https://github.com/Kitware/CMake
Tip revision: fed67fa40d7b6e34ee7c8565694bd54af61aed73 authored by Brad King on 12 November 2021, 14:15:07 UTC
CMake 3.22.0-rc3
CMake 3.22.0-rc3
Tip revision: fed67fa
cmGeneratorTarget.cxx
/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
file Copyright.txt or https://cmake.org/licensing for details. */
#include "cmGeneratorTarget.h"
#include <algorithm>
#include <cassert>
#include <cerrno>
#include <cstddef>
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <iterator>
#include <queue>
#include <sstream>
#include <unordered_set>
#include <utility>
#include <cm/memory>
#include <cm/string_view>
#include <cmext/algorithm>
#include <cmext/string_view>
#include "cmsys/RegularExpression.hxx"
#include "cmAlgorithms.h"
#include "cmComputeLinkInformation.h"
#include "cmCustomCommandGenerator.h"
#include "cmFileTimes.h"
#include "cmGeneratedFileStream.h"
#include "cmGeneratorExpression.h"
#include "cmGeneratorExpressionContext.h"
#include "cmGeneratorExpressionDAGChecker.h"
#include "cmGeneratorExpressionNode.h"
#include "cmGlobalGenerator.h"
#include "cmLocalGenerator.h"
#include "cmMakefile.h"
#include "cmMessageType.h"
#include "cmOutputConverter.h"
#include "cmPropertyMap.h"
#include "cmRange.h"
#include "cmSourceFile.h"
#include "cmSourceFileLocation.h"
#include "cmSourceFileLocationKind.h"
#include "cmStandardLevelResolver.h"
#include "cmState.h"
#include "cmStringAlgorithms.h"
#include "cmSystemTools.h"
#include "cmTarget.h"
#include "cmTargetLinkLibraryType.h"
#include "cmTargetPropertyComputer.h"
#include "cmake.h"
class cmMessenger;
namespace {
const cmsys::RegularExpression FrameworkRegularExpression(
"^(.*/)?([^/]*)\\.framework/(.*)$");
}
template <>
cmValue cmTargetPropertyComputer::GetSources<cmGeneratorTarget>(
cmGeneratorTarget const* tgt, cmMessenger* /* messenger */,
cmListFileBacktrace const& /* context */)
{
return tgt->GetSourcesProperty();
}
template <>
const std::string&
cmTargetPropertyComputer::ComputeLocationForBuild<cmGeneratorTarget>(
cmGeneratorTarget const* tgt)
{
return tgt->GetLocation("");
}
template <>
const std::string&
cmTargetPropertyComputer::ComputeLocation<cmGeneratorTarget>(
cmGeneratorTarget const* tgt, const std::string& config)
{
return tgt->GetLocation(config);
}
class cmGeneratorTarget::TargetPropertyEntry
{
protected:
static cmLinkImplItem NoLinkImplItem;
public:
TargetPropertyEntry(cmLinkImplItem const& item)
: LinkImplItem(item)
{
}
virtual ~TargetPropertyEntry() = default;
virtual const std::string& Evaluate(
cmLocalGenerator* lg, const std::string& config,
cmGeneratorTarget const* headTarget,
cmGeneratorExpressionDAGChecker* dagChecker,
std::string const& language) const = 0;
virtual cmListFileBacktrace GetBacktrace() const = 0;
virtual std::string const& GetInput() const = 0;
virtual bool GetHadContextSensitiveCondition() const { return false; }
cmLinkImplItem const& LinkImplItem;
};
cmLinkImplItem cmGeneratorTarget::TargetPropertyEntry::NoLinkImplItem;
class TargetPropertyEntryGenex : public cmGeneratorTarget::TargetPropertyEntry
{
public:
TargetPropertyEntryGenex(std::unique_ptr<cmCompiledGeneratorExpression> cge,
cmLinkImplItem const& item = NoLinkImplItem)
: cmGeneratorTarget::TargetPropertyEntry(item)
, ge(std::move(cge))
{
}
const std::string& Evaluate(cmLocalGenerator* lg, const std::string& config,
cmGeneratorTarget const* headTarget,
cmGeneratorExpressionDAGChecker* dagChecker,
std::string const& language) const override
{
return this->ge->Evaluate(lg, config, headTarget, dagChecker, nullptr,
language);
}
cmListFileBacktrace GetBacktrace() const override
{
return this->ge->GetBacktrace();
}
std::string const& GetInput() const override { return this->ge->GetInput(); }
bool GetHadContextSensitiveCondition() const override
{
return this->ge->GetHadContextSensitiveCondition();
}
private:
const std::unique_ptr<cmCompiledGeneratorExpression> ge;
};
class TargetPropertyEntryString : public cmGeneratorTarget::TargetPropertyEntry
{
public:
TargetPropertyEntryString(BT<std::string> propertyValue,
cmLinkImplItem const& item = NoLinkImplItem)
: cmGeneratorTarget::TargetPropertyEntry(item)
, PropertyValue(std::move(propertyValue))
{
}
const std::string& Evaluate(cmLocalGenerator*, const std::string&,
cmGeneratorTarget const*,
cmGeneratorExpressionDAGChecker*,
std::string const&) const override
{
return this->PropertyValue.Value;
}
cmListFileBacktrace GetBacktrace() const override
{
return this->PropertyValue.Backtrace;
}
std::string const& GetInput() const override
{
return this->PropertyValue.Value;
}
private:
BT<std::string> PropertyValue;
};
std::unique_ptr<cmGeneratorTarget::TargetPropertyEntry>
CreateTargetPropertyEntry(const BT<std::string>& propertyValue,
bool evaluateForBuildsystem = false)
{
if (cmGeneratorExpression::Find(propertyValue.Value) != std::string::npos) {
cmGeneratorExpression ge(propertyValue.Backtrace);
std::unique_ptr<cmCompiledGeneratorExpression> cge =
ge.Parse(propertyValue.Value);
cge->SetEvaluateForBuildsystem(evaluateForBuildsystem);
return std::unique_ptr<cmGeneratorTarget::TargetPropertyEntry>(
cm::make_unique<TargetPropertyEntryGenex>(std::move(cge)));
}
return std::unique_ptr<cmGeneratorTarget::TargetPropertyEntry>(
cm::make_unique<TargetPropertyEntryString>(propertyValue));
}
void CreatePropertyGeneratorExpressions(
cmBTStringRange entries,
std::vector<std::unique_ptr<cmGeneratorTarget::TargetPropertyEntry>>& items,
bool evaluateForBuildsystem = false)
{
for (auto const& entry : entries) {
items.push_back(CreateTargetPropertyEntry(entry, evaluateForBuildsystem));
}
}
namespace {
// Represent a target property entry after evaluating generator expressions
// and splitting up lists.
struct EvaluatedTargetPropertyEntry
{
EvaluatedTargetPropertyEntry(cmLinkImplItem const& item,
cmListFileBacktrace bt)
: LinkImplItem(item)
, Backtrace(std::move(bt))
{
}
// Move-only.
EvaluatedTargetPropertyEntry(EvaluatedTargetPropertyEntry&&) = default;
EvaluatedTargetPropertyEntry(EvaluatedTargetPropertyEntry const&) = delete;
EvaluatedTargetPropertyEntry& operator=(EvaluatedTargetPropertyEntry&&) =
delete;
EvaluatedTargetPropertyEntry& operator=(
EvaluatedTargetPropertyEntry const&) = delete;
cmLinkImplItem const& LinkImplItem;
cmListFileBacktrace Backtrace;
std::vector<std::string> Values;
bool ContextDependent = false;
};
EvaluatedTargetPropertyEntry EvaluateTargetPropertyEntry(
cmGeneratorTarget const* thisTarget, std::string const& config,
std::string const& lang, cmGeneratorExpressionDAGChecker* dagChecker,
cmGeneratorTarget::TargetPropertyEntry& entry)
{
EvaluatedTargetPropertyEntry ee(entry.LinkImplItem, entry.GetBacktrace());
cmExpandList(entry.Evaluate(thisTarget->GetLocalGenerator(), config,
thisTarget, dagChecker, lang),
ee.Values);
if (entry.GetHadContextSensitiveCondition()) {
ee.ContextDependent = true;
}
return ee;
}
struct EvaluatedTargetPropertyEntries
{
std::vector<EvaluatedTargetPropertyEntry> Entries;
bool HadContextSensitiveCondition = false;
};
EvaluatedTargetPropertyEntries EvaluateTargetPropertyEntries(
cmGeneratorTarget const* thisTarget, std::string const& config,
std::string const& lang, cmGeneratorExpressionDAGChecker* dagChecker,
std::vector<std::unique_ptr<cmGeneratorTarget::TargetPropertyEntry>> const&
in)
{
EvaluatedTargetPropertyEntries out;
out.Entries.reserve(in.size());
for (auto const& entry : in) {
out.Entries.emplace_back(EvaluateTargetPropertyEntry(
thisTarget, config, lang, dagChecker, *entry));
}
return out;
}
}
cmGeneratorTarget::cmGeneratorTarget(cmTarget* t, cmLocalGenerator* lg)
: Target(t)
, FortranModuleDirectoryCreated(false)
, SourceFileFlagsConstructed(false)
, PolicyWarnedCMP0022(false)
, PolicyReportedCMP0069(false)
, DebugIncludesDone(false)
, DebugCompileOptionsDone(false)
, DebugCompileFeaturesDone(false)
, DebugCompileDefinitionsDone(false)
, DebugLinkOptionsDone(false)
, DebugLinkDirectoriesDone(false)
, DebugPrecompileHeadersDone(false)
, DebugSourcesDone(false)
, UtilityItemsDone(false)
, SourcesAreContextDependent(Tribool::Indeterminate)
{
this->Makefile = this->Target->GetMakefile();
this->LocalGenerator = lg;
this->GlobalGenerator = this->LocalGenerator->GetGlobalGenerator();
this->GlobalGenerator->ComputeTargetObjectDirectory(this);
CreatePropertyGeneratorExpressions(t->GetIncludeDirectoriesEntries(),
this->IncludeDirectoriesEntries);
CreatePropertyGeneratorExpressions(t->GetCompileOptionsEntries(),
this->CompileOptionsEntries);
CreatePropertyGeneratorExpressions(t->GetCompileFeaturesEntries(),
this->CompileFeaturesEntries);
CreatePropertyGeneratorExpressions(t->GetCompileDefinitionsEntries(),
this->CompileDefinitionsEntries);
CreatePropertyGeneratorExpressions(t->GetLinkOptionsEntries(),
this->LinkOptionsEntries);
CreatePropertyGeneratorExpressions(t->GetLinkDirectoriesEntries(),
this->LinkDirectoriesEntries);
CreatePropertyGeneratorExpressions(t->GetPrecompileHeadersEntries(),
this->PrecompileHeadersEntries);
CreatePropertyGeneratorExpressions(t->GetSourceEntries(),
this->SourceEntries, true);
this->PolicyMap = t->GetPolicyMap();
// Get hard-coded linker language
if (this->Target->GetProperty("HAS_CXX")) {
this->LinkerLanguage = "CXX";
} else {
this->LinkerLanguage = this->Target->GetSafeProperty("LINKER_LANGUAGE");
}
}
cmGeneratorTarget::~cmGeneratorTarget() = default;
cmValue cmGeneratorTarget::GetSourcesProperty() const
{
std::vector<std::string> values;
for (auto const& se : this->SourceEntries) {
values.push_back(se->GetInput());
}
static std::string value;
value.clear();
value = cmJoin(values, ";");
return cmValue(value);
}
cmGlobalGenerator* cmGeneratorTarget::GetGlobalGenerator() const
{
return this->GetLocalGenerator()->GetGlobalGenerator();
}
cmLocalGenerator* cmGeneratorTarget::GetLocalGenerator() const
{
return this->LocalGenerator;
}
cmStateEnums::TargetType cmGeneratorTarget::GetType() const
{
return this->Target->GetType();
}
const std::string& cmGeneratorTarget::GetName() const
{
return this->Target->GetName();
}
std::string cmGeneratorTarget::GetExportName() const
{
cmValue exportName = this->GetProperty("EXPORT_NAME");
if (cmNonempty(exportName)) {
if (!cmGeneratorExpression::IsValidTargetName(*exportName)) {
std::ostringstream e;
e << "EXPORT_NAME property \"" << *exportName << "\" for \""
<< this->GetName() << "\": is not valid.";
cmSystemTools::Error(e.str());
return "";
}
return *exportName;
}
return this->GetName();
}
cmValue cmGeneratorTarget::GetProperty(const std::string& prop) const
{
if (cmValue result = cmTargetPropertyComputer::GetProperty(
this, prop, this->Makefile->GetMessenger(), this->GetBacktrace())) {
return result;
}
if (cmSystemTools::GetFatalErrorOccured()) {
return nullptr;
}
return this->Target->GetProperty(prop);
}
std::string const& cmGeneratorTarget::GetSafeProperty(
std::string const& prop) const
{
return this->GetProperty(prop);
}
const char* cmGeneratorTarget::GetOutputTargetType(
cmStateEnums::ArtifactType artifact) const
{
switch (this->GetType()) {
case cmStateEnums::SHARED_LIBRARY:
if (this->IsDLLPlatform()) {
switch (artifact) {
case cmStateEnums::RuntimeBinaryArtifact:
// A DLL shared library is treated as a runtime target.
return "RUNTIME";
case cmStateEnums::ImportLibraryArtifact:
// A DLL import library is treated as an archive target.
return "ARCHIVE";
}
} else {
// For non-DLL platforms shared libraries are treated as
// library targets.
return "LIBRARY";
}
break;
case cmStateEnums::STATIC_LIBRARY:
// Static libraries are always treated as archive targets.
return "ARCHIVE";
case cmStateEnums::MODULE_LIBRARY:
switch (artifact) {
case cmStateEnums::RuntimeBinaryArtifact:
// Module libraries are always treated as library targets.
return "LIBRARY";
case cmStateEnums::ImportLibraryArtifact:
// Module import libraries are treated as archive targets.
return "ARCHIVE";
}
break;
case cmStateEnums::OBJECT_LIBRARY:
// Object libraries are always treated as object targets.
return "OBJECT";
case cmStateEnums::EXECUTABLE:
switch (artifact) {
case cmStateEnums::RuntimeBinaryArtifact:
// Executables are always treated as runtime targets.
return "RUNTIME";
case cmStateEnums::ImportLibraryArtifact:
// Executable import libraries are treated as archive targets.
return "ARCHIVE";
}
break;
default:
break;
}
return "";
}
std::string cmGeneratorTarget::GetOutputName(
const std::string& config, cmStateEnums::ArtifactType artifact) const
{
// Lookup/compute/cache the output name for this configuration.
OutputNameKey key(config, artifact);
auto i = this->OutputNameMap.find(key);
if (i == this->OutputNameMap.end()) {
// Add empty name in map to detect potential recursion.
OutputNameMapType::value_type entry(key, "");
i = this->OutputNameMap.insert(entry).first;
// Compute output name.
std::vector<std::string> props;
std::string type = this->GetOutputTargetType(artifact);
std::string configUpper = cmSystemTools::UpperCase(config);
if (!type.empty() && !configUpper.empty()) {
// <ARCHIVE|LIBRARY|RUNTIME>_OUTPUT_NAME_<CONFIG>
props.push_back(type + "_OUTPUT_NAME_" + configUpper);
}
if (!type.empty()) {
// <ARCHIVE|LIBRARY|RUNTIME>_OUTPUT_NAME
props.push_back(type + "_OUTPUT_NAME");
}
if (!configUpper.empty()) {
// OUTPUT_NAME_<CONFIG>
props.push_back("OUTPUT_NAME_" + configUpper);
// <CONFIG>_OUTPUT_NAME
props.push_back(configUpper + "_OUTPUT_NAME");
}
// OUTPUT_NAME
props.emplace_back("OUTPUT_NAME");
std::string outName;
for (std::string const& p : props) {
if (cmValue outNameProp = this->GetProperty(p)) {
outName = *outNameProp;
break;
}
}
if (outName.empty()) {
outName = this->GetName();
}
// Now evaluate genex and update the previously-prepared map entry.
i->second =
cmGeneratorExpression::Evaluate(outName, this->LocalGenerator, config);
} else if (i->second.empty()) {
// An empty map entry indicates we have been called recursively
// from the above block.
this->LocalGenerator->GetCMakeInstance()->IssueMessage(
MessageType::FATAL_ERROR,
"Target '" + this->GetName() + "' OUTPUT_NAME depends on itself.",
this->GetBacktrace());
}
return i->second;
}
std::string cmGeneratorTarget::GetFilePrefix(
const std::string& config, cmStateEnums::ArtifactType artifact) const
{
if (this->IsImported()) {
cmValue prefix = this->GetFilePrefixInternal(config, artifact);
return prefix ? *prefix : std::string();
}
std::string prefix;
std::string suffix;
std::string base;
this->GetFullNameInternal(config, artifact, prefix, base, suffix);
return prefix;
}
std::string cmGeneratorTarget::GetFileSuffix(
const std::string& config, cmStateEnums::ArtifactType artifact) const
{
if (this->IsImported()) {
cmValue suffix = this->GetFileSuffixInternal(config, artifact);
return suffix ? *suffix : std::string();
}
std::string prefix;
std::string suffix;
std::string base;
this->GetFullNameInternal(config, artifact, prefix, base, suffix);
return suffix;
}
std::string cmGeneratorTarget::GetFilePostfix(const std::string& config) const
{
cmValue postfix = nullptr;
std::string frameworkPostfix;
if (!config.empty()) {
std::string configProp =
cmStrCat(cmSystemTools::UpperCase(config), "_POSTFIX");
postfix = this->GetProperty(configProp);
// Mac application bundles and frameworks have no regular postfix like
// libraries do.
if (!this->IsImported() && postfix &&
(this->IsAppBundleOnApple() || this->IsFrameworkOnApple())) {
postfix = nullptr;
}
// Frameworks created by multi config generators can have a special
// framework postfix.
frameworkPostfix = this->GetFrameworkMultiConfigPostfix(config);
if (!frameworkPostfix.empty()) {
postfix = cmValue(frameworkPostfix);
}
}
return postfix ? *postfix : std::string();
}
std::string cmGeneratorTarget::GetFrameworkMultiConfigPostfix(
const std::string& config) const
{
cmValue postfix = nullptr;
if (!config.empty()) {
std::string configProp = cmStrCat("FRAMEWORK_MULTI_CONFIG_POSTFIX_",
cmSystemTools::UpperCase(config));
postfix = this->GetProperty(configProp);
if (!this->IsImported() && postfix &&
(this->IsFrameworkOnApple() &&
!this->GetGlobalGenerator()->IsMultiConfig())) {
postfix = nullptr;
}
}
return postfix ? *postfix : std::string();
}
cmValue cmGeneratorTarget::GetFilePrefixInternal(
std::string const& config, cmStateEnums::ArtifactType artifact,
const std::string& language) const
{
// no prefix for non-main target types.
if (this->GetType() != cmStateEnums::STATIC_LIBRARY &&
this->GetType() != cmStateEnums::SHARED_LIBRARY &&
this->GetType() != cmStateEnums::MODULE_LIBRARY &&
this->GetType() != cmStateEnums::EXECUTABLE) {
return nullptr;
}
const bool isImportedLibraryArtifact =
(artifact == cmStateEnums::ImportLibraryArtifact);
// Return an empty prefix for the import library if this platform
// does not support import libraries.
if (isImportedLibraryArtifact && !this->NeedImportLibraryName(config)) {
return nullptr;
}
// The implib option is only allowed for shared libraries, module
// libraries, and executables.
if (this->GetType() != cmStateEnums::SHARED_LIBRARY &&
this->GetType() != cmStateEnums::MODULE_LIBRARY &&
this->GetType() != cmStateEnums::EXECUTABLE) {
artifact = cmStateEnums::RuntimeBinaryArtifact;
}
// Compute prefix value.
cmValue targetPrefix =
(isImportedLibraryArtifact ? this->GetProperty("IMPORT_PREFIX")
: this->GetProperty("PREFIX"));
if (!targetPrefix) {
const char* prefixVar = this->Target->GetPrefixVariableInternal(artifact);
if (!language.empty() && cmNonempty(prefixVar)) {
std::string langPrefix = cmStrCat(prefixVar, "_", language);
targetPrefix = this->Makefile->GetDefinition(langPrefix);
}
// if there is no prefix on the target nor specific language
// use the cmake definition.
if (!targetPrefix && prefixVar) {
targetPrefix = this->Makefile->GetDefinition(prefixVar);
}
}
return targetPrefix;
}
cmValue cmGeneratorTarget::GetFileSuffixInternal(
std::string const& config, cmStateEnums::ArtifactType artifact,
const std::string& language) const
{
// no suffix for non-main target types.
if (this->GetType() != cmStateEnums::STATIC_LIBRARY &&
this->GetType() != cmStateEnums::SHARED_LIBRARY &&
this->GetType() != cmStateEnums::MODULE_LIBRARY &&
this->GetType() != cmStateEnums::EXECUTABLE) {
return nullptr;
}
const bool isImportedLibraryArtifact =
(artifact == cmStateEnums::ImportLibraryArtifact);
// Return an empty suffix for the import library if this platform
// does not support import libraries.
if (isImportedLibraryArtifact && !this->NeedImportLibraryName(config)) {
return nullptr;
}
// The implib option is only allowed for shared libraries, module
// libraries, and executables.
if (this->GetType() != cmStateEnums::SHARED_LIBRARY &&
this->GetType() != cmStateEnums::MODULE_LIBRARY &&
this->GetType() != cmStateEnums::EXECUTABLE) {
artifact = cmStateEnums::RuntimeBinaryArtifact;
}
// Compute suffix value.
cmValue targetSuffix =
(isImportedLibraryArtifact ? this->GetProperty("IMPORT_SUFFIX")
: this->GetProperty("SUFFIX"));
if (!targetSuffix) {
const char* suffixVar = this->Target->GetSuffixVariableInternal(artifact);
if (!language.empty() && cmNonempty(suffixVar)) {
std::string langSuffix = cmStrCat(suffixVar, "_", language);
targetSuffix = this->Makefile->GetDefinition(langSuffix);
}
// if there is no suffix on the target nor specific language
// use the cmake definition.
if (!targetSuffix && suffixVar) {
targetSuffix = this->Makefile->GetDefinition(suffixVar);
}
}
return targetSuffix;
}
void cmGeneratorTarget::ClearSourcesCache()
{
this->AllConfigSources.clear();
this->KindedSourcesMap.clear();
this->SourcesAreContextDependent = Tribool::Indeterminate;
this->Objects.clear();
this->VisitedConfigsForObjects.clear();
this->LinkImplMap.clear();
}
void cmGeneratorTarget::AddSourceCommon(const std::string& src, bool before)
{
this->SourceEntries.insert(
before ? this->SourceEntries.begin() : this->SourceEntries.end(),
CreateTargetPropertyEntry(
BT<std::string>(src, this->Makefile->GetBacktrace()), true));
this->ClearSourcesCache();
}
void cmGeneratorTarget::AddSource(const std::string& src, bool before)
{
this->Target->AddSource(src, before);
this->AddSourceCommon(src, before);
}
void cmGeneratorTarget::AddTracedSources(std::vector<std::string> const& srcs)
{
this->Target->AddTracedSources(srcs);
if (!srcs.empty()) {
this->AddSourceCommon(cmJoin(srcs, ";"));
}
}
void cmGeneratorTarget::AddIncludeDirectory(const std::string& src,
bool before)
{
this->Target->InsertInclude(
BT<std::string>(src, this->Makefile->GetBacktrace()), before);
this->IncludeDirectoriesEntries.insert(
before ? this->IncludeDirectoriesEntries.begin()
: this->IncludeDirectoriesEntries.end(),
CreateTargetPropertyEntry(
BT<std::string>(src, this->Makefile->GetBacktrace()), true));
}
std::vector<cmSourceFile*> const* cmGeneratorTarget::GetSourceDepends(
cmSourceFile const* sf) const
{
auto i = this->SourceDepends.find(sf);
if (i != this->SourceDepends.end()) {
return &i->second.Depends;
}
return nullptr;
}
namespace {
void handleSystemIncludesDep(cmLocalGenerator* lg,
cmGeneratorTarget const* depTgt,
const std::string& config,
cmGeneratorTarget const* headTarget,
cmGeneratorExpressionDAGChecker* dagChecker,
std::vector<std::string>& result,
bool excludeImported, std::string const& language)
{
if (cmValue dirs =
depTgt->GetProperty("INTERFACE_SYSTEM_INCLUDE_DIRECTORIES")) {
cmExpandList(cmGeneratorExpression::Evaluate(*dirs, lg, config, headTarget,
dagChecker, depTgt, language),
result);
}
if (!depTgt->IsImported() || excludeImported) {
return;
}
if (cmValue dirs = depTgt->GetProperty("INTERFACE_INCLUDE_DIRECTORIES")) {
cmExpandList(cmGeneratorExpression::Evaluate(*dirs, lg, config, headTarget,
dagChecker, depTgt, language),
result);
}
}
}
/* clang-format off */
#define IMPLEMENT_VISIT(KIND) \
do { \
KindedSources const& kinded = this->GetKindedSources(config); \
for (SourceAndKind const& s : kinded.Sources) { \
if (s.Kind == KIND) { \
data.push_back(s.Source.Value); \
} \
} \
} while (false)
/* clang-format on */
void cmGeneratorTarget::GetObjectSources(
std::vector<cmSourceFile const*>& data, const std::string& config) const
{
IMPLEMENT_VISIT(SourceKindObjectSource);
if (this->VisitedConfigsForObjects.count(config)) {
return;
}
for (cmSourceFile const* it : data) {
this->Objects[it];
}
this->LocalGenerator->ComputeObjectFilenames(this->Objects, this);
this->VisitedConfigsForObjects.insert(config);
}
void cmGeneratorTarget::ComputeObjectMapping()
{
auto const& configs =
this->Makefile->GetGeneratorConfigs(cmMakefile::IncludeEmptyConfig);
std::set<std::string> configSet(configs.begin(), configs.end());
if (configSet == this->VisitedConfigsForObjects) {
return;
}
for (std::string const& c : configs) {
std::vector<cmSourceFile const*> sourceFiles;
this->GetObjectSources(sourceFiles, c);
}
}
cmValue cmGeneratorTarget::GetFeature(const std::string& feature,
const std::string& config) const
{
if (!config.empty()) {
std::string featureConfig =
cmStrCat(feature, '_', cmSystemTools::UpperCase(config));
if (cmValue value = this->GetProperty(featureConfig)) {
return value;
}
}
if (cmValue value = this->GetProperty(feature)) {
return value;
}
return this->LocalGenerator->GetFeature(feature, config);
}
const char* cmGeneratorTarget::GetLinkPIEProperty(
const std::string& config) const
{
static std::string PICValue;
PICValue = this->GetLinkInterfaceDependentStringAsBoolProperty(
"POSITION_INDEPENDENT_CODE", config);
if (PICValue == "(unset)") {
// POSITION_INDEPENDENT_CODE is not set
return nullptr;
}
auto status = this->GetPolicyStatusCMP0083();
return (status != cmPolicies::WARN && status != cmPolicies::OLD)
? PICValue.c_str()
: nullptr;
}
bool cmGeneratorTarget::IsIPOEnabled(std::string const& lang,
std::string const& config) const
{
cmValue feature = this->GetFeature("INTERPROCEDURAL_OPTIMIZATION", config);
if (!cmIsOn(feature)) {
// 'INTERPROCEDURAL_OPTIMIZATION' is off, no need to check policies
return false;
}
if (lang != "C" && lang != "CXX" && lang != "Fortran") {
// We do not define IPO behavior for other languages.
return false;
}
cmPolicies::PolicyStatus cmp0069 = this->GetPolicyStatusCMP0069();
if (cmp0069 == cmPolicies::OLD || cmp0069 == cmPolicies::WARN) {
if (this->Makefile->IsOn("_CMAKE_" + lang + "_IPO_LEGACY_BEHAVIOR")) {
return true;
}
if (this->PolicyReportedCMP0069) {
// problem is already reported, no need to issue a message
return false;
}
const bool in_try_compile =
this->LocalGenerator->GetCMakeInstance()->GetIsInTryCompile();
if (cmp0069 == cmPolicies::WARN && !in_try_compile) {
std::ostringstream w;
w << cmPolicies::GetPolicyWarning(cmPolicies::CMP0069) << "\n";
w << "INTERPROCEDURAL_OPTIMIZATION property will be ignored for target "
<< "'" << this->GetName() << "'.";
this->LocalGenerator->GetCMakeInstance()->IssueMessage(
MessageType::AUTHOR_WARNING, w.str(), this->GetBacktrace());
this->PolicyReportedCMP0069 = true;
}
return false;
}
// Note: check consistency with messages from CheckIPOSupported
const char* message = nullptr;
if (!this->Makefile->IsOn("_CMAKE_" + lang + "_IPO_SUPPORTED_BY_CMAKE")) {
message = "CMake doesn't support IPO for current compiler";
} else if (!this->Makefile->IsOn("_CMAKE_" + lang +
"_IPO_MAY_BE_SUPPORTED_BY_COMPILER")) {
message = "Compiler doesn't support IPO";
} else if (!this->GlobalGenerator->IsIPOSupported()) {
message = "CMake doesn't support IPO for current generator";
}
if (!message) {
// No error/warning messages
return true;
}
if (this->PolicyReportedCMP0069) {
// problem is already reported, no need to issue a message
return false;
}
this->PolicyReportedCMP0069 = true;
this->LocalGenerator->GetCMakeInstance()->IssueMessage(
MessageType::FATAL_ERROR, message, this->GetBacktrace());
return false;
}
const std::string& cmGeneratorTarget::GetObjectName(cmSourceFile const* file)
{
this->ComputeObjectMapping();
return this->Objects[file];
}
const char* cmGeneratorTarget::GetCustomObjectExtension() const
{
static std::string extension;
const bool has_ptx_extension =
this->GetPropertyAsBool("CUDA_PTX_COMPILATION");
if (has_ptx_extension) {
extension = ".ptx";
return extension.c_str();
}
return nullptr;
}
void cmGeneratorTarget::AddExplicitObjectName(cmSourceFile const* sf)
{
this->ExplicitObjectName.insert(sf);
}
bool cmGeneratorTarget::HasExplicitObjectName(cmSourceFile const* file) const
{
const_cast<cmGeneratorTarget*>(this)->ComputeObjectMapping();
auto it = this->ExplicitObjectName.find(file);
return it != this->ExplicitObjectName.end();
}
BTs<std::string> const* cmGeneratorTarget::GetLanguageStandardProperty(
std::string const& lang, std::string const& config) const
{
std::string key = cmStrCat(cmSystemTools::UpperCase(config), '-', lang);
auto langStandardIter = this->LanguageStandardMap.find(key);
if (langStandardIter != this->LanguageStandardMap.end()) {
return &langStandardIter->second;
}
return this->Target->GetLanguageStandardProperty(
cmStrCat(lang, "_STANDARD"));
}
cmValue cmGeneratorTarget::GetLanguageStandard(std::string const& lang,
std::string const& config) const
{
BTs<std::string> const* languageStandard =
this->GetLanguageStandardProperty(lang, config);
if (languageStandard) {
return cmValue(languageStandard->Value);
}
return nullptr;
}
cmValue cmGeneratorTarget::GetPropertyWithPairedLanguageSupport(
std::string const& lang, const char* suffix) const
{
cmValue propertyValue = this->Target->GetProperty(cmStrCat(lang, suffix));
if (!propertyValue) {
// Check if we should use the value set by another language.
