Compare commits

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18 commits

Author SHA1 Message Date
Will Charczuk
50b025e273 fixing examples 2017-05-12 17:06:45 -07:00
Will Charczuk
4d93883953 dont need to use curl, just using wget 2017-05-12 14:22:50 -07:00
Will Charczuk
9ca1b0466a sequence => seq 2017-05-12 14:17:43 -07:00
Will Charczuk
182c4eeed2 updates 2017-05-12 13:26:17 -07:00
Will Charczuk
fde118dd7c things work? 2017-05-01 22:51:23 -07:00
Will Charczuk
1556c5e843 updates 2017-05-01 22:34:58 -07:00
Will Charczuk
2f84185f46 changes. 2017-05-01 22:33:49 -07:00
Will Charczuk
c0fc2baa50 updates 2017-05-01 22:18:52 -07:00
Will Charczuk
41d81c82db updates 2017-04-30 01:12:15 -07:00
Will Charczuk
c47025edf6 updates 2017-04-30 00:39:38 -07:00
Will Charczuk
1c1430e3b8 api tweaks. 2017-04-29 23:17:28 -07:00
Will Charczuk
674e75d285 snapshot 2017-04-29 22:44:17 -07:00
Will Charczuk
6a4f3936c6 tweaks 2017-04-29 22:32:45 -07:00
Will Charczuk
814470733e snapshot. 2017-04-29 21:12:39 -07:00
Will Charczuk
472d04b3fa updates 2017-04-29 16:18:09 -07:00
Will Charczuk
255390c710 wtf 2017-04-29 13:21:26 -07:00
Will Charczuk
376a8efa36 updates 2017-04-29 13:19:17 -07:00
Will Charczuk
65a0895143 api cleaup 2017-04-28 16:07:36 -07:00
100 changed files with 1687 additions and 1055 deletions

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.DS_Store vendored Normal file

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@ -20,12 +20,18 @@ func drawLargeChart(res http.ResponseWriter, r *http.Request) {
if err != nil {
numSeriesInt64 = int64(1)
}
if numSeriesInt64 == 0 {
numSeriesInt64 = 1
}
numSeries := int(numSeriesInt64)
numValuesInt64, err := strconv.ParseInt(r.FormValue("values"), 10, 64)
if err != nil {
numValuesInt64 = int64(100)
}
if numValuesInt64 == 0 {
numValuesInt64 = int64(100)
}
numValues := int(numValuesInt64)
series := make([]chart.Series, numSeries)

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@ -5,6 +5,7 @@ import (
"github.com/wcharczuk/go-chart"
"github.com/wcharczuk/go-chart/drawing"
"github.com/wcharczuk/go-chart/seq"
)
func drawChart(res http.ResponseWriter, req *http.Request) {
@ -30,8 +31,8 @@ func drawChart(res http.ResponseWriter, req *http.Request) {
},
Series: []chart.Series{
chart.ContinuousSeries{
XValues: chart.Sequence.Float64(1.0, 100.0),
YValues: chart.Sequence.Random(100.0, 256.0),
XValues: seq.Range(1.0, 100.0),
YValues: seq.RandomValuesWithMax(100, 512),
},
},
}
@ -57,8 +58,8 @@ func drawChartDefault(res http.ResponseWriter, req *http.Request) {
},
Series: []chart.Series{
chart.ContinuousSeries{
XValues: chart.Sequence.Float64(1.0, 100.0),
YValues: chart.Sequence.Random(100.0, 256.0),
XValues: seq.Range(1.0, 100.0),
YValues: seq.RandomValuesWithMax(100, 512),
},
},
}

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@ -4,19 +4,20 @@ import (
"net/http"
"github.com/wcharczuk/go-chart"
"github.com/wcharczuk/go-chart/seq"
)
func drawChart(res http.ResponseWriter, req *http.Request) {
/*
In this example we add a new type of series, a `SimpleMovingAverageSeries` that takes another series as a required argument.
InnerSeries only needs to implement `ValueProvider`, so really you could chain `SimpleMovingAverageSeries` together if you wanted.
InnerSeries only needs to implement `ValuesProvider`, so really you could chain `SimpleMovingAverageSeries` together if you wanted.
*/
mainSeries := chart.ContinuousSeries{
Name: "A test series",
XValues: chart.Sequence.Float64(1.0, 100.0), //generates a []float64 from 1.0 to 100.0 in 1.0 step increments, or 100 elements.
YValues: chart.Sequence.Random(100, 100), //generates a []float64 randomly from 0 to 100 with 100 elements.
XValues: seq.Range(1.0, 100.0), //generates a []float64 from 1.0 to 100.0 in 1.0 step increments, or 100 elements.
YValues: seq.RandomValuesWithAverage(100, 100), //generates a []float64 randomly from 0 to 100 with 100 elements.
}
// note we create a LinearRegressionSeries series by assignin the inner series.

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@ -4,13 +4,15 @@ import (
"net/http"
"github.com/wcharczuk/go-chart"
"github.com/wcharczuk/go-chart/seq"
"github.com/wcharczuk/go-chart/util"
)
func drawChart(res http.ResponseWriter, req *http.Request) {
start := chart.Date.Date(2016, 7, 01, chart.Date.Eastern())
end := chart.Date.Date(2016, 07, 21, chart.Date.Eastern())
xv := chart.Sequence.MarketHours(start, end, chart.NYSEOpen, chart.NYSEClose, chart.Date.IsNYSEHoliday)
yv := chart.Sequence.RandomWithAverage(len(xv), 200, 10)
start := util.Date.Date(2016, 7, 01, util.Date.Eastern())
end := util.Date.Date(2016, 07, 21, util.Date.Eastern())
xv := seq.Time.MarketHours(start, end, util.NYSEOpen(), util.NYSEClose(), util.Date.IsNYSEHoliday)
yv := seq.New(seq.NewRandom().WithLen(len(xv)).WithAverage(200).WithScale(10)).Array()
graph := chart.Chart{
XAxis: chart.XAxis{
@ -18,9 +20,9 @@ func drawChart(res http.ResponseWriter, req *http.Request) {
TickPosition: chart.TickPositionBetweenTicks,
ValueFormatter: chart.TimeHourValueFormatter,
Range: &chart.MarketHoursRange{
MarketOpen: chart.NYSEOpen,
MarketClose: chart.NYSEClose,
HolidayProvider: chart.Date.IsNYSEHoliday,
MarketOpen: util.NYSEOpen(),
MarketClose: util.NYSEClose(),
HolidayProvider: util.Date.IsNYSEHoliday,
},
},
YAxis: chart.YAxis{

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@ -4,13 +4,14 @@ import (
"net/http"
"github.com/wcharczuk/go-chart"
"github.com/wcharczuk/go-chart/seq"
)
func drawChart(res http.ResponseWriter, req *http.Request) {
mainSeries := chart.ContinuousSeries{
Name: "A test series",
XValues: chart.Sequence.Float64(1.0, 100.0),
YValues: chart.Sequence.RandomWithAverage(100, 100, 50),
XValues: seq.Range(1.0, 100.0),
YValues: seq.New(seq.NewRandom().WithLen(100).WithAverage(100).WithScale(50)).Array(),
}
minSeries := &chart.MinSeries{

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@ -4,19 +4,20 @@ import (
"net/http"
"github.com/wcharczuk/go-chart"
"github.com/wcharczuk/go-chart/seq"
)
func drawChart(res http.ResponseWriter, req *http.Request) {
/*
In this example we add a new type of series, a `PolynomialRegressionSeries` that takes another series as a required argument.
InnerSeries only needs to implement `ValueProvider`, so really you could chain `PolynomialRegressionSeries` together if you wanted.
InnerSeries only needs to implement `ValuesProvider`, so really you could chain `PolynomialRegressionSeries` together if you wanted.
*/
mainSeries := chart.ContinuousSeries{
Name: "A test series",
XValues: chart.Sequence.Float64(1.0, 100.0), //generates a []float64 from 1.0 to 100.0 in 1.0 step increments, or 100 elements.
YValues: chart.Sequence.Random(100, 100), //generates a []float64 randomly from 0 to 100 with 100 elements.
XValues: seq.Range(1.0, 100.0), //generates a []float64 from 1.0 to 100.0 in 1.0 step increments, or 100 elements.
YValues: seq.RandomValuesWithAverage(100, 100), //generates a []float64 randomly from 0 to 100 with 100 elements.
}
polyRegSeries := &chart.PolynomialRegressionSeries{

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@ -8,6 +8,7 @@ import (
"time"
"github.com/wcharczuk/go-chart"
util "github.com/wcharczuk/go-chart/util"
)
func parseInt(str string) int {
@ -23,7 +24,7 @@ func parseFloat64(str string) float64 {
func readData() ([]time.Time, []float64) {
var xvalues []time.Time
var yvalues []float64
err := chart.File.ReadByLines("requests.csv", func(line string) {
err := util.File.ReadByLines("requests.csv", func(line string) error {
parts := strings.Split(line, ",")
year := parseInt(parts[0])
month := parseInt(parts[1])
@ -32,6 +33,7 @@ func readData() ([]time.Time, []float64) {
elapsedMillis := parseFloat64(parts[4])
xvalues = append(xvalues, time.Date(year, time.Month(month), day, hour, 0, 0, 0, time.UTC))
yvalues = append(yvalues, elapsedMillis)
return nil
})
if err != nil {
fmt.Println(err.Error())
@ -41,12 +43,12 @@ func readData() ([]time.Time, []float64) {
func releases() []chart.GridLine {
return []chart.GridLine{
{Value: chart.Time.ToFloat64(time.Date(2016, 8, 1, 9, 30, 0, 0, time.UTC))},
{Value: chart.Time.ToFloat64(time.Date(2016, 8, 2, 9, 30, 0, 0, time.UTC))},
{Value: chart.Time.ToFloat64(time.Date(2016, 8, 2, 15, 30, 0, 0, time.UTC))},
{Value: chart.Time.ToFloat64(time.Date(2016, 8, 4, 9, 30, 0, 0, time.UTC))},
{Value: chart.Time.ToFloat64(time.Date(2016, 8, 5, 9, 30, 0, 0, time.UTC))},
{Value: chart.Time.ToFloat64(time.Date(2016, 8, 6, 9, 30, 0, 0, time.UTC))},
{Value: util.Time.ToFloat64(time.Date(2016, 8, 1, 9, 30, 0, 0, time.UTC))},
{Value: util.Time.ToFloat64(time.Date(2016, 8, 2, 9, 30, 0, 0, time.UTC))},
{Value: util.Time.ToFloat64(time.Date(2016, 8, 2, 15, 30, 0, 0, time.UTC))},
{Value: util.Time.ToFloat64(time.Date(2016, 8, 4, 9, 30, 0, 0, time.UTC))},
{Value: util.Time.ToFloat64(time.Date(2016, 8, 5, 9, 30, 0, 0, time.UTC))},
{Value: util.Time.ToFloat64(time.Date(2016, 8, 6, 9, 30, 0, 0, time.UTC))},
}
}
@ -125,8 +127,8 @@ func drawChart(res http.ResponseWriter, req *http.Request) {
graph.Elements = []chart.Renderable{chart.LegendThin(&graph)}
res.Header().Set("Content-Type", chart.ContentTypeSVG)
graph.Render(chart.SVG, res)
res.Header().Set("Content-Type", chart.ContentTypePNG)
graph.Render(chart.PNG, res)
}
func main() {

View file

@ -8,6 +8,7 @@ import (
"github.com/wcharczuk/go-chart"
"github.com/wcharczuk/go-chart/drawing"
"github.com/wcharczuk/go-chart/seq"
)
func drawChart(res http.ResponseWriter, req *http.Request) {
@ -25,8 +26,8 @@ func drawChart(res http.ResponseWriter, req *http.Request) {
DotWidth: 5,
DotColorProvider: viridisByY,
},
XValues: chart.Sequence.Random(128, 1024),
YValues: chart.Sequence.Random(128, 1024),
XValues: seq.Range(0, 127),
YValues: seq.New(seq.NewRandom().WithLen(128).WithMax(1024)).Array(),
},
},
}
@ -50,8 +51,8 @@ func unit(res http.ResponseWriter, req *http.Request) {
},
Series: []chart.Series{
chart.ContinuousSeries{
XValues: chart.Sequence.Float64(0, 4, 1),
YValues: chart.Sequence.Float64(0, 4, 1),
XValues: seq.RangeWithStep(0, 4, 1),
YValues: seq.RangeWithStep(0, 4, 1),
},
},
}

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@ -4,19 +4,15 @@ import (
"net/http"
"github.com/wcharczuk/go-chart"
"github.com/wcharczuk/go-chart/seq"
)
func drawChart(res http.ResponseWriter, req *http.Request) {
/*
In this example we add a new type of series, a `SimpleMovingAverageSeries` that takes another series as a required argument.
InnerSeries only needs to implement `ValueProvider`, so really you could chain `SimpleMovingAverageSeries` together if you wanted.
*/
mainSeries := chart.ContinuousSeries{
Name: "A test series",
XValues: chart.Sequence.Float64(1.0, 100.0), //generates a []float64 from 1.0 to 100.0 in 1.0 step increments, or 100 elements.
YValues: chart.Sequence.Random(100, 100), //generates a []float64 randomly from 0 to 100 with 100 elements.
XValues: seq.Range(1.0, 100.0), //generates a []float64 from 1.0 to 100.0 in 1.0 step increments, or 100 elements.
YValues: seq.RandomValuesWithMax(100, 100), //generates a []float64 randomly from 0 to 100 with 100 elements.
}
// note we create a SimpleMovingAverage series by assignin the inner series.

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@ -5,6 +5,7 @@ import (
"net/http"
"github.com/wcharczuk/go-chart"
util "github.com/wcharczuk/go-chart/util"
)
func drawChart(res http.ResponseWriter, req *http.Request) {
@ -23,7 +24,7 @@ func drawChart(res http.ResponseWriter, req *http.Request) {
TickPosition: chart.TickPositionBetweenTicks,
ValueFormatter: func(v interface{}) string {
typed := v.(float64)
typedDate := chart.Time.FromFloat64(typed)
typedDate := util.Time.FromFloat64(typed)
return fmt.Sprintf("%d-%d\n%d", typedDate.Month(), typedDate.Day(), typedDate.Year())
},
},

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@ -4,8 +4,8 @@ import (
"bytes"
"log"
"os"
//"time"
"github.com/wcharczuk/go-chart" //exposes "chart"
"github.com/wcharczuk/go-chart"
)
func main() {
@ -18,8 +18,6 @@ func main() {
Style: chart.Style{
Show: true,
},
//XValues: []time.Time{time.Unix(3*b,0),time.Unix(4*b,0),time.Unix(5*b,0),time.Unix(6*b,0),time.Unix(7*b,0),time.Unix(8*b,0),time.Unix(9*b,0),time.Unix(10*b,0)},
XValues: []float64{10 * b, 20 * b, 30 * b, 40 * b, 50 * b, 60 * b, 70 * b, 80 * b},
YValues: []float64{1.0, 2.0, 30.0, 4.0, 50.0, 6.0, 7.0, 88.0},
}

View file

@ -3,6 +3,8 @@ package chart
import (
"fmt"
"math"
util "github.com/wcharczuk/go-chart/util"
)
// AnnotationSeries is a series of labels on the chart.
@ -55,10 +57,10 @@ func (as AnnotationSeries) Measure(r Renderer, canvasBox Box, xrange, yrange Ran
lx := canvasBox.Left + xrange.Translate(a.XValue)
ly := canvasBox.Bottom - yrange.Translate(a.YValue)
ab := Draw.MeasureAnnotation(r, canvasBox, style, lx, ly, a.Label)
box.Top = Math.MinInt(box.Top, ab.Top)
box.Left = Math.MinInt(box.Left, ab.Left)
box.Right = Math.MaxInt(box.Right, ab.Right)
box.Bottom = Math.MaxInt(box.Bottom, ab.Bottom)
box.Top = util.Math.MinInt(box.Top, ab.Top)
box.Left = util.Math.MinInt(box.Left, ab.Left)
box.Right = util.Math.MaxInt(box.Right, ab.Right)
box.Bottom = util.Math.MaxInt(box.Bottom, ab.Bottom)
}
}
return box

View file

@ -7,6 +7,7 @@ import (
"math"
"github.com/golang/freetype/truetype"
util "github.com/wcharczuk/go-chart/util"
)
// BarChart is a chart that draws bars on a range.
@ -368,7 +369,7 @@ func (bc BarChart) getAdjustedCanvasBox(r Renderer, canvasBox Box, yrange Range,
lines := Text.WrapFit(r, bar.Label, barLabelBox.Width(), axisStyle)
linesBox := Text.MeasureLines(r, lines, axisStyle)
xaxisHeight = Math.MinInt(linesBox.Height()+(2*DefaultXAxisMargin), xaxisHeight)
xaxisHeight = util.Math.MinInt(linesBox.Height()+(2*DefaultXAxisMargin), xaxisHeight)
}
}
@ -435,7 +436,7 @@ func (bc BarChart) styleDefaultsTitle() Style {
}
func (bc BarChart) getTitleFontSize() float64 {
effectiveDimension := Math.MinInt(bc.GetWidth(), bc.GetHeight())
effectiveDimension := util.Math.MinInt(bc.GetWidth(), bc.GetHeight())
if effectiveDimension >= 2048 {
return 48
} else if effectiveDimension >= 1024 {

View file

@ -2,7 +2,8 @@ package chart
import (
"fmt"
"math"
"github.com/wcharczuk/go-chart/seq"
)
// BollingerBandsSeries draws bollinger bands for an inner series.
@ -14,9 +15,9 @@ type BollingerBandsSeries struct {
Period int
K float64
InnerSeries ValueProvider
InnerSeries ValuesProvider
valueBuffer *RingBuffer
valueBuffer *seq.Buffer
}
// GetName returns the name of the time series.
@ -42,7 +43,9 @@ func (bbs BollingerBandsSeries) GetPeriod() int {
return bbs.Period
}
// GetK returns the K value.
// GetK returns the K value, or the number of standard deviations above and below
// to band the simple moving average with.
// Typical K value is 2.0.
func (bbs BollingerBandsSeries) GetK(defaults ...float64) float64 {
if bbs.K == 0 {
if len(defaults) > 0 {
@ -54,35 +57,35 @@ func (bbs BollingerBandsSeries) GetK(defaults ...float64) float64 {
}
// Len returns the number of elements in the series.
func (bbs *BollingerBandsSeries) Len() int {
func (bbs BollingerBandsSeries) Len() int {
return bbs.InnerSeries.Len()
}
// GetBoundedValue gets the bounded value for the series.
func (bbs *BollingerBandsSeries) GetBoundedValue(index int) (x, y1, y2 float64) {
// GetBoundedValues gets the bounded value for the series.
func (bbs *BollingerBandsSeries) GetBoundedValues(index int) (x, y1, y2 float64) {
if bbs.InnerSeries == nil {
return
}
if bbs.valueBuffer == nil || index == 0 {
bbs.valueBuffer = NewRingBufferWithCapacity(bbs.GetPeriod())
bbs.valueBuffer = seq.NewBufferWithCapacity(bbs.GetPeriod())
}
if bbs.valueBuffer.Len() >= bbs.GetPeriod() {
bbs.valueBuffer.Dequeue()
}
px, py := bbs.InnerSeries.GetValue(index)
px, py := bbs.InnerSeries.GetValues(index)
bbs.valueBuffer.Enqueue(py)
x = px
ay := bbs.getAverage(bbs.valueBuffer)
std := bbs.getStdDev(bbs.valueBuffer)
ay := seq.New(bbs.valueBuffer).Average()
std := seq.New(bbs.valueBuffer).StdDev()
y1 = ay + (bbs.GetK() * std)
y2 = ay - (bbs.GetK() * std)
return
}
// GetBoundedLastValue returns the last bounded value for the series.
func (bbs *BollingerBandsSeries) GetBoundedLastValue() (x, y1, y2 float64) {
// GetBoundedLastValues returns the last bounded value for the series.
func (bbs *BollingerBandsSeries) GetBoundedLastValues() (x, y1, y2 float64) {
if bbs.InnerSeries == nil {
return
}
@ -93,15 +96,15 @@ func (bbs *BollingerBandsSeries) GetBoundedLastValue() (x, y1, y2 float64) {
startAt = 0
}
vb := NewRingBufferWithCapacity(period)
vb := seq.NewBufferWithCapacity(period)
for index := startAt; index < seriesLength; index++ {
xn, yn := bbs.InnerSeries.GetValue(index)
xn, yn := bbs.InnerSeries.GetValues(index)
vb.Enqueue(yn)
x = xn
}
ay := bbs.getAverage(vb)
std := bbs.getStdDev(vb)
ay := seq.Seq{Provider: vb}.Average()
std := seq.Seq{Provider: vb}.StdDev()
y1 = ay + (bbs.GetK() * std)
y2 = ay - (bbs.GetK() * std)
@ -120,37 +123,6 @@ func (bbs *BollingerBandsSeries) Render(r Renderer, canvasBox Box, xrange, yrang
Draw.BoundedSeries(r, canvasBox, xrange, yrange, s, bbs, bbs.GetPeriod())
}
func (bbs BollingerBandsSeries) getAverage(valueBuffer *RingBuffer) float64 {
var accum float64
valueBuffer.Each(func(v interface{}) {
if typed, isTyped := v.(float64); isTyped {
accum += typed
}
})
return accum / float64(valueBuffer.Len())
}
func (bbs BollingerBandsSeries) getVariance(valueBuffer *RingBuffer) float64 {
if valueBuffer.Len() == 0 {
return 0
}
var variance float64
m := bbs.getAverage(valueBuffer)
valueBuffer.Each(func(v interface{}) {
if n, isTyped := v.(float64); isTyped {
variance += (float64(n) - m) * (float64(n) - m)
}
})
return variance / float64(valueBuffer.Len())
}
func (bbs BollingerBandsSeries) getStdDev(valueBuffer *RingBuffer) float64 {
return math.Pow(bbs.getVariance(valueBuffer), 0.5)
}
// Validate validates the series.
func (bbs BollingerBandsSeries) Validate() error {
if bbs.InnerSeries == nil {

