// Plot implements the plot.Plotter interface. func (g *Grid) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) if g.Vertical.Color == nil { goto horiz } for _, tk := range plt.X.Tick.Marker(plt.X.Min, plt.X.Max) { if tk.IsMinor() { continue } x := trX(tk.Value) da.StrokeLine2(g.Vertical, x, da.Min.Y, x, da.Min.Y+da.Size.Y) } horiz: if g.Horizontal.Color == nil { return } for _, tk := range plt.Y.Tick.Marker(plt.Y.Min, plt.Y.Max) { if tk.IsMinor() { continue } y := trY(tk.Value) da.StrokeLine2(g.Horizontal, da.Min.X, y, da.Min.X+da.Size.X, y) } }
// Plot implements the plot.Plotter interface. func (b *BarChart) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) for i, ht := range b.Values { x := b.XMin + float64(i) xmin := trX(float64(x)) if !da.ContainsX(xmin) { continue } xmin = xmin - b.Width/2 + b.Offset xmax := xmin + b.Width bottom := b.stackedOn.BarHeight(i) ymin := trY(bottom) ymax := trY(bottom + ht) pts := []plot.Point{ {xmin, ymin}, {xmin, ymax}, {xmax, ymax}, {xmax, ymin}, } poly := da.ClipPolygonY(pts) da.FillPolygon(b.Color, poly) pts = append(pts, plot.Pt(xmin, ymin)) outline := da.ClipLinesY(pts) da.StrokeLines(b.LineStyle, outline...) } }
func (pt *Dots) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) da.SetColor(pt.Color) for i := range pt.Y { // Transform the data x, y coordinate of this bubble // to the corresponding drawing coordinate. x := trX(pt.X[i]) y := trY(pt.Y[i]) // Get the radius of this bubble. The radius // is specified in drawing units (i.e., its size // is given as the final size at which it will // be drawn) so it does not need to be transformed. rad := vg.Length(2) // Fill a circle centered at x,y on the draw area. var p vg.Path p.Move(x+rad, y) p.Arc(x, y, rad, 0, 2*math.Pi) p.Close() da.Fill(p) } }
func (s *SparkLines) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) w := vg.Length(1) da.SetLineWidth(w) _, _, ymin, ymax := s.DataRange() for _, d := range s.XYs { perc := float64(d.Y-ymin) / float64(ymax-ymin) c := BrightColorGradient.GetInterpolatedColorFor((perc*-1+1)*0.5 + 0.6) da.SetColor(c) // Transform the data x, y coordinate of this bubble // to the corresponding drawing coordinate. x := trX(d.X) y := trY(d.Y * 0.9) //rad := vg.Length(10) var p vg.Path p.Move(x-w, y) p.Line(x-w, 0) //p.Close() da.Stroke(p) //da.StrokeLine2(*sty, x, 0, x, y) } }
func (b *QuartPlot) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) x := trX(b.Location) if !da.ContainsX(x) { return } x += b.Offset med := plot.Pt(x, trY(b.Median)) q1 := trY(b.Quartile1) q3 := trY(b.Quartile3) aLow := trY(b.AdjLow) aHigh := trY(b.AdjHigh) da.StrokeLine2(b.WhiskerStyle, x, aHigh, x, q3) if da.ContainsY(med.Y) { da.DrawGlyphNoClip(b.MedianStyle, med) } da.StrokeLine2(b.WhiskerStyle, x, aLow, x, q1) ostyle := b.MedianStyle ostyle.Radius = b.MedianStyle.Radius / 2 for _, out := range b.Outside { y := trY(b.Value(out)) if da.ContainsY(y) { da.DrawGlyphNoClip(ostyle, plot.Pt(x, y)) } } }
// Plot draws the Line, implementing the plot.Plotter // interface. func (pts *Line) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) ps := make([]plot.Point, len(pts.XYs)) for i, p := range pts.XYs { ps[i].X = trX(p.X) ps[i].Y = trY(p.Y) } da.StrokeLines(pts.LineStyle, da.ClipLinesXY(ps)...) }
// Plot draws the Line, implementing the plot.Plotter interface. func (rp *ResponsePlotter) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) start := float64(rp.Response.GetStartTime()) step := float64(rp.Response.GetStepTime()) absent := rp.Response.IsAbsent lines := make([][]plot.Point, 1) lines[0] = make([]plot.Point, 0, len(rp.Response.Values)) /* ikruglov * swithing between lineMode and looping inside * is more branch-prediction friendly i.e. potentially faster */ switch rp.lineMode { case "slope": currentLine := 0 lastAbsent := false for i, v := range rp.Response.Values { if absent[i] { lastAbsent = true } else if lastAbsent { currentLine++ lines = append(lines, make([]plot.Point, 1)) lines[currentLine][0] = plot.Point{X: trX(start + float64(i)*step), Y: trY(v)} lastAbsent = false } else { lines[currentLine] = append(lines[currentLine], plot.Point{X: trX(start + float64(i)*step), Y: trY(v)}) } } case "connected": for i, v := range rp.Response.Values { if absent[i] { continue } lines[0] = append(lines[0], plot.Point{X: trX(start + float64(i)*step), Y: trY(v)}) } case "drawAsInfinite": for i, v := range rp.Response.Values { if !absent[i] && v > 0 { infiniteLine := []plot.Point{ plot.Point{X: trX(start + float64(i)*step), Y: da.Y(1)}, plot.Point{X: trX(start + float64(i)*step), Y: da.Y(0)}, } lines = append(lines, infiniteLine) } } //case "staircase": // TODO default: panic("Unimplemented " + rp.lineMode) } da.StrokeLines(rp.LineStyle, lines...) }
func (pts *VerticalLine) Plot(da plot.DrawArea, plt *plot.Plot) { trX, _ := plt.Transforms(&da) ps := make([]plot.Point, 2) ps[0].X = trX(pts.X) ps[1].X = ps[0].X ps[0].Y = da.Min.Y ps[1].Y = da.Max().Y da.StrokeLines(pts.LineStyle, da.ClipLinesXY(ps)...) }
// Plot implements the Plotter interface, drawing a line // that connects each point in the Line. func (f *Function) Plot(da plot.DrawArea, p *plot.Plot) { trX, trY := p.Transforms(&da) d := (p.X.Max - p.X.Min) / float64(f.Samples-1) line := make([]plot.Point, f.Samples) for i := range line { x := p.X.Min + float64(i)*d line[i].X = trX(x) line[i].Y = trY(f.F(x)) } da.StrokeLines(f.LineStyle, da.ClipLinesXY(line)...) }
func (pts *HorizontalLine) Plot(da plot.DrawArea, plt *plot.Plot) { _, trY := plt.Transforms(&da) ps := make([]plot.Point, 2) ps[0].X = da.Min.X ps[1].X = da.Max().X ps[0].Y = trY(pts.Y) ps[1].Y = ps[0].Y da.StrokeLines(pts.LineStyle, da.ClipLinesXY(ps)...) }
// Plot implements the Plotter interface, drawing labels. func (e *XErrorBars) Plot(da plot.DrawArea, p *plot.Plot) { trX, trY := p.Transforms(&da) for i, err := range e.XErrors { y := trY(e.XYs[i].Y) xlow := trX(e.XYs[i].X - math.Abs(err.Low)) xhigh := trX(e.XYs[i].X + math.Abs(err.High)) bar := da.ClipLinesX([]plot.Point{{xlow, y}, {xhigh, y}}) da.StrokeLines(e.LineStyle, bar...) e.drawCap(&da, xlow, y) e.drawCap(&da, xhigh, y) } }
// Plot implements the Plotter interface, drawing labels. func (e *YErrorBars) Plot(da plot.DrawArea, p *plot.Plot) { trX, trY := p.Transforms(&da) for i, err := range e.YErrors { x := trX(e.XYs[i].X) ylow := trY(e.XYs[i].Y - math.Abs(err.Low)) yhigh := trY(e.XYs[i].Y + math.Abs(err.High)) bar := da.ClipLinesY([]plot.Point{{x, ylow}, {x, yhigh}}) da.StrokeLines(e.LineStyle, bar...) e.drawCap(&da, x, ylow) e.drawCap(&da, x, yhigh) } }
// Plot implements the Plotter interface, drawing labels. func (l *Labels) Plot(da plot.DrawArea, p *plot.Plot) { trX, trY := p.Transforms(&da) for i, label := range l.Labels { x := trX(l.XYs[i].X) y := trY(l.XYs[i].Y) if !da.Contains(plot.Pt(x, y)) { continue } x += l.XOffset y += l.YOffset da.FillText(l.TextStyle, x, y, l.XAlign, l.YAlign, label) } }
// Plot implements the plot.Plotter interface. func (cg *ColorGrid) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) for i, d := range cg.XYZs { if i%cg.Ny != cg.Ny-1 && i < cg.Nx*cg.Ny-cg.Ny { pts := []plot.Point{ {trX(d.X), trY(d.Y)}, {trX(cg.XYZs[i+cg.Ny].X), trY(cg.XYZs[i+cg.Ny].Y)}, {trX(cg.XYZs[i+cg.Ny+1].X), trY(cg.XYZs[i+cg.Ny+1].Y)}, {trX(cg.XYZs[i+1].X), trY(cg.XYZs[i+1].Y)}, } da.FillPolygon(color.Gray{uint8((d.Z - cg.MinZ) / math.Abs(cg.MaxZ-cg.MinZ) * 255.0)}, pts) } } }
// Plot implements the Plotter interface, drawing a line // that connects each point in the Line. func (h *Histogram) Plot(da plot.DrawArea, p *plot.Plot) { trX, trY := p.Transforms(&da) for _, bin := range h.Bins { pts := []plot.Point{ {trX(bin.Min), trY(0)}, {trX(bin.Max), trY(0)}, {trX(bin.Max), trY(bin.Weight)}, {trX(bin.Min), trY(bin.Weight)}, } if h.FillColor != nil { da.FillPolygon(h.FillColor, da.ClipPolygonXY(pts)) } pts = append(pts, plot.Pt(trX(bin.Min), trY(0))) da.StrokeLines(h.LineStyle, da.ClipLinesXY(pts)...) } }