if (lang == "OBJC") {
propertyValue = this->GetPropertyWithPairedLanguageSupport("C", suffix);
} else if (lang == "OBJCXX" || lang == "CUDA" || lang == "HIP") {
propertyValue =
this->GetPropertyWithPairedLanguageSupport("CXX", suffix);
}
}
return propertyValue;
}
cmValue cmGeneratorTarget::GetLanguageExtensions(std::string const& lang) const
{
return this->GetPropertyWithPairedLanguageSupport(lang, "_EXTENSIONS");
}
bool cmGeneratorTarget::GetLanguageStandardRequired(
std::string const& lang) const
{
return cmIsOn(
this->GetPropertyWithPairedLanguageSupport(lang, "_STANDARD_REQUIRED"));
}
void cmGeneratorTarget::GetModuleDefinitionSources(
std::vector<cmSourceFile const*>& data, const std::string& config) const
{
IMPLEMENT_VISIT(SourceKindModuleDefinition);
}
void cmGeneratorTarget::GetHeaderSources(
std::vector<cmSourceFile const*>& data, const std::string& config) const
{
IMPLEMENT_VISIT(SourceKindHeader);
}
void cmGeneratorTarget::GetExtraSources(std::vector<cmSourceFile const*>& data,
const std::string& config) const
{
IMPLEMENT_VISIT(SourceKindExtra);
}
void cmGeneratorTarget::GetCustomCommands(
std::vector<cmSourceFile const*>& data, const std::string& config) const
{
IMPLEMENT_VISIT(SourceKindCustomCommand);
}
void cmGeneratorTarget::GetExternalObjects(
std::vector<cmSourceFile const*>& data, const std::string& config) const
{
IMPLEMENT_VISIT(SourceKindExternalObject);
}
void cmGeneratorTarget::GetManifests(std::vector<cmSourceFile const*>& data,
const std::string& config) const
{
IMPLEMENT_VISIT(SourceKindManifest);
}
std::set<cmLinkItem> const& cmGeneratorTarget::GetUtilityItems() const
{
if (!this->UtilityItemsDone) {
this->UtilityItemsDone = true;
std::set<BT<std::pair<std::string, bool>>> const& utilities =
this->GetUtilities();
for (BT<std::pair<std::string, bool>> const& i : utilities) {
if (cmGeneratorTarget* gt =
this->LocalGenerator->FindGeneratorTargetToUse(i.Value.first)) {
this->UtilityItems.insert(cmLinkItem(gt, i.Value.second, i.Backtrace));
} else {
this->UtilityItems.insert(
cmLinkItem(i.Value.first, i.Value.second, i.Backtrace));
}
}
}
return this->UtilityItems;
}
const std::string& cmGeneratorTarget::GetLocation(
const std::string& config) const
{
static std::string location;
if (this->IsImported()) {
location = this->Target->ImportedGetFullPath(
config, cmStateEnums::RuntimeBinaryArtifact);
} else {
location = this->GetFullPath(config, cmStateEnums::RuntimeBinaryArtifact);
}
return location;
}
cm::optional<std::string> cmGeneratorTarget::MaybeGetLocation(
std::string const& config) const
{
cm::optional<std::string> location;
if (cmGeneratorTarget::ImportInfo const* imp = this->GetImportInfo(config)) {
if (!imp->Location.empty()) {
location = imp->Location;
}
} else {
location = this->GetFullPath(config, cmStateEnums::RuntimeBinaryArtifact);
}
return location;
}
std::vector<cmCustomCommand> const& cmGeneratorTarget::GetPreBuildCommands()
const
{
return this->Target->GetPreBuildCommands();
}
std::vector<cmCustomCommand> const& cmGeneratorTarget::GetPreLinkCommands()
const
{
return this->Target->GetPreLinkCommands();
}
std::vector<cmCustomCommand> const& cmGeneratorTarget::GetPostBuildCommands()
const
{
return this->Target->GetPostBuildCommands();
}
void cmGeneratorTarget::AppendCustomCommandSideEffects(
std::set<cmGeneratorTarget const*>& sideEffects) const
{
if (!this->GetPreBuildCommands().empty() ||
!this->GetPreLinkCommands().empty() ||
!this->GetPostBuildCommands().empty()) {
sideEffects.insert(this);
} else {
for (auto const& source : this->GetAllConfigSources()) {
if (source.Source->GetCustomCommand() != nullptr) {
sideEffects.insert(this);
break;
}
}
}
}
void cmGeneratorTarget::AppendLanguageSideEffects(
std::map<std::string, std::set<cmGeneratorTarget const*>>& sideEffects) const
{
static const std::set<cm::string_view> LANGS_WITH_NO_SIDE_EFFECTS = {
"C"_s, "CXX"_s, "OBJC"_s, "OBJCXX"_s, "ASM"_s, "CUDA"_s, "HIP"_s
};
for (auto const& lang : this->GetAllConfigCompileLanguages()) {
if (!LANGS_WITH_NO_SIDE_EFFECTS.count(lang)) {
sideEffects[lang].insert(this);
}
}
}
bool cmGeneratorTarget::IsInBuildSystem() const
{
if (this->IsImported()) {
return false;
}
switch (this->Target->GetType()) {
case cmStateEnums::EXECUTABLE:
case cmStateEnums::STATIC_LIBRARY:
case cmStateEnums::SHARED_LIBRARY:
case cmStateEnums::MODULE_LIBRARY:
case cmStateEnums::OBJECT_LIBRARY:
case cmStateEnums::UTILITY:
case cmStateEnums::GLOBAL_TARGET:
return true;
case cmStateEnums::INTERFACE_LIBRARY:
// An INTERFACE library is in the build system if it has SOURCES.
if (!this->SourceEntries.empty()) {
return true;
}
break;
case cmStateEnums::UNKNOWN_LIBRARY:
break;
}
return false;
}
bool cmGeneratorTarget::IsImported() const
{
return this->Target->IsImported();
}
bool cmGeneratorTarget::IsImportedGloballyVisible() const
{
return this->Target->IsImportedGloballyVisible();
}
bool cmGeneratorTarget::CanCompileSources() const
{
return this->Target->CanCompileSources();
}
const std::string& cmGeneratorTarget::GetLocationForBuild() const
{
static std::string location;
if (this->IsImported()) {
location = this->Target->ImportedGetFullPath(
"", cmStateEnums::RuntimeBinaryArtifact);
return location;
}
// Now handle the deprecated build-time configuration location.
std::string const noConfig;
location = this->GetDirectory(noConfig);
cmValue cfgid = this->Makefile->GetDefinition("CMAKE_CFG_INTDIR");
if (cfgid && (*cfgid != ".")) {
location += "/";
location += *cfgid;
}
if (this->IsAppBundleOnApple()) {
std::string macdir = this->BuildBundleDirectory("", "", FullLevel);
if (!macdir.empty()) {
location += "/";
location += macdir;
}
}
location += "/";
location += this->GetFullName("", cmStateEnums::RuntimeBinaryArtifact);
return location;
}
bool cmGeneratorTarget::IsSystemIncludeDirectory(
const std::string& dir, const std::string& config,
const std::string& language) const
{
assert(this->GetType() != cmStateEnums::INTERFACE_LIBRARY);
std::string config_upper;
if (!config.empty()) {
config_upper = cmSystemTools::UpperCase(config);
}
std::string key = cmStrCat(config_upper, "/", language);
auto iter = this->SystemIncludesCache.find(key);
if (iter == this->SystemIncludesCache.end()) {
cmGeneratorExpressionDAGChecker dagChecker(
this, "SYSTEM_INCLUDE_DIRECTORIES", nullptr, nullptr);
bool excludeImported = this->GetPropertyAsBool("NO_SYSTEM_FROM_IMPORTED");
std::vector<std::string> result;
for (std::string const& it : this->Target->GetSystemIncludeDirectories()) {
cmExpandList(cmGeneratorExpression::Evaluate(it, this->LocalGenerator,
config, this, &dagChecker,
nullptr, language),
result);
}
std::vector<cmGeneratorTarget const*> const& deps =
this->GetLinkImplementationClosure(config);
for (cmGeneratorTarget const* dep : deps) {
handleSystemIncludesDep(this->LocalGenerator, dep, config, this,
&dagChecker, result, excludeImported, language);
}
cmLinkImplementation const* impl = this->GetLinkImplementation(config);
if (impl != nullptr) {
auto runtimeEntries = impl->LanguageRuntimeLibraries.find(language);
if (runtimeEntries != impl->LanguageRuntimeLibraries.end()) {
for (auto const& lib : runtimeEntries->second) {
if (lib.Target) {
handleSystemIncludesDep(this->LocalGenerator, lib.Target, config,
this, &dagChecker, result, excludeImported,
language);
}
}
}
}
std::for_each(result.begin(), result.end(),
cmSystemTools::ConvertToUnixSlashes);
std::sort(result.begin(), result.end());
result.erase(std::unique(result.begin(), result.end()), result.end());
iter = this->SystemIncludesCache.emplace(key, result).first;
}
return std::binary_search(iter->second.begin(), iter->second.end(), dir);
}
bool cmGeneratorTarget::GetPropertyAsBool(const std::string& prop) const
{
return this->Target->GetPropertyAsBool(prop);
}
bool cmGeneratorTarget::MaybeHaveInterfaceProperty(
std::string const& prop, cmGeneratorExpressionContext* context,
bool usage_requirements_only) const
{
std::string const key = prop + '@' + context->Config;
auto i = this->MaybeInterfacePropertyExists.find(key);
if (i == this->MaybeInterfacePropertyExists.end()) {
// Insert an entry now in case there is a cycle.
i = this->MaybeInterfacePropertyExists.emplace(key, false).first;
bool& maybeInterfaceProp = i->second;
// If this target itself has a non-empty property value, we are done.
maybeInterfaceProp = cmNonempty(this->GetProperty(prop));
// Otherwise, recurse to interface dependencies.
if (!maybeInterfaceProp) {
cmGeneratorTarget const* headTarget =
context->HeadTarget ? context->HeadTarget : this;
if (cmLinkInterfaceLibraries const* iface =
this->GetLinkInterfaceLibraries(context->Config, headTarget,
usage_requirements_only)) {
if (iface->HadHeadSensitiveCondition) {
// With a different head target we may get to a library with
// this interface property.
maybeInterfaceProp = true;
} else {
// The transitive interface libraries do not depend on the
// head target, so we can follow them.
for (cmLinkItem const& lib : iface->Libraries) {
if (lib.Target &&
lib.Target->MaybeHaveInterfaceProperty(
prop, context, usage_requirements_only)) {
maybeInterfaceProp = true;
break;
}
}
}
}
}
}
return i->second;
}
std::string cmGeneratorTarget::EvaluateInterfaceProperty(
std::string const& prop, cmGeneratorExpressionContext* context,
cmGeneratorExpressionDAGChecker* dagCheckerParent,
bool usage_requirements_only) const
{
std::string result;
// If the property does not appear transitively at all, we are done.
if (!this->MaybeHaveInterfaceProperty(prop, context,
usage_requirements_only)) {
return result;
}
// Evaluate $<TARGET_PROPERTY:this,prop> as if it were compiled. This is
// a subset of TargetPropertyNode::Evaluate without stringify/parse steps
// but sufficient for transitive interface properties.
cmGeneratorExpressionDAGChecker dagChecker(context->Backtrace, this, prop,
nullptr, dagCheckerParent);
switch (dagChecker.Check()) {
case cmGeneratorExpressionDAGChecker::SELF_REFERENCE:
dagChecker.ReportError(
context, "$<TARGET_PROPERTY:" + this->GetName() + "," + prop + ">");
return result;
case cmGeneratorExpressionDAGChecker::CYCLIC_REFERENCE:
// No error. We just skip cyclic references.
case cmGeneratorExpressionDAGChecker::ALREADY_SEEN:
// No error. We have already seen this transitive property.
return result;
case cmGeneratorExpressionDAGChecker::DAG:
break;
}
cmGeneratorTarget const* headTarget =
context->HeadTarget ? context->HeadTarget : this;
if (cmValue p = this->GetProperty(prop)) {
result = cmGeneratorExpressionNode::EvaluateDependentExpression(
*p, context->LG, context, headTarget, &dagChecker, this);
}
if (cmLinkInterfaceLibraries const* iface = this->GetLinkInterfaceLibraries(
context->Config, headTarget, usage_requirements_only)) {
context->HadContextSensitiveCondition =
context->HadContextSensitiveCondition ||
iface->HadContextSensitiveCondition;
for (cmLinkItem const& lib : iface->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 (lib.Target && lib.Target != this) {
// Pretend $<TARGET_PROPERTY:lib.Target,prop> appeared in the
// above property and hand-evaluate it as if it were compiled.
// Create a context as cmCompiledGeneratorExpression::Evaluate does.
cmGeneratorExpressionContext libContext(
context->LG, context->Config, context->Quiet, headTarget, this,
context->EvaluateForBuildsystem, context->Backtrace,
context->Language);
std::string libResult = cmGeneratorExpression::StripEmptyListElements(
lib.Target->EvaluateInterfaceProperty(prop, &libContext, &dagChecker,
usage_requirements_only));
if (!libResult.empty()) {
if (result.empty()) {
result = std::move(libResult);
} else {
result.reserve(result.size() + 1 + libResult.size());
result += ";";
result += libResult;
}
}
context->HadContextSensitiveCondition =
context->HadContextSensitiveCondition ||
libContext.HadContextSensitiveCondition;
context->HadHeadSensitiveCondition =
context->HadHeadSensitiveCondition ||
libContext.HadHeadSensitiveCondition;
}
}
}
return result;
}
namespace {
enum class IncludeDirectoryFallBack
{
BINARY,
OBJECT
};
std::string AddLangSpecificInterfaceIncludeDirectories(
const cmGeneratorTarget* root, const cmGeneratorTarget* target,
const std::string& lang, const std::string& config,
const std::string& propertyName, IncludeDirectoryFallBack mode,
cmGeneratorExpressionDAGChecker* context)
{
cmGeneratorExpressionDAGChecker dag{ target->GetBacktrace(), target,
propertyName, nullptr, context };
switch (dag.Check()) {
case cmGeneratorExpressionDAGChecker::SELF_REFERENCE:
dag.ReportError(
nullptr, "$<TARGET_PROPERTY:" + target->GetName() + ",propertyName");
CM_FALLTHROUGH;
case cmGeneratorExpressionDAGChecker::CYCLIC_REFERENCE:
// No error. We just skip cyclic references.
case cmGeneratorExpressionDAGChecker::ALREADY_SEEN:
// No error. We have already seen this transitive property.
return "";
case cmGeneratorExpressionDAGChecker::DAG:
break;
}
std::string directories;
if (const auto* interface =
target->GetLinkInterfaceLibraries(config, root, true)) {
for (const cmLinkItem& library : interface->Libraries) {
if (const cmGeneratorTarget* dependency = library.Target) {
if (cm::contains(dependency->GetAllConfigCompileLanguages(), lang)) {
auto* lg = dependency->GetLocalGenerator();
std::string value = dependency->GetSafeProperty(propertyName);
if (value.empty()) {
if (mode == IncludeDirectoryFallBack::BINARY) {
value = lg->GetCurrentBinaryDirectory();
} else if (mode == IncludeDirectoryFallBack::OBJECT) {
value = cmStrCat(lg->GetCurrentBinaryDirectory(), '/',
lg->GetTargetDirectory(dependency));
}
}
if (!directories.empty()) {
directories += ";";
}
directories += value;
}
}
}
}
return directories;
}
void AddLangSpecificImplicitIncludeDirectories(
const cmGeneratorTarget* target, const std::string& lang,
const std::string& config, const std::string& propertyName,
IncludeDirectoryFallBack mode, EvaluatedTargetPropertyEntries& entries)
{
if (const auto* libraries = target->GetLinkImplementationLibraries(config)) {
cmGeneratorExpressionDAGChecker dag{ target->GetBacktrace(), target,
propertyName, nullptr, nullptr };
for (const cmLinkImplItem& library : libraries->Libraries) {
if (const cmGeneratorTarget* dependency = library.Target) {
if (!dependency->IsInBuildSystem()) {
continue;
}
if (cm::contains(dependency->GetAllConfigCompileLanguages(), lang)) {
auto* lg = dependency->GetLocalGenerator();
EvaluatedTargetPropertyEntry entry{ library, library.Backtrace };
if (cmValue val = dependency->GetProperty(propertyName)) {
entry.Values.emplace_back(*val);
} else {
if (mode == IncludeDirectoryFallBack::BINARY) {
entry.Values.emplace_back(lg->GetCurrentBinaryDirectory());
} else if (mode == IncludeDirectoryFallBack::OBJECT) {
entry.Values.emplace_back(
dependency->GetObjectDirectory(config));
}
}
cmExpandList(
AddLangSpecificInterfaceIncludeDirectories(
target, dependency, lang, config, propertyName, mode, &dag),
entry.Values);
entries.Entries.emplace_back(std::move(entry));
}
}
}
}
}
void addInterfaceEntry(cmGeneratorTarget const* headTarget,
std::string const& config, std::string const& prop,
std::string const& lang,
cmGeneratorExpressionDAGChecker* dagChecker,
EvaluatedTargetPropertyEntries& entries,
bool usage_requirements_only,
std::vector<cmLinkImplItem> const& libraries)
{
for (cmLinkImplItem const& lib : libraries) {
if (lib.Target) {
EvaluatedTargetPropertyEntry ee(lib, lib.Backtrace);
// Pretend $<TARGET_PROPERTY:lib.Target,prop> appeared in our
// caller's property and hand-evaluate it as if it were compiled.
// Create a context as cmCompiledGeneratorExpression::Evaluate does.
cmGeneratorExpressionContext context(
headTarget->GetLocalGenerator(), config, false, headTarget, headTarget,
true, lib.Backtrace, lang);
cmExpandList(lib.Target->EvaluateInterfaceProperty(
prop, &context, dagChecker, usage_requirements_only),
ee.Values);
ee.ContextDependent = context.HadContextSensitiveCondition;
entries.Entries.emplace_back(std::move(ee));
}
}
}
// IncludeRuntimeInterface is used to break the cycle in computing
// the necessary transitive dependencies of targets that can occur
// now that we have implicit language runtime targets.
//
// To determine the set of languages that a target has we need to iterate
// all the sources which includes transitive INTERFACE sources.
// Therefore we can't determine what language runtimes are needed
// for a target until after all sources are computed.
//
// Therefore while computing the applicable INTERFACE_SOURCES we
// must ignore anything in LanguageRuntimeLibraries or we would
// create a cycle ( INTERFACE_SOURCES requires LanguageRuntimeLibraries,
// LanguageRuntimeLibraries requires INTERFACE_SOURCES).
//
enum class IncludeRuntimeInterface
{
Yes,
No
};
void AddInterfaceEntries(cmGeneratorTarget const* headTarget,
std::string const& config, std::string const& prop,
std::string const& lang,
cmGeneratorExpressionDAGChecker* dagChecker,
EvaluatedTargetPropertyEntries& entries,
IncludeRuntimeInterface searchRuntime,
bool usage_requirements_only = true)
{
if (searchRuntime == IncludeRuntimeInterface::Yes) {
if (cmLinkImplementation const* impl =
headTarget->GetLinkImplementation(config)) {
entries.HadContextSensitiveCondition =
impl->HadContextSensitiveCondition;
auto runtimeLibIt = impl->LanguageRuntimeLibraries.find(lang);
if (runtimeLibIt != impl->LanguageRuntimeLibraries.end()) {
addInterfaceEntry(headTarget, config, prop, lang, dagChecker, entries,
usage_requirements_only, runtimeLibIt->second);
}
addInterfaceEntry(headTarget, config, prop, lang, dagChecker, entries,
usage_requirements_only, impl->Libraries);
}
} else {
if (cmLinkImplementationLibraries const* impl =
headTarget->GetLinkImplementationLibraries(config)) {
entries.HadContextSensitiveCondition =
impl->HadContextSensitiveCondition;
addInterfaceEntry(headTarget, config, prop, lang, dagChecker, entries,
usage_requirements_only, impl->Libraries);
}
}
}
void AddObjectEntries(cmGeneratorTarget const* headTarget,
std::string const& config,
cmGeneratorExpressionDAGChecker* dagChecker,
EvaluatedTargetPropertyEntries& entries)
{
if (cmLinkImplementationLibraries const* impl =
headTarget->GetLinkImplementationLibraries(config)) {
entries.HadContextSensitiveCondition = impl->HadContextSensitiveCondition;
for (cmLinkImplItem const& lib : impl->Libraries) {
if (lib.Target &&
lib.Target->GetType() == cmStateEnums::OBJECT_LIBRARY) {
std::string uniqueName =
headTarget->GetGlobalGenerator()->IndexGeneratorTargetUniquely(
lib.Target);
std::string genex = "$<TARGET_OBJECTS:" + std::move(uniqueName) + ">";
cmGeneratorExpression ge(lib.Backtrace);
std::unique_ptr<cmCompiledGeneratorExpression> cge = ge.Parse(genex);
cge->SetEvaluateForBuildsystem(true);
EvaluatedTargetPropertyEntry ee(lib, lib.Backtrace);
cmExpandList(cge->Evaluate(headTarget->GetLocalGenerator(), config,
headTarget, dagChecker),
ee.Values);
if (cge->GetHadContextSensitiveCondition()) {
ee.ContextDependent = true;
}
entries.Entries.emplace_back(std::move(ee));
}
}
}
}
bool processSources(cmGeneratorTarget const* tgt,
EvaluatedTargetPropertyEntries& entries,
std::vector<BT<std::string>>& srcs,
std::unordered_set<std::string>& uniqueSrcs,
bool debugSources)
{
cmMakefile* mf = tgt->Target->GetMakefile();
bool contextDependent = entries.HadContextSensitiveCondition;
for (EvaluatedTargetPropertyEntry& entry : entries.Entries) {
if (entry.ContextDependent) {
contextDependent = true;
}
cmLinkImplItem const& item = entry.LinkImplItem;
std::string const& targetName = item.AsStr();
for (std::string& src : entry.Values) {
cmSourceFile* sf = mf->GetOrCreateSource(src);
std::string e;
std::string w;
std::string fullPath = sf->ResolveFullPath(&e, &w);
cmake* cm = tgt->GetLocalGenerator()->GetCMakeInstance();
if (!w.empty()) {
cm->IssueMessage(MessageType::AUTHOR_WARNING, w, tgt->GetBacktrace());
}
if (fullPath.empty()) {
if (!e.empty()) {
cm->IssueMessage(MessageType::FATAL_ERROR, e, tgt->GetBacktrace());
}
return contextDependent;
}
if (!targetName.empty() && !cmSystemTools::FileIsFullPath(src)) {
std::ostringstream err;
if (!targetName.empty()) {
err << "Target \"" << targetName
<< "\" contains relative path in its INTERFACE_SOURCES:\n \""
<< src << "\"";
} else {
err << "Found relative path while evaluating sources of \""
<< tgt->GetName() << "\":\n \"" << src << "\"\n";
}
tgt->GetLocalGenerator()->IssueMessage(MessageType::FATAL_ERROR,
err.str());
return contextDependent;
}
src = fullPath;
}
std::string usedSources;
for (std::string const& src : entry.Values) {
if (uniqueSrcs.insert(src).second) {
srcs.emplace_back(src, entry.Backtrace);
if (debugSources) {
usedSources += " * " + src + "\n";
}
}
}
if (!usedSources.empty()) {
tgt->GetLocalGenerator()->GetCMakeInstance()->IssueMessage(
MessageType::LOG,
std::string("Used sources for target ") + tgt->GetName() + ":\n" +
usedSources,
entry.Backtrace);
}
}
return contextDependent;
}
}
std::vector<BT<std::string>> cmGeneratorTarget::GetSourceFilePaths(
std::string const& config) const
{
std::vector<BT<std::string>> files;
if (!this->LocalGenerator->GetGlobalGenerator()->GetConfigureDoneCMP0026()) {
// At configure-time, this method can be called as part of getting the
// LOCATION property or to export() a file to be include()d. However
// there is no cmGeneratorTarget at configure-time, so search the SOURCES
// for TARGET_OBJECTS instead for backwards compatibility with OLD
// behavior of CMP0024 and CMP0026 only.
cmBTStringRange sourceEntries = this->Target->GetSourceEntries();
for (auto const& entry : sourceEntries) {
std::vector<std::string> items = cmExpandedList(entry.Value);
for (std::string const& item : items) {
if (cmHasLiteralPrefix(item, "$<TARGET_OBJECTS:") &&
item.back() == '>') {
continue;
}
files.emplace_back(item);
}
}
return files;
}
std::vector<std::string> debugProperties;
this->Makefile->GetDefExpandList("CMAKE_DEBUG_TARGET_PROPERTIES",
debugProperties);
bool debugSources =
!this->DebugSourcesDone && cm::contains(debugProperties, "SOURCES");
if (this->LocalGenerator->GetGlobalGenerator()->GetConfigureDoneCMP0026()) {
this->DebugSourcesDone = true;
}
cmGeneratorExpressionDAGChecker dagChecker(this, "SOURCES", nullptr,
nullptr);
EvaluatedTargetPropertyEntries entries = EvaluateTargetPropertyEntries(
this, config, std::string(), &dagChecker, this->SourceEntries);
std::unordered_set<std::string> uniqueSrcs;
bool contextDependentDirectSources =
processSources(this, entries, files, uniqueSrcs, debugSources);
// Collect INTERFACE_SOURCES of all direct link-dependencies.
EvaluatedTargetPropertyEntries linkInterfaceSourcesEntries;
AddInterfaceEntries(this, config, "INTERFACE_SOURCES", std::string(),
&dagChecker, linkInterfaceSourcesEntries,
IncludeRuntimeInterface::No, true);
std::vector<std::string>::size_type numFilesBefore = files.size();
bool contextDependentInterfaceSources = processSources(
this, linkInterfaceSourcesEntries, files, uniqueSrcs, debugSources);
// Collect TARGET_OBJECTS of direct object link-dependencies.
bool contextDependentObjects = false;
std::vector<std::string>::size_type numFilesBefore2 = files.size();
if (this->GetType() != cmStateEnums::OBJECT_LIBRARY) {
EvaluatedTargetPropertyEntries linkObjectsEntries;
AddObjectEntries(this, config, &dagChecker, linkObjectsEntries);
contextDependentObjects = processSources(this, linkObjectsEntries, files,
uniqueSrcs, debugSources);
}
// Determine if sources are context-dependent or not.
if (!contextDependentDirectSources &&
!(contextDependentInterfaceSources && numFilesBefore < files.size()) &&
!(contextDependentObjects && numFilesBefore2 < files.size())) {
this->SourcesAreContextDependent = Tribool::False;
} else {
this->SourcesAreContextDependent = Tribool::True;
}
return files;
}
void cmGeneratorTarget::GetSourceFiles(std::vector<cmSourceFile*>& files,
const std::string& config) const
{
std::vector<BT<cmSourceFile*>> tmp = this->GetSourceFiles(config);
files.reserve(tmp.size());
for (BT<cmSourceFile*>& v : tmp) {
files.push_back(v.Value);
}
}
std::vector<BT<cmSourceFile*>> cmGeneratorTarget::GetSourceFiles(
std::string const& config) const
{
std::vector<BT<cmSourceFile*>> files;
if (!this->GlobalGenerator->GetConfigureDoneCMP0026()) {
// Since we are still configuring not all sources may exist yet,
// so we need to avoid full source classification because that
// requires the absolute paths to all sources to be determined.
// Since this is only for compatibility with old policies that
// projects should not depend on anymore, just compute the files
// without memoizing them.
std::vector<BT<std::string>> srcs = this->GetSourceFilePaths(config);
std::set<cmSourceFile*> emitted;
for (BT<std::string> const& s : srcs) {
cmSourceFile* sf = this->Makefile->GetOrCreateSource(s.Value);
if (emitted.insert(sf).second) {
files.emplace_back(sf, s.Backtrace);
}
}
return files;
}
KindedSources const& kinded = this->GetKindedSources(config);
files.reserve(kinded.Sources.size());
for (SourceAndKind const& si : kinded.Sources) {
files.push_back(si.Source);
}
return files;
}
void cmGeneratorTarget::GetSourceFilesWithoutObjectLibraries(
std::vector<cmSourceFile*>& files, const std::string& config) const
{
std::vector<BT<cmSourceFile*>> tmp =
this->GetSourceFilesWithoutObjectLibraries(config);
files.reserve(tmp.size());
for (BT<cmSourceFile*>& v : tmp) {
files.push_back(v.Value);
}
}
std::vector<BT<cmSourceFile*>>
cmGeneratorTarget::GetSourceFilesWithoutObjectLibraries(
std::string const& config) const
{
std::vector<BT<cmSourceFile*>> files;
KindedSources const& kinded = this->GetKindedSources(config);
files.reserve(kinded.Sources.size());
for (SourceAndKind const& si : kinded.Sources) {
if (si.Source.Value->GetObjectLibrary().empty()) {
files.push_back(si.Source);
}
}
return files;
}
cmGeneratorTarget::KindedSources const& cmGeneratorTarget::GetKindedSources(
std::string const& config) const
{
// If we already processed one configuration and found no dependency
// on configuration then always use the one result.
if (this->SourcesAreContextDependent == Tribool::False) {
return this->KindedSourcesMap.begin()->second;
}
// Lookup any existing link implementation for this configuration.
std::string const key = cmSystemTools::UpperCase(config);
auto it = this->KindedSourcesMap.find(key);
if (it != this->KindedSourcesMap.end()) {
if (!it->second.Initialized) {
std::ostringstream e;
e << "The SOURCES of \"" << this->GetName()
<< "\" use a generator expression that depends on the "
"SOURCES themselves.";
this->GlobalGenerator->GetCMakeInstance()->IssueMessage(
MessageType::FATAL_ERROR, e.str(), this->GetBacktrace());
static KindedSources empty;
return empty;
}
return it->second;
}
// Add an entry to the map for this configuration.
KindedSources& files = this->KindedSourcesMap[key];
this->ComputeKindedSources(files, config);
files.Initialized = true;
return files;
}
void cmGeneratorTarget::ComputeKindedSources(KindedSources& files,
std::string const& config) const
{
// Get the source file paths by string.
std::vector<BT<std::string>> srcs = this->GetSourceFilePaths(config);
cmsys::RegularExpression header_regex(CM_HEADER_REGEX);
std::vector<cmSourceFile*> badObjLib;
std::set<cmSourceFile*> emitted;
for (BT<std::string> const& s : srcs) {
// Create each source at most once.
cmSourceFile* sf = this->Makefile->GetOrCreateSource(s.Value);
if (!emitted.insert(sf).second) {
continue;
}
// Compute the kind (classification) of this source file.
