dateparse/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.
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package dateparse
import (
"fmt"
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"strconv"
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"time"
"unicode"
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"unicode/utf8"
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)
// func init() {
// gou.SetupLogging("debug")
// gou.SetColorOutput()
// }
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type dateState uint8
type timeState uint8
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const (
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dateStart dateState = iota
dateDigit
dateDigitDash
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dateDigitDashDash
dateDigitDashDashWs
dateDigitDashDashT
dateDigitDashDashAlpha
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dateDigitDot
dateDigitDotDot
dateDigitSlash
dateDigitChineseYear
dateDigitChineseYearWs
dateDigitWs
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dateDigitWsMoYear
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dateDigitWsMolong
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dateAlpha
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dateAlphaWs
dateAlphaWsDigit
dateAlphaWsDigitComma
dateAlphaWsDigitCommaWs
dateAlphaWsDigitCommaWsYear
dateAlphaWsAlpha
dateAlphaWsAlphaYearmaybe
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dateWeekdayComma
dateWeekdayAbbrevComma
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//dateWeekdayAbbrevCommaDash
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)
const (
// Time state
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timeIgnore timeState = iota
timeStart
timeWs
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timeWsAlpha
timeWsAlphaWs
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timeWsAlphaZoneOffset
timeWsAlphaZoneOffsetWs
timeWsAlphaZoneOffsetWsYear
timeWsAlphaZoneOffsetWsExtra
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timeWsAMPMMaybe
timeWsAMPM
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timeWsOffset
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timeWsOffsetWs
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timeWsOffsetColonAlpha
timeWsOffsetColon
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timeWsYear
timeOffset
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timeOffsetColon
timeAlpha
timePeriod
timePeriodOffset
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timePeriodOffsetColon
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timePeriodOffsetColonWs
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timePeriodWs
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timePeriodWsAlpha
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timePeriodWsOffset
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timePeriodWsOffsetWs
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timePeriodWsOffsetWsAlpha
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timePeriodWsOffsetColon
timePeriodWsOffsetColonAlpha
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timeZ
timeZDigit
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)
var (
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shortDates = []string{"01/02/2006", "1/2/2006", "06/01/02", "01/02/06", "1/2/06"}
)
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// ParseAny parse an unknown date format, detect the layout, parse.
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// Normal parse. Equivalent Timezone rules as time.Parse()
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func ParseAny(datestr string) (time.Time, error) {
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return parseTime(datestr, nil)
}
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// ParseIn with Location, equivalent to time.ParseInLocation() timezone/offset
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// 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.
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func ParseIn(datestr string, loc *time.Location) (time.Time, error) {
return parseTime(datestr, loc)
}
// ParseLocal Given an unknown date format, detect the layout,
// using time.Local, parse.
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//
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// 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)
//
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func ParseLocal(datestr string) (time.Time, error) {
return parseTime(datestr, time.Local)
}
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// MustParse parse a date, and panic if it can't be parsed. Used for testing.
// Not recommended for most use-cases.
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func MustParse(datestr string) time.Time {
t, err := parseTime(datestr, nil)
if err != nil {
panic(err.Error())
}
return t
}
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func parse(layout, datestr string, loc *time.Location) (time.Time, error) {
if loc == nil {
return time.Parse(layout, datestr)
}
return time.ParseInLocation(layout, datestr, loc)
}
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type parser struct {
loc *time.Location
preferMonthFirst bool
stateDate dateState
stateTime timeState
format []byte
datestr string
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skip int
extra int
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part1Len int
yeari int
yearlen int
moi int
molen int
dayi int
daylen int
houri int
hourlen int
mini int
minlen int
seci int
seclen int
msi int
mslen int
offseti int
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offsetlen int
tzi int
tzlen int
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}
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func newParser(dateStr string, loc *time.Location) *parser {
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p := parser{
stateDate: dateStart,
stateTime: timeIgnore,
datestr: dateStr,
loc: loc,
preferMonthFirst: true,
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}
p.format = []byte(dateStr)
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return &p
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}
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func (p *parser) set(start int, val string) {
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if start < 0 {
return
}
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if len(p.format) < start+len(val) {
return
}
for i, r := range val {
