/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * $URL$ * $Id$ * */ #include "create_msvc.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #if defined(_WIN32) || defined(WIN32) #include #else #include #include #include #endif namespace { /** * Converts the given path to only use backslashes. * This means that for example the path: * foo/bar\test.txt * will be converted to: * foo\bar\test.txt * * @param path Path string. * @return Converted path. */ std::string convertPathToWin(const std::string &path); /** * Converts the given path to only use slashes as * delimiters. * This means that for example the path: * foo/bar\test.txt * will be converted to: * foo/bar/test.txt * * @param path Path string. * @return Converted path. */ std::string unifyPath(const std::string &path); /** * Returns the last path component. * * @param path Path string. * @return Last path component. */ std::string getLastPathComponent(const std::string &path); /** * Display the help text for the program. * * @param exe Name of the executable. */ void displayHelp(const char *exe); // Map containing a project-specific list of warnings // TODO: Remove the use of global variables std::map g_projectWarnings; std::string g_globalWarnings; } // End of anonymous namespace int main(int argc, char *argv[]) { #if !(defined(_WIN32) || defined(WIN32)) // Initialize random number generator for UUID creation std::srand(std::time(0)); #endif if (argc < 2) { displayHelp(argv[0]); return -1; } const std::string srcDir = argv[1]; BuildSetup setup; setup.srcDir = unifyPath(srcDir); if (setup.srcDir.at(setup.srcDir.size() - 1) == '/') setup.srcDir.erase(setup.srcDir.size() - 1); setup.filePrefix = setup.srcDir; setup.outputDir = '.'; setup.engines = parseConfigure(setup.srcDir); if (setup.engines.empty()) { std::cout << "WARNING: No engines found in configure file or configure file missing in \"" << setup.srcDir << "\"\n"; return 0; } setup.features = getAllFeatures(); int msvcVersion = 9; // Parse command line arguments using std::cout; for (int i = 2; i < argc; ++i) { if (!std::strcmp(argv[i], "--list-engines")) { cout << " The following enables are available in the ScummVM source destribution\n" " located at \"" << srcDir << "\":\n"; cout << " state | name | description\n\n"; cout.setf(std::ios_base::left, std::ios_base::adjustfield); for (EngineDescList::const_iterator j = setup.engines.begin(); j != setup.engines.end(); ++j) cout << ' ' << (j->enable ? " enabled" : "disabled") << " | " << std::setw(15) << j->name << std::setw(0) << " | " << j->desc << "\n"; cout.setf(std::ios_base::right, std::ios_base::adjustfield); return 0; } else if (!std::strcmp(argv[i], "--msvc-version")) { if (i + 1 >= argc) { std::cerr << "ERROR: Missing \"version\" parameter for \"--msvc-version\"!\n"; return -1; } msvcVersion = atoi(argv[++i]); if (msvcVersion != 8 && msvcVersion != 9) { std::cerr << "ERROR: Unsupported version: \"" << msvcVersion << "\" passed to \"--msvc-version\"!\n"; return -1; } } else if (!strncmp(argv[i], "--enable-", 9)) { const char *name = &argv[i][9]; if (!*name) { std::cerr << "ERROR: Invalid command \"" << argv[i] << "\"\n"; return -1; } if (!std::strcmp(name, "all-engines")) { for (EngineDescList::iterator j = setup.engines.begin(); j != setup.engines.end(); ++j) j->enable = true; } else if (!setEngineBuildState(name, setup.engines, true)) { // If none found, we'll try the features list if (!setFeatureBuildState(name, setup.features, true)) { std::cerr << "ERROR: \"" << name << "\" is neither an engine nor a feature!\n"; return -1; } } } else if (!strncmp(argv[i], "--disable-", 10)) { const char *name = &argv[i][10]; if (!*name) { std::cerr << "ERROR: Invalid command \"" << argv[i] << "\"\n"; return -1; } if (!std::strcmp(name, "all-engines")) { for (EngineDescList::iterator j = setup.engines.begin(); j != setup.engines.end(); ++j) j->enable = false; } else if (!setEngineBuildState(name, setup.engines, false)) { // If none found, we'll try the features list if (!setFeatureBuildState(name, setup.features, false)) { std::cerr << "ERROR: \"" << name << "\" is neither an engine nor a feature!\n"; return -1; } } } else if (!std::strcmp(argv[i], "--file-prefix")) { if (i + 1 >= argc) { std::cerr << "ERROR: Missing \"prefix\" parameter for \"--file-prefix\"!\n"; return -1; } setup.filePrefix = unifyPath(argv[++i]); if (setup.filePrefix.at(setup.filePrefix.size() - 1) == '/') setup.filePrefix.erase(setup.filePrefix.size() - 1); } else if (!std::strcmp(argv[i], "--output-dir")) { if (i + 1 >= argc) { std::cerr << "ERROR: Missing \"path\" parameter for \"--output-dirx\"!