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      1 // Copyright 2013 The Go Authors. All rights reserved.
      2 // Use of this source code is governed by a BSD-style
      3 // license that can be found in the LICENSE file.
      4 
      5 package gif
      6 
      7 import (
      8 	"bytes"
      9 	"image"
     10 	"image/color"
     11 	"image/color/palette"
     12 	_ "image/png"
     13 	"io/ioutil"
     14 	"math/rand"
     15 	"os"
     16 	"reflect"
     17 	"testing"
     18 )
     19 
     20 func readImg(filename string) (image.Image, error) {
     21 	f, err := os.Open(filename)
     22 	if err != nil {
     23 		return nil, err
     24 	}
     25 	defer f.Close()
     26 	m, _, err := image.Decode(f)
     27 	return m, err
     28 }
     29 
     30 func readGIF(filename string) (*GIF, error) {
     31 	f, err := os.Open(filename)
     32 	if err != nil {
     33 		return nil, err
     34 	}
     35 	defer f.Close()
     36 	return DecodeAll(f)
     37 }
     38 
     39 func delta(u0, u1 uint32) int64 {
     40 	d := int64(u0) - int64(u1)
     41 	if d < 0 {
     42 		return -d
     43 	}
     44 	return d
     45 }
     46 
     47 // averageDelta returns the average delta in RGB space. The two images must
     48 // have the same bounds.
     49 func averageDelta(m0, m1 image.Image) int64 {
     50 	b := m0.Bounds()
     51 	var sum, n int64
     52 	for y := b.Min.Y; y < b.Max.Y; y++ {
     53 		for x := b.Min.X; x < b.Max.X; x++ {
     54 			c0 := m0.At(x, y)
     55 			c1 := m1.At(x, y)
     56 			r0, g0, b0, _ := c0.RGBA()
     57 			r1, g1, b1, _ := c1.RGBA()
     58 			sum += delta(r0, r1)
     59 			sum += delta(g0, g1)
     60 			sum += delta(b0, b1)
     61 			n += 3
     62 		}
     63 	}
     64 	return sum / n
     65 }
     66 
     67 var testCase = []struct {
     68 	filename  string
     69 	tolerance int64
     70 }{
     71 	{"../testdata/video-001.png", 1 << 12},
     72 	{"../testdata/video-001.gif", 0},
     73 	{"../testdata/video-001.interlaced.gif", 0},
     74 }
     75 
     76 func TestWriter(t *testing.T) {
     77 	for _, tc := range testCase {
     78 		m0, err := readImg(tc.filename)
     79 		if err != nil {
     80 			t.Error(tc.filename, err)
     81 			continue
     82 		}
     83 		var buf bytes.Buffer
     84 		err = Encode(&buf, m0, nil)
     85 		if err != nil {
     86 			t.Error(tc.filename, err)
     87 			continue
     88 		}
     89 		m1, err := Decode(&buf)
     90 		if err != nil {
     91 			t.Error(tc.filename, err)
     92 			continue
     93 		}
     94 		if m0.Bounds() != m1.Bounds() {
     95 			t.Errorf("%s, bounds differ: %v and %v", tc.filename, m0.Bounds(), m1.Bounds())
     96 			continue
     97 		}
     98 		// Compare the average delta to the tolerance level.
     99 		avgDelta := averageDelta(m0, m1)
    100 		if avgDelta > tc.tolerance {
    101 			t.Errorf("%s: average delta is too high. expected: %d, got %d", tc.filename, tc.tolerance, avgDelta)
    102 			continue
    103 		}
    104 	}
    105 }
    106 
    107 func TestSubImage(t *testing.T) {
    108 	m0, err := readImg("../testdata/video-001.gif")
    109 	if err != nil {
    110 		t.Fatalf("readImg: %v", err)
    111 	}
    112 	m0 = m0.(*image.Paletted).SubImage(image.Rect(0, 0, 50, 30))
    113 	var buf bytes.Buffer
    114 	err = Encode(&buf, m0, nil)
    115 	if err != nil {
    116 		t.Fatalf("Encode: %v", err)
    117 	}
    118 	m1, err := Decode(&buf)
    119 	if err != nil {
    120 		t.Fatalf("Decode: %v", err)
    121 	}
    122 	if m0.Bounds() != m1.Bounds() {
    123 		t.Fatalf("bounds differ: %v and %v", m0.Bounds(), m1.Bounds())
    124 	}
    125 	if averageDelta(m0, m1) != 0 {
    126 		t.Fatalf("images differ")
    127 	}
    128 }
    129 
    130 // palettesEqual reports whether two color.Palette values are equal, ignoring
    131 // any trailing opaque-black palette entries.
