diff --git a/.DS_Store b/.DS_Store new file mode 100644 index 0000000..52b0f12 Binary files /dev/null and b/.DS_Store differ diff --git a/Color.js b/Color.js new file mode 100644 index 0000000..0518062 --- /dev/null +++ b/Color.js @@ -0,0 +1,21 @@ +//Color.js +//Written by Brandon Poythress +//14MAY2018 +//Description: +//This class and global functions manage color in the program. + +//Color class +function Color(rIn,gIn,bIn,aIn){ + this.type = "Color"; + this.r = rIn; + this.g = gIn; + this.b = bIn; + this.a = aIn; +} + +//Basic colors are listed below. RGBA format +var RED = new Color(1.0, 0.0, 0.0, 1.0); +var GREEN = new Color(0.0, 1.0, 0.0, 1.0); +var BLUE = new Color(0.0, 0.0, 1.0, 1.0); +var BLACK = new Color(0.0, 0.0, 0.0, 1.0); +var WHITE = new Color(1.0, 1.0, 1.0, 1.0); \ No newline at end of file diff --git a/DrawableObject.js b/DrawableObject.js new file mode 100644 index 0000000..87b4edc --- /dev/null +++ b/DrawableObject.js @@ -0,0 +1,18 @@ +//DrawableObject.js +//Written by Brandon Poythress +//01MAY2018 + +function DrawableObject(colorIn){ + this.graphicsMemoryAddress = null; + this.killMe = false; + + this.color = new Color(colorIn.r, colorIn.g, colorIn.b, colorIn.a); +} + +//setter to change the color +DrawableObject.prototype.setColorByObject = function(colorIn){ + this.color.r = colorIn.r; + this.color.g = colorIn.g; + this.color.b = colorIn.b; + this.color.a = colorIn.a; +}; \ No newline at end of file diff --git a/EventHandler.js b/EventHandler.js new file mode 100644 index 0000000..90f8c77 --- /dev/null +++ b/EventHandler.js @@ -0,0 +1,116 @@ +//EventHandler.js +//Written by Brandon Poythress +//25APR2018 +//Description: +//This class handles all events + +function EventHandler(canvasIn, rendererIn, currentStateIn){ + + this.canvas = canvasIn; + this.renderer = rendererIn; + this.currentState = currentStateIn; + + //The EventHandler will hold on to a variable that contains the inverse perspective matrix + //of the renderer. The EventHandler will use this to give the currentState ray information + //that it can use to figure out what was clicked or hovered over. + this.inverseProjMatrix = new Matrix4(); + + //ray after normalizing + this.normalizedRay = new Vector4(); + + //ray after applying the inverse perspective matrix + this.eyeRay = new Vector4(); + + //event handlers---------------------------------------------------------------------- + + //window resize event + window.addEventListener('resize', function(){ + this.renderer.resizeCanvas(this.canvas);}.bind(this), + false); + + //mouse down event + this.canvas.addEventListener('mousedown', function(evt){ + this.handleMouseDown(evt); + }.bind(this), false); + + this.canvas.addEventListener('mouseup', function(evt){ + this.handleMouseUp(evt);}.bind(this), false); + + //keydown event + document.addEventListener('keydown', function(evt){ + this.handleKeyDown(evt); + }.bind(this), false); + + //keyup event + document.addEventListener('keyup', function(evt){ + this.handleKeyUp(evt); + }.bind(this), false); + + +} + +//Implementing mouseDown +EventHandler.prototype.handleMouseDown = function(evt){ + + +}; + +//Implementing mouseUp +EventHandler.prototype.handleMouseUp = function(evt){ + + //update the eyeRay variable so that it is ready to pass to the currentState + this.updateEyeRay(evt); + this.currentState.onMouseUp(evt, this.eyeRay); + +}; + +//Implementing keyDown +EventHandler.prototype.handleKeyDown = function(evt){ + this.currentState.onKeyDown(evt); +}; + +//Implementing keyUp +EventHandler.prototype.handleKeyUp = function(evt){ + this.currentState.onKeyUp(evt); +}; + +EventHandler.prototype.updateEyeRay = function(evt){ + //steps to create a ray + + //step 0: 2d viewpoint coordinates + var x = evt.x; + var y = evt.y; + var z = null; + var w = null; + + //Step 1 and 2: Make normalized Device Coordinates. x, y, and z + //now define a vector looking in the negative z direction + x = ((2.0 * x) / this.canvas.width) - 1.0; + y = 1.0 - ((2.0 * y) / this.canvas.height); + z = -1.0; + w = 1.0; + + this.normalizedRay.elements[0] = x; + this.normalizedRay.elements[1] = y; + this.normalizedRay.elements[2] = z; + this.normalizedRay.elements[3] = w; + + //console.log(this.normalizedRay); + + //Step 3: 4d Eye(Camera) Coordinates + this.inverseProjMatrix.setInverseOf(this.renderer.projMatrix); + + //console.log(this.inverseProjMatrix); + + + this.eyeRay = this.inverseProjMatrix.multiplyVector4(this.normalizedRay); + this.eyeRay.elements[2] = -1.0 + this.eyeRay.elements[3] = 0.0; + + //console.log(this.eyeRay); + + +}; + + + diff --git a/Freedom.js b/Freedom.js new file mode 100644 index 0000000..536cc6d --- /dev/null +++ b/Freedom.js @@ -0,0 +1,57 @@ +//Freedom.js +//Written by Brandon Poythress +//25APR2018 +//Description: +//This file is the main game loop + +//if there are textures you have to run a local server with the command: +// If Python version is 3.X +// python -m http.server +// If Python version is 2.X +// python -m SimpleHTTPServer + +debugging = true; + +function main(){ + //retrieve the canvas from the html file + var canvas = document.getElementById('webgl'); + if(!canvas){ + console.log('Failed to retrieve the element'); + return; + } + + //create the renderer instance + var renderer = new Renderer(canvas); + + //load state + var currentState = new ModelState(); + + //event handler + var eventHandler = new EventHandler(canvas, renderer, currentState); + + //size the canvase based on the current browser window size + renderer.resizeCanvas(canvas); + + //There will probably be a function call somewhere around here that loads + //existing saved data if there is any. + + //holds the time of last view update + var lastUpdate = Date.now(); + var currentTime = Date.now(); + var delta; + + //define the game Loop + var gameLoop = function(){ + currentTime = Date.now(); + delta = currentTime - lastUpdate; + lastUpdate = currentTime; + currentState.update(delta); + renderer.render(currentState, canvas); + requestAnimationFrame(gameLoop); + }; + + //starting the main game loop + gameLoop(); +} + + diff --git a/GPUMemManager.js b/GPUMemManager.js new file mode 100644 index 0000000..dc7e0cc --- /dev/null +++ b/GPUMemManager.js @@ -0,0 +1,154 @@ +//GPUMemManager.js +//Written by Brandon Poythress 4/17/18 +//Description: +//There needs to be a lot of thought put into this memory manager. right now it +//is good enough for development. once the program is working pretty well more +//attention should be given to this because the performance effects are significant. + +function GPUMemManager(gl){ + //set the current buffer size in bytes + this.INITIAL_BUFFER_SIZE = 1024; + this.BUFFER_GROW_SIZE = 1024; + + //the first block of memory takes up the entire buffer and is empty + //starting at address 0. + initialBlock = new MemoryBlock(0, this.INITIAL_BUFFER_SIZE); + initialBlock.isAvailable = true; + + //list of all memory blocks + this.blockList = []; + + //add the big empty block to the blockList + this.blockList.push(initialBlock); + + //create an empty buffer + this.graphicsBuffer = gl.createBuffer(); + if(!this.graphicsBuffer){ + console.log('Failed to create buffer object'); + return -1; + } + + //Bind the buffer object to the target + gl.bindBuffer(gl.ARRAY_BUFFER, this.graphicsBuffer); + + //Expand the buffer to its inital size in bytes + gl.bufferData(gl.ARRAY_BUFFER, this.INITIAL_BUFFER_SIZE, gl.DYNAMIC_DRAW); + + // Unbind the buffer object + gl.bindBuffer(gl.ARRAY_BUFFER, null); +} + +GPUMemManager.prototype.allocate = function(gl, vertexArray){ + //determine the size of the vertexArray in bytes + var vertArraySize = vertexArray.length * vertexArray.BYTES_PER_ELEMENT; + + //set the index of the new memory to an error value. + //this will only be corrected if memory is successfully allocated + var indexOfNewMemory = -1; + + //find a empty block of memory + for (var i=0; i=vertArraySize){ + + //store the original size of the available block + var sizeOfOldBlock = this.blockList[i].size; + + //if the required amount of memory is less than what is available + //in the block, then break up the block into