SourceKind kind;
std::string ext = cmSystemTools::LowerCase(sf->GetExtension());
if (sf->GetCustomCommand()) {
kind = SourceKindCustomCommand;
} else if (this->Target->GetType() == cmStateEnums::UTILITY ||
this->Target->GetType() == cmStateEnums::INTERFACE_LIBRARY
// XXX(clang-tidy): https://bugs.llvm.org/show_bug.cgi?id=44165
// NOLINTNEXTLINE(bugprone-branch-clone)
) {
kind = SourceKindExtra;
} else if (this->IsSourceFilePartOfUnityBatch(sf->ResolveFullPath())) {
kind = SourceKindUnityBatched;
// XXX(clang-tidy): https://bugs.llvm.org/show_bug.cgi?id=44165
// NOLINTNEXTLINE(bugprone-branch-clone)
} else if (sf->GetPropertyAsBool("HEADER_FILE_ONLY")) {
kind = SourceKindHeader;
} else if (sf->GetPropertyAsBool("EXTERNAL_OBJECT")) {
kind = SourceKindExternalObject;
} else if (!sf->GetOrDetermineLanguage().empty()) {
kind = SourceKindObjectSource;
} else if (ext == "def") {
kind = SourceKindModuleDefinition;
if (this->GetType() == cmStateEnums::OBJECT_LIBRARY) {
badObjLib.push_back(sf);
}
} else if (ext == "idl") {
kind = SourceKindIDL;
if (this->GetType() == cmStateEnums::OBJECT_LIBRARY) {
badObjLib.push_back(sf);
}
} else if (ext == "resx") {
kind = SourceKindResx;
} else if (ext == "appxmanifest") {
kind = SourceKindAppManifest;
} else if (ext == "manifest") {
kind = SourceKindManifest;
} else if (ext == "pfx") {
kind = SourceKindCertificate;
} else if (ext == "xaml") {
kind = SourceKindXaml;
} else if (header_regex.find(sf->ResolveFullPath())) {
kind = SourceKindHeader;
} else {
kind = SourceKindExtra;
}
// Save this classified source file in the result vector.
files.Sources.push_back({ BT<cmSourceFile*>(sf, s.Backtrace), kind });
}
if (!badObjLib.empty()) {
std::ostringstream e;
e << "OBJECT library \"" << this->GetName() << "\" contains:\n";
for (cmSourceFile* i : badObjLib) {
e << " " << i->GetLocation().GetName() << "\n";
}
e << "but may contain only sources that compile, header files, and "
"other files that would not affect linking of a normal library.";
this->GlobalGenerator->GetCMakeInstance()->IssueMessage(
MessageType::FATAL_ERROR, e.str(), this->GetBacktrace());
}
}
std::vector<cmGeneratorTarget::AllConfigSource> const&
cmGeneratorTarget::GetAllConfigSources() const
{
if (this->AllConfigSources.empty()) {
this->ComputeAllConfigSources();
}
return this->AllConfigSources;
}
void cmGeneratorTarget::ComputeAllConfigSources() const
{
std::vector<std::string> configs =
this->Makefile->GetGeneratorConfigs(cmMakefile::IncludeEmptyConfig);
std::map<cmSourceFile const*, size_t> index;
for (size_t ci = 0; ci < configs.size(); ++ci) {
KindedSources const& sources = this->GetKindedSources(configs[ci]);
for (SourceAndKind const& src : sources.Sources) {
auto mi = index.find(src.Source.Value);
if (mi == index.end()) {
AllConfigSource acs;
acs.Source = src.Source.Value;
acs.Kind = src.Kind;
this->AllConfigSources.push_back(std::move(acs));
std::map<cmSourceFile const*, size_t>::value_type entry(
src.Source.Value, this->AllConfigSources.size() - 1);
mi = index.insert(entry).first;
}
this->AllConfigSources[mi->second].Configs.push_back(ci);
}
}
}
std::vector<cmGeneratorTarget::AllConfigSource>
cmGeneratorTarget::GetAllConfigSources(SourceKind kind) const
{
std::vector<AllConfigSource> result;
for (AllConfigSource const& source : this->GetAllConfigSources()) {
if (source.Kind == kind) {
result.push_back(source);
}
}
return result;
}
std::set<std::string> cmGeneratorTarget::GetAllConfigCompileLanguages() const
{
std::set<std::string> languages;
std::vector<AllConfigSource> const& sources = this->GetAllConfigSources();
for (AllConfigSource const& si : sources) {
std::string const& lang = si.Source->GetOrDetermineLanguage();
if (!lang.empty()) {
languages.emplace(lang);
}
}
return languages;
}
std::string cmGeneratorTarget::GetCompilePDBName(
const std::string& config) const
{
std::string prefix;
std::string base;
std::string suffix;
this->GetFullNameInternal(config, cmStateEnums::RuntimeBinaryArtifact,
prefix, base, suffix);
// Check for a per-configuration output directory target property.
std::string configUpper = cmSystemTools::UpperCase(config);
std::string configProp = cmStrCat("COMPILE_PDB_NAME_", configUpper);
cmValue config_name = this->GetProperty(configProp);
if (cmNonempty(config_name)) {
return prefix + *config_name + ".pdb";
}
cmValue name = this->GetProperty("COMPILE_PDB_NAME");
if (cmNonempty(name)) {
return prefix + *name + ".pdb";
}
return "";
}
std::string cmGeneratorTarget::GetCompilePDBPath(
const std::string& config) const
{
std::string dir = this->GetCompilePDBDirectory(config);
std::string name = this->GetCompilePDBName(config);
if (dir.empty() && !name.empty() && this->HaveWellDefinedOutputFiles()) {
dir = this->GetPDBDirectory(config);
}
if (!dir.empty()) {
dir += "/";
}
return dir + name;
}
bool cmGeneratorTarget::HasSOName(const std::string& config) const
{
// soname is supported only for shared libraries and modules,
// and then only when the platform supports an soname flag.
return ((this->GetType() == cmStateEnums::SHARED_LIBRARY) &&
!this->GetPropertyAsBool("NO_SONAME") &&
this->Makefile->GetSONameFlag(this->GetLinkerLanguage(config)));
}
bool cmGeneratorTarget::NeedRelinkBeforeInstall(
const std::string& config) const
{
// Only executables and shared libraries can have an rpath and may
// need relinking.
if (this->GetType() != cmStateEnums::EXECUTABLE &&
this->GetType() != cmStateEnums::SHARED_LIBRARY &&
this->GetType() != cmStateEnums::MODULE_LIBRARY) {
return false;
}
// If there is no install location this target will not be installed
// and therefore does not need relinking.
if (!this->Target->GetHaveInstallRule()) {
return false;
}
// If skipping all rpaths completely then no relinking is needed.
if (this->Makefile->IsOn("CMAKE_SKIP_RPATH")) {
return false;
}
// If building with the install-tree rpath no relinking is needed.
if (this->GetPropertyAsBool("BUILD_WITH_INSTALL_RPATH")) {
return false;
}
// If chrpath is going to be used no relinking is needed.
if (this->IsChrpathUsed(config)) {
return false;
}
// Check for rpath support on this platform.
std::string ll = this->GetLinkerLanguage(config);
if (!ll.empty()) {
std::string flagVar =
cmStrCat("CMAKE_SHARED_LIBRARY_RUNTIME_", ll, "_FLAG");
if (!this->Makefile->IsSet(flagVar)) {
// There is no rpath support on this platform so nothing needs
// relinking.
return false;
}
} else {
// No linker language is known. This error will be reported by
// other code.
return false;
}
// If either a build or install tree rpath is set then the rpath
// will likely change between the build tree and install tree and
// this target must be relinked.
bool have_rpath =
this->HaveBuildTreeRPATH(config) || this->HaveInstallTreeRPATH(config);
bool is_ninja = this->LocalGenerator->GetGlobalGenerator()->IsNinja();
if (have_rpath && is_ninja) {
std::ostringstream w;
/* clang-format off */
w <<
"The install of the " << this->GetName() << " target requires changing "
"an RPATH from the build tree, but this is not supported with the Ninja "
"generator unless on an ELF-based or XCOFF-based platform. "
"The CMAKE_BUILD_WITH_INSTALL_RPATH variable may be set to avoid this "
"relinking step."
;
/* clang-format on */
cmake* cm = this->LocalGenerator->GetCMakeInstance();
cm->IssueMessage(MessageType::FATAL_ERROR, w.str(), this->GetBacktrace());
}
return have_rpath;
}
bool cmGeneratorTarget::IsChrpathUsed(const std::string& config) const
{
// Only certain target types have an rpath.
if (!(this->GetType() == cmStateEnums::SHARED_LIBRARY ||
this->GetType() == cmStateEnums::MODULE_LIBRARY ||
this->GetType() == cmStateEnums::EXECUTABLE)) {
return false;
}
// If the target will not be installed we do not need to change its
// rpath.
if (!this->Target->GetHaveInstallRule()) {
return false;
}
// Skip chrpath if skipping rpath altogether.
if (this->Makefile->IsOn("CMAKE_SKIP_RPATH")) {
return false;
}
// Skip chrpath if it does not need to be changed at install time.
if (this->GetPropertyAsBool("BUILD_WITH_INSTALL_RPATH")) {
return false;
}
// Allow the user to disable builtin chrpath explicitly.
if (this->Makefile->IsOn("CMAKE_NO_BUILTIN_CHRPATH")) {
return false;
}
if (this->Makefile->IsOn("CMAKE_PLATFORM_HAS_INSTALLNAME")) {
return true;
}
// Enable if the rpath flag uses a separator and the target uses
// binaries we know how to edit.
std::string ll = this->GetLinkerLanguage(config);
if (!ll.empty()) {
std::string sepVar =
cmStrCat("CMAKE_SHARED_LIBRARY_RUNTIME_", ll, "_FLAG_SEP");
cmValue sep = this->Makefile->GetDefinition(sepVar);
if (cmNonempty(sep)) {
// TODO: Add binary format check to ABI detection and get rid of
// CMAKE_EXECUTABLE_FORMAT.
if (cmValue fmt =
this->Makefile->GetDefinition("CMAKE_EXECUTABLE_FORMAT")) {
if (*fmt == "ELF") {
return true;
}
#if defined(CMake_USE_XCOFF_PARSER)
if (*fmt == "XCOFF") {
return true;
}
#endif
}
}
}
return false;
}
bool cmGeneratorTarget::IsImportedSharedLibWithoutSOName(
const std::string& config) const
{
if (this->IsImported() && this->GetType() == cmStateEnums::SHARED_LIBRARY) {
if (cmGeneratorTarget::ImportInfo const* info =
this->GetImportInfo(config)) {
return info->NoSOName;
}
}
return false;
}
bool cmGeneratorTarget::HasMacOSXRpathInstallNameDir(
const std::string& config) const
{
TargetPtrToBoolMap& cache = this->MacOSXRpathInstallNameDirCache[config];
const auto lookup = cache.find(this->Target);
if (lookup != cache.cend()) {
return lookup->second;
}
const bool result = this->DetermineHasMacOSXRpathInstallNameDir(config);
cache[this->Target] = result;
return result;
}
bool cmGeneratorTarget::DetermineHasMacOSXRpathInstallNameDir(
const std::string& config) const
{
bool install_name_is_rpath = false;
bool macosx_rpath = false;
if (!this->IsImported()) {
if (this->GetType() != cmStateEnums::SHARED_LIBRARY) {
return false;
}
cmValue install_name = this->GetProperty("INSTALL_NAME_DIR");
bool use_install_name = this->MacOSXUseInstallNameDir();
if (install_name && use_install_name && *install_name == "@rpath") {
install_name_is_rpath = true;
} else if (install_name && use_install_name) {
return false;
}
if (!install_name_is_rpath) {
macosx_rpath = this->MacOSXRpathInstallNameDirDefault();
}
} else {
// Lookup the imported soname.
if (cmGeneratorTarget::ImportInfo const* info =
this->GetImportInfo(config)) {
if (!info->NoSOName && !info->SOName.empty()) {
if (cmHasLiteralPrefix(info->SOName, "@rpath/")) {
install_name_is_rpath = true;
}
} else {
std::string install_name;
cmSystemTools::GuessLibraryInstallName(info->Location, install_name);
if (install_name.find("@rpath") != std::string::npos) {
install_name_is_rpath = true;
}
}
}
}
if (!install_name_is_rpath && !macosx_rpath) {
return false;
}
if (!this->Makefile->IsSet("CMAKE_SHARED_LIBRARY_RUNTIME_C_FLAG")) {
std::ostringstream w;
w << "Attempting to use ";
if (macosx_rpath) {
w << "MACOSX_RPATH";
} else {
w << "@rpath";
}
w << " without CMAKE_SHARED_LIBRARY_RUNTIME_C_FLAG being set.";
w << " This could be because you are using a Mac OS X version";
w << " less than 10.5 or because CMake's platform configuration is";
w << " corrupt.";
cmake* cm = this->LocalGenerator->GetCMakeInstance();
cm->IssueMessage(MessageType::FATAL_ERROR, w.str(), this->GetBacktrace());
}
return true;
}
bool cmGeneratorTarget::MacOSXRpathInstallNameDirDefault() const
{
// we can't do rpaths when unsupported
if (!this->Makefile->IsSet("CMAKE_SHARED_LIBRARY_RUNTIME_C_FLAG")) {
return false;
}
cmValue macosx_rpath_str = this->GetProperty("MACOSX_RPATH");
if (macosx_rpath_str) {
return this->GetPropertyAsBool("MACOSX_RPATH");
}
cmPolicies::PolicyStatus cmp0042 = this->GetPolicyStatusCMP0042();
if (cmp0042 == cmPolicies::WARN) {
this->LocalGenerator->GetGlobalGenerator()->AddCMP0042WarnTarget(
this->GetName());
}
return cmp0042 == cmPolicies::NEW;
}
bool cmGeneratorTarget::MacOSXUseInstallNameDir() const
{
cmValue build_with_install_name =
this->GetProperty("BUILD_WITH_INSTALL_NAME_DIR");
if (build_with_install_name) {
return cmIsOn(*build_with_install_name);
}
cmPolicies::PolicyStatus cmp0068 = this->GetPolicyStatusCMP0068();
if (cmp0068 == cmPolicies::NEW) {
return false;
}
bool use_install_name = this->GetPropertyAsBool("BUILD_WITH_INSTALL_RPATH");
if (use_install_name && cmp0068 == cmPolicies::WARN) {
this->LocalGenerator->GetGlobalGenerator()->AddCMP0068WarnTarget(
this->GetName());
}
return use_install_name;
}
bool cmGeneratorTarget::CanGenerateInstallNameDir(
InstallNameType name_type) const
{
cmPolicies::PolicyStatus cmp0068 = this->GetPolicyStatusCMP0068();
if (cmp0068 == cmPolicies::NEW) {
return true;
}
bool skip = this->Makefile->IsOn("CMAKE_SKIP_RPATH");
if (name_type == INSTALL_NAME_FOR_INSTALL) {
skip |= this->Makefile->IsOn("CMAKE_SKIP_INSTALL_RPATH");
} else {
skip |= this->GetPropertyAsBool("SKIP_BUILD_RPATH");
}
if (skip && cmp0068 == cmPolicies::WARN) {
this->LocalGenerator->GetGlobalGenerator()->AddCMP0068WarnTarget(
this->GetName());
}
return !skip;
}
std::string cmGeneratorTarget::GetSOName(const std::string& config) const
{
if (this->IsImported()) {
// Lookup the imported soname.
if (cmGeneratorTarget::ImportInfo const* info =
this->GetImportInfo(config)) {
if (info->NoSOName) {
// The imported library has no builtin soname so the name
// searched at runtime will be just the filename.
return cmSystemTools::GetFilenameName(info->Location);
}
// Use the soname given if any.
if (this->IsFrameworkOnApple()) {
cmsys::RegularExpressionMatch match;
if (FrameworkRegularExpression.find(info->SOName.c_str(), match)) {
auto frameworkName = match.match(2);
auto fileName = match.match(3);
return cmStrCat(frameworkName, ".framework/", fileName);
}
}
if (cmHasLiteralPrefix(info->SOName, "@rpath/")) {
return info->SOName.substr(cmStrLen("@rpath/"));
}
return info->SOName;
}
return "";
}
// Compute the soname that will be built.
return this->GetLibraryNames(config).SharedObject;
}
namespace {
bool shouldAddFullLevel(cmGeneratorTarget::BundleDirectoryLevel level)
{
return level == cmGeneratorTarget::FullLevel;
}
bool shouldAddContentLevel(cmGeneratorTarget::BundleDirectoryLevel level)
{
return level == cmGeneratorTarget::ContentLevel || shouldAddFullLevel(level);
}
}
std::string cmGeneratorTarget::GetAppBundleDirectory(
const std::string& config, BundleDirectoryLevel level) const
{
std::string fpath = cmStrCat(
this->GetFullName(config, cmStateEnums::RuntimeBinaryArtifact), '.');
cmValue ext = this->GetProperty("BUNDLE_EXTENSION");
fpath += (ext ? *ext : "app");
if (shouldAddContentLevel(level) &&
!this->Makefile->PlatformIsAppleEmbedded()) {
fpath += "/Contents";
if (shouldAddFullLevel(level)) {
fpath += "/MacOS";
}
}
return fpath;
}
bool cmGeneratorTarget::IsBundleOnApple() const
{
return this->IsFrameworkOnApple() || this->IsAppBundleOnApple() ||
this->IsCFBundleOnApple();
}
bool cmGeneratorTarget::IsWin32Executable(const std::string& config) const
{
return cmIsOn(cmGeneratorExpression::Evaluate(
this->GetSafeProperty("WIN32_EXECUTABLE"), this->LocalGenerator, config));
}
std::string cmGeneratorTarget::GetCFBundleDirectory(
const std::string& config, BundleDirectoryLevel level) const
{
std::string fpath = cmStrCat(
this->GetOutputName(config, cmStateEnums::RuntimeBinaryArtifact), '.');
std::string ext;
if (cmValue p = this->GetProperty("BUNDLE_EXTENSION")) {
ext = *p;
} else {
if (this->IsXCTestOnApple()) {
ext = "xctest";
} else {
ext = "bundle";
}
}
fpath += ext;
if (shouldAddContentLevel(level) &&
!this->Makefile->PlatformIsAppleEmbedded()) {
fpath += "/Contents";
if (shouldAddFullLevel(level)) {
fpath += "/MacOS";
}
}
return fpath;
}
std::string cmGeneratorTarget::GetFrameworkDirectory(
const std::string& config, BundleDirectoryLevel level) const
{
std::string fpath = cmStrCat(
this->GetOutputName(config, cmStateEnums::RuntimeBinaryArtifact), '.');
cmValue ext = this->GetProperty("BUNDLE_EXTENSION");
fpath += (ext ? *ext : "framework");
if (shouldAddFullLevel(level) &&
!this->Makefile->PlatformIsAppleEmbedded()) {
fpath += "/Versions/";
fpath += this->GetFrameworkVersion();
}
return fpath;
}
std::string cmGeneratorTarget::GetFullName(
const std::string& config, cmStateEnums::ArtifactType artifact) const
{
if (this->IsImported()) {
return this->GetFullNameImported(config, artifact);
}
return this->GetFullNameInternal(config, artifact);
}
std::string cmGeneratorTarget::GetInstallNameDirForBuildTree(
const std::string& config) const
{
if (this->Makefile->IsOn("CMAKE_PLATFORM_HAS_INSTALLNAME")) {
// If building directly for installation then the build tree install_name
// is the same as the install tree.
if (this->MacOSXUseInstallNameDir()) {
std::string installPrefix =
this->Makefile->GetSafeDefinition("CMAKE_INSTALL_PREFIX");
return this->GetInstallNameDirForInstallTree(config, installPrefix);
}
// Use the build tree directory for the target.
if (this->CanGenerateInstallNameDir(INSTALL_NAME_FOR_BUILD)) {
std::string dir;
if (this->MacOSXRpathInstallNameDirDefault()) {
dir = "@rpath";
} else {
dir = this->GetDirectory(config);
}
dir += "/";
return dir;
}
}
return "";
}
std::string cmGeneratorTarget::GetInstallNameDirForInstallTree(
const std::string& config, const std::string& installPrefix) const
{
if (this->Makefile->IsOn("CMAKE_PLATFORM_HAS_INSTALLNAME")) {
std::string dir;
cmValue install_name_dir = this->GetProperty("INSTALL_NAME_DIR");
if (this->CanGenerateInstallNameDir(INSTALL_NAME_FOR_INSTALL)) {
if (cmNonempty(install_name_dir)) {
dir = *install_name_dir;
cmGeneratorExpression::ReplaceInstallPrefix(dir, installPrefix);
dir =
cmGeneratorExpression::Evaluate(dir, this->LocalGenerator, config);
if (!dir.empty()) {
dir = cmStrCat(dir, '/');
}
}
}
if (!install_name_dir) {
if (this->MacOSXRpathInstallNameDirDefault()) {
dir = "@rpath/";
}
}
return dir;
}
return "";
}
cmListFileBacktrace cmGeneratorTarget::GetBacktrace() const
{
return this->Target->GetBacktrace();
}
const std::set<BT<std::pair<std::string, bool>>>&
cmGeneratorTarget::GetUtilities() const
{
return this->Target->GetUtilities();
}
bool cmGeneratorTarget::HaveWellDefinedOutputFiles() const
{
return this->GetType() == cmStateEnums::STATIC_LIBRARY ||
this->GetType() == cmStateEnums::SHARED_LIBRARY ||
this->GetType() == cmStateEnums::MODULE_LIBRARY ||
this->GetType() == cmStateEnums::OBJECT_LIBRARY ||
this->GetType() == cmStateEnums::EXECUTABLE;
}
const std::string* cmGeneratorTarget::GetExportMacro() const
{
// Define the symbol for targets that export symbols.
if (this->GetType() == cmStateEnums::SHARED_LIBRARY ||
this->GetType() == cmStateEnums::MODULE_LIBRARY ||
this->IsExecutableWithExports()) {
if (cmValue custom_export_name = this->GetProperty("DEFINE_SYMBOL")) {
this->ExportMacro = *custom_export_name;
} else {
std::string in = cmStrCat(this->GetName(), "_EXPORTS");
this->ExportMacro = cmSystemTools::MakeCidentifier(in);
}
return &this->ExportMacro;
}
return nullptr;
}
class cmTargetCollectLinkLanguages
{
public:
cmTargetCollectLinkLanguages(cmGeneratorTarget const* target,
std::string config,
std::unordered_set<std::string>& languages,
cmGeneratorTarget const* head, bool secondPass)
: Config(std::move(config))
, Languages(languages)
, HeadTarget(head)
, Target(target)
, SecondPass(secondPass)
{
this->Visited.insert(target);
}
void Visit(cmLinkItem const& item)
{
if (!item.Target) {
if (item.AsStr().find("::") != std::string::npos) {
bool noMessage = false;
MessageType messageType = MessageType::FATAL_ERROR;
std::ostringstream e;
switch (this->Target->GetLocalGenerator()->GetPolicyStatus(
cmPolicies::CMP0028)) {
case cmPolicies::WARN: {
e << cmPolicies::GetPolicyWarning(cmPolicies::CMP0028) << "\n";
messageType = MessageType::AUTHOR_WARNING;
} break;
case cmPolicies::OLD:
noMessage = true;
break;
case cmPolicies::REQUIRED_IF_USED:
case cmPolicies::REQUIRED_ALWAYS:
case cmPolicies::NEW:
// Issue the fatal message.
break;
}
if (!noMessage) {
e << "Target \"" << this->Target->GetName()
<< "\" links to target \"" << item.AsStr()
<< "\" but the target was not found. Perhaps a find_package() "
"call is missing for an IMPORTED target, or an ALIAS target is "
"missing?";
this->Target->GetLocalGenerator()->GetCMakeInstance()->IssueMessage(
messageType, e.str(), this->Target->GetBacktrace());
}
}
return;
}
if (!this->Visited.insert(item.Target).second) {
return;
}
cmLinkInterface const* iface = item.Target->GetLinkInterface(
this->Config, this->HeadTarget, this->SecondPass);
if (!iface) {
return;
}
if (iface->HadLinkLanguageSensitiveCondition) {
this->HadLinkLanguageSensitiveCondition = true;
}
for (std::string const& language : iface->Languages) {
this->Languages.insert(language);
}
for (cmLinkItem const& lib : iface->Libraries) {
this->Visit(lib);
}
}
bool GetHadLinkLanguageSensitiveCondition() const
{
return this->HadLinkLanguageSensitiveCondition;
}
private:
std::string Config;
std::unordered_set<std::string>& Languages;
cmGeneratorTarget const* HeadTarget;
const cmGeneratorTarget* Target;
std::set<cmGeneratorTarget const*> Visited;
bool SecondPass;
bool HadLinkLanguageSensitiveCondition = false;
};
cmGeneratorTarget::LinkClosure const* cmGeneratorTarget::GetLinkClosure(
const std::string& config) const
{
// There is no link implementation for targets that cannot compile sources.
if (!this->CanCompileSources()) {
static LinkClosure const empty = { {}, {} };
return ∅
}
std::string key(cmSystemTools::UpperCase(config));
auto i = this->LinkClosureMap.find(key);
if (i == this->LinkClosureMap.end()) {
LinkClosure lc;
this->ComputeLinkClosure(config, lc);
LinkClosureMapType::value_type entry(key, lc);
i = this->LinkClosureMap.insert(entry).first;
}
return &i->second;
}
class cmTargetSelectLinker
{
int Preference;
cmGeneratorTarget const* Target;
cmGlobalGenerator* GG;
std::set<std::string> Preferred;
public:
cmTargetSelectLinker(cmGeneratorTarget const* target)
: Preference(0)
, Target(target)
{
this->GG = this->Target->GetLocalGenerator()->GetGlobalGenerator();
}
void Consider(const std::string& lang)
{
int preference = this->GG->GetLinkerPreference(lang);
if (preference > this->Preference) {
this->Preference = preference;
this->Preferred.clear();
}
if (preference == this->Preference) {
this->Preferred.insert(lang);
}
}
std::string Choose()
{
if (this->Preferred.empty()) {
return "";
}
if (this->Preferred.size() > 1) {
std::ostringstream e;
e << "Target " << this->Target->GetName()
<< " contains multiple languages with the highest linker preference"
<< " (" << this->Preference << "):\n";
for (std::string const& li : this->Preferred) {
e << " " << li << "\n";
}
e << "Set the LINKER_LANGUAGE property for this target.";
cmake* cm = this->Target->GetLocalGenerator()->GetCMakeInstance();
cm->IssueMessage(MessageType::FATAL_ERROR, e.str(),
this->Target->GetBacktrace());
}
return *this->Preferred.begin();
}
};
bool cmGeneratorTarget::ComputeLinkClosure(const std::string& config,
LinkClosure& lc,
bool secondPass) const
{
// Get languages built in this target.
std::unordered_set<std::string> languages;
cmLinkImplementation const* impl =
this->GetLinkImplementation(config, secondPass);
assert(impl);
languages.insert(impl->Languages.cbegin(), impl->Languages.cend());
// Add interface languages from linked targets.
// cmTargetCollectLinkLanguages cll(this, config, languages, this,
// secondPass);
cmTargetCollectLinkLanguages cll(this, config, languages, this, secondPass);
for (cmLinkImplItem const& lib : impl->Libraries) {
cll.Visit(lib);
}
// Store the transitive closure of languages.
cm::append(lc.Languages, languages);
// Choose the language whose linker should be used.
if (secondPass || lc.LinkerLanguage.empty()) {
// Find the language with the highest preference value.
cmTargetSelectLinker tsl(this);
// First select from the languages compiled directly in this target.
for (std::string const& l : impl->Languages) {
tsl.Consider(l);
}
// Now consider languages that propagate from linked targets.
for (std::string const& lang : languages) {
std::string propagates =
"CMAKE_" + lang + "_LINKER_PREFERENCE_PROPAGATES";
if (this->Makefile->IsOn(propagates)) {
tsl.Consider(lang);
}
}
lc.LinkerLanguage = tsl.Choose();
}
return impl->HadLinkLanguageSensitiveCondition ||
cll.GetHadLinkLanguageSensitiveCondition();
}
void cmGeneratorTarget::ComputeLinkClosure(const std::string& config,
LinkClosure& lc) const
{
bool secondPass = false;
{
LinkClosure linkClosure;
linkClosure.LinkerLanguage = this->LinkerLanguage;
bool hasHardCodedLinkerLanguage = this->Target->GetProperty("HAS_CXX") ||
!this->Target->GetSafeProperty("LINKER_LANGUAGE").empty();
// Get languages built in this target.
secondPass = this->ComputeLinkClosure(config, linkClosure, false) &&
!hasHardCodedLinkerLanguage;
this->LinkerLanguage = linkClosure.LinkerLanguage;
if (!secondPass) {
lc = std::move(linkClosure);
}
}
if (secondPass) {
LinkClosure linkClosure;
this->ComputeLinkClosure(config, linkClosure, secondPass);
lc = std::move(linkClosure);
// linker language must not be changed between the two passes
if (this->LinkerLanguage != lc.LinkerLanguage) {
std::ostringstream e;
e << "Evaluation of $<LINK_LANGUAGE:...> or $<LINK_LAND_AND_ID:...> "
"changes\nthe linker language for target \""
<< this->GetName() << "\" (from '" << this->LinkerLanguage << "' to '"
<< lc.LinkerLanguage << "') which is invalid.";
cmSystemTools::Error(e.str());
}
}
}
void cmGeneratorTarget::GetFullNameComponents(
std::string& prefix, std::string& base, std::string& suffix,
const std::string& config, cmStateEnums::ArtifactType artifact) const
{
this->GetFullNameInternal(config, artifact, prefix, base, suffix);
}
std::string cmGeneratorTarget::BuildBundleDirectory(
const std::string& base, const std::string& config,
BundleDirectoryLevel level) const
{
std::string fpath = base;
if (this->IsAppBundleOnApple()) {
fpath += this->GetAppBundleDirectory(config, level);
}
if (this->IsFrameworkOnApple()) {
fpath += this->GetFrameworkDirectory(config, level);
}
if (this->IsCFBundleOnApple()) {
fpath += this->GetCFBundleDirectory(config, level);
}
return fpath;
}
std::string cmGeneratorTarget::GetMacContentDirectory(
const std::string& config, cmStateEnums::ArtifactType artifact) const
{
// Start with the output directory for the target.
std::string fpath = cmStrCat(this->GetDirectory(config, artifact), '/');
BundleDirectoryLevel level = ContentLevel;
if (this->IsFrameworkOnApple()) {
// additional files with a framework go into the version specific
// directory
level = FullLevel;
}
fpath = this->BuildBundleDirectory(fpath, config, level);
return fpath;
}
std::string cmGeneratorTarget::GetEffectiveFolderName() const
{
std::string effectiveFolder;
if (!this->GlobalGenerator->UseFolderProperty()) {
return effectiveFolder;
}
cmValue targetFolder = this->GetProperty("FOLDER");
if (targetFolder) {
effectiveFolder += *targetFolder;
}
return effectiveFolder;
}
cmGeneratorTarget::CompileInfo const* cmGeneratorTarget::GetCompileInfo(
const std::string& config) const
{
// There is no compile information for imported targets.
if (this->IsImported()) {
return nullptr;
}
if (this->GetType() > cmStateEnums::OBJECT_LIBRARY) {
std::string msg = cmStrCat("cmTarget::GetCompileInfo called for ",
this->GetName(), " which has type ",
cmState::GetTargetTypeName(this->GetType()));
this->LocalGenerator->IssueMessage(MessageType::INTERNAL_ERROR, msg);
return nullptr;
}
// Lookup/compute/cache the compile information for this configuration.
std::string config_upper;
if (!config.empty()) {
config_upper = cmSystemTools::UpperCase(config);
}
auto i = this->CompileInfoMap.find(config_upper);
if (i == this->CompileInfoMap.end()) {
CompileInfo info;
this->ComputePDBOutputDir("COMPILE_PDB", config, info.CompilePdbDir);
CompileInfoMapType::value_type entry(config_upper, info);
i = this->CompileInfoMap.insert(entry).first;
}
return &i->second;
}
cmGeneratorTarget::ModuleDefinitionInfo const*
cmGeneratorTarget::GetModuleDefinitionInfo(std::string const& config) const
{
// A module definition file only makes sense on certain target types.
if (this->GetType() != cmStateEnums::SHARED_LIBRARY &&
this->GetType() != cmStateEnums::MODULE_LIBRARY &&
!this->IsExecutableWithExports()) {
return nullptr;
}
// Lookup/compute/cache the compile information for this configuration.
std::string config_upper;
if (!config.empty()) {
config_upper = cmSystemTools::UpperCase(config);
}
auto i = this->ModuleDefinitionInfoMap.find(config_upper);
if (i == this->ModuleDefinitionInfoMap.end()) {
ModuleDefinitionInfo info;
this->ComputeModuleDefinitionInfo(config, info);
ModuleDefinitionInfoMapType::value_type entry(config_upper, info);
i = this->ModuleDefinitionInfoMap.insert(entry).first;
}
return &i->second;
}
void cmGeneratorTarget::ComputeModuleDefinitionInfo(
std::string const& config, ModuleDefinitionInfo& info) const
{
this->GetModuleDefinitionSources(info.Sources, config);
info.WindowsExportAllSymbols =
this->Makefile->IsOn("CMAKE_SUPPORT_WINDOWS_EXPORT_ALL_SYMBOLS") &&
this->GetPropertyAsBool("WINDOWS_EXPORT_ALL_SYMBOLS");
#if !defined(CMAKE_BOOTSTRAP)
info.DefFileGenerated =
info.WindowsExportAllSymbols || info.Sources.size() > 1;
#else
// Our __create_def helper is not available during CMake bootstrap.
info.DefFileGenerated = false;
#endif
if (info.DefFileGenerated) {
info.DefFile =
this->GetObjectDirectory(config) /* has slash */ + "exports.def";
} else if (!info.Sources.empty()) {
info.DefFile = info.Sources.front()->GetFullPath();
}
}
bool cmGeneratorTarget::IsDLLPlatform() const
{
return this->Target->IsDLLPlatform();
}
void cmGeneratorTarget::GetAutoUicOptions(std::vector<std::string>& result,
const std::string& config) const
{
const char* prop =
this->GetLinkInterfaceDependentStringProperty("AUTOUIC_OPTIONS", config);
if (!prop) {
return;
}
cmGeneratorExpressionDAGChecker dagChecker(this, "AUTOUIC_OPTIONS", nullptr,
nullptr);
cmExpandList(cmGeneratorExpression::Evaluate(prop, this->LocalGenerator,
config, this, &dagChecker),
result);
}
void processILibs(const std::string& config,
cmGeneratorTarget const* headTarget, cmLinkItem const& item,
cmGlobalGenerator* gg,
std::vector<cmGeneratorTarget const*>& tgts,
std::set<cmGeneratorTarget const*>& emitted)
{
if (item.Target && emitted.insert(item.Target).second) {
tgts.push_back(item.Target);
if (cmLinkInterfaceLibraries const* iface =
item.Target->GetLinkInterfaceLibraries(config, headTarget, true)) {
for (cmLinkItem const& lib : iface->Libraries) {
processILibs(config, headTarget, lib, gg, tgts, emitted);
}
}
}
}
const std::vector<const cmGeneratorTarget*>&
cmGeneratorTarget::GetLinkImplementationClosure(
const std::string& config) const
{
// There is no link implementation for targets that cannot compile sources.
if (!this->CanCompileSources()) {
static std::vector<const cmGeneratorTarget*> const empty;
return empty;
}
LinkImplClosure& tgts = this->LinkImplClosureMap[config];
if (!tgts.Done) {
tgts.Done = true;
std::set<cmGeneratorTarget const*> emitted;
cmLinkImplementationLibraries const* impl =
this->GetLinkImplementationLibraries(config);
assert(impl);
for (cmLinkImplItem const& lib : impl->Libraries) {
processILibs(config, this, lib,
this->LocalGenerator->GetGlobalGenerator(), tgts, emitted);
}
}
return tgts;
}
class cmTargetTraceDependencies
{
public:
cmTargetTraceDependencies(cmGeneratorTarget* target);
void Trace();
private:
cmGeneratorTarget* GeneratorTarget;
cmMakefile* Makefile;
cmLocalGenerator* LocalGenerator;
cmGlobalGenerator const* GlobalGenerator;
using SourceEntry = cmGeneratorTarget::SourceEntry;
SourceEntry* CurrentEntry;
std::queue<cmSourceFile*> SourceQueue;
std::set<cmSourceFile*> SourcesQueued;
using NameMapType = std::map<std::string, cmSourcesWithOutput>;
NameMapType NameMap;
std::vector<std::string> NewSources;
void QueueSource(cmSourceFile* sf);
void FollowName(std::string const& name);
void FollowNames(std::vector<std::string> const& names);
bool IsUtility(std::string const& dep);
void CheckCustomCommand(cmCustomCommand const& cc);
void CheckCustomCommands(const std::vector<cmCustomCommand>& commands);
};
cmTargetTraceDependencies::cmTargetTraceDependencies(cmGeneratorTarget* target)
: GeneratorTarget(target)
{
// Convenience.
