Source: Renderer/Context.js

/*global define*/
define([
        '../Core/clone',
        '../Core/Color',
        '../Core/ComponentDatatype',
        '../Core/createGuid',
        '../Core/defaultValue',
        '../Core/defined',
        '../Core/defineProperties',
        '../Core/destroyObject',
        '../Core/DeveloperError',
        '../Core/FeatureDetection',
        '../Core/Geometry',
        '../Core/GeometryAttribute',
        '../Core/Math',
        '../Core/Matrix4',
        '../Core/PrimitiveType',
        '../Core/RuntimeError',
        '../Shaders/ViewportQuadVS',
        './BufferUsage',
        './ClearCommand',
        './ContextLimits',
        './CubeMap',
        './DrawCommand',
        './PassState',
        './PickFramebuffer',
        './PixelDatatype',
        './RenderbufferFormat',
        './RenderState',
        './ShaderCache',
        './ShaderProgram',
        './Texture',
        './UniformState',
        './VertexArray',
        './WebGLConstants'
    ], function(
        clone,
        Color,
        ComponentDatatype,
        createGuid,
        defaultValue,
        defined,
        defineProperties,
        destroyObject,
        DeveloperError,
        FeatureDetection,
        Geometry,
        GeometryAttribute,
        CesiumMath,
        Matrix4,
        PrimitiveType,
        RuntimeError,
        ViewportQuadVS,
        BufferUsage,
        ClearCommand,
        ContextLimits,
        CubeMap,
        DrawCommand,
        PassState,
        PickFramebuffer,
        PixelDatatype,
        RenderbufferFormat,
        RenderState,
        ShaderCache,
        ShaderProgram,
        Texture,
        UniformState,
        VertexArray,
        WebGLConstants) {
    'use strict';
    /*global WebGLRenderingContext*/
    /*global WebGL2RenderingContext*/

    function errorToString(gl, error) {
        var message = 'WebGL Error:  ';
        switch (error) {
        case gl.INVALID_ENUM:
            message += 'INVALID_ENUM';
            break;
        case gl.INVALID_VALUE:
            message += 'INVALID_VALUE';
            break;
        case gl.INVALID_OPERATION:
            message += 'INVALID_OPERATION';
            break;
        case gl.OUT_OF_MEMORY:
            message += 'OUT_OF_MEMORY';
            break;
        case gl.CONTEXT_LOST_WEBGL:
            message += 'CONTEXT_LOST_WEBGL lost';
            break;
        default:
            message += 'Unknown (' + error + ')';
        }

        return message;
    }

    function createErrorMessage(gl, glFunc, glFuncArguments, error) {
        var message = errorToString(gl, error) + ': ' + glFunc.name + '(';

        for ( var i = 0; i < glFuncArguments.length; ++i) {
            if (i !== 0) {
                message += ', ';
            }
            message += glFuncArguments[i];
        }
        message += ');';

        return message;
    }

    function throwOnError(gl, glFunc, glFuncArguments) {
        var error = gl.getError();
        if (error !== gl.NO_ERROR) {
            throw new RuntimeError(createErrorMessage(gl, glFunc, glFuncArguments, error));
        }
    }

    function makeGetterSetter(gl, propertyName, logFunc) {
        return {
            get : function() {
                var value = gl[propertyName];
                logFunc(gl, 'get: ' + propertyName, value);
                return gl[propertyName];
            },
            set : function(value) {
                gl[propertyName] = value;
                logFunc(gl, 'set: ' + propertyName, value);
            }
        };
    }

    function wrapGL(gl, logFunc) {
        if (!logFunc) {
            return gl;
        }

        function wrapFunction(property) {
            return function() {
                var result = property.apply(gl, arguments);
                logFunc(gl, property, arguments);
                return result;
            };
        }

        var glWrapper = {};

        /*jslint forin: true*/
        /*jshint forin: false*/
        // JSLint normally demands that a for..in loop must directly contain an if,
        // but in our loop below, we actually intend to iterate all properties, including
        // those in the prototype.
        for ( var propertyName in gl) {
            var property = gl[propertyName];

            // wrap any functions we encounter, otherwise just copy the property to the wrapper.
            if (typeof property === 'function') {
                glWrapper[propertyName] = wrapFunction(property);
            } else {
                Object.defineProperty(glWrapper, propertyName, makeGetterSetter(gl, propertyName, logFunc));
            }
        }

        return glWrapper;
    }

    function getExtension(gl, names) {
        var length = names.length;
        for (var i = 0; i < length; ++i) {
            var extension = gl.getExtension(names[i]);
            if (extension) {
                return extension;
            }
        }

        return undefined;
    }

    /**
     * @private
     */
    function Context(canvas, options) {
        // this check must use typeof, not defined, because defined doesn't work with undeclared variables.
        if (typeof WebGLRenderingContext === 'undefined') {
            throw new RuntimeError('The browser does not support WebGL.  Visit http://get.webgl.org.');
        }

        //>>includeStart('debug', pragmas.debug);
        if (!defined(canvas)) {
            throw new DeveloperError('canvas is required.');
        }
        //>>includeEnd('debug');

        this._canvas = canvas;

        options = clone(options, true);
        options = defaultValue(options, {});
        options.allowTextureFilterAnisotropic = defaultValue(options.allowTextureFilterAnisotropic, true);
        var webglOptions = defaultValue(options.webgl, {});

