; } // If MAKEFLAGS are given in the environment, remove the environment // variable. This will prevent try-compile from succeeding when it // should fail (if "-i" is an option). We cannot simply test // whether "-i" is given and remove it because some make programs // encode the MAKEFLAGS variable in a strange way. if (cmSystemTools::HasEnv("MAKEFLAGS")) { cmSystemTools::PutEnv("MAKEFLAGS="); } this->PreLoadCMakeFiles(); if (noconfigure) { return 0; } // now run the global generate // Check the state of the build system to see if we need to regenerate. if (!this->CheckBuildSystem()) { return 0; } int ret = this->Configure(); if (ret) { #if defined(CMAKE_HAVE_VS_GENERATORS) if (!this->VSSolutionFile.empty() && this->GlobalGenerator) { // CMake is running to regenerate a Visual Studio build tree // during a build from the VS IDE. The build files cannot be // regenerated, so we should stop the build. cmSystemTools::Message("CMake Configure step failed. " "Build files cannot be regenerated correctly. " "Attempting to stop IDE build."); cmGlobalVisualStudioGenerator& gg = cm::static_reference_cast( this->GlobalGenerator); gg.CallVisualStudioMacro(cmGlobalVisualStudioGenerator::MacroStop, this->VSSolutionFile); } #endif return ret; } ret = this->Generate(); if (ret) { cmSystemTools::Message("CMake Generate step failed. " "Build files cannot be regenerated correctly."); return ret; } std::string message = cmStrCat("Build files have been written to: ", this->GetHomeOutputDirectory()); this->UpdateProgress(message, -1); return ret; } int cmake::Generate() { if (!this->GlobalGenerator) { return -1; } #if !defined(CMAKE_BOOTSTRAP) auto profilingRAII = this->CreateProfilingEntry("project", "generate"); #endif if (!this->GlobalGenerator->Compute()) { return -1; } this->GlobalGenerator->Generate(); if (!this->GraphVizFile.empty()) { std::cout << "Generate graphviz: " << this->GraphVizFile << '\n'; this->GenerateGraphViz(this->GraphVizFile); } if (this->WarnUnusedCli) { this->RunCheckForUnusedVariables(); } if (cmSystemTools::GetErrorOccurredFlag()) { return -1; } // Save the cache again after a successful Generate so that any internal // variables created during Generate are saved. (Specifically target GUIDs // for the Visual Studio and Xcode generators.) this->SaveCache(this->GetHomeOutputDirectory()); #if !defined(CMAKE_BOOTSTRAP) this->FileAPI->WriteReplies(); #endif return 0; } void cmake::AddCacheEntry(const std::string& key, cmValue value, const char* helpString, int type) { this->State->AddCacheEntry(key, value, helpString, static_cast(type)); this->UnwatchUnusedCli(key); if (key == "CMAKE_WARN_DEPRECATED"_s) { this->Messenger->SetSuppressDeprecatedWarnings(value && cmIsOff(value)); } else if (key == "CMAKE_ERROR_DEPRECATED"_s) { this->Messenger->SetDeprecatedWarningsAsErrors(cmIsOn(value)); } else if (key == "CMAKE_SUPPRESS_DEVELOPER_WARNINGS"_s) { this->Messenger->SetSuppressDevWarnings(cmIsOn(value)); } else if (key == "CMAKE_SUPPRESS_DEVELOPER_ERRORS"_s) { this->Messenger->SetDevWarningsAsErrors(value && cmIsOff(value)); } } bool cmake::DoWriteGlobVerifyTarget() const { return this->State->DoWriteGlobVerifyTarget(); } std::string const& cmake::GetGlobVerifyScript() const { return this->State->GetGlobVerifyScript(); } std::string const& cmake::GetGlobVerifyStamp() const { return this->State->GetGlobVerifyStamp(); } void cmake::AddGlobCacheEntry(bool recurse, bool listDirectories, bool followSymlinks, const std::string& relative, const std::string& expression, const std::vector& files, const std::string& variable, cmListFileBacktrace const& backtrace) { this->State->AddGlobCacheEntry(recurse, listDirectories, followSymlinks, relative, expression, files, variable, backtrace, this->Messenger.get()); } std::vector cmake::GetAllExtensions() const { std::vector allExt = this->CLikeSourceFileExtensions.ordered; allExt.insert(allExt.end(), this->HeaderFileExtensions.ordered.begin(), this->HeaderFileExtensions.ordered.end()); // cuda extensions are also in SourceFileExtensions so we ignore it here allExt.insert(allExt.end(), this->FortranFileExtensions.ordered.begin(), this->FortranFileExtensions.ordered.end()); allExt.insert(allExt.end(), this->HipFileExtensions.ordered.begin(), this->HipFileExtensions.ordered.end()); allExt.insert(allExt.end(), this->ISPCFileExtensions.ordered.begin(), this->ISPCFileExtensions.ordered.end()); return allExt; } std::string cmake::StripExtension(const std::string& file) const { auto dotpos = file.rfind('.'); if (dotpos != std::string::npos) { #if defined(_WIN32) || defined(__APPLE__) auto ext = cmSystemTools::LowerCase(file.substr(dotpos + 1)); #else auto ext = cm::string_view(file).substr(dotpos + 1); #endif if (this->IsAKnownExtension(ext)) { return file.substr(0, dotpos); } } return file; } cmValue