/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmGeneratorExpressionNode.h" #include "cmAlgorithms.h" #include "cmGeneratorExpression.h" #include "cmGeneratorExpressionContext.h" #include "cmGeneratorExpressionDAGChecker.h" #include "cmGeneratorExpressionEvaluator.h" #include "cmGeneratorTarget.h" #include "cmGlobalGenerator.h" #include "cmLinkItem.h" #include "cmLocalGenerator.h" #include "cmMakefile.h" #include "cmOutputConverter.h" #include "cmPolicies.h" #include "cmStateTypes.h" #include "cmSystemTools.h" #include "cmTarget.h" #include "cm_auto_ptr.hxx" #include "cmake.h" #include "cmsys/RegularExpression.hxx" #include "cmsys/String.h" #include #include #include #include #include #include #include #include #include std::string cmGeneratorExpressionNode::EvaluateDependentExpression( std::string const& prop, cmLocalGenerator* lg, cmGeneratorExpressionContext* context, cmGeneratorTarget const* headTarget, cmGeneratorTarget const* currentTarget, cmGeneratorExpressionDAGChecker* dagChecker) { cmGeneratorExpression ge(context->Backtrace); CM_AUTO_PTR cge = ge.Parse(prop); cge->SetEvaluateForBuildsystem(context->EvaluateForBuildsystem); std::string result = cge->Evaluate(lg, context->Config, context->Quiet, headTarget, currentTarget, dagChecker, context->Language); if (cge->GetHadContextSensitiveCondition()) { context->HadContextSensitiveCondition = true; } if (cge->GetHadHeadSensitiveCondition()) { context->HadHeadSensitiveCondition = true; } return result; } static const struct ZeroNode : public cmGeneratorExpressionNode { ZeroNode() {} bool GeneratesContent() const CM_OVERRIDE { return false; } bool AcceptsArbitraryContentParameter() const CM_OVERRIDE { return true; } std::string Evaluate(const std::vector& /*parameters*/, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return std::string(); } } zeroNode; static const struct OneNode : public cmGeneratorExpressionNode { OneNode() {} bool AcceptsArbitraryContentParameter() const CM_OVERRIDE { return true; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return parameters.front(); } } oneNode; static const struct OneNode buildInterfaceNode; static const struct ZeroNode installInterfaceNode; #define BOOLEAN_OP_NODE(OPNAME, OP, SUCCESS_VALUE, FAILURE_VALUE) \ static const struct OP##Node : public cmGeneratorExpressionNode \ { \ OP##Node() {} \ virtual int NumExpectedParameters() const { return OneOrMoreParameters; } \ \ std::string Evaluate(const std::vector& parameters, \ cmGeneratorExpressionContext* context, \ const GeneratorExpressionContent* content, \ cmGeneratorExpressionDAGChecker*) const \ { \ std::vector::const_iterator it = parameters.begin(); \ const std::vector::const_iterator end = parameters.end(); \ for (; it != end; ++it) { \ if (*it == #FAILURE_VALUE) { \ return #FAILURE_VALUE; \ } \ if (*it != #SUCCESS_VALUE) { \ reportError(context, content->GetOriginalExpression(), \ "Parameters to $<" #OP \ "> must resolve to either '0' or '1'."); \ return std::string(); \ } \ } \ return #SUCCESS_VALUE; \ } \ } OPNAME; BOOLEAN_OP_NODE(andNode, AND, 1, 0) BOOLEAN_OP_NODE(orNode, OR, 0, 1) #undef BOOLEAN_OP_NODE static const struct NotNode : public cmGeneratorExpressionNode { NotNode() {} std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { if (*parameters.begin() != "0" && *parameters.begin() != "1") { reportError( context, content->GetOriginalExpression(), "$ parameter must resolve to exactly one '0' or '1' value."); return std::string(); } return *parameters.begin() == "0" ? "1" : "0"; } } notNode; static const struct BoolNode : public cmGeneratorExpressionNode { BoolNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 1; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return !cmSystemTools::IsOff(parameters.begin()->c_str()) ? "1" : "0"; } } boolNode; static const struct IfNode : public cmGeneratorExpressionNode { IfNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 3; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker*) const CM_OVERRIDE { if (parameters[0] != "1" && parameters[0] != "0") { reportError(context, content->GetOriginalExpression(), "First parameter to $ must resolve to exactly one '0' " "or '1' value."); return std::string(); } return parameters[0] == "1" ? parameters[1] : parameters[2]; } } ifNode; static const struct StrEqualNode : public cmGeneratorExpressionNode { StrEqualNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 2; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return *parameters.begin() == parameters[1] ? "1" : "0"; } } strEqualNode; static const struct EqualNode : public cmGeneratorExpressionNode { EqualNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 2; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { char* pEnd; int base = 0; bool flipSign = false; const char* lhs = parameters[0].c_str(); if (cmHasLiteralPrefix(lhs, "0b") || cmHasLiteralPrefix(lhs, "0B")) { base = 2; lhs += 2; } if (cmHasLiteralPrefix(lhs, "-0b") || cmHasLiteralPrefix(lhs, "-0B")) { base = 2; lhs += 3; flipSign = true; } if (cmHasLiteralPrefix(lhs, "+0b") || cmHasLiteralPrefix(lhs, "+0B")) { base = 2; lhs += 3; } long lnum = strtol(lhs, &pEnd, base); if (pEnd == lhs || *pEnd != '\0' || errno == ERANGE) { reportError(context, content->GetOriginalExpression(), "$ parameter " + parameters[0] + " is not a valid integer."); return std::string(); } if (flipSign) { lnum = -lnum; } base = 0; flipSign = false; const char* rhs = parameters[1].c_str(); if (cmHasLiteralPrefix(rhs, "0b") || cmHasLiteralPrefix(rhs, "0B")) { base = 2; rhs += 2; } if (cmHasLiteralPrefix(rhs, "-0b") || cmHasLiteralPrefix(rhs, "-0B")) { base = 2; rhs += 3; flipSign = true; } if (cmHasLiteralPrefix(rhs, "+0b") || cmHasLiteralPrefix(rhs, "+0B")) { base = 2; rhs += 3; } long rnum = strtol(rhs, &pEnd, base); if (pEnd == rhs || *pEnd != '\0' || errno == ERANGE) { reportError(context, content->GetOriginalExpression(), "$ parameter " + parameters[1] + " is not a valid integer."); return std::string(); } if (flipSign) { rnum = -rnum; } return lnum == rnum ? "1" : "0"; } } equalNode; static const struct LowerCaseNode : public cmGeneratorExpressionNode { LowerCaseNode() {} bool AcceptsArbitraryContentParameter() const CM_OVERRIDE { return true; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return cmSystemTools::LowerCase(parameters.front()); } } lowerCaseNode; static const struct UpperCaseNode : public cmGeneratorExpressionNode { UpperCaseNode() {} bool AcceptsArbitraryContentParameter() const CM_OVERRIDE { return true; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return cmSystemTools::UpperCase(parameters.front()); } } upperCaseNode; static const struct MakeCIdentifierNode : public cmGeneratorExpressionNode { MakeCIdentifierNode() {} bool AcceptsArbitraryContentParameter() const CM_OVERRIDE { return true; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return cmSystemTools::MakeCidentifier(parameters.front()); } } makeCIdentifierNode; static const struct Angle_RNode : public cmGeneratorExpressionNode { Angle_RNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 0; } std::string Evaluate(const std::vector& /*parameters*/, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return ">"; } } angle_rNode; static const struct CommaNode : public cmGeneratorExpressionNode { CommaNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 0; } std::string Evaluate(const std::vector& /*parameters*/, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return ","; } } commaNode; static const struct SemicolonNode : public cmGeneratorExpressionNode { SemicolonNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 0; } std::string Evaluate(const std::vector& /*parameters*/, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return ";"; } } semicolonNode; struct CompilerIdNode : public cmGeneratorExpressionNode { CompilerIdNode() {} int NumExpectedParameters() const CM_OVERRIDE { return OneOrZeroParameters; } std::string EvaluateWithLanguage(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* /*unused*/, const std::string& lang) const { const char* compilerId = context->LG->GetMakefile()->GetSafeDefinition( "CMAKE_" + lang + "_COMPILER_ID"); if (parameters.empty()) { return compilerId ? compilerId : ""; } static cmsys::RegularExpression compilerIdValidator("^[A-Za-z0-9_]*$"); if (!compilerIdValidator.find(*parameters.begin())) { reportError(context, content->GetOriginalExpression(), "Expression syntax not recognized."); return std::string(); } if (!compilerId) { return parameters.front().empty() ? "1" : "0"; } if (strcmp(parameters.begin()->c_str(), compilerId) == 0) { return "1"; } if (cmsysString_strcasecmp(parameters.begin()->c_str(), compilerId) == 0) { switch (context->LG->GetPolicyStatus(cmPolicies::CMP0044)) { case cmPolicies::WARN: { std::ostringstream e; e << cmPolicies::GetPolicyWarning(cmPolicies::CMP0044); context->LG->GetCMakeInstance()->IssueMessage( cmake::AUTHOR_WARNING, e.str(), context->Backtrace); CM_FALLTHROUGH; } case cmPolicies::OLD: return "1"; case cmPolicies::NEW: case cmPolicies::REQUIRED_ALWAYS: case cmPolicies::REQUIRED_IF_USED: break; } } return "0"; } }; static const struct CCompilerIdNode : public CompilerIdNode { CCompilerIdNode() {} std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* dagChecker) const CM_OVERRIDE { if (!context->HeadTarget) { reportError( context, content->GetOriginalExpression(), "$ may only be used with binary targets. It may " "not be used with add_custom_command or add_custom_target."); return std::string(); } return this->EvaluateWithLanguage(parameters, context, content, dagChecker, "C"); } } cCompilerIdNode; static const struct CXXCompilerIdNode : public CompilerIdNode { CXXCompilerIdNode() {} std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* dagChecker) const CM_OVERRIDE { if (!context->HeadTarget) { reportError( context, content->GetOriginalExpression(), "$ may only be used with binary targets. It may " "not be used with add_custom_command or add_custom_target."); return std::string(); } return this->EvaluateWithLanguage(parameters, context, content, dagChecker, "CXX"); } } cxxCompilerIdNode; struct CompilerVersionNode : public cmGeneratorExpressionNode { CompilerVersionNode() {} int NumExpectedParameters() const CM_OVERRIDE { return OneOrZeroParameters; } std::string EvaluateWithLanguage(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* /*unused*/, const std::string& lang) const { const char* compilerVersion = context->LG->GetMakefile()->GetSafeDefinition("CMAKE_" + lang + "_COMPILER_VERSION"); if (parameters.empty()) { return compilerVersion ? compilerVersion : ""; } static cmsys::RegularExpression compilerIdValidator("^[0-9\\.]*$"); if (!compilerIdValidator.find(*parameters.begin())) { reportError(context, content->GetOriginalExpression(), "Expression syntax not recognized."); return std::string(); } if (!compilerVersion) { return parameters.front().empty() ? "1" : "0"; } return cmSystemTools::VersionCompare(cmSystemTools::OP_EQUAL, parameters.begin()->c_str(), compilerVersion) ? "1" : "0"; } }; static const struct CCompilerVersionNode : public CompilerVersionNode { CCompilerVersionNode() {} std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* dagChecker) const CM_OVERRIDE { if (!context->HeadTarget) { reportError( context, content->GetOriginalExpression(), "$ may only be used with binary targets. It " "may not be used with add_custom_command or add_custom_target."); return std::string(); } return this->EvaluateWithLanguage(parameters, context, content, dagChecker, "C"); } } cCompilerVersionNode; static const struct CxxCompilerVersionNode : public CompilerVersionNode { CxxCompilerVersionNode() {} std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* dagChecker) const CM_OVERRIDE { if (!context->HeadTarget) { reportError( context, content->GetOriginalExpression(), "$ may only be used with binary targets. It " "may not be used with add_custom_command or add_custom_target."); return std::string(); } return this->EvaluateWithLanguage(parameters, context, content, dagChecker, "CXX"); } } cxxCompilerVersionNode; struct