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parseany.go
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parseany.go
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// Package dateparse parses date-strings without knowing the format
// in advance, using a fast lex based approach to eliminate shotgun
// attempts. It leans towards US style dates when there is a conflict.
package dateparse
import (
"fmt"
"strconv"
"strings"
"time"
"unicode"
"unicode/utf8"
)
// func init() {
// gou.SetupLogging("debug")
// gou.SetColorOutput()
// }
var days = []string{
"mon",
"tue",
"wed",
"thu",
"fri",
"sat",
"sun",
"monday",
"tuesday",
"wednesday",
"thursday",
"friday",
"saturday",
"sunday",
}
var months = []string{
"january",
"february",
"march",
"april",
"may",
"june",
"july",
"august",
"september",
"october",
"november",
"december",
}
type dateState uint8
type timeState uint8
const (
dateStart dateState = iota // 0
dateDigit
dateDigitSt
dateYearDash
dateYearDashAlphaDash
dateYearDashDash
dateYearDashDashWs // 5
dateYearDashDashT
dateYearDashDashOffset
dateDigitDash
dateDigitDashAlpha
dateDigitDashAlphaDash // 10
dateDigitDot
dateDigitDotDot
dateDigitSlash
dateDigitYearSlash
dateDigitSlashAlpha // 15
dateDigitColon
dateDigitChineseYear
dateDigitChineseYearWs
dateDigitWs
dateDigitWsMoYear // 20
dateDigitWsMolong
dateAlpha
dateAlphaWs
dateAlphaWsDigit
dateAlphaWsDigitMore // 25
dateAlphaWsDigitMoreWs
dateAlphaWsDigitMoreWsYear
dateAlphaWsMonth
dateAlphaWsDigitYearmaybe
dateAlphaWsMonthMore
dateAlphaWsMonthSuffix
dateAlphaWsMore
dateAlphaWsAtTime
dateAlphaWsAlpha
dateAlphaWsAlphaYearmaybe // 35
dateAlphaPeriodWsDigit
dateWeekdayComma
dateWeekdayAbbrevComma
)
const (
// Time state
timeIgnore timeState = iota // 0
timeStart
timeWs
timeWsAlpha
timeWsAlphaWs
timeWsAlphaZoneOffset // 5
timeWsAlphaZoneOffsetWs
timeWsAlphaZoneOffsetWsYear
timeWsAlphaZoneOffsetWsExtra
timeWsAMPMMaybe
timeWsAMPM // 10
timeWsOffset
timeWsOffsetWs // 12
timeWsOffsetColonAlpha
timeWsOffsetColon
timeWsYear // 15
timeOffset
timeOffsetColon
timeAlpha
timePeriod
timePeriodOffset // 20
timePeriodOffsetColon
timePeriodOffsetColonWs
timePeriodWs
timePeriodWsAlpha
timePeriodWsOffset // 25
timePeriodWsOffsetWs
timePeriodWsOffsetWsAlpha
timePeriodWsOffsetColon
timePeriodWsOffsetColonAlpha
timeZ
timeZDigit
)
var (
// ErrAmbiguousMMDD for date formats such as 04/02/2014 the mm/dd vs dd/mm are
// ambiguous, so it is an error for strict parse rules.
ErrAmbiguousMMDD = fmt.Errorf("This date has ambiguous mm/dd vs dd/mm type format")
)
func unknownErr(datestr string) error {
return fmt.Errorf("Could not find format for %q", datestr)
}
// ParseAny parse an unknown date format, detect the layout.
// Normal parse. Equivalent Timezone rules as time.Parse().
// NOTE: please see readme on mmdd vs ddmm ambiguous dates.
func ParseAny(datestr string, opts ...ParserOption) (time.Time, error) {
p, err := parseTime(datestr, nil, opts...)
if err != nil {
return time.Time{}, err
}
return p.parse()
}
// ParseIn with Location, equivalent to time.ParseInLocation() timezone/offset
// rules. Using location arg, if timezone/offset info exists in the
// datestring, it uses the given location rules for any zone interpretation.