        // Override select WebGL defaults
        webglOptions.alpha = defaultValue(webglOptions.alpha, false); // WebGL default is true

        var defaultToWebgl2 = false;
        var webgl2Supported = (typeof WebGL2RenderingContext !== 'undefined');
        var webgl2 = false;
        var glContext;

        if (defaultToWebgl2 && webgl2Supported) {
            glContext = canvas.getContext('webgl2', webglOptions) || canvas.getContext('experimental-webgl2', webglOptions) || undefined;
            if (defined(glContext)) {
                webgl2 = true;
            }
        }
        if (!defined(glContext)) {
            glContext = canvas.getContext('webgl', webglOptions) || canvas.getContext('experimental-webgl', webglOptions) || undefined;
        }
        if (!defined(glContext)) {
            throw new RuntimeError('The browser supports WebGL, but initialization failed.');
        }

        this._originalGLContext = glContext;
        this._webgl2 = webgl2;
        this._id = createGuid();

        // Validation and logging disabled by default for speed.
        this.validateFramebuffer = false;
        this.validateShaderProgram = false;
        this.logShaderCompilation = false;

        this._throwOnWebGLError = false;

        this._shaderCache = new ShaderCache(this);

        var gl = this._gl = this._originalGLContext;

        this._redBits = gl.getParameter(gl.RED_BITS);
        this._greenBits = gl.getParameter(gl.GREEN_BITS);
        this._blueBits = gl.getParameter(gl.BLUE_BITS);
        this._alphaBits = gl.getParameter(gl.ALPHA_BITS);
        this._depthBits = gl.getParameter(gl.DEPTH_BITS);
        this._stencilBits = gl.getParameter(gl.STENCIL_BITS);

        ContextLimits._maximumCombinedTextureImageUnits = gl.getParameter(gl.MAX_COMBINED_TEXTURE_IMAGE_UNITS); // min: 8
        ContextLimits._maximumCubeMapSize = gl.getParameter(gl.MAX_CUBE_MAP_TEXTURE_SIZE); // min: 16
        ContextLimits._maximumFragmentUniformVectors = gl.getParameter(gl.MAX_FRAGMENT_UNIFORM_VECTORS); // min: 16
        ContextLimits._maximumTextureImageUnits = gl.getParameter(gl.MAX_TEXTURE_IMAGE_UNITS); // min: 8
        ContextLimits._maximumRenderbufferSize = gl.getParameter(gl.MAX_RENDERBUFFER_SIZE); // min: 1
        ContextLimits._maximumTextureSize = gl.getParameter(gl.MAX_TEXTURE_SIZE); // min: 64
        ContextLimits._maximumVaryingVectors = gl.getParameter(gl.MAX_VARYING_VECTORS); // min: 8
        ContextLimits._maximumVertexAttributes = gl.getParameter(gl.MAX_VERTEX_ATTRIBS); // min: 8
        ContextLimits._maximumVertexTextureImageUnits = gl.getParameter(gl.MAX_VERTEX_TEXTURE_IMAGE_UNITS); // min: 0
        ContextLimits._maximumVertexUniformVectors = gl.getParameter(gl.MAX_VERTEX_UNIFORM_VECTORS); // min: 128

        var aliasedLineWidthRange = gl.getParameter(gl.ALIASED_LINE_WIDTH_RANGE); // must include 1
        ContextLimits._minimumAliasedLineWidth = aliasedLineWidthRange[0];
        ContextLimits._maximumAliasedLineWidth = aliasedLineWidthRange[1];

        var aliasedPointSizeRange = gl.getParameter(gl.ALIASED_POINT_SIZE_RANGE); // must include 1
        ContextLimits._minimumAliasedPointSize = aliasedPointSizeRange[0];
        ContextLimits._maximumAliasedPointSize = aliasedPointSizeRange[1];

        var maximumViewportDimensions = gl.getParameter(gl.MAX_VIEWPORT_DIMS);
        ContextLimits._maximumViewportWidth = maximumViewportDimensions[0];
        ContextLimits._maximumViewportHeight = maximumViewportDimensions[1];

        var highpFloat = gl.getShaderPrecisionFormat(gl.FRAGMENT_SHADER, gl.HIGH_FLOAT);
        ContextLimits._highpFloatSupported = highpFloat.precision !== 0;
        var highpInt = gl.getShaderPrecisionFormat(gl.FRAGMENT_SHADER, gl.HIGH_INT);
        ContextLimits._highpIntSupported = highpInt.rangeMax !== 0;

        this._antialias = gl.getContextAttributes().antialias;

