package ccp_IN import ( "math" "strconv" "time" "github.com/go-playground/locales" "github.com/go-playground/locales/currency" ) type ccp_IN struct { locale string pluralsCardinal []locales.PluralRule pluralsOrdinal []locales.PluralRule pluralsRange []locales.PluralRule decimal string group string minus string percent string perMille string timeSeparator string inifinity string currencies []string // idx = enum of currency code monthsAbbreviated []string monthsNarrow []string monthsWide []string daysAbbreviated []string daysNarrow []string daysShort []string daysWide []string periodsAbbreviated []string periodsNarrow []string periodsShort []string periodsWide []string erasAbbreviated []string erasNarrow []string erasWide []string timezones map[string]string } // New returns a new instance of translator for the 'ccp_IN' locale func New() locales.Translator { return &ccp_IN{ locale: "ccp_IN", pluralsCardinal: nil, pluralsOrdinal: nil, pluralsRange: nil, decimal: ".", percent: "%", perMille: "‰", timeSeparator: ":", inifinity: "∞", currencies: []string{"ADP", "AED", "AFA", "AFN", "ALK", "ALL", "AMD", "ANG", "AOA", "AOK", "AON", "AOR", "ARA", "ARL", "ARM", "ARP", "ARS", "ATS", "AUD", "AWG", "AZM", "AZN", "BAD", "BAM", "BAN", "BBD", "BDT", "BEC", "BEF", "BEL", "BGL", "BGM", "BGN", "BGO", "BHD", "BIF", "BMD", "BND", "BOB", "BOL", "BOP", "BOV", "BRB", "BRC", "BRE", "BRL", "BRN", "BRR", "BRZ", "BSD", "BTN", "BUK", "BWP", "BYB", "BYN", "BYR", "BZD", "CAD", "CDF", "CHE", "CHF", "CHW", "CLE", "CLF", "CLP", "CNH", "CNX", "CNY", "COP", "COU", "CRC", "CSD", "CSK", "CUC", "CUP", "CVE", "CYP", "CZK", "DDM", "DEM", "DJF", "DKK", "DOP", "DZD", "ECS", "ECV", "EEK", "EGP", "ERN", "ESA", "ESB", "ESP", "ETB", "EUR", "FIM", "FJD", "FKP", "FRF", "GBP", "GEK", "GEL", "GHC", "GHS", "GIP", "GMD", "GNF", "GNS", "GQE", "GRD", "GTQ", "GWE", "GWP", "GYD", "HKD", "HNL", "HRD", "HRK", "HTG", "HUF", "IDR", "IEP", "ILP", "ILR", "ILS", "INR", "IQD", "IRR", "ISJ", "ISK", "ITL", "JMD", "JOD", "JPY", "KES", "KGS", "KHR", "KMF", "KPW", "KRH", "KRO", "KRW", "KWD", "KYD", "KZT", "LAK", "LBP", "LKR", "LRD", "LSL", "LTL", "LTT", "LUC", "LUF", "LUL", "LVL", "LVR", "LYD", "MAD", "MAF", "MCF", "MDC", "MDL", "MGA", "MGF", "MKD", "MKN", "MLF", "MMK", "MNT", "MOP", "MRO", "MTL", "MTP", "MUR", "MVP", "MVR", "MWK", "MXN", "MXP", "MXV", "MYR", "MZE", "MZM", "MZN", "NAD", "NGN", "NIC", "NIO", "NLG", "NOK", "NPR", "NZD", "OMR", "PAB", "PEI", "PEN", "PES", "PGK", "PHP", "PKR", "PLN", "PLZ", "PTE", "PYG", "QAR", "RHD", "ROL", "RON", "RSD", "RUB", "RUR", "RWF", "SAR", "SBD", "SCR", "SDD", "SDG", "SDP", "SEK", "SGD", "SHP", "SIT", "SKK", "SLL", "SOS", "SRD", "SRG", "SSP", "STD", "STN", "SUR", "SVC", "SYP", "SZL", "THB", "TJR", "TJS", "TMM", "TMT", "TND", "TOP", "TPE", "TRL", "TRY", "TTD", "TWD", "TZS", "UAH", "UAK", "UGS", "UGX", "USD", "USN", "USS", "UYI", "UYP", "UYU", "UZS", "VEB", "VEF", "VND", "VNN", "VUV", "WST", "XAF", "XAG", "XAU", "XBA", "XBB", "XBC", "XBD", "XCD", "XDR", "XEU", "XFO", "XFU", "XOF", "XPD", "XPF", "XPT", "XRE", "XSU", "XTS", "XUA", "XXX", "YDD", "YER", "YUD", "YUM", "YUN", "YUR", "ZAL", "ZAR", "ZMK", "ZMW", "ZRN", "ZRZ", "ZWD", "ZWL", "ZWR"}, monthsAbbreviated: []string{"", "𑄎𑄚𑄪", "𑄜𑄬𑄛𑄴", "𑄟𑄢𑄴𑄌𑄧", "𑄃𑄬𑄛𑄳𑄢𑄨𑄣𑄴", "𑄟𑄬", "𑄎𑄪𑄚𑄴", "𑄎𑄪𑄣𑄭", "𑄃𑄉𑄧𑄌𑄴𑄑𑄴", "𑄥𑄬𑄛𑄴𑄑𑄬𑄟𑄴𑄝𑄧𑄢𑄴", "𑄃𑄧𑄇𑄴𑄑𑄮𑄝𑄧𑄢𑄴", "𑄚𑄧𑄞𑄬𑄟𑄴𑄝𑄧𑄢𑄴", "𑄓𑄨𑄥𑄬𑄟𑄴𑄝𑄢𑄴"}, monthsNarrow: []string{"", "𑄎", "𑄜𑄬", "𑄟", "𑄃𑄬", "𑄟𑄬", "𑄎𑄪𑄚𑄴", "𑄎𑄪", "𑄃", "𑄥𑄬", "𑄃𑄧", "𑄚𑄧", "𑄓𑄨"}, monthsWide: []string{"", "𑄎𑄚𑄪𑄠𑄢𑄨", "𑄜𑄬𑄛𑄴𑄝𑄳𑄢𑄪𑄠𑄢𑄨", "𑄟𑄢𑄴𑄌𑄧", "𑄃𑄬𑄛𑄳𑄢𑄨𑄣𑄴", "𑄟𑄬", "𑄎𑄪𑄚𑄴", "𑄎𑄪𑄣𑄭", "𑄃𑄉𑄧𑄌𑄴𑄑𑄴", "𑄥𑄬𑄛𑄴𑄑𑄬𑄟𑄴𑄝𑄧𑄢𑄴", "𑄃𑄧𑄇𑄴𑄑𑄬𑄝𑄧𑄢𑄴", "𑄚𑄧𑄞𑄬𑄟𑄴𑄝𑄧𑄢𑄴", "𑄓𑄨𑄥𑄬𑄟𑄴𑄝𑄧𑄢𑄴"}, daysAbbreviated: []string{"𑄢𑄧𑄝𑄨", "𑄥𑄧𑄟𑄴", "𑄟𑄧𑄁𑄉𑄧𑄣𑄴", "𑄝𑄪𑄖𑄴", "𑄝𑄳𑄢𑄨𑄥𑄪𑄛𑄴", "𑄥𑄪𑄇𑄴𑄇𑄮𑄢𑄴", "𑄥𑄧𑄚𑄨"}, daysNarrow: []string{"𑄢𑄧", "𑄥𑄧", "𑄟𑄧", "𑄝𑄪", "𑄝𑄳𑄢𑄨", "𑄥𑄪", "𑄥𑄧"}, daysWide: []string{"𑄢𑄧𑄝𑄨𑄝𑄢𑄴", "𑄥𑄧𑄟𑄴𑄝𑄢𑄴", "𑄟𑄧𑄁𑄉𑄧𑄣𑄴𑄝𑄢𑄴", "𑄝𑄪𑄖𑄴𑄝𑄢𑄴", "𑄝𑄳𑄢𑄨𑄥𑄪𑄛𑄴𑄝𑄢𑄴", "𑄥𑄪𑄇𑄴𑄇𑄮𑄢𑄴𑄝𑄢𑄴", "𑄥𑄧𑄚𑄨𑄝𑄢𑄴"}, periodsAbbreviated: []string{"AM", "PM"}, periodsNarrow: []string{"AM", "PM"}, periodsWide: []string{"AM", "PM"}, erasAbbreviated: []string{"", ""}, erasNarrow: []string{"", ""}, erasWide: []string{"", ""}, timezones: map[string]string{"HADT": "𑄦𑄧𑄃𑄮𑄠𑄭-𑄃𑄣𑄬𑄃𑄪𑄖𑄴 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "UYT": "𑄃𑄪𑄢𑄪𑄉𑄪𑄠𑄬 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HNOG": "𑄛𑄧𑄏𑄨𑄟𑄬𑄘𑄨 𑄉𑄳𑄢𑄨𑄚𑄴𑄣𑄳𑄠𑄚𑄴𑄓𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "SRT": "𑄥𑄪𑄢𑄨𑄚𑄟𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "WAT": "𑄛𑄧𑄏𑄨𑄟𑄬𑄘𑄨 𑄃𑄜𑄳𑄢𑄨𑄇 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "NZDT": "𑄚𑄨𑄃𑄪𑄎𑄨𑄣𑄳𑄠𑄚𑄴𑄓𑄴 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "GFT": "𑄜𑄧𑄢𑄥𑄨 𑄉𑄠𑄚 𑄃𑄧𑄇𑄴𑄖𑄧", "HAST": "𑄦𑄧𑄃𑄮𑄠𑄭-𑄃𑄣𑄬𑄃𑄪𑄖𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "MST": "𑄦𑄨𑄣𑄧𑄧𑄱 𑄞𑄨𑄘𑄬𑄢𑄴 𑄛𑄳𑄢𑄧𑄟𑄚𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "MDT": "𑄦𑄨𑄣𑄧𑄧𑄱 𑄞𑄨𑄘𑄬𑄢𑄴 𑄘𑄨𑄚𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HNPM": "𑄥𑄬𑄚𑄴𑄑𑄴 𑄛𑄨𑄠𑄬𑄢𑄴 𑄃𑄮 𑄟𑄨𑄇𑄬𑄣𑄧𑄚𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "CAT": "𑄟𑄧𑄖𑄴𑄙𑄳𑄠 𑄃𑄜𑄳𑄢𑄨𑄇 𑄃𑄧𑄇𑄴𑄖𑄧", "CLT": "𑄌𑄨𑄣𑄨 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "TMT": "𑄖𑄪𑄢𑄴𑄇𑄴𑄟𑄬𑄚𑄨𑄌𑄴𑄖𑄚𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "WEZ": "𑄛𑄧𑄏𑄨𑄟𑄬𑄘𑄨 𑄃𑄨𑄃𑄪𑄢𑄮𑄝𑄮𑄢𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "NZST": "𑄚𑄨𑄃𑄪𑄎𑄨𑄣𑄳𑄠𑄚𑄴𑄓𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HEOG": "𑄛𑄧𑄏𑄨𑄟𑄬𑄘𑄨 𑄉𑄳𑄢𑄨𑄚𑄴𑄣𑄳𑄠𑄚𑄴𑄓𑄴 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "WART": "𑄛𑄧𑄏𑄨𑄟𑄬𑄘𑄨 𑄃𑄢𑄴𑄎𑄬𑄚𑄴𑄑𑄨𑄚 𑄛𑄳𑄢𑄧𑄟𑄚𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HAT": "𑄚𑄨𑄃𑄪𑄜𑄃𑄪𑄚𑄴𑄣𑄳𑄠𑄚𑄴𑄓𑄨 