gotosocial/vendor/github.com/ncruces/go-sqlite3/time.go

package sqlite3

import (
	"math"
	"strconv"
	"strings"
	"time"

	"github.com/ncruces/go-sqlite3/internal/util"
	"github.com/ncruces/julianday"
)

// TimeFormat specifies how to encode/decode time values.
//
// See the documentation for the [TimeFormatDefault] constant
// for formats recognized by SQLite.
//
// https://sqlite.org/lang_datefunc.html
type TimeFormat string

// TimeFormats recognized by SQLite to encode/decode time values.
//
// https://sqlite.org/lang_datefunc.html#time_values
const (
	TimeFormatDefault TimeFormat = "" // time.RFC3339Nano

	// Text formats
	TimeFormat1  TimeFormat = "2006-01-02"
	TimeFormat2  TimeFormat = "2006-01-02 15:04"
	TimeFormat3  TimeFormat = "2006-01-02 15:04:05"
	TimeFormat4  TimeFormat = "2006-01-02 15:04:05.000"
	TimeFormat5  TimeFormat = "2006-01-02T15:04"
	TimeFormat6  TimeFormat = "2006-01-02T15:04:05"
	TimeFormat7  TimeFormat = "2006-01-02T15:04:05.000"
	TimeFormat8  TimeFormat = "15:04"
	TimeFormat9  TimeFormat = "15:04:05"
	TimeFormat10 TimeFormat = "15:04:05.000"

	TimeFormat2TZ  = TimeFormat2 + "Z07:00"
	TimeFormat3TZ  = TimeFormat3 + "Z07:00"
	TimeFormat4TZ  = TimeFormat4 + "Z07:00"
	TimeFormat5TZ  = TimeFormat5 + "Z07:00"
	TimeFormat6TZ  = TimeFormat6 + "Z07:00"
	TimeFormat7TZ  = TimeFormat7 + "Z07:00"
	TimeFormat8TZ  = TimeFormat8 + "Z07:00"
	TimeFormat9TZ  = TimeFormat9 + "Z07:00"
	TimeFormat10TZ = TimeFormat10 + "Z07:00"

	// Numeric formats
	TimeFormatJulianDay TimeFormat = "julianday"
	TimeFormatUnix      TimeFormat = "unixepoch"
	TimeFormatUnixFrac  TimeFormat = "unixepoch_frac"
	TimeFormatUnixMilli TimeFormat = "unixepoch_milli" // not an SQLite format
	TimeFormatUnixMicro TimeFormat = "unixepoch_micro" // not an SQLite format
	TimeFormatUnixNano  TimeFormat = "unixepoch_nano"  // not an SQLite format

	// Auto
	TimeFormatAuto TimeFormat = "auto"
)

// Encode encodes a time value using this format.
//
// [TimeFormatDefault] and [TimeFormatAuto] encode using [time.RFC3339Nano],
// with nanosecond accuracy, and preserving any timezone offset.
//
// This is the format used by the [database/sql] driver:
// [database/sql.Row.Scan] will decode as [time.Time]
// values encoded with [time.RFC3339Nano].
//
// Time values encoded with [time.RFC3339Nano] cannot be sorted as strings
// to produce a time-ordered sequence.
//
// Assuming that the time zones of the time values are the same (e.g., all in UTC),
// and expressed using the same string (e.g., all "Z" or all "+00:00"),
// use the TIME [collating sequence] to produce a time-ordered sequence.
//
// Otherwise, use [TimeFormat7] for time-ordered encoding.
//
// Formats [TimeFormat1] through [TimeFormat10]
// convert time values to UTC before encoding.
//
// Returns a string for the text formats,
// a float64 for [TimeFormatJulianDay] and [TimeFormatUnixFrac],
// or an int64 for the other numeric formats.
//
// https://sqlite.org/lang_datefunc.html
//
// [collating sequence]: https://sqlite.org/datatype3.html#collating_sequences
func (f TimeFormat) Encode(t time.Time) any {
	switch f {
	// Numeric formats
	case TimeFormatJulianDay:
		return julianday.Float(t)
	case TimeFormatUnix:
		return t.Unix()
	case TimeFormatUnixFrac:
		return float64(t.Unix()) + float64(t.Nanosecond())*1e-9
	case TimeFormatUnixMilli:
		return t.UnixMilli()
	case TimeFormatUnixMicro:
		return t.UnixMicro()
	case TimeFormatUnixNano:
		return t.UnixNano()
	// Special formats.
	case TimeFormatDefault, TimeFormatAuto:
		f = time.RFC3339Nano
	// SQLite assumes UTC if unspecified.
	case
		TimeFormat1, TimeFormat2,
		TimeFormat3, TimeFormat4,
		TimeFormat5, TimeFormat6,
		TimeFormat7, TimeFormat8,
		TimeFormat9, TimeFormat10:
		t = t.UTC()
	}
	return t.Format(string(f))
}

