'use strict'; var latex = require('../../util/latex'); var operators = require('../operators'); function factory (type, config, load, typed) { var Node = load(require('./Node')); var BigNumber = load(require('../../type/bignumber/BigNumber')); var Complex = load(require('../../type/complex/Complex')); var Unit = load(require('../../type/unit/Unit')); /** * A lazy evaluating conditional operator: 'condition ? trueExpr : falseExpr' * * @param {Node} condition Condition, must result in a boolean * @param {Node} trueExpr Expression evaluated when condition is true * @param {Node} falseExpr Expression evaluated when condition is true * * @constructor ConditionalNode * @extends {Node} */ function ConditionalNode(condition, trueExpr, falseExpr) { if (!(this instanceof ConditionalNode)) { throw new SyntaxError('Constructor must be called with the new operator'); } if (!(condition && condition.isNode)) throw new TypeError('Parameter condition must be a Node'); if (!(trueExpr && trueExpr.isNode)) throw new TypeError('Parameter trueExpr must be a Node'); if (!(falseExpr && falseExpr.isNode)) throw new TypeError('Parameter falseExpr must be a Node'); this.condition = condition; this.trueExpr = trueExpr; this.falseExpr = falseExpr; } ConditionalNode.prototype = new Node(); ConditionalNode.prototype.type = 'ConditionalNode'; ConditionalNode.prototype.isConditionalNode = 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 */ ConditionalNode.prototype._compile = function (defs) { /** * Test whether a condition is met * @param {*} condition * @returns {boolean} true if condition is true or non-zero, else false */ defs.testCondition = function (condition) { if (typeof condition === 'number' || typeof condition === 'boolean' || typeof condition === 'string') { return condition ? true : false; } if (condition) { if (condition.isBigNumber === true) { return condition.isZero() ? false : true; } if (condition.isComplex === true) { return (condition.re || condition.im) ? true : false; } if (condition.isUnit === true) { return condition.value ? true : false; } } if (condition === null || condition === undefined) { return false; } throw new TypeError('Unsupported type of condition "' + defs.math['typeof'](condition) + '"'); }; return ( 'testCondition(' + this.condition._compile(defs) + ') ? ' + '( ' + this.trueExpr._compile(defs) + ') : ' + '( ' + this.falseExpr._compile(defs) + ')' ); }; /** * Execute a callback for each of the child nodes of this node * @param {function(child: Node, path: string, parent: Node)} callback */ ConditionalNode.prototype.forEach = function (callback) { callback(this.condition, 'condition', this); callback(this.trueExpr, 'trueExpr', this); callback(this.falseExpr, 'falseExpr', this); }; /** * Create a new ConditionalNode 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 {ConditionalNode} Returns a transformed copy of the node */ ConditionalNode.prototype.map = function (callback) { return new ConditionalNode( this._ifNode(callback(this.condition, 'condition', this)), this._ifNode(callback(this.trueExpr, 'trueExpr', this)), this._ifNode(callback(this.falseExpr, 'falseExpr', this)) ); }; /** * Create a clone of this node, a shallow copy * @return {ConditionalNode} */ ConditionalNode.prototype.clone = function () { return new ConditionalNode(this.condition, this.trueExpr, this.falseExpr); }; /** * Get string representation * @return {String} str */ ConditionalNode.prototype._toString = function () { var precedence = operators.getPrecedence(this, config); //Enclose Arguments in parentheses if they are an OperatorNode //or have lower or equal precedence //NOTE: enclosing all OperatorNodes in parentheses is a decision //purely based on aesthetics and readability var condition = this.condition.toString(); var conditionPrecedence = operators.getPrecedence(this.condition, config); if ((config.parenthesis === 'all') || (this.condition.type === 'OperatorNode') || ((conditionPrecedence !== null) && (conditionPrecedence <= precedence))) { condition = '(' + condition + ')'; } var trueExpr = this.trueExpr.toString(); var truePrecedence = operators.getPrecedence(this.trueExpr, config); if ((config.parenthesis === 'all') || (this.trueExpr.type === 'OperatorNode') || ((truePrecedence !== null) && (truePrecedence <= precedence))) { trueExpr = '(' + trueExpr + ')'; } var falseExpr = this.falseExpr.toString(); var falsePrecedence = operators.getPrecedence(this.falseExpr, config); if ((config.parenthesis === 'all') || (this.falseExpr.type === 'OperatorNode') || ((falsePrecedence !== null) && (falsePrecedence <= precedence))) { falseExpr = '(' + falseExpr + ')'; } return condition + ' ? ' + trueExpr + ' : ' + falseExpr; }; /** * Get LaTeX representation * @param {Object|function} callback(s) * @return {String} str */ ConditionalNode.prototype._toTex = function (callbacks) { return '\\left\\{\\begin{array}{l l}{' + this.trueExpr.toTex(callbacks) + '}, &\\quad{\\text{if}\\;' + this.condition.toTex(callbacks) + '}\\\\{' + this.falseExpr.toTex(callbacks) + '}, &\\quad{\\text{otherwise}}\\end{array}\\right.'; }; return ConditionalNode; } exports.name = 'ConditionalNode'; exports.path = 'expression.node'; exports.factory = factory;