two + if(this.blockList[i].size != vertArraySize){ + + //use the current unused block as the new block + this.blockList[i].size = vertArraySize; + this.blockList[i].isAvailable = false; + + //calculate the new location and size of the empty block + freeLocation = this.blockList[i].location + vertArraySize; + freeSize = sizeOfOldBlock - vertArraySize; + + //create the empty block + freeBlock = new MemoryBlock(freeLocation, freeSize); + freeBlock.isAvailable = true; + + //Push the empty block to the end of the stack + this.blockList.push(freeBlock); + + } else{ + + //if the new and old block are the same size, creation of new + //memory blocks is not necessary + this.blockList[i].isAvailable = false; + } + + //each drawable object will use index number instead of address + //to access it's memory block so they do not have to iterate through + //the blockList to find it + indexOfNewMemory = i; + + //allocate the memory in the GPU + gl.bindBuffer(gl.ARRAY_BUFFER, this.graphicsBuffer); + gl.bufferSubData(gl.ARRAY_BUFFER, this.blockList[i].location, vertexArray); + gl.bindBuffer(gl.ARRAY_BUFFER, null); + + //once memory has been allocated we can break out of the for loop + break; + + + } else if(i == this.blockList.length - 1) { + //if you dont break out of the foor loop before getting here, it means + //that there was not a block of memory available + console.log("Out of memory in the GPUMemoryManager. Need to expand memory"); + } + } + + return indexOfNewMemory; //if a negative number is returned there is a problem +}; + + +GPUMemManager.prototype.update = function(gl, object, vertexArray){ + + //first we must figure out is memory is already allocated or the object is new + if(object.graphicsMemoryAddress){ + //because the object already has a memory address/index, i am going to release it. + //each time I modify the vertices an existing object, I free its memory and rebuffer it. + //this helps with memory fragmentation. + this.blockList[object.graphicsMemoryAddress].isAvailable = true; + object.graphicsMemoryAddress = null; + }else{ + + } + + //then we figure out if the object is requesting deletion. If so we just return without + //allocating any more. + if(object.killMe){ + return; + } else { + object.graphicsMemoryAddress = this.allocate(gl, vertexArray); + } + + if(debugging){ + console.log("Memory Information:"); + for (var i=0; i element'); + return; + } + //get the rendering context + // var gl = getWebGLContext(canvas); + // if(!gl){ + // console.log('Failed to get the rendering context for WebGL'); + // return; + // } + + + //create the renderer instance + //var renderer = new Renderer(gl); + + + //load state + var currentState = new ModelState(); +} + +// //holds the time of last view update +// var lastUpdate = Date.now(); + + +// //draw state +// renderer.draw(currentState); + +// //define the game Loop +// var gameLoop = function(){ +// currentState.update(lastUpdate); +// renderer.render(currentState); +// requestAnimationFrame(gameLoop); +// }; + +// //starting the main game loop +// gameLoop(); +// } + +//////////////////////////////////////////////////////////////////////////////////// +//a reference game loop from google + + +// function update(progress) { +// // Update the state of the world for the elapsed time since last render +// } +// +// function draw() { +// // Draw the state of the world +// } +// +// function loop(timestamp) { +// var progress = timestamp - lastRender +// +// update(progress) +// draw() +// +// lastRender = timestamp +// window.requestAnimationFrame(loop) +// } +// var lastRender = 0 +// window.requestAnimationFrame(loop) +// +// + +//////////////////////////////////// + + + + + // Set the positions of vertices +// var n = initVertexBuffers(gl); +// if (n<0){ +// console.log('Failed to set the positions of the vertices'); +// return; +// } +// +// Get the storage location of u_ViewMatrix and u_ModelMatrix variable +// var u_ViewMatrix = gl.getUniformLocation(gl.program, 'u_ViewMatrix'); +// var u_ProjMatrix = gl.getUniformLocation(gl.program, 'u_ProjMatrix'); +// +// Set the eye point, look at point, and up direction +// var viewMatrix = new Matrix4(); +// +// Register the event handler to be called on key press +// document.onkeydown = function(ev){ +// keydown(ev, gl, n, u_ViewMatrix, viewMatrix) +// }; +// +// var projMatrix = new Matrix4(); +// projMatrix.setOrtho(-1.0, 1.0, -1.0, 1.0, 0.0, 2.0); +// gl.uniformMatrix4fv(u_ProjMatrix, false, projMatrix.elements); +// +// draw(gl, n, u_ViewMatrix, viewMatrix); +// +// +// +// } +// +// var g_eyeX = 0.20; +// var g_eyeY = 0.25; +// var g_eyeZ = 0.25; +// +// function keydown(ev, gl, n, u_ViewMatrix, viewMatrix){ +// if(ev.keyCode == 39){ +// g_eyeX += 0.01; +// } else if(ev.keyCode ==37){ +// g_eyeX -= 0.01; +// } else{ +// return; +// } +// draw(gl, n, u_ViewMatrix, viewMatrix); +// +// } +// +// function draw(gl, n, u_ViewMatrix, viewMatrix){ +// viewMatrix.setLookAt(g_eyeX, g_eyeY, g_eyeZ, 0, 0, 0, 0, 1, 0); +// gl.uniformMatrix4fv(u_ViewMatrix, false, viewMatrix.elements); +// gl.clear(gl.COLOR_BUFFER_BIT); +// gl.drawArrays(gl.TRIANGLES, 0, n); +// } +// +// function initVertexBuffers(gl){ +// var verticesColors = new Float32Array([ +// +// 0.0, 0.5, -0.4, 0.4, 1.0, 0.4, // The back green one +// -0.5, -0.5, -0.4, 0.4, 1.0, 0.4, +// 0.5, -0.5, -0.4, 1.0, 0.4, 0.4, +// +// 0.5, 0.4, -0.2, 1.0, 0.4, 0.4, // The middle yellow one +// -0.5, 0.4, -0.2, 1.0, 1.0, 0.4, +// 0.0, -0.6, -0.2, 1.0, 1.0, 0.4, +// +// 0.0, 0.5, 0.0, 0.4, 0.4, 1.0, // The front blue one +// -0.5, -0.5, 0.0, 0.4, 0.4, 1.0, +// 0.5, -0.5, 0.0, 1.0, 0.4, 0.4 +// ]); +// +// var n = 9; +// +// create buffer object +// var vertexColorBuffer = gl.createBuffer(); +// if(!vertexColorBuffer){ +// console.log('Failed to create buffer object'); +// return -1; +// } +// +// Bind the buffer object to the target +// gl.bindBuffer(gl.ARRAY_BUFFER, vertexColorBuffer); +// +// Write data into the buffer object +// gl.bufferData(gl.ARRAY_BUFFER, verticesColors, gl.STATIC_DRAW); +// +// var FSIZE = verticesColors.BYTES_PER_ELEMENT; +// +// var a_Position = gl.getAttribLocation(gl.program, 'a_Position'); +// if (a_Position<0){ +// console.log('Failed to get location of a_Position'); +// } +// +// var a_Color = gl.getAttribLocation(gl.program, 'a_Color'); +// if (a_Color<0){ +// console.log('Failed to get location of a_Color'); +// } +// +// Assign the buffer object to a_Position variable and enable it +// gl.vertexAttribPointer(a_Position, 3, gl.FLOAT, false, FSIZE*6, 0); +// gl.enableVertexAttribArray(a_Position); +// +// Assign the buffer object to a_TexCoord variable and enable it +// gl.vertexAttribPointer(a_Color, 3, gl.FLOAT, false, FSIZE*6, FSIZE*3); +// gl.enableVertexAttribArray(a_Color); +// +// Unbind the buffer object +// gl.bindBuffer(gl.ARRAY_BUFFER, null); +// +// return n; +// } + + + + + + + + \ No newline at end of file diff --git a/Vertex.js b/Vertex.js new file mode 100644 index 0000000..dd76996 --- /dev/null +++ b/Vertex.js @@ -0,0 +1,17 @@ +//Vertex.js +//Written by Brandon Poythress +//14MAY2018 +//Description: +//I found that it was necessary to separate vertices from points. +//Points are objects that are visible and selectable to the user. +//vertices are the building blocks for complex objects but +//are not necessarily viewable or able to be interacted with by +//the user. Each point will contain a vertex object, but +//every vertex will not be necessarily be a point. + +function Vertex(xIn, yIn, zIn){ + + this.x = xIn; + this.y = yIn; + this.z = zIn; +} \ No newline at end of file diff --git a/freedom.html b/freedom.html new file mode 100644 index 0000000..91b2ea0 --- /dev/null +++ b/freedom.html @@ -0,0 +1,46 @@ + + + + + CAD Like + + + + + + Please use a browser that supports "canvas" + + + + + + + + + + + + + + + + + + + + + + + + + + \ No newline at end of file diff --git a/lib/IntersectionMath.js b/lib/IntersectionMath.js new file mode 100644 index 0000000..e69de29 diff --git a/lib/cuon-matrix.js b/lib/cuon-matrix.js new file mode 100755 index 0000000..26585b7 --- /dev/null +++ b/lib/cuon-matrix.js @@ -0,0 +1,741 @@ +// cuon-matrix.js (c) 2012 kanda and matsuda +/** + * This is a class treating 4x4 matrix. + * This class contains the function that is equivalent to OpenGL matrix stack. + * The matrix after conversion is calculated by multiplying a conversion matrix from the right. + * The matrix is replaced by the calculated result. + */ + +/** + * Constructor of Matrix4 + * If opt_src is specified, new matrix is initialized by opt_src. + * Otherwise, new matrix is initialized by identity matrix. + * @param opt_src source matrix(option) + */ +var Matrix4 = function(opt_src) { + var i, s, d; + if (opt_src && typeof opt_src === 'object' && opt_src.hasOwnProperty('elements')) { + s = opt_src.elements; + d = new Float32Array(16); + for (i = 0; i < 16; ++i) { + d[i] = s[i]; + } + this.elements = d; + } else { + this.elements = new Float32Array([1,0,0,0, 0,1,0,0, 0,0,1,0, 0,0,0,1]); + } +}; + +/** + * Set the identity matrix. + * @return this + */ +Matrix4.prototype.setIdentity = function() { + var e = this.elements; + e[0] = 1; e[4] = 0; e[8] = 0; e[12] = 0; + e[1] = 0; e[5] = 1; e[9] = 0; e[13] = 0; + e[2] = 0; e[6] = 0; e[10] = 1; e[14] = 0; + e[3] = 0; e[7] = 0; e[11] = 0; e[15] = 1; + return this; +}; + +/** + * Copy matrix. + * @param src source matrix + * @return this + */ +Matrix4.prototype.set = function(src) { + var i, s, d; + + s = src.elements; + d = this.elements; + + if (s === d) { + return; + } + + for (i = 0; i < 16; ++i) { + d[i] = s[i]; + } + + return this; +}; + +/** + * Multiply the matrix from the right. + * @param other The multiply matrix + * @return this + */ +Matrix4.prototype.concat = function(other) { + var i, e, a, b, ai0, ai1, ai2, ai3; + + // Calculate e = a * b + e = this.elements; + a = this.elements; + b = other.elements; + + // If e equals b, copy b to temporary matrix. + if (e === b) { + b = new Float32Array(16); + for (i = 0; i < 16; ++i) { + b[i] = e[i]; + } + } + + for (i = 0; i < 4; i++) { + ai0=a[i]; ai1=a[i+4]; ai2=a[i+8]; ai3=a[i+12]; + e[i] = ai0 * b[0] + ai1 * b[1] + ai2 * b[2] + ai3 * b[3]; + e[i+4] = ai0 * b[4] + ai1 * b[5] + ai2 * b[6] + ai3 * b[7]; + e[i+8] = ai0 * b[8] + ai1 * b[9] + ai2 * b[10] + ai3 * b[11]; + e[i+12] = ai0 * b[12] + ai1 * b[13] + ai2 * b[14] + ai3 * b[15]; + } + + return this; +}; +Matrix4.prototype.multiply = Matrix4.prototype.concat; + +/** + * Multiply the three-dimensional vector. + * @param pos The multiply vector + * @return The result of multiplication(Float32Array) + */ +Matrix4.prototype.multiplyVector3 = function(pos) { + var e = this.elements; + var p = pos.elements; + var v = new Vector3(); + var result = v.elements; + + result[0] = p[0] * e[0] + p[1] * e[4] + p[2] * e[ 8] + e[12]; + result[1] = p[0] * e[1] + p[1] * e[5] + p[2] * e[ 9] + e[13]; + result[2] = p[0] * e[2] + p[1] * e[6] + p[2] * e[10] + e[14]; + + return v; +}; + +/** + * Multiply the four-dimensional vector. + * @param pos The multiply vector + * @return The result of multiplication(Float32Array) + */ +Matrix4.prototype.multiplyVector4 = function(pos) { + var e = this.elements; + var p = pos.elements; + var v = new Vector4(); + var result = v.elements; + + result[0] = p[0] * e[0] + p[1] * e[4] + p[2] * e[ 8] + p[3] * e[12]; + result[1] = p[0] * e[1] + p[1] * e[5] + p[2] * e[ 9] + p[3] * e[13]; + result[2] = p[0] * e[2] + p[1] * e[6] + p[2] * e[10] + p[3] * e[14]; + result[3] = p[0] * e[3] + p[1] * e[7] + p[2] * e[11] + p[3] * e[15]; + + return v; +}; + +/** + * Transpose the matrix. + * @return this + */ +Matrix4.prototype.transpose = function() { + var e, t; + + e = this.elements; + + t = e[ 1]; e[ 1] = e[ 4]; e[ 4] = t; + t = e[ 2]; e[ 2] = e[ 8]; e[ 8] = t; + t = e[ 3]; e[ 3] = e[12]; e[12] = t; + t = e[ 6]; e[ 6] = e[ 9]; e[ 9] = t; + t = e[ 7]; e[ 7] = e[13]; e[13] = t; + t = e[11]; e[11] = e[14]; e[14] = t; + + return this; +}; + +/** + * Calculate the inverse matrix of specified matrix, and set to this. + * @param other The source matrix + * @return this + */ +Matrix4.prototype.setInverseOf = function(other) { + var i, s, d, inv, det; + + s = other.elements; + d = this.elements; + inv = new Float32Array(16); + + inv[0] = s[5]*s[10]*s[15] - s[5] *s[11]*s[14] - s[9] *s[6]*s[15] + + s[9]*s[7] *s[14] + s[13]*s[6] *s[11] - s[13]*s[7]*s[10]; + inv[4] = - s[4]*s[10]*s[15] + s[4] *s[11]*s[14] + s[8] *s[6]*s[15] + - s[8]*s[7] *s[14] - s[12]*s[6] *s[11] + s[12]*s[7]*s[10]; + inv[8] = s[4]*s[9] *s[15] - s[4] *s[11]*s[13] - s[8] *s[5]*s[15] + + s[8]*s[7] *s[13] + s[12]*s[5] *s[11] - s[12]*s[7]*s[9]; + inv[12] = - s[4]*s[9] *s[14] + s[4] *s[10]*s[13] + s[8] *s[5]*s[14] + - s[8]*s[6] *s[13] - s[12]*s[5] *s[10] + s[12]*s[6]*s[9]; + + inv[1] = - s[1]*s[10]*s[15] + s[1] *s[11]*s[14] + s[9] *s[2]*s[15] + - s[9]*s[3] *s[14] - s[13]*s[2] *s[11] + s[13]*s[3]*s[10]; + inv[5] = s[0]*s[10]*s[15] - s[0] *s[11]*s[14] - s[8] *s[2]*s[15] + + s[8]*s[3] *s[14] + s[12]*s[2] *s[11] - s[12]*s[3]*s[10]; + inv[9] = - s[0]*s[9] *s[15] + s[0] *s[11]*s[13] + s[8] *s[1]*s[15] + - s[8]*s[3] *s[13] - s[12]*s[1] *s[11] + s[12]*s[3]*s[9]; + inv[13] = s[0]*s[9] *s[14] - s[0] *s[10]*s[13] - s[8] *s[1]*s[14] + + s[8]*s[2] *s[13] + s[12]*s[1] *s[10] - s[12]*s[2]*s[9]; + + inv[2] = s[1]*s[6]*s[15] - s[1] *s[7]*s[14] - s[5] *s[2]*s[15] + + s[5]*s[3]*s[14] + s[13]*s[2]*s[7] - s[13]*s[3]*s[6]; + inv[6] = - s[0]*s[6]*s[15] + s[0] *s[7]*s[14] + s[4] *s[2]*s[15] + - s[4]*s[3]*s[14] - s[12]*s[2]*s[7] + s[12]*s[3]*s[6]; + inv[10] = s[0]*s[5]*s[15] - s[0] *s[7]*s[13] - s[4] *s[1]*s[15] + + s[4]*s[3]*s[13] + s[12]*s[1]*s[7] - s[12]*s[3]*s[5]; + inv[14] = - s[0]*s[5]*s[14] + s[0] *s[6]*s[13] + s[4] *s[1]*s[14] + - s[4]*s[2]*s[13] - s[12]*s[1]*s[6] + s[12]*s[2]*s[5]; + + inv[3] = - s[1]*s[6]*s[11] + s[1]*s[7]*s[10] + s[5]*s[2]*s[11] + - s[5]*s[3]*s[10] - s[9]*s[2]*s[7] + s[9]*s[3]*s[6]; + inv[7] = s[0]*s[6]*s[11] - s[0]*s[7]*s[10] - s[4]*s[2]*s[11] + + s[4]*s[3]*s[10] + s[8]*s[2]*s[7] - s[8]*s[3]*s[6]; + inv[11] = - s[0]*s[5]*s[11] + s[0]*s[7]*s[9] + s[4]*s[1]*s[11] + - s[4]*s[3]*s[9] - s[8]*s[1]*s[7] + s[8]*s[3]*s[5]; + inv[15] = s[0]*s[5]*s[10] - s[0]*s[6]*s[9] - s[4]*s[1]*s[10] + + s[4]*s[2]*s[9] + s[8]*s[1]*s[6] - s[8]*s[2]*s[5]; + + det = s[0]*inv[0] + s[1]*inv[4] + s[2]*inv[8] + s[3]*inv[12]; + if (det === 0) { + return this; + } + + det = 1 / det; + for (i = 0; i < 16; i++) { + d[i] = inv[i] * det; + } + + return this; +}; + +/** + * Calculate the inverse matrix of this, and set to this. + * @return this + */ +Matrix4.prototype.invert = function() { + return this.setInverseOf(this); +}; + +/** + * Set the orthographic projection matrix. + * @param left The coordinate of the left of clipping plane. + * @param right The coordinate of the right of clipping plane. + * @param bottom The coordinate of the bottom of clipping plane. + * @param top The coordinate of the top top clipping plane. + * @param near The distances to the nearer depth clipping plane. This value is minus if the plane is to be behind the viewer. + * @param far The distances to the farther depth clipping plane. This value is minus if the plane is to be behind the viewer. + * @return this + */ +Matrix4.prototype.setOrtho = function(left, right, bottom, top, near, far) { + var e, rw, rh, rd; + + if (left === right || bottom === top || near === far) { + throw 'null frustum'; + } + + rw = 1 / (right - left); + rh = 1 / (top - bottom); + rd = 1 / (far - near); + + e = this.elements; + + e[0] = 2 * rw; + e[1] = 0; + e[2] = 0; + e[3] = 0; + + e[4] = 0; + e[5] = 2 * rh; + e[6] = 0; + e[7] = 0; + + e[8] = 0; + e[9] = 0; + e[10] = -2 * rd; + e[11] = 0; + + e[12] = -(right + left) * rw; + e[13] = -(top + bottom) * rh; + e[14] = -(far + near) * rd; + e[15] = 1; + + return this; +}; + +/** + * Multiply the orthographic projection matrix from the right. + * @param left The coordinate of the left of clipping plane. + * @param right The coordinate of the right of clipping plane. + * @param bottom The coordinate of the bottom of clipping plane. + * @param top The coordinate of the top top clipping plane. + * @param near The distances to the nearer depth clipping plane. This value is minus if the plane is to be behind