View file

@ -1,18 +1,20 @@
package chart
import (
"fmt"
"math"
"testing"
"github.com/blendlabs/go-assert"
"github.com/wcharczuk/go-chart/seq"
)
func TestBollingerBandSeries(t *testing.T) {
assert := assert.New(t)
s1 := mockValueProvider{
X: Sequence.Float64(1.0, 100.0),
Y: Sequence.Random(100, 1024),
s1 := mockValuesProvider{
X: seq.Range(1.0, 100.0),
Y: seq.RandomValuesWithMax(100, 1024),
}
bbs := &BollingerBandsSeries{
@ -24,27 +26,27 @@ func TestBollingerBandSeries(t *testing.T) {
y2values := make([]float64, 100)
for x := 0; x < 100; x++ {
xvalues[x], y1values[x], y2values[x] = bbs.GetBoundedValue(x)
xvalues[x], y1values[x], y2values[x] = bbs.GetBoundedValues(x)
}
for x := bbs.GetPeriod(); x < 100; x++ {
assert.True(y1values[x] > y2values[x])
assert.True(y1values[x] > y2values[x], fmt.Sprintf("%v vs. %v", y1values[x], y2values[x]))
}
}
func TestBollingerBandLastValue(t *testing.T) {
assert := assert.New(t)
s1 := mockValueProvider{
X: Sequence.Float64(1.0, 100.0),
Y: Sequence.Float64(1.0, 100.0),
s1 := mockValuesProvider{
X: seq.Range(1.0, 100.0),
Y: seq.Range(1.0, 100.0),
}
bbs := &BollingerBandsSeries{
InnerSeries: s1,
}
x, y1, y2 := bbs.GetBoundedLastValue()
x, y1, y2 := bbs.GetBoundedLastValues()
assert.Equal(100.0, x)
assert.Equal(101, math.Floor(y1))
assert.Equal(83, math.Floor(y2))

56
box.go
View file

@ -3,6 +3,8 @@ package chart
import (
"fmt"
"math"
util "github.com/wcharczuk/go-chart/util"
)
var (
@ -89,12 +91,12 @@ func (b Box) GetBottom(defaults ...int) int {
// Width returns the width
func (b Box) Width() int {
return Math.AbsInt(b.Right - b.Left)
return util.Math.AbsInt(b.Right - b.Left)
}
// Height returns the height
func (b Box) Height() int {
return Math.AbsInt(b.Bottom - b.Top)
return util.Math.AbsInt(b.Bottom - b.Top)
}
// Center returns the center of the box
@ -146,10 +148,10 @@ func (b Box) Equals(other Box) bool {
// Grow grows a box based on another box.
func (b Box) Grow(other Box) Box {
return Box{
Top: Math.MinInt(b.Top, other.Top),
Left: Math.MinInt(b.Left, other.Left),
Right: Math.MaxInt(b.Right, other.Right),
Bottom: Math.MaxInt(b.Bottom, other.Bottom),
Top: util.Math.MinInt(b.Top, other.Top),
Left: util.Math.MinInt(b.Left, other.Left),
Right: util.Math.MaxInt(b.Right, other.Right),
Bottom: util.Math.MaxInt(b.Bottom, other.Bottom),
}
}
@ -220,10 +222,10 @@ func (b Box) Fit(other Box) Box {
func (b Box) Constrain(other Box) Box {
newBox := b.Clone()
newBox.Top = Math.MaxInt(newBox.Top, other.Top)
newBox.Left = Math.MaxInt(newBox.Left, other.Left)
newBox.Right = Math.MinInt(newBox.Right, other.Right)
newBox.Bottom = Math.MinInt(newBox.Bottom, other.Bottom)
newBox.Top = util.Math.MaxInt(newBox.Top, other.Top)
newBox.Left = util.Math.MaxInt(newBox.Left, other.Left)
newBox.Right = util.Math.MinInt(newBox.Right, other.Right)
newBox.Bottom = util.Math.MinInt(newBox.Bottom, other.Bottom)
return newBox
}
@ -262,36 +264,36 @@ type BoxCorners struct {
// Box return the BoxCorners as a regular box.
func (bc BoxCorners) Box() Box {
return Box{
Top: Math.MinInt(bc.TopLeft.Y, bc.TopRight.Y),
Left: Math.MinInt(bc.TopLeft.X, bc.BottomLeft.X),
Right: Math.MaxInt(bc.TopRight.X, bc.BottomRight.X),
Bottom: Math.MaxInt(bc.BottomLeft.Y, bc.BottomRight.Y),
Top: util.Math.MinInt(bc.TopLeft.Y, bc.TopRight.Y),
Left: util.Math.MinInt(bc.TopLeft.X, bc.BottomLeft.X),
Right: util.Math.MaxInt(bc.TopRight.X, bc.BottomRight.X),
Bottom: util.Math.MaxInt(bc.BottomLeft.Y, bc.BottomRight.Y),
}
}
// Width returns the width
func (bc BoxCorners) Width() int {
minLeft := Math.MinInt(bc.TopLeft.X, bc.BottomLeft.X)
maxRight := Math.MaxInt(bc.TopRight.X, bc.BottomRight.X)
minLeft := util.Math.MinInt(bc.TopLeft.X, bc.BottomLeft.X)
maxRight := util.Math.MaxInt(bc.TopRight.X, bc.BottomRight.X)
return maxRight - minLeft
}
// Height returns the height
func (bc BoxCorners) Height() int {
minTop := Math.MinInt(bc.TopLeft.Y, bc.TopRight.Y)
maxBottom := Math.MaxInt(bc.BottomLeft.Y, bc.BottomRight.Y)
minTop := util.Math.MinInt(bc.TopLeft.Y, bc.TopRight.Y)
maxBottom := util.Math.MaxInt(bc.BottomLeft.Y, bc.BottomRight.Y)
return maxBottom - minTop
}
// Center returns the center of the box
func (bc BoxCorners) Center() (x, y int) {
left := Math.MeanInt(bc.TopLeft.X, bc.BottomLeft.X)
right := Math.MeanInt(bc.TopRight.X, bc.BottomRight.X)
left := util.Math.MeanInt(bc.TopLeft.X, bc.BottomLeft.X)
right := util.Math.MeanInt(bc.TopRight.X, bc.BottomRight.X)
x = ((right - left) >> 1) + left
top := Math.MeanInt(bc.TopLeft.Y, bc.TopRight.Y)
bottom := Math.MeanInt(bc.BottomLeft.Y, bc.BottomRight.Y)
top := util.Math.MeanInt(bc.TopLeft.Y, bc.TopRight.Y)
bottom := util.Math.MeanInt(bc.BottomLeft.Y, bc.BottomRight.Y)
y = ((bottom - top) >> 1) + top
return
@ -301,12 +303,12 @@ func (bc BoxCorners) Center() (x, y int) {
func (bc BoxCorners) Rotate(thetaDegrees float64) BoxCorners {
cx, cy := bc.Center()
thetaRadians := Math.DegreesToRadians(thetaDegrees)
thetaRadians := util.Math.DegreesToRadians(thetaDegrees)
tlx, tly := Math.RotateCoordinate(cx, cy, bc.TopLeft.X, bc.TopLeft.Y, thetaRadians)
trx, try := Math.RotateCoordinate(cx, cy, bc.TopRight.X, bc.TopRight.Y, thetaRadians)
brx, bry := Math.RotateCoordinate(cx, cy, bc.BottomRight.X, bc.BottomRight.Y, thetaRadians)
blx, bly := Math.RotateCoordinate(cx, cy, bc.BottomLeft.X, bc.BottomLeft.Y, thetaRadians)
tlx, tly := util.Math.RotateCoordinate(cx, cy, bc.TopLeft.X, bc.TopLeft.Y, thetaRadians)
trx, try := util.Math.RotateCoordinate(cx, cy, bc.TopRight.X, bc.TopRight.Y, thetaRadians)
brx, bry := util.Math.RotateCoordinate(cx, cy, bc.BottomRight.X, bc.BottomRight.Y, thetaRadians)
blx, bly := util.Math.RotateCoordinate(cx, cy, bc.BottomLeft.X, bc.BottomLeft.Y, thetaRadians)
return BoxCorners{
TopLeft: Point{tlx, tly},

View file

@ -7,6 +7,7 @@ import (
"math"
"github.com/golang/freetype/truetype"
util "github.com/wcharczuk/go-chart/util"
)
// Chart is what we're drawing.
@ -177,10 +178,10 @@ func (c Chart) getRanges() (xrange, yrange, yrangeAlt Range) {
for _, s := range c.Series {
if s.GetStyle().IsZero() || s.GetStyle().Show {
seriesAxis := s.GetYAxis()
if bvp, isBoundedValueProvider := s.(BoundedValueProvider); isBoundedValueProvider {
if bvp, isBoundedValuesProvider := s.(BoundedValuesProvider); isBoundedValuesProvider {
seriesLength := bvp.Len()
for index := 0; index < seriesLength; index++ {
vx, vy1, vy2 := bvp.GetBoundedValue(index)
vx, vy1, vy2 := bvp.GetBoundedValues(index)
minx = math.Min(minx, vx)
maxx = math.Max(maxx, vx)
@ -198,10 +199,10 @@ func (c Chart) getRanges() (xrange, yrange, yrangeAlt Range) {
seriesMappedToSecondaryAxis = true
}
}
} else if vp, isValueProvider := s.(ValueProvider); isValueProvider {
} else if vp, isValuesProvider := s.(ValuesProvider); isValuesProvider {
seriesLength := vp.Len()
for index := 0; index < seriesLength; index++ {
vx, vy := vp.GetValue(index)
vx, vy := vp.GetValues(index)
minx = math.Min(minx, vx)
maxx = math.Max(maxx, vx)
@ -265,8 +266,8 @@ func (c Chart) getRanges() (xrange, yrange, yrangeAlt Range) {
// only round if we're showing the axis
if c.YAxis.Style.Show {
delta := yrange.GetDelta()
roundTo := Math.GetRoundToForDelta(delta)
rmin, rmax := Math.RoundDown(yrange.GetMin(), roundTo), Math.RoundUp(yrange.GetMax(), roundTo)
roundTo := util.Math.GetRoundToForDelta(delta)
rmin, rmax := util.Math.RoundDown(yrange.GetMin(), roundTo), util.Math.RoundUp(yrange.GetMax(), roundTo)
yrange.SetMin(rmin)
yrange.SetMax(rmax)
@ -287,8 +288,8 @@ func (c Chart) getRanges() (xrange, yrange, yrangeAlt Range) {
if c.YAxisSecondary.Style.Show {
delta := yrangeAlt.GetDelta()
roundTo := Math.GetRoundToForDelta(delta)
rmin, rmax := Math.RoundDown(yrangeAlt.GetMin(), roundTo), Math.RoundUp(yrangeAlt.GetMax(), roundTo)
roundTo := util.Math.GetRoundToForDelta(delta)
rmin, rmax := util.Math.RoundDown(yrangeAlt.GetMin(), roundTo), util.Math.RoundUp(yrangeAlt.GetMax(), roundTo)
yrangeAlt.SetMin(rmin)
yrangeAlt.SetMax(rmax)
}

View file

@ -10,6 +10,7 @@ import (
"github.com/blendlabs/go-assert"
"github.com/wcharczuk/go-chart/drawing"
"github.com/wcharczuk/go-chart/seq"
)
func TestChartGetDPI(t *testing.T) {
@ -391,8 +392,8 @@ func TestChartRegressionBadRangesByUser(t *testing.T) {
},
Series: []Series{
ContinuousSeries{
XValues: Sequence.Float64(1.0, 10.0),
YValues: Sequence.Float64(1.0, 10.0),
XValues: seq.Range(1.0, 10.0),
YValues: seq.Range(1.0, 10.0),
},
},
}
@ -407,8 +408,8 @@ func TestChartValidatesSeries(t *testing.T) {
c := Chart{
Series: []Series{
ContinuousSeries{
XValues: Sequence.Float64(1.0, 10.0),
YValues: Sequence.Float64(1.0, 10.0),
XValues: seq.Range(1.0, 10.0),
YValues: seq.Range(1.0, 10.0),
},
},
}
@ -418,7 +419,7 @@ func TestChartValidatesSeries(t *testing.T) {
c = Chart{
Series: []Series{
ContinuousSeries{
XValues: Sequence.Float64(1.0, 10.0),
XValues: seq.Range(1.0, 10.0),
},
},
}
@ -504,8 +505,8 @@ func TestChartE2ELine(t *testing.T) {
},
Series: []Series{
ContinuousSeries{
XValues: Sequence.Float64(0, 4, 1),
YValues: Sequence.Float64(0, 4, 1),
XValues: seq.RangeWithStep(0, 4, 1),
YValues: seq.RangeWithStep(0, 4, 1),
},
},
}
@ -549,8 +550,8 @@ func TestChartE2ELineWithFill(t *testing.T) {
StrokeColor: drawing.ColorBlue,
FillColor: drawing.ColorRed,
},
XValues: Sequence.Float64(0, 4, 1),
YValues: Sequence.Float64(0, 4, 1),
XValues: seq.RangeWithStep(0, 4, 1),
YValues: seq.RangeWithStep(0, 4, 1),
},
},
}

View file

@ -7,7 +7,7 @@ type ConcatSeries []Series
func (cs ConcatSeries) Len() int {
total := 0
for _, s := range cs {
if typed, isValueProvider := s.(ValueProvider); isValueProvider {
if typed, isValuesProvider := s.(ValuesProvider); isValuesProvider {
total += typed.Len()
}
}
@ -19,10 +19,10 @@ func (cs ConcatSeries) Len() int {
func (cs ConcatSeries) GetValue(index int) (x, y float64) {
cursor := 0
for _, s := range cs {
if typed, isValueProvider := s.(ValueProvider); isValueProvider {
if typed, isValuesProvider := s.(ValuesProvider); isValuesProvider {
len := typed.Len()
if index < cursor+len {
x, y = typed.GetValue(index - cursor) //FENCEPOSTS.
x, y = typed.GetValues(index - cursor) //FENCEPOSTS.
return
}
cursor += typed.Len()

View file

@ -4,24 +4,25 @@ import (
"testing"
assert "github.com/blendlabs/go-assert"
"github.com/wcharczuk/go-chart/seq"
)
func TestConcatSeries(t *testing.T) {
assert := assert.New(t)
s1 := ContinuousSeries{
XValues: Sequence.Float64(1.0, 10.0),
YValues: Sequence.Float64(1.0, 10.0),
XValues: seq.Range(1.0, 10.0),
YValues: seq.Range(1.0, 10.0),
}
s2 := ContinuousSeries{
XValues: Sequence.Float64(11, 20.0),
YValues: Sequence.Float64(10.0, 1.0),
XValues: seq.Range(11, 20.0),
YValues: seq.Range(10.0, 1.0),
}
s3 := ContinuousSeries{
XValues: Sequence.Float64(21, 30.0),
YValues: Sequence.Float64(1.0, 10.0),
XValues: seq.Range(21, 30.0),
YValues: seq.Range(1.0, 10.0),
}
cs := ConcatSeries([]Series{s1, s2, s3})

View file

@ -4,13 +4,14 @@ import (
"testing"
"github.com/blendlabs/go-assert"
"github.com/wcharczuk/go-chart/util"
)
func TestRangeTranslate(t *testing.T) {
assert := assert.New(t)
values := []float64{1.0, 2.0, 2.5, 2.7, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0}
r := ContinuousRange{Domain: 1000}
r.Min, r.Max = Math.MinAndMax(values...)
r.Min, r.Max = util.Math.MinAndMax(values...)
// delta = ~7.0
// value = ~5.0

View file

@ -31,13 +31,13 @@ func (cs ContinuousSeries) Len() int {
return len(cs.XValues)
}
// GetValue gets a value at a given index.
func (cs ContinuousSeries) GetValue(index int) (float64, float64) {
// GetValues gets the x,y values at a given index.
func (cs ContinuousSeries) GetValues(index int) (float64, float64) {
return cs.XValues[index], cs.YValues[index]
}
// GetLastValue gets the last value.
func (cs ContinuousSeries) GetLastValue() (float64, float64) {
// GetLastValues gets the last x,y values.
func (cs ContinuousSeries) GetLastValues() (float64, float64) {
return cs.XValues[len(cs.XValues)-1], cs.YValues[len(cs.YValues)-1]
}

View file

@ -5,6 +5,7 @@ import (
"testing"
assert "github.com/blendlabs/go-assert"
"github.com/wcharczuk/go-chart/seq"
)
func TestContinuousSeries(t *testing.T) {
@ -12,21 +13,21 @@ func TestContinuousSeries(t *testing.T) {
cs := ContinuousSeries{
Name: "Test Series",
XValues: Sequence.Float64(1.0, 10.0),
YValues: Sequence.Float64(1.0, 10.0),
XValues: seq.Range(1.0, 10.0),
YValues: seq.Range(1.0, 10.0),
}
assert.Equal("Test Series", cs.GetName())
assert.Equal(10, cs.Len())
x0, y0 := cs.GetValue(0)
x0, y0 := cs.GetValues(0)
assert.Equal(1.0, x0)
assert.Equal(1.0, y0)
xn, yn := cs.GetValue(9)
xn, yn := cs.GetValues(9)
assert.Equal(10.0, xn)
assert.Equal(10.0, yn)
xn, yn = cs.GetLastValue()
xn, yn = cs.GetLastValues()
assert.Equal(10.0, xn)
assert.Equal(10.0, yn)
}
@ -53,20 +54,20 @@ func TestContinuousSeriesValidate(t *testing.T) {
cs := ContinuousSeries{
Name: "Test Series",
XValues: Sequence.Float64(1.0, 10.0),
YValues: Sequence.Float64(1.0, 10.0),
XValues: seq.Range(1.0, 10.0),
YValues: seq.Range(1.0, 10.0),
}
assert.Nil(cs.Validate())
cs = ContinuousSeries{
Name: "Test Series",
XValues: Sequence.Float64(1.0, 10.0),
XValues: seq.Range(1.0, 10.0),
}
assert.NotNil(cs.Validate())
cs = ContinuousSeries{
Name: "Test Series",
YValues: Sequence.Float64(1.0, 10.0),
YValues: seq.Range(1.0, 10.0),
}
assert.NotNil(cs.Validate())
}