cmake::GetCacheDefinition(const std::string& name) const { return this->State->GetInitializedCacheValue(name); } void cmake::AddScriptingCommands() const { GetScriptingCommands(this->GetState()); } void cmake::AddProjectCommands() const { GetProjectCommands(this->GetState()); } void cmake::AddDefaultGenerators() { #if defined(_WIN32) && !defined(__CYGWIN__) # if !defined(CMAKE_BOOT_MINGW) this->Generators.push_back( cmGlobalVisualStudioVersionedGenerator::NewFactory17()); this->Generators.push_back( cmGlobalVisualStudioVersionedGenerator::NewFactory16()); this->Generators.push_back( cmGlobalVisualStudioVersionedGenerator::NewFactory15()); this->Generators.push_back(cmGlobalVisualStudio14Generator::NewFactory()); this->Generators.push_back(cmGlobalVisualStudio12Generator::NewFactory()); this->Generators.push_back(cmGlobalVisualStudio11Generator::NewFactory()); this->Generators.push_back(cmGlobalVisualStudio9Generator::NewFactory()); this->Generators.push_back(cmGlobalBorlandMakefileGenerator::NewFactory()); this->Generators.push_back(cmGlobalNMakeMakefileGenerator::NewFactory()); this->Generators.push_back(cmGlobalJOMMakefileGenerator::NewFactory()); # endif this->Generators.push_back(cmGlobalMSYSMakefileGenerator::NewFactory()); this->Generators.push_back(cmGlobalMinGWMakefileGenerator::NewFactory()); #endif #if !defined(CMAKE_BOOTSTRAP) # if (defined(__linux__) && !defined(__ANDROID__)) || defined(_WIN32) this->Generators.push_back(cmGlobalGhsMultiGenerator::NewFactory()); # endif this->Generators.push_back(cmGlobalUnixMakefileGenerator3::NewFactory()); this->Generators.push_back(cmGlobalNinjaGenerator::NewFactory()); this->Generators.push_back(cmGlobalNinjaMultiGenerator::NewFactory()); #elif defined(CMAKE_BOOTSTRAP_NINJA) this->Generators.push_back(cmGlobalNinjaGenerator::NewFactory()); #elif defined(CMAKE_BOOTSTRAP_MAKEFILES) this->Generators.push_back(cmGlobalUnixMakefileGenerator3::NewFactory()); #endif #if defined(CMAKE_USE_WMAKE) this->Generators.push_back(cmGlobalWatcomWMakeGenerator::NewFactory()); #endif #ifdef CMAKE_USE_XCODE this->Generators.push_back(cmGlobalXCodeGenerator::NewFactory()); #endif } bool cmake::ParseCacheEntry(const std::string& entry, std::string& var, std::string& value, cmStateEnums::CacheEntryType& type) { return cmState::ParseCacheEntry(entry, var, value, type); } int cmake::LoadCache() { // could we not read the cache if (!this->LoadCache(this->GetHomeOutputDirectory())) { // if it does exist, but isn't readable then warn the user std::string cacheFile = cmStrCat(this->GetHomeOutputDirectory(), "/CMakeCache.txt"); if (cmSystemTools::FileExists(cacheFile)) { cmSystemTools::Error( "There is a CMakeCache.txt file for the current binary tree but " "cmake does not have permission to read it. Please check the " "permissions of the directory you are trying to run CMake on."); return -1; } } // setup CMAKE_ROOT and CMAKE_COMMAND if (!this->AddCMakePaths()) { return -3; } return 0; } bool cmake::LoadCache(const std::string& path) { std::set emptySet; return this->LoadCache(path, true, emptySet, emptySet); } bool cmake::LoadCache(const std::string& path, bool internal, std::set& excludes, std::set& includes) { bool result = this->State->LoadCache(path, internal, excludes, includes); static const auto entries = { "CMAKE_CACHE_MAJOR_VERSION", "CMAKE_CACHE_MINOR_VERSION" }; for (auto const& entry : entries) { this->UnwatchUnusedCli(entry); } return result; } bool cmake::SaveCache(const std::string& path) { bool result = this->State->SaveCache(path, this->GetMessenger()); static const auto entries = { "CMAKE_CACHE_MAJOR_VERSION", "CMAKE_CACHE_MINOR_VERSION", "CMAKE_CACHE_PATCH_VERSION", "CMAKE_CACHEFILE_DIR" }; for (auto const& entry : entries) { this->UnwatchUnusedCli(entry); } return result; } bool cmake::DeleteCache(const std::string& path) { return this->State->DeleteCache(path); } void cmake::SetProgressCallback(ProgressCallbackType f) { this->ProgressCallback = std::move(f); } void cmake::UpdateProgress(const std::string& msg, float prog) { if (this->ProgressCallback && !this->GetIsInTryCompile()) { this->ProgressCallback(msg, prog); } } bool cmake::GetIsInTryCompile() const { return this->State->GetProjectKind() == cmState::ProjectKind::TryCompile; } void cmake::AppendGlobalGeneratorsDocumentation( std::vector& v) { const auto defaultGenerator = this->EvaluateDefaultGlobalGenerator(); const auto defaultName = defaultGenerator->GetName(); auto foundDefaultOne = false; for (const auto& g : this->Generators) { v.emplace_back(g->GetDocumentation()); if (!foundDefaultOne && cmHasPrefix(v.back().Name, defaultName)) { v.back().CustomNamePrefix = '*'; foundDefaultOne = true; } } } void cmake::AppendExtraGeneratorsDocumentation( std::vector& v) { for (cmExternalMakefileProjectGeneratorFactory* eg : this->ExtraGenerators) { const