Delete NodeData and ImuData from trimmed submaps in the OptimizationProblem (#364)
Related to #283. PAIR=wohemaster
parent
4c3059e088
commit
d8eb94b4a9
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@ -190,9 +190,9 @@ void SparsePoseGraph::ComputeConstraint(const mapping::NodeId& node_id,
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.pose.inverse() *
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optimization_problem_.node_data()
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.at(node_id.trajectory_id)
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.at(node_id.node_index)
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.at(node_id.node_index - optimization_problem_.num_trimmed_nodes(
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node_id.trajectory_id))
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.point_cloud_pose;
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constraint_builder_.MaybeAddConstraint(
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submap_id, submap_data_.at(submap_id).submap.get(), node_id,
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&trajectory_nodes_.at(node_id).constant_data->range_data_2d.returns,
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@ -207,12 +207,16 @@ void SparsePoseGraph::ComputeConstraintsForOldScans(
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const auto& node_data = optimization_problem_.node_data();
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for (size_t trajectory_id = 0; trajectory_id != node_data.size();
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++trajectory_id) {
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for (size_t node_index = 0; node_index != node_data[trajectory_id].size();
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++node_index) {
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for (size_t node_data_index = 0;
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node_data_index != node_data[trajectory_id].size();
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++node_data_index) {
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const int node_index =
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node_data_index +
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optimization_problem_.num_trimmed_nodes(trajectory_id);
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const mapping::NodeId node_id{static_cast<int>(trajectory_id),
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static_cast<int>(node_index)};
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if (!trajectory_nodes_.at(node_id).trimmed() &&
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submap_data.node_ids.count(node_id) == 0) {
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CHECK(!trajectory_nodes_.at(node_id).trimmed());
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if (submap_data.node_ids.count(node_id) == 0) {
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ComputeConstraint(node_id, submap_id);
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}
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}
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@ -241,7 +245,9 @@ void SparsePoseGraph::ComputeConstraintsForScan(
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optimization_problem_.node_data().size()
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? static_cast<int>(optimization_problem_.node_data()
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.at(matching_id.trajectory_id)
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.size())
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.size()) +
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optimization_problem_.num_trimmed_nodes(
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matching_id.trajectory_id)
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: 0};
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const auto& scan_data = trajectory_nodes_.at(node_id).constant_data;
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optimization_problem_.AddTrajectoryNode(
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@ -386,13 +392,14 @@ void SparsePoseGraph::RunOptimization() {
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const auto& node_data = optimization_problem_.node_data();
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for (int trajectory_id = 0;
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trajectory_id != static_cast<int>(node_data.size()); ++trajectory_id) {
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int node_index = 0;
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int node_data_index = 0;
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const int num_nodes = trajectory_nodes_.num_indices(trajectory_id);
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for (; node_index != static_cast<int>(node_data[trajectory_id].size());
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++node_index) {
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int node_index = optimization_problem_.num_trimmed_nodes(trajectory_id);
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for (; node_data_index != static_cast<int>(node_data[trajectory_id].size());
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++node_data_index, ++node_index) {
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const mapping::NodeId node_id{trajectory_id, node_index};
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trajectory_nodes_.at(node_id).pose = transform::Embed3D(
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node_data[trajectory_id][node_index].point_cloud_pose);
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node_data[trajectory_id][node_data_index].point_cloud_pose);
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}
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// Extrapolate all point cloud poses that were added later.
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const auto local_to_new_global = ComputeLocalToGlobalTransform(
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@ -583,15 +590,13 @@ void SparsePoseGraph::TrimmingHandle::MarkSubmapAsTrimmed(
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for (const mapping::NodeId& node_id : nodes_to_remove) {
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CHECK(!parent_->trajectory_nodes_.at(node_id).trimmed());
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parent_->trajectory_nodes_.at(node_id).constant_data.reset();
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parent_->optimization_problem_.TrimTrajectoryNode(node_id);
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}
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// TODO(whess): The optimization problem should no longer include the submap
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// and the removed nodes.