32
draw.go
View file

@ -1,6 +1,10 @@
package chart
import "math"
import (
"math"
util "github.com/wcharczuk/go-chart/util"
)
var (
// Draw contains helpers for drawing common objects.
@ -10,7 +14,7 @@ var (
type draw struct{}
// LineSeries draws a line series with a renderer.
func (d draw) LineSeries(r Renderer, canvasBox Box, xrange, yrange Range, style Style, vs ValueProvider) {
func (d draw) LineSeries(r Renderer, canvasBox Box, xrange, yrange Range, style Style, vs ValuesProvider) {
if vs.Len() == 0 {
return
}
@ -18,7 +22,7 @@ func (d draw) LineSeries(r Renderer, canvasBox Box, xrange, yrange Range, style
cb := canvasBox.Bottom
cl := canvasBox.Left
v0x, v0y := vs.GetValue(0)
v0x, v0y := vs.GetValues(0)
x0 := cl + xrange.Translate(v0x)
y0 := cb - yrange.Translate(v0y)
@ -31,13 +35,13 @@ func (d draw) LineSeries(r Renderer, canvasBox Box, xrange, yrange Range, style
style.GetFillOptions().WriteDrawingOptionsToRenderer(r)
r.MoveTo(x0, y0)
for i := 1; i < vs.Len(); i++ {
vx, vy = vs.GetValue(i)
vx, vy = vs.GetValues(i)
x = cl + xrange.Translate(vx)
y = cb - yrange.Translate(vy)
r.LineTo(x, y)
}
r.LineTo(x, Math.MinInt(cb, cb-yv0))
r.LineTo(x0, Math.MinInt(cb, cb-yv0))
r.LineTo(x, util.Math.MinInt(cb, cb-yv0))
r.LineTo(x0, util.Math.MinInt(cb, cb-yv0))
r.LineTo(x0, y0)
r.Fill()
}
@ -47,7 +51,7 @@ func (d draw) LineSeries(r Renderer, canvasBox Box, xrange, yrange Range, style
r.MoveTo(x0, y0)
for i := 1; i < vs.Len(); i++ {
vx, vy = vs.GetValue(i)
vx, vy = vs.GetValues(i)
x = cl + xrange.Translate(vx)
y = cb - yrange.Translate(vy)
r.LineTo(x, y)
@ -60,7 +64,7 @@ func (d draw) LineSeries(r Renderer, canvasBox Box, xrange, yrange Range, style
style.GetDotOptions().WriteDrawingOptionsToRenderer(r)
for i := 0; i < vs.Len(); i++ {
vx, vy = vs.GetValue(i)
vx, vy = vs.GetValues(i)
x = cl + xrange.Translate(vx)
y = cb - yrange.Translate(vy)
@ -82,8 +86,8 @@ func (d draw) LineSeries(r Renderer, canvasBox Box, xrange, yrange Range, style
}
}
// BoundedSeries draws a series that implements BoundedValueProvider.
func (d draw) BoundedSeries(r Renderer, canvasBox Box, xrange, yrange Range, style Style, bbs BoundedValueProvider, drawOffsetIndexes ...int) {
// BoundedSeries draws a series that implements BoundedValuesProvider.
func (d draw) BoundedSeries(r Renderer, canvasBox Box, xrange, yrange Range, style Style, bbs BoundedValuesProvider, drawOffsetIndexes ...int) {
drawOffsetIndex := 0
if len(drawOffsetIndexes) > 0 {
drawOffsetIndex = drawOffsetIndexes[0]
@ -92,7 +96,7 @@ func (d draw) BoundedSeries(r Renderer, canvasBox Box, xrange, yrange Range, sty
cb := canvasBox.Bottom
cl := canvasBox.Left
v0x, v0y1, v0y2 := bbs.GetBoundedValue(0)
v0x, v0y1, v0y2 := bbs.GetBoundedValues(0)
x0 := cl + xrange.Translate(v0x)
y0 := cb - yrange.Translate(v0y1)
@ -107,7 +111,7 @@ func (d draw) BoundedSeries(r Renderer, canvasBox Box, xrange, yrange Range, sty
style.GetFillAndStrokeOptions().WriteToRenderer(r)
r.MoveTo(x0, y0)
for i := 1; i < bbs.Len(); i++ {
vx, vy1, vy2 = bbs.GetBoundedValue(i)
vx, vy1, vy2 = bbs.GetBoundedValues(i)
xvalues[i] = vx
y2values[i] = vy2
@ -133,7 +137,7 @@ func (d draw) BoundedSeries(r Renderer, canvasBox Box, xrange, yrange Range, sty
}
// HistogramSeries draws a value provider as boxes from 0.
func (d draw) HistogramSeries(r Renderer, canvasBox Box, xrange, yrange Range, style Style, vs ValueProvider, barWidths ...int) {
func (d draw) HistogramSeries(r Renderer, canvasBox Box, xrange, yrange Range, style Style, vs ValuesProvider, barWidths ...int) {
if vs.Len() == 0 {
return
}
@ -150,7 +154,7 @@ func (d draw) HistogramSeries(r Renderer, canvasBox Box, xrange, yrange Range, s
//foreach datapoint, draw a box.
for index := 0; index < seriesLength; index++ {
vx, vy := vs.GetValue(index)
vx, vy := vs.GetValues(index)
y0 := yrange.Translate(0)
x := cl + xrange.Translate(vx)
y := yrange.Translate(vy)

View file

@ -14,7 +14,7 @@ type EMASeries struct {
YAxis YAxisType
Period int
InnerSeries ValueProvider
InnerSeries ValuesProvider
cache []float64
}
@ -52,23 +52,23 @@ func (ema EMASeries) GetSigma() float64 {
return 2.0 / (float64(ema.GetPeriod()) + 1)
}
// GetValue gets a value at a given index.
func (ema *EMASeries) GetValue(index int) (x, y float64) {
// GetValues gets a value at a given index.
func (ema *EMASeries) GetValues(index int) (x, y float64) {
if ema.InnerSeries == nil {
return
}
if len(ema.cache) == 0 {
ema.ensureCachedValues()
}
vx, _ := ema.InnerSeries.GetValue(index)
vx, _ := ema.InnerSeries.GetValues(index)
x = vx
y = ema.cache[index]
return
}
// GetLastValue computes the last moving average value but walking back window size samples,
// GetLastValues computes the last moving average value but walking back window size samples,
// and recomputing the last moving average chunk.
func (ema *EMASeries) GetLastValue() (x, y float64) {
func (ema *EMASeries) GetLastValues() (x, y float64) {
if ema.InnerSeries == nil {
return
}
@ -76,7 +76,7 @@ func (ema *EMASeries) GetLastValue() (x, y float64) {
ema.ensureCachedValues()
}
lastIndex := ema.InnerSeries.Len() - 1
x, _ = ema.InnerSeries.GetValue(lastIndex)
x, _ = ema.InnerSeries.GetValues(lastIndex)
y = ema.cache[lastIndex]
return
}
@ -86,7 +86,7 @@ func (ema *EMASeries) ensureCachedValues() {
ema.cache = make([]float64, seriesLength)
sigma := ema.GetSigma()
for x := 0; x < seriesLength; x++ {
_, y := ema.InnerSeries.GetValue(x)
_, y := ema.InnerSeries.GetValues(x)
if x == 0 {
ema.cache[x] = y
continue

View file

@ -4,10 +4,11 @@ import (
"testing"
"github.com/blendlabs/go-assert"
"github.com/wcharczuk/go-chart/seq"
)
var (
emaXValues = Sequence.Float64(1.0, 50.0)
emaXValues = seq.Range(1.0, 50.0)
emaYValues = []float64{
1, 2, 3, 4, 5, 4, 3, 2,
1, 2, 3, 4, 5, 4, 3, 2,
@ -75,7 +76,7 @@ var (
func TestEMASeries(t *testing.T) {
assert := assert.New(t)
mockSeries := mockValueProvider{
mockSeries := mockValuesProvider{
emaXValues,
emaYValues,
}
@ -91,7 +92,7 @@ func TestEMASeries(t *testing.T) {
var yvalues []float64
for x := 0; x < ema.Len(); x++ {
_, y := ema.GetValue(x)
_, y := ema.GetValues(x)
yvalues = append(yvalues, y)
}
@ -99,7 +100,7 @@ func TestEMASeries(t *testing.T) {
assert.InDelta(yv, emaExpected[index], emaDelta)
}
lvx, lvy := ema.GetLastValue()
lvx, lvy := ema.GetLastValues()
assert.Equal(50.0, lvx)
assert.InDelta(lvy, emaExpected[49], emaDelta)
}

View file

@ -4,6 +4,7 @@ import (
"sync"
"github.com/golang/freetype/truetype"
"github.com/wcharczuk/go-chart/roboto"
)
var (
@ -17,7 +18,7 @@ func GetDefaultFont() (*truetype.Font, error) {
_defaultFontLock.Lock()
defer _defaultFontLock.Unlock()
if _defaultFont == nil {
font, err := truetype.Parse(roboto)
font, err := truetype.Parse(roboto.Roboto)
if err != nil {
return nil, err
}

View file

@ -9,7 +9,7 @@ type HistogramSeries struct {
Name string
Style Style
YAxis YAxisType
InnerSeries ValueProvider
InnerSeries ValuesProvider
}
// GetName implements Series.GetName.
@ -27,19 +27,19 @@ func (hs HistogramSeries) GetYAxis() YAxisType {
return hs.YAxis
}
// Len implements BoundedValueProvider.Len.
// Len implements BoundedValuesProvider.Len.
func (hs HistogramSeries) Len() int {
return hs.InnerSeries.Len()
}
// GetValue implements ValueProvider.GetValue.
func (hs HistogramSeries) GetValue(index int) (x, y float64) {
return hs.InnerSeries.GetValue(index)
// GetValues implements ValuesProvider.GetValues.
func (hs HistogramSeries) GetValues(index int) (x, y float64) {
return hs.InnerSeries.GetValues(index)
}
// GetBoundedValue implements BoundedValueProvider.GetBoundedValue
func (hs HistogramSeries) GetBoundedValue(index int) (x, y1, y2 float64) {
vx, vy := hs.InnerSeries.GetValue(index)
// GetBoundedValues implements BoundedValuesProvider.GetBoundedValue
func (hs HistogramSeries) GetBoundedValues(index int) (x, y1, y2 float64) {
vx, vy := hs.InnerSeries.GetValues(index)
x = vx

View file

@ -4,6 +4,7 @@ import (
"testing"
assert "github.com/blendlabs/go-assert"
"github.com/wcharczuk/go-chart/seq"
)
func TestHistogramSeries(t *testing.T) {
@ -11,8 +12,8 @@ func TestHistogramSeries(t *testing.T) {
cs := ContinuousSeries{
Name: "Test Series",
XValues: Sequence.Float64(1.0, 20.0),
YValues: Sequence.Float64(10.0, -10.0),
XValues: seq.Range(1.0, 20.0),
YValues: seq.Range(10.0, -10.0),
}
hs := HistogramSeries{
@ -20,8 +21,8 @@ func TestHistogramSeries(t *testing.T) {
}
for x := 0; x < hs.Len(); x++ {
csx, csy := cs.GetValue(0)
hsx, hsy1, hsy2 := hs.GetBoundedValue(0)
csx, csy := cs.GetValues(0)
hsx, hsy1, hsy2 := hs.GetBoundedValues(0)
assert.Equal(csx, hsx)
assert.True(hsy1 > 0)
assert.True(hsy2 <= 0)

View file

@ -3,7 +3,7 @@ package chart
import "fmt"
// LastValueAnnotation returns an annotation series of just the last value of a value provider.
func LastValueAnnotation(innerSeries ValueProvider, vfs ...ValueFormatter) AnnotationSeries {
func LastValueAnnotation(innerSeries ValuesProvider, vfs ...ValueFormatter) AnnotationSeries {
var vf ValueFormatter
if len(vfs) > 0 {
vf = vfs[0]
@ -14,11 +14,11 @@ func LastValueAnnotation(innerSeries ValueProvider, vfs ...ValueFormatter) Annot
}
var lastValue Value2
if typed, isTyped := innerSeries.(LastValueProvider); isTyped {
lastValue.XValue, lastValue.YValue = typed.GetLastValue()
if typed, isTyped := innerSeries.(LastValuesProvider); isTyped {
lastValue.XValue, lastValue.YValue = typed.GetLastValues()
lastValue.Label = vf(lastValue.YValue)
} else {
lastValue.XValue, lastValue.YValue = innerSeries.GetValue(innerSeries.Len() - 1)
lastValue.XValue, lastValue.YValue = innerSeries.GetValues(innerSeries.Len() - 1)
lastValue.Label = vf(lastValue.YValue)
}

View file

@ -1,6 +1,9 @@
package chart
import "github.com/wcharczuk/go-chart/drawing"
import (
"github.com/wcharczuk/go-chart/drawing"
"github.com/wcharczuk/go-chart/util"
)
// Legend returns a legend renderable function.
func Legend(c *Chart, userDefaults ...Style) Renderable {
@ -66,7 +69,7 @@ func Legend(c *Chart, userDefaults ...Style) Renderable {
}
legendContent.Bottom += tb.Height()
right := legendContent.Left + tb.Width() + lineTextGap + lineLengthMinimum
legendContent.Right = Math.MaxInt(legendContent.Right, right)
legendContent.Right = util.Math.MaxInt(legendContent.Right, right)
labelCount++
}
}
@ -161,8 +164,8 @@ func LegendThin(c *Chart, userDefaults ...Style) Renderable {
for x := 0; x < len(labels); x++ {
if len(labels[x]) > 0 {
textBox = r.MeasureText(labels[x])
textHeight = Math.MaxInt(textBox.Height(), textHeight)
textWidth = Math.MaxInt(textBox.Width(), textWidth)
textHeight = util.Math.MaxInt(textBox.Height(), textHeight)
textWidth = util.Math.MaxInt(textBox.Width(), textWidth)
}
}
@ -278,7 +281,7 @@ func LegendLeft(c *Chart, userDefaults ...Style) Renderable {
}
legendContent.Bottom += tb.Height()
right := legendContent.Left + tb.Width() + lineTextGap + lineLengthMinimum
legendContent.Right = Math.MaxInt(legendContent.Right, right)
legendContent.Right = util.Math.MaxInt(legendContent.Right, right)
labelCount++
}
}

View file

@ -1,6 +1,11 @@
package chart
import "fmt"
import (
"fmt"
"github.com/wcharczuk/go-chart/seq"
util "github.com/wcharczuk/go-chart/util"
)
// LinearRegressionSeries is a series that plots the n-nearest neighbors
// linear regression for the values.
@ -11,7 +16,7 @@ type LinearRegressionSeries struct {
Limit int
Offset int
InnerSeries ValueProvider
InnerSeries ValuesProvider
m float64
b float64
@ -36,7 +41,7 @@ func (lrs LinearRegressionSeries) GetYAxis() YAxisType {
// Len returns the number of elements in the series.
func (lrs LinearRegressionSeries) Len() int {
return Math.MinInt(lrs.GetLimit(), lrs.InnerSeries.Len()-lrs.GetOffset())
return util.Math.MinInt(lrs.GetLimit(), lrs.InnerSeries.Len()-lrs.GetOffset())
}
// GetLimit returns the window size.
@ -51,7 +56,7 @@ func (lrs LinearRegressionSeries) GetLimit() int {
func (lrs LinearRegressionSeries) GetEndIndex() int {
windowEnd := lrs.GetOffset() + lrs.GetLimit()
innerSeriesLastIndex := lrs.InnerSeries.Len() - 1
return Math.MinInt(windowEnd, innerSeriesLastIndex)
return util.Math.MinInt(windowEnd, innerSeriesLastIndex)
}
// GetOffset returns the data offset.
@ -62,8 +67,8 @@ func (lrs LinearRegressionSeries) GetOffset() int {
return lrs.Offset
}
// GetValue gets a value at a given index.
func (lrs *LinearRegressionSeries) GetValue(index int) (x, y float64) {
// GetValues gets a value at a given index.
func (lrs *LinearRegressionSeries) GetValues(index int) (x, y float64) {
if lrs.InnerSeries == nil || lrs.InnerSeries.Len() == 0 {
return
}
@ -71,14 +76,14 @@ func (lrs *LinearRegressionSeries) GetValue(index int) (x, y float64) {
lrs.computeCoefficients()
}
offset := lrs.GetOffset()
effectiveIndex := Math.MinInt(index+offset, lrs.InnerSeries.Len())
x, y = lrs.InnerSeries.GetValue(effectiveIndex)
effectiveIndex := util.Math.MinInt(index+offset, lrs.InnerSeries.Len())
x, y = lrs.InnerSeries.GetValues(effectiveIndex)
y = (lrs.m * lrs.normalize(x)) + lrs.b
return
}
// GetLastValue computes the last linear regression value.
func (lrs *LinearRegressionSeries) GetLastValue() (x, y float64) {
// GetLastValues computes the last linear regression value.
func (lrs *LinearRegressionSeries) GetLastValues() (x, y float64) {
if lrs.InnerSeries == nil || lrs.InnerSeries.Len() == 0 {
return
}
@ -86,7 +91,7 @@ func (lrs *LinearRegressionSeries) GetLastValue() (x, y float64) {
lrs.computeCoefficients()
}
endIndex := lrs.GetEndIndex()
x, y = lrs.InnerSeries.GetValue(endIndex)
x, y = lrs.InnerSeries.GetValues(endIndex)
y = (lrs.m * lrs.normalize(x)) + lrs.b
return
}
@ -102,18 +107,18 @@ func (lrs *LinearRegressionSeries) computeCoefficients() {
p := float64(endIndex - startIndex)
xvalues := NewRingBufferWithCapacity(lrs.Len())
xvalues := seq.NewBufferWithCapacity(lrs.Len())
for index := startIndex; index < endIndex; index++ {
x, _ := lrs.InnerSeries.GetValue(index)
x, _ := lrs.InnerSeries.GetValues(index)
xvalues.Enqueue(x)
}
lrs.avgx = xvalues.Average()
lrs.stddevx = xvalues.StdDev()
lrs.avgx = seq.Seq{Provider: xvalues}.Average()
lrs.stddevx = seq.Seq{Provider: xvalues}.StdDev()
var sumx, sumy, sumxx, sumxy float64
for index := startIndex; index < endIndex; index++ {
x, y := lrs.InnerSeries.GetValue(index)
x, y := lrs.InnerSeries.GetValues(index)
x = lrs.normalize(x)

