New node that creates a ROS map from submap textures. (#432)

Fixes #343.
master
Holger Rapp 2017-07-21 16:19:14 +02:00 committed by GitHub
parent e5c2881b90
commit 1ea5f90b8b
2 changed files with 329 additions and 0 deletions

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@ -55,3 +55,14 @@ install(TARGETS cartographer_start_trajectory
LIBRARY DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION} LIBRARY DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION}
RUNTIME DESTINATION ${CATKIN_PACKAGE_BIN_DESTINATION} RUNTIME DESTINATION ${CATKIN_PACKAGE_BIN_DESTINATION}
) )
google_binary(cartographer_occupancy_grid_node
SRCS
occupancy_grid_node_main.cc
)
install(TARGETS cartographer_occupancy_grid_node
ARCHIVE DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION}
LIBRARY DESTINATION ${CATKIN_PACKAGE_LIB_DESTINATION}
RUNTIME DESTINATION ${CATKIN_PACKAGE_BIN_DESTINATION}
)

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@ -0,0 +1,318 @@
/*
* 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 <cmath>
#include <string>
#include <vector>
#include "Eigen/Core"
#include "Eigen/Geometry"
#include "cairo/cairo.h"
#include "cartographer/common/mutex.h"
#include "cartographer/common/port.h"
#include "cartographer/mapping/id.h"
#include "cartographer/transform/rigid_transform.h"
#include "cartographer_ros/msg_conversion.h"
#include "cartographer_ros/node_constants.h"
#include "cartographer_ros/ros_log_sink.h"
#include "cartographer_ros/submap.h"
#include "cartographer_ros_msgs/SubmapList.h"
#include "cartographer_ros_msgs/SubmapQuery.h"
#include "gflags/gflags.h"
#include "nav_msgs/OccupancyGrid.h"
#include "ros/ros.h"
DEFINE_double(resolution, 0.05,
"Resolution of a grid cell in the published occupancy grid.");
namespace cartographer_ros {
namespace {
using ::cartographer::mapping::SubmapId;
constexpr cairo_format_t kCairoFormat = CAIRO_FORMAT_ARGB32;
// std::unique_ptr for Cairo surfaces. The surface is destroyed when the
// std::unique_ptr is reset or destroyed.
using UniqueCairoSurfacePtr =
std::unique_ptr<cairo_surface_t, void (*)(cairo_surface_t*)>;
UniqueCairoSurfacePtr MakeUniqueCairoSurfacePtr(cairo_surface_t* surface) {
return UniqueCairoSurfacePtr(surface, cairo_surface_destroy);
}
// std::unique_ptr for Cairo contexts.
using UniqueCairoPtr = std::unique_ptr<cairo_t, void (*)(cairo_t*)>;
UniqueCairoPtr MakeUniqueCairoPtr(cairo_t* surface) {
return UniqueCairoPtr(surface, cairo_destroy);
}
Eigen::Affine3d ToEigen(const ::cartographer::transform::Rigid3d& rigid3) {
return Eigen::Translation3d(rigid3.translation()) * rigid3.rotation();
}
struct SubmapState {
SubmapState() : surface(MakeUniqueCairoSurfacePtr(nullptr)) {}
// Texture data.
int width;
int height;
int version;
double resolution;
::cartographer::transform::Rigid3d slice_pose;
UniqueCairoSurfacePtr surface;
// Pixel data used by 'surface'. Must outlive 'surface'.
std::vector<uint32_t> cairo_data;
// Metadata.
