namespace dkh { template dk::Tyler map_load (C& parFileOpener, const std::string& parOpen) { dk::BaseMapSource* reader = parFileOpener(parOpen); dk::Tyler tyler(reader->tileSize()); tyler.template push_layer(reader); std::vector submaps; reader->chainedMaps(submaps); for (const auto& name : submaps) { map_load(tyler, parFileOpener, name); } return std::move(tyler); } template dk::Tyler& map_load (dk::Tyler& parTyler, C& parFileOpener, const std::string& parOpen) { std::stack> name_stack; std::vector submaps; name_stack.push(parOpen); do { dk::BaseMapSource* reader = parFileOpener(name_stack.top()); name_stack.pop(); submaps.clear(); reader->chainedMaps(submaps); for (auto&& curr_name : submaps) { name_stack.emplace(std::move(curr_name)); } parTyler.template push_layer(reader); } while (not name_stack.empty()); return parTyler; } template dk::BaseMapSource* MapLoaderPool::operator() (const std::string& parName) { auto it_found = pool.find(parName); if (pool.end() != it_found) { return it_found->second.get(); } else { std::pair new_item = pool.insert(std::make_pair(parName, BaseMapSourceUPtr(nullptr))); DK_ASSERT(new_item.second); new_item.first->second.reset(opener(parName)); return new_item.first->second.get(); } } template dk::Tyler call_map_load (M& parFileOpener, const std::string& parOpen) { return map_load(parFileOpener, parOpen); } template dk::Tyler call_map_load (dk::Tyler& parTyler, M& parFileOpener, const std::string& parOpen) { return map_load(parTyler, parFileOpener, parOpen); } } //namespace dkh