291 lines
7.5 KiB
Go
291 lines
7.5 KiB
Go
/*!
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* Copyright 2013 Raymond Hill
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*
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* Project: github.com/gorhill/cronexpr
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* File: cronexpr_next.go
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* Version: 1.0
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* License: GPL v3 see <https://www.gnu.org/licenses/gpl.html>
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*
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*/
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package cronexpr
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/******************************************************************************/
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import (
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"sort"
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"time"
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)
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/******************************************************************************/
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var dowNormalizedOffsets = [][]int{
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{1, 8, 15, 22, 29},
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{2, 9, 16, 23, 30},
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{3, 10, 17, 24, 31},
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{4, 11, 18, 25},
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{5, 12, 19, 26},
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{6, 13, 20, 27},
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{7, 14, 21, 28},
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}
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/******************************************************************************/
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func (expr *Expression) nextYear(t time.Time) time.Time {
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// Find index at which item in list is greater or equal to
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// candidate year
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i := sort.SearchInts(expr.yearList, t.Year()+1)
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if i == len(expr.yearList) {
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return time.Time{}
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}
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// Year changed, need to recalculate actual days of month
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expr.actualDaysOfMonthList = expr.calculateActualDaysOfMonth(expr.yearList[i], expr.monthList[0])
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if len(expr.actualDaysOfMonthList) == 0 {
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return expr.nextMonth(time.Date(
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expr.yearList[i],
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time.Month(expr.monthList[0]),
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1,
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expr.hourList[0],
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expr.minuteList[0],
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expr.secondList[0],
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0,
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t.Location()))
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}
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return time.Date(
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expr.yearList[i],
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time.Month(expr.monthList[0]),
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expr.actualDaysOfMonthList[0],
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expr.hourList[0],
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expr.minuteList[0],
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expr.secondList[0],
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0,
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t.Location())
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}
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/******************************************************************************/
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func (expr *Expression) nextMonth(t time.Time) time.Time {
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// Find index at which item in list is greater or equal to
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// candidate month
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i := sort.SearchInts(expr.monthList, int(t.Month())+1)
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if i == len(expr.monthList) {
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return expr.nextYear(t)
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}
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// Month changed, need to recalculate actual days of month
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expr.actualDaysOfMonthList = expr.calculateActualDaysOfMonth(t.Year(), expr.monthList[i])
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if len(expr.actualDaysOfMonthList) == 0 {
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return expr.nextMonth(time.Date(
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t.Year(),
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time.Month(expr.monthList[i]),
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1,
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expr.hourList[0],
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expr.minuteList[0],
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expr.secondList[0],
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0,
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t.Location()))
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}
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return time.Date(
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t.Year(),
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time.Month(expr.monthList[i]),
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expr.actualDaysOfMonthList[0],
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expr.hourList[0],
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expr.minuteList[0],
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expr.secondList[0],
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0,
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t.Location())
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}
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/******************************************************************************/
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func (expr *Expression) nextDayOfMonth(t time.Time) time.Time {
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// Find index at which item in list is greater or equal to
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// candidate day of month
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i := sort.SearchInts(expr.actualDaysOfMonthList, t.Day()+1)
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if i == len(expr.actualDaysOfMonthList) {
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return expr.nextMonth(t)
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}
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return time.Date(
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t.Year(),
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t.Month(),
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expr.actualDaysOfMonthList[i],
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expr.hourList[0],
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expr.minuteList[0],
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expr.secondList[0],
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0,
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t.Location())
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}
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/******************************************************************************/
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func (expr *Expression) nextHour(t time.Time) time.Time {
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// Find index at which item in list is greater or equal to
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// candidate hour
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i := sort.SearchInts(expr.hourList, t.Hour()+1)
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if i == len(expr.hourList) {
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return expr.nextDayOfMonth(t)
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}
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return time.Date(
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t.Year(),
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t.Month(),
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t.Day(),
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expr.hourList[i],
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expr.minuteList[0],
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expr.secondList[0],
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0,
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t.Location())
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}
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/******************************************************************************/
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func (expr *Expression) nextMinute(t time.Time) time.Time {
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// Find index at which item in list is greater or equal to
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// candidate minute
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i := sort.SearchInts(expr.minuteList, t.Minute()+1)
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if i == len(expr.minuteList) {
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return expr.nextHour(t)
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}
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return time.Date(
