These bugs are gonna take a while
parent
cb22c1c9d3
commit
eb65bb8a69
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@ -17,17 +17,10 @@ fn (r1 ScheduledBuild) < (r2 ScheduledBuild) bool {
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pub fn cron(conf Config) ? {
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mut queue := datatypes.MinHeap<time.Time>{}
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for _ in 0..5000 {
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minute := rand.int_in_range(0, 60) ?
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hour := rand.int_in_range(0, 23) ?
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ce := parse_expression('$minute $hour') ?
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ce := parse_expression('0 3') ?
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t := time.parse('2002-01-01 00:00:00') ?
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t := ce.next_from_now() ?
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// println(t)
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queue.insert(t)
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}
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for queue.len() > 0 {
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println(queue.pop() ?)
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}
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println(t)
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t2 := ce.next(t) ?
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println(t2)
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}
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@ -2,8 +2,6 @@ module cron
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import time
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const days_in_month = [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31]
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struct CronExpression {
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minutes []int
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hours []int
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@ -15,6 +13,13 @@ struct CronExpression {
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// always pick a moment in the future, even if ref matches completely up to the
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// minute. This function conciously does not take gap years into account.
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pub fn (ce &CronExpression) next(ref time.Time) ?time.Time {
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// If the given ref matches the next cron occurence up to the minute, it
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// will return that value. Because we always want to return a value in the
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// future, we artifically shift the ref 60 seconds to make sure we always
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// match in the future. A shift of 60 seconds is enough because the cron
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// expression does not allow for accuracy smaller than one minute.
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sref := ref
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// For all of these values, the rule is the following: if their value is
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// the length of their respective array in the CronExpression object, that
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// means we've looped back around. This means that the "bigger" value has
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@ -29,25 +34,25 @@ pub fn (ce &CronExpression) next(ref time.Time) ?time.Time {
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// value loops around, then the smaller value will always reset as well.
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// For example, if we're going to a new day, the hour & minute will always
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// be their smallest value again.
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for month_index < ce.months.len && ref.month > ce.months[month_index] {
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for month_index < ce.months.len && sref.month > ce.months[month_index] {
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month_index++
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}
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if month_index < ce.months.len {
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for day_index < ce.days.len && ref.day > ce.days[day_index] {
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for day_index < ce.days.len && sref.day > ce.days[day_index] {
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day_index++
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}
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if day_index < ce.days.len {
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for hour_index < ce.hours.len && ref.hour > ce.hours[hour_index] {
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for hour_index < ce.hours.len && sref.hour > ce.hours[hour_index] {
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hour_index++
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}
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if hour_index < ce.hours.len {
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// Minute is the only value where we explicitely make sure we
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// can't match ref's value exactly. This is to ensure we only
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// can't match sref's value exactly. This is to ensure we only
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// return values in the future.
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for minute_index < ce.minutes.len && ref.minute >= ce.minutes[minute_index] {
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for minute_index < ce.minutes.len && sref.minute >= ce.minutes[minute_index] {
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minute_index++
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}
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}
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@ -60,7 +65,6 @@ pub fn (ce &CronExpression) next(ref time.Time) ?time.Time {
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if minute_index == ce.minutes.len && hour_index < ce.hours.len {
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hour_index += 1
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}
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if hour_index == ce.hours.len && day_index < ce.days.len {
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day_index += 1
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}
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@ -77,11 +81,11 @@ pub fn (ce &CronExpression) next(ref time.Time) ?time.Time {
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// month, e.g. day 30 in February. When this occurs, we reset day back to
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// the smallest value & loop over to the next month that does have this
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// day.
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if day > cron.days_in_month[ce.months[month_index % ce.months.len] - 1] {
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if day > time.month_days[ce.months[month_index % ce.months.len] - 1] {
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day = ce.days[0]
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month_index += 1
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for day > cron.days_in_month[ce.months[month_index & ce.months.len] - 1] {
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for day > time.month_days[ce.months[month_index & ce.months.len] - 1] {
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month_index += 1
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// If for whatever reason the day value ends up being something
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@ -94,7 +98,7 @@ pub fn (ce &CronExpression) next(ref time.Time) ?time.Time {
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}
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month := ce.months[month_index % ce.months.len]
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mut year := ref.year
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mut year := sref.year
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// If the month loops over, we need to increment the year.
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if month_index >= ce.months.len {
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@ -0,0 +1,39 @@
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module cron
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import time { new_time, Time, parse }
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fn test_next_simple() ? {
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ce := parse_expression('0 3') ?
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t := parse('2002-01-01 00:00:00') ?
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t2 := ce.next(t) ?
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assert t2.year == 2002
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assert t2.month == 1
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assert t2.day == 1
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assert t2.hour == 3
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assert t2.minute == 0
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}
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fn test_next_identical() ? {
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ce := parse_expression('0 3') ?
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t := parse('2002-01-01 03:00:00') ?
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t2 := ce.next(t) ?
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assert t2.year == 2002
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assert t2.month == 1
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assert t2.day == 2
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assert t2.hour == 3
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assert t2.minute == 0
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}
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fn test_next_next_day() ? {
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ce := parse_expression('0 3') ?
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t := parse('2002-01-01 04:00:00') ?
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t2 := ce.next(t) ?
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assert t2.year == 2002
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assert t2.month == 1
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assert t2.day == 2
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assert t2.hour == 3
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assert t2.minute == 0
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}
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