import autobind from 'autobind-decorator'; import * as THREE from 'three'; import { GLTFLoader, GLTF } from 'three/examples/jsm/loaders/GLTFLoader'; import { OrbitControls } from 'three/examples/jsm/controls/OrbitControls.js'; import { EffectComposer } from 'three/examples/jsm/postprocessing/EffectComposer.js'; import { RenderPass } from 'three/examples/jsm/postprocessing/RenderPass.js'; import { ShaderPass } from 'three/examples/jsm/postprocessing/ShaderPass.js'; import { BloomPass } from 'three/examples/jsm/postprocessing/BloomPass.js'; import { FXAAShader } from 'three/examples/jsm/shaders/FXAAShader.js'; import { TransformControls } from 'three/examples/jsm/controls/TransformControls.js'; import { Furniture, RoomInfo } from './furniture'; import { v4 as uuid } from 'uuid'; const furnitureDefs = require('./furnitures.json5'); THREE.ImageUtils.crossOrigin = ''; type Options = { graphicsQuality: Room['graphicsQuality']; onChangeSelect: Room['onChangeSelect']; useOrthographicCamera: boolean; }; export class Room { private clock: THREE.Clock; private scene: THREE.Scene; private renderer: THREE.WebGLRenderer; private camera: THREE.PerspectiveCamera | THREE.OrthographicCamera; private controls: OrbitControls; private composer: EffectComposer; private mixers: THREE.AnimationMixer[] = []; private furnitureControl: TransformControls; private roomInfo: RoomInfo; private graphicsQuality: 'cheep' | 'low' | 'medium' | 'high' | 'ultra'; private roomObj: THREE.Object3D; private objects: THREE.Object3D[] = []; private selectedObject: THREE.Object3D = null; private onChangeSelect: Function; private isTransformMode = false; public canvas: HTMLCanvasElement; private get furnitures(): Furniture[] { return this.roomInfo.furnitures; } private set furnitures(furnitures: Furniture[]) { this.roomInfo.furnitures = furnitures; } private get enableShadow() { return this.graphicsQuality != 'cheep'; } private get usePostFXs() { return this.graphicsQuality !== 'cheep' && this.graphicsQuality !== 'low'; } private get shadowQuality() { return ( this.graphicsQuality === 'ultra' ? 16384 : this.graphicsQuality === 'high' ? 8192 : this.graphicsQuality === 'medium' ? 4096 : this.graphicsQuality === 'low' ? 1024 : 0); // cheep } constructor(user, isMyRoom, roomInfo: RoomInfo, container, options: Options) { this.roomInfo = roomInfo; this.graphicsQuality = options.graphicsQuality; this.onChangeSelect = options.onChangeSelect; this.clock = new THREE.Clock(true); //#region Init a scene this.scene = new THREE.Scene(); const width = window.innerWidth; const height = window.innerHeight; //#region Init a renderer this.renderer = new THREE.WebGLRenderer({ antialias: false, stencil: false, alpha: false, powerPreference: this.graphicsQuality === 'ultra' ? 'high-performance' : this.graphicsQuality === 'high' ? 'high-performance' : this.graphicsQuality === 'medium' ? 'default' : this.graphicsQuality === 'low' ? 'low-power' : 'low-power' // cheep }); this.renderer.setPixelRatio(window.devicePixelRatio); this.renderer.setSize(width, height); this.renderer.autoClear = false; this.renderer.setClearColor(new THREE.Color(0x051f2d)); this.renderer.shadowMap.enabled = this.enableShadow; this.renderer.gammaOutput = true; this.renderer.shadowMap.type = this.graphicsQuality === 'ultra' ? THREE.PCFSoftShadowMap : this.graphicsQuality === 'high' ? THREE.PCFSoftShadowMap : this.graphicsQuality === 'medium' ? THREE.PCFShadowMap : this.graphicsQuality === 'low' ? THREE.BasicShadowMap : THREE.BasicShadowMap; // cheep this.canvas = this.renderer.domElement; container.appendChild(this.renderer.domElement); //#endregion //#region Init a camera this.camera = options.useOrthographicCamera ? new THREE.OrthographicCamera( width / - 2, width / 2, height / 2, height / - 2, -10, 10) : new THREE.PerspectiveCamera(45, width / height); if (options.useOrthographicCamera) { this.camera.position.x = 2; this.camera.position.y = 2; this.camera.position.z = 2; this.camera.zoom = 100; this.camera.updateProjectionMatrix(); } else { this.camera.position.x = 5; this.camera.position.y = 2; this.camera.position.z = 5; } this.scene.add(this.camera); //#endregion //#region AmbientLight const ambientLight = new THREE.AmbientLight(0xffffff, 1); this.scene.add(ambientLight); //#endregion if (this.graphicsQuality !