the viewer. + * @param far The distances to the farther depth clipping plane. This value is minus if the plane is to be behind the viewer. + * @return this + */ +Matrix4.prototype.ortho = function(left, right, bottom, top, near, far) { + return this.concat(new Matrix4().setOrtho(left, right, bottom, top, near, far)); +}; + +/** + * Set the perspective projection matrix. + * @param left The coordinate of the left of clipping plane. + * @param right The coordinate of the right of clipping plane. + * @param bottom The coordinate of the bottom of clipping plane. + * @param top The coordinate of the top top clipping plane. + * @param near The distances to the nearer depth clipping plane. This value must be plus value. + * @param far The distances to the farther depth clipping plane. This value must be plus value. + * @return this + */ +Matrix4.prototype.setFrustum = function(left, right, bottom, top, near, far) { + var e, rw, rh, rd; + + if (left === right || top === bottom || near === far) { + throw 'null frustum'; + } + if (near <= 0) { + throw 'near <= 0'; + } + if (far <= 0) { + throw 'far <= 0'; + } + + rw = 1 / (right - left); + rh = 1 / (top - bottom); + rd = 1 / (far - near); + + e = this.elements; + + e[ 0] = 2 * near * rw; + e[ 1] = 0; + e[ 2] = 0; + e[ 3] = 0; + + e[ 4] = 0; + e[ 5] = 2 * near * rh; + e[ 6] = 0; + e[ 7] = 0; + + e[ 8] = (right + left) * rw; + e[ 9] = (top + bottom) * rh; + e[10] = -(far + near) * rd; + e[11] = -1; + + e[12] = 0; + e[13] = 0; + e[14] = -2 * near * far * rd; + e[15] = 0; + + return this; +}; + +/** + * Multiply the perspective projection matrix from the right. + * @param left The coordinate of the left of clipping plane. + * @param right The coordinate of the right of clipping plane. + * @param bottom The coordinate of the bottom of clipping plane. + * @param top The coordinate of the top top clipping plane. + * @param near The distances to the nearer depth clipping plane. This value must be plus value. + * @param far The distances to the farther depth clipping plane. This value must be plus value. + * @return this + */ +Matrix4.prototype.frustum = function(left, right, bottom, top, near, far) { + return this.concat(new Matrix4().setFrustum(left, right, bottom, top, near, far)); +}; + +/** + * Set the perspective projection matrix by fovy and aspect. + * @param fovy The angle between the upper and lower sides of the frustum. + * @param aspect The aspect ratio of the frustum. (width/height) + * @param near The distances to the nearer depth clipping plane. This value must be plus value. + * @param far The distances to the farther depth clipping plane. This value must be plus value. + * @return this + */ +Matrix4.prototype.setPerspective = function(fovy, aspect, near, far) { + var e, rd, s, ct; + + if (near === far || aspect === 0) { + throw 'null frustum'; + } + if (near <= 0) { + throw 'near <= 0'; + } + if (far <= 0) { + throw 'far <= 0'; + } + + fovy = Math.PI * fovy / 180 / 2; + s = Math.sin(fovy); + if (s === 0) { + throw 'null frustum'; + } + + rd = 1 / (far - near); + ct = Math.cos(fovy) / s; + + e = this.elements; + + e[0] = ct / aspect; + e[1] = 0; + e[2] = 0; + e[3] = 0; + + e[4] = 0; + e[5] = ct; + e[6] = 0; + e[7] = 0; + + e[8] = 0; + e[9] = 0; + e[10] = -(far + near) * rd; + e[11] = -1; + + e[12] = 0; + e[13] = 0; + e[14] = -2 * near * far * rd; + e[15] = 0; + + return this; +}; + +/** + * Multiply the perspective projection matrix from the right. + * @param fovy The angle between the upper and lower sides of the frustum. + * @param aspect The aspect ratio of the frustum. (width/height) + * @param near The distances to the nearer depth clipping plane. This value must be plus value. + * @param far The distances to the farther depth clipping plane. This value must be plus value. + * @return this + */ +Matrix4.prototype.perspective = function(fovy, aspect, near, far) { + return this.concat(new Matrix4().setPerspective(fovy, aspect, near, far)); +}; + +/** + * Set the matrix for scaling. + * @param x The scale factor along the X axis + * @param y The scale factor along the Y axis + * @param z The scale factor along the Z axis + * @return this + */ +Matrix4.prototype.setScale = function(x, y, z) { + var e = this.elements; + e[0] = x; e[4] = 0; e[8] = 0; e[12] = 0; + e[1] = 0; e[5] = y; e[9] = 0; e[13] = 0; + e[2] = 0; e[6] = 0; e[10] = z; e[14] = 0; + e[3] = 0; e[7] = 0; e[11] = 0; e[15] = 1; + return this; +}; + +/** + * Multiply the matrix for scaling from the right. + * @param x The scale factor along the X axis + * @param y The scale factor along the Y axis + * @param z The scale factor along the Z axis + * @return this + */ +Matrix4.prototype.scale = function(x, y, z) { + var e = this.elements; + e[0] *= x; e[4] *= y; e[8] *= z; + e[1] *= x; e[5] *= y; e[9] *= z; + e[2] *= x; e[6] *= y; e[10] *= z; + e[3] *= x; e[7] *= y; e[11] *= z; + return this; +}; + +/** + * Set the matrix for translation. + * @param x The X value of a translation. + * @param y The Y value of a translation. + * @param z The Z value of a translation. + * @return this + */ +Matrix4.prototype.setTranslate = function(x, y, z) { + var e = this.elements; + e[0] = 1; e[4] = 0; e[8] = 0; e[12] = x; + e[1] = 0; e[5] = 1; e[9] = 0; e[13] = y; + e[2] = 0; e[6] = 0; e[10] = 1; e[14] = z; + e[3] = 0; e[7] = 0; e[11] = 0; e[15] = 1; + return this; +}; + +/** + * Multiply the matrix for translation from the right. + * @param x The X value of a translation. + * @param y The Y value of a translation. + * @param z The Z value of a translation. + * @return this + */ +Matrix4.prototype.translate = function(x, y, z) { + var e = this.elements; + e[12] += e[0] * x + e[4] * y + e[8] * z; + e[13] += e[1] * x + e[5] * y + e[9] * z; + e[14] += e[2] * x + e[6] * y + e[10] * z; + e[15] += e[3] * x + e[7] * y + e[11] * z; + return this; +}; + +/** + * Set the matrix for rotation. + * The vector of rotation axis may not be normalized. + * @param angle The angle of rotation (degrees) + * @param x The X coordinate of vector of rotation axis. + * @param y The Y coordinate of vector of rotation axis. + * @param z The Z coordinate of vector of rotation axis. + * @return this + */ +Matrix4.prototype.setRotate = function(angle, x, y, z) { + var e, s, c, len, rlen, nc, xy, yz, zx, xs, ys, zs; + + angle = Math.PI * angle / 180; + e = this.elements; + + s = Math.sin(angle); + c = Math.cos(angle); + + if (0 !== x && 0 === y && 0 === z) { + // Rotation around X axis + if (x < 0) { + s = -s; + } + e[0] = 1; e[4] = 0; e[ 8] = 0; e[12] = 0; + e[1] = 0; e[5] = c; e[ 9] =-s; e[13] = 0; + e[2] = 0; e[6] = s; e[10] = c; e[14] = 0; + e[3] = 0; e[7] = 0; e[11] = 0; e[15] = 1; + } else if (0 === x && 0 !== y && 0 === z) { + // Rotation around Y axis + if (y < 0) { + s = -s; + } + e[0] = c; e[4] = 0; e[ 8] = s; e[12] = 0; + e[1] = 0; e[5] = 1; e[ 9] = 0; e[13] = 0; + e[2] =-s; e[6] = 0; e[10] = c; e[14] = 0; + e[3] = 0; e[7] = 0; e[11] = 0; e[15] = 1; + } else if (0 === x && 0 === y && 0 !== z) { + // Rotation around Z axis + if (z < 0) { + s = -s; + } + e[0] = c; e[4] =-s; e[ 8] = 0; e[12] = 0; + e[1] = s; e[5] = c; e[ 9] = 0; e[13] = 0; + e[2] = 0; e[6] = 0; e[10] = 1; e[14] = 0; + e[3] = 0; e[7] = 0; e[11] = 0; e[15] = 1; + } else { + // Rotation around another axis + len = Math.sqrt(x*x + y*y + z*z); + if (len !