PlatformIdNode : public cmGeneratorExpressionNode { PlatformIdNode() {} int NumExpectedParameters() const CM_OVERRIDE { return OneOrZeroParameters; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { const char* platformId = context->LG->GetMakefile()->GetSafeDefinition("CMAKE_SYSTEM_NAME"); if (parameters.empty()) { return platformId ? platformId : ""; } if (!platformId) { return parameters.front().empty() ? "1" : "0"; } if (strcmp(parameters.begin()->c_str(), platformId) == 0) { return "1"; } return "0"; } } platformIdNode; static const struct VersionGreaterNode : public cmGeneratorExpressionNode { VersionGreaterNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 2; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return cmSystemTools::VersionCompare(cmSystemTools::OP_GREATER, parameters.front().c_str(), parameters[1].c_str()) ? "1" : "0"; } } versionGreaterNode; static const struct VersionGreaterEqNode : public cmGeneratorExpressionNode { VersionGreaterEqNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 2; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return cmSystemTools::VersionCompare(cmSystemTools::OP_GREATER_EQUAL, parameters.front().c_str(), parameters[1].c_str()) ? "1" : "0"; } } versionGreaterEqNode; static const struct VersionLessNode : public cmGeneratorExpressionNode { VersionLessNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 2; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return cmSystemTools::VersionCompare(cmSystemTools::OP_LESS, parameters.front().c_str(), parameters[1].c_str()) ? "1" : "0"; } } versionLessNode; static const struct VersionLessEqNode : public cmGeneratorExpressionNode { VersionLessEqNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 2; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return cmSystemTools::VersionCompare(cmSystemTools::OP_LESS_EQUAL, parameters.front().c_str(), parameters[1].c_str()) ? "1" : "0"; } } versionLessEqNode; static const struct VersionEqualNode : public cmGeneratorExpressionNode { VersionEqualNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 2; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return cmSystemTools::VersionCompare(cmSystemTools::OP_EQUAL, parameters.front().c_str(), parameters[1].c_str()) ? "1" : "0"; } } versionEqualNode; static const struct LinkOnlyNode : public cmGeneratorExpressionNode { LinkOnlyNode() {} std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* dagChecker) const CM_OVERRIDE { if (!dagChecker) { reportError(context, content->GetOriginalExpression(), "$ may only be used for linking"); return std::string(); } if (!dagChecker->GetTransitivePropertiesOnly()) { return parameters.front(); } return std::string(); } } linkOnlyNode; static const struct ConfigurationNode : public cmGeneratorExpressionNode { ConfigurationNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 0; } std::string Evaluate(const std::vector& /*parameters*/, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { context->HadContextSensitiveCondition = true; return context->Config; } } configurationNode; static const struct ConfigurationTestNode : public cmGeneratorExpressionNode { ConfigurationTestNode() {} int NumExpectedParameters() const CM_OVERRIDE { return OneOrZeroParameters; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { if (parameters.empty()) { return configurationNode.Evaluate(parameters, context, content, nullptr); } static cmsys::RegularExpression configValidator("^[A-Za-z0-9_]*$"); if (!configValidator.find(*parameters.begin())) { reportError(context, content->GetOriginalExpression(), "Expression syntax not recognized."); return std::string(); } context->HadContextSensitiveCondition = true; if (context->Config.empty()) { return parameters.front().empty() ? "1" : "0"; } if (cmsysString_strcasecmp(parameters.begin()->c_str(), context->Config.c_str()) == 0) { return "1"; } if (context->CurrentTarget && context->CurrentTarget->IsImported()) { const char* loc = nullptr; const char* imp = nullptr; std::string suffix; if (context->CurrentTarget->Target->GetMappedConfig( context->Config, &loc, &imp, suffix)) { // This imported target has an appropriate location // for this (possibly mapped) config. // Check if there is a proper config mapping for the tested config. std::vector mappedConfigs; std::string mapProp = "MAP_IMPORTED_CONFIG_"; mapProp += cmSystemTools::UpperCase(context->Config); if (const char* mapValue = context->CurrentTarget->GetProperty(mapProp)) { cmSystemTools::ExpandListArgument(cmSystemTools::UpperCase(mapValue), mappedConfigs); return std::find(mappedConfigs.begin(), mappedConfigs.end(), cmSystemTools::UpperCase(parameters.front())) != mappedConfigs.end() ? "1" : "0"; } } } return "0"; } } configurationTestNode; static const struct JoinNode : public cmGeneratorExpressionNode { JoinNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 2; } bool AcceptsArbitraryContentParameter() const CM_OVERRIDE { return true; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { std::vector list; cmSystemTools::ExpandListArgument(parameters.front(), list); return cmJoin(list, parameters[1]); } } joinNode; static const struct CompileLanguageNode : public cmGeneratorExpressionNode { CompileLanguageNode() {} int NumExpectedParameters() const CM_OVERRIDE { return OneOrZeroParameters; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* dagChecker) const CM_OVERRIDE { if (context->Language.empty()) { reportError( context, content->GetOriginalExpression(), "$ may only be used to specify include " "directories, compile definitions, compile options, and to evaluate " "components of the file(GENERATE) command."); return std::string(); } std::vector enabledLanguages; cmGlobalGenerator* gg = context->LG->GetGlobalGenerator(); gg->GetEnabledLanguages(enabledLanguages); if (!parameters.empty() && std::find(enabledLanguages.begin(), enabledLanguages.end(), parameters.front()) == enabledLanguages.end()) { reportError(context, content->GetOriginalExpression(), "$ Unknown language."); return std::string(); } std::string