p.format[start+i] = byte(r)
}
}
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func (p *parser) setMonth() {
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if p.molen == 2 {
p.set(p.moi, "01")
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} else if p.molen == 1 {
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p.set(p.moi, "1")
}
}
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func (p *parser) setDay() {
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if p.daylen == 2 {
p.set(p.dayi, "02")
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} else if p.daylen == 1 {
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p.set(p.dayi, "2")
}
}
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func (p *parser) setYear() {
if p.yearlen == 2 {
p.set(p.yeari, "06")
} else if p.yearlen == 4 {
p.set(p.yeari, "2006")
}
}
func (p *parser) coalesceDate(end int) {
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if p.yeari > 0 {
if p.yearlen == 0 {
p.yearlen = end - p.yeari
}
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p.setYear()
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}
if p.moi > 0 && p.molen == 0 {
p.molen = end - p.moi
p.setMonth()
}
if p.dayi > 0 && p.daylen == 0 {
p.daylen = end - p.dayi
p.setDay()
}
}
func (p *parser) ts() string {
return fmt.Sprintf("h:(%d:%d) m:(%d:%d) s:(%d:%d)", p.houri, p.hourlen, p.mini, p.minlen, p.seci, p.seclen)
}
func (p *parser) ds() string {
return fmt.Sprintf("%s d:(%d:%d) m:(%d:%d) y:(%d:%d)", p.datestr, p.dayi, p.daylen, p.moi, p.molen, p.yeari, p.yearlen)
}
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func (p *parser) coalesceTime(end int) {
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// 03:04:05
// 15:04:05
// 3:04:05
// 3:4:5
// 15:04:05.00
if p.houri > 0 {
if p.hourlen == 2 {
p.set(p.houri, "15")
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} else if p.hourlen == 1 {
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p.set(p.houri, "3")
}
}
if p.mini > 0 {
if p.minlen == 0 {
p.minlen = end - p.mini
}
if p.minlen == 2 {
p.set(p.mini, "04")
} else {
p.set(p.mini, "4")
}
}
if p.seci > 0 {
if p.seclen == 0 {
p.seclen = end - p.seci
}
if p.seclen == 2 {
p.set(p.seci, "05")
} else {
p.set(p.seci, "5")
}
}
if p.msi > 0 {
for i := 0; i < p.mslen; i++ {
p.format[p.msi+i] = '0'
}
}
}
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func (p *parser) trimExtra() {
if p.extra > 0 && len(p.format) > p.extra {
p.format = p.format[0:p.extra]
p.datestr = p.datestr[0:p.extra]
}
}
func (p *parser) parse() (time.Time, error) {
if p.skip > 0 && len(p.format) > p.skip {
p.format = p.format[p.skip:]
p.datestr = p.datestr[p.skip:]
}
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//gou.Debugf("parse %q AS %s", p.datestr, string(p.format))
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if p.loc == nil {
return time.Parse(string(p.format), p.datestr)
}
return time.ParseInLocation(string(p.format), p.datestr, p.loc)
}
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func parseTime(datestr string, loc *time.Location) (time.Time, error) {
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p := newParser(datestr, loc)
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i := 0
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// 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
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iterRunes:
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for ; i < len(datestr); i++ {
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//r := rune(datestr[i])
r, bytesConsumed := utf8.DecodeRuneInString(datestr[i:])
if bytesConsumed > 1 {
i += (bytesConsumed - 1)
}
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switch p.stateDate {
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case dateStart:
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if unicode.IsDigit(r) {
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p.stateDate = dateDigit
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} else if unicode.IsLetter(r) {
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p.stateDate = dateAlpha
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}
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case dateDigit:
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switch r {
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case '-', '\u2212':
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// 2006-01-02
// 2006-01-02T15:04:05Z07:00
// 13-Feb-03
// 2013-Feb-03
p.stateDate = dateDigitDash
p.yeari = 0
p.yearlen = i
p.moi = i + 1
if i == 4 {
p.set(0, "2006")
}
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case '/':
// 03/31/2005
// 2014/02/24
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p.stateDate = dateDigitSlash
if i == 4 {
p.yearlen = i
p.moi = i + 1
p.setYear()
} else {
if p.preferMonthFirst {
if p.molen == 0 {
p.molen = i
p.setMonth()
p.dayi = i + 1
}
}
}
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case '.':
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// 3.31.2014
p.moi = 0
p.molen = i
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p.setMonth()
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p.dayi = i + 1
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p.stateDate = dateDigitDot
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case ' ':
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// 18 January 2018
// 8 January 2018
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// 8 jan 2018
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// 02 Jan 2018 23:59
// 02 Jan 2018 23:59:34
// 12 Feb 2006, 19:17
// 12 Feb 2006, 19:17:22
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p.stateDate = dateDigitWs
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p.dayi = 0
p.daylen = i
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case '年':
// Chinese Year
p.stateDate = dateDigitChineseYear
default:
//if unicode.IsDigit(r) {
continue
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}
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p.part1Len = i
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case dateDigitDash:
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// 2006-01
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// 2006-01-02
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// dateDigitDashDashT
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// 2006-01-02T15:04:05Z07:00
// 2017-06-25T17:46:57.45706582-07:00
// 2006-01-02T15:04:05.999999999Z07:00
// 2006-01-02T15:04:05+0000