        // Query and initialize extensions
        this._standardDerivatives = !!getExtension(gl, ['OES_standard_derivatives']);
        this._elementIndexUint = !!getExtension(gl, ['OES_element_index_uint']);
        this._depthTexture = !!getExtension(gl, ['WEBGL_depth_texture', 'WEBKIT_WEBGL_depth_texture']);
        this._textureFloat = !!getExtension(gl, ['OES_texture_float']);
        this._fragDepth = !!getExtension(gl, ['EXT_frag_depth']);
        this._debugShaders = getExtension(gl, ['WEBGL_debug_shaders']);

        var textureFilterAnisotropic = options.allowTextureFilterAnisotropic ? getExtension(gl, ['EXT_texture_filter_anisotropic', 'WEBKIT_EXT_texture_filter_anisotropic']) : undefined;
        this._textureFilterAnisotropic = textureFilterAnisotropic;
        ContextLimits._maximumTextureFilterAnisotropy = defined(textureFilterAnisotropic) ? gl.getParameter(textureFilterAnisotropic.MAX_TEXTURE_MAX_ANISOTROPY_EXT) : 1.0;

        var glCreateVertexArray;
        var glBindVertexArray;
        var glDeleteVertexArray;

        var glDrawElementsInstanced;
        var glDrawArraysInstanced;
        var glVertexAttribDivisor;

        var glDrawBuffers;

        var vertexArrayObject;
        var instancedArrays;
        var drawBuffers;

        if (webgl2) {
            var that = this;

            glCreateVertexArray = function () { return that._gl.createVertexArray(); };
            glBindVertexArray = function(vao) { that._gl.bindVertexArray(vao); };
            glDeleteVertexArray = function(vao) { that._gl.deleteVertexArray(vao); };

            glDrawElementsInstanced = function(mode, count, type, offset, instanceCount) { gl.drawElementsInstanced(mode, count, type, offset, instanceCount); };
            glDrawArraysInstanced = function(mode, first, count, instanceCount) { gl.drawArraysInstanced(mode, first, count, instanceCount); };
            glVertexAttribDivisor = function(index, divisor) { gl.vertexAttribDivisor(index, divisor); };

            glDrawBuffers = function(buffers) { gl.drawBuffers(buffers); };
        } else {
            vertexArrayObject = getExtension(gl, ['OES_vertex_array_object']);
            if (defined(vertexArrayObject)) {
                glCreateVertexArray = function() { return vertexArrayObject.createVertexArrayOES(); };
                glBindVertexArray = function(vertexArray) { vertexArrayObject.bindVertexArrayOES(vertexArray); };
                glDeleteVertexArray = function(vertexArray) { vertexArrayObject.deleteVertexArrayOES(vertexArray); };
            }

            instancedArrays = getExtension(gl, ['ANGLE_instanced_arrays']);
            if (defined(instancedArrays)) {
                glDrawElementsInstanced = function(mode, count, type, offset, instanceCount) { instancedArrays.drawElementsInstancedANGLE(mode, count, type, offset, instanceCount); };
                glDrawArraysInstanced = function(mode, first, count, instanceCount) { instancedArrays.drawArraysInstancedANGLE(mode, first, count, instanceCount); };
                glVertexAttribDivisor = function(index, divisor) { instancedArrays.vertexAttribDivisorANGLE(index, divisor); };
            }

            drawBuffers = getExtension(gl, ['WEBGL_draw_buffers']);
            if (defined(drawBuffers)) {
                glDrawBuffers = function(buffers) { drawBuffers.drawBuffersWEBGL(buffers); };
            }
        }

        this.glCreateVertexArray = glCreateVertexArray;
        this.glBindVertexArray = glBindVertexArray;
        this.glDeleteVertexArray = glDeleteVertexArray;

        this.glDrawElementsInstanced = glDrawElementsInstanced;
        this.glDrawArraysInstanced = glDrawArraysInstanced;
        this.glVertexAttribDivisor = glVertexAttribDivisor;

        this.glDrawBuffers = glDrawBuffers;

        this._vertexArrayObject = !!vertexArrayObject;
        this._instancedArrays = !!instancedArrays;
        this._drawBuffers = !!drawBuffers;

        ContextLimits._maximumDrawBuffers = this.drawBuffers ? gl.getParameter(WebGLConstants.MAX_DRAW_BUFFERS) : 1;
        ContextLimits._maximumColorAttachments = this.drawBuffers ? gl.getParameter(WebGLConstants.MAX_COLOR_ATTACHMENTS) : 1;

        var cc = gl.getParameter(gl.COLOR_CLEAR_VALUE);
        this._clearColor = new Color(cc[0], cc[1], cc[2], cc[3]);
        this._clearDepth = gl.getParameter(gl.DEPTH_CLEAR_VALUE);
        this._clearStencil = gl.getParameter(gl.STENCIL_CLEAR_VALUE);

        var us = new UniformState();
        var ps = new PassState(this);
        var rs = RenderState.fromCache();

        this._defaultPassState = ps;
        this._defaultRenderState = rs;
        this._defaultTexture = undefined;
        this._defaultCubeMap = undefined;

        this._us = us;
        this._currentRenderState = rs;
        this._currentPassState = ps;
        this._currentFramebuffer = undefined;
        this._maxFrameTextureUnitIndex = 0;

        // Vertex attribute divisor state cache. Workaround for ANGLE (also look at VertexArray.setVertexAttribDivisor)
        this._vertexAttribDivisors = [];
        this._previousDrawInstanced = false;
        for (var i = 0; i < ContextLimits._maximumVertexAttributes; i++) {
            this._vertexAttribDivisors.push(0);
        }

        this._pickObjects = {};
        this._nextPickColor = new Uint32Array(1);

        /**
         * @example
         * {
         *   webgl : {
         *     alpha : false,
         *     depth : true,
         *     stencil : false,
         *     antialias : true,
         *     premultipliedAlpha : true,
         *     preserveDrawingBuffer : false,
         *     failIfMajorPerformanceCaveat : true
         *   },
         *   allowTextureFilterAnisotropic : true
         * }
         */
        this.options = options;

