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time.go
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package pilosa
import (
"errors"
"fmt"
"strings"
"time"
)
// ErrInvalidTimeQuantum is returned when parsing a time quantum.
var ErrInvalidTimeQuantum = errors.New("invalid time quantum")
// TimeQuantum represents a time granularity for time-based bitmaps.
type TimeQuantum string
// HasYear returns true if the quantum contains a 'Y' unit.
func (q TimeQuantum) HasYear() bool { return strings.ContainsRune(string(q), 'Y') }
// HasMonth returns true if the quantum contains a 'M' unit.
func (q TimeQuantum) HasMonth() bool { return strings.ContainsRune(string(q), 'M') }
// HasDay returns true if the quantum contains a 'D' unit.
func (q TimeQuantum) HasDay() bool { return strings.ContainsRune(string(q), 'D') }
// HasHour returns true if the quantum contains a 'H' unit.
func (q TimeQuantum) HasHour() bool { return strings.ContainsRune(string(q), 'H') }
// Valid returns true if q is a valid time quantum value.
func (q TimeQuantum) Valid() bool {
switch q {
case "Y", "YM", "YMD", "YMDH",
"M", "MD", "MDH",
"D", "DH",
"H",
"":
return true
default:
return false
}
}
// ParseTimeQuantum parses v into a time quantum.
func ParseTimeQuantum(v string) (TimeQuantum, error) {
q := TimeQuantum(strings.ToUpper(v))
if !q.Valid() {
return "", ErrInvalidTimeQuantum
}
return q, nil
}
// ViewByTimeUnit returns the view name for time with a given quantum unit.
func ViewByTimeUnit(name string, t time.Time, unit rune) string {
switch unit {
case 'Y':
return fmt.Sprintf("%s_%s", name, t.Format("2006"))
case 'M':
return fmt.Sprintf("%s_%s", name, t.Format("200601"))
case 'D':
return fmt.Sprintf("%s_%s", name, t.Format("20060102"))
case 'H':
return fmt.Sprintf("%s_%s", name, t.Format("2006010215"))
default:
return ""
}
}
// ViewsByTime returns a list of views for a given timestamp.
func ViewsByTime(name string, t time.Time, q TimeQuantum) []string {
a := make([]string, 0, len(q))
for _, unit := range q {
view := ViewByTimeUnit(name, t, unit)
if view == "" {
continue
}
a = append(a, view)
}
return a
}
// ViewsByTimeRange returns a list of views to traverse to query a time range.
func ViewsByTimeRange(name string, start, end time.Time, q TimeQuantum) []string {
t := start
// Save flags for performance.
hasYear := q.HasYear()
hasMonth := q.HasMonth()
hasDay := q.HasDay()
hasHour := q.HasHour()
var results []string
// Walk up from smallest units to largest units.
if hasHour || hasDay || hasMonth {
for t.Before(end) {
if hasHour {
if !nextDayGTE(t, end) {
break
} else if t.Hour() != 0 {
results = append(results, ViewByTimeUnit(name, t, 'H'))
t = t.Add(time.Hour)
continue
}
}
if hasDay {
if !nextMonthGTE(t, end) {
break
} else if t.Day() != 1 {
results = append(results, ViewByTimeUnit(name, t, 'D'))
t = t.AddDate(0, 0, 1)
continue
}
}
if hasMonth {
if !nextYearGTE(t, end) {
break
} else if t.Month() != 1 {
results = append(results, ViewByTimeUnit(name, t, 'M'))
t = t.AddDate(0, 1, 0)
continue
}
}
// If a unit exists but isn't set and there are no larger units
// available then we need to exit the loop because we are no longer
// making progress.
break
}
}
// Walk back down from largest units to smallest units.
for t.Before(end) {
if hasYear && nextYearGTE(t, end) {
results = append(results, ViewByTimeUnit(name, t, 'Y'))
t = t.AddDate(1, 0, 0)
} else if hasMonth && nextMonthGTE(t, end) {
results = append(results, ViewByTimeUnit(name, t, 'M'))
t = t.AddDate(0, 1, 0)
} else if hasDay && nextDayGTE(t, end) {
results = append(results, ViewByTimeUnit(name, t, 'D'))
t = t.AddDate(0, 0, 1)
} else if hasHour {
results = append(results, ViewByTimeUnit(name, t, 'H'))
t = t.Add(time.Hour)
} else {
break
}
}
return results
}
func nextYearGTE(t time.Time, end time.Time) bool {
next := t.AddDate(1, 0, 0)
if next.Year() == end.Year() {
return true
}
return end.After(next)
}
func nextMonthGTE(t time.Time, end time.Time) bool {
next := t.AddDate(0, 1, 0)
y1, m1, _ := next.Date()
y2, m2, _ := end.Date()
if (y1 == y2) && (m1 == m2) {
return true
}
return end.After(next)
}
func nextDayGTE(t time.Time, end time.Time) bool {
next := t.AddDate(0, 0, 1)
y1, m1, d1 := next.Date()
y2, m2, d2 := end.Date()
if (y1 == y2) && (m1 == m2) && (d1 == d2) {
return true
}
return end.After(next)
}