bool GlulxeMetaEngine::detectGames(const Common::FSList &fslist, DetectedGames &gameList) {
const char *const EXTENSIONS[3] = { ".ulx", ".blb", ".gblorb" };
// Loop through the files of the folder
for (Common::FSList::const_iterator file = fslist.begin(); file != fslist.end(); ++file) {
// Check for a recognised filename
if (file->isDirectory())
continue;
Common::String filename = file->getName();
bool hasExt = false;
for (int idx = 0; idx < 3 && !hasExt; ++idx)
hasExt = filename.hasSuffixIgnoreCase(EXTENSIONS[idx]);
if (!hasExt)
continue;
// Open up the file and calculate the md5
Common::File gameFile;
if (!gameFile.open(*file))
continue;
Common::String md5 = Common::computeStreamMD5AsString(gameFile, 5000);
size_t filesize = gameFile.size();
gameFile.close();
// Check for known games
const GlulxeGameDescription *p = GLULXE_GAMES;
while (p->_gameId && (md5 != p->_md5 || filesize != p->_filesize))
++p;
DetectedGame gd;
if (!p->_gameId) {
if (filename.hasSuffixIgnoreCase(".blb"))
continue;
if (gDebugLevel > 0) {
// Print an entry suitable for putting into the detection_tables.h, using the
// name of the parent folder the game is in as the presumed game Id
Common::String folderName = file->getParent().getName();
if (folderName.hasSuffix("\\"))
folderName.deleteLastChar();
Common::String fname = filename;
const char *dot = strchr(fname.c_str(), '.');
if (dot)
fname = Common::String(fname.c_str(), dot);
debug("ENTRY0(\"%s\", \"%s\", %u),", fname.c_str(), md5.c_str(), (uint)filesize);
}
const PlainGameDescriptor &desc = GLULXE_GAME_LIST[0];
gd = DetectedGame(desc.gameId, desc.description, Common::UNK_LANG, Common::kPlatformUnknown);
} else {
PlainGameDescriptor gameDesc = findGame(p->_gameId);
gd = DetectedGame(p->_gameId, gameDesc.description, p->_language, Common::kPlatformUnknown, p->_extra);
gd.setGUIOptions(GUIO4(GUIO_NOSPEECH, GUIO_NOSFX, GUIO_NOMUSIC, GUIO_NOSUBTITLES));
}
gd.addExtraEntry("filename", filename);
gameList.push_back(gd);
}
return !gameList.empty();
}
static void composeFileHashMap(const Common::FSList &fslist, DescMap &fileMD5Map, int depth, const char **globs) {
if (depth <= 0)
return;
if (fslist.empty())
return;
for (Common::FSList::const_iterator file = fslist.begin(); file != fslist.end(); ++file) {
if (!file->isDirectory()) {
DetectorDesc d;
d.node = *file;
d.md5Entry = 0;
fileMD5Map[file->getName()] = d;
} else {
if (!globs)
continue;
bool matched = false;
for (const char **glob = globs; *glob; glob++)
if (file->getName().matchString(*glob, true)) {
matched = true;
break;
}
if (!matched)
continue;
Common::FSList files;
if (file->getChildren(files, Common::FSNode::kListAll)) {
composeFileHashMap(files, fileMD5Map, depth - 1, globs);
}
}
}
}
GameList QueenMetaEngine::detectGames(const Common::FSList &fslist) const {
GameList detectedGames;
// Iterate over all files in the given directory
for (Common::FSList::const_iterator file = fslist.begin(); file != fslist.end(); ++file) {
if (file->isDirectory()) {
continue;
}
if (file->getName().equalsIgnoreCase("queen.1") || file->getName().equalsIgnoreCase("queen.1c")) {
Common::File dataFile;
if (!dataFile.open(*file)) {
continue;
}
Queen::DetectedGameVersion version;
if (Queen::Resource::detectVersion(&version, &dataFile)) {
GameDescriptor dg(queenGameDescriptor.gameid, queenGameDescriptor.description, version.language, version.platform);
if (version.features & Queen::GF_DEMO) {
dg.updateDesc("Demo");
dg.setGUIOptions(Common::GUIO_NOSPEECH);
} else if (version.features & Queen::GF_INTERVIEW) {
dg.updateDesc("Interview");
dg.setGUIOptions(Common::GUIO_NOSPEECH);
} else if (version.features & Queen::GF_FLOPPY) {
dg.updateDesc("Floppy");
dg.setGUIOptions(Common::GUIO_NOSPEECH);
} else if (version.features & Queen::GF_TALKIE) {
dg.updateDesc("Talkie");
}
detectedGames.push_back(dg);
break;
}
}
}
return detectedGames;
}
GameList AdvancedMetaEngine::detectGames(const Common::FSList &fslist) const {
ADGameDescList matches;
GameList detectedGames;
FileMap allFiles;
if (fslist.empty())
return detectedGames;
// Compose a hashmap of all files in fslist.
composeFileHashMap(allFiles, fslist, (_maxScanDepth == 0 ? 1 : _maxScanDepth));
// Run the detector on this
matches = detectGame(fslist.begin()->getParent(), allFiles, Common::UNK_LANG, Common::kPlatformUnknown, "");
if (matches.empty()) {
// Use fallback detector if there were no matches by other means
const ADGameDescription *fallbackDesc = fallbackDetect(allFiles, fslist);
if (fallbackDesc != 0) {
GameDescriptor desc(toGameDescriptor(*fallbackDesc, _gameIds));
updateGameDescriptor(desc, fallbackDesc);
detectedGames.push_back(desc);
}
} else {
// Otherwise use the found matches
cleanupPirated(matches);
for (uint i = 0; i < matches.size(); i++) {
GameDescriptor desc(toGameDescriptor(*matches[i], _gameIds));
updateGameDescriptor(desc, matches[i]);
detectedGames.push_back(desc);
}
}
return detectedGames;
}
void Sword1CheckDirectory(const Common::FSList &fslist, bool *filesFound, bool recursion = false) {
for (Common::FSList::const_iterator file = fslist.begin(); file != fslist.end(); ++file) {
if (!file->isDirectory()) {
// The required game data files can be located in the game directory, or in
// a subdirectory called "clusters". In the latter case, we don't want to
// detect the game in that subdirectory, as this will detect the game twice
// when mass add is searching inside a directory. In this case, the first
// result (the game directory) will be correct, but the second result (the
// clusters subdirectory) will be wrong, as the optional speech, music and
// video data files will be ignored. Note that this fix will skip the game
// data files if the user has placed them inside a "clusters" subdirectory,
// or if he/she points ScummVM directly to the "clusters" directory of the
// game CD. Fixes bug #3049346.
