go-chart/chart.go
Will Charczuk f71ffc98a5 whoopsie.
2016-07-07 21:07:47 -07:00

391 lines
10 KiB
Go

package chart
import (
"errors"
"io"
"math"
"github.com/golang/freetype/truetype"
)
// Chart is what we're drawing.
type Chart struct {
Title string
TitleStyle Style
Width int
Height int
Background Style
Canvas Style
Axes Style
FinalValueLabel Style
XRange Range
YRange Range
Font *truetype.Font
Series []Series
}
// GetFont returns the text font.
func (c Chart) GetFont() (*truetype.Font, error) {
if c.Font != nil {
return c.Font, nil
}
return GetDefaultFont()
}
// Render renders the chart with the given renderer to the given io.Writer.
func (c *Chart) Render(provider RendererProvider, w io.Writer) error {
if len(c.Series) == 0 {
return errors.New("Please provide at least one series")
}
r := provider(c.Width, c.Height)
if c.hasText() {
font, err := c.GetFont()
if err != nil {
return err
}
r.SetFont(font)
}
canvasBox := c.calculateCanvasBox(r)
xrange, yrange := c.initRanges(canvasBox)
c.drawBackground(r)
c.drawCanvas(r, canvasBox)
c.drawAxes(r, canvasBox, xrange, yrange)
for index, series := range c.Series {
c.drawSeries(r, canvasBox, index, series, xrange, yrange)
}
c.drawTitle(r)
return r.Save(w)
}
func (c Chart) hasText() bool {
return c.TitleStyle.Show || c.Axes.Show || c.FinalValueLabel.Show
}
func (c Chart) getAxisWidth() int {
asw := 0
if c.Axes.Show {
asw = int(c.Axes.GetStrokeWidth(DefaultAxisLineWidth))
}
return asw
}
func (c Chart) calculateCanvasBox(r Renderer) Box {
dpr := DefaultBackgroundPadding.Right
finalLabelWidth := c.calculateFinalLabelWidth(r)
if finalLabelWidth > dpr {
dpr = finalLabelWidth
}
axisBottomHeight := c.calculateBottomLabelHeight()
dpb := DefaultBackgroundPadding.Bottom
if dpb < axisBottomHeight {
dpb = axisBottomHeight
}
cb := Box{
Top: c.Background.Padding.GetTop(DefaultBackgroundPadding.Top),
Left: c.Background.Padding.GetLeft(DefaultBackgroundPadding.Left),
Right: c.Width - c.Background.Padding.GetRight(dpr),
Bottom: c.Height - c.Background.Padding.GetBottom(dpb),
}
cb.Height = cb.Bottom - cb.Top
cb.Width = cb.Right - cb.Left
return cb
}
func (c Chart) calculateFinalLabelWidth(r Renderer) int {
if !c.FinalValueLabel.Show {
return 0
}
var finalLabelText string
for _, s := range c.Series {
_, lv := s.GetValue(s.Len() - 1)
ll := s.GetYFormatter()(lv)
if len(finalLabelText) < len(ll) {
finalLabelText = ll
}
}
r.SetFontSize(c.FinalValueLabel.GetFontSize(DefaultFinalLabelFontSize))
textWidth := r.MeasureText(finalLabelText)
asw := c.getAxisWidth()
pl := c.FinalValueLabel.Padding.GetLeft(DefaultFinalLabelPadding.Left)
pr := c.FinalValueLabel.Padding.GetRight(DefaultFinalLabelPadding.Right)
lsw := int(c.FinalValueLabel.GetStrokeWidth(DefaultAxisLineWidth))
return DefaultFinalLabelDeltaWidth +
pl + pr +
textWidth + asw + 2*lsw
}
func (c Chart) calculateBottomLabelHeight() int {
if c.Axes.Show {
return c.getAxisWidth() + int(math.Ceil(c.Axes.GetFontSize(DefaultAxisFontSize))) + DefaultXAxisMargin
}
return 0
}
func (c Chart) initRanges(canvasBox Box) (xrange Range, yrange Range) {
//iterate over each series, pull out the min/max for x,y
var didSetFirstValues bool
var globalMinY, globalMinX float64
var globalMaxY, globalMaxX float64
for _, s := range c.Series {
seriesLength := s.Len()
for index := 0; index < seriesLength; index++ {
vx, vy := s.GetValue(index)
if didSetFirstValues {
if globalMinX > vx {
globalMinX = vx
}
if globalMinY > vy {
globalMinY = vy
}
if globalMaxX < vx {
globalMaxX = vx
}
if globalMaxY < vy {