::cartographer::transform::Rigid3d pose;
int metadata_version = -1;
};
void CairoDrawEachSubmap(
const double scale, std::map<SubmapId, SubmapState>* submaps, cairo_t* cr,
std::function<void(const SubmapState&)> draw_callback) {
cairo_scale(cr, scale, scale);
for (auto& pair : *submaps) {
auto& submap_state = pair.second;
if (submap_state.surface == nullptr) {
return;
}
const Eigen::Matrix4d homo =
ToEigen(submap_state.pose * submap_state.slice_pose).matrix();
cairo_save(cr);
cairo_matrix_t matrix;
cairo_matrix_init(&matrix, homo(1, 0), homo(0, 0), -homo(1, 1), -homo(0, 1),
homo(0, 3), -homo(1, 3));
cairo_transform(cr, &matrix);
const double submap_resolution = submap_state.resolution;
cairo_scale(cr, submap_resolution, submap_resolution);
draw_callback(submap_state);
cairo_restore(cr);
}
}
class Node {
public:
explicit Node(double resolution);
~Node() {}
Node(const Node&) = delete;
Node& operator=(const Node&) = delete;
private:
void HandleSubmapList(const cartographer_ros_msgs::SubmapList::ConstPtr& msg);
void DrawAndPublish(const string& frame_id, const ros::Time& time);
void PublishOccupancyGrid(const string& frame_id, const ros::Time& time,
const Eigen::Array2f& origin,
const Eigen::Array2i& size,
cairo_surface_t* surface);
::ros::NodeHandle node_handle_;
const double resolution_;
::cartographer::common::Mutex mutex_;
::ros::ServiceClient client_ GUARDED_BY(mutex_);
::ros::Subscriber submap_list_subscriber_ GUARDED_BY(mutex_);
::ros::Publisher occupancy_grid_publisher_ GUARDED_BY(mutex_);
std::map<SubmapId, SubmapState> submaps_ GUARDED_BY(mutex_);
};
Node::Node(const double resolution)
: resolution_(resolution),
client_(node_handle_.serviceClient<::cartographer_ros_msgs::SubmapQuery>(
kSubmapQueryServiceName)),
submap_list_subscriber_(node_handle_.subscribe(
kSubmapListTopic, kLatestOnlyPublisherQueueSize,
boost::function<void(
const cartographer_ros_msgs::SubmapList::ConstPtr&)>(
[this](const cartographer_ros_msgs::SubmapList::ConstPtr& msg) {
HandleSubmapList(msg);
}))),
occupancy_grid_publisher_(
node_handle_.advertise<::nav_msgs::OccupancyGrid>(
kOccupancyGridTopic, kLatestOnlyPublisherQueueSize,
true /* latched */))
{}
void Node::HandleSubmapList(
const cartographer_ros_msgs::SubmapList::ConstPtr& msg) {
::cartographer::common::MutexLocker locker(&mutex_);
// We do not do any work if nobody listens.
if (occupancy_grid_publisher_.getNumSubscribers() == 0) {
return;
}
for (const auto& submap_msg : msg->submap) {
const SubmapId id{submap_msg.trajectory_id, submap_msg.submap_index};
SubmapState& submap_state = submaps_[id];
submap_state.pose = ToRigid3d(submap_msg.pose);
submap_state.metadata_version = submap_msg.submap_version;
if (submap_state.surface != nullptr &&
submap_state.version == submap_msg.submap_version) {
continue;
}
auto fetched_texture = ::cartographer_ros::FetchSubmapTexture(id, &client_);
if (fetched_texture == nullptr) {
continue;
}
submap_state.width = fetched_texture->width;
submap_state.height = fetched_texture->height;
submap_state.version = fetched_texture->version;
submap_state.slice_pose = fetched_texture->slice_pose;
submap_state.resolution = fetched_texture->resolution;
// Properly dealing with a non-common stride would make this code much more
// complicated. Let's check that it is not needed.
const int expected_stride = 4 * submap_state.width;
CHECK_EQ(expected_stride,
cairo_format_stride_for_width(kCairoFormat, submap_state.width));
submap_state.cairo_data.clear();
for (size_t i = 0; i < fetched_texture->intensity.size(); ++i) {
// We use the red channel to track intensity information. The green
// channel we use to track if a cell was ever observed.