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// TODO(whess): The optimization problem should no longer include the submap.
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// TODO(whess): If the first submap is gone, we want to tie the first not
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// yet trimmed submap to be set fixed to its current pose.
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// TODO(hrapp): Delete related IMU data.
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}
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} // namespace mapping_2d
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@ -80,6 +80,22 @@ void OptimizationProblem::AddTrajectoryNode(
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std::max(node_data_.size(), static_cast<size_t>(trajectory_id) + 1));
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node_data_[trajectory_id].push_back(
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NodeData{time, initial_point_cloud_pose, point_cloud_pose});
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trajectory_data_.resize(std::max(trajectory_data_.size(), node_data_.size()));
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}
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void OptimizationProblem::TrimTrajectoryNode(const mapping::NodeId& node_id) {
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auto& trajectory_data = trajectory_data_.at(node_id.trajectory_id);
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// We only allow trimming from the start.
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CHECK_EQ(trajectory_data.num_trimmed_nodes, node_id.node_index);
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auto& node_data = node_data_.at(node_id.trajectory_id);
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CHECK(!node_data.empty());
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const common::Time node_time = node_data.front().time;
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auto& imu_data = imu_data_.at(node_id.trajectory_id);
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while (imu_data.size() > 1 && imu_data[1].time <= node_time) {
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imu_data.pop_front();
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}
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node_data.pop_front();
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++trajectory_data.num_trimmed_nodes;
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}
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void OptimizationProblem::AddSubmap(const int trajectory_id,
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@ -107,7 +123,7 @@ void OptimizationProblem::Solve(const std::vector<Constraint>& constraints) {
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// Set the starting point.
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// TODO(hrapp): Move ceres data into SubmapData.
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std::vector<std::deque<std::array<double, 3>>> C_submaps(submap_data_.size());
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std::vector<std::deque<std::array<double, 3>>> C_nodes(node_data_.size());
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std::vector<std::vector<std::array<double, 3>>> C_nodes(node_data_.size());
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for (size_t trajectory_id = 0; trajectory_id != submap_data_.size();
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++trajectory_id) {
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for (size_t submap_index = 0;
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@ -128,12 +144,12 @@ void OptimizationProblem::Solve(const std::vector<Constraint>& constraints) {
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}
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for (size_t trajectory_id = 0; trajectory_id != node_data_.size();
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++trajectory_id) {
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C_nodes[trajectory_id].resize(node_data_[trajectory_id].size());
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for (size_t node_index = 0; node_index != node_data_[trajectory_id].size();
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++node_index) {
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C_nodes[trajectory_id][node_index] =
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FromPose(node_data_[trajectory_id][node_index].point_cloud_pose);
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problem.AddParameterBlock(C_nodes[trajectory_id][node_index].data(), 3);
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// Reserve guarantees that data does not move, so the pointers for Ceres
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// stay valid.
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C_nodes[trajectory_id].reserve(node_data_[trajectory_id].size());
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for (const NodeData& node_data : node_data_[trajectory_id]) {
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C_nodes[trajectory_id].push_back(FromPose(node_data.point_cloud_pose));
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problem.AddParameterBlock(C_nodes[trajectory_id].back().data(), 3);
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}
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}
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@ -150,27 +166,31 @@ void OptimizationProblem::Solve(const std::vector<Constraint>& constraints) {
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.at(constraint.submap_id.submap_index)
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.data(),
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C_nodes.at(constraint.node_id.trajectory_id)
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.at(constraint.node_id.node_index)
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.at(constraint.node_id.node_index -
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trajectory_data_.at(constraint.node_id.trajectory_id)
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.num_trimmed_nodes)
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.data());
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}
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// Add penalties for changes between consecutive scans.
