go-chart/seq/time_seq.go

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2017-05-14 21:21:30 +02:00
package seq
import (
"sort"
"time"
)
var (
// TimeZero is the zero time.
TimeZero = time.Time{}
)
// Times returns a new time sequence.
func Times(values ...time.Time) TimeSeq {
return TimeSeq{TimeProvider: ArrayOfTimes(values)}
}
// TimeSeq is a sequence of times.
type TimeSeq struct {
TimeProvider
}
// Array converts the sequence to times.
func (ts TimeSeq) Array() (output []time.Time) {
slen := ts.Len()
if slen == 0 {
return
}
output = make([]time.Time, slen)
for i := 0; i < slen; i++ {
output[i] = ts.GetValue(i)
}
return
}
// Each applies the `mapfn` to all values in the value provider.
func (ts TimeSeq) Each(mapfn func(int, time.Time)) {
for i := 0; i < ts.Len(); i++ {
mapfn(i, ts.GetValue(i))
}
}
// Map applies the `mapfn` to all values in the value provider,
// returning a new seq.
func (ts TimeSeq) Map(mapfn func(int, time.Time) time.Time) TimeSeq {
output := make([]time.Time, ts.Len())
for i := 0; i < ts.Len(); i++ {
mapfn(i, ts.GetValue(i))
}
return TimeSeq{ArrayOfTimes(output)}
}
// FoldLeft collapses a seq from left to right.
func (ts TimeSeq) FoldLeft(mapfn func(i int, v0, v time.Time) time.Time) (v0 time.Time) {
tslen := ts.Len()
if tslen == 0 {
return TimeZero
}
if tslen == 1 {
return ts.GetValue(0)
}
v0 = ts.GetValue(0)
for i := 1; i < tslen; i++ {
v0 = mapfn(i, v0, ts.GetValue(i))
}
return
}
// FoldRight collapses a seq from right to left.
func (ts TimeSeq) FoldRight(mapfn func(i int, v0, v time.Time) time.Time) (v0 time.Time) {
tslen := ts.Len()
if tslen == 0 {
return TimeZero
}
if tslen == 1 {
return ts.GetValue(0)
}
v0 = ts.GetValue(tslen - 1)
for i := tslen - 2; i >= 0; i-- {
v0 = mapfn(i, v0, ts.GetValue(i))
}
return
}
// Sort returns the seq in ascending order.
func (ts TimeSeq) Sort() TimeSeq {
if ts.Len() == 0 {
return ts
}
values := ts.Array()
sort.Slice(values, func(i, j int) bool {
return values[i].Before(values[j])
})
return TimeSeq{TimeProvider: ArrayOfTimes(values)}
}
// SortDescending returns the seq in descending order.
func (ts TimeSeq) SortDescending() TimeSeq {
if ts.Len() == 0 {
return ts
}
values := ts.Array()
sort.Slice(values, func(i, j int) bool {
return values[i].After(values[j])
})
return TimeSeq{TimeProvider: ArrayOfTimes(values)}
}
// Min returns the minimum (or earliest) time in the sequence.
func (ts TimeSeq) Min() (min time.Time) {
tslen := ts.Len()
if tslen == 0 {
return
}
min = ts.GetValue(0)
var tv time.Time
for i := 1; i < tslen; i++ {
tv = ts.GetValue(i)
if tv.Before(min) {
min = tv
}
}
return
}
// Start is an alias to `Min`.
func (ts TimeSeq) Start() time.Time {
return ts.Min()
}
// Max returns the maximum (or latest) time in the sequence.
func (ts TimeSeq) Max() (max time.Time) {
tslen := ts.Len()
if tslen == 0 {
return
}
max = ts.GetValue(0)
var tv time.Time
for i := 1; i < tslen; i++ {
tv = ts.GetValue(i)
if tv.After(max) {
max = tv
}
}
return
}
// End is an alias to `Max`.
func (ts TimeSeq) End() time.Time {
return ts.Max()
}
// First returns the first value in the sequence.
func (ts TimeSeq) First() time.Time {
if ts.Len() == 0 {
return TimeZero
}
return ts.GetValue(0)
}
// Last returns the last value in the sequence.
func (ts TimeSeq) Last() time.Time {
if ts.Len() == 0 {
return TimeZero
}
return ts.GetValue(ts.Len() - 1)
}
// MinAndMax returns both the earliest and latest value from a sequence in one pass.
func (ts TimeSeq) MinAndMax() (min, max time.Time) {
tslen := ts.Len()
if tslen == 0 {
return
}
min = ts.GetValue(0)
max = ts.GetValue(0)
var tv time.Time
for i := 1; i < tslen; i++ {
tv = ts.GetValue(i)
if tv.Before(min) {
min = tv
}
if tv.After(max) {
max = tv
}
}
return
}
// MapDistinct maps values given a map function to their distinct outputs.
func (ts TimeSeq) MapDistinct(mapFn func(time.Time) time.Time) TimeSeq {
tslen := ts.Len()
if tslen == 0 {
return TimeSeq{}
}
var output []time.Time
hourLookup := SetOfTime{}
// add the initial value
tv := ts.GetValue(0)
tvh := mapFn(tv)
hourLookup.Add(tvh)
output = append(output, tvh)
for i := 1; i < tslen; i++ {
tv = ts.GetValue(i)
tvh = mapFn(tv)
if !hourLookup.Has(tvh) {
hourLookup.Add(tvh)
output = append(output, tvh)
}
}
return TimeSeq{ArrayOfTimes(output)}
}
// Hours returns times in each distinct hour represented by the sequence.
func (ts TimeSeq) Hours() TimeSeq {
return ts.MapDistinct(ts.trimToHour)
}
// Days returns times in each distinct day represented by the sequence.
func (ts TimeSeq) Days() TimeSeq {
return ts.MapDistinct(ts.trimToDay)
}
// Months returns times in each distinct months represented by the sequence.
func (ts TimeSeq) Months() TimeSeq {
return ts.MapDistinct(ts.trimToMonth)
}
// Years returns times in each distinc year represented by the sequence.
func (ts TimeSeq) Years() TimeSeq {
return ts.MapDistinct(ts.trimToYear)
}
func (ts TimeSeq) trimToHour(tv time.Time) time.Time {
return time.Date(tv.Year(), tv.Month(), tv.Day(), tv.Hour(), 0, 0, 0, tv.Location())
}
func (ts TimeSeq) trimToDay(tv time.Time) time.Time {
return time.Date(tv.Year(), tv.Month(), tv.Day(), 0, 0, 0, 0, tv.Location())
}
func (ts TimeSeq) trimToMonth(tv time.Time) time.Time {
return time.Date(tv.Year(), tv.Month(), 1, 0, 0, 0, 0, tv.Location())
}
func (ts TimeSeq) trimToYear(tv time.Time) time.Time {
return time.Date(tv.Year(), 1, 1, 0, 0, 0, 0, tv.Location())
}