// That is, MST means one thing when using America/Denver and something else
// in other locations.
func ParseIn(datestr string, loc *time.Location, opts ...ParserOption) (time.Time, error) {
p, err := parseTime(datestr, loc, opts...)
if err != nil {
return time.Time{}, err
}
return p.parse()
}
// ParseLocal Given an unknown date format, detect the layout,
// using time.Local, parse.
//
// Set Location to time.Local. Same as ParseIn Location but lazily uses
// the global time.Local variable for Location argument.
//
// denverLoc, _ := time.LoadLocation("America/Denver")
// time.Local = denverLoc
//
// t, err := dateparse.ParseLocal("3/1/2014")
//
// Equivalent to:
//
// t, err := dateparse.ParseIn("3/1/2014", denverLoc)
//
func ParseLocal(datestr string, opts ...ParserOption) (time.Time, error) {
p, err := parseTime(datestr, time.Local, opts...)
if err != nil {
return time.Time{}, err
}
return p.parse()
}
// MustParse parse a date, and panic if it can't be parsed. Used for testing.
// Not recommended for most use-cases.
func MustParse(datestr string, opts ...ParserOption) time.Time {
p, err := parseTime(datestr, nil, opts...)
if err != nil {
panic(err.Error())
}
t, err := p.parse()
if err != nil {
panic(err.Error())
}
return t
}
// ParseFormat parse's an unknown date-time string and returns a layout
// string that can parse this (and exact same format) other date-time strings.
//
// layout, err := dateparse.ParseFormat("2013-02-01 00:00:00")
// // layout = "2006-01-02 15:04:05"
//
func ParseFormat(datestr string, opts ...ParserOption) (string, error) {
p, err := parseTime(datestr, nil, opts...)
if err != nil {
return "", err
}
_, err = p.parse()
if err != nil {
return "", err
}
return string(p.format), nil
}
// ParseStrict parse an unknown date format. IF the date is ambigous
// mm/dd vs dd/mm then return an error. These return errors: 3.3.2014 , 8/8/71 etc
func ParseStrict(datestr string, opts ...ParserOption) (time.Time, error) {
p, err := parseTime(datestr, nil, opts...)
if err != nil {
return time.Time{}, err
}
if p.ambiguousMD {
return time.Time{}, ErrAmbiguousMMDD
}
return p.parse()
}
func parseTime(datestr string, loc *time.Location, opts ...ParserOption) (p *parser, err error) {
p = newParser(datestr, loc, opts...)
if p.retryAmbiguousDateWithSwap {
// month out of range signifies that a day/month swap is the correct solution to an ambiguous date
// this is because it means that a day is being interpreted as a month and overflowing the valid value for that
// by retrying in this case, we can fix a common situation with no assumptions
defer func() {
if p != nil && p.ambiguousMD {
// if it errors out with the following error, swap before we
// get out of this function to reduce scope it needs to be applied on
_, err := p.parse()
if err != nil && strings.Contains(err.Error(), "month out of range") {
// create the option to reverse the preference
preferMonthFirst := PreferMonthFirst(!p.preferMonthFirst)
// turn off the retry to avoid endless recursion
retryAmbiguousDateWithSwap := RetryAmbiguousDateWithSwap(false)
modifiedOpts := append(opts, preferMonthFirst, retryAmbiguousDateWithSwap)
p, err = parseTime(datestr, time.Local, modifiedOpts...)
}
}
}()
}
i := 0
// General strategy is to read rune by rune through the date looking for
// certain hints of what type of date we are dealing with.
