// Copyright 2010 The draw2d Authors. All rights reserved. // created: 21/11/2010 by Laurent Le Goff // +build ignore package main import ( "bufio" "fmt" "image" "image/color" "image/png" "log" "math" "os" "github.com/llgcode/draw2d" ) const ( w, h = 512, 512 ) var ( lastTime int64 folder = "../resource/result/" ) func initGc(w, h int) (image.Image, draw2d.GraphicContext) { i := image.NewRGBA(image.Rect(0, 0, w, h)) gc := draw2d.NewGraphicContext(i) gc.SetStrokeColor(image.Black) gc.SetFillColor(image.White) // fill the background //gc.Clear() return i, gc } func saveToPngFile(TestName string, m image.Image) { filePath := folder + TestName + ".png" f, err := os.Create(filePath) if err != nil { log.Println(err) os.Exit(1) } defer f.Close() b := bufio.NewWriter(f) err = png.Encode(b, m) if err != nil { log.Println(err) os.Exit(1) } err = b.Flush() if err != nil { log.Println(err) os.Exit(1) } fmt.Printf("Wrote %s OK.\n", filePath) } /* */ func TestRectangle() { i, gc := initGc(w, h) gc.Translate(10, 10) gc.MoveTo(0.0, 0.0) gc.LineTo(100.0, 00.0) gc.LineTo(100.0, 100.0) gc.LineTo(0.0, 100.0) gc.LineTo(0.0, 0.0) gc.FillStroke() saveToPngFile("TestRectangle", i) } /* */ func TestDrawArc() { i, gc := initGc(w, h) // draw an arc xc, yc := 128.0, 128.0 radiusX, radiusY := 100.0, 100.0 startAngle := 45.0 * (math.Pi / 180.0) /* angles are specified */ angle := 135 * (math.Pi / 180.0) /* in radians */ gc.SetLineWidth(10) gc.SetLineCap(draw2d.ButtCap) gc.SetStrokeColor(image.Black) gc.ArcTo(xc, yc, radiusX, radiusY, startAngle, angle) gc.Stroke() // fill a circle gc.SetStrokeColor(color.NRGBA{255, 0x33, 0x33, 0x80}) gc.SetFillColor(color.NRGBA{255, 0x33, 0x33, 0x80}) gc.SetLineWidth(6) gc.MoveTo(xc, yc) gc.LineTo(xc+math.Cos(startAngle)*radiusX, yc+math.Sin(startAngle)*radiusY) gc.MoveTo(xc, yc) gc.LineTo(xc-radiusX, yc) gc.Stroke() gc.ArcTo(xc, yc, 10.0, 10.0, 0, 2*math.Pi) gc.Fill() saveToPngFile("TestDrawArc", i) } /* */ func TestDrawArcNegative() { i, gc := initGc(w, h) // draw an arc xc, yc := 128.0, 128.0 radiusX, radiusY := 100.0, 100.0 startAngle := 45.0 * (math.Pi / 180.0) /* angles are specified */ angle := -225 * (math.Pi / 180.0) /* in radians */ gc.SetLineWidth(10) gc.SetLineCap(draw2d.ButtCap) gc.SetStrokeColor(image.Black) gc.ArcTo(xc, yc, radiusX, radiusY, startAngle, angle) gc.Stroke() // fill a circle gc.SetStrokeColor(color.NRGBA{255, 0x33, 0x33, 0x80}) gc.SetFillColor(color.NRGBA{255, 0x33, 0x33, 0x80}) gc.SetLineWidth(6) gc.MoveTo(xc, yc) gc.LineTo(xc+math.Cos(startAngle)*radiusX, yc+math.Sin(startAngle)*radiusY) gc.MoveTo(xc, yc) gc.LineTo(xc-radiusX, yc) gc.Stroke() gc.ArcTo(xc, yc, 10.0, 10.0, 0, 2*math.Pi) gc.Fill() saveToPngFile("TestDrawArcNegative", i) } func TestCurveRectangle() { i, gc := initGc(w, h) /* a custom shape that could be wrapped in a function */ x0, y0 := 25.6, 25.6 /* parameters like cairo_rectangle */ rect_width, rect_height := 204.8, 204.8 radius := 102.4 /* and an approximate curvature radius */ x1 := x0 + rect_width y1 := y0 + rect_height if rect_width/2 < radius { if rect_height/2 < radius { gc.MoveTo(x0, (y0+y1)/2) gc.CubicCurveTo(x0, y0, x0, y0, (x0+x1)/2, y0) gc.CubicCurveTo(x1, y0, x1, y0, x1, (y0+y1)/2) gc.CubicCurveTo(x1, y1, x1, y1, (x1+x0)/2, y1) gc.CubicCurveTo(x0, y1, x0, y1, x0, (y0+y1)/2) } else { gc.MoveTo(x0, y0+radius) gc.CubicCurveTo(x0, y0, x0, y0, (x0+x1)/2, y0) gc.CubicCurveTo(x1, y0, x1, y0, x1, y0+radius) gc.LineTo(x1, y1-radius) gc.CubicCurveTo(x1, y1, x1, y1, (x1+x0)/2, y1) gc.CubicCurveTo(x0, y1, x0, y1, x0, y1-radius) } } else { if rect_height/2 < radius { gc.MoveTo(x0, (y0+y1)/2) gc.CubicCurveTo(x0, y0, x0, y0, x0+radius, y0) gc.LineTo(x1-radius, y0) gc.CubicCurveTo(x1, y0, x1, y0, x1, (y0+y1)/2) gc.CubicCurveTo(x1, y1, x1, y1, x1-radius, y1) gc.LineTo(x0+radius, y1) gc.CubicCurveTo(x0, y1, x0, y1, x0, (y0+y1)/2) } else { gc.MoveTo(x0, y0+radius) gc.CubicCurveTo(x0, y0, x0, y0, x0+radius, y0) gc.LineTo(x1-radius, y0) gc.CubicCurveTo(x1, y0, x1, y0, x1, y0+radius) gc.LineTo(x1, y1-radius) gc.CubicCurveTo(x1, y1, x1, y1, x1-radius, y1) gc.LineTo(x0+radius, y1) gc.CubicCurveTo(x0, y1, x0, y1, x0, y1-radius) } } gc.Close() gc.SetFillColor(color.NRGBA{0x80, 0x80, 0xFF, 0xFF}) gc.SetStrokeColor(color.NRGBA{0x80, 0, 0, 0x80}) gc.SetLineWidth(10.0) gc.FillStroke() saveToPngFile("TestCurveRectangle", i) } /* */ func TestDrawCubicCurve() { i, gc := initGc(w, h) // draw a cubic curve x, y := 25.6, 128.0 x1, y1 := 102.4, 230.4 x2, y2 := 153.6, 25.6 x3, y3 := 230.4, 128.0 gc.SetFillColor(color.NRGBA{0xAA, 0xAA, 0xAA, 0xFF}) gc.SetLineWidth(10) gc.MoveTo(x, y) gc.CubicCurveTo(x1, y1, x2, y2, x3, y3) gc.Stroke() gc.SetStrokeColor(color.NRGBA{0xFF, 0x33, 0x33, 0x88}) gc.SetLineWidth(6) // draw segment of curve gc.MoveTo(x, y) gc.LineTo(x1, y1) gc.LineTo(x2, y2) gc.LineTo(x3, y3) gc.Stroke() saveToPngFile("TestDrawCubicCurve", i) } /* */ func TestDash() { i, gc := initGc(w, h) gc.SetLineDash([]float64{50, 10, 10, 10}, -50.0) gc.SetLineCap(draw2d.ButtCap) gc.SetLineJoin(draw2d.BevelJoin) gc.SetLineWidth(10) gc.MoveTo(128.0, 25.6) gc.LineTo(128.0, 25.6) gc.LineTo(230.4, 230.4) gc.RLineTo(-102.4, 0.0) gc.CubicCurveTo(51.2, 230.4, 51.2, 128.0, 128.0, 128.0) gc.Stroke() gc.SetLineDash(nil, 0.0) saveToPngFile("TestDash", i) } /* */ func TestFillStroke() { i, gc := initGc(w, h) gc.MoveTo(128.0, 25.6) gc.LineTo(230.4, 230.4) gc.RLineTo(-102.4, 0.0) gc.CubicCurveTo(51.2, 230.4, 51.2, 128.0, 128.0, 128.0) gc.Close() gc.MoveTo(64.0, 25.6) gc.RLineTo(51.2, 51.2) gc.RLineTo(-51.2, 51.2) gc.RLineTo(-51.2, -51.2) gc.Close() gc.SetLineWidth(10.0) gc.SetFillColor(color.NRGBA{0, 0, 0xFF, 0xFF}) gc.SetStrokeColor(image.Black) gc.FillStroke() saveToPngFile("TestFillStroke", i) } /* */ func TestFillStyle() { i, gc := initGc(w, h) gc.SetLineWidth(6) draw2d.Rect(gc, 12, 12, 244, 70) wheel1 := new(draw2d.PathStorage) wheel1.ArcTo(64, 64, 40, 40, 0, 