| // Provides a plot for debugging drivetrain-related issues. |
| import {AosPlotter} from 'org_frc971/aos/network/www/aos_plotter'; |
| import {ImuMessageHandler} from 'org_frc971/frc971/wpilib/imu_plot_utils'; |
| import * as proxy from 'org_frc971/aos/network/www/proxy'; |
| |
| import Connection = proxy.Connection; |
| |
| const TIME = AosPlotter.TIME; |
| const DEFAULT_WIDTH = AosPlotter.DEFAULT_WIDTH; |
| const DEFAULT_HEIGHT = AosPlotter.DEFAULT_HEIGHT; |
| const RED = AosPlotter.RED; |
| const GREEN = AosPlotter.GREEN; |
| const BLUE = AosPlotter.BLUE; |
| const BROWN = AosPlotter.BROWN; |
| const PINK = AosPlotter.PINK; |
| const CYAN = AosPlotter.CYAN; |
| const WHITE = AosPlotter.WHITE; |
| |
| export function plotDrivetrain(conn: Connection, element: Element): void { |
| const aosPlotter = new AosPlotter(conn); |
| |
| const goal = aosPlotter.addMessageSource('/drivetrain', 'frc971.control_loops.drivetrain.Goal'); |
| const position = aosPlotter.addMessageSource("/drivetrain", |
| "frc971.control_loops.drivetrain.Position"); |
| const status = aosPlotter.addMessageSource( |
| '/drivetrain', 'frc971.control_loops.drivetrain.Status'); |
| const output = aosPlotter.addMessageSource( |
| '/drivetrain', 'frc971.control_loops.drivetrain.Output'); |
| const imu = aosPlotter.addRawMessageSource( |
| '/drivetrain', 'frc971.IMUValuesBatch', |
| new ImuMessageHandler(conn.getSchema('frc971.IMUValuesBatch'))); |
| |
| let currentTop = 0; |
| |
| // Polydrivetrain (teleop control) plots |
| const teleopPlot = |
| aosPlotter.addPlot(element, [0, currentTop], [DEFAULT_WIDTH, DEFAULT_HEIGHT / 2]); |
| currentTop += DEFAULT_HEIGHT / 2; |
| teleopPlot.plot.getAxisLabels().setTitle('Drivetrain Teleop Goals'); |
| teleopPlot.plot.getAxisLabels().setXLabel(TIME); |
| teleopPlot.plot.getAxisLabels().setYLabel('bool, throttle/wheel values'); |
| teleopPlot.plot.setDefaultYRange([-1.1, 1.1]); |
| |
| const quickTurn = teleopPlot.addMessageLine(goal, ['quickturn']); |
| quickTurn.setColor(RED); |
| const throttle = teleopPlot.addMessageLine(goal, ['throttle']); |
| throttle.setColor(GREEN); |
| const wheel = teleopPlot.addMessageLine(goal, ['wheel']); |
| wheel.setColor(BLUE); |
| |
| // Drivetrain Control Mode |
| const modePlot = |
| aosPlotter.addPlot(element, [0, currentTop], [DEFAULT_WIDTH, DEFAULT_HEIGHT / 2]); |
| currentTop += DEFAULT_HEIGHT / 2; |
| // TODO(james): Actually add enum support. |
| modePlot.plot.getAxisLabels().setTitle( |
| 'Drivetrain Mode [POLYDRIVE, MOTION_PROFILE, ' + |
| 'SPLINE_FOLLOWER, LINE_FOLLOWER]'); |
| modePlot.plot.getAxisLabels().setXLabel(TIME); |
| modePlot.plot.getAxisLabels().setYLabel('ControllerType'); |
| modePlot.plot.setDefaultYRange([-0.1, 3.1]); |
| |
| const controllerType = modePlot.addMessageLine(goal, ['controller_type']); |
| controllerType.setDrawLine(false); |
| |
| // Drivetrain Status estimated relative position |
| const positionPlot = aosPlotter.addPlot(element, [0, currentTop], |
| [DEFAULT_WIDTH, DEFAULT_HEIGHT]); |
| currentTop += DEFAULT_HEIGHT; |
| positionPlot.plot.getAxisLabels().setTitle("Estimated Relative Position " + |
| "of the Drivetrain"); |
| positionPlot.plot.getAxisLabels().setXLabel(TIME); |