this->Makefile = target->Target->GetMakefile();
this->LocalGenerator = target->GetLocalGenerator();
this->GlobalGenerator = this->LocalGenerator->GetGlobalGenerator();
this->CurrentEntry = nullptr;
// Queue all the source files already specified for the target.
std::set<cmSourceFile*> emitted;
std::vector<std::string> const& configs =
this->Makefile->GetGeneratorConfigs(cmMakefile::IncludeEmptyConfig);
for (std::string const& c : configs) {
std::vector<cmSourceFile*> sources;
this->GeneratorTarget->GetSourceFiles(sources, c);
for (cmSourceFile* sf : sources) {
const std::set<cmGeneratorTarget const*> tgts =
this->GlobalGenerator->GetFilenameTargetDepends(sf);
if (cm::contains(tgts, this->GeneratorTarget)) {
std::ostringstream e;
e << "Evaluation output file\n \"" << sf->ResolveFullPath()
<< "\"\ndepends on the sources of a target it is used in. This "
"is a dependency loop and is not allowed.";
this->GeneratorTarget->LocalGenerator->IssueMessage(
MessageType::FATAL_ERROR, e.str());
return;
}
if (emitted.insert(sf).second && this->SourcesQueued.insert(sf).second) {
this->SourceQueue.push(sf);
}
}
}
// Queue pre-build, pre-link, and post-build rule dependencies.
this->CheckCustomCommands(this->GeneratorTarget->GetPreBuildCommands());
this->CheckCustomCommands(this->GeneratorTarget->GetPreLinkCommands());
this->CheckCustomCommands(this->GeneratorTarget->GetPostBuildCommands());
}
void cmTargetTraceDependencies::Trace()
{
// Process one dependency at a time until the queue is empty.
while (!this->SourceQueue.empty()) {
// Get the next source from the queue.
cmSourceFile* sf = this->SourceQueue.front();
this->SourceQueue.pop();
this->CurrentEntry = &this->GeneratorTarget->SourceDepends[sf];
// Queue dependencies added explicitly by the user.
if (cmValue additionalDeps = sf->GetProperty("OBJECT_DEPENDS")) {
std::vector<std::string> objDeps = cmExpandedList(*additionalDeps);
for (std::string& objDep : objDeps) {
if (cmSystemTools::FileIsFullPath(objDep)) {
objDep = cmSystemTools::CollapseFullPath(objDep);
}
}
this->FollowNames(objDeps);
}
// Queue the source needed to generate this file, if any.
this->FollowName(sf->ResolveFullPath());
// Queue dependencies added programmatically by commands.
this->FollowNames(sf->GetDepends());
// Queue custom command dependencies.
if (cmCustomCommand const* cc = sf->GetCustomCommand()) {
this->CheckCustomCommand(*cc);
}
}
this->CurrentEntry = nullptr;
this->GeneratorTarget->AddTracedSources(this->NewSources);
}
void cmTargetTraceDependencies::QueueSource(cmSourceFile* sf)
{
if (this->SourcesQueued.insert(sf).second) {
this->SourceQueue.push(sf);
// Make sure this file is in the target at the end.
this->NewSources.push_back(sf->ResolveFullPath());
}
}
void cmTargetTraceDependencies::FollowName(std::string const& name)
{
// Use lower bound with key comparison to not repeat the search for the
// insert position if the name could not be found (which is the common case).
auto i = this->NameMap.lower_bound(name);
if (i == this->NameMap.end() || i->first != name) {
// Check if we know how to generate this file.
cmSourcesWithOutput sources =
this->LocalGenerator->GetSourcesWithOutput(name);
// If we failed to find a target or source and we have a relative path, it
// might be a valid source if made relative to the current binary
// directory.
if (!sources.Target && !sources.Source &&
!cmSystemTools::FileIsFullPath(name)) {
auto fullname =
cmStrCat(this->Makefile->GetCurrentBinaryDirectory(), '/', name);
fullname = cmSystemTools::CollapseFullPath(
fullname, this->Makefile->GetHomeOutputDirectory());
sources = this->LocalGenerator->GetSourcesWithOutput(fullname);
}
i = this->NameMap.emplace_hint(i, name, sources);
}
if (cmTarget* t = i->second.Target) {
// The name is a byproduct of a utility target or a PRE_BUILD, PRE_LINK, or
// POST_BUILD command.
this->GeneratorTarget->Target->AddUtility(t->GetName(), false);
}
if (cmSourceFile* sf = i->second.Source) {
// For now only follow the dependency if the source file is not a
// byproduct. Semantics of byproducts in a non-Ninja context will have to
// be defined first.
if (!i->second.SourceIsByproduct) {
// Record the dependency we just followed.
if (this->CurrentEntry) {
this->CurrentEntry->Depends.push_back(sf);
}
this->QueueSource(sf);
}
}
}
void cmTargetTraceDependencies::FollowNames(
std::vector<std::string> const& names)
{
for (std::string const& name : names) {
this->FollowName(name);
}
}
bool cmTargetTraceDependencies::IsUtility(std::string const& dep)
{
// Dependencies on targets (utilities) are supposed to be named by
// just the target name. However for compatibility we support
// naming the output file generated by the target (assuming there is
// no output-name property which old code would not have set). In
// that case the target name will be the file basename of the
// dependency.
std::string util = cmSystemTools::GetFilenameName(dep);
if (cmSystemTools::GetFilenameLastExtension(util) == ".exe") {
util = cmSystemTools::GetFilenameWithoutLastExtension(util);
}
// Check for a target with this name.
if (cmGeneratorTarget* t =
this->GeneratorTarget->GetLocalGenerator()->FindGeneratorTargetToUse(
util)) {
// If we find the target and the dep was given as a full path,
// then make sure it was not a full path to something else, and
// the fact that the name matched a target was just a coincidence.
if (cmSystemTools::FileIsFullPath(dep)) {
if (t->GetType() >= cmStateEnums::EXECUTABLE &&
t->GetType() <= cmStateEnums::MODULE_LIBRARY) {
// This is really only for compatibility so we do not need to
// worry about configuration names and output names.
std::string tLocation = t->GetLocationForBuild();
tLocation = cmSystemTools::GetFilenamePath(tLocation);
std::string depLocation = cmSystemTools::GetFilenamePath(dep);
depLocation = cmSystemTools::CollapseFullPath(depLocation);
tLocation = cmSystemTools::CollapseFullPath(tLocation);
if (depLocation == tLocation) {
this->GeneratorTarget->Target->AddUtility(util, false);
return true;
}
}
} else {
// The original name of the dependency was not a full path. It
// must name a target, so add the target-level dependency.
this->GeneratorTarget->Target->AddUtility(util, true);
return true;
}
}
// The dependency does not name a target built in this project.
return false;
}
void cmTargetTraceDependencies::CheckCustomCommand(cmCustomCommand const& cc)
{
// Collect dependencies referenced by all configurations.
std::set<std::string> depends;
for (std::string const& config :
this->Makefile->GetGeneratorConfigs(cmMakefile::IncludeEmptyConfig)) {
for (cmCustomCommandGenerator const& ccg :
this->LocalGenerator->MakeCustomCommandGenerators(cc, config)) {
// Collect target-level dependencies referenced in command lines.
for (auto const& util : ccg.GetUtilities()) {
this->GeneratorTarget->Target->AddUtility(util);
}
// Collect file-level dependencies referenced in DEPENDS.
depends.insert(ccg.GetDepends().begin(), ccg.GetDepends().end());
}
}
// Queue file-level dependencies.
for (std::string const& dep : depends) {
if (!this->IsUtility(dep)) {
// The dependency does not name a target and may be a file we
// know how to generate. Queue it.
this->FollowName(dep);
}
}
}
void cmTargetTraceDependencies::CheckCustomCommands(
const std::vector<cmCustomCommand>& commands)
{
for (cmCustomCommand const& command : commands) {
this->CheckCustomCommand(command);
}
}
void cmGeneratorTarget::TraceDependencies()
{
// CMake-generated targets have no dependencies to trace. Normally tracing
// would find nothing anyway, but when building CMake itself the "install"
// target command ends up referencing the "cmake" target but we do not
// really want the dependency because "install" depend on "all" anyway.
if (this->GetType() == cmStateEnums::GLOBAL_TARGET) {
return;
}
// Use a helper object to trace the dependencies.
cmTargetTraceDependencies tracer(this);
tracer.Trace();
}
std::string cmGeneratorTarget::GetCompilePDBDirectory(
const std::string& config) const
{
if (CompileInfo const* info = this->GetCompileInfo(config)) {
return info->CompilePdbDir;
}
return "";
}
void cmGeneratorTarget::GetAppleArchs(const std::string& config,
std::vector<std::string>& archVec) const
{
if (!this->Makefile->IsOn("APPLE")) {
return;
}
cmValue archs = nullptr;
if (!config.empty()) {
std::string defVarName =
cmStrCat("OSX_ARCHITECTURES_", cmSystemTools::UpperCase(config));
archs = this->GetProperty(defVarName);
}
if (!archs) {
archs = this->GetProperty("OSX_ARCHITECTURES");
}
if (archs) {
cmExpandList(*archs, archVec);
}
if (archVec.empty()) {
this->Makefile->GetDefExpandList("_CMAKE_APPLE_ARCHS_DEFAULT", archVec);
}
}
void cmGeneratorTarget::AddExplicitLanguageFlags(std::string& flags,
cmSourceFile const& sf) const
{
cmValue lang = sf.GetProperty("LANGUAGE");
if (!lang) {
return;
}
switch (this->GetPolicyStatusCMP0119()) {
case cmPolicies::WARN:
CM_FALLTHROUGH;
case cmPolicies::OLD:
// The OLD behavior is to not add explicit language flags.
return;
case cmPolicies::REQUIRED_ALWAYS:
case cmPolicies::REQUIRED_IF_USED:
case cmPolicies::NEW:
// The NEW behavior is to add explicit language flags.
break;
}
this->LocalGenerator->AppendFeatureOptions(flags, *lang,
"EXPLICIT_LANGUAGE");
}
void cmGeneratorTarget::AddCUDAArchitectureFlags(std::string& flags) const
{
const std::string& property = this->GetSafeProperty("CUDA_ARCHITECTURES");
if (property.empty()) {
switch (this->GetPolicyStatusCMP0104()) {
case cmPolicies::WARN:
if (!this->LocalGenerator->GetCMakeInstance()->GetIsInTryCompile()) {
this->Makefile->IssueMessage(
MessageType::AUTHOR_WARNING,
cmPolicies::GetPolicyWarning(cmPolicies::CMP0104) +
"\nCUDA_ARCHITECTURES is empty for target \"" + this->GetName() +
"\".");
}
CM_FALLTHROUGH;
case cmPolicies::OLD:
break;
default:
this->Makefile->IssueMessage(
MessageType::FATAL_ERROR,
"CUDA_ARCHITECTURES is empty for target \"" + this->GetName() +
"\".");
}
}
// If CUDA_ARCHITECTURES is false we don't add any architectures.
if (cmIsOff(property)) {
return;
}
struct CudaArchitecture
{
std::string name;
bool real{ true };
bool virtual_{ true };
};
std::vector<CudaArchitecture> architectures;
{
std::vector<std::string> options;
cmExpandList(property, options);
for (std::string& option : options) {
CudaArchitecture architecture;
// Architecture name is up to the first specifier.
std::size_t pos = option.find_first_of('-');
architecture.name = option.substr(0, pos);
if (pos != std::string::npos) {
cm::string_view specifier{ option.c_str() + pos + 1,
option.length() - pos - 1 };
if (specifier == "real") {
architecture.real = true;
architecture.virtual_ = false;
} else if (specifier == "virtual") {
architecture.real = false;
architecture.virtual_ = true;
} else {
this->Makefile->IssueMessage(
MessageType::FATAL_ERROR,
"Unknown CUDA architecture specifier \"" + std::string(specifier) +
"\".");
}
}
architectures.emplace_back(architecture);
}
}
std::string const& compiler =
this->Makefile->GetSafeDefinition("CMAKE_CUDA_COMPILER_ID");
if (compiler == "NVIDIA") {
for (CudaArchitecture& architecture : architectures) {
flags +=
" --generate-code=arch=compute_" + architecture.name + ",code=[";
if (architecture.virtual_) {
flags += "compute_" + architecture.name;
if (architecture.real) {
flags += ",";
}
}
if (architecture.real) {
flags += "sm_" + architecture.name;
}
flags += "]";
}
} else if (compiler == "Clang") {
for (CudaArchitecture& architecture : architectures) {
flags += " --cuda-gpu-arch=sm_" + architecture.name;
if (!architecture.real) {
this->Makefile->IssueMessage(
MessageType::WARNING,
"Clang doesn't support disabling CUDA real code generation.");
}
if (!architecture.virtual_) {
flags += " --no-cuda-include-ptx=sm_" + architecture.name;
}
}
}
}
void cmGeneratorTarget::AddISPCTargetFlags(std::string& flags) const
{
const std::string& property = this->GetSafeProperty("ISPC_INSTRUCTION_SETS");
// If ISPC_TARGET is false we don't add any architectures.
if (cmIsOff(property)) {
return;
}
std::string const& compiler =
this->Makefile->GetSafeDefinition("CMAKE_ISPC_COMPILER_ID");
if (compiler == "Intel") {
std::vector<std::string> targets;
cmExpandList(property, targets);
if (!targets.empty()) {
flags += cmStrCat(" --target=", cmWrap("", targets, "", ","));
}
}
}
void cmGeneratorTarget::AddHIPArchitectureFlags(std::string& flags) const
{
const std::string& property = this->GetSafeProperty("HIP_ARCHITECTURES");
if (property.empty()) {
this->Makefile->IssueMessage(MessageType::FATAL_ERROR,
"HIP_ARCHITECTURES is empty for target \"" +
this->GetName() + "\".");
}
// If HIP_ARCHITECTURES is false we don't add any architectures.
if (cmIsOff(property)) {
return;
}
std::vector<std::string> options;
cmExpandList(property, options);
for (std::string& option : options) {
flags += " --offload-arch=" + option;
}
}
void cmGeneratorTarget::AddCUDAToolkitFlags(std::string& flags) const
{
std::string const& compiler =
this->Makefile->GetSafeDefinition("CMAKE_CUDA_COMPILER_ID");
if (compiler == "Clang") {
// Pass CUDA toolkit explicitly to Clang.
// Clang's searching for the system CUDA toolkit isn't very good and it's
// expected the user will explicitly pass the toolkit path.
// This also avoids Clang having to search for the toolkit on every
// invocation.
std::string toolkitRoot =
this->Makefile->GetSafeDefinition("CMAKE_CUDA_COMPILER_LIBRARY_ROOT");
if (!toolkitRoot.empty()) {
flags += " --cuda-path=" +
this->LocalGenerator->ConvertToOutputFormat(toolkitRoot,
cmOutputConverter::SHELL);
}
}
}
//----------------------------------------------------------------------------
std::string cmGeneratorTarget::GetFeatureSpecificLinkRuleVariable(
std::string const& var, std::string const& lang,
std::string const& config) const
{
if (this->IsIPOEnabled(lang, config)) {
std::string varIPO = var + "_IPO";
if (this->Makefile->IsDefinitionSet(varIPO)) {
return varIPO;
}
}
return var;
}
//----------------------------------------------------------------------------
std::string cmGeneratorTarget::GetCreateRuleVariable(
std::string const& lang, std::string const& config) const
{
switch (this->GetType()) {
case cmStateEnums::STATIC_LIBRARY: {
std::string var = "CMAKE_" + lang + "_CREATE_STATIC_LIBRARY";
return this->GetFeatureSpecificLinkRuleVariable(var, lang, config);
}
case cmStateEnums::SHARED_LIBRARY:
return "CMAKE_" + lang + "_CREATE_SHARED_LIBRARY";
case cmStateEnums::MODULE_LIBRARY:
return "CMAKE_" + lang + "_CREATE_SHARED_MODULE";
case cmStateEnums::EXECUTABLE:
if (this->IsExecutableWithExports()) {
std::string linkExeWithExports =
"CMAKE_" + lang + "_LINK_EXECUTABLE_WITH_EXPORTS";
if (this->Makefile->IsDefinitionSet(linkExeWithExports)) {
return linkExeWithExports;
}
}
return "CMAKE_" + lang + "_LINK_EXECUTABLE";
default:
break;
}
return "";
}
namespace {
void processIncludeDirectories(cmGeneratorTarget const* tgt,
EvaluatedTargetPropertyEntries& entries,
std::vector<BT<std::string>>& includes,
std::unordered_set<std::string>& uniqueIncludes,
bool debugIncludes)
{
for (EvaluatedTargetPropertyEntry& entry : entries.Entries) {
cmLinkImplItem const& item = entry.LinkImplItem;
std::string const& targetName = item.AsStr();
bool const fromImported = item.Target && item.Target->IsImported();
bool const checkCMP0027 = item.FromGenex;
std::string usedIncludes;
for (std::string& entryInclude : entry.Values) {
if (fromImported && !cmSystemTools::FileExists(entryInclude)) {
std::ostringstream e;
MessageType messageType = MessageType::FATAL_ERROR;
if (checkCMP0027) {
switch (tgt->GetPolicyStatusCMP0027()) {
case cmPolicies::WARN:
e << cmPolicies::GetPolicyWarning(cmPolicies::CMP0027) << "\n";
CM_FALLTHROUGH;
case cmPolicies::OLD:
messageType = MessageType::AUTHOR_WARNING;
break;
case cmPolicies::REQUIRED_ALWAYS:
case cmPolicies::REQUIRED_IF_USED:
case cmPolicies::NEW:
break;
}
}
/* clang-format off */
e << "Imported target \"" << targetName << "\" includes "
"non-existent path\n \"" << entryInclude << "\"\nin its "
"INTERFACE_INCLUDE_DIRECTORIES. Possible reasons include:\n"
"* The path was deleted, renamed, or moved to another "
"location.\n"
"* An install or uninstall procedure did not complete "
"successfully.\n"
"* The installation package was faulty and references files it "
"does not provide.\n";
/* clang-format on */
tgt->GetLocalGenerator()->IssueMessage(messageType, e.str());
return;
}
if (!cmSystemTools::FileIsFullPath(entryInclude)) {
std::ostringstream e;
bool noMessage = false;
MessageType messageType = MessageType::FATAL_ERROR;
if (!targetName.empty()) {
/* clang-format off */
e << "Target \"" << targetName << "\" contains relative "
"path in its INTERFACE_INCLUDE_DIRECTORIES:\n"
" \"" << entryInclude << "\"";
/* clang-format on */
} else {
switch (tgt->GetPolicyStatusCMP0021()) {
case cmPolicies::WARN: {
e << cmPolicies::GetPolicyWarning(cmPolicies::CMP0021) << "\n";
messageType = MessageType::AUTHOR_WARNING;
} break;
case cmPolicies::OLD:
noMessage = true;
break;
case cmPolicies::REQUIRED_IF_USED:
case cmPolicies::REQUIRED_ALWAYS:
case cmPolicies::NEW:
// Issue the fatal message.
break;
}
e << "Found relative path while evaluating include directories of "
"\""
<< tgt->GetName() << "\":\n \"" << entryInclude << "\"\n";
}
if (!noMessage) {
tgt->GetLocalGenerator()->IssueMessage(messageType, e.str());
if (messageType == MessageType::FATAL_ERROR) {
return;
}
}
}
if (!cmIsOff(entryInclude)) {
cmSystemTools::ConvertToUnixSlashes(entryInclude);
}
if (uniqueIncludes.insert(entryInclude).second) {
includes.emplace_back(entryInclude, entry.Backtrace);
if (debugIncludes) {
usedIncludes += " * " + entryInclude + "\n";
}
}
}
if (!usedIncludes.empty()) {
tgt->GetLocalGenerator()->GetCMakeInstance()->IssueMessage(
MessageType::LOG,
std::string("Used includes for target ") + tgt->GetName() + ":\n" +
usedIncludes,
entry.Backtrace);
}
}
}
}
std::vector<BT<std::string>> cmGeneratorTarget::GetIncludeDirectories(
const std::string& config, const std::string& lang) const
{
std::vector<BT<std::string>> includes;
std::unordered_set<std::string> uniqueIncludes;
cmGeneratorExpressionDAGChecker dagChecker(this, "INCLUDE_DIRECTORIES",
nullptr, nullptr);
std::vector<std::string> debugProperties;
this->Makefile->GetDefExpandList("CMAKE_DEBUG_TARGET_PROPERTIES",
debugProperties);
bool debugIncludes = !this->DebugIncludesDone &&
cm::contains(debugProperties, "INCLUDE_DIRECTORIES");
if (this->GlobalGenerator->GetConfigureDoneCMP0026()) {
this->DebugIncludesDone = true;
}
EvaluatedTargetPropertyEntries entries = EvaluateTargetPropertyEntries(
this, config, lang, &dagChecker, this->IncludeDirectoriesEntries);
if (lang == "Swift") {
AddLangSpecificImplicitIncludeDirectories(
this, lang, config, "Swift_MODULE_DIRECTORY",
IncludeDirectoryFallBack::BINARY, entries);
}
if (this->CanCompileSources() && (lang != "Swift" && lang != "Fortran")) {
const std::string propertyName = "ISPC_HEADER_DIRECTORY";
// If this target has ISPC sources make sure to add the header
// directory to other compilation units
if (cm::contains(this->GetAllConfigCompileLanguages(), "ISPC")) {
if (cmValue val = this->GetProperty(propertyName)) {
includes.emplace_back(*val);
} else {
includes.emplace_back(this->GetObjectDirectory(config));
}
}
AddLangSpecificImplicitIncludeDirectories(
this, "ISPC", config, propertyName, IncludeDirectoryFallBack::OBJECT,
entries);
}
AddInterfaceEntries(this, config, "INTERFACE_INCLUDE_DIRECTORIES", lang,
&dagChecker, entries, IncludeRuntimeInterface::Yes);
if (this->Makefile->IsOn("APPLE")) {
if (cmLinkImplementationLibraries const* impl =
this->GetLinkImplementationLibraries(config)) {
for (cmLinkImplItem const& lib : impl->Libraries) {
std::string libDir = cmSystemTools::CollapseFullPath(
lib.AsStr(), this->Makefile->GetHomeOutputDirectory());
static cmsys::RegularExpression frameworkCheck(
"(.*\\.framework)(/Versions/[^/]+)?/[^/]+$");
if (!frameworkCheck.find(libDir)) {
continue;
}
libDir = frameworkCheck.match(1);
EvaluatedTargetPropertyEntry ee(lib, cmListFileBacktrace());
ee.Values.emplace_back(std::move(libDir));
entries.Entries.emplace_back(std::move(ee));
}
}
}
processIncludeDirectories(this, entries, includes, uniqueIncludes,
debugIncludes);
return includes;
}
enum class OptionsParse
{
None,
Shell
};
namespace {
const auto DL_BEGIN = "<DEVICE_LINK>"_s;
const auto DL_END = "</DEVICE_LINK>"_s;
void processOptions(cmGeneratorTarget const* tgt,
EvaluatedTargetPropertyEntries const& entries,
std::vector<BT<std::string>>& options,
std::unordered_set<std::string>& uniqueOptions,
bool debugOptions, const char* logName, OptionsParse parse,
bool processDeviceOptions = false)
{
bool splitOption = !processDeviceOptions;
for (EvaluatedTargetPropertyEntry const& entry : entries.Entries) {
std::string usedOptions;
for (std::string const& opt : entry.Values) {
if (processDeviceOptions && (opt == DL_BEGIN || opt == DL_END)) {
options.emplace_back(opt, entry.Backtrace);
splitOption = opt == DL_BEGIN;
continue;
}
if (uniqueOptions.insert(opt).second) {
if (parse == OptionsParse::Shell &&
cmHasLiteralPrefix(opt, "SHELL:")) {
if (splitOption) {
std::vector<std::string> tmp;
cmSystemTools::ParseUnixCommandLine(opt.c_str() + 6, tmp);
for (std::string& o : tmp) {
options.emplace_back(std::move(o), entry.Backtrace);
}
} else {
options.emplace_back(std::string(opt.c_str() + 6),
entry.Backtrace);
}
} else {
options.emplace_back(opt, entry.Backtrace);
}
if (debugOptions) {
usedOptions += " * " + opt + "\n";
}
}
}
if (!usedOptions.empty()) {
tgt->GetLocalGenerator()->GetCMakeInstance()->IssueMessage(
MessageType::LOG,
std::string("Used ") + logName + std::string(" for target ") +
tgt->GetName() + ":\n" + usedOptions,
entry.Backtrace);
}
}
}
std::vector<BT<std::string>> wrapOptions(
std::vector<std::string>& options, const cmListFileBacktrace& bt,
const std::vector<std::string>& wrapperFlag, const std::string& wrapperSep,
bool concatFlagAndArgs)
{
std::vector<BT<std::string>> result;
if (options.empty()) {
return result;
}
if (wrapperFlag.empty()) {
// nothing specified, insert elements as is
result.reserve(options.size());
for (std::string& o : options) {
result.emplace_back(std::move(o), bt);
}
return result;
}
for (std::vector<std::string>::size_type index = 0; index < options.size();
index++) {
if (cmHasLiteralPrefix(options[index], "LINKER:")) {
// LINKER wrapper specified, insert elements as is
result.emplace_back(std::move(options[index]), bt);
continue;
}
if (cmHasLiteralPrefix(options[index], "-Wl,")) {
// replace option by LINKER wrapper
result.emplace_back(options[index].replace(0, 4, "LINKER:"), bt);
continue;
}
if (cmHasLiteralPrefix(options[index], "-Xlinker=")) {
// replace option by LINKER wrapper
result.emplace_back(options[index].replace(0, 9, "LINKER:"), bt);
continue;
}
if (options[index] == "-Xlinker") {
// replace option by LINKER wrapper
if (index + 1 < options.size()) {
result.emplace_back("LINKER:" + options[++index], bt);
} else {
result.emplace_back(std::move(options[index]), bt);
}
continue;
}
// collect all options which must be transformed
std::vector<std::string> opts;
while (index < options.size()) {
if (!cmHasLiteralPrefix(options[index], "LINKER:") &&
!cmHasLiteralPrefix(options[index], "-Wl,") &&
!cmHasLiteralPrefix(options[index], "-Xlinker")) {
opts.emplace_back(std::move(options[index++]));
} else {
--index;
break;
}
}
if (opts.empty()) {
continue;
}
if (!wrapperSep.empty()) {
if (concatFlagAndArgs) {
// insert flag elements except last one
for (auto i = wrapperFlag.begin(); i != wrapperFlag.end() - 1; ++i) {
result.emplace_back(*i, bt);
}
// concatenate last flag element and all list values
// in one option
result.emplace_back(wrapperFlag.back() + cmJoin(opts, wrapperSep), bt);
} else {
for (std::string const& i : wrapperFlag) {
result.emplace_back(i, bt);
}
// concatenate all list values in one option
result.emplace_back(cmJoin(opts, wrapperSep), bt);
}
} else {
// prefix each element of list with wrapper
if (concatFlagAndArgs) {
std::transform(opts.begin(), opts.end(), opts.begin(),
[&wrapperFlag](std::string const& o) -> std::string {
return wrapperFlag.back() + o;
});
}
for (std::string& o : opts) {
for (auto i = wrapperFlag.begin(),
e = concatFlagAndArgs ? wrapperFlag.end() - 1
: wrapperFlag.end();
i != e; ++i) {
result.emplace_back(*i, bt);
}
result.emplace_back(std::move(o), bt);
}
}
}
return result;
}
}
void cmGeneratorTarget::GetCompileOptions(std::vector<std::string>& result,
const std::string& config,
const std::string& language) const
{
std::vector<BT<std::string>> tmp = this->GetCompileOptions(config, language);
result.reserve(tmp.size());
for (BT<std::string>& v : tmp) {
result.emplace_back(std::move(v.Value));
}
}
std::vector<BT<std::string>> cmGeneratorTarget::GetCompileOptions(
std::string const& config, std::string const& language) const
{
std::vector<BT<std::string>> result;
std::unordered_set<std::string> uniqueOptions;
cmGeneratorExpressionDAGChecker dagChecker(this, "COMPILE_OPTIONS", nullptr,
nullptr);
std::vector<std::string> debugProperties;
this->Makefile->GetDefExpandList("CMAKE_DEBUG_TARGET_PROPERTIES",
debugProperties);
bool debugOptions = !this->DebugCompileOptionsDone &&
cm::contains(debugProperties, "COMPILE_OPTIONS");
if (this->GlobalGenerator->GetConfigureDoneCMP0026()) {
this->DebugCompileOptionsDone = true;
}
EvaluatedTargetPropertyEntries entries = EvaluateTargetPropertyEntries(
this, config, language, &dagChecker, this->CompileOptionsEntries);
AddInterfaceEntries(this, config, "INTERFACE_COMPILE_OPTIONS", language,
&dagChecker, entries, IncludeRuntimeInterface::Yes);
processOptions(this, entries, result, uniqueOptions, debugOptions,
"compile options", OptionsParse::Shell);
return result;
}
void cmGeneratorTarget::GetCompileFeatures(std::vector<std::string>& result,
const std::string& config) const
{
std::vector<BT<std::string>> tmp = this->GetCompileFeatures(config);
result.reserve(tmp.size());
for (BT<std::string>& v : tmp) {
result.emplace_back(std::move(v.Value));
}
}
std::vector<BT<std::string>> cmGeneratorTarget::GetCompileFeatures(
std::string const& config) const
{
std::vector<BT<std::string>> result;
std::unordered_set<std::string> uniqueFeatures;
cmGeneratorExpressionDAGChecker dagChecker(this, "COMPILE_FEATURES", nullptr,
nullptr);
std::vector<std::string> debugProperties;
this->Makefile->GetDefExpandList("CMAKE_DEBUG_TARGET_PROPERTIES",
debugProperties);
bool debugFeatures = !this->DebugCompileFeaturesDone &&
cm::contains(debugProperties, "COMPILE_FEATURES");
if (this->GlobalGenerator->GetConfigureDoneCMP0026()) {
this->DebugCompileFeaturesDone = true;
}
EvaluatedTargetPropertyEntries entries = EvaluateTargetPropertyEntries(
this, config, std::string(), &dagChecker, this->CompileFeaturesEntries);
AddInterfaceEntries(this, config, "INTERFACE_COMPILE_FEATURES",
std::string(), &dagChecker, entries,
IncludeRuntimeInterface::Yes);
processOptions(this, entries, result, uniqueFeatures, debugFeatures,
"compile features", OptionsParse::None);
return result;
}
void cmGeneratorTarget::GetCompileDefinitions(
std::vector<std::string>& result, const std::string& config,
const std::string& language) const
{
std::vector<BT<std::string>> tmp =
this->GetCompileDefinitions(config, language);
result.reserve(tmp.size());
for (BT<std::string>& v : tmp) {
result.emplace_back(std::move(v.Value));
}
}
std::vector<BT<std::string>> cmGeneratorTarget::GetCompileDefinitions(
std::string const& config, std::string const& language) const
{
std::vector<BT<std::string>> list;
std::unordered_set<std::string> uniqueOptions;
cmGeneratorExpressionDAGChecker dagChecker(this, "COMPILE_DEFINITIONS",
nullptr, nullptr);
std::vector<std::string> debugProperties;
this->Makefile->GetDefExpandList("CMAKE_DEBUG_TARGET_PROPERTIES",
debugProperties);
bool debugDefines = !this->DebugCompileDefinitionsDone &&
cm::contains(debugProperties, "COMPILE_DEFINITIONS");
if (this->GlobalGenerator->GetConfigureDoneCMP0026()) {
this->DebugCompileDefinitionsDone = true;
}
EvaluatedTargetPropertyEntries entries = EvaluateTargetPropertyEntries(
this, config, language, &dagChecker, this->CompileDefinitionsEntries);
AddInterfaceEntries(this, config, "INTERFACE_COMPILE_DEFINITIONS", language,
&dagChecker, entries, IncludeRuntimeInterface::Yes);
if (!config.empty()) {
std::string configPropName =
"COMPILE_DEFINITIONS_" + cmSystemTools::UpperCase(config);
cmValue configProp = this->GetProperty(configPropName);
if (configProp) {
switch (this->Makefile->GetPolicyStatus(cmPolicies::CMP0043)) {
case cmPolicies::WARN: {
this->LocalGenerator->IssueMessage(
MessageType::AUTHOR_WARNING,
