Support extrapolating a single submap transform. (#338)
Wolfgang Hess
GitHub
parent
79eeb7d77a
commit
c1e1d03636
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@ -113,20 +113,20 @@ string MapBuilder::SubmapToProto(const int trajectory_id,
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" trajectories.";
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}
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const std::vector<transform::Rigid3d> submap_transforms =
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sparse_pose_graph_->GetSubmapTransforms(trajectory_id);
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if (submap_index < 0 ||
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static_cast<size_t>(submap_index) >= submap_transforms.size()) {
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const int num_submaps = sparse_pose_graph_->num_submaps(trajectory_id);
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if (submap_index < 0 || submap_index >= num_submaps) {
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return "Requested submap " + std::to_string(submap_index) +
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" from trajectory " + std::to_string(trajectory_id) +
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" but there are only " + std::to_string(submap_transforms.size()) +
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" but there are only " + std::to_string(num_submaps) +
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" submaps in this trajectory.";
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}
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const Submap* const submap =
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trajectory_builders_.at(trajectory_id)->submaps()->Get(submap_index);
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response->set_submap_version(submap->num_range_data());
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submap->ToResponseProto(submap_transforms[submap_index], response);
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const auto submap_pose = sparse_pose_graph_->GetSubmapTransform(
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SubmapId{trajectory_id, submap_index});
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submap->ToResponseProto(submap_pose, response);
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return "";
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}
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@ -86,9 +86,12 @@ proto::SparsePoseGraph SparsePoseGraph::ToProto() {
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}
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if (!single_trajectory_nodes.empty()) {
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for (const auto& transform : GetSubmapTransforms(trajectory_id)) {
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const int num_submaps_in_trajectory = num_submaps(trajectory_id);
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for (int submap_index = 0; submap_index != num_submaps_in_trajectory;
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++submap_index) {
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const SubmapId submap_id{static_cast<int>(trajectory_id), submap_index};
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*trajectory_proto->add_submap()->mutable_pose() =
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transform::ToProto(transform);
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transform::ToProto(GetSubmapTransform(submap_id));
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}
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}
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}
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@ -49,8 +49,8 @@ class SparsePoseGraph {
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double rotation_weight;
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};
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mapping::SubmapId submap_id; // 'i' in the paper.
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mapping::NodeId node_id; // 'j' in the paper.
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SubmapId submap_id; // 'i' in the paper.
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NodeId node_id; // 'j' in the paper.
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// Pose of the scan 'j' relative to submap 'i'.
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Pose pose;
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@ -77,9 +77,11 @@ class SparsePoseGraph {
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// Gets the current trajectory clusters.
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virtual std::vector<std::vector<int>> GetConnectedTrajectories() = 0;
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// Returns the current optimized transforms for the given 'trajectory_id'.
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virtual std::vector<transform::Rigid3d> GetSubmapTransforms(
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int trajectory_id) = 0;
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// Return the number of submaps for the given 'trajectory_id'.
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virtual int num_submaps(int trajectory_id) = 0;
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// Returns the current optimized transform for the given 'submap_id'.
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virtual transform::Rigid3d GetSubmapTransform(const SubmapId& submap_id) = 0;
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// Returns the transform converting data in the local map frame (i.e. the
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// continuous, non-loop-closed frame) into the global map frame (i.e. the
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@ -427,41 +427,32 @@ std::vector<std::vector<int>> SparsePoseGraph::GetConnectedTrajectories() {
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return connected_components_;
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}
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std::vector<transform::Rigid3d> SparsePoseGraph::GetSubmapTransforms(
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const int trajectory_id) {
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int SparsePoseGraph::num_submaps(const int trajectory_id) {
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common::MutexLocker locker(&mutex_);
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if (trajectory_id >= submap_data_.num_trajectories()) {
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return {transform::Rigid3d::Identity()};
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return 0;
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}
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return submap_data_.num_indices(trajectory_id);
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}
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// Submaps for which we have optimized poses.
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std::vector<transform::Rigid3d> result;
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for (int submap_index = 0;
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submap_index != submap_data_.num_indices(trajectory_id);
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++submap_index) {
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const mapping::SubmapId submap_id{trajectory_id, submap_index};
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const auto& submap_data = submap_data_.at(submap_id);
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if (static_cast<size_t>(trajectory_id) <
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optimized_submap_transforms_.size() &&
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result.size() < optimized_submap_transforms_.at(trajectory_id).size()) {
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// Submaps for which we have optimized poses.
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result.push_back(
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transform::Embed3D(optimized_submap_transforms_.at(trajectory_id)
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.at(result.size())
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.pose));
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} else {
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// Extrapolate to the remaining submaps. Accessing 'local_pose' in Submap
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// is okay, since the member is const.
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result.push_back(ComputeLocalToGlobalTransform(
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optimized_submap_transforms_, trajectory_id) *
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submap_data.submap->local_pose());
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}
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transform::Rigid3d SparsePoseGraph::GetSubmapTransform(
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const mapping::SubmapId& submap_id) {
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common::MutexLocker locker(&mutex_);
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// We already have an optimized pose.