| positionPlot.plot.getAxisLabels().setYLabel("Relative Position (m)"); |
| const leftPosition = |
| positionPlot.addMessageLine(status, ["estimated_left_position"]); |
| leftPosition.setColor(RED); |
| const rightPosition = |
| positionPlot.addMessageLine(status, ["estimated_right_position"]); |
| rightPosition.setColor(GREEN); |
| const leftPositionGoal = |
| positionPlot.addMessageLine(status, ["profiled_left_position_goal"]); |
| leftPositionGoal.setColor(BLUE); |
| const rightPositionGoal = |
| positionPlot.addMessageLine(status, ["profiled_right_position_goal"]); |
| rightPositionGoal.setColor(PINK); |
| const leftEncoder = positionPlot.addMessageLine(position, ["left_encoder"]); |
| leftEncoder.setColor(BROWN); |
| const rightEncoder = positionPlot.addMessageLine(position, ["right_encoder"]); |
| rightEncoder.setColor(CYAN); |
| |
| // Drivetrain Output Voltage |
| const outputPlot = |
| aosPlotter.addPlot(element, [0, currentTop], [DEFAULT_WIDTH, DEFAULT_HEIGHT]); |
| currentTop += DEFAULT_HEIGHT; |
| outputPlot.plot.getAxisLabels().setTitle('Drivetrain Output'); |
| outputPlot.plot.getAxisLabels().setXLabel(TIME); |
| outputPlot.plot.getAxisLabels().setYLabel('Voltage (V)'); |
| |
| const leftVoltage = outputPlot.addMessageLine(output, ['left_voltage']); |
| leftVoltage.setColor(RED); |
| const rightVoltage = outputPlot.addMessageLine(output, ['right_voltage']); |
| rightVoltage.setColor(GREEN); |
| |
| // Voltage Errors |
| const voltageErrors = |
| aosPlotter.addPlot(element, [0, currentTop], [DEFAULT_WIDTH, DEFAULT_HEIGHT]); |
| currentTop += DEFAULT_HEIGHT; |
| voltageErrors.plot.getAxisLabels().setTitle('Voltage Errors'); |
| voltageErrors.plot.getAxisLabels().setXLabel(TIME); |
| voltageErrors.plot.getAxisLabels().setYLabel('Voltage (V)'); |
| |
| const leftVoltageError = |
| voltageErrors.addMessageLine(status, ['left_voltage_error']); |
| leftVoltageError.setColor(RED); |
| const rightVoltageError = |
| voltageErrors.addMessageLine(status, ['right_voltage_error']); |
| rightVoltageError.setColor(GREEN); |
| |
| const ekfLeftVoltageError = |
| voltageErrors.addMessageLine(status, ['localizer', 'left_voltage_error']); |
| ekfLeftVoltageError.setColor(PINK); |
| const ekfRightVoltageError = voltageErrors.addMessageLine( |
| status, ['localizer', 'right_voltage_error']); |
| ekfRightVoltageError.setColor(CYAN); |
| |
| // Sundry components of the output voltages |
| const otherVoltages = |
| aosPlotter.addPlot(element, [0, currentTop], [DEFAULT_WIDTH, DEFAULT_HEIGHT]); |
| currentTop += DEFAULT_HEIGHT; |
| otherVoltages.plot.getAxisLabels().setTitle('Other Voltage Components'); |
| otherVoltages.plot.getAxisLabels().setXLabel(TIME); |
| otherVoltages.plot.getAxisLabels().setYLabel('Voltage (V)'); |
| |
| const ffLeftVoltage = otherVoltages.addMessageLine( |
| status, ['poly_drive_logging', 'ff_left_voltage']); |
| ffLeftVoltage.setColor(RED); |
| ffLeftVoltage.setPointSize(0); |
| const ffRightVoltage = otherVoltages.addMessageLine( |
| status, ['poly_drive_logging', 'ff_right_voltage']); |
| ffRightVoltage.setColor(GREEN); |
| ffRightVoltage.setPointSize(0); |
| |
| const uncappedLeftVoltage = |