2*math.Pi) wheel2 := new(draw2d.PathStorage) wheel2.ArcTo(192, 64, 40, 40, 0, 2*math.Pi) gc.SetFillRule(draw2d.FillRuleEvenOdd) gc.SetFillColor(color.NRGBA{0, 0xB2, 0, 0xFF}) gc.SetStrokeColor(image.Black) gc.FillStroke(wheel1, wheel2) draw2d.Rect(gc, 12, 140, 244, 198) wheel1 = new(draw2d.PathStorage) wheel1.ArcTo(64, 192, 40, 40, 0, 2*math.Pi) wheel2 = new(draw2d.PathStorage) wheel2.ArcTo(192, 192, 40, 40, 0, -2*math.Pi) gc.SetFillRule(draw2d.FillRuleWinding) gc.SetFillColor(color.NRGBA{0, 0, 0xE5, 0xFF}) gc.FillStroke(wheel1, wheel2) saveToPngFile("TestFillStyle", i) } func TestMultiSegmentCaps() { i, gc := initGc(w, h) gc.MoveTo(50.0, 75.0) gc.LineTo(200.0, 75.0) gc.MoveTo(50.0, 125.0) gc.LineTo(200.0, 125.0) gc.MoveTo(50.0, 175.0) gc.LineTo(200.0, 175.0) gc.SetLineWidth(30.0) gc.SetLineCap(draw2d.RoundCap) gc.Stroke() saveToPngFile("TestMultiSegmentCaps", i) } func TestRoundRectangle() { i, gc := initGc(w, h) /* a custom shape that could be wrapped in a function */ x, y := 25.6, 25.6 width, height := 204.8, 204.8 aspect := 1.0 /* aspect ratio */ corner_radius := height / 10.0 /* and corner curvature radius */ radius := corner_radius / aspect degrees := math.Pi / 180.0 gc.ArcTo(x+width-radius, y+radius, radius, radius, -90*degrees, 90*degrees) gc.ArcTo(x+width-radius, y+height-radius, radius, radius, 0*degrees, 90*degrees) gc.ArcTo(x+radius, y+height-radius, radius, radius, 90*degrees, 90*degrees) gc.ArcTo(x+radius, y+radius, radius, radius, 180*degrees, 90*degrees) gc.Close() gc.SetFillColor(color.NRGBA{0x80, 0x80, 0xFF, 0xFF}) gc.SetStrokeColor(color.NRGBA{0x80, 0, 0, 0x80}) gc.SetLineWidth(10.0) gc.FillStroke() saveToPngFile("TestRoundRectangle", i) } func TestLineCap() { i, gc := initGc(w, h) gc.SetLineWidth(30.0) gc.SetLineCap(draw2d.ButtCap) gc.MoveTo(64.0, 50.0) gc.LineTo(64.0, 200.0) gc.Stroke() gc.SetLineCap(draw2d.RoundCap) gc.MoveTo(128.0, 50.0) gc.LineTo(128.0, 200.0) gc.Stroke() gc.SetLineCap(draw2d.SquareCap) gc.MoveTo(192.0, 50.0) gc.LineTo(192.0, 200.0) gc.Stroke() /* draw helping lines */ gc.SetStrokeColor(color.NRGBA{0xFF, 0x33, 0x33, 0xFF}) gc.SetLineWidth(2.56) gc.MoveTo(64.0, 50.0) gc.LineTo(64.0, 200.0) gc.MoveTo(128.0, 50.0) gc.LineTo(128.0, 200.0) gc.MoveTo(192.0, 50.0) gc.LineTo(192.0, 200.0) gc.Stroke() saveToPngFile("TestLineCap", i) } func TestLineJoin() { i, gc := initGc(w, h) gc.SetLineWidth(40.96) gc.MoveTo(76.8, 84.48) gc.RLineTo(51.2, -51.2) gc.RLineTo(51.2, 51.2) gc.SetLineJoin(draw2d.MiterJoin) /* default */ gc.Stroke() gc.MoveTo(76.8, 161.28) gc.RLineTo(51.2, -51.2) gc.RLineTo(51.2, 51.2) gc.SetLineJoin(draw2d.BevelJoin) gc.Stroke() gc.MoveTo(76.8, 238.08) gc.RLineTo(51.2, -51.2) gc.RLineTo(51.2, 51.2) gc.SetLineJoin(draw2d.RoundJoin) gc.Stroke() saveToPngFile("TestLineJoin", i) } func TestBubble() { i, gc := initGc(w, h) gc.BeginPath() gc.MoveTo(75, 25) gc.QuadCurveTo(25, 25, 25, 62.5) gc.QuadCurveTo(25, 100, 50, 100) gc.QuadCurveTo(50, 120, 30, 