cmPolicies::GetPolicyWarning(cmPolicies::CMP0043));
CM_FALLTHROUGH;
}
case cmPolicies::OLD: {
std::unique_ptr<TargetPropertyEntry> entry =
CreateTargetPropertyEntry(*configProp);
entries.Entries.emplace_back(EvaluateTargetPropertyEntry(
this, config, language, &dagChecker, *entry));
} break;
case cmPolicies::NEW:
case cmPolicies::REQUIRED_ALWAYS:
case cmPolicies::REQUIRED_IF_USED:
break;
}
}
}
processOptions(this, entries, list, uniqueOptions, debugDefines,
"compile definitions", OptionsParse::None);
return list;
}
std::vector<BT<std::string>> cmGeneratorTarget::GetPrecompileHeaders(
const std::string& config, const std::string& language) const
{
std::unordered_set<std::string> uniqueOptions;
cmGeneratorExpressionDAGChecker dagChecker(this, "PRECOMPILE_HEADERS",
nullptr, nullptr);
std::vector<std::string> debugProperties;
this->Makefile->GetDefExpandList("CMAKE_DEBUG_TARGET_PROPERTIES",
debugProperties);
bool debugDefines = !this->DebugPrecompileHeadersDone &&
std::find(debugProperties.begin(), debugProperties.end(),
"PRECOMPILE_HEADERS") != debugProperties.end();
if (this->GlobalGenerator->GetConfigureDoneCMP0026()) {
this->DebugPrecompileHeadersDone = true;
}
EvaluatedTargetPropertyEntries entries = EvaluateTargetPropertyEntries(
this, config, language, &dagChecker, this->PrecompileHeadersEntries);
AddInterfaceEntries(this, config, "INTERFACE_PRECOMPILE_HEADERS", language,
&dagChecker, entries, IncludeRuntimeInterface::Yes);
std::vector<BT<std::string>> list;
processOptions(this, entries, list, uniqueOptions, debugDefines,
"precompile headers", OptionsParse::None);
return list;
}
std::string cmGeneratorTarget::GetPchHeader(const std::string& config,
const std::string& language,
const std::string& arch) const
{
if (language != "C" && language != "CXX" && language != "OBJC" &&
language != "OBJCXX") {
return std::string();
}
if (this->GetPropertyAsBool("DISABLE_PRECOMPILE_HEADERS")) {
return std::string();
}
const cmGeneratorTarget* generatorTarget = this;
cmValue pchReuseFrom =
generatorTarget->GetProperty("PRECOMPILE_HEADERS_REUSE_FROM");
const auto inserted =
this->PchHeaders.insert(std::make_pair(language + config + arch, ""));
if (inserted.second) {
const std::vector<BT<std::string>> headers =
this->GetPrecompileHeaders(config, language);
if (headers.empty() && !pchReuseFrom) {
return std::string();
}
std::string& filename = inserted.first->second;
if (pchReuseFrom) {
generatorTarget =
this->GetGlobalGenerator()->FindGeneratorTarget(*pchReuseFrom);
}
filename = cmStrCat(
generatorTarget->LocalGenerator->GetCurrentBinaryDirectory(), "/");
const std::map<std::string, std::string> languageToExtension = {
{ "C", ".h" },
{ "CXX", ".hxx" },
{ "OBJC", ".objc.h" },
{ "OBJCXX", ".objcxx.hxx" }
};
filename =
cmStrCat(filename, "CMakeFiles/", generatorTarget->GetName(), ".dir");
if (this->GetGlobalGenerator()->IsMultiConfig()) {
filename = cmStrCat(filename, "/", config);
}
filename =
cmStrCat(filename, "/cmake_pch", arch.empty() ? "" : cmStrCat("_", arch),
languageToExtension.at(language));
const std::string filename_tmp = cmStrCat(filename, ".tmp");
if (!pchReuseFrom) {
cmValue pchPrologue =
this->Makefile->GetDefinition("CMAKE_PCH_PROLOGUE");
cmValue pchEpilogue =
this->Makefile->GetDefinition("CMAKE_PCH_EPILOGUE");
std::string firstHeaderOnDisk;
{
cmGeneratedFileStream file(
filename_tmp, false,
this->GetGlobalGenerator()->GetMakefileEncoding());
file << "/* generated by CMake */\n\n";
if (pchPrologue) {
file << *pchPrologue << "\n";
}
if (this->GetGlobalGenerator()->IsXcode()) {
file << "#ifndef CMAKE_SKIP_PRECOMPILE_HEADERS\n";
}
if (language == "CXX" && !this->GetGlobalGenerator()->IsXcode()) {
file << "#ifdef __cplusplus\n";
}
for (auto const& header_bt : headers) {
if (header_bt.Value.empty()) {
continue;
}
if (header_bt.Value[0] == '<' || header_bt.Value[0] == '\"') {
file << "#include " << header_bt.Value << "\n";
} else {
file << "#include \"" << header_bt.Value << "\"\n";
}
if (cmSystemTools::FileExists(header_bt.Value) &&
firstHeaderOnDisk.empty()) {
firstHeaderOnDisk = header_bt.Value;
}
}
if (language == "CXX" && !this->GetGlobalGenerator()->IsXcode()) {
file << "#endif // __cplusplus\n";
}
if (this->GetGlobalGenerator()->IsXcode()) {
file << "#endif // CMAKE_SKIP_PRECOMPILE_HEADERS\n";
}
if (pchEpilogue) {
file << *pchEpilogue << "\n";
}
}
if (!firstHeaderOnDisk.empty()) {
cmFileTimes::Copy(firstHeaderOnDisk, filename_tmp);
}
cmSystemTools::MoveFileIfDifferent(filename_tmp, filename);
}
}
return inserted.first->second;
}
std::string cmGeneratorTarget::GetPchSource(const std::string& config,
const std::string& language,
const std::string& arch) const
{
if (language != "C" && language != "CXX" && language != "OBJC" &&
language != "OBJCXX") {
return std::string();
}
const auto inserted =
this->PchSources.insert(std::make_pair(language + config + arch, ""));
if (inserted.second) {
const std::string pchHeader = this->GetPchHeader(config, language, arch);
if (pchHeader.empty()) {
return std::string();
}
std::string& filename = inserted.first->second;
const cmGeneratorTarget* generatorTarget = this;
cmValue pchReuseFrom =
generatorTarget->GetProperty("PRECOMPILE_HEADERS_REUSE_FROM");
if (pchReuseFrom) {
generatorTarget =
this->GetGlobalGenerator()->FindGeneratorTarget(*pchReuseFrom);
}
filename =
cmStrCat(generatorTarget->LocalGenerator->GetCurrentBinaryDirectory(),
"/CMakeFiles/", generatorTarget->GetName(), ".dir/cmake_pch");
// For GCC the source extension will be transformed into .h[xx].gch
if (!this->Makefile->IsOn("CMAKE_LINK_PCH")) {
const std::map<std::string, std::string> languageToExtension = {
{ "C", ".h.c" },
{ "CXX", ".hxx.cxx" },
{ "OBJC", ".objc.h.m" },
{ "OBJCXX", ".objcxx.hxx.mm" }
};
filename = cmStrCat(filename, arch.empty() ? "" : cmStrCat("_", arch),
languageToExtension.at(language));
} else {
const std::map<std::string, std::string> languageToExtension = {
{ "C", ".c" }, { "CXX", ".cxx" }, { "OBJC", ".m" }, { "OBJCXX", ".mm" }
};
filename = cmStrCat(filename, arch.empty() ? "" : cmStrCat("_", arch),
languageToExtension.at(language));
}
const std::string filename_tmp = cmStrCat(filename, ".tmp");
if (!pchReuseFrom) {
{
cmGeneratedFileStream file(filename_tmp);
file << "/* generated by CMake */\n";
}
cmFileTimes::Copy(pchHeader, filename_tmp);
cmSystemTools::MoveFileIfDifferent(filename_tmp, filename);
}
}
return inserted.first->second;
}
std::string cmGeneratorTarget::GetPchFileObject(const std::string& config,
const std::string& language,
const std::string& arch)
{
if (language != "C" && language != "CXX" && language != "OBJC" &&
language != "OBJCXX") {
return std::string();
}
const auto inserted =
this->PchObjectFiles.insert(std::make_pair(language + config + arch, ""));
if (inserted.second) {
const std::string pchSource = this->GetPchSource(config, language, arch);
if (pchSource.empty()) {
return std::string();
}
std::string& filename = inserted.first->second;
auto* pchSf = this->Makefile->GetOrCreateSource(
pchSource, false, cmSourceFileLocationKind::Known);
filename = cmStrCat(this->ObjectDirectory, this->GetObjectName(pchSf));
if (this->GetGlobalGenerator()->IsMultiConfig()) {
cmSystemTools::ReplaceString(
filename, this->GetGlobalGenerator()->GetCMakeCFGIntDir(), config);
}
}
return inserted.first->second;
}
std::string cmGeneratorTarget::GetPchFile(const std::string& config,
const std::string& language,
const std::string& arch)
{
const auto inserted =
this->PchFiles.insert(std::make_pair(language + config + arch, ""));
if (inserted.second) {
std::string& pchFile = inserted.first->second;
const std::string pchExtension =
this->Makefile->GetSafeDefinition("CMAKE_PCH_EXTENSION");
if (this->Makefile->IsOn("CMAKE_LINK_PCH")) {
auto replaceExtension = [](const std::string& str,
const std::string& ext) -> std::string {
auto dot_pos = str.rfind('.');
std::string result;
if (dot_pos != std::string::npos) {
result = str.substr(0, dot_pos);
}
result += ext;
return result;
};
cmGeneratorTarget* generatorTarget = this;
cmValue pchReuseFrom =
generatorTarget->GetProperty("PRECOMPILE_HEADERS_REUSE_FROM");
if (pchReuseFrom) {
generatorTarget =
this->GetGlobalGenerator()->FindGeneratorTarget(*pchReuseFrom);
}
const std::string pchFileObject =
generatorTarget->GetPchFileObject(config, language, arch);
if (!pchExtension.empty()) {
pchFile = replaceExtension(pchFileObject, pchExtension);
}
} else {
pchFile = this->GetPchHeader(config, language, arch);
pchFile += pchExtension;
}
}
return inserted.first->second;
}
std::string cmGeneratorTarget::GetPchCreateCompileOptions(
const std::string& config, const std::string& language,
const std::string& arch)
{
const auto inserted = this->PchCreateCompileOptions.insert(
std::make_pair(language + config + arch, ""));
if (inserted.second) {
std::string& createOptionList = inserted.first->second;
if (this->GetPropertyAsBool("PCH_WARN_INVALID")) {
createOptionList = this->Makefile->GetSafeDefinition(
cmStrCat("CMAKE_", language, "_COMPILE_OPTIONS_INVALID_PCH"));
}
if (this->GetPropertyAsBool("PCH_INSTANTIATE_TEMPLATES")) {
std::string varName = cmStrCat(
"CMAKE_", language, "_COMPILE_OPTIONS_INSTANTIATE_TEMPLATES_PCH");
std::string instantiateOption =
this->Makefile->GetSafeDefinition(varName);
if (!instantiateOption.empty()) {
createOptionList = cmStrCat(createOptionList, ";", instantiateOption);
}
}
const std::string createOptVar =
cmStrCat("CMAKE_", language, "_COMPILE_OPTIONS_CREATE_PCH");
createOptionList = cmStrCat(
createOptionList, ";", this->Makefile->GetSafeDefinition(createOptVar));
const std::string pchHeader = this->GetPchHeader(config, language, arch);
const std::string pchFile = this->GetPchFile(config, language, arch);
cmSystemTools::ReplaceString(createOptionList, "<PCH_HEADER>", pchHeader);
cmSystemTools::ReplaceString(createOptionList, "<PCH_FILE>", pchFile);
}
return inserted.first->second;
}
std::string cmGeneratorTarget::GetPchUseCompileOptions(
const std::string& config, const std::string& language,
const std::string& arch)
{
const auto inserted = this->PchUseCompileOptions.insert(
std::make_pair(language + config + arch, ""));
if (inserted.second) {
std::string& useOptionList = inserted.first->second;
if (this->GetPropertyAsBool("PCH_WARN_INVALID")) {
useOptionList = this->Makefile->GetSafeDefinition(
cmStrCat("CMAKE_", language, "_COMPILE_OPTIONS_INVALID_PCH"));
}
const std::string useOptVar =
cmStrCat(language, "_COMPILE_OPTIONS_USE_PCH");
std::string const& useOptionListProperty =
this->GetSafeProperty(useOptVar);
useOptionList = cmStrCat(
useOptionList, ";",
useOptionListProperty.empty()
? this->Makefile->GetSafeDefinition(cmStrCat("CMAKE_", useOptVar))
: useOptionListProperty);
const std::string pchHeader = this->GetPchHeader(config, language, arch);
const std::string pchFile = this->GetPchFile(config, language, arch);
cmSystemTools::ReplaceString(useOptionList, "<PCH_HEADER>", pchHeader);
cmSystemTools::ReplaceString(useOptionList, "<PCH_FILE>", pchFile);
}
return inserted.first->second;
}
void cmGeneratorTarget::AddSourceFileToUnityBatch(
const std::string& sourceFilename)
{
this->UnityBatchedSourceFiles.insert(sourceFilename);
}
bool cmGeneratorTarget::IsSourceFilePartOfUnityBatch(
const std::string& sourceFilename) const
{
if (!this->GetPropertyAsBool("UNITY_BUILD")) {
return false;
}
return this->UnityBatchedSourceFiles.find(sourceFilename) !=
this->UnityBatchedSourceFiles.end();
}
void cmGeneratorTarget::GetLinkOptions(std::vector<std::string>& result,
const std::string& config,
const std::string& language) const
{
if (this->IsDeviceLink() &&
this->GetPolicyStatusCMP0105() != cmPolicies::NEW) {
// link options are not propagated to the device link step
return;
}
std::vector<BT<std::string>> tmp = this->GetLinkOptions(config, language);
result.reserve(tmp.size());
for (BT<std::string>& v : tmp) {
result.emplace_back(std::move(v.Value));
}
}
std::vector<BT<std::string>> cmGeneratorTarget::GetLinkOptions(
std::string const& config, std::string const& language) const
{
std::vector<BT<std::string>> result;
std::unordered_set<std::string> uniqueOptions;
cmGeneratorExpressionDAGChecker dagChecker(this, "LINK_OPTIONS", nullptr,
nullptr);
std::vector<std::string> debugProperties;
this->Makefile->GetDefExpandList("CMAKE_DEBUG_TARGET_PROPERTIES",
debugProperties);
bool debugOptions = !this->DebugLinkOptionsDone &&
cm::contains(debugProperties, "LINK_OPTIONS");
if (this->GlobalGenerator->GetConfigureDoneCMP0026()) {
this->DebugLinkOptionsDone = true;
}
EvaluatedTargetPropertyEntries entries = EvaluateTargetPropertyEntries(
this, config, language, &dagChecker, this->LinkOptionsEntries);
AddInterfaceEntries(this, config, "INTERFACE_LINK_OPTIONS", language,
&dagChecker, entries, IncludeRuntimeInterface::Yes,
this->GetPolicyStatusCMP0099() != cmPolicies::NEW);
processOptions(this, entries, result, uniqueOptions, debugOptions,
"link options", OptionsParse::Shell, this->IsDeviceLink());
if (this->IsDeviceLink()) {
// wrap host link options
const std::string wrapper(this->Makefile->GetSafeDefinition(
"CMAKE_" + language + "_DEVICE_COMPILER_WRAPPER_FLAG"));
std::vector<std::string> wrapperFlag = cmExpandedList(wrapper);
const std::string wrapperSep(this->Makefile->GetSafeDefinition(
"CMAKE_" + language + "_DEVICE_COMPILER_WRAPPER_FLAG_SEP"));
bool concatFlagAndArgs = true;
if (!wrapperFlag.empty() && wrapperFlag.back() == " ") {
concatFlagAndArgs = false;
wrapperFlag.pop_back();
}
auto it = result.begin();
while (it != result.end()) {
if (it->Value == DL_BEGIN) {
// device link options, no treatment
it = result.erase(it);
it = std::find_if(it, result.end(), [](const BT<std::string>& item) {
return item.Value == DL_END;
});
if (it != result.end()) {
it = result.erase(it);
}
} else {
// host link options must be wrapped
std::vector<std::string> options;
cmSystemTools::ParseUnixCommandLine(it->Value.c_str(), options);
auto hostOptions = wrapOptions(options, it->Backtrace, wrapperFlag,
wrapperSep, concatFlagAndArgs);
it = result.erase(it);
// some compilers (like gcc 4.8 or Intel 19.0 or XLC 16) do not respect
// C++11 standard: 'std::vector::insert()' do not returns an iterator,
// so need to recompute the iterator after insertion.
if (it == result.end()) {
cm::append(result, hostOptions);
it = result.end();
} else {
auto index = it - result.begin();
result.insert(it, hostOptions.begin(), hostOptions.end());
it = result.begin() + index + hostOptions.size();
}
}
}
}
// Last step: replace "LINKER:" prefixed elements by
// actual linker wrapper
return this->ResolveLinkerWrapper(result, language);
}
std::vector<BT<std::string>>& cmGeneratorTarget::ResolveLinkerWrapper(
std::vector<BT<std::string>>& result, const std::string& language) const
{
// replace "LINKER:" prefixed elements by actual linker wrapper
const std::string wrapper(this->Makefile->GetSafeDefinition(
"CMAKE_" + language +
(this->IsDeviceLink() ? "_DEVICE_LINKER_WRAPPER_FLAG"
: "_LINKER_WRAPPER_FLAG")));
std::vector<std::string> wrapperFlag = cmExpandedList(wrapper);
const std::string wrapperSep(this->Makefile->GetSafeDefinition(
"CMAKE_" + language +
(this->IsDeviceLink() ? "_DEVICE_LINKER_WRAPPER_FLAG_SEP"
: "_LINKER_WRAPPER_FLAG_SEP")));
bool concatFlagAndArgs = true;
if (!wrapperFlag.empty() && wrapperFlag.back() == " ") {
concatFlagAndArgs = false;
wrapperFlag.pop_back();
}
const std::string LINKER{ "LINKER:" };
const std::string SHELL{ "SHELL:" };
const std::string LINKER_SHELL = LINKER + SHELL;
std::vector<BT<std::string>>::iterator entry;
while ((entry = std::find_if(result.begin(), result.end(),
[&LINKER](BT<std::string> const& item) -> bool {
return item.Value.compare(0, LINKER.length(),
LINKER) == 0;
})) != result.end()) {
std::string value = std::move(entry->Value);
cmListFileBacktrace bt = std::move(entry->Backtrace);
entry = result.erase(entry);
std::vector<std::string> linkerOptions;
if (value.compare(0, LINKER_SHELL.length(), LINKER_SHELL) == 0) {
cmSystemTools::ParseUnixCommandLine(
value.c_str() + LINKER_SHELL.length(), linkerOptions);
} else {
linkerOptions = cmTokenize(value.substr(LINKER.length()), ",");
}
if (linkerOptions.empty() ||
(linkerOptions.size() == 1 && linkerOptions.front().empty())) {
continue;
}
// for now, raise an error if prefix SHELL: is part of arguments
if (std::find_if(linkerOptions.begin(), linkerOptions.end(),
[&SHELL](const std::string& item) -> bool {
return item.find(SHELL) != std::string::npos;
}) != linkerOptions.end()) {
this->LocalGenerator->GetCMakeInstance()->IssueMessage(
MessageType::FATAL_ERROR,
"'SHELL:' prefix is not supported as part of 'LINKER:' arguments.",
this->GetBacktrace());
return result;
}
std::vector<BT<std::string>> options = wrapOptions(
linkerOptions, bt, wrapperFlag, wrapperSep, concatFlagAndArgs);
result.insert(entry, options.begin(), options.end());
}
return result;
}
void cmGeneratorTarget::GetStaticLibraryLinkOptions(
std::vector<std::string>& result, const std::string& config,
const std::string& language) const
{
std::vector<BT<std::string>> tmp =
this->GetStaticLibraryLinkOptions(config, language);
result.reserve(tmp.size());
for (BT<std::string>& v : tmp) {
result.emplace_back(std::move(v.Value));
}
}
std::vector<BT<std::string>> cmGeneratorTarget::GetStaticLibraryLinkOptions(
std::string const& config, std::string const& language) const
{
std::vector<BT<std::string>> result;
std::unordered_set<std::string> uniqueOptions;
cmGeneratorExpressionDAGChecker dagChecker(this, "STATIC_LIBRARY_OPTIONS",
nullptr, nullptr);
EvaluatedTargetPropertyEntries entries;
if (cmValue linkOptions = this->GetProperty("STATIC_LIBRARY_OPTIONS")) {
std::vector<std::string> options = cmExpandedList(*linkOptions);
for (const auto& option : options) {
std::unique_ptr<TargetPropertyEntry> entry =
CreateTargetPropertyEntry(option);
entries.Entries.emplace_back(EvaluateTargetPropertyEntry(
this, config, language, &dagChecker, *entry));
}
}
processOptions(this, entries, result, uniqueOptions, false,
"static library link options", OptionsParse::Shell);
return result;
}
namespace {
void processLinkDirectories(cmGeneratorTarget const* tgt,
EvaluatedTargetPropertyEntries& entries,
std::vector<BT<std::string>>& directories,
std::unordered_set<std::string>& uniqueDirectories,
bool debugDirectories)
{
for (EvaluatedTargetPropertyEntry& entry : entries.Entries) {
cmLinkImplItem const& item = entry.LinkImplItem;
std::string const& targetName = item.AsStr();
std::string usedDirectories;
for (std::string& entryDirectory : entry.Values) {
if (!cmSystemTools::FileIsFullPath(entryDirectory)) {
std::ostringstream e;
bool noMessage = false;
MessageType messageType = MessageType::FATAL_ERROR;
if (!targetName.empty()) {
/* clang-format off */
e << "Target \"" << targetName << "\" contains relative "
"path in its INTERFACE_LINK_DIRECTORIES:\n"
" \"" << entryDirectory << "\"";
/* clang-format on */
} else {
switch (tgt->GetPolicyStatusCMP0081()) {
case cmPolicies::WARN: {
e << cmPolicies::GetPolicyWarning(cmPolicies::CMP0081) << "\n";
messageType = MessageType::AUTHOR_WARNING;
} break;
case cmPolicies::OLD:
noMessage = true;
break;
case cmPolicies::REQUIRED_IF_USED:
case cmPolicies::REQUIRED_ALWAYS:
case cmPolicies::NEW:
// Issue the fatal message.
break;
}
e << "Found relative path while evaluating link directories of "
"\""
<< tgt->GetName() << "\":\n \"" << entryDirectory << "\"\n";
}
if (!noMessage) {
tgt->GetLocalGenerator()->IssueMessage(messageType, e.str());
if (messageType == MessageType::FATAL_ERROR) {
return;
}
}
}
// Sanitize the path the same way the link_directories command does
// in case projects set the LINK_DIRECTORIES property directly.
cmSystemTools::ConvertToUnixSlashes(entryDirectory);
if (uniqueDirectories.insert(entryDirectory).second) {
directories.emplace_back(entryDirectory, entry.Backtrace);
if (debugDirectories) {
usedDirectories += " * " + entryDirectory + "\n";
}
}
}
if (!usedDirectories.empty()) {
tgt->GetLocalGenerator()->GetCMakeInstance()->IssueMessage(
MessageType::LOG,
std::string("Used link directories for target ") + tgt->GetName() +
":\n" + usedDirectories,
entry.Backtrace);
}
}
}
}
void cmGeneratorTarget::GetLinkDirectories(std::vector<std::string>& result,
const std::string& config,
const std::string& language) const
{
std::vector<BT<std::string>> tmp =
this->GetLinkDirectories(config, language);
result.reserve(tmp.size());
for (BT<std::string>& v : tmp) {
result.emplace_back(std::move(v.Value));
}
}
std::vector<BT<std::string>> cmGeneratorTarget::GetLinkDirectories(
std::string const& config, std::string const& language) const
{
std::vector<BT<std::string>> result;
std::unordered_set<std::string> uniqueDirectories;
cmGeneratorExpressionDAGChecker dagChecker(this, "LINK_DIRECTORIES", nullptr,
nullptr);
std::vector<std::string> debugProperties;
this->Makefile->GetDefExpandList("CMAKE_DEBUG_TARGET_PROPERTIES",
debugProperties);
bool debugDirectories = !this->DebugLinkDirectoriesDone &&
cm::contains(debugProperties, "LINK_DIRECTORIES");
if (this->GlobalGenerator->GetConfigureDoneCMP0026()) {
this->DebugLinkDirectoriesDone = true;
}
EvaluatedTargetPropertyEntries entries = EvaluateTargetPropertyEntries(
this, config, language, &dagChecker, this->LinkDirectoriesEntries);
AddInterfaceEntries(this, config, "INTERFACE_LINK_DIRECTORIES", language,
&dagChecker, entries, IncludeRuntimeInterface::Yes,
this->GetPolicyStatusCMP0099() != cmPolicies::NEW);
processLinkDirectories(this, entries, result, uniqueDirectories,
debugDirectories);
return result;
}
void cmGeneratorTarget::GetLinkDepends(std::vector<std::string>& result,
const std::string& config,
const std::string& language) const
{
std::vector<BT<std::string>> tmp = this->GetLinkDepends(config, language);
result.reserve(tmp.size());
for (BT<std::string>& v : tmp) {
result.emplace_back(std::move(v.Value));
}
}
std::vector<BT<std::string>> cmGeneratorTarget::GetLinkDepends(
std::string const& config, std::string const& language) const
{
std::vector<BT<std::string>> result;
std::unordered_set<std::string> uniqueOptions;
cmGeneratorExpressionDAGChecker dagChecker(this, "LINK_DEPENDS", nullptr,
nullptr);
EvaluatedTargetPropertyEntries entries;
if (cmValue linkDepends = this->GetProperty("LINK_DEPENDS")) {
std::vector<std::string> depends = cmExpandedList(*linkDepends);
for (const auto& depend : depends) {
std::unique_ptr<TargetPropertyEntry> entry =
CreateTargetPropertyEntry(depend);
entries.Entries.emplace_back(EvaluateTargetPropertyEntry(
this, config, language, &dagChecker, *entry));
}
}
AddInterfaceEntries(this, config, "INTERFACE_LINK_DEPENDS", language,
&dagChecker, entries, IncludeRuntimeInterface::Yes,
this->GetPolicyStatusCMP0099() != cmPolicies::NEW);
processOptions(this, entries, result, uniqueOptions, false, "link depends",
OptionsParse::None);
return result;
}
void cmGeneratorTarget::ComputeTargetManifest(const std::string& config) const
{
if (this->IsImported()) {
return;
}
cmGlobalGenerator* gg = this->LocalGenerator->GetGlobalGenerator();
// Get the names.
cmGeneratorTarget::Names targetNames;
if (this->GetType() == cmStateEnums::EXECUTABLE) {
targetNames = this->GetExecutableNames(config);
} else if (this->GetType() == cmStateEnums::STATIC_LIBRARY ||
this->GetType() == cmStateEnums::SHARED_LIBRARY ||
this->GetType() == cmStateEnums::MODULE_LIBRARY) {
targetNames = this->GetLibraryNames(config);
} else {
return;
}
// Get the directory.
std::string dir =
this->GetDirectory(config, cmStateEnums::RuntimeBinaryArtifact);
// Add each name.
std::string f;
if (!targetNames.Output.empty()) {
f = cmStrCat(dir, '/', targetNames.Output);
gg->AddToManifest(f);
}
if (!targetNames.SharedObject.empty()) {
f = cmStrCat(dir, '/', targetNames.SharedObject);
gg->AddToManifest(f);
}
if (!targetNames.Real.empty()) {
f = cmStrCat(dir, '/', targetNames.Real);
gg->AddToManifest(f);
}
if (!targetNames.PDB.empty()) {
f = cmStrCat(dir, '/', targetNames.PDB);
gg->AddToManifest(f);
}
if (!targetNames.ImportLibrary.empty()) {
f =
cmStrCat(this->GetDirectory(config, cmStateEnums::ImportLibraryArtifact),
'/', targetNames.ImportLibrary);
gg->AddToManifest(f);
}
}
bool cmGeneratorTarget::ComputeCompileFeatures(std::string const& config) const
{
// Compute the language standard based on the compile features.
cmStandardLevelResolver standardResolver(this->Makefile);
std::vector<BT<std::string>> features = this->GetCompileFeatures(config);
for (BT<std::string> const& f : features) {
std::string lang;
if (!standardResolver.CompileFeatureKnown(this->Target->GetName(), f.Value,
lang, nullptr)) {
return false;
}
std::string key = cmStrCat(cmSystemTools::UpperCase(config), '-', lang);
cmValue currentLanguageStandard = this->GetLanguageStandard(lang, config);
std::string newRequiredStandard;
if (!standardResolver.GetNewRequiredStandard(
this->Target->GetName(), f.Value, currentLanguageStandard,
newRequiredStandard)) {
return false;
}
if (!newRequiredStandard.empty()) {
BTs<std::string>& languageStandardProperty =
this->LanguageStandardMap[key];
if (languageStandardProperty.Value != newRequiredStandard) {
languageStandardProperty.Value = newRequiredStandard;
languageStandardProperty.Backtraces.clear();
}
languageStandardProperty.Backtraces.emplace_back(f.Backtrace);
}
}
return true;
}
bool cmGeneratorTarget::ComputeCompileFeatures(
std::string const& config, std::set<LanguagePair> const& languagePairs) const
{
for (const auto& language : languagePairs) {
BTs<std::string> const* generatorTargetLanguageStandard =
this->GetLanguageStandardProperty(language.first, config);
if (!generatorTargetLanguageStandard) {
// If the standard isn't explicitly set we copy it over from the
// specified paired language.
std::string key =
cmStrCat(cmSystemTools::UpperCase(config), '-', language.first);
BTs<std::string> const* standardToCopy =
this->GetLanguageStandardProperty(language.second, config);
if (standardToCopy) {
this->LanguageStandardMap[key] = *standardToCopy;
generatorTargetLanguageStandard = &this->LanguageStandardMap[key];
} else {
cmValue defaultStandard = this->Makefile->GetDefinition(
cmStrCat("CMAKE_", language.second, "_STANDARD_DEFAULT"));
if (defaultStandard) {
this->LanguageStandardMap[key] = BTs<std::string>(*defaultStandard);
generatorTargetLanguageStandard = &this->LanguageStandardMap[key];
}
}
// Custom updates for the CUDA standard.
if (generatorTargetLanguageStandard != nullptr &&
(language.first == "CUDA")) {
if (generatorTargetLanguageStandard->Value == "98") {
this->LanguageStandardMap[key].Value = "03";
}
}
}
}
return true;
}
std::string cmGeneratorTarget::GetImportedLibName(
std::string const& config) const
{
if (cmGeneratorTarget::ImportInfo const* info =
this->GetImportInfo(config)) {
return info->LibName;
}
return std::string();
}
std::string cmGeneratorTarget::GetFullPath(const std::string& config,
cmStateEnums::ArtifactType artifact,
bool realname) const
{
if (this->IsImported()) {
return this->Target->ImportedGetFullPath(config, artifact);
}
return this->NormalGetFullPath(config, artifact, realname);
}
std::string cmGeneratorTarget::NormalGetFullPath(
const std::string& config, cmStateEnums::ArtifactType artifact,
bool realname) const
{
std::string fpath = cmStrCat(this->GetDirectory(config, artifact), '/');
if (this->IsAppBundleOnApple()) {
fpath =
cmStrCat(this->BuildBundleDirectory(fpath, config, FullLevel), '/');
}
// Add the full name of the target.
switch (artifact) {
case cmStateEnums::RuntimeBinaryArtifact:
if (realname) {
fpath += this->NormalGetRealName(config);
} else {
fpath +=
this->GetFullName(config, cmStateEnums::RuntimeBinaryArtifact);
}
break;
case cmStateEnums::ImportLibraryArtifact:
fpath += this->GetFullName(config, cmStateEnums::ImportLibraryArtifact);
break;
}
return fpath;
}
std::string cmGeneratorTarget::NormalGetRealName(
const std::string& config) const
{
// This should not be called for imported targets.
// TODO: Split cmTarget into a class hierarchy to get compile-time
// enforcement of the limited imported target API.
if (this->IsImported()) {
std::string msg = cmStrCat("NormalGetRealName called on imported target: ",
this->GetName());
this->LocalGenerator->IssueMessage(MessageType::INTERNAL_ERROR, msg);
}
if (this->GetType() == cmStateEnums::EXECUTABLE) {
// Compute the real name that will be built.
return this->GetExecutableNames(config).Real;
}
// Compute the real name that will be built.
return this->GetLibraryNames(config).Real;
}
cmGeneratorTarget::Names cmGeneratorTarget::GetLibraryNames(
const std::string& config) const
{
cmGeneratorTarget::Names targetNames;
// This should not be called for imported targets.
