"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);