Obbart/universal_robots_ros_driver
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Added tests

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This commit is contained in:
Simon Rasmussen
2017-03-07 02:50:46 +01:00
parent 7828304e37
commit aa26bb5996
7 changed files with 383 additions and 10 deletions
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35
CMakeLists.txt
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@@ -1,6 +1,10 @@
cmake_minimum_required(VERSION 2.8.3)
project(ur_modern_driver)
add_definitions( -DROS_BUILD )
## Find catkin macros and libraries
## if COMPONENTS list like find_package(catkin REQUIRED COMPONENTS xyz)
## is used, also find other catkin packages
@@ -130,6 +134,8 @@ else()
message(FATAL_ERROR "The compiler ${CMAKE_CXX_COMPILER} has no C++11 support. Please use a different C++ compiler. Suggested solution: update the pkg build-essential ")
endif()
set(CMAKE_CXX_FLAGS "-g -Wall -Wextra ${CMAKE_CXX_FLAGS}")
## Specify additional locations of header files
## Your package locations should be listed before other locations
# include_directories(include)
@@ -152,18 +158,26 @@ target_link_libraries(ur_hardware_interface
## Declare a C++ executable
set(${PROJECT_NAME}_SOURCES
src/ur_ros_wrapper.cpp
src/ros/rt_publisher.cpp
src/ur/stream.cpp
src/ur/robot_mode.cpp
src/ur/master_board.cpp
src/ur/rt_state.cpp
src/ur/messages.cpp
#src/ros_main.cpp
#src/ur_ros_wrapper.cpp
src/ur_driver.cpp
src/ur_realtime_communication.cpp
src/ur_communication.cpp
src/robot_state.cpp
src/robot_state_RT.cpp
src/do_output.cpp)
add_executable(ur_driver ${${PROJECT_NAME}_SOURCES})
add_executable(ur_driver ${${PROJECT_NAME}_SOURCES} src/ros_main.cpp)
## Add cmake target dependencies of the executable
## same as for the library above
add_dependencies(ur_driver ${${PROJECT_NAME}_EXPORTED_TARGETS} ${catkin_EXPORTED_TARGETS})
add_dependencies(ur_driver ${${PROJECT_NAME}_EXPORTED_TARGETS} ${catkin_EXPORTED_TARGETS})
## Specify libraries to link a library or executable target against
target_link_libraries(ur_driver
@@ -200,11 +214,12 @@ install(DIRECTORY include/${PROJECT_NAME}/
## Testing ##
#############
## Add gtest based cpp test target and link libraries
# catkin_add_gtest(${PROJECT_NAME}-test test/test_ur_modern_driver.cpp)
# if(TARGET ${PROJECT_NAME}-test)
# target_link_libraries(${PROJECT_NAME}-test ${PROJECT_NAME})
# endif()
## Add folders to be run by python nosetests
# catkin_add_nosetests(test)
set(${PROJECT_NAME}_TEST_SOURCES
tests/ur/rt_state.cpp
tests/ur/robot_mode.cpp)
if (CATKIN_ENABLE_TESTING)
catkin_add_gtest(ur_modern_driver_test ${${PROJECT_NAME}_SOURCES} ${${PROJECT_NAME}_TEST_SOURCES} tests/main.cpp)
target_link_libraries(ur_modern_driver_test ur_hardware_interface ${catkin_LIBRARIES})
endif()

46
include/ur_modern_driver/test/random_data.h Normal file
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@@ -0,0 +1,46 @@
#pragma once
#include <inttypes.h>
#include <algorithm>
#include <climits>
#include <cstddef>
#include <functional>
#include <random>
#include "ur_modern_driver/bin_parser.h"
class RandomDataTest
{
private:
using random_bytes_engine = std::independent_bits_engine<std::default_random_engine, CHAR_BIT, uint8_t>;
uint8_t* _buf;
BinParser bp_;
size_t n_;
public:
RandomDataTest(size_t n) : _buf(new uint8_t[n]), bp_(_buf, n), n_(n)
{
random_bytes_engine rbe;
std::generate(_buf, _buf + n, std::ref(rbe));
}
~RandomDataTest()
{
delete _buf;
}
BinParser getParser(bool skip = false)
{
return BinParser(_buf, n_ - (skip ? sizeof(int32_t) : 0));
}
template <typename T>
T getNext()
{
T actual;
bp_.parse(actual);
return actual;
}
void skip(size_t n)
{
bp_.consume(n);
}
};

8
include/ur_modern_driver/test/utils.h Normal file
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@@ -0,0 +1,8 @@
#pragma once
#define ASSERT_DOUBLE_ARRAY_EQ(fn, name) \
for (auto const& v : name) \
{ \
ASSERT_EQ(fn, v) << #name " failed parsing"; \
}

7
tests/main.cpp Normal file
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@@ -0,0 +1,7 @@
#include "gtest/gtest.h"
int main(int argc, char** argv)
{
testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}

0
tests/ur/master_board.cpp Normal file
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105
tests/ur/robot_mode.cpp Normal file
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@@ -0,0 +1,105 @@
#include <gtest/gtest.h>
#include "ur_modern_driver/ur/robot_mode.h"
#include "ur_modern_driver/bin_parser.h"
#include "ur_modern_driver/log.h"
#include "ur_modern_driver/types.h"
#include "ur_modern_driver/test/utils.h"
#include "ur_modern_driver/test/random_data.h"
TEST(RobotModeData_V1_X, testRandomDataParsing)
{
RandomDataTest rdt(24);
BinParser bp = rdt.getParser();
RobotModeData_V1_X state;
ASSERT_TRUE(state.parseWith(bp)) << "parse() returned false";
ASSERT_EQ(rdt.getNext<uint64_t>(), state.timestamp);
ASSERT_EQ(rdt.getNext<bool>(), state.physical_robot_connected);
ASSERT_EQ(rdt.getNext<bool>(), state.real_robot_enabled);
ASSERT_EQ(rdt.getNext<bool>(), state.robot_power_on);
ASSERT_EQ(rdt.getNext<bool>(), state.emergency_stopped);
ASSERT_EQ(rdt.getNext<bool>(), state.security_stopped);
ASSERT_EQ(rdt.getNext<bool>(), state.program_running);
ASSERT_EQ(rdt.getNext<bool>(), state.program_paused);
ASSERT_EQ(rdt.getNext<robot_mode_V1_X>(), state.robot_mode);
ASSERT_EQ(rdt.getNext<double>(), state.speed_fraction);
ASSERT_TRUE(bp.empty()) << "Did not consume all data";
}
TEST(RobotModeData_V3_0__1, testRandomDataParsing)
{
RandomDataTest rdt(33);
BinParser bp = rdt.getParser();
RobotModeData_V3_0__1 state;
ASSERT_TRUE(state.parseWith(bp)) << "parse() returned false";
ASSERT_EQ(rdt.getNext<uint64_t>(), state.timestamp);
ASSERT_EQ(rdt.getNext<bool>(), state.physical_robot_connected);
ASSERT_EQ(rdt.getNext<bool>(), state.real_robot_enabled);
ASSERT_EQ(rdt.getNext<bool>(), state.robot_power_on);
ASSERT_EQ(rdt.getNext<bool>(), state.emergency_stopped);
ASSERT_EQ(rdt.getNext<bool>(), state.protective_stopped);
ASSERT_EQ(rdt.getNext<bool>(), state.program_running);
ASSERT_EQ(rdt.getNext<bool>(), state.program_paused);
ASSERT_EQ(rdt.getNext<robot_mode_V3_X>(), state.robot_mode);
ASSERT_EQ(rdt.getNext<robot_control_mode_V3_X>(), state.control_mode);
ASSERT_EQ(rdt.getNext<double>(), state.target_speed_fraction);
ASSERT_EQ(rdt.getNext<double>(), state.speed_scaling);
ASSERT_TRUE(bp.empty()) << "Did not consume all data";
}
TEST(RobotModeData_V3_2, testRandomDataParsing)
{
RandomDataTest rdt(41);
BinParser bp = rdt.getParser();
RobotModeData_V3_2 state;
ASSERT_TRUE(state.parseWith(bp)) << "parse() returned false";
ASSERT_EQ(rdt.getNext<uint64_t>(), state.timestamp);
ASSERT_EQ(rdt.getNext<bool>(), state.physical_robot_connected);
ASSERT_EQ(rdt.getNext<bool>(), state.real_robot_enabled);
ASSERT_EQ(rdt.getNext<bool>(), state.robot_power_on);
ASSERT_EQ(rdt.getNext<bool>(), state.emergency_stopped);
ASSERT_EQ(rdt.getNext<bool>(), state.protective_stopped);
ASSERT_EQ(rdt.getNext<bool>(), state.program_running);
ASSERT_EQ(rdt.getNext<bool>(), state.program_paused);
ASSERT_EQ(rdt.getNext<robot_mode_V3_X>(), state.robot_mode);
ASSERT_EQ(rdt.getNext<robot_control_mode_V3_X>(), state.control_mode);
ASSERT_EQ(rdt.getNext<double>(), state.target_speed_fraction);
ASSERT_EQ(rdt.getNext<double>(), state.speed_scaling);
ASSERT_EQ(rdt.getNext<double>(), state.target_speed_fraction_limit);
ASSERT_TRUE(bp.empty()) << "Did not consume all data";
}
TEST(RobotModeData_V1_X, testTooSmallBuffer)
{
RandomDataTest rdt(10);
BinParser bp = rdt.getParser();
RobotModeData_V1_X state;
EXPECT_FALSE(state.parseWith(bp)) << "parse() should fail when buffer not big enough";
}
TEST(RobotModeData_V3_0__1, testTooSmallBuffer)
{
RandomDataTest rdt(10);
BinParser bp = rdt.getParser();
RobotModeData_V3_0__1 state;
EXPECT_FALSE(state.parseWith(bp)) << "parse() should fail when buffer not big enough";
}
TEST(RobotModeData_V3_2, testTooSmallBuffer)
{
RandomDataTest rdt(10);
BinParser bp = rdt.getParser();
RobotModeData_V3_2 state;
EXPECT_FALSE(state.parseWith(bp)) << "parse() should fail when buffer not big enough";
}

192
tests/ur/rt_state.cpp Normal file
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@@ -0,0 +1,192 @@