Common::String directory = file->getParent().getName();
directory.toLowercase();
if (directory.hasPrefix("clusters") && directory.size() <= 9 && !recursion)
continue;
const char *fileName = file->getName().c_str();
for (int cnt = 0; cnt < NUM_FILES_TO_CHECK; cnt++)
if (scumm_stricmp(fileName, g_filesToCheck[cnt]) == 0)
filesFound[cnt] = true;
} else {
for (int cnt = 0; cnt < ARRAYSIZE(g_dirNames); cnt++)
if (scumm_stricmp(file->getName().c_str(), g_dirNames[cnt]) == 0) {
Common::FSList fslist2;
if (file->getChildren(fslist2, Common::FSNode::kListFilesOnly))
Sword1CheckDirectory(fslist2, filesFound, true);
}
}
}
}
// Search for a node with the given "name", inside fslist. Ignores case
// when performing the matching. The first match is returned, so if you
// search for "resource" and two nodes "RESOURE and "resource" are present,
// the first match is used.
static bool searchFSNode(const Common::FSList &fslist, const Common::String &name, Common::FSNode &result) {
for (Common::FSList::const_iterator file = fslist.begin(); file != fslist.end(); ++file) {
if (!scumm_stricmp(file->getName().c_str(), name.c_str())) {
result = *file;
return true;
}
}
return false;
}
bool BaseFileManager::registerPackages(const Common::FSList &fslist) {
for (Common::FSList::const_iterator it = fslist.begin(); it != fslist.end(); ++it) {
debugC(kWintermuteDebugFileAccess, "Adding %s", (*it).getName().c_str());
if ((*it).getName().contains(".dcp")) {
if (registerPackage((*it))) {
addPath(PATH_PACKAGE, (*it));
}
}
}
return true;
}
bool isFullGame(const Common::FSList &fslist) {
Common::FSList::const_iterator file;
// We distinguish between the two versions by the presense of paris.clu
for (file = fslist.begin(); file != fslist.end(); ++file) {
if (!file->isDirectory()) {
if (file->getName().equalsIgnoreCase("paris.clu"))
return true;
}
}
return false;
}
virtual const ADGameDescription *fallbackDetect(const Common::FSList &fslist) const {
for (Common::FSList::const_iterator d = fslist.begin(); d != fslist.end(); ++d) {
Common::FSList audiofslist;
if (d->isDirectory() && d->getName().equalsIgnoreCase("audio") && d->getChildren(audiofslist, Common::FSNode::kListFilesOnly)) {
for (Common::FSList::const_iterator f = audiofslist.begin(); f != audiofslist.end(); ++f) {
if (!f->isDirectory() && f->getName().equalsIgnoreCase("demorolc.raw")) {
return &tuckerDemoGameDescription;
}
}
}
}
return 0;
}
GameList SkyMetaEngine::detectGames(const Common::FSList &fslist) const {
GameList detectedGames;
bool hasSkyDsk = false;
bool hasSkyDnr = false;
int dinnerTableEntries = -1;
int dataDiskSize = -1;
// Iterate over all files in the given directory
for (Common::FSList::const_iterator file = fslist.begin(); file != fslist.end(); ++file) {
if (!file->isDirectory()) {
const char *fileName = file->getName().c_str();
if (0 == scumm_stricmp("sky.dsk", fileName)) {
Common::File dataDisk;
if (dataDisk.open(*file)) {
hasSkyDsk = true;
dataDiskSize = dataDisk.size();
}
}
if (0 == scumm_stricmp("sky.dnr", fileName)) {
Common::File dinner;
if (dinner.open(*file)) {
hasSkyDnr = true;
dinnerTableEntries = dinner.readUint32LE();
}
}
}
}
if (hasSkyDsk && hasSkyDnr) {
// Match found, add to list of candidates, then abort inner loop.
// The game detector uses US English by default. We want British
// English to match the recorded voices better.
GameDescriptor dg("sky", skySetting.gameid, skySetting.description, Common::UNK_LANG, Common::kPlatformUnknown);
const SkyVersion *sv = skyVersions;
while (sv->dinnerTableEntries) {
if (dinnerTableEntries == sv->dinnerTableEntries &&
(sv->dataDiskSize == dataDiskSize || sv->dataDiskSize == -1)) {
dg.updateDesc(Common::String::format("v0.0%d %s", sv->version, sv->extraDesc).c_str());
dg.setGUIOptions(sv->guioptions);
break;
}
++sv;
}
detectedGames.push_back(dg);
}
return detectedGames;
}
bool TADSMetaEngine::detectGames(const Common::FSList &fslist, DetectedGames &gameList) {
// Loop through the files of the folder
for (Common::FSList::const_iterator file = fslist.begin(); file != fslist.end(); ++file) {
// Check for a recognised filename
Common::String filename = file->getName();
if (file->isDirectory() || !(filename.hasSuffixIgnoreCase(".gam")
|| filename.hasSuffixIgnoreCase(".blorb")))
continue;
// Open up the file and calculate the md5
Common::File gameFile;
if (!gameFile.open(*file))
continue;
Common::String md5 = Common::computeStreamMD5AsString(gameFile, 5000);
size_t filesize = gameFile.size();
gameFile.close();
// Check for known games
const TADSGameDescription *p = TADS_GAMES;
while (p->_gameId && p->_md5 && (md5 != p->_md5 || filesize != p->_filesize))
++p;
DetectedGame gd;
if (!p->_gameId) {
if (!filename.hasSuffixIgnoreCase(".gam"))
continue;
if (gDebugLevel > 0) {
// Print an entry suitable for putting into the detection_tables.h, using the
Common::String fname = filename;
const char *dot = strchr(fname.c_str(), '.');
if (dot)
fname = Common::String(fname.c_str(), dot);
debug("ENTRY0(\"%s\", \"%s\", %u),", fname.c_str(), md5.c_str(), (uint)filesize);
}
const TADSDescriptor &desc = TADS_GAME_LIST[0];
gd = DetectedGame(desc.gameId, desc.description, Common::UNK_LANG, Common::kPlatformUnknown);
}
else {
PlainGameDescriptor gameDesc = findGame(p->_gameId);
gd = DetectedGame(p->_gameId, gameDesc.description, p->_language, Common::kPlatformUnknown, p->_extra);
}
gd.addExtraEntry("filename", filename);
gameList.push_back(gd);
}
return !gameList.empty();
}
GameList Sword2MetaEngine::detectGames(const Common::FSList &fslist) const {
GameList detectedGames;
const Sword2::GameSettings *g;
Common::FSList::const_iterator file;
// TODO: It would be nice if we had code here which distinguishes
// between the 'sword2' and 'sword2demo' targets. The current code
// can't do that since they use the same detectname.
