/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmSetPropertyCommand.h" #include #include #include #include "cmExecutionStatus.h" #include "cmGlobalGenerator.h" #include "cmInstalledFile.h" #include "cmListFileCache.h" #include "cmMakefile.h" #include "cmMessageType.h" #include "cmPolicies.h" #include "cmProperty.h" #include "cmRange.h" #include "cmSourceFile.h" #include "cmSourceFileLocation.h" #include "cmState.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" #include "cmTarget.h" #include "cmTest.h" #include "cmValue.h" #include "cmake.h" namespace { bool HandleGlobalMode(cmExecutionStatus& status, const std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove); bool HandleDirectoryMode(cmExecutionStatus& status, const std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove); bool HandleTargetMode(cmExecutionStatus& status, const std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove); bool HandleTarget(cmTarget* target, cmMakefile& makefile, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove); bool HandleSourceMode(cmExecutionStatus& status, const std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove, const std::vector& directory_makefiles, bool source_file_paths_should_be_absolute); bool HandleSource(cmSourceFile* sf, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove); bool HandleTestMode(cmExecutionStatus& status, std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove, cmMakefile* test_directory_makefile); bool HandleTest(cmTest* test, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove); bool HandleCacheMode(cmExecutionStatus& status, const std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove); bool HandleCacheEntry(std::string const& cacheKey, const cmMakefile& makefile, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove); bool HandleInstallMode(cmExecutionStatus& status, const std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove); bool HandleInstall(cmInstalledFile* file, cmMakefile& makefile, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove); } namespace SetPropertyCommand { bool HandleSourceFileDirectoryScopes( cmExecutionStatus& status, std::vector& source_file_directories, std::vector& source_file_target_directories, std::vector& directory_makefiles) { std::unordered_set directory_makefiles_set; cmMakefile* current_dir_mf = &status.GetMakefile(); if (!source_file_directories.empty()) { for (const std::string& dir_path : source_file_directories) { const std::string absolute_dir_path = cmSystemTools::CollapseFullPath( dir_path, current_dir_mf->GetCurrentSourceDirectory()); cmMakefile* dir_mf = status.GetMakefile().GetGlobalGenerator()->FindMakefile( absolute_dir_path); if (!dir_mf) { status.SetError(cmStrCat("given non-existent DIRECTORY ", dir_path)); return false; } if (directory_makefiles_set.find(dir_mf) == directory_makefiles_set.end()) { directory_makefiles.push_back(dir_mf); directory_makefiles_set.insert(dir_mf); } } } if (!source_file_target_directories.empty()) { for (const std::string& target_name : source_file_target_directories) { cmTarget* target = current_dir_mf->FindTargetToUse(target_name); if (!target) { status.SetError(cmStrCat( "given non-existent target for TARGET_DIRECTORY ", target_name)); return false; } cmValue target_source_dir = target->GetProperty("BINARY_DIR"); cmMakefile* target_dir_mf = status.GetMakefile().GetGlobalGenerator()->FindMakefile( *target_source_dir); if (directory_makefiles_set.find(target_dir_mf) == directory_makefiles_set.end()) { directory_makefiles.push_back(target_dir_mf); directory_makefiles_set.insert(target_dir_mf); } } } if (source_file_directories.empty() && source_file_target_directories.empty()) { directory_makefiles.push_back(current_dir_mf); } return true; } bool HandleSourceFileDirectoryScopeValidation( cmExecutionStatus& status, bool source_file_directory_option_enabled, bool source_file_target_option_enabled, std::vector& source_file_directories, std::vector& source_file_target_directories) { // Validate