#include <gtest/gtest.h>
#include "ur_modern_driver/ur/rt_state.h"
#include "ur_modern_driver/bin_parser.h"
#include "ur_modern_driver/log.h"
#include "ur_modern_driver/types.h"
#include "ur_modern_driver/test/utils.h"
#include "ur_modern_driver/test/random_data.h"
TEST(RTState_V1_6__7, testRandomDataParsing)
{
RandomDataTest rdt(764);
BinParser bp = rdt.getParser(true);
RTState_V1_6__7 state;
EXPECT_TRUE(state.parseWith(bp)) << "parse() returned false";
ASSERT_EQ(rdt.getNext<double>(), state.time);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.q_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.qd_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.qdd_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.i_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.m_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.q_actual);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.qd_actual);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.i_actual);
ASSERT_EQ(rdt.getNext<double3_t>(), state.tool_accelerometer_values);
rdt.skip(sizeof(double) * 15);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.tcp_force);
ASSERT_EQ(rdt.getNext<cartesian_coord_t>(), state.tool_vector_actual);
ASSERT_EQ(rdt.getNext<cartesian_coord_t>(), state.tcp_speed_actual);
ASSERT_EQ(rdt.getNext<uint64_t>(), state.digital_inputs);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.motor_temperatures);
ASSERT_EQ(rdt.getNext<double>(), state.controller_time);
rdt.skip(sizeof(double)); // skip unused value
ASSERT_EQ(rdt.getNext<double>(), state.robot_mode);
EXPECT_TRUE(bp.empty()) << "Did not consume all data";
}
TEST(RTState_V1_8, testRandomDataParsing)
{
RandomDataTest rdt(812);
BinParser bp = rdt.getParser(true);
RTState_V1_8 state;
EXPECT_TRUE(state.parseWith(bp)) << "parse() returned false";
ASSERT_EQ(rdt.getNext<double>(), state.time);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.q_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.qd_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.qdd_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.i_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.m_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.q_actual);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.qd_actual);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.i_actual);
ASSERT_EQ(rdt.getNext<double3_t>(), state.tool_accelerometer_values);
rdt.skip(sizeof(double) * 15);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.tcp_force);
ASSERT_EQ(rdt.getNext<cartesian_coord_t>(), state.tool_vector_actual);
ASSERT_EQ(rdt.getNext<cartesian_coord_t>(), state.tcp_speed_actual);
ASSERT_EQ(rdt.getNext<uint64_t>(), state.digital_inputs);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.motor_temperatures);
ASSERT_EQ(rdt.getNext<double>(), state.controller_time);
rdt.skip(sizeof(double)); // skip unused value
ASSERT_EQ(rdt.getNext<double>(), state.robot_mode);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.joint_modes);
EXPECT_TRUE(bp.empty()) << "Did not consume all data";
}
TEST(RTState_V3_0__1, testRandomDataParsing)
{
RandomDataTest rdt(1044);
BinParser bp = rdt.getParser(true);
RTState_V3_0__1 state;
EXPECT_TRUE(state.parseWith(bp)) << "parse() returned false";
ASSERT_EQ(rdt.getNext<double>(), state.time);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.q_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.qd_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.qdd_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.i_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.m_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.q_actual);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.qd_actual);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.i_actual);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.i_control);
ASSERT_EQ(rdt.getNext<cartesian_coord_t>(), state.tool_vector_actual);
ASSERT_EQ(rdt.getNext<cartesian_coord_t>(), state.tcp_speed_actual);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.tcp_force);
ASSERT_EQ(rdt.getNext<cartesian_coord_t>(), state.tool_vector_target);
