Introduce Grid2D as base class for 2D grids (#1046)

This is a first step towards generalizing submaps (see [ongoing RFC discussion](https://github.com/googlecartographer/rfcs/pull/30)).
Although this PR already introduces a correspondence cost grid, the grid is still used as probability grid.
master
Kevin Daun 2018-04-13 13:43:09 +02:00 committed by Wally B. Feed
parent b4c4ae6ea9
commit 46d3a9443a
11 changed files with 328 additions and 172 deletions

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@ -0,0 +1,147 @@
/*
* 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/mapping/2d/grid_2d.h"
#include "cartographer/mapping/probability_values.h"
namespace cartographer {
namespace mapping {
Grid2D::Grid2D(const MapLimits& limits)
: limits_(limits),
correspondence_cost_cells_(
limits_.cell_limits().num_x_cells * limits_.cell_limits().num_y_cells,
kUnknownCorrespondenceValue) {}
Grid2D::Grid2D(const proto::Grid2D& proto)
: limits_(proto.limits()), correspondence_cost_cells_() {
if (proto.has_known_cells_box()) {
const auto& box = proto.known_cells_box();
known_cells_box_ =
Eigen::AlignedBox2i(Eigen::Vector2i(box.min_x(), box.min_y()),
Eigen::Vector2i(box.max_x(), box.max_y()));
}
correspondence_cost_cells_.reserve(proto.cells_size());
for (const auto& cell : proto.cells()) {
CHECK_LE(cell, std::numeric_limits<uint16>::max());
correspondence_cost_cells_.push_back(cell);
}
}
// Finishes the update sequence.
void Grid2D::FinishUpdate() {
while (!update_indices_.empty()) {
DCHECK_GE(correspondence_cost_cells_[update_indices_.back()],
kUpdateMarker);
correspondence_cost_cells_[update_indices_.back()] -= kUpdateMarker;
update_indices_.pop_back();
}
}
// Sets the probability of the cell at 'cell_index' to the given
// 'probability'. Only allowed if the cell was unknown before.
void Grid2D::SetCorrespondenceCost(const Eigen::Array2i& cell_index,
const float correspondence_cost) {
LOG(FATAL) << "Not implemented";
}
// Returns the probability of the cell with 'cell_index'.
float Grid2D::GetCorrespondenceCost(const Eigen::Array2i& cell_index) const {
LOG(FATAL) << "Not implemented";
return kUnknownCorrespondenceValue;
}
// Returns true if the probability at the specified index is known.
bool Grid2D::IsKnown(const Eigen::Array2i& cell_index) const {
return limits_.Contains(cell_index) &&
correspondence_cost_cells_[ToFlatIndex(cell_index)] !=
kUnknownCorrespondenceValue;
}
// Fills in 'offset' and 'limits' to define a subregion of that contains all
// known cells.
void Grid2D::ComputeCroppedLimits(Eigen::Array2i* const offset,
CellLimits* const limits) const {
if (known_cells_box_.isEmpty()) {
*offset = Eigen::Array2i::Zero();
*limits = CellLimits(1, 1);
return;
}
*offset = known_cells_box_.min().array();
*limits = CellLimits(known_cells_box_.sizes().x() + 1,
known_cells_box_.sizes().y() + 1);
}
// Grows the map as necessary to include 'point'. This changes the meaning of
// these coordinates going forward. This method must be called immediately
// after 'FinishUpdate', before any calls to 'ApplyLookupTable'.
