'use strict'; /** * BigNumber * * A wrapper around the BN.js object. We use the BN.js library * because it is used by elliptic, so it is required regardles. * */ import BN from 'bn.js'; import { hexlify, isArrayish, isHexString } from './bytes'; import { defineReadOnly } from './properties'; import { BigNumber as _BigNumber, BigNumberish } from './types'; import * as errors from './errors'; const BN_1 = new BN.BN(-1); function toHex(bn: BN.BN): string { let value = bn.toString(16); if (value[0] === '-') { if ((value.length % 2) === 0) { return '-0x0' + value.substring(1); } return "-0x" + value.substring(1); } if ((value.length % 2) === 1) { return '0x0' + value; } return '0x' + value; } function toBN(value: BigNumberish): BN.BN { return (bigNumberify(value))._bn; } function toBigNumber(bn: BN.BN): BigNumber { return new BigNumber(toHex(bn)); } class BigNumber extends _BigNumber { private readonly _hex: string; constructor(value: BigNumberish) { super(); errors.checkNew(this, BigNumber); if (typeof(value) === 'string') { if (isHexString(value)) { if (value == '0x') { value = '0x0'; } defineReadOnly(this, '_hex', value); } else if (value[0] === '-' && isHexString(value.substring(1))) { defineReadOnly(this, '_hex', value); } else if (value.match(/^-?[0-9]*$/)) { if (value == '') { value = '0'; } defineReadOnly(this, '_hex', toHex(new BN.BN(value))); } else { errors.throwError('invalid BigNumber string value', errors.INVALID_ARGUMENT, { arg: 'value', value: value }); } } else if (typeof(value) === 'number') { if (parseInt(String(value)) !== value) { errors.throwError('underflow', errors.NUMERIC_FAULT, { operation: 'setValue', fault: 'underflow', value: value, outputValue: parseInt(String(value)) }); } try { defineReadOnly(this, '_hex', toHex(new BN.BN(value))); } catch (error) { errors.throwError('overflow', errors.NUMERIC_FAULT, { operation: 'setValue', fault: 'overflow', details: error.message }); } } else if (value instanceof BigNumber) { defineReadOnly(this, '_hex', value._hex); } else if ((value).toHexString) { defineReadOnly(this, '_hex', toHex(toBN((value).toHexString()))); } else if (isArrayish(value)) { defineReadOnly(this, '_hex', toHex(new BN.BN(hexlify(value).substring(2), 16))); } else { errors.throwError('invalid BigNumber value', errors.INVALID_ARGUMENT, { arg: 'value', value: value }); } } get _bn(): BN.BN { if (this._hex[0] === '-') { return (new BN.BN(this._hex.substring(3), 16)).mul(BN_1); } return new BN.BN(this._hex.substring(2), 16); } fromTwos(value: number): BigNumber { return toBigNumber(this._bn.fromTwos(value)); } toTwos(value: number): BigNumber { return toBigNumber(this._bn.toTwos(value)); } add(other: BigNumberish): BigNumber { return toBigNumber(this._bn.add(toBN(other))); } sub(other: BigNumberish): BigNumber { return toBigNumber(this._bn.sub(toBN(other))); } div(other: BigNumberish): BigNumber { let o: _BigNumber = bigNumberify(other); if (o.isZero()) { errors.throwError('division by zero', errors.NUMERIC_FAULT, { operation: 'divide', fault: 'division by zero' }); } return toBigNumber(this._bn.div(toBN(other))); } mul(other: BigNumberish): BigNumber { return toBigNumber(this._bn.mul(toBN(other))); } mod(other: BigNumberish): BigNumber { return toBigNumber(this._bn.mod(toBN(other))); } pow(other: BigNumberish): BigNumber { return toBigNumber(this._bn.pow(toBN(other))); } maskn(value: number): BigNumber { return toBigNumber(this._bn.maskn(value)); } eq(other: BigNumberish): boolean { return this._bn.eq(toBN(other)); } lt(other: BigNumberish): boolean { return this._bn.lt(toBN(other)); } lte(other: BigNumberish): boolean { return this._bn.lte(toBN(other)); } gt(other: BigNumberish): boolean { return this._bn.gt(toBN(other)); } gte(other: BigNumberish): boolean { return this._bn.gte(toBN(other)); } isZero(): boolean { return this._bn.isZero(); } toNumber(): number { try { return this._bn.toNumber(); } catch (error) { errors.throwError('overflow', errors.NUMERIC_FAULT, { operation: 'setValue', fault: 'overflow', details: error.message }); } return null; } toString(): string { return this._bn.toString(10); } toHexString(): string { return this._hex; } } export function bigNumberify(value: BigNumberish): _BigNumber { if (value instanceof BigNumber) { return value; } return new BigNumber(value); } export const ConstantNegativeOne = bigNumberify(-1); export const ConstantZero = bigNumberify(0); export const ConstantOne = bigNumberify(1); export const ConstantTwo = bigNumberify(2); export const ConstantWeiPerEther = bigNumberify('1000000000000000000');