== 'cheep') { //#region Room light const roomLight = new THREE.SpotLight(0xffffff, 0.1); roomLight.position.set(0, 8, 0); roomLight.castShadow = this.enableShadow; roomLight.shadow.bias = -0.0001; roomLight.shadow.mapSize.width = this.shadowQuality; roomLight.shadow.mapSize.height = this.shadowQuality; roomLight.shadow.camera.near = 0.1; roomLight.shadow.camera.far = 9; roomLight.shadow.camera.fov = 45; this.scene.add(roomLight); //#endregion } //#region Out light const outLight = new THREE.SpotLight(0xffffff, 0.4); outLight.position.set(9, 3, -2); outLight.castShadow = this.enableShadow; outLight.shadow.bias = -0.001; // アクネ、アーチファクト対策 その代わりピーターパンが発生する可能性がある outLight.shadow.mapSize.width = this.shadowQuality; outLight.shadow.mapSize.height = this.shadowQuality; outLight.shadow.camera.near = 6; outLight.shadow.camera.far = 15; outLight.shadow.camera.fov = 45; this.scene.add(outLight); //#endregion //#region Init a controller this.controls = new OrbitControls(this.camera, this.renderer.domElement); this.controls.target.set(0, 1, 0); this.controls.enableZoom = true; this.controls.enablePan = isMyRoom; this.controls.minPolarAngle = 0; this.controls.maxPolarAngle = Math.PI / 2; this.controls.minAzimuthAngle = 0; this.controls.maxAzimuthAngle = Math.PI / 2; this.controls.enableDamping = true; this.controls.dampingFactor = 0.2; this.controls.mouseButtons.LEFT = 1; this.controls.mouseButtons.MIDDLE = 2; this.controls.mouseButtons.RIGHT = 0; //#endregion //#region POST FXs if (!this.usePostFXs) { this.composer = null; } else { const renderTarget = new THREE.WebGLRenderTarget(width, height, { minFilter: THREE.LinearFilter, magFilter: THREE.LinearFilter, format: THREE.RGBFormat, stencilBuffer: false, }); const fxaa = new ShaderPass(FXAAShader); fxaa.uniforms['resolution'].value = new THREE.Vector2(1 / width, 1 / height); fxaa.renderToScreen = true; this.composer = new EffectComposer(this.renderer, renderTarget); this.composer.addPass(new RenderPass(this.scene, this.camera)); if (this.graphicsQuality === 'ultra') { this.composer.addPass(new BloomPass(0.25, 30, 128.0, 512)); } this.composer.addPass(fxaa); } //#endregion //#endregion //#region Label //#region Avatar const avatarUrl = user.avatarUrl; const iconTexture = new THREE.TextureLoader().load(avatarUrl); iconTexture.wrapS = THREE.RepeatWrapping; iconTexture.wrapT = THREE.RepeatWrapping; iconTexture.anisotropy = 16; const avatarMaterial = new THREE.MeshLambertMaterial({ emissive: 0x111111, map: iconTexture, side: THREE.DoubleSide, alphaTest: 0.5 }); const iconGeometry = new THREE.PlaneGeometry(1, 1); const avatarObject = new THREE.Mesh(iconGeometry, avatarMaterial); avatarObject.position.set(-3, 2.5, 2); avatarObject.rotation.y = Math.PI / 2; avatarObject.castShadow = false; this.scene.add(avatarObject); //#endregion //#region Username const name = user.username; new THREE.FontLoader().load('/assets/fonts/helvetiker_regular.typeface.json', font => { const nameGeometry = new THREE.TextGeometry(name, { size: 0.5, height: 0, curveSegments: 8, font: font, bevelThickness: 0, bevelSize: 0, bevelEnabled: false }); const nameMaterial = new THREE.MeshLambertMaterial({ color: 0xffffff }); const nameObject = new