void Grid2D::GrowLimits(const Eigen::Vector2f& point) {
CHECK(update_indices_.empty());
while (!limits_.Contains(limits_.GetCellIndex(point))) {
const int x_offset = limits_.cell_limits().num_x_cells / 2;
const int y_offset = limits_.cell_limits().num_y_cells / 2;
const MapLimits new_limits(
limits_.resolution(),
limits_.max() +
limits_.resolution() * Eigen::Vector2d(y_offset, x_offset),
CellLimits(2 * limits_.cell_limits().num_x_cells,
2 * limits_.cell_limits().num_y_cells));
const int stride = new_limits.cell_limits().num_x_cells;
const int offset = x_offset + stride * y_offset;
const int new_size = new_limits.cell_limits().num_x_cells *
new_limits.cell_limits().num_y_cells;
std::vector<uint16> new_cells(new_size, kUnknownCorrespondenceValue);
for (int i = 0; i < limits_.cell_limits().num_y_cells; ++i) {
for (int j = 0; j < limits_.cell_limits().num_x_cells; ++j) {
new_cells[offset + j + i * stride] =
correspondence_cost_cells_[j +
i * limits_.cell_limits().num_x_cells];
}
}
correspondence_cost_cells_ = new_cells;
limits_ = new_limits;
if (!known_cells_box_.isEmpty()) {
known_cells_box_.translate(Eigen::Vector2i(x_offset, y_offset));
}
}
}
proto::Grid2D Grid2D::ToProto() const {
proto::Grid2D result;
*result.mutable_limits() = mapping::ToProto(limits_);
result.mutable_cells()->Reserve(correspondence_cost_cells_.size());
for (const auto& cell : correspondence_cost_cells_) {
result.mutable_cells()->Add(cell);
}
CHECK(update_indices().empty()) << "Serializing a grid during an update is "
"not supported. Finish the update first.";
if (!known_cells_box().isEmpty()) {
auto* const box = result.mutable_known_cells_box();
box->set_max_x(known_cells_box().max().x());
box->set_max_y(known_cells_box().max().y());
box->set_min_x(known_cells_box().min().x());
box->set_min_y(known_cells_box().min().y());
}
return result;
}
int Grid2D::ToFlatIndex(const Eigen::Array2i& cell_index) const {
CHECK(limits_.Contains(cell_index)) << cell_index;
return limits_.cell_limits().num_x_cells * cell_index.y() + cell_index.x();
}
} // namespace mapping
} // namespace cartographer

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@ -0,0 +1,92 @@
/*
* 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_MAPPING_2D_GRID_2D_H_
#define CARTOGRAPHER_MAPPING_2D_GRID_2D_H_
#include <vector>
#include "cartographer/mapping/2d/map_limits.h"
#include "cartographer/mapping/2d/proto/grid_2d.pb.h"
namespace cartographer {
namespace mapping {
class Grid2D {
public:
explicit Grid2D(const MapLimits& limits);
explicit Grid2D(const proto::Grid2D& proto);
// Returns the limits of this ProbabilityGrid.
const MapLimits& limits() const { return limits_; }
// Finishes the update sequence.
void FinishUpdate();
// Sets the correspondence cost of the cell at 'cell_index' to the given
// 'correspondence cost'. Only allowed if the cell was unknown before.
void SetCorrespondenceCost(const Eigen::Array2i& cell_index,
const float correspondence_cost);
// Returns the probability of the cell with 'cell_index'.
float GetCorrespondenceCost(const Eigen::Array2i& cell_index) const;
// Returns true if the probability at the specified index is known.
bool IsKnown(const Eigen::Array2i& cell_index) const;
// Fills in 'offset' and 'limits' to define a subregion of that contains all
// known cells.
void ComputeCroppedLimits(Eigen::Array2i* const offset,
CellLimits* const limits) const;
// Grows the map as necessary to include 'point'. This changes the meaning of
// these coordinates going forward. This method must be called immediately
// after 'FinishUpdate', before any calls to 'ApplyLookupTable'.
void GrowLimits(const Eigen::Vector2f& point);
virtual proto::Grid2D ToProto() const;
protected:
const std::vector<uint16>& correspondence_cost_cells() const {
return correspondence_cost_cells_;
}
const std::vector<int>& update_indices() const { return update_indices_; }
const Eigen::AlignedBox2i& known_cells_box() const {
return known_cells_box_;
}
std::vector<uint16>* mutable_correspondence_cost_cells() {
return &correspondence_cost_cells_;
}
std::vector<int>* mutable_update_indices() { return &update_indices_; }
Eigen::AlignedBox2i* mutable_known_cells_box() { return &known_cells_box_; }
// Converts a 'cell_index' into an index into 'cells_'.
int ToFlatIndex(const Eigen::Array2i& cell_index) const;
private:
MapLimits limits_;
std::vector<uint16> correspondence_cost_cells_;
std::vector<int> update_indices_;
// Bounding box of known cells to efficiently compute cropping limits.