    132 func palettesEqual(p, q color.Palette) bool {
    133 	n := len(p)
    134 	if n > len(q) {
    135 		n = len(q)
    136 	}
    137 	for i := 0; i < n; i++ {
    138 		if p[i] != q[i] {
    139 			return false
    140 		}
    141 	}
    142 	for i := n; i < len(p); i++ {
    143 		r, g, b, a := p[i].RGBA()
    144 		if r != 0 || g != 0 || b != 0 || a != 0xffff {
    145 			return false
    146 		}
    147 	}
    148 	for i := n; i < len(q); i++ {
    149 		r, g, b, a := q[i].RGBA()
    150 		if r != 0 || g != 0 || b != 0 || a != 0xffff {
    151 			return false
    152 		}
    153 	}
    154 	return true
    155 }
    156 
    157 var frames = []string{
    158 	"../testdata/video-001.gif",
    159 	"../testdata/video-005.gray.gif",
    160 }
    161 
    162 func testEncodeAll(t *testing.T, go1Dot5Fields bool, useGlobalColorModel bool) {
    163 	const width, height = 150, 103
    164 
    165 	g0 := &GIF{
    166 		Image:     make([]*image.Paletted, len(frames)),
    167 		Delay:     make([]int, len(frames)),
    168 		LoopCount: 5,
    169 	}
    170 	for i, f := range frames {
    171 		g, err := readGIF(f)
    172 		if err != nil {
    173 			t.Fatal(f, err)
    174 		}
    175 		m := g.Image[0]
    176 		if m.Bounds().Dx() != width || m.Bounds().Dy() != height {
    177 			t.Fatalf("frame %d had unexpected bounds: got %v, want width/height = %d/%d",
    178 				i, m.Bounds(), width, height)
    179 		}
    180 		g0.Image[i] = m
    181 	}
    182 	// The GIF.Disposal, GIF.Config and GIF.BackgroundIndex fields were added
    183 	// in Go 1.5. Valid Go 1.4 or earlier code should still produce valid GIFs.
    184 	//
    185 	// On the following line, color.Model is an interface type, and
    186 	// color.Palette is a concrete (slice) type.
    187 	globalColorModel, backgroundIndex := color.Model(color.Palette(nil)), uint8(0)
    188 	if useGlobalColorModel {
    189 		globalColorModel, backgroundIndex = color.Palette(palette.WebSafe), uint8(1)
    190 	}
    191 	if go1Dot5Fields {
    192 		g0.Disposal = make([]byte, len(g0.Image))
    193 		for i := range g0.Disposal {
    194 			g0.Disposal[i] = DisposalNone
    195 		}
    196 		g0.Config = image.Config{
    197 			ColorModel: globalColorModel,
    198 			Width:      width,
    199 			Height:     height,
    200 		}
    201 		g0.BackgroundIndex = backgroundIndex
    202 	}
    203 
    204 	var buf bytes.Buffer
    205 	if err := EncodeAll(&buf, g0); err != nil {
    206 		t.Fatal("EncodeAll:", err)
    207 	}
    208 	encoded := buf.Bytes()
    209 	config, err := DecodeConfig(bytes.NewReader(encoded))
    210 	if err != nil {
    211 		t.Fatal("DecodeConfig:", err)
    212 	}
    213 	g1, err := DecodeAll(bytes.NewReader(encoded))
    214 	if err != nil {
    215 		t.Fatal("DecodeAll:", err)
    216 	}
    217 
    218 	if !reflect.DeepEqual(config, g1.Config) {
    219 		t.Errorf("DecodeConfig inconsistent with DecodeAll")
    220 	}
    221 	if !palettesEqual(g1.Config.ColorModel.(color.Palette), globalColorModel.(color.Palette)) {
    222 		t.Errorf("unexpected global color model")
    223 	}
    224 	if w, h := g1.Config.Width, g1.Config.Height; w != width || h != height {
