/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmCoreTryCompile.h" #include #include #include #include #include #include #include "cmsys/Directory.hxx" #include "cmExportTryCompileFileGenerator.h" #include "cmGlobalGenerator.h" #include "cmMakefile.h" #include "cmMessageType.h" #include "cmOutputConverter.h" #include "cmPolicies.h" #include "cmState.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" #include "cmTarget.h" #include "cmVersion.h" #include "cmake.h" static std::string const kCMAKE_C_COMPILER_EXTERNAL_TOOLCHAIN = "CMAKE_C_COMPILER_EXTERNAL_TOOLCHAIN"; static std::string const kCMAKE_C_COMPILER_TARGET = "CMAKE_C_COMPILER_TARGET"; static std::string const kCMAKE_C_LINK_NO_PIE_SUPPORTED = "CMAKE_C_LINK_NO_PIE_SUPPORTED"; static std::string const kCMAKE_C_LINK_PIE_SUPPORTED = "CMAKE_C_LINK_PIE_SUPPORTED"; static std::string const kCMAKE_CXX_COMPILER_EXTERNAL_TOOLCHAIN = "CMAKE_CXX_COMPILER_EXTERNAL_TOOLCHAIN"; static std::string const kCMAKE_CXX_COMPILER_TARGET = "CMAKE_CXX_COMPILER_TARGET"; static std::string const kCMAKE_CXX_LINK_NO_PIE_SUPPORTED = "CMAKE_CXX_LINK_NO_PIE_SUPPORTED"; static std::string const kCMAKE_CXX_LINK_PIE_SUPPORTED = "CMAKE_CXX_LINK_PIE_SUPPORTED"; static std::string const kCMAKE_CUDA_ARCHITECTURES = "CMAKE_CUDA_ARCHITECTURES"; static std::string const kCMAKE_CUDA_COMPILER_TARGET = "CMAKE_CUDA_COMPILER_TARGET"; static std::string const kCMAKE_ENABLE_EXPORTS = "CMAKE_ENABLE_EXPORTS"; static std::string const kCMAKE_LINK_SEARCH_END_STATIC = "CMAKE_LINK_SEARCH_END_STATIC"; static std::string const kCMAKE_LINK_SEARCH_START_STATIC = "CMAKE_LINK_SEARCH_START_STATIC"; static std::string const kCMAKE_MSVC_RUNTIME_LIBRARY_DEFAULT = "CMAKE_MSVC_RUNTIME_LIBRARY_DEFAULT"; static std::string const kCMAKE_OSX_ARCHITECTURES = "CMAKE_OSX_ARCHITECTURES"; static std::string const kCMAKE_OSX_DEPLOYMENT_TARGET = "CMAKE_OSX_DEPLOYMENT_TARGET"; static std::string const kCMAKE_OSX_SYSROOT = "CMAKE_OSX_SYSROOT"; static std::string const kCMAKE_APPLE_ARCH_SYSROOTS = "CMAKE_APPLE_ARCH_SYSROOTS"; static std::string const kCMAKE_POSITION_INDEPENDENT_CODE = "CMAKE_POSITION_INDEPENDENT_CODE"; static std::string const kCMAKE_SYSROOT = "CMAKE_SYSROOT"; static std::string const kCMAKE_SYSROOT_COMPILE = "CMAKE_SYSROOT_COMPILE"; static std::string const kCMAKE_SYSROOT_LINK = "CMAKE_SYSROOT_LINK"; static std::string const kCMAKE_Swift_COMPILER_TARGET = "CMAKE_Swift_COMPILER_TARGET"; static std::string const kCMAKE_TRY_COMPILE_OSX_ARCHITECTURES = "CMAKE_TRY_COMPILE_OSX_ARCHITECTURES"; static std::string const kCMAKE_TRY_COMPILE_PLATFORM_VARIABLES = "CMAKE_TRY_COMPILE_PLATFORM_VARIABLES"; static std::string const kCMAKE_WARN_DEPRECATED = "CMAKE_WARN_DEPRECATED"; /* GHS Multi platform variables */ static std::set ghs_platform_vars{ "GHS_TARGET_PLATFORM", "GHS_PRIMARY_TARGET", "GHS_TOOLSET_ROOT", "GHS_OS_ROOT", "GHS_OS_DIR", "GHS_BSP_NAME", "GHS_OS_DIR_OPTION" }; static void writeProperty(FILE* fout, std::string const& targetName, std::string const& prop, std::string const& value) { fprintf(fout, "set_property(TARGET %s PROPERTY %s %s)\n", targetName.c_str(), cmOutputConverter::EscapeForCMake(prop).c_str(), cmOutputConverter::EscapeForCMake(value).c_str()); } std::string cmCoreTryCompile::LookupStdVar(std::string const& var, bool warnCMP0067) { std::string value = this->Makefile->GetSafeDefinition(var); if (warnCMP0067 && !value.empty()) { value.clear(); this->WarnCMP0067.push_back(var); } return value; } int cmCoreTryCompile::TryCompileCode(std::vector const& argv, bool isTryRun) { this->BinaryDirectory = argv[1]; this->OutputFile.clear(); // which signature were we called with ? this->SrcFileSignature = true; cmStateEnums::TargetType targetType = cmStateEnums::EXECUTABLE; const std::string* tt = this->Makefile->GetDef("CMAKE_TRY_COMPILE_TARGET_TYPE"); if (!isTryRun && tt && !tt->empty()) { if (*tt == cmState::GetTargetTypeName(cmStateEnums::EXECUTABLE)) { targetType = cmStateEnums::EXECUTABLE; } else if (*tt == cmState::GetTargetTypeName(cmStateEnums::STATIC_LIBRARY)) { targetType = cmStateEnums::STATIC_LIBRARY; } else { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, cmStrCat("Invalid value '", *tt, "' for CMAKE_TRY_COMPILE_TARGET_TYPE. Only '", cmState::GetTargetTypeName(cmStateEnums::EXECUTABLE), "' and '", cmState::GetTargetTypeName(cmStateEnums::STATIC_LIBRARY), "' are allowed.")); return -1; } } std::string sourceDirectory = argv[2]; std::string projectName; std::string targetName; std::vector