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* Author: Eitan Marder-Eppstein
*********************************************************************/
#include <gtest/gtest.h>
#include <ros/ros.h>
#include <costmap_2d/costmap_2d_ros.h>
#include <costmap_2d/cost_values.h>
#include <tf2_ros/transform_listener.h>
namespace costmap_2d {
class CostmapTester : public testing::Test {
public:
CostmapTester(tf2_ros::Buffer& tf);
void checkConsistentCosts();
void compareCellToNeighbors(costmap_2d::Costmap2D& costmap, unsigned int x, unsigned int y);
void compareCells(costmap_2d::Costmap2D& costmap,
unsigned int x, unsigned int y, unsigned int nx, unsigned int ny);
virtual void TestBody(){}
private:
costmap_2d::Costmap2DROS costmap_ros_;
};
CostmapTester::CostmapTester(tf2_ros::Buffer& tf): costmap_ros_("test_costmap", tf){}
void CostmapTester::checkConsistentCosts(){
costmap_2d::Costmap2D* costmap = costmap_ros_.getCostmap();
//get a copy of the costmap contained by our ros wrapper
costmap->saveMap("costmap_test.pgm");
//loop through the costmap and check for any unexpected drop-offs in costs
for(unsigned int i = 0; i < costmap->getSizeInCellsX(); ++i){
for(unsigned int j = 0; j < costmap->getSizeInCellsY(); ++j){
compareCellToNeighbors(*costmap, i, j);
}
}
}
void CostmapTester::compareCellToNeighbors(costmap_2d::Costmap2D& costmap, unsigned int x, unsigned int y){
//we'll compare the cost of this cell with that of its eight neighbors to see if they're reasonable
for(int offset_x = -1; offset_x <= 1; ++offset_x){
for(int offset_y = -1; offset_y <= 1; ++offset_y){
int nx = x + offset_x;
int ny = y + offset_y;
//check to make sure that the neighbor cell is a legal one
if(nx >= 0 && nx < (int)costmap.getSizeInCellsX() && ny >=0 && ny < (int)costmap.getSizeInCellsY()){
compareCells(costmap, x, y, nx, ny);
}
}
}
}
//for all lethal and inscribed costs, we'll make sure that their neighbors have the cost values we'd expect
void CostmapTester::compareCells(costmap_2d::Costmap2D& costmap, unsigned int x, unsigned int y, unsigned int nx, unsigned int ny){
double cell_distance = hypot(static_cast<int>(x-nx), static_cast<int>(y-ny));
unsigned char cell_cost = costmap.getCost(x, y);
unsigned char neighbor_cost = costmap.getCost(nx, ny);
if(cell_cost == costmap_2d::LETHAL_OBSTACLE){
//if the cell is a lethal obstacle, then we know that all its neighbors should have equal or slighlty less cost
unsigned char expected_lowest_cost = 0; // ################costmap.computeCost(cell_distance);
EXPECT_TRUE(neighbor_cost >= expected_lowest_cost || (cell_distance > 0 /*costmap.cell_inflation_radius_*/ && neighbor_cost == costmap_2d::FREE_SPACE));
}
else if(cell_cost == costmap_2d::INSCRIBED_INFLATED_OBSTACLE){
//the furthest valid distance from an obstacle is the inscribed radius plus the cell distance away
double furthest_valid_distance = 0; // ################costmap.cell_inscribed_radius_ + cell_distance + 1;
unsigned char expected_lowest_cost = 0; // ################costmap.computeCost(furthest_valid_distance);
if(neighbor_cost < expected_lowest_cost){
ROS_ERROR("Cell cost (%d, %d): %d, neighbor cost (%d, %d): %d, expected lowest cost: %d, cell distance: %.2f, furthest valid distance: %.2f",
x, y, cell_cost, nx, ny, neighbor_cost, expected_lowest_cost, cell_distance, furthest_valid_distance);
ROS_ERROR("Cell: (%d, %d), Neighbor: (%d, %d)", x, y, nx, ny);
costmap.saveMap("failing_costmap.pgm");
}
EXPECT_TRUE(neighbor_cost >= expected_lowest_cost || (furthest_valid_distance > 0/* costmap.cell_inflation_radius_ */&& neighbor_cost == costmap_2d::FREE_SPACE));
}
}
};
costmap_2d::CostmapTester* map_tester = NULL;
TEST(CostmapTester, checkConsistentCosts){
map_tester->checkConsistentCosts();
}
void testCallback(const ros::TimerEvent& e){
int test_result = RUN_ALL_TESTS();
ROS_INFO("gtest return value: %d", test_result);
ros::shutdown();
}
int main(int argc, char** argv){
ros::init(argc, argv, "costmap_tester_node");
testing::InitGoogleTest(&argc, argv);
ros::NodeHandle n;
ros::NodeHandle private_nh("~");
tf2_ros::Buffer tf(ros::Duration(10));
tf2_ros::TransformListener tfl(tf);
map_tester = new costmap_2d::CostmapTester(tf);
double wait_time;
private_nh.param("wait_time", wait_time, 30.0);
ros::Timer timer = n.createTimer(ros::Duration(wait_time), testCallback);
ros::spin();
return(0);
}