    225 		t.Errorf("got config width * height = %d * %d, want %d * %d", w, h, width, height)
    226 	}
    227 
    228 	if g0.LoopCount != g1.LoopCount {
    229 		t.Errorf("loop counts differ: %d and %d", g0.LoopCount, g1.LoopCount)
    230 	}
    231 	if backgroundIndex != g1.BackgroundIndex {
    232 		t.Errorf("background indexes differ: %d and %d", backgroundIndex, g1.BackgroundIndex)
    233 	}
    234 	if len(g0.Image) != len(g1.Image) {
    235 		t.Fatalf("image lengths differ: %d and %d", len(g0.Image), len(g1.Image))
    236 	}
    237 	if len(g1.Image) != len(g1.Delay) {
    238 		t.Fatalf("image and delay lengths differ: %d and %d", len(g1.Image), len(g1.Delay))
    239 	}
    240 	if len(g1.Image) != len(g1.Disposal) {
    241 		t.Fatalf("image and disposal lengths differ: %d and %d", len(g1.Image), len(g1.Disposal))
    242 	}
    243 
    244 	for i := range g0.Image {
    245 		m0, m1 := g0.Image[i], g1.Image[i]
    246 		if m0.Bounds() != m1.Bounds() {
    247 			t.Errorf("frame %d: bounds differ: %v and %v", i, m0.Bounds(), m1.Bounds())
    248 		}
    249 		d0, d1 := g0.Delay[i], g1.Delay[i]
    250 		if d0 != d1 {
    251 			t.Errorf("frame %d: delay values differ: %d and %d", i, d0, d1)
    252 		}
    253 		p0, p1 := uint8(0), g1.Disposal[i]
    254 		if go1Dot5Fields {
    255 			p0 = DisposalNone
    256 		}
    257 		if p0 != p1 {
    258 			t.Errorf("frame %d: disposal values differ: %d and %d", i, p0, p1)
    259 		}
    260 	}
    261 }
    262 
    263 func TestEncodeAllGo1Dot4(t *testing.T)                 { testEncodeAll(t, false, false) }
    264 func TestEncodeAllGo1Dot5(t *testing.T)                 { testEncodeAll(t, true, false) }
    265 func TestEncodeAllGo1Dot5GlobalColorModel(t *testing.T) { testEncodeAll(t, true, true) }
    266 
    267 func TestEncodeMismatchDelay(t *testing.T) {
    268 	images := make([]*image.Paletted, 2)
    269 	for i := range images {
    270 		images[i] = image.NewPaletted(image.Rect(0, 0, 5, 5), palette.Plan9)
    271 	}
    272 
    273 	g0 := &GIF{
    274 		Image: images,
    275 		Delay: make([]int, 1),
    276 	}
    277 	if err := EncodeAll(ioutil.Discard, g0); err == nil {
    278 		t.Error("expected error from mismatched delay and image slice lengths")
    279 	}
    280 
    281 	g1 := &GIF{
    282 		Image:    images,
    283 		Delay:    make([]int, len(images)),
    284 		Disposal: make([]byte, 1),
    285 	}
    286 	for i := range g1.Disposal {
    287 		g1.Disposal[i] = DisposalNone
    288 	}
    289 	if err := EncodeAll(ioutil.Discard, g1); err == nil {
    290 		t.Error("expected error from mismatched disposal and image slice lengths")
    291 	}
    292 }
    293 
    294 func TestEncodeZeroGIF(t *testing.T) {
    295 	if err := EncodeAll(ioutil.Discard, &GIF{}); err == nil {
    296 		t.Error("expected error from providing empty gif")
    297 	}
    298 }
    299 
    300 func TestEncodeAllFramesOutOfBounds(t *testing.T) {
    301 	images := []*image.Paletted{
    302 		image.NewPaletted(image.Rect(0, 0, 5, 5), palette.Plan9),
    303 		image.NewPaletted(image.Rect(2, 2, 8, 8), palette.Plan9),
    304 		image.NewPaletted(image.Rect(3, 3, 4, 4), palette.Plan9),
