/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmRulePlaceholderExpander.h" #include #include #include #include "cmOutputConverter.h" #include "cmSystemTools.h" cmRulePlaceholderExpander::cmRulePlaceholderExpander( std::map compilers, std::map variableMappings, std::string compilerSysroot, std::string linkerSysroot) : Compilers(std::move(compilers)) , VariableMappings(std::move(variableMappings)) , CompilerSysroot(std::move(compilerSysroot)) , LinkerSysroot(std::move(linkerSysroot)) { } cmRulePlaceholderExpander::RuleVariables::RuleVariables() { memset(this, 0, sizeof(*this)); } std::string cmRulePlaceholderExpander::ExpandRuleVariable( cmOutputConverter* outputConverter, std::string const& variable, const RuleVariables& replaceValues) { if (replaceValues.LinkFlags) { if (variable == "LINK_FLAGS") { return replaceValues.LinkFlags; } } if (replaceValues.Manifests) { if (variable == "MANIFESTS") { return replaceValues.Manifests; } } if (replaceValues.Flags) { if (variable == "FLAGS") { return replaceValues.Flags; } } if (replaceValues.Source) { if (variable == "SOURCE") { return replaceValues.Source; } } if (replaceValues.PreprocessedSource) { if (variable == "PREPROCESSED_SOURCE") { return replaceValues.PreprocessedSource; } } if (replaceValues.AssemblySource) { if (variable == "ASSEMBLY_SOURCE") { return replaceValues.AssemblySource; } } if (replaceValues.Object) { if (variable == "OBJECT") { return replaceValues.Object; } } if (replaceValues.ObjectDir) { if (variable == "OBJECT_DIR") { return replaceValues.ObjectDir; } } if (replaceValues.ObjectFileDir) { if (variable == "OBJECT_FILE_DIR") { return replaceValues.ObjectFileDir; } } if (replaceValues.Objects) { if (variable == "OBJECTS") { return replaceValues.Objects; } } if (replaceValues.ObjectsQuoted) { if (variable == "OBJECTS_QUOTED") { return replaceValues.ObjectsQuoted; } } if (replaceValues.Defines && variable == "DEFINES") { return replaceValues.Defines; } if (replaceValues.Includes && variable == "INCLUDES") { return replaceValues.Includes; } if (replaceValues.TargetPDB) { if (variable == "TARGET_PDB") { return replaceValues.TargetPDB; } } if (replaceValues.TargetCompilePDB) { if (variable == "TARGET_COMPILE_PDB") { return replaceValues.TargetCompilePDB; } } if (replaceValues.DependencyFile) { if (variable == "DEP_FILE") { return replaceValues.DependencyFile; } } if (replaceValues.Target) { if (variable == "TARGET_QUOTED") { std::string targetQuoted = replaceValues.Target; if (!targetQuoted.empty() && targetQuoted.front() != '\"') { targetQuoted = '\"'; targetQuoted += replaceValues.Target; targetQuoted += '\"'; } return targetQuoted; } if (variable == "TARGET_UNQUOTED") { std::string unquoted = replaceValues.Target; std::string::size_type sz = unquoted.size(); if (sz > 2 && unquoted.front() == '\"' && unquoted.back() == '\"') { unquoted = unquoted.substr(1, sz - 2); } return unquoted; } if (replaceValues.LanguageCompileFlags) { if (variable == "LANGUAGE_COMPILE_FLAGS") { return replaceValues.LanguageCompileFlags; } } if (replaceValues.Target) { if (variable == "TARGET") { return replaceValues.Target; } } if (variable == "TARGET_IMPLIB") { return this->TargetImpLib; } if (variable == "TARGET_VERSION_MAJOR") { if (replaceValues.TargetVersionMajor) { return replaceValues.TargetVersionMajor; } return "0"; } if (variable == "TARGET_VERSION_MINOR") { if (replaceValues.TargetVersionMinor) { return replaceValues.TargetVersionMinor; } return "0"; } if (replaceValues.Target) { if (variable == "TARGET_BASE") { // Strip the last extension off the target name. std::string targetBase = replaceValues.Target; std::string::size_type pos = targetBase.rfind('.'); if (pos != std::string::npos) { return targetBase.substr(0, pos); } return targetBase; } } } if (replaceValues.SwiftAuxiliarySources) { if (variable == "SWIFT_AUXILIARY_SOURCES") { return replaceValues.SwiftAuxiliarySources; } } if (replaceValues.SwiftModuleName) { if (variable == "SWIFT_MODULE_NAME") { return replaceValues.SwiftModuleName; } } if (replaceValues.SwiftLibraryName) { if (variable == "SWIFT_LIBRARY_NAME") { return replaceValues.SwiftLibraryName; } } if (variable == "TARGET_SONAME" || variable == "SONAME_FLAG" || variable == "TARGET_INSTALLNAME_DIR") { // All these variables depend on TargetSOName if (replaceValues.TargetSOName) { if (variable == "TARGET_SONAME") { return replaceValues.TargetSOName; } if (variable == "SONAME_FLAG" && replaceValues.SONameFlag) { return replaceValues.SONameFlag; } if (replaceValues.TargetInstallNameDir && variable == "TARGET_INSTALLNAME_DIR") { return replaceValues.TargetInstallNameDir; } } return ""; } if (replaceValues.LinkLibraries) { if (variable == "LINK_LIBRARIES") { return replaceValues.LinkLibraries; } } if (replaceValues.Language) { if (variable == "LANGUAGE") { return replaceValues.Language; } } if (replaceValues.CMTargetName) { if (variable == "TARGET_NAME") { return replaceValues.CMTargetName; } } if (replaceValues.CMTargetType) { if (variable == "TARGET_TYPE") { return replaceValues.CMTargetType; } } if (replaceValues.Output) { if (variable == "OUTPUT") { return replaceValues.Output; } } if (variable == "CMAKE_COMMAND") { return outputConverter->ConvertToOutputFormat( cmSystemTools::CollapseFullPath(cmSystemTools::GetCMakeCommand()), cmOutputConverter::SHELL); } std::map::iterator compIt = this->Compilers.find(variable); if (compIt != this->Compilers.end()) { std::string ret = outputConverter->ConvertToOutputForExisting( this->VariableMappings["CMAKE_" + compIt->second + "_COMPILER"]); std::string const& compilerArg1 = this->VariableMappings["CMAKE_" + compIt->second + "_COMPILER_ARG1"]; std::string const& compilerTarget = this->VariableMappings["CMAKE_" + compIt->second + "_COMPILER_TARGET"]; std::string const& compilerOptionTarget = this->VariableMappings["CMAKE_" + compIt->second + "_COMPILE_OPTIONS_TARGET"]; std::string const& compilerExternalToolchain = this->VariableMappings["CMAKE_" + compIt->second + "_COMPILER_EXTERNAL_TOOLCHAIN"]; std::string const& compilerOptionExternalToolchain = this->VariableMappings["CMAKE_" + compIt->second + "_COMPILE_OPTIONS_EXTERNAL_TOOLCHAIN"]; std::string const& compilerOptionSysroot = this->VariableMappings["CMAKE_" + compIt->second + "_COMPILE_OPTIONS_SYSROOT"]; // if there is a required first argument to the compiler add it // to the compiler string if (!compilerArg1.empty()) { ret += " "; ret += compilerArg1; } if (!compilerTarget.empty() && !compilerOptionTarget.empty()) { ret += " "; ret += compilerOptionTarget; ret += compilerTarget; } if (!compilerExternalToolchain.empty() && !compilerOptionExternalToolchain.empty()) { ret += " "; ret += compilerOptionExternalToolchain; ret += outputConverter->EscapeForShell(compilerExternalToolchain, true); } std::string sysroot; // Some platforms may use separate sysroots for compiling and linking. // If we detect link flags, then we pass the link sysroot instead. // FIXME: Use a more robust way to detect link line expansion. if (replaceValues.LinkFlags) { sysroot = this->LinkerSysroot; } else { sysroot = this->CompilerSysroot; } if (!sysroot.empty() && !compilerOptionSysroot.empty()) { ret += " "; ret += compilerOptionSysroot; ret += outputConverter->EscapeForShell(sysroot, true); } return ret; } std::map::iterator mapIt = this->VariableMappings.find(variable); if (mapIt != this->VariableMappings.end()) { if (variable.find("_FLAG") == std::string::npos) { return outputConverter->ConvertToOutputForExisting(mapIt->second); } return mapIt->second; } return variable; } void cmRulePlaceholderExpander::ExpandRuleVariables( cmOutputConverter* outputConverter, std::string& s, const RuleVariables& replaceValues) { std::string::size_type start = s.find('<'); // no variables to expand if (start == std::string::npos) { return; } std::string::size_type pos = 0; std::string expandedInput; while (start != std::string::npos && start < s.size() - 2) { std::string::size_type end = s.find('>', start); // if we find a < with no > we are done if (end == std::string::npos) { return; } char c = s[start + 1]; // if the next char after the < is not A-Za-z then // skip it and try to find the next < in the string if (!isalpha(c)) { start = s.find('<', start + 1); } else { // extract the var std::string var = s.substr(start + 1, end - start - 1); std::string replace = this->ExpandRuleVariable(outputConverter, var, replaceValues); expandedInput += s.substr(pos, start - pos); expandedInput += replace; // move to next one start = s.find('<', start + var.size() + 2); pos = end + 1; } } // add the rest of the input expandedInput += s.substr(pos, s.size() - pos); s = expandedInput; }