"use strict";
var _interopRequireDefault = require("@babel/runtime/helpers/interopRequireDefault");
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.createObjectNode = void 0;
var _defineProperty2 = _interopRequireDefault(require("@babel/runtime/helpers/defineProperty"));
var _customs = require("../../utils/customs.js");
var _factory = require("../../utils/factory.js");
var _is = require("../../utils/is.js");
var _object = require("../../utils/object.js");
var _string = require("../../utils/string.js");
const name = 'ObjectNode';
const dependencies = ['Node'];
const createObjectNode = exports.createObjectNode = /* #__PURE__ */(0, _factory.factory)(name, dependencies, _ref => {
let {
Node
} = _ref;
class ObjectNode extends Node {
/**
* @constructor ObjectNode
* @extends {Node}
* Holds an object with keys/values
* @param {Object.<string, Node>} [properties] object with key/value pairs
*/
constructor(properties) {
super();
this.properties = properties || {};
// validate input
if (properties) {
if (!(typeof properties === 'object') || !Object.keys(properties).every(function (key) {
return (0, _is.isNode)(properties[key]);
})) {
throw new TypeError('Object containing Nodes expected');
}
}
}
get type() {
return name;
}
get isObjectNode() {
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) {
const evalEntries = {};
for (const key in this.properties) {
if ((0, _object.hasOwnProperty)(this.properties, key)) {
// we stringify/parse the key here to resolve unicode characters,
// so you cannot create a key like {"co\\u006Estructor": null}
const stringifiedKey = (0, _string.stringify)(key);
const parsedKey = JSON.parse(stringifiedKey);
const prop = (0, _customs.getSafeProperty)(this.properties, key);
evalEntries[parsedKey] = prop._compile(math, argNames);
}
}
return function evalObjectNode(scope, args, context) {
const obj = {};
for (const key in evalEntries) {
if ((0, _object.hasOwnProperty)(evalEntries, key)) {
obj[key] = evalEntries[key](scope, args, context);
}
}
return obj;
};
}
/**
* Execute a callback for each of the child nodes of this node
* @param {function(child: Node, path: string, parent: Node)} callback
*/
forEach(callback) {
for (const key in this.properties) {
if ((0, _object.hasOwnProperty)(this.properties, key)) {
callback(this.properties[key], 'properties[' + (0, _string.stringify)(key) + ']', this);
}
}
}
/**
* Create a new ObjectNode 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 {ObjectNode} Returns a transformed copy of the node
*/
map(callback) {
const properties = {};
for (const key in this.properties) {
if ((0, _object.hasOwnProperty)(this.properties, key)) {
properties[key] = this._ifNode(callback(this.properties[key], 'properties[' + (0, _string.stringify)(key) + ']', this));
}
}
return new ObjectNode(properties);
}
/**
* Create a clone of this node, a shallow copy
* @return {ObjectNode}
*/
clone() {
const properties = {};
for (const key in this.properties) {
if ((0, _object.hasOwnProperty)(this.properties, key)) {
properties[key] = this.properties[key];
}
}
return new ObjectNode(properties);
}
/**
* Get string representation
* @param {Object} options
* @return {string} str
* @override
*/
_toString(options) {
const entries = [];
for (const key in this.properties) {
if ((0, _object.hasOwnProperty)(this.properties, key)) {
entries.push((0, _string.stringify)(key) + ': ' + this.properties[key].toString(options));
}
}
return '{' + entries.join(', ') + '}';
}
/**
* Get a JSON representation of the node
* @returns {Object}
*/
toJSON() {
return {
mathjs: name,
properties: this.properties
};
}
/**
* Instantiate an OperatorNode from its JSON representation
* @param {Object} json An object structured like
* `{"mathjs": "ObjectNode", "properties": {...}}`,
* where mathjs is optional
* @returns {ObjectNode}
*/
static fromJSON(json) {
return new ObjectNode(json.properties);
}
/**
* Get HTML representation
* @param {Object} options
* @return {string} str
* @override
*/
_toHTML(options) {
const entries = [];
for (const key in this.properties) {
if ((0, _object.hasOwnProperty)(this.properties, key)) {
entries.push('<span class="math-symbol math-property">' + (0, _string.escape)(key) + '</span>' + '<span class="math-operator math-assignment-operator ' + 'math-property-assignment-operator math-binary-operator">' + ':</span>' + this.properties[key].toHTML(options));
}
}
return '<span class="math-parenthesis math-curly-parenthesis">{</span>' + entries.join('<span class="math-separator">,</span>') + '<span class="math-parenthesis math-curly-parenthesis">}</span>';
}
/**
* Get LaTeX representation
* @param {Object} options
* @return {string} str
*/
_toTex(options) {
const entries = [];
for (const key in this.properties) {
if ((0, _object.hasOwnProperty)(this.properties, key)) {
entries.push('\\mathbf{' + key + ':} & ' + this.properties[key].toTex(options) + '\\\\');
}
}
const tex = '\\left\\{\\begin{array}{ll}' + entries.join('\n') + '\\end{array}\\right\\}';
return tex;
}
}
(0, _defineProperty2.default)(ObjectNode, "name", name);
return ObjectNode;
}, {
isClass: true,
isNode: true
});