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Current Directory: /opt/golang/1.22.0/src/image/gif
/opt/golang/1.22.0/src/image/gif/
Viewing File: /opt/golang/1.22.0/src/image/gif/writer_test.go
// Copyright 2013 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 gif import ( "bytes" "image" "image/color" "image/color/palette" "image/draw" _ "image/png" "io" "math/rand" "os" "reflect" "testing" ) func readImg(filename string) (image.Image, error) { f, err := os.Open(filename) if err != nil { return nil, err } defer f.Close() m, _, err := image.Decode(f) return m, err } func readGIF(filename string) (*GIF, error) { f, err := os.Open(filename) if err != nil { return nil, err } defer f.Close() return DecodeAll(f) } func delta(u0, u1 uint32) int64 { d := int64(u0) - int64(u1) if d < 0 { return -d } return d } // averageDelta returns the average delta in RGB space. The two images must // have the same bounds. func averageDelta(m0, m1 image.Image) int64 { b := m0.Bounds() return averageDeltaBound(m0, m1, b, b) } // averageDeltaBounds returns the average delta in RGB space. The average delta is // calculated in the specified bounds. func averageDeltaBound(m0, m1 image.Image, b0, b1 image.Rectangle) int64 { var sum, n int64 for y := b0.Min.Y; y < b0.Max.Y; y++ { for x := b0.Min.X; x < b0.Max.X; x++ { c0 := m0.At(x, y) c1 := m1.At(x-b0.Min.X+b1.Min.X, y-b0.Min.Y+b1.Min.Y) r0, g0, b0, _ := c0.RGBA() r1, g1, b1, _ := c1.RGBA() sum += delta(r0, r1) sum += delta(g0, g1) sum += delta(b0, b1) n += 3 } } return sum / n } // lzw.NewWriter wants an interface which is basically the same thing as gif's // writer interface. This ensures we're compatible. var _ writer = blockWriter{} var testCase = []struct { filename string tolerance int64 }{ {"../testdata/video-001.png", 1 << 12}, {"../testdata/video-001.gif", 0}, {"../testdata/video-001.interlaced.gif", 0}, } func TestWriter(t *testing.T) { for _, tc := range testCase { m0, err := readImg(tc.filename) if err != nil { t.Error(tc.filename, err) continue } var buf bytes.Buffer err = Encode(&buf, m0, nil) if err != nil { t.Error(tc.filename, err) continue } m1, err := Decode(&buf) if err != nil { t.Error(tc.filename, err) continue } if m0.Bounds() != m1.Bounds() { t.Errorf("%s, bounds differ: %v and %v", tc.filename, m0.Bounds(), m1.Bounds()) continue } // Compare the average delta to the tolerance level. avgDelta := averageDelta(m0, m1) if avgDelta > tc.tolerance { t.Errorf("%s: average delta is too high. expected: %d, got %d", tc.filename, tc.tolerance, avgDelta) continue } } } func TestSubImage(t *testing.T) { m0, err := readImg("../testdata/video-001.gif") if err != nil { t.Fatalf("readImg: %v", err) } m0 = m0.(*image.Paletted).SubImage(image.Rect(0, 0, 50, 30)) var buf bytes.Buffer err = Encode(&buf, m0, nil) if err != nil { t.Fatalf("Encode: %v", err) } m1, err := Decode(&buf) if err != nil { t.Fatalf("Decode: %v", err) } if m0.Bounds() != m1.Bounds() { t.Fatalf("bounds differ: %v and %v", m0.Bounds(), m1.Bounds()) } if averageDelta(m0, m1) != 0 { t.Fatalf("images differ") } } // palettesEqual reports whether two color.Palette values are equal, ignoring // any trailing opaque-black palette entries. func palettesEqual(p, q color.Palette) bool { n := len(p) if n > len(q) { n = len(q) } for i := 0; i < n; i++ { if p[i] != q[i] { return false } } for i := n; i < len(p); i++ { r, g, b, a := p[i].RGBA() if r != 0 || g != 0 || b != 0 || a != 0xffff { return false } } for i := n; i < len(q); i++ { r, g, b, a := q[i].RGBA() if r != 0 || g != 0 || b != 0 || a != 0xffff { return false } } return true } var frames = []string{ "../testdata/video-001.gif", "../testdata/video-005.gray.gif", } func