THREE.Mesh(nameGeometry, nameMaterial); nameObject.position.set(-3, 2.25, 1.25); nameObject.rotation.y = Math.PI / 2; nameObject.castShadow = false; this.scene.add(nameObject); }); //#endregion //#endregion //#region Interaction if (isMyRoom) { this.furnitureControl = new TransformControls(this.camera, this.renderer.domElement); this.scene.add(this.furnitureControl); // Hover highlight this.renderer.domElement.onmousemove = this.onmousemove; // Click this.renderer.domElement.onmousedown = this.onmousedown; } //#endregion //#region Init room this.loadRoom(); //#endregion //#region Load furnitures for (const furniture of this.furnitures) { this.loadFurniture(furniture).then(obj => { this.scene.add(obj.scene); this.objects.push(obj.scene); }); } //#endregion // Start render if (this.usePostFXs) { this.renderWithPostFXs(); } else { this.renderWithoutPostFXs(); } } @autobind private renderWithoutPostFXs() { requestAnimationFrame(this.renderWithoutPostFXs); // Update animations const clock = this.clock.getDelta(); for (const mixer of this.mixers) { mixer.update(clock); } this.controls.update(); this.renderer.render(this.scene, this.camera); } @autobind private renderWithPostFXs() { requestAnimationFrame(this.renderWithPostFXs); // Update animations const clock = this.clock.getDelta(); for (const mixer of this.mixers) { mixer.update(clock); } this.controls.update(); this.renderer.clear(); this.composer.render(); } @autobind private loadRoom() { new GLTFLoader().load(`/assets/room/rooms/${this.roomInfo.roomType}/${this.roomInfo.roomType}.glb`, gltf => { gltf.scene.traverse(child => { if (!(child instanceof THREE.Mesh)) return; child.receiveShadow = this.enableShadow; child.material = new THREE.MeshLambertMaterial({ color: (child.material as THREE.MeshStandardMaterial).color, map: (child.material as THREE.MeshStandardMaterial).map, name: (child.material as THREE.MeshStandardMaterial).name, }); // 異方性フィルタリング if ((child.material as THREE.MeshLambertMaterial).map && this.graphicsQuality !== 'cheep') { (child.material as THREE.MeshLambertMaterial).map.minFilter = THREE.LinearMipMapLinearFilter; (child.material as THREE.MeshLambertMaterial).map.magFilter = THREE.LinearMipMapLinearFilter; (child.material as THREE.MeshLambertMaterial).map.anisotropy = 8; } }); gltf.scene.position.set(0, 0, 0); this.scene.add(gltf.scene); this.roomObj = gltf.scene; if (this.roomInfo.roomType === 'default') { this.applyCarpetColor(); } }); } @autobind private loadFurniture(furniture: Furniture) { const def = furnitureDefs.find(d => d.id === furniture.type); return new Promise((res, rej) => { const loader = new GLTFLoader(); loader.load(`/assets/room/furnitures/${furniture.type}/${furniture.type}.glb`, gltf => { const model = gltf.scene; // Load animation if (gltf.animations.length > 0) { const mixer = new THREE.AnimationMixer(model); this.mixers.push(mixer); for (const clip of gltf.animations) { mixer.clipAction(clip).play(); } } model.name = furniture.id; model.position.x = furniture.position.x; model.position.y = furniture.position.y; model.position.z = furniture.position.z; model.rotation.x = furniture.rotation.x; model.rotation.y = furniture.rotation.y; model.rotation.z = furniture.rotation.z; model.traverse(child => { if (!(child instanceof THREE.Mesh)) return; child.castShadow = this.enableShadow; child.receiveShadow = this.enableShadow; child.material = new THREE.MeshLambertMaterial({ color: (child.material as THREE.MeshStandardMaterial).color, map: (child.material as THREE.MeshStandardMaterial).map, name: (child.material as THREE.MeshStandardMaterial).name, }); // 異方性フィルタリング if ((child.material as THREE.MeshLambertMaterial).map && this.graphicsQuality !