Obbart/universal_robots_ros_driver
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Added testing for master board parsing and fixed unparsed fields

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This commit is contained in:
Simon Rasmussen
2017-07-09 04:04:22 +02:00
parent 1e724dcd33
commit 8e8a0428b0
3 changed files with 141 additions and 0 deletions
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1
CMakeLists.txt
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@@ -218,6 +218,7 @@ install(DIRECTORY include/${PROJECT_NAME}/
set(${PROJECT_NAME}_TEST_SOURCES set(${PROJECT_NAME}_TEST_SOURCES
tests/ur/rt_state.cpp tests/ur/rt_state.cpp
tests/ur/master_board.cpp
tests/ur/robot_mode.cpp) tests/ur/robot_mode.cpp)
if (CATKIN_ENABLE_TESTING) if (CATKIN_ENABLE_TESTING)

4
src/ur/master_board.cpp
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@@ -37,6 +37,8 @@ bool MasterBoardData_V1_X::parseWith(BinParser& bp)
if (!bp.checkSize(MasterBoardData_V1_X::EURO_SIZE)) if (!bp.checkSize(MasterBoardData_V1_X::EURO_SIZE))
return false; return false;
bp.parse(euromap_input_bits);
bp.parse(euromap_output_bits);
bp.parse(euromap_voltage); bp.parse(euromap_voltage);
bp.parse(euromap_current); bp.parse(euromap_current);
} }
@@ -63,6 +65,8 @@ bool MasterBoardData_V3_0__1::parseWith(BinParser& bp)
if (!bp.checkSize(MasterBoardData_V3_0__1::EURO_SIZE)) if (!bp.checkSize(MasterBoardData_V3_0__1::EURO_SIZE))
return false; return false;
bp.parse(euromap_input_bits);
bp.parse(euromap_output_bits);
bp.parse(euromap_voltage); bp.parse(euromap_voltage);
bp.parse(euromap_current); bp.parse(euromap_current);
} }