// Hopefully we only need to read about 5 or 6 bytes before
// we figure it out and then attempt a parse
iterRunes:
for ; i < len(datestr); i++ {
//r := rune(datestr[i])
r, bytesConsumed := utf8.DecodeRuneInString(datestr[i:])
if bytesConsumed > 1 {
i += (bytesConsumed - 1)
}
// gou.Debugf("i=%d r=%s state=%d %s", i, string(r), p.stateDate, datestr)
switch p.stateDate {
case dateStart:
if unicode.IsDigit(r) {
p.stateDate = dateDigit
} else if unicode.IsLetter(r) {
p.stateDate = dateAlpha
} else {
return nil, unknownErr(datestr)
}
case dateDigit:
switch r {
case '-', '\u2212':
// 2006-01-02
// 2013-Feb-03
// 13-Feb-03
// 29-Jun-2016
if i == 4 {
p.stateDate = dateYearDash
p.yeari = 0
p.yearlen = i
p.moi = i + 1
p.set(0, "2006")
} else {
p.stateDate = dateDigitDash
}
case '/':
// 08/May/2005
// 03/31/2005
// 2014/02/24
p.stateDate = dateDigitSlash
if i == 4 {
// 2014/02/24 - Year first /
p.yearlen = i // since it was start of datestr, i=len
p.moi = i + 1
p.setYear()
p.stateDate = dateDigitYearSlash
} else {
// Either Ambiguous dd/mm vs mm/dd OR dd/month/yy
// 08/May/2005
// 03/31/2005
// 31/03/2005
if i+2 < len(p.datestr) && unicode.IsLetter(rune(datestr[i+1])) {
// 08/May/2005
p.stateDate = dateDigitSlashAlpha
p.moi = i + 1
p.daylen = 2
p.dayi = 0
p.setDay()
continue
}
// Ambiguous dd/mm vs mm/dd the bane of date-parsing
// 03/31/2005
// 31/03/2005
p.ambiguousMD = true
if p.preferMonthFirst {
if p.molen == 0 {
// 03/31/2005
p.molen = i
p.setMonth()
p.dayi = i + 1
}
} else {
if p.daylen == 0 {
p.daylen = i
p.setDay()
p.moi = i + 1
}
}
}
case ':':
// 03/31/2005
// 2014/02/24
p.stateDate = dateDigitColon
if i == 4 {
p.yearlen = i
p.moi = i + 1
p.setYear()
} else {
p.ambiguousMD = true
if p.preferMonthFirst {
if p.molen == 0 {
p.molen = i
p.setMonth()
p.dayi = i + 1
}
}
}
case '.':
// 3.31.2014
// 08.21.71
// 2014.05
p.stateDate = dateDigitDot
if i == 4 {
p.yearlen = i
p.moi = i + 1
p.setYear()
} else {
p.ambiguousMD = true
p.moi = 0
p.molen = i
p.setMonth()
p.dayi = i + 1
}
case ' ':
// 18 January 2018
// 8 January 2018
// 8 jan 2018
// 02 Jan 2018 23:59
// 02 Jan 2018 23:59:34
// 12 Feb 2006, 19:17
// 12 Feb 2006, 19:17:22
if i == 6 {
p.stateDate = dateDigitSt
} else {
p.stateDate = dateDigitWs
p.dayi = 0
p.daylen = i
}
case '年':
// Chinese Year
p.stateDate = dateDigitChineseYear
case ',':
return nil, unknownErr(datestr)
default:
continue
}
p.part1Len = i
case dateDigitSt:
p.set(0, "060102")
i = i - 1
p.stateTime = timeStart
break iterRunes
case dateYearDash:
// dateYearDashDashT
// 2006-01-02T15:04:05Z07:00
// 2020-08-17T17:00:00:000+0100
// dateYearDashDashWs
// 2013-04-01 22:43:22
// dateYearDashAlphaDash
// 2013-Feb-03
switch r {
case '-':
p.molen = i - p.moi
p.dayi = i + 1
p.stateDate = dateYearDashDash
p.setMonth()
default:
if unicode.IsLetter(r) {
p.stateDate = dateYearDashAlphaDash
}
}
case dateYearDashDash:
// dateYearDashDashT
// 2006-01-02T15:04:05Z07:00
// dateYearDashDashWs
// 2013-04-01 22:43:22
// dateYearDashDashOffset
// 2020-07-20+00:00
switch r {
case '+', '-':
p.offseti = i
p.daylen = i - p.dayi
p.stateDate = dateYearDashDashOffset
p.setDay()