// Decode decodes a time value using this format.
//
// The time value can be a string, an int64, or a float64.
//
// Formats [TimeFormat8] through [TimeFormat10]
// (and [TimeFormat8TZ] through [TimeFormat10TZ])
// assume a date of 2000-01-01.
//
// The timezone indicator and fractional seconds are always optional
// for formats [TimeFormat2] through [TimeFormat10]
// (and [TimeFormat2TZ] through [TimeFormat10TZ]).
//
// [TimeFormatAuto] implements (and extends) the SQLite auto modifier.
// Julian day numbers are safe to use for historical dates,
// from 4712BC through 9999AD.
// Unix timestamps (expressed in seconds, milliseconds, microseconds, or nanoseconds)
// are safe to use for current events, from at least 1980 through at least 2260.
// Unix timestamps before 1980 and after 9999 may be misinterpreted as julian day numbers,
// or have the wrong time unit.
//
// https://sqlite.org/lang_datefunc.html
func (f TimeFormat) Decode(v any) (time.Time, error) {
	switch f {
	// Numeric formats.
	case TimeFormatJulianDay:
		switch v := v.(type) {
		case string:
			return julianday.Parse(v)
		case float64:
			return julianday.FloatTime(v), nil
		case int64:
			return julianday.Time(v, 0), nil
		default:
			return time.Time{}, util.TimeErr
		}

	case TimeFormatUnix, TimeFormatUnixFrac:
		if s, ok := v.(string); ok {
			f, err := strconv.ParseFloat(s, 64)
			if err != nil {
				return time.Time{}, err
			}
			v = f
		}
		switch v := v.(type) {
		case float64:
			sec, frac := math.Modf(v)
			nsec := math.Floor(frac * 1e9)
			return time.Unix(int64(sec), int64(nsec)).UTC(), nil
		case int64:
			return time.Unix(v, 0).UTC(), nil
		default:
			return time.Time{}, util.TimeErr
		}

	case TimeFormatUnixMilli:
		if s, ok := v.(string); ok {
			i, err := strconv.ParseInt(s, 10, 64)
			if err != nil {
				return time.Time{}, err
			}
			v = i
		}
		switch v := v.(type) {
		case float64:
			return time.UnixMilli(int64(math.Floor(v))).UTC(), nil
		case int64:
			return time.UnixMilli(v).UTC(), nil
		default:
			return time.Time{}, util.TimeErr
		}

	case TimeFormatUnixMicro:
		if s, ok := v.(string); ok {
			i, err := strconv.ParseInt(s, 10, 64)
			if err != nil {
				return time.Time{}, err
			}
			v = i
		}
		switch v := v.(type) {
		case float64:
			return time.UnixMicro(int64(math.Floor(v))).UTC(), nil
		case int64:
			return time.UnixMicro(v).UTC(), nil
		default:
			return time.Time{}, util.TimeErr
		}

	case TimeFormatUnixNano:
		if s, ok := v.(string); ok {
			i, err := strconv.ParseInt(s, 10, 64)
			if err != nil {
				return time.Time{}, util.TimeErr
			}
			v = i
		}
		switch v := v.(type) {
		case float64:
			return time.Unix(0, int64(math.Floor(v))).UTC(), nil
		case int64:
			return time.Unix(0, v).UTC(), nil
		default:
			return time.Time{}, util.TimeErr
		}