// TODO: Split cmTarget into a class hierarchy to get compile-time
// enforcement of the limited imported target API.
if (this->IsImported()) {
std::string msg =
cmStrCat("GetLibraryNames called on imported target: ", this->GetName());
this->LocalGenerator->IssueMessage(MessageType::INTERNAL_ERROR, msg);
}
// Check for library version properties.
cmValue version = this->GetProperty("VERSION");
cmValue soversion = this->GetProperty("SOVERSION");
if (!this->HasSOName(config) ||
this->Makefile->IsOn("CMAKE_PLATFORM_NO_VERSIONED_SONAME") ||
this->IsFrameworkOnApple()) {
// Versioning is supported only for shared libraries and modules,
// and then only when the platform supports an soname flag.
version = nullptr;
soversion = nullptr;
}
if (version && !soversion) {
// The soversion must be set if the library version is set. Use
// the library version as the soversion.
soversion = version;
}
if (!version && soversion) {
// Use the soversion as the library version.
version = soversion;
}
// Get the components of the library name.
std::string prefix;
std::string suffix;
this->GetFullNameInternal(config, cmStateEnums::RuntimeBinaryArtifact,
prefix, targetNames.Base, suffix);
// The library name.
targetNames.Output = prefix + targetNames.Base + suffix;
if (this->IsFrameworkOnApple()) {
targetNames.Real = prefix;
if (!this->Makefile->PlatformIsAppleEmbedded()) {
targetNames.Real += "Versions/";
targetNames.Real += this->GetFrameworkVersion();
targetNames.Real += "/";
}
targetNames.Real += targetNames.Base + suffix;
targetNames.SharedObject = targetNames.Real + suffix;
} else {
// The library's soname.
this->ComputeVersionedName(targetNames.SharedObject, prefix,
targetNames.Base, suffix, targetNames.Output,
soversion);
// The library's real name on disk.
this->ComputeVersionedName(targetNames.Real, prefix, targetNames.Base,
suffix, targetNames.Output, version);
}
// The import library name.
if (this->GetType() == cmStateEnums::SHARED_LIBRARY ||
this->GetType() == cmStateEnums::MODULE_LIBRARY) {
targetNames.ImportLibrary =
this->GetFullNameInternal(config, cmStateEnums::ImportLibraryArtifact);
}
// The program database file name.
targetNames.PDB = this->GetPDBName(config);
return targetNames;
}
cmGeneratorTarget::Names cmGeneratorTarget::GetExecutableNames(
const std::string& config) const
{
cmGeneratorTarget::Names targetNames;
// This should not be called for imported targets.
// TODO: Split cmTarget into a class hierarchy to get compile-time
// enforcement of the limited imported target API.
if (this->IsImported()) {
std::string msg = cmStrCat(
"GetExecutableNames called on imported target: ", this->GetName());
this->LocalGenerator->IssueMessage(MessageType::INTERNAL_ERROR, msg);
}
// This versioning is supported only for executables and then only
// when the platform supports symbolic links.
#if defined(_WIN32) && !defined(__CYGWIN__)
cmValue version;
#else
// Check for executable version properties.
cmValue version = this->GetProperty("VERSION");
if (this->GetType() != cmStateEnums::EXECUTABLE ||
this->Makefile->IsOn("XCODE")) {
version = nullptr;
}
#endif
// Get the components of the executable name.
std::string prefix;
std::string suffix;
this->GetFullNameInternal(config, cmStateEnums::RuntimeBinaryArtifact,
prefix, targetNames.Base, suffix);
// The executable name.
targetNames.Output = prefix + targetNames.Base + suffix;
// The executable's real name on disk.
#if defined(__CYGWIN__)
targetNames.Real = prefix + targetNames.Base;
#else
targetNames.Real = targetNames.Output;
#endif
if (version) {
targetNames.Real += "-";
targetNames.Real += *version;
}
#if defined(__CYGWIN__)
targetNames.Real += suffix;
#endif
// The import library name.
targetNames.ImportLibrary =
this->GetFullNameInternal(config, cmStateEnums::ImportLibraryArtifact);
// The program database file name.
targetNames.PDB = this->GetPDBName(config);
return targetNames;
}
std::string cmGeneratorTarget::GetFullNameInternal(
const std::string& config, cmStateEnums::ArtifactType artifact) const
{
std::string prefix;
std::string base;
std::string suffix;
this->GetFullNameInternal(config, artifact, prefix, base, suffix);
return prefix + base + suffix;
}
std::string cmGeneratorTarget::ImportedGetLocation(
const std::string& config) const
{
assert(this->IsImported());
return this->Target->ImportedGetFullPath(
config, cmStateEnums::RuntimeBinaryArtifact);
}
std::string cmGeneratorTarget::GetFullNameImported(
const std::string& config, cmStateEnums::ArtifactType artifact) const
{
return cmSystemTools::GetFilenameName(
this->Target->ImportedGetFullPath(config, artifact));
}
void cmGeneratorTarget::GetFullNameInternal(
const std::string& config, cmStateEnums::ArtifactType artifact,
std::string& outPrefix, std::string& outBase, std::string& outSuffix) const
{
// Use just the target name for non-main target types.
if (this->GetType() != cmStateEnums::STATIC_LIBRARY &&
this->GetType() != cmStateEnums::SHARED_LIBRARY &&
this->GetType() != cmStateEnums::MODULE_LIBRARY &&
this->GetType() != cmStateEnums::EXECUTABLE) {
outPrefix.clear();
outBase = this->GetName();
outSuffix.clear();
return;
}
const bool isImportedLibraryArtifact =
(artifact == cmStateEnums::ImportLibraryArtifact);
// Return an empty name for the import library if this platform
// does not support import libraries.
if (isImportedLibraryArtifact && !this->NeedImportLibraryName(config)) {
outPrefix.clear();
outBase.clear();
outSuffix.clear();
return;
}
// retrieve prefix and suffix
std::string ll = this->GetLinkerLanguage(config);
cmValue targetPrefix = this->GetFilePrefixInternal(config, artifact, ll);
cmValue targetSuffix = this->GetFileSuffixInternal(config, artifact, ll);
// The implib option is only allowed for shared libraries, module
// libraries, and executables.
if (this->GetType() != cmStateEnums::SHARED_LIBRARY &&
this->GetType() != cmStateEnums::MODULE_LIBRARY &&
this->GetType() != cmStateEnums::EXECUTABLE) {
artifact = cmStateEnums::RuntimeBinaryArtifact;
}
// Compute the full name for main target types.
const std::string configPostfix = this->GetFilePostfix(config);
// frameworks have directory prefix but no suffix
std::string fw_prefix;
if (this->IsFrameworkOnApple()) {
fw_prefix =
cmStrCat(this->GetFrameworkDirectory(config, ContentLevel), '/');
targetPrefix = cmValue(fw_prefix);
targetSuffix = nullptr;
}
if (this->IsCFBundleOnApple()) {
fw_prefix = cmStrCat(this->GetCFBundleDirectory(config, FullLevel), '/');
targetPrefix = cmValue(fw_prefix);
targetSuffix = nullptr;
}
// Begin the final name with the prefix.
outPrefix = targetPrefix ? *targetPrefix : "";
// Append the target name or property-specified name.
outBase += this->GetOutputName(config, artifact);
// Append the per-configuration postfix.
// When using Xcode, the postfix should be part of the suffix rather than
// the base, because the suffix ends up being used in Xcode's
// EXECUTABLE_SUFFIX attribute.
if (this->IsFrameworkOnApple() &&
this->GetGlobalGenerator()->GetName() == "Xcode") {
targetSuffix = cmValue(configPostfix);
} else {
outBase += configPostfix;
}
// Name shared libraries with their version number on some platforms.
if (cmValue soversion = this->GetProperty("SOVERSION")) {
if (this->GetType() == cmStateEnums::SHARED_LIBRARY &&
!isImportedLibraryArtifact &&
this->Makefile->IsOn("CMAKE_SHARED_LIBRARY_NAME_WITH_VERSION")) {
outBase += "-";
outBase += *soversion;
}
}
// Append the suffix.
outSuffix = targetSuffix ? *targetSuffix : "";
}
std::string cmGeneratorTarget::GetLinkerLanguage(
const std::string& config) const
{
return this->GetLinkClosure(config)->LinkerLanguage;
}
std::string cmGeneratorTarget::GetPDBOutputName(
const std::string& config) const
{
std::string base =
this->GetOutputName(config, cmStateEnums::RuntimeBinaryArtifact);
std::vector<std::string> props;
std::string configUpper = cmSystemTools::UpperCase(config);
if (!configUpper.empty()) {
// PDB_NAME_<CONFIG>
props.push_back("PDB_NAME_" + configUpper);
}
// PDB_NAME
props.emplace_back("PDB_NAME");
for (std::string const& p : props) {
if (cmValue outName = this->GetProperty(p)) {
base = *outName;
break;
}
}
return base;
}
std::string cmGeneratorTarget::GetPDBName(const std::string& config) const
{
std::string prefix;
std::string base;
std::string suffix;
this->GetFullNameInternal(config, cmStateEnums::RuntimeBinaryArtifact,
prefix, base, suffix);
std::vector<std::string> props;
std::string configUpper = cmSystemTools::UpperCase(config);
if (!configUpper.empty()) {
// PDB_NAME_<CONFIG>
props.push_back("PDB_NAME_" + configUpper);
}
// PDB_NAME
props.emplace_back("PDB_NAME");
for (std::string const& p : props) {
if (cmValue outName = this->GetProperty(p)) {
base = *outName;
break;
}
}
return prefix + base + ".pdb";
}
std::string cmGeneratorTarget::GetObjectDirectory(
std::string const& config) const
{
std::string obj_dir =
this->GlobalGenerator->ExpandCFGIntDir(this->ObjectDirectory, config);
#if defined(__APPLE__)
// find and replace $(PROJECT_NAME) xcode placeholder
const std::string projectName = this->LocalGenerator->GetProjectName();
cmSystemTools::ReplaceString(obj_dir, "$(PROJECT_NAME)", projectName);
// Replace Xcode's placeholder for the object file directory since
// installation and export scripts need to know the real directory.
// Xcode has build-time settings (e.g. for sanitizers) that affect this,
// but we use the default here. Users that want to enable sanitizers
// will do so at the cost of object library installation and export.
cmSystemTools::ReplaceString(obj_dir, "$(OBJECT_FILE_DIR_normal:base)",
"Objects-normal");
#endif
return obj_dir;
}
void cmGeneratorTarget::GetTargetObjectNames(
std::string const& config, std::vector<std::string>& objects) const
{
std::vector<cmSourceFile const*> objectSources;
this->GetObjectSources(objectSources, config);
std::map<cmSourceFile const*, std::string> mapping;
for (cmSourceFile const* sf : objectSources) {
mapping[sf];
}
this->LocalGenerator->ComputeObjectFilenames(mapping, this);
for (cmSourceFile const* src : objectSources) {
// Find the object file name corresponding to this source file.
auto map_it = mapping.find(src);
// It must exist because we populated the mapping just above.
assert(!map_it->second.empty());
objects.push_back(map_it->second);
}
// We need to compute the relative path from the root of
// of the object directory to handle subdirectory paths
std::string rootObjectDir = this->GetObjectDirectory(config);
rootObjectDir = cmSystemTools::CollapseFullPath(rootObjectDir);
auto ispcObjects = this->GetGeneratedISPCObjects(config);
for (std::string const& output : ispcObjects) {
auto relativePathFromObjectDir = output.substr(rootObjectDir.size());
objects.push_back(relativePathFromObjectDir);
}
}
bool cmGeneratorTarget::StrictTargetComparison::operator()(
cmGeneratorTarget const* t1, cmGeneratorTarget const* t2) const
{
int nameResult = strcmp(t1->GetName().c_str(), t2->GetName().c_str());
if (nameResult == 0) {
return strcmp(
t1->GetLocalGenerator()->GetCurrentBinaryDirectory().c_str(),
t2->GetLocalGenerator()->GetCurrentBinaryDirectory().c_str()) < 0;
}
return nameResult < 0;
}
struct cmGeneratorTarget::SourceFileFlags
cmGeneratorTarget::GetTargetSourceFileFlags(const cmSourceFile* sf) const
{
struct SourceFileFlags flags;
this->ConstructSourceFileFlags();
auto si = this->SourceFlagsMap.find(sf);
if (si != this->SourceFlagsMap.end()) {
flags = si->second;
} else {
// Handle the MACOSX_PACKAGE_LOCATION property on source files that
// were not listed in one of the other lists.
if (cmValue location = sf->GetProperty("MACOSX_PACKAGE_LOCATION")) {
flags.MacFolder = location->c_str();
const bool stripResources =
this->GlobalGenerator->ShouldStripResourcePath(this->Makefile);
if (*location == "Resources") {
flags.Type = cmGeneratorTarget::SourceFileTypeResource;
if (stripResources) {
flags.MacFolder = "";
}
} else if (cmHasLiteralPrefix(*location, "Resources/")) {
flags.Type = cmGeneratorTarget::SourceFileTypeDeepResource;
if (stripResources) {
flags.MacFolder += strlen("Resources/");
}
} else {
flags.Type = cmGeneratorTarget::SourceFileTypeMacContent;
}
}
}
return flags;
}
void cmGeneratorTarget::ConstructSourceFileFlags() const
{
if (this->SourceFileFlagsConstructed) {
return;
}
this->SourceFileFlagsConstructed = true;
// Process public headers to mark the source files.
if (cmValue files = this->GetProperty("PUBLIC_HEADER")) {
std::vector<std::string> relFiles = cmExpandedList(*files);
for (std::string const& relFile : relFiles) {
if (cmSourceFile* sf = this->Makefile->GetSource(relFile)) {
SourceFileFlags& flags = this->SourceFlagsMap[sf];
flags.MacFolder = "Headers";
flags.Type = cmGeneratorTarget::SourceFileTypePublicHeader;
}
}
}
// Process private headers after public headers so that they take
// precedence if a file is listed in both.
if (cmValue files = this->GetProperty("PRIVATE_HEADER")) {
std::vector<std::string> relFiles = cmExpandedList(*files);
for (std::string const& relFile : relFiles) {
if (cmSourceFile* sf = this->Makefile->GetSource(relFile)) {
SourceFileFlags& flags = this->SourceFlagsMap[sf];
flags.MacFolder = "PrivateHeaders";
flags.Type = cmGeneratorTarget::SourceFileTypePrivateHeader;
}
}
}
// Mark sources listed as resources.
if (cmValue files = this->GetProperty("RESOURCE")) {
std::vector<std::string> relFiles = cmExpandedList(*files);
for (std::string const& relFile : relFiles) {
if (cmSourceFile* sf = this->Makefile->GetSource(relFile)) {
SourceFileFlags& flags = this->SourceFlagsMap[sf];
flags.MacFolder = "";
if (!this->GlobalGenerator->ShouldStripResourcePath(this->Makefile)) {
flags.MacFolder = "Resources";
}
flags.Type = cmGeneratorTarget::SourceFileTypeResource;
}
}
}
}
const cmGeneratorTarget::CompatibleInterfacesBase&
cmGeneratorTarget::GetCompatibleInterfaces(std::string const& config) const
{
cmGeneratorTarget::CompatibleInterfaces& compat =
this->CompatibleInterfacesMap[config];
if (!compat.Done) {
compat.Done = true;
compat.PropsBool.insert("POSITION_INDEPENDENT_CODE");
compat.PropsString.insert("AUTOUIC_OPTIONS");
std::vector<cmGeneratorTarget const*> const& deps =
this->GetLinkImplementationClosure(config);
for (cmGeneratorTarget const* li : deps) {
#define CM_READ_COMPATIBLE_INTERFACE(X, x) \
if (cmValue prop = li->GetProperty("COMPATIBLE_INTERFACE_" #X)) { \
std::vector<std::string> props; \
cmExpandList(*prop, props); \
compat.Props##x.insert(props.begin(), props.end()); \
}
CM_READ_COMPATIBLE_INTERFACE(BOOL, Bool)
CM_READ_COMPATIBLE_INTERFACE(STRING, String)
CM_READ_COMPATIBLE_INTERFACE(NUMBER_MIN, NumberMin)
CM_READ_COMPATIBLE_INTERFACE(NUMBER_MAX, NumberMax)
#undef CM_READ_COMPATIBLE_INTERFACE
}
}
return compat;
}
bool cmGeneratorTarget::IsLinkInterfaceDependentBoolProperty(
const std::string& p, const std::string& config) const
{
if (this->GetType() == cmStateEnums::OBJECT_LIBRARY ||
this->GetType() == cmStateEnums::INTERFACE_LIBRARY) {
return false;
}
return this->GetCompatibleInterfaces(config).PropsBool.count(p) > 0;
}
bool cmGeneratorTarget::IsLinkInterfaceDependentStringProperty(
const std::string& p, const std::string& config) const
{
if (this->GetType() == cmStateEnums::OBJECT_LIBRARY ||
this->GetType() == cmStateEnums::INTERFACE_LIBRARY) {
return false;
}
return this->GetCompatibleInterfaces(config).PropsString.count(p) > 0;
}
bool cmGeneratorTarget::IsLinkInterfaceDependentNumberMinProperty(
const std::string& p, const std::string& config) const
{
if (this->GetType() == cmStateEnums::OBJECT_LIBRARY ||
this->GetType() == cmStateEnums::INTERFACE_LIBRARY) {
return false;
}
return this->GetCompatibleInterfaces(config).PropsNumberMin.count(p) > 0;
}
bool cmGeneratorTarget::IsLinkInterfaceDependentNumberMaxProperty(
const std::string& p, const std::string& config) const
{
if (this->GetType() == cmStateEnums::OBJECT_LIBRARY ||
this->GetType() == cmStateEnums::INTERFACE_LIBRARY) {
return false;
}
return this->GetCompatibleInterfaces(config).PropsNumberMax.count(p) > 0;
}
enum CompatibleType
{
BoolType,
StringType,
NumberMinType,
NumberMaxType
};
template <typename PropertyType>
PropertyType getLinkInterfaceDependentProperty(cmGeneratorTarget const* tgt,
const std::string& prop,
const std::string& config,
CompatibleType, PropertyType*);
template <>
bool getLinkInterfaceDependentProperty(cmGeneratorTarget const* tgt,
const std::string& prop,
const std::string& config,
CompatibleType /*unused*/,
bool* /*unused*/)
{
return tgt->GetLinkInterfaceDependentBoolProperty(prop, config);
}
template <>
const char* getLinkInterfaceDependentProperty(cmGeneratorTarget const* tgt,
const std::string& prop,
const std::string& config,
CompatibleType t,
const char** /*unused*/)
{
switch (t) {
case BoolType:
assert(false &&
"String compatibility check function called for boolean");
return nullptr;
case StringType:
return tgt->GetLinkInterfaceDependentStringProperty(prop, config);
case NumberMinType:
return tgt->GetLinkInterfaceDependentNumberMinProperty(prop, config);
case NumberMaxType:
return tgt->GetLinkInterfaceDependentNumberMaxProperty(prop, config);
}
assert(false && "Unreachable!");
return nullptr;
}
template <typename PropertyType>
void checkPropertyConsistency(cmGeneratorTarget const* depender,
cmGeneratorTarget const* dependee,
const std::string& propName,
std::set<std::string>& emitted,
const std::string& config, CompatibleType t,
PropertyType* /*unused*/)
{
cmValue prop = dependee->GetProperty(propName);
if (!prop) {
return;
}
std::vector<std::string> props = cmExpandedList(*prop);
std::string pdir =
cmStrCat(cmSystemTools::GetCMakeRoot(), "/Help/prop_tgt/");
for (std::string const& p : props) {
std::string pname = cmSystemTools::HelpFileName(p);
std::string pfile = pdir + pname + ".rst";
if (cmSystemTools::FileExists(pfile, true)) {
std::ostringstream e;
e << "Target \"" << dependee->GetName() << "\" has property \"" << p
<< "\" listed in its " << propName
<< " property. "
"This is not allowed. Only user-defined properties may appear "
"listed in the "
<< propName << " property.";
depender->GetLocalGenerator()->IssueMessage(MessageType::FATAL_ERROR,
e.str());
return;
}
if (emitted.insert(p).second) {
getLinkInterfaceDependentProperty<PropertyType>(depender, p, config, t,
nullptr);
if (cmSystemTools::GetErrorOccuredFlag()) {
return;
}
}
}
}
namespace {
std::string intersect(const std::set<std::string>& s1,
const std::set<std::string>& s2)
{
std::set<std::string> intersect;
std::set_intersection(s1.begin(), s1.end(), s2.begin(), s2.end(),
std::inserter(intersect, intersect.begin()));
if (!intersect.empty()) {
return *intersect.begin();
}
return "";
}
std::string intersect(const std::set<std::string>& s1,
const std::set<std::string>& s2,
const std::set<std::string>& s3)
{
std::string result;
result = intersect(s1, s2);
if (!result.empty()) {
return result;
}
result = intersect(s1, s3);
if (!result.empty()) {
return result;
}
return intersect(s2, s3);
}
std::string intersect(const std::set<std::string>& s1,
const std::set<std::string>& s2,
const std::set<std::string>& s3,
const std::set<std::string>& s4)
{
std::string result;
result = intersect(s1, s2);
if (!result.empty()) {
return result;
}
result = intersect(s1, s3);
if (!result.empty()) {
return result;
}
result = intersect(s1, s4);
if (!result.empty()) {
return result;
}
return intersect(s2, s3, s4);
}
}
void cmGeneratorTarget::CheckPropertyCompatibility(
cmComputeLinkInformation& info, const std::string& config) const
{
const cmComputeLinkInformation::ItemVector& deps = info.GetItems();
std::set<std::string> emittedBools;
static const std::string strBool = "COMPATIBLE_INTERFACE_BOOL";
std::set<std::string> emittedStrings;
static const std::string strString = "COMPATIBLE_INTERFACE_STRING";
std::set<std::string> emittedMinNumbers;
static const std::string strNumMin = "COMPATIBLE_INTERFACE_NUMBER_MIN";
std::set<std::string> emittedMaxNumbers;
static const std::string strNumMax = "COMPATIBLE_INTERFACE_NUMBER_MAX";
for (auto const& dep : deps) {
if (!dep.Target) {
continue;
}
checkPropertyConsistency<bool>(this, dep.Target, strBool, emittedBools,
config, BoolType, nullptr);
if (cmSystemTools::GetErrorOccuredFlag()) {
return;
}
checkPropertyConsistency<const char*>(this, dep.Target, strString,
emittedStrings, config, StringType,
nullptr);
if (cmSystemTools::GetErrorOccuredFlag()) {
return;
}
checkPropertyConsistency<const char*>(this, dep.Target, strNumMin,
emittedMinNumbers, config,
NumberMinType, nullptr);
if (cmSystemTools::GetErrorOccuredFlag()) {
return;
}
checkPropertyConsistency<const char*>(this, dep.Target, strNumMax,
emittedMaxNumbers, config,
NumberMaxType, nullptr);
if (cmSystemTools::GetErrorOccuredFlag()) {
return;
}
}
std::string prop = intersect(emittedBools, emittedStrings, emittedMinNumbers,
emittedMaxNumbers);
if (!prop.empty()) {
// Use a sorted std::vector to keep the error message sorted.
std::vector<std::string> props;
auto i = emittedBools.find(prop);
if (i != emittedBools.end()) {
props.push_back(strBool);
}
i = emittedStrings.find(prop);
if (i != emittedStrings.end()) {
props.push_back(strString);
}
i = emittedMinNumbers.find(prop);
if (i != emittedMinNumbers.end()) {
props.push_back(strNumMin);
}
i = emittedMaxNumbers.find(prop);
if (i != emittedMaxNumbers.end()) {
props.push_back(strNumMax);
}
std::sort(props.begin(), props.end());
std::string propsString = cmStrCat(
cmJoin(cmMakeRange(props).retreat(1), ", "), " and the ", props.back());
std::ostringstream e;
e << "Property \"" << prop << "\" appears in both the " << propsString
<< " property in the dependencies of target \"" << this->GetName()
<< "\". This is not allowed. A property may only require "
"compatibility "
"in a boolean interpretation, a numeric minimum, a numeric maximum "
"or a "
"string interpretation, but not a mixture.";
this->LocalGenerator->IssueMessage(MessageType::FATAL_ERROR, e.str());
}
}
template <typename PropertyType>
std::string valueAsString(PropertyType);
template <>
std::string valueAsString<bool>(bool value)
{
return value ? "TRUE" : "FALSE";
}
template <>
std::string valueAsString<const char*>(const char* value)
{
return value ? value : "(unset)";
}
template <>
std::string valueAsString<std::string>(std::string value)
{
return value;
}
template <>
std::string valueAsString<cmValue>(cmValue value)
{
return value ? value : std::string("(unset)");
}
template <>
std::string valueAsString<std::nullptr_t>(std::nullptr_t /*unused*/)
{
return "(unset)";
}
std::string compatibilityType(CompatibleType t)
{
switch (t) {
case BoolType:
return "Boolean compatibility";
case StringType:
return "String compatibility";
case NumberMaxType:
return "Numeric maximum compatibility";
case NumberMinType:
return "Numeric minimum compatibility";
}
assert(false && "Unreachable!");
return "";
}
std::string compatibilityAgree(CompatibleType t, bool dominant)
{
switch (t) {
case BoolType:
case StringType:
return dominant ? "(Disagree)\n" : "(Agree)\n";
case NumberMaxType:
case NumberMinType:
return dominant ? "(Dominant)\n" : "(Ignored)\n";
}
assert(false && "Unreachable!");
return "";
}
template <typename PropertyType>
PropertyType getTypedProperty(
cmGeneratorTarget const* tgt, const std::string& prop,
cmGeneratorExpressionInterpreter* genexInterpreter = nullptr);
template <>
bool getTypedProperty<bool>(cmGeneratorTarget const* tgt,
const std::string& prop,
cmGeneratorExpressionInterpreter* genexInterpreter)
{
if (genexInterpreter == nullptr) {
return tgt->GetPropertyAsBool(prop);
}
cmValue value = tgt->GetProperty(prop);
return cmIsOn(genexInterpreter->Evaluate(value ? *value : "", prop));
}
template <>
const char* getTypedProperty<const char*>(
cmGeneratorTarget const* tgt, const std::string& prop,
cmGeneratorExpressionInterpreter* genexInterpreter)
{
cmValue value = tgt->GetProperty(prop);
if (genexInterpreter == nullptr) {
return value.GetCStr();
}
return genexInterpreter->Evaluate(value ? *value : "", prop).c_str();
}
template <>
std::string getTypedProperty<std::string>(
cmGeneratorTarget const* tgt, const std::string& prop,
cmGeneratorExpressionInterpreter* genexInterpreter)
{
cmValue value = tgt->GetProperty(prop);
if (genexInterpreter == nullptr) {
return valueAsString(value);
}
return genexInterpreter->Evaluate(value ? *value : "", prop);
}
template <typename PropertyType>
PropertyType impliedValue(PropertyType);
template <>
bool impliedValue<bool>(bool /*unused*/)
{
return false;
}
template <>
const char* impliedValue<const char*>(const char* /*unused*/)
{
return "";
}
template <>
std::string impliedValue<std::string>(std::string /*unused*/) // NOLINT(*)
{
return std::string();
}
template <typename PropertyType>
std::pair<bool, PropertyType> consistentProperty(PropertyType lhs,
PropertyType rhs,
CompatibleType t);
template <>
std::pair<bool, bool> consistentProperty(bool lhs, bool rhs,
CompatibleType /*unused*/)
{
return { lhs == rhs, lhs };
}
std::pair<bool, const char*> consistentStringProperty(const char* lhs,
const char* rhs)
{
const bool b = strcmp(lhs, rhs) == 0;
return { b, b ? lhs : nullptr };
}
std::pair<bool, std::string> consistentStringProperty(const std::string& lhs,
const std::string& rhs)
{
const bool b = lhs == rhs;
return { b, b ? lhs : valueAsString(nullptr) };
}
std::pair<bool, const char*> consistentNumberProperty(const char* lhs,
const char* rhs,
CompatibleType t)
{
char* pEnd;
long lnum = strtol(lhs, &pEnd, 0);
if (pEnd == lhs || *pEnd != '\0' || errno == ERANGE) {
return { false, nullptr };
}
long rnum = strtol(rhs, &pEnd, 0);
if (pEnd == rhs || *pEnd != '\0' || errno == ERANGE) {
return { false, nullptr };
}
if (t == NumberMaxType) {
return { true, std::max(lnum, rnum) == lnum ? lhs : rhs };
}
return { true, std::min(lnum, rnum) == lnum ? lhs : rhs };
}
template <>
std::pair<bool, const char*> consistentProperty(const char* lhs,
const char* rhs,
CompatibleType t)
{
if (!lhs && !rhs) {
return { true, lhs };
}
if (!lhs) {
return { true, rhs };
}
if (!rhs) {
return { true, lhs };
}
switch (t) {
case BoolType: {
bool same = cmIsOn(lhs) == cmIsOn(rhs);
return { same, same ? lhs : nullptr };
}
case StringType:
return consistentStringProperty(lhs, rhs);
case NumberMinType:
case NumberMaxType:
return consistentNumberProperty(lhs, rhs, t);
}
assert(false && "Unreachable!");
return { false, nullptr };
}
std::pair<bool, std::string> consistentProperty(const std::string& lhs,
const std::string& rhs,
CompatibleType t)
{
const std::string null_ptr = valueAsString(nullptr);
if (lhs == null_ptr && rhs == null_ptr) {
return { true, lhs };
}
if (lhs == null_ptr) {
return { true, rhs };
}
if (rhs == null_ptr) {
return { true, lhs };
}
switch (t) {
case BoolType: {
bool same = cmIsOn(lhs) == cmIsOn(rhs);
return { same, same ? lhs : null_ptr };
}
case StringType:
return consistentStringProperty(lhs, rhs);
case NumberMinType:
case NumberMaxType: {
auto value = consistentNumberProperty(lhs.c_str(), rhs.c_str(), t);
return { value.first,
value.first ? std::string(value.second) : null_ptr };
}
}
assert(false && "Unreachable!");
return { false, null_ptr };
}
template <typename PropertyType>
PropertyType checkInterfacePropertyCompatibility(cmGeneratorTarget const* tgt,
const std::string& p,
const std::string& config,
const char* defaultValue,
CompatibleType t,
PropertyType* /*unused*/)
{
PropertyType propContent = getTypedProperty<PropertyType>(tgt, p);
std::vector<std::string> headPropKeys = tgt->GetPropertyKeys();
const bool explicitlySet = cm::contains(headPropKeys, p);
const bool impliedByUse = tgt->IsNullImpliedByLinkLibraries(p);
assert((impliedByUse ^ explicitlySet) || (!impliedByUse && !explicitlySet));
std::vector<cmGeneratorTarget const*> const& deps =
tgt->GetLinkImplementationClosure(config);
if (deps.empty()) {
return propContent;
}
bool propInitialized = explicitlySet;
std::string report = cmStrCat(" * Target \"", tgt->GetName());
if (explicitlySet) {
report += "\" has property content \"";
report += valueAsString<PropertyType>(propContent);
report += "\"\n";
} else if (impliedByUse) {
report += "\" property is implied by use.\n";
} else {
report += "\" property not set.\n";
}
std::string interfaceProperty = "INTERFACE_" + p;
std::unique_ptr<cmGeneratorExpressionInterpreter> genexInterpreter;
if (p == "POSITION_INDEPENDENT_CODE") {
genexInterpreter = cm::make_unique<cmGeneratorExpressionInterpreter>(
tgt->GetLocalGenerator(), config, tgt);
}
for (cmGeneratorTarget const* theTarget : deps) {
// An error should be reported if one dependency
// has INTERFACE_POSITION_INDEPENDENT_CODE ON and the other
// has INTERFACE_POSITION_INDEPENDENT_CODE OFF, or if the
// target itself has a POSITION_INDEPENDENT_CODE which disagrees
// with a dependency.
std::vector<std::string> propKeys = theTarget->GetPropertyKeys();
const bool ifaceIsSet = cm::contains(propKeys, interfaceProperty);
PropertyType ifacePropContent = getTypedProperty<PropertyType>(
theTarget, interfaceProperty, genexInterpreter.get());
std::string reportEntry;
if (ifaceIsSet) {
reportEntry += " * Target \"";
reportEntry += theTarget->GetName();
reportEntry += "\" property value \"";
reportEntry += valueAsString<PropertyType>(ifacePropContent);
reportEntry += "\" ";
}
if (explicitlySet) {
if (ifaceIsSet) {
std::pair<bool, PropertyType> consistent =
consistentProperty(propContent, ifacePropContent, t);
report += reportEntry;
report += compatibilityAgree(t, propContent != consistent.second);
if (!consistent.first) {
std::ostringstream e;
e << "Property " << p << " on target \"" << tgt->GetName()
<< "\" does\nnot match the "
"INTERFACE_"
<< p
<< " property requirement\nof "
"dependency \""
<< theTarget->GetName() << "\".\n";
cmSystemTools::Error(e.str());
break;
}
propContent = consistent.second;
continue;
}
// Explicitly set on target and not set in iface. Can't disagree.
continue;
}
if (impliedByUse) {
propContent = impliedValue<PropertyType>(propContent);
if (ifaceIsSet) {
std::pair<bool, PropertyType> consistent =
consistentProperty(propContent, ifacePropContent, t);
report += reportEntry;
report += compatibilityAgree(t, propContent != consistent.second);
if (!consistent.first) {
std::ostringstream e;
e << "Property " << p << " on target \"" << tgt->GetName()
<< "\" is\nimplied to be " << defaultValue
<< " because it was used to determine the link libraries\n"
"already. The INTERFACE_"
<< p << " property on\ndependency \"" << theTarget->GetName()
<< "\" is in conflict.\n";
cmSystemTools::Error(e.str());
break;
}
propContent = consistent.second;
continue;
}
// Implicitly set on target and not set in iface. Can't disagree.
