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image: add Paletted.Set, and a basic test of the concrete image types.

R=r
CC=golang-dev
https://golang.org/cl/4589045
This commit is contained in:
Nigel Tao 2011-06-10 14:07:29 +10:00
parent d44c4c351d
commit c0c824cd7b
2 changed files with 88 additions and 6 deletions

View File

@ -563,14 +563,19 @@ func (p PalettedColorModel) Convert(c Color) Color {
if len(p) == 0 {
return nil
}
return p[p.Index(c)]
}
// Index returns the index of the palette color closest to c in Euclidean
// R,G,B space.
func (p PalettedColorModel) Index(c Color) int {
cr, cg, cb, _ := c.RGBA()
// Shift by 1 bit to avoid potential uint32 overflow in sum-squared-difference.
cr >>= 1
cg >>= 1
cb >>= 1
result := Color(nil)
bestSSD := uint32(1<<32 - 1)
for _, v := range p {
ret, bestSSD := 0, uint32(1<<32-1)
for i, v := range p {
vr, vg, vb, _ := v.RGBA()
vr >>= 1
vg >>= 1
@ -578,11 +583,10 @@ func (p PalettedColorModel) Convert(c Color) Color {
dr, dg, db := diff(cr, vr), diff(cg, vg), diff(cb, vb)
ssd := (dr * dr) + (dg * dg) + (db * db)
if ssd < bestSSD {
bestSSD = ssd
result = v
ret, bestSSD = i, ssd
}
}
return result
return ret
}
// A Paletted is an in-memory image backed by a 2-D slice of uint8 values and a PalettedColorModel.
@ -610,6 +614,13 @@ func (p *Paletted) At(x, y int) Color {
return p.Palette[p.Pix[y*p.Stride+x]]
}
func (p *Paletted) Set(x, y int, c Color) {
if !(Point{x, y}.In(p.Rect)) {
return
}
p.Pix[y*p.Stride+x] = uint8(p.Palette.Index(c))
}
func (p *Paletted) ColorIndexAt(x, y int) uint8 {
if !(Point{x, y}.In(p.Rect)) {
return 0

View File

@ -0,0 +1,71 @@
// Copyright 2011 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package image
import (
"testing"
)
func cmp(t *testing.T, cm ColorModel, c0, c1 Color) bool {
r0, g0, b0, a0 := cm.Convert(c0).RGBA()
r1, g1, b1, a1 := cm.Convert(c1).RGBA()
return r0 == r1 && g0 == g1 && b0 == b1 && a0 == a1
}
func TestImage(t *testing.T) {
type buffered interface {
Image
Set(int, int, Color)
SubImage(Rectangle) Image
}
testImage := []Image{
NewRGBA(10, 10),
NewRGBA64(10, 10),
NewNRGBA(10, 10),
NewNRGBA64(10, 10),
NewAlpha(10, 10),
NewAlpha16(10, 10),
NewGray(10, 10),
NewGray16(10, 10),
NewPaletted(10, 10, PalettedColorModel{
Transparent,
Opaque,
}),
}
for _, m := range testImage {
b := m.(buffered)
if !Rect(0, 0, 10, 10).Eq(b.Bounds()) {
t.Errorf("%T: want bounds %v, got %v", b, Rect(0, 0, 10, 10), b.Bounds())
continue
}
if !cmp(t, b.ColorModel(), Transparent, b.At(6, 3)) {
t.Errorf("%T: at (6, 3), want a zero color, got %v", b, b.At(6, 3))
continue
}
b.Set(6, 3, Opaque)
if !cmp(t, b.ColorModel(), Opaque, b.At(6, 3)) {
t.Errorf("%T: at (6, 3), want a non-zero color, got %v", b, b.At(6, 3))
continue
}
b = b.SubImage(Rect(3, 2, 9, 8)).(buffered)
if !Rect(3, 2, 9, 8).Eq(b.Bounds()) {
t.Errorf("%T: sub-image want bounds %v, got %v", b, Rect(3, 2, 9, 8), b.Bounds())
continue
}
if !cmp(t, b.ColorModel(), Opaque, b.At(6, 3)) {
t.Errorf("%T: sub-image at (6, 3), want a non-zero color, got %v", b, b.At(6, 3))
continue
}
if !cmp(t, b.ColorModel(), Transparent, b.At(3, 3)) {
t.Errorf("%T: sub-image at (3, 3), want a zero color, got %v", b, b.At(3, 3))
continue
}
b.Set(3, 3, Opaque)
if !cmp(t, b.ColorModel(), Opaque, b.At(3, 3)) {
t.Errorf("%T: sub-image at (3, 3), want a non-zero color, got %v", b, b.At(3, 3))
continue
}
}
}