func TestTriangleRenderer(t *testing.T) {
gnm := ga.NewGenomeInt(9 * 15)
rst := graphics.CreateRaster(50, 10)
tr := NewTriangleRenderer(gnm, rst)
gnm.Randomize()
tr.Render()
//fmt.Println(tr.Raster)
graphics.PrintRaster(tr.Raster)
}
func TestAsymmetry(t *testing.T) {
rst := graphics.CreateRaster(4, 4)
rst.SetColor(graphics.Color{255, 255, 255})
var as uint32
as = Asymmetry(rst)
t.Log(as)
if as > 0 {
t.Error("assymetry is wrong")
}
rst.DrawPoint(2, 1)
as = Asymmetry(rst)
t.Log(as)
if as <= 0 {
t.Error("assymetry is wrong")
}
rst.DrawPoint(1, 1)
as = Asymmetry(rst)
t.Log(as)
if as > 0 {
t.Error("assymetry is wrong")
}
}
func experiment(pipe chan string) {
var generation [NG]*ga.GenomeInt
for i := 0; i < NG; i++ {
genome := ga.NewGenomeInt(5 * 9)
genome.Randomize()
generation[i] = genome
}
raster := graphics.CreateRaster(10, 10)
renderer := app.NewTriangleRenderer(raster)
for i := 0; i < NG; i++ {
renderer.Render(generation[i])
as := analytics.Asymmetry(raster)
if as <= 1000 {
pipe <- fmt.Sprintf("%d: as=%d\n", i, as)
//fmt.Printf("%d: as=%d\n", i, as)
//graphics.PrintRaster(raster)
}
}
close(pipe)
}