add old glut sample

This commit is contained in:
Laurent Le Goff 2011-04-20 23:31:52 +02:00
parent 6d75998b87
commit 8ba663637e

147
cmd/testGlutDraw.go Normal file
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// Ported from GLUT's samples. Original copyright below applies.
/* Copyright (c) Mark J. Kilgard, 1996. */
/* This program is freely distributable without licensing fees
and is provided without guarantee or warrantee expressed or
implied. This program is -not- in the public domain. */
/* This program is a response to a question posed by Gil Colgate
<gcolgate@sirius.com> about how lengthy a program is required using
OpenGL compared to using Direct3D immediate mode to "draw a
triangle at screen coordinates 0,0, to 200,200 to 20,200, and I
want it to be blue at the top vertex, red at the left vertex, and
green at the right vertex". I'm not sure how long the Direct3D
program is; Gil has used Direct3D and his guess is "about 3000
lines of code". */
package main
import (
"gl"
"glut"
"exp/draw"
"image"
"freetype-go.googlecode.com/hg/freetype/raster"
"draw2d.googlecode.com/svn/trunk/draw2d/src/pkg/draw2d"
"postscript-go.googlecode.com/svn/trunk/postscript-go/src/pkg/postscript"
"fmt"
)
type GLPainter struct {
// The Porter-Duff composition operator.
Op draw.Op
// The 16-bit color to paint the spans.
cr, cg, cb uint8
ca uint32
}
const M16 uint32 = 1<<16 - 1
const M32 uint32 = 1<<32 - 1
// Paint satisfies the Painter interface by painting ss onto an image.RGBA.
func (p *GLPainter) Paint(ss []raster.Span, done bool) {
gl.Begin(gl.LINES)
for _, s := range ss {
ma := s.A >> 16
a := ma * p.ca / M16
gl.Color4ub(p.cr, p.cg, p.cb, uint8(a>>8))
gl.Vertex2i(s.X0, s.Y)
gl.Vertex2i(s.X1, s.Y)
}
gl.End()
}
// SetColor sets the color to paint the spans.
func (p *GLPainter) SetColor(c image.Color) {
r, g, b, a := c.RGBA()
if a == 0 {
p.cr = 0
p.cg = 0
p.cb = 0
p.ca = a
} else {
p.cr = uint8((r * M16 / a) >> 8)
p.cg = uint8((g * M16 / a) >> 8)
p.cb = uint8((b * M16 / a) >> 8)
p.ca = a
}
}
// NewRGBAPainter creates a new RGBAPainter for the given image.
func NewGLPainter() *GLPainter {
return &GLPainter{}
}
func TestDrawCubicCurve(gc draw2d.GraphicContext) {
// 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.SetStrokeColor(image.NRGBAColor{0, 0, 0, 0xff})
gc.SetLineWidth(10)
gc.MoveTo(x, y)
gc.CubicCurveTo(x1, y1, x2, y2, x3, y3)
gc.Stroke()
gc.SetStrokeColor(image.NRGBAColor{0xFF, 0x33, 0x33, 0x99})
gc.SetLineWidth(6)
// draw segment of curve
gc.MoveTo(x, y)
gc.LineTo(x1, y1)
gc.MoveTo(x2, y2)
gc.LineTo(x3, y3)
gc.Stroke()
}
var (
width, height int
)
func reshape(w, h int) {
/* Because Gil specified "screen coordinates" (presumably with an
upper-left origin), this short bit of code sets up the coordinate
system to correspond to actual window coodrinates. This code
wouldn't be required if you chose a (more typical in 3D) abstract
coordinate system. */
gl.ClearColor(1, 1, 1, 1)
//fmt.Println(gl.GetString(gl.EXTENSIONS))
gl.Viewport(0, 0, w, h) /* Establish viewing area to cover entire window. */
gl.MatrixMode(gl.PROJECTION) /* Start modifying the projection matrix. */
gl.LoadIdentity() /* Reset project matrix. */
gl.Ortho(0, float64(w), 0, float64(h), -1, 1) /* Map abstract coords directly to window coords. */
gl.Scalef(1, -1, 1) /* Invert Y axis so increasing Y goes down. */
gl.Translatef(0, float32(-h), 0) /* Shift origin up to upper-left corner. */
gl.Enable(gl.BLEND)
gl.BlendFunc(gl.SRC_ALPHA, gl.ONE_MINUS_SRC_ALPHA)
width, height = w, h
}
func display() {
gl.Clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT)
gl.LineWidth(1)
p := NewGLPainter()
fmt.Println("draw")
gc := draw2d.NewImageGraphicContextFromPainter(p, image.Rect(0, 0, width, height))
gc.Translate(0, 380)
gc.Scale(1, -1)
gc.Translate(0, -380)
interpreter := postscript.NewInterpreter(gc)
interpreter.ExecuteFile("../../tiger.ps")
gl.Flush() /* Single buffered, so needs a flush. */
}
func main() {
glut.Init()
glut.InitWindowSize(800, 800)
glut.CreateWindow("single triangle")
glut.DisplayFunc(display)
glut.ReshapeFunc(reshape)
glut.MainLoop()
}