simple-squiggle/node_modules/mathjs/lib/cjs/expression/node/RelationalNode.js

"use strict";

Object.defineProperty(exports, "__esModule", {
  value: true
});
exports.createRelationalNode = void 0;

var _operators = require("../operators.js");

var _string = require("../../utils/string.js");

var _customs = require("../../utils/customs.js");

var _latex = require("../../utils/latex.js");

var _factory = require("../../utils/factory.js");

var name = 'RelationalNode';
var dependencies = ['Node'];
var createRelationalNode = /* #__PURE__ */(0, _factory.factory)(name, dependencies, function (_ref) {
  var Node = _ref.Node;

  /**
   * A node representing a chained conditional expression, such as 'x > y > z'
   *
   * @param {String[]} conditionals   An array of conditional operators used to compare the parameters
   * @param {Node[]} params   The parameters that will be compared
   *
   * @constructor RelationalNode
   * @extends {Node}
   */
  function RelationalNode(conditionals, params) {
    if (!(this instanceof RelationalNode)) {
      throw new SyntaxError('Constructor must be called with the new operator');
    }

    if (!Array.isArray(conditionals)) throw new TypeError('Parameter conditionals must be an array');
    if (!Array.isArray(params)) throw new TypeError('Parameter params must be an array');
    if (conditionals.length !== params.length - 1) throw new TypeError('Parameter params must contain exactly one more element than parameter conditionals');
    this.conditionals = conditionals;
    this.params = params;
  }

  RelationalNode.prototype = new Node();
  RelationalNode.prototype.type = 'RelationalNode';
  RelationalNode.prototype.isRelationalNode = 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: *)
   */

  RelationalNode.prototype._compile = function (math, argNames) {
    var self = this;
    var compiled = this.params.map(function (p) {
      return p._compile(math, argNames);
    });
    return function evalRelationalNode(scope, args, context) {
      var evalLhs;
      var evalRhs = compiled[0](scope, args, context);

      for (var i = 0; i < self.conditionals.length; i++) {
        evalLhs = evalRhs;
        evalRhs = compiled[i + 1](scope, args, context);
        var condFn = (0, _customs.getSafeProperty)(math, self.conditionals[i]);

        if (!condFn(evalLhs, evalRhs)) {
          return false;
        }
      }

      return true;
    };
  };
  /**
   * Execute a callback for each of the child nodes of this node
   * @param {function(child: Node, path: string, parent: Node)} callback
   */


  RelationalNode.prototype.forEach = function (callback) {
    var _this = this;

    this.params.forEach(function (n, i) {
      return callback(n, 'params[' + i + ']', _this);
    }, this);
  };
  /**
   * Create a new RelationalNode having its 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 {RelationalNode} Returns a transformed copy of the node
   */


  RelationalNode.prototype.map = function (callback) {
    var _this2 = this;

    return new RelationalNode(this.conditionals.slice(), this.params.map(function (n, i) {
      return _this2._ifNode(callback(n, 'params[' + i + ']', _this2));
    }, this));
  };
  /**
   * Create a clone of this node, a shallow copy
   * @return {RelationalNode}
   */


  RelationalNode.prototype.clone = function () {
    return new RelationalNode(this.conditionals, this.params);
  };
  /**
   * Get string representation.
   * @param {Object} options
   * @return {string} str
   */


  RelationalNode.prototype._toString = function (options) {
    var parenthesis = options && options.parenthesis ? options.parenthesis : 'keep';
    var precedence = (0, _operators.getPrecedence)(this, parenthesis);
    var paramStrings = this.params.map(function (p, index) {
      var paramPrecedence = (0, _operators.getPrecedence)(p, parenthesis);
      return parenthesis === 'all' || paramPrecedence !== null && paramPrecedence <= precedence ? '(' + p.toString(options) + ')' : p.toString(options);
    });
    var operatorMap = {
      equal: '==',
      unequal: '!=',
      smaller: '<',
      larger: '>',
      smallerEq: '<=',
      largerEq: '>='
    };
    var ret = paramStrings[0];

    for (var i = 0; i < this.conditionals.length; i++) {
      ret += ' ' + operatorMap[this.conditionals[i]] + ' ' + paramStrings[i + 1];
    }

    return ret;
  };
  /**
   * Get a JSON representation of the node
   * @returns {Object}
   */


  RelationalNode.prototype.toJSON = function () {
    return {
      mathjs: 'RelationalNode',
      conditionals: this.conditionals,
      params: this.params
    };
  };
  /**
   * Instantiate a RelationalNode from its JSON representation
   * @param {Object} json  An object structured like
   *                       `{"mathjs": "RelationalNode", "condition": ..., "trueExpr": ..., "falseExpr": ...}`,
   *                       where mathjs is optional
   * @returns {RelationalNode}
   */


  RelationalNode.fromJSON = function (json) {
    return new RelationalNode(json.conditionals, json.params);
  };
  /**
   * Get HTML representation
   * @param {Object} options
   * @return {string} str
   */


  RelationalNode.prototype.toHTML = function (options) {
    var parenthesis = options && options.parenthesis ? options.parenthesis : 'keep';
    var precedence = (0, _operators.getPrecedence)(this, parenthesis);
    var paramStrings = this.params.map(function (p, index) {
      var paramPrecedence = (0, _operators.getPrecedence)(p, parenthesis);
      return parenthesis === 'all' || paramPrecedence !== null && paramPrecedence <= precedence ? '<span class="math-parenthesis math-round-parenthesis">(</span>' + p.toHTML(options) + '<span class="math-parenthesis math-round-parenthesis">)</span>' : p.toHTML(options);
    });
    var operatorMap = {
      equal: '==',
      unequal: '!=',
      smaller: '<',
      larger: '>',
      smallerEq: '<=',
      largerEq: '>='
    };
    var ret = paramStrings[0];

    for (var i = 0; i < this.conditionals.length; i++) {
      ret += '<span class="math-operator math-binary-operator math-explicit-binary-operator">' + (0, _string.escape)(operatorMap[this.conditionals[i]]) + '</span>' + paramStrings[i + 1];
    }

    return ret;
  };
  /**
   * Get LaTeX representation
   * @param {Object} options
   * @return {string} str
   */


  RelationalNode.prototype._toTex = function (options) {
    var parenthesis = options && options.parenthesis ? options.parenthesis : 'keep';
    var precedence = (0, _operators.getPrecedence)(this, parenthesis);
    var paramStrings = this.params.map(function (p, index) {
      var paramPrecedence = (0, _operators.getPrecedence)(p, parenthesis);
      return parenthesis === 'all' || paramPrecedence !== null && paramPrecedence <= precedence ? '\\left(' + p.toTex(options) + '\right)' : p.toTex(options);
    });
    var ret = paramStrings[0];

    for (var i = 0; i < this.conditionals.length; i++) {
      ret += _latex.latexOperators[this.conditionals[i]] + paramStrings[i + 1];
    }

    return ret;
  };

  return RelationalNode;
}, {
  isClass: true,
  isNode: true
});
exports.createRelationalNode = createRelationalNode;