y2024/localizer/localizer_plotter.ts - RealtimeRoboticsGroup/test - Gitiles

 // Provides a plot for debugging drivetrain-related issues.
 import {AosPlotter} from '../../aos/network/www/aos_plotter';
 import {ImuMessageHandler} from '../../frc971/wpilib/imu_plot_utils';
 import * as proxy from '../../aos/network/www/proxy';
 import {BLUE, BROWN, CYAN, GREEN, PINK, RED, WHITE} from '../../aos/network/www/colors';

 import Connection = proxy.Connection;

 const TIME = AosPlotter.TIME;
 const DEFAULT_WIDTH = AosPlotter.DEFAULT_WIDTH;
 const DEFAULT_HEIGHT = AosPlotter.DEFAULT_HEIGHT;

 export function plotLocalizer(conn: Connection, element: Element): void {
   const aosPlotter = new AosPlotter(conn);

   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 localizer = aosPlotter.addMessageSource(
       '/localizer', 'y2024.localizer.Status');
   const rio_inputs = aosPlotter.addMessageSource(
       '/drivetrain', 'frc971.control_loops.drivetrain.RioLocalizerInputs');
   const imu = aosPlotter.addRawMessageSource(
       '/localizer', 'frc971.IMUValuesBatch',
       new ImuMessageHandler(conn.getSchema('frc971.IMUValuesBatch')));

   // Drivetrain Status estimated relative position
   const positionPlot = aosPlotter.addPlot(element);
   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);
   positionPlot.addMessageLine(position, ['left_encoder'])
       .setColor(BROWN)
       .setDrawLine(false);
   positionPlot.addMessageLine(position, ['right_encoder'])
       .setColor(CYAN)
       .setDrawLine(false);
   positionPlot.addMessageLine(rio_inputs, ['left_encoder'])
       .setColor(BROWN)
       .setDrawLine(false);
   positionPlot.addMessageLine(rio_inputs, ['right_encoder'])
       .setColor(CYAN)
       .setDrawLine(false);


   // Drivetrain Velocities
   const velocityPlot = aosPlotter.addPlot(element);
   velocityPlot.plot.getAxisLabels().setTitle('Velocity Plots');
   velocityPlot.plot.getAxisLabels().setXLabel(TIME);
   velocityPlot.plot.getAxisLabels().setYLabel('Wheel Velocity (m/s)');

   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);

   const ekfLeftVelocity = velocityPlot.addMessageLine(
       localizer, ['state', 'left_velocity']);
   ekfLeftVelocity.setColor(RED);
   ekfLeftVelocity.setPointSize(0.0);
   const ekfRightVelocity = velocityPlot.addMessageLine(
       localizer, ['state', 'right_velocity']);
   ekfRightVelocity.setColor(GREEN);
   ekfRightVelocity.setPointSize(0.0);

   // Lateral velocity
   const lateralPlot = aosPlotter.addPlot(element);
   lateralPlot.plot.getAxisLabels().setTitle('Lateral Velocity');
   lateralPlot.plot.getAxisLabels().setXLabel(TIME);
   lateralPlot.plot.getAxisLabels().setYLabel('Velocity (m/s)');

   lateralPlot.addMessageLine(localizer, ['state', 'lateral_velocity']).setColor(CYAN);

   // Drivetrain Voltage
   const voltagePlot = aosPlotter.addPlot(element);
   voltagePlot.plot.getAxisLabels().setTitle('Voltage Plots');
   voltagePlot.plot.getAxisLabels().setXLabel(TIME);
   voltagePlot.plot.getAxisLabels().setYLabel('Voltage (V)')

   voltagePlot.addMessageLine(localizer, ['state', 'left_voltage_error'])
       .setColor(RED)
       .setDrawLine(false);
   voltagePlot.addMessageLine(localizer, ['state', 'right_voltage_error'])
       .setColor(GREEN)
       .setDrawLine(false);
   voltagePlot.addMessageLine(output, ['left_voltage'])
       .setColor(RED)
       .setPointSize(0);
   voltagePlot.addMessageLine(output, ['right_voltage'])
       .setColor(GREEN)
       .setPointSize(0);
   voltagePlot.addMessageLine(rio_inputs, ['left_voltage'])
       .setColor(RED)
       .setDrawLine(false);
   voltagePlot.addMessageLine(rio_inputs, ['right_voltage'])
       .setColor(GREEN)
       .setDrawLine(false);

