package locales import ( "strconv" "time" "git.hpds.cc/Component/gin_valid/go-playground/locales/currency" ) // // ErrBadNumberValue is returned when the number passed for // // plural rule determination cannot be parsed // type ErrBadNumberValue struct { // NumberValue string // InnerError error // } // // Error returns ErrBadNumberValue error string // func (e *ErrBadNumberValue) Error() string { // return fmt.Sprintf("Invalid Number Value '%s' %s", e.NumberValue, e.InnerError) // } // var _ error = new(ErrBadNumberValue) // PluralRule denotes the type of plural rules type PluralRule int // PluralRule's const ( PluralRuleUnknown PluralRule = iota PluralRuleZero // zero PluralRuleOne // one - singular PluralRuleTwo // two - dual PluralRuleFew // few - paucal PluralRuleMany // many - also used for fractions if they have a separate class PluralRuleOther // other - required—general plural form—also used if the language only has a single form ) const ( pluralsString = "UnknownZeroOneTwoFewManyOther" ) // Translator encapsulates an instance of a locale // NOTE: some values are returned as a []byte just in case the caller // wishes to add more and can help avoid allocations; otherwise just cast as string type Translator interface { // The following Functions are for overriding, debugging or developing // with a Translator Locale // Locale returns the string value of the translator Locale() string // returns an array of cardinal plural rules associated // with this translator PluralsCardinal() []PluralRule // returns an array of ordinal plural rules associated // with this translator PluralsOrdinal() []PluralRule // returns an array of range plural rules associated // with this translator PluralsRange() []PluralRule // returns the cardinal PluralRule given 'num' and digits/precision of 'v' for locale CardinalPluralRule(num float64, v uint64) PluralRule // returns the ordinal PluralRule given 'num' and digits/precision of 'v' for locale OrdinalPluralRule(num float64, v uint64) PluralRule // returns the ordinal PluralRule given 'num1', 'num2' and digits/precision of 'v1' and 'v2' for locale RangePluralRule(num1 float64, v1 uint64, num2 float64, v2 uint64) PluralRule // returns the locales abbreviated month given the 'month' provided MonthAbbreviated(month time.Month) string // returns the locales abbreviated months MonthsAbbreviated() []string // returns the locales narrow month given the 'month' provided MonthNarrow(month time.Month) string // returns the locales narrow months MonthsNarrow() []string // returns the locales wide month given the 'month' provided MonthWide(month time.Month) string // returns the locales wide months MonthsWide() []string // returns the locales abbreviated weekday given the 'weekday' provided WeekdayAbbreviated(weekday time.Weekday) string // returns the locales abbreviated weekdays WeekdaysAbbreviated() []string // returns the locales narrow weekday given the 'weekday' provided WeekdayNarrow(weekday time.Weekday) string // WeekdaysNarrowreturns the locales narrow weekdays WeekdaysNarrow() []string // returns the locales short weekday given the 'weekday' provided WeekdayShort(weekday time.Weekday) string // returns the locales short weekdays WeekdaysShort() []string // returns the locales wide weekday given the 'weekday' provided WeekdayWide(weekday time.Weekday) string // returns the locales wide weekdays WeekdaysWide() []string // The following Functions are common Formatting functionsfor the Translator's Locale // returns 'num' with digits/precision of 'v' for locale and handles both Whole and Real numbers based on 'v' FmtNumber(num float64, v uint64) string // returns 'num' with digits/precision of 'v' for locale and handles both Whole and Real numbers based on 'v' // NOTE: 'num' passed into FmtPercent is assumed to be in percent already FmtPercent(num float64, v uint64) string // returns the currency representation of 'num' with digits/precision of 'v' for locale FmtCurrency(num float64, v uint64, currency currency.Type) string // returns the currency representation of 'num' with digits/precision of 'v' for locale // in accounting notation. FmtAccounting(num float64, v uint64, currency currency.Type) string // returns the short date representation of 't' for locale FmtDateShort(t time.Time) string // returns the medium date representation of 't' for locale FmtDateMedium(t time.Time) string // returns the long date representation of 't' for locale FmtDateLong(t time.Time) string // returns the full date representation of 't' for locale FmtDateFull(t time.Time) string // returns the short time representation of 't' for locale FmtTimeShort(t time.Time) string // returns the medium time representation of 't' for locale FmtTimeMedium(t time.Time) string // returns the long time representation of 't' for locale FmtTimeLong(t time.Time) string // returns the full time representation of 't' for locale FmtTimeFull(t time.Time) string } // String returns the string value of PluralRule func (p PluralRule) String() string { switch p { case PluralRuleZero: return pluralsString[7:11] case PluralRuleOne: return pluralsString[11:14] case PluralRuleTwo: return pluralsString[14:17] case PluralRuleFew: return pluralsString[17:20] case PluralRuleMany: return pluralsString[20:24] case PluralRuleOther: return pluralsString[24:] default: return pluralsString[:7] } } // // Precision Notes: // // must specify a precision >= 0, and here is why https://play.golang.org/p/LyL90U0Vyh // // v := float64(3.141) // i := float64(int64(v)) // // fmt.Println(v - i) // // or // // s := strconv.FormatFloat(v-i, 'f', -1, 64) // fmt.Println(s) // // these will not print what you'd expect: 0.14100000000000001 // and so this library requires a precision to be specified, or // inaccurate plural rules could be applied. // // // // n - absolute value of the source number (integer and decimals). // i - integer digits of n. // v - number of visible fraction digits in n, with trailing zeros. // w - number of visible fraction digits in n, without trailing zeros. // f - visible fractional digits in n, with trailing zeros. // t - visible fractional digits in n, without trailing zeros. // // // Func(num float64, v uint64) // v = digits/precision and prevents -1 as a special case as this can lead to very unexpected behaviour, see precision note's above. // // n := math.Abs(num) // i := int64(n) // v := v // // // w := strconv.FormatFloat(num-float64(i), 'f', int(v), 64) // then parse backwards on string until no more zero's.... // f := strconv.FormatFloat(n, 'f', int(v), 64) // then turn everything after decimal into an int64 // t := strconv.FormatFloat(n, 'f', int(v), 64) // then parse backwards on string until no more zero's.... // // // // General Inclusion Rules // - v will always be available inherently // - all require n // - w requires i // // W returns the number of visible fraction digits in N, without trailing zeros. func W(n float64, v uint64) (w int64) { s := strconv.FormatFloat(n-float64(int64(n)), 'f', int(v), 64) // with either be '0' or '0.xxxx', so if 1 then w will be zero // otherwise need to parse if len(s) != 1 { s = s[2:] end := len(s) + 1 for i := end; i >= 0; i-- { if s[i] != '0' { end = i + 1 break } } w = int64(len(s[:end])) } return } // F returns the visible fractional digits in N, with trailing zeros. func F(n float64, v uint64) (f int64) { s := strconv.FormatFloat(n-float64(int64(n)), 'f', int(v), 64) // with either be '0' or '0.xxxx', so if 1 then f will be zero // otherwise need to parse if len(s) != 1 { // ignoring error, because it can't fail as we generated // the string internally from a real number f, _ = strconv.ParseInt(s[2:], 10, 64) } return } // T returns the visible fractional digits in N, without trailing zeros. func T(n float64, v uint64) (t int64) { s := strconv.FormatFloat(n-float64(int64(n)), 'f', int(v), 64) // with either be '0' or '0.xxxx', so if 1 then t will be zero // otherwise need to parse if len(s) != 1 { s = s[2:] end := len(s) + 1 for i := end; i >= 0; i-- { if s[i] != '0' { end = i + 1 break } } // ignoring error, because it can't fail as we generated // the string internally from a real number t, _ = strconv.ParseInt(s[:end], 10, 64) } return }