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "PST": "𑄛𑄳𑄢𑄧𑄥𑄚𑄴𑄖𑄧 𑄟𑄧𑄦𑄥𑄉𑄧𑄢𑄧𑄢𑄴 𑄞𑄨𑄘𑄬𑄢𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "SGT": "𑄥𑄨𑄁𑄉𑄛𑄪𑄢 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "AST": "𑄃𑄑𑄴𑄣𑄚𑄴𑄖𑄨𑄉𑄮𑄢𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "WESZ": "𑄛𑄧𑄏𑄬𑄟𑄬𑄘𑄨 𑄃𑄨𑄃𑄪𑄢𑄮𑄝𑄮𑄢𑄴 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "BT": "𑄞𑄪𑄑𑄚𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "MYT": "𑄟𑄣𑄴𑄠𑄬𑄥𑄨𑄠 𑄃𑄧𑄇𑄴𑄖𑄧", "LHDT": "𑄣𑄧𑄢𑄴𑄓𑄴 𑄦𑄤𑄬 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "OEZ": "𑄛𑄪𑄉𑄬𑄘𑄨 𑄃𑄨𑄃𑄪𑄢𑄮𑄝𑄮𑄢𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "ChST": "𑄌𑄟𑄬𑄢𑄮 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HECU": "𑄇𑄨𑄃𑄪𑄝 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "ACWDT": "𑄃𑄧𑄌𑄴𑄑𑄳𑄢𑄬𑄣𑄨𑄠𑄧 𑄃𑄏𑄧𑄣𑄴 𑄉𑄧𑄢𑄳𑄦𑄢𑄴 𑄛𑄧𑄏𑄨𑄟𑄬𑄘𑄨 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "COST": "𑄇𑄧𑄣𑄧𑄟𑄴𑄝𑄨𑄠 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "GYT": "𑄉𑄪𑄠𑄚 𑄃𑄧𑄇𑄴𑄖𑄧", "AEST": "𑄃𑄧𑄌𑄴𑄑𑄳𑄢𑄬𑄣𑄨𑄠𑄧 𑄛𑄪𑄉𑄬𑄘𑄨 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "AKDT": "𑄃𑄣𑄌𑄴𑄇 𑄘𑄨𑄚𑄮𑄃𑄣𑄮 𑄃𑄧𑄇𑄴𑄖𑄧", "LHST": "𑄣𑄧𑄢𑄴𑄓𑄴 𑄦𑄤𑄬 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "WITA": "𑄃𑄏𑄧𑄣𑄴 𑄉𑄢𑄳𑄦 𑄃𑄨𑄚𑄴𑄘𑄮𑄚𑄬𑄥𑄨𑄠 𑄃𑄧𑄇𑄴𑄖𑄧", "EAT": "𑄛𑄪𑄉𑄬𑄘𑄨 𑄃𑄜𑄳𑄢𑄨𑄇 𑄃𑄧𑄇𑄴𑄖𑄧", "UYST": "𑄃𑄪𑄢𑄪𑄉𑄪𑄠𑄬 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HNCU": "𑄇𑄨𑄃𑄪𑄝 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "WIB": "𑄛𑄧𑄏𑄨𑄟𑄬𑄘𑄨 𑄃𑄨𑄚𑄴𑄘𑄮𑄚𑄬𑄥𑄨𑄠 𑄃𑄧𑄇𑄴𑄖𑄧", "HEPMX": "𑄟𑄬𑄇𑄴𑄥𑄨𑄇𑄚𑄴 𑄛𑄳𑄢𑄧𑄥𑄚𑄴𑄖𑄧 𑄟𑄧𑄦𑄥𑄉𑄧𑄢𑄧𑄢𑄴 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "WARST": "𑄛𑄧𑄏𑄨𑄟𑄬𑄘𑄨 𑄃𑄢𑄴𑄎𑄬𑄚𑄴𑄑𑄨𑄚 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "EST": "𑄛𑄪𑄉𑄮 𑄞𑄨𑄘𑄬𑄢𑄴 𑄛𑄳𑄢𑄧𑄟𑄚𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "VET": "𑄞𑄬𑄚𑄬𑄎𑄪𑄠𑄬𑄣 𑄃𑄧𑄇𑄴𑄖𑄧", "HEPM": "𑄥𑄬𑄚𑄴𑄑𑄴 𑄛𑄨𑄠𑄬𑄢𑄴 𑄃𑄮 𑄟𑄨𑄇𑄬𑄣𑄧𑄚𑄴 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HNNOMX": "𑄃𑄪𑄖𑄴𑄖𑄮𑄢𑄴 𑄛𑄧𑄏𑄨𑄟𑄴 𑄟𑄬𑄇𑄴𑄥𑄨𑄇𑄮𑄢𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "GMT": "𑄉𑄳𑄢𑄨𑄚𑄨𑄌𑄴 𑄟𑄨𑄚𑄴 𑄑𑄬𑄟𑄴", "PDT": "𑄛𑄳𑄢𑄧𑄥𑄚𑄴𑄖𑄧 𑄟𑄧𑄦𑄥𑄉𑄧𑄢𑄧𑄢𑄴 𑄞𑄨𑄘𑄬𑄢𑄴 𑄘𑄨𑄚𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "AKST": "𑄃𑄣𑄌𑄴𑄇 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "MEZ": "𑄟𑄧𑄖𑄴𑄙𑄳𑄠 𑄃𑄨𑄃𑄪𑄢𑄮𑄝𑄮𑄢𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "COT": "𑄇𑄧𑄣𑄧𑄟𑄴𑄝𑄨𑄠 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "BOT": "𑄝𑄮𑄣𑄨𑄞𑄨𑄠 𑄃𑄧𑄇𑄴𑄖𑄧", "JST": "𑄎𑄛𑄚𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "AWDT": "𑄃𑄧𑄌𑄴𑄑𑄳𑄢𑄬𑄣𑄨𑄠𑄧 𑄛𑄧𑄏𑄨𑄟𑄬𑄘𑄨 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "ACDT": "𑄃𑄧𑄌𑄴𑄑𑄳𑄢𑄬𑄣𑄨𑄠𑄧 𑄃𑄏𑄧𑄣𑄴 𑄉𑄧𑄢𑄳𑄦𑄢𑄴 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "CLST": "𑄌𑄨𑄣𑄨 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "∅∅∅": "𑄝𑄳𑄢𑄥𑄨𑄣𑄨𑄠 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "CDT": "𑄃𑄏𑄧𑄣𑄴 𑄉𑄧𑄢𑄳𑄦 𑄘𑄨𑄚𑄮𑄃𑄣𑄮 𑄃𑄧𑄇𑄴𑄖𑄧", "ADT": "𑄃𑄑𑄴𑄣𑄚𑄴𑄖𑄨𑄉𑄮𑄢𑄴 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "WIT": "𑄛𑄪𑄉𑄬𑄘𑄨 𑄃𑄨𑄚𑄴𑄘𑄮𑄚𑄬𑄥𑄨𑄠 𑄃𑄧𑄇𑄴𑄖𑄧", "ACST": "𑄃𑄧𑄌𑄴𑄑𑄳𑄢𑄬𑄣𑄨𑄠𑄧 𑄃𑄏𑄧𑄣𑄴 