std::string doc = eg->GetDocumentation(); const std::string name = eg->GetName(); // Aliases: for (std::string const& a : eg->Aliases) { v.emplace_back(cmDocumentationEntry{ a, doc }); } // Full names: for (std::string const& g : eg->GetSupportedGlobalGenerators()) { v.emplace_back(cmDocumentationEntry{ cmExternalMakefileProjectGenerator::CreateFullGeneratorName(g, name), doc }); } } } std::vector cmake::GetGeneratorsDocumentation() { std::vector v; this->AppendGlobalGeneratorsDocumentation(v); this->AppendExtraGeneratorsDocumentation(v); return v; } void cmake::PrintGeneratorList() { #ifndef CMAKE_BOOTSTRAP cmDocumentation doc; auto generators = this->GetGeneratorsDocumentation(); doc.AppendSection("Generators", generators); std::cerr << '\n'; doc.PrintDocumentation(cmDocumentation::ListGenerators, std::cerr); #endif } void cmake::UpdateConversionPathTable() { // Update the path conversion table with any specified file: cmValue tablepath = this->State->GetInitializedCacheValue("CMAKE_PATH_TRANSLATION_FILE"); if (tablepath) { cmsys::ifstream table(tablepath->c_str()); if (!table) { cmSystemTools::Error("CMAKE_PATH_TRANSLATION_FILE set to " + *tablepath + ". CMake can not open file."); cmSystemTools::ReportLastSystemError("CMake can not open file."); } else { std::string a; std::string b; while (!table.eof()) { // two entries per line table >> a; table >> b; cmSystemTools::AddTranslationPath(a, b); } } } } int cmake::CheckBuildSystem() { // We do not need to rerun CMake. Check dependency integrity. const bool verbose = isCMakeVerbose(); // This method will check the integrity of the build system if the // option was given on the command line. It reads the given file to // determine whether CMake should rerun. // If no file is provided for the check, we have to rerun. if (this->CheckBuildSystemArgument.empty()) { if (verbose) { cmSystemTools::Stdout("Re-run cmake no build system arguments\n"); } return 1; } // If the file provided does not exist, we have to rerun. if (!cmSystemTools::FileExists(this->CheckBuildSystemArgument)) { if (verbose) { std::ostringstream msg; msg << "Re-run cmake missing file: " << this->CheckBuildSystemArgument << '\n'; cmSystemTools::Stdout(msg.str()); } return 1; } // Read the rerun check file and use it to decide whether to do the // global generate. // Actually, all we need is the `set` command. cmake cm(RoleScript, cmState::Unknown); cm.SetHomeDirectory(""); cm.SetHomeOutputDirectory(""); cm.GetCurrentSnapshot().SetDefaultDefinitions(); cmGlobalGenerator gg(&cm); cmMakefile mf(&gg, cm.GetCurrentSnapshot()); if (!mf.ReadListFile(this->CheckBuildSystemArgument) || cmSystemTools::GetErrorOccurredFlag()) { if (verbose) { std::ostringstream msg; msg << "Re-run cmake error reading : " << this->CheckBuildSystemArgument << '\n'; cmSystemTools::Stdout(msg.str()); } // There was an error reading the file. Just rerun. return 1; } if (this->ClearBuildSystem) { // Get the generator used for this build system. std::string genName = mf.GetSafeDefinition("CMAKE_DEPENDS_GENERATOR"); if (!cmNonempty(genName)) { genName = "Unix Makefiles"; } // Create the generator and use it to clear the dependencies. std::unique_ptr ggd = this->CreateGlobalGenerator(genName); if (ggd) { cm.GetCurrentSnapshot().SetDefaultDefinitions(); cmMakefile mfd(ggd.get(), cm.GetCurrentSnapshot()); auto lgd = ggd->CreateLocalGenerator(&mfd); lgd->ClearDependencies(&mfd, verbose); } } // If any byproduct of makefile generation is missing we must re-run. std::vector products; mf.GetDefExpandList("CMAKE_MAKEFILE_PRODUCTS", products); for (std::string const& p : products) { if (!(cmSystemTools::FileExists(p) || cmSystemTools::FileIsSymlink(p))) { if (verbose) { cmSystemTools::Stdout( cmStrCat("Re-run cmake, missing byproduct: ", p, '\n')); } return 1; } } // Get the set of dependencies and outputs. std::vector depends; std::vector outputs; if (mf.GetDefExpandList("CMAKE_MAKEFILE_DEPENDS", depends)) { mf.GetDefExpandList("CMAKE_MAKEFILE_OUTPUTS", outputs); } if (depends.empty() || outputs.empty()) { // Not enough information was provided to do the test. Just rerun. if (verbose) { cmSystemTools::Stdout("Re-run cmake no CMAKE_MAKEFILE_DEPENDS " "or CMAKE_MAKEFILE_OUTPUTS :\n"); } return 1; } // Find the newest dependency. auto dep = depends.begin(); std::string dep_newest = *dep++; for (; dep != depends.end(); ++dep) { int result = 0; if (this->FileTimeCache->Compare(dep_newest, *dep, &result)) { if (result < 0) { dep_newest = *dep; } } else { if (verbose) { cmSystemTools::Stdout( "Re-run cmake: build system dependency is missing\n"); } return 1; } } // Find the oldest output. auto out = outputs.begin(); std::string out_oldest = *out++; for (; out != outputs.end(); ++out) { int result = 0; if (this->FileTimeCache->Compare(out_oldest, *out, &result)) { if (result > 