\n"; return -1; } setup.outputDir = unifyPath(argv[++i]); if (setup.outputDir.at(setup.outputDir.size() - 1) == '/') setup.outputDir.erase(setup.outputDir.size() - 1); } else { std::cerr << "ERROR: Unknown parameter \"" << argv[i] << "\"\n"; return -1; } } // Print status cout << "Enabled engines:\n\n"; for (EngineDescList::const_iterator i = setup.engines.begin(); i != setup.engines.end(); ++i) { if (i->enable) cout << " " << i->desc << '\n'; } cout << "\nDisabled engines:\n\n"; for (EngineDescList::const_iterator i = setup.engines.begin(); i != setup.engines.end(); ++i) { if (!i->enable) cout << " " << i->desc << '\n'; } cout << "\nEnabled features:\n\n"; for (FeatureList::const_iterator i = setup.features.begin(); i != setup.features.end(); ++i) { if (i->enable) cout << " " << i->description << '\n'; } cout << "\nDisabled features:\n\n"; for (FeatureList::const_iterator i = setup.features.begin(); i != setup.features.end(); ++i) { if (!i->enable) cout << " " << i->description << '\n'; } // Creation... setup.defines = getEngineDefines(setup.engines); StringList featureDefines = getFeatureDefines(setup.features); setup.defines.splice(setup.defines.begin(), featureDefines); setup.libraries = getFeatureLibraries(setup.features); setup.libraries.push_back("winmm.lib"); setup.libraries.push_back("sdl.lib"); // Initialize global & project-specific warnings g_globalWarnings = "4068;4100;4103;4127;4244;4250;4310;4351;4512;4702;4706;4800;4996"; g_projectWarnings["agi"] = "4510;4610"; g_projectWarnings["lure"] = "4189;4355"; g_projectWarnings["kyra"] = "4355"; createMSVCProject(setup, msvcVersion); } namespace { std::string convertPathToWin(const std::string &path) { std::string result = path; std::replace(result.begin(), result.end(), '/', '\\'); return result; } std::string unifyPath(const std::string &path) { std::string result = path; std::replace(result.begin(), result.end(), '\\', '/'); return result; } std::string getLastPathComponent(const std::string &path) { std::string::size_type pos = path.find_last_of('/'); if (pos == std::string::npos) return path; else return path.substr(pos + 1); } void displayHelp(const char *exe) { using std::cout; cout << "Usage:\n" << exe << " path\\to\\source [optional options]\n" << "\n" << " Creates MSVC project files for the ScummVM source locatd at \"path\\to\\source\".\n" " The project files will be created in the directory where tool is run from and\n" " will include \"path\\to\\source\" for relative file paths, thus be sure that you\n" " pass a relative file path like \"..\\..\\trunk\".\n" "\n" " Additionally there are the following switches for changing various settings:\n" "\n" "MSVC specifc settings:\n" " --msvc-version version set the targeted MSVC version. Possible values:\n" " 8 stands for \"Visual Studio 2005\"\n" " 9 stands for \"Visual Studio 2008\"\n" " The default is \"9\", thus \"Visual Studio 2008\"\n" " --file-prefix prefix allow overwriting of relative file prefix in the\n" " MSVC project files. By default the prefix is the\n" " \"path\\to\\source\" argument\n" " --output-dir path overwrite path, where the project files are placed\n" " By default this is \".\", i.e. the current working\n" " directory\n" "\n" "ScummVM engine settings:\n" " --list-engines list all available engines and their default state\n" " --enable-engine enable building of the engine with the name \"engine\"\n" " --disable-engine disable building of the engine with the name \"engine\"\n" " --enable-all-engines enable building of all engines\n" " --disable-all-engines disable building of all engines\n" "\n" "ScummVM optional feature settings:\n" " --enable-name enable inclusion of the feature \"name\"\n" " --disable-name disable inclusion of the feature \"name\"\n" "\n" " There are the following features available:\n" "\n"; cout << " state | name | description\n\n"; const FeatureList features = getAllFeatures(); cout.setf(std::ios_base::left, std::ios_base::adjustfield); for (FeatureList::const_iterator i = features.begin(); i != features.end(); ++i) cout << ' ' << (i->enable ? " enabled" : "disabled") << " | " << std::setw(15) << i->name << std::setw(0) << " | " << i->description << '\n'; cout.setf(std::ios_base::right, std::ios_base::adjustfield); } typedef StringList TokenList; /** * Takes a given input line and creates a list of tokens out of it. * * A token in this context is seperated by whitespaces. A special case * are quotation marks though. A string inside quotation marks is treated * as single token, even when it contains whitespaces. * * Thus for example the input: * foo bar "1 2 3 4" ScummVM * will create a list with the following entries: * "foo", "bar", "1 2 3 4", "ScummVM" * As you can see the quotation marks will get *removed* too. * * @param input The text to be tokenized. * @return A list of tokens. */ TokenList tokenize(const std::string &input); /** * Try to parse a given line and create an engine definition * out of the result. * * This may take *any* input line, when the line is not used * to define an engine the result of the function will be "false". * * Note that the contents of "engine" are undefined, when this * function returns "false". * * @param line Text input line. * @param engine Reference to an object, where the engine information * is to be stored in. * @return "true", when parsing succeeded, "false" otherwise. */ bool parseEngine(const std::string &line, EngineDesc &engine); } // End of anonymous namespace EngineDescList parseConfigure(const std::string &srcDir) { std::string configureFile = srcDir + "/configure"; std::ifstream configure(configureFile.c_str()); if (!configure) return EngineDescList(); std::string line; EngineDescList engines; while (true) { std::getline(configure, line); if (configure.eof()) break; if (configure.fail()) error("Failed while reading from " + configureFile); EngineDesc desc; if (parseEngine(line, desc)) engines.push_back(desc); } return engines; } bool isSubEngine(const std::string &name, const EngineDescList &engines) { for (EngineDescList::const_iterator i = engines.begin(); i != engines.end(); ++i) { if (std::find(i->subEngines.begin(), i->subEngines.end(), name) != i->subEngines.end()) return true; } return