#include "StdInc.h" #include "AdapterLoaders.h" #include "../JsonNode.h" #include "Filesystem.h" CMappedFileLoader::CMappedFileLoader(const std::string & mountPoint, const JsonNode &config) { for(auto entry : config.Struct()) { fileList[ResourceID(mountPoint + entry.first)] = ResourceID(mountPoint + entry.second.String()); } } std::unique_ptr CMappedFileLoader::load(const ResourceID & resourceName) const { return CResourceHandler::get()->load(fileList.at(resourceName)); } bool CMappedFileLoader::existsResource(const ResourceID & resourceName) const { return fileList.count(resourceName) != 0; } std::string CMappedFileLoader::getMountPoint() const { return ""; // does not have any meaning with this type of data source } boost::optional CMappedFileLoader::getResourceName(const ResourceID & resourceName) const { return CResourceHandler::get()->getResourceName(fileList.at(resourceName)); } std::unordered_set CMappedFileLoader::getFilteredFiles(std::function filter) const { std::unordered_set foundID; for (auto & file : fileList) { if (filter(file.first)) foundID.insert(file.first); } return foundID; } CFilesystemList::CFilesystemList() { //loaders = new std::vector >; } CFilesystemList::~CFilesystemList() { //delete loaders; } std::unique_ptr CFilesystemList::load(const ResourceID & resourceName) const { // load resource from last loader that have it (last overriden version) for (auto & loader : boost::adaptors::reverse(loaders)) { if (loader->existsResource(resourceName)) return loader->load(resourceName); } throw std::runtime_error("Resource with name " + resourceName.getName() + " and type " + EResTypeHelper::getEResTypeAsString(resourceName.getType()) + " wasn't found."); } bool CFilesystemList::existsResource(const ResourceID & resourceName) const { for (auto & loader : loaders) if (loader->existsResource(resourceName)) return true; return false; } std::string CFilesystemList::getMountPoint() const { return ""; } boost::optional CFilesystemList::getResourceName(const ResourceID & resourceName) const { if (existsResource(resourceName)) return getResourcesWithName(resourceName).back()->getResourceName(resourceName); return boost::optional(); } std::unordered_set CFilesystemList::getFilteredFiles(std::function filter) const { std::unordered_set ret; for (auto & loader : loaders) for (auto & entry : loader->getFilteredFiles(filter)) ret.insert(entry); return ret; } bool CFilesystemList::createResource(std::string filename, bool update) { logGlobal->traceStream()<< "Creating " << filename; for (auto & loader : boost::adaptors::reverse(loaders)) { if (writeableLoaders.count(loader.get()) != 0 // writeable, && loader->createResource(filename, update)) // successfully created { // Check if resource was created successfully. Possible reasons for this to fail // a) loader failed to create resource (e.g. read-only FS) // b) in update mode, call with filename that does not exists assert(load(ResourceID(filename))); logGlobal->traceStream()<< "Resource created successfully"; return true; } } logGlobal->traceStream()<< "Failed to create resource"; return false; } std::vector CFilesystemList::getResourcesWithName(const ResourceID & resourceName) const { std::vector ret; for (auto & loader : loaders) boost::range::copy(loader->getResourcesWithName(resourceName), std::back_inserter(ret)); return ret; } void CFilesystemList::addLoader(ISimpleResourceLoader * loader, bool writeable) { loaders.push_back(std::unique_ptr(loader)); if (writeable) writeableLoaders.insert(loader); }