567 lines
15 KiB
Go
567 lines
15 KiB
Go
package chart
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import (
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"errors"
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"fmt"
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"io"
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"math"
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"github.com/golang/freetype/truetype"
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util "github.com/wcharczuk/go-chart/util"
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)
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// Chart is what we're drawing.
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type Chart struct {
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Title string
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TitleStyle Style
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ColorPalette ColorPalette
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Width int
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Height int
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DPI float64
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Background Style
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Canvas Style
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XAxis XAxis
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YAxis YAxis
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YAxisSecondary YAxis
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Font *truetype.Font
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defaultFont *truetype.Font
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Series []Series
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Elements []Renderable
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}
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// GetDPI returns the dpi for the chart.
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func (c Chart) GetDPI(defaults ...float64) float64 {
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if c.DPI == 0 {
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if len(defaults) > 0 {
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return defaults[0]
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}
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return DefaultDPI
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}
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return c.DPI
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}
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// GetFont returns the text font.
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func (c Chart) GetFont() *truetype.Font {
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if c.Font == nil {
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return c.defaultFont
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}
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return c.Font
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}
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// GetWidth returns the chart width or the default value.
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func (c Chart) GetWidth() int {
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if c.Width == 0 {
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return DefaultChartWidth
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}
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return c.Width
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}
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// GetHeight returns the chart height or the default value.
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func (c Chart) GetHeight() int {
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if c.Height == 0 {
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return DefaultChartHeight
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}
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return c.Height
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}
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// Render renders the chart with the given renderer to the given io.Writer.
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func (c Chart) Render(rp RendererProvider, w io.Writer) error {
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if len(c.Series) == 0 {
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return errors.New("please provide at least one series")
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}
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if visibleSeriesErr := c.checkHasVisibleSeries(); visibleSeriesErr != nil {
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return visibleSeriesErr
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}
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c.YAxisSecondary.AxisType = YAxisSecondary
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r, err := rp(c.GetWidth(), c.GetHeight())
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if err != nil {
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return err
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}
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if c.Font == nil {
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defaultFont, err := GetDefaultFont()
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if err != nil {
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return err
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}
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c.defaultFont = defaultFont
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}
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r.SetDPI(c.GetDPI(DefaultDPI))
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c.drawBackground(r)
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var xt, yt, yta []Tick
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xr, yr, yra := c.getRanges()
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canvasBox := c.getDefaultCanvasBox()
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xf, yf, yfa := c.getValueFormatters()
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xr, yr, yra = c.setRangeDomains(canvasBox, xr, yr, yra)
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err = c.checkRanges(xr, yr, yra)
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if err != nil {
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r.Save(w)
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return err
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}
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if c.hasAxes() {
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xt, yt, yta = c.getAxesTicks(r, xr, yr, yra, xf, yf, yfa)
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canvasBox = c.getAxesAdjustedCanvasBox(r, canvasBox, xr, yr, yra, xt, yt, yta)
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xr, yr, yra = c.setRangeDomains(canvasBox, xr, yr, yra)
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// do a second pass in case things haven't settled yet.
