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pxmlw6n2f/Gazebo_Distributed_TCP/gazebo/sensors/RaySensor_TEST.cc

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/*
* Copyright (C) 2012 Open Source Robotics Foundation
*
* 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 <gtest/gtest.h>
#include <sdf/sdf.hh>
#include "gazebo/test/ServerFixture.hh"
using namespace gazebo;
class RaySensor_TEST : public ServerFixture
{
};
static std::string raySensorString =
"<sdf version='1.3'>"
" <sensor name='laser' type='ray'>"
" <always_on>1</always_on>"
" <visualize>1</visualize>"
" <update_rate>20.000000</update_rate>"
" <ray>"
" <scan>"
" <horizontal>"
" <samples>640</samples>"
" <resolution>1.000000</resolution>"
" <min_angle>-2.2689</min_angle>"
" <max_angle>2.2689</max_angle>"
" </horizontal>"
" </scan>"
" <range>"
" <min>0.08</min>"
" <max>10.0</max>"
" <resolution>0.01</resolution>"
" </range>"
" </ray>"
" </sensor>"
"</sdf>";
static std::string raySensorScanResString =
"<sdf version='1.3'>"
" <sensor name='laser' type='ray'>"
" <always_on>1</always_on>"
" <visualize>1</visualize>"
" <update_rate>20.000000</update_rate>"
" <ray>"
" <scan>"
" <horizontal>"
" <samples>120</samples>"
" <resolution>2</resolution>"
" <min_angle>-2.2689</min_angle>"
" <max_angle>2.2689</max_angle>"
" </horizontal>"
" <vertical>"
" <samples>2</samples>"
" <resolution>3</resolution>"
" <min_angle>-2.2689</min_angle>"
" <max_angle>2.2689</max_angle>"
" </vertical>"
" </scan>"
" <range>"
" <min>0.08</min>"
" <max>10.0</max>"
" <resolution>0.01</resolution>"
" </range>"
" </ray>"
" </sensor>"
"</sdf>";
/////////////////////////////////////////////////
/// \brief Test Creation of a Ray sensor
TEST_F(RaySensor_TEST, CreateLaser)
{
Load("worlds/empty.world");
sensors::SensorManager *mgr = sensors::SensorManager::Instance();
sdf::ElementPtr sdf(new sdf::Element);
sdf::initFile("sensor.sdf", sdf);
sdf::readString(raySensorString, sdf);
// Create the Ray sensor
std::string sensorName = mgr->CreateSensor(sdf, "default",
"ground_plane::link", 0);
// Make sure the returned sensor name is correct
EXPECT_EQ(sensorName, std::string("default::ground_plane::link::laser"));
// Update the sensor manager so that it can process new sensors.
mgr->Update();
// Get a pointer to the Ray sensor
sensors::RaySensorPtr sensor = std::dynamic_pointer_cast<sensors::RaySensor>
(mgr->GetSensor(sensorName));
// Make sure the above dynamic cast worked.
EXPECT_TRUE(sensor != NULL);
double angleRes = (sensor->AngleMax() - sensor->AngleMin()).Radian() /
sensor->RayCount();
EXPECT_EQ(sensor->AngleMin(), ignition::math::Angle(-2.2689));
EXPECT_EQ(sensor->AngleMax(), ignition::math::Angle(2.2689));
EXPECT_NEAR(sensor->RangeMin(), 0.08, 1e-6);
EXPECT_NEAR(sensor->RangeMax(), 10.0, 1e-6);
EXPECT_NEAR(sensor->AngleResolution(), angleRes, 1e-3);
EXPECT_NEAR(sensor->RangeResolution(), 0.01, 1e-3);
EXPECT_EQ(sensor->RayCount(), 640);
EXPECT_EQ(sensor->RangeCount(), 640);
EXPECT_EQ(sensor->VerticalRayCount(), 1);
EXPECT_EQ(sensor->VerticalRangeCount(), 1);
EXPECT_EQ(sensor->VerticalAngleMin(), 0);
EXPECT_EQ(sensor->VerticalAngleMax(), 0);
EXPECT_TRUE(sensor->IsActive());
// Update the sensor
sensor->Update(true);
// Get all the range values
std::vector<double> ranges;
sensor->Ranges(ranges);
EXPECT_EQ(ranges.size(), static_cast<size_t>(640));
// Check that all the range values
for (unsigned int i = 0; i < ranges.size(); ++i)
{
EXPECT_DOUBLE_EQ(ranges[i], IGN_DBL_INF);
EXPECT_DOUBLE_EQ(sensor->Range(i), ranges[i]);
EXPECT_NEAR(sensor->Retro(i), 0, 1e-6);
EXPECT_EQ(sensor->Fiducial(i), -1);
}
}
/////////////////////////////////////////////////
/// \brief Test Creation of a Ray sensor with a scan resolution higher than 1
TEST_F(RaySensor_TEST, LaserScanResolution)
{
Load("worlds/empty.world");
sensors::SensorManager *mgr = sensors::SensorManager::Instance();
sdf::ElementPtr sdf(new sdf::Element);
sdf::initFile("sensor.sdf", sdf);
sdf::readString(raySensorScanResString, sdf);
// Create the Ray sensor
std::string sensorName = mgr->CreateSensor(sdf, "default",
"ground_plane::link", 0);
// Make sure the returned sensor name is correct
EXPECT_EQ(sensorName, std::string("default::ground_plane::link::laser"));
// Update the sensor manager so that it can process new sensors.
mgr->Update();
// Get a pointer to the Ray sensor
sensors::RaySensorPtr sensor = std::dynamic_pointer_cast<sensors::RaySensor>
(mgr->GetSensor(sensorName));
// Make sure the above dynamic cast worked.
EXPECT_TRUE(sensor != NULL);
// range count = ray count * resolution
EXPECT_EQ(sensor->RayCount(), 120);
EXPECT_EQ(sensor->RangeCount(), 240);
EXPECT_EQ(sensor->VerticalRayCount(), 2);
EXPECT_EQ(sensor->VerticalRangeCount(), 6);
EXPECT_TRUE(sensor->IsActive());
// Update the sensor
sensor->Update(true);
// Get all the range values
std::vector<double> ranges;
sensor->Ranges(ranges);
EXPECT_EQ(ranges.size(), static_cast<size_t>(240 * 6));
// Check that all the range values
for (unsigned int i = 0; i < ranges.size(); ++i)
{
EXPECT_DOUBLE_EQ(ranges[i], GZ_DBL_INF);
EXPECT_DOUBLE_EQ(sensor->Range(i), ranges[i]);
EXPECT_NEAR(sensor->Retro(i), 0, 1e-6);
EXPECT_EQ(sensor->Fiducial(i), -1);
}
}
/////////////////////////////////////////////////
int main(int argc, char **argv)
{
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
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