for (g = Sword2::sword2_settings; g->gameid; ++g) {
// Iterate over all files in the given directory
for (file = fslist.begin(); file != fslist.end(); ++file) {
if (!file->isDirectory()) {
const char *fileName = file->getName().c_str();
if (0 == scumm_stricmp(g->detectname, fileName)) {
// Match found, add to list of candidates, then abort inner loop.
detectedGames.push_back(GameDescriptor(g->gameid, g->description, Common::UNK_LANG, Common::kPlatformUnknown, Common::GUIO_NOMIDI));
break;
}
}
}
}
if (detectedGames.empty()) {
// Nothing found -- try to recurse into the 'clusters' subdirectory,
// present e.g. if the user copied the data straight from CD.
for (file = fslist.begin(); file != fslist.end(); ++file) {
if (file->isDirectory()) {
const char *fileName = file->getName().c_str();
if (0 == scumm_stricmp("clusters", fileName)) {
Common::FSList recList;
if (file->getChildren(recList, Common::FSNode::kListAll)) {
GameList recGames(detectGames(recList));
if (!recGames.empty()) {
detectedGames.push_back(recGames);
break;
}
}
}
}
}
}
return detectedGames;
}
void Sword1CheckDirectory(const Common::FSList &fslist, bool *filesFound) {
for (Common::FSList::const_iterator file = fslist.begin(); file != fslist.end(); ++file) {
if (!file->isDirectory()) {
const char *fileName = file->getName().c_str();
for (int cnt = 0; cnt < NUM_FILES_TO_CHECK; cnt++)
if (scumm_stricmp(fileName, g_filesToCheck[cnt]) == 0)
filesFound[cnt] = true;
} else {
for (int cnt = 0; cnt < ARRAYSIZE(g_dirNames); cnt++)
if (scumm_stricmp(file->getName().c_str(), g_dirNames[cnt]) == 0) {
Common::FSList fslist2;
if (file->getChildren(fslist2, Common::FSNode::kListFilesOnly))
Sword1CheckDirectory(fslist2, filesFound);
}
}
}
}
void DefaultSaveFileManager::assureCached(const Common::String &savePathName) {
// Check that path exists and is usable.
checkPath(Common::FSNode(savePathName));
#ifdef USE_LIBCURL
Common::Array<Common::String> files = CloudMan.getSyncingFiles(); //returns empty array if not syncing
if (!files.empty()) updateSavefilesList(files); //makes this cache invalid
else _lockedFiles = files;
#endif
if (_cachedDirectory == savePathName) {
return;
}
_saveFileCache.clear();
_cachedDirectory.clear();
if (getError().getCode() != Common::kNoError) {
warning("DefaultSaveFileManager::assureCached: Can not cache path '%s': '%s'", savePathName.c_str(), getErrorDesc().c_str());
return;
}
// FSNode can cache its members, thus create it after checkPath to reflect
// actual file system state.
const Common::FSNode savePath(savePathName);
Common::FSList children;
if (!savePath.getChildren(children, Common::FSNode::kListFilesOnly)) {
return;
}
// Build the savefile name cache.
for (Common::FSList::const_iterator file = children.begin(), end = children.end(); file != end; ++file) {
if (_saveFileCache.contains(file->getName())) {
warning("DefaultSaveFileManager::assureCached: Name clash when building cache, ignoring file '%s'", file->getName().c_str());
} else {
_saveFileCache[file->getName()] = *file;
}
}
// Only now store that we cached 'savePathName' to indicate we successfully
// cached the directory.
_cachedDirectory = savePathName;
}
void CELauncherDialog::automaticScanDirectory(const Common::FSNode &node) {
// First check if we have a recognized game in the current directory
Common::FSList files;
node.getChildren(files, Common::FSNode::kListFilesOnly);
// detect
GameList candidates(EngineMan.detectGames(files));
// insert
if (candidates.size() >= 1) {
GameDescriptor result = candidates[0];
result["path"] = node.getPath();
addGameToConf(result);
}
// Then recurse on the subdirectories
Common::FSList dirs;
node.getChildren(dirs, Common::FSNode::kListDirectoriesOnly);
for (Common::FSList::const_iterator currentDir = dirs.begin(); currentDir != dirs.end(); ++currentDir)
automaticScanDirectory(*currentDir);
}
bool BaseFileManager::registerPackages() {
debugC(kWintermuteDebugFileAccess | kWintermuteDebugLog, "Scanning packages");
// Register without using SearchMan, as otherwise the FSNode-based lookup in openPackage will fail
// and that has to be like that to support the detection-scheme.
Common::FSList files;
for (Common::FSList::iterator it = _packagePaths.begin(); it != _packagePaths.end(); ++it) {
debugC(kWintermuteDebugFileAccess, "Should register folder: %s %s", (*it).getPath().c_str(), (*it).getName().c_str());
if (!(*it).getChildren(files, Common::FSNode::kListFilesOnly)) {
warning("getChildren() failed for path: %s", (*it).getDisplayName().c_str());
}
for (Common::FSList::iterator fileIt = files.begin(); fileIt != files.end(); ++fileIt) {
if (!fileIt->getName().hasSuffix(".dcp")) {
continue;
}
// Avoid registering all the language files
// TODO: Select based on the gameDesc.
if (_language != Common::UNK_LANG && fileIt->getParent().getName() == "language") {
Common::String parentName = fileIt->getParent().getName();
Common::String dcpName = fileIt->getName();
if (_language == Common::EN_ANY && fileIt->getName() != "english.dcp") {
continue;
} else if (_language == Common::CZ_CZE && fileIt->getName() != "czech.dcp") {
continue;
} else if (_language == Common::IT_ITA && fileIt->getName() != "italian.dcp") {
continue;
} else if (_language == Common::PL_POL && fileIt->getName() != "polish.dcp") {
continue;
} else if (_language == Common::RU_RUS && fileIt->getName() != "russian.dcp") {
continue;
}
}
debugC(kWintermuteDebugFileAccess, "Registering %s %s", (*fileIt).getPath().c_str(), (*fileIt).getName().c_str());
registerPackage((*fileIt));
}
}
// debugC(kWintermuteDebugFileAccess | kWintermuteDebugLog, " Registered %d files in %d package(s)", _files.size(), _packages.size());
return STATUS_OK;
}
static void composeFileHashMap(const Common::FSList &fslist, FileMap &allFiles, int depth, const char * const *directoryGlobs) {
if (depth <= 0)
return;
if (fslist.empty())
return;
// First we compose a hashmap of all files in fslist.
