/* * Copyright 2018 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. */ #include "cartographer_grpc/internal/map_builder_context.h" #include "cartographer_grpc/internal/map_builder_server.h" namespace cartographer { namespace cloud { MapBuilderContext::MapBuilderContext(MapBuilderServer* map_builder_server) : map_builder_server_(map_builder_server) {} mapping::MapBuilderInterface& MapBuilderContext::map_builder() { return *map_builder_server_->map_builder_; } common::BlockingQueue>& MapBuilderContext::sensor_data_queue() { return map_builder_server_->incoming_data_queue_; } mapping::TrajectoryBuilderInterface::LocalSlamResultCallback MapBuilderContext::GetLocalSlamResultCallbackForSubscriptions() { MapBuilderServer* map_builder_server = map_builder_server_; return [map_builder_server]( int trajectory_id, common::Time time, transform::Rigid3d local_pose, sensor::RangeData range_data, std::unique_ptr< const mapping::TrajectoryBuilderInterface::InsertionResult> insertion_result) { map_builder_server->OnLocalSlamResult(trajectory_id, time, local_pose, std::move(range_data), std::move(insertion_result)); }; } void MapBuilderContext::AddSensorDataToTrajectory(const Data& sensor_data) { sensor_data.data->AddToTrajectoryBuilder( map_builder_server_->map_builder_->GetTrajectoryBuilder( sensor_data.trajectory_id)); } MapBuilderContextInterface::SubscriptionId MapBuilderContext::SubscribeLocalSlamResults( int trajectory_id, LocalSlamSubscriptionCallback callback) { return map_builder_server_->SubscribeLocalSlamResults(trajectory_id, callback); } void MapBuilderContext::UnsubscribeLocalSlamResults( const SubscriptionId& subscription_id) { map_builder_server_->UnsubscribeLocalSlamResults(subscription_id); } void MapBuilderContext::NotifyFinishTrajectory(int trajectory_id) { map_builder_server_->NotifyFinishTrajectory(trajectory_id); } std::shared_ptr MapBuilderContext::UpdateSubmap2D( const mapping::proto::Submap& proto) { CHECK(proto.has_submap_2d()); mapping::SubmapId submap_id{proto.submap_id().trajectory_id(), proto.submap_id().submap_index()}; std::shared_ptr submap_2d_ptr; auto submap_it = unfinished_submaps_.find(submap_id); if (submap_it == unfinished_submaps_.end()) { // Seeing a submap for the first time it should never be finished. CHECK(!proto.submap_2d().finished()); submap_2d_ptr = std::make_shared(proto.submap_2d()); unfinished_submaps_.Insert(submap_id, submap_2d_ptr); } else { submap_2d_ptr = std::dynamic_pointer_cast(submap_it->data); CHECK(submap_2d_ptr); submap_2d_ptr->UpdateFromProto(proto); // If the submap was just finished by the recent update, remove it from the // list of unfinished submaps. if (submap_2d_ptr->finished()) { unfinished_submaps_.Trim(submap_id); } else { // If the submap is unfinished set the 'num_range_data' to 0 since we // haven't changed the HybridGrid. submap_2d_ptr->SetNumRangeData(0); } } return submap_2d_ptr; } std::shared_ptr MapBuilderContext::UpdateSubmap3D( const mapping::proto::Submap& proto) { CHECK(proto.has_submap_3d()); mapping::SubmapId submap_id{proto.submap_id().trajectory_id(), proto.submap_id().submap_index()}; std::shared_ptr submap_3d_ptr; auto submap_it = unfinished_submaps_.find(submap_id); if (submap_it == unfinished_submaps_.end()) { // Seeing a submap for the first time it should never be finished. CHECK(!proto.submap_3d().finished()); submap_3d_ptr = std::make_shared(proto.submap_3d()); unfinished_submaps_.Insert(submap_id, submap_3d_ptr); submap_it = unfinished_submaps_.find(submap_id); } else { submap_3d_ptr = std::dynamic_pointer_cast(submap_it->data); CHECK(submap_3d_ptr); // Update submap with information in incoming request. submap_3d_ptr->UpdateFromProto(proto); // If the submap was just finished by the recent update, remove it from the // list of unfinished submaps. if (submap_3d_ptr->finished()) { unfinished_submaps_.Trim(submap_id); } else { // If the submap is unfinished set the 'num_range_data' to 0 since we // haven't changed the HybridGrid. submap_3d_ptr->SetNumRangeData(0); } } return submap_3d_ptr; } std::unique_ptr MapBuilderContext::ProcessLocalSlamResultData( const std::string& sensor_id, common::Time time, const mapping::proto::LocalSlamResultData& proto) { CHECK_GE(proto.submaps().size(), 1); CHECK(proto.submaps(0).has_submap_2d() || proto.submaps(0).has_submap_3d()); if (proto.submaps(0).has_submap_2d()) { std::vector> submaps; for (const auto& submap_proto : proto.submaps()) { submaps.push_back(UpdateSubmap2D(submap_proto)); } return common::make_unique( sensor_id, time, std::make_shared( mapping::FromProto(proto.node_data())), submaps); } else { std::vector> submaps; for (const auto& submap_proto : proto.submaps()) { submaps.push_back(UpdateSubmap3D(submap_proto)); } return common::make_unique( sensor_id, time, std::make_shared( mapping::FromProto(proto.node_data())), std::move(submaps)); } } LocalTrajectoryUploaderInterface* MapBuilderContext::local_trajectory_uploader() { return map_builder_server_->local_trajectory_uploader_.get(); } void MapBuilderContext::EnqueueSensorData(int trajectory_id, std::unique_ptr data) { map_builder_server_->incoming_data_queue_.Push( common::make_unique(Data{trajectory_id, std::move(data)})); } void MapBuilderContext::EnqueueLocalSlamResultData( int trajectory_id, const std::string& sensor_id, std::unique_ptr local_slam_result_data) { map_builder_server_->incoming_data_queue_.Push(common::make_unique( Data{trajectory_id, std::move(local_slam_result_data)})); } } // namespace cloud } // namespace cartographer