	// Special formats.
	case TimeFormatAuto:
		switch s := v.(type) {
		case string:
			i, err := strconv.ParseInt(s, 10, 64)
			if err == nil {
				v = i
				break
			}
			f, err := strconv.ParseFloat(s, 64)
			if err == nil {
				v = f
				break
			}

			dates := []TimeFormat{
				TimeFormat9, TimeFormat8,
				TimeFormat6, TimeFormat5,
				TimeFormat3, TimeFormat2, TimeFormat1,
			}
			for _, f := range dates {
				t, err := f.Decode(s)
				if err == nil {
					return t, nil
				}
			}
		}
		switch v := v.(type) {
		case float64:
			if 0 <= v && v < 5373484.5 {
				return TimeFormatJulianDay.Decode(v)
			}
			if v < 253402300800 {
				return TimeFormatUnixFrac.Decode(v)
			}
			if v < 253402300800_000 {
				return TimeFormatUnixMilli.Decode(v)
			}
			if v < 253402300800_000000 {
				return TimeFormatUnixMicro.Decode(v)
			}
			return TimeFormatUnixNano.Decode(v)
		case int64:
			if 0 <= v && v < 5373485 {
				return TimeFormatJulianDay.Decode(v)
			}
			if v < 253402300800 {
				return TimeFormatUnixFrac.Decode(v)
			}
			if v < 253402300800_000 {
				return TimeFormatUnixMilli.Decode(v)
			}
			if v < 253402300800_000000 {
				return TimeFormatUnixMicro.Decode(v)
			}
			return TimeFormatUnixNano.Decode(v)
		default:
			return time.Time{}, util.TimeErr
		}

	case
		TimeFormat2, TimeFormat2TZ,
		TimeFormat3, TimeFormat3TZ,
		TimeFormat4, TimeFormat4TZ,
		TimeFormat5, TimeFormat5TZ,
		TimeFormat6, TimeFormat6TZ,
		TimeFormat7, TimeFormat7TZ:
		s, ok := v.(string)
		if !ok {
			return time.Time{}, util.TimeErr
		}
		return f.parseRelaxed(s)

	case
		TimeFormat8, TimeFormat8TZ,
		TimeFormat9, TimeFormat9TZ,
		TimeFormat10, TimeFormat10TZ:
		s, ok := v.(string)
		if !ok {
			return time.Time{}, util.TimeErr
		}
		t, err := f.parseRelaxed(s)
		if err != nil {
			return time.Time{}, err
		}
		return t.AddDate(2000, 0, 0), nil

	default:
		s, ok := v.(string)
		if !ok {
			return time.Time{}, util.TimeErr
		}
		if f == "" {
			f = time.RFC3339Nano
		}
		return time.Parse(string(f), s)
	}
}

func (f TimeFormat) parseRelaxed(s string) (time.Time, error) {
	fs := string(f)
	fs = strings.TrimSuffix(fs, "Z07:00")
	fs = strings.TrimSuffix(fs, ".000")
	t, err := time.Parse(fs+"Z07:00", s)
	if err != nil {
		return time.Parse(fs, s)
	}
	return t, nil
}

// Scanner returns a [database/sql.Scanner] that can be used as an argument to
// [database/sql.Row.Scan] and similar methods to
// decode a time value into dest using this format.
func (f TimeFormat) Scanner(dest *time.Time) interface{ Scan(any) error } {
	return timeScanner{dest, f}
}

type timeScanner struct {
	*time.Time
	TimeFormat
}

func (s timeScanner) Scan(src any) error {
	var ok bool
	var err error
	if *s.Time, ok = src.(time.Time); !ok {
		*s.Time, err = s.Decode(src)
	}
	return err
}
[experiment] add alternative wasm sqlite3 implementation available via build-tag (#2863) This allows for building GoToSocial with [SQLite transpiled to WASM](https://github.com/ncruces/go-sqlite3) and accessed through [Wazero](https://wazero.io/). 2024-05-27 16:46:15 +01:00			`package sqlite3`

			`import (`
			`"math"`
			`"strconv"`
			`"strings"`
			`"time"`

			`"github.com/ncruces/go-sqlite3/internal/util"`
			`"github.com/ncruces/julianday"`
			`)`

			`// TimeFormat specifies how to encode/decode time values.`
			`//`
			`// See the documentation for the [TimeFormatDefault] constant`
			`// for formats recognized by SQLite.`
			`//`
			`// https://sqlite.org/lang_datefunc.html`
			`type TimeFormat string`

			`// TimeFormats recognized by SQLite to encode/decode time values.`
			`//`
			`// https://sqlite.org/lang_datefunc.html#time_values`
			`const (`
			`TimeFormatDefault TimeFormat = "" // time.RFC3339Nano`