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// dateDigitDashDashWs
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// 2012-08-03 18:31:59.257000000
// 2014-04-26 17:24:37.3186369
// 2017-01-27 00:07:31.945167
// 2016-03-14 00:00:00.000
// 2014-05-11 08:20:13,787
// 2017-07-19 03:21:51+00:00
// 2013-04-01 22:43:22
// 2014-04-26 05:24:37 PM
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// dateDigitDashDashAlpha
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// 2013-Feb-03
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// 13-Feb-03
switch r {
case '-':
p.molen = i - p.moi
p.dayi = i + 1
p.stateDate = dateDigitDashDash
p.setMonth()
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default:
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if unicode.IsDigit(r) {
//continue
} else if unicode.IsLetter(r) {
p.stateDate = dateDigitDashDashAlpha
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}
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}
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case dateDigitDashDash:
// 2006-01-02
// dateDigitDashDashT
// 2006-01-02T15:04:05Z07:00
// 2017-06-25T17:46:57.45706582-07:00
// 2006-01-02T15:04:05.999999999Z07:00
// 2006-01-02T15:04:05+0000
// dateDigitDashDashWs
// 2012-08-03 18:31:59.257000000
// 2014-04-26 17:24:37.3186369
// 2017-01-27 00:07:31.945167
// 2016-03-14 00:00:00.000
// 2014-05-11 08:20:13,787
// 2017-07-19 03:21:51+00:00
// 2013-04-01 22:43:22
// 2014-04-26 05:24:37 PM
switch r {
case ' ':
p.daylen = i - p.dayi
p.stateDate = dateDigitDashDashWs
p.stateTime = timeStart
p.setDay()
break iterRunes
case 'T':
p.daylen = i - p.dayi
p.stateDate = dateDigitDashDashT
p.stateTime = timeStart
p.setDay()
break iterRunes
}
case dateDigitDashDashAlpha:
// 2013-Feb-03
// 13-Feb-03
switch r {
case '-':
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p.molen = i - p.moi
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p.set(p.moi, "Jan")
p.dayi = i + 1
}
case dateDigitSlash:
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// 2014/07/10 06:55:38.156283
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// 03/19/2012 10:11:59
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// 04/2/2014 03:00:37
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// 3/1/2012 10:11:59
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// 4/8/2014 22:05
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// 3/1/2014
// 10/13/2014
// 01/02/2006
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// 1/2/06
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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
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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
}
}
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default:
// if unicode.IsDigit(r) || r == '/' {
// continue
// }
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}
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case dateDigitWs:
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// 18 January 2018
// 8 January 2018
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// 8 jan 2018
// 1 jan 18
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// 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
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//p.yearlen = 4
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p.dayi = 0
p.daylen = p.part1Len
p.setDay()
p.stateTime = timeStart
if i <= len("12 Feb") {
p.moi = p.daylen + 1
p.molen = 3
p.set(p.moi, "Jan")
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p.stateDate = dateDigitWsMoYear
} else {
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p.stateDate = dateDigitWsMolong
}
}
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case dateDigitWsMoYear:
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// 8 jan 2018
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// 02 Jan 2018 23:59
// 02 Jan 2018 23:59:34
// 12 Feb 2006, 19:17
// 12 Feb 2006, 19:17:22
switch r {
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case ',':
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p.yearlen = i - p.yeari
p.setYear()
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i++
break iterRunes
case ' ':
p.yearlen = i - p.yeari
p.setYear()
break iterRunes
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}
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case dateDigitWsMolong:
// 18 January 2018
// 8 January 2018
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case dateDigitChineseYear:
// dateDigitChineseYear
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// 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 == ' ' {
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p.stateDate = dateDigitChineseYearWs
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break
}
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case dateDigitDot:
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// 3.31.2014
if r == '.' {
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p.daylen = i - p.dayi
p.yeari = i + 1
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p.setDay()
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p.stateDate = dateDigitDotDot
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}
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case dateDigitDotDot:
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// iterate all the way through
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case dateAlpha:
// dateAlphaWS
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// 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)
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// dateAlphaWSDigit
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// May 8, 2009 5:57:51 PM
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// oct 1, 1970
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//
2018-02-26 08:35:33 +08:00
// 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
2018-02-26 08:35:33 +08:00
// dateWeekdayAbbrevComma
2017-07-14 00:11:41 +08:00
// 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)
2018-03-12 08:39:59 +08:00
// Mon, 02-Jan-06 15:04:05 MST
2014-05-07 12:15:43 +08:00
switch {
case r == ' ':
if i > 4 {
// September 17, 2012 at 5:00pm UTC-05
// This one doesn't follow standard parse methodologies. the "January"
// is difficult to use the format string replace method because of its variable-length (march, june)
// so we just use this format here. If we see more similar to this we will do something else.