View file

@ -4,6 +4,7 @@ import (
"testing"
assert "github.com/blendlabs/go-assert"
"github.com/wcharczuk/go-chart/seq"
)
func TestLinearRegressionSeries(t *testing.T) {
@ -11,19 +12,19 @@ func TestLinearRegressionSeries(t *testing.T) {
mainSeries := ContinuousSeries{
Name: "A test series",
XValues: Sequence.Float64(1.0, 100.0),
YValues: Sequence.Float64(1.0, 100.0),
XValues: seq.Range(1.0, 100.0),
YValues: seq.Range(1.0, 100.0),
}
linRegSeries := &LinearRegressionSeries{
InnerSeries: mainSeries,
}
lrx0, lry0 := linRegSeries.GetValue(0)
lrx0, lry0 := linRegSeries.GetValues(0)
assert.InDelta(1.0, lrx0, 0.0000001)
assert.InDelta(1.0, lry0, 0.0000001)
lrxn, lryn := linRegSeries.GetLastValue()
lrxn, lryn := linRegSeries.GetLastValues()
assert.InDelta(100.0, lrxn, 0.0000001)
assert.InDelta(100.0, lryn, 0.0000001)
}
@ -33,19 +34,19 @@ func TestLinearRegressionSeriesDesc(t *testing.T) {
mainSeries := ContinuousSeries{
Name: "A test series",
XValues: Sequence.Float64(100.0, 1.0),
YValues: Sequence.Float64(100.0, 1.0),
XValues: seq.Range(100.0, 1.0),
YValues: seq.Range(100.0, 1.0),
}
linRegSeries := &LinearRegressionSeries{
InnerSeries: mainSeries,
}
lrx0, lry0 := linRegSeries.GetValue(0)
lrx0, lry0 := linRegSeries.GetValues(0)
assert.InDelta(100.0, lrx0, 0.0000001)
assert.InDelta(100.0, lry0, 0.0000001)
lrxn, lryn := linRegSeries.GetLastValue()
lrxn, lryn := linRegSeries.GetLastValues()
assert.InDelta(1.0, lrxn, 0.0000001)
assert.InDelta(1.0, lryn, 0.0000001)
}
@ -55,8 +56,8 @@ func TestLinearRegressionSeriesWindowAndOffset(t *testing.T) {
mainSeries := ContinuousSeries{
Name: "A test series",
XValues: Sequence.Float64(100.0, 1.0),
YValues: Sequence.Float64(100.0, 1.0),
XValues: seq.Range(100.0, 1.0),
YValues: seq.Range(100.0, 1.0),
}
linRegSeries := &LinearRegressionSeries{
@ -67,11 +68,11 @@ func TestLinearRegressionSeriesWindowAndOffset(t *testing.T) {
assert.Equal(10, linRegSeries.Len())
lrx0, lry0 := linRegSeries.GetValue(0)
lrx0, lry0 := linRegSeries.GetValues(0)
assert.InDelta(90.0, lrx0, 0.0000001)
assert.InDelta(90.0, lry0, 0.0000001)
lrxn, lryn := linRegSeries.GetLastValue()
lrxn, lryn := linRegSeries.GetLastValues()
assert.InDelta(80.0, lrxn, 0.0000001)
assert.InDelta(80.0, lryn, 0.0000001)
}

View file

@ -17,7 +17,7 @@ type MACDSeries struct {
Name string
Style Style
YAxis YAxisType
InnerSeries ValueProvider
InnerSeries ValuesProvider
PrimaryPeriod int
SecondaryPeriod int
@ -89,8 +89,8 @@ func (macd MACDSeries) Len() int {
return macd.InnerSeries.Len()
}
// GetValue gets a value at a given index. For MACD it is the signal value.
func (macd *MACDSeries) GetValue(index int) (x float64, y float64) {
// GetValues gets a value at a given index. For MACD it is the signal value.
func (macd *MACDSeries) GetValues(index int) (x float64, y float64) {
if macd.InnerSeries == nil {
return
}
@ -99,10 +99,10 @@ func (macd *MACDSeries) GetValue(index int) (x float64, y float64) {
macd.ensureChildSeries()
}
_, lv := macd.macdl.GetValue(index)
_, sv := macd.signal.GetValue(index)
_, lv := macd.macdl.GetValues(index)
_, sv := macd.signal.GetValues(index)
x, _ = macd.InnerSeries.GetValue(index)
x, _ = macd.InnerSeries.GetValues(index)
y = lv - sv
return
@ -130,7 +130,7 @@ type MACDSignalSeries struct {
Name string
Style Style
YAxis YAxisType
InnerSeries ValueProvider
InnerSeries ValuesProvider
PrimaryPeriod int
SecondaryPeriod int
@ -191,8 +191,8 @@ func (macds *MACDSignalSeries) Len() int {
return macds.InnerSeries.Len()
}
// GetValue gets a value at a given index. For MACD it is the signal value.
func (macds *MACDSignalSeries) GetValue(index int) (x float64, y float64) {
// GetValues gets a value at a given index. For MACD it is the signal value.
func (macds *MACDSignalSeries) GetValues(index int) (x float64, y float64) {
if macds.InnerSeries == nil {
return
}
@ -200,8 +200,8 @@ func (macds *MACDSignalSeries) GetValue(index int) (x float64, y float64) {
if macds.signal == nil {
macds.ensureSignal()
}
x, _ = macds.InnerSeries.GetValue(index)
_, y = macds.signal.GetValue(index)
x, _ = macds.InnerSeries.GetValues(index)
_, y = macds.signal.GetValues(index)
return
}
@ -229,7 +229,7 @@ type MACDLineSeries struct {
Name string
Style Style
YAxis YAxisType
InnerSeries ValueProvider
InnerSeries ValuesProvider
PrimaryPeriod int
SecondaryPeriod int
@ -300,8 +300,8 @@ func (macdl *MACDLineSeries) Len() int {
return macdl.InnerSeries.Len()
}
// GetValue gets a value at a given index. For MACD it is the signal value.
func (macdl *MACDLineSeries) GetValue(index int) (x float64, y float64) {
// GetValues gets a value at a given index. For MACD it is the signal value.
func (macdl *MACDLineSeries) GetValues(index int) (x float64, y float64) {
if macdl.InnerSeries == nil {
return
}
@ -309,10 +309,10 @@ func (macdl *MACDLineSeries) GetValue(index int) (x float64, y float64) {
macdl.ensureEMASeries()
}
x, _ = macdl.InnerSeries.GetValue(index)
x, _ = macdl.InnerSeries.GetValues(index)
_, emav1 := macdl.ema1.GetValue(index)
_, emav2 := macdl.ema2.GetValue(index)
_, emav1 := macdl.ema1.GetValues(index)
_, emav2 := macdl.ema2.GetValues(index)
y = emav2 - emav1
return

View file

@ -65,7 +65,7 @@ var (
func TestMACDSeries(t *testing.T) {
assert := assert.New(t)
mockSeries := mockValueProvider{
mockSeries := mockValuesProvider{
emaXValues,
emaYValues,
}
@ -77,7 +77,7 @@ func TestMACDSeries(t *testing.T) {
var yvalues []float64
for x := 0; x < mas.Len(); x++ {
_, y := mas.GetValue(x)
_, y := mas.GetValues(x)
yvalues = append(yvalues, y)
}

View file

@ -3,6 +3,9 @@ package chart
import (
"fmt"
"time"
"github.com/wcharczuk/go-chart/seq"
"github.com/wcharczuk/go-chart/util"
)
// MarketHoursRange is a special type of range that compresses a time range into just the
@ -14,7 +17,7 @@ type MarketHoursRange struct {
MarketOpen time.Time
MarketClose time.Time
HolidayProvider HolidayProvider
HolidayProvider util.HolidayProvider
ValueFormatter ValueFormatter
@ -39,17 +42,17 @@ func (mhr MarketHoursRange) IsZero() bool {
// GetMin returns the min value.
func (mhr MarketHoursRange) GetMin() float64 {
return Time.ToFloat64(mhr.Min)
return util.Time.ToFloat64(mhr.Min)
}
// GetMax returns the max value.
func (mhr MarketHoursRange) GetMax() float64 {
return Time.ToFloat64(mhr.GetEffectiveMax())
return util.Time.ToFloat64(mhr.GetEffectiveMax())
}
// GetEffectiveMax gets either the close on the max, or the max itself.
func (mhr MarketHoursRange) GetEffectiveMax() time.Time {
maxClose := Date.On(mhr.MarketClose, mhr.Max)
maxClose := util.Date.On(mhr.MarketClose, mhr.Max)
if maxClose.After(mhr.Max) {
return maxClose
}
@ -58,13 +61,13 @@ func (mhr MarketHoursRange) GetEffectiveMax() time.Time {
// SetMin sets the min value.
func (mhr *MarketHoursRange) SetMin(min float64) {
mhr.Min = Time.FromFloat64(min)
mhr.Min = util.Time.FromFloat64(min)
mhr.Min = mhr.Min.In(mhr.GetTimezone())
}
// SetMax sets the max value.
func (mhr *MarketHoursRange) SetMax(max float64) {
mhr.Max = Time.FromFloat64(max)
mhr.Max = util.Time.FromFloat64(max)
mhr.Max = mhr.Max.In(mhr.GetTimezone())
}
@ -86,9 +89,9 @@ func (mhr *MarketHoursRange) SetDomain(domain int) {
}
// GetHolidayProvider coalesces a userprovided holiday provider and the date.DefaultHolidayProvider.
func (mhr MarketHoursRange) GetHolidayProvider() HolidayProvider {
func (mhr MarketHoursRange) GetHolidayProvider() util.HolidayProvider {
if mhr.HolidayProvider == nil {
return defaultHolidayProvider
return func(_ time.Time) bool { return false }
}
return mhr.HolidayProvider
}
@ -96,7 +99,7 @@ func (mhr MarketHoursRange) GetHolidayProvider() HolidayProvider {
// GetMarketOpen returns the market open time.
func (mhr MarketHoursRange) GetMarketOpen() time.Time {
if mhr.MarketOpen.IsZero() {
return NYSEOpen()
return util.NYSEOpen()
}
return mhr.MarketOpen
}
@ -104,7 +107,7 @@ func (mhr MarketHoursRange) GetMarketOpen() time.Time {
// GetMarketClose returns the market close time.
func (mhr MarketHoursRange) GetMarketClose() time.Time {
if mhr.MarketClose.IsZero() {
return NYSEClose()
return util.NYSEClose()
}
return mhr.MarketClose
}
@ -112,31 +115,31 @@ func (mhr MarketHoursRange) GetMarketClose() time.Time {
// GetTicks returns the ticks for the range.
// This is to override the default continous ticks that would be generated for the range.
func (mhr *MarketHoursRange) GetTicks(r Renderer, defaults Style, vf ValueFormatter) []Tick {
times := Sequence.MarketHours(mhr.Min, mhr.Max, mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.GetHolidayProvider())
times := seq.Time.MarketHours(mhr.Min, mhr.Max, mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.GetHolidayProvider())
timesWidth := mhr.measureTimes(r, defaults, vf, times)
if timesWidth <= mhr.Domain {
return mhr.makeTicks(vf, times)
}
times = Sequence.MarketHourQuarters(mhr.Min, mhr.Max, mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.GetHolidayProvider())
times = seq.Time.MarketHourQuarters(mhr.Min, mhr.Max, mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.GetHolidayProvider())
timesWidth = mhr.measureTimes(r, defaults, vf, times)
if timesWidth <= mhr.Domain {
return mhr.makeTicks(vf, times)
}
times = Sequence.MarketDayCloses(mhr.Min, mhr.Max, mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.GetHolidayProvider())
times = seq.Time.MarketDayCloses(mhr.Min, mhr.Max, mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.GetHolidayProvider())
timesWidth = mhr.measureTimes(r, defaults, vf, times)
if timesWidth <= mhr.Domain {
return mhr.makeTicks(vf, times)
}
times = Sequence.MarketDayAlternateCloses(mhr.Min, mhr.Max, mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.GetHolidayProvider())
times = seq.Time.MarketDayAlternateCloses(mhr.Min, mhr.Max, mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.GetHolidayProvider())
timesWidth = mhr.measureTimes(r, defaults, vf, times)
if timesWidth <= mhr.Domain {
return mhr.makeTicks(vf, times)
}
times = Sequence.MarketDayMondayCloses(mhr.Min, mhr.Max, mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.GetHolidayProvider())
times = seq.Time.MarketDayMondayCloses(mhr.Min, mhr.Max, mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.GetHolidayProvider())
timesWidth = mhr.measureTimes(r, defaults, vf, times)
if timesWidth <= mhr.Domain {
return mhr.makeTicks(vf, times)
@ -165,7 +168,7 @@ func (mhr *MarketHoursRange) makeTicks(vf ValueFormatter, times []time.Time) []T
ticks := make([]Tick, len(times))
for index, t := range times {
ticks[index] = Tick{
Value: Time.ToFloat64(t),
Value: util.Time.ToFloat64(t),
Label: vf(t),
}
}
@ -178,10 +181,10 @@ func (mhr MarketHoursRange) String() string {
// Translate maps a given value into the ContinuousRange space.
func (mhr MarketHoursRange) Translate(value float64) int {
valueTime := Time.FromFloat64(value)
valueTimeEastern := valueTime.In(Date.Eastern())
totalSeconds := Date.CalculateMarketSecondsBetween(mhr.Min, mhr.GetEffectiveMax(), mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.HolidayProvider)
valueDelta := Date.CalculateMarketSecondsBetween(mhr.Min, valueTimeEastern, mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.HolidayProvider)
valueTime := util.Time.FromFloat64(value)
valueTimeEastern := valueTime.In(util.Date.Eastern())
totalSeconds := util.Date.CalculateMarketSecondsBetween(mhr.Min, mhr.GetEffectiveMax(), mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.HolidayProvider)
valueDelta := util.Date.CalculateMarketSecondsBetween(mhr.Min, valueTimeEastern, mhr.GetMarketOpen(), mhr.GetMarketClose(), mhr.HolidayProvider)
translated := int((float64(valueDelta) / float64(totalSeconds)) * float64(mhr.Domain))
if mhr.IsDescending() {

View file

@ -5,17 +5,18 @@ import (
"time"
assert "github.com/blendlabs/go-assert"
"github.com/wcharczuk/go-chart/util"
)
func TestMarketHoursRangeGetDelta(t *testing.T) {
assert := assert.New(t)
r := &MarketHoursRange{
Min: time.Date(2016, 07, 19, 9, 30, 0, 0, Date.Eastern()),
Max: time.Date(2016, 07, 22, 16, 00, 0, 0, Date.Eastern()),
MarketOpen: NYSEOpen(),
MarketClose: NYSEClose(),
HolidayProvider: Date.IsNYSEHoliday,
Min: time.Date(2016, 07, 19, 9, 30, 0, 0, util.Date.Eastern()),
Max: time.Date(2016, 07, 22, 16, 00, 0, 0, util.Date.Eastern()),
MarketOpen: util.NYSEOpen(),
MarketClose: util.NYSEClose(),
HolidayProvider: util.Date.IsNYSEHoliday,
}
assert.NotZero(r.GetDelta())
@ -25,19 +26,19 @@ func TestMarketHoursRangeTranslate(t *testing.T) {
assert := assert.New(t)
r := &MarketHoursRange{
Min: time.Date(2016, 07, 18, 9, 30, 0, 0, Date.Eastern()),
Max: time.Date(2016, 07, 22, 16, 00, 0, 0, Date.Eastern()),
MarketOpen: NYSEOpen(),
MarketClose: NYSEClose(),
HolidayProvider: Date.IsNYSEHoliday,
Min: time.Date(2016, 07, 18, 9, 30, 0, 0, util.Date.Eastern()),
Max: time.Date(2016, 07, 22, 16, 00, 0, 0, util.Date.Eastern()),
MarketOpen: util.NYSEOpen(),
MarketClose: util.NYSEClose(),
HolidayProvider: util.Date.IsNYSEHoliday,
Domain: 1000,
}
weds := time.Date(2016, 07, 20, 9, 30, 0, 0, Date.Eastern())
weds := time.Date(2016, 07, 20, 9, 30, 0, 0, util.Date.Eastern())
assert.Equal(0, r.Translate(Time.ToFloat64(r.Min)))
assert.Equal(400, r.Translate(Time.ToFloat64(weds)))
assert.Equal(1000, r.Translate(Time.ToFloat64(r.Max)))
assert.Equal(0, r.Translate(util.Time.ToFloat64(r.Min)))
assert.Equal(400, r.Translate(util.Time.ToFloat64(weds)))
assert.Equal(1000, r.Translate(util.Time.ToFloat64(r.Max)))
}
func TestMarketHoursRangeGetTicks(t *testing.T) {
@ -56,17 +57,17 @@ func TestMarketHoursRangeGetTicks(t *testing.T) {
}
ra := &MarketHoursRange{
Min: Date.On(NYSEOpen(), Date.Date(2016, 07, 18, Date.Eastern())),
Max: Date.On(NYSEClose(), Date.Date(2016, 07, 22, Date.Eastern())),
MarketOpen: NYSEOpen(),
MarketClose: NYSEClose(),
HolidayProvider: Date.IsNYSEHoliday,
Min: util.Date.On(util.NYSEOpen(), util.Date.Date(2016, 07, 18, util.Date.Eastern())),
Max: util.Date.On(util.NYSEClose(), util.Date.Date(2016, 07, 22, util.Date.Eastern())),
MarketOpen: util.NYSEOpen(),
MarketClose: util.NYSEClose(),
HolidayProvider: util.Date.IsNYSEHoliday,
Domain: 1024,
}
ticks := ra.GetTicks(r, defaults, TimeValueFormatter)
assert.NotEmpty(ticks)
assert.Len(ticks, 5)
assert.NotEqual(Time.ToFloat64(ra.Min), ticks[0].Value)
assert.NotEqual(util.Time.ToFloat64(ra.Min), ticks[0].Value)
assert.NotEmpty(ticks[0].Label)
}

View file

@ -10,7 +10,7 @@ type MinSeries struct {
Name string
Style Style
YAxis YAxisType
InnerSeries ValueProvider
InnerSeries ValuesProvider
minValue *float64
}
@ -35,10 +35,10 @@ func (ms MinSeries) Len() int {
return ms.InnerSeries.Len()
}
// GetValue gets a value at a given index.
func (ms *MinSeries) GetValue(index int) (x, y float64) {
// GetValues gets a value at a given index.
func (ms *MinSeries) GetValues(index int) (x, y float64) {
ms.ensureMinValue()
x, _ = ms.InnerSeries.GetValue(index)
x, _ = ms.InnerSeries.GetValues(index)
y = *ms.minValue
return
}
@ -54,7 +54,7 @@ func (ms *MinSeries) ensureMinValue() {
minValue := math.MaxFloat64
var y float64
for x := 0; x < ms.InnerSeries.Len(); x++ {
_, y = ms.InnerSeries.GetValue(x)
_, y = ms.InnerSeries.GetValues(x)
if y < minValue {
minValue = y
}
@ -76,7 +76,7 @@ type MaxSeries struct {
Name string
Style Style
YAxis YAxisType
InnerSeries ValueProvider
InnerSeries ValuesProvider
maxValue *float64
}
@ -101,10 +101,10 @@ func (ms MaxSeries) Len() int {
return ms.InnerSeries.Len()
}
// GetValue gets a value at a given index.
func (ms *MaxSeries) GetValue(index int) (x, y float64) {
// GetValues gets a value at a given index.
func (ms *MaxSeries) GetValues(index int) (x, y float64) {
ms.ensureMaxValue()
x, _ = ms.InnerSeries.GetValue(index)
x, _ = ms.InnerSeries.GetValues(index)
y = *ms.maxValue
return
}
@ -120,7 +120,7 @@ func (ms *MaxSeries) ensureMaxValue() {
maxValue := -math.MaxFloat64
var y float64
for x := 0; x < ms.InnerSeries.Len(); x++ {
_, y = ms.InnerSeries.GetValue(x)
_, y = ms.InnerSeries.GetValues(x)
if y > maxValue {
maxValue = y
}

