'use strict'; var latex = require('../../util/latex'); function factory (type, config, load, typed, math) { var Node = load(require('./Node')); var SymbolNode = load(require('./SymbolNode')); /** * @constructor FunctionNode * @extends {Node} * invoke a list with arguments on a node * @param {string} name * @param {Node[]} args */ function FunctionNode(name, args) { if (!(this instanceof FunctionNode)) { throw new SyntaxError('Constructor must be called with the new operator'); } // validate input if (typeof name !== 'string') throw new TypeError('string expected for parameter "name"'); if (!Array.isArray(args) || !args.every(function (arg) {return arg && arg.isNode;})) { throw new TypeError('Array containing Nodes expected for parameter "args"'); } this.name = name; this.args = args || []; } FunctionNode.prototype = new Node(); FunctionNode.prototype.type = 'FunctionNode'; FunctionNode.prototype.isFunctionNode = true; /** * Compile the node to javascript code * @param {Object} defs Object which can be used to define functions * or constants globally available for the compiled * expression * @return {String} js * @private */ FunctionNode.prototype._compile = function (defs) { var fn = defs.math[this.name]; var isRaw = (typeof fn === 'function') && (fn.rawArgs == true); // compile the parameters var args = this.args.map(function (arg) { return arg._compile(defs); }); if (isRaw) { // pass unevaluated parameters (nodes) to the function var paramsName; do { paramsName = 'p' + Math.round(Math.random() * 10000); } while (paramsName in defs); defs[paramsName] = this.args; return '("' + this.name + '" in scope ? ' + 'scope["' + this.name + '"](' + args.join(', ') + ') : ' + 'math["' + this.name + '"]' + '(' + paramsName + ', math, scope))'; } else { // "regular" evaluation var symbol = new SymbolNode(this.name); return symbol._compile(defs) + '(' + args.join(', ') + ')'; } }; /** * Execute a callback for each of the child nodes of this node * @param {function(child: Node, path: string, parent: Node)} callback */ FunctionNode.prototype.forEach = function (callback) { for (var i = 0; i < this.args.length; i++) { callback(this.args[i], 'args[' + i + ']', this); } }; /** * Create a new FunctionNode having it's childs be the results of calling * the provided callback function for each of the childs of the original node. * @param {function(child: Node, path: string, parent: Node): Node} callback * @returns {FunctionNode} Returns a transformed copy of the node */ FunctionNode.prototype.map = function (callback) { var args = []; for (var i = 0; i < this.args.length; i++) { args[i] = this._ifNode(callback(this.args[i], 'args[' + i + ']', this)); } return new FunctionNode(this.name, args); }; /** * Create a clone of this node, a shallow copy * @return {FunctionNode} */ FunctionNode.prototype.clone = function () { return new FunctionNode(this.name, this.args.slice(0)); }; /** * Get string representation * @return {String} str */ FunctionNode.prototype._toString = function () { // format the parameters like "add(2, 4.2)" return this.name + '(' + this.args.join(', ') + ')'; }; /** * Get LaTeX representation * @param {Object|function} callback(s) * @return {String} str */ FunctionNode.prototype._toTex = function (callbacks) { return latex.toFunction(this, callbacks, this.name); }; /** * Get identifier. * @return {String} */ FunctionNode.prototype.getIdentifier = function () { return this.type + ':' + this.name; }; return FunctionNode; } exports.name = 'FunctionNode'; exports.path = 'expression.node'; exports.math = true; // request access to the math namespace as 5th argument of the factory function exports.factory = factory;