globalMaxY = vy
}
} else {
globalMinX, globalMaxX = vx, vx
globalMinY, globalMaxY = vy, vy
didSetFirstValues = true
}
}
xrange.Formatter = s.GetXFormatter()
yrange.Formatter = s.GetYFormatter()
}
if c.XRange.IsZero() {
xrange.Min = globalMinX
xrange.Max = globalMaxX
} else {
xrange.Min = c.XRange.Min
xrange.Max = c.XRange.Max
}
xrange.Domain = canvasBox.Width
if c.YRange.IsZero() {
yrange.Min = globalMinY
yrange.Max = globalMaxY
} else {
yrange.Min = c.YRange.Min
yrange.Max = c.YRange.Max
}
yrange.Domain = canvasBox.Height
return
}
func (c Chart) drawBackground(r Renderer) {
r.SetFillColor(c.Background.GetFillColor(DefaultBackgroundColor))
r.SetStrokeColor(c.Background.GetStrokeColor(DefaultBackgroundStrokeColor))
r.SetLineWidth(c.Background.GetStrokeWidth(DefaultStrokeWidth))
r.MoveTo(0, 0)
r.LineTo(c.Width, 0)
r.LineTo(c.Width, c.Height)
r.LineTo(0, c.Height)
r.LineTo(0, 0)
r.Close()
r.FillStroke()
}
func (c Chart) drawCanvas(r Renderer, canvasBox Box) {
r.SetFillColor(c.Canvas.GetFillColor(DefaultCanvasColor))
r.SetStrokeColor(c.Canvas.GetStrokeColor(DefaultCanvasStrokColor))
r.SetLineWidth(c.Canvas.GetStrokeWidth(DefaultStrokeWidth))
r.MoveTo(canvasBox.Left, canvasBox.Top)
r.LineTo(canvasBox.Right, canvasBox.Top)
r.LineTo(canvasBox.Right, canvasBox.Bottom)
r.LineTo(canvasBox.Left, canvasBox.Bottom)
r.LineTo(canvasBox.Left, canvasBox.Top)
r.Close()
r.FillStroke()
}
func (c Chart) drawAxes(r Renderer, canvasBox Box, xrange, yrange Range) {
if c.Axes.Show {
r.SetStrokeColor(c.Axes.GetStrokeColor(DefaultAxisColor))
r.SetLineWidth(c.Axes.GetStrokeWidth(DefaultStrokeWidth))
r.MoveTo(canvasBox.Left, canvasBox.Bottom)
r.LineTo(canvasBox.Right, canvasBox.Bottom)
r.LineTo(canvasBox.Right, canvasBox.Top)
r.Stroke()
c.drawXAxisLabels(r, canvasBox, xrange)
c.drawYAxisLabels(r, canvasBox, yrange)
}
}
func (c Chart) drawYAxisLabels(r Renderer, canvasBox Box, yrange Range) {
tickFontSize := c.Axes.GetFontSize(DefaultAxisFontSize)
r.SetFontColor(c.Axes.GetFontColor(DefaultAxisColor))
r.SetFontSize(tickFontSize)
minimumTickHeight := tickFontSize + DefaultMinimumTickVerticalSpacing
tickCount := int(math.Floor(float64(yrange.Domain) / float64(minimumTickHeight)))
if tickCount > DefaultMaxTickCount {
tickCount = DefaultMaxTickCount
}
rangeTicks := Slices(tickCount, yrange.Max-yrange.Min)
domainTicks := Slices(tickCount, float64(yrange.Domain))
asw := c.getAxisWidth()
tx := canvasBox.Right + DefaultFinalLabelDeltaWidth + asw
count := len(rangeTicks)
if len(domainTicks) < count {
count = len(domainTicks) //guard against mismatched array sizes.
}
for index := 0; index < count; index++ {
v := rangeTicks[index] + yrange.Min
y := domainTicks[index]
ty := canvasBox.Bottom - int(y)
r.Text(yrange.Format(v), tx, ty)
}
}
func (c Chart) drawXAxisLabels(r Renderer, canvasBox Box, xrange Range) {
tickFontSize := c.Axes.GetFontSize(DefaultAxisFontSize)
r.SetFontColor(c.Axes.GetFontColor(DefaultAxisColor))
r.SetFontSize(tickFontSize)
maxLabelWidth := 60
minimumTickWidth := maxLabelWidth + DefaultMinimumTickHorizontalSpacing
tickCount := int(math.Floor(float64(xrange.Domain) / float64(minimumTickWidth)))
if tickCount > DefaultMaxTickCount {
tickCount = DefaultMaxTickCount
}
rangeTicks := Slices(tickCount, xrange.Max-xrange.Min)
domainTicks := Slices(tickCount, float64(xrange.Domain))
ty := canvasBox.Bottom + DefaultXAxisMargin + int(tickFontSize)
count := len(rangeTicks)
if len(domainTicks) < count {
count = len(domainTicks) //guard against mismatched array sizes.
