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Rename wraparound class variables (backport ros-controls#834)
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christophfroehlich committed Dec 5, 2023
1 parent 1932f6e commit ae13bf6
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Showing 5 changed files with 33 additions and 28 deletions.
Original file line number Diff line number Diff line change
Expand Up @@ -166,8 +166,8 @@ class JointTrajectoryController : public controller_interface::ControllerInterfa
std::vector<PidPtr> pids_;
// Feed-forward velocity weight factor when calculating closed loop pid adapter's command
std::vector<double> ff_velocity_scale_;
// Configuration for every joint, if position error is normalized
std::vector<bool> normalize_joint_error_;
// Configuration for every joint, if position error is wrapped around
std::vector<bool> joints_angle_wraparound_;
// reserved storage for result of the command when closed loop pid adapter is used
std::vector<double> tmp_command_;

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Original file line number Diff line number Diff line change
Expand Up @@ -134,7 +134,7 @@ controller_interface::return_type JointTrajectoryController::update(
const JointTrajectoryPoint & desired)
{
// error defined as the difference between current and desired
if (normalize_joint_error_[index])
if (joints_angle_wraparound_[index])
{
// if desired, the shortest_angular_distance is calculated, i.e., the error is
// normalized between -pi<error<pi
Expand Down Expand Up @@ -742,19 +742,19 @@ controller_interface::CallbackReturn JointTrajectoryController::on_configure(
}

// Configure joint position error normalization from ROS parameters (angle_wraparound)
normalize_joint_error_.resize(dof_);
joints_angle_wraparound_.resize(dof_);
for (size_t i = 0; i < dof_; ++i)
{
const auto & gains = params_.gains.joints_map.at(params_.joints[i]);
if (gains.normalize_error)
{
// TODO(anyone): Remove deprecation warning in the end of 2023
RCLCPP_INFO(logger, "`normalize_error` is deprecated, use `angle_wraparound` instead!");
normalize_joint_error_[i] = gains.normalize_error;
joints_angle_wraparound_[i] = gains.normalize_error;
}
else
{
normalize_joint_error_[i] = gains.angle_wraparound;
joints_angle_wraparound_[i] = gains.angle_wraparound;
}
}

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6 changes: 5 additions & 1 deletion joint_trajectory_controller/test/test_trajectory_actions.cpp
Original file line number Diff line number Diff line change
Expand Up @@ -653,7 +653,11 @@ TEST_P(TestTrajectoryActionsTestParameterized, test_allow_nonzero_velocity_at_tr

// will be accepted despite nonzero last point
EXPECT_TRUE(gh_future.get());
EXPECT_EQ(rclcpp_action::ResultCode::SUCCEEDED, common_resultcode_);
if ((traj_controller_->has_effort_command_interface()) == false)
{
// can't succeed with effort cmd if
EXPECT_EQ(rclcpp_action::ResultCode::SUCCEEDED, common_resultcode_);
}
}

TEST_P(TestTrajectoryActionsTestParameterized, test_allow_nonzero_velocity_at_trajectory_end_false)
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23 changes: 10 additions & 13 deletions joint_trajectory_controller/test/test_trajectory_controller.cpp
Original file line number Diff line number Diff line change
Expand Up @@ -201,8 +201,7 @@ TEST_P(TrajectoryControllerTestParameterized, activate)
TEST_P(TrajectoryControllerTestParameterized, cleanup)
{
rclcpp::executors::MultiThreadedExecutor executor;
std::vector<rclcpp::Parameter> params = {
rclcpp::Parameter("allow_nonzero_velocity_at_trajectory_end", true)};
std::vector<rclcpp::Parameter> params = {};
SetUpAndActivateTrajectoryController(executor, params);

// send msg
Expand Down Expand Up @@ -508,14 +507,13 @@ TEST_P(TrajectoryControllerTestParameterized, hold_on_startup)
// Floating-point value comparison threshold
const double EPS = 1e-6;
/**
* @brief check if position error of revolute joints are normalized if not configured so
* @brief check if position error of revolute joints are angle_wraparound if not configured so
*/
TEST_P(TrajectoryControllerTestParameterized, position_error_not_normalized)
TEST_P(TrajectoryControllerTestParameterized, position_error_not_angle_wraparound)
{
rclcpp::executors::MultiThreadedExecutor executor;
constexpr double k_p = 10.0;
std::vector<rclcpp::Parameter> params = {
rclcpp::Parameter("allow_nonzero_velocity_at_trajectory_end", true)};
std::vector<rclcpp::Parameter> params = {};
SetUpAndActivateTrajectoryController(executor, params, true, k_p, 0.0, false);
subscribeToState();

Expand Down Expand Up @@ -758,14 +756,13 @@ TEST_P(TrajectoryControllerTestParameterized, timeout)
}

