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@preserve\n * numeral.js\n * version : 2.0.6\n * author : Adam Draper\n * license : MIT\n * http://adamwdraper.github.com/Numeral-js/\n */\n\n(function (global, factory) {\n if (typeof define === 'function' && define.amd) {\n define(factory);\n } else if (typeof module === 'object' && module.exports) {\n module.exports = factory();\n } else {\n global.numeral = factory();\n }\n}(this, function () {\n /************************************\n Variables\n ************************************/\n\n var numeral,\n _,\n VERSION = '2.0.6',\n formats = {},\n locales = {},\n defaults = {\n currentLocale: 'en',\n zeroFormat: null,\n nullFormat: null,\n defaultFormat: '0,0',\n scalePercentBy100: true\n },\n options = {\n currentLocale: defaults.currentLocale,\n zeroFormat: defaults.zeroFormat,\n nullFormat: defaults.nullFormat,\n defaultFormat: defaults.defaultFormat,\n scalePercentBy100: defaults.scalePercentBy100\n };\n\n\n /************************************\n Constructors\n ************************************/\n\n // Numeral prototype object\n function Numeral(input, number) {\n this._input = input;\n\n this._value = number;\n }\n\n numeral = function(input) {\n var value,\n kind,\n unformatFunction,\n regexp;\n\n if (numeral.isNumeral(input)) {\n value = input.value();\n } else if (input === 0 || typeof input === 'undefined') {\n value = 0;\n } else if (input === null || _.isNaN(input)) {\n value = null;\n } else if (typeof input === 'string') {\n if (options.zeroFormat && input === options.zeroFormat) {\n value = 0;\n } else if (options.nullFormat && input === options.nullFormat || !input.replace(/[^0-9]+/g, '').length) {\n value = null;\n } else {\n for (kind in formats) {\n regexp = typeof formats[kind].regexps.unformat === 'function' ? formats[kind].regexps.unformat() : formats[kind].regexps.unformat;\n\n if (regexp && input.match(regexp)) {\n unformatFunction = formats[kind].unformat;\n\n break;\n }\n }\n\n unformatFunction = unformatFunction || numeral._.stringToNumber;\n\n value = unformatFunction(input);\n }\n } else {\n value = Number(input)|| null;\n }\n\n return new Numeral(input, value);\n };\n\n // version number\n numeral.version = VERSION;\n\n // compare numeral object\n numeral.isNumeral = function(obj) {\n return obj instanceof Numeral;\n };\n\n // helper functions\n numeral._ = _ = {\n // formats numbers separators, decimals places, signs, abbreviations\n numberToFormat: function(value, format, roundingFunction) {\n var locale = locales[numeral.options.currentLocale],\n negP = false,\n optDec = false,\n leadingCount = 0,\n abbr = '',\n trillion = 1000000000000,\n billion = 1000000000,\n million = 1000000,\n thousand = 1000,\n decimal = '',\n neg = false,\n abbrForce, // force abbreviation\n abs,\n min,\n max,\n power,\n int,\n precision,\n signed,\n thousands,\n output;\n\n // make sure we never format a null value\n value = value || 0;\n\n abs = Math.abs(value);\n\n // see if we should use parentheses for negative number or if we should prefix with a sign\n // if both are present we default to parentheses\n if (numeral._.includes(format, '(')) {\n negP = true;\n format = format.replace(/[\\(|\\)]/g, '');\n } else if (numeral._.includes(format, '+') || numeral._.includes(format, '-')) {\n signed = numeral._.includes(format, '+') ? format.indexOf('+') : value < 0 ? format.indexOf('-') : -1;\n format = format.replace(/[\\+|\\-]/g, '');\n }\n\n // see if abbreviation is wanted\n if (numeral._.includes(format, 'a')) {\n abbrForce = format.match(/a(k|m|b|t)?