136
tests/ur/master_board.cpp
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@@ -0,0 +1,136 @@
#include "ur_modern_driver/ur/master_board.h"
#include <gtest/gtest.h>
#include "ur_modern_driver/bin_parser.h"
#include "ur_modern_driver/log.h"
#include "ur_modern_driver/test/random_data.h"
#include "ur_modern_driver/test/utils.h"
#include "ur_modern_driver/types.h"
TEST(MasterBoardData_V1_X, testRandomDataParsing)
{
RandomDataTest rdt(71);
rdt.set<uint8_t>(1, 58); //sets euromap67_interface_installed to true
BinParser bp = rdt.getParser();
MasterBoardData_V1_X state;
ASSERT_TRUE(state.parseWith(bp)) << "parse() returned false";
ASSERT_EQ((rdt.getNext<uint16_t, 10>()), state.digital_input_bits);
ASSERT_EQ((rdt.getNext<uint16_t, 10>()), state.digital_output_bits);
ASSERT_EQ(rdt.getNext<int8_t>(), state.analog_input_range0);
ASSERT_EQ(rdt.getNext<int8_t>(), state.analog_input_range1);
ASSERT_EQ(rdt.getNext<double>(), state.analog_input0);
ASSERT_EQ(rdt.getNext<double>(), state.analog_input1);
ASSERT_EQ(rdt.getNext<int8_t>(), state.analog_output_domain0);
ASSERT_EQ(rdt.getNext<int8_t>(), state.analog_output_domain1);
ASSERT_EQ(rdt.getNext<double>(), state.analog_output0);
ASSERT_EQ(rdt.getNext<double>(), state.analog_output1);
ASSERT_EQ(rdt.getNext<float>(), state.master_board_temperature);
ASSERT_EQ(rdt.getNext<float>(), state.robot_voltage_48V);
ASSERT_EQ(rdt.getNext<float>(), state.robot_current);
ASSERT_EQ(rdt.getNext<float>(), state.master_IO_current);
ASSERT_EQ(rdt.getNext<uint8_t>(), state.master_safety_state);
ASSERT_EQ(rdt.getNext<bool>(), state.master_on_off_state);
ASSERT_EQ(rdt.getNext<bool>(), state.euromap67_interface_installed);
ASSERT_EQ(rdt.getNext<int32_t>(), state.euromap_input_bits);
ASSERT_EQ(rdt.getNext<int32_t>(), state.euromap_output_bits);
ASSERT_EQ(rdt.getNext<int16_t>(), state.euromap_voltage);
ASSERT_EQ(rdt.getNext<int16_t>(), state.euromap_current);
ASSERT_TRUE(bp.empty()) << "Did not consume all data";
}
TEST(MasterBoardData_V3_0__1, testRandomDataParsing)
{
RandomDataTest rdt(83);
rdt.set<uint8_t>(1, 62); //sets euromap67_interface_installed to true
BinParser bp = rdt.getParser();
MasterBoardData_V3_0__1 state;
ASSERT_TRUE(state.parseWith(bp)) << "parse() returned false";
ASSERT_EQ((rdt.getNext<uint32_t, 18>()), state.digital_input_bits);
ASSERT_EQ((rdt.getNext<uint32_t, 18>()), state.digital_output_bits);
ASSERT_EQ(rdt.getNext<int8_t>(), state.analog_input_range0);
ASSERT_EQ(rdt.getNext<int8_t>(), state.analog_input_range1);
ASSERT_EQ(rdt.getNext<double>(), state.analog_input0);
ASSERT_EQ(rdt.getNext<double>(), state.analog_input1);
ASSERT_EQ(rdt.getNext<int8_t>(), state.analog_output_domain0);
ASSERT_EQ(rdt.getNext<int8_t>(), state.analog_output_domain1);
ASSERT_EQ(rdt.getNext<double>(), state.analog_output0);
ASSERT_EQ(rdt.getNext<double>(), state.analog_output1);
ASSERT_EQ(rdt.getNext<float>(), state.master_board_temperature);
ASSERT_EQ(rdt.getNext<float>(), state.robot_voltage_48V);
ASSERT_EQ(rdt.getNext<float>(), state.robot_current);
ASSERT_EQ(rdt.getNext<float>(), state.master_IO_current);
ASSERT_EQ(rdt.getNext<uint8_t>(), state.safety_mode);
ASSERT_EQ(rdt.getNext<bool>(), state.in_reduced_mode);
ASSERT_EQ(rdt.getNext<bool>(), state.euromap67_interface_installed);
ASSERT_EQ(rdt.getNext<int32_t>(), state.euromap_input_bits);
ASSERT_EQ(rdt.getNext<int32_t>(), state.euromap_output_bits);
ASSERT_EQ(rdt.getNext<float>(), state.euromap_voltage);
ASSERT_EQ(rdt.getNext<float>(), state.euromap_current);
rdt.skip(sizeof(uint32_t));
ASSERT_TRUE(bp.empty()) << "Did not consume all data";
}
TEST(MasterBoardData_V3_2, testRandomDataParsing)
{
RandomDataTest rdt(85);
rdt.set<uint8_t>(1, 62); //sets euromap67_interface_installed to true
BinParser bp = rdt.getParser();
MasterBoardData_V3_2 state;
ASSERT_TRUE(state.parseWith(bp)) << "parse() returned false";
ASSERT_EQ((rdt.getNext<uint32_t, 18>()), state.digital_input_bits);
ASSERT_EQ((rdt.getNext<uint32_t, 18>()), state.digital_output_bits);
ASSERT_EQ(rdt.getNext<int8_t>(), state.analog_input_range0);
ASSERT_EQ(rdt.getNext<int8_t>(), state.analog_input_range1);
ASSERT_EQ(rdt.getNext<double>(), state.analog_input0);
ASSERT_EQ(rdt.getNext<double>(), state.analog_input1);
ASSERT_EQ(rdt.getNext<int8_t>(), state.analog_output_domain0);
ASSERT_EQ(rdt.getNext<int8_t>(), state.analog_output_domain1);
ASSERT_EQ(rdt.getNext<double>(), state.analog_output0);
ASSERT_EQ(rdt.getNext<double>(), state.analog_output1);
ASSERT_EQ(rdt.getNext<float>(), state.master_board_temperature);
ASSERT_EQ(rdt.getNext<float>(), state.robot_voltage_48V);
ASSERT_EQ(rdt.getNext<float>(), state.robot_current);
ASSERT_EQ(rdt.getNext<float>(), state.master_IO_current);
ASSERT_EQ(rdt.getNext<uint8_t>(), state.safety_mode);
ASSERT_EQ(rdt.getNext<bool>(), state.in_reduced_mode);
ASSERT_EQ(rdt.getNext<bool>(), state.euromap67_interface_installed);
ASSERT_EQ(rdt.getNext<int32_t>(), state.euromap_input_bits);
ASSERT_EQ(rdt.getNext<int32_t>(), state.euromap_output_bits);
ASSERT_EQ(rdt.getNext<float>(), state.euromap_voltage);
ASSERT_EQ(rdt.getNext<float>(), state.euromap_current);
rdt.skip(sizeof(uint32_t));
ASSERT_EQ(rdt.getNext<uint8_t>(), state.operational_mode_selector_input);
ASSERT_EQ(rdt.getNext<uint8_t>(), state.three_position_enabling_device_input);
ASSERT_TRUE(bp.empty()) << "Did not consume all data";
}
TEST(MasterBoardData_V1_X, testTooSmallBuffer)
{
RandomDataTest rdt(10);
BinParser bp = rdt.getParser();
MasterBoardData_V1_X state;
EXPECT_FALSE(state.parseWith(bp)) << "parse() should fail when buffer not big enough";
}
TEST(MasterBoardData_V3_0__1, testTooSmallBuffer)
{
RandomDataTest rdt(10);
BinParser bp = rdt.getParser();
MasterBoardData_V3_0__1 state;
EXPECT_FALSE(state.parseWith(bp)) << "parse() should fail when buffer not big enough";
}
TEST(MasterBoardData_V3_2, testTooSmallBuffer)
{
RandomDataTest rdt(10);
BinParser bp = rdt.getParser();
MasterBoardData_V3_2 state;
EXPECT_FALSE(state.parseWith(bp)) << "parse() should fail when buffer not big enough";
}