        /**
         * A cache of objects tied to this context.  Just before the Context is destroyed,
         * <code>destroy</code> will be invoked on each object in this object literal that has
         * such a method.  This is useful for caching any objects that might otherwise
         * be stored globally, except they're tied to a particular context, and to manage
         * their lifetime.
         *
         * @type {Object}
         */
        this.cache = {};


        RenderState.apply(gl, rs, ps);
    }

    var defaultFramebufferMarker = {};

    defineProperties(Context.prototype, {
        id : {
            get : function() {
                return this._id;
            }
        },
        webgl2 : {
            get : function() {
                return this._webgl2;
            }
        },
        canvas : {
            get : function() {
                return this._canvas;
            }
        },
        shaderCache : {
            get : function() {
                return this._shaderCache;
            }
        },
        uniformState : {
            get : function() {
                return this._us;
            }
        },

        /**
         * The number of red bits per component in the default framebuffer's color buffer.  The minimum is eight.
         * @memberof Context.prototype
         * @type {Number}
         * @see {@link https://www.khronos.org/opengles/sdk/docs/man/xhtml/glGet.xml|glGet} with <code>RED_BITS</code>.
         */
        redBits : {
            get : function() {
                return this._redBits;
            }
        },

        /**
         * The number of green bits per component in the default framebuffer's color buffer.  The minimum is eight.
         * @memberof Context.prototype
         * @type {Number}
         * @see {@link https://www.khronos.org/opengles/sdk/docs/man/xhtml/glGet.xml|glGet} with <code>GREEN_BITS</code>.
         */
        greenBits : {
            get : function() {
                return this._greenBits;
            }
        },

        /**
         * The number of blue bits per component in the default framebuffer's color buffer.  The minimum is eight.
         * @memberof Context.prototype
         * @type {Number}
         * @see {@link https://www.khronos.org/opengles/sdk/docs/man/xhtml/glGet.xml|glGet} with <code>BLUE_BITS</code>.
         */
        blueBits : {
            get : function() {
                return this._blueBits;
            }
        },

        /**
         * The number of alpha bits per component in the default framebuffer's color buffer.  The minimum is eight.
         * <br /><br />
         * The alpha channel is used for GL destination alpha operations and by the HTML compositor to combine the color buffer
         * with the rest of the page.
         * @memberof Context.prototype
         * @type {Number}
         * @see {@link https://www.khronos.org/opengles/sdk/docs/man/xhtml/glGet.xml|glGet} with <code>ALPHA_BITS</code>.
         */
        alphaBits : {
            get : function() {
                return this._alphaBits;
            }
        },

        /**
         * The number of depth bits per pixel in the default bound framebuffer.  The minimum is 16 bits; most
         * implementations will have 24 bits.
         * @memberof Context.prototype
         * @type {Number}
         * @see {@link https://www.khronos.org/opengles/sdk/docs/man/xhtml/glGet.xml|glGet} with <code>DEPTH_BITS</code>.
         */
        depthBits : {
            get : function() {
                return this._depthBits;
            }
        },

        /**
         * The number of stencil bits per pixel in the default bound framebuffer.  The minimum is eight bits.
         * @memberof Context.prototype
         * @type {Number}
         * @see {@link https://www.khronos.org/opengles/sdk/docs/man/xhtml/glGet.xml|glGet} with <code>STENCIL_BITS</code>.
         */
        stencilBits : {
            get : function() {
                return this._stencilBits;
            }
        },

        /**
         * <code>true</code> if the WebGL context supports antialiasing.  By default
         * antialiasing is requested, but it is not supported by all systems.
         * @memberof Context.prototype
         * @type {Boolean}
         */
        antialias : {
            get : function() {
                return this._antialias;
            }
        },

        /**
         * <code>true</code> if the OES_standard_derivatives extension is supported.  This
         * extension provides access to <code>dFdx</code>, <code>dFdy</code>, and <code>fwidth</code>
         * functions from GLSL.  A shader using these functions still needs to explicitly enable the
         * extension with <code>#extension GL_OES_standard_derivatives : enable</code>.
         * @memberof Context.prototype
         * @type {Boolean}
         * @see {@link http://www.khronos.org/registry/gles/extensions/OES/OES_standard_derivatives.txt|OES_standard_derivatives}
         */
        standardDerivatives : {
            get : function() {
                return this._standardDerivatives;
            }
        },

        /**
         * <code>true</code> if the OES_element_index_uint extension is supported.  This
         * extension allows the use of unsigned int indices, which can improve performance by
         * eliminating batch breaking caused by unsigned short indices.
         * @memberof Context.prototype
         * @type {Boolean}
         * @see {@link http://www.khronos.org/registry/webgl/extensions/OES_element_index_uint/|OES_element_index_uint}
         */
        elementIndexUint : {
            get : function() {
                return this._elementIndexUint || this._webgl2;
            }
        },

        /**
         * <code>true</code> if WEBGL_depth_texture is supported.  This extension provides
         * access to depth textures that, for example, can be attached to framebuffers for shadow mapping.
         * @memberof Context.prototype
         * @type {Boolean}
         * @see {@link http://www.khronos.org/registry/webgl/extensions/WEBGL_depth_texture/|WEBGL_depth_texture}
         */
        depthTexture : {
            get : function() {
                return this._depthTexture;
            }
        },