return parse("January 02, 2006 at 3:04pm MST-07", datestr, loc)
}
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p.stateDate = dateAlphaWs
2014-05-21 13:53:52 +08:00
case r == ',':
// p.moi = 0
// p.molen = i
2017-07-14 00:11:41 +08:00
if i == 3 {
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p.stateDate = dateWeekdayAbbrevComma
p.set(0, "Mon")
2017-07-14 00:11:41 +08:00
} else {
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p.stateDate = dateWeekdayComma
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//p.set(0, "Monday")
p.skip = i + 2
i++
2018-03-02 10:36:46 +08:00
// 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 dateWeekdayComma:
// Monday, 02 Jan 2006 15:04:05 MST
// Monday, 02 Jan 2006 15:04:05 -0700
// Monday, 02 Jan 2006 15:04:05 +0100
// Monday, 02-Jan-06 15:04:05 MST
2018-03-02 10:36:46 +08:00
if p.dayi == 0 {
p.dayi = i
}
switch r {
case ' ', '-':
if p.moi == 0 {
p.moi = i + 1
p.daylen = i - p.dayi
p.setDay()
} else if p.yeari == 0 {
p.yeari = i + 1
p.molen = i - p.moi
p.set(p.moi, "Jan")
} else {
p.stateTime = timeStart
break iterRunes
}
}
case dateWeekdayAbbrevComma:
2017-07-14 00:11:41 +08:00
// Mon, 02 Jan 2006 15:04:05 MST
// Mon, 02 Jan 2006 15:04:05 -0700
// Thu, 13 Jul 2017 08:58:40 +0100
// Thu, 4 Jan 2018 17:53:36 +0000
// Tue, 11 Jul 2017 16:28:13 +0200 (CEST)
2018-03-12 08:39:59 +08:00
// Mon, 02-Jan-06 15:04:05 MST
switch r {
case ' ', '-':
if p.dayi == 0 {
p.dayi = i + 1
} else if p.moi == 0 {
p.daylen = i - p.dayi
p.setDay()
p.moi = i + 1
} else if p.yeari == 0 {
p.molen = i - p.moi
p.set(p.moi, "Jan")
p.yeari = i + 1
} else {
p.yearlen = i - p.yeari
p.setYear()
p.stateTime = timeStart
break iterRunes
}
2017-07-14 22:02:22 +08:00
}
2018-03-02 10:36:46 +08:00
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
2018-03-11 05:43:16 +08:00
// oct 1, 1970
// oct 7, '70
2014-05-07 12:15:43 +08:00
switch {
case unicode.IsLetter(r):
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p.set(0, "Mon")
p.stateDate = dateAlphaWsAlpha
//p.moi = i
p.set(i, "Jan")
2017-07-14 00:11:41 +08:00
case unicode.IsDigit(r):
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p.set(0, "Jan")
p.stateDate = dateAlphaWsDigit
p.dayi = i
2014-05-21 13:53:52 +08:00
}
2018-03-02 10:36:46 +08:00
case dateAlphaWsDigit:
2018-03-11 05:43:16 +08:00
// May 8, 2009 5:57:51 PM
// oct 1, 1970
// oct 7, '70
//gou.Debugf("%d %s dateAlphaWsDigit %s %s", i, string(r), p.ds(), p.ts())
if r == ',' {
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p.daylen = i - p.dayi
p.setDay()
p.stateDate = dateAlphaWsDigitComma
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}
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case dateAlphaWsDigitComma:
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// x
// May 8, 2009 5:57:51 PM
// oct 1, 1970
// oct 7, '70
if r == ' ' {
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p.stateDate = dateAlphaWsDigitCommaWs
p.yeari = i + 1
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}
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case dateAlphaWsDigitCommaWs:
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// x
// May 8, 2009 5:57:51 PM
// oct 1, 1970
// oct 7, '70
switch r {
case '\'':
p.yeari = i + 1
case ' ':
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p.stateDate = dateAlphaWsDigitCommaWsYear
p.yearlen = i - p.yeari
p.setYear()
p.stateTime = timeStart
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break iterRunes
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}
2018-03-02 10:36:46 +08:00
case dateAlphaWsAlpha:
2015-07-04 01:27:48 +08:00
// Mon Jan _2 15:04:05 2006
// Mon Jan 02 15:04:05 -0700 2006
2015-07-04 01:27:48 +08:00
// Mon Jan _2 15:04:05 MST 2006
// Mon Aug 10 15:44:11 UTC+0100 2015
// Fri Jul 03 2015 18:04:07 GMT+0100 (GMT Daylight Time)
2018-03-02 10:36:46 +08:00
if r == ' ' {
if p.dayi > 0 {
2018-03-12 05:08:21 +08:00
2018-03-02 10:36:46 +08:00
p.daylen = i - p.dayi
p.setDay()
p.yeari = i + 1
p.stateDate = dateAlphaWsAlphaYearmaybe
p.stateTime = timeStart
}
} else if unicode.IsDigit(r) {
if p.dayi == 0 {
p.dayi = i
}
}
2018-03-02 10:36:46 +08:00
case dateAlphaWsAlphaYearmaybe:
// x
// Mon Jan _2 15:04:05 2006
// Fri Jul 03 2015 18:04:07 GMT+0100 (GMT Daylight Time)
2018-03-02 10:36:46 +08:00
if r == ':' {
i = i - 3
p.stateDate = dateAlphaWsAlpha
p.yeari = 0
break iterRunes
} else if r == ' ' {
// must be year format, not 15:04
p.yearlen = i - p.yeari
p.setYear()
break iterRunes
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}
2018-03-02 10:36:46 +08:00
2014-05-07 12:15:43 +08:00
default:
break iterRunes
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}
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}
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p.coalesceDate(i)
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if p.stateTime == timeStart {
// increment first one, since the i++ occurs at end of loop
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if i < len(p.datestr) {
i++
}
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// ensure we skip any whitespace prefix
for ; i < len(datestr); i++ {
r := rune(datestr[i])
if r != ' ' {
break
}
}
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iterTimeRunes:
for ; i < len(datestr); i++ {
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r := rune(datestr[i])
2018-02-26 14:46:45 +08:00
2018-03-12 08:39:59 +08:00
//gou.Debugf("%d %s iterTimeRunes %s %s", i, string(r), p.ds(), p.ts())
2018-03-12 05:08:21 +08:00
2018-02-26 14:46:45 +08:00
switch p.stateTime {
case timeStart:
// 22:43:22
// 22:43
2018-02-26 14:46:45 +08:00
// timeComma
// 08:20:13,787
// timeWs
// 05:24:37 PM
// 06:20:00 UTC
// 00:12:00 +0000 UTC
// 15:04:05 -0700
// 15:04:05 -07:00
2018-03-02 10:36:46 +08:00
// 15:04:05 2008
2018-02-26 14:46:45 +08:00
// timeOffset
// 03:21:51+00:00
2018-02-28 12:05:14 +08:00
// 19:55:00+0100
2018-02-26 14:46:45 +08:00
// timePeriod
// 17:24:37.3186369
// 00:07:31.945167
// 18:31:59.257000000
// 00:00:00.000
// timePeriodOffset
2018-02-28 12:05:14 +08:00
// 19:55:00.799+0100
// timePeriodOffsetColon
// 15:04:05.999-07:00
// timePeriodWs
// timePeriodWsOffset
// 00:07:31.945167 +0000
// 00:00:00.000 +0000
// timePeriodWsOffsetAlpha
2018-02-26 14:46:45 +08:00
// 00:07:31.945167 +0000 UTC
// 00:00:00.000 +0000 UTC
2018-02-28 12:05:14 +08:00
// timePeriodWsAlpha
// 06:20:00.000 UTC
2018-02-26 14:46:45 +08:00
if p.houri == 0 {
p.houri = i
}
switch r {
case ',':
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// hm, lets just swap out comma for period. for some reason go
// won't parse it.
