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00037 #include <moveit/ompl_interface/parameterization/joint_space/joint_model_state_space.h>
00038 #include <moveit/ompl_interface/parameterization/work_space/pose_model_state_space.h>
00039
00040 #include <urdf_parser/urdf_parser.h>
00041
00042 #include <ompl/util/Exception.h>
00043 #include <moveit/robot_state/conversions.h>
00044 #include <gtest/gtest.h>
00045 #include <fstream>
00046
00047 class LoadPlanningModelsPr2 : public testing::Test
00048 {
00049 protected:
00050
00051 virtual void SetUp()
00052 {
00053 srdf_model_.reset(new srdf::Model());
00054
00055 std::string xml_string;
00056 std::fstream xml_file("../kinematic_state/test/urdf/robot.xml", std::fstream::in);
00057 if (xml_file.is_open())
00058 {
00059 while ( xml_file.good() )
00060 {
00061 std::string line;
00062 std::getline( xml_file, line);
00063 xml_string += (line + "\n");
00064 }
00065 xml_file.close();
00066 urdf_model_ = urdf::parseURDF(xml_string);
00067 urdf_ok_ = urdf_model_;
00068 }
00069 else
00070 urdf_ok_ = false;
00071 srdf_ok_ = srdf_model_->initFile(*urdf_model_, "../kinematic_state/test/srdf/robot.xml");
00072
00073 if (urdf_ok_ && srdf_ok_)
00074 kmodel_.reset(new robot_model::RobotModel(urdf_model_, srdf_model_));
00075 };
00076
00077 virtual void TearDown()
00078 {
00079 }
00080
00081 protected:
00082 robot_model::RobotModelPtr kmodel_;
00083 boost::shared_ptr<urdf::ModelInterface> urdf_model_;
00084 boost::shared_ptr<srdf::Model> srdf_model_;
00085 bool urdf_ok_;
00086 bool srdf_ok_;
00087
00088 };
00089
00090 TEST_F(LoadPlanningModelsPr2, StateSpace)
00091 {
00092 ompl_interface::ModelBasedStateSpaceSpecification spec(kmodel_, "whole_body");
00093 ompl_interface::JointModelStateSpace ss(spec);
00094 ss.setPlanningVolume(-1, 1, -1, 1, -1, 1);
00095 ss.setup();
00096 std::ofstream fout("ompl_interface_test_state_space_diagram1.dot");
00097 ss.diagram(fout);
00098 bool passed = false;
00099 try
00100 {
00101 ss.sanityChecks();
00102 passed = true;
00103 }
00104 catch(ompl::Exception &ex)
00105 {
00106 logError("Sanity checks did not pass: %s", ex.what());
00107 }
00108 EXPECT_TRUE(passed);
00109 }
00110
00111 TEST_F(LoadPlanningModelsPr2, StateSpaces)
00112 {
00113 ompl_interface::ModelBasedStateSpaceSpecification spec1(kmodel_, "right_arm");
00114 ompl_interface::ModelBasedStateSpace ss1(spec1);
00115 ss1.setup();
00116
00117 ompl_interface::ModelBasedStateSpaceSpecification spec2(kmodel_, "left_arm");
00118 ompl_interface::ModelBasedStateSpace ss2(spec2);
00119 ss2.setup();
00120
00121 ompl_interface::ModelBasedStateSpaceSpecification spec3(kmodel_, "whole_body");
00122 ompl_interface::ModelBasedStateSpace ss3(spec3);
00123 ss3.setup();
00124
00125 ompl_interface::ModelBasedStateSpaceSpecification spec4(kmodel_, "arms");
00126 ompl_interface::ModelBasedStateSpace ss4(spec4);
00127 ss4.setup();
00128
00129 std::ofstream fout("ompl_interface_test_state_space_diagram2.dot");
00130 ompl::base::StateSpace::Diagram(fout);
00131 }
00132
00133 TEST_F(LoadPlanningModelsPr2, StateSpaceCopy)
00134 {
00135 ompl_interface::ModelBasedStateSpaceSpecification spec(kmodel_, "right_arm");
00136 ompl_interface::JointModelStateSpace ss(spec);
00137 ss.setPlanningVolume(-1, 1, -1, 1, -1, 1);
00138 ss.setup();
00139 std::ofstream fout("ompl_interface_test_state_space_diagram1.dot");
00140 ss.diagram(fout);
00141 bool passed = false;
00142 try
00143 {
00144 ss.sanityChecks();
00145 passed = true;
00146 }
00147 catch(ompl::Exception &ex)
00148 {
00149 logError("Sanity checks did not pass: %s", ex.what());
00150 }
00151 EXPECT_TRUE(passed);
00152
00153 robot_state::RobotState kstate(kmodel_);
00154 kstate.setToRandomValues();
00155 EXPECT_TRUE(kstate.distance(kstate) < 1e-12);
00156 ompl::base::State *state = ss.allocState();
00157 for (int i = 0 ; i < 10 ; ++i)
00158 {
00159 robot_state::RobotState kstate2(kstate);
00160 EXPECT_TRUE(kstate.distance(kstate2) < 1e-12);
00161 ss.copyToOMPLState(state, kstate);
00162 kstate.getJointStateGroup(ss.getJointModelGroupName())->setToRandomValues();
00163 std::cout << (kstate.getLinkState("r_wrist_roll_link")->getGlobalLinkTransform().translation() -
00164 kstate2.getLinkState("r_wrist_roll_link")->getGlobalLinkTransform().translation()) << std::endl;
00165 EXPECT_TRUE(kstate.distance(kstate2) > 1e-12);
00166 ss.copyToRobotState(kstate, state);
00167 std::cout << (kstate.getLinkState("r_wrist_roll_link")->getGlobalLinkTransform().translation() -
00168 kstate2.getLinkState("r_wrist_roll_link")->getGlobalLinkTransform().translation()) << std::endl;
00169 EXPECT_TRUE(kstate.distance(kstate2) < 1e-12);
00170 }
00171
00172 ss.freeState(state);
00173 }
00174
00175 int main(int argc, char **argv)
00176 {
00177 testing::InitGoogleTest(&argc, argv);
00178 return RUN_ALL_TESTS();
00179 }