这是一款基于HTML5的3D水波动画特效,它的效果非常逼真,水池中的石头在水中沉浮,泛起了一层层水波。同时我们可以拖拽鼠标从不同的视角来浏览水池,3D效果非常不错。另外,我们可以按“G”键来让水池中的石头上下浮动,按“L”键添加灯光效果,设计相当完美。同时说明一下,这款3D水波动画是基于WebGL渲染技术的,大家可以了解一下WebGL。
HTML代码
<img id="tiles" class="lazyload" src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAEAAAABCAYAAAAfFcSJAAAAAXNSR0IArs4c6QAAAARnQU1BAACxjwv8YQUAAAAJcEhZcwAADsQAAA7EAZUrDhsAAAANSURBVBhXYzh8+PB/AAffA0nNPuCLAAAAAElFTkSuQmCC" data-original="tiles.jpg"> <img id="xneg" class="lazyload" src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAEAAAABCAYAAAAfFcSJAAAAAXNSR0IArs4c6QAAAARnQU1BAACxjwv8YQUAAAAJcEhZcwAADsQAAA7EAZUrDhsAAAANSURBVBhXYzh8+PB/AAffA0nNPuCLAAAAAElFTkSuQmCC" data-original="xneg.jpg"> <img id="xpos" class="lazyload" src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAEAAAABCAYAAAAfFcSJAAAAAXNSR0IArs4c6QAAAARnQU1BAACxjwv8YQUAAAAJcEhZcwAADsQAAA7EAZUrDhsAAAANSURBVBhXYzh8+PB/AAffA0nNPuCLAAAAAElFTkSuQmCC" data-original="xpos.jpg"> <img id="ypos" class="lazyload" src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAEAAAABCAYAAAAfFcSJAAAAAXNSR0IArs4c6QAAAARnQU1BAACxjwv8YQUAAAAJcEhZcwAADsQAAA7EAZUrDhsAAAANSURBVBhXYzh8+PB/AAffA0nNPuCLAAAAAElFTkSuQmCC" data-original="ypos.jpg"> <img id="zneg" class="lazyload" src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAEAAAABCAYAAAAfFcSJAAAAAXNSR0IArs4c6QAAAARnQU1BAACxjwv8YQUAAAAJcEhZcwAADsQAAA7EAZUrDhsAAAANSURBVBhXYzh8+PB/AAffA0nNPuCLAAAAAElFTkSuQmCC" data-original="zneg.jpg"> <img id="zpos" class="lazyload" src="data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAAEAAAABCAYAAAAfFcSJAAAAAXNSR0IArs4c6QAAAARnQU1BAACxjwv8YQUAAAAJcEhZcwAADsQAAA7EAZUrDhsAAAANSURBVBhXYzh8+PB/AAffA0nNPuCLAAAAAElFTkSuQmCC" data-original="zpos.jpg">
JavaScript代码
function Water() { var vertexShader = '\ varying vec2 coord;\ void main() {\ coord = gl_Vertex.xy * 0.5 + 0.5;\ gl_Position = vec4(gl_Vertex.xyz, 1.0);\ }\ '; this.plane = GL.Mesh.plane(); if (!GL.Texture.canUseFloatingPointTextures()) { throw new Error('This demo requires the OES_texture_float extension'); } var filter = GL.Texture.canUseFloatingPointLinearFiltering() ? gl.LINEAR : gl.NEAREST; this.textureA = new GL.Texture(256, 256, { type: gl.FLOAT, filter: filter }); this.textureB = new GL.Texture(256, 256, { type: gl.FLOAT, filter: filter }); this.dropShader = new GL.Shader(vertexShader, '\ const float PI = 3.141592653589793;\ uniform sampler2D texture;\ uniform vec2 center;\ uniform float radius;\ uniform float strength;\ varying vec2 coord;\ void main() {\ /* get vertex info */\ vec4 info = texture2D(texture, coord);\ \ /* add the drop to the height */\ float drop = max(0.0, 1.0 - length(center * 0.5 + 0.5 - coord) / radius);\ drop = 0.5 - cos(drop * PI) * 0.5;\ info.r += drop * strength;\ \ gl_FragColor = info;\ }\ '); this.updateShader = new GL.Shader(vertexShader, '\ uniform sampler2D texture;\ uniform vec2 delta;\ varying vec2 coord;\ void main() {\ /* get vertex info */\ vec4 info = texture2D(texture, coord);\ \ /* calculate average