0) { out_oldest = *out; } } else { if (verbose) { cmSystemTools::Stdout( "Re-run cmake: build system output is missing\n"); } return 1; } } // If any output is older than any dependency then rerun. { int result = 0; if (!this->FileTimeCache->Compare(out_oldest, dep_newest, &result) || result < 0) { if (verbose) { std::ostringstream msg; msg << "Re-run cmake file: " << out_oldest << " older than: " << dep_newest << '\n'; cmSystemTools::Stdout(msg.str()); } return 1; } } // No need to rerun. return 0; } void cmake::TruncateOutputLog(const char* fname) { std::string fullPath = cmStrCat(this->GetHomeOutputDirectory(), '/', fname); struct stat st; if (::stat(fullPath.c_str(), &st)) { return; } if (!this->State->GetInitializedCacheValue("CMAKE_CACHEFILE_DIR")) { cmSystemTools::RemoveFile(fullPath); return; } off_t fsize = st.st_size; const off_t maxFileSize = 50 * 1024; if (fsize < maxFileSize) { // TODO: truncate file return; } } void cmake::MarkCliAsUsed(const std::string& variable) { this->UsedCliVariables[variable] = true; } void cmake::GenerateGraphViz(const std::string& fileName) const { #ifndef CMAKE_BOOTSTRAP cmGraphVizWriter gvWriter(fileName, this->GetGlobalGenerator()); std::string settingsFile = cmStrCat(this->GetHomeOutputDirectory(), "/CMakeGraphVizOptions.cmake"); std::string fallbackSettingsFile = cmStrCat(this->GetHomeDirectory(), "/CMakeGraphVizOptions.cmake"); gvWriter.ReadSettings(settingsFile, fallbackSettingsFile); gvWriter.Write(); #endif } void cmake::SetProperty(const std::string& prop, const char* value) { this->State->SetGlobalProperty(prop, value); } void cmake::SetProperty(const std::string& prop, cmValue value) { this->State->SetGlobalProperty(prop, value); } void cmake::AppendProperty(const std::string& prop, const std::string& value, bool asString) { this->State->AppendGlobalProperty(prop, value, asString); } cmValue cmake::GetProperty(const std::string& prop) { return this->State->GetGlobalProperty(prop); } bool cmake::GetPropertyAsBool(const std::string& prop) { return this->State->GetGlobalPropertyAsBool(prop); } cmInstalledFile* cmake::GetOrCreateInstalledFile(cmMakefile* mf, const std::string& name) { auto i = this->InstalledFiles.find(name); if (i != this->InstalledFiles.end()) { cmInstalledFile& file = i->second; return &file; } cmInstalledFile& file = this->InstalledFiles[name]; file.SetName(mf, name); return &file; } cmInstalledFile const* cmake::GetInstalledFile(const std::string& name) const { auto i = this->InstalledFiles.find(name); if (i != this->InstalledFiles.end()) { cmInstalledFile const& file = i->second; return &file; } return nullptr; } int cmake::GetSystemInformation(std::vector& args) { // so create the directory std::string resultFile; std::string cwd = cmSystemTools::GetCurrentWorkingDirectory(); std::string destPath = cwd + "/__cmake_systeminformation"; cmSystemTools::RemoveADirectory(destPath); if (!cmSystemTools::MakeDirectory(destPath)) { std::cerr << "Error: --system-information must be run from a " "writable directory!\n"; return 1; } // process the arguments bool writeToStdout = true; for (unsigned int i = 1; i < args.size(); ++i) { std::string const& arg = args[i]; if (cmHasLiteralPrefix(arg, "-G")) { std::string value = arg.substr(2); if (value.empty()) { ++i; if (i >= args.size()) { cmSystemTools::Error("No generator specified for -G"); this->PrintGeneratorList(); return -1; } value = args[i]; } auto gen = this->CreateGlobalGenerator(value); if (!gen) { cmSystemTools::Error("Could not create named generator " + value); this->PrintGeneratorList(); } else { this->SetGlobalGenerator(std::move(gen)); } } // no option assume it is the output file else { if (!cmSystemTools::FileIsFullPath(arg)) { resultFile = cmStrCat(cwd, '/'); } resultFile += arg; writeToStdout = false; } } // we have to find the module directory, so we can copy the files this->AddCMakePaths(); std::string modulesPath = cmStrCat(cmSystemTools::GetCMakeRoot(), "/Modules"); std::string inFile = cmStrCat(modulesPath, "/SystemInformation.cmake"); std::string outFile = cmStrCat(destPath, "/CMakeLists.txt"); // Copy file if (!cmsys::SystemTools::CopyFileAlways(inFile, outFile)) { std::cerr << "Error copying file \"" << inFile << "\" to \"" << outFile << "\".\n"; return 1; } // do we write to a file or to stdout? if (resultFile.empty()) { resultFile = cmStrCat(cwd, "/__cmake_systeminformation/results.txt"); } { // now run cmake on the CMakeLists file cmWorkingDirectory workdir(destPath); if (workdir.Failed()) { // We created the directory and we were able to copy the CMakeLists.txt // file to it, so we wouldn't expect to get here unless the default // permissions are questionable or some other process has deleted the // directory std::cerr << "Failed to change to directory " << destPath << " : " << std::strerror(workdir.GetLastResult()) << '\n'; return 1; } std::vector args2; args2.push_back(args[0]); args2.push_back(destPath); args2.push_back("-DRESULT_FILE=" + resultFile); int res = this->Run(args2, false); if (res != 0) { std::cerr << "Error: --system-information failed on internal CMake!