[webGL学习]基于three.js构建WebGL实例第三讲

时间:2022-06-26 04:19:04

[webGL学习]基于three.js构建WebGL实例第三讲[webGL学习]基于three.js构建WebGL实例第三讲

大多程序员在刚开始理解3D(webGL)的知识时,通常对三维空间可能理解的比较困难,你也可能有困难理解不同的光线是如何工作的,或轴甚至如何位于空间。

今天,我会帮你处理这些问题。three.js所拥有一切必要的手段来为这个 - 帮手。在今天的例子中,我已经准备好为你工作的所有现有佣工示范:ArrowHelper,AxisHelper,BoundingBoxHelper,CameraHelper,DirectionalLightHelper,GridHelper,HemisphereLightHelper,PointLightHelper,SpotLightHelper。所有这些将有助于你理解的WebGL的内部工作原理。

HTML

这部分没有变,跟之前的一样.

<!DOCTYPE html>
<html lang="en" >
<head>
<meta charset="utf-8" />
<meta name="author" content="Script Tutorials" />
<title>WebGL With Three.js - Lesson 2 | Script Tutorials</title>
<meta name="viewport" content="width=device-width, initial-scale=1.0, maximum-scale=1.0, user-scalable=no">
<link href="css/main.css" rel="stylesheet" type="text/css" />
</head>
<body>
<script src="js/three.min.js"></script>
<script src="js/THREEx.WindowResize.js"></script>
<script src="js/OrbitControls.js"></script>
<script src="js/stats.min.js"></script>
<script src="js/script.js"></script>

<div style="position: absolute; top: 10px; left: 20px; text-align: center;"></div>

<!-- Only used for Script Tutorial's Demo site. Please ignore and remove. -->
<script src="http://code.jquery.com/jquery-1.11.0.min.js"></script>
<script src="http://www.script-tutorials.com/assets/ads.js" async></script>
</body>
</html>

Javascript代码

首先,让我们来创建一些简单的场景,包括以下内容:摄像头,光线直射,地面和两个领域:


var dLight, bboxHelper, dlightHelper;

// load texture
var texture = THREE.ImageUtils.loadTexture('texture.png');
texture.repeat.set(10, 10);
texture.wrapS = texture.wrapT = THREE.RepeatWrapping;
texture.anisotropy = 16;
texture.needsUpdate = true;

var textureBump = THREE.ImageUtils.loadTexture('bump.png');
textureBump.repeat.set(10, 10);
textureBump.wrapS = textureBump.wrapT = THREE.RepeatWrapping;
textureBump.anisotropy = 16;
textureBump.needsUpdate = true;

var lesson3 = {
scene: null,
camera: null,
renderer: null,
container: null,
controls: null,
clock: null,
stats: null,

init: function() { // Initialization

// create main scene
this.scene = new THREE.Scene();

var SCREEN_WIDTH = window.innerWidth,
SCREEN_HEIGHT = window.innerHeight;

// prepare camera
var VIEW_ANGLE = 45, ASPECT = SCREEN_WIDTH / SCREEN_HEIGHT, NEAR = 1, FAR = 10000;
this.camera = new THREE.PerspectiveCamera( VIEW_ANGLE, ASPECT, NEAR, FAR);
this.scene.add(this.camera);
this.camera.position.set(-1600, 600, 1200);
this.camera.lookAt(new THREE.Vector3(0,0,0));

// prepare renderer
this.renderer = new THREE.WebGLRenderer({antialias:true, alpha: false});
this.renderer.setSize(SCREEN_WIDTH, SCREEN_HEIGHT);
this.renderer.setClearColor(0xffffff);

this.renderer.shadowMapEnabled = true;
this.renderer.shadowMapSoft = true;

// prepare container
this.container = document.createElement('div');
document.body.appendChild(this.container);
this.container.appendChild(this.renderer.domElement);

// events
THREEx.WindowResize(this.renderer, this.camera);

// prepare controls (OrbitControls)
this.controls = new THREE.OrbitControls(this.camera, this.renderer.domElement);
this.controls.target = new THREE.Vector3(0, 0, 0);

// prepare clock
this.clock = new THREE.Clock();

