'use strict'; import { Zero, NegativeOne } from '../constants'; import * as errors from '../errors'; import { BigNumber, bigNumberify } from './bignumber'; // Imported Types import { BigNumberish } from './bignumber'; const names = [ 'wei', 'kwei', 'Mwei', 'Gwei', 'szabo', 'finney', 'ether', ]; type UnitInfo = { decimals: number; tenPower: BigNumber; }; var unitInfos: { [key: string]: UnitInfo } = {}; function _getUnitInfo(value: string): UnitInfo { return { decimals: value.length - 1, tenPower: bigNumberify(value) }; } // Build cache of common units (function() { // Cache the common units let value = '1'; names.forEach(function(name) { let info = _getUnitInfo(value); unitInfos[name.toLowerCase()] = info; unitInfos[String(info.decimals)] = info; value += '000'; }); })(); function getUnitInfo(name: string | number): UnitInfo { // Try the cache var info = unitInfos[String(name).toLowerCase()]; if (!info && typeof(name) === 'number' && parseInt(String(name)) == name && name >= 0 && name <= 256) { var value = '1'; for (var i = 0; i < name; i++) { value += '0'; } info = _getUnitInfo(value); } // Make sure we got something if (!info) { errors.throwError('invalid unitType', errors.INVALID_ARGUMENT, { arg: 'name', value: name }); } return info; } export function formatUnits(value: BigNumberish, unitType?: string | number, options?: any): string { /* if (typeof(unitType) === 'object' && !options) { options = unitType; unitType = undefined; } if (unitType == null) { unitType = 18; } */ if (!options) { options = {}; } var unitInfo = getUnitInfo(unitType); // Make sure wei is a big number (convert as necessary) value = bigNumberify(value); var negative = value.lt(Zero); if (negative) { value = value.mul(NegativeOne); } var fraction = value.mod(unitInfo.tenPower).toString(); while (fraction.length < unitInfo.decimals) { fraction = '0' + fraction; } // Strip off trailing zeros (but keep one if would otherwise be bare decimal point) if (!options.pad) { fraction = fraction.match(/^([0-9]*[1-9]|0)(0*)/)[1]; } var whole = value.div(unitInfo.tenPower).toString(); if (options.commify) { whole = whole.replace(/\B(?=(\d{3})+(?!\d))/g, ",") } value = whole + '.' + fraction; if (negative) { value = '-' + value; } return value; } export function parseUnits(value: string, unitType?: string | number): BigNumber { if (unitType == null) { unitType = 18; } var unitInfo = getUnitInfo(unitType); if (typeof(value) !== 'string' || !value.match(/^-?[0-9.,]+$/)) { errors.throwError('invalid decimal value', errors.INVALID_ARGUMENT, { arg: 'value', value: value }); } // Remove commas var value = value.replace(/,/g,''); if (unitInfo.decimals === 0) { return bigNumberify(value); } // Is it negative? var negative = (value.substring(0, 1) === '-'); if (negative) { value = value.substring(1); } if (value === '.') { errors.throwError('missing value', errors.INVALID_ARGUMENT, { arg: 'value', value: value }); } // Split it into a whole and fractional part let comps = value.split('.'); if (comps.length > 2) { errors.throwError('too many decimal points', errors.INVALID_ARGUMENT, { arg: 'value', value: value }); } let whole = comps[0], fraction = comps[1]; if (!whole) { whole = '0'; } if (!fraction) { fraction = '0'; } // Prevent underflow if (fraction.length > unitInfo.decimals) { errors.throwError( 'underflow occurred', errors.NUMERIC_FAULT, { operation: 'division', fault: "underflow" } ); } // Fully pad the string with zeros to get to wei while (fraction.length < unitInfo.decimals) { fraction += '0'; } let wholeValue = bigNumberify(whole); let fractionValue = bigNumberify(fraction); let wei = (wholeValue.mul(unitInfo.tenPower)).add(fractionValue); if (negative) { wei = wei.mul(NegativeOne); } return wei; } export function formatEther(wei: BigNumberish, options?: any): string { return formatUnits(wei, 18, options); } export function parseEther(ether: string): BigNumber { return parseUnits(ether, 18); }