y2023/www/field_handler.ts - RealtimeRoboticsGroup/test - Gitiles

 import {ByteBuffer} from 'flatbuffers';
 import {Connection} from '../../aos/network/www/proxy';
 import {Status as SuperstructureStatus} from '../control_loops/superstructure/superstructure_status_generated'
 import {Status as DrivetrainStatus} from '../../frc971/control_loops/drivetrain/drivetrain_status_generated';

 import {FIELD_LENGTH, FIELD_WIDTH, FT_TO_M, IN_TO_M} from './constants';

 // (0,0) is field center, +X is toward red DS
 const FIELD_SIDE_Y = FIELD_WIDTH / 2;
 const FIELD_EDGE_X = FIELD_LENGTH / 2;

 const ROBOT_WIDTH = 34 * IN_TO_M;
 const ROBOT_LENGTH = 36 * IN_TO_M;

 const PI_COLORS = ['#ff00ff', '#ffff00', '#00ffff', '#ffa500'];

 export class FieldHandler {
   private canvas = document.createElement('canvas');
   private drivetrainStatus: DrivetrainStatus|null = null;
   private superstructureStatus: SuperstructureStatus|null = null;

   // Image information indexed by timestamp (seconds since the epoch), so that
   // we can stop displaying images after a certain amount of time.
     private x: HTMLElement = (document.getElementById('x') as HTMLElement);
   private y: HTMLElement = (document.getElementById('y') as HTMLElement);
   private theta: HTMLElement =
       (document.getElementById('theta') as HTMLElement);
   private superstructureState: HTMLElement =
       (document.getElementById('superstructure_state') as HTMLElement);
   private imagesAcceptedCounter: HTMLElement =
       (document.getElementById('images_accepted') as HTMLElement);
   private imagesRejectedCounter: HTMLElement =
       (document.getElementById('images_rejected') as HTMLElement);
   private fieldImage: HTMLImageElement = new Image();

   constructor(private readonly connection: Connection) {
     (document.getElementById('field') as HTMLElement).appendChild(this.canvas);

     this.fieldImage.src = "2022.png";

     for (let ii = 0; ii < PI_COLORS.length; ++ii) {
       const legendEntry = document.createElement('div');
       legendEntry.style.color = PI_COLORS[ii];
       legendEntry.innerHTML = 'PI' + (ii + 1).toString()
       document.getElementById('legend').appendChild(legendEntry);
     }

     this.connection.addConfigHandler(() => {
       // Visualization message is reliable so that we can see *all* the vision
       // matches.
       this.connection.addHandler(
           '/drivetrain', "frc971.control_loops.drivetrain.Status", (data) => {
             this.handleDrivetrainStatus(data);
           });
       this.connection.addHandler(
           '/superstructure', "y2023.control_loops.superstructure.Status",
           (data) => {
             this.handleSuperstructureStatus(data);
           });
     });
   }

   private handleDrivetrainStatus(data: Uint8Array): void {
     const fbBuffer = new ByteBuffer(data);
     this.drivetrainStatus = DrivetrainStatus.getRootAsStatus(fbBuffer);
   }

   private handleSuperstructureStatus(data: Uint8Array): void {
     const fbBuffer = new ByteBuffer(data);
     this.superstructureStatus = SuperstructureStatus.getRootAsStatus(fbBuffer);
   }

   drawField(): void {
     const ctx = this.canvas.getContext('2d');
     ctx.save();
     ctx.scale(-1.0, 1.0);
     ctx.drawImage(
         this.fieldImage, 0, 0, this.fieldImage.width, this.fieldImage.height,
         -FIELD_EDGE_X, -FIELD_SIDE_Y, FIELD_LENGTH, FIELD_WIDTH);
     ctx.restore();
   }