case ' ':
p.daylen = i - p.dayi
p.stateDate = dateYearDashDashWs
p.stateTime = timeStart
p.setDay()
break iterRunes
case 'T':
p.daylen = i - p.dayi
p.stateDate = dateYearDashDashT
p.stateTime = timeStart
p.setDay()
break iterRunes
}
case dateYearDashDashT:
// dateYearDashDashT
// 2006-01-02T15:04:05Z07:00
// 2020-08-17T17:00:00:000+0100
case dateYearDashDashOffset:
// 2020-07-20+00:00
switch r {
case ':':
p.set(p.offseti, "-07:00")
// case ' ':
// return nil, unknownErr(datestr)
}
case dateYearDashAlphaDash:
// 2013-Feb-03
switch r {
case '-':
p.molen = i - p.moi
p.set(p.moi, "Jan")
p.dayi = i + 1
}
case dateDigitDash:
// 13-Feb-03
// 29-Jun-2016
if unicode.IsLetter(r) {
p.stateDate = dateDigitDashAlpha
p.moi = i
} else {
return nil, unknownErr(datestr)
}
case dateDigitDashAlpha:
// 13-Feb-03
// 28-Feb-03
// 29-Jun-2016
switch r {
case '-':
p.molen = i - p.moi
p.set(p.moi, "Jan")
p.yeari = i + 1
p.stateDate = dateDigitDashAlphaDash
}
case dateDigitDashAlphaDash:
// 13-Feb-03 ambiguous
// 28-Feb-03 ambiguous
// 29-Jun-2016 dd-month(alpha)-yyyy
switch r {
case ' ':
// we need to find if this was 4 digits, aka year
// or 2 digits which makes it ambiguous year/day
length := i - (p.moi + p.molen + 1)
if length == 4 {
p.yearlen = 4
p.set(p.yeari, "2006")
// We now also know that part1 was the day
p.dayi = 0
p.daylen = p.part1Len
p.setDay()
} else if length == 2 {
// We have no idea if this is
// yy-mon-dd OR dd-mon-yy
//
// We are going to ASSUME (bad, bad) that it is dd-mon-yy which is a horible assumption
p.ambiguousMD = true
p.yearlen = 2
p.set(p.yeari, "06")
// We now also know that part1 was the day
p.dayi = 0
p.daylen = p.part1Len
p.setDay()
}
p.stateTime = timeStart
break iterRunes
}
case dateDigitYearSlash:
// 2014/07/10 06:55:38.156283
// I honestly don't know if this format ever shows up as yyyy/
switch r {
case ' ', ':':
p.stateTime = timeStart
if p.daylen == 0 {
p.daylen = i - p.dayi
p.setDay()
}
break iterRunes
case '/':
if p.molen == 0 {
p.molen = i - p.moi
p.setMonth()
p.dayi = i + 1
}
}
case dateDigitSlashAlpha:
// 06/May/2008
switch r {
case '/':
// |
// 06/May/2008
if p.molen == 0 {
p.set(p.moi, "Jan")
p.yeari = i + 1
}
// We aren't breaking because we are going to re-use this case
// to find where the date starts, and possible time begins
case ' ', ':':
p.stateTime = timeStart
if p.yearlen == 0 {
p.yearlen = i - p.yeari
p.setYear()
}
break iterRunes
}
case dateDigitSlash:
// 03/19/2012 10:11:59
// 04/2/2014 03:00:37
// 3/1/2012 10:11:59
// 4/8/2014 22:05
// 3/1/2014
// 10/13/2014
// 01/02/2006
// 1/2/06
switch r {
case '/':
// This is the 2nd / so now we should know start pts of all of the dd, mm, yy
if p.preferMonthFirst {
if p.daylen == 0 {
p.daylen = i - p.dayi
p.setDay()
p.yeari = i + 1
}
} else {
if p.molen == 0 {
p.molen = i - p.moi
p.setMonth()
p.yeari = i + 1
}
}
// Note no break, we are going to pass by and re-enter this dateDigitSlash
// and look for ending (space) or not (just date)
case ' ':
p.stateTime = timeStart
if p.yearlen == 0 {
p.yearlen = i - p.yeari
p.setYear()
}
break iterRunes
}
case dateDigitColon:
// 2014:07:10 06:55:38.156283