   // Heading
   const yawPlot = aosPlotter.addPlot(element);
   yawPlot.plot.getAxisLabels().setTitle('Robot Yaw');
   yawPlot.plot.getAxisLabels().setXLabel(TIME);
   yawPlot.plot.getAxisLabels().setYLabel('Yaw (rad)');

   yawPlot.addMessageLine(status, ['localizer', 'theta']).setColor(GREEN);

   yawPlot.addMessageLine(localizer, ['down_estimator', 'yaw']).setColor(BLUE);

   yawPlot.addMessageLine(localizer, ['state', 'theta']).setColor(RED);

   // Pitch/Roll
   const orientationPlot = aosPlotter.addPlot(element);
   orientationPlot.plot.getAxisLabels().setTitle('Orientation');
   orientationPlot.plot.getAxisLabels().setXLabel(TIME);
   orientationPlot.plot.getAxisLabels().setYLabel('Angle (rad)');

   orientationPlot.addMessageLine(localizer, ['down_estimator', 'lateral_pitch'])
       .setColor(RED)
       .setLabel('roll');
   orientationPlot
       .addMessageLine(localizer, ['down_estimator', 'longitudinal_pitch'])
       .setColor(GREEN)
       .setLabel('pitch');

   const stillPlot = aosPlotter.addPlot(element, [DEFAULT_WIDTH, DEFAULT_HEIGHT / 3]);
   stillPlot.plot.getAxisLabels().setTitle('Still Plot');
   stillPlot.plot.getAxisLabels().setXLabel(TIME);
   stillPlot.plot.getAxisLabels().setYLabel('bool, g\'s');
   stillPlot.plot.setDefaultYRange([-0.1, 1.1]);

   stillPlot.addMessageLine(localizer, ['down_estimator', 'gravity_magnitude'])
       .setColor(WHITE)
       .setDrawLine(false);

   // Absolute X Position
   const xPositionPlot = aosPlotter.addPlot(element);
   xPositionPlot.plot.getAxisLabels().setTitle('X Position');
   xPositionPlot.plot.getAxisLabels().setXLabel(TIME);
   xPositionPlot.plot.getAxisLabels().setYLabel('X Position (m)');

   xPositionPlot.addMessageLine(status, ['x']).setColor(RED);
   xPositionPlot.addMessageLine(localizer, ['down_estimator', 'position_x'])
       .setColor(BLUE);
   xPositionPlot.addMessageLine(localizer, ['state', 'x']).setColor(CYAN);

   // Absolute Y Position
   const yPositionPlot = aosPlotter.addPlot(element);
   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);
   yPositionPlot.addMessageLine(localizer, ['down_estimator', 'position_y'])
       .setColor(BLUE);
   yPositionPlot.addMessageLine(localizer, ['state', 'y']).setColor(CYAN);

   // Gyro
   const gyroPlot = aosPlotter.addPlot(element);
   gyroPlot.plot.getAxisLabels().setTitle('Gyro Readings');
   gyroPlot.plot.getAxisLabels().setYLabel('Angular Velocity (rad / sec)');
   gyroPlot.plot.getAxisLabels().setXLabel('Monotonic Reading Time (sec)');

   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);


   const timingPlot =
       aosPlotter.addPlot(element, [DEFAULT_WIDTH, DEFAULT_HEIGHT]);
   timingPlot.plot.getAxisLabels().setTitle('Fault Counting');
   timingPlot.plot.getAxisLabels().setXLabel(TIME);

   timingPlot
       .addMessageLine(
           localizer, ['imu', 'imu_failures', 'imu_to_pico_checksum_mismatch'])
       .setColor(BLUE)
       .setDrawLine(false);

   timingPlot
       .addMessageLine(
           localizer, ['imu', 'imu_failures', 'pico_to_pi_checksum_mismatch'])
       .setColor(RED)
       .setDrawLine(false);

   timingPlot
       .addMessageLine(
           localizer, ['imu', 'imu_failures', 'other_zeroing_faults'])
       .setColor(CYAN)
       .setDrawLine(false);