== 1) { + rlen = 1 / len; + x *= rlen; + y *= rlen; + z *= rlen; + } + nc = 1 - c; + xy = x * y; + yz = y * z; + zx = z * x; + xs = x * s; + ys = y * s; + zs = z * s; + + e[ 0] = x*x*nc + c; + e[ 1] = xy *nc + zs; + e[ 2] = zx *nc - ys; + e[ 3] = 0; + + e[ 4] = xy *nc - zs; + e[ 5] = y*y*nc + c; + e[ 6] = yz *nc + xs; + e[ 7] = 0; + + e[ 8] = zx *nc + ys; + e[ 9] = yz *nc - xs; + e[10] = z*z*nc + c; + e[11] = 0; + + e[12] = 0; + e[13] = 0; + e[14] = 0; + e[15] = 1; + } + + return this; +}; + +/** + * Multiply the matrix for rotation from the right. + * The vector of rotation axis may not be normalized. + * @param angle The angle of rotation (degrees) + * @param x The X coordinate of vector of rotation axis. + * @param y The Y coordinate of vector of rotation axis. + * @param z The Z coordinate of vector of rotation axis. + * @return this + */ +Matrix4.prototype.rotate = function(angle, x, y, z) { + return this.concat(new Matrix4().setRotate(angle, x, y, z)); +}; + +/** + * Set the viewing matrix. + * @param eyeX, eyeY, eyeZ The position of the eye point. + * @param centerX, centerY, centerZ The position of the reference point. + * @param upX, upY, upZ The direction of the up vector. + * @return this + */ +Matrix4.prototype.setLookAt = function(eyeX, eyeY, eyeZ, centerX, centerY, centerZ, upX, upY, upZ) { + var e, fx, fy, fz, rlf, sx, sy, sz, rls, ux, uy, uz; + + fx = centerX - eyeX; + fy = centerY - eyeY; + fz = centerZ - eyeZ; + + // Normalize f. + rlf = 1 / Math.sqrt(fx*fx + fy*fy + fz*fz); + fx *= rlf; + fy *= rlf; + fz *= rlf; + + // Calculate cross product of f and up. + sx = fy * upZ - fz * upY; + sy = fz * upX - fx * upZ; + sz = fx * upY - fy * upX; + + // Normalize s. + rls = 1 / Math.sqrt(sx*sx + sy*sy + sz*sz); + sx *= rls; + sy *= rls; + sz *= rls; + + // Calculate cross product of s and f. + ux = sy * fz - sz * fy; + uy = sz * fx - sx * fz; + uz = sx * fy - sy * fx; + + // Set to this. + e = this.elements; + e[0] = sx; + e[1] = ux; + e[2] = -fx; + e[3] = 0; + + e[4] = sy; + e[5] = uy; + e[6] = -fy; + e[7] = 0; + + e[8] = sz; + e[9] = uz; + e[10] = -fz; + e[11] = 0; + + e[12] = 0; + e[13] = 0; + e[14] = 0; + e[15] = 1; + + // Translate. + return this.translate(-eyeX, -eyeY, -eyeZ); +}; + +/** + * Multiply the viewing matrix from the right. + * @param eyeX, eyeY, eyeZ The position of the eye point. + * @param centerX, centerY, centerZ The position of the reference point. + * @param upX, upY, upZ The direction of the up vector. + * @return this + */ +Matrix4.prototype.lookAt = function(eyeX, eyeY, eyeZ, centerX, centerY, centerZ, upX, upY, upZ) { + return this.concat(new Matrix4().setLookAt(eyeX, eyeY, eyeZ, centerX, centerY, centerZ, upX, upY, upZ)); +}; + +/** + * Multiply the matrix for project vertex to plane from the right. + * @param plane The array[A, B, C, D] of the equation of plane "Ax + By + Cz + D = 0". + * @param light The array which stored coordinates of the light. if light[3]=0, treated as parallel light. + * @return this + */ +Matrix4.prototype.dropShadow = function(plane, light) { + var mat = new Matrix4(); + var e = mat.elements; + + var dot = plane[0] * light[0] + plane[1] * light[1] + plane[2] * light[2] + plane[3] * light[3]; + + e[ 0] = dot - light[0] * plane[0]; + e[ 1] = - light[1] * plane[0]; + e[ 2] = - light[2] * plane[0]; + e[ 3] = - light[3] * plane[0]; + + e[ 4] = - light[0] * plane[1]; + e[ 5] = dot - light[1] * plane[1]; + e[ 6] = - light[2] * plane[1]; + e[ 7] = - light[3] * plane[1]; + + e[ 8] = - light[0] * plane[2]; + e[ 9] = - light[1] * plane[2]; + e[10] = dot - light[2] * plane[2]; + e[11] = - light[3] * plane[2]; + + e[12] = - light[0] * plane[3]; + e[13] = - light[1] * plane[3]; + e[14] = - light[2] * plane[3]; + e[15] = dot - light[3] * plane[3]; + + return this.concat(mat); +} + +/** + * Multiply the matrix for project vertex to plane from the right.(Projected by parallel light.) + * @param normX, normY, normZ The normal vector of the plane.(Not necessary to be normalized.) + * @param planeX, planeY, planeZ The coordinate of arbitrary points on a plane. + * @param lightX, lightY, lightZ The vector of the direction of light.(Not necessary to be normalized.) + * @return this + */ +Matrix4.prototype.dropShadowDirectionally = function(normX, normY, normZ, planeX, planeY, planeZ, lightX, lightY, lightZ) { + var a = planeX * normX + planeY * normY + planeZ * normZ; + return this.dropShadow([normX, normY, normZ, -a], [lightX, lightY, lightZ, 0]); +}; + +/** + * Constructor of Vector3 + * If opt_src is specified, new vector is initialized by opt_src. + * @param opt_src source vector(option) + */ +var Vector3 = function(opt_src) { + var v = new Float32Array(3); + if (opt_src && typeof opt_src === 'object') { + v[0] = opt_src[0]; v[1] = opt_src[1]; v[2] = opt_src[2]; + } + this.elements = v; +} + +/** + * Normalize. + * @return this + */ +Vector3.prototype.normalize = function() { + var v = this.elements; + var c = v[0], d = v[1], e = v[2], g = Math.sqrt(c*c+d*d+e*e); + if(g){ + if(g == 1) + return this; + } else { + v[0] = 0; v[1] = 0; v[2] = 0; + return this; + } + g = 1/g; + v[0] = c*g; v[1] = d*g; v[2] = e*g; + return this; +}; + +/** + * Constructor of Vector4 + * If opt_src is specified, new vector is initialized by opt_src. + * @param opt_src source vector(option) + */ +var Vector4 = function(opt_src) { + var v = new Float32Array(4); + if (opt_src && typeof opt_src === 'object') { + v[0] = opt_src[0]; v[1] = opt_src[1]; v[2] = opt_src[2]; v[3] = opt_src[3]; + } + this.elements = v; +} diff --git a/lib/cuon-utils.js b/lib/cuon-utils.js new file mode 100755 index 0000000..3968d72 --- /dev/null +++ b/lib/cuon-utils.js @@ -0,0 +1,113 @@ +// cuon-utils.js (c) 2012 kanda and matsuda +/** + * Create a program object and make current + * @param gl GL context + * @param vshader a vertex shader program (string) + * @param fshader a fragment shader program (string) + * @return true, if the program object was created and successfully made current + */ +function initShaders(gl, vshader, fshader) { + var program = createProgram(gl, vshader, fshader); + if (!program) { + console.log('Failed to create program'); + return false; + } + + gl.useProgram(program); + gl.program = program; + + return true; +} + +/** + * Create the linked program object + * @param gl GL context + * @param vshader a vertex shader program (string) + * @param fshader a fragment shader program (string) + * @return created program object, or null if the creation has failed + */ +function createProgram(gl, vshader, fshader) { + // Create shader object + var vertexShader = loadShader(gl, gl.VERTEX_SHADER, vshader); + var fragmentShader = loadShader(gl, gl.FRAGMENT_SHADER, fshader); + if (!vertexShader || !fragmentShader) { + return null; + } + + // Create a program object + var program = gl.createProgram(); + if (!program) { + return null; + } + + // Attach the shader objects + gl.attachShader(program, vertexShader); + gl.attachShader(program, fragmentShader); + + // Link the program object + gl.linkProgram(program); + + // Check the result of linking + var linked = gl.getProgramParameter(program, gl.LINK_STATUS); + if (!linked) { + var error = gl.getProgramInfoLog(program); + console.log('Failed to link program: ' + error); + gl.deleteProgram(program); + gl.deleteShader(fragmentShader); + gl.deleteShader(vertexShader); + return null; + } + return program; +} + +/** + * Create a shader object + * @param gl GL context + * @param type the type of the shader object to be created + * @param source shader program (string) + * @return created shader object, or null if the creation has failed. + */ +function loadShader(gl, type, source) { + // Create shader object + var shader = gl.createShader(type); + if (shader == null) { + console.log('unable to create shader'); + return null; + } + + // Set the shader program + gl.shaderSource(shader, source); + + // Compile the shader + gl.compileShader(shader); + + // Check the result of compilation + var compiled = gl.getShaderParameter(shader, gl.COMPILE_STATUS); + if (!compiled) { + var error = gl.getShaderInfoLog(shader); + console.log('Failed to compile shader: ' + error); + gl.deleteShader(shader); + return null; + } + + return shader; +} + +/** + * Initialize and get the rendering for WebGL + * @param canvas element + * @param opt_debug flag to initialize the context for debugging + * @return the rendering context for WebGL + */ +function getWebGLContext(canvas, opt_debug) { + // Get the rendering context for WebGL + var gl = WebGLUtils.setupWebGL(canvas); + if (!gl) return null; + + // if opt_debug is explicitly false, create the context for debugging + if (arguments.length < 2 || opt_debug) { + gl = WebGLDebugUtils.makeDebugContext(gl); + } + + return gl; +} diff --git a/lib/webgl-debug.js b/lib/webgl-debug.js new file mode 100755 index 0000000..2fd32de --- /dev/null +++ b/lib/webgl-debug.js @@ -0,0 +1,677 @@ +//Copyright (c) 2009 The Chromium Authors. All rights reserved. +//Use of this source code is governed by a BSD-style license that can be +//found in the LICENSE file. + +// Various functions for helping debug WebGL apps. + +WebGLDebugUtils = function() { + +/** + * Wrapped logging function. + * @param {string} msg Message to log. + */ +var log = function(msg) { + if (window.console && window.console.log) { + window.console.log(msg); + } +}; + +/** + * Which arguements are enums. + * @type {!Object.