Eigen::AlignedBox2i known_cells_box_;
};
} // namespace mapping
} // namespace cartographer
#endif // CARTOGRAPHER_MAPPING_2D_GRID_2D_H_

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@ -1,3 +1,18 @@
/*
* 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.
*/
#include "cartographer/mapping/2d/probability_grid.h" #include "cartographer/mapping/2d/probability_grid.h"
#include <limits> #include <limits>
@ -6,54 +21,22 @@
namespace cartographer { namespace cartographer {
namespace mapping { namespace mapping {
namespace {
// Converts a 'cell_index' into an index into 'cells_'. ProbabilityGrid::ProbabilityGrid(const MapLimits& limits) : Grid2D(limits) {}
int ToFlatIndex(const Eigen::Array2i& cell_index, const MapLimits& limits) {
CHECK(limits.Contains(cell_index)) << cell_index;
return limits.cell_limits().num_x_cells * cell_index.y() + cell_index.x();
}
} // namespace ProbabilityGrid::ProbabilityGrid(const proto::Grid2D& proto) : Grid2D(proto) {
CHECK(proto.has_probability_grid_2d());
ProbabilityGrid::ProbabilityGrid(const MapLimits& limits)
: limits_(limits),
cells_(
limits_.cell_limits().num_x_cells * limits_.cell_limits().num_y_cells,
kUnknownProbabilityValue) {}
ProbabilityGrid::ProbabilityGrid(const proto::ProbabilityGrid& proto)
: limits_(proto.limits()), cells_() {
if (proto.has_known_cells_box()) {
const auto& box = proto.known_cells_box();
known_cells_box_ =
Eigen::AlignedBox2i(Eigen::Vector2i(box.min_x(), box.min_y()),
Eigen::Vector2i(box.max_x(), box.max_y()));
}
cells_.reserve(proto.cells_size());
for (const auto& cell : proto.cells()) {
CHECK_LE(cell, std::numeric_limits<uint16>::max());
cells_.push_back(cell);
}
}
// Finishes the update sequence.
void ProbabilityGrid::FinishUpdate() {
while (!update_indices_.empty()) {
DCHECK_GE(cells_[update_indices_.back()], kUpdateMarker);
cells_[update_indices_.back()] -= kUpdateMarker;
update_indices_.pop_back();
}
} }
// Sets the probability of the cell at 'cell_index' to the given // Sets the probability of the cell at 'cell_index' to the given
// 'probability'. Only allowed if the cell was unknown before. // 'probability'. Only allowed if the cell was unknown before.
