import {Angle, Mesh, Quaternion, Scene, Vector3, WebXRDefaultExperience} from "@babylonjs/core"; import {Right} from "./right"; import {Left} from "./left"; import {ControllerEvent, ControllerEventType, Controllers} from "./controllers"; import log from "loglevel"; import {DiagramManager} from "../diagram/diagramManager"; import {buildRig} from "./functions/buildRig"; import {DefaultScene} from "../defaultScene"; const RIGHT = "right"; const LEFT = "left"; const logger = log.getLogger('Rigplatform'); export class Rigplatform { private readonly controllers: Controllers; private readonly diagramManager: DiagramManager; private readonly scene: Scene; private readonly velocityArray = [0.01, 0.1, 1, 2, 5]; private readonly xr: WebXRDefaultExperience; private rightController: Right; private leftController: Left; private turning: boolean = false; private velocity: Vector3 = Vector3.Zero(); private velocityIndex: number = 2; private turnVelocity: number = 0; private registered = false; private yRotation: number = 0; private _flyMode: boolean = true; public static instance: Rigplatform; public turnSnap: number = 0; public rigMesh: Mesh; constructor( xr: WebXRDefaultExperience, diagramManager: DiagramManager ) { this.scene = DefaultScene.Scene; this.diagramManager = diagramManager; this.controllers = diagramManager.controllers; this.xr = xr; this.rigMesh = buildRig(xr); this.fixRotation(); this.initializeControllers(); this.registerVelocityObserver(); } public set flyMode(value: boolean) { this._flyMode = value; if (this._flyMode) { this.rigMesh.physicsBody.setGravityFactor(.01); logger.debug('flymode'); } else { this.rigMesh.physicsBody.setGravityFactor(1); logger.debug('walkmode'); } } public forwardback(val: number) { this.velocity.z = (val * this.velocityArray[this.velocityIndex]) * -1; } public leftright(val: number) { this.velocity.x = (val * this.velocityArray[this.velocityIndex]); } public updown(val: number) { this.velocity.y = (val * this.velocityArray[this.velocityIndex]) * -1; } public turn(val: number) { const snap = this.turnSnap; if (snap && snap > 0) { if (!this.turning) { if (Math.abs(val) > .1) { this.turning = true; this.yRotation += Angle.FromDegrees(Math.sign(val) * snap).radians(); } } else { if (Math.abs(val) < .1) { this.turning = false; } } } else { if (Math.abs(val) > .1) { this.turnVelocity = val; } else { this.turnVelocity = 0; } } } private registerVelocityObserver() { this.scene.onBeforeRenderObservable.add(() => { const vel = this.velocity.applyRotationQuaternion(this.scene.activeCamera.absoluteRotation); if (!this._flyMode) { vel.y = 0; } if (vel.length() > 0) { logger.debug('Velocity', this.velocity, vel, this.scene.activeCamera.absoluteRotation); } this.rigMesh.physicsBody.setLinearVelocity(vel); }); } private registerObserver() { if (!this.registered) { this.registered = true; this.controllers.controllerObserver.add((event: ControllerEvent) => { logger.debug(event); switch (event.type) { case ControllerEventType.INCREASE_VELOCITY: if (this.velocityIndex < this.velocityArray.length - 1) { this.velocityIndex++; } else { this.velocityIndex = 0; } break; case ControllerEventType.DECREASE_VELOCITY: if (this.velocityIndex > 0) { this.velocityIndex--; } else { this.velocityIndex = this.velocityArray.length - 1; } break; case ControllerEventType.TURN: this.turn(event.value); break; case ControllerEventType.FORWARD_BACK: this.forwardback(event.value); break; case ControllerEventType.LEFT_RIGHT: this.leftright(event.value); break; case ControllerEventType.UP_DOWN: if (this._flyMode) { this.updown(event.value); } break; case ControllerEventType.MOTION: logger.debug(JSON.stringify(event)); break; } }); } } private initializeControllers() { this.xr.input.onControllerAddedObservable.add((source) => { this.registerObserver(); let controller; switch (source.inputSource.handedness) { case RIGHT: if (!this.rightController) { this.rightController = new Right(source, this.xr, this.diagramManager); } break; case LEFT: if (!this.leftController) { this.leftController = new Left(source, this.xr, this.diagramManager); } break; } //this.xr.baseExperience.camera.position = new Vector3(0, 0, 0); if (controller) { controller.setRig(this); } }); } private fixRotation() { this.scene.onAfterPhysicsObservable.add(() => { const turnSnap = this.turnSnap; if (turnSnap && turnSnap > 0) { const q = this.rigMesh.rotationQuaternion; this.rigMesh.physicsBody.setAngularVelocity(Vector3.Zero()); if (q) { const e = q.toEulerAngles(); e.y += this.yRotation; q.copyFrom(Quaternion.FromEulerAngles(0, e.y, 0)); } } else { this.rigMesh.physicsBody.setAngularVelocity(Vector3.Up().scale(this.turnVelocity)); } }, -1, false, this, false); } }