== 'cheep') { (child.material as THREE.MeshLambertMaterial).map.minFilter = THREE.LinearMipMapLinearFilter; (child.material as THREE.MeshLambertMaterial).map.magFilter = THREE.LinearMipMapLinearFilter; (child.material as THREE.MeshLambertMaterial).map.anisotropy = 8; } }); if (def.color) { // カスタムカラー this.applyCustomColor(model); } if (def.texture) { // カスタムテクスチャ this.applyCustomTexture(model); } res(gltf); }, null, rej); }); } @autobind private applyCarpetColor() { this.roomObj.traverse(child => { if (!(child instanceof THREE.Mesh)) return; if (child.material && (child.material as THREE.MeshStandardMaterial).name && (child.material as THREE.MeshStandardMaterial).name === 'Carpet') { (child.material as THREE.MeshStandardMaterial).color.setHex(parseInt(this.roomInfo.carpetColor.substr(1), 16)); } }); } @autobind public applyCustomColor(model: THREE.Object3D) { const furniture = this.furnitures.find(furniture => furniture.id === model.name); const def = furnitureDefs.find(d => d.id === furniture.type); if (def.color == null) return; model.traverse(child => { if (!(child instanceof THREE.Mesh)) return; for (const t of Object.keys(def.color)) { if (!child.material || !(child.material as THREE.MeshStandardMaterial).name || (child.material as THREE.MeshStandardMaterial).name !== t) continue; const prop = def.color[t]; const val = furniture.props ? furniture.props[prop] : undefined; if (val == null) continue; (child.material as THREE.MeshStandardMaterial).color.setHex(parseInt(val.substr(1), 16)); } }); } @autobind public applyCustomTexture(model: THREE.Object3D) { const furniture = this.furnitures.find(furniture => furniture.id === model.name); const def = furnitureDefs.find(d => d.id === furniture.type); if (def.texture == null) return; model.traverse(child => { if (!(child instanceof THREE.Mesh)) return; for (const t of Object.keys(def.texture)) { if (child.name !== t) continue; const prop = def.texture[t].prop; const val = furniture.props ? furniture.props[prop] : undefined; if (val == null) continue; const canvas = document.createElement('canvas'); canvas.height = 1024; canvas.width = 1024; child.material = new THREE.MeshLambertMaterial({ emissive: 0x111111, side: THREE.DoubleSide, alphaTest: 0.5, }); const img = new Image(); img.onload = () => { const uvInfo = def.texture[t].uv; const ctx = canvas.getContext('2d'); ctx.drawImage(img, 0, 0, img.width, img.height, uvInfo.x, uvInfo.y, uvInfo.width, uvInfo.height); const texture = new THREE.Texture(canvas); texture.wrapS = THREE.RepeatWrapping; texture.wrapT = THREE.RepeatWrapping; texture.anisotropy = 16; texture.flipY = false; (child.material as THREE.MeshLambertMaterial).map = texture; (child.material as THREE.MeshLambertMaterial).needsUpdate = true; (child.material as THREE.MeshLambertMaterial).map.needsUpdate = true; }; img.src = val; } }); } @autobind private onmousemove(ev: MouseEvent) { if (this.isTransformMode) return; const rect = (ev.target as HTMLElement).getBoundingClientRect(); const x = (((ev.clientX * window.devicePixelRatio) - rect.left) / this.renderer.domElement.width) * 2 - 1; const y = -(((ev.clientY * window.devicePixelRatio) - rect.top) / this.renderer.domElement.height) * 2 + 1; const pos = new THREE.Vector2(x, y); this.camera.updateMatrixWorld(); const raycaster = new THREE.Raycaster(); raycaster.setFromCamera(pos, this.camera); const intersects = raycaster.intersectObjects(this.objects, true); for (const object of this.objects) { if (this.isSelectedObject(object)) continue; object.traverse(child => { if (child instanceof THREE.Mesh) { (child.material as THREE.MeshStandardMaterial).emissive.setHex(0x000000); } }); } if (intersects.length > 0) { const intersected = this.getRoot(intersects[0].object); if (!this.isSelectedObject(intersected)) { intersected.traverse(child => { if (child instanceof THREE.Mesh) { (child.material as THREE.MeshStandardMaterial).emissive.setHex(0x191919); } }); } } } @autobind private onmousedown(ev: MouseEvent) { if (this.isTransformMode) return; if (ev.target !