    305 	}
    306 	for _, upperBound := range []int{6, 10} {
    307 		g := &GIF{
    308 			Image:    images,
    309 			Delay:    make([]int, len(images)),
    310 			Disposal: make([]byte, len(images)),
    311 			Config: image.Config{
    312 				Width:  upperBound,
    313 				Height: upperBound,
    314 			},
    315 		}
    316 		err := EncodeAll(ioutil.Discard, g)
    317 		if upperBound >= 8 {
    318 			if err != nil {
    319 				t.Errorf("upperBound=%d: %v", upperBound, err)
    320 			}
    321 		} else {
    322 			if err == nil {
    323 				t.Errorf("upperBound=%d: got nil error, want non-nil", upperBound)
    324 			}
    325 		}
    326 	}
    327 }
    328 
    329 func TestEncodeNonZeroMinPoint(t *testing.T) {
    330 	points := []image.Point{
    331 		{-8, -9},
    332 		{-4, -4},
    333 		{-3, +3},
    334 		{+0, +0},
    335 		{+2, +2},
    336 	}
    337 	for _, p := range points {
    338 		src := image.NewPaletted(image.Rectangle{Min: p, Max: p.Add(image.Point{6, 6})}, palette.Plan9)
    339 		var buf bytes.Buffer
    340 		if err := Encode(&buf, src, nil); err != nil {
    341 			t.Errorf("p=%v: Encode: %v", p, err)
    342 			continue
    343 		}
    344 		m, err := Decode(&buf)
    345 		if err != nil {
    346 			t.Errorf("p=%v: Decode: %v", p, err)
    347 			continue
    348 		}
    349 		if got, want := m.Bounds(), image.Rect(0, 0, 6, 6); got != want {
    350 			t.Errorf("p=%v: got %v, want %v", p, got, want)
    351 		}
    352 	}
    353 }
    354 
    355 func TestEncodeImplicitConfigSize(t *testing.T) {
    356 	// For backwards compatibility for Go 1.4 and earlier code, the Config
    357 	// field is optional, and if zero, the width and height is implied by the
    358 	// first (and in this case only) frame's width and height.
    359 	//
    360 	// A Config only specifies a width and height (two integers) while an
    361 	// image.Image's Bounds method returns an image.Rectangle (four integers).
    362 	// For a gif.GIF, the overall bounds' top-left point is always implicitly
    363 	// (0, 0), and any frame whose bounds have a negative X or Y will be
    364 	// outside those overall bounds, so encoding should fail.
    365 	for _, lowerBound := range []int{-1, 0, 1} {
    366 		images := []*image.Paletted{
    367 			image.NewPaletted(image.Rect(lowerBound, lowerBound, 4, 4), palette.Plan9),
    368 		}
    369 		g := &GIF{
    370 			Image: images,
    371 			Delay: make([]int, len(images)),
    372 		}
    373 		err := EncodeAll(ioutil.Discard, g)
    374 		if lowerBound >= 0 {
    375 			if err != nil {
    376 				t.Errorf("lowerBound=%d: %v", lowerBound, err)
    377 			}
    378 		} else {
    379 			if err == nil {
    380 				t.Errorf("lowerBound=%d: got nil error, want non-nil", lowerBound)
    381 			}
    382 		}
    383 	}
    384 }
    385 
    386 func TestEncodePalettes(t *testing.T) {
    387 	const w, h = 5, 5
    388 	pals := []color.Palette{{
    389 		color.RGBA{0x00, 0x00, 0x00, 0xff},
    390 		color.RGBA{0x01, 0x00, 0x00, 0xff},
    391 		color.RGBA{0x02, 0x00, 0x00, 0xff},
    392 	}, {
    393 		color.RGBA{0x00, 0x00, 0x00, 0xff},
    394 		color.RGBA{0x00, 0x01, 0x00, 0xff},