// 2014-05-11 08:20:13,787
ds := []byte(p.datestr)
ds[i] = '.'
return parseTime(string(ds), loc)
2018-02-26 14:46:45 +08:00
case '-', '+':
// 03:21:51+00:00
p.stateTime = timeOffset
p.seclen = i - p.seci
p.offseti = i
case '.':
p.stateTime = timePeriod
p.seclen = i - p.seci
p.msi = i + 1
case 'Z':
p.stateTime = timeZ
if p.seci == 0 {
p.minlen = i - p.mini
} else {
p.seclen = i - p.seci
}
case ' ':
p.coalesceTime(i)
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p.stateTime = timeWs
case ':':
if p.mini == 0 {
p.mini = i + 1
p.hourlen = i - p.houri
} else if p.seci == 0 {
p.seci = i + 1
p.minlen = i - p.mini
}
2018-02-26 08:35:33 +08:00
}
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case timeOffset:
2018-02-28 12:05:14 +08:00
// 19:55:00+0100
2018-02-26 14:46:45 +08:00
// timeOffsetColon
2018-02-28 12:05:14 +08:00
// 15:04:05+07:00
// 15:04:05-07:00
2018-02-26 14:46:45 +08:00
if r == ':' {
p.stateTime = timeOffsetColon
2018-02-26 08:35:33 +08:00
}
2018-02-26 14:46:45 +08:00
case timeWs:
2018-03-02 10:36:46 +08:00
// timeWsAlpha
2018-02-26 14:46:45 +08:00
// 06:20:00 UTC
2018-03-02 10:36:46 +08:00
// 15:44:11 UTC+0100 2015
// 18:04:07 GMT+0100 (GMT Daylight Time)
2018-03-12 08:39:59 +08:00
// 17:57:51 MST 2009
2018-02-26 14:46:45 +08:00
// timeWsAMPMMaybe
// 05:24:37 PM
// timeWsOffset
// 15:04:05 -0700
2018-03-12 08:39:59 +08:00
// 00:12:00 +0000 UTC
2018-02-26 14:46:45 +08:00
// timeWsOffsetColon
// 15:04:05 -07:00
2018-03-12 05:08:21 +08:00
// 17:57:51 -0700 2009
2018-02-26 14:46:45 +08:00
// timeWsOffsetColonAlpha
// 00:12:00 +00:00 UTC
2018-03-02 10:36:46 +08:00
// timeWsYear
// 00:12:00 2008
2018-02-26 14:46:45 +08:00
// timeZ
// 15:04:05.99Z
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switch r {
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case 'A', 'P':
// Could be AM/PM or could be PST or similar
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p.tzi = i
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p.stateTime = timeWsAMPMMaybe
case '+', '-':
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p.offseti = i
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p.stateTime = timeWsOffset
default:
if unicode.IsLetter(r) {
// 06:20:00 UTC
2018-03-02 10:36:46 +08:00
// 15:44:11 UTC+0100 2015
2018-03-12 08:39:59 +08:00
// 17:57:51 MST 2009
2018-03-02 10:36:46 +08:00
p.tzi = i
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p.stateTime = timeWsAlpha
2018-03-02 10:36:46 +08:00
//break iterTimeRunes
} else if unicode.IsDigit(r) {
// 00:12:00 2008
p.stateTime = timeWsYear
p.yeari = i
2018-02-26 14:46:45 +08:00
}
2018-02-26 08:35:33 +08:00
}
2018-03-02 10:36:46 +08:00
case timeWsAlpha:
// 06:20:00 UTC
2018-03-12 08:39:59 +08:00
// timeWsAlphaWs
// 17:57:51 MST 2009
2018-03-02 10:36:46 +08:00
// timeWsAlphaZoneOffset
// timeWsAlphaZoneOffsetWs
// timeWsAlphaZoneOffsetWsExtra
// 18:04:07 GMT+0100 (GMT Daylight Time)
// timeWsAlphaZoneOffsetWsYear
// 15:44:11 UTC+0100 2015
switch r {
case '+', '-':
p.tzlen = i - p.tzi
if p.tzlen == 4 {
p.set(p.tzi, " MST")
2018-03-02 10:36:46 +08:00
} else if p.tzlen == 3 {
p.set(p.tzi, "MST")
}
p.stateTime = timeWsAlphaZoneOffset
p.offseti = i
2018-03-12 08:39:59 +08:00
case ' ':
// 17:57:51 MST 2009
p.stateTime = timeWsAlphaWs
p.yeari = i + 1
2018-03-02 10:36:46 +08:00
}
2018-03-12 08:39:59 +08:00
case timeWsAlphaWs:
// 17:57:51 MST 2009
2018-03-02 10:36:46 +08:00
case timeWsAlphaZoneOffset:
// timeWsAlphaZoneOffset
// timeWsAlphaZoneOffsetWs
// timeWsAlphaZoneOffsetWsExtra
// 18:04:07 GMT+0100 (GMT Daylight Time)
// timeWsAlphaZoneOffsetWsYear
// 15:44:11 UTC+0100 2015
switch r {
case ' ':
p.set(p.offseti, "-0700")
p.yeari = i + 1
p.stateTime = timeWsAlphaZoneOffsetWs
}
case timeWsAlphaZoneOffsetWs:
// timeWsAlphaZoneOffsetWs
// timeWsAlphaZoneOffsetWsExtra
// 18:04:07 GMT+0100 (GMT Daylight Time)
// timeWsAlphaZoneOffsetWsYear
// 15:44:11 UTC+0100 2015
if unicode.IsDigit(r) {
p.stateTime = timeWsAlphaZoneOffsetWsYear
} else {
p.extra = i - 1
p.stateTime = timeWsAlphaZoneOffsetWsExtra
}
case timeWsAlphaZoneOffsetWsYear:
// 15:44:11 UTC+0100 2015
if unicode.IsDigit(r) {
p.yearlen = i - p.yeari + 1
if p.yearlen == 4 {
p.setYear()
}
}
2018-02-26 14:46:45 +08:00
case timeWsAMPMMaybe:
// timeWsAMPMMaybe
// timeWsAMPM
// 05:24:37 PM
// timeWsAlpha
// 00:12:00 PST
2018-03-02 10:36:46 +08:00
// 15:44:11 UTC+0100 2015
2018-02-26 14:46:45 +08:00
if r == 'M' {
//return parse("2006-01-02 03:04:05 PM", datestr, loc)