   drawCamera(
       x: number, y: number, theta: number, color: string = 'blue',
       extendLines: boolean = true): void {
     const ctx = this.canvas.getContext('2d');
     ctx.save();
     ctx.translate(x, y);
     ctx.rotate(theta);
     ctx.strokeStyle = color;
     ctx.beginPath();
     ctx.moveTo(0.5, 0.5);
     ctx.lineTo(0, 0);
     if (extendLines) {
       ctx.lineTo(100.0, 0);
       ctx.lineTo(0, 0);
     }
     ctx.lineTo(0.5, -0.5);
     ctx.stroke();
     ctx.beginPath();
     ctx.arc(0, 0, 0.25, -Math.PI / 4, Math.PI / 4);
     ctx.stroke();
     ctx.restore();
   }

   drawRobot(
       x: number, y: number, theta: number, turret: number|null,
       color: string = 'blue', dashed: boolean = false,
       extendLines: boolean = true): void {
     const ctx = this.canvas.getContext('2d');
     ctx.save();
     ctx.translate(x, y);
     ctx.rotate(theta);
     ctx.strokeStyle = color;
     ctx.lineWidth = ROBOT_WIDTH / 10.0;
     if (dashed) {
       ctx.setLineDash([0.05, 0.05]);
     } else {
       // Empty array = solid line.
       ctx.setLineDash([]);
     }
     ctx.rect(-ROBOT_LENGTH / 2, -ROBOT_WIDTH / 2, ROBOT_LENGTH, ROBOT_WIDTH);
     ctx.stroke();

     // Draw line indicating which direction is forwards on the robot.
     ctx.beginPath();
     ctx.moveTo(0, 0);
     if (extendLines) {
       ctx.lineTo(1000.0, 0);
     } else {
       ctx.lineTo(ROBOT_LENGTH / 2.0, 0);
     }
     ctx.stroke();

     ctx.restore();
   }

   setZeroing(div: HTMLElement): void {
     div.innerHTML = 'zeroing';
     div.classList.remove('faulted');
     div.classList.add('zeroing');
     div.classList.remove('near');
   }

   setEstopped(div: HTMLElement): void {
     div.innerHTML = 'estopped';
     div.classList.add('faulted');
     div.classList.remove('zeroing');
     div.classList.remove('near');
   }

   setTargetValue(
       div: HTMLElement, target: number, val: number, tolerance: number): void {
     div.innerHTML = val.toFixed(4);
     div.classList.remove('faulted');
     div.classList.remove('zeroing');
     if (Math.abs(target - val) < tolerance) {
       div.classList.add('near');
     } else {
       div.classList.remove('near');
     }
   }

   setValue(div: HTMLElement, val: number): void {
     div.innerHTML = val.toFixed(4);
     div.classList.remove('faulted');
     div.classList.remove('zeroing');
     div.classList.remove('near');
   }

   draw(): void {
     this.reset();
     this.drawField();

     // Draw the matches with debugging information from the localizer.
     const now = Date.now() / 1000.0;

     if (this.drivetrainStatus && this.drivetrainStatus.trajectoryLogging()) {
       this.drawRobot(
           this.drivetrainStatus.trajectoryLogging().x(),
           this.drivetrainStatus.trajectoryLogging().y(),
           this.drivetrainStatus.trajectoryLogging().theta(), null, "#000000FF",
           false);
     }

     window.requestAnimationFrame(() => this.draw());
   }

   reset(): void {
     const ctx = this.canvas.getContext('2d');
     ctx.setTransform(1, 0, 0, 1, 0, 0);
     const size = window.innerHeight * 0.9;
     ctx.canvas.height = size;
     const width = size / 2 + 20;
     ctx.canvas.width = width;
     ctx.clearRect(0, 0, size, width);