false; } bool setEngineBuildState(const std::string &name, EngineDescList &engines, bool enable) { if (enable && isSubEngine(name, engines)) { // When we enable a sub engine, we need to assure that the parent is also enabled, // thus we enable both sub engine and parent over here. EngineDescList::iterator engine = std::find(engines.begin(), engines.end(), name); if (engine != engines.end()) { engine->enable = enable; for (engine = engines.begin(); engine != engines.end(); ++engine) { if (std::find(engine->subEngines.begin(), engine->subEngines.end(), name) != engine->subEngines.end()) { engine->enable = true; break; } } return true; } } else { EngineDescList::iterator engine = std::find(engines.begin(), engines.end(), name); if (engine != engines.end()) { engine->enable = enable; // When we disable an einge, we also need to disable all the sub engines. if (!enable && !engine->subEngines.empty()) { for (StringList::const_iterator j = engine->subEngines.begin(); j != engine->subEngines.end(); ++j) { EngineDescList::iterator subEngine = std::find(engines.begin(), engines.end(), *j); if (subEngine != engines.end()) subEngine->enable = false; } } return true; } } return false; } StringList getEngineDefines(const EngineDescList &engines) { StringList result; for (EngineDescList::const_iterator i = engines.begin(); i != engines.end(); ++i) { if (i->enable) { std::string define = "ENABLE_" + i->name; std::transform(define.begin(), define.end(), define.begin(), toupper); result.push_back(define); } } return result; } namespace { bool parseEngine(const std::string &line, EngineDesc &engine) { // Format: // add_engine engine_name "Readable Description" enable_default ["SubEngineList"] TokenList tokens = tokenize(line); if (tokens.size() < 4) return false; TokenList::const_iterator token = tokens.begin(); if (*token != "add_engine") return false; ++token; engine.name = *token; ++token; engine.desc = *token; ++token; engine.enable = (*token == "yes"); ++token; if (token != tokens.end()) engine.subEngines = tokenize(*token); return true; } TokenList tokenize(const std::string &input) { TokenList result; std::string::size_type sIdx = input.find_first_not_of(" \t"); std::string::size_type nIdx = std::string::npos; if (sIdx == std::string::npos) return result; do { if (input.at(sIdx) == '\"') { ++sIdx; nIdx = input.find_first_of('\"', sIdx); } else { nIdx = input.find_first_of(' ', sIdx); } if (nIdx != std::string::npos) { result.push_back(input.substr(sIdx, nIdx - sIdx)); sIdx = input.find_first_not_of(" \t", nIdx + 1); } else { result.push_back(input.substr(sIdx)); break; } } while (sIdx != std::string::npos); return result; } } // End of anonymous namespace namespace { const Feature s_features[] = { // Libraries { "libz", "USE_ZLIB", "zlib.lib", true, "zlib (compression) support" }, { "mad", "USE_MAD", "libmad.lib", true, "libmad (MP3) support" }, { "vorbis", "USE_VORBIS", "libvorbisfile_static.lib libvorbis_static.lib libogg_static.lib", true, "Ogg Vorbis support" }, { "flac", "USE_FLAC", "libFLAC_static.lib", true, "FLAC support" }, { "mpeg2", "USE_MPEG2", "libmpeg2.lib", false, "mpeg2 codec for cutscenes" }, // ScummVM feature flags { "16bit", "USE_RGB_COLOR", "", true, "16bit color support" }, { "mt32emu", "USE_MT32EMU", "", true, "integrated MT-32 emulator" }, { "nasm", "HAVE_NASM", "", true, "IA-32 assembly support" }, // This feature is special in the regard, that it needs additional handling. }; } // End of anonymous namespace FeatureList getAllFeatures() { const size_t featureCount = sizeof(s_features) / sizeof(s_features[0]); FeatureList features; for (size_t i = 0; i < featureCount; ++i) features.push_back(s_features[i]); return features; } StringList getFeatureDefines(const FeatureList &features) { StringList defines; for (FeatureList::const_iterator i = features.begin(); i != features.end(); ++i) { if (i->enable && i->define && i->define[0]) defines.push_back(i->define); } return defines; } StringList getFeatureLibraries(const FeatureList &features) { StringList libraries; for (FeatureList::const_iterator i = features.begin(); i != features.end(); ++i) { if (i->enable && i->libraries && i->libraries[0]) { StringList fLibraries = tokenize(i->libraries); libraries.splice(libraries.end(), fLibraries); } } return libraries; } bool setFeatureBuildState(const std::string &name, FeatureList &features, bool enable) { FeatureList::iterator i = std::find(features.begin(), features.end(), name); if (i != features.end()) { i->enable = enable; return true; } else { return false; } } namespace { typedef std::map UUIDMap; /** * Creates an UUID for every enabled engine of the * passed build description. * * @param setup Description of the desired build. * @return A map, which includes UUIDs for all enabled engines. */ UUIDMap createUUIDMap(const BuildSetup &setup); /** * Creates an UUID and returns it in string representation. * * @return A new UUID as string. */ std::string createUUID(); /** * Creates the main solution file "scummvm.sln" for a specific * build setup. * * @param setup Description of the desired build. * @param uuids Map of all project file UUIDs. * @param version Target MSVC version. */ void createScummVMSolution(const BuildSetup &setup, const UUIDMap &uuids, const int version); /** * Create a project file for the specified list of files. * * @param name Name of the project file. * @param uuid UUID of the project file. * @param