void ProbabilityGrid::SetProbability(const Eigen::Array2i& cell_index, void ProbabilityGrid::SetProbability(const Eigen::Array2i& cell_index,
const float probability) { const float probability) {
uint16& cell = cells_[ToFlatIndex(cell_index, limits_)]; uint16& cell =
(*mutable_correspondence_cost_cells())[ToFlatIndex(cell_index)];
CHECK_EQ(cell, kUnknownProbabilityValue); CHECK_EQ(cell, kUnknownProbabilityValue);
cell = ProbabilityToValue(probability); cell = ProbabilityToValue(probability);
known_cells_box_.extend(cell_index.matrix()); mutable_known_cells_box()->extend(cell_index.matrix());
} }
// Applies the 'odds' specified when calling ComputeLookupTableToApplyOdds() // Applies the 'odds' specified when calling ComputeLookupTableToApplyOdds()
@ -66,95 +49,28 @@ void ProbabilityGrid::SetProbability(const Eigen::Array2i& cell_index,
bool ProbabilityGrid::ApplyLookupTable(const Eigen::Array2i& cell_index, bool ProbabilityGrid::ApplyLookupTable(const Eigen::Array2i& cell_index,
const std::vector<uint16>& table) { const std::vector<uint16>& table) {
DCHECK_EQ(table.size(), kUpdateMarker); DCHECK_EQ(table.size(), kUpdateMarker);
const int flat_index = ToFlatIndex(cell_index, limits_); const int flat_index = ToFlatIndex(cell_index);
uint16* cell = &cells_[flat_index]; uint16* cell = &(*mutable_correspondence_cost_cells())[flat_index];
if (*cell >= kUpdateMarker) { if (*cell >= kUpdateMarker) {
return false; return false;
} }
update_indices_.push_back(flat_index); mutable_update_indices()->push_back(flat_index);
*cell = table[*cell]; *cell = table[*cell];
DCHECK_GE(*cell, kUpdateMarker); DCHECK_GE(*cell, kUpdateMarker);
known_cells_box_.extend(cell_index.matrix()); mutable_known_cells_box()->extend(cell_index.matrix());
return true; return true;
} }
// Returns the probability of the cell with 'cell_index'. // Returns the probability of the cell with 'cell_index'.
float ProbabilityGrid::GetProbability(const Eigen::Array2i& cell_index) const { float ProbabilityGrid::GetProbability(const Eigen::Array2i& cell_index) const {
if (limits_.Contains(cell_index)) { if (!limits().Contains(cell_index)) return kMinProbability;
return ValueToProbability(cells_[ToFlatIndex(cell_index, limits_)]); return ValueToProbability(
} correspondence_cost_cells()[ToFlatIndex(cell_index)]);
return kMinProbability;
} }
proto::Grid2D ProbabilityGrid::ToProto() const {
// Returns true if the probability at the specified index is known. proto::Grid2D result;
bool ProbabilityGrid::IsKnown(const Eigen::Array2i& cell_index) const { result = Grid2D::ToProto();
return limits_.Contains(cell_index) && result.mutable_probability_grid_2d();
cells_[ToFlatIndex(cell_index, limits_)] != kUnknownProbabilityValue;
}
// Fills in 'offset' and 'limits' to define a subregion of that contains all
// known cells.
void ProbabilityGrid::ComputeCroppedLimits(Eigen::Array2i* const offset,
CellLimits* const limits) const {
if (known_cells_box_.isEmpty()) {
*offset = Eigen::Array2i::Zero();
*limits = CellLimits(1, 1);
return;
}
*offset = known_cells_box_.min().array();
*limits = CellLimits(known_cells_box_.sizes().x() + 1,
known_cells_box_.sizes().y() + 1);
}
// Grows the map as necessary to include 'point'. This changes the meaning of
// these coordinates going forward. This method must be called immediately
// after 'FinishUpdate', before any calls to 'ApplyLookupTable'.