     // Translate to center of display.
     ctx.translate(width / 2, size / 2);
     // Coordinate system is:
     // x -> forward.
     // y -> to the left.
     ctx.rotate(-Math.PI / 2);
     ctx.scale(1, -1);

     const M_TO_PX = (size - 10) / FIELD_LENGTH;
     ctx.scale(M_TO_PX, M_TO_PX);
     ctx.lineWidth = 1 / M_TO_PX;
   }
 }
	import {ByteBuffer} from 'flatbuffers';
	import {Connection} from '../../aos/network/www/proxy';
	import {Status as SuperstructureStatus} from '../control_loops/superstructure/superstructure_status_generated'
	import {Status as DrivetrainStatus} from '../../frc971/control_loops/drivetrain/drivetrain_status_generated';

	import {FIELD_LENGTH, FIELD_WIDTH, FT_TO_M, IN_TO_M} from './constants';

	// (0,0) is field center, +X is toward red DS
	const FIELD_SIDE_Y = FIELD_WIDTH / 2;
	const FIELD_EDGE_X = FIELD_LENGTH / 2;

	const ROBOT_WIDTH = 34 * IN_TO_M;
	const ROBOT_LENGTH = 36 * IN_TO_M;

	const PI_COLORS = ['#ff00ff', '#ffff00', '#00ffff', '#ffa500'];

	export class FieldHandler {
	private canvas = document.createElement('canvas');
	private drivetrainStatus: DrivetrainStatus\|null = null;
	private superstructureStatus: SuperstructureStatus\|null = null;

	// Image information indexed by timestamp (seconds since the epoch), so that
	// we can stop displaying images after a certain amount of time.
	private x: HTMLElement = (document.getElementById('x') as HTMLElement);
	private y: HTMLElement = (document.getElementById('y') as HTMLElement);
	private theta: HTMLElement =
	(document.getElementById('theta') as HTMLElement);
	private superstructureState: HTMLElement =
	(document.getElementById('superstructure_state') as HTMLElement);
	private imagesAcceptedCounter: HTMLElement =
	(document.getElementById('images_accepted') as HTMLElement);
	private imagesRejectedCounter: HTMLElement =
	(document.getElementById('images_rejected') as HTMLElement);
	private fieldImage: HTMLImageElement = new Image();

	constructor(private readonly connection: Connection) {
	(document.getElementById('field') as HTMLElement).appendChild(this.canvas);

	this.fieldImage.src = "2022.png";

	for (let ii = 0; ii < PI_COLORS.length; ++ii) {
	const legendEntry = document.createElement('div');
	legendEntry.style.color = PI_COLORS[ii];
	legendEntry.innerHTML = 'PI' + (ii + 1).toString()
	document.getElementById('legend').appendChild(legendEntry);
	}

	this.connection.addConfigHandler(() => {
	// Visualization message is reliable so that we can see all the vision
	// matches.
	this.connection.addHandler(
	'/drivetrain', "frc971.control_loops.drivetrain.Status", (data) => {
	this.handleDrivetrainStatus(data);
	});
	this.connection.addHandler(
	'/superstructure', "y2023.control_loops.superstructure.Status",
	(data) => {
	this.handleSuperstructureStatus(data);
	});
	});
	}

	private handleDrivetrainStatus(data: Uint8Array): void {
	const fbBuffer = new ByteBuffer(data);
	this.drivetrainStatus = DrivetrainStatus.getRootAsStatus(fbBuffer);
	}

	private handleSuperstructureStatus(data: Uint8Array): void {
	const fbBuffer = new ByteBuffer(data);
	this.superstructureStatus = SuperstructureStatus.getRootAsStatus(fbBuffer);
	}

	drawField(): void {
	const ctx = this.canvas.getContext('2d');
	ctx.save();
	ctx.scale(-1.0, 1.0);
	ctx.drawImage(
	this.fieldImage, 0, 0, this.fieldImage.width, this.fieldImage.height,
	-FIELD_EDGE_X, -FIELD_SIDE_Y, FIELD_LENGTH, FIELD_WIDTH);
	ctx.restore();
	}