| otherVoltages.addMessageLine(status, ['uncapped_left_voltage']); |
| uncappedLeftVoltage.setColor(RED); |
| uncappedLeftVoltage.setDrawLine(false); |
| const uncappedRightVoltage = |
| otherVoltages.addMessageLine(status, ['uncapped_right_voltage']); |
| uncappedRightVoltage.setColor(GREEN); |
| uncappedRightVoltage.setDrawLine(false); |
| |
| // Drivetrain Velocities |
| const velocityPlot = |
| aosPlotter.addPlot(element, [0, currentTop], [DEFAULT_WIDTH, DEFAULT_HEIGHT]); |
| currentTop += DEFAULT_HEIGHT; |
| velocityPlot.plot.getAxisLabels().setTitle('Velocity Plots'); |
| velocityPlot.plot.getAxisLabels().setXLabel(TIME); |
| velocityPlot.plot.getAxisLabels().setYLabel('Wheel Velocity (m/s)'); |
| |
| const ssLeftVelocityGoal = |
| velocityPlot.addMessageLine(status, ['profiled_left_velocity_goal']); |
| ssLeftVelocityGoal.setColor(PINK); |
| ssLeftVelocityGoal.setPointSize(0.0); |
| const ssRightVelocityGoal = |
| velocityPlot.addMessageLine(status, ['profiled_right_velocity_goal']); |
| ssRightVelocityGoal.setColor(CYAN); |
| ssRightVelocityGoal.setPointSize(0.0); |
| |
| const polyLeftVelocity = velocityPlot.addMessageLine( |
| status, ['poly_drive_logging', 'goal_left_velocity']); |
| polyLeftVelocity.setColor(PINK); |
| polyLeftVelocity.setDrawLine(false); |
| |
| const polyRightVelocity = velocityPlot.addMessageLine( |
| status, ['poly_drive_logging', 'goal_right_velocity']); |
| polyRightVelocity.setColor(CYAN); |
| polyRightVelocity.setDrawLine(false); |
| |
| const leftVelocity = |
| velocityPlot.addMessageLine(status, ['estimated_left_velocity']); |
| leftVelocity.setColor(RED); |
| const rightVelocity = |
| velocityPlot.addMessageLine(status, ['estimated_right_velocity']); |
| rightVelocity.setColor(GREEN); |
| |
| const leftSpeed = velocityPlot.addMessageLine(position, ["left_speed"]); |
| leftSpeed.setColor(BLUE); |
| const rightSpeed = velocityPlot.addMessageLine(position, ["right_speed"]); |
| rightSpeed.setColor(BROWN); |
| |
| // Drivetrain trajectory and localizer velocities |
| const velocityPlot2 = aosPlotter.addPlot(element, [0, currentTop], |
| [DEFAULT_WIDTH, DEFAULT_HEIGHT]); |
| currentTop += DEFAULT_HEIGHT; |
| velocityPlot2.plot.getAxisLabels().setTitle( |
| "Trajectory and Localizer Velocity Plots"); |
| velocityPlot2.plot.getAxisLabels().setXLabel(TIME); |
| velocityPlot2.plot.getAxisLabels().setYLabel('Wheel Velocity (m/s)'); |
| |
| const splineLeftVelocity = velocityPlot2.addMessageLine( |
| status, ['trajectory_logging', 'left_velocity']); |
| splineLeftVelocity.setColor(RED); |
| splineLeftVelocity.setDrawLine(false); |
| |
| const splineRightVelocity = velocityPlot2.addMessageLine( |
| status, ['trajectory_logging', 'right_velocity']); |
| splineRightVelocity.setColor(GREEN); |
| splineRightVelocity.setDrawLine(false); |
| |
| const ekfLeftVelocity = |
| velocityPlot2.addMessageLine(status, ['localizer', 'left_velocity']); |
| ekfLeftVelocity.setColor(RED); |
| ekfLeftVelocity.setPointSize(0.0); |
| const ekfRightVelocity = |
| velocityPlot2.addMessageLine(status, ['localizer', 'right_velocity']); |
| ekfRightVelocity.setColor(GREEN); |
| ekfRightVelocity.setPointSize(0.0); |
| |