// Includes nifty stuff like removing trailing dots and ignoring case.
for (Common::FSList::const_iterator file = fslist.begin(); file != fslist.end(); ++file) {
if (file->isDirectory()) {
Common::FSList files;
if (!directoryGlobs)
continue;
bool matched = false;
for (const char * const *glob = directoryGlobs; *glob; glob++)
if (file->getName().matchString(*glob, true)) {
matched = true;
break;
}
if (!matched)
continue;
if (!file->getChildren(files, Common::FSNode::kListAll))
continue;
composeFileHashMap(files, allFiles, depth - 1, directoryGlobs);
}
Common::String tstr = file->getName();
// Strip any trailing dot
if (tstr.lastChar() == '.')
tstr.deleteLastChar();
allFiles[tstr] = *file; // Record the presence of this file
}
}
void AdvancedMetaEngine::composeFileHashMap(FileMap &allFiles, const Common::FSList &fslist, int depth, const Common::String &parentName) const {
if (depth <= 0)
return;
if (fslist.empty())
return;
for (Common::FSList::const_iterator file = fslist.begin(); file != fslist.end(); ++file) {
Common::String tstr = (_matchFullPaths && !parentName.empty() ? parentName + "/" : "") + file->getName();
if (file->isDirectory()) {
Common::FSList files;
if (!_directoryGlobs)
continue;
bool matched = false;
for (const char * const *glob = _directoryGlobs; *glob; glob++)
if (file->getName().matchString(*glob, true)) {
matched = true;
break;
}
if (!matched)
continue;
if (!file->getChildren(files, Common::FSNode::kListAll))
continue;
composeFileHashMap(allFiles, files, depth - 1, tstr);
}
// Strip any trailing dot
if (tstr.lastChar() == '.')
tstr.deleteLastChar();
allFiles[tstr] = *file; // Record the presence of this file
}
}
Common::HashMap<Common::String, Score *> DirectorEngine::loadMMMNames(Common::String folder) {
Common::FSNode directory(folder);
Common::FSList movies;
Common::HashMap<Common::String, Score *> nameMap;
directory.getChildren(movies, Common::FSNode::kListFilesOnly);
if (!movies.empty()) {
for (Common::FSList::const_iterator i = movies.begin(); i != movies.end(); ++i) {
if (i->getName() == _sharedMMM) {
loadSharedCastsFrom(i->getPath());
continue;
}
RIFFArchive *arc = new RIFFArchive();
arc->openFile(i->getPath());
Score *sc = new Score(this);
nameMap[sc->getMacName()] = sc;
}
}
return nameMap;
}
void ThemeEngine::listUsableThemes(const Common::FSNode &node, Common::List<ThemeDescriptor> &list, int depth) {
if (!node.exists() || !node.isReadable() || !node.isDirectory())
return;
ThemeDescriptor td;
// Check whether we point to a valid theme directory.
if (themeConfigUsable(node, td.name)) {
td.filename = node.getPath();
td.id = node.getName();
list.push_back(td);
// A theme directory should never contain any other themes
// thus we just return to the caller here.
return;
}
Common::FSList fileList;
// Check all files. We need this to find all themes inside ZIP archives.
if (!node.getChildren(fileList, Common::FSNode::kListFilesOnly))
return;
for (Common::FSList::iterator i = fileList.begin(); i != fileList.end(); ++i) {
// We will only process zip files for now
if (!i->getPath().matchString("*.zip", true))
continue;
td.name.clear();
if (themeConfigUsable(*i, td.name)) {
td.filename = i->getPath();
td.id = i->getName();
// If the name of the node object also contains
// the ".zip" suffix, we will strip it.
if (td.id.matchString("*.zip", true)) {
for (int j = 0; j < 4; ++j)
td.id.deleteLastChar();
}
list.push_back(td);
}
}
fileList.clear();
// Check if we exceeded the given recursion depth
if (depth - 1 == -1)
return;
// As next step we will search all subdirectories
if (!node.getChildren(fileList, Common::FSNode::kListDirectoriesOnly))
return;
for (Common::FSList::iterator i = fileList.begin(); i != fileList.end(); ++i)
listUsableThemes(*i, list, depth == -1 ? - 1 : depth - 1);
}
Common::HashMap<Common::String, Score *> *DirectorEngine::scanMovies(const Common::String &folder) {
Common::FSNode directory(folder);
Common::FSList movies;
const char *sharedMMMname;
if (getPlatform() == Common::kPlatformWindows)
sharedMMMname = "SHARDCST.MMM";
else
sharedMMMname = "Shared Cast*";
Common::HashMap<Common::String, Score *> *nameMap = new Common::HashMap<Common::String, Score *>();
if (!directory.getChildren(movies, Common::FSNode::kListFilesOnly))
return nameMap;
if (!movies.empty()) {
for (Common::FSList::const_iterator i = movies.begin(); i != movies.end(); ++i) {
debugC(2, kDebugLoading, "File: %s", i->getName().c_str());
if (Common::matchString(i->getName().c_str(), sharedMMMname, true)) {
_sharedCastFile = i->getName();
continue;
}
Archive *arc = createArchive();
warning("name: %s", i->getName().c_str());
arc->openFile(i->getName());
Score *sc = new Score(this, arc);
nameMap->setVal(sc->getMacName(), sc);
debugC(2, kDebugLoading, "Movie name: \"%s\"", sc->getMacName().c_str());
}
}
return nameMap;
}
ADDetectedGame CGEMetaEngine::fallbackDetect(const FileMap &allFiles, const Common::FSList &fslist) const {
ADDetectedGame game = detectGameFilebased(allFiles, fslist, CGE::fileBasedFallback);
if (!game.desc)
return ADDetectedGame();
SearchMan.addDirectory("CGEMetaEngine::fallbackDetect", fslist.begin()->getParent());