	drawCamera(
	x: number, y: number, theta: number, color: string = 'blue',
	extendLines: boolean = true): void {
	const ctx = this.canvas.getContext('2d');
	ctx.save();
	ctx.translate(x, y);
	ctx.rotate(theta);
	ctx.strokeStyle = color;
	ctx.beginPath();
	ctx.moveTo(0.5, 0.5);
	ctx.lineTo(0, 0);
	if (extendLines) {
	ctx.lineTo(100.0, 0);
	ctx.lineTo(0, 0);
	}
	ctx.lineTo(0.5, -0.5);
	ctx.stroke();
	ctx.beginPath();
	ctx.arc(0, 0, 0.25, -Math.PI / 4, Math.PI / 4);
	ctx.stroke();
	ctx.restore();
	}

	drawRobot(
	x: number, y: number, theta: number, turret: number\|null,
	color: string = 'blue', dashed: boolean = false,
	extendLines: boolean = true): void {
	const ctx = this.canvas.getContext('2d');
	ctx.save();
	ctx.translate(x, y);
	ctx.rotate(theta);
	ctx.strokeStyle = color;
	ctx.lineWidth = ROBOT_WIDTH / 10.0;
	if (dashed) {
	ctx.setLineDash([0.05, 0.05]);
	} else {
	// Empty array = solid line.
	ctx.setLineDash([]);
	}
	ctx.rect(-ROBOT_LENGTH / 2, -ROBOT_WIDTH / 2, ROBOT_LENGTH, ROBOT_WIDTH);
	ctx.stroke();

	// Draw line indicating which direction is forwards on the robot.
	ctx.beginPath();
	ctx.moveTo(0, 0);
	if (extendLines) {
	ctx.lineTo(1000.0, 0);
	} else {
	ctx.lineTo(ROBOT_LENGTH / 2.0, 0);
	}
	ctx.stroke();

	ctx.restore();
	}

	setZeroing(div: HTMLElement): void {
	div.innerHTML = 'zeroing';
	div.classList.remove('faulted');
	div.classList.add('zeroing');
	div.classList.remove('near');
	}

	setEstopped(div: HTMLElement): void {
	div.innerHTML = 'estopped';
	div.classList.add('faulted');
	div.classList.remove('zeroing');
	div.classList.remove('near');
	}

	setTargetValue(
	div: HTMLElement, target: number, val: number, tolerance: number): void {
	div.innerHTML = val.toFixed(4);
	div.classList.remove('faulted');
	div.classList.remove('zeroing');
	if (Math.abs(target - val) < tolerance) {
	div.classList.add('near');
	} else {
	div.classList.remove('near');
	}
	}

	setValue(div: HTMLElement, val: number): void {
	div.innerHTML = val.toFixed(4);
	div.classList.remove('faulted');
	div.classList.remove('zeroing');
	div.classList.remove('near');
	}

	draw(): void {
	this.reset();
	this.drawField();

	// Draw the matches with debugging information from the localizer.
	const now = Date.now() / 1000.0;

	if (this.drivetrainStatus && this.drivetrainStatus.trajectoryLogging()) {
	this.drawRobot(
	this.drivetrainStatus.trajectoryLogging().x(),
	this.drivetrainStatus.trajectoryLogging().y(),
	this.drivetrainStatus.trajectoryLogging().theta(), null, "#000000FF",
	false);
	}

	window.requestAnimationFrame(() => this.draw());
	}

	reset(): void {
	const ctx = this.canvas.getContext('2d');
	ctx.setTransform(1, 0, 0, 1, 0, 0);
	const size = window.innerHeight * 0.9;
	ctx.canvas.height = size;
	const width = size / 2 + 20;
	ctx.canvas.width = width;
	ctx.clearRect(0, 0, size, width);

	// Translate to center of display.
	ctx.translate(width / 2, size / 2);
	// Coordinate system is:
	// x -> forward.
	// y -> to the left.
	ctx.rotate(-Math.PI / 2);
	ctx.scale(1, -1);

	const M_TO_PX = (size - 10) / FIELD_LENGTH;
	ctx.scale(M_TO_PX, M_TO_PX);
	ctx.lineWidth = 1 / M_TO_PX;
	}
	}