        /**
         * <code>true</code> if OES_texture_float is supported.  This extension provides
         * access to floating point textures that, for example, can be attached to framebuffers for high dynamic range.
         * @memberof Context.prototype
         * @type {Boolean}
         * @see {@link http://www.khronos.org/registry/gles/extensions/OES/OES_texture_float.txt|OES_texture_float}
         */
        floatingPointTexture : {
            get : function() {
                return this._textureFloat;
            }
        },

        textureFilterAnisotropic : {
            get : function() {
                return !!this._textureFilterAnisotropic;
            }
        },

        /**
         * <code>true</code> if the OES_vertex_array_object extension is supported.  This
         * extension can improve performance by reducing the overhead of switching vertex arrays.
         * When enabled, this extension is automatically used by {@link VertexArray}.
         * @memberof Context.prototype
         * @type {Boolean}
         * @see {@link http://www.khronos.org/registry/webgl/extensions/OES_vertex_array_object/|OES_vertex_array_object}
         */
        vertexArrayObject : {
            get : function() {
                return this._vertexArrayObject || this._webgl2;
            }
        },

        /**
         * <code>true</code> if the EXT_frag_depth extension is supported.  This
         * extension provides access to the <code>gl_FragDepthEXT</code> built-in output variable
         * from GLSL fragment shaders.  A shader using these functions still needs to explicitly enable the
         * extension with <code>#extension GL_EXT_frag_depth : enable</code>.
         * @memberof Context.prototype
         * @type {Boolean}
         * @see {@link http://www.khronos.org/registry/webgl/extensions/EXT_frag_depth/|EXT_frag_depth}
         */
        fragmentDepth : {
            get : function() {
                return this._fragDepth;
            }
        },

        /**
         * <code>true</code> if the ANGLE_instanced_arrays extension is supported.  This
         * extension provides access to instanced rendering.
         * @memberof Context.prototype
         * @type {Boolean}
         * @see {@link https://www.khronos.org/registry/webgl/extensions/ANGLE_instanced_arrays}
         */
        instancedArrays : {
            get : function() {
                return this._instancedArrays || this._webgl2;
            }
        },

        /**
         * <code>true</code> if the WEBGL_draw_buffers extension is supported. This
         * extensions provides support for multiple render targets. The framebuffer object can have mutiple
         * color attachments and the GLSL fragment shader can write to the built-in output array <code>gl_FragData</code>.
         * A shader using this feature needs to explicitly enable the extension with
         * <code>#extension GL_EXT_draw_buffers : enable</code>.
         * @memberof Context.prototype
         * @type {Boolean}
         * @see {@link http://www.khronos.org/registry/webgl/extensions/WEBGL_draw_buffers/|WEBGL_draw_buffers}
         */
        drawBuffers : {
            get : function() {
                return this._drawBuffers || this._webgl2;
            }
        },

        debugShaders : {
            get : function() {
                return this._debugShaders;
            }
        },

        throwOnWebGLError : {
            get : function() {
                return this._throwOnWebGLError;
            },
            set : function(value) {
                this._throwOnWebGLError = value;
                this._gl = wrapGL(this._originalGLContext, value ? throwOnError : null);
            }
        },

        /**
         * A 1x1 RGBA texture initialized to [255, 255, 255, 255].  This can
         * be used as a placeholder texture while other textures are downloaded.
         * @memberof Context.prototype
         * @type {Texture}
         */
        defaultTexture : {
            get : function() {
                if (this._defaultTexture === undefined) {
                    this._defaultTexture = new Texture({
                        context : this,
                        source : {
                            width : 1,
                            height : 1,
                            arrayBufferView : new Uint8Array([255, 255, 255, 255])
                        }
                    });
                }

                return this._defaultTexture;
            }
        },

        /**
         * A cube map, where each face is a 1x1 RGBA texture initialized to
         * [255, 255, 255, 255].  This can be used as a placeholder cube map while
         * other cube maps are downloaded.
         * @memberof Context.prototype
         * @type {CubeMap}
         */
        defaultCubeMap : {
            get : function() {
                if (this._defaultCubeMap === undefined) {
                    var face = {
                        width : 1,
                        height : 1,
                        arrayBufferView : new Uint8Array([255, 255, 255, 255])
                    };

                    this._defaultCubeMap = new CubeMap({
                        context : this,
                        source : {
                            positiveX : face,
                            negativeX : face,
                            positiveY : face,
                            negativeY : face,
                            positiveZ : face,
                            negativeZ : face
                        }
                    });
                }

                return this._defaultCubeMap;

            }
        },

        /**
         * The drawingBufferHeight of the underlying GL context.
         * @memberof Context.prototype
         * @type {Number}
         * @see {@link https://www.khronos.org/registry/webgl/specs/1.0/#DOM-WebGLRenderingContext-drawingBufferHeight|drawingBufferHeight}
         */
        drawingBufferHeight : {
            get : function() {
                return this._gl.drawingBufferHeight;
            }
        },

        /**
         * The drawingBufferWidth of the underlying GL context.
         * @memberof Context.prototype
         * @type {Number}
         * @see {@link https://www.khronos.org/registry/webgl/specs/1.0/#DOM-WebGLRenderingContext-drawingBufferWidth|drawingBufferWidth}
         */
        drawingBufferWidth : {
            get : function() {
                return this._gl.drawingBufferWidth;
            }
        },