genName = gg->GetName(); if (genName.find("Visual Studio") != std::string::npos) { reportError(context, content->GetOriginalExpression(), "$ may not be used with Visual Studio " "generators."); return std::string(); } if (genName.find("Xcode") != std::string::npos) { if (dagChecker && (dagChecker->EvaluatingCompileDefinitions() || dagChecker->EvaluatingIncludeDirectories())) { reportError( context, content->GetOriginalExpression(), "$ may only be used with COMPILE_OPTIONS " "with the Xcode generator."); return std::string(); } } else { if (genName.find("Makefiles") == std::string::npos && genName.find("Ninja") == std::string::npos && genName.find("Watcom WMake") == std::string::npos) { reportError( context, content->GetOriginalExpression(), "$ not supported for this generator."); return std::string(); } } if (parameters.empty()) { return context->Language; } return context->Language == parameters.front() ? "1" : "0"; } } languageNode; #define TRANSITIVE_PROPERTY_NAME(PROPERTY) , "INTERFACE_" #PROPERTY static const char* targetPropertyTransitiveWhitelist[] = { nullptr CM_FOR_EACH_TRANSITIVE_PROPERTY_NAME(TRANSITIVE_PROPERTY_NAME) }; #undef TRANSITIVE_PROPERTY_NAME template std::string getLinkedTargetsContent( std::vector const& libraries, cmGeneratorTarget const* target, cmGeneratorTarget const* headTarget, cmGeneratorExpressionContext* context, cmGeneratorExpressionDAGChecker* dagChecker, const std::string& interfacePropertyName) { std::string linkedTargetsContent; std::string sep; std::string depString; for (T const& l : libraries) { // Broken code can have a target in its own link interface. // Don't follow such link interface entries so as not to create a // self-referencing loop. if (l.Target && l.Target != target) { depString += sep + "$GetName() + "," + interfacePropertyName + ">"; sep = ";"; } } if (!depString.empty()) { linkedTargetsContent = cmGeneratorExpressionNode::EvaluateDependentExpression( depString, target->GetLocalGenerator(), context, headTarget, target, dagChecker); } linkedTargetsContent = cmGeneratorExpression::StripEmptyListElements(linkedTargetsContent); return linkedTargetsContent; } static const struct TargetPropertyNode : public cmGeneratorExpressionNode { TargetPropertyNode() {} // This node handles errors on parameter count itself. int NumExpectedParameters() const CM_OVERRIDE { return OneOrMoreParameters; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* dagCheckerParent) const CM_OVERRIDE { if (parameters.size() != 1 && parameters.size() != 2) { reportError( context, content->GetOriginalExpression(), "$ expression requires one or two parameters"); return std::string(); } static cmsys::RegularExpression propertyNameValidator("^[A-Za-z0-9_]+$"); cmGeneratorTarget const* target = context->HeadTarget; std::string propertyName = *parameters.begin(); if (parameters.size() == 1) { context->HadHeadSensitiveCondition = true; } if (!target && parameters.size() == 1) { reportError( context, content->GetOriginalExpression(), "$ may only be used with binary targets. " "It may not be used with add_custom_command or add_custom_target. " "Specify the target to read a property from using the " "$ signature instead."); return std::string(); } if (parameters.size() == 2) { if (parameters.begin()->empty() && parameters[1].empty()) { reportError( context, content->GetOriginalExpression(), "$ expression requires a non-empty " "target name and property name."); return std::string(); } if (parameters.begin()->empty()) { reportError( context, content->GetOriginalExpression(), "$ expression requires a non-empty " "target name."); return std::string(); } std::string targetName = parameters.front(); propertyName = parameters[1]; if (!cmGeneratorExpression::IsValidTargetName(targetName)) { if (!propertyNameValidator.find(propertyName.c_str())) { ::reportError(context, content->GetOriginalExpression(), "Target name and property name not supported."); return std::string(); } ::reportError(context, content->GetOriginalExpression(), "Target name not supported."); return std::string(); } if (propertyName == "ALIASED_TARGET") { if (context->LG->GetMakefile()->IsAlias(targetName)) { if (cmGeneratorTarget* tgt = context->LG->FindGeneratorTargetToUse(targetName)) { return tgt->GetName(); } } return ""; } target = context->LG->FindGeneratorTargetToUse(targetName); if (!target) { std::ostringstream e; e << "Target \"" << targetName << "\" not found."; reportError(context, content->GetOriginalExpression(), e.str()); return std::string(); } context->AllTargets.insert(target); } if (target == context->HeadTarget) { // Keep track of the properties seen while processing. // The evaluation of the LINK_LIBRARIES generator expressions // will check this to ensure that properties have one consistent // value for all evaluations. context->SeenTargetProperties.insert(propertyName); } if (propertyName == "SOURCES") { context->SourceSensitiveTargets.insert(target); } if (propertyName.empty()) { reportError( context, content->GetOriginalExpression(), "$ expression requires a non-empty property " "name."); return std::string(); } if (!propertyNameValidator.find(propertyName)) { ::reportError(context, content->GetOriginalExpression(), "Property name not supported."); return std::string(); } assert(target); if (propertyName == "LINKER_LANGUAGE") { if (target->LinkLanguagePropagatesToDependents() && dagCheckerParent && (dagCheckerParent->EvaluatingLinkLibraries() || dagCheckerParent->EvaluatingSources())) { reportError( context, content->GetOriginalExpression(), "LINKER_LANGUAGE target property can not be used while evaluating " "link libraries for a static library"); return std::string(); } return target->GetLinkerLanguage(context->Config); } cmGeneratorExpressionDAGChecker dagChecker(context->Backtrace, target->GetName(), propertyName, content, dagCheckerParent); switch (dagChecker.Check()) { case cmGeneratorExpressionDAGChecker::SELF_REFERENCE: dagChecker.ReportError(context, content->GetOriginalExpression()); return std::string(); case