void ProbabilityGrid::GrowLimits(const Eigen::Vector2f& point) {
CHECK(update_indices_.empty());
while (!limits_.Contains(limits_.GetCellIndex(point))) {
const int x_offset = limits_.cell_limits().num_x_cells / 2;
const int y_offset = limits_.cell_limits().num_y_cells / 2;
const MapLimits new_limits(
limits_.resolution(),
limits_.max() +
limits_.resolution() * Eigen::Vector2d(y_offset, x_offset),
CellLimits(2 * limits_.cell_limits().num_x_cells,
2 * limits_.cell_limits().num_y_cells));
const int stride = new_limits.cell_limits().num_x_cells;
const int offset = x_offset + stride * y_offset;
const int new_size = new_limits.cell_limits().num_x_cells *
new_limits.cell_limits().num_y_cells;
std::vector<uint16> new_cells(new_size, kUnknownProbabilityValue);
for (int i = 0; i < limits_.cell_limits().num_y_cells; ++i) {
for (int j = 0; j < limits_.cell_limits().num_x_cells; ++j) {
new_cells[offset + j + i * stride] =
cells_[j + i * limits_.cell_limits().num_x_cells];
}
}
cells_ = new_cells;
limits_ = new_limits;
if (!known_cells_box_.isEmpty()) {
known_cells_box_.translate(Eigen::Vector2i(x_offset, y_offset));
}
}
}
proto::ProbabilityGrid ProbabilityGrid::ToProto() const {
proto::ProbabilityGrid result;
*result.mutable_limits() = mapping::ToProto(limits_);
result.mutable_cells()->Reserve(cells_.size());
for (const auto& cell : cells_) {
result.mutable_cells()->Add(cell);
}
CHECK(update_indices_.empty()) << "Serializing a grid during an update is "
"not supported. Finish the update first.";
if (!known_cells_box_.isEmpty()) {
auto* const box = result.mutable_known_cells_box();
box->set_max_x(known_cells_box_.max().x());
box->set_max_y(known_cells_box_.max().y());
box->set_min_x(known_cells_box_.min().x());
box->set_min_y(known_cells_box_.min().y());
}
return result; return result;
} }

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@ -20,24 +20,18 @@
#include <vector> #include <vector>
#include "cartographer/common/port.h" #include "cartographer/common/port.h"
#include "cartographer/mapping/2d/grid_2d.h"
#include "cartographer/mapping/2d/map_limits.h" #include "cartographer/mapping/2d/map_limits.h"
#include "cartographer/mapping/2d/proto/probability_grid.pb.h"
#include "cartographer/mapping/2d/xy_index.h" #include "cartographer/mapping/2d/xy_index.h"
namespace cartographer { namespace cartographer {
namespace mapping { namespace mapping {
// Represents a 2D grid of probabilities. // Represents a 2D grid of probabilities.
class ProbabilityGrid { class ProbabilityGrid : public Grid2D {
public: public:
explicit ProbabilityGrid(const MapLimits& limits); explicit ProbabilityGrid(const MapLimits& limits);
explicit ProbabilityGrid(const proto::ProbabilityGrid& proto); explicit ProbabilityGrid(const proto::Grid2D& proto);
// Returns the limits of this ProbabilityGrid.
const MapLimits& limits() const { return limits_; }
// Finishes the update sequence.
void FinishUpdate();
// Sets the probability of the cell at 'cell_index' to the given // Sets the probability of the cell at 'cell_index' to the given
// 'probability'. Only allowed if the cell was unknown before. // 'probability'. Only allowed if the cell was unknown before.
@ -57,28 +51,7 @@ class ProbabilityGrid {
// Returns the probability of the cell with 'cell_index'. // Returns the probability of the cell with 'cell_index'.
float GetProbability(const Eigen::Array2i& cell_index) const; float GetProbability(const Eigen::Array2i& cell_index) const;
// Returns true if the probability at the specified index is known. virtual proto::Grid2D ToProto() const override;
bool IsKnown(const Eigen::Array2i& cell_index) const;
// Fills in 'offset' and 'limits' to define a subregion of that contains all
// known cells.
void ComputeCroppedLimits(Eigen::Array2i* const offset,
CellLimits* const limits) const;
// Grows the map as necessary to include 'point'. This changes the meaning of
// these coordinates going forward. This method must be called immediately
// after 'FinishUpdate', before any calls to 'ApplyLookupTable'.
void GrowLimits(const Eigen::Vector2f& point);
proto::ProbabilityGrid ToProto() const;
private:
MapLimits limits_;
std::vector<uint16> cells_; // Highest bit is update marker.
std::vector<int> update_indices_;
// Bounding box of known cells to efficiently compute cropping limits.