// 03:19:2012 10:11:59
// 04:2:2014 03:00:37
// 3:1:2012 10:11:59
// 4:8:2014 22:05
// 3:1:2014
// 10:13:2014
// 01:02:2006
// 1:2:06
switch r {
case ' ':
p.stateTime = timeStart
if p.yearlen == 0 {
p.yearlen = i - p.yeari
p.setYear()
} else if p.daylen == 0 {
p.daylen = i - p.dayi
p.setDay()
}
break iterRunes
case ':':
if p.yearlen > 0 {
// 2014:07:10 06:55:38.156283
if p.molen == 0 {
p.molen = i - p.moi
p.setMonth()
p.dayi = i + 1
}
} else if p.preferMonthFirst {
if p.daylen == 0 {
p.daylen = i - p.dayi
p.setDay()
p.yeari = i + 1
}
}
}
case dateDigitWs:
// 18 January 2018
// 8 January 2018
// 8 jan 2018
// 1 jan 18
// 02 Jan 2018 23:59
// 02 Jan 2018 23:59:34
// 12 Feb 2006, 19:17
// 12 Feb 2006, 19:17:22
switch r {
case ' ':
p.yeari = i + 1
//p.yearlen = 4
p.dayi = 0
p.daylen = p.part1Len
p.setDay()
p.stateTime = timeStart
if i > p.daylen+len(" Sep") { // November etc
// If len greather than space + 3 it must be full month
p.stateDate = dateDigitWsMolong
} else {
// If len=3, the might be Feb or May? Ie ambigous abbreviated but
// we can parse may with either. BUT, that means the
// format may not be correct?
// mo := strings.ToLower(datestr[p.daylen+1 : i])
p.moi = p.daylen + 1
p.molen = i - p.moi
p.set(p.moi, "Jan")
p.stateDate = dateDigitWsMoYear
}
}
case dateDigitWsMoYear:
// 8 jan 2018
// 02 Jan 2018 23:59
// 02 Jan 2018 23:59:34
// 12 Feb 2006, 19:17
// 12 Feb 2006, 19:17:22
switch r {
case ',':
p.yearlen = i - p.yeari
p.setYear()
i++
break iterRunes
case ' ':
p.yearlen = i - p.yeari
p.setYear()
break iterRunes
}
case dateDigitWsMolong:
// 18 January 2018
// 8 January 2018
case dateDigitChineseYear:
// dateDigitChineseYear
// 2014年04月08日
// weekday %Y年%m月%e日 %A %I:%M %p
// 2013年07月18日 星期四 10:27 上午
if r == ' ' {
p.stateDate = dateDigitChineseYearWs
break
}
case dateDigitDot:
// This is the 2nd period
// 3.31.2014
// 08.21.71
// 2014.05
// 2018.09.30
if r == '.' {
if p.moi == 0 {
// 3.31.2014
p.daylen = i - p.dayi
p.yeari = i + 1
p.setDay()
p.stateDate = dateDigitDotDot
} else {
// 2018.09.30
//p.molen = 2
p.molen = i - p.moi
p.dayi = i + 1
p.setMonth()
p.stateDate = dateDigitDotDot
}
}
case dateDigitDotDot:
// iterate all the way through
case dateAlpha:
// dateAlphaWS
// Mon Jan _2 15:04:05 2006
// Mon Jan _2 15:04:05 MST 2006
// Mon Jan 02 15:04:05 -0700 2006
// Mon Aug 10 15:44:11 UTC+0100 2015
// Fri Jul 03 2015 18:04:07 GMT+0100 (GMT Daylight Time)
// dateAlphaWSDigit
// May 8, 2009 5:57:51 PM
// oct 1, 1970
// dateAlphaWsMonth
// April 8, 2009
// dateAlphaWsMore
// dateAlphaWsAtTime
// January 02, 2006 at 3:04pm MST-07
//
// dateAlphaPeriodWsDigit
// oct. 1, 1970
// dateWeekdayComma
// Monday, 02 Jan 2006 15:04:05 MST
// Monday, 02-Jan-06 15:04:05 MST
// Monday, 02 Jan 2006 15:04:05 -0700
// Monday, 02 Jan 2006 15:04:05 +0100
// dateWeekdayAbbrevComma
// Mon, 02 Jan 2006 15:04:05 MST
// Mon, 02 Jan 2006 15:04:05 -0700
// Thu, 13 Jul 2017 08:58:40 +0100
// Tue, 11 Jul 2017 16:28:13 +0200 (CEST)
// Mon, 02-Jan-06 15:04:05 MST
switch {
case r == ' ':
// X
// April 8, 2009
if i > 3 {
// Check to see if the alpha is name of month? or Day?