} + */ +var glValidEnumContexts = { + + // Generic setters and getters + + 'enable': { 0:true }, + 'disable': { 0:true }, + 'getParameter': { 0:true }, + + // Rendering + + 'drawArrays': { 0:true }, + 'drawElements': { 0:true, 2:true }, + + // Shaders + + 'createShader': { 0:true }, + 'getShaderParameter': { 1:true }, + 'getProgramParameter': { 1:true }, + + // Vertex attributes + + 'getVertexAttrib': { 1:true }, + 'vertexAttribPointer': { 2:true }, + + // Textures + + 'bindTexture': { 0:true }, + 'activeTexture': { 0:true }, + 'getTexParameter': { 0:true, 1:true }, + 'texParameterf': { 0:true, 1:true }, + 'texParameteri': { 0:true, 1:true, 2:true }, + 'texImage2D': { 0:true, 2:true, 6:true, 7:true }, + 'texSubImage2D': { 0:true, 6:true, 7:true }, + 'copyTexImage2D': { 0:true, 2:true }, + 'copyTexSubImage2D': { 0:true }, + 'generateMipmap': { 0:true }, + + // Buffer objects + + 'bindBuffer': { 0:true }, + 'bufferData': { 0:true, 2:true }, + 'bufferSubData': { 0:true }, + 'getBufferParameter': { 0:true, 1:true }, + + // Renderbuffers and framebuffers + + 'pixelStorei': { 0:true, 1:true }, + 'readPixels': { 4:true, 5:true }, + 'bindRenderbuffer': { 0:true }, + 'bindFramebuffer': { 0:true }, + 'checkFramebufferStatus': { 0:true }, + 'framebufferRenderbuffer': { 0:true, 1:true, 2:true }, + 'framebufferTexture2D': { 0:true, 1:true, 2:true }, + 'getFramebufferAttachmentParameter': { 0:true, 1:true, 2:true }, + 'getRenderbufferParameter': { 0:true, 1:true }, + 'renderbufferStorage': { 0:true, 1:true }, + + // Frame buffer operations (clear, blend, depth test, stencil) + + 'clear': { 0:true }, + 'depthFunc': { 0:true }, + 'blendFunc': { 0:true, 1:true }, + 'blendFuncSeparate': { 0:true, 1:true, 2:true, 3:true }, + 'blendEquation': { 0:true }, + 'blendEquationSeparate': { 0:true, 1:true }, + 'stencilFunc': { 0:true }, + 'stencilFuncSeparate': { 0:true, 1:true }, + 'stencilMaskSeparate': { 0:true }, + 'stencilOp': { 0:true, 1:true, 2:true }, + 'stencilOpSeparate': { 0:true, 1:true, 2:true, 3:true }, + + // Culling + + 'cullFace': { 0:true }, + 'frontFace': { 0:true }, +}; + +/** + * Map of numbers to names. + * @type {Object} + */ +var glEnums = null; + +/** + * Initializes this module. Safe to call more than once. + * @param {!WebGLRenderingContext} ctx A WebGL context. If + * you have more than one context it doesn't matter which one + * you pass in, it is only used to pull out constants. + */ +function init(ctx) { + if (glEnums == null) { + glEnums = { }; + for (var propertyName in ctx) { + if (typeof ctx[propertyName] == 'number') { + glEnums[ctx[propertyName]] = propertyName; + } + } + } +} + +/** + * Checks the utils have been initialized. + */ +function checkInit() { + if (glEnums == null) { + throw 'WebGLDebugUtils.init(ctx) not called'; + } +} + +/** + * Returns true or false if value matches any WebGL enum + * @param {*} value Value to check if it might be an enum. + * @return {boolean} True if value matches one of the WebGL defined enums + */ +function mightBeEnum(value) { + checkInit(); + return (glEnums[value] !== undefined); +} + +/** + * Gets an string version of an WebGL enum. + * + * Example: + * var str = WebGLDebugUtil.glEnumToString(ctx.getError()); + * + * @param {number} value Value to return an enum for + * @return {string} The string version of the enum. + */ +function glEnumToString(value) { + checkInit(); + var name = glEnums[value]; + return (name !== undefined) ? name : + ("*UNKNOWN WebGL ENUM (0x" + value.toString(16) + ")"); +} + +/** + * Returns the string version of a WebGL argument. + * Attempts to convert enum arguments to strings. + * @param {string} functionName the name of the WebGL function. + * @param {number} argumentIndx the index of the argument. + * @param {*} value The value of the argument. + * @return {string} The value as a string. + */ +function glFunctionArgToString(functionName, argumentIndex, value) { + var funcInfo = glValidEnumContexts[functionName]; + if (funcInfo !== undefined) { + if (funcInfo[argumentIndex]) { + return glEnumToString(value); + } + } + return value.toString(); +} + +/** + * Given a WebGL context returns a wrapped context that calls + * gl.getError after every command and calls a function if the + * result is not gl.NO_ERROR. + * + * @param {!WebGLRenderingContext} ctx The webgl context to + * wrap. + * @param {!function(err, funcName, args): void} opt_onErrorFunc + * The function to call when gl.getError returns an + * error. If not specified the default function calls + * console.log with a message. + */ +function makeDebugContext(ctx, opt_onErrorFunc) { + init(ctx); + opt_onErrorFunc = opt_onErrorFunc || function(err, functionName, args) { + // apparently we can't do args.join(","); + var argStr = ""; + for (var ii = 0; ii < args.length; ++ii) { + argStr += ((ii == 0) ? '' : ', ') + + glFunctionArgToString(functionName, ii, args[ii]); + } + log("WebGL error "+ glEnumToString(err) + " in "+ functionName + + "(" + argStr + ")"); + }; + + // Holds booleans for each GL error so after we get the error ourselves + // we can still return it to the client app. + var glErrorShadow = { }; + + // Makes a function that calls a WebGL function and then calls getError. + function makeErrorWrapper(ctx, functionName) { + return function() { + var result = ctx[functionName].apply(ctx, arguments); + var err = ctx.getError(); + if (err != 0) { + glErrorShadow[err] = true; + opt_onErrorFunc(err, functionName, arguments); + } + return result; + }; + } + + // Make a an object that has a copy of every property of the WebGL context + // but wraps all functions. + var wrapper = {}; + for (var propertyName in ctx) { + if (typeof ctx[propertyName] == 'function') { + wrapper[propertyName] = makeErrorWrapper(ctx, propertyName); + } else { + wrapper[propertyName] = ctx[propertyName]; + } + } + + // Override the getError function with one that returns our saved results. + wrapper.getError = function() { + for (var err in glErrorShadow) { + if (glErrorShadow[err]) { + glErrorShadow[err] = false; + return err; + } + } + return ctx.NO_ERROR; + }; + + return wrapper; +} + +function resetToInitialState(ctx) { + var numAttribs = ctx.getParameter(ctx.MAX_VERTEX_ATTRIBS); + var tmp = ctx.createBuffer(); + ctx.bindBuffer(ctx.ARRAY_BUFFER, tmp); + for (var ii = 0; ii < numAttribs; ++ii) { + ctx.disableVertexAttribArray(ii); + ctx.vertexAttribPointer(ii, 4, ctx.FLOAT, false, 0, 0); + ctx.vertexAttrib1f(ii, 0); + } + ctx.deleteBuffer(tmp); + + var numTextureUnits = ctx.getParameter(ctx.MAX_TEXTURE_IMAGE_UNITS); + for (var ii = 0; ii < numTextureUnits; ++ii) { + ctx.activeTexture(ctx.TEXTURE0 + ii); + ctx.bindTexture(ctx.TEXTURE_CUBE_MAP, null); + ctx.bindTexture(ctx.TEXTURE_2D, null); + } + + ctx.activeTexture(ctx.TEXTURE0); + ctx.useProgram(null); + ctx.bindBuffer(ctx.ARRAY_BUFFER, null); + ctx.bindBuffer(ctx.ELEMENT_ARRAY_BUFFER, null); + ctx.bindFramebuffer(ctx.FRAMEBUFFER, null); + ctx.bindRenderbuffer(ctx.RENDERBUFFER, null); + ctx.disable(ctx.BLEND); + ctx.disable(ctx.CULL_FACE); + ctx.disable(ctx.DEPTH_TEST); + ctx.disable(ctx.DITHER); + ctx.disable(ctx.SCISSOR_TEST); + ctx.blendColor(0, 0, 0, 0); + ctx.blendEquation(ctx.FUNC_ADD); + ctx.blendFunc(ctx.ONE, ctx.ZERO); + ctx.clearColor(0, 0, 0, 0); + ctx.clearDepth(1); + ctx.clearStencil(-1); + ctx.colorMask(true, true, true, true); + ctx.cullFace(ctx.BACK); + ctx.depthFunc(ctx.LESS); + ctx.depthMask(true); + ctx.depthRange(0, 1); + ctx.frontFace(ctx.CCW); + ctx.hint(ctx.GENERATE_MIPMAP_HINT, ctx.DONT_CARE); + ctx.lineWidth(1); + ctx.pixelStorei(ctx.PACK_ALIGNMENT, 4); + ctx.pixelStorei(ctx.UNPACK_ALIGNMENT, 