setup Description of the desired build. * @param moduleDir Path to the module. * @param includeList Files to include (must have "moduleDir" as prefix). * @param excludeList Files to exclude (must have "moduleDir" as prefix). * @param version Target MSVC version. */ void createProjectFile(const std::string &name, const std::string &uuid, const BuildSetup &setup, const std::string &moduleDir, const StringList &includeList, const StringList &excludeList, const int version); /** * Adds files of the specified directory recursively to given project file. * * @param dir Path to the directory. * @param projectFile Output stream object, where all data should be written to. * @param includeList Files to include (must have a relative directory as prefix). * @param excludeList Files to exclude (must have a relative directory as prefix). * @param filePrefix Prefix to use for relativ path arguments. */ void addFilesToProject(const std::string &dir, std::ofstream &projectFile, const StringList &includeList, const StringList &excludeList, const std::string &filePrefix); /** * Create the global project properties. * * @param setup Description of the desired build setup. * @param version Target MSVC version. */ void createGlobalProp(const BuildSetup &setup, const int version); /** * Generates the project properties for debug and release settings. * * @param setup Description of the desired build setup. * @param version Target MSVC version. */ void createBuildProp(const BuildSetup &setup, const int version); /** * Creates a list of files of the specified module. This also * creates a list of files, which should not be included. * All filenames will have "moduleDir" as prefix. * * @param moduleDir Path to the module. * @param defines List of set defines. * @param includeList Reference to a list, where included files should be added. * @param excludeList Reference to a list, where excluded files should be added. */ void createModuleList(const std::string &moduleDir, const StringList &defines, StringList &includeList, StringList &excludeList); } // End of anonymous namespace void createMSVCProject(const BuildSetup &setup, const int version) { UUIDMap uuidMap = createUUIDMap(setup); // We also need to add the UUID of the main project file. const std::string svmUUID = uuidMap["scummvm"] = createUUID(); createScummVMSolution(setup, uuidMap, version); StringList in, ex; // Create engine project files for (UUIDMap::const_iterator i = uuidMap.begin(); i != uuidMap.end(); ++i) { if (i->first == "scummvm") continue; in.clear(); ex.clear(); const std::string moduleDir = setup.srcDir + "/engines/" + i->first; createModuleList(moduleDir, setup.defines, in, ex); createProjectFile(i->first, i->second, setup, moduleDir, in, ex, version); } // Last but not least create the main ScummVM project file. in.clear(); ex.clear(); // File list for the ScummVM project file createModuleList(setup.srcDir + "/backends", setup.defines, in, ex); createModuleList(setup.srcDir + "/backends/platform/sdl", setup.defines, in, ex); createModuleList(setup.srcDir + "/base", setup.defines, in, ex); createModuleList(setup.srcDir + "/common", setup.defines, in, ex); createModuleList(setup.srcDir + "/engines", setup.defines, in, ex); createModuleList(setup.srcDir + "/graphics", setup.defines, in, ex); createModuleList(setup.srcDir + "/gui", setup.defines, in, ex); createModuleList(setup.srcDir + "/sound", setup.defines, in, ex); createModuleList(setup.srcDir + "/sound/softsynth/mt32", setup.defines, in, ex); // Resource files in.push_back(setup.srcDir + "/icons/scummvm.ico"); in.push_back(setup.srcDir + "/dists/scummvm.rc"); // Various text files in.push_back(setup.srcDir + "/AUTHORS"); in.push_back(setup.srcDir + "/COPYING"); in.push_back(setup.srcDir + "/COPYING.LGPL"); in.push_back(setup.srcDir + "/COPYRIGHT"); in.push_back(setup.srcDir + "/NEWS"); in.push_back(setup.srcDir + "/README"); in.push_back(setup.srcDir + "/TODO"); // Create the "scummvm.vcproj" file. createProjectFile("scummvm", svmUUID, setup, setup.srcDir, in, ex, version); // Create the global property file createGlobalProp(setup, version); // Create the configuration property files createBuildProp(setup, version); } namespace { UUIDMap createUUIDMap(const BuildSetup &setup) { UUIDMap result; for (EngineDescList::const_iterator i = setup.engines.begin(); i != setup.engines.end(); ++i) { if (!i->enable || isSubEngine(i->name, setup.engines)) continue; result[i->name] = createUUID(); } return result; } std::string createUUID() { #if defined(_WIN32) || defined(WIN32) UUID uuid; if (UuidCreate(&uuid) != RPC_S_OK) error("UuidCreate failed"); unsigned char *string = 0; if (UuidToStringA(&uuid, &string) != RPC_S_OK) error("UuidToStringA failed"); std::string result = std::string((char *)string); std::transform(result.begin(), result.end(), result.begin(), toupper); RpcStringFreeA(&string); return result; #else unsigned char uuid[16]; for (int i = 0; i < 16; ++i) uuid[i] = (unsigned char)((std::rand() / (double)(RAND_MAX)) * 0xFF); uuid[8] &= 0xBF; uuid[8] |= 0x80; uuid[6] &= 0x4F; uuid[6] |= 0x40; std::stringstream uuidString; uuidString << std::hex << std::uppercase << std::setfill('0'); for (int i = 0; i < 16; ++i) { uuidString << std::setw(2) << (int)uuid[i]; if (i == 3 || i == 5 || i == 7 || i == 9) { uuidString << std::setw(0) << '-'; } } return uuidString.str(); #endif } void createScummVMSolution(const BuildSetup &setup, const UUIDMap &uuids, const int version) { UUIDMap::const_iterator svmUUID = uuids.find("scummvm"); if (svmUUID == uuids.end()) error("No UUID for \"scummvm\" project created"); const std::string svmProjectUUID = svmUUID->second; assert(!svmProjectUUID.empty()); std::string solutionUUID = createUUID(); std::ofstream solution((setup.outputDir + '/' + "scummvm.sln").c_str()); if (!solution) error("Could not open \"" + setup.outputDir + '/' + "scummvm.sln\" for writing"); solution << "Microsoft Visual Studio Solution File, Format Version " << version + 1 << ".00\n"; if (version == 9) solution << "# Visual Studio 2008\n"; else if (version == 8) solution << "# Visual Studio 2005\n"; else error("Unsupported version passed to createScummVMSolution"); solution << "Project(\"{" << solutionUUID << "}\") = \"scummvm\", \"scummvm.vcproj\", \"{" << svmProjectUUID << "}\"\n" << "\tProjectSection(ProjectDependencies) = postProject\n"; for (UUIDMap::const_iterator i = uuids.begin(); i != uuids.end(); ++i) { if (i->first == "scummvm") continue; solution << "\t\t{" << i->second << "} = {" << i->second << "}\n"; } solution << "\tEndProjectSection\n" << "EndProject\n"; // Note we assume that the UUID map only includes UUIDs for enabled engines! for (UUIDMap::const_iterator i = uuids.begin(); i != uuids.end(); ++i) { if (i->first == "scummvm") continue; solution << "Project(\"{" << solutionUUID << "}\") = \"" << i->first << "\", \"" << i->first << ".vcproj\", \"{" << i->second << "}\"\n" << "EndProject\n"; } solution << "Global\n" "\tGlobalSection(SolutionConfigurationPlatforms) = preSolution\n" "\t\tDebug|Win32 = Debug|Win32\n" "\t\tRelease|Win32 = Release|Win32\n" "\t\tDebug|x64 = Debug|x64\n" "\t\tRelease|x64 = Release|x64\n" "\tEndGlobalSection\n" "\tGlobalSection(ProjectConfigurationPlatforms) = postSolution\n"; for (UUIDMap::const_iterator i = uuids.begin(); i != uuids.end(); ++i) { solution << "\t\t{" << i->second << "}.Debug|Win32.ActiveCfg = Debug|Win32\n" << "\t\t{" << i->second << "}.Debug|Win32.Build.0 = Debug|Win32\n" << "\t\t{" << i->second << "}.Release|Win32.ActiveCfg = Release|Win32\n" << "\t\t{" << i->second << "}.Release|Win32.Build.0 = Release|Win32\n" << "\t\t{" << i->second << "}.Debug|x64.ActiveCfg = Debug|x64\n" << "\t\t{" << i->second << "}.Debug|x64.Build.0 = Debug|x64\n" << "\t\t{" << i->second << "}.Release|x64.ActiveCfg = Release|x64\n" << "\t\t{" << i->second << "}.Release|x64.Build.0 = Release|x64\n"; } solution << "\tEndGlobalSection\n" "\tGlobalSection(SolutionProperties) = preSolution\n" "\t\tHideSolutionNode = FALSE\n" "\tEndGlobalSection\n" "EndGlobal\n"; } void createProjectFile(const std::string &name, const std::string &uuid, const BuildSetup &setup, const std::string &moduleDir, const StringList &includeList, const StringList &excludeList, const int version) { const std::string projectFile = setup.outputDir + '/' + name + ".vcproj"; std::ofstream project(projectFile.c_str()); if (!project) error("Could not open \"" + projectFile + "\" for writing"); project << "\n" "= 9) project << "\tTargetFrameworkVersion=\"131072\"\n"; project << "\t>\n" "\t\n" "\t\t\n" "\t\t\n" "\t\n" "\t\n"; // Check for project-specific warnings: std::map::iterator warnings = g_projectWarnings.find(name); if (name == "scummvm") { std::string libraries; for (StringList::const_iterator i = setup.libraries.begin(); i != setup.libraries.end(); ++i) libraries += ' ' + *i; // Win32 project << "\t\t\n" "\t\t\t\n" "\t\t\t\n" "\t\t\n" "\t\t\n" "\t\t\t\n" "\t\t\t\n" "\t\t\n"; // x64 // For 'x64' we must disable NASM support. Usually we would need to disable the "nasm" feature for that and // re-create the library list, BUT since NASM doesn't link any additional libraries, we can just use the // libraries list created for IA-32. If that changes in the future, we need to adjust this part! project << "\t\t\n" "\t\t\t\n" "\t\t\t\n" "\t\t\n" "\t\t\n" "\t\t\t\n" "\t\t\t\n" "\t\t\n"; } else if (warnings != g_projectWarnings.end()) { // Win32 project << "\t\t\n" "\t\t\tsecond << "\" />\n" "\t\t\n" "\t\t\n" "\t\t\tsecond << "\" />\n" "\t\t\n"; // x64 project << "\t\t\n" "\t\t\tsecond << "\" />\n" "\t\t\n" "\t\t\n" "\t\t\tsecond << "\" />\n" "\t\t\n"; } else if (name == "tinsel") { // Win32 project << "\t\t\n" "\t\t\t\n" "\t\t\n" "\t\t\n"; // x64 project << "\t\t\n" "\t\t\t\n" "\t\t\n" "\t\t\n"; } else { // Win32 project << "\t\t\n" "\t\t\n"; // x64 project << "\t\t\n" "\t\t\n"; } project << "\t\n" "\t\n"; std::string modulePath; if (!moduleDir.compare(0, setup.srcDir.size(), setup.srcDir)) { modulePath = moduleDir.substr(setup.srcDir.size()); if (!modulePath.empty() && modulePath.at(0) == '/') modulePath.erase(0, 1); } if (modulePath.size()) addFilesToProject(moduleDir, project, includeList, excludeList, setup.filePrefix + '/' + modulePath); else addFilesToProject(moduleDir, project, includeList, excludeList, setup.filePrefix); project << "\t\n" "\n"; } /** * Outputs a property file based on the input parameters. * * It can be easily used to create different global properties files * for a 64 bit and a 32 bit version. It will also take care that the * two platform configurations will output their files into different * directories. * * @param properties File stream in which to write the property settings. * @param bits Number of bits the platform supports. * @param defines Defines the platform needs to have set. * @param prefix File