/);\n\n abbrForce = abbrForce ? abbrForce[1] : false;\n\n // check for space before abbreviation\n if (numeral._.includes(format, ' a')) {\n abbr = ' ';\n }\n\n format = format.replace(new RegExp(abbr + 'a[kmbt]?'), '');\n\n if (abs >= trillion && !abbrForce || abbrForce === 't') {\n // trillion\n abbr += locale.abbreviations.trillion;\n value = value / trillion;\n } else if (abs < trillion && abs >= billion && !abbrForce || abbrForce === 'b') {\n // billion\n abbr += locale.abbreviations.billion;\n value = value / billion;\n } else if (abs < billion && abs >= million && !abbrForce || abbrForce === 'm') {\n // million\n abbr += locale.abbreviations.million;\n value = value / million;\n } else if (abs < million && abs >= thousand && !abbrForce || abbrForce === 'k') {\n // thousand\n abbr += locale.abbreviations.thousand;\n value = value / thousand;\n }\n }\n\n // check for optional decimals\n if (numeral._.includes(format, '[.]')) {\n optDec = true;\n format = format.replace('[.]', '.');\n }\n\n // break number and format\n int = value.toString().split('.')[0];\n precision = format.split('.')[1];\n thousands = format.indexOf(',');\n leadingCount = (format.split('.')[0].split(',')[0].match(/0/g) || []).length;\n\n if (precision) {\n if (numeral._.includes(precision, '[')) {\n precision = precision.replace(']', '');\n precision = precision.split('[');\n decimal = numeral._.toFixed(value, (precision[0].length + precision[1].length), roundingFunction, precision[1].length);\n } else {\n decimal = numeral._.toFixed(value, precision.length, roundingFunction);\n }\n\n int = decimal.split('.')[0];\n\n if (numeral._.includes(decimal, '.')) {\n decimal = locale.delimiters.decimal + decimal.split('.')[1];\n } else {\n decimal = '';\n }\n\n if (optDec && Number(decimal.slice(1)) === 0) {\n decimal = '';\n }\n } else {\n int = numeral._.toFixed(value, 0, roundingFunction);\n }\n\n // check abbreviation again after rounding\n if (abbr && !abbrForce && Number(int) >= 1000 && abbr !== locale.abbreviations.trillion) {\n int = String(Number(int) / 1000);\n\n switch (abbr) {\n case locale.abbreviations.thousand:\n abbr = locale.abbreviations.million;\n break;\n case locale.abbreviations.million:\n abbr = locale.abbreviations.billion;\n break;\n case locale.abbreviations.billion:\n abbr = locale.abbreviations.trillion;\n break;\n }\n }\n\n\n // format number\n if (numeral._.includes(int, '-')) {\n int = int.slice(1);\n neg = true;\n }\n\n if (int.length < leadingCount) {\n for (var i = leadingCount - int.length; i > 0; i--) {\n int = '0' + int;\n }\n }\n\n if (thousands > -1) {\n int = int.toString().replace(/(\\d)(?=(\\d{3})+(?!\\d))/g, '$1' + locale.delimiters.thousands);\n }\n\n if (format.indexOf('.') === 0) {\n int = '';\n }\n\n output = int + decimal + (abbr ? abbr : '');\n\n if (negP) {\n output = (negP && neg ? '(' : '') + output + (negP && neg ? ')' : '');\n } else {\n if (signed >= 0) {\n output = signed === 0 ? (neg ? '-' : '+') + output : output + (neg ? '-' : '+');\n } else if (neg) {\n output = '-' + output;\n }\n }\n\n return output;\n },\n // unformats numbers separators, decimals places, signs, abbreviations\n stringToNumber: function(string) {\n var locale = locales[options.currentLocale],\n stringOriginal = string,\n abbreviations = {\n thousand: 3,\n million: 6,\n billion: 9,\n trillion: 12\n },\n abbreviation,\n value,\n i,\n regexp;\n\n if (options.zeroFormat && string === options.zeroFormat) {\n value = 0;\n } else if (options.nullFormat && string === options.nullFormat || !string.replace(/[^0-9]+/g, '').length) {\n value = null;\n } else {\n value = 1;\n\n if (locale.delimiters.decimal !