Eigen::AlignedBox2i known_cells_box_;
}; };
} // namespace mapping } // namespace mapping

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@ -29,7 +29,7 @@ using Eigen::Array2i;
using Eigen::Vector2f; using Eigen::Vector2f;
TEST(ProbabilityGridTest, ProtoConstructor) { TEST(ProbabilityGridTest, ProtoConstructor) {
proto::ProbabilityGrid proto; proto::Grid2D proto;
const MapLimits limits(1., {2., 3.}, CellLimits(4., 5.)); const MapLimits limits(1., {2., 3.}, CellLimits(4., 5.));
*proto.mutable_limits() = ToProto(limits); *proto.mutable_limits() = ToProto(limits);
for (int i = 6; i < 12; ++i) { for (int i = 6; i < 12; ++i) {
@ -39,6 +39,7 @@ TEST(ProbabilityGridTest, ProtoConstructor) {
proto.mutable_known_cells_box()->set_max_y(20); proto.mutable_known_cells_box()->set_max_y(20);
proto.mutable_known_cells_box()->set_min_x(21); proto.mutable_known_cells_box()->set_min_x(21);
proto.mutable_known_cells_box()->set_min_y(22); proto.mutable_known_cells_box()->set_min_y(22);
proto.mutable_probability_grid_2d();
ProbabilityGrid grid(proto); ProbabilityGrid grid(proto);
EXPECT_EQ(proto.limits().DebugString(), ToProto(grid.limits()).DebugString()); EXPECT_EQ(proto.limits().DebugString(), ToProto(grid.limits()).DebugString());

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@ -0,0 +1,38 @@
// 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.
syntax = "proto3";
package cartographer.mapping.proto;
import "cartographer/mapping/2d/proto/probability_grid.proto";
import "cartographer/mapping/2d/proto/map_limits.proto";
message Grid2D {
message CellBox {
int32 max_x = 1;
int32 max_y = 2;
int32 min_x = 3;
int32 min_y = 4;
}
MapLimits limits = 1;
// These values are actually int16s, but protos don't have a native int16
// type.
repeated int32 cells = 2;
CellBox known_cells_box = 3;
oneof grid {
ProbabilityGrid probability_grid_2d = 4;
}
}

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@ -14,21 +14,7 @@
syntax = "proto3"; syntax = "proto3";
import "cartographer/mapping/2d/proto/map_limits.proto";
package cartographer.mapping.proto; package cartographer.mapping.proto;
message ProbabilityGrid { message ProbabilityGrid {
message CellBox {
int32 max_x = 1;
int32 max_y = 2;
int32 min_x = 3;
int32 min_y = 4;
}
MapLimits limits = 1;
// These values are actually int16s, but protos don't have a native int16
// type.
repeated int32 cells = 2;
CellBox known_cells_box = 8;
} }

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@ -69,7 +69,7 @@ Submap2D::Submap2D(const MapLimits& limits, const Eigen::Vector2f& origin)
Submap2D::Submap2D(const proto::Submap2D& proto) Submap2D::Submap2D(const proto::Submap2D& proto)
: Submap(transform::ToRigid3(proto.local_pose())), : Submap(transform::ToRigid3(proto.local_pose())),
probability_grid_(ProbabilityGrid(proto.probability_grid())) { probability_grid_(ProbabilityGrid(proto.grid())) {
set_num_range_data(proto.num_range_data()); set_num_range_data(proto.num_range_data());
set_finished(proto.finished()); set_finished(proto.finished());
} }
@ -81,7 +81,7 @@ void Submap2D::ToProto(proto::Submap* const proto,
submap_2d->set_num_range_data(num_range_data()); submap_2d->set_num_range_data(num_range_data());
submap_2d->set_finished(finished()); submap_2d->set_finished(finished());
if (include_probability_grid_data) { if (include_probability_grid_data) {
*submap_2d->mutable_probability_grid() = probability_grid_.ToProto(); *submap_2d->mutable_grid() = probability_grid_.ToProto();
} }
} }
@ -90,8 +90,8 @@ void Submap2D::UpdateFromProto(const proto::Submap& proto) {
const auto& submap_2d = proto.submap_2d(); const auto& submap_2d = proto.submap_2d();