cmakeFlags(1, "CMAKE_FLAGS"); // fake argv[0] std::vector compileDefs; std::string cmakeInternal; std::string outputVariable; std::string copyFile; std::string copyFileError; std::string cStandard; std::string objcStandard; std::string cxxStandard; std::string objcxxStandard; std::string cudaStandard; std::string cStandardRequired; std::string cxxStandardRequired; std::string objcStandardRequired; std::string objcxxStandardRequired; std::string cudaStandardRequired; std::string cExtensions; std::string cxxExtensions; std::string objcExtensions; std::string objcxxExtensions; std::string cudaExtensions; std::vector targets; std::vector linkOptions; std::string libsToLink = " "; bool useOldLinkLibs = true; char targetNameBuf[64]; bool didOutputVariable = false; bool didCopyFile = false; bool didCopyFileError = false; bool didCStandard = false; bool didCxxStandard = false; bool didObjCStandard = false; bool didObjCxxStandard = false; bool didCudaStandard = false; bool didCStandardRequired = false; bool didCxxStandardRequired = false; bool didObjCStandardRequired = false; bool didObjCxxStandardRequired = false; bool didCudaStandardRequired = false; bool didCExtensions = false; bool didCxxExtensions = false; bool didObjCExtensions = false; bool didObjCxxExtensions = false; bool didCudaExtensions = false; bool useSources = argv[2] == "SOURCES"; std::vector sources; enum Doing { DoingNone, DoingCMakeFlags, DoingCompileDefinitions, DoingLinkOptions, DoingLinkLibraries, DoingOutputVariable, DoingCopyFile, DoingCopyFileError, DoingCStandard, DoingCxxStandard, DoingObjCStandard, DoingObjCxxStandard, DoingCudaStandard, DoingCStandardRequired, DoingCxxStandardRequired, DoingObjCStandardRequired, DoingObjCxxStandardRequired, DoingCudaStandardRequired, DoingCExtensions, DoingCxxExtensions, DoingObjCExtensions, DoingObjCxxExtensions, DoingCudaExtensions, DoingSources, DoingCMakeInternal }; Doing doing = useSources ? DoingSources : DoingNone; for (size_t i = 3; i < argv.size(); ++i) { if (argv[i] == "CMAKE_FLAGS") { doing = DoingCMakeFlags; } else if (argv[i] == "COMPILE_DEFINITIONS") { doing = DoingCompileDefinitions; } else if (argv[i] == "LINK_OPTIONS") { doing = DoingLinkOptions; } else if (argv[i] == "LINK_LIBRARIES") { doing = DoingLinkLibraries; useOldLinkLibs = false; } else if (argv[i] == "OUTPUT_VARIABLE") { doing = DoingOutputVariable; didOutputVariable = true; } else if (argv[i] == "COPY_FILE") { doing = DoingCopyFile; didCopyFile = true; } else if (argv[i] == "COPY_FILE_ERROR") { doing = DoingCopyFileError; didCopyFileError = true; } else if (argv[i] == "C_STANDARD") { doing = DoingCStandard; didCStandard = true; } else if (argv[i] == "CXX_STANDARD") { doing = DoingCxxStandard; didCxxStandard = true; } else if (argv[i] == "OBJC_STANDARD") { doing = DoingObjCStandard; didObjCStandard = true; } else if (argv[i] == "OBJCXX_STANDARD") { doing = DoingObjCxxStandard; didObjCxxStandard = true; } else if (argv[i] == "CUDA_STANDARD") { doing = DoingCudaStandard; didCudaStandard = true; } else if (argv[i] == "C_STANDARD_REQUIRED") { doing = DoingCStandardRequired; didCStandardRequired = true; } else if (argv[i] == "CXX_STANDARD_REQUIRED") { doing = DoingCxxStandardRequired; didCxxStandardRequired = true; } else if (argv[i] == "OBJC_STANDARD_REQUIRED") { doing = DoingObjCStandardRequired; didObjCStandardRequired = true; } else if (argv[i] == "OBJCXX_STANDARD_REQUIRED") { doing = DoingObjCxxStandardRequired; didObjCxxStandardRequired = true; } else if (argv[i] == "CUDA_STANDARD_REQUIRED") { doing = DoingCudaStandardRequired; didCudaStandardRequired = true; } else if (argv[i] == "C_EXTENSIONS") { doing = DoingCExtensions; didCExtensions = true; } else if (argv[i] == "CXX_EXTENSIONS") { doing = DoingCxxExtensions; didCxxExtensions = true; } else if (argv[i] == "OBJC_EXTENSIONS") { doing = DoingObjCExtensions; didObjCExtensions = true; } else if (argv[i] == "OBJCXX_EXTENSIONS") { doing = DoingObjCxxExtensions; didObjCxxExtensions = true; } else if (argv[i] == "CUDA_EXTENSIONS") { doing = DoingCudaExtensions; didCudaExtensions = true; } else if (argv[i] == "__CMAKE_INTERNAL") { doing = DoingCMakeInternal; } else if (doing == DoingCMakeFlags) { cmakeFlags.push_back(argv[i]); } else if (doing == DoingCompileDefinitions) { cmExpandList(argv[i], compileDefs); } else if (doing == DoingLinkOptions) { linkOptions.push_back(argv[i]); } else if (doing == DoingLinkLibraries) { libsToLink += "\"" + cmTrimWhitespace(argv[i]) + "\" "; if (cmTarget* tgt = this->Makefile->FindTargetToUse(argv[i])) { switch (tgt->GetType()) { case cmStateEnums::SHARED_LIBRARY: case cmStateEnums::STATIC_LIBRARY: case cmStateEnums::INTERFACE_LIBRARY: case cmStateEnums::UNKNOWN_LIBRARY: break; case cmStateEnums::EXECUTABLE: if (tgt->IsExecutableWithExports()) { break; } CM_FALLTHROUGH; default: this->Makefile->IssueMessage( MessageType::FATAL_ERROR, cmStrCat("Only libraries may be used as try_compile or try_run " "IMPORTED LINK_LIBRARIES. Got ", tgt->GetName(), " of type ", cmState::GetTargetTypeName(tgt->GetType()), ".")); return -1; } if (tgt->IsImported()) { targets.push_back(argv[i]); } } } else if (doing == DoingOutputVariable) { outputVariable = argv[i]; doing = DoingNone; } else if (doing == DoingCopyFile) { copyFile = argv[i]; doing = DoingNone; } else if (doing == DoingCopyFileError) { copyFileError = argv[i]; doing = DoingNone; } else if (doing == DoingCStandard) { cStandard = argv[i]; doing = DoingNone; } else if (doing == DoingCxxStandard) { cxxStandard = argv[i]; doing = DoingNone; } else if (doing == DoingObjCStandard) { objcStandard = argv[i]; doing = DoingNone; } else if (doing == DoingObjCxxStandard) { objcxxStandard = argv[i]; doing = DoingNone; } else if (doing == DoingCudaStandard) { cudaStandard = argv[i]; doing = DoingNone; } else if (doing == DoingCStandardRequired) { cStandardRequired = argv[i]; doing = DoingNone; } else if (doing == DoingCxxStandardRequired) { cxxStandardRequired = argv[i]; doing = DoingNone; } else if (doing == DoingObjCStandardRequired) { objcStandardRequired = argv[i]; doing = DoingNone; } else if (doing == DoingObjCxxStandardRequired) { objcxxStandardRequired = argv[i]; doing = DoingNone; } else if (doing == DoingCudaStandardRequired) { cudaStandardRequired = argv[i]; doing = DoingNone; } else if (doing == DoingCExtensions) { cExtensions = argv[i]; doing = DoingNone; } else if (doing == DoingCxxExtensions) { cxxExtensions = argv[i]; doing = DoingNone; } else if (doing == DoingObjCExtensions) { objcExtensions = argv[i]; doing = DoingNone; } else if (doing == DoingObjCxxExtensions) { objcxxExtensions = argv[i]; doing = DoingNone; } else if (doing == DoingCudaExtensions) { cudaExtensions = argv[i]; doing = DoingNone; } else if (doing == DoingSources) { sources.push_back(argv[i]); } else if (doing == DoingCMakeInternal) { cmakeInternal = argv[i]; doing = DoingNone; } else if (i == 3) { this->SrcFileSignature = false; projectName = argv[i]; } else if (i == 4 && !this->SrcFileSignature) { targetName = argv[i]; } else { std::ostringstream m; m << "try_compile given unknown argument \"" << argv[i] << "\"."; this->Makefile->IssueMessage(MessageType::AUTHOR_WARNING, m.str()); } } if (didCopyFile && copyFile.empty()) { this->Makefile->IssueMessage(MessageType::FATAL_ERROR, "COPY_FILE must be followed by a file path"); return -1; } if (didCopyFileError && copyFileError.empty()) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "COPY_FILE_ERROR must be followed by a variable name"); return -1; } if (didCopyFileError && !didCopyFile) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "COPY_FILE_ERROR may be used only with COPY_FILE"); return -1; } if (didOutputVariable && outputVariable.empty()) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "OUTPUT_VARIABLE must be followed by a variable name"); return -1; } if (useSources && sources.empty()) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "SOURCES must be followed by at least one source file"); return -1; } if (didCStandard && !this->SrcFileSignature) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "C_STANDARD allowed only in source file signature."); return -1; } if (didCxxStandard && !this->SrcFileSignature) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "CXX_STANDARD allowed only in source file signature."); return -1; } if (didCudaStandard && !this->SrcFileSignature) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "CUDA_STANDARD allowed only in source file signature."); return -1; } if (didCStandardRequired && !this->SrcFileSignature) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "C_STANDARD_REQUIRED allowed only in source file signature."); return -1; } if (didCxxStandardRequired && !this->SrcFileSignature) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "CXX_STANDARD_REQUIRED allowed only in source file signature."); return -1; } if (didCudaStandardRequired && !this->SrcFileSignature) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "CUDA_STANDARD_REQUIRED