== '.') {\n string = string.replace(/\\./g, '').replace(locale.delimiters.decimal, '.');\n }\n\n for (abbreviation in abbreviations) {\n regexp = new RegExp('[^a-zA-Z]' + locale.abbreviations[abbreviation] + '(?:\\\\)|(\\\\' + locale.currency.symbol + ')?(?:\\\\))?)?$');\n\n if (stringOriginal.match(regexp)) {\n value *= Math.pow(10, abbreviations[abbreviation]);\n break;\n }\n }\n\n // check for negative number\n value *= (string.split('-').length + Math.min(string.split('(').length - 1, string.split(')').length - 1)) % 2 ? 1 : -1;\n\n // remove non numbers\n string = string.replace(/[^0-9\\.]+/g, '');\n\n value *= Number(string);\n }\n\n return value;\n },\n isNaN: function(value) {\n return typeof value === 'number' && isNaN(value);\n },\n includes: function(string, search) {\n return string.indexOf(search) !== -1;\n },\n insert: function(string, subString, start) {\n return string.slice(0, start) + subString + string.slice(start);\n },\n reduce: function(array, callback /*, initialValue*/) {\n if (this === null) {\n throw new TypeError('Array.prototype.reduce called on null or undefined');\n }\n\n if (typeof callback !== 'function') {\n throw new TypeError(callback + ' is not a function');\n }\n\n var t = Object(array),\n len = t.length >>> 0,\n k = 0,\n value;\n\n if (arguments.length === 3) {\n value = arguments[2];\n } else {\n while (k < len && !(k in t)) {\n k++;\n }\n\n if (k >= len) {\n throw new TypeError('Reduce of empty array with no initial value');\n }\n\n value = t[k++];\n }\n for (; k < len; k++) {\n if (k in t) {\n value = callback(value, t[k], k, t);\n }\n }\n return value;\n },\n /**\n * Computes the multiplier necessary to make x >= 1,\n * effectively eliminating miscalculations caused by\n * finite precision.\n */\n multiplier: function (x) {\n var parts = x.toString().split('.');\n\n return parts.length < 2 ? 1 : Math.pow(10, parts[1].length);\n },\n /**\n * Given a variable number of arguments, returns the maximum\n * multiplier that must be used to normalize an operation involving\n * all of them.\n */\n correctionFactor: function () {\n var args = Array.prototype.slice.call(arguments);\n\n return args.reduce(function(accum, next) {\n var mn = _.multiplier(next);\n return accum > mn ? accum : mn;\n }, 1);\n },\n /**\n * Implementation of toFixed() that treats floats more like decimals\n *\n * Fixes binary rounding issues (eg. (0.615).toFixed(2) === '0.61') that present\n * problems for accounting- and finance-related software.\n */\n toFixed: function(value, maxDecimals, roundingFunction, optionals) {\n var splitValue = value.toString().split('.'),\n minDecimals = maxDecimals - (optionals || 0),\n boundedPrecision,\n optionalsRegExp,\n power,\n output;\n\n // Use the smallest precision value possible to avoid errors from floating point representation\n if (splitValue.length === 2) {\n boundedPrecision = Math.min(Math.max(splitValue[1].length, minDecimals), maxDecimals);\n } else {\n boundedPrecision = minDecimals;\n }\n\n power = Math.pow(10, boundedPrecision);\n\n // Multiply up by precision, round accurately, then divide and use native toFixed():\n output = (roundingFunction(value + 'e+' + boundedPrecision) / power).toFixed(boundedPrecision);\n\n if (optionals > maxDecimals - boundedPrecision) {\n optionalsRegExp = new RegExp('\\\\.?0{1,' + (optionals - (maxDecimals - boundedPrecision)) + '}$');\n output = output.replace(optionalsRegExp, '');\n }\n\n return output;\n }\n };\n\n // avaliable options\n numeral.options = options;\n\n // avaliable formats\n numeral.formats = formats;\n\n // avaliable formats\n numeral.locales = locales;\n\n // This function sets the current locale. If\n // no arguments are passed in, it will simply return the current global\n // locale key.