prefix, used to add additional include paths. */ void outputGlobalPropFile(std::ofstream &properties, int bits, const std::string &defines, const std::string &prefix) { properties << "\n" "\n" "\t\n" "\t\n" "\t\n" "\t\n" "\n"; properties.flush(); } void createGlobalProp(const BuildSetup &setup, const int /*version*/) { std::ofstream properties((setup.outputDir + '/' + "ScummVM_Global.vsprops").c_str()); if (!properties) error("Could not open \"" + setup.outputDir + '/' + "ScummVM_Global.vsprops\" for writing"); std::string defines; for (StringList::const_iterator i = setup.defines.begin(); i != setup.defines.end(); ++i) { if (i != setup.defines.begin()) defines += ';'; defines += *i; } outputGlobalPropFile(properties, 32, defines, convertPathToWin(setup.filePrefix)); properties.close(); properties.open((setup.outputDir + '/' + "ScummVM_Global64.vsprops").c_str()); if (!properties) error("Could not open \"" + setup.outputDir + '/' + "ScummVM_Global64.vsprops\" for writing"); // HACK: We must disable the "nasm" feature for x64. To achieve that we must duplicate the feature list and // recreate a define list. FeatureList x64Features = setup.features; setFeatureBuildState("nasm", x64Features, false); StringList x64Defines = getFeatureDefines(x64Features); StringList x64EngineDefines = getEngineDefines(setup.engines); x64Defines.splice(x64Defines.end(), x64EngineDefines); defines.clear(); for (StringList::const_iterator i = x64Defines.begin(); i != x64Defines.end(); ++i) { if (i != x64Defines.begin()) defines += ';'; defines += *i; } outputGlobalPropFile(properties, 64, defines, convertPathToWin(setup.filePrefix)); } void createBuildProp(const BuildSetup &setup, const int /*version*/) { std::ofstream properties((setup.outputDir + '/' + "ScummVM_Debug.vsprops").c_str()); if (!properties) error("Could not open \"" + setup.outputDir + '/' + "ScummVM_Debug.vsprops\" for writing"); properties << "\n" "\n" "\t\n" "\t\n" "\n"; properties.flush(); properties.close(); properties.open((setup.outputDir + '/' + "ScummVM_Debug64.vsprops").c_str()); if (!properties) error("Could not open \"" + setup.outputDir + '/' + "ScummVM_Debug64.vsprops\" for writing"); properties << "\n" "\n" "\t\n" "\t\n" "\n"; properties.flush(); properties.close(); properties.open((setup.outputDir + '/' + "ScummVM_Release.vsprops").c_str()); if (!properties) error("Could not open \"" + setup.outputDir + '/' + "ScummVM_Release.vsprops\" for writing"); properties << "\n" "\n" "\t\n" "\t\n" "\n"; properties.flush(); properties.close(); properties.open((setup.outputDir + '/' + "ScummVM_Release64.vsprops").c_str()); if (!properties) error("Could not open \"" + setup.outputDir + '/' + "ScummVM_Release64.vsprops\" for writing"); properties << "\n" "\n" "\t\n" "\t\n" "\n"; properties.flush(); properties.close(); } /** * Gets a proper sequence of \t characters for the given * indentation level. * * For example with an indentation level of 2 this will * produce: * \t\t * * @param indentation The indentation level * @return Sequence of \t characters. */ std::string getIndent(const int indentation) { std::string result; for (int i = 0; i < indentation; ++i) result += '\t'; return result; } /** * Splits a file name into name and extension. * The file name must be only the filename, no * additional path name. * * @param fileName Filename to split * @param name Reference to a string, where to store the name. * @param ext Reference to a string, where to store the extension. */ void splitFilename(const std::string &fileName, std::string &name, std::string &ext) { const std::string::size_type dot = fileName.find_last_of('.'); name = (dot == std::string::npos) ? fileName : fileName.substr(0, dot); ext = (dot == std::string::npos) ? std::string() : fileName.substr(dot + 1); } /** * Checks whether the given file will produce an object file or not. * * @param fileName Name of the file. * @return "true" when it will produce a file, "false" otherwise. */ bool producesObjectFile(const std::string &fileName) { std::string n, ext; splitFilename(fileName, n, ext); if (ext == "cpp" || ext == "c" || ext == "asm") return true; else return false; } /** * Checks whether the give file in the specified directory is present in the given * file list. * * This function does as special match against the file list. It will not take file * extensions into consideration, when the extension of a file in the specified * directory is one of "h", "cpp", "c" or "asm". * * @param dir Parent directory of the file. * @param fileName File name to match. * @param fileList List of files to match against. * @return "true" when the file is in the list, "false" otherwise. */ bool isInList(const std::string &dir, const std::string &fileName, const StringList &fileList) { std::string compareName, extensionName; splitFilename(fileName, compareName, extensionName); if (!extensionName.empty()) compareName += '.'; for (StringList::const_iterator i = fileList.begin(); i != fileList.end(); ++i) { if (i->compare(0, dir.size(), dir)) continue; // When no comparison name is given, we try to match whether a subset of // the given directory should be included. To do that we must assure that // the first character after the substring, having the same size as dir, must // be a path delimiter. if (compareName.empty()) { if (i->size() >= dir.size() + 1 && i->at(dir.size()) == '/') return true; else continue; } const std::string