allowed only in source file signature."); return -1; } if (didCExtensions && !this->SrcFileSignature) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "C_EXTENSIONS allowed only in source file signature."); return -1; } if (didCxxExtensions && !this->SrcFileSignature) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "CXX_EXTENSIONS allowed only in source file signature."); return -1; } if (didCudaExtensions && !this->SrcFileSignature) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "CUDA_EXTENSIONS allowed only in source file signature."); return -1; } // compute the binary dir when TRY_COMPILE is called with a src file // signature if (this->SrcFileSignature) { this->BinaryDirectory += "/CMakeFiles/CMakeTmp"; } else { // only valid for srcfile signatures if (!compileDefs.empty()) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "COMPILE_DEFINITIONS specified on a srcdir type TRY_COMPILE"); return -1; } if (!copyFile.empty()) { this->Makefile->IssueMessage( MessageType::FATAL_ERROR, "COPY_FILE specified on a srcdir type TRY_COMPILE"); return -1; } } // make sure the binary directory exists cmSystemTools::MakeDirectory(this->BinaryDirectory); // do not allow recursive try Compiles if (this->BinaryDirectory == this->Makefile->GetHomeOutputDirectory()) { std::ostringstream e; e << "Attempt at a recursive or nested TRY_COMPILE in directory\n" << " " << this->BinaryDirectory << "\n"; this->Makefile->IssueMessage(MessageType::FATAL_ERROR, e.str()); return -1; } std::string outFileName = this->BinaryDirectory + "/CMakeLists.txt"; // which signature are we using? If we are using var srcfile bindir if (this->SrcFileSignature) { // remove any CMakeCache.txt files so we will have a clean test std::string ccFile = this->BinaryDirectory + "/CMakeCache.txt"; cmSystemTools::RemoveFile(ccFile); // Choose sources. if (!useSources) { sources.push_back(argv[2]); } // Detect languages to enable. cmGlobalGenerator* gg = this->Makefile->GetGlobalGenerator(); std::set testLangs; for (std::string const& si : sources) { std::string ext = cmSystemTools::GetFilenameLastExtension(si); std::string lang = gg->GetLanguageFromExtension(ext.c_str()); if (!lang.empty()) { testLangs.insert(lang); } else { std::ostringstream err; err << "Unknown extension \"" << ext << "\" for file\n" << " " << si << "\n" << "try_compile() works only for enabled languages. " << "Currently these are:\n "; std::vector langs; gg->GetEnabledLanguages(langs); err << cmJoin(langs, " "); err << "\nSee project() command to enable other languages."; this->Makefile->IssueMessage(MessageType::FATAL_ERROR, err.str()); return -1; } } std::string const tcConfig = this->Makefile->GetSafeDefinition("CMAKE_TRY_COMPILE_CONFIGURATION"); // we need to create a directory and CMakeLists file etc... // first create the directories sourceDirectory = this->BinaryDirectory; // now create a CMakeLists.txt file in that directory FILE* fout = cmsys::SystemTools::Fopen(outFileName, "w"); if (!fout) { std::ostringstream e; /* clang-format off */ e << "Failed to open\n" << " " << outFileName << "\n" << cmSystemTools::GetLastSystemError(); /* clang-format on */ this->Makefile->IssueMessage(MessageType::FATAL_ERROR, e.str()); return -1; } const char* def = this->Makefile->GetDefinition("CMAKE_MODULE_PATH"); fprintf(fout, "cmake_minimum_required(VERSION %u.%u.%u.%u)\n", cmVersion::GetMajorVersion(), cmVersion::GetMinorVersion(), cmVersion::GetPatchVersion(), cmVersion::GetTweakVersion()); if (def) { fprintf(fout, "set(CMAKE_MODULE_PATH \"%s\")\n", def); } /* Set MSVC runtime library policy to match our selection. */ if (const char* msvcRuntimeLibraryDefault = this->Makefile->GetDefinition(kCMAKE_MSVC_RUNTIME_LIBRARY_DEFAULT)) { fprintf(fout, "cmake_policy(SET CMP0091 %s)\n", *msvcRuntimeLibraryDefault ? "NEW" : "OLD"); } std::string projectLangs; for (std::string const& li : testLangs) { projectLangs += " " + li; std::string rulesOverrideBase = "CMAKE_USER_MAKE_RULES_OVERRIDE"; std::string rulesOverrideLang = cmStrCat(rulesOverrideBase, "_", li); if (const char* rulesOverridePath = this->Makefile->GetDefinition(rulesOverrideLang)) { fprintf(fout, "set(%s \"%s\")\n", rulesOverrideLang.c_str(), rulesOverridePath); } else if (const char* rulesOverridePath2 = this->Makefile->GetDefinition(rulesOverrideBase)) { fprintf(fout, "set(%s \"%s\")\n", rulesOverrideBase.c_str(), rulesOverridePath2); } } fprintf(fout, "project(CMAKE_TRY_COMPILE%s)\n", projectLangs.c_str()); if (cmakeInternal == "ABI") { // This is the ABI detection step, also used for implicit includes. // Erase any include_directories() calls from the toolchain file so // that we do not see them as implicit. Our ABI detection source // does not include any system headers anyway. fprintf(fout, "set_property(DIRECTORY PROPERTY INCLUDE_DIRECTORIES \"\")\n"); } fprintf(fout, "set(CMAKE_VERBOSE_MAKEFILE 1)\n"); for (std::string const& li : testLangs) { std::string langFlags = "CMAKE_" + li + "_FLAGS"; const char* flags = this->Makefile->GetDefinition(langFlags); fprintf(fout, "set(CMAKE_%s_FLAGS %s)\n", li.c_str(), cmOutputConverter::EscapeForCMake(flags ? flags : "").c_str()); fprintf(fout, "set(CMAKE_%s_FLAGS \"${CMAKE_%s_FLAGS}" " ${COMPILE_DEFINITIONS}\")\n", li.c_str(), li.c_str()); } switch (this->Makefile->GetPolicyStatus(cmPolicies::CMP0066)) { case cmPolicies::WARN: if (this->Makefile->PolicyOptionalWarningEnabled( "CMAKE_POLICY_WARNING_CMP0066")) { std::ostringstream w; /* clang-format off */ w << cmPolicies::GetPolicyWarning(cmPolicies::CMP0066) << "\n" "For compatibility with older versions of CMake, try_compile " "is not honoring caller config-specific compiler flags " "(e.g. CMAKE_C_FLAGS_DEBUG) in the test project." ; /* clang-format on */ this->Makefile->IssueMessage(MessageType::AUTHOR_WARNING, w.str()); } case cmPolicies::OLD: // OLD behavior is to do nothing. break; case cmPolicies::REQUIRED_IF_USED: case cmPolicies::REQUIRED_ALWAYS: this->Makefile->IssueMessage( MessageType::FATAL_ERROR, cmPolicies::GetRequiredPolicyError(cmPolicies::CMP0066)); CM_FALLTHROUGH; case cmPolicies::NEW: { // NEW behavior is to pass config-specific compiler flags. static std::string const cfgDefault = "DEBUG"; std::string const cfg = !tcConfig.empty() ? cmSystemTools::UpperCase(tcConfig) : cfgDefault; for (std::string const& li : testLangs) { std::string const langFlagsCfg = cmStrCat("CMAKE_", li, "_FLAGS_", cfg); const char* flagsCfg = this->Makefile->GetDefinition(langFlagsCfg); fprintf(fout, "set(%s %s)\n", langFlagsCfg.c_str(), cmOutputConverter::EscapeForCMake(flagsCfg ? flagsCfg : "") .c_str()); } } break; } switch (this->Makefile->GetPolicyStatus(cmPolicies::CMP0056)) { case cmPolicies::WARN: if (this->Makefile->PolicyOptionalWarningEnabled( "CMAKE_POLICY_WARNING_CMP0056")) { std::ostringstream w; /* clang-format off */ w << cmPolicies::GetPolicyWarning(cmPolicies::CMP0056) << "\n" "For compatibility with older versions of CMake, try_compile " "is not honoring caller link flags (e.g. CMAKE_EXE_LINKER_FLAGS) " "in the test project." ; /* clang-format on */ this->Makefile->IssueMessage(MessageType::AUTHOR_WARNING, w.str()); } case cmPolicies::OLD: // OLD behavior is to do nothing. break; case cmPolicies::REQUIRED_IF_USED: case cmPolicies::REQUIRED_ALWAYS: this->Makefile->IssueMessage( MessageType::FATAL_ERROR, cmPolicies::GetRequiredPolicyError(cmPolicies::CMP0056)); CM_FALLTHROUGH; case cmPolicies::NEW: // NEW behavior is to pass linker flags. { const char* exeLinkFlags = this->Makefile->GetDefinition("CMAKE_EXE_LINKER_FLAGS"); fprintf( fout, "set(CMAKE_EXE_LINKER_FLAGS %s)\n", cmOutputConverter::EscapeForCMake(exeLinkFlags ? exeLinkFlags : "") .c_str()); } break; } fprintf(fout, "set(CMAKE_EXE_LINKER_FLAGS \"${CMAKE_EXE_LINKER_FLAGS}" " ${EXE_LINKER_FLAGS}\")\n"); fprintf(fout, "include_directories(${INCLUDE_DIRECTORIES})\n"); fprintf(fout, "set(CMAKE_SUPPRESS_REGENERATION 1)\n"); fprintf(fout, "link_directories(${LINK_DIRECTORIES})\n"); // handle any compile flags we need to pass on if (!compileDefs.empty()) { // Pass using bracket arguments to preserve content. fprintf(fout, "add_definitions([==[%s]==])\n", cmJoin(compileDefs, "]==] [==[").c_str()); } /* Use a random file name to avoid rapid creation and deletion of the same executable name (some filesystems fail on that). */ sprintf(targetNameBuf, "cmTC_%05x", cmSystemTools::RandomSeed() & 0xFFFFF); targetName = targetNameBuf; if (!targets.empty()) { std::string fname = "/" + std::string(targetName) + "Targets.cmake"; cmExportTryCompileFileGenerator tcfg(gg, targets, this->Makefile, testLangs); tcfg.SetExportFile((this->BinaryDirectory + fname).c_str()); tcfg.SetConfig(tcConfig); if (!tcfg.GenerateImportFile()) { this->Makefile->IssueMessage(MessageType::FATAL_ERROR, "could not write export file."); fclose(fout); return -1; } fprintf(fout, "\ninclude(\"${CMAKE_CURRENT_LIST_DIR}/%s\")\n\n", fname.c_str()); } // Forward a set of variables