Sebastian Klose 2018-05-28 23:49:21 +02:00 committed by Alexander Belyaev
parent 405c0e17e8
commit 1d050ede3f
2 changed files with 252 additions and 0 deletions

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/*
* 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/io/internal/mapping_state_serialization.h"
#include "cartographer/mapping/proto/serialization.pb.h"
#include "cartographer/transform/transform.h"
namespace cartographer {
namespace io {
namespace {
using mapping::MapById;
using mapping::NodeId;
using mapping::PoseGraphInterface;
using mapping::SubmapId;
using mapping::TrajectoryNode;
using mapping::proto::SerializedData;
mapping::proto::AllTrajectoryBuilderOptions
CreateAllTrajectoryBuilderOptionsProto(
const std::vector<mapping::proto::TrajectoryBuilderOptionsWithSensorIds>&
all_options_with_sensor_ids) {
mapping::proto::AllTrajectoryBuilderOptions all_options_proto;
for (const auto& options_with_sensor_ids : all_options_with_sensor_ids) {
*all_options_proto.add_options_with_sensor_ids() = options_with_sensor_ids;
}
CHECK_EQ(all_options_with_sensor_ids.size(),
all_options_proto.options_with_sensor_ids_size());
return all_options_proto;
}
mapping::proto::SerializationHeader CreateHeader() {
mapping::proto::SerializationHeader header;
header.set_format_version(kMappingStateSerializationFormatVersion);
return header;
}
SerializedData SerializePoseGraph(const mapping::PoseGraph& pose_graph) {
SerializedData proto;
*proto.mutable_pose_graph() = pose_graph.ToProto();
return proto;
}
SerializedData SerializeAllTrajectoryBuilderOptions(
const std::vector<mapping::proto::TrajectoryBuilderOptionsWithSensorIds>&
trajectory_builder_options) {
SerializedData proto;
*proto.mutable_all_trajectory_builder_options() =
CreateAllTrajectoryBuilderOptionsProto(trajectory_builder_options);
return proto;
}
void SerializeSubmaps(
const MapById<SubmapId, PoseGraphInterface::SubmapData>& submap_data,
ProtoStreamWriterInterface* const writer) {
SerializedData proto;
// Next serialize all submaps.
for (const auto& submap_id_data : submap_data) {
auto* const submap_proto = proto.mutable_submap();
submap_proto->mutable_submap_id()->set_trajectory_id(
submap_id_data.id.trajectory_id);
submap_proto->mutable_submap_id()->set_submap_index(
submap_id_data.id.submap_index);
submap_id_data.data.submap->ToProto(submap_proto,
/*include_probability_grid_data=*/true);
writer->WriteProto(proto);
}
}
void SerializeTrajectoryNodes(
const MapById<NodeId, TrajectoryNode>& trajectory_nodes,
ProtoStreamWriterInterface* const writer) {
SerializedData proto;
for (const auto& node_id_data : trajectory_nodes) {
auto* const node_proto = proto.mutable_node();
node_proto->mutable_node_id()->set_trajectory_id(
node_id_data.id.trajectory_id);
node_proto->mutable_node_id()->set_node_index(node_id_data.id.node_index);
*node_proto->mutable_node_data() =
ToProto(*node_id_data.data.constant_data);
writer->WriteProto(proto);
}
}
void SerializeTrajectoryData(
const std::map<int, PoseGraphInterface::TrajectoryData>&
all_trajectory_data,
ProtoStreamWriterInterface* const writer) {
SerializedData proto;
for (const auto& trajectory_data : all_trajectory_data) {
auto* const trajectory_data_proto = proto.mutable_trajectory_data();
trajectory_data_proto->set_trajectory_id(trajectory_data.first);
trajectory_data_proto->set_gravity_constant(
trajectory_data.second.gravity_constant);
*trajectory_data_proto->mutable_imu_calibration() = transform::ToProto(
Eigen::Quaterniond(trajectory_data.second.imu_calibration[0],
trajectory_data.second.imu_calibration[1],
trajectory_data.second.imu_calibration[2],
trajectory_data.second.imu_calibration[3]));
if (trajectory_data.second.fixed_frame_origin_in_map.has_value()) {
*trajectory_data_proto->mutable_fixed_frame_origin_in_map() =
transform::ToProto(
trajectory_data.second.fixed_frame_origin_in_map.value());
}
writer->WriteProto(proto);
}
}
void SerializeImuData(const sensor::MapByTime<sensor::ImuData>& all_imu_data,
ProtoStreamWriterInterface* const writer) {
SerializedData proto;
for (const int trajectory_id : all_imu_data.trajectory_ids()) {
for (const auto& imu_data : all_imu_data.trajectory(trajectory_id)) {
