adioshun/CMakeLists.txt

## CMakeLists.txt
cmake_minimum_required(VERSION 2.6 FATAL_ERROR)

project(range_image_visualization)

find_package(PCL 1.3 REQUIRED)

include_directories(${PCL_INCLUDE_DIRS})
link_directories(${PCL_LIBRARY_DIRS})
add_definitions(${PCL_DEFINITIONS})

add_executable (range_image_visualization range_image_visualization.cpp)
target_link_libraries (range_image_visualization ${PCL_LIBRARIES})

## range_image_visualization.cpp
#include <iostream>

#include <boost/thread/thread.hpp>

#include <pcl/common/common_headers.h>
#include <pcl/range_image/range_image.h>
#include <pcl/io/pcd_io.h>
#include <pcl/visualization/range_image_visualizer.h>
#include <pcl/visualization/pcl_visualizer.h>
#include <pcl/console/parse.h>

typedef pcl::PointXYZ PointType;

// --------------------
// -----Parameters-----
// --------------------
float angular_resolution_x = 0.5f,
      angular_resolution_y = angular_resolution_x;
pcl::RangeImage::CoordinateFrame coordinate_frame = pcl::RangeImage::CAMERA_FRAME;
bool live_update = false;

// --------------
// -----Help-----
// --------------
void
printUsage (const char* progName)
{
  std::cout << "\n\nUsage: "<<progName<<" [options] <scene.pcd>\n\n"
            << "Options:\n"
            << "-------------------------------------------\n"
            << "-rx <float>  angular resolution in degrees (default "<<angular_resolution_x<<")\n"
            << "-ry <float>  angular resolution in degrees (default "<<angular_resolution_y<<")\n"
            << "-c <int>     coordinate frame (default "<< (int)coordinate_frame<<")\n"
            << "-l           live update - update the range image according to the selected view in the 3D viewer.\n"
            << "-h           this help\n"
            << "\n\n";
}

void
setViewerPose (pcl::visualization::PCLVisualizer& viewer, const Eigen::Affine3f& viewer_pose)
{
  Eigen::Vector3f pos_vector = viewer_pose * Eigen::Vector3f(0, 0, 0);
  Eigen::Vector3f look_at_vector = viewer_pose.rotation () * Eigen::Vector3f(0, 0, 1) + pos_vector;
  Eigen::Vector3f up_vector = viewer_pose.rotation () * Eigen::Vector3f(0, -1, 0);
  viewer.setCameraPosition (pos_vector[0], pos_vector[1], pos_vector[2],
                            look_at_vector[0], look_at_vector[1], look_at_vector[2],
                            up_vector[0], up_vector[1], up_vector[2]);
}

// --------------
// -----Main-----
// --------------
int
main (int argc, char** argv)
{
  // --------------------------------------
  // -----Parse Command Line Arguments-----
  // --------------------------------------
  if (pcl::console::find_argument (argc, argv, "-h") >= 0)
  {
    printUsage (argv[0]);
    return 0;
  }
  if (pcl::console::find_argument (argc, argv, "-l") >= 0)
  {
    live_update = true;
    std::cout << "Live update is on.\n";
  }
  if (pcl::console::parse (argc, argv, "-rx", angular_resolution_x) >= 0)
    std::cout << "Setting angular resolution in x-direction to "<<angular_resolution_x<<"deg.\n";
  if (pcl::console::parse (argc, argv, "-ry", angular_resolution_y) >= 0)
    std::cout << "Setting angular resolution in y-direction to "<<angular_resolution_y<<"deg.\n";
  int tmp_coordinate_frame;
  if (pcl::console::parse (argc, argv, "-c", tmp_coordinate_frame) >= 0)
  {
    coordinate_frame = pcl::RangeImage::CoordinateFrame (tmp_coordinate_frame);
    std::cout << "Using coordinate frame "<< (int)coordinate_frame<<".\n";
  }
  angular_resolution_x = pcl::deg2rad (angular_resolution_x);
  angular_resolution_y = pcl::deg2rad (angular_resolution_y);

