/** * @author Richard Davey * @author Felipe Alfonso <@bitnenfer> * @copyright 2020 Photon Storm Ltd. * @license {@link https://opensource.org/licenses/MIT|MIT License} */ var Class = require('../../../utils/Class'); var ShaderSourceFS = require('../shaders/ForwardDiffuse-frag.js'); var TextureTintPipeline = require('./TextureTintPipeline'); var WebGLPipeline = require('../WebGLPipeline'); var LIGHT_COUNT = 10; /** * @classdesc * ForwardDiffuseLightPipeline implements a forward rendering approach for 2D lights. * This pipeline extends TextureTintPipeline so it implements all it's rendering functions * and batching system. * * @class ForwardDiffuseLightPipeline * @extends Phaser.Renderer.WebGL.Pipelines.TextureTintPipeline * @memberof Phaser.Renderer.WebGL.Pipelines * @constructor * @since 3.0.0 * * @param {object} config - The configuration of the pipeline, same as the {@link Phaser.Renderer.WebGL.Pipelines.TextureTintPipeline}. The fragment shader will be replaced with the lighting shader. */ var ForwardDiffuseLightPipeline = new Class({ Extends: TextureTintPipeline, initialize: function ForwardDiffuseLightPipeline (config) { LIGHT_COUNT = config.maxLights; config.fragShader = ShaderSourceFS.replace('%LIGHT_COUNT%', LIGHT_COUNT.toString()); TextureTintPipeline.call(this, config); /** * Inverse rotation matrix for normal map rotations. * * @name Phaser.Renderer.WebGL.Pipelines.ForwardDiffuseLightPipeline#inverseRotationMatrix * @type {Float32Array} * @private * @since 3.16.0 */ this.inverseRotationMatrix = new Float32Array([ 1, 0, 0, 0, 1, 0, 0, 0, 1 ]); /** * Stores a default normal map, which is an object with a `glTexture` property that * maps to a 1x1 texture of the color #7f7fff created in the `boot` method. * * @name Phaser.Renderer.WebGL.Pipelines.ForwardDiffuseLightPipeline#defaultNormalMap * @type {object} * @since 3.25.0 */ this.defaultNormalMap; /** * Stores the previous number of lights rendered. * * @name Phaser.Renderer.WebGL.Pipelines.ForwardDiffuseLightPipeline#lightCount * @type {number} * @since 3.25.0 */ this.lightCount = 0; }, /** * Called when the Game has fully booted and the Renderer has finished setting up. * * By this stage all Game level systems are now in place and you can perform any final * tasks that the pipeline may need that relied on game systems such as the Texture Manager. * * @method Phaser.Renderer.WebGL.ForwardDiffuseLightPipeline#boot * @since 3.11.0 */ boot: function () { WebGLPipeline.prototype.boot.call(this); var gl = this.gl; var tempTexture = gl.createTexture(); gl.activeTexture(gl.TEXTURE0); gl.bindTexture(gl.TEXTURE_2D, tempTexture); gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA, 1, 1, 0, gl.RGBA, gl.UNSIGNED_BYTE, new Uint8Array([ 127, 127, 255, 255 ])); this.defaultNormalMap = { glTexture: tempTexture }; return this; }, /** * Called every time the pipeline is bound by the renderer. * Sets the shader program, vertex buffer and other resources. * Should only be called when changing pipeline. * * @method Phaser.Renderer.WebGL.Pipelines.ForwardDiffuseLightPipeline#bind * @since 3.25.0 * * @return {this} This WebGLPipeline instance. */ bind: function () { WebGLPipeline.prototype.bind.call(this); var renderer = this.renderer; var program = this.program; renderer.setInt1(program, 'uMainSampler', 0); renderer.setInt1(program, 'uNormSampler', 1); renderer.setFloat2(program, 'uResolution', this.width, this.height); return this; }, /** * This function sets all the needed resources for each camera pass. * * @method Phaser.Renderer.WebGL.Pipelines.ForwardDiffuseLightPipeline#onRender * @since 3.0.0 * * @param {Phaser.Scene} scene - The Scene being rendered. * @param {Phaser.Cameras.Scene2D.Camera} camera - The Scene Camera being rendered with. * * @return {this} This WebGLPipeline instance. */ onRender: function (scene, camera) { this.active = false; var lightManager = scene.sys.lights; if (!lightManager || lightManager.lights.length <= 0 || !lightManager.active) { // Passthru return this; } var lights = lightManager.cull(camera); var lightCount = Math.min(lights.length, LIGHT_COUNT); if (lightCount === 0) { return this; } this.active = true; var renderer = this.renderer; var program = this.program; var cameraMatrix = camera.matrix; var point = {x: 0, y: 0}; var height = renderer.height; var i; if (lightCount !