   timingPlot
       .addMessageLine(
           localizer, ['imu', 'imu_failures', 'missed_messages'])
       .setColor(PINK)
       .setDrawLine(false);
 }
	// Provides a plot for debugging drivetrain-related issues.
	import {AosPlotter} from '../../aos/network/www/aos_plotter';
	import {ImuMessageHandler} from '../../frc971/wpilib/imu_plot_utils';
	import * as proxy from '../../aos/network/www/proxy';
	import {BLUE, BROWN, CYAN, GREEN, PINK, RED, WHITE} from '../../aos/network/www/colors';

	import Connection = proxy.Connection;

	const TIME = AosPlotter.TIME;
	const DEFAULT_WIDTH = AosPlotter.DEFAULT_WIDTH;
	const DEFAULT_HEIGHT = AosPlotter.DEFAULT_HEIGHT;

	export function plotLocalizer(conn: Connection, element: Element): void {
	const aosPlotter = new AosPlotter(conn);

	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 localizer = aosPlotter.addMessageSource(
	'/localizer', 'y2024.localizer.Status');
	const rio_inputs = aosPlotter.addMessageSource(
	'/drivetrain', 'frc971.control_loops.drivetrain.RioLocalizerInputs');
	const imu = aosPlotter.addRawMessageSource(
	'/localizer', 'frc971.IMUValuesBatch',
	new ImuMessageHandler(conn.getSchema('frc971.IMUValuesBatch')));

	// Drivetrain Status estimated relative position
	const positionPlot = aosPlotter.addPlot(element);
	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);
	positionPlot.addMessageLine(position, ['left_encoder'])
	.setColor(BROWN)
	.setDrawLine(false);
	positionPlot.addMessageLine(position, ['right_encoder'])
	.setColor(CYAN)
	.setDrawLine(false);
	positionPlot.addMessageLine(rio_inputs, ['left_encoder'])
	.setColor(BROWN)
	.setDrawLine(false);
	positionPlot.addMessageLine(rio_inputs, ['right_encoder'])
	.setColor(CYAN)
	.setDrawLine(false);


	// Drivetrain Velocities
	const velocityPlot = aosPlotter.addPlot(element);
	velocityPlot.plot.getAxisLabels().setTitle('Velocity Plots');
	velocityPlot.plot.getAxisLabels().setXLabel(TIME);
	velocityPlot.plot.getAxisLabels().setYLabel('Wheel Velocity (m/s)');

	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);

	const ekfLeftVelocity = velocityPlot.addMessageLine(
	localizer, ['state', 'left_velocity']);
	ekfLeftVelocity.setColor(RED);
	ekfLeftVelocity.setPointSize(0.0);
	const ekfRightVelocity = velocityPlot.addMessageLine(
	localizer, ['state', 'right_velocity']);
	ekfRightVelocity.setColor(GREEN);
	ekfRightVelocity.setPointSize(0.0);

	// Lateral velocity
	const lateralPlot = aosPlotter.addPlot(element);
	lateralPlot.plot.getAxisLabels().setTitle('Lateral Velocity');
	lateralPlot.plot.getAxisLabels().setXLabel(TIME);
	lateralPlot.plot.getAxisLabels().setYLabel('Velocity (m/s)');

	lateralPlot.addMessageLine(localizer, ['state', 'lateral_velocity']).setColor(CYAN);

	// Drivetrain Voltage
	const voltagePlot = aosPlotter.addPlot(element);
	voltagePlot.plot.getAxisLabels().setTitle('Voltage Plots');
	voltagePlot.plot.getAxisLabels().setXLabel(TIME);
	voltagePlot.plot.getAxisLabels().setYLabel('Voltage (V)')

	voltagePlot.addMessageLine(localizer, ['state', 'left_voltage_error'])
	.setColor(RED)
	.setDrawLine(false);
	voltagePlot.addMessageLine(localizer, ['state', 'right_voltage_error'])
	.setColor(GREEN)
	.setDrawLine(false);
	voltagePlot.addMessageLine(output, ['left_voltage'])
	.setColor(RED)
	.setPointSize(0);
	voltagePlot.addMessageLine(output, ['right_voltage'])
	.setColor(GREEN)
	.setPointSize(0);
	voltagePlot.addMessageLine(rio_inputs, ['left_voltage'])
	.setColor(RED)
	.setDrawLine(false);
	voltagePlot.addMessageLine(rio_inputs, ['right_voltage'])
	.setColor(GREEN)
	.setDrawLine(false);