auto* const imu_data_proto = proto.mutable_imu_data();
imu_data_proto->set_trajectory_id(trajectory_id);
*imu_data_proto->mutable_imu_data() = sensor::ToProto(imu_data);
writer->WriteProto(proto);
}
}
}
void SerializeOdometryData(
const sensor::MapByTime<sensor::OdometryData>& all_odometry_data,
ProtoStreamWriterInterface* const writer) {
SerializedData proto;
for (const int trajectory_id : all_odometry_data.trajectory_ids()) {
for (const auto& odometry_data :
all_odometry_data.trajectory(trajectory_id)) {
auto* const odometry_data_proto = proto.mutable_odometry_data();
odometry_data_proto->set_trajectory_id(trajectory_id);
*odometry_data_proto->mutable_odometry_data() =
sensor::ToProto(odometry_data);
writer->WriteProto(proto);
}
}
}
void SerializeFixedFramePoseData(
const sensor::MapByTime<sensor::FixedFramePoseData>&
all_fixed_frame_pose_data,
ProtoStreamWriterInterface* const writer) {
SerializedData proto;
for (const int trajectory_id : all_fixed_frame_pose_data.trajectory_ids()) {
for (const auto& fixed_frame_pose_data :
all_fixed_frame_pose_data.trajectory(trajectory_id)) {
auto* const fixed_frame_pose_data_proto =
proto.mutable_fixed_frame_pose_data();
fixed_frame_pose_data_proto->set_trajectory_id(trajectory_id);
*fixed_frame_pose_data_proto->mutable_fixed_frame_pose_data() =
sensor::ToProto(fixed_frame_pose_data);
writer->WriteProto(proto);
}
}
}
void SerializeLandmarkNodes(
const std::map<std::string, PoseGraphInterface::LandmarkNode>&
all_landmark_nodes,
ProtoStreamWriterInterface* const writer) {
SerializedData proto;
for (const auto& node : all_landmark_nodes) {
for (const auto& observation : node.second.landmark_observations) {
auto* landmark_data_proto = proto.mutable_landmark_data();
landmark_data_proto->set_trajectory_id(observation.trajectory_id);
landmark_data_proto->mutable_landmark_data()->set_timestamp(
common::ToUniversal(observation.time));
auto* observation_proto = landmark_data_proto->mutable_landmark_data()
->add_landmark_observations();
observation_proto->set_id(node.first);
*observation_proto->mutable_landmark_to_tracking_transform() =
transform::ToProto(observation.landmark_to_tracking_transform);
observation_proto->set_translation_weight(observation.translation_weight);
observation_proto->set_rotation_weight(observation.rotation_weight);
writer->WriteProto(proto);
}
}
}
} // namespace
void WritePbStream(
const mapping::PoseGraph& pose_graph,
const std::vector<mapping::proto::TrajectoryBuilderOptionsWithSensorIds>&
trajectory_builder_options,
ProtoStreamWriterInterface* const writer) {
writer->WriteProto(CreateHeader());
writer->WriteProto(SerializePoseGraph(pose_graph));
writer->WriteProto(
SerializeAllTrajectoryBuilderOptions(trajectory_builder_options));
SerializeSubmaps(pose_graph.GetAllSubmapData(), writer);
SerializeTrajectoryNodes(pose_graph.GetTrajectoryNodes(), writer);
SerializeTrajectoryData(pose_graph.GetTrajectoryData(), writer);
SerializeImuData(pose_graph.GetImuData(), writer);
SerializeOdometryData(pose_graph.GetOdometryData(), writer);
SerializeFixedFramePoseData(pose_graph.GetFixedFramePoseData(), writer);
SerializeLandmarkNodes(pose_graph.GetLandmarkNodes(), writer);
}
} // namespace io
} // namespace cartographer

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/*
* 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.
*/
#ifndef CARTOGRAPHER_IO_INTERNAL_MAPPING_STATE_SERIALIZATION_H_
#define CARTOGRAPHER_IO_INTERNAL_MAPPING_STATE_SERIALIZATION_H_
#include "cartographer/io/proto_stream_interface.h"
#include "cartographer/mapping/pose_graph.h"
#include "cartographer/mapping/proto/trajectory_builder_options.pb.h"
namespace cartographer {
namespace io {
// The current serialization format version.
static constexpr int kMappingStateSerializationFormatVersion = 1;
// Serialize mapping state to a pbstream.
void WritePbStream(
const mapping::PoseGraph& pose_graph,
const std::vector<mapping::proto::TrajectoryBuilderOptionsWithSensorIds>&
builder_options,
ProtoStreamWriterInterface* const writer);
} // namespace io
} // namespace cartographer
#endif // CARTOGRAPHER_IO_INTERNAL_MAPPING_STATE_SERIALIZATION_H_