        /**
         * Gets an object representing the currently bound framebuffer.  While this instance is not an actual
         * {@link Framebuffer}, it is used to represent the default framebuffer in calls to
         * {@link Texture.FromFramebuffer}.
         * @memberof Context.prototype
         * @type {Object}
         */
        defaultFramebuffer : {
            get : function() {
                return defaultFramebufferMarker;
            }
        }
    });

    /**
     * Validates a framebuffer.
     * Available in debug builds only.
     * @private
     */
    function validateFramebuffer(context) {
        //>>includeStart('debug', pragmas.debug);
        if (context.validateFramebuffer) {
            var gl = context._gl;
            var status = gl.checkFramebufferStatus(gl.FRAMEBUFFER);

            if (status !== gl.FRAMEBUFFER_COMPLETE) {
                var message;

                switch (status) {
                case gl.FRAMEBUFFER_INCOMPLETE_ATTACHMENT:
                    message = 'Framebuffer is not complete.  Incomplete attachment: at least one attachment point with a renderbuffer or texture attached has its attached object no longer in existence or has an attached image with a width or height of zero, or the color attachment point has a non-color-renderable image attached, or the depth attachment point has a non-depth-renderable image attached, or the stencil attachment point has a non-stencil-renderable image attached.  Color-renderable formats include GL_RGBA4, GL_RGB5_A1, and GL_RGB565. GL_DEPTH_COMPONENT16 is the only depth-renderable format. GL_STENCIL_INDEX8 is the only stencil-renderable format.';
                    break;
                case gl.FRAMEBUFFER_INCOMPLETE_DIMENSIONS:
                    message = 'Framebuffer is not complete.  Incomplete dimensions: not all attached images have the same width and height.';
                    break;
                case gl.FRAMEBUFFER_INCOMPLETE_MISSING_ATTACHMENT:
                    message = 'Framebuffer is not complete.  Missing attachment: no images are attached to the framebuffer.';
                    break;
                case gl.FRAMEBUFFER_UNSUPPORTED:
                    message = 'Framebuffer is not complete.  Unsupported: the combination of internal formats of the attached images violates an implementation-dependent set of restrictions.';
                    break;
                }

                throw new DeveloperError(message);
            }
        }
        //>>includeEnd('debug');
    }

    function applyRenderState(context, renderState, passState, clear) {
        var previousRenderState = context._currentRenderState;
        var previousPassState = context._currentPassState;
        context._currentRenderState = renderState;
        context._currentPassState = passState;
        RenderState.partialApply(context._gl, previousRenderState, renderState, previousPassState, passState, clear);
    }

    var scratchBackBufferArray;
    // this check must use typeof, not defined, because defined doesn't work with undeclared variables.
    if (typeof WebGLRenderingContext !== 'undefined') {
        scratchBackBufferArray = [WebGLConstants.BACK];
    }

    function bindFramebuffer(context, framebuffer) {
        if (framebuffer !== context._currentFramebuffer) {
            context._currentFramebuffer = framebuffer;
            var buffers = scratchBackBufferArray;

            if (defined(framebuffer)) {
                framebuffer._bind();
                validateFramebuffer(context);

                // TODO: Need a way for a command to give what draw buffers are active.
                buffers = framebuffer._getActiveColorAttachments();
            } else {
                var gl = context._gl;
                gl.bindFramebuffer(gl.FRAMEBUFFER, null);
            }

            if (context.drawBuffers) {
                context.glDrawBuffers(buffers);
            }
        }
    }

    var defaultClearCommand = new ClearCommand();

    Context.prototype.clear = function(clearCommand, passState) {
        clearCommand = defaultValue(clearCommand, defaultClearCommand);
        passState = defaultValue(passState, this._defaultPassState);

        var gl = this._gl;
        var bitmask = 0;

        var c = clearCommand.color;
        var d = clearCommand.depth;
        var s = clearCommand.stencil;

        if (defined(c)) {
            if (!Color.equals(this._clearColor, c)) {
                Color.clone(c, this._clearColor);
                gl.clearColor(c.red, c.green, c.blue, c.alpha);
            }
            bitmask |= gl.COLOR_BUFFER_BIT;
        }

        if (defined(d)) {
            if (d !== this._clearDepth) {
                this._clearDepth = d;
                gl.clearDepth(d);
            }
            bitmask |= gl.DEPTH_BUFFER_BIT;
        }

        if (defined(s)) {
            if (s !== this._clearStencil) {
                this._clearStencil = s;
                gl.clearStencil(s);
            }
            bitmask |= gl.STENCIL_BUFFER_BIT;
        }

        var rs = defaultValue(clearCommand.renderState, this._defaultRenderState);
        applyRenderState(this, rs, passState, true);

        // The command's framebuffer takes presidence over the pass' framebuffer, e.g., for off-screen rendering.
        var framebuffer = defaultValue(clearCommand.framebuffer, passState.framebuffer);
        bindFramebuffer(this, framebuffer);

        gl.clear(bitmask);
    };

    function beginDraw(context, framebuffer, drawCommand, passState) {
        var rs = defaultValue(drawCommand._renderState, context._defaultRenderState);