ResourceManager *resman;
resman = new ResourceManager();
bool sayFileFound = resman->exist("CGE.SAY");
delete resman;
SearchMan.remove("CGEMetaEngine::fallbackDetect");
if (!sayFileFound)
return ADDetectedGame();
return game;
}
void JNI::getPluginDirectories(Common::FSList &dirs) {
JNIEnv *env = JNI::getEnv();
jobjectArray array =
(jobjectArray)env->CallObjectMethod(_jobj, _MID_getPluginDirectories);
if (env->ExceptionCheck()) {
LOGE("Error finding plugin directories");
env->ExceptionDescribe();
env->ExceptionClear();
return;
}
jsize size = env->GetArrayLength(array);
for (jsize i = 0; i < size; ++i) {
jstring path_obj = (jstring)env->GetObjectArrayElement(array, i);
if (path_obj == 0)
continue;
const char *path = env->GetStringUTFChars(path_obj, 0);
if (path == 0) {
LOGE("Error getting string characters from plugin directory");
env->ExceptionClear();
env->DeleteLocalRef(path_obj);
continue;
}
dirs.push_back(Common::FSNode(path));
env->ReleaseStringUTFChars(path_obj, path);
env->DeleteLocalRef(path_obj);
}
}
bool Sword25Engine::loadPackages() {
PackageManager *packageManagerPtr = Kernel::getInstance()->getPackage();
assert(packageManagerPtr);
// Load the main package
if (!packageManagerPtr->loadPackage("data.b25c", "/"))
return false;
// Get the contents of the main program directory and sort them alphabetically
Common::FSNode dir(ConfMan.get("path"));
Common::FSList files;
if (!dir.isDirectory() || !dir.getChildren(files, Common::FSNode::kListAll)) {
warning("Game data path does not exist or is not a directory");
return false;
}
Common::sort(files.begin(), files.end());
// Identify all patch packages
// The filename of patch packages must have the form patch??.b25c, with the question marks
// are placeholders for numbers.
// Since the filenames have been sorted, patches are mounted with low numbers first, through
// to ones with high numbers. This is important, because newly mount packages overwrite
// existing files in the virtual file system, if they include files with the same name.
for (Common::FSList::const_iterator it = files.begin(); it != files.end(); ++it) {
if (it->getName().matchString("patch???.b25c", true))
if (!packageManagerPtr->loadPackage(it->getName(), "/"))
return false;
}
// Identify and mount all language packages
// The filename of the packages have the form lang_*.b25c (eg. lang_de.b25c)
for (Common::FSList::const_iterator it = files.begin(); it != files.end(); ++it) {
if (it->getName().matchString("lang_*.b25c", true))
if (!packageManagerPtr->loadPackage(it->getName(), "/"))
return false;
}
return true;
}
Common::Error AdvancedMetaEngine::createInstance(OSystem *syst, Engine **engine) const {
assert(engine);
const ADGameDescription *agdDesc = 0;
Common::Language language = Common::UNK_LANG;
Common::Platform platform = Common::kPlatformUnknown;
Common::String extra;
if (ConfMan.hasKey("language"))
language = Common::parseLanguage(ConfMan.get("language"));
if (ConfMan.hasKey("platform"))
platform = Common::parsePlatform(ConfMan.get("platform"));
if (_flags & kADFlagUseExtraAsHint) {
if (ConfMan.hasKey("extra"))
extra = ConfMan.get("extra");
}
Common::String gameid = ConfMan.get("gameid");
Common::String path;
if (ConfMan.hasKey("path")) {
path = ConfMan.get("path");
} else {
path = ".";
// This situation may happen only when game was
// launched from a command line with wrong target and
// no path was provided.
//
// A dummy entry will get created and will keep game path
// We mark this entry, so it will not be added to the
// config file.
//
// Fixes bug #1544799
ConfMan.setBool("autoadded", true);
warning("No path was provided. Assuming the data files are in the current directory");
}
Common::FSNode dir(path);
Common::FSList files;
if (!dir.isDirectory() || !dir.getChildren(files, Common::FSNode::kListAll, true)) {
warning("Game data path does not exist or is not a directory (%s)", path.c_str());
return Common::kNoGameDataFoundError;
}
if (files.empty())
return Common::kNoGameDataFoundError;
// Compose a hashmap of all files in fslist.
FileMap allFiles;
composeFileHashMap(allFiles, files, (_maxScanDepth == 0 ? 1 : _maxScanDepth));
// Run the detector on this
ADGameDescList matches = detectGame(files.begin()->getParent(), allFiles, language, platform, extra);
if (cleanupPirated(matches))
return Common::kNoGameDataFoundError;
if (_singleId == NULL) {
// Find the first match with correct gameid.
for (uint i = 0; i < matches.size(); i++) {
if (matches[i]->gameId == gameid) {
agdDesc = matches[i];
break;
}
}
} else if (matches.size() > 0) {
agdDesc = matches[0];
}
if (agdDesc == 0) {
// Use fallback detector if there were no matches by other means
agdDesc = fallbackDetect(allFiles, files);
if (agdDesc != 0) {
// Seems we found a fallback match. But first perform a basic
// sanity check: the gameid must match.
if (_singleId == NULL && agdDesc->gameId != gameid)
agdDesc = 0;
}
}
if (agdDesc == 0)
return Common::kNoGameDataFoundError;
// If the GUI options were updated, we catch this here and update them in the users config
// file transparently.