𑄉𑄧𑄢𑄳𑄦𑄢𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HNEG": "𑄛𑄪𑄉𑄬𑄘𑄨 𑄉𑄳𑄢𑄨𑄚𑄴𑄣𑄳𑄠𑄚𑄴𑄓𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HKST": "𑄦𑄧𑄁 𑄇𑄧𑄁 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "IST": "𑄃𑄨𑄚𑄴𑄘𑄨𑄠𑄬 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "ART": "𑄃𑄢𑄴𑄎𑄬𑄚𑄴𑄑𑄨𑄚 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "ARST": "𑄃𑄢𑄴𑄎𑄬𑄚𑄴𑄑𑄨𑄚 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "CST": "𑄃𑄏𑄧𑄣𑄴 𑄉𑄧𑄢𑄳𑄦 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "ECT": "𑄃𑄨𑄇𑄪𑄠𑄬𑄓𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HEEG": "𑄛𑄪𑄉𑄬𑄘𑄨 𑄉𑄳𑄢𑄨𑄚𑄴𑄣𑄳𑄠𑄚𑄴𑄓𑄴 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HNT": "𑄚𑄨𑄃𑄪𑄜𑄃𑄪𑄚𑄴𑄣𑄳𑄠𑄚𑄴𑄓𑄨 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "CHADT": "𑄌𑄳𑄠𑄗𑄟𑄴 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HNPMX": "𑄟𑄬𑄇𑄴𑄥𑄨𑄇𑄚𑄴 𑄛𑄳𑄢𑄧𑄥𑄚𑄴𑄖𑄧 𑄟𑄧𑄦𑄥𑄉𑄧𑄢𑄧𑄢𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HKT": "𑄦𑄧𑄁 𑄇𑄧𑄁 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "OESZ": "𑄛𑄪𑄉𑄬𑄘𑄨 𑄃𑄨𑄃𑄪𑄢𑄮𑄝𑄮𑄢𑄴 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "AEDT": "𑄃𑄧𑄌𑄴𑄑𑄳𑄢𑄬𑄣𑄨𑄠𑄧 𑄛𑄪𑄉𑄬𑄘𑄨 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "ACWST": "𑄃𑄧𑄌𑄴𑄑𑄳𑄢𑄬𑄣𑄨𑄠𑄧 𑄃𑄏𑄧𑄣𑄴 𑄉𑄧𑄢𑄳𑄦𑄢𑄴 𑄛𑄧𑄏𑄨𑄟𑄬𑄘𑄨 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "SAST": "𑄘𑄧𑄉𑄨𑄚𑄴 𑄃𑄜𑄳𑄢𑄨𑄇 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "WAST": "𑄛𑄧𑄏𑄨𑄟𑄬𑄘𑄨 𑄃𑄜𑄳𑄢𑄨𑄇 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "JDT": "𑄎𑄛𑄚𑄴 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "EDT": "𑄛𑄪𑄉𑄮 𑄞𑄨𑄘𑄬𑄢𑄴 𑄘𑄨𑄚𑄮𑄃𑄣𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "MESZ": "𑄟𑄧𑄖𑄴𑄙𑄳𑄠 𑄃𑄨𑄃𑄪𑄢𑄮𑄝𑄮𑄢𑄴 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "HENOMX": "𑄃𑄪𑄖𑄴𑄖𑄮𑄢𑄴 𑄛𑄧𑄏𑄨𑄟𑄴 𑄟𑄬𑄇𑄴𑄥𑄨𑄇𑄮𑄢𑄴 𑄘𑄨𑄚𑄮𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "CHAST": "𑄌𑄳𑄠𑄗𑄟𑄴 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "AWST": "𑄃𑄧𑄌𑄴𑄑𑄳𑄢𑄬𑄣𑄨𑄠𑄧 𑄛𑄧𑄏𑄨𑄟𑄬𑄘𑄨 𑄟𑄚𑄧𑄇𑄴 𑄃𑄧𑄇𑄴𑄖𑄧", "TMST": "𑄖𑄪𑄢𑄴𑄇𑄴𑄟𑄬𑄚𑄨𑄌𑄴𑄖𑄚𑄴 𑄉𑄧𑄢𑄧𑄟𑄴𑄇𑄣𑄧𑄢𑄴 𑄃𑄧𑄇𑄴𑄖𑄧"}, } } // Locale returns the current translators string locale func (ccp *ccp_IN) Locale() string { return ccp.locale } // PluralsCardinal returns the list of cardinal plural rules associated with 'ccp_IN' func (ccp *ccp_IN) PluralsCardinal() []locales.PluralRule { return ccp.pluralsCardinal } // PluralsOrdinal returns the list of ordinal plural rules associated with 'ccp_IN' func (ccp *ccp_IN) PluralsOrdinal() []locales.PluralRule { return ccp.pluralsOrdinal } // PluralsRange returns the list of range plural rules associated with 'ccp_IN' func (ccp *ccp_IN) PluralsRange() []locales.PluralRule { return ccp.pluralsRange } // CardinalPluralRule returns the cardinal PluralRule given 'num' and digits/precision of 'v' for 'ccp_IN' func (ccp *ccp_IN) CardinalPluralRule(num float64, v uint64) locales.PluralRule { return locales.PluralRuleUnknown } // OrdinalPluralRule returns the