import { vec2 } from 'gl-matrix'; import { Circle, GameObject, serializesTo } from 'shared'; import { BoundingBox } from '../physics/bounding-boxes/bounding-box'; import { BoundingBoxBase } from '../physics/bounding-boxes/bounding-box-base'; import { moveCircle } from '../physics/functions/move-circle'; import { PhysicalContainer } from '../physics/containers/physical-container'; import { DynamicPhysical } from '../physics/physicals/dynamic-physical'; import { ReactsToCollision, reactsToCollision } from './capabilities/reacts-to-collision'; @serializesTo(Circle) export class CirclePhysical implements Circle, DynamicPhysical, ReactsToCollision { readonly canCollide = true; readonly canMove = true; public velocity = vec2.create(); public lastNormal = vec2.fromValues(0, 1); private _boundingBox: BoundingBox; constructor( private _center: vec2, private _radius: number, public owner: GameObject, private readonly container: PhysicalContainer, private restitution = 0, ) { this._boundingBox = new BoundingBox(); this.recalculateBoundingBox(); } public get boundingBox(): BoundingBoxBase { return this._boundingBox; } public get center(): vec2 { return this._center; } public set center(value: vec2) { this._center = value; this.recalculateBoundingBox(); } public onCollision(other: GameObject) { if (reactsToCollision(this.owner)) { this.owner.onCollision(other); } } public get gameObject(): GameObject { return this.owner; } public get radius(): number { return this._radius; } public set radius(value: number) { this._radius = value; this.recalculateBoundingBox(); } public distance(target: vec2): number { return vec2.distance(target, this.center) - this.radius; } private recalculateBoundingBox() { this._boundingBox.xMin = this.center.x - this._radius; this._boundingBox.xMax = this.center.x + this._radius; this._boundingBox.yMin = this.center.y - this._radius; this._boundingBox.yMax = this.center.y + this._radius; } public applyForce(force: vec2, timeInSeconds: number) { vec2.add( this.velocity, this.velocity, vec2.scale(vec2.create(), force, timeInSeconds), ); } public stepManually( deltaTimeInSeconds: number, ): { hitObject: GameObject | undefined; velocity: vec2 } { let delta = vec2.scale(vec2.create(), this.velocity, deltaTimeInSeconds); this.radius += vec2.length(delta); const intersecting = this.container .findIntersecting(this.boundingBox) .filter((b) => b.gameObject !== this.gameObject && b.canCollide); this.radius -= vec2.length(delta); let { normal, hitSurface, hitObject } = moveCircle(this, delta, intersecting); if (hitSurface) { vec2.copy(this.lastNormal, normal!); vec2.subtract( this.velocity, this.velocity, vec2.scale( normal!, normal!, (1 + this.restitution) * vec2.dot(normal!, this.velocity), ), ); if (vec2.length(this.velocity) > 50) { delta = vec2.scale(vec2.create(), this.velocity, deltaTimeInSeconds); moveCircle(this, delta, intersecting); } } const lastVelocity = vec2.clone(this.velocity); vec2.zero(this.velocity); return { hitObject, velocity: lastVelocity }; } public toArray(): Array { const { center, radius } = this; return [center, radius]; } }