| const splineVelocityOffset = velocityPlot2.addMessageLine( |
| status, ['localizer', 'longitudinal_velocity_offset']); |
| splineVelocityOffset.setColor(BROWN); |
| splineVelocityOffset.setPointSize(0.0); |
| |
| const splineLateralVelocity = velocityPlot2.addMessageLine( |
| status, ['localizer', 'lateral_velocity']); |
| splineLateralVelocity.setColor(PINK); |
| splineLateralVelocity.setPointSize(0.0); |
| |
| // Heading |
| const yawPlot = aosPlotter.addPlot(element, [0, currentTop], [DEFAULT_WIDTH, DEFAULT_HEIGHT]); |
| currentTop += DEFAULT_HEIGHT; |
| yawPlot.plot.getAxisLabels().setTitle('Robot Yaw'); |
| yawPlot.plot.getAxisLabels().setXLabel(TIME); |
| yawPlot.plot.getAxisLabels().setYLabel('Yaw (rad)'); |
| |
| const splineYaw = |
| yawPlot.addMessageLine(status, ['trajectory_logging', 'theta']); |
| splineYaw.setDrawLine(false); |
| splineYaw.setColor(RED); |
| |
| const ekfYaw = yawPlot.addMessageLine(status, ['localizer', 'theta']); |
| ekfYaw.setColor(GREEN); |
| |
| const downEstimatorYaw = |
| yawPlot.addMessageLine(status, ['down_estimator', 'yaw']); |
| downEstimatorYaw.setColor(BLUE); |
| |
| // Pitch/Roll |
| const orientationPlot = |
| aosPlotter.addPlot(element, [0, currentTop], [DEFAULT_WIDTH, DEFAULT_HEIGHT]); |
| currentTop += DEFAULT_HEIGHT; |
| orientationPlot.plot.getAxisLabels().setTitle('Orientation'); |
| orientationPlot.plot.getAxisLabels().setXLabel(TIME); |
| orientationPlot.plot.getAxisLabels().setYLabel('Angle (rad)'); |
| |
| const roll = orientationPlot.addMessageLine( |
| status, ['down_estimator', 'lateral_pitch']); |
| roll.setColor(RED); |
| roll.setLabel('roll'); |
| const pitch = orientationPlot.addMessageLine( |
| status, ['down_estimator', 'longitudinal_pitch']); |
| pitch.setColor(GREEN); |
| pitch.setLabel('pitch'); |
| |
| // Accelerometer/Gravity |
| const accelPlot = |
| aosPlotter.addPlot(element, [0, currentTop], [DEFAULT_WIDTH, DEFAULT_HEIGHT]); |
| currentTop += DEFAULT_HEIGHT; |
| accelPlot.plot.getAxisLabels().setTitle('Accelerometer Readings'); |
| accelPlot.plot.getAxisLabels().setYLabel('Acceleration (g)'); |
| accelPlot.plot.getAxisLabels().setXLabel('Monotonic Reading Time (sec)'); |
| |
| const expectedAccelX = |
| accelPlot.addMessageLine(status, ['down_estimator', 'expected_accel_x']); |
| expectedAccelX.setColor(RED); |
| expectedAccelX.setPointSize(0); |
| const expectedAccelY = |
| accelPlot.addMessageLine(status, ['down_estimator', 'expected_accel_y']); |
| expectedAccelY.setColor(GREEN); |
| expectedAccelY.setPointSize(0); |
| const expectedAccelZ = |
| accelPlot.addMessageLine(status, ['down_estimator', 'expected_accel_z']); |
| expectedAccelZ.setColor(BLUE); |
| expectedAccelZ.setPointSize(0); |
| |
| const gravity_magnitude = |
| accelPlot.addMessageLine(status, ['down_estimator', 'gravity_magnitude']); |
| gravity_magnitude.setColor(WHITE); |
| gravity_magnitude.setPointSize(0); |
| |
| const accelX = accelPlot.addMessageLine(imu, ['accelerometer_x']); |
| accelX.setColor(RED); |
| accelX.setDrawLine(false); |
| const accelY = accelPlot.addMessageLine(imu, ['accelerometer_y']); |
| accelY.setColor(GREEN); |
| accelY.setDrawLine(false); |
| const accelZ = accelPlot.addMessageLine(imu, ['accelerometer_z']); |