continue;
}
if (ifaceIsSet) {
if (propInitialized) {
std::pair<bool, PropertyType> consistent =
consistentProperty(propContent, ifacePropContent, t);
report += reportEntry;
report += compatibilityAgree(t, propContent != consistent.second);
if (!consistent.first) {
std::ostringstream e;
e << "The INTERFACE_" << p << " property of \""
<< theTarget->GetName() << "\" does\nnot agree with the value of "
<< p << " already determined\nfor \"" << tgt->GetName() << "\".\n";
cmSystemTools::Error(e.str());
break;
}
propContent = consistent.second;
continue;
}
report += reportEntry + "(Interface set)\n";
propContent = ifacePropContent;
propInitialized = true;
} else {
// Not set. Nothing to agree on.
continue;
}
}
tgt->ReportPropertyOrigin(p, valueAsString<PropertyType>(propContent),
report, compatibilityType(t));
return propContent;
}
bool cmGeneratorTarget::SetDeviceLink(bool deviceLink)
{
bool previous = this->DeviceLink;
this->DeviceLink = deviceLink;
return previous;
}
bool cmGeneratorTarget::GetLinkInterfaceDependentBoolProperty(
const std::string& p, const std::string& config) const
{
return checkInterfacePropertyCompatibility<bool>(this, p, config, "FALSE",
BoolType, nullptr);
}
std::string cmGeneratorTarget::GetLinkInterfaceDependentStringAsBoolProperty(
const std::string& p, const std::string& config) const
{
return checkInterfacePropertyCompatibility<std::string>(
this, p, config, "FALSE", BoolType, nullptr);
}
const char* cmGeneratorTarget::GetLinkInterfaceDependentStringProperty(
const std::string& p, const std::string& config) const
{
return checkInterfacePropertyCompatibility<const char*>(
this, p, config, "empty", StringType, nullptr);
}
const char* cmGeneratorTarget::GetLinkInterfaceDependentNumberMinProperty(
const std::string& p, const std::string& config) const
{
return checkInterfacePropertyCompatibility<const char*>(
this, p, config, "empty", NumberMinType, nullptr);
}
const char* cmGeneratorTarget::GetLinkInterfaceDependentNumberMaxProperty(
const std::string& p, const std::string& config) const
{
return checkInterfacePropertyCompatibility<const char*>(
this, p, config, "empty", NumberMaxType, nullptr);
}
cmComputeLinkInformation* cmGeneratorTarget::GetLinkInformation(
const std::string& config) const
{
// Lookup any existing information for this configuration.
std::string key(cmSystemTools::UpperCase(config));
auto i = this->LinkInformation.find(key);
if (i == this->LinkInformation.end()) {
// Compute information for this configuration.
auto info = cm::make_unique<cmComputeLinkInformation>(this, config);
if (info && !info->Compute()) {
info.reset();
}
// Store the information for this configuration.
i = this->LinkInformation.emplace(key, std::move(info)).first;
if (i->second) {
this->CheckPropertyCompatibility(*i->second, config);
}
}
return i->second.get();
}
void cmGeneratorTarget::GetTargetVersion(int& major, int& minor) const
{
int patch;
this->GetTargetVersion("VERSION", major, minor, patch);
}
void cmGeneratorTarget::GetTargetVersionFallback(
const std::string& property, const std::string& fallback_property,
int& major, int& minor, int& patch) const
{
if (this->GetProperty(property)) {
this->GetTargetVersion(property, major, minor, patch);
} else {
this->GetTargetVersion(fallback_property, major, minor, patch);
}
}
void cmGeneratorTarget::GetTargetVersion(const std::string& property,
int& major, int& minor,
int& patch) const
{
// Set the default values.
major = 0;
minor = 0;
patch = 0;
assert(this->GetType() != cmStateEnums::INTERFACE_LIBRARY);
if (cmValue version = this->GetProperty(property)) {
// Try to parse the version number and store the results that were
// successfully parsed.
int parsed_major;
int parsed_minor;
int parsed_patch;
switch (sscanf(version->c_str(), "%d.%d.%d", &parsed_major, &parsed_minor,
&parsed_patch)) {
case 3:
patch = parsed_patch;
CM_FALLTHROUGH;
case 2:
minor = parsed_minor;
CM_FALLTHROUGH;
case 1:
major = parsed_major;
CM_FALLTHROUGH;
default:
break;
}
}
}
std::string cmGeneratorTarget::GetRuntimeLinkLibrary(
std::string const& lang, std::string const& config) const
{
// This is activated by the presence of a default selection whether or
// not it is overridden by a property.
cmValue runtimeLibraryDefault = this->Makefile->GetDefinition(
cmStrCat("CMAKE_", lang, "_RUNTIME_LIBRARY_DEFAULT"));
if (!cmNonempty(runtimeLibraryDefault)) {
return std::string();
}
cmValue runtimeLibraryValue =
this->Target->GetProperty(cmStrCat(lang, "_RUNTIME_LIBRARY"));
if (!runtimeLibraryValue) {
runtimeLibraryValue = runtimeLibraryDefault;
}
return cmSystemTools::UpperCase(cmGeneratorExpression::Evaluate(
*runtimeLibraryValue, this->LocalGenerator, config, this));
}
std::string cmGeneratorTarget::GetFortranModuleDirectory(
std::string const& working_dir) const
{
if (!this->FortranModuleDirectoryCreated) {
this->FortranModuleDirectory =
this->CreateFortranModuleDirectory(working_dir);
this->FortranModuleDirectoryCreated = true;
}
return this->FortranModuleDirectory;
}
bool cmGeneratorTarget::IsFortranBuildingInstrinsicModules() const
{
if (cmValue prop =
this->GetProperty("Fortran_BUILDING_INSTRINSIC_MODULES")) {
return cmIsOn(*prop);
}
return false;
}
std::string cmGeneratorTarget::CreateFortranModuleDirectory(
std::string const& working_dir) const
{
std::string mod_dir;
std::string target_mod_dir;
if (cmValue prop = this->GetProperty("Fortran_MODULE_DIRECTORY")) {
target_mod_dir = *prop;
} else {
std::string const& default_mod_dir =
this->LocalGenerator->GetCurrentBinaryDirectory();
if (default_mod_dir != working_dir) {
target_mod_dir = default_mod_dir;
}
}
cmValue moddir_flag =
this->Makefile->GetDefinition("CMAKE_Fortran_MODDIR_FLAG");
if (!target_mod_dir.empty() && moddir_flag) {
// Compute the full path to the module directory.
if (cmSystemTools::FileIsFullPath(target_mod_dir)) {
// Already a full path.
mod_dir = target_mod_dir;
} else {
// Interpret relative to the current output directory.
mod_dir = cmStrCat(this->LocalGenerator->GetCurrentBinaryDirectory(),
'/', target_mod_dir);
}
// Make sure the module output directory exists.
cmSystemTools::MakeDirectory(mod_dir);
}
return mod_dir;
}
void cmGeneratorTarget::AddISPCGeneratedHeader(std::string const& header,
std::string const& config)
{
std::string config_upper;
if (!config.empty()) {
config_upper = cmSystemTools::UpperCase(config);
}
auto iter = this->ISPCGeneratedHeaders.find(config_upper);
if (iter == this->ISPCGeneratedHeaders.end()) {
std::vector<std::string> headers;
headers.emplace_back(header);
this->ISPCGeneratedHeaders.insert({ config_upper, headers });
} else {
iter->second.emplace_back(header);
}
}
std::vector<std::string> cmGeneratorTarget::GetGeneratedISPCHeaders(
std::string const& config) const
{
std::string config_upper;
if (!config.empty()) {
config_upper = cmSystemTools::UpperCase(config);
}
auto iter = this->ISPCGeneratedHeaders.find(config_upper);
if (iter == this->ISPCGeneratedHeaders.end()) {
return std::vector<std::string>{};
}
return iter->second;
}
void cmGeneratorTarget::AddISPCGeneratedObject(std::vector<std::string>&& objs,
std::string const& config)
{
std::string config_upper;
if (!config.empty()) {
config_upper = cmSystemTools::UpperCase(config);
}
auto iter = this->ISPCGeneratedObjects.find(config_upper);
if (iter == this->ISPCGeneratedObjects.end()) {
this->ISPCGeneratedObjects.insert({ config_upper, objs });
} else {
iter->second.insert(iter->second.end(), objs.begin(), objs.end());
}
}
std::vector<std::string> cmGeneratorTarget::GetGeneratedISPCObjects(
std::string const& config) const
{
std::string config_upper;
if (!config.empty()) {
config_upper = cmSystemTools::UpperCase(config);
}
auto iter = this->ISPCGeneratedObjects.find(config_upper);
if (iter == this->ISPCGeneratedObjects.end()) {
return std::vector<std::string>{};
}
return iter->second;
}
std::string cmGeneratorTarget::GetFrameworkVersion() const
{
assert(this->GetType() != cmStateEnums::INTERFACE_LIBRARY);
if (cmValue fversion = this->GetProperty("FRAMEWORK_VERSION")) {
return *fversion;
}
if (cmValue tversion = this->GetProperty("VERSION")) {
return *tversion;
}
return "A";
}
void cmGeneratorTarget::ComputeVersionedName(
std::string& vName, std::string const& prefix, std::string const& base,
std::string const& suffix, std::string const& name, cmValue version) const
{
vName = this->Makefile->IsOn("APPLE") ? (prefix + base) : name;
if (version) {
vName += ".";
vName += *version;
}
vName += this->Makefile->IsOn("APPLE") ? suffix : std::string();
}
std::vector<std::string> cmGeneratorTarget::GetPropertyKeys() const
{
return this->Target->GetProperties().GetKeys();
}
void cmGeneratorTarget::ReportPropertyOrigin(
const std::string& p, const std::string& result, const std::string& report,
const std::string& compatibilityType) const
{
std::vector<std::string> debugProperties;
this->Target->GetMakefile()->GetDefExpandList(
"CMAKE_DEBUG_TARGET_PROPERTIES", debugProperties);
bool debugOrigin = !this->DebugCompatiblePropertiesDone[p] &&
cm::contains(debugProperties, p);
if (this->GlobalGenerator->GetConfigureDoneCMP0026()) {
this->DebugCompatiblePropertiesDone[p] = true;
}
if (!debugOrigin) {
return;
}
std::string areport =
cmStrCat(compatibilityType, " of property \"", p, "\" for target \"",
this->GetName(), "\" (result: \"", result, "\"):\n", report);
this->LocalGenerator->GetCMakeInstance()->IssueMessage(MessageType::LOG,
areport);
}
bool cmGeneratorTarget::IsLinkLookupScope(std::string const& n,
cmLocalGenerator const*& lg) const
{
if (cmHasLiteralPrefix(n, CMAKE_DIRECTORY_ID_SEP)) {
cmDirectoryId const dirId = n.substr(sizeof(CMAKE_DIRECTORY_ID_SEP) - 1);
if (dirId.String.empty()) {
lg = this->LocalGenerator;
return true;
}
if (cmLocalGenerator const* otherLG =
this->GlobalGenerator->FindLocalGenerator(dirId)) {
lg = otherLG;
return true;
}
}
return false;
}
cm::optional<cmLinkItem> cmGeneratorTarget::LookupLinkItem(
std::string const& n, cmListFileBacktrace const& bt,
LookupLinkItemScope* scope) const
{
cm::optional<cmLinkItem> maybeItem;
if (this->IsLinkLookupScope(n, scope->LG)) {
return maybeItem;
}
std::string name = this->CheckCMP0004(n);
if (name == this->GetName() || name.empty()) {
return maybeItem;
}
maybeItem = this->ResolveLinkItem(BT<std::string>(name, bt), scope->LG);
return maybeItem;
}
void cmGeneratorTarget::ExpandLinkItems(std::string const& prop,
std::string const& value,
std::string const& config,
cmGeneratorTarget const* headTarget,
bool usage_requirements_only,
cmLinkInterface& iface) const
{
// Keep this logic in sync with ComputeLinkImplementationLibraries.
cmGeneratorExpression ge;
cmGeneratorExpressionDAGChecker dagChecker(this, prop, nullptr, nullptr);
// The $<LINK_ONLY> expression may be in a link interface to specify
// private link dependencies that are otherwise excluded from usage
// requirements.
if (usage_requirements_only) {
dagChecker.SetTransitivePropertiesOnly();
}
std::vector<std::string> libs;
std::unique_ptr<cmCompiledGeneratorExpression> cge = ge.Parse(value);
cge->SetEvaluateForBuildsystem(true);
cmExpandList(cge->Evaluate(this->LocalGenerator, config, headTarget,
&dagChecker, this, headTarget->LinkerLanguage),
libs);
cmMakefile const* mf = this->LocalGenerator->GetMakefile();
LookupLinkItemScope scope{ this->LocalGenerator };
for (std::string const& lib : libs) {
if (cm::optional<cmLinkItem> maybeItem =
this->LookupLinkItem(lib, cge->GetBacktrace(), &scope)) {
cmLinkItem item = std::move(*maybeItem);
if (!item.Target) {
// Report explicitly linked object files separately.
std::string const& maybeObj = item.AsStr();
if (cmSystemTools::FileIsFullPath(maybeObj)) {
cmSourceFile const* sf =
mf->GetSource(maybeObj, cmSourceFileLocationKind::Known);
if (sf && sf->GetPropertyAsBool("EXTERNAL_OBJECT")) {
iface.Objects.emplace_back(std::move(item));
continue;
}
}
}
iface.Libraries.emplace_back(std::move(item));
}
}
iface.HadHeadSensitiveCondition = cge->GetHadHeadSensitiveCondition();
iface.HadContextSensitiveCondition = cge->GetHadContextSensitiveCondition();
iface.HadLinkLanguageSensitiveCondition =
cge->GetHadLinkLanguageSensitiveCondition();
}
cmLinkInterface const* cmGeneratorTarget::GetLinkInterface(
const std::string& config, cmGeneratorTarget const* head) const
{
return this->GetLinkInterface(config, head, false);
}
cmLinkInterface const* cmGeneratorTarget::GetLinkInterface(
const std::string& config, cmGeneratorTarget const* head,
bool secondPass) const
{
// Imported targets have their own link interface.
if (this->IsImported()) {
return this->GetImportLinkInterface(config, head, false, secondPass);
}
// Link interfaces are not supported for executables that do not
// export symbols.
if (this->GetType() == cmStateEnums::EXECUTABLE &&
!this->IsExecutableWithExports()) {
return nullptr;
}
// Lookup any existing link interface for this configuration.
cmHeadToLinkInterfaceMap& hm = this->GetHeadToLinkInterfaceMap(config);
if (secondPass) {
hm.erase(head);
}
// If the link interface does not depend on the head target
// then return the one we computed first.
if (!hm.empty() && !hm.begin()->second.HadHeadSensitiveCondition) {
return &hm.begin()->second;
}
cmOptionalLinkInterface& iface = hm[head];
if (!iface.LibrariesDone) {
iface.LibrariesDone = true;
this->ComputeLinkInterfaceLibraries(config, iface, head, false);
}
if (!iface.AllDone) {
iface.AllDone = true;
if (iface.Exists) {
this->ComputeLinkInterface(config, iface, head, secondPass);
this->ComputeLinkInterfaceRuntimeLibraries(config, iface);
}
}
return iface.Exists ? &iface : nullptr;
}
void cmGeneratorTarget::ComputeLinkInterface(
const std::string& config, cmOptionalLinkInterface& iface,
cmGeneratorTarget const* headTarget) const
{
this->ComputeLinkInterface(config, iface, headTarget, false);
}
void cmGeneratorTarget::ComputeLinkInterface(
const std::string& config, cmOptionalLinkInterface& iface,
cmGeneratorTarget const* headTarget, bool secondPass) const
{
if (iface.Explicit) {
if (this->GetType() == cmStateEnums::SHARED_LIBRARY ||
this->GetType() == cmStateEnums::STATIC_LIBRARY ||
this->GetType() == cmStateEnums::INTERFACE_LIBRARY) {
// Shared libraries may have runtime implementation dependencies
// on other shared libraries that are not in the interface.
std::set<cmLinkItem> emitted;
for (cmLinkItem const& lib : iface.Libraries) {
emitted.insert(lib);
}
if (this->GetType() != cmStateEnums::INTERFACE_LIBRARY) {
cmLinkImplementation const* impl =
this->GetLinkImplementation(config, secondPass);
for (cmLinkImplItem const& lib : impl->Libraries) {
if (emitted.insert(lib).second) {
if (lib.Target) {
// This is a runtime dependency on another shared library.
if (lib.Target->GetType() == cmStateEnums::SHARED_LIBRARY) {
iface.SharedDeps.push_back(lib);
}
} else {
// TODO: Recognize shared library file names. Perhaps this
// should be moved to cmComputeLinkInformation, but that
// creates a chicken-and-egg problem since this list is needed
// for its construction.
}
}
}
}
}
} else if (this->GetPolicyStatusCMP0022() == cmPolicies::WARN ||
this->GetPolicyStatusCMP0022() == cmPolicies::OLD) {
// The link implementation is the default link interface.
cmLinkImplementationLibraries const* impl =
this->GetLinkImplementationLibrariesInternal(config, headTarget);
iface.ImplementationIsInterface = true;
iface.WrongConfigLibraries = impl->WrongConfigLibraries;
}
if (this->LinkLanguagePropagatesToDependents()) {
// Targets using this archive need its language runtime libraries.
if (cmLinkImplementation const* impl =
this->GetLinkImplementation(config, secondPass)) {
iface.Languages = impl->Languages;
}
}
if (this->GetType() == cmStateEnums::STATIC_LIBRARY) {
// Construct the property name suffix for this configuration.
std::string suffix = "_";
if (!config.empty()) {
suffix += cmSystemTools::UpperCase(config);
} else {
suffix += "NOCONFIG";
}
// How many repetitions are needed if this library has cyclic
// dependencies?
std::string propName = cmStrCat("LINK_INTERFACE_MULTIPLICITY", suffix);
if (cmValue config_reps = this->GetProperty(propName)) {
sscanf(config_reps->c_str(), "%u", &iface.Multiplicity);
} else if (cmValue reps =
this->GetProperty("LINK_INTERFACE_MULTIPLICITY")) {
sscanf(reps->c_str(), "%u", &iface.Multiplicity);
}
}
}
const cmLinkInterfaceLibraries* cmGeneratorTarget::GetLinkInterfaceLibraries(
const std::string& config, cmGeneratorTarget const* head,
bool usage_requirements_only) const
{
// Imported targets have their own link interface.
if (this->IsImported()) {
return this->GetImportLinkInterface(config, head, usage_requirements_only);
}
// Link interfaces are not supported for executables that do not
// export symbols.
if (this->GetType() == cmStateEnums::EXECUTABLE &&
!this->IsExecutableWithExports()) {
return nullptr;
}
// Lookup any existing link interface for this configuration.
cmHeadToLinkInterfaceMap& hm =
(usage_requirements_only
? this->GetHeadToLinkInterfaceUsageRequirementsMap(config)
: this->GetHeadToLinkInterfaceMap(config));
// If the link interface does not depend on the head target
// then return the one we computed first.
if (!hm.empty() && !hm.begin()->second.HadHeadSensitiveCondition) {
return &hm.begin()->second;
}
cmOptionalLinkInterface& iface = hm[head];
if (!iface.LibrariesDone) {
iface.LibrariesDone = true;
this->ComputeLinkInterfaceLibraries(config, iface, head,
usage_requirements_only);
}
return iface.Exists ? &iface : nullptr;
}
std::string cmGeneratorTarget::GetDirectory(
const std::string& config, cmStateEnums::ArtifactType artifact) const
{
if (this->IsImported()) {
auto fullPath = this->Target->ImportedGetFullPath(config, artifact);
if (this->IsFrameworkOnApple()) {
cmsys::RegularExpressionMatch match;
if (FrameworkRegularExpression.find(fullPath.c_str(), match)) {
auto path = match.match(1);
if (!path.empty()) {
path.erase(path.length() - 1);
}
return path;
}
}
// Return the directory from which the target is imported.
return cmSystemTools::GetFilenamePath(fullPath);
}
if (OutputInfo const* info = this->GetOutputInfo(config)) {
// Return the directory in which the target will be built.
switch (artifact) {
case cmStateEnums::RuntimeBinaryArtifact:
return info->OutDir;
case cmStateEnums::ImportLibraryArtifact:
return info->ImpDir;
}
}
return "";
}
bool cmGeneratorTarget::UsesDefaultOutputDir(
const std::string& config, cmStateEnums::ArtifactType artifact) const
{
std::string dir;
return this->ComputeOutputDir(config, artifact, dir);
}
cmGeneratorTarget::OutputInfo const* cmGeneratorTarget::GetOutputInfo(
const std::string& config) const
{
// There is no output information for imported targets.
if (this->IsImported()) {
return nullptr;
}
// Only libraries and executables have well-defined output files.
if (!this->HaveWellDefinedOutputFiles()) {
std::string msg = cmStrCat("cmGeneratorTarget::GetOutputInfo called for ",
this->GetName(), " which has type ",
cmState::GetTargetTypeName(this->GetType()));
this->LocalGenerator->IssueMessage(MessageType::INTERNAL_ERROR, msg);
return nullptr;
}
// Lookup/compute/cache the output information for this configuration.
std::string config_upper;
if (!config.empty()) {
config_upper = cmSystemTools::UpperCase(config);
}
auto i = this->OutputInfoMap.find(config_upper);
if (i == this->OutputInfoMap.end()) {
// Add empty info in map to detect potential recursion.
OutputInfo info;
OutputInfoMapType::value_type entry(config_upper, info);
i = this->OutputInfoMap.insert(entry).first;
// Compute output directories.
this->ComputeOutputDir(config, cmStateEnums::RuntimeBinaryArtifact,
info.OutDir);
this->ComputeOutputDir(config, cmStateEnums::ImportLibraryArtifact,
info.ImpDir);
if (!this->ComputePDBOutputDir("PDB", config, info.PdbDir)) {
info.PdbDir = info.OutDir;
}
// Now update the previously-prepared map entry.
i->second = info;
} else if (i->second.empty()) {
// An empty map entry indicates we have been called recursively
// from the above block.
this->LocalGenerator->GetCMakeInstance()->IssueMessage(
MessageType::FATAL_ERROR,
"Target '" + this->GetName() + "' OUTPUT_DIRECTORY depends on itself.",
this->GetBacktrace());
return nullptr;
}
return &i->second;
}
bool cmGeneratorTarget::ComputeOutputDir(const std::string& config,
cmStateEnums::ArtifactType artifact,
std::string& out) const
{
bool usesDefaultOutputDir = false;
std::string conf = config;
// Look for a target property defining the target output directory
// based on the target type.
std::string targetTypeName = this->GetOutputTargetType(artifact);
std::string propertyName;
if (!targetTypeName.empty()) {
propertyName = cmStrCat(targetTypeName, "_OUTPUT_DIRECTORY");
}
// Check for a per-configuration output directory target property.
std::string configUpper = cmSystemTools::UpperCase(conf);
std::string configProp;
if (!targetTypeName.empty()) {
configProp = cmStrCat(targetTypeName, "_OUTPUT_DIRECTORY_", configUpper);
}
// Select an output directory.
if (cmValue config_outdir = this->GetProperty(configProp)) {
// Use the user-specified per-configuration output directory.
out = cmGeneratorExpression::Evaluate(*config_outdir, this->LocalGenerator,
config, this);
// Skip per-configuration subdirectory.
conf.clear();
} else if (cmValue outdir = this->GetProperty(propertyName)) {
// Use the user-specified output directory.
out = cmGeneratorExpression::Evaluate(*outdir, this->LocalGenerator,
config, this);
// Skip per-configuration subdirectory if the value contained a
// generator expression.
if (out != *outdir) {
conf.clear();
}
} else if (this->GetType() == cmStateEnums::EXECUTABLE) {
// Lookup the output path for executables.
out = this->Makefile->GetSafeDefinition("EXECUTABLE_OUTPUT_PATH");
} else if (this->GetType() == cmStateEnums::STATIC_LIBRARY ||
this->GetType() == cmStateEnums::SHARED_LIBRARY ||
this->GetType() == cmStateEnums::MODULE_LIBRARY) {
// Lookup the output path for libraries.
out = this->Makefile->GetSafeDefinition("LIBRARY_OUTPUT_PATH");
}
if (out.empty()) {
// Default to the current output directory.
usesDefaultOutputDir = true;
out = ".";
}
// Convert the output path to a full path in case it is
// specified as a relative path. Treat a relative path as
// relative to the current output directory for this makefile.
out = (cmSystemTools::CollapseFullPath(
out, this->LocalGenerator->GetCurrentBinaryDirectory()));
// The generator may add the configuration's subdirectory.
if (!conf.empty()) {
bool useEPN =
this->GlobalGenerator->UseEffectivePlatformName(this->Makefile);
std::string suffix =
usesDefaultOutputDir && useEPN ? "${EFFECTIVE_PLATFORM_NAME}" : "";
this->LocalGenerator->GetGlobalGenerator()->AppendDirectoryForConfig(
"/", conf, suffix, out);
}
return usesDefaultOutputDir;
}
bool cmGeneratorTarget::ComputePDBOutputDir(const std::string& kind,
const std::string& config,
std::string& out) const
{
// Look for a target property defining the target output directory
// based on the target type.
std::string propertyName;
if (!kind.empty()) {
propertyName = cmStrCat(kind, "_OUTPUT_DIRECTORY");
}
std::string conf = config;
// Check for a per-configuration output directory target property.
std::string configUpper = cmSystemTools::UpperCase(conf);
std::string configProp;
if (!kind.empty()) {
configProp = cmStrCat(kind, "_OUTPUT_DIRECTORY_", configUpper);
}
// Select an output directory.
if (cmValue config_outdir = this->GetProperty(configProp)) {
// Use the user-specified per-configuration output directory.
out = cmGeneratorExpression::Evaluate(*config_outdir, this->LocalGenerator,
config);
// Skip per-configuration subdirectory.
conf.clear();
} else if (cmValue outdir = this->GetProperty(propertyName)) {
// Use the user-specified output directory.
out =
cmGeneratorExpression::Evaluate(*outdir, this->LocalGenerator, config);
// Skip per-configuration subdirectory if the value contained a
// generator expression.
if (out != *outdir) {
conf.clear();
}
}
if (out.empty()) {
return false;
}
// Convert the output path to a full path in case it is
// specified as a relative path. Treat a relative path as
// relative to the current output directory for this makefile.
out = (cmSystemTools::CollapseFullPath(
out, this->LocalGenerator->GetCurrentBinaryDirectory()));
// The generator may add the configuration's subdirectory.
if (!conf.empty()) {
this->LocalGenerator->GetGlobalGenerator()->AppendDirectoryForConfig(
"/", conf, "", out);
}
return true;
}
bool cmGeneratorTarget::HaveInstallTreeRPATH(const std::string& config) const
{
std::string install_rpath;
this->GetInstallRPATH(config, install_rpath);
return !install_rpath.empty() &&
!this->Makefile->IsOn("CMAKE_SKIP_INSTALL_RPATH");
}
bool cmGeneratorTarget::GetBuildRPATH(const std::string& config,
std::string& rpath) const
{
return this->GetRPATH(config, "BUILD_RPATH", rpath);
}
bool cmGeneratorTarget::GetInstallRPATH(const std::string& config,
std::string& rpath) const
{
return this->GetRPATH(config, "INSTALL_RPATH", rpath);
}
bool cmGeneratorTarget::GetRPATH(const std::string& config,
const std::string& prop,
std::string& rpath) const
{
cmValue value = this->GetProperty(prop);
if (!value) {
return false;
}
rpath =
cmGeneratorExpression::Evaluate(*value, this->LocalGenerator, config);
return true;
}
void cmGeneratorTarget::ComputeLinkInterfaceLibraries(
const std::string& config, cmOptionalLinkInterface& iface,
cmGeneratorTarget const* headTarget, bool usage_requirements_only) const
{
// Construct the property name suffix for this configuration.
std::string suffix = "_";
if (!config.empty()) {
suffix += cmSystemTools::UpperCase(config);
} else {
suffix += "NOCONFIG";
}
// An explicit list of interface libraries may be set for shared
// libraries and executables that export symbols.
cmValue explicitLibraries = nullptr;
std::string linkIfaceProp;
bool const cmp0022NEW = (this->GetPolicyStatusCMP0022() != cmPolicies::OLD &&
this->GetPolicyStatusCMP0022() != cmPolicies::WARN);
if (cmp0022NEW) {
// CMP0022 NEW behavior is to use INTERFACE_LINK_LIBRARIES.
linkIfaceProp = "INTERFACE_LINK_LIBRARIES";
explicitLibraries = this->GetProperty(linkIfaceProp);
} else if (this->GetType() == cmStateEnums::SHARED_LIBRARY ||
this->IsExecutableWithExports()) {
// CMP0022 OLD behavior is to use LINK_INTERFACE_LIBRARIES if set on a
// shared lib or executable.
// Lookup the per-configuration property.
linkIfaceProp = cmStrCat("LINK_INTERFACE_LIBRARIES", suffix);
explicitLibraries = this->GetProperty(linkIfaceProp);
// If not set, try the generic property.
if (!explicitLibraries) {
linkIfaceProp = "LINK_INTERFACE_LIBRARIES";
explicitLibraries = this->GetProperty(linkIfaceProp);
}
}
if (explicitLibraries &&
this->GetPolicyStatusCMP0022() == cmPolicies::WARN &&
!this->PolicyWarnedCMP0022) {
// Compare the explicitly set old link interface properties to the
// preferred new link interface property one and warn if different.
cmValue newExplicitLibraries =
this->GetProperty("INTERFACE_LINK_LIBRARIES");
if (newExplicitLibraries &&
(*newExplicitLibraries != *explicitLibraries)) {
std::ostringstream w;
/* clang-format off */
w << cmPolicies::GetPolicyWarning(cmPolicies::CMP0022) << "\n"
"Target \"" << this->GetName() << "\" has an "
"INTERFACE_LINK_LIBRARIES property which differs from its " <<
linkIfaceProp << " properties."
"\n"
"INTERFACE_LINK_LIBRARIES:\n"
" " << *newExplicitLibraries << "\n" <<
linkIfaceProp << ":\n"
" " << *explicitLibraries << "\n";
/* clang-format on */
this->LocalGenerator->IssueMessage(MessageType::AUTHOR_WARNING, w.str());
this->PolicyWarnedCMP0022 = true;
}
}
// There is no implicit link interface for executables or modules
// so if none was explicitly set then there is no link interface.
if (!explicitLibraries &&
(this->GetType() == cmStateEnums::EXECUTABLE ||
(this->GetType() == cmStateEnums::MODULE_LIBRARY))) {
return;
}
iface.Exists = true;
// If CMP0022 is NEW then the plain tll signature sets the
// INTERFACE_LINK_LIBRARIES property. Even if the project
// clears it, the link interface is still explicit.
iface.Explicit = cmp0022NEW || explicitLibraries;
if (explicitLibraries) {
// The interface libraries have been explicitly set.
this->ExpandLinkItems(linkIfaceProp, *explicitLibraries, config,
headTarget, usage_requirements_only, iface);
}
// If the link interface is explicit, do not fall back to the link impl.
if (iface.Explicit) {
return;
}
// The link implementation is the default link interface.
if (cmLinkImplementationLibraries const* impl =
this->GetLinkImplementationLibrariesInternal(config, headTarget)) {
iface.Libraries.insert(iface.Libraries.end(), impl->Libraries.begin(),
impl->Libraries.end());
if (this->GetPolicyStatusCMP0022() == cmPolicies::WARN &&
!this->PolicyWarnedCMP0022 && !usage_requirements_only) {
// Compare the link implementation fallback link interface to the
// preferred new link interface property and warn if different.
cmLinkInterface ifaceNew;
static const std::string newProp = "INTERFACE_LINK_LIBRARIES";
if (cmValue newExplicitLibraries = this->GetProperty(newProp)) {
this->ExpandLinkItems(newProp, *newExplicitLibraries, config,
headTarget, usage_requirements_only, ifaceNew);
}
if (ifaceNew.Libraries != iface.Libraries) {
std::string oldLibraries = cmJoin(impl->Libraries, ";");
std::string newLibraries = cmJoin(ifaceNew.Libraries, ";");
if (oldLibraries.empty()) {
oldLibraries = "(empty)";
}
if (newLibraries.empty()) {
newLibraries = "(empty)";
}
std::ostringstream w;
/* clang-format off */
w << cmPolicies::GetPolicyWarning(cmPolicies::CMP0022) << "\n"
"Target \"" << this->GetName() << "\" has an "
"INTERFACE_LINK_LIBRARIES property. "
"This should be preferred as the source of the link interface "
"for this library but because CMP0022 is not set CMake is "
"ignoring the property and using the link implementation "
"as the link interface instead."