p.stateTime = timeWsAMPM
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p.set(i-1, "PM")
if p.hourlen == 2 {
p.set(p.houri, "03")
} else if p.hourlen == 1 {
p.set(p.houri, "3")
}
2018-02-26 14:46:45 +08:00
} else {
p.stateTime = timeWsAlpha
}
case timeWsOffset:
// timeWsOffset
// 15:04:05 -0700
2018-03-12 05:08:21 +08:00
// timeWsOffsetWs
// 17:57:51 -0700 2009
2018-03-12 08:39:59 +08:00
// 00:12:00 +0000 UTC
2018-02-26 14:46:45 +08:00
// timeWsOffsetColon
// 15:04:05 -07:00
// timeWsOffsetColonAlpha
// 00:12:00 +00:00 UTC
2018-02-28 12:05:14 +08:00
switch r {
case ':':
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p.stateTime = timeWsOffsetColon
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case ' ':
p.set(p.offseti, "-0700")
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p.yeari = i + 1
2018-03-12 05:08:21 +08:00
p.stateTime = timeWsOffsetWs
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}
2018-03-12 05:08:21 +08:00
case timeWsOffsetWs:
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// 17:57:51 -0700 2009
// 00:12:00 +0000 UTC
if unicode.IsDigit(r) {
p.yearlen = i - p.yeari + 1
if p.yearlen == 4 {
p.setYear()
}
} else if unicode.IsLetter(r) {
if p.tzi == 0 {
p.tzi = i
}
}
2018-02-26 14:46:45 +08:00
case timeWsOffsetColon:
// timeWsOffsetColon
// 15:04:05 -07:00
// timeWsOffsetColonAlpha
// 2015-02-18 00:12:00 +00:00 UTC
if unicode.IsLetter(r) {
// 2015-02-18 00:12:00 +00:00 UTC
p.stateTime = timeWsOffsetColonAlpha
break iterTimeRunes
}
2018-02-26 08:35:33 +08:00
2018-02-26 14:46:45 +08:00
case timePeriod:
// 15:04:05.999999999+07:00
// 15:04:05.999999999-07:00
// 15:04:05.999999+07:00
// 15:04:05.999999-07:00
// 15:04:05.999+07:00
// 15:04:05.999-07:00
// timePeriod
2018-02-28 12:05:14 +08:00
// 17:24:37.3186369
// 00:07:31.945167
// 18:31:59.257000000
// 00:00:00.000
// timePeriodOffset
// 19:55:00.799+0100
// timePeriodOffsetColon
// 15:04:05.999-07:00
// timePeriodWs
// timePeriodWsOffset
// 00:07:31.945167 +0000
// 00:00:00.000 +0000
// timePeriodWsOffsetAlpha
// 00:07:31.945167 +0000 UTC
// 00:00:00.000 +0000 UTC
// timePeriodWsAlpha
// 06:20:00.000 UTC
2018-02-26 14:46:45 +08:00
switch r {
case ' ':
p.mslen = i - p.msi
p.stateTime = timePeriodWs
case '+', '-':
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// This really shouldn't happen
2018-02-26 14:46:45 +08:00
p.mslen = i - p.msi
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p.offseti = i
2018-02-26 14:46:45 +08:00
p.stateTime = timePeriodOffset
default:
if unicode.IsLetter(r) {
// 06:20:00.000 UTC
p.mslen = i - p.msi
2018-02-28 12:05:14 +08:00
p.stateTime = timePeriodWsAlpha
2018-02-26 14:46:45 +08:00
}
}
2018-02-28 12:05:14 +08:00
case timePeriodOffset:
// timePeriodOffset
// 19:55:00.799+0100
// timePeriodOffsetColon
// 15:04:05.999-07:00
2018-03-12 08:39:59 +08:00
// 13:31:51.999-07:00 MST
if r == ':' {
2018-02-28 12:05:14 +08:00
p.stateTime = timePeriodOffsetColon
}
case timePeriodOffsetColon:
// timePeriodOffset
// timePeriodOffsetColon
// 15:04:05.999-07:00
2018-03-12 08:39:59 +08:00
// 13:31:51.999 -07:00 MST
switch r {
case ' ':
p.set(p.offseti, "-07:00")
p.stateTime = timePeriodOffsetColonWs
p.tzi = i + 1
}
case timePeriodOffsetColonWs:
// continue
2018-02-26 14:46:45 +08:00
case timePeriodWs:
2018-02-28 12:05:14 +08:00
// timePeriodWs
// timePeriodWsOffset
// 00:07:31.945167 +0000
// 00:00:00.000 +0000
// timePeriodWsOffsetAlpha
// 00:07:31.945167 +0000 UTC
// 00:00:00.000 +0000 UTC
2018-03-12 08:39:59 +08:00
// timePeriodWsOffsetColon
// 13:31:51.999 -07:00 MST
2018-02-28 12:05:14 +08:00
// timePeriodWsAlpha
// 06:20:00.000 UTC
if p.offseti == 0 {
p.offseti = i
2018-02-26 14:46:45 +08:00
}
2018-02-28 12:05:14 +08:00
switch r {
case '+', '-':
p.mslen = i - p.msi - 1
p.stateTime = timePeriodWsOffset
default:
if unicode.IsLetter(r) {
// 00:07:31.945167 +0000 UTC
// 00:00:00.000 +0000 UTC
p.stateTime = timePeriodWsOffsetWsAlpha
break iterTimeRunes
}
}
2018-02-26 14:46:45 +08:00
case timePeriodWsOffset:
2018-02-28 12:05:14 +08:00
// timePeriodWs
// timePeriodWsOffset
// 00:07:31.945167 +0000
// 00:00:00.000 +0000
// timePeriodWsOffsetAlpha
// 00:07:31.945167 +0000 UTC
// 00:00:00.000 +0000 UTC
2018-03-12 08:39:59 +08:00
// timePeriodWsOffsetColon
// 13:31:51.999 -07:00 MST
2018-02-28 12:05:14 +08:00
// timePeriodWsAlpha
// 06:20:00.000 UTC
switch r {
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case ':':
p.stateTime = timePeriodWsOffsetColon