| accelZ.setColor(BLUE); |
| accelZ.setDrawLine(false); |
| |
| // Absolute X Position |
| const xPositionPlot = |
| aosPlotter.addPlot(element, [0, currentTop], [DEFAULT_WIDTH, DEFAULT_HEIGHT]); |
| currentTop += DEFAULT_HEIGHT; |
| xPositionPlot.plot.getAxisLabels().setTitle('X Position'); |
| xPositionPlot.plot.getAxisLabels().setXLabel(TIME); |
| xPositionPlot.plot.getAxisLabels().setYLabel('X Position (m)'); |
| |
| const localizerX = xPositionPlot.addMessageLine(status, ['x']); |
| localizerX.setColor(RED); |
| const splineX = |
| xPositionPlot.addMessageLine(status, ['trajectory_logging', 'x']); |
| splineX.setColor(GREEN); |
| |
| // Absolute Y Position |
| const yPositionPlot = |
| aosPlotter.addPlot(element, [0, currentTop], [DEFAULT_WIDTH, DEFAULT_HEIGHT]); |
| currentTop += DEFAULT_HEIGHT; |
| yPositionPlot.plot.getAxisLabels().setTitle('Y Position'); |
| yPositionPlot.plot.getAxisLabels().setXLabel(TIME); |
| yPositionPlot.plot.getAxisLabels().setYLabel('Y Position (m)'); |
| |
| const localizerY = yPositionPlot.addMessageLine(status, ['y']); |
| localizerY.setColor(RED); |
| const splineY = |
| yPositionPlot.addMessageLine(status, ['trajectory_logging', 'y']); |
| splineY.setColor(GREEN); |
| |
| // Gyro |
| const gyroPlot = |
| aosPlotter.addPlot(element, [0, currentTop], [DEFAULT_WIDTH, DEFAULT_HEIGHT]); |
| currentTop += DEFAULT_HEIGHT; |
| gyroPlot.plot.getAxisLabels().setTitle('Gyro Readings'); |
| gyroPlot.plot.getAxisLabels().setYLabel('Angular Velocity (rad / sec)'); |
| gyroPlot.plot.getAxisLabels().setXLabel('Monotonic Reading Time (sec)'); |
| |
| const gyroZeroX = |
| gyroPlot.addMessageLine(status, ['zeroing', 'gyro_x_average']); |
| gyroZeroX.setColor(RED); |
| gyroZeroX.setPointSize(0); |
| gyroZeroX.setLabel('Gyro X Zero'); |
| const gyroZeroY = |
| gyroPlot.addMessageLine(status, ['zeroing', 'gyro_y_average']); |
| gyroZeroY.setColor(GREEN); |
| gyroZeroY.setPointSize(0); |
| gyroZeroY.setLabel('Gyro Y Zero'); |
| const gyroZeroZ = |
| gyroPlot.addMessageLine(status, ['zeroing', 'gyro_z_average']); |
| gyroZeroZ.setColor(BLUE); |
| gyroZeroZ.setPointSize(0); |
| gyroZeroZ.setLabel('Gyro Z Zero'); |
| |
| const gyroX = gyroPlot.addMessageLine(imu, ['gyro_x']); |
| gyroX.setColor(RED); |
| const gyroY = gyroPlot.addMessageLine(imu, ['gyro_y']); |
| gyroY.setColor(GREEN); |
| const gyroZ = gyroPlot.addMessageLine(imu, ['gyro_z']); |
| gyroZ.setColor(BLUE); |
| |
| // IMU States |
| const imuStatePlot = |
| aosPlotter.addPlot(element, [0, currentTop], [DEFAULT_WIDTH, DEFAULT_HEIGHT / 2]); |
| currentTop += DEFAULT_HEIGHT / 2; |
| imuStatePlot.plot.getAxisLabels().setTitle('IMU State'); |
| imuStatePlot.plot.getAxisLabels().setXLabel(TIME); |
| imuStatePlot.plot.setDefaultYRange([-0.1, 1.1]); |
| |
| const zeroedLine = imuStatePlot.addMessageLine(status, ['zeroing', 'zeroed']); |
| zeroedLine.setColor(RED); |
| zeroedLine.setDrawLine(false); |
| zeroedLine.setLabel('IMU Zeroed'); |
| const faultedLine = |
| imuStatePlot.addMessageLine(status, ['zeroing', 'faulted']); |
| faultedLine.setColor(GREEN); |
| faultedLine.setPointSize(0); |
| faultedLine.setLabel('IMU Faulted'); |
| } |