// Copyright 2013 The Closure Library Authors. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS-IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. ////////////////////////// NOTE ABOUT EDITING THIS FILE /////////////////////// // // // Any edits to this file must be applied to vec4d.js by running: // // swap_type.sh vec4f.js > vec4d.js // // // ////////////////////////// NOTE ABOUT EDITING THIS FILE /////////////////////// /** * @fileoverview Provides functions for operating on 4 element float (32bit) * vectors. * * The last parameter will typically be the output object and an object * can be both an input and output parameter to all methods except where * noted. * * See the README for notes about the design and structure of the API * (especially related to performance). * */ goog.provide('goog.vec.vec4f'); goog.provide('goog.vec.vec4f.Type'); /** @suppress {extraRequire} */ goog.require('goog.vec'); /** @typedef {goog.vec.Float32} */ goog.vec.vec4f.Type; /** * Creates a vec4f with all elements initialized to zero. * * @return {!goog.vec.vec4f.Type} The new vec4f. */ goog.vec.vec4f.create = function() { return new Float32Array(4); }; /** * Creates a new vec4f initialized with the value from the given array. * * @param {!Array} vec The source 4 element array. * @return {!goog.vec.vec4f.Type} The new vec4f. */ goog.vec.vec4f.createFromArray = function(vec) { var newVec = goog.vec.vec4f.create(); goog.vec.vec4f.setFromArray(newVec, vec); return newVec; }; /** * Creates a new vec4f initialized with the supplied values. * * @param {number} v0 The value for element at index 0. * @param {number} v1 The value for element at index 1. * @param {number} v2 The value for element at index 2. * @param {number} v3 The value for element at index 3. * @return {!goog.vec.vec4f.Type} The new vector. */ goog.vec.vec4f.createFromValues = function(v0, v1, v2, v3) { var vec = goog.vec.vec4f.create(); goog.vec.vec4f.setFromValues(vec, v0, v1, v2, v3); return vec; }; /** * Creates a clone of the given vec4f. * * @param {!goog.vec.vec4f.Type} vec The source vec4f. * @return {!goog.vec.vec4f.Type} The new cloned vec4f. */ goog.vec.vec4f.clone = function(vec) { var newVec = goog.vec.vec4f.create(); goog.vec.vec4f.setFromVec4f(newVec, vec); return newVec; }; /** * Initializes the vector with the given values. * * @param {!goog.vec.vec4f.Type} vec The vector to receive the values. * @param {number} v0 The value for element at index 0. * @param {number} v1 The value for element at index 1. * @param {number} v2 The value for element at index 2. * @param {number} v3 The value for element at index 3. * @return {!goog.vec.vec4f.Type} Return vec so that operations can be * chained together. */ goog.vec.vec4f.setFromValues = function(vec, v0, v1, v2, v3) { vec[0] = v0; vec[1] = v1; vec[2] = v2; vec[3] = v3; return vec; }; /** * Initializes vec4f vec from vec4f src. * * @param {!goog.vec.vec4f.Type} vec The destination vector. * @param {!goog.vec.vec4f.Type} src The source vector. * @return {!goog.vec.vec4f.Type} Return vec so that operations can be * chained together. */ goog.vec.vec4f.setFromVec4f = function(vec, src) { vec[0] = src[0]; vec[1] = src[1]; vec[2] = src[2]; vec[3] = src[3]; return vec; }; /** * Initializes vec4f vec from vec4d src (typed as a Float64Array to * avoid circular goog.requires). * * @param {!goog.vec.vec4f.Type} vec The destination vector. * @param {Float64Array} src The source vector. * @return {!goog.vec.vec4f.Type} Return vec so that operations can be * chained together. */ goog.vec.vec4f.setFromVec4d = function(vec, src) { vec[0] = src[0]; vec[1] = src[1]; vec[2] = src[2]; vec[3] = src[3]; return vec; }; /** * Initializes vec4f vec from Array src. * * @param {!goog.vec.vec4f.Type} vec The destination vector. * @param {Array} src The source vector. * @return {!goog.vec.vec4f.Type} Return vec so that operations can be * chained together. */ goog.vec.vec4f.setFromArray = function(vec, src) { vec[0] = src[0]; vec[1] = src[1]; vec[2] = src[2]; vec[3] = src[3]; return vec; }; /** * Performs a component-wise addition of vec0 and vec1 together storing the * result into resultVec. * * @param {!goog.vec.vec4f.Type} vec0 The first addend. * @param {!goog.vec.vec4f.Type} vec1 The second addend. * @param {!goog.vec.vec4f.Type} resultVec The vector to * receive the result. May be vec0 or vec1. * @return {!goog.vec.vec4f.Type} Return resultVec so that operations can be * chained together. */ goog.vec.vec4f.add = function(vec0, vec1, resultVec) { resultVec[0] = vec0[0] + vec1[0]; resultVec[1] = vec0[1] + vec1[1]; resultVec[2] = vec0[2] + vec1[2]; resultVec[3] = vec0[3] + vec1[3]; return resultVec; }; /** * Performs a component-wise subtraction of vec1 from vec0 storing the * result into resultVec. * * @param {!goog.vec.vec4f.Type} vec0 The minuend. * @param {!goog.vec.vec4f.Type} vec1 The subtrahend. * @param {!goog.vec.vec4f.Type} resultVec The vector to * receive the result. May be vec0 or vec1. * @return {!goog.vec.vec4f.Type} Return resultVec so that operations can be * chained together. */ goog.vec.vec4f.subtract = function(vec0, vec1, resultVec) { resultVec[0] = vec0[0] - vec1[0]; resultVec[1] = vec0[1] - vec1[1]; resultVec[2] = vec0[2] - vec1[2]; resultVec[3] = vec0[3] - vec1[3]; return resultVec; }; /** * Negates vec0, storing the result into resultVec. * * @param {!goog.vec.vec4f.Type} vec0 The vector to negate. * @param {!goog.vec.vec4f.Type} resultVec The vector to * receive the result. May be vec0. * @return {!goog.vec.vec4f.Type} Return resultVec so that operations can be * chained together. */ goog.vec.vec4f.negate = function(vec0, resultVec) { resultVec[0] = -vec0[0]; resultVec[1] = -vec0[1]; resultVec[2] = -vec0[2]; resultVec[3] = -vec0[3]; return resultVec; }; /** * Takes the absolute value of each component of vec0 storing the result in * resultVec. * * @param {!goog.vec.vec4f.Type} vec0 The source vector. * @param {!goog.vec.vec4f.Type} resultVec The vector to receive the result. * May be vec0. * @return {!goog.vec.vec4f.Type} Return resultVec so that operations can be * chained together. */ goog.vec.vec4f.abs = function(vec0, resultVec) { resultVec[0] = Math.abs(vec0[0]); resultVec[1] = Math.abs(vec0[1]); resultVec[2] = Math.abs(vec0[2]); resultVec[3] = Math.abs(vec0[3]); return resultVec; }; /** * Multiplies each component of vec0 with scalar storing the product into * resultVec. * * @param {!goog.vec.vec4f.Type} vec0 The source vector. * @param {number} scalar The value to multiply with each component of vec0. * @param {!goog.vec.vec4f.Type} resultVec The vector to * receive the result. May be vec0. * @return {!goog.vec.vec4f.Type} Return resultVec so that operations can be * chained together. */ goog.vec.vec4f.scale = function(vec0, scalar, resultVec) { resultVec[0] = vec0[0] * scalar; resultVec[1] = vec0[1] * scalar; resultVec[2] = vec0[2] * scalar; resultVec[3] = vec0[3] * scalar; return resultVec; }; /** * Returns the magnitudeSquared of the given vector. * * @param {!goog.vec.vec4f.Type} vec0 The vector. * @return {number} The magnitude of the vector. */ goog.vec.vec4f.magnitudeSquared = function(vec0) { var x = vec0[0], y = vec0[1], z = vec0[2], w = vec0[3]; return x * x + y * y + z * z + w * w; }; /** * Returns the magnitude of the given vector. * * @param {!goog.vec.vec4f.Type} vec0 The vector. * @return {number} The magnitude of the vector. */ goog.vec.vec4f.magnitude = function(vec0) { var x = vec0[0], y = vec0[1], z = vec0[2], w = vec0[3]; return Math.sqrt(x * x + y * y + z * z + w * w); }; /** * Normalizes the given vector storing the result into resultVec. * * @param {!goog.vec.vec4f.Type} vec0 