Common::String lang = getGameGUIOptionsDescriptionLanguage(agdDesc->language);
if (agdDesc->flags & ADGF_ADDENGLISH)
lang += " " + getGameGUIOptionsDescriptionLanguage(Common::EN_ANY);
Common::updateGameGUIOptions(agdDesc->guiOptions + _guiOptions, lang);
GameDescriptor gameDescriptor = toGameDescriptor(*agdDesc, _gameIds);
bool showTestingWarning = false;
#ifdef RELEASE_BUILD
showTestingWarning = true;
#endif
if (((gameDescriptor.getSupportLevel() == kUnstableGame
|| (gameDescriptor.getSupportLevel() == kTestingGame
&& showTestingWarning)))
&& !Engine::warnUserAboutUnsupportedGame())
return Common::kUserCanceled;
debug(2, "Running %s", gameDescriptor.description().c_str());
initSubSystems(agdDesc);
if (!createInstance(syst, engine, agdDesc))
return Common::kNoGameDataFoundError;
else
return Common::kNoError;
}
bool FrotzMetaEngine::detectGames(const Common::FSList &fslist, DetectedGames &gameList) {
const char *const EXTENSIONS[] = { ".z1", ".z2", ".z3", ".z4", ".z5", ".z6", ".z7", ".z8",
".dat", ".zip", nullptr };
// Loop through the files of the folder
for (Common::FSList::const_iterator file = fslist.begin(); file != fslist.end(); ++file) {
// Check for a recognised filename
if (file->isDirectory())
continue;
Common::String filename = file->getName();
bool hasExt = Blorb::hasBlorbExt(filename), isBlorb = false;
for (const char *const *ext = &EXTENSIONS[0]; *ext && !hasExt; ++ext)
hasExt = filename.hasSuffixIgnoreCase(*ext);
if (!hasExt)
continue;
// Open up the file and calculate the md5, and get the serial
Common::File gameFile;
if (!gameFile.open(*file))
continue;
Common::String md5 = Common::computeStreamMD5AsString(gameFile, 5000);
size_t filesize = gameFile.size();
char serial[9] = "";
bool emptyBlorb = false;
gameFile.seek(0);
isBlorb = Blorb::isBlorb(gameFile, ID_ZCOD);
if (!isBlorb) {
if (Blorb::hasBlorbExt(filename)) {
gameFile.close();
continue;
}
gameFile.seek(18);
strcpy(&serial[0], "\"");
gameFile.read(&serial[1], 6);
strcpy(&serial[7], "\"");
} else {
Blorb b(*file, INTERPRETER_FROTZ);
Common::SeekableReadStream *f = b.createReadStreamForMember("game");
emptyBlorb = f == nullptr;
if (!emptyBlorb) {
f->seek(18);
strcpy(&serial[0], "\"");
f->read(&serial[1], 6);
strcpy(&serial[7], "\"");
delete f;
}
}
gameFile.close();
// Check for known games. Note that there has been some variation in exact filesizes
// for Infocom games due to padding at the end of files. So we match on md5s for the
// first 5Kb, and only worry about filesize for more recent Blorb based Zcode games
const FrotzGameDescription *p = FROTZ_GAMES;
while (p->_gameId && p->_md5 && (md5 != p->_md5 ||
(filesize != p->_filesize && isBlorb)))
++p;
DetectedGame gd;
if (!p->_gameId) {
// Generic .dat/.zip files don't get reported as matches unless they have a known md5
if (filename.hasSuffixIgnoreCase(".dat") || filename.hasSuffixIgnoreCase(".zip") || emptyBlorb)
continue;
if (gDebugLevel > 0) {
// Print an entry suitable for putting into the detection_tables.h, using the
// name of the parent folder the game is in as the presumed game Id
Common::String folderName = file->getParent().getName();
if (folderName.hasSuffix("\\"))
folderName.deleteLastChar();
Common::String fname = filename;
const char *dot = strchr(fname.c_str(), '.');
if (dot)
fname = Common::String(fname.c_str(), dot);
debug("ENTRY0(\"%s\", %s, \"%s\", %u),",
fname.c_str(), strlen(serial) ? serial : "nullptr", md5.c_str(), (uint)filesize);
}
const PlainGameDescriptor &desc = ZCODE_GAME_LIST[0];
gd = DetectedGame(desc.gameId, desc.description, Common::UNK_LANG, Common::kPlatformUnknown);
} else {
GameDescriptor gameDesc = findGame(p->_gameId);
gd = DetectedGame(p->_gameId, gameDesc._description, p->_language, Common::kPlatformUnknown, p->_extra);
gd.setGUIOptions(p->_guiOptions);
}
gd.addExtraEntry("filename", filename);
gameList.push_back(gd);
}
return !gameList.empty();
}
static ADGameDescList detectGame(const Common::FSList &fslist, const ADParams ¶ms, Common::Language language, Common::Platform platform, const Common::String &extra) {
FileMap allFiles;
SizeMD5Map filesSizeMD5;
const ADGameFileDescription *fileDesc;
const ADGameDescription *g;
const byte *descPtr;
if (fslist.empty())
return ADGameDescList();
Common::FSNode parent = fslist.begin()->getParent();
debug(3, "Starting detection in dir '%s'", parent.getPath().c_str());
// First we compose a hashmap of all files in fslist.
// Includes nifty stuff like removing trailing dots and ignoring case.
composeFileHashMap(fslist, allFiles, (params.depth == 0 ? 1 : params.depth), params.directoryGlobs);
// Check which files are included in some ADGameDescription *and* present
// in fslist. Compute MD5s and file sizes for these files.
for (descPtr = params.descs; ((const ADGameDescription *)descPtr)->gameid != 0; descPtr += params.descItemSize) {
g = (const ADGameDescription *)descPtr;
for (fileDesc = g->filesDescriptions; fileDesc->fileName; fileDesc++) {
Common::String fname = fileDesc->fileName;
SizeMD5 tmp;
if (filesSizeMD5.contains(fname))
continue;
// FIXME/TODO: We don't handle the case that a file is listed as a regular
// file and as one with resource fork.
if (g->flags & ADGF_MACRESFORK) {
Common::MacResManager *macResMan = new Common::MacResManager();
if (macResMan->open(parent, fname)) {
tmp.md5 = macResMan->computeResForkMD5AsString(params.md5Bytes);
tmp.size = macResMan->getResForkDataSize();
debug(3, "> '%s': '%s'", fname.c_str(), tmp.md5.c_str());
filesSizeMD5[fname] = tmp;
}
delete macResMan;
} else {
if (allFiles.contains(fname)) {
debug(3, "+ %s", fname.c_str());
Common::File testFile;
if (testFile.open(allFiles[fname])) {
tmp.size = (int32)testFile.size();
tmp.md5 = Common::computeStreamMD5AsString(testFile, params.md5Bytes);
} else {
tmp.size = -1;
}
debug(3, "> '%s': '%s'", fname.c_str(), tmp.md5.c_str());
filesSizeMD5[fname] = tmp;
}
}
}
}
ADGameDescList matched;
int maxFilesMatched = 0;
bool gotAnyMatchesWithAllFiles = false;
// MD5 based matching
uint i;
for (i = 0, descPtr = params.descs; ((const ADGameDescription *)descPtr)->gameid != 0; descPtr += params.descItemSize, ++i) {
g = (const ADGameDescription *)descPtr;
bool fileMissing = false;
// Do not even bother to look at entries which do not have matching
// language and platform (if specified).