\n numeral.locale = function(key) {\n if (key) {\n options.currentLocale = key.toLowerCase();\n }\n\n return options.currentLocale;\n };\n\n // This function provides access to the loaded locale data. If\n // no arguments are passed in, it will simply return the current\n // global locale object.\n numeral.localeData = function(key) {\n if (!key) {\n return locales[options.currentLocale];\n }\n\n key = key.toLowerCase();\n\n if (!locales[key]) {\n throw new Error('Unknown locale : ' + key);\n }\n\n return locales[key];\n };\n\n numeral.reset = function() {\n for (var property in defaults) {\n options[property] = defaults[property];\n }\n };\n\n numeral.zeroFormat = function(format) {\n options.zeroFormat = typeof(format) === 'string' ? format : null;\n };\n\n numeral.nullFormat = function (format) {\n options.nullFormat = typeof(format) === 'string' ? format : null;\n };\n\n numeral.defaultFormat = function(format) {\n options.defaultFormat = typeof(format) === 'string' ? format : '0.0';\n };\n\n numeral.register = function(type, name, format) {\n name = name.toLowerCase();\n\n if (this[type + 's'][name]) {\n throw new TypeError(name + ' ' + type + ' already registered.');\n }\n\n this[type + 's'][name] = format;\n\n return format;\n };\n\n\n numeral.validate = function(val, culture) {\n var _decimalSep,\n _thousandSep,\n _currSymbol,\n _valArray,\n _abbrObj,\n _thousandRegEx,\n localeData,\n temp;\n\n //coerce val to string\n if (typeof val !== 'string') {\n val += '';\n\n if (console.warn) {\n console.warn('Numeral.js: Value is not string. It has been co-erced to: ', val);\n }\n }\n\n //trim whitespaces from either sides\n val = val.trim();\n\n //if val is just digits return true\n if (!!val.match(/^\\d+$/)) {\n return true;\n }\n\n //if val is empty return false\n if (val === '') {\n return false;\n }\n\n //get the decimal and thousands separator from numeral.localeData\n try {\n //check if the culture is understood by numeral. if not, default it to current locale\n localeData = numeral.localeData(culture);\n } catch (e) {\n localeData = numeral.localeData(numeral.locale());\n }\n\n //setup the delimiters and currency symbol based on culture/locale\n _currSymbol = localeData.currency.symbol;\n _abbrObj = localeData.abbreviations;\n _decimalSep = localeData.delimiters.decimal;\n if (localeData.delimiters.thousands === '.') {\n _thousandSep = '\\\\.';\n } else {\n _thousandSep = localeData.delimiters.thousands;\n }\n\n // validating currency symbol\n temp = val.match(/^[^\\d]+/);\n if (temp !== null) {\n val = val.substr(1);\n if (temp[0] !== _currSymbol) {\n return false;\n }\n }\n\n //validating abbreviation symbol\n temp = val.match(/[^\\d]+$/);\n if (temp !== null) {\n val = val.slice(0, -1);\n if (temp[0] !== _abbrObj.thousand && temp[0] !== _abbrObj.million && temp[0] !== _abbrObj.billion && temp[0] !== _abbrObj.trillion) {\n return false;\n }\n }\n\n _thousandRegEx = new RegExp(_thousandSep + '{2}');\n\n if (!val.match(/[^\\d.,]/g)) {\n _valArray = val.split(_decimalSep);\n if (_valArray.length > 2) {\n return false;\n } else {\n if (_valArray.length < 2) {\n return ( !! _valArray[0].match(/^\\d+.*\\d$/) && !_valArray[0].match(_thousandRegEx));\n } else {\n if (_valArray[0].length === 1) {\n return ( !! _valArray[0].match(/^\\d+$/) && !_valArray[0].match(_thousandRegEx) && !! _valArray[1].match(/^\\d+$/));\n } else {\n return ( !! _valArray[0].match(/^\\d+.*\\d$/) && !