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for (size_t trajectory_id = 0; trajectory_id != node_data_.size();
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++trajectory_id) {
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for (size_t node_index = 1; node_index < node_data_[trajectory_id].size();
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++node_index) {
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for (size_t node_data_index = 1;
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node_data_index < node_data_[trajectory_id].size();
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++node_data_index) {
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problem.AddResidualBlock(
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new ceres::AutoDiffCostFunction<SpaCostFunction, 3, 3, 3>(
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new SpaCostFunction(Constraint::Pose{
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transform::Embed3D(node_data_[trajectory_id][node_index - 1]
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transform::Embed3D(
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node_data_[trajectory_id][node_data_index - 1]
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.initial_point_cloud_pose.inverse() *
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node_data_[trajectory_id][node_index]
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node_data_[trajectory_id][node_data_index]
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.initial_point_cloud_pose),
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options_.consecutive_scan_translation_penalty_factor(),
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options_.consecutive_scan_rotation_penalty_factor()})),
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nullptr /* loss function */,
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C_nodes[trajectory_id][node_index - 1].data(),
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C_nodes[trajectory_id][node_index].data());
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C_nodes[trajectory_id][node_data_index - 1].data(),
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C_nodes[trajectory_id][node_data_index].data());
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}
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}
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@ -195,15 +215,16 @@ void OptimizationProblem::Solve(const std::vector<Constraint>& constraints) {
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}
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for (size_t trajectory_id = 0; trajectory_id != node_data_.size();
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++trajectory_id) {
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for (size_t node_index = 0; node_index != node_data_[trajectory_id].size();
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++node_index) {
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node_data_[trajectory_id][node_index].point_cloud_pose =
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ToPose(C_nodes[trajectory_id][node_index]);
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for (size_t node_data_index = 0;
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node_data_index != node_data_[trajectory_id].size();
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++node_data_index) {
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node_data_[trajectory_id][node_data_index].point_cloud_pose =
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ToPose(C_nodes[trajectory_id][node_data_index]);
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}
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}
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}
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const std::vector<std::vector<NodeData>>& OptimizationProblem::node_data()
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const std::vector<std::deque<NodeData>>& OptimizationProblem::node_data()
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const {
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return node_data_;
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}
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@ -213,6 +234,10 @@ const std::vector<std::vector<SubmapData>>& OptimizationProblem::submap_data()
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return submap_data_;
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}
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int OptimizationProblem::num_trimmed_nodes(int trajectory_id) const {
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return trajectory_data_.at(trajectory_id).num_trimmed_nodes;
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}
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} // namespace sparse_pose_graph
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} // namespace mapping_2d
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} // namespace cartographer
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@ -63,6 +63,7 @@ class OptimizationProblem {
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void AddTrajectoryNode(int trajectory_id, common::Time time,
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const transform::Rigid2d& initial_point_cloud_pose,
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const transform::Rigid2d& point_cloud_pose);
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void TrimTrajectoryNode(const mapping::NodeId& node_id);
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void AddSubmap(int trajectory_id, const transform::Rigid2d& submap_pose);
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void SetMaxNumIterations(int32 max_num_iterations);
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@ -70,14 +71,21 @@ class OptimizationProblem {
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// Computes the optimized poses.
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void Solve(const std::vector<Constraint>& constraints);
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const std::vector<std::vector<NodeData>>& node_data() const;
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const std::vector<std::deque<NodeData>>& node_data() const;
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const std::vector<std::vector<SubmapData>>& submap_data() const;
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int num_trimmed_nodes(int trajectory_id) const;
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private:
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struct TrajectoryData {
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// TODO(hrapp): Remove, once we can relabel constraints.
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int num_trimmed_nodes = 0;
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};
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mapping::sparse_pose_graph::proto::OptimizationProblemOptions options_;
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std::vector<std::deque<mapping_3d::ImuData>> imu_data_;
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std::vector<std::vector<NodeData>> node_data_;
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std::vector<std::deque<NodeData>> node_data_;
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std::vector<std::vector<SubmapData>> submap_data_;
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std::vector<TrajectoryData> trajectory_data_;
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};
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} // namespace sparse_pose_graph
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