2018-02-28 12:05:14 +08:00
case ' ':
p.set(p.offseti, "-0700")
default:
if unicode.IsLetter(r) {
// 00:07:31.945167 +0000 UTC
// 00:00:00.000 +0000 UTC
p.stateTime = timePeriodWsOffsetWsAlpha
break iterTimeRunes
}
2018-02-26 14:46:45 +08:00
}
2018-02-28 12:05:14 +08:00
2018-03-12 08:39:59 +08:00
case timePeriodWsOffsetColon:
// 13:31:51.999 -07:00 MST
switch r {
case ' ':
p.set(p.offseti, "-07:00")
default:
if unicode.IsLetter(r) {
// 13:31:51.999 -07:00 MST
p.tzi = i
p.stateTime = timePeriodWsOffsetColonAlpha
}
}
case timePeriodWsOffsetColonAlpha:
// continue
2018-02-26 14:46:45 +08:00
case timeZ:
// timeZ
// 15:04:05.99Z
// With a time-zone at end after Z
// 2006-01-02T15:04:05.999999999Z07:00
// 2006-01-02T15:04:05Z07:00
// RFC3339 = "2006-01-02T15:04:05Z07:00"
// RFC3339Nano = "2006-01-02T15:04:05.999999999Z07:00"
if unicode.IsDigit(r) {
p.stateTime = timeZDigit
}
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}
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}
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switch p.stateTime {
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case timeWsAlphaWs:
p.yearlen = i - p.yeari
p.setYear()
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case timeWsYear:
p.yearlen = i - p.yeari
p.setYear()
case timeWsAlphaZoneOffsetWsExtra:
p.trimExtra()
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case timePeriod:
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p.mslen = i - p.msi
case timeOffset:
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// 19:55:00+0100
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p.set(p.offseti, "-0700")
case timeWsOffset:
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p.set(p.offseti, "-0700")
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case timeWsOffsetWs:
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// 17:57:51 -0700 2009
// 00:12:00 +0000 UTC
case timeWsOffsetColon:
// 17:57:51 -07:00
p.set(p.offseti, "-07:00")
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case timeOffsetColon:
// 15:04:05+07:00
p.set(p.offseti, "-07:00")
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case timePeriodOffset:
// 19:55:00.799+0100
p.set(p.offseti, "-0700")
case timePeriodOffsetColon:
p.set(p.offseti, "-07:00")
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case timePeriodWsOffsetColonAlpha:
p.tzlen = i - p.tzi
switch p.tzlen {
case 3:
p.set(p.tzi, "MST")
case 4:
p.set(p.tzi, "MST ")
}
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case timePeriodWsOffset:
p.set(p.offseti, "-0700")
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}
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p.coalesceTime(i)
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}
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switch p.stateDate {
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case dateDigit:
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// unixy timestamps ish
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// 1499979655583057426 nanoseconds
// 1499979795437000 micro-seconds
// 1499979795437 milliseconds
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// 1384216367189
// 1332151919 seconds
// 20140601 yyyymmdd
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// 2014 yyyy
t := time.Time{}
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if len(datestr) > len("1499979795437000") {
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if nanoSecs, err := strconv.ParseInt(datestr, 10, 64); err == nil {
t = time.Unix(0, nanoSecs)
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}
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} else if len(datestr) > len("1499979795437") {
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if microSecs, err := strconv.ParseInt(datestr, 10, 64); err == nil {
t = time.Unix(0, microSecs*1000)
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}
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} else if len(datestr) > len("1332151919") {
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if miliSecs, err := strconv.ParseInt(datestr, 10, 64); err == nil {
t = time.Unix(0, miliSecs*1000*1000)
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}
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} else if len(datestr) == len("20140601") {
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return parse("20060102", datestr, loc)