        //>>includeStart('debug', pragmas.debug);
        if (defined(framebuffer) && rs.depthTest) {
            if (rs.depthTest.enabled && !framebuffer.hasDepthAttachment) {
                throw new DeveloperError('The depth test can not be enabled (drawCommand.renderState.depthTest.enabled) because the framebuffer (drawCommand.framebuffer) does not have a depth or depth-stencil renderbuffer.');
            }
        }
        //>>includeEnd('debug');

        bindFramebuffer(context, framebuffer);

        applyRenderState(context, rs, passState, false);

        var sp = drawCommand._shaderProgram;
        sp._bind();
        context._maxFrameTextureUnitIndex = Math.max(context._maxFrameTextureUnitIndex, sp.maximumTextureUnitIndex);
    }

    function continueDraw(context, drawCommand) {
        var primitiveType = drawCommand._primitiveType;
        var va = drawCommand._vertexArray;
        var offset = drawCommand._offset;
        var count = drawCommand._count;
        var instanceCount = drawCommand.instanceCount;

        //>>includeStart('debug', pragmas.debug);
        if (!PrimitiveType.validate(primitiveType)) {
            throw new DeveloperError('drawCommand.primitiveType is required and must be valid.');
        }

        if (!defined(va)) {
            throw new DeveloperError('drawCommand.vertexArray is required.');
        }

        if (offset < 0) {
            throw new DeveloperError('drawCommand.offset must be greater than or equal to zero.');
        }

        if (count < 0) {
            throw new DeveloperError('drawCommand.count must be greater than or equal to zero.');
        }

        if (instanceCount < 0) {
            throw new DeveloperError('drawCommand.instanceCount must be greater than or equal to zero.');
        }

        if (instanceCount > 0 && !context.instancedArrays) {
            throw new DeveloperError('Instanced arrays extension is not supported');
        }
        //>>includeEnd('debug');

        context._us.model = defaultValue(drawCommand._modelMatrix, Matrix4.IDENTITY);
        drawCommand._shaderProgram._setUniforms(drawCommand._uniformMap, context._us, context.validateShaderProgram);

        va._bind();
        var indexBuffer = va.indexBuffer;

        if (defined(indexBuffer)) {
            offset = offset * indexBuffer.bytesPerIndex; // offset in vertices to offset in bytes
            count = defaultValue(count, indexBuffer.numberOfIndices);
            if (instanceCount === 0) {
                context._gl.drawElements(primitiveType, count, indexBuffer.indexDatatype, offset);
            } else {
                context.glDrawElementsInstanced(primitiveType, count, indexBuffer.indexDatatype, offset, instanceCount);
            }
        } else {
            count = defaultValue(count, va.numberOfVertices);
            if (instanceCount === 0) {
                context._gl.drawArrays(primitiveType, offset, count);
            } else {
                context.glDrawArraysInstanced(primitiveType, offset, count, instanceCount);
            }
        }

        va._unBind();
    }

    Context.prototype.draw = function(drawCommand, passState) {
        //>>includeStart('debug', pragmas.debug);
        if (!defined(drawCommand)) {
            throw new DeveloperError('drawCommand is required.');
        }

        if (!defined(drawCommand._shaderProgram)) {
            throw new DeveloperError('drawCommand.shaderProgram is required.');
        }
        //>>includeEnd('debug');

        passState = defaultValue(passState, this._defaultPassState);
        // The command's framebuffer takes presidence over the pass' framebuffer, e.g., for off-screen rendering.
        var framebuffer = defaultValue(drawCommand._framebuffer, passState.framebuffer);

        beginDraw(this, framebuffer, drawCommand, passState);
        continueDraw(this, drawCommand);
    };

    Context.prototype.endFrame = function() {
        var gl = this._gl;
        gl.useProgram(null);

        this._currentFramebuffer = undefined;
        gl.bindFramebuffer(gl.FRAMEBUFFER, null);

        var buffers = scratchBackBufferArray;
        if (this.drawBuffers) {
            this.glDrawBuffers(buffers);
        }

        var length = this._maxFrameTextureUnitIndex;
        this._maxFrameTextureUnitIndex = 0;

        for (var i = 0; i < length; ++i) {
            gl.activeTexture(gl.TEXTURE0 + i);
            gl.bindTexture(gl.TEXTURE_2D, null);
            gl.bindTexture(gl.TEXTURE_CUBE_MAP, null);
        }
    };

    Context.prototype.readPixels = function(readState) {
        var gl = this._gl;

        readState = readState || {};
        var x = Math.max(readState.x || 0, 0);
        var y = Math.max(readState.y || 0, 0);
        var width = readState.width || gl.drawingBufferWidth;
        var height = readState.height || gl.drawingBufferHeight;
        var framebuffer = readState.framebuffer;

        //>>includeStart('debug', pragmas.debug);
        if (width <= 0) {
            throw new DeveloperError('readState.width must be greater than zero.');
        }

        if (height <= 0) {
            throw new DeveloperError('readState.height must be greater than zero.');
        }
        //>>includeEnd('debug');

        var pixels = new Uint8Array(4 * width * height);

        bindFramebuffer(this, framebuffer);

        gl.readPixels(x, y, width, height, gl.RGBA, gl.UNSIGNED_BYTE, pixels);

        return pixels;
    };

    var viewportQuadAttributeLocations = {
        position : 0,
        textureCoordinates : 1
    };