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t.Year(),
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t.Month(),
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t.Day(),
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t.Hour(),
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expr.minuteList[i],
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expr.secondList[0],
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0,
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t.Location())
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}
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/******************************************************************************/
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func (expr *Expression) nextSecond(t time.Time) time.Time {
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// nextSecond() assumes all other fields are exactly matched
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// to the cron expression
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// Find index at which item in list is greater or equal to
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// candidate second
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i := sort.SearchInts(expr.secondList, t.Second()+1)
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if i == len(expr.secondList) {
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return expr.nextMinute(t)
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}
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return time.Date(
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t.Year(),
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t.Month(),
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t.Day(),
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t.Hour(),
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t.Minute(),
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expr.secondList[i],
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0,
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t.Location())
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}
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/******************************************************************************/
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func (expr *Expression) calculateActualDaysOfMonth(year, month int) []int {
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actualDaysOfMonthMap := make(map[int]bool)
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firstDayOfMonth := time.Date(year, time.Month(month), 1, 0, 0, 0, 0, time.UTC)
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lastDayOfMonth := firstDayOfMonth.AddDate(0, 1, -1)
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// As per crontab man page (http://linux.die.net/man/5/crontab#):
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// "The day of a command's execution can be specified by two
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// "fields - day of month, and day of week. If both fields are
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// "restricted (ie, aren't *), the command will be run when
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// "either field matches the current time"
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// If both fields are not restricted, all days of the month are a hit
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if expr.daysOfMonthRestricted == false && expr.daysOfWeekRestricted == false {
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return genericDefaultList[1 : lastDayOfMonth.Day()+1]
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}
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// day-of-month != `*`
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if expr.daysOfMonthRestricted {
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// Last day of month
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if expr.lastDayOfMonth {
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actualDaysOfMonthMap[lastDayOfMonth.Day()] = true
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}
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// Last work day of month
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if expr.lastWorkdayOfMonth {
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actualDaysOfMonthMap[workdayOfMonth(lastDayOfMonth, lastDayOfMonth)] = true
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}
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// Days of month
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for v := range expr.daysOfMonth {
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// Ignore days beyond end of month
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if v <= lastDayOfMonth.Day() {
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actualDaysOfMonthMap[v] = true
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}
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}
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// Work days of month
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// As per Wikipedia: month boundaries are not crossed.
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for v := range expr.workdaysOfMonth {
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// Ignore days beyond end of month
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if v <= lastDayOfMonth.Day() {
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actualDaysOfMonthMap[workdayOfMonth(firstDayOfMonth.AddDate(0, 0, v-1), lastDayOfMonth)] = true
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}
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}
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}
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// day-of-week != `*`
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if expr.daysOfWeekRestricted {
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// How far first sunday is from first day of month
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offset := 7 - int(firstDayOfMonth.Weekday())
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// days of week
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// offset : (7 - day_of_week_of_1st_day_of_month)
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// target : 1 + (7 * week_of_month) + (offset + day_of_week) % 7
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for v := range expr.daysOfWeek {
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w := dowNormalizedOffsets[(offset+v)%7]
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actualDaysOfMonthMap[w[0]] = true
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actualDaysOfMonthMap[w[1]] = true
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actualDaysOfMonthMap[w[2]] = true
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actualDaysOfMonthMap[w[3]] = true
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if len(w) > 4 && w[4] <= lastDayOfMonth.Day() {
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actualDaysOfMonthMap[w[4]] = true
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}
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}
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// days of week of specific week in the month
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// offset : (7 - day_of_week_of_1st_day_of_month)
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// target : 1 + (7 * week_of_month) + (offset + day_of_week) % 7
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for v := range expr.specificWeekDaysOfWeek {
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v = 1 + 7*(v/7) + (offset+v)%7
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if v <= lastDayOfMonth.Day() {
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actualDaysOfMonthMap[v] = true
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}
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}
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// Last days of week of the month
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lastWeekOrigin := firstDayOfMonth.AddDate(0, 1, -7)
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offset = 7 - int(lastWeekOrigin.Weekday())
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for v := range expr.lastWeekDaysOfWeek {
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v = lastWeekOrigin.Day() + (offset+v)%7
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if v <= lastDayOfMonth.Day() {
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actualDaysOfMonthMap[v] = true
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}
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}
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}
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return toList(actualDaysOfMonthMap)
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}
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func workdayOfMonth(targetDom, lastDom time.Time) int {
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// If saturday, then friday
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// If sunday, then monday
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dom := targetDom.Day()
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dow := targetDom.Weekday()
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if dow == time.Saturday {
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if dom > 1 {
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dom -= 1
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} else {
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dom += 2
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}
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} else if dow == time.Sunday {
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if dom < lastDom.Day() {
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dom += 1
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} else {
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dom -= 2
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}
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}
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return dom
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}
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