ASSERT_EQ(rdt.getNext<cartesian_coord_t>(), state.tcp_speed_target);
ASSERT_EQ(rdt.getNext<uint64_t>(), state.digital_inputs);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.motor_temperatures);
ASSERT_EQ(rdt.getNext<double>(), state.controller_time);
rdt.skip(sizeof(double)); // skip unused value
ASSERT_EQ(rdt.getNext<double>(), state.robot_mode);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.joint_modes);
ASSERT_EQ(rdt.getNext<double>(), state.safety_mode);
rdt.skip(sizeof(double) * 6);
ASSERT_EQ(rdt.getNext<double3_t>(), state.tool_accelerometer_values);
rdt.skip(sizeof(double) * 6);
ASSERT_EQ(rdt.getNext<double>(), state.speed_scaling);
ASSERT_EQ(rdt.getNext<double>(), state.linear_momentum_norm);
rdt.skip(sizeof(double) * 2);
ASSERT_EQ(rdt.getNext<double>(), state.v_main);
ASSERT_EQ(rdt.getNext<double>(), state.v_robot);
ASSERT_EQ(rdt.getNext<double>(), state.i_robot);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.v_actual);
EXPECT_TRUE(bp.empty()) << "Did not consume all data";
}
TEST(RTState_V3_2__3, testRandomDataParsing)
{
RandomDataTest rdt(1060);
BinParser bp = rdt.getParser(true);
RTState_V3_2__3 state;
EXPECT_TRUE(state.parseWith(bp)) << "parse() returned false";
ASSERT_EQ(rdt.getNext<double>(), state.time);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.q_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.qd_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.qdd_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.i_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.m_target);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.q_actual);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.qd_actual);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.i_actual);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.i_control);
ASSERT_EQ(rdt.getNext<cartesian_coord_t>(), state.tool_vector_actual);
ASSERT_EQ(rdt.getNext<cartesian_coord_t>(), state.tcp_speed_actual);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.tcp_force);
ASSERT_EQ(rdt.getNext<cartesian_coord_t>(), state.tool_vector_target);
ASSERT_EQ(rdt.getNext<cartesian_coord_t>(), state.tcp_speed_target);
ASSERT_EQ(rdt.getNext<uint64_t>(), state.digital_inputs);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.motor_temperatures);
ASSERT_EQ(rdt.getNext<double>(), state.controller_time);
rdt.skip(sizeof(double)); // skip unused value
ASSERT_EQ(rdt.getNext<double>(), state.robot_mode);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.joint_modes);
ASSERT_EQ(rdt.getNext<double>(), state.safety_mode);
rdt.skip(sizeof(double) * 6);
ASSERT_EQ(rdt.getNext<double3_t>(), state.tool_accelerometer_values);
rdt.skip(sizeof(double) * 6);
ASSERT_EQ(rdt.getNext<double>(), state.speed_scaling);
ASSERT_EQ(rdt.getNext<double>(), state.linear_momentum_norm);
rdt.skip(sizeof(double) * 2);
ASSERT_EQ(rdt.getNext<double>(), state.v_main);
ASSERT_EQ(rdt.getNext<double>(), state.v_robot);
ASSERT_EQ(rdt.getNext<double>(), state.i_robot);
ASSERT_DOUBLE_ARRAY_EQ(rdt.getNext<double>(), state.v_actual);
ASSERT_EQ(rdt.getNext<uint64_t>(), state.digital_outputs);
ASSERT_EQ(rdt.getNext<double>(), state.program_state);
EXPECT_TRUE(bp.empty()) << "did not consume all data";
}
TEST(RTState_V1_6__7, testTooSmallBuffer)
{
RandomDataTest rdt(10);
BinParser bp = rdt.getParser(true);
RTState_V1_6__7 state;
EXPECT_FALSE(state.parseWith(bp)) << "parse() should fail when buffer not big enough";
}
TEST(RTState_V1_8, testTooSmallBuffer)
{
RandomDataTest rdt(10);
BinParser bp = rdt.getParser(true);
RTState_V1_8 state;
EXPECT_FALSE(state.parseWith(bp)) << "parse() should fail when buffer not big enough";
}
TEST(RTState_V3_0__1, testTooSmallBuffer)
{
RandomDataTest rdt(10);
BinParser bp = rdt.getParser(true);
RTState_V3_0__1 state;
EXPECT_FALSE(state.parseWith(bp)) << "parse() should fail when buffer not big enough";
}
TEST(RTState_V3_2__3, testTooSmallBuffer)
{
RandomDataTest rdt(10);
BinParser bp = rdt.getParser(true);
RTState_V3_2__3 state;
EXPECT_FALSE(state.parseWith(bp)) << "parse() should fail when buffer not big enough";
}