neighbor height */\ vec2 dx = vec2(delta.x, 0.0);\ vec2 dy = vec2(0.0, delta.y);\ float average = (\ texture2D(texture, coord - dx).r +\ texture2D(texture, coord - dy).r +\ texture2D(texture, coord + dx).r +\ texture2D(texture, coord + dy).r\ ) * 0.25;\ \ /* change the velocity to move toward the average */\ info.g += (average - info.r) * 2.0;\ \ /* attenuate the velocity a little so waves do not last forever */\ info.g *= 0.995;\ \ /* move the vertex along the velocity */\ info.r += info.g;\ \ gl_FragColor = info;\ }\ '); this.normalShader = new GL.Shader(vertexShader, '\ uniform sampler2D texture;\ uniform vec2 delta;\ varying vec2 coord;\ void main() {\ /* get vertex info */\ vec4 info = texture2D(texture, coord);\ \ /* update the normal */\ vec3 dx = vec3(delta.x, texture2D(texture, vec2(coord.x + delta.x, coord.y)).r - info.r, 0.0);\ vec3 dy = vec3(0.0, texture2D(texture, vec2(coord.x, coord.y + delta.y)).r - info.r, delta.y);\ info.ba = normalize(cross(dy, dx)).xz;\ \ gl_FragColor = info;\ }\ '); this.sphereShader = new GL.Shader(vertexShader, '\ uniform sampler2D texture;\ uniform vec3 oldCenter;\ uniform vec3 newCenter;\ uniform float radius;\ varying vec2 coord;\ \ float volumeInSphere(vec3 center) {\ vec3 toCenter = vec3(coord.x * 2.0 - 1.0, 0.0, coord.y * 2.0 - 1.0) - center;\ float t = length(toCenter) / radius;\ float dy = exp(-pow(t * 1.5, 6.0));\ float ymin = min(0.0, center.y - dy);\ float ymax = min(max(0.0, center.y + dy), ymin + 2.0 * dy);\ return (ymax - ymin) * 0.1;\ }\ \ void main() {\ /* get vertex info */\ vec4 info = texture2D(texture, coord);\ \ /* add the old volume */\ info.r += volumeInSphere(oldCenter);\ \ /* subtract the new volume */\ info.r -= volumeInSphere(newCenter);\ \ gl_FragColor = info;\ }\ '); } Water.prototype.addDrop = function(x, y, radius, strength) { var this_ = this; this.textureB.drawTo(function() { this_.textureA.bind(); this_.dropShader.uniforms({ center: [x, y], radius: radius, strength: strength }).draw(this_.plane); }); this.textureB.swapWith(this.textureA); }; Water.prototype.moveSphere = function(oldCenter, newCenter, radius) { var this_ = this; this.textureB.drawTo(function() { this_.textureA.bind(); this_.sphereShader.uniforms({ oldCenter: oldCenter, newCenter: newCenter, radius: radius }).draw(this_.plane); }); this.textureB.swapWith(this.textureA); }; Water.prototype.stepSimulation = function() { var this_ = this; this.textureB.drawTo(function() { this_.textureA.bind(); this_.updateShader.uniforms({ delta: [1 / this_.textureA.width, 1 / this_.textureA.height] }).draw(this_.plane); }); this.textureB.swapWith(this.textureA); }; Water.prototype.updateNormals = function() { var this_ = this; this.textureB.drawTo(function() { this_.textureA.bind(); this_.normalShader.uniforms({ delta: [1 / this_.textureA.width, 1 / this_.textureA.height] }).draw(this_.plane); }); this.textureB.swapWith(this.textureA); };
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