  // ------------------------------------------------------------------
  // -----Read pcd file or create example point cloud if not given-----
  // ------------------------------------------------------------------
  pcl::PointCloud<PointType>::Ptr point_cloud_ptr (new pcl::PointCloud<PointType>);
  pcl::PointCloud<PointType>& point_cloud = *point_cloud_ptr;
  Eigen::Affine3f scene_sensor_pose (Eigen::Affine3f::Identity ());
  std::vector<int> pcd_filename_indices = pcl::console::parse_file_extension_argument (argc, argv, "pcd");
  if (!pcd_filename_indices.empty ())
  {
    std::string filename = argv[pcd_filename_indices[0]];
    if (pcl::io::loadPCDFile (filename, point_cloud) == -1)
    {
      std::cout << "Was not able to open file \""<<filename<<"\".\n";
      printUsage (argv[0]);
      return 0;
    }
    scene_sensor_pose = Eigen::Affine3f (Eigen::Translation3f (point_cloud.sensor_origin_[0],
                                                             point_cloud.sensor_origin_[1],
                                                             point_cloud.sensor_origin_[2])) *
                        Eigen::Affine3f (point_cloud.sensor_orientation_);
  }
  else
  {
    std::cout << "\nNo *.pcd file given => Genarating example point cloud.\n\n";
    for (float x=-0.5f; x<=0.5f; x+=0.01f)
    {
      for (float y=-0.5f; y<=0.5f; y+=0.01f)
      {
        PointType point;  point.x = x;  point.y = y;  point.z = 2.0f - y;
        point_cloud.points.push_back (point);
      }
    }
    point_cloud.width = (int) point_cloud.points.size ();  point_cloud.height = 1;
  }

  // -----------------------------------------------
  // -----Create RangeImage from the PointCloud-----
  // -----------------------------------------------
  float noise_level = 0.0;
  float min_range = 0.0f;
  int border_size = 1;
  boost::shared_ptr<pcl::RangeImage> range_image_ptr(new pcl::RangeImage);
  pcl::RangeImage& range_image = *range_image_ptr;
  range_image.createFromPointCloud (point_cloud, angular_resolution_x, angular_resolution_y,
                                    pcl::deg2rad (360.0f), pcl::deg2rad (180.0f),
                                    scene_sensor_pose, coordinate_frame, noise_level, min_range, border_size);

  // --------------------------------------------
  // -----Open 3D viewer and add point cloud-----
  // --------------------------------------------
  pcl::visualization::PCLVisualizer viewer ("3D Viewer");
  viewer.setBackgroundColor (1, 1, 1);
  pcl::visualization::PointCloudColorHandlerCustom<pcl::PointWithRange> range_image_color_handler (range_image_ptr, 0, 0, 0);
  viewer.addPointCloud (range_image_ptr, range_image_color_handler, "range image");
  viewer.setPointCloudRenderingProperties (pcl::visualization::PCL_VISUALIZER_POINT_SIZE, 1, "range image");
  //viewer.addCoordinateSystem (1.0f, "global");
  //PointCloudColorHandlerCustom<PointType> point_cloud_color_handler (point_cloud_ptr, 150, 150, 150);
  //viewer.addPointCloud (point_cloud_ptr, point_cloud_color_handler, "original point cloud");
  viewer.initCameraParameters ();
  setViewerPose(viewer, range_image.getTransformationToWorldSystem ());

  // --------------------------
  // -----Show range image-----
  // --------------------------
  pcl::visualization::RangeImageVisualizer range_image_widget ("Range image");
  range_image_widget.showRangeImage (range_image);

  //--------------------
  // -----Main loop-----
  //--------------------
  while (!viewer.wasStopped ())
  {
    range_image_widget.spinOnce ();
    viewer.spinOnce ();
    pcl_sleep (0.01);

    if (live_update)
    {
      scene_sensor_pose = viewer.getViewerPose();
      range_image.createFromPointCloud (point_cloud, angular_resolution_x, angular_resolution_y,
                                        pcl::deg2rad (360.0f), pcl::deg2rad (180.0f),
                                        scene_sensor_pose, pcl::RangeImage::LASER_FRAME, noise_level, min_range, border_size);
      range_image_widget.showRangeImage (range_image);
    }
  }
}
	cmake_minimum_required(VERSION 2.6 FATAL_ERROR)

	project(range_image_visualization)

	find_package(PCL 1.3 REQUIRED)

	include_directories(${PCL_INCLUDE_DIRS})
	link_directories(${PCL_LIBRARY_DIRS})
	add_definitions(${PCL_DEFINITIONS})

	add_executable (range_image_visualization range_image_visualization.cpp)
	target_link_libraries (range_image_visualization ${PCL_LIBRARIES})
	#include <iostream>

