go-chart/date/util.go
2016-07-23 11:50:30 -07:00

336 lines
9.4 KiB
Go

package date
import (
"sync"
"time"
)
const (
// AllDaysMask is a bitmask of all the days of the week.
AllDaysMask = 1<<uint(time.Sunday) | 1<<uint(time.Monday) | 1<<uint(time.Tuesday) | 1<<uint(time.Wednesday) | 1<<uint(time.Thursday) | 1<<uint(time.Friday) | 1<<uint(time.Saturday)
// WeekDaysMask is a bitmask of all the weekdays of the week.
WeekDaysMask = 1<<uint(time.Monday) | 1<<uint(time.Tuesday) | 1<<uint(time.Wednesday) | 1<<uint(time.Thursday) | 1<<uint(time.Friday)
//WeekendDaysMask is a bitmask of the weekend days of the week.
WeekendDaysMask = 1<<uint(time.Sunday) | 1<<uint(time.Saturday)
)
var (
// DaysOfWeek are all the time.Weekday in an array for utility purposes.
DaysOfWeek = []time.Weekday{
time.Sunday,
time.Monday,
time.Tuesday,
time.Wednesday,
time.Thursday,
time.Friday,
time.Saturday,
}
// WeekDays are the business time.Weekday in an array.
WeekDays = []time.Weekday{
time.Monday,
time.Tuesday,
time.Wednesday,
time.Thursday,
time.Friday,
}
// WeekendDays are the weekend time.Weekday in an array.
WeekendDays = []time.Weekday{
time.Sunday,
time.Saturday,
}
//Epoch is unix epoc saved for utility purposes.
Epoch = time.Unix(0, 0)
)
var (
_easternLock sync.Mutex
_eastern *time.Location
)
var (
// NYSEOpen is when the NYSE opens.
NYSEOpen = ClockTime(9, 30, 0, 0, Eastern())
// NYSEClose is when the NYSE closes.
NYSEClose = ClockTime(16, 0, 0, 0, Eastern())
// NASDAQOpen is when NASDAQ opens.
NASDAQOpen = ClockTime(9, 30, 0, 0, Eastern())
// NASDAQClose is when NASDAQ closes.
NASDAQClose = ClockTime(16, 0, 0, 0, Eastern())
// NYSEArcaOpen is when NYSEARCA opens.
NYSEArcaOpen = ClockTime(4, 0, 0, 0, Eastern())
// NYSEArcaClose is when NYSEARCA closes.
NYSEArcaClose = ClockTime(20, 0, 0, 0, Eastern())
)
// HolidayProvider is a function that returns if a given time falls on a holiday.
type HolidayProvider func(time.Time) bool
// IsNYSEHoliday returns if a date was/is on a nyse holiday day.
func IsNYSEHoliday(t time.Time) bool {
te := t.In(Eastern())
if te.Year() == 2013 {
if te.Month() == 1 {
return te.Day() == 1 || te.Day() == 21
} else if te.Month() == 2 {
return te.Day() == 18
} else if te.Month() == 3 {
return te.Day() == 29
} else if te.Month() == 5 {
return te.Day() == 27
} else if te.Month() == 7 {
return te.Day() == 4
} else if te.Month() == 9 {
return te.Day() == 2
} else if te.Month() == 11 {
return te.Day() == 28
} else if te.Month() == 12 {
return te.Day() == 25
}
} else if te.Year() == 2014 {
if te.Month() == 1 {
return te.Day() == 1 || te.Day() == 20
} else if te.Month() == 2 {
return te.Day() == 17
} else if te.Month() == 4 {
return te.Day() == 18
} else if te.Month() == 5 {
return te.Day() == 26
} else if te.Month() == 7 {
return te.Day() == 4
} else if te.Month() == 9 {
return te.Day() == 1
} else if te.Month() == 11 {
return te.Day() == 27
} else if te.Month() == 12 {
return te.Day() == 25
}
} else if te.Year() == 2015 {
if te.Month() == 1 {
return te.Day() == 1 || te.Day() == 19
} else if te.Month() == 2 {
return te.Day() == 16
} else if te.Month() == 4 {
return te.Day() == 3
} else if te.Month() == 5 {
return te.Day() == 25
} else if te.Month() == 7 {
return te.Day() == 3
} else if te.Month() == 9 {
return te.Day() == 7
} else if te.Month() == 11 {
return te.Day() == 26
} else if te.Month() == 12 {
return te.Day() == 25
}
} else if te.Year() == 2016 {
if te.Month() == 1 {
return te.Day() == 1 || te.Day() == 18
} else if te.Month() == 2 {
return te.Day() == 15
} else if te.Month() == 3 {
return te.Day() == 25
} else if te.Month() == 5 {
return te.Day() == 30
} else if te.Month() == 7 {
return te.Day() == 4
} else if te.Month() == 9 {
return te.Day() == 5
} else if te.Month() == 11 {
return te.Day() == 24 || te.Day() == 25
} else if te.Month() == 12 {
return te.Day() == 26
}
} else if te.Year() == 2017 {
if te.Month() == 1 {
return te.Day() == 1 || te.Day() == 16
} else if te.Month() == 2 {
return te.Day() == 20
} else if te.Month() == 4 {
return te.Day() == 15
} else if te.Month() == 5 {
return te.Day() == 29
} else if te.Month() == 7 {
return te.Day() == 4
} else if te.Month() == 9 {
return te.Day() == 4
} else if te.Month() == 11 {
return te.Day() == 23
} else if te.Month() == 12 {
return te.Day() == 25
}
} else if te.Year() == 2018 {
if te.Month() == 1 {
return te.Day() == 1 || te.Day() == 15
} else if te.Month() == 2 {
return te.Day() == 19
} else if te.Month() == 3 {
return te.Day() == 30
} else if te.Month() == 5 {
return te.Day() == 28
} else if te.Month() == 7 {
return te.Day() == 4
} else if te.Month() == 9 {
return te.Day() == 3
} else if te.Month() == 11 {
return te.Day() == 22
} else if te.Month() == 12 {
return te.Day() == 25
}
}
return false
}
// IsNYSEArcaHoliday returns that returns if a given time falls on a holiday.