ordinal PluralRule given 'num' and digits/precision of 'v' for 'ccp_IN' func (ccp *ccp_IN) OrdinalPluralRule(num float64, v uint64) locales.PluralRule { return locales.PluralRuleUnknown } // RangePluralRule returns the ordinal PluralRule given 'num1', 'num2' and digits/precision of 'v1' and 'v2' for 'ccp_IN' func (ccp *ccp_IN) RangePluralRule(num1 float64, v1 uint64, num2 float64, v2 uint64) locales.PluralRule { return locales.PluralRuleUnknown } // MonthAbbreviated returns the locales abbreviated month given the 'month' provided func (ccp *ccp_IN) MonthAbbreviated(month time.Month) string { return ccp.monthsAbbreviated[month] } // MonthsAbbreviated returns the locales abbreviated months func (ccp *ccp_IN) MonthsAbbreviated() []string { return ccp.monthsAbbreviated[1:] } // MonthNarrow returns the locales narrow month given the 'month' provided func (ccp *ccp_IN) MonthNarrow(month time.Month) string { return ccp.monthsNarrow[month] } // MonthsNarrow returns the locales narrow months func (ccp *ccp_IN) MonthsNarrow() []string { return ccp.monthsNarrow[1:] } // MonthWide returns the locales wide month given the 'month' provided func (ccp *ccp_IN) MonthWide(month time.Month) string { return ccp.monthsWide[month] } // MonthsWide returns the locales wide months func (ccp *ccp_IN) MonthsWide() []string { return ccp.monthsWide[1:] } // WeekdayAbbreviated returns the locales abbreviated weekday given the 'weekday' provided func (ccp *ccp_IN) WeekdayAbbreviated(weekday time.Weekday) string { return ccp.daysAbbreviated[weekday] } // WeekdaysAbbreviated returns the locales abbreviated weekdays func (ccp *ccp_IN) WeekdaysAbbreviated() []string { return ccp.daysAbbreviated } // WeekdayNarrow returns the locales narrow weekday given the 'weekday' provided func (ccp *ccp_IN) WeekdayNarrow(weekday time.Weekday) string { return ccp.daysNarrow[weekday] } // WeekdaysNarrow returns the locales narrow weekdays func (ccp *ccp_IN) WeekdaysNarrow() []string { return ccp.daysNarrow } // WeekdayShort returns the locales short weekday given the 'weekday' provided func (ccp *ccp_IN) WeekdayShort(weekday time.Weekday) string { return ccp.daysShort[weekday] } // WeekdaysShort returns the locales short weekdays func (ccp *ccp_IN) WeekdaysShort() []string { return ccp.daysShort } // WeekdayWide returns the locales wide weekday given the 'weekday' provided func (ccp *ccp_IN) WeekdayWide(weekday time.Weekday) string { return ccp.daysWide[weekday] } // WeekdaysWide returns the locales wide weekdays func (ccp *ccp_IN) WeekdaysWide() []string { return ccp.daysWide } // Decimal returns the decimal point of number func (ccp *ccp_IN) Decimal() string { return ccp.decimal } // Group returns the group of number func (ccp *ccp_IN) Group() string { return ccp.group } // Group returns the minus sign of number func (ccp *ccp_IN) Minus() string { return ccp.minus } // FmtNumber returns 'num' with digits/precision of 'v' for 'ccp_IN' and handles both Whole and Real numbers based on 'v' func (ccp *ccp_IN) FmtNumber(num float64, v uint64) string { s := strconv.FormatFloat(math.Abs(num), 'f', int(v), 64) l := len(s) + 1 count := 0 inWhole := v == 0 inSecondary := false groupThreshold := 3 b := make([]byte, 0, l) for i := len(s) - 1; i >= 0; i-- { if s[i] == '.' { b = append(b, ccp.decimal[0]) inWhole = true continue } if inWhole { if count == groupThreshold { b = append(b, ccp.group[0]) count = 1 if !inSecondary { inSecondary = true groupThreshold = 2 } } else { count++ } } b = append(b, s[i]) } if num < 0 { b = append(b, ccp.minus[0]) } // reverse for i, j := 0, len(b)-1; i < j; i, j = i+1, j-1 { b[i], b[j] = b[j], b[i] } return string(b) } // FmtPercent returns 'num' with digits/precision of 'v' for 'ccp_IN' and handles both Whole and Real numbers based on 'v' // NOTE: 'num' passed into FmtPercent is assumed to be in percent already func (ccp *ccp_IN) FmtPercent(num float64, v uint64) string { s := strconv.FormatFloat(math.Abs(num), 'f', int(v), 64) l := len(s) + 2 b := make([]byte, 0, l) for i := len(s) - 1; i >= 0; i-- { if s[i] == '.' { b = append(b, ccp.decimal[0]) continue } b = append(b, s[i]) } if num < 0 { b = append(b, ccp.minus[0]) } // reverse for i, j := 0, len(b)-1; i < j; i, j = i+1, j-1 { b[i], b[j] = b[j], b[i] } b = append(b, ccp.percent...) return string(b) } // FmtCurrency returns the currency representation of 'num' with digits/precision of 'v' for 'ccp_IN' func (ccp *ccp_IN) FmtCurrency(num float64, v uint64, currency currency.Type) string { s := strconv.FormatFloat(math.Abs(num), 'f', int(v), 64) symbol := ccp.currencies[currency] l := len(s) + len(symbol) + 1 count := 0 inWhole := v == 0 inSecondary := false groupThreshold := 3 b := make([]byte, 0, l) for i := len(s) - 1; i >= 0; i-- { if s[i] == '.' { b = append(b, ccp.decimal[0]) inWhole = true continue } if inWhole { if count == groupThreshold { b = append(b, ccp.group[0]) count = 1 if !inSecondary { inSecondary = true groupThreshold = 2 } } else { count++ } } b = append(b, s[i]) } if num < 0 { b = append(b, ccp.minus[0]) } // reverse for i, j := 0, len(b)-1; i < j; i, j = i+1, j-1 { b[i], b[j] = b[j], b[i] } if int(v) < 2 { if v == 0 { b = append(b, ccp.decimal...) } for i := 0; i < 2-int(v); i++ { b = append(b, '0') } } b = append(b, symbol...) return string(b) } // FmtAccounting returns the currency representation of 'num' with digits/precision of 'v' for 'ccp_IN' // in accounting notation. func (ccp *ccp_IN) FmtAccounting(num