source file directory scopes. if (source_file_directory_option_enabled && source_file_directories.empty()) { std::string errors = "called with incorrect number of arguments " "no value provided to the DIRECTORY option"; status.SetError(errors); return false; } if (source_file_target_option_enabled && source_file_target_directories.empty()) { std::string errors = "called with incorrect number of arguments " "no value provided to the TARGET_DIRECTORY option"; status.SetError(errors); return false; } return true; } bool HandleAndValidateSourceFileDirectoryScopes( cmExecutionStatus& status, bool source_file_directory_option_enabled, bool source_file_target_option_enabled, std::vector& source_file_directories, std::vector& source_file_target_directories, std::vector& source_file_directory_makefiles) { bool scope_options_valid = SetPropertyCommand::HandleSourceFileDirectoryScopeValidation( status, source_file_directory_option_enabled, source_file_target_option_enabled, source_file_directories, source_file_target_directories); if (!scope_options_valid) { return false; } scope_options_valid = SetPropertyCommand::HandleSourceFileDirectoryScopes( status, source_file_directories, source_file_target_directories, source_file_directory_makefiles); return scope_options_valid; } bool HandleTestDirectoryScopes(cmExecutionStatus& status, std::string& test_directory, cmMakefile*& directory_makefile) { cmMakefile* current_dir_mf = &status.GetMakefile(); if (!test_directory.empty()) { const std::string absolute_dir_path = cmSystemTools::CollapseFullPath( test_directory, current_dir_mf->GetCurrentSourceDirectory()); cmMakefile* dir_mf = status.GetMakefile().GetGlobalGenerator()->FindMakefile( absolute_dir_path); if (!dir_mf) { status.SetError( cmStrCat("given non-existent DIRECTORY ", test_directory)); return false; } directory_makefile = dir_mf; } else { directory_makefile = current_dir_mf; } return true; } bool HandleTestDirectoryScopeValidation(cmExecutionStatus& status, bool test_directory_option_enabled, std::string& test_directory) { // Validate source file directory scopes. if (test_directory_option_enabled && test_directory.empty()) { std::string errors = "called with incorrect number of arguments " "no value provided to the DIRECTORY option"; status.SetError(errors); return false; } return true; } bool HandleAndValidateTestDirectoryScopes(cmExecutionStatus& status, bool test_directory_option_enabled, std::string& test_directory, cmMakefile*& test_directory_makefile) { bool scope_options_valid = SetPropertyCommand::HandleTestDirectoryScopeValidation( status, test_directory_option_enabled, test_directory); if (!scope_options_valid) { return false; } scope_options_valid = SetPropertyCommand::HandleTestDirectoryScopes( status, test_directory, test_directory_makefile); return scope_options_valid; } std::string MakeSourceFilePathAbsoluteIfNeeded( cmExecutionStatus& status, const std::string& source_file_path, const bool needed) { if (!needed) { return source_file_path; } std::string absolute_file_path = cmSystemTools::CollapseFullPath( source_file_path, status.GetMakefile().GetCurrentSourceDirectory()); return absolute_file_path; } void MakeSourceFilePathsAbsoluteIfNeeded( cmExecutionStatus& status, std::vector& source_files_absolute_paths, std::vector::const_iterator files_it_begin, std::vector::const_iterator files_it_end, const bool needed) { // Make the file paths absolute, so that relative source file paths are // picked up relative to the command calling site, regardless of the // directory scope. std::vector::difference_type num_files = files_it_end - files_it_begin; source_files_absolute_paths.reserve(num_files); if (!needed) { source_files_absolute_paths.assign(files_it_begin, files_it_end); return; } for (; files_it_begin != files_it_end; ++files_it_begin) { const std::string absolute_file_path = MakeSourceFilePathAbsoluteIfNeeded(status, *files_it_begin, true); source_files_absolute_paths.push_back(absolute_file_path); } } bool