/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmSourceGroupCommand.h" #include #include #include #include #include "cmMakefile.h" #include "cmSourceGroup.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" namespace { const std::string kTreeOptionName = "TREE"; const std::string kPrefixOptionName = "PREFIX"; const std::string kFilesOptionName = "FILES"; const std::string kRegexOptionName = "REGULAR_EXPRESSION"; const std::string kSourceGroupOptionName = ""; std::vector tokenizePath(const std::string& path) { return cmSystemTools::tokenize(path, "\\/"); } std::string getFullFilePath(const std::string& currentPath, const std::string& path) { std::string fullPath = path; if (!cmSystemTools::FileIsFullPath(path)) { fullPath = currentPath; fullPath += "/"; fullPath += path; } return cmSystemTools::CollapseFullPath(fullPath); } std::set getSourceGroupFilesPaths( const std::string& root, const std::vector& files) { std::set ret; const std::string::size_type rootLength = root.length(); for (std::string const& file : files) { ret.insert(file.substr(rootLength + 1)); // +1 to also omnit last '/' } return ret; } bool rootIsPrefix(const std::string& root, const std::vector& files, std::string& error) { for (std::string const& file : files) { if (!cmHasPrefix(file, root)) { error = "ROOT: " + root + " is not a prefix of file: " + file; return false; } } return true; } std::vector prepareFilesPathsForTree( const std::vector& filesPaths, const std::string& currentSourceDir) { std::vector prepared; prepared.reserve(filesPaths.size()); for (auto const& filePath : filesPaths) { std::string fullPath = cmSystemTools::CollapseFullPath(filePath, currentSourceDir); // If provided file path is actually not a file, silently ignore it. if (cmSystemTools::FileExists(fullPath, /*isFile=*/true)) { prepared.emplace_back(std::move(fullPath)); } } return prepared; } bool addFilesToItsSourceGroups(const std::string& root, const std::set& sgFilesPaths, const std::string& prefix, cmMakefile& makefile, std::string& errorMsg) { cmSourceGroup* sg; for (std::string const& sgFilesPath : sgFilesPaths) { std::vector tokenizedPath; if (!prefix.empty()) { tokenizedPath = tokenizePath(prefix + '/' + sgFilesPath); } else { tokenizedPath = tokenizePath(sgFilesPath); } if (!tokenizedPath.empty()) { tokenizedPath.pop_back(); if (tokenizedPath.empty()) { tokenizedPath.emplace_back(); } sg = makefile.GetOrCreateSourceGroup(tokenizedPath); if (!sg) { errorMsg = "Could not create source group for file: " + sgFilesPath; return false; } const std::string fullPath = getFullFilePath(root, sgFilesPath); sg->AddGroupFile(fullPath); } } return true; } } class cmExecutionStatus; // cmSourceGroupCommand cmSourceGroupCommand::ExpectedOptions cmSourceGroupCommand::getExpectedOptions() const { ExpectedOptions options; options.push_back(kTreeOptionName); options.push_back(kPrefixOptionName); options.push_back(kFilesOptionName); options.push_back(kRegexOptionName); return options; } bool cmSourceGroupCommand::isExpectedOption( const std::string& argument, const ExpectedOptions& expectedOptions) { return std::find(expectedOptions.begin(), expectedOptions.end(), argument) != expectedOptions.end(); } void cmSourceGroupCommand::parseArguments( const std::vector& args, cmSourceGroupCommand::ParsedArguments& parsedArguments) { const ExpectedOptions expectedOptions = getExpectedOptions(); size_t i = 0; // at this point we know that args vector is not empty // if first argument is not one of expected options it's source group name if (!isExpectedOption(args[0], expectedOptions)) { // get source group name and go to next argument parsedArguments[kSourceGroupOptionName].push_back(args[0]); ++i; } for (; i < args.size();) { // get current option and increment index to go to next