month := strings.ToLower(datestr[0:i])
if isMonthFull(month) {
p.fullMonth = month
// len(" 31, 2018") = 9
if len(datestr[i:]) < 10 {
// April 8, 2009
p.stateDate = dateAlphaWsMonth
} else {
p.stateDate = dateAlphaWsMore
}
p.dayi = i + 1
break
}
} else {
// This is possibly ambiguous? May will parse as either though.
// So, it could return in-correct format.
// dateAlphaWs
// May 05, 2005, 05:05:05
// May 05 2005, 05:05:05
// Jul 05, 2005, 05:05:05
// May 8 17:57:51 2009
// May 8 17:57:51 2009
// skip & return to dateStart
// Tue 05 May 2020, 05:05:05
// Mon Jan 2 15:04:05 2006
maybeDay := strings.ToLower(datestr[0:i])
if isDay(maybeDay) {
// using skip throws off indices used by other code; saner to restart
return parseTime(datestr[i+1:], loc)
}
p.stateDate = dateAlphaWs
}
case r == ',':
// Mon, 02 Jan 2006
if i == 3 {
p.stateDate = dateWeekdayAbbrevComma
p.set(0, "Mon")
} else {
p.stateDate = dateWeekdayComma
p.skip = i + 2
i++
// TODO: lets just make this "skip" as we don't need
// the mon, monday, they are all superfelous and not needed
// just lay down the skip, no need to fill and then skip
}
case r == '.':
// sept. 28, 2017
// jan. 28, 2017
p.stateDate = dateAlphaPeriodWsDigit
if i == 3 {
p.molen = i
p.set(0, "Jan")
} else if i == 4 {
// gross
datestr = datestr[0:i-1] + datestr[i:]
return parseTime(datestr, loc, opts...)