== this.lightCount) { for (i = 0; i < LIGHT_COUNT; i++) { // Reset lights renderer.setFloat1(program, 'uLights[' + i + '].radius', 0); } this.lightCount = lightCount; } if (camera.dirty) { renderer.setFloat4(program, 'uCamera', camera.x, camera.y, camera.rotation, camera.zoom); } // TODO - Only if dirty! and cache the location renderer.setFloat3(program, 'uAmbientLightColor', lightManager.ambientColor.r, lightManager.ambientColor.g, lightManager.ambientColor.b); for (i = 0; i < lightCount; i++) { var light = lights[i]; var lightName = 'uLights[' + i + '].'; cameraMatrix.transformPoint(light.x, light.y, point); // TODO - Cache the uniform locations!!! renderer.setFloat2(program, lightName + 'position', point.x - (camera.scrollX * light.scrollFactorX * camera.zoom), height - (point.y - (camera.scrollY * light.scrollFactorY) * camera.zoom)); if (light.dirty) { renderer.setFloat3(program, lightName + 'color', light.r, light.g, light.b); renderer.setFloat1(program, lightName + 'intensity', light.intensity); renderer.setFloat1(program, lightName + 'radius', light.radius); light.dirty = false; } } this.currentNormalMapRotation = null; return this; }, /** * Rotates the normal map vectors inversely by the given angle. * Only works in 2D space. * * @method Phaser.Renderer.WebGL.Pipelines.ForwardDiffuseLightPipeline#setNormalMapRotation * @since 3.16.0 * * @param {number} rotation - The angle of rotation in radians. */ setNormalMapRotation: function (rotation) { if (rotation !== this.currentNormalMapRotation || this.vertexCount === 0) { if (this.vertexCount > 0) { this.flush(); } var inverseRotationMatrix = this.inverseRotationMatrix; if (rotation) { var rot = -rotation; var c = Math.cos(rot); var s = Math.sin(rot); inverseRotationMatrix[1] = s; inverseRotationMatrix[3] = -s; inverseRotationMatrix[0] = inverseRotationMatrix[4] = c; } else { inverseRotationMatrix[0] = inverseRotationMatrix[4] = 1; inverseRotationMatrix[1] = inverseRotationMatrix[3] = 0; } this.renderer.setMatrix3(this.program, 'uInverseRotationMatrix', false, inverseRotationMatrix); this.currentNormalMapRotation = rotation; } }, /** * Assigns a texture to the current batch. If a different texture is already set it creates a new batch object. * * @method Phaser.Renderer.WebGL.Pipelines.ForwardDiffuseLightPipeline#setTexture2D * @since 3.25.0 * * @param {WebGLTexture} [texture] - WebGLTexture that will be assigned to the current batch. If not given uses blankTexture. * @param {Phaser.GameObjects.GameObject} [gameObject] - The Game Object being rendered or added to the batch. */ setTexture2D: function (texture, gameObject) { var renderer = this.renderer; if (texture === undefined) { texture = renderer.tempTextures[0]; } var normalTexture = this.getNormalMap(gameObject); if (renderer.isNewNormalMap()) { this.flush(); renderer.setTextureZero(texture); renderer.setNormalMap(normalTexture); } if (gameObject) { this.setNormalMapRotation(gameObject.rotation); } this.currentUnit = 0; return 0; }, /** * Custom pipelines can use this method in order to perform any required pre-batch tasks * for the given Game Object. It must return the texture unit the Game Object was assigned. * * @method Phaser.Renderer.WebGL.Pipelines.ForwardDiffuseLightPipeline#setGameObject * @since 3.25.0 * * @param {Phaser.GameObjects.GameObject} gameObject - The Game Object being rendered or added to the batch. * @param {Phaser.Textures.Frame} [frame] - Optional frame to use. Can override that of the Game Object. * * @return {number} The texture unit the Game Object has been assigned. */ setGameObject: function (gameObject, frame) { if (frame === undefined) { frame = gameObject.frame; } var renderer = this.renderer; var texture = frame.glTexture; var normalTexture = this.getNormalMap(gameObject); if (renderer.isNewNormalMap()) { this.flush(); renderer.setTextureZero(texture); renderer.setNormalMap(normalTexture); } this.setNormalMapRotation(gameObject.rotation); this.currentUnit = 0; return 0; }, /** * Returns the normal map WebGLTexture from the given Game Object. * If the Game Object doesn't have one, it returns the default normal map from this pipeline instead. * * @method Phaser.Renderer.WebGL.Pipelines.ForwardDiffuseLightPipeline#getNormalMap * @since 3.25.0 * * @param {Phaser.GameObjects.GameObject} [gameObject] - The Game Object to get the normal map from. * * @return {WebGLTexture} The normal map texture. */ getNormalMap: function (gameObject) { var normalTexture; if (!gameObject) { normalTexture = this.defaultNormalMap; } else if (gameObject.displayTexture) { normalTexture = gameObject.displayTexture.dataSource[gameObject.displayFrame.sourceIndex]; } else if (gameObject.texture) { normalTexture = gameObject.texture.dataSource[gameObject.frame.sourceIndex]; } else if (gameObject.tileset) { if (Array.isArray(gameObject.tileset)) { normalTexture = gameObject.tileset[0].image.dataSource[0]; } else { normalTexture = gameObject.tileset.image.dataSource[0]; } } if (!normalTexture) { normalTexture = this.defaultNormalMap; } return normalTexture.glTexture; } }); ForwardDiffuseLightPipeline.LIGHT_COUNT = LIGHT_COUNT; module.exports = ForwardDiffuseLightPipeline;