import _defineProperty from "@babel/runtime/helpers/defineProperty";
import { isBigNumber, isComplex, isNode, isUnit, typeOf } from '../../utils/is.js';
import { factory } from '../../utils/factory.js';
import { getPrecedence } from '../operators.js';
var name = 'ConditionalNode';
var dependencies = ['Node'];
export var createConditionalNode = /* #__PURE__ */factory(name, dependencies, _ref => {
var {
Node
} = _ref;
/**
* Test whether a condition is met
* @param {*} condition
* @returns {boolean} true if condition is true or non-zero, else false
*/
function testCondition(condition) {
if (typeof condition === 'number' || typeof condition === 'boolean' || typeof condition === 'string') {
return !!condition;
}
if (condition) {
if (isBigNumber(condition)) {
return !condition.isZero();
}
if (isComplex(condition)) {
return !!(condition.re || condition.im);
}
if (isUnit(condition)) {
return !!condition.value;
}
}
if (condition === null || condition === undefined) {
return false;
}
throw new TypeError('Unsupported type of condition "' + typeOf(condition) + '"');
}
class ConditionalNode extends Node {
/**
* 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}
*/
constructor(condition, trueExpr, falseExpr) {
super();
if (!isNode(condition)) {
throw new TypeError('Parameter condition must be a Node');
}
if (!isNode(trueExpr)) {
throw new TypeError('Parameter trueExpr must be a Node');
}
if (!isNode(falseExpr)) {
throw new TypeError('Parameter falseExpr must be a Node');
}
this.condition = condition;
this.trueExpr = trueExpr;
this.falseExpr = falseExpr;
}
get type() {
return name;
}
get isConditionalNode() {
return true;
}
/**
* Compile a node into a JavaScript function.
* This basically pre-calculates as much as possible and only leaves open
* calculations which depend on a dynamic scope with variables.
* @param {Object} math Math.js namespace with functions and constants.
* @param {Object} argNames An object with argument names as key and `true`
* as value. Used in the SymbolNode to optimize
* for arguments from user assigned functions
* (see FunctionAssignmentNode) or special symbols
* like `end` (see IndexNode).
* @return {function} Returns a function which can be called like:
* evalNode(scope: Object, args: Object, context: *)
*/
_compile(math, argNames) {
var evalCondition = this.condition._compile(math, argNames);
var evalTrueExpr = this.trueExpr._compile(math, argNames);
var evalFalseExpr = this.falseExpr._compile(math, argNames);
return function evalConditionalNode(scope, args, context) {
return testCondition(evalCondition(scope, args, context)) ? evalTrueExpr(scope, args, context) : evalFalseExpr(scope, args, context);
};
}
/**
* Execute a callback for each of the child nodes of this node
* @param {function(child: Node, path: string, parent: Node)} callback
*/
forEach(callback) {
callback(this.condition, 'condition', this);
callback(this.trueExpr, 'trueExpr', this);
callback(this.falseExpr, 'falseExpr', this);
}
/**
* Create a new ConditionalNode whose children are the results of calling
* the provided callback function for each child of the original node.
* @param {function(child: Node, path: string, parent: Node): Node} callback
* @returns {ConditionalNode} Returns a transformed copy of the node
*/
map(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}
*/
clone() {
return new ConditionalNode(this.condition, this.trueExpr, this.falseExpr);
}
/**
* Get string representation
* @param {Object} options
* @return {string} str
*/
_toString(options) {
var parenthesis = options && options.parenthesis ? options.parenthesis : 'keep';
var precedence = getPrecedence(this, parenthesis, options && options.implicit);
// 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(options);
var conditionPrecedence = getPrecedence(this.condition, parenthesis, options && options.implicit);
if (parenthesis === 'all' || this.condition.type === 'OperatorNode' || conditionPrecedence !== null && conditionPrecedence <= precedence) {
condition = '(' + condition + ')';
}
var trueExpr = this.trueExpr.toString(options);
var truePrecedence = getPrecedence(this.trueExpr, parenthesis, options && options.implicit);
if (parenthesis === 'all' || this.trueExpr.type === 'OperatorNode' || truePrecedence !== null && truePrecedence <= precedence) {
trueExpr = '(' + trueExpr + ')';
}
var falseExpr = this.falseExpr.toString(options);
var falsePrecedence = getPrecedence(this.falseExpr, parenthesis, options && options.implicit);
if (parenthesis === 'all' || this.falseExpr.type === 'OperatorNode' || falsePrecedence !== null && falsePrecedence <= precedence) {
falseExpr = '(' + falseExpr + ')';
}
return condition + ' ? ' + trueExpr + ' : ' + falseExpr;
}
/**
* Get a JSON representation of the node
* @returns {Object}
*/
toJSON() {
return {
mathjs: name,
condition: this.condition,
trueExpr: this.trueExpr,
falseExpr: this.falseExpr
};
}
/**
* Instantiate an ConditionalNode from its JSON representation
* @param {Object} json
* An object structured like
* ```
* {"mathjs": "ConditionalNode",
* "condition": ...,
* "trueExpr": ...,
* "falseExpr": ...}
* ```
* where mathjs is optional
* @returns {ConditionalNode}
*/
static fromJSON(json) {
return new ConditionalNode(json.condition, json.trueExpr, json.falseExpr);
}
/**
* Get HTML representation
* @param {Object} options
* @return {string} str
*/
_toHTML(options) {
var parenthesis = options && options.parenthesis ? options.parenthesis : 'keep';
var precedence = getPrecedence(this, parenthesis, options && options.implicit);
// 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.toHTML(options);
var conditionPrecedence = getPrecedence(this.condition, parenthesis, options && options.implicit);
if (parenthesis === 'all' || this.condition.type === 'OperatorNode' || conditionPrecedence !== null && conditionPrecedence <= precedence) {
condition = '(' + condition + ')';
}
var trueExpr = this.trueExpr.toHTML(options);
var truePrecedence = getPrecedence(this.trueExpr, parenthesis, options && options.implicit);
if (parenthesis === 'all' || this.trueExpr.type === 'OperatorNode' || truePrecedence !== null && truePrecedence <= precedence) {
trueExpr = '(' + trueExpr + ')';
}
var falseExpr = this.falseExpr.toHTML(options);
var falsePrecedence = getPrecedence(this.falseExpr, parenthesis, options && options.implicit);
if (parenthesis === 'all' || this.falseExpr.type === 'OperatorNode' || falsePrecedence !== null && falsePrecedence <= precedence) {
falseExpr = '(' + falseExpr + ')';
}
return condition + '?' + trueExpr + ':' + falseExpr;
}
/**
* Get LaTeX representation
* @param {Object} options
* @return {string} str
*/
_toTex(options) {
return '\\begin{cases} {' + this.trueExpr.toTex(options) + '}, &\\quad{\\text{if }\\;' + this.condition.toTex(options) + '}\\\\{' + this.falseExpr.toTex(options) + '}, &\\quad{\\text{otherwise}}\\end{cases}';
}
}
_defineProperty(ConditionalNode, "name", name);
return ConditionalNode;
}, {
isClass: true,
isNode: true
});