cmGeneratorExpressionDAGChecker::CYCLIC_REFERENCE: // No error. We just skip cyclic references. return std::string(); case cmGeneratorExpressionDAGChecker::ALREADY_SEEN: for (size_t i = 1; i < cmArraySize(targetPropertyTransitiveWhitelist); ++i) { if (targetPropertyTransitiveWhitelist[i] == propertyName) { // No error. We're not going to find anything new here. return std::string(); } } case cmGeneratorExpressionDAGChecker::DAG: break; } const char* prop = target->GetProperty(propertyName); if (dagCheckerParent) { if (dagCheckerParent->EvaluatingLinkLibraries()) { #define TRANSITIVE_PROPERTY_COMPARE(PROPERTY) \ (#PROPERTY == propertyName || "INTERFACE_" #PROPERTY == propertyName) || if (CM_FOR_EACH_TRANSITIVE_PROPERTY_NAME( TRANSITIVE_PROPERTY_COMPARE) false) { // NOLINT(clang-tidy) reportError( context, content->GetOriginalExpression(), "$ expression in link libraries " "evaluation depends on target property which is transitive " "over the link libraries, creating a recursion."); return std::string(); } #undef TRANSITIVE_PROPERTY_COMPARE if (!prop) { return std::string(); } } else { #define ASSERT_TRANSITIVE_PROPERTY_METHOD(METHOD) dagCheckerParent->METHOD() || assert(CM_FOR_EACH_TRANSITIVE_PROPERTY_METHOD( ASSERT_TRANSITIVE_PROPERTY_METHOD) false); // NOLINT(clang-tidy) #undef ASSERT_TRANSITIVE_PROPERTY_METHOD } } std::string linkedTargetsContent; std::string interfacePropertyName; bool isInterfaceProperty = false; #define POPULATE_INTERFACE_PROPERTY_NAME(prop) \ if (propertyName == #prop) { \ interfacePropertyName = "INTERFACE_" #prop; \ } else if (propertyName == "INTERFACE_" #prop) { \ interfacePropertyName = "INTERFACE_" #prop; \ isInterfaceProperty = true; \ } else CM_FOR_EACH_TRANSITIVE_PROPERTY_NAME(POPULATE_INTERFACE_PROPERTY_NAME) // Note that the above macro terminates with an else /* else */ if (cmHasLiteralPrefix(propertyName.c_str(), "COMPILE_DEFINITIONS_")) { cmPolicies::PolicyStatus polSt = context->LG->GetPolicyStatus(cmPolicies::CMP0043); if (polSt == cmPolicies::WARN || polSt == cmPolicies::OLD) { interfacePropertyName = "INTERFACE_COMPILE_DEFINITIONS"; } } #undef POPULATE_INTERFACE_PROPERTY_NAME cmGeneratorTarget const* headTarget = context->HeadTarget && isInterfaceProperty ? context->HeadTarget : target; if (isInterfaceProperty) { if (cmLinkInterfaceLibraries const* iface = target->GetLinkInterfaceLibraries(context->Config, headTarget, true)) { linkedTargetsContent = getLinkedTargetsContent(iface->Libraries, target, headTarget, context, &dagChecker, interfacePropertyName); } } else if (!interfacePropertyName.empty()) { if (cmLinkImplementationLibraries const* impl = target->GetLinkImplementationLibraries(context->Config)) { linkedTargetsContent = getLinkedTargetsContent(impl->Libraries, target, target, context, &dagChecker, interfacePropertyName); } } if (!prop) { if (target->IsImported() || target->GetType() == cmStateEnums::INTERFACE_LIBRARY) { return linkedTargetsContent; } if (target->IsLinkInterfaceDependentBoolProperty(propertyName, context->Config)) { context->HadContextSensitiveCondition = true; return target->GetLinkInterfaceDependentBoolProperty(propertyName, context->Config) ? "1" : "0"; } if (target->IsLinkInterfaceDependentStringProperty(propertyName, context->Config)) { context->HadContextSensitiveCondition = true; const char* propContent = target->GetLinkInterfaceDependentStringProperty(propertyName, context->Config); return propContent ? propContent : ""; } if (target->IsLinkInterfaceDependentNumberMinProperty(propertyName, context->Config)) { context->HadContextSensitiveCondition = true; const char* propContent = target->GetLinkInterfaceDependentNumberMinProperty(propertyName, context->Config); return propContent ? propContent : ""; } if (target->IsLinkInterfaceDependentNumberMaxProperty(propertyName, context->Config)) { context->HadContextSensitiveCondition = true; const char* propContent = target->GetLinkInterfaceDependentNumberMaxProperty(propertyName, context->Config); return propContent ? propContent : ""; } return linkedTargetsContent; } if (!target->IsImported() && dagCheckerParent && !dagCheckerParent->EvaluatingLinkLibraries()) { if (target->IsLinkInterfaceDependentNumberMinProperty(propertyName, context->Config)) { context->HadContextSensitiveCondition = true; const char* propContent = target->GetLinkInterfaceDependentNumberMinProperty(propertyName, context->Config); return propContent ? propContent : ""; } if (target->IsLinkInterfaceDependentNumberMaxProperty(propertyName, context->Config)) { context->HadContextSensitiveCondition = true; const char* propContent = target->GetLinkInterfaceDependentNumberMaxProperty(propertyName, context->Config); return propContent ? propContent : ""; } } if (!interfacePropertyName.empty()) { std::string result = this->EvaluateDependentExpression( prop, context->LG, context, headTarget, target, &dagChecker); if (!linkedTargetsContent.empty()) { result += (result.empty() ? "" : ";") + linkedTargetsContent; } return result; } return prop; } } targetPropertyNode; static const struct TargetNameNode : public cmGeneratorExpressionNode { TargetNameNode() {} bool GeneratesContent() const CM_OVERRIDE { return true; } bool AcceptsArbitraryContentParameter() const CM_OVERRIDE { return true; } bool RequiresLiteralInput() const CM_OVERRIDE { return true; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* /*context*/, const GeneratorExpressionContent* /*content*/, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { return parameters.front(); } int NumExpectedParameters() const CM_OVERRIDE { return 1; } } targetNameNode; static const struct TargetObjectsNode : public cmGeneratorExpressionNode { TargetObjectsNode() {} std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { std::string tgtName = parameters.front(); cmGeneratorTarget* gt = context->LG->FindGeneratorTargetToUse(tgtName); if (!gt) { std::ostringstream e; e << "Objects of target \"" << tgtName << "\" referenced but no such target exists."; reportError(context, content->GetOriginalExpression(), e.str()); return