			`// Text formats`
			`TimeFormat1 TimeFormat = "2006-01-02"`
			`TimeFormat2 TimeFormat = "2006-01-02 15:04"`
			`TimeFormat3 TimeFormat = "2006-01-02 15:04:05"`
			`TimeFormat4 TimeFormat = "2006-01-02 15:04:05.000"`
			`TimeFormat5 TimeFormat = "2006-01-02T15:04"`
			`TimeFormat6 TimeFormat = "2006-01-02T15:04:05"`
			`TimeFormat7 TimeFormat = "2006-01-02T15:04:05.000"`
			`TimeFormat8 TimeFormat = "15:04"`
			`TimeFormat9 TimeFormat = "15:04:05"`
			`TimeFormat10 TimeFormat = "15:04:05.000"`

			`TimeFormat2TZ = TimeFormat2 + "Z07:00"`
			`TimeFormat3TZ = TimeFormat3 + "Z07:00"`
			`TimeFormat4TZ = TimeFormat4 + "Z07:00"`
			`TimeFormat5TZ = TimeFormat5 + "Z07:00"`
			`TimeFormat6TZ = TimeFormat6 + "Z07:00"`
			`TimeFormat7TZ = TimeFormat7 + "Z07:00"`
			`TimeFormat8TZ = TimeFormat8 + "Z07:00"`
			`TimeFormat9TZ = TimeFormat9 + "Z07:00"`
			`TimeFormat10TZ = TimeFormat10 + "Z07:00"`

			`// Numeric formats`
			`TimeFormatJulianDay TimeFormat = "julianday"`
			`TimeFormatUnix TimeFormat = "unixepoch"`
			`TimeFormatUnixFrac TimeFormat = "unixepoch_frac"`
			`TimeFormatUnixMilli TimeFormat = "unixepoch_milli" // not an SQLite format`
			`TimeFormatUnixMicro TimeFormat = "unixepoch_micro" // not an SQLite format`
			`TimeFormatUnixNano TimeFormat = "unixepoch_nano" // not an SQLite format`

			`// Auto`
			`TimeFormatAuto TimeFormat = "auto"`
			`)`

			`// Encode encodes a time value using this format.`
			`//`
			`// [TimeFormatDefault] and [TimeFormatAuto] encode using [time.RFC3339Nano],`
			`// with nanosecond accuracy, and preserving any timezone offset.`
			`//`
			`// This is the format used by the [database/sql] driver:`
			`// [database/sql.Row.Scan] will decode as [time.Time]`
			`// values encoded with [time.RFC3339Nano].`
			`//`
			`// Time values encoded with [time.RFC3339Nano] cannot be sorted as strings`
			`// to produce a time-ordered sequence.`
			`//`
			`// Assuming that the time zones of the time values are the same (e.g., all in UTC),`
			`// and expressed using the same string (e.g., all "Z" or all "+00:00"),`
			`// use the TIME [collating sequence] to produce a time-ordered sequence.`
			`//`
			`// Otherwise, use [TimeFormat7] for time-ordered encoding.`
			`//`
			`// Formats [TimeFormat1] through [TimeFormat10]`
			`// convert time values to UTC before encoding.`
			`//`
			`// Returns a string for the text formats,`
			`// a float64 for [TimeFormatJulianDay] and [TimeFormatUnixFrac],`
			`// or an int64 for the other numeric formats.`
			`//`
			`// https://sqlite.org/lang_datefunc.html`
			`//`
			`// [collating sequence]: https://sqlite.org/datatype3.html#collating_sequences`
			`func (f TimeFormat) Encode(t time.Time) any {`
			`switch f {`
			`// Numeric formats`
			`case TimeFormatJulianDay:`
			`return julianday.Float(t)`
			`case TimeFormatUnix:`
			`return t.Unix()`
			`case TimeFormatUnixFrac:`
			`return float64(t.Unix()) + float64(t.Nanosecond())*1e-9`
			`case TimeFormatUnixMilli:`
			`return t.UnixMilli()`
			`case TimeFormatUnixMicro:`
			`return t.UnixMicro()`
			`case TimeFormatUnixNano:`
			`return t.UnixNano()`
			`// Special formats.`
			`case TimeFormatDefault, TimeFormatAuto:`
			`f = time.RFC3339Nano`
			`// SQLite assumes UTC if unspecified.`
			`case`
			`TimeFormat1, TimeFormat2,`
			`TimeFormat3, TimeFormat4,`
			`TimeFormat5, TimeFormat6,`
			`TimeFormat7, TimeFormat8,`
			`TimeFormat9, TimeFormat10:`
			`t = t.UTC()`
			`}`
			`return t.Format(string(f))`
			`}`