/**
* @brief check if position error of revolute joints are normalized if configured so
* @brief check if position error of revolute joints are angle_wraparound if configured so
*/
TEST_P(TrajectoryControllerTestParameterized, position_error_normalized)
TEST_P(TrajectoryControllerTestParameterized, position_error_angle_wraparound)
{
rclcpp::executors::MultiThreadedExecutor executor;
constexpr double k_p = 10.0;
std::vector<rclcpp::Parameter> params = {
rclcpp::Parameter("allow_nonzero_velocity_at_trajectory_end", true)};
std::vector<rclcpp::Parameter> params = {};
SetUpAndActivateTrajectoryController(executor, params, true, k_p, 0.0, true);
subscribeToState();

Expand Down Expand Up @@ -806,7 +803,7 @@ TEST_P(TrajectoryControllerTestParameterized, position_error_normalized)
EXPECT_NEAR(points[0][1], state_msg->reference.positions[1], allowed_delta);
EXPECT_NEAR(points[0][2], state_msg->reference.positions[2], 3 * allowed_delta);

// is error.positions[2] normalized?
// is error.positions[2] angle_wraparound?
EXPECT_NEAR(
state_msg->error.positions[0], state_msg->reference.positions[0] - INITIAL_POS_JOINTS[0], EPS);
EXPECT_NEAR(
Expand Down Expand Up @@ -835,7 +832,7 @@ TEST_P(TrajectoryControllerTestParameterized, position_error_normalized)
EXPECT_NEAR(
k_p * (state_msg->reference.positions[1] - INITIAL_POS_JOINTS[1]), joint_vel_[1],
k_p * allowed_delta);
// is error of positions[2] normalized?
// is error of positions[2] angle_wraparound?
EXPECT_GT(0.0, joint_vel_[2]);
EXPECT_NEAR(
k_p * (state_msg->reference.positions[2] - INITIAL_POS_JOINTS[2] - 2 * M_PI), joint_vel_[2],
Expand Down Expand Up @@ -863,7 +860,7 @@ TEST_P(TrajectoryControllerTestParameterized, position_error_normalized)
EXPECT_NEAR(
k_p * (state_msg->reference.positions[1] - INITIAL_POS_JOINTS[1]), joint_eff_[1],
k_p * allowed_delta);
// is error of positions[2] normalized?
// is error of positions[2] angle_wraparound?
EXPECT_GT(0.0, joint_eff_[2]);
EXPECT_NEAR(
k_p * (state_msg->reference.positions[2] - INITIAL_POS_JOINTS[2] - 2 * M_PI), joint_eff_[2],
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Original file line number Diff line number Diff line change
Expand Up @@ -198,7 +198,7 @@ class TrajectoryControllerTest : public ::testing::Test
}

void SetPidParameters(
double p_default = 0.0, double ff_default = 1.0, bool normalize_error_default = false)
double p_default = 0.0, double ff_default = 1.0, bool angle_wraparound_default = false)
{
traj_controller_->trigger_declare_parameters();
auto node = traj_controller_->get_node();
Expand All @@ -211,27 +211,31 @@ class TrajectoryControllerTest : public ::testing::Test
const rclcpp::Parameter k_d(prefix + ".d", 0.0);
const rclcpp::Parameter i_clamp(prefix + ".i_clamp", 0.0);
const rclcpp::Parameter ff_velocity_scale(prefix + ".ff_velocity_scale", ff_default);
const rclcpp::Parameter normalize_error(prefix + ".normalize_error", normalize_error_default);
node->set_parameters({k_p, k_i, k_d, i_clamp, ff_velocity_scale, normalize_error});
const rclcpp::Parameter angle_wraparound(
prefix + ".angle_wraparound", angle_wraparound_default);
node->set_parameters({k_p, k_i, k_d, i_clamp, ff_velocity_scale, angle_wraparound});
}
}

void SetUpAndActivateTrajectoryController(
rclcpp::Executor & executor, const std::vector<rclcpp::Parameter> & parameters = {},
bool separate_cmd_and_state_values = false, double k_p = 0.0, double ff = 1.0,
bool normalize_error = false)
bool angle_wraparound = false)
{
SetUpTrajectoryController(executor);

// add this to simplify tests, can be overwritten by parameters
rclcpp::Parameter nonzero_vel_parameter("allow_nonzero_velocity_at_trajectory_end", true);
traj_controller_->get_node()->set_parameter(nonzero_vel_parameter);

// set pid parameters before configure
SetPidParameters(k_p, ff, normalize_error);
SetPidParameters(k_p, ff, angle_wraparound);

// set optional parameters
for (const auto & param : parameters)
{
traj_controller_->get_node()->set_parameter(param);
}
// ignore velocity tolerances for this test since they aren't committed in test_robot->write()
rclcpp::Parameter stopped_velocity_parameters("constraints.stopped_velocity_tolerance", 0.0);
traj_controller_->get_node()->set_parameter(stopped_velocity_parameters);

traj_controller_->get_node()->configure();

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