to the inner project cache. { std::set vars; vars.insert(kCMAKE_C_COMPILER_EXTERNAL_TOOLCHAIN); vars.insert(kCMAKE_C_COMPILER_TARGET); vars.insert(kCMAKE_CXX_COMPILER_EXTERNAL_TOOLCHAIN); vars.insert(kCMAKE_CXX_COMPILER_TARGET); vars.insert(kCMAKE_CUDA_ARCHITECTURES); vars.insert(kCMAKE_CUDA_COMPILER_TARGET); vars.insert(kCMAKE_ENABLE_EXPORTS); vars.insert(kCMAKE_LINK_SEARCH_END_STATIC); vars.insert(kCMAKE_LINK_SEARCH_START_STATIC); vars.insert(kCMAKE_OSX_ARCHITECTURES); vars.insert(kCMAKE_OSX_DEPLOYMENT_TARGET); vars.insert(kCMAKE_OSX_SYSROOT); vars.insert(kCMAKE_APPLE_ARCH_SYSROOTS); vars.insert(kCMAKE_POSITION_INDEPENDENT_CODE); vars.insert(kCMAKE_SYSROOT); vars.insert(kCMAKE_SYSROOT_COMPILE); vars.insert(kCMAKE_SYSROOT_LINK); vars.insert(kCMAKE_Swift_COMPILER_TARGET); vars.insert(kCMAKE_WARN_DEPRECATED); vars.emplace("CMAKE_MSVC_RUNTIME_LIBRARY"_s); if (const char* varListStr = this->Makefile->GetDefinition( kCMAKE_TRY_COMPILE_PLATFORM_VARIABLES)) { std::vector varList = cmExpandedList(varListStr); vars.insert(varList.begin(), varList.end()); } if (this->Makefile->GetPolicyStatus(cmPolicies::CMP0083) == cmPolicies::NEW) { // To ensure full support of PIE, propagate cache variables // driving the link options vars.insert(kCMAKE_C_LINK_PIE_SUPPORTED); vars.insert(kCMAKE_C_LINK_NO_PIE_SUPPORTED); vars.insert(kCMAKE_CXX_LINK_PIE_SUPPORTED); vars.insert(kCMAKE_CXX_LINK_NO_PIE_SUPPORTED); } /* for the TRY_COMPILEs we want to be able to specify the architecture. So the user can set CMAKE_OSX_ARCHITECTURES to i386;ppc and then set CMAKE_TRY_COMPILE_OSX_ARCHITECTURES first to i386 and then to ppc to have the tests run for each specific architecture. Since cmLocalGenerator doesn't allow building for "the other" architecture only via CMAKE_OSX_ARCHITECTURES. */ if (const char* tcArchs = this->Makefile->GetDefinition( kCMAKE_TRY_COMPILE_OSX_ARCHITECTURES)) { vars.erase(kCMAKE_OSX_ARCHITECTURES); std::string flag = "-DCMAKE_OSX_ARCHITECTURES=" + std::string(tcArchs); cmakeFlags.push_back(std::move(flag)); } for (std::string const& var : vars) { if (const char* val = this->Makefile->GetDefinition(var)) { std::string flag = "-D" + var + "=" + val; cmakeFlags.push_back(std::move(flag)); } } } /* Set the appropriate policy information for ENABLE_EXPORTS */ fprintf(fout, "cmake_policy(SET CMP0065 %s)\n", this->Makefile->GetPolicyStatus(cmPolicies::CMP0065) == cmPolicies::NEW ? "NEW" : "OLD"); /* Set the appropriate policy information for PIE link flags */ fprintf(fout, "cmake_policy(SET CMP0083 %s)\n", this->Makefile->GetPolicyStatus(cmPolicies::CMP0083) == cmPolicies::NEW ? "NEW" : "OLD"); if (targetType == cmStateEnums::EXECUTABLE) { /* Put the executable at a known location (for COPY_FILE). */ fprintf(fout, "set(CMAKE_RUNTIME_OUTPUT_DIRECTORY \"%s\")\n", this->BinaryDirectory.c_str()); /* Create the actual executable. */ fprintf(fout, "add_executable(%s", targetName.c_str()); } else // if (targetType == cmStateEnums::STATIC_LIBRARY) { /* Put the static library at a known location (for COPY_FILE). */ fprintf(fout, "set(CMAKE_ARCHIVE_OUTPUT_DIRECTORY \"%s\")\n", this->BinaryDirectory.c_str()); /* Create the actual static library. */ fprintf(fout, "add_library(%s STATIC", targetName.c_str()); } for (std::string const& si : sources) { fprintf(fout, " \"%s\"", si.c_str()); // Add dependencies on any non-temporary sources. if (si.find("CMakeTmp") == std::string::npos) { this->Makefile->AddCMakeDependFile(si); } } fprintf(fout, ")\n"); bool const testC = testLangs.find("C") != testLangs.end(); bool const testObjC = testLangs.find("OBJC") != testLangs.end(); bool const testCxx = testLangs.find("CXX") != testLangs.end(); bool const testObjCxx = testLangs.find("OBJCXX") != testLangs.end(); bool const testCuda = testLangs.find("CUDA") != testLangs.end(); bool warnCMP0067 = false; bool honorStandard = true; if (!didCStandard && !didCxxStandard && !didObjCStandard && !didObjCxxStandard && !didCudaStandard && !didCStandardRequired && !didCxxStandardRequired && !didObjCStandardRequired && !didObjCxxStandardRequired && !didCudaStandardRequired && !didCExtensions && !didCxxExtensions && !didObjCExtensions && !didObjCxxExtensions && !didCudaExtensions) { switch (this->Makefile->GetPolicyStatus(cmPolicies::CMP0067)) { case cmPolicies::WARN: warnCMP0067 = this->Makefile->PolicyOptionalWarningEnabled( "CMAKE_POLICY_WARNING_CMP0067"); CM_FALLTHROUGH; case cmPolicies::OLD: // OLD behavior is to not honor the language standard