			`// Decode decodes a time value using this format.`
			`//`
			`// The time value can be a string, an int64, or a float64.`
			`//`
			`// Formats [TimeFormat8] through [TimeFormat10]`
			`// (and [TimeFormat8TZ] through [TimeFormat10TZ])`
			`// assume a date of 2000-01-01.`
			`//`
			`// The timezone indicator and fractional seconds are always optional`
			`// for formats [TimeFormat2] through [TimeFormat10]`
			`// (and [TimeFormat2TZ] through [TimeFormat10TZ]).`
			`//`
			`// [TimeFormatAuto] implements (and extends) the SQLite auto modifier.`
			`// Julian day numbers are safe to use for historical dates,`
			`// from 4712BC through 9999AD.`
			`// Unix timestamps (expressed in seconds, milliseconds, microseconds, or nanoseconds)`
			`// are safe to use for current events, from at least 1980 through at least 2260.`
			`// Unix timestamps before 1980 and after 9999 may be misinterpreted as julian day numbers,`
			`// or have the wrong time unit.`
			`//`
			`// https://sqlite.org/lang_datefunc.html`
			`func (f TimeFormat) Decode(v any) (time.Time, error) {`
			`switch f {`
			`// Numeric formats.`
			`case TimeFormatJulianDay:`
			`switch v := v.(type) {`
			`case string:`
			`return julianday.Parse(v)`
			`case float64:`
			`return julianday.FloatTime(v), nil`
			`case int64:`
			`return julianday.Time(v, 0), nil`
			`default:`
			`return time.Time{}, util.TimeErr`
			`}`

			`case TimeFormatUnix, TimeFormatUnixFrac:`
			`if s, ok := v.(string); ok {`
			`f, err := strconv.ParseFloat(s, 64)`
			`if err != nil {`
			`return time.Time{}, err`
			`}`
			`v = f`
			`}`
			`switch v := v.(type) {`
			`case float64:`
			`sec, frac := math.Modf(v)`
			`nsec := math.Floor(frac * 1e9)`
			`return time.Unix(int64(sec), int64(nsec)).UTC(), nil`
			`case int64:`
			`return time.Unix(v, 0).UTC(), nil`
			`default:`
			`return time.Time{}, util.TimeErr`
			`}`

			`case TimeFormatUnixMilli:`
			`if s, ok := v.(string); ok {`
			`i, err := strconv.ParseInt(s, 10, 64)`
			`if err != nil {`
			`return time.Time{}, err`
			`}`
			`v = i`
			`}`
			`switch v := v.(type) {`
			`case float64:`
			`return time.UnixMilli(int64(math.Floor(v))).UTC(), nil`
			`case int64:`
			`return time.UnixMilli(v).UTC(), nil`
			`default:`
			`return time.Time{}, util.TimeErr`
			`}`

			`case TimeFormatUnixMicro:`
			`if s, ok := v.(string); ok {`
			`i, err := strconv.ParseInt(s, 10, 64)`
			`if err != nil {`
			`return time.Time{}, err`
			`}`
			`v = i`
			`}`
			`switch v := v.(type) {`
			`case float64:`
			`return time.UnixMicro(int64(math.Floor(v))).UTC(), nil`
			`case int64:`
			`return time.UnixMicro(v).UTC(), nil`
			`default:`
			`return time.Time{}, util.TimeErr`
			`}`

			`case TimeFormatUnixNano:`
			`if s, ok := v.(string); ok {`
			`i, err := strconv.ParseInt(s, 10, 64)`
			`if err != nil {`
			`return time.Time{}, util.TimeErr`
			`}`
			`v = i`
			`}`
			`switch v := v.(type) {`
			`case float64:`
			`return time.Unix(0, int64(math.Floor(v))).UTC(), nil`
			`case int64:`
			`return time.Unix(0, v).UTC(), nil`
			`default:`
			`return time.Time{}, util.TimeErr`
			`}`