testEncodeAll(t *testing.T, go1Dot5Fields bool, useGlobalColorModel bool) { const width, height = 150, 103 g0 := &GIF{ Image: make([]*image.Paletted, len(frames)), Delay: make([]int, len(frames)), LoopCount: 5, } for i, f := range frames { g, err := readGIF(f) if err != nil { t.Fatal(f, err) } m := g.Image[0] if m.Bounds().Dx() != width || m.Bounds().Dy() != height { t.Fatalf("frame %d had unexpected bounds: got %v, want width/height = %d/%d", i, m.Bounds(), width, height) } g0.Image[i] = m } // The GIF.Disposal, GIF.Config and GIF.BackgroundIndex fields were added // in Go 1.5. Valid Go 1.4 or earlier code should still produce valid GIFs. // // On the following line, color.Model is an interface type, and // color.Palette is a concrete (slice) type. globalColorModel, backgroundIndex := color.Model(color.Palette(nil)), uint8(0) if useGlobalColorModel { globalColorModel, backgroundIndex = color.Palette(palette.WebSafe), uint8(1) } if go1Dot5Fields { g0.Disposal = make([]byte, len(g0.Image)) for i := range g0.Disposal { g0.Disposal[i] = DisposalNone } g0.Config = image.Config{ ColorModel: globalColorModel, Width: width, Height: height, } g0.BackgroundIndex = backgroundIndex } var buf bytes.Buffer if err := EncodeAll(&buf, g0); err != nil { t.Fatal("EncodeAll:", err) } encoded := buf.Bytes() config, err := DecodeConfig(bytes.NewReader(encoded)) if err != nil { t.Fatal("DecodeConfig:", err) } g1, err := DecodeAll(bytes.NewReader(encoded)) if err != nil { t.Fatal("DecodeAll:", err) } if !reflect.DeepEqual(config, g1.Config) { t.Errorf("DecodeConfig inconsistent with DecodeAll") } if !palettesEqual(g1.Config.ColorModel.(color.Palette), globalColorModel.(color.Palette)) { t.Errorf("unexpected global color model") } if w, h := g1.Config.Width, g1.Config.Height; w != width || h != height { t.Errorf("got config width * height = %d * %d, want %d * %d", w, h, width, height) } if g0.LoopCount != g1.LoopCount { t.Errorf("loop counts differ: %d and %d", g0.LoopCount, g1.LoopCount) } if backgroundIndex != g1.BackgroundIndex { t.Errorf("background indexes differ: %d and %d", backgroundIndex, g1.BackgroundIndex) } if len(g0.Image) != len(g1.Image) { t.Fatalf("image lengths differ: %d and %d", len(g0.Image), len(g1.Image)) } if len(g1.Image) != len(g1.Delay) { t.Fatalf("image and delay lengths differ: %d and %d", len(g1.Image), len(g1.Delay)) } if len(g1.Image) != len(g1.Disposal) { t.Fatalf("image and disposal lengths differ: %d and %d", len(g1.Image), len(g1.Disposal)) } for i := range g0.Image { m0, m1 := g0.Image[i], g1.Image[i] if m0.Bounds() != m1.Bounds() { t.Errorf("frame %d: bounds differ: %v and %v", i, m0.Bounds(), m1.Bounds()) } d0, d1 := g0.Delay[i], g1.Delay[i] if d0 != d1 { t.Errorf("frame %d: delay values differ: %d and %d", i, d0, d1) } p0, p1 := uint8(0), g1.Disposal[i] if go1Dot5Fields { p0 = DisposalNone } if p0 != p1 { t.Errorf("frame %d: disposal values differ: %d and %d", i, p0, p1) } } } func TestEncodeAllGo1Dot4(t *testing.T) { testEncodeAll(t, false, false) } func TestEncodeAllGo1Dot5(t *testing.T) { testEncodeAll(t, true, false) } func TestEncodeAllGo1Dot5GlobalColorModel(t *testing.T) { testEncodeAll(t, true, true) } func TestEncodeMismatchDelay(t *testing.T) { images := make([]*image.Paletted, 2) for i := range images { images[i] = image.NewPaletted(image.Rect(0, 0, 5, 5), palette.Plan9) } g0 := &GIF{ Image: images, Delay: make([]int, 1), } if err := EncodeAll(io.Discard, g0); err == nil { t.Error("expected error from mismatched delay and image slice lengths") } g1 := &GIF{ Image: images, Delay: make([]int, len(images)), Disposal: make([]byte, 1), } for i := range g1.Disposal { g1.Disposal[i] = DisposalNone } if err := EncodeAll(io.Discard, g1); err == nil { t.Error("expected error from mismatched disposal and image slice lengths") } } func TestEncodeZeroGIF(t *testing.T) { if err := EncodeAll(io.Discard, &GIF{}); err == nil { t.Error("expected error from providing empty gif") } } func TestEncodeAllFramesOutOfBounds(t *testing.T) { images := []*image.Paletted{ image.NewPaletted(image.Rect(0, 0, 5, 5), palette.Plan9), image.NewPaletted(image.Rect(2, 2, 8, 8), palette.Plan9), image.NewPaletted(image.Rect(3, 3, 4, 4), palette.Plan9), } for _, upperBound := range []int{6, 10} { g := &GIF{ Image: images, Delay: make([]int, len(images)), Disposal: make([]byte, len(images)), Config: image.Config{ Width: upperBound, Height: upperBound, }, } err := EncodeAll(io.Discard, g) if upperBound >= 8 { if err != nil { t.Errorf("upperBound=%d: %v", upperBound, err) } } else { if err == nil { t.Errorf("upperBound=%d: got nil error, want non-nil", upperBound) } } } } func TestEncodeNonZeroMinPoint(t *testing.T) { points := []image.Point{ {-8, -9}, {-4, -4}, {-3, +3}, {+0, +0}, {+2, +2}, } for _, p := range points { src := image.NewPaletted(image.Rectangle{ Min: p, Max: p.Add(image.Point{6, 6}), }, palette.Plan9) var buf bytes.Buffer if err := Encode(&buf, src, nil); err != nil { t.Errorf("p=%v: Encode: %v", p, err) continue } m, err := Decode(&buf) if err != nil { t.Errorf("p=%v: Decode: %v", p, err) continue } if got, want := m.Bounds(), image.Rect(0, 0, 6, 6); got != want { t.Errorf("p=%v: got %v, want %v", p, got, want) } } // Also test having a source image (gray on the diagonal) that has a // non-zero Bounds().Min, but isn't an image.Paletted. { p := image.Point{+2, +2} src := image.NewRGBA(image.Rectangle{ Min: p, Max: p.Add(image.Point{6, 6}), }) src.SetRGBA(2, 2, color.RGBA{0x22, 0x22, 0x22, 0xFF}) src.SetRGBA(3, 3, color.RGBA{0x33, 0x33, 0x33, 0xFF}) src.SetRGBA(4, 4, color.RGBA{0x44, 0x44, 0x44, 0xFF}) src.SetRGBA(5, 5, color.RGBA{0x55, 0x55, 0x55, 0xFF}) src.SetRGBA(6, 6, color.RGBA{0x66, 0x66, 0x66, 0xFF}) src.SetRGBA(7, 7, color.RGBA{0x77, 0x77, 0x77, 0xFF}) var buf bytes.Buffer if err := Encode(&buf, src, nil); err != nil { t.Errorf("gray-diagonal: Encode: %v", err) return } m, err := Decode(&buf) if err != nil { t.Errorf("gray-diagonal: Decode: %v", err) return } if got, want := m.Bounds(), image.Rect(0, 0, 6, 6); got != want { t.Errorf("gray-diagonal: got %v, want %v", got, want) return } rednessAt := func(x int, y int) uint32 { r, _, _, _ := m.At(x, y).RGBA() // Shift by 8 to convert from 16 bit color to 8 bit color. return r >> 8 } // Round-tripping a still (non-animated) image.Image through // Encode+Decode should shift the origin to (0, 0). if got, want := rednessAt(0, 0), uint32(0x22); got != want { t.Errorf("gray-diagonal: rednessAt(0, 0): got 0x%02x, want 0x%02x", got, want) } if got, want := rednessAt(5, 5), uint32(0x77); got != want { t.Errorf("gray-diagonal: rednessAt(5, 5): got 0x%02x, want 0x%02x", got, want) } } } func TestEncodeImplicitConfigSize(t *testing.T) { // For backwards compatibility for Go 1.4 and earlier code, the Config // field is optional, and if zero, the width and height is implied by the // first (and in this case only) frame's width and height. // // A Config only specifies a width and height (two integers) while an // image.Image's Bounds method returns an image.Rectangle (four integers). // For a gif.GIF, the overall bounds' top-left point is always implicitly // (0, 0), and any frame whose bounds have a negative X or Y will be // outside those overall bounds, so encoding should fail. for _, lowerBound := range []int{-1, 0, 1} { images := []*image.Paletted{ image.NewPaletted(image.Rect(lowerBound, lowerBound, 4, 4), palette.Plan9), } g := &GIF{ Image: images, Delay: make([]int, len(images)), } err := EncodeAll(io.Discard, g) if lowerBound >= 0 { if err != nil { t.Errorf("lowerBound=%d: %v", lowerBound, err) } } else { if err == nil { t.Errorf("lowerBound=%d: got nil error, want non-nil", lowerBound) } } } } func TestEncodePalettes(t *testing.T) { const w, h = 5, 5 pals := []color.Palette{{ color.RGBA{0x00, 0x00, 0x00, 0xff}, color.RGBA{0x01, 0x00, 0x00, 0xff}, color.RGBA{0x02, 0x00, 0x00, 0xff}, }, { color.RGBA{0x00, 0x00, 0x00, 0xff}, color.RGBA{0x00, 0x01, 0x00, 0xff}, }, { color.RGBA{0x00, 0x00, 0x03, 0xff}, color.RGBA{0x00, 0x00, 0x02, 0xff}, color.RGBA{0x00, 0x00, 0x01, 0xff}, color.RGBA{0x00, 0x00, 0x00, 0xff}, }, { color.RGBA{0x10, 0x07, 0xf0, 0xff}, color.RGBA{0x20, 0x07, 0xf0, 0xff}, color.RGBA{0x30, 0x07, 0xf0, 0xff}, color.RGBA{0x40, 0x07, 0xf0, 0xff}, color.RGBA{0x50, 0x07, 0xf0, 0xff}, }} g0 := &GIF{ Image: []*image.Paletted{ image.NewPaletted(image.Rect(0, 0, w, h), pals[0]), image.NewPaletted(image.Rect(0, 0, w, h), pals[1]), image.NewPaletted(image.Rect(0, 0, w, h), pals[2]), image.NewPaletted(image.Rect(0, 0, w, h), pals[3]), }, Delay: make([]int, len(pals)), Disposal: make([]byte, len(pals)), Config: image.Config{ ColorModel: pals[2], Width: w, Height: h, }, } var buf bytes.Buffer if err := EncodeAll(&buf, g0); err != nil { t.Fatalf("EncodeAll: %v", err) } g1, err := DecodeAll(&buf) if err != nil { t.Fatalf("DecodeAll: %v", err) } if len(g0.Image) != len(g1.Image) { t.Fatalf("image lengths differ: %d and %d", len(g0.Image), len(g1.Image)) } for i, m := range g1.Image { if got, want := m.Palette, pals[i]; !palettesEqual(got, want) { t.Errorf("frame %d:\ngot %v\nwant %v", i, got, want) } } } func TestEncodeBadPalettes(t *testing.T) { const w, h = 5, 5 for _, n := range []int{256, 257} { for _, nilColors := range []bool{false, true} { pal := make(color.Palette, n) if !nilColors { for i := range pal { pal[i] = color.Black } } err := EncodeAll(io.Discard, &GIF{ Image: []*image.Paletted{ image.NewPaletted(image.Rect(0, 0, w, h), pal), }, Delay: make([]int, 1), Disposal: make([]byte, 1), Config: image.Config{ ColorModel: pal, Width: w, Height: h, }, }) got := err != nil want := n > 256 || nilColors if got != want { t.Errorf("n=%d, nilColors=%t: err != nil: got %t, want %t", n, nilColors, got, want) } } } } func TestColorTablesMatch(t *testing.T) { const trIdx = 100 global := color.Palette(palette.Plan9) if rgb := global[trIdx].(color.RGBA); rgb.R == 0 && rgb.G == 0 && rgb.B == 0 { t.Fatalf("trIdx (%d) is already black", trIdx) } // Make a copy of the palette, substituting trIdx's slot with transparent, // just like decoder.decode. local := append(color.Palette(nil), global...) local[trIdx] = color.RGBA{} const testLen = 3 * 256 const padded = 7 e := new(encoder) if l, err := encodeColorTable(e.globalColorTable[:], global, padded); err != nil || l != testLen { t.Fatalf("Failed to encode global color table: got %d, %v; want nil, %d", l, err, testLen) } if l, err := encodeColorTable(e.localColorTable[:], local, padded); err != nil || l != testLen { t.Fatalf("Failed to encode local color table: got %d, %v; want nil, %d", l, err, testLen) } if bytes.Equal(e.globalColorTable[:testLen], e.localColorTable[:testLen]) { t.Fatal("Encoded color tables are equal, expected mismatch") } if !e.colorTablesMatch(len(local), trIdx) { t.Fatal("colorTablesMatch() == false, expected true") } } func TestEncodeCroppedSubImages(t *testing.T) { // This test means to ensure that Encode honors the Bounds and Strides of // images correctly when encoding. whole := image.NewPaletted(image.Rect(0, 