== this.renderer.domElement || ev.button !== 0) return; const rect = (ev.target as HTMLElement).getBoundingClientRect(); const x = (((ev.clientX * window.devicePixelRatio) - rect.left) / this.renderer.domElement.width) * 2 - 1; const y = -(((ev.clientY * window.devicePixelRatio) - rect.top) / this.renderer.domElement.height) * 2 + 1; const pos = new THREE.Vector2(x, y); this.camera.updateMatrixWorld(); const raycaster = new THREE.Raycaster(); raycaster.setFromCamera(pos, this.camera); const intersects = raycaster.intersectObjects(this.objects, true); for (const object of this.objects) { object.traverse(child => { if (child instanceof THREE.Mesh) { (child.material as THREE.MeshStandardMaterial).emissive.setHex(0x000000); } }); } if (intersects.length > 0) { const selectedObj = this.getRoot(intersects[0].object); this.selectFurniture(selectedObj); } else { this.selectedObject = null; this.onChangeSelect(null); } } @autobind private getRoot(obj: THREE.Object3D): THREE.Object3D { let found = false; let x = obj.parent; while (!found) { if (x.parent.parent == null) { found = true; } else { x = x.parent; } } return x; } @autobind private isSelectedObject(obj: THREE.Object3D): boolean { if (this.selectedObject == null) { return false; } else { return obj.name === this.selectedObject.name; } } @autobind private selectFurniture(obj: THREE.Object3D) { this.selectedObject = obj; this.onChangeSelect(obj); obj.traverse(child => { if (child instanceof THREE.Mesh) { (child.material as THREE.MeshStandardMaterial).emissive.setHex(0xff0000); } }); } @autobind public enterTransformMode(type: 'translate' | 'rotate') { this.isTransformMode = true; this.furnitureControl.setMode(type); this.furnitureControl.attach(this.selectedObject); } @autobind public exitTransformMode() { this.isTransformMode = false; this.furnitureControl.detach(); } @autobind public updateProp(key: string, value: any) { const furniture = this.furnitures.find(furniture => furniture.id === this.selectedObject.name); if (furniture.props == null) furniture.props = {}; furniture.props[key] = value; this.applyCustomColor(this.selectedObject); this.applyCustomTexture(this.selectedObject); } @autobind public addFurniture(type: string) { const furniture = { id: uuid(), type: type, position: { x: 0, y: 0, z: 0, }, rotation: { x: 0, y: 0, z: 0, }, }; this.furnitures.push(furniture); this.loadFurniture(furniture).then(obj => { this.scene.add(obj.scene); this.objects.push(obj.scene); }); } @autobind public removeFurniture() { const obj = this.selectedObject; this.scene.remove(obj); this.objects = this.objects.filter(object => object.name !== obj.name); this.furnitures = this.furnitures.filter(furniture => furniture.id !== obj.name); this.selectedObject = null; this.onChangeSelect(null); } @autobind public updateCarpetColor(color: string) { this.roomInfo.carpetColor = color; this.applyCarpetColor(); } @autobind public changeRoomType(type: string) { this.roomInfo.roomType = type; this.scene.remove(this.roomObj); this.loadRoom(); } @autobind public getRoomInfo() { for (const obj of this.objects) { const furniture = this.furnitures.find(f => f.id === obj.name); furniture.position.x = obj.position.x; furniture.position.y = obj.position.y; furniture.position.z = obj.position.z; furniture.rotation.x = obj.rotation.x; furniture.rotation.y = obj.rotation.y; furniture.rotation.z = obj.rotation.z; } return this.roomInfo; } @autobind public getSelectedObject() { return this.selectedObject; } @autobind public findFurnitureById(id: string) { return this.furnitures.find(furniture => furniture.id === id); } }