125) gc.QuadCurveTo(60, 120, 65, 100) gc.QuadCurveTo(125, 100, 125, 62.5) gc.QuadCurveTo(125, 25, 75, 25) gc.Stroke() saveToPngFile("TestBubble", i) } func TestStar() { i, gc := initGc(w, h) for i := 0.0; i < 360; i = i + 10 { // Go from 0 to 360 degrees in 10 degree steps gc.Save() gc.SetLineWidth(5) // Keep rotations temporary gc.Translate(144, 144) gc.Rotate(i * (math.Pi / 180.0)) // Rotate by degrees on stack from 'for' gc.MoveTo(0, 0) gc.LineTo(72, 0) gc.Stroke() gc.Restore() } saveToPngFile("TestStar", i) } func TestTransform() { i, gc := initGc(800, 600) gc.Save() gc.Translate(40, 40) // Set origin to (40, 40) gc.BeginPath() gc.MoveTo(0, 0) gc.RLineTo(72, 0) gc.RLineTo(0, 72) gc.RLineTo(-72, 0) gc.Close() gc.Stroke() gc.Restore() gc.Save() gc.Translate(100, 150) // Translate origin to (100, 150) gc.Rotate(30 * (math.Pi / 180.0)) // Rotate counter-clockwise by 30 degrees gc.BeginPath() gc.MoveTo(0, 0) gc.RLineTo(72, 0) gc.RLineTo(0, 72) gc.RLineTo(-72, 0) gc.Close() // Draw box... gc.Stroke() gc.Restore() gc.Save() gc.Translate(40, 300) // Translate to (40, 300) gc.Scale(0.5, 1) // Reduce x coord by 1/2, y coord left alone gc.BeginPath() gc.MoveTo(0, 0) gc.RLineTo(72, 0) gc.RLineTo(0, 72) gc.RLineTo(-72, 0) gc.Close() // Draw box... gc.Stroke() gc.Restore() gc.Save() gc.Translate(300, 300) // Set origin to (300, 300) gc.Rotate(45 * (math.Pi / 180.0)) // Rotate coordinates by 45 degrees gc.Scale(0.5, 1) // Scale coordinates gc.BeginPath() gc.MoveTo(0, 0) gc.RLineTo(72, 0) gc.RLineTo(0, 72) gc.RLineTo(-72, 0) gc.Close() // Draw box gc.Stroke() gc.Restore() saveToPngFile("TestTransform", i) } func TestPathTransform() { i, gc := initGc(800, 600) gc.SetLineWidth(20) gc.Scale(1, 4) gc.ArcTo(200, 80, 50, 50, 0, math.Pi*2) gc.Close() gc.Stroke() saveToPngFile("TestPathTransform", i) } func TestFillString() { draw2d.SetFontFolder("../resource/font/") i, gc := initGc(100, 100) draw2d.RoundRect(gc, 5, 5, 95, 95, 10, 10) gc.FillStroke() gc.SetFillColor(image.Black) gc.SetFontSize(18) gc.Translate(6, 52) gc.SetFontData(draw2d.FontData{"luxi", draw2d.FontFamilyMono, draw2d.FontStyleBold | draw2d.FontStyleItalic}) width := gc.FillString("cou") gc.Translate(width+1, 0) left, top, right, bottom := gc.GetStringBounds("cou") gc.SetStrokeColor(color.NRGBA{255, 0x33, 0x33, 0x80}) draw2d.Rect(gc, left, top, right, bottom) gc.SetLineWidth(3.0) gc.Stroke() gc.SetStrokeColor(image.Black) gc.SetLineWidth(1.0) gc.StrokeString("cou") saveToPngFile("TestFillString", i) } func TestBigPicture() { i, gc := initGc(w, h) gc.SetLineWidth(10) draw2d.Rect(gc, 0, 0, w, h) gc.Fill() saveToPngFile("TestBigPicture", i) } func main() { TestPath() TestDrawArc() TestDrawArcNegative() TestCurveRectangle() TestDrawCubicCurve() TestDash() TestFillStroke() TestFillStyle() TestMultiSegmentCaps() TestRoundRectangle() TestLineCap() TestLineJoin() TestBubble() TestStar() TestTransform() TestPathTransform() TestFillString() TestBigPicture() }