set_num_range_data(submap_2d.num_range_data()); set_num_range_data(submap_2d.num_range_data());
set_finished(submap_2d.finished()); set_finished(submap_2d.finished());
if (submap_2d.has_probability_grid()) { if (submap_2d.has_grid()) {
probability_grid_ = ProbabilityGrid(submap_2d.probability_grid()); probability_grid_ = ProbabilityGrid(submap_2d.grid());
} }
} }

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@ -47,24 +47,26 @@ class OverlappingSubmapsTrimmer2DTest : public ::testing::Test {
submap_2d.set_finished(is_finished); submap_2d.set_finished(is_finished);
*submap_2d.mutable_local_pose() = transform::ToProto(pose_3d); *submap_2d.mutable_local_pose() = transform::ToProto(pose_3d);
auto* probability_grid = submap_2d.mutable_probability_grid(); auto* grid = submap_2d.mutable_grid();
for (int i = 0; i < num_cells * num_cells; ++i) { for (int i = 0; i < num_cells * num_cells; ++i) {
probability_grid->add_cells(1); grid->add_cells(1);
} }
auto* map_limits = probability_grid->mutable_limits(); auto* map_limits = grid->mutable_limits();
map_limits->set_resolution(1.0); map_limits->set_resolution(1.0);
*map_limits->mutable_max() = *map_limits->mutable_max() =
transform::ToProto(Eigen::Vector2d(num_cells, num_cells)); transform::ToProto(Eigen::Vector2d(num_cells, num_cells));
map_limits->mutable_cell_limits()->set_num_x_cells(num_cells); map_limits->mutable_cell_limits()->set_num_x_cells(num_cells);
map_limits->mutable_cell_limits()->set_num_y_cells(num_cells); map_limits->mutable_cell_limits()->set_num_y_cells(num_cells);
auto* know_cells_box = probability_grid->mutable_known_cells_box(); auto* know_cells_box = grid->mutable_known_cells_box();
know_cells_box->set_min_x(0); know_cells_box->set_min_x(0);
know_cells_box->set_min_y(0); know_cells_box->set_min_y(0);
know_cells_box->set_max_x(num_cells - 1); know_cells_box->set_max_x(num_cells - 1);
know_cells_box->set_max_y(num_cells - 1); know_cells_box->set_max_y(num_cells - 1);
grid->mutable_probability_grid_2d();
LOG(INFO) << submap_2d.DebugString();
fake_pose_graph_.mutable_submap_data()->Insert( fake_pose_graph_.mutable_submap_data()->Insert(
{0 /* trajectory_id */, submap_index}, {0 /* trajectory_id */, submap_index},
{std::make_shared<const Submap2D>(submap_2d), pose_3d}); {std::make_shared<const Submap2D>(submap_2d), pose_3d});

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@ -44,6 +44,7 @@ inline float ClampProbability(const float probability) {
} }
constexpr uint16 kUnknownProbabilityValue = 0; constexpr uint16 kUnknownProbabilityValue = 0;
constexpr uint16 kUnknownCorrespondenceValue = 0;
constexpr uint16 kUpdateMarker = 1u << 15; constexpr uint16 kUpdateMarker = 1u << 15;
// Converts a probability to a uint16 in the [1, 32767] range. // Converts a probability to a uint16 in the [1, 32767] range.

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@ -16,7 +16,7 @@ syntax = "proto3";
package cartographer.mapping.proto; package cartographer.mapping.proto;
import "cartographer/mapping/2d/proto/probability_grid.proto"; import "cartographer/mapping/2d/proto/grid_2d.proto";
import "cartographer/mapping/3d/proto/hybrid_grid.proto"; import "cartographer/mapping/3d/proto/hybrid_grid.proto";
import "cartographer/transform/proto/transform.proto"; import "cartographer/transform/proto/transform.proto";
@ -25,7 +25,7 @@ message Submap2D {
transform.proto.Rigid3d local_pose = 1; transform.proto.Rigid3d local_pose = 1;
int32 num_range_data = 2; int32 num_range_data = 2;
bool finished = 3; bool finished = 3;
ProbabilityGrid probability_grid = 4; Grid2D grid = 4;
} }
// Serialized state of a Submap3D. // Serialized state of a Submap3D.