const uint8_t intensity = fetched_texture->intensity.at(i);
const uint8_t alpha = fetched_texture->alpha.at(i);
const uint8_t observed = (intensity == 0 && alpha == 0) ? 0 : 255;
submap_state.cairo_data.push_back((alpha << 24) | (intensity << 16) |
(observed << 8) | 0);
}
submap_state.surface =
MakeUniqueCairoSurfacePtr(cairo_image_surface_create_for_data(
reinterpret_cast<unsigned char*>(submap_state.cairo_data.data()),
kCairoFormat, submap_state.width, submap_state.height,
expected_stride));
CHECK_EQ(cairo_surface_status(submap_state.surface.get()),
CAIRO_STATUS_SUCCESS)
<< cairo_status_to_string(
cairo_surface_status(submap_state.surface.get()));
}
DrawAndPublish(msg->header.frame_id, msg->header.stamp);
}
void Node::DrawAndPublish(const string& frame_id, const ros::Time& time) {
if (submaps_.empty()) {
return;
}
Eigen::AlignedBox2f bounding_box;
{
auto surface = MakeUniqueCairoSurfacePtr(
cairo_image_surface_create(kCairoFormat, 1, 1));
auto cr = MakeUniqueCairoPtr(cairo_create(surface.get()));
const auto update_bounding_box = [&bounding_box, &cr](double x, double y) {
cairo_user_to_device(cr.get(), &x, &y);
bounding_box.extend(Eigen::Vector2f(x, y));
};
CairoDrawEachSubmap(
1. / resolution_, &submaps_, cr.get(),
[&update_bounding_box, &bounding_box](const SubmapState& submap_state) {
update_bounding_box(0, 0);
update_bounding_box(submap_state.width, 0);
update_bounding_box(0, submap_state.height);
update_bounding_box(submap_state.width, submap_state.height);
});
}
const int kPaddingPixel = 5;
const Eigen::Array2i size(
std::ceil(bounding_box.sizes().x()) + 2 * kPaddingPixel,
std::ceil(bounding_box.sizes().y()) + 2 * kPaddingPixel);
const Eigen::Array2f origin(-bounding_box.min().x() + kPaddingPixel,
-bounding_box.min().y() + kPaddingPixel);
{
auto surface = MakeUniqueCairoSurfacePtr(
cairo_image_surface_create(kCairoFormat, size.x(), size.y()));
auto cr = MakeUniqueCairoPtr(cairo_create(surface.get()));
cairo_set_source_rgba(cr.get(), 0.5, 0.0, 0.0, 1.);
cairo_paint(cr.get());
cairo_translate(cr.get(), origin.x(), origin.y());
CairoDrawEachSubmap(1. / resolution_, &submaps_, cr.get(),
[&cr](const SubmapState& submap_state) {
cairo_set_source_surface(
cr.get(), submap_state.surface.get(), 0., 0.);
cairo_paint(cr.get());
});
cairo_surface_flush(surface.get());
PublishOccupancyGrid(frame_id, time, origin, size, surface.get());
}
}
void Node::PublishOccupancyGrid(const string& frame_id, const ros::Time& time,
const Eigen::Array2f& origin,
const Eigen::Array2i& size,
cairo_surface_t* surface) {
nav_msgs::OccupancyGrid occupancy_grid;
occupancy_grid.header.stamp = time;
occupancy_grid.header.frame_id = frame_id;
occupancy_grid.info.map_load_time = time;
occupancy_grid.info.resolution = resolution_;
occupancy_grid.info.width = size.x();
occupancy_grid.info.height = size.y();
occupancy_grid.info.origin.position.x = -origin.x() * resolution_;
occupancy_grid.info.origin.position.y =
(-size.y() + origin.y()) * resolution_;
occupancy_grid.info.origin.position.z = 0.;
occupancy_grid.info.origin.orientation.w = 1.;
occupancy_grid.info.origin.orientation.x = 0.;
occupancy_grid.info.origin.orientation.y = 0.;
occupancy_grid.info.origin.orientation.z = 0.;
const uint32* pixel_data =
reinterpret_cast<uint32*>(cairo_image_surface_get_data(surface));
occupancy_grid.data.reserve(size.x() * size.y());
for (int y = size.y() - 1; y >= 0; --y) {
for (int x = 0; x < size.x(); ++x) {
const uint32 packed = pixel_data[y * size.x() + x];
const unsigned char color = packed >> 16;
const unsigned char observed = packed >> 8;
const int value =
observed == 0
? -1
: ::cartographer::common::RoundToInt((1. - color / 255.) * 100.);
CHECK_LE(-1, value);
CHECK_GE(100, value);
occupancy_grid.data.push_back(value);
}
}
occupancy_grid_publisher_.publish(occupancy_grid);
}
} // namespace
} // namespace cartographer_ros
int main(int argc, char** argv) {
google::InitGoogleLogging(argv[0]);
google::ParseCommandLineFlags(&argc, &argv, true);
::ros::init(argc, argv, "cartographer_occupancy_grid_node");
::ros::start();
cartographer_ros::ScopedRosLogSink ros_log_sink;
::cartographer_ros::Node node(FLAGS_resolution);
::ros::spin();
::ros::shutdown();
}