View file

@ -4,8 +4,15 @@ import (
"errors"
"fmt"
"io"
"math"
"github.com/golang/freetype/truetype"
"github.com/wcharczuk/go-chart/util"
)
const (
_pi2 = math.Pi / 2.0
_pi4 = math.Pi / 4.0
)
// PieChart is a chart that draws sections of a circle based on percentages.
@ -123,7 +130,7 @@ func (pc PieChart) drawTitle(r Renderer) {
func (pc PieChart) drawSlices(r Renderer, canvasBox Box, values []Value) {
cx, cy := canvasBox.Center()
diameter := Math.MinInt(canvasBox.Width(), canvasBox.Height())
diameter := util.Math.MinInt(canvasBox.Width(), canvasBox.Height())
radius := float64(diameter >> 1)
labelRadius := (radius * 2.0) / 3.0
@ -134,8 +141,8 @@ func (pc PieChart) drawSlices(r Renderer, canvasBox Box, values []Value) {
v.Style.InheritFrom(pc.stylePieChartValue(index)).WriteToRenderer(r)
r.MoveTo(cx, cy)
rads = Math.PercentToRadians(total)
delta = Math.PercentToRadians(v.Value)
rads = util.Math.PercentToRadians(total)
delta = util.Math.PercentToRadians(v.Value)
r.ArcTo(cx, cy, radius, radius, rads, delta)
@ -150,9 +157,9 @@ func (pc PieChart) drawSlices(r Renderer, canvasBox Box, values []Value) {
for index, v := range values {
v.Style.InheritFrom(pc.stylePieChartValue(index)).WriteToRenderer(r)
if len(v.Label) > 0 {
delta2 = Math.PercentToRadians(total + (v.Value / 2.0))
delta2 = Math.RadianAdd(delta2, _pi2)
lx, ly = Math.CirclePoint(cx, cy, labelRadius, delta2)
delta2 = util.Math.PercentToRadians(total + (v.Value / 2.0))
delta2 = util.Math.RadianAdd(delta2, _pi2)
lx, ly = util.Math.CirclePoint(cx, cy, labelRadius, delta2)
tb := r.MeasureText(v.Label)
lx = lx - (tb.Width() >> 1)
@ -177,7 +184,7 @@ func (pc PieChart) getDefaultCanvasBox() Box {
}
func (pc PieChart) getCircleAdjustedCanvasBox(canvasBox Box) Box {
circleDiameter := Math.MinInt(canvasBox.Width(), canvasBox.Height())
circleDiameter := util.Math.MinInt(canvasBox.Width(), canvasBox.Height())
square := Box{
Right: circleDiameter,
@ -223,7 +230,7 @@ func (pc PieChart) stylePieChartValue(index int) Style {
}
func (pc PieChart) getScaledFontSize() float64 {
effectiveDimension := Math.MinInt(pc.GetWidth(), pc.GetHeight())
effectiveDimension := util.Math.MinInt(pc.GetWidth(), pc.GetHeight())
if effectiveDimension >= 2048 {
return 48.0
} else if effectiveDimension >= 1024 {
@ -262,7 +269,7 @@ func (pc PieChart) styleDefaultsTitle() Style {
}
func (pc PieChart) getTitleFontSize() float64 {
effectiveDimension := Math.MinInt(pc.GetWidth(), pc.GetHeight())
effectiveDimension := util.Math.MinInt(pc.GetWidth(), pc.GetHeight())
if effectiveDimension >= 2048 {
return 48
} else if effectiveDimension >= 1024 {

View file

@ -5,6 +5,7 @@ import (
"math"
"github.com/wcharczuk/go-chart/matrix"
util "github.com/wcharczuk/go-chart/util"
)
// PolynomialRegressionSeries implements a polynomial regression over a given
@ -17,7 +18,7 @@ type PolynomialRegressionSeries struct {
Limit int
Offset int
Degree int
InnerSeries ValueProvider
InnerSeries ValuesProvider
coeffs []float64
}
@ -39,7 +40,7 @@ func (prs PolynomialRegressionSeries) GetYAxis() YAxisType {
// Len returns the number of elements in the series.
func (prs PolynomialRegressionSeries) Len() int {
return Math.MinInt(prs.GetLimit(), prs.InnerSeries.Len()-prs.GetOffset())
return util.Math.MinInt(prs.GetLimit(), prs.InnerSeries.Len()-prs.GetOffset())
}
// GetLimit returns the window size.
@ -54,7 +55,7 @@ func (prs PolynomialRegressionSeries) GetLimit() int {
func (prs PolynomialRegressionSeries) GetEndIndex() int {
windowEnd := prs.GetOffset() + prs.GetLimit()
innerSeriesLastIndex := prs.InnerSeries.Len() - 1
return Math.MinInt(windowEnd, innerSeriesLastIndex)
return util.Math.MinInt(windowEnd, innerSeriesLastIndex)
}
// GetOffset returns the data offset.
@ -79,8 +80,8 @@ func (prs *PolynomialRegressionSeries) Validate() error {
return nil
}
// GetValue returns the series value for a given index.
func (prs *PolynomialRegressionSeries) GetValue(index int) (x, y float64) {
// GetValues returns the series value for a given index.
func (prs *PolynomialRegressionSeries) GetValues(index int) (x, y float64) {
if prs.InnerSeries == nil || prs.InnerSeries.Len() == 0 {
return
}
@ -94,14 +95,14 @@ func (prs *PolynomialRegressionSeries) GetValue(index int) (x, y float64) {
}
offset := prs.GetOffset()
effectiveIndex := Math.MinInt(index+offset, prs.InnerSeries.Len())
x, y = prs.InnerSeries.GetValue(effectiveIndex)
effectiveIndex := util.Math.MinInt(index+offset, prs.InnerSeries.Len())
x, y = prs.InnerSeries.GetValues(effectiveIndex)
y = prs.apply(x)
return
}
// GetLastValue computes the last poly regression value.
func (prs *PolynomialRegressionSeries) GetLastValue() (x, y float64) {
// GetLastValues computes the last poly regression value.
func (prs *PolynomialRegressionSeries) GetLastValues() (x, y float64) {
if prs.InnerSeries == nil || prs.InnerSeries.Len() == 0 {
return
}
@ -113,7 +114,7 @@ func (prs *PolynomialRegressionSeries) GetLastValue() (x, y float64) {
prs.coeffs = coeffs
}
endIndex := prs.GetEndIndex()
x, y = prs.InnerSeries.GetValue(endIndex)
x, y = prs.InnerSeries.GetValues(endIndex)
y = prs.apply(x)
return
}
@ -138,7 +139,7 @@ func (prs *PolynomialRegressionSeries) values() (xvalues, yvalues []float64) {
yvalues = make([]float64, endIndex-startIndex)
for index := startIndex; index < endIndex; index++ {
x, y := prs.InnerSeries.GetValue(index)
x, y := prs.InnerSeries.GetValues(index)
xvalues[index-startIndex] = x
yvalues[index-startIndex] = y
}

View file

@ -29,7 +29,7 @@ func TestPolynomialRegression(t *testing.T) {
}
for i := 0; i < 100; i++ {
_, y := poly.GetValue(i)
_, y := poly.GetValues(i)
assert.InDelta(float64(i*i), y, matrix.DefaultEpsilon)
}
}

View file

@ -6,6 +6,7 @@ import (
"io"
"math"
util "github.com/blendlabs/go-util"
"github.com/golang/freetype/truetype"
"github.com/wcharczuk/go-chart/drawing"
)
@ -191,7 +192,7 @@ func (rr *rasterRenderer) MeasureText(body string) Box {
return textBox
}
return textBox.Corners().Rotate(Math.RadiansToDegrees(*rr.rotateRadians)).Box()
return textBox.Corners().Rotate(util.Math.RadiansToDegrees(*rr.rotateRadians)).Box()
}
// SetTextRotation sets a text rotation.

View file

@ -1,252 +0,0 @@
package chart
import (
"fmt"
"math"
"strings"
)
const (
ringBufferMinimumGrow = 4
ringBufferShrinkThreshold = 32
ringBufferGrowFactor = 200
ringBufferDefaultCapacity = 4
)
var (
emptyArray = make([]interface{}, 0)
)
// NewRingBuffer creates a new, empty, RingBuffer.
func NewRingBuffer() *RingBuffer {
return &RingBuffer{
array: make([]interface{}, ringBufferDefaultCapacity),
head: 0,
tail: 0,
size: 0,
}
}
// NewRingBufferWithCapacity creates a new RingBuffer pre-allocated with the given capacity.
func NewRingBufferWithCapacity(capacity int) *RingBuffer {
return &RingBuffer{
array: make([]interface{}, capacity),
head: 0,
tail: 0,
size: 0,
}
}
// NewRingBufferFromSlice createsa ring buffer out of a slice.
func NewRingBufferFromSlice(values []interface{}) *RingBuffer {
return &RingBuffer{
array: values,
head: 0,
tail: len(values) - 1,
size: len(values),
}
}
// RingBuffer is a fifo buffer that is backed by a pre-allocated array, instead of allocating
// a whole new node object for each element (which saves GC churn).
// Enqueue can be O(n), Dequeue can be O(1).
type RingBuffer struct {
array []interface{}
head int
tail int
size int
}
// Len returns the length of the ring buffer (as it is currently populated).
// Actual memory footprint may be different.
func (rb *RingBuffer) Len() int {
return rb.size
}
// TotalLen returns the total size of the ring bufffer, including empty elements.
func (rb *RingBuffer) TotalLen() int {
return len(rb.array)
}
// Clear removes all objects from the RingBuffer.
func (rb *RingBuffer) Clear() {
if rb.head < rb.tail {
arrayClear(rb.array, rb.head, rb.size)
} else {
arrayClear(rb.array, rb.head, len(rb.array)-rb.head)
arrayClear(rb.array, 0, rb.tail)
}
rb.head = 0
rb.tail = 0
rb.size = 0
}
// Enqueue adds an element to the "back" of the RingBuffer.
func (rb *RingBuffer) Enqueue(object interface{}) {
if rb.size == len(rb.array) {
newCapacity := int(len(rb.array) * int(ringBufferGrowFactor/100))
if newCapacity < (len(rb.array) + ringBufferMinimumGrow) {
newCapacity = len(rb.array) + ringBufferMinimumGrow
}
rb.setCapacity(newCapacity)
}
rb.array[rb.tail] = object
rb.tail = (rb.tail + 1) % len(rb.array)
rb.size++
}
// Dequeue removes the first element from the RingBuffer.
func (rb *RingBuffer) Dequeue() interface{} {
if rb.size == 0 {
return nil
}
removed := rb.array[rb.head]
rb.head = (rb.head + 1) % len(rb.array)
rb.size--
return removed
}
// Peek returns but does not remove the first element.
func (rb *RingBuffer) Peek() interface{} {
if rb.size == 0 {
return nil
}
return rb.array[rb.head]
}
// PeekBack returns but does not remove the last element.
func (rb *RingBuffer) PeekBack() interface{} {
if rb.size == 0 {
return nil
}
if rb.tail == 0 {
return rb.array[len(rb.array)-1]
}
return rb.array[rb.tail-1]
}
func (rb *RingBuffer) setCapacity(capacity int) {
newArray := make([]interface{}, capacity)
if rb.size > 0 {
if rb.head < rb.tail {
arrayCopy(rb.array, rb.head, newArray, 0, rb.size)
} else {
arrayCopy(rb.array, rb.head, newArray, 0, len(rb.array)-rb.head)
arrayCopy(rb.array, 0, newArray, len(rb.array)-rb.head, rb.tail)
}
}
rb.array = newArray
rb.head = 0
if rb.size == capacity {
rb.tail = 0
} else {
rb.tail = rb.size
}
}
// TrimExcess resizes the buffer to better fit the contents.
func (rb *RingBuffer) TrimExcess() {
threshold := float64(len(rb.array)) * 0.9
if rb.size < int(threshold) {
rb.setCapacity(rb.size)
}
}
// AsSlice returns the ring buffer, in order, as a slice.
func (rb *RingBuffer) AsSlice() []interface{} {
newArray := make([]interface{}, rb.size)
if rb.size == 0 {
return newArray
}
if rb.head < rb.tail {
arrayCopy(rb.array, rb.head, newArray, 0, rb.size)
} else {
arrayCopy(rb.array, rb.head, newArray, 0, len(rb.array)-rb.head)
arrayCopy(rb.array, 0, newArray, len(rb.array)-rb.head, rb.tail)
}
return newArray
}
// Each calls the consumer for each element in the buffer.
func (rb *RingBuffer) Each(consumer func(value interface{})) {
if rb.size == 0 {
return
}
if rb.head < rb.tail {
for cursor := rb.head; cursor < rb.tail; cursor++ {
consumer(rb.array[cursor])
}
} else {
for cursor := rb.head; cursor < len(rb.array); cursor++ {
consumer(rb.array[cursor])
}
for cursor := 0; cursor < rb.tail; cursor++ {
consumer(rb.array[cursor])
}
}
}
func (rb *RingBuffer) String() string {
var values []string
for _, elem := range rb.AsSlice() {
values = append(values, fmt.Sprintf("%v", elem))
}
return strings.Join(values, " <= ")
}
// Average returns the float average of the values in the buffer.
func (rb *RingBuffer) Average() float64 {
var accum float64
rb.Each(func(v interface{}) {
if typed, isTyped := v.(float64); isTyped {
accum += typed
}
})
return accum / float64(rb.Len())
}
// Variance computes the variance of the buffer.
func (rb *RingBuffer) Variance() float64 {
if rb.Len() == 0 {
return 0
}
var variance float64
m := rb.Average()
rb.Each(func(v interface{}) {
if n, isTyped := v.(float64); isTyped {
variance += (float64(n) - m) * (float64(n) - m)
}
})
return variance / float64(rb.Len())
}
// StdDev returns the standard deviation.
func (rb *RingBuffer) StdDev() float64 {
return math.Pow(rb.Variance(), 0.5)
}
func arrayClear(source []interface{}, index, length int) {
for x := 0; x < length; x++ {
absoluteIndex := x + index
source[absoluteIndex] = nil
}
}
func arrayCopy(source []interface{}, sourceIndex int, destination []interface{}, destinationIndex, length int) {
for x := 0; x < length; x++ {
from := sourceIndex + x
to := destinationIndex + x
destination[to] = source[from]
}
}

File diff suppressed because one or more lines are too long

19
seq/array.go Normal file
View file

@ -0,0 +1,19 @@
package seq
// NewArray creates a new array.
func NewArray(values ...float64) Array {
return Array(values)
}
// Array is a wrapper for an array of floats that implements `ValuesProvider`.
type Array []float64
// Len returns the value provider length.
func (a Array) Len() int {
return len(a)
}
// GetValue returns the value at a given index.
func (a Array) GetValue(index int) float64 {
return a[index]
}

226
seq/buffer.go Normal file
View file

@ -0,0 +1,226 @@
package seq
import (
"fmt"
"strings"
util "github.com/wcharczuk/go-chart/util"
)
const (
bufferMinimumGrow = 4
bufferShrinkThreshold = 32
bufferGrowFactor = 200
bufferDefaultCapacity = 4
)
var (
emptyArray = make([]float64, 0)
)
// NewBuffer creates a new value buffer with an optional set of values.
func NewBuffer(values ...float64) *Buffer {
var tail int
array := make([]float64, util.Math.MaxInt(len(values), bufferDefaultCapacity))
if len(values) > 0 {
copy(array, values)
tail = len(values)
}
return &Buffer{
array: array,
head: 0,
tail: tail,
size: len(values),
}
}
// NewBufferWithCapacity creates a new ValueBuffer pre-allocated with the given capacity.
func NewBufferWithCapacity(capacity int) *Buffer {
return &Buffer{
array: make([]float64, capacity),
head: 0,
tail: 0,
size: 0,
}
}
// Buffer is a fifo datastructure that is backed by a pre-allocated array.
// Instead of allocating a whole new node object for each element, array elements are re-used (which saves GC churn).
// Enqueue can be O(n), Dequeue is generally O(1).
// Buffer implements `seq.Provider`
type Buffer struct {
array []float64
head int
tail int
size int
}
// Len returns the length of the Buffer (as it is currently populated).
// Actual memory footprint may be different.
func (b *Buffer) Len() int {
return b.size
}
// GetValue implements seq provider.
func (b *Buffer) GetValue(index int) float64 {
effectiveIndex := (b.head + index) % len(b.array)
return b.array[effectiveIndex]
}
// Capacity returns the total size of the Buffer, including empty elements.
func (b *Buffer) Capacity() int {
return len(b.array)
}
// SetCapacity sets the capacity of the Buffer.
func (b *Buffer) SetCapacity(capacity int) {
newArray := make([]float64, capacity)
if b.size > 0 {
if b.head < b.tail {
arrayCopy(b.array, b.head, newArray, 0, b.size)
} else {
arrayCopy(b.array, b.head, newArray, 0, len(b.array)-b.head)
arrayCopy(b.array, 0, newArray, len(b.array)-b.head, b.tail)
}
}
b.array = newArray
b.head = 0
if b.size == capacity {
b.tail = 0
} else {
b.tail = b.size
}
}
// Clear removes all objects from the Buffer.
func (b *Buffer) Clear() {
b.array = make([]float64, bufferDefaultCapacity)
b.head = 0
b.tail = 0
b.size = 0
}
// Enqueue adds an element to the "back" of the Buffer.
func (b *Buffer) Enqueue(value float64) {
if b.size == len(b.array) {
newCapacity := int(len(b.array) * int(bufferGrowFactor/100))
if newCapacity < (len(b.array) + bufferMinimumGrow) {
newCapacity = len(b.array) + bufferMinimumGrow
}
b.SetCapacity(newCapacity)
}
b.array[b.tail] = value
b.tail = (b.tail + 1) % len(b.array)
b.size++
}
// Dequeue removes the first element from the RingBuffer.
func (b *Buffer) Dequeue() float64 {
if b.size == 0 {
return 0
}
removed := b.array[b.head]
b.head = (b.head + 1) % len(b.array)
b.size--
return removed
}
// Peek returns but does not remove the first element.
func (b *Buffer) Peek() float64 {
if b.size == 0 {
return 0
}
return b.array[b.head]
}
// PeekBack returns but does not remove the last element.
func (b *Buffer) PeekBack() float64 {
if b.size == 0 {
return 0
}
if b.tail == 0 {
return b.array[len(b.array)-1]
}
return b.array[b.tail-1]
}
// TrimExcess resizes the capacity of the buffer to better fit the contents.
func (b *Buffer) TrimExcess() {
threshold := float64(len(b.array)) * 0.9
if b.size < int(threshold) {
b.SetCapacity(b.size)
}
}
// Array returns the ring buffer, in order, as an array.
func (b *Buffer) Array() Array {
newArray := make([]float64, b.size)
if b.size == 0 {
return newArray
}
if b.head < b.tail {
arrayCopy(b.array, b.head, newArray, 0, b.size)
} else {
arrayCopy(b.array, b.head, newArray, 0, len(b.array)-b.head)
arrayCopy(b.array, 0, newArray, len(b.array)-b.head, b.tail)
}
return Array(newArray)
}
// Each calls the consumer for each element in the buffer.
func (b *Buffer) Each(mapfn func(int, float64)) {
if b.size == 0 {
return
}
var index int
if b.head < b.tail {
for cursor := b.head; cursor < b.tail; cursor++ {
mapfn(index, b.array[cursor])
index++
}
} else {
for cursor := b.head; cursor < len(b.array); cursor++ {
mapfn(index, b.array[cursor])
index++
}
for cursor := 0; cursor < b.tail; cursor++ {
mapfn(index, b.array[cursor])
index++
}
}
}
// String returns a string representation for value buffers.
func (b *Buffer) String() string {
var values []string
for _, elem := range b.Array() {
values = append(values, fmt.Sprintf("%v", elem))
}
return strings.Join(values, " <= ")
}
// --------------------------------------------------------------------------------
// Util methods
// --------------------------------------------------------------------------------
func arrayClear(source []float64, index, length int) {
for x := 0; x < length; x++ {
absoluteIndex := x + index
source[absoluteIndex] = 0
}
}
func arrayCopy(source []float64, sourceIndex int, destination []float64, destinationIndex, length int) {
for x := 0; x < length; x++ {
from := sourceIndex + x
to := destinationIndex + x
destination[to] = source[from]
}
}

