b713ff85cc
* works more or less * updating comment * removing debugging printf * adding output * tweaks * missed a couple series validations * testing auto coloring * updated output.png * color tests etc. * sanity check tests. * should not use unkeyed fields anyway.
191 lines
5.4 KiB
Go
191 lines
5.4 KiB
Go
package chart
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import (
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"math/rand"
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"time"
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)
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var (
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// Sequence contains some sequence utilities.
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// These utilities can be useful for generating test data.
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Sequence = &sequence{
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rnd: rand.New(rand.NewSource(time.Now().Unix())),
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}
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)
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type sequence struct {
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rnd *rand.Rand
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}
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// Float64 produces an array of floats from [start,end] by optional steps.
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func (s sequence) Float64(start, end float64, steps ...float64) []float64 {
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var values []float64
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step := 1.0
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if len(steps) > 0 {
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step = steps[0]
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}
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if start < end {
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for x := start; x <= end; x += step {
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values = append(values, x)
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}
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} else {
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for x := start; x >= end; x = x - step {
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values = append(values, x)
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}
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}
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return values
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}
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// Random generates a fixed length sequence of random values between (0, scale).
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func (s sequence) Random(samples int, scale float64) []float64 {
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values := make([]float64, samples)
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for x := 0; x < samples; x++ {
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values[x] = s.rnd.Float64() * scale
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}
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return values
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}
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// Random generates a fixed length sequence of random values with a given average, above and below that average by (-scale, scale)
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func (s sequence) RandomWithAverage(samples int, average, scale float64) []float64 {
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values := make([]float64, samples)
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for x := 0; x < samples; x++ {
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jitter := scale - (s.rnd.Float64() * (2 * scale))
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values[x] = average + jitter
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}
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return values
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}
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// Days generates a sequence of timestamps by day, from -days to today.
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func (s sequence) Days(days int) []time.Time {
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var values []time.Time
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for day := days; day >= 0; day-- {
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values = append(values, time.Now().AddDate(0, 0, -day))
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}
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return values
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}
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func (s sequence) MarketHours(from, to time.Time, marketOpen, marketClose time.Time, isHoliday HolidayProvider) []time.Time {
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var times []time.Time
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cursor := Date.On(marketOpen, from)
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toClose := Date.On(marketClose, to)
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for cursor.Before(toClose) || cursor.Equal(toClose) {
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todayOpen := Date.On(marketOpen, cursor)
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todayClose := Date.On(marketClose, cursor)
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isValidTradingDay := !isHoliday(cursor) && Date.IsWeekDay(cursor.Weekday())
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if (cursor.Equal(todayOpen) || cursor.After(todayOpen)) && (cursor.Equal(todayClose) || cursor.Before(todayClose)) && isValidTradingDay {
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times = append(times, cursor)
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}
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if cursor.After(todayClose) {
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cursor = Date.NextMarketOpen(cursor, marketOpen, isHoliday)
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} else {
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cursor = Date.NextHour(cursor)
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}
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}
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return times
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}
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func (s sequence) MarketHourQuarters(from, to time.Time, marketOpen, marketClose time.Time, isHoliday HolidayProvider) []time.Time {
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var times []time.Time
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cursor := Date.On(marketOpen, from)
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toClose := Date.On(marketClose, to)
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for cursor.Before(toClose) || cursor.Equal(toClose) {
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isValidTradingDay := !isHoliday(cursor) && Date.IsWeekDay(cursor.Weekday())
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if isValidTradingDay {
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todayOpen := Date.On(marketOpen, cursor)
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todayNoon := Date.NoonOn(cursor)
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today2pm := Date.On(Date.Time(14, 0, 0, 0, cursor.Location()), cursor)
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todayClose := Date.On(marketClose, cursor)
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times = append(times, todayOpen, todayNoon, today2pm, todayClose)
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}
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cursor = Date.NextDay(cursor)
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}
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return times
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}
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func (s sequence) MarketDayCloses(from, to time.Time, marketOpen, marketClose time.Time, isHoliday HolidayProvider) []time.Time {
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var times []time.Time
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cursor := Date.On(marketOpen, from)
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toClose := Date.On(marketClose, to)
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for cursor.Before(toClose) || cursor.Equal(toClose) {
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isValidTradingDay := !isHoliday(cursor) && Date.IsWeekDay(cursor.Weekday())
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if isValidTradingDay {
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todayClose := Date.On(marketClose, cursor)
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times = append(times, todayClose)
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}
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cursor = Date.NextDay(cursor)
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}
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return times
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}
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func (s sequence) MarketDayAlternateCloses(from, to time.Time, marketOpen, marketClose time.Time, isHoliday HolidayProvider) []time.Time {
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var times []time.Time
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cursor := Date.On(marketOpen, from)
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toClose := Date.On(marketClose, to)
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for cursor.Before(toClose) || cursor.Equal(toClose) {
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isValidTradingDay := !isHoliday(cursor) && Date.IsWeekDay(cursor.Weekday())
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if isValidTradingDay {
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todayClose := Date.On(marketClose, cursor)
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times = append(times, todayClose)
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}
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cursor = cursor.AddDate(0, 0, 2)
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}
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return times
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}
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func (s sequence) MarketDayMondayCloses(from, to time.Time, marketOpen, marketClose time.Time, isHoliday HolidayProvider) []time.Time {
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var times []time.Time
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cursor := Date.On(marketClose, from)
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toClose := Date.On(marketClose, to)
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for cursor.Equal(toClose) || cursor.Before(toClose) {
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isValidTradingDay := !isHoliday(cursor) && Date.IsWeekDay(cursor.Weekday())
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if isValidTradingDay {
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times = append(times, cursor)
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}
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cursor = Date.NextDayOfWeek(cursor, time.Monday)
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}
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return times
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}
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func (s sequence) Hours(start time.Time, totalHours int) []time.Time {
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times := make([]time.Time, totalHours)
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last := start
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for i := 0; i < totalHours; i++ {
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times[i] = last
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last = last.Add(time.Hour)
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}
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return times
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}
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// HoursFill adds zero values for the data bounded by the start and end of the xdata array.
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func (s sequence) HoursFill(xdata []time.Time, ydata []float64) ([]time.Time, []float64) {
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start := Date.Start(xdata)
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end := Date.End(xdata)
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totalHours := Math.AbsInt(Date.DiffHours(start, end))
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finalTimes := s.Hours(start, totalHours+1)
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finalValues := make([]float64, totalHours+1)
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var hoursFromStart int
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for i, xd := range xdata {
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hoursFromStart = Date.DiffHours(start, xd)
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finalValues[hoursFromStart] = ydata[i]
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}
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return finalTimes, finalValues
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}
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