	// Heading
	const yawPlot = aosPlotter.addPlot(element);
	yawPlot.plot.getAxisLabels().setTitle('Robot Yaw');
	yawPlot.plot.getAxisLabels().setXLabel(TIME);
	yawPlot.plot.getAxisLabels().setYLabel('Yaw (rad)');

	yawPlot.addMessageLine(status, ['localizer', 'theta']).setColor(GREEN);

	yawPlot.addMessageLine(localizer, ['down_estimator', 'yaw']).setColor(BLUE);

	yawPlot.addMessageLine(localizer, ['state', 'theta']).setColor(RED);

	// Pitch/Roll
	const orientationPlot = aosPlotter.addPlot(element);
	orientationPlot.plot.getAxisLabels().setTitle('Orientation');
	orientationPlot.plot.getAxisLabels().setXLabel(TIME);
	orientationPlot.plot.getAxisLabels().setYLabel('Angle (rad)');

	orientationPlot.addMessageLine(localizer, ['down_estimator', 'lateral_pitch'])
	.setColor(RED)
	.setLabel('roll');
	orientationPlot
	.addMessageLine(localizer, ['down_estimator', 'longitudinal_pitch'])
	.setColor(GREEN)
	.setLabel('pitch');

	const stillPlot = aosPlotter.addPlot(element, [DEFAULT_WIDTH, DEFAULT_HEIGHT / 3]);
	stillPlot.plot.getAxisLabels().setTitle('Still Plot');
	stillPlot.plot.getAxisLabels().setXLabel(TIME);
	stillPlot.plot.getAxisLabels().setYLabel('bool, g\'s');
	stillPlot.plot.setDefaultYRange([-0.1, 1.1]);

	stillPlot.addMessageLine(localizer, ['down_estimator', 'gravity_magnitude'])
	.setColor(WHITE)
	.setDrawLine(false);

	// Absolute X Position
	const xPositionPlot = aosPlotter.addPlot(element);
	xPositionPlot.plot.getAxisLabels().setTitle('X Position');
	xPositionPlot.plot.getAxisLabels().setXLabel(TIME);
	xPositionPlot.plot.getAxisLabels().setYLabel('X Position (m)');

	xPositionPlot.addMessageLine(status, ['x']).setColor(RED);
	xPositionPlot.addMessageLine(localizer, ['down_estimator', 'position_x'])
	.setColor(BLUE);
	xPositionPlot.addMessageLine(localizer, ['state', 'x']).setColor(CYAN);

	// Absolute Y Position
	const yPositionPlot = aosPlotter.addPlot(element);
	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);
	yPositionPlot.addMessageLine(localizer, ['down_estimator', 'position_y'])
	.setColor(BLUE);
	yPositionPlot.addMessageLine(localizer, ['state', 'y']).setColor(CYAN);

	// Gyro
	const gyroPlot = aosPlotter.addPlot(element);
	gyroPlot.plot.getAxisLabels().setTitle('Gyro Readings');
	gyroPlot.plot.getAxisLabels().setYLabel('Angular Velocity (rad / sec)');
	gyroPlot.plot.getAxisLabels().setXLabel('Monotonic Reading Time (sec)');

	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);


	const timingPlot =
	aosPlotter.addPlot(element, [DEFAULT_WIDTH, DEFAULT_HEIGHT]);
	timingPlot.plot.getAxisLabels().setTitle('Fault Counting');
	timingPlot.plot.getAxisLabels().setXLabel(TIME);

	timingPlot
	.addMessageLine(
	localizer, ['imu', 'imu_failures', 'imu_to_pico_checksum_mismatch'])
	.setColor(BLUE)
	.setDrawLine(false);

	timingPlot
	.addMessageLine(
	localizer, ['imu', 'imu_failures', 'pico_to_pi_checksum_mismatch'])
	.setColor(RED)
	.setDrawLine(false);

	timingPlot
	.addMessageLine(
	localizer, ['imu', 'imu_failures', 'other_zeroing_faults'])
	.setColor(CYAN)
	.setDrawLine(false);

	timingPlot
	.addMessageLine(
	localizer, ['imu', 'imu_failures', 'missed_messages'])
	.setColor(PINK)
	.setDrawLine(false);
	}