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} else if len(datestr) == len("2014") {
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return parse("2006", datestr, loc)
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}
if t.IsZero() {
if secs, err := strconv.ParseInt(datestr, 10, 64); err == nil {
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if secs < 0 {
// Now, for unix-seconds we aren't going to guess a lot
// nothing before unix-epoch
} else {
t = time.Unix(secs, 0)
}
}
}
if !t.IsZero() {
if loc == nil {
return t, nil
}
return t.In(loc), nil
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}
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case dateDigitDash:
// 2006-01
return p.parse()
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case dateDigitDashDash:
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// 2006-01-02
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// 2006-1-02
// 2006-1-2
// 2006-01-2
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return p.parse()
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case dateDigitDashDashAlpha:
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// 2013-Feb-03
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// 2013-Feb-3
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p.daylen = i - p.dayi
p.setDay()
return p.parse()
case dateDigitDashDashWs: // starts digit then dash 02- then whitespace 1 << 2 << 5 + 3
// 2013-04-01 22:43:22
// 2013-04-01 22:43
return p.parse()
case dateDigitDashDashT:
return p.parse()
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case dateDigitDotDot:
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// 03.31.1981
// 3.2.1981
// 3.2.81
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p.setYear()
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p.yearlen = i - p.yeari
return p.parse()
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case dateDigitWsMoYear:
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// 2 Jan 2018
// 2 Jan 18
// 2 Jan 2018 23:59
// 02 Jan 2018 23:59
// 02 Jan 2018 23:59:45
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// 12 Feb 2006, 19:17
// 12 Feb 2006, 19:17:22
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return p.parse()
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case dateDigitWsMolong:
// 18 January 2018
// 8 January 2018
if p.daylen == 2 {
return parse("02 January 2006", datestr, loc)
}
return parse("2 January 2006", datestr, loc)
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case dateAlphaWsDigitCommaWs:
// oct 1, 1970
p.yearlen = i - p.yeari
p.setYear()
return p.parse()
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case dateAlphaWsDigitCommaWsYear:
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// May 8, 2009 5:57:51 PM
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return p.parse()
case dateAlphaWsAlpha:
return p.parse()
case dateAlphaWsAlphaYearmaybe:
return p.parse()
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case dateDigitSlash:
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// 3/1/2014
// 10/13/2014
// 01/02/2006
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// 2014/10/13
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return p.parse()
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case dateDigitChineseYear:
// dateDigitChineseYear
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// 2014年04月08日
return parse("2006年01月02日", datestr, loc)
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case dateDigitChineseYearWs:
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return parse("2006年01月02日 15:04:05", datestr, loc)
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case dateWeekdayComma:
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// Monday, 02 Jan 2006 15:04:05 -0700
// Monday, 02 Jan 2006 15:04:05 +0100
// Monday, 02-Jan-06 15:04:05 MST
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return p.parse()
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case dateWeekdayAbbrevComma:
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// Mon, 02-Jan-06 15:04:05 MST
// Mon, 02 Jan 2006 15:04:05 MST
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return p.parse()
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}
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return time.Time{}, fmt.Errorf("Could not find date format for %s", datestr)
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}