variables. honorStandard = false; break; case cmPolicies::REQUIRED_IF_USED: case cmPolicies::REQUIRED_ALWAYS: this->Makefile->IssueMessage( MessageType::FATAL_ERROR, cmPolicies::GetRequiredPolicyError(cmPolicies::CMP0067)); case cmPolicies::NEW: // NEW behavior is to honor the language standard variables. // We already initialized honorStandard to true. break; } } if (honorStandard || warnCMP0067) { auto testLanguage = [&](bool testLang, bool didLangStandard, bool didLangStandardRequired, bool didLangExtensions, std::string& langStandard, std::string& langStandardRequired, std::string& langExtensions, const std::string& lang) { if (testLang) { if (!didLangStandard) { langStandard = this->LookupStdVar( cmStrCat("CMAKE_", lang, "_STANDARD"), warnCMP0067); } if (!didLangStandardRequired) { langStandardRequired = this->LookupStdVar( cmStrCat("CMAKE_", lang, "_STANDARD_REQUIRED"), warnCMP0067); } if (!didLangExtensions) { langExtensions = this->LookupStdVar( cmStrCat("CMAKE_", lang, "_EXTENSIONS"), warnCMP0067); } } }; testLanguage(testC, didCStandard, didCStandardRequired, didCExtensions, cStandard, cStandardRequired, cExtensions, "C"); testLanguage(testObjC, didObjCStandard, didObjCStandardRequired, didObjCExtensions, objcStandard, objcStandardRequired, objcExtensions, "OBJC"); testLanguage(testCxx, didCxxStandard, didCxxStandardRequired, didCxxExtensions, cxxStandard, cxxStandardRequired, cxxExtensions, "CXX"); testLanguage(testObjCxx, didObjCxxStandard, didObjCxxStandardRequired, didObjCxxExtensions, objcxxStandard, objcxxStandardRequired, objcxxExtensions, "OBJCXX"); testLanguage(testCuda, didCudaStandard, didCudaStandardRequired, didCudaExtensions, cudaStandard, cudaStandardRequired, cudaExtensions, "CUDA"); } if (!this->WarnCMP0067.empty()) { std::ostringstream w; /* clang-format off */ w << cmPolicies::GetPolicyWarning(cmPolicies::CMP0067) << "\n" "For compatibility with older versions of CMake, try_compile " "is not honoring language standard variables in the test project:\n" ; /* clang-format on */ for (std::string const& vi : this->WarnCMP0067) { w << " " << vi << "\n"; } this->Makefile->IssueMessage(MessageType::AUTHOR_WARNING, w.str()); } auto writeLanguageProperties = [&](bool testLang, const std::string& langStandard, const std::string& langStandardRequired, const std::string& langExtensions, const std::string& lang) { if (testLang) { if (!langStandard.empty()) { writeProperty(fout, targetName, cmStrCat(lang, "_STANDARD"), langStandard); } if (!langStandardRequired.empty()) { writeProperty(fout, targetName, cmStrCat(lang, "_STANDARD_REQUIRED"), langStandardRequired); } if (!langExtensions.empty()) { writeProperty(fout, targetName, cmStrCat(lang, "_EXTENSIONS"), langExtensions); } } }; writeLanguageProperties(testC, cStandard, cStandardRequired, cExtensions, "C"); writeLanguageProperties(testObjC, objcStandard, objcStandardRequired, objcExtensions, "OBJC"); writeLanguageProperties(testCxx, cxxStandard, cxxStandardRequired, cxxExtensions, "CXX"); writeLanguageProperties(testObjCxx, objcxxStandard, objcxxStandardRequired, objcxxExtensions, "OBJCXX"); writeLanguageProperties(testCuda, cudaStandard, cudaStandardRequired, cudaExtensions, "CUDA"); if (!linkOptions.empty()) { std::vector options; options.reserve(linkOptions.size()); for (const auto& option : linkOptions) { options.emplace_back(cmOutputConverter::EscapeForCMake(option)); } if (targetType == cmStateEnums::STATIC_LIBRARY) { fprintf(fout, "set_property(TARGET %s PROPERTY STATIC_LIBRARY_OPTIONS %s)\n", targetName.c_str(), cmJoin(options, " ").c_str()); } else { fprintf(fout, "target_link_options(%s PRIVATE %s)\n", targetName.c_str(), cmJoin(options, " ").c_str()); } } if (useOldLinkLibs) { fprintf(fout, "target_link_libraries(%s ${LINK_LIBRARIES})\n", targetName.c_str()); } else { fprintf(fout, "target_link_libraries(%s %s)\n", targetName.c_str(), libsToLink.c_str()); } fclose(fout); projectName = "CMAKE_TRY_COMPILE"; } if (this->Makefile->GetState()->UseGhsMultiIDE()) { // Forward the GHS variables to the inner project cache. for (std::string const& var : ghs_platform_vars) { if (const char* val = this->Makefile->GetDefinition(var)) { std::string flag = "-D" + var + "=" + "'" + val + "'"; cmakeFlags.push_back(std::move(flag)); } } } bool erroroc = cmSystemTools::GetErrorOccuredFlag(); cmSystemTools::ResetErrorOccuredFlag(); std::string output; // actually do the try compile now that everything is setup int res = this->Makefile->TryCompile( sourceDirectory, this->BinaryDirectory, projectName, targetName, this->SrcFileSignature, cmake::NO_BUILD_PARALLEL_LEVEL, &cmakeFlags, output); if (erroroc) { cmSystemTools::SetErrorOccured(); } // set the result var to the return value to indicate success or failure this->Makefile->AddCacheDefinition(argv[0], (res == 0 ? "TRUE" : "FALSE"), "Result of TRY_COMPILE", cmStateEnums::INTERNAL); if (!outputVariable.empty()) { this->Makefile->AddDefinition(outputVariable, output); } if (this->SrcFileSignature) { std::string copyFileErrorMessage; this->FindOutputFile(targetName, targetType); if ((res == 0) && !copyFile.empty()) { if (this->OutputFile.empty() || !cmSystemTools::CopyFileAlways(this->OutputFile, copyFile)) { std::ostringstream emsg; /* clang-format off */ emsg << "Cannot copy output executable\n" << " '" << this->OutputFile << "'\n" << "to destination specified by COPY_FILE:\n" << " '" << copyFile << "'\n"; /* clang-format on */ if (!this->FindErrorMessage.empty()) { emsg << this->FindErrorMessage; } if (copyFileError.empty()) { this->Makefile->IssueMessage(MessageType::FATAL_ERROR, emsg.str()); return -1; } copyFileErrorMessage = emsg.str(); } } if (!copyFileError.empty()) { this->Makefile->AddDefinition(copyFileError, copyFileErrorMessage); } } return res; } void cmCoreTryCompile::CleanupFiles(std::string const& binDir) { if (binDir.empty()) { return; } if (binDir.find("CMakeTmp") == std::string::npos) { cmSystemTools::Error( "TRY_COMPILE attempt to remove -rf directory that does not contain " "CMakeTmp:" + binDir); return; } cmsys::Directory dir; dir.Load(binDir); std::set deletedFiles; for (unsigned long i = 0; i < dir.GetNumberOfFiles(); ++i) { const char* fileName = dir.GetFile(i); if (strcmp(fileName, ".") != 0 && strcmp(fileName, "..") != 0) { if (deletedFiles.insert(fileName).second) { std::string const fullPath = std::string(binDir).append("/").append(fileName); if (cmSystemTools::FileIsSymlink(fullPath)) { cmSystemTools::RemoveFile(fullPath); } else if (cmSystemTools::FileIsDirectory(fullPath)) { this->CleanupFiles(fullPath); cmSystemTools::RemoveADirectory(fullPath); } else { #ifdef _WIN32 // Sometimes anti-virus software hangs on to new files so we // cannot delete them immediately. Try a few times. cmSystemTools::WindowsFileRetry retry = cmSystemTools::GetWindowsFileRetry(); while (!cmSystemTools::RemoveFile(fullPath) && --retry.Count && cmSystemTools::FileExists(fullPath)) { cmSystemTools::Delay(retry.Delay); } if (retry.Count == 0) #else if (!cmSystemTools::RemoveFile(fullPath)) #endif { std::string m = "Remove failed on file: " + fullPath; cmSystemTools::ReportLastSystemError(m.c_str()); } } } } } } void cmCoreTryCompile::FindOutputFile(const std::string& targetName, cmStateEnums::TargetType targetType) { this->FindErrorMessage.clear(); this->OutputFile.clear(); std::string tmpOutputFile = "/"; if (targetType == cmStateEnums::EXECUTABLE) { tmpOutputFile += targetName; tmpOutputFile += this->Makefile->GetSafeDefinition("CMAKE_EXECUTABLE_SUFFIX"); } else // if (targetType == cmStateEnums::STATIC_LIBRARY) { tmpOutputFile += this->Makefile->GetSafeDefinition("CMAKE_STATIC_LIBRARY_PREFIX"); tmpOutputFile += targetName; tmpOutputFile += this->Makefile->GetSafeDefinition("CMAKE_STATIC_LIBRARY_SUFFIX"); } // a list of directories where to search for the compilation result // at first directly in the binary dir std::vector searchDirs; searchDirs.emplace_back(); const char* config = this->Makefile->GetDefinition("CMAKE_TRY_COMPILE_CONFIGURATION"); // if a config was specified try that first if (config && config[0]) { std::string tmp = cmStrCat('/', config); searchDirs.push_back(std::move(tmp)); } searchDirs.emplace_back("/Debug"); #if defined(__APPLE__) std::string app = "/" + targetName + ".app"; if (config && config[0]) { std::string tmp = cmStrCat('/', config, app); searchDirs.push_back(std::move(tmp)); } std::string tmp = "/Debug" + app; searchDirs.emplace_back(std::move(tmp)); searchDirs.push_back(std::move(app)); #endif searchDirs.emplace_back("/Development"); for (std::string const& sdir : searchDirs) { std::string command = cmStrCat(this->BinaryDirectory, sdir, tmpOutputFile); if (cmSystemTools::FileExists(command)) { this->OutputFile = cmSystemTools::CollapseFullPath(command); return; } } std::ostringstream emsg; emsg << "Unable to find the executable at any of:\n"; emsg << cmWrap(" " + this->BinaryDirectory, searchDirs, tmpOutputFile, "\n") << "\n"; this->FindErrorMessage = emsg.str(); }