	#include <boost/thread/thread.hpp>

	#include <pcl/common/common_headers.h>
	#include <pcl/range_image/range_image.h>
	#include <pcl/io/pcd_io.h>
	#include <pcl/visualization/range_image_visualizer.h>
	#include <pcl/visualization/pcl_visualizer.h>
	#include <pcl/console/parse.h>

	typedef pcl::PointXYZ PointType;

	// --------------------
	// -----Parameters-----
	// --------------------
	float angular_resolution_x = 0.5f,
	angular_resolution_y = angular_resolution_x;
	pcl::RangeImage::CoordinateFrame coordinate_frame = pcl::RangeImage::CAMERA_FRAME;
	bool live_update = false;

	// --------------
	// -----Help-----
	// --------------
	void
	printUsage (const char* progName)
	{
	std::cout << "\n\nUsage: "<<progName<<" [options] <scene.pcd>\n\n"
	<< "Options:\n"
	<< "-------------------------------------------\n"
	<< "-rx <float> angular resolution in degrees (default "<<angular_resolution_x<<")\n"
	<< "-ry <float> angular resolution in degrees (default "<<angular_resolution_y<<")\n"
	<< "-c <int> coordinate frame (default "<< (int)coordinate_frame<<")\n"
	<< "-l live update - update the range image according to the selected view in the 3D viewer.\n"
	<< "-h this help\n"
	<< "\n\n";
	}

	void
	setViewerPose (pcl::visualization::PCLVisualizer& viewer, const Eigen::Affine3f& viewer_pose)
	{
	Eigen::Vector3f pos_vector = viewer_pose * Eigen::Vector3f(0, 0, 0);
	Eigen::Vector3f look_at_vector = viewer_pose.rotation () * Eigen::Vector3f(0, 0, 1) + pos_vector;
	Eigen::Vector3f up_vector = viewer_pose.rotation () * Eigen::Vector3f(0, -1, 0);
	viewer.setCameraPosition (pos_vector[0], pos_vector[1], pos_vector[2],
	look_at_vector[0], look_at_vector[1], look_at_vector[2],
	up_vector[0], up_vector[1], up_vector[2]);
	}

	// --------------
	// -----Main-----
	// --------------
	int
	main (int argc, char** argv)
	{
	// --------------------------------------
	// -----Parse Command Line Arguments-----
	// --------------------------------------
	if (pcl::console::find_argument (argc, argv, "-h") >= 0)
	{
	printUsage (argv[0]);
	return 0;
	}
	if (pcl::console::find_argument (argc, argv, "-l") >= 0)
	{
	live_update = true;
	std::cout << "Live update is on.\n";
	}
	if (pcl::console::parse (argc, argv, "-rx", angular_resolution_x) >= 0)
	std::cout << "Setting angular resolution in x-direction to "<<angular_resolution_x<<"deg.\n";
	if (pcl::console::parse (argc, argv, "-ry", angular_resolution_y) >= 0)
	std::cout << "Setting angular resolution in y-direction to "<<angular_resolution_y<<"deg.\n";
	int tmp_coordinate_frame;
	if (pcl::console::parse (argc, argv, "-c", tmp_coordinate_frame) >= 0)
	{
	coordinate_frame = pcl::RangeImage::CoordinateFrame (tmp_coordinate_frame);
	std::cout << "Using coordinate frame "<< (int)coordinate_frame<<".\n";
	}
	angular_resolution_x = pcl::deg2rad (angular_resolution_x);
	angular_resolution_y = pcl::deg2rad (angular_resolution_y);