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if (submap_id.trajectory_id <
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static_cast<int>(optimized_submap_transforms_.size()) &&
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submap_id.submap_index < static_cast<int>(optimized_submap_transforms_
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.at(submap_id.trajectory_id)
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.size())) {
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return transform::Embed3D(
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optimized_submap_transforms_.at(submap_id.trajectory_id)
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.at(submap_id.submap_index)
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.pose);
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}
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if (result.empty()) {
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result.push_back(transform::Rigid3d::Identity());
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}
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return result;
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// We have to extrapolate.
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return ComputeLocalToGlobalTransform(optimized_submap_transforms_,
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submap_id.trajectory_id) *
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submap_data_.at(submap_id).submap->local_pose();
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}
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transform::Rigid3d SparsePoseGraph::ComputeLocalToGlobalTransform(
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@ -82,7 +82,8 @@ class SparsePoseGraph : public mapping::SparsePoseGraph {
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void AddTrimmer(std::unique_ptr<mapping::PoseGraphTrimmer> trimmer) override;
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void RunFinalOptimization() override;
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std::vector<std::vector<int>> GetConnectedTrajectories() override;
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std::vector<transform::Rigid3d> GetSubmapTransforms(int trajectory_id)
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int num_submaps(int trajectory_id) EXCLUDES(mutex_) override;
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transform::Rigid3d GetSubmapTransform(const mapping::SubmapId& submap_id)
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EXCLUDES(mutex_) override;
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transform::Rigid3d GetLocalToGlobalTransform(int trajectory_id)
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EXCLUDES(mutex_) override;
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@ -430,40 +430,31 @@ std::vector<std::vector<int>> SparsePoseGraph::GetConnectedTrajectories() {
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return connected_components_;
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}
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std::vector<transform::Rigid3d> SparsePoseGraph::GetSubmapTransforms(
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const int trajectory_id) {
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int SparsePoseGraph::num_submaps(const int trajectory_id) {
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common::MutexLocker locker(&mutex_);
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if (trajectory_id >= submap_data_.num_trajectories()) {
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return {transform::Rigid3d::Identity()};
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return 0;
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}
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return submap_data_.num_indices(trajectory_id);
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}
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// Submaps for which we have optimized poses.
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std::vector<transform::Rigid3d> result;
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for (int submap_index = 0;
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submap_index != submap_data_.num_indices(trajectory_id);
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++submap_index) {
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const mapping::SubmapId submap_id{trajectory_id, submap_index};
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const auto& submap_data = submap_data_.at(submap_id);
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if (static_cast<size_t>(trajectory_id) <
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optimized_submap_transforms_.size() &&
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result.size() < optimized_submap_transforms_.at(trajectory_id).size()) {
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// Submaps for which we have optimized poses.
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result.push_back(optimized_submap_transforms_.at(trajectory_id)
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.at(result.size())
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.pose);
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} else {
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// Extrapolate to the remaining submaps. Accessing 'local_pose' in Submap
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// is okay, since the member is const.
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result.push_back(ComputeLocalToGlobalTransform(
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optimized_submap_transforms_, trajectory_id) *
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submap_data.submap->local_pose());
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}
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transform::Rigid3d SparsePoseGraph::GetSubmapTransform(
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const mapping::SubmapId& submap_id) {
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common::MutexLocker locker(&mutex_);
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// We already have an optimized pose.
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if (submap_id.trajectory_id <
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static_cast<int>(optimized_submap_transforms_.size()) &&
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submap_id.submap_index < static_cast<int>(optimized_submap_transforms_
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.at(submap_id.trajectory_id)
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.size())) {
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return optimized_submap_transforms_.at(submap_id.trajectory_id)
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.at(submap_id.submap_index)
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.pose;
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}
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if (result.empty()) {
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result.push_back(transform::Rigid3d::Identity());
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}
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return result;
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// We have to extrapolate.
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return ComputeLocalToGlobalTransform(optimized_submap_transforms_,
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submap_id.trajectory_id) *
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submap_data_.at(submap_id).submap->local_pose();
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}
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transform::Rigid3d SparsePoseGraph::ComputeLocalToGlobalTransform(
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@ -81,7 +81,8 @@ class SparsePoseGraph : public mapping::SparsePoseGraph {
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}
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void RunFinalOptimization() override;
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std::vector<std::vector<int>> GetConnectedTrajectories() override;
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std::vector<transform::Rigid3d> GetSubmapTransforms(int trajectory_id)
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int num_submaps(int trajectory_id) EXCLUDES(mutex_) override;
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transform::Rigid3d GetSubmapTransform(const mapping::SubmapId& submap_id)
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EXCLUDES(mutex_) override;
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transform::Rigid3d GetLocalToGlobalTransform(int trajectory_id)
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EXCLUDES(mutex_) override;
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