if ((language != Common::UNK_LANG && g->language != Common::UNK_LANG && g->language != language
&& !(language == Common::EN_ANY && (g->flags & ADGF_ADDENGLISH))) ||
(platform != Common::kPlatformUnknown && g->platform != Common::kPlatformUnknown && g->platform != platform)) {
continue;
}
if ((params.flags & kADFlagUseExtraAsHint) && !extra.empty() && g->extra != extra)
continue;
bool allFilesPresent = true;
int curFilesMatched = 0;
// Try to match all files for this game
for (fileDesc = g->filesDescriptions; fileDesc->fileName; fileDesc++) {
Common::String tstr = fileDesc->fileName;
if (!filesSizeMD5.contains(tstr)) {
fileMissing = true;
allFilesPresent = false;
break;
}
if (fileDesc->md5 != NULL && fileDesc->md5 != filesSizeMD5[tstr].md5) {
debug(3, "MD5 Mismatch. Skipping (%s) (%s)", fileDesc->md5, filesSizeMD5[tstr].md5.c_str());
fileMissing = true;
break;
}
if (fileDesc->fileSize != -1 && fileDesc->fileSize != filesSizeMD5[tstr].size) {
debug(3, "Size Mismatch. Skipping");
fileMissing = true;
break;
}
debug(3, "Matched file: %s", tstr.c_str());
curFilesMatched++;
}
// We found at least one entry with all required files present.
// That means that we got new variant of the game.
//
// Without this check we would have erroneous checksum display
// where only located files will be enlisted.
//
// Potentially this could rule out variants where some particular file
// is really missing, but the developers should better know about such
// cases.
if (allFilesPresent)
gotAnyMatchesWithAllFiles = true;
if (!fileMissing) {
debug(2, "Found game: %s (%s %s/%s) (%d)", g->gameid, g->extra,
getPlatformDescription(g->platform), getLanguageDescription(g->language), i);
if (curFilesMatched > maxFilesMatched) {
debug(2, " ... new best match, removing all previous candidates");
maxFilesMatched = curFilesMatched;
matched.clear(); // Remove any prior, lower ranked matches.
matched.push_back(g);
} else if (curFilesMatched == maxFilesMatched) {
matched.push_back(g);
} else {
debug(2, " ... skipped");
}
} else {
debug(5, "Skipping game: %s (%s %s/%s) (%d)", g->gameid, g->extra,
getPlatformDescription(g->platform), getLanguageDescription(g->language), i);
}
}
// We didn't find a match
if (matched.empty()) {
if (!filesSizeMD5.empty() && gotAnyMatchesWithAllFiles) {
reportUnknown(parent, filesSizeMD5);
}
// Filename based fallback
if (params.fileBasedFallback != 0)
matched = detectGameFilebased(allFiles, params);
}
return matched;
}
void MassAddDialog::handleTickle() {
if (_scanStack.empty())
return; // We have finished scanning
uint32 t = g_system->getMillis();
// Perform a breadth-first scan of the filesystem.
while (!_scanStack.empty() && (g_system->getMillis() - t) < kMaxScanTime) {
Common::FSNode dir = _scanStack.pop();
Common::FSList files;
if (!dir.getChildren(files, Common::FSNode::kListAll)) {
continue;
}
// Run the detector on the dir
GameList candidates(EngineMan.detectGames(files));
// Just add all detected games / game variants. If we get more than one,
// that either means the directory contains multiple games, or the detector
// could not fully determine which game variant it was seeing. In either
// case, let the user choose which entries he wants to keep.
//
// However, we only add games which are not already in the config file.
for (GameList::const_iterator cand = candidates.begin(); cand != candidates.end(); ++cand) {
GameDescriptor result = *cand;
Common::String path = dir.getPath();
// Remove trailing slashes
while (path != "/" && path.lastChar() == '/')
path.deleteLastChar();
// Check for existing config entries for this path/gameid/lang/platform combination
if (_pathToTargets.contains(path)) {
bool duplicate = false;
const StringArray &targets = _pathToTargets[path];
for (StringArray::const_iterator iter = targets.begin(); iter != targets.end(); ++iter) {
// If the gameid, platform and language match -> skip it
Common::ConfigManager::Domain *dom = ConfMan.getDomain(*iter);
assert(dom);
if ((*dom)["gameid"] == result["gameid"] &&
(*dom)["platform"] == result["platform"] &&
(*dom)["language"] == result["language"]) {
duplicate = true;
break;
}
}
if (duplicate) {
_oldGamesCount++;
break; // Skip duplicates
}
}
result["path"] = path;
_games.push_back(result);
_list->append(result.description());
}
// Recurse into all subdirs
for (Common::FSList::const_iterator file = files.begin(); file != files.end(); ++file) {
if (file->isDirectory()) {
_scanStack.push(*file);
}
}
_dirsScanned++;
}
// Update the dialog
Common::String buf;
if (_scanStack.empty()) {
// Enable the OK button
_okButton->setEnabled(true);
buf = _("Scan complete!");
_dirProgressText->setLabel(buf);
buf = Common::String::format(_("Discovered %d new games, ignored %d previously added games."), _games.size(), _oldGamesCount);
_gameProgressText->setLabel(buf);
} else {
buf = Common::String::format(_("Scanned %d directories ..."), _dirsScanned);
_dirProgressText->setLabel(buf);
buf = Common::String::format(_("Discovered %d new games, ignored %d previously added games ..."), _games.size(), _oldGamesCount);
_gameProgressText->setLabel(buf);
}
if (_games.size() > 0) {
_list->scrollToEnd();
}
drawDialog();
}
/**
* Fallback detection scans the list of Discworld 2 targets to see if it can detect an installation
* where the files haven't been renamed (i.e. don't have the '1' just before the extension)
*/
const ADGameDescription *TinselMetaEngine::fallbackDetect(const Common::FSList &fslist) const {
Common::String extra;
FileMap allFiles;
SizeMD5Map filesSizeMD5;
const ADGameFileDescription *fileDesc;
const Tinsel::TinselGameDescription *g;
if (fslist.empty())
return NULL;
// TODO: The following code is essentially a slightly modified copy of the
// complete code of function detectGame() in engines/advancedDetector.cpp.