View file

@ -1,4 +1,4 @@
package chart
package seq
import (
"testing"
@ -6,10 +6,10 @@ import (
"github.com/blendlabs/go-assert"
)
func TestRingBuffer(t *testing.T) {
func TestBuffer(t *testing.T) {
assert := assert.New(t)
buffer := NewRingBuffer()
buffer := NewBuffer()
buffer.Enqueue(1)
assert.Equal(1, buffer.Len())
@ -96,14 +96,14 @@ func TestRingBuffer(t *testing.T) {
value = buffer.Dequeue()
assert.Equal(8, value)
assert.Equal(0, buffer.Len())
assert.Nil(buffer.Peek())
assert.Nil(buffer.PeekBack())
assert.Zero(buffer.Peek())
assert.Zero(buffer.PeekBack())
}
func TestRingBufferClear(t *testing.T) {
func TestBufferClear(t *testing.T) {
assert := assert.New(t)
buffer := NewRingBuffer()
buffer := NewBuffer()
buffer.Enqueue(1)
buffer.Enqueue(1)
buffer.Enqueue(1)
@ -117,21 +117,21 @@ func TestRingBufferClear(t *testing.T) {
buffer.Clear()
assert.Equal(0, buffer.Len())
assert.Nil(buffer.Peek())
assert.Nil(buffer.PeekBack())
assert.Zero(buffer.Peek())
assert.Zero(buffer.PeekBack())
}
func TestRingBufferAsSlice(t *testing.T) {
func TestBufferArray(t *testing.T) {
assert := assert.New(t)
buffer := NewRingBuffer()
buffer := NewBuffer()
buffer.Enqueue(1)
buffer.Enqueue(2)
buffer.Enqueue(3)
buffer.Enqueue(4)
buffer.Enqueue(5)
contents := buffer.AsSlice()
contents := buffer.Array()
assert.Len(contents, 5)
assert.Equal(1, contents[0])
assert.Equal(2, contents[1])
@ -140,23 +140,53 @@ func TestRingBufferAsSlice(t *testing.T) {
assert.Equal(5, contents[4])
}
func TestRingBufferEach(t *testing.T) {
func TestBufferEach(t *testing.T) {
assert := assert.New(t)
buffer := NewRingBuffer()
buffer := NewBuffer()
for x := 1; x < 17; x++ {
buffer.Enqueue(x)
buffer.Enqueue(float64(x))
}
called := 0
buffer.Each(func(v interface{}) {
if typed, isTyped := v.(int); isTyped {
if typed == (called + 1) {
buffer.Each(func(_ int, v float64) {
if v == float64(called+1) {
called++
}
}
})
assert.Equal(16, called)
}
func TestNewBuffer(t *testing.T) {
assert := assert.New(t)
empty := NewBuffer()
assert.NotNil(empty)
assert.Zero(empty.Len())
assert.Equal(bufferDefaultCapacity, empty.Capacity())
assert.Zero(empty.Peek())
assert.Zero(empty.PeekBack())
}
func TestNewBufferWithValues(t *testing.T) {
assert := assert.New(t)
values := NewBuffer(1, 2, 3, 4, 5)
assert.NotNil(values)
assert.Equal(5, values.Len())
assert.Equal(1, values.Peek())
assert.Equal(5, values.PeekBack())
}
func TestBufferGrowth(t *testing.T) {
assert := assert.New(t)
values := NewBuffer(1, 2, 3, 4, 5)
for i := 0; i < 1<<10; i++ {
values.Enqueue(float64(i))
}
assert.Equal(1<<10-1, values.PeekBack())
}

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package seq
// Range returns the array values of a linear seq with a given start, end and optional step.
func Range(start, end float64) []float64 {
return Seq{NewLinear().WithStart(start).WithEnd(end).WithStep(1.0)}.Array()
}
// RangeWithStep returns the array values of a linear seq with a given start, end and optional step.
func RangeWithStep(start, end, step float64) []float64 {
return Seq{NewLinear().WithStart(start).WithEnd(end).WithStep(step)}.Array()
}
// NewLinear returns a new linear generator.
func NewLinear() *Linear {
return &Linear{step: 1.0}
}
// Linear is a stepwise generator.
type Linear struct {
start float64
end float64
step float64
}
// Start returns the start value.
func (lg Linear) Start() float64 {
return lg.start
}
// End returns the end value.
func (lg Linear) End() float64 {
return lg.end
}
// Step returns the step value.
func (lg Linear) Step() float64 {
return lg.step
}
// Len returns the number of elements in the seq.
func (lg Linear) Len() int {
if lg.start < lg.end {
return int((lg.end-lg.start)/lg.step) + 1
}
return int((lg.start-lg.end)/lg.step) + 1
}
// GetValue returns the value at a given index.
func (lg Linear) GetValue(index int) float64 {
fi := float64(index)
if lg.start < lg.end {
return lg.start + (fi * lg.step)
}
return lg.start - (fi * lg.step)
}
// WithStart sets the start and returns the linear generator.
func (lg *Linear) WithStart(start float64) *Linear {
lg.start = start
return lg
}
// WithEnd sets the end and returns the linear generator.
func (lg *Linear) WithEnd(end float64) *Linear {
lg.end = end
return lg
}
// WithStep sets the step and returns the linear generator.
func (lg *Linear) WithStep(step float64) *Linear {
lg.step = step
return lg
}

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package seq
import (
"testing"
assert "github.com/blendlabs/go-assert"
)
func TestRange(t *testing.T) {
assert := assert.New(t)
values := Range(1, 100)
assert.Len(values, 100)
assert.Equal(1, values[0])
assert.Equal(100, values[99])
}
func TestRangeWithStep(t *testing.T) {
assert := assert.New(t)
values := RangeWithStep(0, 100, 5)
assert.Equal(100, values[20])
assert.Len(values, 21)
}
func TestRangeReversed(t *testing.T) {
assert := assert.New(t)
values := Range(10.0, 1.0)
assert.Equal(10, len(values))
assert.Equal(10.0, values[0])
assert.Equal(1.0, values[9])
}
func TestValuesRegression(t *testing.T) {
assert := assert.New(t)
// note; this assumes a 1.0 step is implicitly set in the constructor.
linearProvider := NewLinear().WithStart(1.0).WithEnd(100.0)
assert.Equal(1, linearProvider.Start())
assert.Equal(100, linearProvider.End())
assert.Equal(100, linearProvider.Len())
values := Seq{Provider: linearProvider}.Array()
assert.Len(values, 100)
assert.Equal(1.0, values[0])
assert.Equal(100, values[99])
}

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package seq
import (
"math"
"math/rand"
"time"
)
// RandomValues returns an array of random values.
func RandomValues(count int) []float64 {
return Seq{NewRandom().WithLen(count)}.Array()
}
// RandomValuesWithAverage returns an array of random values with a given average.
func RandomValuesWithMax(count int, max float64) []float64 {
return Seq{NewRandom().WithMax(max).WithLen(count)}.Array()
}
// NewRandom creates a new random seq.
func NewRandom() *Random {
return &Random{
rnd: rand.New(rand.NewSource(time.Now().Unix())),
}
}
// Random is a random number seq generator.
type Random struct {
rnd *rand.Rand
max *float64
min *float64
len *int
}
// Len returns the number of elements that will be generated.
func (r *Random) Len() int {
if r.len != nil {
return *r.len
}
return math.MaxInt32
}
// GetValue returns the value.
func (r *Random) GetValue(_ int) float64 {
if r.min != nil && r.max != nil {
var delta float64
if *r.max > *r.min {
delta = *r.max - *r.min
} else {
delta = *r.min - *r.max
}
return *r.min + (r.rnd.Float64() * delta)
} else if r.max != nil {
return r.rnd.Float64() * *r.max
} else if r.min != nil {
return *r.min + (r.rnd.Float64())
}
return r.rnd.Float64()
}
// WithLen sets a maximum len
func (r *Random) WithLen(length int) *Random {
r.len = &length
return r
}
// Min returns the minimum value.
func (r Random) Min() *float64 {
return r.min
}
// WithMin sets the scale and returns the Random.
func (r *Random) WithMin(min float64) *Random {
r.min = &min
return r
}
// Max returns the maximum value.
func (r Random) Max() *float64 {
return r.max
}
// WithMax sets the average and returns the Random.
func (r *Random) WithMax(max float64) *Random {
r.max = &max
return r
}

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package seq
import (
"testing"
assert "github.com/blendlabs/go-assert"
)
func TestRandomRegression(t *testing.T) {
assert := assert.New(t)
randomProvider := NewRandom().WithLen(4096).WithMax(256)
assert.Equal(4096, randomProvider.Len())
assert.Equal(256, *randomProvider.Max())
randomSequence := New(randomProvider)
randomValues := randomSequence.Array()
assert.Len(randomValues, 4096)
assert.InDelta(128, randomSequence.Average(), 10.0)
}

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package seq
import (
"math"
"sort"
)
// New wraps a provider with a seq.
func New(provider Provider) Seq {
return Seq{Provider: provider}
}
// Values returns a new seq composed of a given set of values.
func Values(values ...float64) Seq {
return Seq{Provider: Array(values)}
}
// Provider is a provider for values for a seq.
type Provider interface {
Len() int
GetValue(int) float64
}
// Seq is a utility wrapper for seq providers.
type Seq struct {
Provider
}
// Array enumerates the seq into a slice.
func (s Seq) Array() (output []float64) {
if s.Len() == 0 {
return
}
output = make([]float64, s.Len())
for i := 0; i < s.Len(); i++ {
output[i] = s.GetValue(i)
}
return
}
// Each applies the `mapfn` to all values in the value provider.
func (s Seq) Each(mapfn func(int, float64)) {
for i := 0; i < s.Len(); i++ {
mapfn(i, s.GetValue(i))
}
}
// Map applies the `mapfn` to all values in the value provider,
// returning a new seq.
func (s Seq) Map(mapfn func(i int, v float64) float64) Seq {
output := make([]float64, s.Len())
for i := 0; i < s.Len(); i++ {
mapfn(i, s.GetValue(i))
}
return Seq{Array(output)}
}
// FoldLeft collapses a seq from left to right.
func (s Seq) FoldLeft(mapfn func(i int, v0, v float64) float64) (v0 float64) {
if s.Len() == 0 {
return 0
}
if s.Len() == 1 {
return s.GetValue(0)
}
v0 = s.GetValue(0)
for i := 1; i < s.Len(); i++ {
v0 = mapfn(i, v0, s.GetValue(i))
}
return
}
// FoldRight collapses a seq from right to left.
func (s Seq) FoldRight(mapfn func(i int, v0, v float64) float64) (v0 float64) {
if s.Len() == 0 {
return 0
}
if s.Len() == 1 {
return s.GetValue(0)
}
v0 = s.GetValue(s.Len() - 1)
for i := s.Len() - 2; i >= 0; i-- {
v0 = mapfn(i, v0, s.GetValue(i))
}
return
}
// Min returns the minimum value in the seq.
func (s Seq) Min() float64 {
if s.Len() == 0 {
return 0
}
min := s.GetValue(0)
var value float64
for i := 1; i < s.Len(); i++ {
value = s.GetValue(i)
if value < min {
min = value
}
}
return min
}
// Max returns the maximum value in the seq.
func (s Seq) Max() float64 {
if s.Len() == 0 {
return 0
}
max := s.GetValue(0)
var value float64
for i := 1; i < s.Len(); i++ {
value = s.GetValue(i)
if value > max {
max = value
}
}
return max
}
// MinMax returns the minimum and the maximum in one pass.
func (s Seq) MinMax() (min, max float64) {
if s.Len() == 0 {
return
}
min = s.GetValue(0)
max = min
var value float64
for i := 1; i < s.Len(); i++ {
value = s.GetValue(i)
if value < min {
min = value
}
if value > max {
max = value
}
}
return
}
// Sort returns the seq sorted in ascending order.
// This fully enumerates the seq.
func (s Seq) Sort() Seq {
if s.Len() == 0 {
return s
}
values := s.Array()
sort.Float64s(values)
return Seq{Provider: Array(values)}
}
// Median returns the median or middle value in the sorted seq.
func (s Seq) Median() (median float64) {
l := s.Len()
if l == 0 {
return
}
sorted := s.Sort()
if l%2 == 0 {
v0 := sorted.GetValue(l/2 - 1)
v1 := sorted.GetValue(l/2 + 1)
median = (v0 + v1) / 2
} else {
median = float64(sorted.GetValue(l << 1))
}
return
}
// Sum adds all the elements of a series together.
func (s Seq) Sum() (accum float64) {
if s.Len() == 0 {
return 0
}
for i := 0; i < s.Len(); i++ {
accum += s.GetValue(i)
}
return
}
// Average returns the float average of the values in the buffer.
func (s Seq) Average() float64 {
if s.Len() == 0 {
return 0
}
return s.Sum() / float64(s.Len())
}
// Variance computes the variance of the buffer.
func (s Seq) Variance() float64 {
if s.Len() == 0 {
return 0
}
m := s.Average()
var variance, v float64
for i := 0; i < s.Len(); i++ {
v = s.GetValue(i)
variance += (v - m) * (v - m)
}
return variance / float64(s.Len())
}
// StdDev returns the standard deviation.
func (s Seq) StdDev() float64 {
if s.Len() == 0 {
return 0
}
return math.Pow(s.Variance(), 0.5)
}
//Percentile finds the relative standing in a slice of floats.
// `percent` should be given on the interval [0,1.0).
func (s Seq) Percentile(percent float64) (percentile float64) {
l := s.Len()
if l == 0 {
return 0
}
if percent < 0 || percent > 1.0 {
panic("percent out of range [0.0, 1.0)")
}
sorted := s.Sort()
index := percent * float64(l)
if index == float64(int64(index)) {
i := f64i(index)
ci := sorted.GetValue(i - 1)
c := sorted.GetValue(i)
percentile = (ci + c) / 2.0
} else {
i := f64i(index)
percentile = sorted.GetValue(i)
}
return percentile
}
// Normalize maps every value to the interval [0, 1.0].
func (s Seq) Normalize() Seq {
min, max := s.MinMax()
delta := max - min
output := make([]float64, s.Len())
for i := 0; i < s.Len(); i++ {
output[i] = (s.GetValue(i) - min) / delta
}
return Seq{Provider: Array(output)}
}

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package seq
import (
"testing"
assert "github.com/blendlabs/go-assert"
)
func TestSequenceEach(t *testing.T) {
assert := assert.New(t)
values := Seq{NewArray(1, 2, 3, 4)}
values.Each(func(i int, v float64) {
assert.Equal(i, v-1)
})
}
func TestSequenceMap(t *testing.T) {
assert := assert.New(t)
values := Seq{NewArray(1, 2, 3, 4)}
mapped := values.Map(func(i int, v float64) float64 {
assert.Equal(i, v-1)
return v * 2
})
assert.Equal(4, mapped.Len())
}
func TestSequenceFoldLeft(t *testing.T) {
assert := assert.New(t)
values := Seq{NewArray(1, 2, 3, 4)}
ten := values.FoldLeft(func(_ int, vp, v float64) float64 {
return vp + v
})
assert.Equal(10, ten)
orderTest := Seq{NewArray(10, 3, 2, 1)}
four := orderTest.FoldLeft(func(_ int, vp, v float64) float64 {
return vp - v
})
assert.Equal(4, four)
}
func TestSequenceFoldRight(t *testing.T) {
assert := assert.New(t)
values := Seq{NewArray(1, 2, 3, 4)}
ten := values.FoldRight(func(_ int, vp, v float64) float64 {
return vp + v
})
assert.Equal(10, ten)
orderTest := Seq{NewArray(10, 3, 2, 1)}
notFour := orderTest.FoldRight(func(_ int, vp, v float64) float64 {
return vp - v
})
assert.Equal(-14, notFour)
}
func TestSequenceSum(t *testing.T) {
assert := assert.New(t)
values := Seq{NewArray(1, 2, 3, 4)}
assert.Equal(10, values.Sum())
}
func TestSequenceAverage(t *testing.T) {
assert := assert.New(t)
values := Seq{NewArray(1, 2, 3, 4)}
assert.Equal(2.5, values.Average())
valuesOdd := Seq{NewArray(1, 2, 3, 4, 5)}
assert.Equal(3, valuesOdd.Average())
}
func TestSequenceVariance(t *testing.T) {
assert := assert.New(t)
values := Seq{NewArray(1, 2, 3, 4, 5)}
assert.Equal(2, values.Variance())
}
func TestSequenceNormalize(t *testing.T) {
assert := assert.New(t)
normalized := Values(1, 2, 3, 4, 5).Normalize().Array()
assert.NotEmpty(normalized)
assert.Len(normalized, 5)
assert.Equal(0, normalized[0])
assert.Equal(0.25, normalized[1])
assert.Equal(1, normalized[4])
}

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package seq
import (
"time"
"github.com/wcharczuk/go-chart/util"
)
// Time is a utility singleton with helper functions for time seq generation.
var Time timeSequence
type timeSequence struct{}
// Days generates a seq of timestamps by day, from -days to today.
func (ts timeSequence) Days(days int) []time.Time {
var values []time.Time
for day := days; day >= 0; day-- {
values = append(values, time.Now().AddDate(0, 0, -day))
}
return values
}
func (ts timeSequence) MarketHours(from, to time.Time, marketOpen, marketClose time.Time, isHoliday util.HolidayProvider) []time.Time {
var times []time.Time
cursor := util.Date.On(marketOpen, from)
toClose := util.Date.On(marketClose, to)
for cursor.Before(toClose) || cursor.Equal(toClose) {
todayOpen := util.Date.On(marketOpen, cursor)
todayClose := util.Date.On(marketClose, cursor)
isValidTradingDay := !isHoliday(cursor) && util.Date.IsWeekDay(cursor.Weekday())
if (cursor.Equal(todayOpen) || cursor.After(todayOpen)) && (cursor.Equal(todayClose) || cursor.Before(todayClose)) && isValidTradingDay {
times = append(times, cursor)
}
if cursor.After(todayClose) {
cursor = util.Date.NextMarketOpen(cursor, marketOpen, isHoliday)
} else {
cursor = util.Date.NextHour(cursor)
}
}
return times
}
func (ts timeSequence) MarketHourQuarters(from, to time.Time, marketOpen, marketClose time.Time, isHoliday util.HolidayProvider) []time.Time {
var times []time.Time
cursor := util.Date.On(marketOpen, from)
toClose := util.Date.On(marketClose, to)
for cursor.Before(toClose) || cursor.Equal(toClose) {
isValidTradingDay := !isHoliday(cursor) && util.Date.IsWeekDay(cursor.Weekday())
if isValidTradingDay {
todayOpen := util.Date.On(marketOpen, cursor)
todayNoon := util.Date.NoonOn(cursor)
today2pm := util.Date.On(util.Date.Time(14, 0, 0, 0, cursor.Location()), cursor)
todayClose := util.Date.On(marketClose, cursor)
times = append(times, todayOpen, todayNoon, today2pm, todayClose)
}
cursor = util.Date.NextDay(cursor)
}
return times
}
func (ts timeSequence) MarketDayCloses(from, to time.Time, marketOpen, marketClose time.Time, isHoliday util.HolidayProvider) []time.Time {
var times []time.Time
cursor := util.Date.On(marketOpen, from)
toClose := util.Date.On(marketClose, to)
for cursor.Before(toClose) || cursor.Equal(toClose) {
isValidTradingDay := !isHoliday(cursor) && util.Date.IsWeekDay(cursor.Weekday())
if isValidTradingDay {
todayClose := util.Date.On(marketClose, cursor)
times = append(times, todayClose)
}
cursor = util.Date.NextDay(cursor)
}
return times
}
func (ts timeSequence) MarketDayAlternateCloses(from, to time.Time, marketOpen, marketClose time.Time, isHoliday util.HolidayProvider) []time.Time {
var times []time.Time
cursor := util.Date.On(marketOpen, from)
toClose := util.Date.On(marketClose, to)
for cursor.Before(toClose) || cursor.Equal(toClose) {
isValidTradingDay := !isHoliday(cursor) && util.Date.IsWeekDay(cursor.Weekday())
if isValidTradingDay {
todayClose := util.Date.On(marketClose, cursor)
times = append(times, todayClose)
}
cursor = cursor.AddDate(0, 0, 2)
}
return times
}
func (ts timeSequence) MarketDayMondayCloses(from, to time.Time, marketOpen, marketClose time.Time, isHoliday util.HolidayProvider) []time.Time {
var times []time.Time
cursor := util.Date.On(marketClose, from)
toClose := util.Date.On(marketClose, to)
for cursor.Equal(toClose) || cursor.Before(toClose) {
isValidTradingDay := !isHoliday(cursor) && util.Date.IsWeekDay(cursor.Weekday())
if isValidTradingDay {
times = append(times, cursor)
}
cursor = util.Date.NextDayOfWeek(cursor, time.Monday)
}
return times
}
func (ts timeSequence) Hours(start time.Time, totalHours int) []time.Time {
times := make([]time.Time, totalHours)
last := start
for i := 0; i < totalHours; i++ {
times[i] = last
last = last.Add(time.Hour)
}
return times
}
// HoursFilled adds zero values for the data bounded by the start and end of the xdata array.
func (ts timeSequence) HoursFilled(xdata []time.Time, ydata []float64) ([]time.Time, []float64) {
start := Time.Start(xdata)
end := Time.End(xdata)
totalHours := util.Math.AbsInt(util.Date.DiffHours(start, end))
finalTimes := ts.Hours(start, totalHours+1)
finalValues := make([]float64, totalHours+1)
var hoursFromStart int
for i, xd := range xdata {
hoursFromStart = util.Date.DiffHours(start, xd)
finalValues[hoursFromStart] = ydata[i]
}
return finalTimes, finalValues
}
// Start returns the earliest (min) time in a list of times.
func (ts timeSequence) Start(times []time.Time) time.Time {
if len(times) == 0 {
return time.Time{}
}
start := times[0]
for _, t := range times[1:] {
if t.Before(start) {
start = t
}
}
return start
}
// Start returns the earliest (min) time in a list of times.
func (ts timeSequence) End(times []time.Time) time.Time {
if len(times) == 0 {
return time.Time{}
}
end := times[0]
for _, t := range times[1:] {
if t.After(end) {
end = t
}
}
return end
}