    Context.prototype.getViewportQuadVertexArray = function() {
        // Per-context cache for viewport quads
        var vertexArray = this.cache.viewportQuad_vertexArray;

        if (!defined(vertexArray)) {
            var geometry = new Geometry({
                attributes : {
                    position : new GeometryAttribute({
                        componentDatatype : ComponentDatatype.FLOAT,
                        componentsPerAttribute : 2,
                        values : [
                           -1.0, -1.0,
                            1.0, -1.0,
                            1.0,  1.0,
                           -1.0,  1.0
                        ]
                    }),

                    textureCoordinates : new GeometryAttribute({
                        componentDatatype : ComponentDatatype.FLOAT,
                        componentsPerAttribute : 2,
                        values : [
                            0.0, 0.0,
                            1.0, 0.0,
                            1.0, 1.0,
                            0.0, 1.0
                        ]
                    })
                },
                // Workaround Internet Explorer 11.0.8 lack of TRIANGLE_FAN
                indices : new Uint16Array([0, 1, 2, 0, 2, 3]),
                primitiveType : PrimitiveType.TRIANGLES
            });

            vertexArray = VertexArray.fromGeometry({
                context : this,
                geometry : geometry,
                attributeLocations : viewportQuadAttributeLocations,
                bufferUsage : BufferUsage.STATIC_DRAW,
                interleave : true
            });

            this.cache.viewportQuad_vertexArray = vertexArray;
        }

        return vertexArray;
    };

    Context.prototype.createViewportQuadCommand = function(fragmentShaderSource, overrides) {
        overrides = defaultValue(overrides, defaultValue.EMPTY_OBJECT);

        return new DrawCommand({
            vertexArray : this.getViewportQuadVertexArray(),
            primitiveType : PrimitiveType.TRIANGLES,
            renderState : overrides.renderState,
            shaderProgram : ShaderProgram.fromCache({
                context : this,
                vertexShaderSource : ViewportQuadVS,
                fragmentShaderSource : fragmentShaderSource,
                attributeLocations : viewportQuadAttributeLocations
            }),
            uniformMap : overrides.uniformMap,
            owner : overrides.owner,
            framebuffer : overrides.framebuffer
        });
    };

    Context.prototype.createPickFramebuffer = function() {
        return new PickFramebuffer(this);
    };

    /**
     * Gets the object associated with a pick color.
     *
     * @param {Color} pickColor The pick color.
     * @returns {Object} The object associated with the pick color, or undefined if no object is associated with that color.
     *
     * @example
     * var object = context.getObjectByPickColor(pickColor);
     * 
     * @see Context#createPickId
     */
    Context.prototype.getObjectByPickColor = function(pickColor) {
        //>>includeStart('debug', pragmas.debug);
        if (!defined(pickColor)) {
            throw new DeveloperError('pickColor is required.');
        }
        //>>includeEnd('debug');

        return this._pickObjects[pickColor.toRgba()];
    };

    function PickId(pickObjects, key, color) {
        this._pickObjects = pickObjects;
        this.key = key;
        this.color = color;
    }

    defineProperties(PickId.prototype, {
        object : {
            get : function() {
                return this._pickObjects[this.key];
            },
            set : function(value) {
                this._pickObjects[this.key] = value;
            }
        }
    });

    PickId.prototype.destroy = function() {
        delete this._pickObjects[this.key];
        return undefined;
    };

    /**
     * Creates a unique ID associated with the input object for use with color-buffer picking.
     * The ID has an RGBA color value unique to this context.  You must call destroy()
     * on the pick ID when destroying the input object.
     *
     * @param {Object} object The object to associate with the pick ID.
     * @returns {Object} A PickId object with a <code>color</code> property.
     *
     * @exception {RuntimeError} Out of unique Pick IDs.
     *
     *
     * @example
     * this._pickId = context.createPickId({
     *   primitive : this,
     *   id : this.id
     * });
     * 
     * @see Context#getObjectByPickColor
     */
    Context.prototype.createPickId = function(object) {
        //>>includeStart('debug', pragmas.debug);
        if (!defined(object)) {
            throw new DeveloperError('object is required.');
        }
        //>>includeEnd('debug');

        // the increment and assignment have to be separate statements to
        // actually detect overflow in the Uint32 value
        ++this._nextPickColor[0];
        var key = this._nextPickColor[0];
        if (key === 0) {
            // In case of overflow
            throw new RuntimeError('Out of unique Pick IDs.');
        }

        this._pickObjects[key] = object;
        return new PickId(this._pickObjects, key, Color.fromRgba(key));
    };

    Context.prototype.isDestroyed = function() {
        return false;
    };

    Context.prototype.destroy = function() {
        // Destroy all objects in the cache that have a destroy method.
        var cache = this.cache;
        for (var property in cache) {
            if (cache.hasOwnProperty(property)) {
                var propertyValue = cache[property];
                if (defined(propertyValue.destroy)) {
                    propertyValue.destroy();
                }
            }
        }

        this._shaderCache = this._shaderCache.destroy();
        this._defaultTexture = this._defaultTexture && this._defaultTexture.destroy();
        this._defaultCubeMap = this._defaultCubeMap && this._defaultCubeMap.destroy();

        return destroyObject(this);
    };

    return Context;
});