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xt, yt, yta = c.getAxesTicks(r, xr, yr, yra, xf, yf, yfa)
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canvasBox = c.getAxesAdjustedCanvasBox(r, canvasBox, xr, yr, yra, xt, yt, yta)
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xr, yr, yra = c.setRangeDomains(canvasBox, xr, yr, yra)
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}
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if c.hasAnnotationSeries() {
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canvasBox = c.getAnnotationAdjustedCanvasBox(r, canvasBox, xr, yr, yra, xf, yf, yfa)
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xr, yr, yra = c.setRangeDomains(canvasBox, xr, yr, yra)
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xt, yt, yta = c.getAxesTicks(r, xr, yr, yra, xf, yf, yfa)
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}
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c.drawCanvas(r, canvasBox)
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c.drawAxes(r, canvasBox, xr, yr, yra, xt, yt, yta)
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for index, series := range c.Series {
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c.drawSeries(r, canvasBox, xr, yr, yra, series, index)
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}
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c.drawTitle(r)
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for _, a := range c.Elements {
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a(r, canvasBox, c.styleDefaultsElements())
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}
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return r.Save(w)
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}
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func (c Chart) checkHasVisibleSeries() error {
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hasVisibleSeries := false
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var style Style
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for _, s := range c.Series {
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style = s.GetStyle()
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hasVisibleSeries = hasVisibleSeries || (style.IsZero() || style.Show)
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}
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if !hasVisibleSeries {
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return fmt.Errorf("must have (1) visible series; make sure if you set a style, you set .Show = true")
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}
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return nil
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}
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func (c Chart) validateSeries() error {
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var err error
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for _, s := range c.Series {
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err = s.Validate()
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if err != nil {
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return err
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}
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}
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return nil
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}
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func (c Chart) getRanges() (xrange, yrange, yrangeAlt Range) {
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var minx, maxx float64 = math.MaxFloat64, -math.MaxFloat64
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var miny, maxy float64 = math.MaxFloat64, -math.MaxFloat64
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var minya, maxya float64 = math.MaxFloat64, -math.MaxFloat64
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seriesMappedToSecondaryAxis := false
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// note: a possible future optimization is to not scan the series values if
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// all axis are represented by either custom ticks or custom ranges.
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for _, s := range c.Series {
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if s.GetStyle().IsZero() || s.GetStyle().Show {
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seriesAxis := s.GetYAxis()
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if bvp, isBoundedValuesProvider := s.(BoundedValuesProvider); isBoundedValuesProvider {
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seriesLength := bvp.Len()
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for index := 0; index < seriesLength; index++ {
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vx, vy1, vy2 := bvp.GetBoundedValues(index)
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minx = math.Min(minx, vx)
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maxx = math.Max(maxx, vx)
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if seriesAxis == YAxisPrimary {
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miny = math.Min(miny, vy1)
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miny = math.Min(miny, vy2)
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maxy = math.Max(maxy, vy1)
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maxy = math.Max(maxy, vy2)
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} else if seriesAxis == YAxisSecondary {
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minya = math.Min(minya, vy1)
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minya = math.Min(minya, vy2)
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maxya = math.Max(maxya, vy1)
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maxya = math.Max(maxya, vy2)
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seriesMappedToSecondaryAxis = true
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}
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}
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} else if vp, isValuesProvider := s.(ValuesProvider); isValuesProvider {
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seriesLength := vp.Len()
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for index := 0; index < seriesLength; index++ {
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vx, vy := vp.GetValues(index)
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minx = math.Min(minx, vx)
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maxx = math.Max(maxx, vx)
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if seriesAxis == YAxisPrimary {
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miny = math.Min(miny, vy)
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maxy = math.Max(maxy, vy)
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} else if seriesAxis == YAxisSecondary {
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minya = math.Min(minya, vy)
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maxya = math.Max(maxya, vy)
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seriesMappedToSecondaryAxis = true
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}
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}
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}
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}
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}