			`// Special formats.`
			`case TimeFormatAuto:`
			`switch s := v.(type) {`
			`case string:`
			`i, err := strconv.ParseInt(s, 10, 64)`
			`if err == nil {`
			`v = i`
			`break`
			`}`
			`f, err := strconv.ParseFloat(s, 64)`
			`if err == nil {`
			`v = f`
			`break`
			`}`

			`dates := []TimeFormat{`
			`TimeFormat9, TimeFormat8,`
			`TimeFormat6, TimeFormat5,`
			`TimeFormat3, TimeFormat2, TimeFormat1,`
			`}`
			`for _, f := range dates {`
			`t, err := f.Decode(s)`
			`if err == nil {`
			`return t, nil`
			`}`
			`}`
			`}`
			`switch v := v.(type) {`
			`case float64:`
			`if 0 <= v && v < 5373484.5 {`
			`return TimeFormatJulianDay.Decode(v)`
			`}`
			`if v < 253402300800 {`
			`return TimeFormatUnixFrac.Decode(v)`
			`}`
			`if v < 253402300800_000 {`
			`return TimeFormatUnixMilli.Decode(v)`
			`}`
			`if v < 253402300800_000000 {`
			`return TimeFormatUnixMicro.Decode(v)`
			`}`
			`return TimeFormatUnixNano.Decode(v)`
			`case int64:`
			`if 0 <= v && v < 5373485 {`
			`return TimeFormatJulianDay.Decode(v)`
			`}`
			`if v < 253402300800 {`
			`return TimeFormatUnixFrac.Decode(v)`
			`}`
			`if v < 253402300800_000 {`
			`return TimeFormatUnixMilli.Decode(v)`
			`}`
			`if v < 253402300800_000000 {`
			`return TimeFormatUnixMicro.Decode(v)`
			`}`
			`return TimeFormatUnixNano.Decode(v)`
			`default:`
			`return time.Time{}, util.TimeErr`
			`}`

			`case`
			`TimeFormat2, TimeFormat2TZ,`
			`TimeFormat3, TimeFormat3TZ,`
			`TimeFormat4, TimeFormat4TZ,`
			`TimeFormat5, TimeFormat5TZ,`
			`TimeFormat6, TimeFormat6TZ,`
			`TimeFormat7, TimeFormat7TZ:`
			`s, ok := v.(string)`
			`if !ok {`
			`return time.Time{}, util.TimeErr`
			`}`
			`return f.parseRelaxed(s)`

			`case`
			`TimeFormat8, TimeFormat8TZ,`
			`TimeFormat9, TimeFormat9TZ,`
			`TimeFormat10, TimeFormat10TZ:`
			`s, ok := v.(string)`
			`if !ok {`
			`return time.Time{}, util.TimeErr`
			`}`
			`t, err := f.parseRelaxed(s)`
			`if err != nil {`
			`return time.Time{}, err`
			`}`
			`return t.AddDate(2000, 0, 0), nil`

			`default:`
			`s, ok := v.(string)`
			`if !ok {`
			`return time.Time{}, util.TimeErr`
			`}`
			`if f == "" {`
			`f = time.RFC3339Nano`
			`}`
			`return time.Parse(string(f), s)`
			`}`
			`}`

			`func (f TimeFormat) parseRelaxed(s string) (time.Time, error) {`
			`fs := string(f)`
			`fs = strings.TrimSuffix(fs, "Z07:00")`
			`fs = strings.TrimSuffix(fs, ".000")`
			`t, err := time.Parse(fs+"Z07:00", s)`
			`if err != nil {`
			`return time.Parse(fs, s)`
			`}`
			`return t, nil`
			`}`

			`// Scanner returns a [database/sql.Scanner] that can be used as an argument to`
			`// [database/sql.Row.Scan] and similar methods to`
			`// decode a time value into dest using this format.`
			`func (f TimeFormat) Scanner(dest *time.Time) interface{ Scan(any) error } {`
			`return timeScanner{dest, f}`
			`}`

			`type timeScanner struct {`
			`*time.Time`
			`TimeFormat`
			`}`

			`func (s timeScanner) Scan(src any) error {`
			`var ok bool`
			`var err error`
			`if *s.Time, ok = src.(time.Time); !ok {`
			`*s.Time, err = s.Decode(src)`
			`}`
			`return err`
			`}`