} else {
return nil, unknownErr(datestr)
}
}
case dateAlphaWs:
// dateAlphaWsAlpha
// Mon Jan _2 15:04:05 2006
// Mon Jan _2 15:04:05 MST 2006
// Mon Jan 02 15:04:05 -0700 2006
// Fri Jul 03 2015 18:04:07 GMT+0100 (GMT Daylight Time)
// Mon Aug 10 15:44:11 UTC+0100 2015
// dateAlphaWsDigit
// May 8, 2009 5:57:51 PM
// May 8 2009 5:57:51 PM
// May 8 17:57:51 2009
// May 8 17:57:51 2009
// May 08 17:57:51 2009
// oct 1, 1970
// oct 7, '70
switch {
case unicode.IsLetter(r):
p.set(0, "Mon")
p.stateDate = dateAlphaWsAlpha
p.set(i, "Jan")
case unicode.IsDigit(r):
p.set(0, "Jan")
p.stateDate = dateAlphaWsDigit
p.dayi = i
}
case dateAlphaWsDigit:
// May 8, 2009 5:57:51 PM
// May 8 2009 5:57:51 PM
// oct 1, 1970
// oct 7, '70
// oct. 7, 1970
// May 8 17:57:51 2009
// May 8 17:57:51 2009
// May 08 17:57:51 2009
if r == ',' {
p.daylen = i - p.dayi
p.setDay()
p.stateDate = dateAlphaWsDigitMore
} else if r == ' ' {
p.daylen = i - p.dayi
p.setDay()
p.yeari = i + 1
p.stateDate = dateAlphaWsDigitYearmaybe
p.stateTime = timeStart
} else if unicode.IsLetter(r) {
p.stateDate = dateAlphaWsMonthSuffix
i--
}
case dateAlphaWsDigitYearmaybe:
// x
// May 8 2009 5:57:51 PM
// May 8 17:57:51 2009
// May 8 17:57:51 2009
// May 08 17:57:51 2009
// Jul 03 2015 18:04:07 GMT+0100 (GMT Daylight Time)
if r == ':' {
// Guessed wrong; was not a year
i = i - 3
p.stateDate = dateAlphaWsDigit
p.yeari = 0
break iterRunes
} else if r == ' ' {
// must be year format, not 15:04
p.yearlen = i - p.yeari
p.setYear()
break iterRunes
}
case dateAlphaWsDigitMore:
// x
// May 8, 2009 5:57:51 PM
// May 05, 2005, 05:05:05
// May 05 2005, 05:05:05
// oct 1, 1970
// oct 7, '70
if r == ' ' {
p.yeari = i + 1
p.stateDate = dateAlphaWsDigitMoreWs
}
case dateAlphaWsDigitMoreWs:
// x
// May 8, 2009 5:57:51 PM
// May 05, 2005, 05:05:05
// oct 1, 1970
// oct 7, '70
switch r {
case '\'':
p.yeari = i + 1
case ' ', ',':
// x
// May 8, 2009 5:57:51 PM
// x
// May 8, 2009, 5:57:51 PM
p.stateDate = dateAlphaWsDigitMoreWsYear
p.yearlen = i - p.yeari
p.setYear()
p.stateTime = timeStart
break iterRunes
}
case dateAlphaWsMonth:
// April 8, 2009
// April 8 2009
switch r {
case ' ', ',':
// x
// June 8, 2009
// x
// June 8 2009
if p.daylen == 0 {
p.daylen = i - p.dayi
p.setDay()
}
case 's', 'S', 'r', 'R', 't', 'T', 'n', 'N':
// st, rd, nd, st
i--
p.stateDate = dateAlphaWsMonthSuffix
default:
if p.daylen > 0 && p.yeari == 0 {
p.yeari = i
}
}
case dateAlphaWsMonthMore:
// X
// January 02, 2006, 15:04:05
// January 02 2006, 15:04:05
// January 02, 2006 15:04:05
// January 02 2006 15:04:05
switch r {
case ',':
p.yearlen = i - p.yeari
p.setYear()
p.stateTime = timeStart
i++
break iterRunes
case ' ':
p.yearlen = i - p.yeari
p.setYear()
p.stateTime = timeStart
break iterRunes
}
case dateAlphaWsMonthSuffix:
// x
// April 8th, 2009
// April 8th 2009
switch r {
case 't', 'T':
if p.nextIs(i, 'h') || p.nextIs(i, 'H') {
if len(datestr) > i+2 {
return parseTime(fmt.Sprintf("%s%s", p.datestr[0:i], p.datestr[i+2:]), loc, opts...)
}
}
case 'n', 'N':
if p.nextIs(i, 'd') || p.nextIs(i, 'D') {
if len(datestr) > i+2 {
return parseTime(fmt.Sprintf("%s%s", p.datestr[0:i], p.datestr[i+2:]), loc, opts...)
}
}
case 's', 'S':
if p.nextIs(i, 't') || p.nextIs(i, 'T') {
if len(datestr) > i+2 {