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if c.XAxis.Range == nil {
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xrange = &ContinuousRange{}
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} else {
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xrange = c.XAxis.Range
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}
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if c.YAxis.Range == nil {
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yrange = &ContinuousRange{}
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} else {
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yrange = c.YAxis.Range
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}
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if c.YAxisSecondary.Range == nil {
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yrangeAlt = &ContinuousRange{}
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} else {
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yrangeAlt = c.YAxisSecondary.Range
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}
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if len(c.XAxis.Ticks) > 0 {
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tickMin, tickMax := math.MaxFloat64, -math.MaxFloat64
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for _, t := range c.XAxis.Ticks {
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tickMin = math.Min(tickMin, t.Value)
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tickMax = math.Max(tickMax, t.Value)
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}
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xrange.SetMin(tickMin)
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xrange.SetMax(tickMax)
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} else if xrange.IsZero() {
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xrange.SetMin(minx)
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xrange.SetMax(maxx)
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}
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if len(c.YAxis.Ticks) > 0 {
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tickMin, tickMax := math.MaxFloat64, -math.MaxFloat64
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for _, t := range c.YAxis.Ticks {
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tickMin = math.Min(tickMin, t.Value)
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tickMax = math.Max(tickMax, t.Value)
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}
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yrange.SetMin(tickMin)
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yrange.SetMax(tickMax)
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} else if yrange.IsZero() {
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yrange.SetMin(miny)
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yrange.SetMax(maxy)
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// only round if we're showing the axis
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if c.YAxis.Style.Show {
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delta := yrange.GetDelta()
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roundTo := util.Math.GetRoundToForDelta(delta)
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rmin, rmax := util.Math.RoundDown(yrange.GetMin(), roundTo), util.Math.RoundUp(yrange.GetMax(), roundTo)
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yrange.SetMin(rmin)
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yrange.SetMax(rmax)
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}
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}
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if len(c.YAxisSecondary.Ticks) > 0 {
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tickMin, tickMax := math.MaxFloat64, -math.MaxFloat64
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for _, t := range c.YAxisSecondary.Ticks {
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tickMin = math.Min(tickMin, t.Value)
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tickMax = math.Max(tickMax, t.Value)
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}
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yrangeAlt.SetMin(tickMin)
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yrangeAlt.SetMax(tickMax)
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} else if seriesMappedToSecondaryAxis && yrangeAlt.IsZero() {
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yrangeAlt.SetMin(minya)
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yrangeAlt.SetMax(maxya)
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if c.YAxisSecondary.Style.Show {
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delta := yrangeAlt.GetDelta()
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roundTo := util.Math.GetRoundToForDelta(delta)
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rmin, rmax := util.Math.RoundDown(yrangeAlt.GetMin(), roundTo), util.Math.RoundUp(yrangeAlt.GetMax(), roundTo)
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yrangeAlt.SetMin(rmin)
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yrangeAlt.SetMax(rmax)
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}
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}
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return
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}
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func (c Chart) checkRanges(xr, yr, yra Range) error {
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xDelta := xr.GetDelta()
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if math.IsInf(xDelta, 0) {
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return errors.New("infinite x-range delta")
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}
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if math.IsNaN(xDelta) {
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return errors.New("nan x-range delta")
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}
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if xDelta == 0 {
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return errors.New("zero x-range delta; there needs to be at least (2) values")
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}
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yDelta := yr.GetDelta()
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if math.IsInf(yDelta, 0) {
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return errors.New("infinite y-range delta")
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}
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if math.IsNaN(yDelta) {
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return errors.New("nan y-range delta")
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}
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if c.hasSecondarySeries() {
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yraDelta := yra.GetDelta()
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if math.IsInf(yraDelta, 0) {
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return errors.New("infinite secondary y-range delta")
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}
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if math.IsNaN(yraDelta) {
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return errors.New("nan secondary y-range delta")
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}
