DoorKeeper/include/doorkeeper/implem/maploader.inl

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namespace dkh {
template <typename T, uint32_t D, typename C>
dk::Tyler<D> map_load (C& parFileOpener, const std::string& parOpen) {
dk::BaseMapSource<D>* reader = parFileOpener(parOpen);
dk::Tyler<D> tyler(reader->tileSize());
tyler.template push_layer<T>(reader);
std::vector<std::string> submaps;
reader->chainedMaps(submaps);
for (const auto& name : submaps) {
map_load<T, D, C>(tyler, parFileOpener, name);
}
return std::move(tyler);
}
template <typename T, uint32_t D, typename C>
dk::Tyler<D>& map_load (dk::Tyler<D>& parTyler, C& parFileOpener, const std::string& parOpen) {
std::stack<std::string, std::vector<std::string>> name_stack;
std::vector<std::string> submaps;
name_stack.push(parOpen);
do {
dk::BaseMapSource<D>* 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<T>(reader);
} while (not name_stack.empty());
return parTyler;
}
template <typename T, uint32_t D, typename C>
dk::BaseMapSource<D>* MapLoaderPool<T, D, C>::operator() (const std::string& parName) {
auto it_found = pool.find(parName);
if (pool.end() != it_found) {
return it_found->second.get();
}
else {
std::pair<typename PoolMapType::iterator, bool> 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 <typename M>
dk::Tyler<M::dimensions> call_map_load (M& parFileOpener, const std::string& parOpen) {
return map_load<typename M::tile_type, M::dimensions, M>(parFileOpener, parOpen);
}
template <typename M>
dk::Tyler<M::dimensions> call_map_load (dk::Tyler<M::dimensions>& parTyler, M& parFileOpener, const std::string& parOpen) {
return map_load<typename M::tile_type, M::dimensions, M>(parTyler, parFileOpener, parOpen);
}
} //namespace dkh