HandleAndValidateSourceFilePropertyGENERATED( cmSourceFile* sf, std::string const& propertyValue, PropertyOp op) { const auto& mf = *sf->GetLocation().GetMakefile(); auto policyStatus = mf.GetPolicyStatus(cmPolicies::CMP0118); const bool policyWARN = policyStatus == cmPolicies::WARN; const bool policyNEW = policyStatus != cmPolicies::OLD && !policyWARN; if (policyWARN) { if (!cmIsOn(propertyValue) && !cmIsOff(propertyValue)) { mf.IssueMessage( MessageType::AUTHOR_WARNING, cmStrCat(cmPolicies::GetPolicyWarning(cmPolicies::CMP0118), "\nAttempt to set property 'GENERATED' with the following " "non-boolean value (which will be interpreted as \"0\"):\n", propertyValue, "\nThat exact value will not be retrievable. A value of " "\"0\" will be returned instead.\n" "This will be an error under policy CMP0118.\n")); } if (cmIsOff(propertyValue)) { mf.IssueMessage( MessageType::AUTHOR_WARNING, cmStrCat(cmPolicies::GetPolicyWarning(cmPolicies::CMP0118), "\nUnsetting property 'GENERATED' will not be allowed under " "policy CMP0118!\n")); } if (op == PropertyOp::Append || op == PropertyOp::AppendAsString) { mf.IssueMessage( MessageType::AUTHOR_WARNING, cmStrCat(cmPolicies::GetPolicyWarning(cmPolicies::CMP0118), "\nAppending to property 'GENERATED' will not be allowed " "under policy CMP0118!\n")); } } else if (policyNEW) { if (!cmIsOn(propertyValue) && !cmIsOff(propertyValue)) { mf.IssueMessage( MessageType::AUTHOR_ERROR, cmStrCat( "Policy CMP0118 is set to NEW and the following non-boolean value " "given for property 'GENERATED' is therefore not allowed:\n", propertyValue, "\nReplace it with a boolean value!\n")); return true; } if (cmIsOff(propertyValue)) { mf.IssueMessage( MessageType::AUTHOR_ERROR, "Unsetting the 'GENERATED' property is not allowed under CMP0118!\n"); return true; } if (op == PropertyOp::Append || op == PropertyOp::AppendAsString) { mf.IssueMessage(MessageType::AUTHOR_ERROR, "Policy CMP0118 is set to NEW and appending to the " "'GENERATED' property is therefore not allowed. Only " "setting it to \"1\" is allowed!\n"); return true; } } // Set property. if (!policyNEW) { // Do it the traditional way. switch (op) { case PropertyOp::Append: sf->AppendProperty("GENERATED", propertyValue, false); break; case PropertyOp::AppendAsString: sf->AppendProperty("GENERATED", propertyValue, true); break; case PropertyOp::Remove: sf->RemoveProperty("GENERATED"); break; case PropertyOp::Set: sf->SetProperty("GENERATED", propertyValue); break; } } else { sf->MarkAsGenerated(); } return true; } } // END: namespace SetPropertyCommand bool cmSetPropertyCommand(std::vector const& args, cmExecutionStatus& status) { if (args.size() < 2) { status.SetError("called with incorrect number of arguments"); return false; } // Get the scope on which to set the property. std::string const& scopeName = args.front(); cmProperty::ScopeType scope; if (scopeName == "GLOBAL") { scope = cmProperty::GLOBAL; } else if (scopeName == "DIRECTORY") { scope = cmProperty::DIRECTORY; } else if (scopeName == "TARGET") { scope = cmProperty::TARGET; } else if (scopeName == "SOURCE") { scope = cmProperty::SOURCE_FILE; } else if (scopeName == "TEST") { scope = cmProperty::TEST; } else if (scopeName == "CACHE") { scope = cmProperty::CACHE; } else if (scopeName == "INSTALL") { scope = cmProperty::INSTALL; } else { status.SetError(cmStrCat("given invalid scope ", scopeName, ". " "Valid scopes are GLOBAL, DIRECTORY, " "TARGET, SOURCE, TEST, CACHE, INSTALL.")); return false; } bool appendAsString = false; bool appendMode = false; bool remove = true; std::set names; std::string propertyName; std::string propertyValue; std::vector source_file_directories; std::vector source_file_target_directories; bool source_file_directory_option_enabled = false; bool source_file_target_option_enabled = false; std::string test_directory; bool test_directory_option_enabled = false; // Parse the rest of the arguments up to the values. enum Doing { DoingNone, DoingNames, DoingProperty, DoingValues, DoingSourceDirectory, DoingSourceTargetDirectory, DoingTestDirectory, }; Doing doing = DoingNames; const char* sep = ""; for (std::string const& arg : cmMakeRange(args).advance(1)) { if (arg == "PROPERTY") { doing = DoingProperty; } else if (arg == "APPEND") { doing = DoingNone; appendMode = true; remove = false; appendAsString = false; } else if (arg == "APPEND_STRING") { doing = DoingNone; appendMode = true; remove = false; appendAsString = true; } else if (doing != DoingProperty && doing != DoingValues && scope == cmProperty::SOURCE_FILE && arg == "DIRECTORY") { doing = DoingSourceDirectory; source_file_directory_option_enabled = true; } else if (doing != DoingProperty && doing != DoingValues && scope == cmProperty::SOURCE_FILE && arg == "TARGET_DIRECTORY") { doing = DoingSourceTargetDirectory; source_file_target_option_enabled = true; } else if (doing != DoingProperty && doing != DoingValues && scope == cmProperty::TEST && arg == "DIRECTORY") { doing = DoingTestDirectory; test_directory_option_enabled = true; } else if (doing == DoingNames) { names.insert(arg); } else if (doing == DoingSourceDirectory) { source_file_directories.push_back(arg); } else if (doing == DoingSourceTargetDirectory) { source_file_target_directories.push_back(arg); } else if (doing == DoingTestDirectory) { test_directory = arg; doing = DoingNone; } else if (doing == DoingProperty) { propertyName = arg; doing = DoingValues; } else if (doing == DoingValues) { propertyValue += sep; sep = ";"; propertyValue += arg; remove = false; } else { status.SetError(cmStrCat("given invalid argument \"", arg, "\".")); return false; } } // Make sure a property name was found. if (propertyName.empty()) { status.SetError("not given a PROPERTY argument."); return false; } std::vector source_file_directory_makefiles; bool source_file_scopes_handled = SetPropertyCommand::HandleAndValidateSourceFileDirectoryScopes( status, source_file_directory_option_enabled, source_file_target_option_enabled, source_file_directories, source_file_target_directories, source_file_directory_makefiles); cmMakefile* test_directory_makefile; bool test_scopes_handled = SetPropertyCommand::HandleAndValidateTestDirectoryScopes( status, test_directory_option_enabled, test_directory, test_directory_makefile); if (!(source_file_scopes_handled && test_scopes_handled)) { return false; } bool source_file_paths_should_be_absolute = source_file_directory_option_enabled || source_file_target_option_enabled; // Dispatch property setting. switch (scope) { case cmProperty::GLOBAL: return HandleGlobalMode(status, names, propertyName, propertyValue, appendAsString, appendMode, remove); case cmProperty::DIRECTORY: return HandleDirectoryMode(status, names, propertyName, propertyValue, appendAsString, appendMode, remove); case cmProperty::TARGET: return HandleTargetMode(status, names, propertyName, propertyValue, appendAsString, appendMode, remove); case cmProperty::SOURCE_FILE: return HandleSourceMode(status, names, propertyName, propertyValue, appendAsString, appendMode, remove, source_file_directory_makefiles, source_file_paths_should_be_absolute); case cmProperty::TEST: return HandleTestMode(status, names, propertyName, propertyValue, appendAsString, appendMode, remove, test_directory_makefile); case cmProperty::CACHE: return HandleCacheMode(status, names, propertyName, propertyValue, appendAsString, appendMode, remove); case cmProperty::INSTALL: return HandleInstallMode(status, names, propertyName, propertyValue, appendAsString, appendMode, remove); case cmProperty::VARIABLE: case cmProperty::CACHED_VARIABLE: break; // should never happen } return true; } namespace /* anonymous */ { bool HandleGlobalMode(cmExecutionStatus& status, const std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove) { if (!names.empty()) { status.SetError("given names for GLOBAL scope."); return false; } // Set or append the property. cmake* cm = status.GetMakefile().GetCMakeInstance(); if (appendMode) { cm->AppendProperty(propertyName, propertyValue, appendAsString); } else { if (remove) { cm->SetProperty(propertyName, nullptr); } else { cm->SetProperty(propertyName, propertyValue); } } return true; } bool HandleDirectoryMode(cmExecutionStatus& status, const std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove) { if (names.size() > 1) { status.SetError("allows at most one name for DIRECTORY scope."); return false; } // Default to the current directory. cmMakefile* mf = &status.GetMakefile(); // Lookup the directory if given. if (!names.empty()) { // Construct the directory name. Interpret relative paths with // respect to the current directory. std::string dir = cmSystemTools::CollapseFullPath( *names.begin(), status.GetMakefile().GetCurrentSourceDirectory()); mf = status.GetMakefile().GetGlobalGenerator()->FindMakefile(dir); if (!mf) { // Could not find the directory. status.SetError( "DIRECTORY scope provided but requested directory was not found. " "This could be because the directory argument was invalid or, " "it is valid but has not been processed yet."); return false; } } // Set or append the property. if (appendMode) { mf->AppendProperty(propertyName, propertyValue, appendAsString); } else { if (remove) { mf->SetProperty(propertyName, nullptr); } else { mf->SetProperty(propertyName, propertyValue); } } return true; } bool HandleTargetMode(cmExecutionStatus& status, const std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove) { for (std::string const& name : names) { if (status.GetMakefile().IsAlias(name)) { status.SetError("can not be used on an ALIAS target."); return false; } if (cmTarget* target = status.GetMakefile().FindTargetToUse(name)) { // Handle the current target. if (!HandleTarget(target, status.GetMakefile(), propertyName, propertyValue, appendAsString, appendMode, remove)) { return false; } } else { status.SetError(cmStrCat("could not find TARGET ", name, ". Perhaps it has not yet been created.")); return false; } } return true; } bool HandleTarget(cmTarget* target, cmMakefile& makefile, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove) { // Set or append the property. if (appendMode) { target->AppendProperty(propertyName, propertyValue, makefile.GetBacktrace(), appendAsString); } else { if (remove) { target->SetProperty(propertyName, nullptr); } else { target->SetProperty(propertyName, propertyValue); } } // Check the resulting value. target->CheckProperty(propertyName, &makefile); return true; } bool HandleSourceMode(cmExecutionStatus& status, const std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove, const std::vector& directory_makefiles, const bool source_file_paths_should_be_absolute) { std::vector files_absolute; std::vector unique_files(names.begin(), names.end()); SetPropertyCommand::MakeSourceFilePathsAbsoluteIfNeeded( status, files_absolute, unique_files.begin(), unique_files.end(), source_file_paths_should_be_absolute); for (auto* const mf : directory_makefiles) { for (std::string const& name : files_absolute) { // Get the source file. if (cmSourceFile* sf = mf->GetOrCreateSource(name)) { if (!HandleSource(sf, propertyName, propertyValue, appendAsString, appendMode, remove)) { return false; } } else { status.SetError(cmStrCat( "given SOURCE name that could not be found or created: ", name)); return false; } } } return true; } bool HandleSource(cmSourceFile* sf, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove) { // Special validation and handling of GENERATED flag? if (propertyName == "GENERATED") { SetPropertyCommand::PropertyOp op = (remove) ? SetPropertyCommand::PropertyOp::Remove : (appendAsString) ? SetPropertyCommand::PropertyOp::AppendAsString : (appendMode) ? SetPropertyCommand::PropertyOp::Append : SetPropertyCommand::PropertyOp::Set; return SetPropertyCommand::HandleAndValidateSourceFilePropertyGENERATED( sf, propertyValue, op); } // Set or append the property. if (appendMode) { sf->AppendProperty(propertyName, propertyValue, appendAsString); } else { if (remove) { sf->RemoveProperty(propertyName); } else { sf->SetProperty(propertyName, propertyValue); } } return true; } bool HandleTestMode(cmExecutionStatus& status, std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove, cmMakefile* test_makefile) { // Look for tests with all names given. std::set::iterator next; for (auto ni = names.begin(); ni != names.end(); ni = next) { next = ni; ++next; if (cmTest* test = test_makefile->GetTest(*ni)) { if (HandleTest(test, propertyName, propertyValue, appendAsString, appendMode, remove)) { names.erase(ni); } else { return false; } } } // Names that are still left were not found. if (!names.empty()) { std::ostringstream e; e << "given TEST names that do not exist:\n"; for (std::string const& name : names) { e << " " << name << "\n"; } status.SetError(e.str()); return false; } return true; } bool HandleTest(cmTest* test, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove) { // Set or append the property. if (appendMode) { test->AppendProperty(propertyName, propertyValue, appendAsString); } else { if (remove) { test->SetProperty(propertyName, nullptr); } else { test->SetProperty(propertyName, propertyValue); } } return true; } bool HandleCacheMode(cmExecutionStatus& status, const std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove) { if (propertyName == "ADVANCED") { if (!remove && !cmIsOn(propertyValue) && !cmIsOff(propertyValue)) { status.SetError(cmStrCat("given non-boolean value \"", propertyValue, R"(" for CACHE property "ADVANCED". )")); return false; } } else if (propertyName == "TYPE") { if (!cmState::IsCacheEntryType(propertyValue)) { status.SetError( cmStrCat("given invalid CACHE entry TYPE \"", propertyValue, "\"")); return false; } } else if (propertyName != "HELPSTRING" && propertyName != "STRINGS" && propertyName != "VALUE") { status.SetError( cmStrCat("given invalid CACHE property ", propertyName, ". " "Settable CACHE properties are: " "ADVANCED, HELPSTRING, STRINGS, TYPE, and VALUE.")); return false; } for (std::string const& name : names) { // Get the source file. cmake* cm = status.GetMakefile().GetCMakeInstance(); cmValue existingValue = cm->GetState()->GetCacheEntryValue(name); if (existingValue) { if (!HandleCacheEntry(name, status.GetMakefile(), propertyName, propertyValue, appendAsString, appendMode, remove)) { return false; } } else { status.SetError(cmStrCat("could not find CACHE variable ", name, ". Perhaps it has not yet been created.")); return false; } } return true; } bool HandleCacheEntry(std::string const& cacheKey, const cmMakefile& makefile, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove) { // Set or append the property. cmState* state = makefile.GetState(); if (remove) { state->RemoveCacheEntryProperty(cacheKey, propertyName); } if (appendMode) { state->AppendCacheEntryProperty(cacheKey, propertyName, propertyValue, appendAsString); } else { state->SetCacheEntryProperty(cacheKey, propertyName, propertyValue); } return true; } bool HandleInstallMode(cmExecutionStatus& status, const std::set& names, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove) { cmake* cm = status.GetMakefile().GetCMakeInstance(); for (std::string const& name : names) { if (cmInstalledFile* file = cm->GetOrCreateInstalledFile(&status.GetMakefile(), name)) { if (!HandleInstall(file, status.GetMakefile(), propertyName, propertyValue, appendAsString, appendMode, remove)) { return false; } } else { status.SetError(cmStrCat( "given INSTALL name that could not be found or created: ", name)); return false; } } return true; } bool HandleInstall(cmInstalledFile* file, cmMakefile& makefile, const std::string& propertyName, const std::string& propertyValue, bool appendAsString, bool appendMode, bool remove) { // Set or append the property. if (remove) { file->RemoveProperty(propertyName); } else if (appendMode) { file->AppendProperty(&makefile, propertyName, propertyValue, appendAsString); } else { file->SetProperty(&makefile, propertyName, propertyValue); } return true; } }