lastPathComponent = getLastPathComponent(*i); if (!producesObjectFile(fileName) && extensionName != "h") { if (fileName == lastPathComponent) return true; } else { if (!lastPathComponent.compare(0, compareName.size(), compareName)) return true; } } return false; } /** * Structure representing a file tree. This contains two * members: name and children. "name" holds the name of * the node. "children" does contain all the node's children. * When the list "children" is empty, the node is a file entry, * otherwise it's a directory. */ struct FileNode { typedef std::list NodeList; FileNode(const std::string &n) : name(n), children() {} ~FileNode() { for (NodeList::iterator i = children.begin(); i != children.end(); ++i) delete *i; } std::string name; ///< Name of the node NodeList children; ///< List of children for the node }; /** * A strict weak compare predicate for sorting a list of * "FileNode *" entries. * * It will sort directory nodes before file nodes. * * @param l Left-hand operand. * @param r Right-hand operand. * @return "true" if and only if l should be sorted before r. */ bool compareNodes(const FileNode *l, const FileNode *r) { if (!l) { return false; } else if (!r) { return true; } else { if (l->children.empty() && !r->children.empty()) { return false; } else if (!l->children.empty() && r->children.empty()) { return true; } else { return l->name < r->name; } } } /** * Structure for describing an FSNode. This is a very minimalistic * description, which includes everything we need. * It only contains the name of the node and whether it is a directory * or not. */ struct FSNode { FSNode() : name(), isDirectory(false) {} FSNode(const std::string &n, bool iD) : name(n), isDirectory(iD) {} std::string name; ///< Name of the file system node bool isDirectory; ///< Whether it is a directory or not }; typedef std::list FileList; /** * Returns a list of all files and directories in the specified * path. * * @param dir Directory which should be listed. * @return List of all children. */ FileList listDirectory(const std::string &dir) { FileList result; #if defined(_WIN32) || defined(WIN32) WIN32_FIND_DATA fileInformation; HANDLE fileHandle = FindFirstFile((dir + "/*").c_str(), &fileInformation); if (fileHandle == INVALID_HANDLE_VALUE) return result; do { if (fileInformation.cFileName[0] == '.') continue; result.push_back(FSNode(fileInformation.cFileName, (fileInformation.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) != 0)); } while (FindNextFile(fileHandle, &fileInformation) == TRUE); FindClose(fileHandle); #else DIR *dirp = opendir(dir.c_str()); struct dirent *dp = NULL; if (dirp == NULL) return result; while ((dp = readdir(dirp)) != NULL) { if (dp->d_name[0] == '.') continue; struct stat st; if (stat((dir + '/' + dp->d_name).c_str(), &st)) continue; result.push_back(FSNode(dp->d_name, S_ISDIR(st.st_mode))); } #endif return result; } /** * Scans the specified directory against files, which should be included * in the project files. It will not include files present in the exclude list. * * @param dir Directory in which to search for files. * @param includeList Files to include in the project. * @param excludeList Files to exclude from the project. * @return Returns a file node for the specific directory. */ FileNode *scanFiles(const std::string &dir, const StringList &includeList, const StringList &excludeList) { FileList files = listDirectory(dir); if (files.empty()) return 0; FileNode *result = new FileNode(dir); assert(result); for (FileList::const_iterator i = files.begin(); i != files.end(); ++i) { if (i->isDirectory) { const std::string subDirName = dir + '/' + i->name; if (!isInList(subDirName, std::string(), includeList)) continue; FileNode *subDir = scanFiles(subDirName, includeList, excludeList); if (subDir) { subDir->name = i->name; result->children.push_back(subDir); } continue; } if (isInList(dir, i->name, excludeList)) continue; std::string name, ext; splitFilename(i->name, name, ext); if (ext != "h") { if (!isInList(dir, i->name, includeList)) continue; } FileNode *child = new FileNode(i->name); assert(child); result->children.push_back(child); } if (result->children.empty()) { delete result; return 0; } else { result->children.sort(compareNodes); return result; } } /** * Writes file entries for the specified directory node into * the given project file. It will also take care of duplicate * object files. * * @param dir Directory node. * @param projectFile File stream to write to. * @param indentation Indentation level to use. * @param duplicate List of duplicate object file names. * @param objPrefix Prefix to use for object files, which would name clash. * @param filePrefix Generic prefix to all files of the node. */ void writeFileListToProject(const FileNode &dir, std::ofstream &projectFile, const int indentation, const StringList &duplicate, const std::string &objPrefix, const std::string &filePrefix) { const std::string indentString = getIndent(indentation + 2); if (indentation) projectFile << getIndent(indentation + 1) << "\n"; for (FileNode::NodeList::const_iterator i = dir.children.begin(); i != dir.children.end(); ++i) { const FileNode *node = *i; if (!node->children.empty()) { writeFileListToProject(*node, projectFile, indentation + 1, duplicate, objPrefix + node->name + '_', filePrefix + node->name + '/'); } else { if (producesObjectFile(node->name)) { std::string