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package seq
import (
"testing"
"time"
assert "github.com/blendlabs/go-assert"
"github.com/wcharczuk/go-chart/util"
)
func TestTimeMarketHours(t *testing.T) {
assert := assert.New(t)
today := time.Date(2016, 07, 01, 12, 0, 0, 0, util.Date.Eastern())
mh := Time.MarketHours(today, today, util.NYSEOpen(), util.NYSEClose(), util.Date.IsNYSEHoliday)
assert.Len(mh, 8)
assert.Equal(util.Date.Eastern(), mh[0].Location())
}
func TestTimeMarketHourQuarters(t *testing.T) {
assert := assert.New(t)
today := time.Date(2016, 07, 01, 12, 0, 0, 0, util.Date.Eastern())
mh := Time.MarketHourQuarters(today, today, util.NYSEOpen(), util.NYSEClose(), util.Date.IsNYSEHoliday)
assert.Len(mh, 4)
assert.Equal(9, mh[0].Hour())
assert.Equal(30, mh[0].Minute())
assert.Equal(util.Date.Eastern(), mh[0].Location())
assert.Equal(12, mh[1].Hour())
assert.Equal(00, mh[1].Minute())
assert.Equal(util.Date.Eastern(), mh[1].Location())
assert.Equal(14, mh[2].Hour())
assert.Equal(00, mh[2].Minute())
assert.Equal(util.Date.Eastern(), mh[2].Location())
}
func TestTimeHours(t *testing.T) {
assert := assert.New(t)
today := time.Date(2016, 07, 01, 12, 0, 0, 0, time.UTC)
seq := Time.Hours(today, 24)
end := Time.End(seq)
assert.Len(seq, 24)
assert.Equal(2016, end.Year())
assert.Equal(07, int(end.Month()))
assert.Equal(02, end.Day())
assert.Equal(11, end.Hour())
}
func TestSequenceHoursFill(t *testing.T) {
assert := assert.New(t)
xdata := []time.Time{
time.Date(2016, 07, 01, 12, 0, 0, 0, time.UTC),
time.Date(2016, 07, 01, 13, 0, 0, 0, time.UTC),
time.Date(2016, 07, 01, 14, 0, 0, 0, time.UTC),
time.Date(2016, 07, 02, 4, 0, 0, 0, time.UTC),
time.Date(2016, 07, 02, 5, 0, 0, 0, time.UTC),
time.Date(2016, 07, 03, 12, 0, 0, 0, time.UTC),
time.Date(2016, 07, 03, 14, 0, 0, 0, time.UTC),
}
ydata := []float64{
1.1,
1.2,
1.4,
0.8,
2.1,
0.4,
0.6,
}
filledTimes, filledValues := Time.HoursFilled(xdata, ydata)
assert.Len(filledTimes, util.Date.DiffHours(Time.Start(xdata), Time.End(xdata))+1)
assert.Equal(len(filledValues), len(filledTimes))
assert.NotZero(filledValues[0])
assert.NotZero(filledValues[len(filledValues)-1])
assert.NotZero(filledValues[16])
}
func TestTimeStart(t *testing.T) {
assert := assert.New(t)
times := []time.Time{
time.Now().AddDate(0, 0, -4),
time.Now().AddDate(0, 0, -2),
time.Now().AddDate(0, 0, -1),
time.Now().AddDate(0, 0, -3),
time.Now().AddDate(0, 0, -5),
}
assert.InTimeDelta(Time.Start(times), times[4], time.Millisecond)
}
func TestTimeEnd(t *testing.T) {
assert := assert.New(t)
times := []time.Time{
time.Now().AddDate(0, 0, -4),
time.Now().AddDate(0, 0, -2),
time.Now().AddDate(0, 0, -1),
time.Now().AddDate(0, 0, -3),
time.Now().AddDate(0, 0, -5),
}
assert.InTimeDelta(Time.End(times), times[2], time.Millisecond)
}

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package seq
import "math"
func round(input float64, places int) (rounded float64) {
if math.IsNaN(input) {
return 0.0
}
sign := 1.0
if input < 0 {
sign = -1
input *= -1
}
precision := math.Pow(10, float64(places))
digit := input * precision
_, decimal := math.Modf(digit)
if decimal >= 0.5 {
rounded = math.Ceil(digit)
} else {
rounded = math.Floor(digit)
}
return rounded / precision * sign
}
func f64i(value float64) int {
r := round(value, 0)
return int(r)
}

View file

@ -1,190 +0,0 @@
package chart
import (
"math/rand"
"time"
)
var (
// Sequence contains some sequence utilities.
// These utilities can be useful for generating test data.
Sequence = &sequence{
rnd: rand.New(rand.NewSource(time.Now().Unix())),
}
)
type sequence struct {
rnd *rand.Rand
}
// Float64 produces an array of floats from [start,end] by optional steps.
func (s sequence) Float64(start, end float64, steps ...float64) []float64 {
var values []float64
step := 1.0
if len(steps) > 0 {
step = steps[0]
}
if start < end {
for x := start; x <= end; x += step {
values = append(values, x)
}
} else {
for x := start; x >= end; x = x - step {
values = append(values, x)
}
}
return values
}
// Random generates a fixed length sequence of random values between (0, scale).
func (s sequence) Random(samples int, scale float64) []float64 {
values := make([]float64, samples)
for x := 0; x < samples; x++ {
values[x] = s.rnd.Float64() * scale
}
return values
}
// Random generates a fixed length sequence of random values with a given average, above and below that average by (-scale, scale)
func (s sequence) RandomWithAverage(samples int, average, scale float64) []float64 {
values := make([]float64, samples)
for x := 0; x < samples; x++ {
jitter := scale - (s.rnd.Float64() * (2 * scale))
values[x] = average + jitter
}
return values
}
// Days generates a sequence of timestamps by day, from -days to today.
func (s sequence) Days(days int) []time.Time {
var values []time.Time
for day := days; day >= 0; day-- {
values = append(values, time.Now().AddDate(0, 0, -day))
}
return values
}
func (s sequence) MarketHours(from, to time.Time, marketOpen, marketClose time.Time, isHoliday HolidayProvider) []time.Time {
var times []time.Time
cursor := Date.On(marketOpen, from)
toClose := Date.On(marketClose, to)
for cursor.Before(toClose) || cursor.Equal(toClose) {
todayOpen := Date.On(marketOpen, cursor)
todayClose := Date.On(marketClose, cursor)
isValidTradingDay := !isHoliday(cursor) && Date.IsWeekDay(cursor.Weekday())
if (cursor.Equal(todayOpen) || cursor.After(todayOpen)) && (cursor.Equal(todayClose) || cursor.Before(todayClose)) && isValidTradingDay {
times = append(times, cursor)
}
if cursor.After(todayClose) {
cursor = Date.NextMarketOpen(cursor, marketOpen, isHoliday)
} else {
cursor = Date.NextHour(cursor)
}
}
return times
}
func (s sequence) MarketHourQuarters(from, to time.Time, marketOpen, marketClose time.Time, isHoliday HolidayProvider) []time.Time {
var times []time.Time
cursor := Date.On(marketOpen, from)
toClose := Date.On(marketClose, to)
for cursor.Before(toClose) || cursor.Equal(toClose) {
isValidTradingDay := !isHoliday(cursor) && Date.IsWeekDay(cursor.Weekday())
if isValidTradingDay {
todayOpen := Date.On(marketOpen, cursor)
todayNoon := Date.NoonOn(cursor)
today2pm := Date.On(Date.Time(14, 0, 0, 0, cursor.Location()), cursor)
todayClose := Date.On(marketClose, cursor)
times = append(times, todayOpen, todayNoon, today2pm, todayClose)
}
cursor = Date.NextDay(cursor)
}
return times
}
func (s sequence) MarketDayCloses(from, to time.Time, marketOpen, marketClose time.Time, isHoliday HolidayProvider) []time.Time {
var times []time.Time
cursor := Date.On(marketOpen, from)
toClose := Date.On(marketClose, to)
for cursor.Before(toClose) || cursor.Equal(toClose) {
isValidTradingDay := !isHoliday(cursor) && Date.IsWeekDay(cursor.Weekday())
if isValidTradingDay {
todayClose := Date.On(marketClose, cursor)
times = append(times, todayClose)
}
cursor = Date.NextDay(cursor)
}
return times
}
func (s sequence) MarketDayAlternateCloses(from, to time.Time, marketOpen, marketClose time.Time, isHoliday HolidayProvider) []time.Time {
var times []time.Time
cursor := Date.On(marketOpen, from)
toClose := Date.On(marketClose, to)
for cursor.Before(toClose) || cursor.Equal(toClose) {
isValidTradingDay := !isHoliday(cursor) && Date.IsWeekDay(cursor.Weekday())
if isValidTradingDay {
todayClose := Date.On(marketClose, cursor)
times = append(times, todayClose)
}
cursor = cursor.AddDate(0, 0, 2)
}
return times
}
func (s sequence) MarketDayMondayCloses(from, to time.Time, marketOpen, marketClose time.Time, isHoliday HolidayProvider) []time.Time {
var times []time.Time
cursor := Date.On(marketClose, from)
toClose := Date.On(marketClose, to)
for cursor.Equal(toClose) || cursor.Before(toClose) {
isValidTradingDay := !isHoliday(cursor) && Date.IsWeekDay(cursor.Weekday())
if isValidTradingDay {
times = append(times, cursor)
}
cursor = Date.NextDayOfWeek(cursor, time.Monday)
}
return times
}
func (s sequence) Hours(start time.Time, totalHours int) []time.Time {
times := make([]time.Time, totalHours)
last := start
for i := 0; i < totalHours; i++ {
times[i] = last
last = last.Add(time.Hour)
}
return times
}
// HoursFill adds zero values for the data bounded by the start and end of the xdata array.
func (s sequence) HoursFill(xdata []time.Time, ydata []float64) ([]time.Time, []float64) {
start := Date.Start(xdata)
end := Date.End(xdata)
totalHours := Math.AbsInt(Date.DiffHours(start, end))
finalTimes := s.Hours(start, totalHours+1)
finalValues := make([]float64, totalHours+1)
var hoursFromStart int
for i, xd := range xdata {
hoursFromStart = Date.DiffHours(start, xd)
finalValues[hoursFromStart] = ydata[i]
}
return finalTimes, finalValues
}

View file

@ -1,92 +0,0 @@
package chart
import (
"testing"
"time"
assert "github.com/blendlabs/go-assert"
)
func TestSequenceFloat64(t *testing.T) {
assert := assert.New(t)
asc := Sequence.Float64(1.0, 10.0)
assert.Len(asc, 10)
desc := Sequence.Float64(10.0, 1.0)
assert.Len(desc, 10)
}
func TestSequenceMarketHours(t *testing.T) {
assert := assert.New(t)
today := time.Date(2016, 07, 01, 12, 0, 0, 0, Date.Eastern())
mh := Sequence.MarketHours(today, today, NYSEOpen(), NYSEClose(), Date.IsNYSEHoliday)
assert.Len(mh, 8)
assert.Equal(Date.Eastern(), mh[0].Location())
}
func TestSequenceMarketQuarters(t *testing.T) {
assert := assert.New(t)
today := time.Date(2016, 07, 01, 12, 0, 0, 0, Date.Eastern())
mh := Sequence.MarketHourQuarters(today, today, NYSEOpen(), NYSEClose(), Date.IsNYSEHoliday)
assert.Len(mh, 4)
assert.Equal(9, mh[0].Hour())
assert.Equal(30, mh[0].Minute())
assert.Equal(Date.Eastern(), mh[0].Location())
assert.Equal(12, mh[1].Hour())
assert.Equal(00, mh[1].Minute())
assert.Equal(Date.Eastern(), mh[1].Location())
assert.Equal(14, mh[2].Hour())
assert.Equal(00, mh[2].Minute())
assert.Equal(Date.Eastern(), mh[2].Location())
}
func TestSequenceHours(t *testing.T) {
assert := assert.New(t)
today := time.Date(2016, 07, 01, 12, 0, 0, 0, time.UTC)
seq := Sequence.Hours(today, 24)
end := Date.End(seq)
assert.Len(seq, 24)
assert.Equal(2016, end.Year())
assert.Equal(07, int(end.Month()))
assert.Equal(02, end.Day())
assert.Equal(11, end.Hour())
}
func TestSequenceHoursFill(t *testing.T) {
assert := assert.New(t)
xdata := []time.Time{
time.Date(2016, 07, 01, 12, 0, 0, 0, time.UTC),
time.Date(2016, 07, 01, 13, 0, 0, 0, time.UTC),
time.Date(2016, 07, 01, 14, 0, 0, 0, time.UTC),
time.Date(2016, 07, 02, 4, 0, 0, 0, time.UTC),
time.Date(2016, 07, 02, 5, 0, 0, 0, time.UTC),
time.Date(2016, 07, 03, 12, 0, 0, 0, time.UTC),
time.Date(2016, 07, 03, 14, 0, 0, 0, time.UTC),
}
ydata := []float64{
1.1,
1.2,
1.4,
0.8,
2.1,
0.4,
0.6,
}
filledTimes, filledValues := Sequence.HoursFill(xdata, ydata)
assert.Len(filledTimes, Date.DiffHours(Date.Start(xdata), Date.End(xdata))+1)
assert.Equal(len(filledValues), len(filledTimes))
assert.NotZero(filledValues[0])
assert.NotZero(filledValues[len(filledValues)-1])
assert.NotZero(filledValues[16])
}

View file

@ -1,6 +1,10 @@
package chart
import "fmt"
import (
"fmt"
util "github.com/wcharczuk/go-chart/util"
)
const (
// DefaultSimpleMovingAveragePeriod is the default number of values to average.
@ -14,7 +18,7 @@ type SMASeries struct {
YAxis YAxisType
Period int
InnerSeries ValueProvider
InnerSeries ValuesProvider
}
// GetName returns the name of the time series.
@ -48,25 +52,25 @@ func (sma SMASeries) GetPeriod(defaults ...int) int {
return sma.Period
}
// GetValue gets a value at a given index.
func (sma SMASeries) GetValue(index int) (x, y float64) {
// GetValues gets a value at a given index.
func (sma SMASeries) GetValues(index int) (x, y float64) {
if sma.InnerSeries == nil || sma.InnerSeries.Len() == 0 {
return
}
px, _ := sma.InnerSeries.GetValue(index)
px, _ := sma.InnerSeries.GetValues(index)
x = px
y = sma.getAverage(index)
return
}
// GetLastValue computes the last moving average value but walking back window size samples,
// GetLastValues computes the last moving average value but walking back window size samples,
// and recomputing the last moving average chunk.
func (sma SMASeries) GetLastValue() (x, y float64) {
func (sma SMASeries) GetLastValues() (x, y float64) {
if sma.InnerSeries == nil || sma.InnerSeries.Len() == 0 {
return
}
seriesLen := sma.InnerSeries.Len()
px, _ := sma.InnerSeries.GetValue(seriesLen - 1)
px, _ := sma.InnerSeries.GetValues(seriesLen - 1)
x = px
y = sma.getAverage(seriesLen - 1)
return
@ -74,11 +78,11 @@ func (sma SMASeries) GetLastValue() (x, y float64) {
func (sma SMASeries) getAverage(index int) float64 {
period := sma.GetPeriod()
floor := Math.MaxInt(0, index-period)
floor := util.Math.MaxInt(0, index-period)
var accum float64
var count float64
for x := index; x >= floor; x-- {
_, vy := sma.InnerSeries.GetValue(x)
_, vy := sma.InnerSeries.GetValues(x)
accum += vy
count += 1.0
}

View file

@ -4,22 +4,24 @@ import (
"testing"
"github.com/blendlabs/go-assert"
"github.com/wcharczuk/go-chart/seq"
"github.com/wcharczuk/go-chart/util"
)
type mockValueProvider struct {
type mockValuesProvider struct {
X []float64
Y []float64
}
func (m mockValueProvider) Len() int {
return Math.MinInt(len(m.X), len(m.Y))
func (m mockValuesProvider) Len() int {
return util.Math.MinInt(len(m.X), len(m.Y))
}
func (m mockValueProvider) GetValue(index int) (x, y float64) {
func (m mockValuesProvider) GetValues(index int) (x, y float64) {
if index < 0 {
panic("negative index at GetValue()")
}
if index > Math.MinInt(len(m.X), len(m.Y)) {
if index >= util.Math.MinInt(len(m.X), len(m.Y)) {
panic("index is outside the length of m.X or m.Y")
}
x = m.X[index]
@ -30,9 +32,9 @@ func (m mockValueProvider) GetValue(index int) (x, y float64) {
func TestSMASeriesGetValue(t *testing.T) {
assert := assert.New(t)
mockSeries := mockValueProvider{
Sequence.Float64(1.0, 10.0),
Sequence.Float64(10, 1.0),
mockSeries := mockValuesProvider{
seq.Range(1.0, 10.0),
seq.Range(10, 1.0),
}
assert.Equal(10, mockSeries.Len())
@ -43,7 +45,7 @@ func TestSMASeriesGetValue(t *testing.T) {
var yvalues []float64
for x := 0; x < mas.Len(); x++ {
_, y := mas.GetValue(x)
_, y := mas.GetValues(x)
yvalues = append(yvalues, y)
}
@ -61,9 +63,9 @@ func TestSMASeriesGetValue(t *testing.T) {
func TestSMASeriesGetLastValueWindowOverlap(t *testing.T) {
assert := assert.New(t)
mockSeries := mockValueProvider{
Sequence.Float64(1.0, 10.0),
Sequence.Float64(10, 1.0),
mockSeries := mockValuesProvider{
seq.Range(1.0, 10.0),
seq.Range(10, 1.0),
}
assert.Equal(10, mockSeries.Len())
@ -74,11 +76,11 @@ func TestSMASeriesGetLastValueWindowOverlap(t *testing.T) {
var yvalues []float64
for x := 0; x < mas.Len(); x++ {
_, y := mas.GetValue(x)
_, y := mas.GetValues(x)
yvalues = append(yvalues, y)
}
lx, ly := mas.GetLastValue()
lx, ly := mas.GetLastValues()
assert.Equal(10.0, lx)
assert.Equal(5.5, ly)
assert.Equal(yvalues[len(yvalues)-1], ly)
@ -87,9 +89,9 @@ func TestSMASeriesGetLastValueWindowOverlap(t *testing.T) {
func TestSMASeriesGetLastValue(t *testing.T) {
assert := assert.New(t)
mockSeries := mockValueProvider{
Sequence.Float64(1.0, 100.0),
Sequence.Float64(100, 1.0),
mockSeries := mockValuesProvider{
seq.Range(1.0, 100.0),
seq.Range(100, 1.0),
}
assert.Equal(100, mockSeries.Len())
@ -100,11 +102,11 @@ func TestSMASeriesGetLastValue(t *testing.T) {
var yvalues []float64
for x := 0; x < mas.Len(); x++ {
_, y := mas.GetValue(x)
_, y := mas.GetValues(x)
yvalues = append(yvalues, y)
}
lx, ly := mas.GetLastValue()
lx, ly := mas.GetLastValues()
assert.Equal(100.0, lx)
assert.Equal(6, ly)
assert.Equal(yvalues[len(yvalues)-1], ly)