std::string(); } if (gt->GetType() != cmStateEnums::OBJECT_LIBRARY) { std::ostringstream e; e << "Objects of target \"" << tgtName << "\" referenced but is not an OBJECT library."; reportError(context, content->GetOriginalExpression(), e.str()); return std::string(); } if (!context->EvaluateForBuildsystem) { cmGlobalGenerator* gg = context->LG->GetGlobalGenerator(); std::string reason; if (!gg->HasKnownObjectFileLocation(&reason)) { std::ostringstream e; e << "The evaluation of the TARGET_OBJECTS generator expression " "is only suitable for consumption by CMake (limited" << reason << "). " "It is not suitable for writing out elsewhere."; reportError(context, content->GetOriginalExpression(), e.str()); return std::string(); } } std::vector objects; if (gt->IsImported()) { const char* loc = nullptr; const char* imp = nullptr; std::string suffix; if (gt->Target->GetMappedConfig(context->Config, &loc, &imp, suffix)) { cmSystemTools::ExpandListArgument(loc, objects); } context->HadContextSensitiveCondition = true; } else { gt->GetTargetObjectNames(context->Config, objects); std::string obj_dir; if (context->EvaluateForBuildsystem) { // Use object file directory with buildsystem placeholder. obj_dir = gt->ObjectDirectory; // Here we assume that the set of object files produced // by an object library does not vary with configuration // and do not set HadContextSensitiveCondition to true. } else { // Use object file directory with per-config location. obj_dir = gt->GetObjectDirectory(context->Config); context->HadContextSensitiveCondition = true; } for (std::string& o : objects) { o = obj_dir + o; } } // Create the cmSourceFile instances in the referencing directory. cmMakefile* mf = context->LG->GetMakefile(); for (std::string& o : objects) { mf->AddTargetObject(tgtName, o); } return cmJoin(objects, ";"); } } targetObjectsNode; static const struct CompileFeaturesNode : public cmGeneratorExpressionNode { CompileFeaturesNode() {} int NumExpectedParameters() const CM_OVERRIDE { return OneOrMoreParameters; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* dagChecker) const CM_OVERRIDE { cmGeneratorTarget const* target = context->HeadTarget; if (!target) { reportError( context, content->GetOriginalExpression(), "$ may only be used with binary targets. It may " "not be used with add_custom_command or add_custom_target."); return std::string(); } context->HadHeadSensitiveCondition = true; typedef std::map> LangMap; static LangMap availableFeatures; LangMap testedFeatures; for (std::string const& p : parameters) { std::string error; std::string lang; if (!context->LG->GetMakefile()->CompileFeatureKnown( context->HeadTarget->Target, p, lang, &error)) { reportError(context, content->GetOriginalExpression(), error); return std::string(); } testedFeatures[lang].push_back(p); if (availableFeatures.find(lang) == availableFeatures.end()) { const char* featuresKnown = context->LG->GetMakefile()->CompileFeaturesAvailable(lang, &error); if (!featuresKnown) { reportError(context, content->GetOriginalExpression(), error); return std::string(); } cmSystemTools::ExpandListArgument(featuresKnown, availableFeatures[lang]); } } bool evalLL = dagChecker && dagChecker->EvaluatingLinkLibraries(); for (auto const& lit : testedFeatures) { std::vector const& langAvailable = availableFeatures[lit.first]; const char* standardDefault = context->LG->GetMakefile()->GetDefinition( "CMAKE_" + lit.first + "_STANDARD_DEFAULT"); for (std::string const& it : lit.second) { if (std::find(langAvailable.begin(), langAvailable.end(), it) == langAvailable.end()) { return "0"; } if (standardDefault && !*standardDefault) { // This compiler has no notion of language standard levels. // All features known for the language are always available. continue; } if (!context->LG->GetMakefile()->HaveStandardAvailable( target->Target, lit.first, it)) { if (evalLL) { const char* l = target->GetProperty(lit.first + "_STANDARD"); if (!l) { l = standardDefault; } assert(l); context->MaxLanguageStandard[target][lit.first] = l; } else { return "0"; } } } } return "1"; } } compileFeaturesNode; static const char* targetPolicyWhitelist[] = { nullptr #define TARGET_POLICY_STRING(POLICY) , #POLICY CM_FOR_EACH_TARGET_POLICY(TARGET_POLICY_STRING) #undef TARGET_POLICY_STRING }; cmPolicies::PolicyStatus statusForTarget(cmGeneratorTarget const* tgt, const char* policy) { #define RETURN_POLICY(POLICY) \ if (strcmp(policy, #POLICY) == 0) { \ return tgt->GetPolicyStatus##POLICY(); \ } CM_FOR_EACH_TARGET_POLICY(RETURN_POLICY) #undef RETURN_POLICY assert(false && "Unreachable code. Not a valid policy"); return cmPolicies::WARN; } cmPolicies::PolicyID policyForString(const char* policy_id) { #define RETURN_POLICY_ID(POLICY_ID) \ if (strcmp(policy_id, #POLICY_ID) == 0) { \ return cmPolicies::POLICY_ID; \ } CM_FOR_EACH_TARGET_POLICY(RETURN_POLICY_ID) #undef RETURN_POLICY_ID assert(false && "Unreachable code. Not a valid policy"); return cmPolicies::CMP0002; } static const struct TargetPolicyNode : public cmGeneratorExpressionNode { TargetPolicyNode() {} int NumExpectedParameters() const CM_OVERRIDE { return 1; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { if (!context->HeadTarget) { reportError( context, content->GetOriginalExpression(), "$ may only be used with binary targets. It " "may not be used with add_custom_command or add_custom_target."); return std::string(); } context->HadContextSensitiveCondition = true; context->HadHeadSensitiveCondition = true; for (size_t i = 1; i < cmArraySize(targetPolicyWhitelist); ++i) { const char* policy = targetPolicyWhitelist[i]; if (parameters.front() == policy) { cmLocalGenerator* lg = context->HeadTarget->GetLocalGenerator(); switch (statusForTarget(context->HeadTarget, policy)) { case cmPolicies::WARN: lg->IssueMessage( cmake::AUTHOR_WARNING, cmPolicies::GetPolicyWarning(policyForString(policy))); CM_FALLTHROUGH; case cmPolicies::REQUIRED_IF_USED: case cmPolicies::REQUIRED_ALWAYS: case cmPolicies::OLD: return "0"; case cmPolicies::NEW: return "1"; } } } reportError( context, content->GetOriginalExpression(), "$ may only be used with a limited number of " "policies. Currently it may be used with the following policies:\n" #define STRINGIFY_HELPER(X) #X #define STRINGIFY(X) STRINGIFY_HELPER(X) #define TARGET_POLICY_LIST_ITEM(POLICY) " * " STRINGIFY(POLICY) "\n" CM_FOR_EACH_TARGET_POLICY(TARGET_POLICY_LIST_ITEM) #undef TARGET_POLICY_LIST_ITEM ); return std::string(); } } targetPolicyNode; static const struct InstallPrefixNode : public cmGeneratorExpressionNode { InstallPrefixNode() {} bool GeneratesContent() const CM_OVERRIDE { return true; } int NumExpectedParameters() const CM_OVERRIDE { return 0; } std::string Evaluate(const std::vector& /*parameters*/, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { reportError(context, content->GetOriginalExpression(), "INSTALL_PREFIX is a marker for install(EXPORT) only. It " "should never be evaluated."); return std::string(); } } installPrefixNode; class ArtifactDirTag; class ArtifactLinkerTag; class ArtifactNameTag; class ArtifactPathTag; class ArtifactPdbTag; class ArtifactSonameTag; class ArtifactBundleDirTag; class ArtifactBundleContentDirTag; template struct TargetFilesystemArtifactResultCreator { static std::string Create(cmGeneratorTarget* target, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content); }; template <> struct TargetFilesystemArtifactResultCreator { static std::string Create(cmGeneratorTarget* target, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content) { // The target soname file (.so.1). if (target->IsDLLPlatform()) { ::reportError(context, content->GetOriginalExpression(), "TARGET_SONAME_FILE is not allowed " "for DLL target platforms."); return std::string(); } if (target->GetType() != cmStateEnums::SHARED_LIBRARY) { ::reportError(context, content->GetOriginalExpression(), "TARGET_SONAME_FILE is allowed only for " "SHARED libraries."); return std::string(); } std::string result = target->GetDirectory(context->Config); result += "/"; result += target->GetSOName(context->Config); return result; } }; template <> struct TargetFilesystemArtifactResultCreator { static std::string Create(cmGeneratorTarget* target, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content) { if (target->IsImported()) { ::reportError(context, content->GetOriginalExpression(), "TARGET_PDB_FILE not allowed for IMPORTED targets."); return std::string(); } std::string language = target->GetLinkerLanguage(context->Config); std::string pdbSupportVar = "CMAKE_" + language + "_LINKER_SUPPORTS_PDB"; if (!context->LG->GetMakefile()->IsOn(pdbSupportVar)) { ::reportError(context, content->GetOriginalExpression(), "TARGET_PDB_FILE is not supported by the target linker."); return std::string(); } cmStateEnums::TargetType targetType = target->GetType(); if (targetType != cmStateEnums::SHARED_LIBRARY && targetType != cmStateEnums::MODULE_LIBRARY && targetType != cmStateEnums::EXECUTABLE) { ::reportError(context, content->GetOriginalExpression(), "TARGET_PDB_FILE is allowed only for " "targets with linker created artifacts."); return std::string(); } std::string result = target->GetPDBDirectory(context->Config); result += "/"; result += target->GetPDBName(context->Config); return result; } }; template <> struct TargetFilesystemArtifactResultCreator { static std::string Create(cmGeneratorTarget* target, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content) { // The file used to link to the target (.so, .lib, .a). if (!target->IsLinkable()) { ::reportError(context, content->GetOriginalExpression(), "TARGET_LINKER_FILE is allowed only for libraries and " "executables with ENABLE_EXPORTS."); return std::string(); } cmStateEnums::ArtifactType artifact = target->HasImportLibrary() ? cmStateEnums::ImportLibraryArtifact : cmStateEnums::RuntimeBinaryArtifact; return target->GetFullPath(context->Config, artifact); } }; template <> struct TargetFilesystemArtifactResultCreator { static std::string Create(cmGeneratorTarget* target, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content) { if (target->IsImported()) { ::reportError(context, content->GetOriginalExpression(), "TARGET_BUNDLE_DIR not allowed for IMPORTED targets."); return std::string(); } if (!target->IsBundleOnApple()) { ::reportError(context, content->GetOriginalExpression(), "TARGET_BUNDLE_DIR is allowed only for Bundle targets."); return std::string(); } std::string outpath = target->GetDirectory(context->Config) + '/'; return target->BuildBundleDirectory(outpath, context->Config, cmGeneratorTarget::BundleDirLevel); } }; template <> struct TargetFilesystemArtifactResultCreator { static std::string Create(cmGeneratorTarget* target, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content) { if (target->IsImported()) { ::reportError( context, content->GetOriginalExpression(), "TARGET_BUNDLE_CONTENT_DIR not allowed for IMPORTED targets."); return std::string(); } if (!target->IsBundleOnApple()) { ::reportError( context, content->GetOriginalExpression(), "TARGET_BUNDLE_CONTENT_DIR is allowed only for Bundle targets."); return std::string(); } std::string outpath = target->GetDirectory(context->Config) + '/'; return target->BuildBundleDirectory(outpath, context->Config, cmGeneratorTarget::ContentLevel); } }; template <> struct TargetFilesystemArtifactResultCreator { static std::string Create(cmGeneratorTarget* target, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* /*unused*/) { return target->GetFullPath(context->Config, cmStateEnums::RuntimeBinaryArtifact, true); } }; template struct TargetFilesystemArtifactResultGetter { static std::string Get(const std::string& result); }; template <> struct TargetFilesystemArtifactResultGetter { static std::string Get(const std::string& result) { return cmSystemTools::GetFilenameName(result); } }; template <> struct TargetFilesystemArtifactResultGetter { static std::string Get(const std::string& result) { return cmSystemTools::GetFilenamePath(result); } }; template <> struct TargetFilesystemArtifactResultGetter { static std::string