_valArray[0].match(_thousandRegEx) && !! _valArray[1].match(/^\\d+$/));\n }\n }\n }\n }\n\n return false;\n };\n\n\n /************************************\n Numeral Prototype\n ************************************/\n\n numeral.fn = Numeral.prototype = {\n clone: function() {\n return numeral(this);\n },\n format: function(inputString, roundingFunction) {\n var value = this._value,\n format = inputString || options.defaultFormat,\n kind,\n output,\n formatFunction;\n\n // make sure we have a roundingFunction\n roundingFunction = roundingFunction || Math.round;\n\n // format based on value\n if (value === 0 && options.zeroFormat !== null) {\n output = options.zeroFormat;\n } else if (value === null && options.nullFormat !== null) {\n output = options.nullFormat;\n } else {\n for (kind in formats) {\n if (format.match(formats[kind].regexps.format)) {\n formatFunction = formats[kind].format;\n\n break;\n }\n }\n\n formatFunction = formatFunction || numeral._.numberToFormat;\n\n output = formatFunction(value, format, roundingFunction);\n }\n\n return output;\n },\n value: function() {\n return this._value;\n },\n input: function() {\n return this._input;\n },\n set: function(value) {\n this._value = Number(value);\n\n return this;\n },\n add: function(value) {\n var corrFactor = _.correctionFactor.call(null, this._value, value);\n\n function cback(accum, curr, currI, O) {\n return accum + Math.round(corrFactor * curr);\n }\n\n this._value = _.reduce([this._value, value], cback, 0) / corrFactor;\n\n return this;\n },\n subtract: function(value) {\n var corrFactor = _.correctionFactor.call(null, this._value, value);\n\n function cback(accum, curr, currI, O) {\n return accum - Math.round(corrFactor * curr);\n }\n\n this._value = _.reduce([value], cback, Math.round(this._value * corrFactor)) / corrFactor;\n\n return this;\n },\n multiply: function(value) {\n function cback(accum, curr, currI, O) {\n var corrFactor = _.correctionFactor(accum, curr);\n return Math.round(accum * corrFactor) * Math.round(curr * corrFactor) / Math.round(corrFactor * corrFactor);\n }\n\n this._value = _.reduce([this._value, value], cback, 1);\n\n return this;\n },\n divide: function(value) {\n function cback(accum, curr, currI, O) {\n var corrFactor = _.correctionFactor(accum, curr);\n return Math.round(accum * corrFactor) / Math.round(curr * corrFactor);\n }\n\n this._value = _.reduce([this._value, value], cback);\n\n return this;\n },\n difference: function(value) {\n return Math.abs(numeral(this._value).subtract(value).value());\n }\n };\n\n /************************************\n Default Locale && Format\n ************************************/\n\n numeral.register('locale', 'en', {\n delimiters: {\n thousands: ',',\n decimal: '.'\n },\n abbreviations: {\n thousand: 'k',\n million: 'm',\n billion: 'b',\n trillion: 't'\n },\n ordinal: function(number) {\n var b = number % 10;\n return (~~(number % 100 / 10) === 1) ? 'th' :\n (b === 1) ? 'st' :\n (b === 2) ? 'nd' :\n (b === 3) ? 'rd' : 'th';\n },\n currency: {\n symbol: '$'\n }\n });\n\n \n\n(function() {\n numeral.register('format', 'bps', {\n regexps: {\n format: /(BPS)/,\n unformat: /(BPS)/\n },\n format: function(value, format, roundingFunction) {\n var space = numeral._.includes(format, ' BPS') ? ' ' : '',\n output;\n\n value = value * 10000;\n\n // check for space before BPS\n format = format.replace(/\\s?BPS/, '');\n\n output = numeral._.numberToFormat(value, format, roundingFunction);\n\n if (numeral._.includes(output, ')')) {\n output = output.split('');\n\n output.splice(-1, 0, space + 'BPS');\n\n output = output.join('');\n } else {\n output = output + space + 'BPS';\n }\n\n return output;\n },\n unformat: function(string) {\n return +(numeral._.stringToNumber(string) * 0.0001).toFixed(15);\n }\n });\n})();\n\n\n(function() {\n var decimal = {\n base: 1000,\n suffixes: ['B', 'KB', 'MB', 'GB', 'TB', 'PB', 'EB', 'ZB', 'YB']\n },\n binary = {\n base: 1024,\n suffixes: ['B', 'KiB', 'MiB', 'GiB', 'TiB', 'PiB', 'EiB', 'ZiB', 'YiB']\n };\n\n var allSuffixes = decimal.suffixes.concat(binary.suffixes.filter(function (item) {\n return decimal.suffixes.indexOf(item) < 0;\n }));\n var unformatRegex = allSuffixes.join('|');\n // Allow support for BPS (http://www.investopedia.com/terms/b/basispoint.asp)\n unformatRegex = '(' + unformatRegex.replace('B', 'B(?!PS)') + ')';\n\n numeral.register('format', 'bytes', {\n regexps: {\n format: /([0\\s]i?b)/,\n unformat: new RegExp(unformatRegex)\n },\n format: function(value, format, roundingFunction) {\n var output,\n bytes = numeral._.includes(format, 'ib') ? binary : decimal,\n suffix = numeral._.includes(format, ' b') || numeral._.includes(format, ' ib') ? ' ' : '',\n power,\n min,\n max;\n\n // check for space before\n format = format.replace(/\\s?i?b/, '');\n\n for (power = 0; power <= bytes.suffixes.length; power++) {\n min = Math.pow(bytes.base, power);\n max = Math.pow(bytes.base, power + 1);\n\n if (value === null || value === 0 || value >= min && value < max) {\n suffix += bytes.suffixes[power];\n\n if (min > 0) {\n value = value / min;\n }\n\n break;\n }\n }\n\n output = numeral._.numberToFormat(value, format, roundingFunction);\n\n return output + suffix;\n },\n unformat: function(string) {\n var value = numeral._.stringToNumber(string),\n power,\n bytesMultiplier;\n\n if (value) {\n for (power = decimal.suffixes.length - 1; power >= 0; power--) {\n if (numeral._.includes(string, decimal.suffixes[power])) {\n bytesMultiplier = Math.pow(decimal.base, power);\n\n break;\n }\n\n if (numeral._.includes(string, binary.suffixes[power])) {\n bytesMultiplier = Math.pow(binary.base, power);\n\n break;\n }\n }\n\n value *= (bytesMultiplier || 1);\n }\n\n return value;\n }\n });\n})();\n\n\n(function() {\n numeral.register('format', 'currency', {\n regexps: {\n format: /(\\$)/\n },\n format: function(value, format, roundingFunction) {\n var locale = numeral.locales[numeral.options.currentLocale],\n symbols = {\n before: format.match(/^([\\+|\\-|\\(|\\s|\\$]*)/)[0],\n after: format.match(/([\\+|\\-|\\)|\\s|\\$]*)$/)[0]\n },\n output,\n symbol,\n i;\n\n // strip format of spaces and $\n format = format.replace(/\\s?\\$\\s?/, '');\n\n // format the number\n output = numeral._.numberToFormat(value, format, roundingFunction);\n\n // update the before and after based on value\n if (value >= 0) {\n symbols.before = symbols.before.replace(/[\\-\\(]/, '');\n symbols.after = symbols.after.replace(/[\\-\\)]/, '');\n } else if (value < 0 && (!numeral._.includes(symbols.before, '-') && !numeral._.includes(symbols.before, '('))) {\n symbols.before = '-' + symbols.before;\n }\n\n // loop through each before symbol\n for (i = 0; i < symbols.before.length; i++) {\n symbol = symbols.before[i];\n\n switch (symbol) {\n case '$':\n output = numeral._.insert(output, locale.currency.symbol, i);\n break;\n case ' ':\n output = numeral._.insert(output, ' ', i + locale.currency.symbol.length - 1);\n break;\n }\n }\n\n // loop through each after symbol\n for (i = symbols.after.length - 1; i >= 0; i--) {\n symbol = symbols.after[i];\n\n switch (symbol) {\n case '$':\n output = i === symbols.after.length - 1 ? output + locale.currency.symbol : numeral._.insert(output, locale.currency.symbol, -(symbols.after.length - (1 + i)));\n break;\n case ' ':\n output = i === symbols.after.length - 1 ? output + ' ' : numeral._.insert(output, ' ', -(symbols.after.length - (1 + i) + locale.currency.symbol.length - 1));\n break;\n }\n }\n\n\n return output;\n }\n });\n})();\n\n\n(function() {\n numeral.register('format', 'exponential', {\n regexps: {\n format: /(e\\+|e-)/,\n unformat: /(e\\+|e-)/\n },\n format: function(value, format, roundingFunction) {\n var output,\n exponential = typeof value === 'number' && !numeral._.isNaN(value) ? value.toExponential() : '0e+0',\n parts = exponential.split('e');\n\n format = format.replace(/e[\\+|\\-]{1}0/, '');\n\n output = numeral._.numberToFormat(Number(parts[0]), format, roundingFunction);\n\n return output + 'e' + parts[1];\n },\n unformat: function(string) {\n var parts = numeral._.includes(string, 'e+') ? string.split('e+') : string.split('e-'),\n value = Number(parts[0]),\n power = Number(parts[1]);\n\n power = numeral._.includes(string, 'e-') ? power *= -1 : power;\n\n function cback(accum, curr, currI, O) {\n var corrFactor = numeral._.correctionFactor(accum, curr),\n num = (accum * corrFactor) * (curr * corrFactor) / (corrFactor * corrFactor);\n return num;\n }\n\n return numeral._.reduce([value, Math.pow(10, power)], cback, 1);\n }\n });\n})();\n\n\n(function() {\n numeral.register('format', 'ordinal', {\n regexps: {\n format: /(o)/\n },\n format: function(value, format, roundingFunction) {\n var locale = numeral.locales[numeral.options.currentLocale],\n output,\n ordinal = numeral._.includes(format, ' o') ? ' ' : '';\n\n // check for space before\n format = format.replace(/\\s?o/, '');\n\n ordinal += locale.ordinal(value);\n\n output = numeral._.numberToFormat(value, format, roundingFunction);\n\n return output + ordinal;\n }\n });\n})();\n\n\n(function() {\n numeral.register('format', 'percentage', {\n regexps: {\n format: /(%)/,\n unformat: /(%)/\n },\n format: function(value, format, roundingFunction) {\n var space = numeral._.includes(format, ' %') ? ' ' : '',\n output;\n\n if (numeral.options.scalePercentBy100) {\n value = value * 100;\n }\n\n // check for space before %\n format = format.replace(/\\s?\\%/, '');\n\n output = numeral._.numberToFormat(value, format, roundingFunction);\n\n if (numeral._.includes(output, ')')) {\n output = output.split('');\n\n output.splice(-1, 0, space + '%');\n\n output = output.join('');\n } else {\n output = output + space + '%';\n }\n\n return output;\n },\n unformat: function(string) {\n var number = numeral._.stringToNumber(string);\n if (numeral.options.scalePercentBy100) {\n return number * 0.01;\n }\n return number;\n }\n });\n})();\n\n\n(function() {\n numeral.register('format', 'time', {\n regexps: {\n format: /(:)/,\n unformat: /(:)/\n },\n format: function(value, format, roundingFunction) {\n var hours = Math.floor(value / 60 / 60),\n minutes = Math.floor((value - (hours * 60 * 60)) / 60),\n seconds = Math.round(value - (hours * 60 * 60) - (minutes * 60));\n\n return hours + ':' + (minutes < 10 ? '0' + minutes : minutes) + ':' + (seconds < 10 ? '0' + seconds : seconds);\n },\n unformat: function(string) {\n var timeArray = string.split(':'),\n seconds = 0;\n\n // turn hours and minutes into seconds and add them all up\n if (timeArray.length === 3) {\n // hours\n seconds = seconds + (Number(timeArray[0]) * 60 * 60);\n // minutes\n seconds = seconds + (Number(timeArray[1]) * 60);\n // seconds\n seconds = seconds + Number(timeArray[2]);\n } else if (timeArray.length === 2) {\n // minutes\n seconds = seconds + (Number(timeArray[0]) * 60);\n // seconds\n seconds = seconds + Number(timeArray[1]);\n }\n return Number(seconds);\n }\n });\n})();\n\nreturn numeral;\n}));\n"],"names":[],"sourceRoot":""}