name, ext; splitFilename(node->name, name, ext); const bool isDuplicate = (std::find(duplicate.begin(), duplicate.end(), name + ".o") != duplicate.end()); if (ext == "asm") { std::string objFileName = "$(IntDir)\\"; if (isDuplicate) objFileName += objPrefix; objFileName += "$(InputName).obj"; const std::string toolLine = indentString + "\t\t\n"; // NASM is not supported for x64, thus we do not need to add additional entries here :-). projectFile << indentString << "name) << "\">\n" << indentString << "\t\n" << toolLine << indentString << "\t\n" << indentString << "\t\n" << toolLine << indentString << "\t\n" << indentString << "\n"; } else { if (isDuplicate) { const std::string toolLine = indentString + "\t\t\n"; projectFile << indentString << "name) << "\">\n" << indentString << "\t\n" << toolLine << indentString << "\t\n" << indentString << "\t\n" << toolLine << indentString << "\t\n" << indentString << "\t\n" << toolLine << indentString << "\t\n" << indentString << "\t\n" << toolLine << indentString << "\t\n" << indentString << "\n"; } else { projectFile << indentString << "name) << "\" />\n"; } } } else { projectFile << indentString << "name) << "\" />\n"; } } } if (indentation) projectFile << getIndent(indentation + 1) << "\n"; } void addFilesToProject(const std::string &dir, std::ofstream &projectFile, const StringList &includeList, const StringList &excludeList, const std::string &filePrefix) { // Check for duplicate object file names StringList duplicate; for (StringList::const_iterator i = includeList.begin(); i != includeList.end(); ++i) { const std::string fileName = getLastPathComponent(*i); // Leave out non object file names. if (fileName.size() < 2 || fileName.compare(fileName.size() - 2, 2, ".o")) continue; // Check whether an duplicate has been found yet if (std::find(duplicate.begin(), duplicate.end(), fileName) != duplicate.end()) continue; // Search for duplicates StringList::const_iterator j = i; ++j; for (; j != includeList.end(); ++j) { if (fileName == getLastPathComponent(*j)) { duplicate.push_back(fileName); break; } } } FileNode *files = scanFiles(dir, includeList, excludeList); writeFileListToProject(*files, projectFile, 0, duplicate, std::string(), filePrefix + '/'); delete files; } void createModuleList(const std::string &moduleDir, const StringList &defines, StringList &includeList, StringList &excludeList) { const std::string moduleMkFile = moduleDir + "/module.mk"; std::ifstream moduleMk(moduleMkFile.c_str()); if (!moduleMk) error(moduleMkFile + " is not present"); includeList.push_back(moduleMkFile); std::stack shouldInclude; shouldInclude.push(true); bool hadModule = false; std::string line; while (true) { std::getline(moduleMk, line); if (moduleMk.eof()) break; if (moduleMk.fail()) error("Failed while reading from " + moduleMkFile); TokenList tokens = tokenize(line); if (tokens.empty()) continue; TokenList::const_iterator i = tokens.begin(); if (*i == "MODULE") { if (hadModule) error("More than one MODULE definition in " + moduleMkFile); // Format: "MODULE := path/to/module" if (tokens.size() < 3) error("Malformed MODULE definition in " + moduleMkFile); ++i; if (*i != ":=") error("Malformed MODULE definition in " + moduleMkFile); ++i; std::string moduleRoot = unifyPath(*i); if (moduleDir.compare(moduleDir.size() - moduleRoot.size(), moduleRoot.size(), moduleRoot)) error("MODULE root " + moduleRoot + " does not match base dir " + moduleDir); hadModule = true; } else if (*i == "MODULE_OBJS") { if (tokens.size() < 3) error("Malformed MODULE_OBJS definition in " + moduleMkFile); ++i; // This is not exactly correct, for example an ":=" would usually overwrite // all already added files, but since we do only save the files inside // includeList or excludeList currently, we couldn't handle such a case easily. // (includeList and excludeList should always preserve their entries, not added // by this function, thus we can't just clear them on ":=" or "="). // But hopefully our module.mk files will never do such things anyway. if (*i != ":=" && *i != "+=" && *i != "=") error("Malformed MODULE_OBJS definition in " + moduleMkFile); ++i; while (i != tokens.end()) { if (*i == "\\") { std::getline(moduleMk, line); tokens = tokenize(line); i = tokens.begin(); } else { if (shouldInclude.top()) includeList.push_back(moduleDir + "/" + unifyPath(*i)); else excludeList.push_back(moduleDir + "/" + unifyPath(*i)); ++i; } } } else if (*i == "ifdef") { if (tokens.size() < 2) error("Malformed ifdef in " + moduleMkFile); ++i; if (std::find(defines.begin(), defines.end(), *i) == defines.end()) shouldInclude.push(false); else shouldInclude.push(true); } else if (*i == "ifndef") { if (tokens.size() < 2) error("Malformed ifndef in " + moduleMkFile); ++i; if (std::find(defines.begin(), defines.end(), *i) == defines.end()) shouldInclude.push(true); else shouldInclude.push(false); } else if (*i == "else") { shouldInclude.top() = !shouldInclude.top(); } else if (*i == "endif") { if (shouldInclude.size() <= 1) error("endif without ifdef found in " + moduleMkFile); shouldInclude.pop(); } else if (*i == "elif") { error("Unsupported operation 'elif' in " + moduleMkFile); } else if (*i == "ifeq") { //XXX shouldInclude.push(false); } } if (shouldInclude.size() != 1) error("Malformed file " + moduleMkFile); } } // End of anonymous namespace void error(const std::string &message) { std::cerr << "ERROR: " << message << "!" << std::endl; std::exit(-1); }