/* * Copyright 2016 The Cartographer Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef CARTOGRAPHER_MAPPING_3D_SUBMAP_3D_H_ #define CARTOGRAPHER_MAPPING_3D_SUBMAP_3D_H_ #include #include #include #include "Eigen/Geometry" #include "cartographer/common/port.h" #include "cartographer/mapping/id.h" #include "cartographer/mapping/proto/serialization.pb.h" #include "cartographer/mapping/proto/submap_visualization.pb.h" #include "cartographer/mapping/submaps.h" #include "cartographer/mapping_3d/hybrid_grid.h" #include "cartographer/mapping_3d/proto/submaps_options_3d.pb.h" #include "cartographer/mapping_3d/range_data_inserter_3d.h" #include "cartographer/sensor/range_data.h" #include "cartographer/transform/rigid_transform.h" #include "cartographer/transform/transform.h" namespace cartographer { namespace mapping { proto::SubmapsOptions3D CreateSubmapsOptions3D( common::LuaParameterDictionary* parameter_dictionary); class Submap3D : public Submap { public: Submap3D(float high_resolution, float low_resolution, const transform::Rigid3d& local_submap_pose); explicit Submap3D(const proto::Submap3D& proto); void ToProto(proto::Submap* proto, bool include_probability_grid_data) const override; void UpdateFromProto(const proto::Submap& proto) override; void ToResponseProto(const transform::Rigid3d& global_submap_pose, proto::SubmapQuery::Response* response) const override; const HybridGrid& high_resolution_hybrid_grid() const { return *high_resolution_hybrid_grid_; } const HybridGrid& low_resolution_hybrid_grid() const { return *low_resolution_hybrid_grid_; } // Insert 'range_data' into this submap using 'range_data_inserter'. The // submap must not be finished yet. void InsertRangeData(const sensor::RangeData& range_data, const RangeDataInserter3D& range_data_inserter, int high_resolution_max_range); void Finish(); private: std::unique_ptr high_resolution_hybrid_grid_; std::unique_ptr low_resolution_hybrid_grid_; }; // Except during initialization when only a single submap exists, there are // always two submaps into which range data is inserted: an old submap that is // used for matching, and a new one, which will be used for matching next, that // is being initialized. // // Once a certain number of range data have been inserted, the new submap is // considered initialized: the old submap is no longer changed, the "new" submap // is now the "old" submap and is used for scan-to-map matching. Moreover, a // "new" submap gets created. The "old" submap is forgotten by this object. class ActiveSubmaps3D { public: explicit ActiveSubmaps3D(const proto::SubmapsOptions3D& options); ActiveSubmaps3D(const ActiveSubmaps3D&) = delete; ActiveSubmaps3D& operator=(const ActiveSubmaps3D&) = delete; // Returns the index of the newest initialized Submap which can be // used for scan-to-map matching. int matching_index() const; // Inserts 'range_data' into the Submap collection. 'gravity_alignment' is // used for the orientation of new submaps so that the z axis approximately // aligns with gravity. void InsertRangeData(const sensor::RangeData& range_data, const Eigen::Quaterniond& gravity_alignment); std::vector> submaps() const; private: void AddSubmap(const transform::Rigid3d& local_submap_pose); const proto::SubmapsOptions3D options_; int matching_submap_index_ = 0; std::vector> submaps_; RangeDataInserter3D range_data_inserter_; }; } // namespace mapping } // namespace cartographer #endif // CARTOGRAPHER_MAPPING_3D_SUBMAP_3D_H_