}
for index := 0; index < count; index++ {
v := rangeTicks[index] + xrange.Min
x := domainTicks[index]
tx := canvasBox.Left + int(x)
r.Text(xrange.Format(v), tx, ty)
}
}
func (c Chart) drawSeries(r Renderer, canvasBox Box, index int, s Series, xrange, yrange Range) {
r.SetStrokeColor(s.GetStyle().GetStrokeColor(GetDefaultSeriesStrokeColor(index)))
r.SetLineWidth(s.GetStyle().GetStrokeWidth(DefaultStrokeWidth))
if s.Len() == 0 {
return
}
cx := canvasBox.Left
cy := canvasBox.Top
cw := canvasBox.Width
v0x, v0y := s.GetValue(0)
x0 := cw - xrange.Translate(v0x)
y0 := yrange.Translate(v0y)
r.MoveTo(x0+cx, y0+cy)
var vx, vy float64
var x, y int
for i := 1; i < s.Len(); i++ {
vx, vy = s.GetValue(i)
x = cw - xrange.Translate(vx)
y = yrange.Translate(vy)
r.LineTo(x+cx, y+cy)
}
r.Stroke()
c.drawFinalValueLabel(r, canvasBox, index, s, yrange)
}
func (c Chart) drawFinalValueLabel(r Renderer, canvasBox Box, index int, s Series, yrange Range) {
if c.FinalValueLabel.Show {
_, lv := s.GetValue(s.Len() - 1)
ll := s.GetYFormatter()(lv)
py := canvasBox.Top
ly := yrange.Translate(lv) + py
r.SetFontSize(c.FinalValueLabel.GetFontSize(DefaultFinalLabelFontSize))
textWidth := r.MeasureText(ll)
textHeight := int(math.Floor(DefaultFinalLabelFontSize))
halfTextHeight := textHeight >> 1
asw := 0
if c.Axes.Show {
asw = int(c.Axes.GetStrokeWidth(DefaultAxisLineWidth))
}
cx := canvasBox.Right + asw
pt := c.FinalValueLabel.Padding.GetTop(DefaultFinalLabelPadding.Top)
pl := c.FinalValueLabel.Padding.GetLeft(DefaultFinalLabelPadding.Left)
pr := c.FinalValueLabel.Padding.GetRight(DefaultFinalLabelPadding.Right)
pb := c.FinalValueLabel.Padding.GetBottom(DefaultFinalLabelPadding.Bottom)
textX := cx + pl + DefaultFinalLabelDeltaWidth
textY := ly + halfTextHeight
ltlx := cx + pl + DefaultFinalLabelDeltaWidth
ltly := ly - (pt + halfTextHeight)
ltrx := cx + pl + pr + textWidth
ltry := ly - (pt + halfTextHeight)
lbrx := cx + pl + pr + textWidth
lbry := ly + (pb + halfTextHeight)
lblx := cx + DefaultFinalLabelDeltaWidth
lbly := ly + (pb + halfTextHeight)
//draw the shape...
r.SetFillColor(c.FinalValueLabel.GetFillColor(DefaultFinalLabelBackgroundColor))
r.SetStrokeColor(c.FinalValueLabel.GetStrokeColor(s.GetStyle().GetStrokeColor(GetDefaultSeriesStrokeColor(index))))
r.SetLineWidth(c.FinalValueLabel.GetStrokeWidth(DefaultAxisLineWidth))
r.MoveTo(cx, ly)
r.LineTo(ltlx, ltly)
r.LineTo(ltrx, ltry)
r.LineTo(lbrx, lbry)
r.LineTo(lblx, lbly)
r.LineTo(cx, ly)
r.Close()
r.FillStroke()
r.SetFontColor(c.FinalValueLabel.GetFontColor(DefaultTextColor))
r.Text(ll, textX, textY)
}
}
func (c Chart) drawTitle(r Renderer) error {
if len(c.Title) > 0 && c.TitleStyle.Show {
r.SetFontColor(c.Canvas.GetFontColor(DefaultTextColor))
titleFontSize := c.Canvas.GetFontSize(DefaultTitleFontSize)
r.SetFontSize(titleFontSize)
textWidth := r.MeasureText(c.Title)
titleX := (c.Width >> 1) - (textWidth >> 1)
titleY := c.TitleStyle.Padding.GetTop(DefaultTitleTop) + int(titleFontSize)
r.Text(c.Title, titleX, titleY)
}
return nil
}