\n"; return res; } } // echo results to stdout if needed if (writeToStdout) { FILE* fin = cmsys::SystemTools::Fopen(resultFile, "r"); if (fin) { const int bufferSize = 4096; char buffer[bufferSize]; size_t n; while ((n = fread(buffer, 1, bufferSize, fin)) > 0) { for (char* c = buffer; c < buffer + n; ++c) { putc(*c, stdout); } fflush(stdout); } fclose(fin); } } // clean up the directory cmSystemTools::RemoveADirectory(destPath); return 0; } void cmake::IssueMessage(MessageType t, std::string const& text, cmListFileBacktrace const& backtrace) const { this->Messenger->IssueMessage(t, text, backtrace); } std::vector cmake::GetDebugConfigs() { std::vector configs; if (cmValue config_list = this->State->GetGlobalProperty("DEBUG_CONFIGURATIONS")) { // Expand the specified list and convert to upper-case. cmExpandList(*config_list, configs); std::transform(configs.begin(), configs.end(), configs.begin(), cmSystemTools::UpperCase); } // If no configurations were specified, use a default list. if (configs.empty()) { configs.emplace_back("DEBUG"); } return configs; } int cmake::Build(int jobs, std::string dir, std::vector targets, std::string config, std::vector nativeOptions, cmBuildOptions& buildOptions, bool verbose, const std::string& presetName, bool listPresets) { this->SetHomeDirectory(""); this->SetHomeOutputDirectory(""); #if !defined(CMAKE_BOOTSTRAP) if (!presetName.empty() || listPresets) { this->SetHomeDirectory(cmSystemTools::GetCurrentWorkingDirectory()); this->SetHomeOutputDirectory(cmSystemTools::GetCurrentWorkingDirectory()); cmCMakePresetsGraph settingsFile; auto result = settingsFile.ReadProjectPresets(this->GetHomeDirectory()); if (result != cmCMakePresetsGraph::ReadFileResult::READ_OK) { cmSystemTools::Error( cmStrCat("Could not read presets from ", this->GetHomeDirectory(), ": ", cmCMakePresetsGraph::ResultToString(result))); return 1; } if (listPresets) { settingsFile.PrintBuildPresetList(); return 0; } auto presetPair = settingsFile.BuildPresets.find(presetName); if (presetPair == settingsFile.BuildPresets.end()) { cmSystemTools::Error(cmStrCat("No such build preset in ", this->GetHomeDirectory(), ": \"", presetName, '"')); settingsFile.PrintBuildPresetList(); return 1; } if (presetPair->second.Unexpanded.Hidden) { cmSystemTools::Error(cmStrCat("Cannot use hidden build preset in ", this->GetHomeDirectory(), ": \"", presetName, '"')); settingsFile.PrintBuildPresetList(); return 1; } auto const& expandedPreset = presetPair->second.Expanded; if (!expandedPreset) { cmSystemTools::Error(cmStrCat("Could not evaluate build preset \"", presetName, "\": Invalid macro expansion")); settingsFile.PrintBuildPresetList(); return 1; } if (!expandedPreset->ConditionResult) { cmSystemTools::Error(cmStrCat("Cannot use disabled build preset in ", this->GetHomeDirectory(), ": \"", presetName, '"')); settingsFile.PrintBuildPresetList(); return 1; } auto configurePresetPair = settingsFile.ConfigurePresets.find(expandedPreset->ConfigurePreset); if (configurePresetPair == settingsFile.ConfigurePresets.end()) { cmSystemTools::Error(cmStrCat("No such configure preset in ", this->GetHomeDirectory(), ": \"", expandedPreset->ConfigurePreset, '"')); this->PrintPresetList(settingsFile); return 1; } if (configurePresetPair->second.Unexpanded.Hidden) { cmSystemTools::Error(cmStrCat("Cannot use hidden configure preset in ", this->GetHomeDirectory(), ": \"", expandedPreset->ConfigurePreset, '"')); this->PrintPresetList(settingsFile); return 1; } auto const& expandedConfigurePreset = configurePresetPair->second.Expanded; if (!expandedConfigurePreset) { cmSystemTools::Error(cmStrCat("Could not evaluate configure preset \"", expandedPreset->ConfigurePreset, "\": Invalid macro expansion")); return 1; } if (!expandedConfigurePreset->BinaryDir.empty()) { dir = expandedConfigurePreset->BinaryDir; } this->UnprocessedPresetEnvironment = expandedPreset->Environment; this->ProcessPresetEnvironment(); if ((jobs == cmake::DEFAULT_BUILD_PARALLEL_LEVEL || jobs == cmake::NO_BUILD_PARALLEL_LEVEL) && expandedPreset->Jobs) { jobs = *expandedPreset->Jobs; } if (targets.empty()) { targets.insert(targets.begin(), expandedPreset->Targets.begin(), expandedPreset->Targets.end()); } if (config.empty()) { config = expandedPreset->Configuration; } if (!buildOptions.Clean && expandedPreset->CleanFirst) { buildOptions.Clean = *expandedPreset->CleanFirst; } if (buildOptions.ResolveMode == PackageResolveMode::Default && expandedPreset->ResolvePackageReferences) { buildOptions.ResolveMode = *expandedPreset->ResolvePackageReferences; } if (!verbose && expandedPreset->Verbose) { verbose = *expandedPreset->Verbose; } if (nativeOptions.empty()) { nativeOptions.insert(nativeOptions.begin(), expandedPreset->NativeToolOptions.begin(), expandedPreset->NativeToolOptions.end()); } } #endif if (!cmSystemTools::FileIsDirectory(dir)) { std::cerr << "Error: " << dir << " is not a directory\n"; return 1; } std::string cachePath = FindCacheFile(dir); if (!this->LoadCache(cachePath)) { std::cerr << "Error: could not load cache\n"; return 1; } cmValue cachedGenerator = this->State->GetCacheEntryValue("CMAKE_GENERATOR"); if (!cachedGenerator) { std::cerr << "Error: could not find CMAKE_GENERATOR in Cache\n"; return 1; } auto gen = this->CreateGlobalGenerator(*cachedGenerator); if (!gen) { std::cerr << "Error: could not create CMAKE_GENERATOR \"" << *cachedGenerator << "\"\n"; return 1; } this->SetGlobalGenerator(std::move(gen)); cmValue cachedGeneratorInstance = this->State->GetCacheEntryValue("CMAKE_GENERATOR_INSTANCE"); if (cachedGeneratorInstance) { cmMakefile mf(this->GetGlobalGenerator(), this->GetCurrentSnapshot()); if (!this->GlobalGenerator->SetGeneratorInstance(*cachedGeneratorInstance, &mf)) { return 1; } } cmValue cachedGeneratorPlatform = this->State->GetCacheEntryValue("CMAKE_GENERATOR_PLATFORM"); if (cachedGeneratorPlatform) { cmMakefile mf(this->GetGlobalGenerator(), this->GetCurrentSnapshot()); if (!this->GlobalGenerator->SetGeneratorPlatform(*cachedGeneratorPlatform, &mf)) { return 1; } } cmValue cachedGeneratorToolset = this->State->GetCacheEntryValue("CMAKE_GENERATOR_TOOLSET"); if (cachedGeneratorToolset) { cmMakefile mf(this->GetGlobalGenerator(), this->GetCurrentSnapshot()); if (!this->GlobalGenerator->SetGeneratorToolset(*cachedGeneratorToolset, true, &mf)) { return 1; } } std::string output; std::string projName; cmValue cachedProjectName = this->State->GetCacheEntryValue("CMAKE_PROJECT_NAME"); if (!cachedProjectName) { std::cerr << "Error: could not find CMAKE_PROJECT_NAME in Cache\n"; return 1; } projName = *cachedProjectName; if (cmIsOn(this->State->GetCacheEntryValue("CMAKE_VERBOSE_MAKEFILE"))) { verbose = true; } #ifdef CMAKE_HAVE_VS_GENERATORS // For VS generators, explicitly check if regeneration is necessary before // actually starting the build. If not done separately from the build // itself, there is the risk of building an out-of-date solution file due // to limitations of the underlying build system. std::string const stampList = cachePath + "/" + "CMakeFiles/" + cmGlobalVisualStudio9Generator::GetGenerateStampList(); // Note that the stampList file only exists for VS generators. if (cmSystemTools::FileExists(stampList)) { // Check if running for Visual Studio 9 - we need to explicitly run // the glob verification script before starting the build this->AddScriptingCommands(); if (this->GlobalGenerator->MatchesGeneratorName("Visual Studio 9 2008")) { std::string const globVerifyScript = cachePath + "/" + "CMakeFiles/" + "VerifyGlobs.cmake"; if (cmSystemTools::FileExists(globVerifyScript)) { std::vector args; this->ReadListFile(args, globVerifyScript); } } if (!cmakeCheckStampList(stampList)) { // Correctly initialize the home (=source) and home output (=binary) // directories, which is required for running the generation step. std::string homeOrig = this->GetHomeDirectory(); std::string homeOutputOrig = this->GetHomeOutputDirectory(); this->SetDirectoriesFromFile(cachePath); this->AddProjectCommands(); int ret = this->Configure(); if (ret) { cmSystemTools::Message("CMake Configure step failed. " "Build files cannot be regenerated correctly."); return ret; } ret = this->Generate(); if (ret) { cmSystemTools::Message("CMake Generate step failed. " "Build files cannot be regenerated correctly."); return ret; } std::string message = cmStrCat("Build files have been written to: ", this->GetHomeOutputDirectory()); this->UpdateProgress(message, -1); // Restore the previously set directories to their original value. this->SetHomeDirectory(homeOrig); this->SetHomeOutputDirectory(homeOutputOrig); } } #endif if (!this->GlobalGenerator->ReadCacheEntriesForBuild(*this->State)) { return 1; } this->GlobalGenerator->PrintBuildCommandAdvice(std::cerr, jobs); return this->GlobalGenerator->Build( jobs, "", dir, projName, targets, output, "", config, buildOptions, verbose, cmDuration::zero(), cmSystemTools::OUTPUT_PASSTHROUGH, nativeOptions); } bool cmake::Open(const std::string& dir, bool dryRun) { this->SetHomeDirectory(""); this->SetHomeOutputDirectory(""); if (!cmSystemTools::FileIsDirectory(dir)) { std::cerr << "Error: " << dir << " is not a directory\n"; return false; } std::string cachePath = FindCacheFile(dir); if (!this->LoadCache(cachePath)) { std::cerr << "Error: could not load cache\n"; return false; } cmValue genName = this->State->GetCacheEntryValue("CMAKE_GENERATOR"); if (!genName) { std::cerr << "Error: could not find CMAKE_GENERATOR in Cache\n"; return false; } cmValue extraGenName = this->State->GetInitializedCacheValue("CMAKE_EXTRA_GENERATOR"); std::string fullName = cmExternalMakefileProjectGenerator::CreateFullGeneratorName( *genName, extraGenName ? *extraGenName : ""); std::unique_ptr gen = this->CreateGlobalGenerator(fullName); if (!gen) { std::cerr << "Error: could not create CMAKE_GENERATOR \"" << fullName << "\"\n"; return false; } cmValue cachedProjectName = this->State->GetCacheEntryValue("CMAKE_PROJECT_NAME"); if (!cachedProjectName) { std::cerr << "Error: could not find CMAKE_PROJECT_NAME in Cache\n"; return false; } return gen->Open(dir, *cachedProjectName, dryRun); } #if !defined(CMAKE_BOOTSTRAP) template const T* cmake::FindPresetForWorkflow( cm::static_string_view type, const std::map>& presets, const cmCMakePresetsGraph::WorkflowPreset::WorkflowStep& step) { auto it = presets.find(step.PresetName); if (it == presets.end()) { cmSystemTools::Error(cmStrCat("No such ", type, " preset in ", this->GetHomeDirectory(), ": \"", step.PresetName, '"')); return nullptr; } if (it->second.Unexpanded.Hidden) { cmSystemTools::Error(cmStrCat("Cannot use hidden ", type, " preset in ", this->GetHomeDirectory(), ": \"", step.PresetName, '"')); return nullptr; } if (!it->second.Expanded) { cmSystemTools::Error(cmStrCat("Could not evaluate ", type, " preset \"", step.PresetName, "\": Invalid macro expansion")); return nullptr; } if (!it->second.Expanded->ConditionResult) { cmSystemTools::Error(cmStrCat("Cannot use disabled ", type, " preset in ", this->GetHomeDirectory(), ": \"", step.PresetName, '"')); return nullptr; } return &*it->second.Expanded; } std::function cmake::BuildWorkflowStep( const std::vector& args) { cmUVProcessChainBuilder builder; builder .AddCommand(args) # ifdef _WIN32 .SetExternalStream(cmUVProcessChainBuilder::Stream_OUTPUT, _fileno(stdout)) .SetExternalStream(cmUVProcessChainBuilder::Stream_ERROR, _fileno(stderr)); # else .SetExternalStream(cmUVProcessChainBuilder::Stream_OUTPUT, STDOUT_FILENO) .SetExternalStream(cmUVProcessChainBuilder::Stream_ERROR, STDERR_FILENO); # endif return [builder]() -> int { auto chain = builder.Start(); chain.Wait(); return static_cast(chain.GetStatus().front()->ExitStatus); }; } #endif int cmake::Workflow(const std::string& presetName, WorkflowListPresets listPresets, WorkflowFresh fresh) { #ifndef CMAKE_BOOTSTRAP this->SetHomeDirectory(cmSystemTools::GetCurrentWorkingDirectory()); this->SetHomeOutputDirectory(cmSystemTools::GetCurrentWorkingDirectory()); cmCMakePresetsGraph settingsFile; auto result = settingsFile.ReadProjectPresets(this->GetHomeDirectory()); if (result != cmCMakePresetsGraph::ReadFileResult::READ_OK) { cmSystemTools::Error( cmStrCat("Could not read presets from ", this->GetHomeDirectory(), ": ", cmCMakePresetsGraph::ResultToString(result))); return 1; } if (listPresets == WorkflowListPresets::Yes) { settingsFile.PrintWorkflowPresetList(); return 0; } auto presetPair = settingsFile.WorkflowPresets.find(presetName); if (presetPair == settingsFile.WorkflowPresets.end()) { cmSystemTools::Error(cmStrCat("No such workflow preset in ", this->GetHomeDirectory(), ": \"", presetName, '"')); settingsFile.PrintWorkflowPresetList(); return 1; } if (presetPair->second.Unexpanded.Hidden) { cmSystemTools::Error(cmStrCat("Cannot use hidden workflow preset in ", this->GetHomeDirectory(), ": \"", presetName, '"')); settingsFile.PrintWorkflowPresetList(); return 1; } auto const& expandedPreset = presetPair->second.Expanded; if (!expandedPreset) { cmSystemTools::Error(cmStrCat("Could not evaluate workflow preset \"", presetName, "\": Invalid macro expansion")); settingsFile.PrintWorkflowPresetList(); return 1; } if (!expandedPreset->ConditionResult) { cmSystemTools::Error(cmStrCat("Cannot use disabled workflow preset in ", this->GetHomeDirectory(), ": \"", presetName, '"')); settingsFile.PrintWorkflowPresetList(); return 1; } struct CalculatedStep { int StepNumber; cm::static_string_view Type; std::string Name; std::function Action; CalculatedStep(int stepNumber, cm::static_string_view type, std::string name, std::function action) : StepNumber(stepNumber) , Type(type) , Name(std::move(name)) , Action(std::move(action)) { } }; std::vector steps; steps.reserve(expandedPreset->Steps.size()); int stepNumber = 1; for (auto const& step : expandedPreset->Steps) { switch (step.PresetType) { case cmCMakePresetsGraph::WorkflowPreset::WorkflowStep::Type:: Configure: { auto const* configurePreset = this->FindPresetForWorkflow( "configure"_s, settingsFile.ConfigurePresets, step); if (!configurePreset) { return 1; } std::vector args{ cmSystemTools::GetCMakeCommand(), "--preset", step.PresetName }; if (fresh == WorkflowFresh::Yes) { args.emplace_back("--fresh"); } steps.emplace_back(stepNumber, "configure"_s, step.PresetName, this->BuildWorkflowStep(args)); } break; case cmCMakePresetsGraph::WorkflowPreset::WorkflowStep::Type::Build: { auto const* buildPreset = this->FindPresetForWorkflow( "build"_s, settingsFile.BuildPresets, step); if (!buildPreset) { return 1; } steps.emplace_back( stepNumber, "build"_s, step.PresetName, this->BuildWorkflowStep({ cmSystemTools::GetCMakeCommand(), "--build", "--preset", step.PresetName })); } break; case cmCMakePresetsGraph::WorkflowPreset::WorkflowStep::Type::Test: { auto const* testPreset = this->FindPresetForWorkflow( "test"_s, settingsFile.TestPresets, step); if (!testPreset) { return 1; } steps.emplace_back( stepNumber, "test"_s, step.PresetName, this->BuildWorkflowStep({ cmSystemTools::GetCTestCommand(), "--preset", step.PresetName })); } break; case cmCMakePresetsGraph::WorkflowPreset::WorkflowStep::Type::Package: { auto const* packagePreset = this->FindPresetForWorkflow( "package"_s, settingsFile.PackagePresets, step); if (!packagePreset) { return 1; } steps.emplace_back( stepNumber, "package"_s, step.PresetName, this->BuildWorkflowStep({ cmSystemTools::GetCPackCommand(), "--preset", step.PresetName })); } break; } stepNumber++; } int stepResult; bool first = true; for (auto const& step : steps) { if (!first) { std::cout << "\n"; } std::cout << "Executing workflow step " << step.StepNumber << " of " << steps.size() << ": " << step.Type << " preset \"" << step.Name << "\"\n\n" << std::flush; if ((stepResult = step.Action()) != 0) { return stepResult; } first = false; } #endif return 0; } void cmake::WatchUnusedCli(const std::string& var) { #ifndef CMAKE_BOOTSTRAP this->VariableWatch->AddWatch(var, cmWarnUnusedCliWarning, this); if (!cm::contains(this->UsedCliVariables, var)) { this->UsedCliVariables[var] = false; } #endif } void cmake::UnwatchUnusedCli(const std::string& var) { #ifndef CMAKE_BOOTSTRAP this->VariableWatch->RemoveWatch(var, cmWarnUnusedCliWarning); this->UsedCliVariables.erase(var); #endif } void cmake::RunCheckForUnusedVariables() { #ifndef CMAKE_BOOTSTRAP bool haveUnused = false; std::ostringstream msg; msg << "Manually-specified variables were not used by the project:"; for (auto const& it : this->UsedCliVariables) { if (!it.second) { haveUnused = true; msg << "\n " << it.first; } } if (haveUnused) { this->IssueMessage(MessageType::WARNING, msg.str()); } #endif } bool cmake::GetSuppressDevWarnings() const { return this->Messenger->GetSuppressDevWarnings(); } void cmake::SetSuppressDevWarnings(bool b) { std::string value; // equivalent to -Wno-dev if (b) { value = "TRUE"; } // equivalent to -Wdev else { value = "FALSE"; } this->AddCacheEntry("CMAKE_SUPPRESS_DEVELOPER_WARNINGS", value, "Suppress Warnings that are meant for" " the author of the CMakeLists.txt files.", cmStateEnums::INTERNAL); } bool cmake::GetSuppressDeprecatedWarnings() const { return this->Messenger->GetSuppressDeprecatedWarnings(); } void cmake::SetSuppressDeprecatedWarnings(bool b) { std::string value; // equivalent to -Wno-deprecated if (b) { value = "FALSE"; } // equivalent to -Wdeprecated else { value = "TRUE"; } this->AddCacheEntry("CMAKE_WARN_DEPRECATED", value, "Whether to issue warnings for deprecated " "functionality.", cmStateEnums::INTERNAL); } bool cmake::GetDevWarningsAsErrors() const { return this->Messenger->GetDevWarningsAsErrors(); } void cmake::SetDevWarningsAsErrors(bool b) { std::string value; // equivalent to -Werror=dev if (b) { value = "FALSE"; } // equivalent to -Wno-error=dev else { value = "TRUE"; } this->AddCacheEntry("CMAKE_SUPPRESS_DEVELOPER_ERRORS", value, "Suppress errors that are meant for" " the author of the CMakeLists.txt files.", cmStateEnums::INTERNAL); } bool cmake::GetDeprecatedWarningsAsErrors() const { return this->Messenger->GetDeprecatedWarningsAsErrors(); } void cmake::SetDeprecatedWarningsAsErrors(bool b) { std::string value; // equivalent to -Werror=deprecated if (b) { value = "TRUE"; } // equivalent to -Wno-error=deprecated else { value = "FALSE"; } this->AddCacheEntry("CMAKE_ERROR_DEPRECATED", value, "Whether to issue deprecation errors for macros" " and functions.", cmStateEnums::INTERNAL); } void cmake::SetDebugFindOutputPkgs(std::string const& args) { this->DebugFindPkgs.emplace(args); } void cmake::SetDebugFindOutputVars(std::string const& args) { this->DebugFindVars.emplace(args); } bool cmake::GetDebugFindOutput(std::string const& var) const { return this->DebugFindVars.count(var); } bool cmake::GetDebugFindPkgOutput(std::string const& pkg) const { return this->DebugFindPkgs.count(pkg); } #if !defined(CMAKE_BOOTSTRAP) cmMakefileProfilingData& cmake::GetProfilingOutput() { return *(this->ProfilingOutput); } bool cmake::IsProfilingEnabled() const { return static_cast(this->ProfilingOutput); } #endif