4); + ctx.pixelStorei(ctx.UNPACK_FLIP_Y_WEBGL, false); + ctx.pixelStorei(ctx.UNPACK_PREMULTIPLY_ALPHA_WEBGL, false); + // TODO: Delete this IF. + if (ctx.UNPACK_COLORSPACE_CONVERSION_WEBGL) { + ctx.pixelStorei(ctx.UNPACK_COLORSPACE_CONVERSION_WEBGL, ctx.BROWSER_DEFAULT_WEBGL); + } + ctx.polygonOffset(0, 0); + ctx.sampleCoverage(1, false); + ctx.scissor(0, 0, ctx.canvas.width, ctx.canvas.height); + ctx.stencilFunc(ctx.ALWAYS, 0, 0xFFFFFFFF); + ctx.stencilMask(0xFFFFFFFF); + ctx.stencilOp(ctx.KEEP, ctx.KEEP, ctx.KEEP); + ctx.viewport(0, 0, ctx.canvas.clientWidth, ctx.canvas.clientHeight); + ctx.clear(ctx.COLOR_BUFFER_BIT | ctx.DEPTH_BUFFER_BIT | ctx.STENCIL_BUFFER_BIT); + + // TODO: This should NOT be needed but Firefox fails with 'hint' + while(ctx.getError()); +} + +function makeLostContextSimulatingContext(ctx) { + var wrapper_ = {}; + var contextId_ = 1; + var contextLost_ = false; + var resourceId_ = 0; + var resourceDb_ = []; + var onLost_ = undefined; + var onRestored_ = undefined; + var nextOnRestored_ = undefined; + + // Holds booleans for each GL error so can simulate errors. + var glErrorShadow_ = { }; + + function isWebGLObject(obj) { + //return false; + return (obj instanceof WebGLBuffer || + obj instanceof WebGLFramebuffer || + obj instanceof WebGLProgram || + obj instanceof WebGLRenderbuffer || + obj instanceof WebGLShader || + obj instanceof WebGLTexture); + } + + function checkResources(args) { + for (var ii = 0; ii < args.length; ++ii) { + var arg = args[ii]; + if (isWebGLObject(arg)) { + return arg.__webglDebugContextLostId__ == contextId_; + } + } + return true; + } + + function clearErrors() { + var k = Object.keys(glErrorShadow_); + for (var ii = 0; ii < k.length; ++ii) { + delete glErrorShdow_[k]; + } + } + + // Makes a function that simulates WebGL when out of context. + function makeLostContextWrapper(ctx, functionName) { + var f = ctx[functionName]; + return function() { + // Only call the functions if the context is not lost. + if (!contextLost_) { + if (!checkResources(arguments)) { + glErrorShadow_[ctx.INVALID_OPERATION] = true; + return; + } + var result = f.apply(ctx, arguments); + return result; + } + }; + } + + for (var propertyName in ctx) { + if (typeof ctx[propertyName] == 'function') { + wrapper_[propertyName] = makeLostContextWrapper(ctx, propertyName); + } else { + wrapper_[propertyName] = ctx[propertyName]; + } + } + + function makeWebGLContextEvent(statusMessage) { + return {statusMessage: statusMessage}; + } + + function freeResources() { + for (var ii = 0; ii < resourceDb_.length; ++ii) { + var resource = resourceDb_[ii]; + if (resource instanceof WebGLBuffer) { + ctx.deleteBuffer(resource); + } else if (resource instanceof WebctxFramebuffer) { + ctx.deleteFramebuffer(resource); + } else if (resource instanceof WebctxProgram) { + ctx.deleteProgram(resource); + } else if (resource instanceof WebctxRenderbuffer) { + ctx.deleteRenderbuffer(resource); + } else if (resource instanceof WebctxShader) { + ctx.deleteShader(resource); + } else if (resource instanceof WebctxTexture) { + ctx.deleteTexture(resource); + } + } + } + + wrapper_.loseContext = function() { + if (!contextLost_) { + contextLost_ = true; + ++contextId_; + while (ctx.getError()); + clearErrors(); + glErrorShadow_[ctx.CONTEXT_LOST_WEBGL] = true; + setTimeout(function() { + if (onLost_) { + onLost_(makeWebGLContextEvent("context lost")); + } + }, 0); + } + }; + + wrapper_.restoreContext = function() { + if (contextLost_) { + if (onRestored_) { + setTimeout(function() { + freeResources(); + resetToInitialState(ctx); + contextLost_ = false; + if (onRestored_) { + var callback = onRestored_; + onRestored_ = nextOnRestored_; + nextOnRestored_ = undefined; + callback(makeWebGLContextEvent("context restored")); + } + }, 0); + } else { + throw "You can not restore the context without a listener" + } + } + }; + + // Wrap a few functions specially. + wrapper_.getError = function() { + if (!contextLost_) { + var err; + while (err = ctx.getError()) { + glErrorShadow_[err] = true; + } + } + for (var err in glErrorShadow_) { + if (glErrorShadow_[err]) { + delete glErrorShadow_[err]; + return err; + } + } + return ctx.NO_ERROR; + }; + + var creationFunctions = [ + "createBuffer", + "createFramebuffer", + "createProgram", + "createRenderbuffer", + "createShader", + "createTexture" + ]; + for (var ii = 0; ii < creationFunctions.length; ++ii) { + var functionName = creationFunctions[ii]; + wrapper_[functionName] = function(f) { + return function() { + if (contextLost_) { + return null; + } + var obj = f.apply(ctx, arguments); + obj.__webglDebugContextLostId__ = contextId_; + resourceDb_.push(obj); + return obj; + }; + }(ctx[functionName]); + } + + var functionsThatShouldReturnNull = [ + "getActiveAttrib", + "getActiveUniform", + "getBufferParameter", + "getContextAttributes", + "getAttachedShaders", + "getFramebufferAttachmentParameter", + "getParameter", + "getProgramParameter", + "getProgramInfoLog", + "getRenderbufferParameter", + "getShaderParameter", + "getShaderInfoLog", + "getShaderSource", + "getTexParameter", + "getUniform", + "getUniformLocation", + "getVertexAttrib" + ]; + for (var ii = 0; ii < functionsThatShouldReturnNull.length; ++ii) { + var functionName = functionsThatShouldReturnNull[ii]; + wrapper_[functionName] = function(f) { + return function() { + if (contextLost_) { + return null; + } + return f.apply(ctx, arguments); + } + }(wrapper_[functionName]); + } + + var isFunctions = [ + "isBuffer", + "isEnabled", + "isFramebuffer", + "isProgram", + "isRenderbuffer", + "isShader", + "isTexture" + ]; + for (var ii = 0; ii < isFunctions.length; ++ii) { + var functionName = isFunctions[ii]; + wrapper_[functionName] = function(f) { + return function() { + if (contextLost_) { + return false; + } + return f.apply(ctx, arguments); + } + }(wrapper_[functionName]); + } + + wrapper_.checkFramebufferStatus = function(f) { + return function() { + if (contextLost_) { + return ctx.FRAMEBUFFER_UNSUPPORTED; + } + return f.apply(ctx, arguments); + }; + }(wrapper_.checkFramebufferStatus); + + wrapper_.getAttribLocation = function(f) { + return function() { + if (contextLost_) { + return -1; + } + return f.apply(ctx, arguments); + }; + }(wrapper_.getAttribLocation); + + wrapper_.getVertexAttribOffset = function(f) { + return function() { + if (contextLost_) { + return 0; + } + return f.apply(ctx, arguments); + }; + }(wrapper_.getVertexAttribOffset); + + wrapper_.isContextLost = function() { + return contextLost_; + }; + + function wrapEvent(listener) { + if (typeof(listener) == "function") { + return listener; + } else { + return function(info) { + listener.handleEvent(info); + } + } + } + + wrapper_.registerOnContextLostListener = function(listener) { + onLost_ = wrapEvent(listener); + }; + + wrapper_.registerOnContextRestoredListener = function(listener) { + if (contextLost_) { + nextOnRestored_ = wrapEvent(listener); + } else { + onRestored_ = wrapEvent(listener); + } + } + + return wrapper_; +} + +return { + /** + * Initializes this module. Safe to call more than once. + * @param {!WebGLRenderingContext} ctx A WebGL context. If + * you have more than one context it doesn't matter which one + * you pass in, it is only used to pull out constants. + */ + 'init': init, + + /** + * Returns true or false if value matches any WebGL enum + * @param {*} value Value to check if it might be an enum. + * @return {boolean} True if value matches one of the WebGL defined enums + */ + 'mightBeEnum': mightBeEnum, + + /** + * Gets an string version of an WebGL enum. + * + * Example: + * WebGLDebugUtil.init(ctx); + * var str = WebGLDebugUtil.glEnumToString(ctx.getError()); + * + * @param {number} value Value to return an enum for + * @return {string} The string version of the enum. + */ + 'glEnumToString': glEnumToString, + + /** + * Converts the argument of a WebGL function to a string. + * Attempts to convert enum arguments to strings. + * + * Example: + * WebGLDebugUtil.init(ctx); + * var str = WebGLDebugUtil.glFunctionArgToString('bindTexture', 0, gl.TEXTURE_2D); + * + * would return 'TEXTURE_2D' + * + * @param {string} functionName the name of the WebGL function. + * @param {number} argumentIndx the index of the argument. + * @param {*} value The value of the argument. + * @return {string} The value as a string. + */ + 'glFunctionArgToString': glFunctionArgToString, + + /** + * Given a WebGL context returns a wrapped context that calls + * gl.getError after every command and calls a function if the + * result is not NO_ERROR. + * + * You can supply your own function if you want. For example, if you'd like + * an exception thrown on any GL error you could do this + * + * function throwOnGLError(err, funcName, args) { + * throw WebGLDebugUtils.glEnumToString(err) + " was caused by call to" + + * funcName; + * }; + * + * ctx = WebGLDebugUtils.makeDebugContext( + * canvas.getContext("webgl"), throwOnGLError); + * + * @param {!WebGLRenderingContext} ctx The webgl context to wrap. + * @param {!function(err, funcName, args): void} opt_onErrorFunc The function + * to call when gl.getError returns an error. If not specified the default + * function calls console.log with a message. + */ + 'makeDebugContext': makeDebugContext, + + /** + * Given a WebGL context returns a wrapped context that adds 4 + * functions. + * + * ctx.loseContext: + * simulates a lost context event. + * + * ctx.restoreContext: + * simulates the context being restored. + * + * ctx.registerOnContextLostListener(listener): + * lets you register a listener for context lost. Use instead + * of addEventListener('webglcontextlostevent', listener); + * + * ctx.registerOnContextRestoredListener(listener): + * lets you register a listener for context restored. Use + * instead of addEventListener('webglcontextrestored', + * listener); + * + * @param {!WebGLRenderingContext} ctx The webgl context to wrap. + */ + 'makeLostContextSimulatingContext': makeLostContextSimulatingContext, + + /** + * Resets a context to the initial state. + * @param {!WebGLRenderingContext} ctx The webgl context to + * reset. + */ + 'resetToInitialState': resetToInitialState +}; + +}(); + diff --git a/lib/webgl-utils.js b/lib/webgl-utils.js new file mode 100755 index 0000000..4c63041 --- /dev/null +++ b/lib/webgl-utils.js @@ -0,0 +1,197 @@ +/* + * Copyright 2010, Google Inc. + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are + * met: + * + * * Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * * Redistributions in binary form must reproduce the above + * copyright notice, this list of conditions and the following disclaimer + * in the documentation and/or other materials provided with the + * distribution. + * * Neither the name of Google Inc. nor the names of its + * contributors may be used to endorse or promote products derived from + * this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR + * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT + * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, + * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT + * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, + * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY + * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + + +/** + * @fileoverview This file contains functions every webgl program will need + * a version of one way or another. + * + * Instead of setting up a context manually it is recommended to + * use. This will check for success or failure. On failure it + * will attempt to present an approriate message to the user. + * + * gl = WebGLUtils.setupWebGL(canvas); + * + * For animated WebGL apps use of setTimeout or setInterval are + * discouraged. It is recommended you structure your rendering + * loop like this. + * + * function render() { + * window.requestAnimationFrame(render, canvas); + * + * // do rendering + * ... + * } + * render(); + * + * This will call your rendering function up to the refresh rate + * of your display but will stop rendering if your app is not + * visible. + */ + +WebGLUtils = function() { + +/** + * Creates the HTLM for a failure message + * @param {string} canvasContainerId id of container of th + * canvas. + * @return {string} The html. + */ +var makeFailHTML = function(msg) { + return '' + + '
' + msg + '
'; + return '' + + '' + + '
' + + '
' + + '
' + msg + '
' + + '
' + + '
'; +}; + +/** + * Mesasge for getting a webgl browser + * @type {string} + */ +var GET_A_WEBGL_BROWSER = '' + + 'This page requires a browser that supports WebGL.
' + + 'Click here to upgrade your browser.'; + +/** + * Mesasge for need better hardware + * @type {string} + */ +var OTHER_PROBLEM = '' + + "It doesn't appear your computer can support WebGL.
" + + 'Click here for more information.'; + +/** + * Creates a webgl context. If creation fails it will + * change the contents of the container of the + * tag to an error message with the correct links for WebGL. + * @param {Element} canvas. The canvas element to create a + * context from. + * @param {WebGLContextCreationAttirbutes} opt_attribs Any + * creation attributes you want to pass in. + * @param {function:(msg)} opt_onError An function to call + * if there is an error during creation. + * @return {WebGLRenderingContext} The created context. + */ +var setupWebGL = function(canvas, opt_attribs, opt_onError) { + function handleCreationError(msg) { + var container = document.getElementsByTagName("body")[0]; + //var container = canvas.parentNode; + if (container) { + var str = window.WebGLRenderingContext ? + OTHER_PROBLEM : + GET_A_WEBGL_BROWSER; + if (msg) { + str += "

Status: " + msg; + } + container.innerHTML = makeFailHTML(str); + } + }; + + opt_onError = opt_onError || handleCreationError; + + if (canvas.addEventListener) { + canvas.addEventListener("webglcontextcreationerror", function(event) { + opt_onError(event.statusMessage); + }, false); + } + var context = create3DContext(canvas, opt_attribs); + if (!context) { + if (!window.WebGLRenderingContext) { + opt_onError(""); + } else { + opt_onError(""); + } + } + + return context; +}; + +/** + * Creates a webgl context. + * @param {!Canvas} canvas The canvas tag to get context + * from. If one is not passed in one will be created. + * @return {!WebGLContext} The created context. + */ +var create3DContext = function(canvas, opt_attribs) { + var names = ["webgl", "experimental-webgl", "webkit-3d", "moz-webgl"]; + var context = null; + for (var ii = 0; ii < names.length; ++ii) { + try { + context = canvas.getContext(names[ii], opt_attribs); + } catch(e) {} + if (context) { + break; + } + } + return context; +} + +return { + create3DContext: create3DContext, + setupWebGL: setupWebGL +}; +}(); + +/** + * Provides requestAnimationFrame in a cross browser + * way. + */ +if (!window.requestAnimationFrame) { + window.requestAnimationFrame = (function() { + return window.requestAnimationFrame || + window.webkitRequestAnimationFrame || + window.mozRequestAnimationFrame || + window.oRequestAnimationFrame || + window.msRequestAnimationFrame || + function(/* function FrameRequestCallback */ callback, /* DOMElement Element */ element) { + window.setTimeout(callback, 1000/60); + }; + })(); +} + +/** * ERRATA: 'cancelRequestAnimationFrame' renamed to 'cancelAnimationFrame' to reflect an update to the W3C Animation-Timing Spec. + * + * Cancels an animation frame request. + * Checks for cross-browser support, falls back to clearTimeout. + * @param {number} Animation frame request. */ +if (!window.cancelAnimationFrame) { + window.cancelAnimationFrame = (window.cancelRequestAnimationFrame || + window.webkitCancelAnimationFrame || window.webkitCancelRequestAnimationFrame || + window.mozCancelAnimationFrame || window.mozCancelRequestAnimationFrame || + window.msCancelAnimationFrame || window.msCancelRequestAnimationFrame || + window.oCancelAnimationFrame || window.oCancelRequestAnimationFrame || + window.clearTimeout); +} \ No newline at end of file diff --git a/test.html b/test.html new file mode 100644 index 0000000..1ed463c --- /dev/null +++ b/test.html @@ -0,0 +1,23 @@ + + + + + Look At Triangles With Keys + + + + + Please use a browser that supports "canvas" + + + + + + + + + + + + + \ No newline at end of file