// prepare stats
this.stats = new Stats();
this.stats.domElement.style.position = 'absolute';
this.stats.domElement.style.bottom = '0px';
this.stats.domElement.style.zIndex = 10;
this.container.appendChild( this.stats.domElement );

// add directional light
dLight = new THREE.DirectionalLight(0xffffff);
dLight.position.set(0, 400, 0);
dLight.castShadow = true;
// dLight.shadowCameraVisible = true;
dLight.shadowMapWidth = dLight.shadowMapHeight = 1000;
this.scene.add(dLight);

// add simple ground
var groundGeometry = new THREE.PlaneGeometry(1200, 1200, 1, 1);
ground = new THREE.Mesh(groundGeometry, new THREE.MeshLambertMaterial({
color: 0x9669FE
}));
ground.position.y = -20;
ground.rotation.x = - Math.PI / 2;
ground.receiveShadow = true;
this.scene.add(ground);

// create a new group (Object3D)
var group = new THREE.Object3D();

// add two spheres
var sphere = this.drawSphere(-100, 150, new THREE.MeshPhongMaterial({ map: texture, bumpMap: textureBump, color: 0x00ff00, specular: 0xff2200, emissive: 0x004000 }));
var sphere2 = this.drawSphere( 100, 150, new THREE.MeshPhongMaterial({ map: texture, bumpMap: textureBump, color: 0x00ff00, specular: 0xff2200, shininess: 3 }));

// and add them into the group
group.add(sphere);
group.add(sphere2);

this.scene.add(group);

// add helpers:

// 1. ArrowHelper
var directionV3 = new THREE.Vector3(1, 0, 1);
var originV3 = new THREE.Vector3(0, 200, 0);
var arrowHelper = new THREE.ArrowHelper(directionV3, originV3, 100, 0xff0000, 20, 10); // 100 is length, 20 and 10 are head length and width
this.scene.add(arrowHelper);

// 2. AxisHelper
var axisHelper = new THREE.AxisHelper(800); // 500 is size
this.scene.add(axisHelper);

// 3. BoundingBoxHelper
bboxHelper = new THREE.BoundingBoxHelper(group, 0x999999);
this.scene.add(bboxHelper);

// 4. CameraHelper
var cameraParObj = new THREE.Object3D();
cameraParObj.position.y = 200;
cameraParObj.position.z = 700;
this.scene.add(cameraParObj);

perspectiveCamera = new THREE.PerspectiveCamera(90, window.innerWidth / window.innerHeight, 0.01, 1500);
cameraParObj.add(perspectiveCamera);

var cameraHelper = new THREE.CameraHelper(perspectiveCamera);
this.scene.add(cameraHelper);

// 5. DirectionalLightHelper
dlightHelper = new THREE.DirectionalLightHelper(dLight, 50); // 50 is helper size
this.scene.add(dlightHelper);
},
drawSphere: function(x, z, material) {
var sphere = new THREE.Mesh(new THREE.SphereGeometry(70, 70, 20), material);
sphere.rotation.x = sphere.rotation.z = Math.PI * Math.random();
sphere.position.x = x;
sphere.position.y = 100;
sphere.position.z = z;
sphere.castShadow = sphere.receiveShadow = true;
return sphere;
}
};

// Animate the scene
function animate() {
requestAnimationFrame(animate);
render();
update();
}

// Update controls and stats
function update() {
bboxHelper.update();
dlightHelper.update();

lesson3.controls.update(lesson3.clock.getDelta());
lesson3.stats.update();

// smoothly move the dLight
var timer = Date.now() * 0.000025;
dLight.position.x = Math.sin(timer * 5) * 300;
dLight.position.z = Math.cos(timer * 5) * 300;
}

// Render the scene
function render() {
if (lesson3.renderer) {
lesson3.renderer.render(lesson3.scene, lesson3.camera);
}
}

// Initialize lesson on page load
function initializeLesson() {
lesson3.init();
animate();
}

if (window.addEventListener)
window.addEventListener('load', initializeLesson, false);
else if (window.attachEvent)
window.attachEvent('onload', initializeLesson);
else window.onload = initializeLesson;

请注意两个球体加入到该组(这是普通的对象的3D对象)。现在,我们可以开始下面的功能实现介绍。

ArrowHelper

它利用一个轴对象以可视化的3轴以简单的方式。X轴是红色的。Y轴是绿色的。Z轴是蓝色的。这有助于理解在空间的所有三个轴的方向。要添加这个帮手,使用下面的代码:

// AxisHelper
var axisHelper = new THREE.AxisHelper(800);
this.scene.add(axisHelper);

BoundingBoxHelper

它绘制线条对象的任何对象(Object3D)的外接矩形框,显示此对象的世界轴对齐边框。记住我们结合在单组对象这两个领域?要添加这个帮手,使用下面的代码:

//3. BoundingBoxHelper
bboxHelper = new THREE.BoundingBoxHelper(group, 0x999999);
this.scene.add(bboxHelper);

CameraHelper

它吸引的特定对象3D对象(它看起来像金字塔)与线几何,这有助于可视化什么指定摄像机包含在它的视锥。要添加这个帮手,使用下面的代码:

// 4. CameraHelper
var cameraParObj = new THREE.Object3D();
cameraParObj.position.y = 200;
cameraParObj.position.z = 700;
this.scene.add(cameraParObj);
perspectiveCamera = new THREE.PerspectiveCamera(90, window.innerWidth / window.innerHeight, 0.01, 1500);
cameraParObj.add(perspectiveCamera);
var cameraHelper = new THREE.CameraHelper(perspectiveCamera);
this.scene.add(cameraHelper);

DirectionalLightHelper

它绘制一个线对象以显示定向的光的方向。我们将逐步把我们的光源的给你看显然这帮手。要添加这个帮手,使用下面的代码:

// 5. DirectionalLightHelper
dlightHelper = new THREE.DirectionalLightHelper(dLight, 50); // 50 is helper siz
this.scene.add(dlightHelper);

GridHelper

要查看佣工的其余部分,我们创建了第二个演示。其次是GridHelper,这个辅助绘制线条的二维网格。要添加这个帮手,使用下面的代码:

var gridHelper = new THREE.GridHelper(500, 40); // 500 is grid size, 20 is grid step
gridHelper.position = new THREE.Vector3(0, 0, 0);
gridHelper.rotation = new THREE.Euler(0, 0, 0);
this.scene.add(gridHelper);
var gridHelper2 = gridHelper.clone();
gridHelper2.rotation = new THREE.Euler(Math.PI / 2, 0, 0);
this.scene.add(gridHelper2);
var gridHelper3 = gridHelper.clone();
gridHelper3.rotation = new THREE.Euler(Math.PI / 2, 0, Math.PI / 2);
this.scene.add(gridHelper3);

HemisphereLightHelper

其余3个助手是灯,HemisphereLightHelper是HemisphereLight对象。我们不得不关闭我们的定向光,使半球光。要添加这个帮手,使用下面的代码:

// add hemisphere light
var hemiLight = new THREE.HemisphereLight(0x0000ff, 0x00ff00, 0.4);
hemiLight.color.setHSL(0.6, 1, 0.6);
hemiLight.groundColor.setHSL(0.095, 1, 0.75);
hemiLight.position.set(-200, 400, -200);
this.scene.add(hemiLight);
var hlightHelper = new THREE.HemisphereLightHelper(hemiLight, 50, 300); // 50 is sphere size, 300 is arrow length
this.scene.add(hlightHelper);

PointLightHelper

类似以前的点光源助手是点光源的对象。要添加这个帮手,使用下面的代码:

// add point light
var pointLight = new THREE.PointLight(0xffff00, 1.0);
pointLight.position.set(300,300,300);
this.scene.add(pointLight);
var pointLightHelper = new THREE.PointLightHelper(pointLight, 50); // 50 is sphere size
this.scene.add(pointLightHelper);

SpotLightHelper

最后,我们添加了聚光灯下:聚光灯Helper是聚光灯的对象。要添加这个帮手,使用下面的代码:

// add spot light
var spotLight = new THREE.SpotLight(0xffffff);
spotLight.position.set(-300,400,300);
spotLight.castShadow = true;
spotLight.shadowCameraFov = 60;
this.scene.add(spotLight);
var spotLightHelper = new THREE.SpotLightHelper(spotLight, 50); // 50 is sphere size
this.scene.add(spotLightHelper);

结束

未完继续
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[webGL学习]基于three.js构建WebGL实例第三讲