The vector to normalize. * @param {!goog.vec.vec4f.Type} resultVec The vector to * receive the result. May be vec0. * @return {!goog.vec.vec4f.Type} Return resultVec so that operations can be * chained together. */ goog.vec.vec4f.normalize = function(vec0, resultVec) { var x = vec0[0], y = vec0[1], z = vec0[2], w = vec0[3]; var ilen = 1 / Math.sqrt(x * x + y * y + z * z + w * w); resultVec[0] = x * ilen; resultVec[1] = y * ilen; resultVec[2] = z * ilen; resultVec[3] = w * ilen; return resultVec; }; /** * Returns the scalar product of vectors v0 and v1. * * @param {!goog.vec.vec4f.Type} v0 The first vector. * @param {!goog.vec.vec4f.Type} v1 The second vector. * @return {number} The scalar product. */ goog.vec.vec4f.dot = function(v0, v1) { return v0[0] * v1[0] + v0[1] * v1[1] + v0[2] * v1[2] + v0[3] * v1[3]; }; /** * Linearly interpolate from v0 to v1 according to f. The value of f should be * in the range [0..1] otherwise the results are undefined. * * @param {!goog.vec.vec4f.Type} v0 The first vector. * @param {!goog.vec.vec4f.Type} v1 The second vector. * @param {number} f The interpolation factor. * @param {!goog.vec.vec4f.Type} resultVec The vector to receive the * results (may be v0 or v1). * @return {!goog.vec.vec4f.Type} Return resultVec so that operations can be * chained together. */ goog.vec.vec4f.lerp = function(v0, v1, f, resultVec) { var x = v0[0], y = v0[1], z = v0[2], w = v0[3]; resultVec[0] = (v1[0] - x) * f + x; resultVec[1] = (v1[1] - y) * f + y; resultVec[2] = (v1[2] - z) * f + z; resultVec[3] = (v1[3] - w) * f + w; return resultVec; }; /** * Compares the components of vec0 with the components of another vector or * scalar, storing the larger values in resultVec. * * @param {!goog.vec.vec4f.Type} vec0 The source vector. * @param {!goog.vec.vec4f.Type|number} limit The limit vector or scalar. * @param {!goog.vec.vec4f.Type} resultVec The vector to receive the * results (may be vec0 or limit). * @return {!goog.vec.vec4f.Type} Return resultVec so that operations can be * chained together. */ goog.vec.vec4f.max = function(vec0, limit, resultVec) { if (goog.isNumber(limit)) { resultVec[0] = Math.max(vec0[0], limit); resultVec[1] = Math.max(vec0[1], limit); resultVec[2] = Math.max(vec0[2], limit); resultVec[3] = Math.max(vec0[3], limit); } else { resultVec[0] = Math.max(vec0[0], limit[0]); resultVec[1] = Math.max(vec0[1], limit[1]); resultVec[2] = Math.max(vec0[2], limit[2]); resultVec[3] = Math.max(vec0[3], limit[3]); } return resultVec; }; /** * Compares the components of vec0 with the components of another vector or * scalar, storing the smaller values in resultVec. * * @param {!goog.vec.vec4f.Type} vec0 The source vector. * @param {!goog.vec.vec4f.Type|number} limit The limit vector or scalar. * @param {!goog.vec.vec4f.Type} resultVec The vector to receive the * results (may be vec0 or limit). * @return {!goog.vec.vec4f.Type} Return resultVec so that operations can be * chained together. */ goog.vec.vec4f.min = function(vec0, limit, resultVec) { if (goog.isNumber(limit)) { resultVec[0] = Math.min(vec0[0], limit); resultVec[1] = Math.min(vec0[1], limit); resultVec[2] = Math.min(vec0[2], limit); resultVec[3] = Math.min(vec0[3], limit); } else { resultVec[0] = Math.min(vec0[0], limit[0]); resultVec[1] = Math.min(vec0[1], limit[1]); resultVec[2] = Math.min(vec0[2], limit[2]); resultVec[3] = Math.min(vec0[3], limit[3]); } return resultVec; }; /** * Returns true if the components of v0 are equal to the components of v1. * * @param {!goog.vec.vec4f.Type} v0 The first vector. * @param {!goog.vec.vec4f.Type} v1 The second vector. * @return {boolean} True if the vectors are equal, false otherwise. */ goog.vec.vec4f.equals = function(v0, v1) { return v0.length == v1.length && v0[0] == v1[0] && v0[1] == v1[1] && v0[2] == v1[2] && v0[3] == v1[3]; };