func (b *BoxPlot) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) x := trX(b.Location) if !da.ContainsX(x) { return } med := trY(b.Median) q1 := trY(b.Quartile1) q3 := trY(b.Quartile3) aLow := trY(b.AdjLow) aHigh := trY(b.AdjHigh) box := da.ClipLinesY([]plot.Point{ {x - b.Width/2, q1}, {x - b.Width/2, q3}, {x + b.Width/2, q3}, {x + b.Width/2, q1}, {x - b.Width/2 - b.BoxStyle.Width/2, q1}, }) da.StrokeLines(b.BoxStyle, box...) medLine := da.ClipLinesY([]plot.Point{ {x - b.Width/2, med}, {x + b.Width/2, med}, }) da.StrokeLines(b.MedianStyle, medLine...) cap := b.CapWidth / 2 whisks := da.ClipLinesY([]plot.Point{{x, q3}, {x, aHigh}}, []plot.Point{{x - cap, aHigh}, {x + cap, aHigh}}, []plot.Point{{x, q1}, {x, aLow}}, []plot.Point{{x - cap, aLow}, {x + cap, aLow}}) da.StrokeLines(b.WhiskerStyle, whisks...) for _, out := range b.Outside { y := trY(b.Value(out)) da.DrawGlyph(b.GlyphStyle, plot.Point{x, y}) } }
func (b HorizBoxPlot) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) y := trY(b.Location) if !da.ContainsY(y) { return } med := trX(b.Median) q1 := trX(b.Quartile1) q3 := trX(b.Quartile3) aLow := trX(b.AdjLow) aHigh := trX(b.AdjHigh) box := da.ClipLinesX([]plot.Point{ {q1, y - b.Width/2}, {q3, y - b.Width/2}, {q3, y + b.Width/2}, {q1, y + b.Width/2}, {q1, y - b.Width/2 - b.BoxStyle.Width/2}, }) da.StrokeLines(b.BoxStyle, box...) medLine := da.ClipLinesX([]plot.Point{ {med, y - b.Width/2}, {med, y + b.Width/2}, }) da.StrokeLines(b.MedianStyle, medLine...) cap := b.CapWidth / 2 whisks := da.ClipLinesX([]plot.Point{{q3, y}, {aHigh, y}}, []plot.Point{{aHigh, y - cap}, {aHigh, y + cap}}, []plot.Point{{q1, y}, {aLow, y}}, []plot.Point{{aLow, y - cap}, {aLow, y + cap}}) da.StrokeLines(b.WhiskerStyle, whisks...) for _, out := range b.Outside { x := trX(b.Value(out)) da.DrawGlyph(b.GlyphStyle, plot.Point{x, y}) } }
// Plot implements the Plot method of the plot.Plotter interface. func (bs *Bubbles) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) da.SetColor(bs.Color) for _, d := range bs.XYZs { x := trX(d.X) y := trY(d.Y) if !da.Contains(plot.Point{x, y}) { continue } rad := bs.radius(d.Z) // draw a circle centered at x, y var p vg.Path p.Move(x+rad, y) p.Arc(x, y, rad, 0, 2*math.Pi) p.Close() da.Fill(p) } }
func (b HorizQuartPlot) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) y := trY(b.Location) if !da.ContainsY(y) { return } med := plot.Pt(trX(b.Median), y) q1 := trX(b.Quartile1) q3 := trX(b.Quartile3) aLow := trX(b.AdjLow) aHigh := trX(b.AdjHigh) da.StrokeLine2(b.WhiskerStyle, aHigh, y, q3, y) da.DrawGlyph(b.MedianStyle, med) da.StrokeLine2(b.WhiskerStyle, aLow, y, q1, y) ostyle := b.MedianStyle ostyle.Radius = b.MedianStyle.Radius / 2 for _, out := range b.Outside { x := trX(b.Value(out)) da.DrawGlyph(ostyle, plot.Pt(x, y)) } }
// Plot draws the Line, implementing the plot.Plotter // interface. func (pts *Line) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) ps := make([]plot.Point, len(pts.XYs)) for i, p := range pts.XYs { ps[i].X = trX(p.X) ps[i].Y = trY(p.Y) } if pts.ShadeColor != nil && len(ps) > 0 { da.SetColor(*pts.ShadeColor) minY := trY(plt.Y.Min) var pa vg.Path pa.Move(ps[0].X, minY) for i := range pts.XYs { pa.Line(ps[i].X, ps[i].Y) } pa.Line(ps[len(pts.XYs)-1].X, minY) pa.Close() da.Fill(pa) } da.StrokeLines(pts.LineStyle, da.ClipLinesXY(ps)...) }
// Plot draws the Scatter, implementing the plot.Plotter // interface. func (pts *Scatter) Plot(da plot.DrawArea, plt *plot.Plot) { trX, trY := plt.Transforms(&da) for _, p := range pts.XYs { da.DrawGlyph(pts.GlyphStyle, plot.Pt(trX(p.X), trY(p.Y))) } }