float64, v uint64, currency currency.Type) string { s := strconv.FormatFloat(math.Abs(num), 'f', int(v), 64) symbol := ccp.currencies[currency] l := len(s) + len(symbol) + 1 count := 0 inWhole := v == 0 inSecondary := false groupThreshold := 3 b := make([]byte, 0, l) for i := len(s) - 1; i >= 0; i-- { if s[i] == '.' { b = append(b, ccp.decimal[0]) inWhole = true continue } if inWhole { if count == groupThreshold { b = append(b, ccp.group[0]) count = 1 if !inSecondary { inSecondary = true groupThreshold = 2 } } else { count++ } } b = append(b, s[i]) } if num < 0 { b = append(b, ccp.minus[0]) } // reverse for i, j := 0, len(b)-1; i < j; i, j = i+1, j-1 { b[i], b[j] = b[j], b[i] } if int(v) < 2 { if v == 0 { b = append(b, ccp.decimal...) } for i := 0; i < 2-int(v); i++ { b = append(b, '0') } } if num < 0 { b = append(b, symbol...) } else { b = append(b, symbol...) } return string(b) } // FmtDateShort returns the short date representation of 't' for 'ccp_IN' func (ccp *ccp_IN) FmtDateShort(t time.Time) string { b := make([]byte, 0, 32) b = strconv.AppendInt(b, int64(t.Day()), 10) b = append(b, []byte{0x2f}...) b = strconv.AppendInt(b, int64(t.Month()), 10) b = append(b, []byte{0x2f}...) if t.Year() > 9 { b = append(b, strconv.Itoa(t.Year())[2:]...) } else { b = append(b, strconv.Itoa(t.Year())[1:]...) } return string(b) } // FmtDateMedium returns the medium date representation of 't' for 'ccp_IN' func (ccp *ccp_IN) FmtDateMedium(t time.Time) string { b := make([]byte, 0, 32) b = strconv.AppendInt(b, int64(t.Day()), 10) b = append(b, []byte{0x20}...) b = append(b, ccp.monthsAbbreviated[t.Month()]...) b = append(b, []byte{0x2c, 0x20}...) if t.Year() > 0 { b = strconv.AppendInt(b, int64(t.Year()), 10) } else { b = strconv.AppendInt(b, int64(-t.Year()), 10) } return string(b) } // FmtDateLong returns the long date representation of 't' for 'ccp_IN' func (ccp *ccp_IN) FmtDateLong(t time.Time) string { b := make([]byte, 0, 32) b = strconv.AppendInt(b, int64(t.Day()), 10) b = append(b, []byte{0x20}...) b = append(b, ccp.monthsWide[t.Month()]...) b = append(b, []byte{0x2c, 0x20}...) if t.Year() > 0 { b = strconv.AppendInt(b, int64(t.Year()), 10) } else { b = strconv.AppendInt(b, int64(-t.Year()), 10) } return string(b) } // FmtDateFull returns the full date representation of 't' for 'ccp_IN' func (ccp *ccp_IN) FmtDateFull(t time.Time) string { b := make([]byte, 0, 32) b = append(b, ccp.daysWide[t.Weekday()]...) b = append(b, []byte{0x2c, 0x20}...) b = strconv.AppendInt(b, int64(t.Day()), 10) b = append(b, []byte{0x20}...) b = append(b, ccp.monthsWide[t.Month()]...) b = append(b, []byte{0x2c, 0x20}...) if t.Year() > 0 { b = strconv.AppendInt(b, int64(t.Year()), 10) } else { b = strconv.AppendInt(b, int64(-t.Year()), 10) } return string(b) } // FmtTimeShort returns the short time representation of 't' for 'ccp_IN' func (ccp *ccp_IN) FmtTimeShort(t time.Time) string { b := make([]byte, 0, 32) h := t.Hour() if h > 12 { h -= 12 } b = strconv.AppendInt(b, int64(h), 10) b = append(b, ccp.timeSeparator...) if t.Minute() < 10 { b = append(b, '0') } b = strconv.AppendInt(b, int64(t.Minute()), 10) b = append(b, []byte{0x20}...) if t.Hour() < 12 { b = append(b, ccp.periodsAbbreviated[0]...) } else { b = append(b, ccp.periodsAbbreviated[1]...) } return string(b) } // FmtTimeMedium returns the medium time representation of 't' for 'ccp_IN' func (ccp *ccp_IN) FmtTimeMedium(t time.Time) string { b := make([]byte, 0, 32) h := t.Hour() if h > 12 { h -= 12 } b = strconv.AppendInt(b, int64(h), 10) b = append(b, ccp.timeSeparator...) if t.Minute() < 10 { b = append(b, '0') } b = strconv.AppendInt(b, int64(t.Minute()), 10) b = append(b, ccp.timeSeparator...) if t.Second() < 10 { b = append(b, '0') } b = strconv.AppendInt(b, int64(t.Second()), 10) b = append(b, []byte{0x20}...) if t.Hour() < 12 { b = append(b, ccp.periodsAbbreviated[0]...) } else { b = append(b, ccp.periodsAbbreviated[1]...) } return string(b) } // FmtTimeLong returns the long time representation of 't' for 'ccp_IN' func (ccp *ccp_IN) FmtTimeLong(t time.Time) string { b := make([]byte, 0, 32) h := t.Hour() if h > 12 { h -= 12 } b = strconv.AppendInt(b, int64(h), 10) b = append(b, ccp.timeSeparator...) if t.Minute() < 10 { b = append(b, '0') } b = strconv.AppendInt(b, int64(t.Minute()), 10) b = append(b, ccp.timeSeparator...) if t.Second() < 10 { b = append(b, '0') } b = strconv.AppendInt(b, int64(t.Second()), 10) b = append(b, []byte{0x20}...) if t.Hour() < 12 { b = append(b, ccp.periodsAbbreviated[0]...) } else { b = append(b, ccp.periodsAbbreviated[1]...) } b = append(b, []byte{0x20}...) tz, _ := t.Zone() b = append(b, tz...) return string(b) } // FmtTimeFull returns the full time representation of 't' for 'ccp_IN' func (ccp *ccp_IN) FmtTimeFull(t time.Time) string { b := make([]byte, 0, 32) h := t.Hour() if h > 12 { h -= 12 } b = strconv.AppendInt(b, int64(h), 10) b = append(b, ccp.timeSeparator...) if t.Minute() < 10 { b = append(b, '0') } b = strconv.AppendInt(b, int64(t.Minute()), 10) b = append(b, ccp.timeSeparator...) if t.Second() < 10 { b = append(b, '0') } b = strconv.AppendInt(b, int64(t.Second()), 10) b = append(b, []byte{0x20}...) if t.Hour() < 12 { b = append(b, ccp.periodsAbbreviated[0]...) } else { b = append(b, ccp.periodsAbbreviated[1]...) } b = append(b, []byte{0x20}...) tz, _ := t.Zone() if btz, ok := ccp.timezones[tz]; ok { b = append(b, btz...) } else { b = append(b, tz...) } return string(b) }