View file

@ -7,6 +7,8 @@ import (
"math"
"github.com/golang/freetype/truetype"
"github.com/wcharczuk/go-chart/seq"
util "github.com/wcharczuk/go-chart/util"
)
// StackedBar is a bar within a StackedBarChart.
@ -145,7 +147,7 @@ func (sbc StackedBarChart) drawBar(r Renderer, canvasBox Box, xoffset int, bar S
Top: yoffset,
Left: bxl,
Right: bxr,
Bottom: Math.MinInt(yoffset+barHeight, canvasBox.Bottom-DefaultStrokeWidth),
Bottom: util.Math.MinInt(yoffset+barHeight, canvasBox.Bottom-DefaultStrokeWidth),
}
Draw.Box(r, barBox, bv.Style.InheritFrom(sbc.styleDefaultsStackedBarValue(index)))
yoffset += barHeight
@ -200,7 +202,7 @@ func (sbc StackedBarChart) drawYAxis(r Renderer, canvasBox Box) {
r.LineTo(canvasBox.Right+DefaultHorizontalTickWidth, canvasBox.Bottom)
r.Stroke()
ticks := Sequence.Float64(1.0, 0.0, 0.2)
ticks := seq.RangeWithStep(0.0, 1.0, 0.2)
for _, t := range ticks {
axisStyle.GetStrokeOptions().WriteToRenderer(r)
ty := canvasBox.Bottom - int(t*float64(canvasBox.Height()))
@ -252,7 +254,7 @@ func (sbc StackedBarChart) getAdjustedCanvasBox(r Renderer, canvasBox Box) Box {
lines := Text.WrapFit(r, bar.Name, barLabelBox.Width(), axisStyle)
linesBox := Text.MeasureLines(r, lines, axisStyle)
xaxisHeight = Math.MaxInt(linesBox.Height()+(2*DefaultXAxisMargin), xaxisHeight)
xaxisHeight = util.Math.MaxInt(linesBox.Height()+(2*DefaultXAxisMargin), xaxisHeight)
}
}
return Box{
@ -304,7 +306,7 @@ func (sbc StackedBarChart) styleDefaultsTitle() Style {
}
func (sbc StackedBarChart) getTitleFontSize() float64 {
effectiveDimension := Math.MinInt(sbc.GetWidth(), sbc.GetHeight())
effectiveDimension := util.Math.MinInt(sbc.GetWidth(), sbc.GetHeight())
if effectiveDimension >= 2048 {
return 48
} else if effectiveDimension >= 1024 {

View file

@ -4,6 +4,7 @@ import (
"fmt"
"strings"
util "github.com/blendlabs/go-util"
"github.com/golang/freetype/truetype"
"github.com/wcharczuk/go-chart/drawing"
)
@ -330,7 +331,7 @@ func (s Style) WriteToRenderer(r Renderer) {
r.ClearTextRotation()
if s.GetTextRotationDegrees() != 0 {
r.SetTextRotation(Math.DegreesToRadians(s.GetTextRotationDegrees()))
r.SetTextRotation(util.Math.DegreesToRadians(s.GetTextRotationDegrees()))
}
}

View file

@ -1,6 +1,10 @@
package chart
import "strings"
import (
"strings"
util "github.com/wcharczuk/go-chart/util"
)
// TextHorizontalAlign is an enum for the horizontal alignment options.
type TextHorizontalAlign int
@ -145,7 +149,7 @@ func (t text) MeasureLines(r Renderer, lines []string, style Style) Box {
var output Box
for index, line := range lines {
lineBox := r.MeasureText(line)
output.Right = Math.MaxInt(lineBox.Right, output.Right)
output.Right = util.Math.MaxInt(lineBox.Right, output.Right)
output.Bottom += lineBox.Height()
if index < len(lines)-1 {
output.Bottom += +style.GetTextLineSpacing()

10
tick.go
View file

@ -4,6 +4,8 @@ import (
"fmt"
"math"
"strings"
util "github.com/wcharczuk/go-chart/util"
)
// TicksProvider is a type that provides ticks.
@ -83,15 +85,15 @@ func GenerateContinuousTicks(r Renderer, ra Range, isVertical bool, style Style,
rangeDelta := math.Abs(max - min)
tickStep := rangeDelta / float64(intermediateTickCount)
roundTo := Math.GetRoundToForDelta(rangeDelta) / 10
intermediateTickCount = Math.MinInt(intermediateTickCount, 1<<10)
roundTo := util.Math.GetRoundToForDelta(rangeDelta) / 10
intermediateTickCount = util.Math.MinInt(intermediateTickCount, 1<<10)
for x := 1; x < intermediateTickCount; x++ {
var tickValue float64
if ra.IsDescending() {
tickValue = max - Math.RoundUp(tickStep*float64(x), roundTo)
tickValue = max - util.Math.RoundUp(tickStep*float64(x), roundTo)
} else {
tickValue = min + Math.RoundUp(tickStep*float64(x), roundTo)
tickValue = min + util.Math.RoundUp(tickStep*float64(x), roundTo)
}
ticks = append(ticks, Tick{
Value: tickValue,

View file

@ -3,6 +3,8 @@ package chart
import (
"fmt"
"time"
util "github.com/wcharczuk/go-chart/util"
)
// TimeSeries is a line on a chart.
@ -31,16 +33,16 @@ func (ts TimeSeries) Len() int {
return len(ts.XValues)
}
// GetValue gets a value at a given index.
func (ts TimeSeries) GetValue(index int) (x, y float64) {
x = Time.ToFloat64(ts.XValues[index])
// GetValues gets a value at a given index.
func (ts TimeSeries) GetValues(index int) (x, y float64) {
x = util.Time.ToFloat64(ts.XValues[index])
y = ts.YValues[index]
return
}
// GetLastValue gets the last value.
func (ts TimeSeries) GetLastValue() (x, y float64) {
x = Time.ToFloat64(ts.XValues[len(ts.XValues)-1])
// GetLastValues gets the last value.
func (ts TimeSeries) GetLastValues() (x, y float64) {
x = util.Time.ToFloat64(ts.XValues[len(ts.XValues)-1])
y = ts.YValues[len(ts.YValues)-1]
return
}

View file

@ -24,7 +24,7 @@ func TestTimeSeriesGetValue(t *testing.T) {
},
}
x0, y0 := ts.GetValue(0)
x0, y0 := ts.GetValues(0)
assert.NotZero(x0)
assert.Equal(1.0, y0)
}

View file

@ -1,4 +1,4 @@
package chart
package util
import (
"sync"
@ -394,33 +394,3 @@ func (d date) NextDayOfWeek(after time.Time, dayOfWeek time.Weekday) time.Time {
dayDelta := 7 - int(afterWeekday-dayOfWeek)
return after.AddDate(0, 0, dayDelta)
}
// Start returns the earliest (min) time in a list of times.
func (d date) Start(times []time.Time) time.Time {
if len(times) == 0 {
return time.Time{}
}
start := times[0]
for _, t := range times[1:] {
if t.Before(start) {
start = t
}
}
return start
}
// Start returns the earliest (min) time in a list of times.
func (d date) End(times []time.Time) time.Time {
if len(times) == 0 {
return time.Time{}
}
end := times[0]
for _, t := range times[1:] {
if t.After(end) {
end = t
}
}
return end
}

View file

@ -1,6 +1,6 @@
// +build !windows
package chart
package util
import "time"

View file

@ -1,4 +1,4 @@
package chart
package util
import (
"testing"
@ -237,34 +237,6 @@ func TestDateIsNYSEHoliday(t *testing.T) {
assert.Equal(holidays, 55)
}
func TestTimeStart(t *testing.T) {
assert := assert.New(t)
times := []time.Time{
time.Now().AddDate(0, 0, -4),
time.Now().AddDate(0, 0, -2),
time.Now().AddDate(0, 0, -1),
time.Now().AddDate(0, 0, -3),
time.Now().AddDate(0, 0, -5),
}
assert.InTimeDelta(Date.Start(times), times[4], time.Millisecond)
}
func TestTimeEnd(t *testing.T) {
assert := assert.New(t)
times := []time.Time{
time.Now().AddDate(0, 0, -4),
time.Now().AddDate(0, 0, -2),
time.Now().AddDate(0, 0, -1),
time.Now().AddDate(0, 0, -3),
time.Now().AddDate(0, 0, -5),
}
assert.InTimeDelta(Date.End(times), times[2], time.Millisecond)
}
func TestDateDiffDays(t *testing.T) {
assert := assert.New(t)

View file

@ -1,6 +1,6 @@
// +build windows
package chart
package util
import "time"

View file

@ -1,4 +1,4 @@
package chart
package util
import (
"bufio"

View file

@ -1,4 +1,4 @@
package chart
package util
import (
"math"
@ -47,7 +47,7 @@ func (m mathUtil) MinAndMax(values ...float64) (min float64, max float64) {
}
min = values[0]
max = values[0]
for _, v := range values {
for _, v := range values[1:] {
if max < v {
max = v
}
@ -68,7 +68,7 @@ func (m mathUtil) MinAndMaxOfTime(values ...time.Time) (min time.Time, max time.
min = values[0]
max = values[0]
for _, v := range values {
for _, v := range values[1:] {
if max.Before(v) {
max = v
}

View file

@ -1,4 +1,4 @@
package chart
package util
import (
"testing"

View file

@ -1,4 +1,4 @@
package chart
package util
import "time"

View file

@ -1,5 +1,7 @@
package chart
import util "github.com/blendlabs/go-util"
// Value is a chart value.
type Value struct {
Style Style
@ -21,7 +23,7 @@ func (vs Values) Values() []float64 {
// ValuesNormalized returns normalized values.
func (vs Values) ValuesNormalized() []float64 {
return Math.Normalize(vs.Values()...)
return util.Math.Normalize(vs.Values()...)
}
// Normalize returns the values normalized.
@ -38,7 +40,7 @@ func (vs Values) Normalize() []Value {
output = append(output, Value{
Style: v.Style,
Label: v.Label,
Value: Math.RoundDown(v.Value/total, 0.0001),
Value: util.Math.RoundDown(v.Value/total, 0.0001),
})
}
}

View file

@ -5,13 +5,14 @@ import (
"time"
"github.com/blendlabs/go-assert"
"github.com/wcharczuk/go-chart/util"
)
func TestTimeValueFormatterWithFormat(t *testing.T) {
assert := assert.New(t)
d := time.Now()
di := Time.ToFloat64(d)
di := util.Time.ToFloat64(d)
df := float64(di)
s := formatTime(d, DefaultDateFormat)

View file

@ -2,38 +2,38 @@ package chart
import "github.com/wcharczuk/go-chart/drawing"
// ValueProvider is a type that produces values.
type ValueProvider interface {
// ValuesProvider is a type that produces values.
type ValuesProvider interface {
Len() int
GetValue(index int) (float64, float64)
GetValues(index int) (float64, float64)
}
// BoundedValueProvider allows series to return a range.
type BoundedValueProvider interface {
// BoundedValuesProvider allows series to return a range.
type BoundedValuesProvider interface {
Len() int
GetBoundedValue(index int) (x, y1, y2 float64)
GetBoundedValues(index int) (x, y1, y2 float64)
}
// LastValueProvider is a special type of value provider that can return it's (potentially computed) last value.
type LastValueProvider interface {
GetLastValue() (x, y float64)
// LastValuesProvider is a special type of value provider that can return it's (potentially computed) last value.
type LastValuesProvider interface {
GetLastValues() (x, y float64)
}
// BoundedLastValueProvider is a special type of value provider that can return it's (potentially computed) bounded last value.
type BoundedLastValueProvider interface {
GetBoundedLastValue() (x, y1, y2 float64)
// BoundedLastValuesProvider is a special type of value provider that can return it's (potentially computed) bounded last value.
type BoundedLastValuesProvider interface {
GetBoundedLastValues() (x, y1, y2 float64)
}
// FullValueProvider is an interface that combines `ValueProvider` and `LastValueProvider`
type FullValueProvider interface {
ValueProvider
LastValueProvider
// FullValuesProvider is an interface that combines `ValuesProvider` and `LastValuesProvider`
type FullValuesProvider interface {
ValuesProvider
LastValuesProvider
}
// FullBoundedValueProvider is an interface that combines `BoundedValueProvider` and `BoundedLastValueProvider`
type FullBoundedValueProvider interface {
BoundedValueProvider
BoundedLastValueProvider
// FullBoundedValuesProvider is an interface that combines `BoundedValuesProvider` and `BoundedLastValuesProvider`
type FullBoundedValuesProvider interface {
BoundedValuesProvider
BoundedLastValuesProvider
}
// SizeProvider is a provider for integer size.

View file

@ -9,6 +9,7 @@ import (
"golang.org/x/image/font"
util "github.com/blendlabs/go-util"
"github.com/golang/freetype/truetype"
"github.com/wcharczuk/go-chart/drawing"
)
@ -89,8 +90,8 @@ func (vr *vectorRenderer) QuadCurveTo(cx, cy, x, y int) {
}
func (vr *vectorRenderer) ArcTo(cx, cy int, rx, ry, startAngle, delta float64) {
startAngle = Math.RadianAdd(startAngle, _pi2)
endAngle := Math.RadianAdd(startAngle, delta)
startAngle = util.Math.RadianAdd(startAngle, _pi2)
endAngle := util.Math.RadianAdd(startAngle, delta)
startx := cx + int(rx*math.Sin(startAngle))
starty := cy - int(ry*math.Cos(startAngle))
@ -104,7 +105,7 @@ func (vr *vectorRenderer) ArcTo(cx, cy int, rx, ry, startAngle, delta float64) {
endx := cx + int(rx*math.Sin(endAngle))
endy := cy - int(ry*math.Cos(endAngle))
dd := Math.RadiansToDegrees(delta)
dd := util.Math.RadiansToDegrees(delta)
vr.p = append(vr.p, fmt.Sprintf("A %d %d %0.2f 0 1 %d %d", int(rx), int(ry), dd, endx, endy))
}
@ -176,7 +177,7 @@ func (vr *vectorRenderer) MeasureText(body string) (box Box) {
if vr.c.textTheta == nil {
return
}
box = box.Corners().Rotate(Math.RadiansToDegrees(*vr.c.textTheta)).Box()
box = box.Corners().Rotate(util.Math.RadiansToDegrees(*vr.c.textTheta)).Box()
}
return
}
@ -231,7 +232,7 @@ func (c *canvas) Text(x, y int, body string, style Style) {
if c.textTheta == nil {
c.w.Write([]byte(fmt.Sprintf(`<text x="%d" y="%d" style="%s">%s</text>`, x, y, c.styleAsSVG(style), body)))
} else {
transform := fmt.Sprintf(` transform="rotate(%0.2f,%d,%d)"`, Math.RadiansToDegrees(*c.textTheta), x, y)
transform := fmt.Sprintf(` transform="rotate(%0.2f,%d,%d)"`, util.Math.RadiansToDegrees(*c.textTheta), x, y)
c.w.Write([]byte(fmt.Sprintf(`<text x="%d" y="%d" style="%s"%s>%s</text>`, x, y, c.styleAsSVG(style), transform, body)))
}
}

View file

@ -1,6 +1,10 @@
package chart
import "math"
import (
"math"
util "github.com/wcharczuk/go-chart/util"
)
// XAxis represents the horizontal axis.
type XAxis struct {
@ -101,9 +105,9 @@ func (xa XAxis) Measure(r Renderer, canvasBox Box, ra Range, defaults Style, tic
break
}
left = Math.MinInt(left, ltx)
right = Math.MaxInt(right, rtx)
bottom = Math.MaxInt(bottom, ty)
left = util.Math.MinInt(left, ltx)
right = util.Math.MaxInt(right, rtx)
bottom = util.Math.MaxInt(bottom, ty)
}
if xa.NameStyle.Show && len(xa.Name) > 0 {
@ -155,7 +159,7 @@ func (xa XAxis) Render(r Renderer, canvasBox Box, ra Range, defaults Style, tick
ty = canvasBox.Bottom + (2 * DefaultXAxisMargin)
}
Draw.Text(r, t.Label, tx, ty, tickWithAxisStyle)
maxTextHeight = Math.MaxInt(maxTextHeight, tb.Height())
maxTextHeight = util.Math.MaxInt(maxTextHeight, tb.Height())
break
case TickPositionBetweenTicks:
if index > 0 {
@ -171,7 +175,7 @@ func (xa XAxis) Render(r Renderer, canvasBox Box, ra Range, defaults Style, tick
}, finalTickStyle)
ftb := Text.MeasureLines(r, Text.WrapFit(r, t.Label, tx-ltx, finalTickStyle), finalTickStyle)
maxTextHeight = Math.MaxInt(maxTextHeight, ftb.Height())
maxTextHeight = util.Math.MaxInt(maxTextHeight, ftb.Height())
}
break
}

View file

@ -1,6 +1,10 @@
package chart
import "math"
import (
"math"
util "github.com/wcharczuk/go-chart/util"
)
// YAxis is a veritcal rule of the range.
// There can be (2) y-axes; a primary and secondary.
@ -101,18 +105,18 @@ func (ya YAxis) Measure(r Renderer, canvasBox Box, ra Range, defaults Style, tic
finalTextX = tx - tb.Width()
}
maxTextHeight = Math.MaxInt(tb.Height(), maxTextHeight)
maxTextHeight = util.Math.MaxInt(tb.Height(), maxTextHeight)
if ya.AxisType == YAxisPrimary {
minx = canvasBox.Right
maxx = Math.MaxInt(maxx, tx+tb.Width())
maxx = util.Math.MaxInt(maxx, tx+tb.Width())
} else if ya.AxisType == YAxisSecondary {
minx = Math.MinInt(minx, finalTextX)
maxx = Math.MaxInt(maxx, tx)
minx = util.Math.MinInt(minx, finalTextX)
maxx = util.Math.MaxInt(maxx, tx)
}
miny = Math.MinInt(miny, ly-tbh2)
maxy = Math.MaxInt(maxy, ly+tbh2)
miny = util.Math.MinInt(miny, ly-tbh2)
maxy = util.Math.MaxInt(maxy, ly+tbh2)
}
if ya.NameStyle.Show && len(ya.Name) > 0 {