Get(const std::string& result) { return result; } }; template struct TargetFilesystemArtifact : public cmGeneratorExpressionNode { TargetFilesystemArtifact() {} int NumExpectedParameters() const CM_OVERRIDE { return 1; } std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* dagChecker) const CM_OVERRIDE { // Lookup the referenced target. std::string name = *parameters.begin(); if (!cmGeneratorExpression::IsValidTargetName(name)) { ::reportError(context, content->GetOriginalExpression(), "Expression syntax not recognized."); return std::string(); } cmGeneratorTarget* target = context->LG->FindGeneratorTargetToUse(name); if (!target) { ::reportError(context, content->GetOriginalExpression(), "No target \"" + name + "\""); return std::string(); } if (target->GetType() >= cmStateEnums::OBJECT_LIBRARY && target->GetType() != cmStateEnums::UNKNOWN_LIBRARY) { ::reportError(context, content->GetOriginalExpression(), "Target \"" + name + "\" is not an executable or library."); return std::string(); } if (dagChecker && (dagChecker->EvaluatingLinkLibraries(name.c_str()) || (dagChecker->EvaluatingSources() && name == dagChecker->TopTarget()))) { ::reportError(context, content->GetOriginalExpression(), "Expressions which require the linker language may not " "be used while evaluating link libraries"); return std::string(); } context->DependTargets.insert(target); context->AllTargets.insert(target); std::string result = TargetFilesystemArtifactResultCreator::Create(target, context, content); if (context->HadError) { return std::string(); } return TargetFilesystemArtifactResultGetter::Get(result); } }; template struct TargetFilesystemArtifactNodeGroup { TargetFilesystemArtifactNodeGroup() {} TargetFilesystemArtifact File; TargetFilesystemArtifact FileName; TargetFilesystemArtifact FileDir; }; static const TargetFilesystemArtifactNodeGroup targetNodeGroup; static const TargetFilesystemArtifactNodeGroup targetLinkerNodeGroup; static const TargetFilesystemArtifactNodeGroup targetSoNameNodeGroup; static const TargetFilesystemArtifactNodeGroup targetPdbNodeGroup; static const TargetFilesystemArtifact targetBundleDirNode; static const TargetFilesystemArtifact targetBundleContentDirNode; static const struct ShellPathNode : public cmGeneratorExpressionNode { ShellPathNode() {} std::string Evaluate(const std::vector& parameters, cmGeneratorExpressionContext* context, const GeneratorExpressionContent* content, cmGeneratorExpressionDAGChecker* /*dagChecker*/) const CM_OVERRIDE { if (!cmSystemTools::FileIsFullPath(parameters.front())) { reportError(context, content->GetOriginalExpression(), "\"" + parameters.front() + "\" is not an absolute path."); return std::string(); } cmOutputConverter converter(context->LG->GetStateSnapshot()); return converter.ConvertDirectorySeparatorsForShell(parameters.front()); } } shellPathNode; const cmGeneratorExpressionNode* cmGeneratorExpressionNode::GetNode( const std::string& identifier) { typedef std::map NodeMap; static NodeMap nodeMap; if (nodeMap.empty()) { nodeMap["0"] = &zeroNode; nodeMap["1"] = &oneNode; nodeMap["AND"] = &andNode; nodeMap["OR"] = &orNode; nodeMap["NOT"] = ¬Node; nodeMap["C_COMPILER_ID"] = &cCompilerIdNode; nodeMap["CXX_COMPILER_ID"] = &cxxCompilerIdNode; nodeMap["VERSION_GREATER"] = &versionGreaterNode; nodeMap["VERSION_GREATER_EQUAL"] = &versionGreaterEqNode; nodeMap["VERSION_LESS"] = &versionLessNode; nodeMap["VERSION_LESS_EQUAL"] = &versionLessEqNode; nodeMap["VERSION_EQUAL"] = &versionEqualNode; nodeMap["C_COMPILER_VERSION"] = &cCompilerVersionNode; nodeMap["CXX_COMPILER_VERSION"] = &cxxCompilerVersionNode; nodeMap["PLATFORM_ID"] = &platformIdNode; nodeMap["COMPILE_FEATURES"] = &compileFeaturesNode; nodeMap["CONFIGURATION"] = &configurationNode; nodeMap["CONFIG"] = &configurationTestNode; nodeMap["TARGET_FILE"] = &targetNodeGroup.File; nodeMap["TARGET_LINKER_FILE"] = &targetLinkerNodeGroup.File; nodeMap["TARGET_SONAME_FILE"] = &targetSoNameNodeGroup.File; nodeMap["TARGET_PDB_FILE"] = &targetPdbNodeGroup.File; nodeMap["TARGET_FILE_NAME"] = &targetNodeGroup.FileName; nodeMap["TARGET_LINKER_FILE_NAME"] = &targetLinkerNodeGroup.FileName; nodeMap["TARGET_SONAME_FILE_NAME"] = &targetSoNameNodeGroup.FileName; nodeMap["TARGET_PDB_FILE_NAME"] = &targetPdbNodeGroup.FileName; nodeMap["TARGET_FILE_DIR"] = &targetNodeGroup.FileDir; nodeMap["TARGET_LINKER_FILE_DIR"] = &targetLinkerNodeGroup.FileDir; nodeMap["TARGET_SONAME_FILE_DIR"] = &targetSoNameNodeGroup.FileDir; nodeMap["TARGET_PDB_FILE_DIR"] = &targetPdbNodeGroup.FileDir; nodeMap["TARGET_BUNDLE_DIR"] = &targetBundleDirNode; nodeMap["TARGET_BUNDLE_CONTENT_DIR"] = &targetBundleContentDirNode; nodeMap["STREQUAL"] = &strEqualNode; nodeMap["EQUAL"] = &equalNode; nodeMap["LOWER_CASE"] = &lowerCaseNode; nodeMap["UPPER_CASE"] = &upperCaseNode; nodeMap["MAKE_C_IDENTIFIER"] = &makeCIdentifierNode; nodeMap["BOOL"] = &boolNode; nodeMap["IF"] = &ifNode; nodeMap["ANGLE-R"] = &angle_rNode; nodeMap["COMMA"] = &commaNode; nodeMap["SEMICOLON"] = &semicolonNode; nodeMap["TARGET_PROPERTY"] = &targetPropertyNode; nodeMap["TARGET_NAME"] = &targetNameNode; nodeMap["TARGET_OBJECTS"] = &targetObjectsNode; nodeMap["TARGET_POLICY"] = &targetPolicyNode; nodeMap["BUILD_INTERFACE"] = &buildInterfaceNode; nodeMap["INSTALL_INTERFACE"] = &installInterfaceNode; nodeMap["INSTALL_PREFIX"] = &installPrefixNode; nodeMap["JOIN"] = &joinNode; nodeMap["LINK_ONLY"] = &linkOnlyNode; nodeMap["COMPILE_LANGUAGE"] = &languageNode; nodeMap["SHELL_PATH"] = &shellPathNode; } NodeMap::const_iterator i = nodeMap.find(identifier); if (i == nodeMap.end()) { return nullptr; } return i->second; } void reportError(cmGeneratorExpressionContext* context, const std::string& expr, const std::string& result) { context->HadError = true; if (context->Quiet) { return; } std::ostringstream e; /* clang-format off */ e << "Error evaluating generator expression:\n" << " " << expr << "\n" << result; /* clang-format on */ context->LG->GetCMakeInstance()->IssueMessage(cmake::FATAL_ERROR, e.str(), context->Backtrace); }