	// ------------------------------------------------------------------
	// -----Read pcd file or create example point cloud if not given-----
	// ------------------------------------------------------------------
	pcl::PointCloud<PointType>::Ptr point_cloud_ptr (new pcl::PointCloud<PointType>);
	pcl::PointCloud<PointType>& point_cloud = *point_cloud_ptr;
	Eigen::Affine3f scene_sensor_pose (Eigen::Affine3f::Identity ());
	std::vector<int> pcd_filename_indices = pcl::console::parse_file_extension_argument (argc, argv, "pcd");
	if (!pcd_filename_indices.empty ())
	{
	std::string filename = argv[pcd_filename_indices[0]];
	if (pcl::io::loadPCDFile (filename, point_cloud) == -1)
	{
	std::cout << "Was not able to open file \""<<filename<<"\".\n";
	printUsage (argv[0]);
	return 0;
	}
	scene_sensor_pose = Eigen::Affine3f (Eigen::Translation3f (point_cloud.sensor_origin_[0],
	point_cloud.sensor_origin_[1],
	point_cloud.sensor_origin_[2])) *
	Eigen::Affine3f (point_cloud.sensor_orientation_);
	}
	else
	{
	std::cout << "\nNo *.pcd file given => Genarating example point cloud.\n\n";
	for (float x=-0.5f; x<=0.5f; x+=0.01f)
	{
	for (float y=-0.5f; y<=0.5f; y+=0.01f)
	{
	PointType point; point.x = x; point.y = y; point.z = 2.0f - y;
	point_cloud.points.push_back (point);
	}
	}
	point_cloud.width = (int) point_cloud.points.size (); point_cloud.height = 1;
	}

	// -----------------------------------------------
	// -----Create RangeImage from the PointCloud-----
	// -----------------------------------------------
	float noise_level = 0.0;
	float min_range = 0.0f;
	int border_size = 1;
	boost::shared_ptr<pcl::RangeImage> range_image_ptr(new pcl::RangeImage);
	pcl::RangeImage& range_image = *range_image_ptr;
	range_image.createFromPointCloud (point_cloud, angular_resolution_x, angular_resolution_y,
	pcl::deg2rad (360.0f), pcl::deg2rad (180.0f),
	scene_sensor_pose, coordinate_frame, noise_level, min_range, border_size);

	// --------------------------------------------
	// -----Open 3D viewer and add point cloud-----
	// --------------------------------------------
	pcl::visualization::PCLVisualizer viewer ("3D Viewer");
	viewer.setBackgroundColor (1, 1, 1);
	pcl::visualization::PointCloudColorHandlerCustom<pcl::PointWithRange> range_image_color_handler (range_image_ptr, 0, 0, 0);
	viewer.addPointCloud (range_image_ptr, range_image_color_handler, "range image");
	viewer.setPointCloudRenderingProperties (pcl::visualization::PCL_VISUALIZER_POINT_SIZE, 1, "range image");
	//viewer.addCoordinateSystem (1.0f, "global");
	//PointCloudColorHandlerCustom<PointType> point_cloud_color_handler (point_cloud_ptr, 150, 150, 150);
	//viewer.addPointCloud (point_cloud_ptr, point_cloud_color_handler, "original point cloud");
	viewer.initCameraParameters ();
	setViewerPose(viewer, range_image.getTransformationToWorldSystem ());

	// --------------------------
	// -----Show range image-----
	// --------------------------
	pcl::visualization::RangeImageVisualizer range_image_widget ("Range image");
	range_image_widget.showRangeImage (range_image);

	//--------------------
	// -----Main loop-----
	//--------------------
	while (!viewer.wasStopped ())
	{
	range_image_widget.spinOnce ();
	viewer.spinOnce ();
	pcl_sleep (0.01);

	if (live_update)
	{
	scene_sensor_pose = viewer.getViewerPose();
	range_image.createFromPointCloud (point_cloud, angular_resolution_x, angular_resolution_y,
	pcl::deg2rad (360.0f), pcl::deg2rad (180.0f),
	scene_sensor_pose, pcl::RangeImage::LASER_FRAME, noise_level, min_range, border_size);
	range_image_widget.showRangeImage (range_image);
	}
	}
	}