argument const std::string& currentOption = args[i++]; // create current option entry in parsed arguments std::vector& currentOptionArguments = parsedArguments[currentOption]; // collect option arguments while we won't find another expected option while (i < args.size() && !isExpectedOption(args[i], expectedOptions)) { currentOptionArguments.push_back(args[i++]); } } } bool cmSourceGroupCommand::InitialPass(std::vector const& args, cmExecutionStatus&) { if (args.empty()) { this->SetError("called with incorrect number of arguments"); return false; } // If only two arguments are given, the pre-1.8 version of the // command is being invoked. if (args.size() == 2 && args[1] != "FILES") { cmSourceGroup* sg = this->Makefile->GetOrCreateSourceGroup(args[0]); if (!sg) { this->SetError("Could not create or find source group"); return false; } sg->SetGroupRegex(args[1].c_str()); return true; } ParsedArguments parsedArguments; std::string errorMsg; parseArguments(args, parsedArguments); if (!checkArgumentsPreconditions(parsedArguments, errorMsg)) { return false; } if (parsedArguments.find(kTreeOptionName) != parsedArguments.end()) { if (!processTree(parsedArguments, errorMsg)) { this->SetError(errorMsg); return false; } } else { if (parsedArguments.find(kSourceGroupOptionName) == parsedArguments.end()) { this->SetError("Missing source group name."); return false; } cmSourceGroup* sg = this->Makefile->GetOrCreateSourceGroup(args[0]); if (!sg) { this->SetError("Could not create or find source group"); return false; } // handle regex if (parsedArguments.find(kRegexOptionName) != parsedArguments.end()) { const std::string& sgRegex = parsedArguments[kRegexOptionName].front(); sg->SetGroupRegex(sgRegex.c_str()); } // handle files const std::vector& filesArguments = parsedArguments[kFilesOptionName]; for (auto const& filesArg : filesArguments) { std::string src = filesArg; if (!cmSystemTools::FileIsFullPath(src)) { src = this->Makefile->GetCurrentSourceDirectory(); src += "/"; src += filesArg; } src = cmSystemTools::CollapseFullPath(src); sg->AddGroupFile(src); } } return true; } bool cmSourceGroupCommand::checkArgumentsPreconditions( const ParsedArguments& parsedArguments, std::string& errorMsg) const { return checkSingleParameterArgumentPreconditions( kPrefixOptionName, parsedArguments, errorMsg) && checkSingleParameterArgumentPreconditions(kTreeOptionName, parsedArguments, errorMsg) && checkSingleParameterArgumentPreconditions(kRegexOptionName, parsedArguments, errorMsg); } bool cmSourceGroupCommand::processTree(ParsedArguments& parsedArguments, std::string& errorMsg) { const std::string root = cmSystemTools::CollapseFullPath(parsedArguments[kTreeOptionName].front()); std::string prefix = parsedArguments[kPrefixOptionName].empty() ? "" : parsedArguments[kPrefixOptionName].front(); const std::vector filesVector = prepareFilesPathsForTree(parsedArguments[kFilesOptionName], this->Makefile->GetCurrentSourceDirectory()); if (!rootIsPrefix(root, filesVector, errorMsg)) { return false; } std::set sourceGroupPaths = getSourceGroupFilesPaths(root, filesVector); return addFilesToItsSourceGroups(root, sourceGroupPaths, prefix, *(this->Makefile), errorMsg); } bool cmSourceGroupCommand::checkSingleParameterArgumentPreconditions( const std::string& argument, const ParsedArguments& parsedArguments, std::string& errorMsg) const { ParsedArguments::const_iterator foundArgument = parsedArguments.find(argument); if (foundArgument != parsedArguments.end()) { const std::vector& optionArguments = foundArgument->second; if (optionArguments.empty()) { errorMsg = argument + " argument given without an argument."; return false; } if (optionArguments.size() > 1) { errorMsg = "too many arguments passed to " + argument + "."; return false; } } return true; }