"\n"
"INTERFACE_LINK_LIBRARIES:\n"
" " << newLibraries << "\n"
"Link implementation:\n"
" " << oldLibraries << "\n";
/* clang-format on */
this->LocalGenerator->IssueMessage(MessageType::AUTHOR_WARNING,
w.str());
this->PolicyWarnedCMP0022 = true;
}
}
}
}
namespace {
template <typename ReturnType>
ReturnType constructItem(cmGeneratorTarget* target,
cmListFileBacktrace const& bt);
template <>
inline cmLinkImplItem constructItem(cmGeneratorTarget* target,
cmListFileBacktrace const& bt)
{
return cmLinkImplItem(cmLinkItem(target, false, bt), false);
}
template <>
inline cmLinkItem constructItem(cmGeneratorTarget* target,
cmListFileBacktrace const& bt)
{
return cmLinkItem(target, false, bt);
}
template <typename ValueType>
std::vector<ValueType> computeImplicitLanguageTargets(
std::string const& lang, std::string const& config,
cmGeneratorTarget const* currentTarget)
{
cmListFileBacktrace bt;
std::vector<ValueType> result;
cmLocalGenerator* lg = currentTarget->GetLocalGenerator();
std::string const& runtimeLibrary =
currentTarget->GetRuntimeLinkLibrary(lang, config);
if (cmValue runtimeLinkOptions = currentTarget->Makefile->GetDefinition(
"CMAKE_" + lang + "_RUNTIME_LIBRARIES_" + runtimeLibrary)) {
std::vector<std::string> libsVec = cmExpandedList(*runtimeLinkOptions);
result.reserve(libsVec.size());
for (std::string const& i : libsVec) {
cmGeneratorTarget::TargetOrString resolved =
currentTarget->ResolveTargetReference(i, lg);
if (resolved.Target) {
result.emplace_back(constructItem<ValueType>(resolved.Target, bt));
}
}
}
return result;
}
}
void cmGeneratorTarget::ComputeLinkInterfaceRuntimeLibraries(
const std::string& config, cmOptionalLinkInterface& iface) const
{
for (std::string const& lang : iface.Languages) {
if ((lang == "CUDA" || lang == "HIP") &&
iface.LanguageRuntimeLibraries.find(lang) ==
iface.LanguageRuntimeLibraries.end()) {
auto implicitTargets =
computeImplicitLanguageTargets<cmLinkItem>(lang, config, this);
iface.LanguageRuntimeLibraries[lang] = std::move(implicitTargets);
}
}
}
void cmGeneratorTarget::ComputeLinkImplementationRuntimeLibraries(
const std::string& config, cmOptionalLinkImplementation& impl) const
{
for (std::string const& lang : impl.Languages) {
if ((lang == "CUDA" || lang == "HIP") &&
impl.LanguageRuntimeLibraries.find(lang) ==
impl.LanguageRuntimeLibraries.end()) {
auto implicitTargets =
computeImplicitLanguageTargets<cmLinkImplItem>(lang, config, this);
impl.LanguageRuntimeLibraries[lang] = std::move(implicitTargets);
}
}
}
const cmLinkInterface* cmGeneratorTarget::GetImportLinkInterface(
const std::string& config, cmGeneratorTarget const* headTarget,
bool usage_requirements_only, bool secondPass) const
{
cmGeneratorTarget::ImportInfo const* info = this->GetImportInfo(config);
if (!info) {
return nullptr;
}
cmHeadToLinkInterfaceMap& hm =
(usage_requirements_only
? this->GetHeadToLinkInterfaceUsageRequirementsMap(config)
: this->GetHeadToLinkInterfaceMap(config));
if (secondPass) {
hm.erase(headTarget);
}
// If the link interface does not depend on the head target
// then return the one we computed first.
if (!hm.empty() && !hm.begin()->second.HadHeadSensitiveCondition) {
return &hm.begin()->second;
}
cmOptionalLinkInterface& iface = hm[headTarget];
if (!iface.AllDone) {
iface.AllDone = true;
iface.Multiplicity = info->Multiplicity;
cmExpandList(info->Languages, iface.Languages);
this->ExpandLinkItems(info->LibrariesProp, info->Libraries, config,
headTarget, usage_requirements_only, iface);
std::vector<std::string> deps = cmExpandedList(info->SharedDeps);
LookupLinkItemScope scope{ this->LocalGenerator };
for (std::string const& dep : deps) {
if (cm::optional<cmLinkItem> maybeItem =
this->LookupLinkItem(dep, cmListFileBacktrace(), &scope)) {
iface.SharedDeps.emplace_back(std::move(*maybeItem));
}
}
}
return &iface;
}
cmGeneratorTarget::ImportInfo const* cmGeneratorTarget::GetImportInfo(
const std::string& config) const
{
// There is no imported information for non-imported targets.
if (!this->IsImported()) {
return nullptr;
}
// Lookup/compute/cache the import information for this
// configuration.
std::string config_upper;
if (!config.empty()) {
config_upper = cmSystemTools::UpperCase(config);
} else {
config_upper = "NOCONFIG";
}
auto i = this->ImportInfoMap.find(config_upper);
if (i == this->ImportInfoMap.end()) {
ImportInfo info;
this->ComputeImportInfo(config_upper, info);
ImportInfoMapType::value_type entry(config_upper, info);
i = this->ImportInfoMap.insert(entry).first;
}
if (this->GetType() == cmStateEnums::INTERFACE_LIBRARY) {
return &i->second;
}
// If the location is empty then the target is not available for
// this configuration.
if (i->second.Location.empty() && i->second.ImportLibrary.empty()) {
return nullptr;
}
// Return the import information.
return &i->second;
}
void cmGeneratorTarget::ComputeImportInfo(std::string const& desired_config,
ImportInfo& info) const
{
// This method finds information about an imported target from its
// properties. The "IMPORTED_" namespace is reserved for properties
// defined by the project exporting the target.
// Initialize members.
info.NoSOName = false;
cmValue loc = nullptr;
cmValue imp = nullptr;
std::string suffix;
if (!this->Target->GetMappedConfig(desired_config, loc, imp, suffix)) {
return;
}
// Get the link interface.
{
std::string linkProp = "INTERFACE_LINK_LIBRARIES";
cmValue propertyLibs = this->GetProperty(linkProp);
if (this->GetType() != cmStateEnums::INTERFACE_LIBRARY) {
if (!propertyLibs) {
linkProp = cmStrCat("IMPORTED_LINK_INTERFACE_LIBRARIES", suffix);
propertyLibs = this->GetProperty(linkProp);
}
if (!propertyLibs) {
linkProp = "IMPORTED_LINK_INTERFACE_LIBRARIES";
propertyLibs = this->GetProperty(linkProp);
}
}
if (propertyLibs) {
info.LibrariesProp = linkProp;
info.Libraries = *propertyLibs;
}
}
if (this->GetType() == cmStateEnums::INTERFACE_LIBRARY) {
if (loc) {
info.LibName = *loc;
}
return;
}
// A provided configuration has been chosen. Load the
// configuration's properties.
// Get the location.
if (loc) {
info.Location = *loc;
} else {
std::string impProp = cmStrCat("IMPORTED_LOCATION", suffix);
if (cmValue config_location = this->GetProperty(impProp)) {
info.Location = *config_location;
} else if (cmValue location = this->GetProperty("IMPORTED_LOCATION")) {
info.Location = *location;
}
}
// Get the soname.
if (this->GetType() == cmStateEnums::SHARED_LIBRARY) {
std::string soProp = cmStrCat("IMPORTED_SONAME", suffix);
if (cmValue config_soname = this->GetProperty(soProp)) {
info.SOName = *config_soname;
} else if (cmValue soname = this->GetProperty("IMPORTED_SONAME")) {
info.SOName = *soname;
}
}
// Get the "no-soname" mark.
if (this->GetType() == cmStateEnums::SHARED_LIBRARY) {
std::string soProp = cmStrCat("IMPORTED_NO_SONAME", suffix);
if (cmValue config_no_soname = this->GetProperty(soProp)) {
info.NoSOName = cmIsOn(*config_no_soname);
} else if (cmValue no_soname = this->GetProperty("IMPORTED_NO_SONAME")) {
info.NoSOName = cmIsOn(*no_soname);
}
}
// Get the import library.
if (imp) {
info.ImportLibrary = *imp;
} else if (this->GetType() == cmStateEnums::SHARED_LIBRARY ||
this->IsExecutableWithExports()) {
std::string impProp = cmStrCat("IMPORTED_IMPLIB", suffix);
if (cmValue config_implib = this->GetProperty(impProp)) {
info.ImportLibrary = *config_implib;
} else if (cmValue implib = this->GetProperty("IMPORTED_IMPLIB")) {
info.ImportLibrary = *implib;
}
}
// Get the link dependencies.
{
std::string linkProp =
cmStrCat("IMPORTED_LINK_DEPENDENT_LIBRARIES", suffix);
if (cmValue config_libs = this->GetProperty(linkProp)) {
info.SharedDeps = *config_libs;
} else if (cmValue libs =
this->GetProperty("IMPORTED_LINK_DEPENDENT_LIBRARIES")) {
info.SharedDeps = *libs;
}
}
// Get the link languages.
if (this->LinkLanguagePropagatesToDependents()) {
std::string linkProp =
cmStrCat("IMPORTED_LINK_INTERFACE_LANGUAGES", suffix);
if (cmValue config_libs = this->GetProperty(linkProp)) {
info.Languages = *config_libs;
} else if (cmValue libs =
this->GetProperty("IMPORTED_LINK_INTERFACE_LANGUAGES")) {
info.Languages = *libs;
}
}
// Get information if target is managed assembly.
{
std::string linkProp = "IMPORTED_COMMON_LANGUAGE_RUNTIME";
if (cmValue pc = this->GetProperty(linkProp + suffix)) {
info.Managed = this->CheckManagedType(*pc);
} else if (cmValue p = this->GetProperty(linkProp)) {
info.Managed = this->CheckManagedType(*p);
}
}
// Get the cyclic repetition count.
if (this->GetType() == cmStateEnums::STATIC_LIBRARY) {
std::string linkProp =
cmStrCat("IMPORTED_LINK_INTERFACE_MULTIPLICITY", suffix);
if (cmValue config_reps = this->GetProperty(linkProp)) {
sscanf(config_reps->c_str(), "%u", &info.Multiplicity);
} else if (cmValue reps =
this->GetProperty("IMPORTED_LINK_INTERFACE_MULTIPLICITY")) {
sscanf(reps->c_str(), "%u", &info.Multiplicity);
}
}
}
cmHeadToLinkInterfaceMap& cmGeneratorTarget::GetHeadToLinkInterfaceMap(
const std::string& config) const
{
return this->LinkInterfaceMap[cmSystemTools::UpperCase(config)];
}
cmHeadToLinkInterfaceMap&
cmGeneratorTarget::GetHeadToLinkInterfaceUsageRequirementsMap(
const std::string& config) const
{
return this
->LinkInterfaceUsageRequirementsOnlyMap[cmSystemTools::UpperCase(config)];
}
const cmLinkImplementation* cmGeneratorTarget::GetLinkImplementation(
const std::string& config) const
{
return this->GetLinkImplementation(config, false);
}
const cmLinkImplementation* cmGeneratorTarget::GetLinkImplementation(
const std::string& config, bool secondPass) const
{
// There is no link implementation for targets that cannot compile sources.
if (!this->CanCompileSources()) {
return nullptr;
}
cmOptionalLinkImplementation& impl =
this->LinkImplMap[cmSystemTools::UpperCase(config)][this];
if (secondPass) {
impl = cmOptionalLinkImplementation();
}
if (!impl.LibrariesDone) {
impl.LibrariesDone = true;
this->ComputeLinkImplementationLibraries(config, impl, this);
}
if (!impl.LanguagesDone) {
impl.LanguagesDone = true;
this->ComputeLinkImplementationLanguages(config, impl);
this->ComputeLinkImplementationRuntimeLibraries(config, impl);
}
return &impl;
}
bool cmGeneratorTarget::GetConfigCommonSourceFilesForXcode(
std::vector<cmSourceFile*>& files) const
{
std::vector<std::string> const& configs =
this->Makefile->GetGeneratorConfigs(cmMakefile::IncludeEmptyConfig);
auto it = configs.begin();
const std::string& firstConfig = *it;
this->GetSourceFilesWithoutObjectLibraries(files, firstConfig);
for (; it != configs.end(); ++it) {
std::vector<cmSourceFile*> configFiles;
this->GetSourceFilesWithoutObjectLibraries(configFiles, *it);
if (configFiles != files) {
std::string firstConfigFiles;
const char* sep = "";
for (cmSourceFile* f : files) {
firstConfigFiles += sep;
firstConfigFiles += f->ResolveFullPath();
sep = "\n ";
}
std::string thisConfigFiles;
sep = "";
for (cmSourceFile* f : configFiles) {
thisConfigFiles += sep;
thisConfigFiles += f->ResolveFullPath();
sep = "\n ";
}
std::ostringstream e;
/* clang-format off */
e << "Target \"" << this->GetName()
<< "\" has source files which vary by "
"configuration. This is not supported by the \""
<< this->GlobalGenerator->GetName()
<< "\" generator.\n"
"Config \"" << firstConfig << "\":\n"
" " << firstConfigFiles << "\n"
"Config \"" << *it << "\":\n"
" " << thisConfigFiles << "\n";
/* clang-format on */
this->LocalGenerator->IssueMessage(MessageType::FATAL_ERROR, e.str());
return false;
}
}
return true;
}
void cmGeneratorTarget::GetObjectLibrariesCMP0026(
std::vector<cmGeneratorTarget*>& objlibs) const
{
// At configure-time, this method can be called as part of getting the
// LOCATION property or to export() a file to be include()d. However
// there is no cmGeneratorTarget at configure-time, so search the SOURCES
// for TARGET_OBJECTS instead for backwards compatibility with OLD
// behavior of CMP0024 and CMP0026 only.
cmBTStringRange rng = this->Target->GetSourceEntries();
for (auto const& entry : rng) {
std::vector<std::string> files = cmExpandedList(entry.Value);
for (std::string const& li : files) {
if (cmHasLiteralPrefix(li, "$<TARGET_OBJECTS:") && li.back() == '>') {
std::string objLibName = li.substr(17, li.size() - 18);
if (cmGeneratorExpression::Find(objLibName) != std::string::npos) {
continue;
}
cmGeneratorTarget* objLib =
this->LocalGenerator->FindGeneratorTargetToUse(objLibName);
if (objLib) {
objlibs.push_back(objLib);
}
}
}
}
}
std::string cmGeneratorTarget::CheckCMP0004(std::string const& item) const
{
// Strip whitespace off the library names because we used to do this
// in case variables were expanded at generate time. We no longer
// do the expansion but users link to libraries like " ${VAR} ".
std::string lib = item;
std::string::size_type pos = lib.find_first_not_of(" \t\r\n");
if (pos != std::string::npos) {
lib = lib.substr(pos);
}
pos = lib.find_last_not_of(" \t\r\n");
if (pos != std::string::npos) {
lib = lib.substr(0, pos + 1);
}
if (lib != item) {
cmake* cm = this->LocalGenerator->GetCMakeInstance();
switch (this->GetPolicyStatusCMP0004()) {
case cmPolicies::WARN: {
std::ostringstream w;
w << cmPolicies::GetPolicyWarning(cmPolicies::CMP0004) << "\n"
<< "Target \"" << this->GetName() << "\" links to item \"" << item
<< "\" which has leading or trailing whitespace.";
cm->IssueMessage(MessageType::AUTHOR_WARNING, w.str(),
this->GetBacktrace());
}
CM_FALLTHROUGH;
case cmPolicies::OLD:
break;
case cmPolicies::NEW: {
std::ostringstream e;
e << "Target \"" << this->GetName() << "\" links to item \"" << item
<< "\" which has leading or trailing whitespace. "
<< "This is now an error according to policy CMP0004.";
cm->IssueMessage(MessageType::FATAL_ERROR, e.str(),
this->GetBacktrace());
} break;
case cmPolicies::REQUIRED_IF_USED:
case cmPolicies::REQUIRED_ALWAYS: {
std::ostringstream e;
e << cmPolicies::GetRequiredPolicyError(cmPolicies::CMP0004) << "\n"
<< "Target \"" << this->GetName() << "\" links to item \"" << item
<< "\" which has leading or trailing whitespace.";
cm->IssueMessage(MessageType::FATAL_ERROR, e.str(),
this->GetBacktrace());
} break;
}
}
return lib;
}
bool cmGeneratorTarget::IsDeprecated() const
{
cmValue deprecation = this->GetProperty("DEPRECATION");
return cmNonempty(deprecation);
}
std::string cmGeneratorTarget::GetDeprecation() const
{
// find DEPRECATION property
if (cmValue deprecation = this->GetProperty("DEPRECATION")) {
return *deprecation;
}
return std::string();
}
void cmGeneratorTarget::GetLanguages(std::set<std::string>& languages,
const std::string& config) const
{
// Targets that do not compile anything have no languages.
if (!this->CanCompileSources()) {
return;
}
std::vector<cmSourceFile*> sourceFiles;
this->GetSourceFiles(sourceFiles, config);
for (cmSourceFile* src : sourceFiles) {
const std::string& lang = src->GetOrDetermineLanguage();
if (!lang.empty()) {
languages.insert(lang);
}
}
std::vector<cmGeneratorTarget*> objectLibraries;
std::vector<cmSourceFile const*> externalObjects;
if (!this->GlobalGenerator->GetConfigureDoneCMP0026()) {
std::vector<cmGeneratorTarget*> objectTargets;
this->GetObjectLibrariesCMP0026(objectTargets);
objectLibraries.reserve(objectTargets.size());
for (cmGeneratorTarget* gt : objectTargets) {
objectLibraries.push_back(gt);
}
} else {
this->GetExternalObjects(externalObjects, config);
for (cmSourceFile const* extObj : externalObjects) {
std::string objLib = extObj->GetObjectLibrary();
if (cmGeneratorTarget* tgt =
this->LocalGenerator->FindGeneratorTargetToUse(objLib)) {
auto const objLibIt =
std::find_if(objectLibraries.cbegin(), objectLibraries.cend(),
[tgt](cmGeneratorTarget* t) { return t == tgt; });
if (objectLibraries.cend() == objLibIt) {
objectLibraries.push_back(tgt);
}
}
}
}
for (cmGeneratorTarget* objLib : objectLibraries) {
objLib->GetLanguages(languages, config);
}
}
bool cmGeneratorTarget::IsLanguageUsed(std::string const& language,
std::string const& config) const
{
std::set<std::string> languages;
this->GetLanguages(languages, config);
return languages.count(language);
}
bool cmGeneratorTarget::IsCSharpOnly() const
{
// Only certain target types may compile CSharp.
if (this->GetType() != cmStateEnums::SHARED_LIBRARY &&
this->GetType() != cmStateEnums::STATIC_LIBRARY &&
this->GetType() != cmStateEnums::EXECUTABLE) {
return false;
}
std::set<std::string> languages = this->GetAllConfigCompileLanguages();
// Consider an explicit linker language property, but *not* the
// computed linker language that may depend on linked targets.
cmValue linkLang = this->GetProperty("LINKER_LANGUAGE");
if (cmNonempty(linkLang)) {
languages.insert(*linkLang);
}
return languages.size() == 1 && languages.count("CSharp") > 0;
}
void cmGeneratorTarget::ComputeLinkImplementationLanguages(
const std::string& config, cmOptionalLinkImplementation& impl) const
{
// This target needs runtime libraries for its source languages.
std::set<std::string> languages;
// Get languages used in our source files.
this->GetLanguages(languages, config);
// Copy the set of languages to the link implementation.
impl.Languages.insert(impl.Languages.begin(), languages.begin(),
languages.end());
}
bool cmGeneratorTarget::HaveBuildTreeRPATH(const std::string& config) const
{
if (this->GetPropertyAsBool("SKIP_BUILD_RPATH")) {
return false;
}
std::string build_rpath;
if (this->GetBuildRPATH(config, build_rpath)) {
return true;
}
if (cmLinkImplementationLibraries const* impl =
this->GetLinkImplementationLibraries(config)) {
return !impl->Libraries.empty();
}
return false;
}
cmLinkImplementationLibraries const*
cmGeneratorTarget::GetLinkImplementationLibraries(
const std::string& config) const
{
return this->GetLinkImplementationLibrariesInternal(config, this);
}
cmLinkImplementationLibraries const*
cmGeneratorTarget::GetLinkImplementationLibrariesInternal(
const std::string& config, cmGeneratorTarget const* head) const
{
// There is no link implementation for targets that cannot compile sources.
if (!this->CanCompileSources()) {
return nullptr;
}
// Populate the link implementation libraries for this configuration.
HeadToLinkImplementationMap& hm =
this->LinkImplMap[cmSystemTools::UpperCase(config)];
// If the link implementation does not depend on the head target
// then return the one we computed first.
if (!hm.empty() && !hm.begin()->second.HadHeadSensitiveCondition) {
return &hm.begin()->second;
}
cmOptionalLinkImplementation& impl = hm[head];
if (!impl.LibrariesDone) {
impl.LibrariesDone = true;
this->ComputeLinkImplementationLibraries(config, impl, head);
}
return &impl;
}
bool cmGeneratorTarget::IsNullImpliedByLinkLibraries(
const std::string& p) const
{
return cm::contains(this->LinkImplicitNullProperties, p);
}
void cmGeneratorTarget::ComputeLinkImplementationLibraries(
const std::string& config, cmOptionalLinkImplementation& impl,
cmGeneratorTarget const* head) const
{
cmLocalGenerator const* lg = this->LocalGenerator;
cmMakefile const* mf = lg->GetMakefile();
cmBTStringRange entryRange = this->Target->GetLinkImplementationEntries();
// Collect libraries directly linked in this configuration.
for (auto const& entry : entryRange) {
std::vector<std::string> llibs;
// Keep this logic in sync with ExpandLinkItems.
cmGeneratorExpressionDAGChecker dagChecker(this, "LINK_LIBRARIES", nullptr,
nullptr);
cmGeneratorExpression ge(entry.Backtrace);
std::unique_ptr<cmCompiledGeneratorExpression> const cge =
ge.Parse(entry.Value);
cge->SetEvaluateForBuildsystem(true);
std::string const& evaluated =
cge->Evaluate(this->LocalGenerator, config, head, &dagChecker, nullptr,
this->LinkerLanguage);
bool const fromGenex = evaluated != entry.Value;
cmExpandList(evaluated, llibs);
if (cge->GetHadHeadSensitiveCondition()) {
impl.HadHeadSensitiveCondition = true;
}
if (cge->GetHadContextSensitiveCondition()) {
impl.HadContextSensitiveCondition = true;
}
if (cge->GetHadLinkLanguageSensitiveCondition()) {
impl.HadLinkLanguageSensitiveCondition = true;
}
for (std::string const& lib : llibs) {
if (this->IsLinkLookupScope(lib, lg)) {
continue;
}
// Skip entries that resolve to the target itself or are empty.
std::string name = this->CheckCMP0004(lib);
if (this->GetPolicyStatusCMP0108() == cmPolicies::NEW) {
// resolve alias name
auto* target = this->Makefile->FindTargetToUse(name);
if (target) {
name = target->GetName();
}
}
if (name == this->GetName() || name.empty()) {
if (name == this->GetName()) {
bool noMessage = false;
MessageType messageType = MessageType::FATAL_ERROR;
std::ostringstream e;
switch (this->GetPolicyStatusCMP0038()) {
case cmPolicies::WARN: {
e << cmPolicies::GetPolicyWarning(cmPolicies::CMP0038) << "\n";
messageType = MessageType::AUTHOR_WARNING;
} break;
case cmPolicies::OLD:
noMessage = true;
break;
case cmPolicies::REQUIRED_IF_USED:
case cmPolicies::REQUIRED_ALWAYS:
case cmPolicies::NEW:
// Issue the fatal message.
break;
}
if (!noMessage) {
e << "Target \"" << this->GetName() << "\" links to itself.";
this->LocalGenerator->GetCMakeInstance()->IssueMessage(
messageType, e.str(), this->GetBacktrace());
if (messageType == MessageType::FATAL_ERROR) {
return;
}
}
}
continue;
}
// The entry is meant for this configuration.
cmLinkItem item =
this->ResolveLinkItem(BT<std::string>(name, entry.Backtrace), lg);
if (!item.Target) {
// Report explicitly linked object files separately.
std::string const& maybeObj = item.AsStr();
if (cmSystemTools::FileIsFullPath(maybeObj)) {
cmSourceFile const* sf =
mf->GetSource(maybeObj, cmSourceFileLocationKind::Known);
if (sf && sf->GetPropertyAsBool("EXTERNAL_OBJECT")) {
impl.Objects.emplace_back(std::move(item));
continue;
}
}
}
impl.Libraries.emplace_back(std::move(item), fromGenex);
}
std::set<std::string> const& seenProps = cge->GetSeenTargetProperties();
for (std::string const& sp : seenProps) {
if (!this->GetProperty(sp)) {
this->LinkImplicitNullProperties.insert(sp);
}
}
cge->GetMaxLanguageStandard(this, this->MaxLanguageStandards);
}
// Get the list of configurations considered to be DEBUG.
std::vector<std::string> debugConfigs =
this->Makefile->GetCMakeInstance()->GetDebugConfigs();
cmTargetLinkLibraryType linkType =
CMP0003_ComputeLinkType(config, debugConfigs);
cmTarget::LinkLibraryVectorType const& oldllibs =
this->Target->GetOriginalLinkLibraries();
for (cmTarget::LibraryID const& oldllib : oldllibs) {
if (oldllib.second != GENERAL_LibraryType && oldllib.second != linkType) {
std::string name = this->CheckCMP0004(oldllib.first);
if (name == this->GetName() || name.empty()) {
continue;
}
// Support OLD behavior for CMP0003.
impl.WrongConfigLibraries.push_back(
this->ResolveLinkItem(BT<std::string>(name)));
}
}
}
cmGeneratorTarget::TargetOrString cmGeneratorTarget::ResolveTargetReference(
std::string const& name) const
{
return this->ResolveTargetReference(name, this->LocalGenerator);
}
cmGeneratorTarget::TargetOrString cmGeneratorTarget::ResolveTargetReference(
std::string const& name, cmLocalGenerator const* lg) const
{
TargetOrString resolved;
if (cmGeneratorTarget* tgt = lg->FindGeneratorTargetToUse(name)) {
resolved.Target = tgt;
} else {
resolved.String = name;
}
return resolved;
}
cmLinkItem cmGeneratorTarget::ResolveLinkItem(
BT<std::string> const& name) const
{
return this->ResolveLinkItem(name, this->LocalGenerator);
}
cmLinkItem cmGeneratorTarget::ResolveLinkItem(BT<std::string> const& name,
cmLocalGenerator const* lg) const
{
auto bt = name.Backtrace;
TargetOrString resolved = this->ResolveTargetReference(name.Value, lg);
if (!resolved.Target) {
return cmLinkItem(resolved.String, false, bt);
}
// Check deprecation, issue message with `bt` backtrace.
if (resolved.Target->IsDeprecated()) {
std::ostringstream w;
/* clang-format off */
w <<
"The library that is being linked to, " << resolved.Target->GetName() <<
", is marked as being deprecated by the owner. The message provided by "
"the developer is: \n" << resolved.Target->GetDeprecation() << "\n";
/* clang-format on */
this->LocalGenerator->GetCMakeInstance()->IssueMessage(
MessageType::AUTHOR_WARNING, w.str(), bt);
}
// Skip targets that will not really be linked. This is probably a
// name conflict between an external library and an executable
// within the project.
if (resolved.Target->GetType() == cmStateEnums::EXECUTABLE &&
!resolved.Target->IsExecutableWithExports()) {
return cmLinkItem(resolved.Target->GetName(), false, bt);
}
return cmLinkItem(resolved.Target, false, bt);
}
std::string cmGeneratorTarget::GetPDBDirectory(const std::string& config) const
{
if (OutputInfo const* info = this->GetOutputInfo(config)) {
// Return the directory in which the target will be built.
return info->PdbDir;
}
return "";
}
bool cmGeneratorTarget::HasImplibGNUtoMS(std::string const& config) const
{
return this->HasImportLibrary(config) && this->GetPropertyAsBool("GNUtoMS");
}
bool cmGeneratorTarget::GetImplibGNUtoMS(std::string const& config,
std::string const& gnuName,
std::string& out,
const char* newExt) const
{
if (this->HasImplibGNUtoMS(config) && gnuName.size() > 6 &&
gnuName.substr(gnuName.size() - 6) == ".dll.a") {
out = cmStrCat(cm::string_view(gnuName).substr(0, gnuName.size() - 6),
newExt ? newExt : ".lib");
return true;
}
return false;
}
bool cmGeneratorTarget::HasContextDependentSources() const
{
return this->SourcesAreContextDependent == Tribool::True;
}
bool cmGeneratorTarget::IsExecutableWithExports() const
{
return (this->GetType() == cmStateEnums::EXECUTABLE &&
this->GetPropertyAsBool("ENABLE_EXPORTS"));
}
bool cmGeneratorTarget::HasImportLibrary(std::string const& config) const
{
return (this->IsDLLPlatform() &&
(this->GetType() == cmStateEnums::SHARED_LIBRARY ||
this->IsExecutableWithExports()) &&
// Assemblies which have only managed code do not have
// import libraries.
this->GetManagedType(config) != ManagedType::Managed) ||
(this->Target->IsAIX() && this->IsExecutableWithExports());
}
bool cmGeneratorTarget::NeedImportLibraryName(std::string const& config) const
{
return this->HasImportLibrary(config) ||
// On DLL platforms we always generate the import library name
// just in case the sources have export markup.
(this->IsDLLPlatform() &&
(this->GetType() == cmStateEnums::EXECUTABLE ||
this->GetType() == cmStateEnums::MODULE_LIBRARY));
}
std::string cmGeneratorTarget::GetSupportDirectory() const
{
std::string dir = cmStrCat(this->LocalGenerator->GetCurrentBinaryDirectory(),
"/CMakeFiles/", this->GetName());
#if defined(__VMS)
dir += "_dir";
#else
dir += ".dir";
#endif
return dir;
}
bool cmGeneratorTarget::IsLinkable() const
{
return (this->GetType() == cmStateEnums::STATIC_LIBRARY ||
this->GetType() == cmStateEnums::SHARED_LIBRARY ||
this->GetType() == cmStateEnums::MODULE_LIBRARY ||
this->GetType() == cmStateEnums::UNKNOWN_LIBRARY ||
this->GetType() == cmStateEnums::OBJECT_LIBRARY ||
this->GetType() == cmStateEnums::INTERFACE_LIBRARY ||
this->IsExecutableWithExports());
}
bool cmGeneratorTarget::IsFrameworkOnApple() const
{
return ((this->GetType() == cmStateEnums::SHARED_LIBRARY ||
this->GetType() == cmStateEnums::STATIC_LIBRARY) &&
this->Makefile->IsOn("APPLE") &&
this->GetPropertyAsBool("FRAMEWORK"));
}
bool cmGeneratorTarget::IsAppBundleOnApple() const
{
return (this->GetType() == cmStateEnums::EXECUTABLE &&
this->Makefile->IsOn("APPLE") &&
this->GetPropertyAsBool("MACOSX_BUNDLE"));
}
bool cmGeneratorTarget::IsXCTestOnApple() const
{
return (this->IsCFBundleOnApple() && this->GetPropertyAsBool("XCTEST"));
}
bool cmGeneratorTarget::IsCFBundleOnApple() const
{
return (this->GetType() == cmStateEnums::MODULE_LIBRARY &&
this->Makefile->IsOn("APPLE") && this->GetPropertyAsBool("BUNDLE"));
}
cmGeneratorTarget::ManagedType cmGeneratorTarget::CheckManagedType(
std::string const& propval) const
{
// The type of the managed assembly (mixed unmanaged C++ and C++/CLI,
// or only C++/CLI) does only depend on whether the property is an empty
// string or contains any value at all. In Visual Studio generators
// this propval is prepended with /clr[:] which results in:
//
// 1. propval does not exist: no /clr flag, unmanaged target, has import
// lib
// 2. empty propval: add /clr as flag, mixed unmanaged/managed
// target, has import lib
// 3. any value (safe,pure): add /clr:[propval] as flag, target with
// managed code only, no import lib
return propval.empty() ? ManagedType::Mixed : ManagedType::Managed;
}
cmGeneratorTarget::ManagedType cmGeneratorTarget::GetManagedType(
const std::string& config) const
{
// Only libraries and executables can be managed targets.
if (this->GetType() > cmStateEnums::SHARED_LIBRARY) {
return ManagedType::Undefined;
}
if (this->GetType() == cmStateEnums::STATIC_LIBRARY) {
return ManagedType::Native;
}
// Check imported target.
if (this->IsImported()) {
if (cmGeneratorTarget::ImportInfo const* info =
this->GetImportInfo(config)) {
return info->Managed;
}
return ManagedType::Undefined;
}
// Check for explicitly set clr target property.
if (cmValue clr = this->GetProperty("COMMON_LANGUAGE_RUNTIME")) {
return this->CheckManagedType(*clr);
}
// C# targets are always managed. This language specific check
// is added to avoid that the COMMON_LANGUAGE_RUNTIME target property
// has to be set manually for C# targets.
return this->IsCSharpOnly() ? ManagedType::Managed : ManagedType::Native;
}