0, 100, 100), palette.Plan9) subImages := []image.Rectangle{ image.Rect(0, 0, 50, 50), image.Rect(50, 0, 100, 50), image.Rect(0, 50, 50, 50), image.Rect(50, 50, 100, 100), image.Rect(25, 25, 75, 75), image.Rect(0, 0, 100, 50), image.Rect(0, 50, 100, 100), image.Rect(0, 0, 50, 100), image.Rect(50, 0, 100, 100), } for _, sr := range subImages { si := whole.SubImage(sr) buf := bytes.NewBuffer(nil) if err := Encode(buf, si, nil); err != nil { t.Errorf("Encode: sr=%v: %v", sr, err) continue } if _, err := Decode(buf); err != nil { t.Errorf("Decode: sr=%v: %v", sr, err) } } } type offsetImage struct { image.Image Rect image.Rectangle } func (i offsetImage) Bounds() image.Rectangle { return i.Rect } func TestEncodeWrappedImage(t *testing.T) { m0, err := readImg("../testdata/video-001.gif") if err != nil { t.Fatalf("readImg: %v", err) } // Case 1: Encode a wrapped image.Image buf := new(bytes.Buffer) w0 := offsetImage{m0, m0.Bounds()} err = Encode(buf, w0, nil) if err != nil { t.Fatalf("Encode: %v", err) } w1, err := Decode(buf) if err != nil { t.Fatalf("Dencode: %v", err) } avgDelta := averageDelta(m0, w1) if avgDelta > 0 { t.Fatalf("Wrapped: average delta is too high. expected: 0, got %d", avgDelta) } // Case 2: Encode a wrapped image.Image with offset b0 := image.Rectangle{ Min: image.Point{ X: 128, Y: 64, }, Max: image.Point{ X: 256, Y: 128, }, } w0 = offsetImage{m0, b0} buf = new(bytes.Buffer) err = Encode(buf, w0, nil) if err != nil { t.Fatalf("Encode: %v", err) } w1, err = Decode(buf) if err != nil { t.Fatalf("Dencode: %v", err) } b1 := image.Rectangle{ Min: image.Point{ X: 0, Y: 0, }, Max: image.Point{ X: 128, Y: 64, }, } avgDelta = averageDeltaBound(m0, w1, b0, b1) if avgDelta > 0 { t.Fatalf("Wrapped and offset: average delta is too high. expected: 0, got %d", avgDelta) } } func BenchmarkEncodeRandomPaletted(b *testing.B) { paletted := image.NewPaletted(image.Rect(0, 0, 640, 480), palette.Plan9) rnd := rand.New(rand.NewSource(123)) for i := range paletted.Pix { paletted.Pix[i] = uint8(rnd.Intn(256)) } b.SetBytes(640 * 480 * 1) b.ReportAllocs() b.ResetTimer() for i := 0; i < b.N; i++ { Encode(io.Discard, paletted, nil) } } func BenchmarkEncodeRandomRGBA(b *testing.B) { rgba := image.NewRGBA(image.Rect(0, 0, 640, 480)) bo := rgba.Bounds() rnd := rand.New(rand.NewSource(123)) for y := bo.Min.Y; y < bo.Max.Y; y++ { for x := bo.Min.X; x < bo.Max.X; x++ { rgba.SetRGBA(x, y, color.RGBA{ uint8(rnd.Intn(256)), uint8(rnd.Intn(256)), uint8(rnd.Intn(256)), 255, }) } } b.SetBytes(640 * 480 * 4) b.ReportAllocs() b.ResetTimer() for i := 0; i < b.N; i++ { Encode(io.Discard, rgba, nil) } } func BenchmarkEncodeRealisticPaletted(b *testing.B) { img, err := readImg("../testdata/video-001.png") if err != nil { b.Fatalf("readImg: %v", err) } bo := img.Bounds() paletted := image.NewPaletted(bo, palette.Plan9) draw.Draw(paletted, bo, img, bo.Min, draw.Src) b.SetBytes(int64(bo.Dx() * bo.Dy() * 1)) b.ReportAllocs() b.ResetTimer() for i := 0; i < b.N; i++ { Encode(io.Discard, paletted, nil) } } func BenchmarkEncodeRealisticRGBA(b *testing.B) { img, err := readImg("../testdata/video-001.png") if err != nil { b.Fatalf("readImg: %v", err) } bo := img.Bounds() // Converting img to rgba is redundant for video-001.png, which is already // in the RGBA format, but for those copy/pasting this benchmark (but // changing the source image), the conversion ensures that we're still // benchmarking encoding an RGBA image. rgba := image.NewRGBA(bo) draw.Draw(rgba, bo, img, bo.Min, draw.Src) b.SetBytes(int64(bo.Dx() * bo.Dy() * 4)) b.ReportAllocs() b.ResetTimer() for i := 0; i < b.N; i++ { Encode(io.Discard, rgba, nil) } }
webs 1.0 - Enhanced UI