    395 	}, {
    396 		color.RGBA{0x00, 0x00, 0x03, 0xff},
    397 		color.RGBA{0x00, 0x00, 0x02, 0xff},
    398 		color.RGBA{0x00, 0x00, 0x01, 0xff},
    399 		color.RGBA{0x00, 0x00, 0x00, 0xff},
    400 	}, {
    401 		color.RGBA{0x10, 0x07, 0xf0, 0xff},
    402 		color.RGBA{0x20, 0x07, 0xf0, 0xff},
    403 		color.RGBA{0x30, 0x07, 0xf0, 0xff},
    404 		color.RGBA{0x40, 0x07, 0xf0, 0xff},
    405 		color.RGBA{0x50, 0x07, 0xf0, 0xff},
    406 	}}
    407 	g0 := &GIF{
    408 		Image: []*image.Paletted{
    409 			image.NewPaletted(image.Rect(0, 0, w, h), pals[0]),
    410 			image.NewPaletted(image.Rect(0, 0, w, h), pals[1]),
    411 			image.NewPaletted(image.Rect(0, 0, w, h), pals[2]),
    412 			image.NewPaletted(image.Rect(0, 0, w, h), pals[3]),
    413 		},
    414 		Delay:    make([]int, len(pals)),
    415 		Disposal: make([]byte, len(pals)),
    416 		Config: image.Config{
    417 			ColorModel: pals[2],
    418 			Width:      w,
    419 			Height:     h,
    420 		},
    421 	}
    422 
    423 	var buf bytes.Buffer
    424 	if err := EncodeAll(&buf, g0); err != nil {
    425 		t.Fatalf("EncodeAll: %v", err)
    426 	}
    427 	g1, err := DecodeAll(&buf)
    428 	if err != nil {
    429 		t.Fatalf("DecodeAll: %v", err)
    430 	}
    431 	if len(g0.Image) != len(g1.Image) {
    432 		t.Fatalf("image lengths differ: %d and %d", len(g0.Image), len(g1.Image))
    433 	}
    434 	for i, m := range g1.Image {
    435 		if got, want := m.Palette, pals[i]; !palettesEqual(got, want) {
    436 			t.Errorf("frame %d:\ngot  %v\nwant %v", i, got, want)
    437 		}
    438 	}
    439 }
    440 
    441 func BenchmarkEncode(b *testing.B) {
    442 	b.StopTimer()
    443 
    444 	bo := image.Rect(0, 0, 640, 480)
    445 	rnd := rand.New(rand.NewSource(123))
    446 
    447 	// Restrict to a 256-color paletted image to avoid quantization path.
    448 	palette := make(color.Palette, 256)
    449 	for i := range palette {
    450 		palette[i] = color.RGBA{
    451 			uint8(rnd.Intn(256)),
    452 			uint8(rnd.Intn(256)),
    453 			uint8(rnd.Intn(256)),
    454 			255,
    455 		}
    456 	}
    457 	img := image.NewPaletted(image.Rect(0, 0, 640, 480), palette)
    458 	for y := bo.Min.Y; y < bo.Max.Y; y++ {
    459 		for x := bo.Min.X; x < bo.Max.X; x++ {
    460 			img.Set(x, y, palette[rnd.Intn(256)])
    461 		}
    462 	}
    463 
    464 	b.SetBytes(640 * 480 * 4)
    465 	b.StartTimer()
    466 	for i := 0; i < b.N; i++ {
    467 		Encode(ioutil.Discard, img, nil)
    468 	}
    469 }
    470 
    471 func BenchmarkQuantizedEncode(b *testing.B) {
    472 	b.StopTimer()
    473 	img := image.NewRGBA(image.Rect(0, 0, 640, 480))
    474 	bo := img.Bounds()
    475 	rnd := rand.New(rand.NewSource(123))
    476 	for y := bo.Min.Y; y < bo.Max.Y; y++ {
    477 		for x := bo.Min.X; x < bo.Max.X; x++ {
    478 			img.SetRGBA(x, y, color.RGBA{
    479 				uint8(rnd.Intn(256)),
    480 				uint8(rnd.Intn(256)),
    481 				uint8(rnd.Intn(256)),
    482 				255,
    483 			})
    484 		}
    485 	}
    486 	b.SetBytes(640 * 480 * 4)
    487 	b.StartTimer()
    488 	for i := 0; i < b.N; i++ {
    489 		Encode(ioutil.Discard, img, nil)
    490 	}
    491 }
    492