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}
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return nil
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}
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func (c Chart) getDefaultCanvasBox() Box {
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return c.Box()
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}
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func (c Chart) getValueFormatters() (x, y, ya ValueFormatter) {
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for _, s := range c.Series {
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if vfp, isVfp := s.(ValueFormatterProvider); isVfp {
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sx, sy := vfp.GetValueFormatters()
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if s.GetYAxis() == YAxisPrimary {
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x = sx
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y = sy
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} else if s.GetYAxis() == YAxisSecondary {
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x = sx
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ya = sy
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}
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}
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}
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if c.XAxis.ValueFormatter != nil {
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x = c.XAxis.GetValueFormatter()
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}
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if c.YAxis.ValueFormatter != nil {
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y = c.YAxis.GetValueFormatter()
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}
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if c.YAxisSecondary.ValueFormatter != nil {
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ya = c.YAxisSecondary.GetValueFormatter()
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}
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return
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}
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func (c Chart) hasAxes() bool {
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return c.XAxis.Style.Show || c.YAxis.Style.Show || c.YAxisSecondary.Style.Show
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}
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func (c Chart) getAxesTicks(r Renderer, xr, yr, yar Range, xf, yf, yfa ValueFormatter) (xticks, yticks, yticksAlt []Tick) {
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if c.XAxis.Style.Show {
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xticks = c.XAxis.GetTicks(r, xr, c.styleDefaultsAxes(), xf)
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}
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if c.YAxis.Style.Show {
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yticks = c.YAxis.GetTicks(r, yr, c.styleDefaultsAxes(), yf)
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}
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if c.YAxisSecondary.Style.Show {
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yticksAlt = c.YAxisSecondary.GetTicks(r, yar, c.styleDefaultsAxes(), yfa)
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}
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return
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}
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func (c Chart) getAxesAdjustedCanvasBox(r Renderer, canvasBox Box, xr, yr, yra Range, xticks, yticks, yticksAlt []Tick) Box {
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axesOuterBox := canvasBox.Clone()
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if c.XAxis.Style.Show {
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axesBounds := c.XAxis.Measure(r, canvasBox, xr, c.styleDefaultsAxes(), xticks)
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axesOuterBox = axesOuterBox.Grow(axesBounds)
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}
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if c.YAxis.Style.Show {
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axesBounds := c.YAxis.Measure(r, canvasBox, yr, c.styleDefaultsAxes(), yticks)
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axesOuterBox = axesOuterBox.Grow(axesBounds)
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}
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if c.YAxisSecondary.Style.Show {
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axesBounds := c.YAxisSecondary.Measure(r, canvasBox, yra, c.styleDefaultsAxes(), yticksAlt)
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axesOuterBox = axesOuterBox.Grow(axesBounds)
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}
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return canvasBox.OuterConstrain(c.Box(), axesOuterBox)
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}
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func (c Chart) setRangeDomains(canvasBox Box, xr, yr, yra Range) (Range, Range, Range) {
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xr.SetDomain(canvasBox.Width())
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yr.SetDomain(canvasBox.Height())
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yra.SetDomain(canvasBox.Height())
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return xr, yr, yra
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}
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func (c Chart) hasAnnotationSeries() bool {
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for _, s := range c.Series {
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if as, isAnnotationSeries := s.(AnnotationSeries); isAnnotationSeries {
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if as.Style.IsZero() || as.Style.Show {
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return true
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}
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}
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}
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return false
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}
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func (c Chart) hasSecondarySeries() bool {
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for _, s := range c.Series {
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if s.GetYAxis() == YAxisSecondary {
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return true
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}
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}
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return false
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}
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func (c Chart) getAnnotationAdjustedCanvasBox(r Renderer, canvasBox Box, xr, yr, yra Range, xf, yf, yfa ValueFormatter) Box {
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annotationSeriesBox := canvasBox.Clone()
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for seriesIndex, s := range c.Series {
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if as, isAnnotationSeries := s.(AnnotationSeries); isAnnotationSeries {
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if as.Style.IsZero() || as.Style.Show {
