"use strict"; var _interopRequireDefault = require("@babel/runtime/helpers/interopRequireDefault"); Object.defineProperty(exports, "__esModule", { value: true }); exports.derivative = exports.compile = exports.chain = exports.SymbolNode = exports.RelationalNode = exports.RangeNode = exports.Parser = exports.ParenthesisNode = exports.OperatorNode = exports.ObjectNode = exports.Node = exports.IndexNode = exports.Help = exports.FunctionNode = exports.FunctionAssignmentNode = exports.ConstantNode = exports.ConditionalNode = exports.Chain = exports.BlockNode = exports.AssignmentNode = exports.ArrayNode = exports.AccessorNode = void 0; Object.defineProperty(exports, "docs", { enumerable: true, get: function () { return _embeddedDocs.embeddedDocs; } }); exports.simplifyCore = exports.simplifyConstant = exports.simplify = exports.reviver = exports.resolve = exports.rationalize = exports.parser = exports.parse = exports.help = exports.evaluate = void 0; var _extends2 = _interopRequireDefault(require("@babel/runtime/helpers/extends")); var _configReadonly = require("./configReadonly.js"); var _factoriesNumber = require("../factoriesNumber.js"); var _pureFunctionsNumberGenerated = require("./pureFunctionsNumber.generated.js"); var _embeddedDocs = require("../expression/embeddedDocs/embeddedDocs.js"); /** * THIS FILE IS AUTO-GENERATED * DON'T MAKE CHANGES HERE */ const math = {}; // NOT pure! const mathWithTransform = {}; // NOT pure! const classes = {}; // NOT pure! const Chain = exports.Chain = (0, _factoriesNumber.createChainClass)({ math, typed: _pureFunctionsNumberGenerated.typed }); const Node = exports.Node = (0, _factoriesNumber.createNode)({ mathWithTransform }); const ObjectNode = exports.ObjectNode = (0, _factoriesNumber.createObjectNode)({ Node }); const RangeNode = exports.RangeNode = (0, _factoriesNumber.createRangeNode)({ Node }); const RelationalNode = exports.RelationalNode = (0, _factoriesNumber.createRelationalNode)({ Node }); const reviver = exports.reviver = (0, _factoriesNumber.createReviver)({ classes }); const SymbolNode = exports.SymbolNode = (0, _factoriesNumber.createSymbolNode)({ Node, math }); const AccessorNode = exports.AccessorNode = (0, _factoriesNumber.createAccessorNode)({ Node, subset: _pureFunctionsNumberGenerated.subset }); const AssignmentNode = exports.AssignmentNode = (0, _factoriesNumber.createAssignmentNode)({ matrix: _pureFunctionsNumberGenerated.matrix, Node, subset: _pureFunctionsNumberGenerated.subset }); const BlockNode = exports.BlockNode = (0, _factoriesNumber.createBlockNode)({ Node, ResultSet: _pureFunctionsNumberGenerated.ResultSet }); const chain = exports.chain = (0, _factoriesNumber.createChain)({ Chain, typed: _pureFunctionsNumberGenerated.typed }); const ConditionalNode = exports.ConditionalNode = (0, _factoriesNumber.createConditionalNode)({ Node }); const FunctionNode = exports.FunctionNode = (0, _factoriesNumber.createFunctionNode)({ Node, SymbolNode, math }); const IndexNode = exports.IndexNode = (0, _factoriesNumber.createIndexNode)({ Node, size: _pureFunctionsNumberGenerated.size }); const OperatorNode = exports.OperatorNode = (0, _factoriesNumber.createOperatorNode)({ Node }); const ConstantNode = exports.ConstantNode = (0, _factoriesNumber.createConstantNode)({ Node }); const FunctionAssignmentNode = exports.FunctionAssignmentNode = (0, _factoriesNumber.createFunctionAssignmentNode)({ Node, typed: _pureFunctionsNumberGenerated.typed }); const ParenthesisNode = exports.ParenthesisNode = (0, _factoriesNumber.createParenthesisNode)({ Node }); const ArrayNode = exports.ArrayNode = (0, _factoriesNumber.createArrayNode)({ Node }); const simplifyConstant = exports.simplifyConstant = (0, _factoriesNumber.createSimplifyConstant)({ AccessorNode, ArrayNode, ConstantNode, FunctionNode, IndexNode, ObjectNode, OperatorNode, SymbolNode, config: _configReadonly.config, mathWithTransform, matrix: _pureFunctionsNumberGenerated.matrix, typed: _pureFunctionsNumberGenerated.typed }); const parse = exports.parse = (0, _factoriesNumber.createParse)({ AccessorNode, ArrayNode, AssignmentNode, BlockNode, ConditionalNode, ConstantNode, FunctionAssignmentNode, FunctionNode, IndexNode, ObjectNode, OperatorNode, ParenthesisNode, RangeNode, RelationalNode, SymbolNode, config: _configReadonly.config, numeric: _pureFunctionsNumberGenerated.numeric, typed: _pureFunctionsNumberGenerated.typed }); const resolve = exports.resolve = (0, _factoriesNumber.createResolve)({ ConstantNode, FunctionNode, OperatorNode, ParenthesisNode, parse, typed: _pureFunctionsNumberGenerated.typed }); const simplifyCore = exports.simplifyCore = (0, _factoriesNumber.createSimplifyCore)({ AccessorNode, ArrayNode, ConstantNode, FunctionNode, IndexNode, ObjectNode, OperatorNode, ParenthesisNode, SymbolNode, add: _pureFunctionsNumberGenerated.add, divide: _pureFunctionsNumberGenerated.divide, equal: _pureFunctionsNumberGenerated.equal, isZero: _pureFunctionsNumberGenerated.isZero, multiply: _pureFunctionsNumberGenerated.multiply, parse, pow: _pureFunctionsNumberGenerated.pow, subtract: _pureFunctionsNumberGenerated.subtract, typed: _pureFunctionsNumberGenerated.typed }); const compile = exports.compile = (0, _factoriesNumber.createCompile)({ parse, typed: _pureFunctionsNumberGenerated.typed }); const evaluate = exports.evaluate = (0, _factoriesNumber.createEvaluate)({ parse, typed: _pureFunctionsNumberGenerated.typed }); const Help = exports.Help = (0, _factoriesNumber.createHelpClass)({ evaluate }); const Parser = exports.Parser = (0, _factoriesNumber.createParserClass)({ evaluate, parse }); const simplify = exports.simplify = (0, _factoriesNumber.createSimplify)({ AccessorNode, ArrayNode, ConstantNode, FunctionNode, IndexNode, ObjectNode, OperatorNode, ParenthesisNode, SymbolNode, equal: _pureFunctionsNumberGenerated.equal, parse, replacer: _pureFunctionsNumberGenerated.replacer, resolve, simplifyConstant, simplifyCore, typed: _pureFunctionsNumberGenerated.typed }); const derivative = exports.derivative = (0, _factoriesNumber.createDerivative)({ ConstantNode, FunctionNode, OperatorNode, ParenthesisNode, SymbolNode, config: _configReadonly.config, equal: _pureFunctionsNumberGenerated.equal, isZero: _pureFunctionsNumberGenerated.isZero, numeric: _pureFunctionsNumberGenerated.numeric, parse, simplify, typed: _pureFunctionsNumberGenerated.typed }); const rationalize = exports.rationalize = (0, _factoriesNumber.createRationalize)({ AccessorNode, ArrayNode, ConstantNode, FunctionNode, IndexNode, ObjectNode, OperatorNode, ParenthesisNode, SymbolNode, add: _pureFunctionsNumberGenerated.add, config: _configReadonly.config, divide: _pureFunctionsNumberGenerated.divide, equal: _pureFunctionsNumberGenerated.equal, isZero: _pureFunctionsNumberGenerated.isZero, mathWithTransform, matrix: _pureFunctionsNumberGenerated.matrix, multiply: _pureFunctionsNumberGenerated.multiply, parse, pow: _pureFunctionsNumberGenerated.pow, simplify, simplifyConstant, simplifyCore, subtract: _pureFunctionsNumberGenerated.subtract, typed: _pureFunctionsNumberGenerated.typed }); const help = exports.help = (0, _factoriesNumber.createHelp)({ Help, mathWithTransform, typed: _pureFunctionsNumberGenerated.typed }); const parser = exports.parser = (0, _factoriesNumber.createParser)({ Parser, typed: _pureFunctionsNumberGenerated.typed }); (0, _extends2.default)(math, { e: _pureFunctionsNumberGenerated.e, false: _pureFunctionsNumberGenerated._false, index: _pureFunctionsNumberGenerated.index, Infinity: _pureFunctionsNumberGenerated._Infinity, LN10: _pureFunctionsNumberGenerated.LN10, LOG10E: _pureFunctionsNumberGenerated.LOG10E, matrix: _pureFunctionsNumberGenerated.matrix, NaN: _pureFunctionsNumberGenerated._NaN, null: _pureFunctionsNumberGenerated._null, phi: _pureFunctionsNumberGenerated.phi, replacer: _pureFunctionsNumberGenerated.replacer, SQRT1_2: _pureFunctionsNumberGenerated.SQRT1_2, subset: _pureFunctionsNumberGenerated.subset, tau: _pureFunctionsNumberGenerated.tau, typed: _pureFunctionsNumberGenerated.typed, unaryPlus: _pureFunctionsNumberGenerated.unaryPlus, 'E': _pureFunctionsNumberGenerated.e, version: _pureFunctionsNumberGenerated.version, xor: _pureFunctionsNumberGenerated.xor, abs: _pureFunctionsNumberGenerated.abs, acos: _pureFunctionsNumberGenerated.acos, acot: _pureFunctionsNumberGenerated.acot, acsc: _pureFunctionsNumberGenerated.acsc, add: _pureFunctionsNumberGenerated.add, and: _pureFunctionsNumberGenerated.and, asec: _pureFunctionsNumberGenerated.asec, asin: _pureFunctionsNumberGenerated.asin, atan: _pureFunctionsNumberGenerated.atan, atanh: _pureFunctionsNumberGenerated.atanh, bigint: _pureFunctionsNumberGenerated.bigint, bitNot: _pureFunctionsNumberGenerated.bitNot, bitXor: _pureFunctionsNumberGenerated.bitXor, boolean: _pureFunctionsNumberGenerated.boolean, cbrt: _pureFunctionsNumberGenerated.cbrt, combinations: _pureFunctionsNumberGenerated.combinations, compare: _pureFunctionsNumberGenerated.compare, compareText: _pureFunctionsNumberGenerated.compareText, cos: _pureFunctionsNumberGenerated.cos, cot: _pureFunctionsNumberGenerated.cot, csc: _pureFunctionsNumberGenerated.csc, cube: _pureFunctionsNumberGenerated.cube, divide: _pureFunctionsNumberGenerated.divide, equalScalar: _pureFunctionsNumberGenerated.equalScalar, erf: _pureFunctionsNumberGenerated.erf, exp: _pureFunctionsNumberGenerated.exp, filter: _pureFunctionsNumberGenerated.filter, forEach: _pureFunctionsNumberGenerated.forEach, format: _pureFunctionsNumberGenerated.format, gamma: _pureFunctionsNumberGenerated.gamma, isInteger: _pureFunctionsNumberGenerated.isInteger, isNegative: _pureFunctionsNumberGenerated.isNegative, isPositive: _pureFunctionsNumberGenerated.isPositive, isZero: _pureFunctionsNumberGenerated.isZero, LOG2E: _pureFunctionsNumberGenerated.LOG2E, largerEq: _pureFunctionsNumberGenerated.largerEq, leftShift: _pureFunctionsNumberGenerated.leftShift, log: _pureFunctionsNumberGenerated.log, log1p: _pureFunctionsNumberGenerated.log1p, map: _pureFunctionsNumberGenerated.map, mean: _pureFunctionsNumberGenerated.mean, mod: _pureFunctionsNumberGenerated.mod, multiply: _pureFunctionsNumberGenerated.multiply, not: _pureFunctionsNumberGenerated.not, number: _pureFunctionsNumberGenerated.number, or: _pureFunctionsNumberGenerated.or, pi: _pureFunctionsNumberGenerated.pi, pow: _pureFunctionsNumberGenerated.pow, random: _pureFunctionsNumberGenerated.random, reviver, rightLogShift: _pureFunctionsNumberGenerated.rightLogShift, SQRT2: _pureFunctionsNumberGenerated.SQRT2, sech: _pureFunctionsNumberGenerated.sech, sin: _pureFunctionsNumberGenerated.sin, size: _pureFunctionsNumberGenerated.size, smallerEq: _pureFunctionsNumberGenerated.smallerEq, square: _pureFunctionsNumberGenerated.square, string: _pureFunctionsNumberGenerated.string, subtract: _pureFunctionsNumberGenerated.subtract, tanh: _pureFunctionsNumberGenerated.tanh, typeOf: _pureFunctionsNumberGenerated.typeOf, unequal: _pureFunctionsNumberGenerated.unequal, xgcd: _pureFunctionsNumberGenerated.xgcd, acoth: _pureFunctionsNumberGenerated.acoth, addScalar: _pureFunctionsNumberGenerated.addScalar, asech: _pureFunctionsNumberGenerated.asech, bitAnd: _pureFunctionsNumberGenerated.bitAnd, chain, combinationsWithRep: _pureFunctionsNumberGenerated.combinationsWithRep, cosh: _pureFunctionsNumberGenerated.cosh, csch: _pureFunctionsNumberGenerated.csch, divideScalar: _pureFunctionsNumberGenerated.divideScalar, equalText: _pureFunctionsNumberGenerated.equalText, expm1: _pureFunctionsNumberGenerated.expm1, isNumeric: _pureFunctionsNumberGenerated.isNumeric, LN2: _pureFunctionsNumberGenerated.LN2, lcm: _pureFunctionsNumberGenerated.lcm, log10: _pureFunctionsNumberGenerated.log10, multiplyScalar: _pureFunctionsNumberGenerated.multiplyScalar, nthRoot: _pureFunctionsNumberGenerated.nthRoot, pickRandom: _pureFunctionsNumberGenerated.pickRandom, randomInt: _pureFunctionsNumberGenerated.randomInt, rightArithShift: _pureFunctionsNumberGenerated.rightArithShift, sec: _pureFunctionsNumberGenerated.sec, sinh: _pureFunctionsNumberGenerated.sinh, sqrt: _pureFunctionsNumberGenerated.sqrt, tan: _pureFunctionsNumberGenerated.tan, unaryMinus: _pureFunctionsNumberGenerated.unaryMinus, acosh: _pureFunctionsNumberGenerated.acosh, apply: _pureFunctionsNumberGenerated.apply, asinh: _pureFunctionsNumberGenerated.asinh, bitOr: _pureFunctionsNumberGenerated.bitOr, clone: _pureFunctionsNumberGenerated.clone, coth: _pureFunctionsNumberGenerated.coth, equal: _pureFunctionsNumberGenerated.equal, factorial: _pureFunctionsNumberGenerated.factorial, hasNumericValue: _pureFunctionsNumberGenerated.hasNumericValue, isNaN: _pureFunctionsNumberGenerated.isNaN, larger: _pureFunctionsNumberGenerated.larger, log2: _pureFunctionsNumberGenerated.log2, mode: _pureFunctionsNumberGenerated.mode, norm: _pureFunctionsNumberGenerated.norm, partitionSelect: _pureFunctionsNumberGenerated.partitionSelect, print: _pureFunctionsNumberGenerated.print, round: _pureFunctionsNumberGenerated.round, smaller: _pureFunctionsNumberGenerated.smaller, subtractScalar: _pureFunctionsNumberGenerated.subtractScalar, true: _pureFunctionsNumberGenerated._true, variance: _pureFunctionsNumberGenerated.variance, zeta: _pureFunctionsNumberGenerated.zeta, acsch: _pureFunctionsNumberGenerated.acsch, atan2: _pureFunctionsNumberGenerated.atan2, catalan: _pureFunctionsNumberGenerated.catalan, compareNatural: _pureFunctionsNumberGenerated.compareNatural, composition: _pureFunctionsNumberGenerated.composition, cumsum: _pureFunctionsNumberGenerated.cumsum, floor: _pureFunctionsNumberGenerated.floor, hypot: _pureFunctionsNumberGenerated.hypot, lgamma: _pureFunctionsNumberGenerated.lgamma, median: _pureFunctionsNumberGenerated.median, multinomial: _pureFunctionsNumberGenerated.multinomial, permutations: _pureFunctionsNumberGenerated.permutations, quantileSeq: _pureFunctionsNumberGenerated.quantileSeq, sign: _pureFunctionsNumberGenerated.sign, std: _pureFunctionsNumberGenerated.std, stirlingS2: _pureFunctionsNumberGenerated.stirlingS2, 'PI': _pureFunctionsNumberGenerated.pi, ceil: _pureFunctionsNumberGenerated.ceil, deepEqual: _pureFunctionsNumberGenerated.deepEqual, fix: _pureFunctionsNumberGenerated.fix, isPrime: _pureFunctionsNumberGenerated.isPrime, numeric: _pureFunctionsNumberGenerated.numeric, prod: _pureFunctionsNumberGenerated.prod, simplifyConstant, bellNumbers: _pureFunctionsNumberGenerated.bellNumbers, gcd: _pureFunctionsNumberGenerated.gcd, mad: _pureFunctionsNumberGenerated.mad, range: _pureFunctionsNumberGenerated.range, sum: _pureFunctionsNumberGenerated.sum, corr: _pureFunctionsNumberGenerated.corr, max: _pureFunctionsNumberGenerated.max, parse, resolve, simplifyCore, compile, evaluate, simplify, derivative, min: _pureFunctionsNumberGenerated.min, rationalize, help, parser, config: _configReadonly.config }); (0, _extends2.default)(mathWithTransform, math, { cumsum: (0, _factoriesNumber.createCumSumTransform)({ add: _pureFunctionsNumberGenerated.add, typed: _pureFunctionsNumberGenerated.typed, unaryPlus: _pureFunctionsNumberGenerated.unaryPlus }), apply: (0, _factoriesNumber.createApplyTransform)({ isInteger: _pureFunctionsNumberGenerated.isInteger, typed: _pureFunctionsNumberGenerated.typed }), filter: (0, _factoriesNumber.createFilterTransform)({ typed: _pureFunctionsNumberGenerated.typed }), forEach: (0, _factoriesNumber.createForEachTransform)({ typed: _pureFunctionsNumberGenerated.typed }), map: (0, _factoriesNumber.createMapTransform)({ typed: _pureFunctionsNumberGenerated.typed }), mean: (0, _factoriesNumber.createMeanTransform)({ add: _pureFunctionsNumberGenerated.add, divide: _pureFunctionsNumberGenerated.divide, typed: _pureFunctionsNumberGenerated.typed }), subset: (0, _factoriesNumber.createSubsetTransform)({}), range: (0, _factoriesNumber.createRangeTransform)({ matrix: _pureFunctionsNumberGenerated.matrix, add: _pureFunctionsNumberGenerated.add, config: _configReadonly.config, isPositive: _pureFunctionsNumberGenerated.isPositive, larger: _pureFunctionsNumberGenerated.larger, largerEq: _pureFunctionsNumberGenerated.largerEq, smaller: _pureFunctionsNumberGenerated.smaller, smallerEq: _pureFunctionsNumberGenerated.smallerEq, typed: _pureFunctionsNumberGenerated.typed }), std: (0, _factoriesNumber.createStdTransform)({ map: _pureFunctionsNumberGenerated.map, sqrt: _pureFunctionsNumberGenerated.sqrt, typed: _pureFunctionsNumberGenerated.typed, variance: _pureFunctionsNumberGenerated.variance }), sum: (0, _factoriesNumber.createSumTransform)({ add: _pureFunctionsNumberGenerated.add, config: _configReadonly.config, numeric: _pureFunctionsNumberGenerated.numeric, typed: _pureFunctionsNumberGenerated.typed }), max: (0, _factoriesNumber.createMaxTransform)({ config: _configReadonly.config, larger: _pureFunctionsNumberGenerated.larger, numeric: _pureFunctionsNumberGenerated.numeric, typed: _pureFunctionsNumberGenerated.typed }), min: (0, _factoriesNumber.createMinTransform)({ config: _configReadonly.config, numeric: _pureFunctionsNumberGenerated.numeric, smaller: _pureFunctionsNumberGenerated.smaller, typed: _pureFunctionsNumberGenerated.typed }), variance: (0, _factoriesNumber.createVarianceTransform)({ add: _pureFunctionsNumberGenerated.add, apply: _pureFunctionsNumberGenerated.apply, divide: _pureFunctionsNumberGenerated.divide, isNaN: _pureFunctionsNumberGenerated.isNaN, multiply: _pureFunctionsNumberGenerated.multiply, subtract: _pureFunctionsNumberGenerated.subtract, typed: _pureFunctionsNumberGenerated.typed }) }); (0, _extends2.default)(classes, { Range: _pureFunctionsNumberGenerated.Range, ResultSet: _pureFunctionsNumberGenerated.ResultSet, Chain, Node, ObjectNode, RangeNode, RelationalNode, SymbolNode, AccessorNode, AssignmentNode, BlockNode, ConditionalNode, FunctionNode, IndexNode, OperatorNode, ConstantNode, FunctionAssignmentNode, ParenthesisNode, ArrayNode, Help, Parser }); Chain.createProxy(math);