// That quite some hefty and undesirable code duplication. Its only purpose
// seems to be to treat filenames of the form "foo1.ext" as "foo.ext".
// It would be nice to avoid this code duplication.
// First we compose a hashmap of all files in fslist.
for (Common::FSList::const_iterator file = fslist.begin(); file != fslist.end(); ++file) {
if (file->isDirectory()) {
if (!scumm_stricmp(file->getName().c_str(), "dw2")) {
// Probably Discworld 2 subfolder on CD, so add it's contents as well
Common::FSList files;
if (file->getChildren(files, Common::FSNode::kListAll)) {
Common::FSList::const_iterator file2;
for (file2 = files.begin(); file2 != files.end(); ++file2) {
if (file2->isDirectory())
continue;
Common::String fname = file2->getName();
allFiles[fname] = *file2;
}
}
}
continue;
}
Common::String tstr = file->getName();
allFiles[tstr] = *file; // Record the presence of this file
}
// Check which files are included in some dw2 ADGameDescription *and* present
// in fslist without a '1' suffix character. Compute MD5s and file sizes for these files.
for (g = &Tinsel::gameDescriptions[0]; g->desc.gameid != 0; ++g) {
if (strcmp(g->desc.gameid, "dw2") != 0)
continue;
for (fileDesc = g->desc.filesDescriptions; fileDesc->fileName; fileDesc++) {
// Get the next filename, stripping off any '1' suffix character
char tempFilename[50];
strcpy(tempFilename, fileDesc->fileName);
char *pOne = strchr(tempFilename, '1');
if (pOne) {
do {
*pOne = *(pOne + 1);
pOne++;
} while (*pOne);
}
Common::String fname(tempFilename);
if (allFiles.contains(fname) && !filesSizeMD5.contains(fname)) {
SizeMD5 tmp;
Common::File testFile;
if (testFile.open(allFiles[fname])) {
tmp.size = (int32)testFile.size();
tmp.md5 = computeStreamMD5AsString(testFile, detectionParams.md5Bytes);
} else {
tmp.size = -1;
}
filesSizeMD5[fname] = tmp;
}
}
}
ADGameDescList matched;
int maxFilesMatched = 0;
// MD5 based matching
for (g = &Tinsel::gameDescriptions[0]; g->desc.gameid != 0; ++g) {
if (strcmp(g->desc.gameid, "dw2") != 0)
continue;
bool fileMissing = false;
if ((detectionParams.flags & kADFlagUseExtraAsHint) && !extra.empty() && g->desc.extra != extra)
continue;
bool allFilesPresent = true;
// Try to match all files for this game
for (fileDesc = g->desc.filesDescriptions; fileDesc->fileName; fileDesc++) {
// Get the next filename, stripping off any '1' suffix character
char tempFilename[50];
strcpy(tempFilename, fileDesc->fileName);
char *pOne = strchr(tempFilename, '1');
if (pOne) {
do {
*pOne = *(pOne + 1);
pOne++;
} while (*pOne);
}
Common::String tstr(tempFilename);
if (!filesSizeMD5.contains(tstr)) {
fileMissing = true;
allFilesPresent = false;
break;
}
if (fileDesc->md5 != NULL && fileDesc->md5 != filesSizeMD5[tstr].md5) {
fileMissing = true;
break;
}
if (fileDesc->fileSize != -1 && fileDesc->fileSize != filesSizeMD5[tstr].size) {
fileMissing = true;
break;
}
}
if (!fileMissing) {
// Count the number of matching files. Then, only keep those
// entries which match a maximal amount of files.
int curFilesMatched = 0;
for (fileDesc = g->desc.filesDescriptions; fileDesc->fileName; fileDesc++)
curFilesMatched++;
if (curFilesMatched > maxFilesMatched) {
maxFilesMatched = curFilesMatched;
matched.clear(); // Remove any prior, lower ranked matches.
matched.push_back((const ADGameDescription *)g);
} else if (curFilesMatched == maxFilesMatched) {
matched.push_back((const ADGameDescription *)g);
}
}
}
// We didn't find a match
if (matched.empty())
return NULL;
return *matched.begin();
}
GameList detectGamesImpl(const Common::FSList &fslist, bool recursion = false) {
GameList detectedGames;
const Sword2::GameSettings *g;
Common::FSList::const_iterator file;
bool isFullVersion = isFullGame(fslist);
for (g = Sword2::sword2_settings; g->gameid; ++g) {
// Iterate over all files in the given directory
for (file = fslist.begin(); file != fslist.end(); ++file) {
if (!file->isDirectory()) {
// The required game data files can be located in the game directory, or in
// a subdirectory called "clusters". In the latter case, we don't want to
// detect the game in that subdirectory, as this will detect the game twice
// when mass add is searching inside a directory. In this case, the first
// result (the game directory) will be correct, but the second result (the
// clusters subdirectory) will be wrong, as the optional speech, music and
// video data files will be ignored. Note that this fix will skip the game
// data files if the user has placed them inside a "clusters" subdirectory,
// or if he/she points ScummVM directly to the "clusters" directory of the
// game CD. Fixes bug #3049336.
Common::String directory = file->getParent().getName();
directory.toLowercase();
if (directory.hasPrefix("clusters") && directory.size() <= 9 && !recursion)
continue;
if (file->getName().equalsIgnoreCase(g->detectname)) {
// Make sure that the sword2 demo is not mixed up with the
// full version, since they use the same filename for detection
if ((g->features == Sword2::GF_DEMO && isFullVersion) ||
(g->features == 0 && !isFullVersion))
continue;
// Match found, add to list of candidates, then abort inner loop.
detectedGames.push_back(GameDescriptor(g->gameid, g->description, Common::UNK_LANG, Common::kPlatformUnknown, GUIO2(GUIO_NOMIDI, GUIO_NOASPECT)));
break;
}
}
}
}
if (detectedGames.empty()) {
// Nothing found -- try to recurse into the 'clusters' subdirectory,
// present e.g. if the user copied the data straight from CD.
for (file = fslist.begin(); file != fslist.end(); ++file) {
if (file->isDirectory()) {
if (file->getName().equalsIgnoreCase("clusters")) {
Common::FSList recList;
if (file->getChildren(recList, Common::FSNode::kListAll)) {
GameList recGames(detectGamesImpl(recList, true));
if (!recGames.empty()) {
detectedGames.push_back(recGames);
break;
}
}
}
}
}
}
return detectedGames;
}