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style := c.styleDefaultsSeries(seriesIndex)
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var annotationBounds Box
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if as.YAxis == YAxisPrimary {
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annotationBounds = as.Measure(r, canvasBox, xr, yr, style)
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} else if as.YAxis == YAxisSecondary {
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annotationBounds = as.Measure(r, canvasBox, xr, yra, style)
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}
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annotationSeriesBox = annotationSeriesBox.Grow(annotationBounds)
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}
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}
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}
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return canvasBox.OuterConstrain(c.Box(), annotationSeriesBox)
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}
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func (c Chart) getBackgroundStyle() Style {
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return c.Background.InheritFrom(c.styleDefaultsBackground())
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}
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func (c Chart) drawBackground(r Renderer) {
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Draw.Box(r, Box{
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Right: c.GetWidth(),
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Bottom: c.GetHeight(),
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}, c.getBackgroundStyle())
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}
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func (c Chart) getCanvasStyle() Style {
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return c.Canvas.InheritFrom(c.styleDefaultsCanvas())
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}
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func (c Chart) drawCanvas(r Renderer, canvasBox Box) {
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Draw.Box(r, canvasBox, c.getCanvasStyle())
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}
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func (c Chart) drawAxes(r Renderer, canvasBox Box, xrange, yrange, yrangeAlt Range, xticks, yticks, yticksAlt []Tick) {
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if c.XAxis.Style.Show {
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c.XAxis.Render(r, canvasBox, xrange, c.styleDefaultsAxes(), xticks)
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}
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if c.YAxis.Style.Show {
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c.YAxis.Render(r, canvasBox, yrange, c.styleDefaultsAxes(), yticks)
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}
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if c.YAxisSecondary.Style.Show {
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c.YAxisSecondary.Render(r, canvasBox, yrangeAlt, c.styleDefaultsAxes(), yticksAlt)
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}
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}
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func (c Chart) drawSeries(r Renderer, canvasBox Box, xrange, yrange, yrangeAlt Range, s Series, seriesIndex int) {
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if s.GetStyle().IsZero() || s.GetStyle().Show {
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if s.GetYAxis() == YAxisPrimary {
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s.Render(r, canvasBox, xrange, yrange, c.styleDefaultsSeries(seriesIndex))
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} else if s.GetYAxis() == YAxisSecondary {
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s.Render(r, canvasBox, xrange, yrangeAlt, c.styleDefaultsSeries(seriesIndex))
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}
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}
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}
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func (c Chart) drawTitle(r Renderer) {
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if len(c.Title) > 0 && c.TitleStyle.Show {
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r.SetFont(c.TitleStyle.GetFont(c.GetFont()))
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r.SetFontColor(c.TitleStyle.GetFontColor(c.GetColorPalette().TextColor()))
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titleFontSize := c.TitleStyle.GetFontSize(DefaultTitleFontSize)
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r.SetFontSize(titleFontSize)
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textBox := r.MeasureText(c.Title)
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textWidth := textBox.Width()
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textHeight := textBox.Height()
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titleX := (c.GetWidth() >> 1) - (textWidth >> 1)
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titleY := c.TitleStyle.Padding.GetTop(DefaultTitleTop) + textHeight
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r.Text(c.Title, titleX, titleY)
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}
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}
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func (c Chart) styleDefaultsBackground() Style {
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return Style{
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FillColor: c.GetColorPalette().BackgroundColor(),
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StrokeColor: c.GetColorPalette().BackgroundStrokeColor(),
|
|
StrokeWidth: DefaultBackgroundStrokeWidth,
|
|
}
|
|
}
|
|
|
|
func (c Chart) styleDefaultsCanvas() Style {
|
|
return Style{
|
|
FillColor: c.GetColorPalette().CanvasColor(),
|
|
StrokeColor: c.GetColorPalette().CanvasStrokeColor(),
|
|
StrokeWidth: DefaultCanvasStrokeWidth,
|
|
}
|
|
}
|
|
|
|
func (c Chart) styleDefaultsSeries(seriesIndex int) Style {
|
|
return Style{
|
|
DotColor: c.GetColorPalette().GetSeriesColor(seriesIndex),
|
|
StrokeColor: c.GetColorPalette().GetSeriesColor(seriesIndex),
|
|
StrokeWidth: DefaultSeriesLineWidth,
|
|
Font: c.GetFont(),
|
|
FontSize: DefaultFontSize,
|
|
}
|
|
}
|
|
|
|
func (c Chart) styleDefaultsAxes() Style {
|
|
return Style{
|
|
Font: c.GetFont(),
|
|
FontColor: c.GetColorPalette().TextColor(),
|
|
FontSize: DefaultAxisFontSize,
|
|
StrokeColor: c.GetColorPalette().AxisStrokeColor(),
|
|
StrokeWidth: DefaultAxisLineWidth,
|
|
}
|
|
}
|
|
|
|
func (c Chart) styleDefaultsElements() Style {
|
|
return Style{
|
|
Font: c.GetFont(),
|
|
}
|
|
}
|
|
|
|
// GetColorPalette returns the color palette for the chart.
|
|
func (c Chart) GetColorPalette() ColorPalette {
|
|
if c.ColorPalette != nil {
|
|
return c.ColorPalette
|
|
}
|
|
return DefaultColorPalette
|
|
}
|
|
|
|
// Box returns the chart bounds as a box.
|
|
func (c Chart) Box() Box {
|
|
dpr := c.Background.Padding.GetRight(DefaultBackgroundPadding.Right)
|
|
dpb := c.Background.Padding.GetBottom(DefaultBackgroundPadding.Bottom)
|
|
|
|
return Box{
|
|
Top: c.Background.Padding.GetTop(DefaultBackgroundPadding.Top),
|
|
Left: c.Background.Padding.GetLeft(DefaultBackgroundPadding.Left),
|
|
Right: c.GetWidth() - dpr,
|
|
Bottom: c.GetHeight() - dpb,
|
|
}
|
|
}
|