func IsNYSEArcaHoliday(t time.Time) bool {
return IsNYSEHoliday(t)
}
// IsNASDAQHoliday returns if a date was a NASDAQ holiday day.
func IsNASDAQHoliday(t time.Time) bool {
return IsNYSEHoliday(t)
}
// Eastern returns the eastern timezone.
func Eastern() *time.Location {
if _eastern == nil {
_easternLock.Lock()
defer _easternLock.Unlock()
if _eastern == nil {
_eastern, _ = time.LoadLocation("America/New_York")
}
}
return _eastern
}
// Optional returns a pointer reference to a given time.
func Optional(t time.Time) *time.Time {
return &t
}
// IsWeekDay returns if the day is a monday->friday.
func IsWeekDay(day time.Weekday) bool {
return !IsWeekendDay(day)
}
// IsWeekendDay returns if the day is a monday->friday.
func IsWeekendDay(day time.Weekday) bool {
return day == time.Saturday || day == time.Sunday
}
// BeforeDate returns if a timestamp is strictly before another date (ignoring hours, minutes etc.)
func BeforeDate(before, reference time.Time) bool {
if before.Year() < reference.Year() {
return true
}
if before.Month() < reference.Month() {
return true
}
return before.Year() == reference.Year() && before.Month() == reference.Month() && before.Day() < reference.Day()
}
// NextMarketOpen returns the next market open after a given time.
func NextMarketOpen(after, openTime time.Time, isHoliday HolidayProvider) time.Time {
afterEastern := after.In(Eastern())
todaysOpen := On(openTime, afterEastern)
if afterEastern.Before(todaysOpen) && IsWeekDay(todaysOpen.Weekday()) && !isHoliday(todaysOpen) {
return todaysOpen
}
if afterEastern.Equal(todaysOpen) { //rare but it might happen.
return todaysOpen
}
for cursorDay := 1; cursorDay < 6; cursorDay++ {
newDay := todaysOpen.AddDate(0, 0, cursorDay)
if IsWeekDay(newDay.Weekday()) && !isHoliday(afterEastern) {
return On(openTime, newDay)
}
}
return Epoch //we should never reach this.
}
// NextMarketClose returns the next market close after a given time.
func NextMarketClose(after, closeTime time.Time, isHoliday HolidayProvider) time.Time {
afterEastern := after.In(Eastern())
todaysClose := On(closeTime, afterEastern)
if afterEastern.Before(todaysClose) && IsWeekDay(todaysClose.Weekday()) && !isHoliday(todaysClose) {
return todaysClose
}
if afterEastern.Equal(todaysClose) { //rare but it might happen.
return todaysClose
}
for cursorDay := 1; cursorDay < 6; cursorDay++ {
newDay := todaysClose.AddDate(0, 0, cursorDay)
if IsWeekDay(newDay.Weekday()) && !isHoliday(newDay) {
return On(closeTime, newDay)
}
}
return Epoch //we should never reach this.
}
// CalculateMarketSecondsBetween calculates the number of seconds the market was open between two dates.
func CalculateMarketSecondsBetween(start, end, marketOpen, marketClose time.Time, isHoliday HolidayProvider) (seconds int64) {
se := start.In(Eastern())
ee := end.In(Eastern())
startMarketOpen := NextMarketOpen(se, marketOpen, isHoliday)
startMarketClose := NextMarketClose(se, marketClose, isHoliday)
if (se.Equal(startMarketOpen) || se.After(startMarketOpen)) && se.Before(startMarketClose) {
seconds += int64(startMarketClose.Sub(se) / time.Second)
}
cursor := NextMarketOpen(startMarketClose, marketClose, isHoliday)
for BeforeDate(cursor, ee) {
if IsWeekDay(cursor.Weekday()) && !isHoliday(cursor) {
close := NextMarketClose(cursor, marketClose, isHoliday)
seconds += int64(close.Sub(cursor) / time.Second)
}
cursor = cursor.AddDate(0, 0, 1)
}
finalMarketOpen := NextMarketOpen(cursor, marketOpen, isHoliday)
finalMarketClose := NextMarketClose(cursor, marketClose, isHoliday)
if end.After(finalMarketOpen) {
if end.Before(finalMarketClose) {
seconds += int64(end.Sub(finalMarketOpen) / time.Second)
} else {
seconds += int64(finalMarketClose.Sub(finalMarketOpen) / time.Second)
}
}
return
}
// ClockTime returns a new time.Time for the given clock components.
func ClockTime(hour, min, sec, nsec int, loc *time.Location) time.Time {
return time.Date(0, 0, 0, hour, min, sec, nsec, loc)
}
// On returns the clock components of clock (hour,minute,second) on the date components of d.
func On(clock, d time.Time) time.Time {
return time.Date(d.Year(), d.Month(), d.Day(), clock.Hour(), clock.Minute(), clock.Second(), clock.Nanosecond(), clock.Location())
}
// Format returns a string representation of a date.
func format(t time.Time) string {
return t.Format("2006-01-02")
}
// Parse parses a date from a string.
func parse(str string) time.Time {
res, _ := time.Parse("2006-01-02", str)
return res
}