Supervised user whitelists: Cleanup
[chromium-blink-merge.git] / ui / gfx / image / image_unittest.cc
blob45f80a6aa46189631cfe6e4c1e47ab73c9072983
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "testing/gtest/include/gtest/gtest.h"
6 #include "third_party/skia/include/core/SkCanvas.h"
7 #include "third_party/skia/include/core/SkPaint.h"
8 #include "ui/gfx/image/image.h"
9 #include "ui/gfx/image/image_png_rep.h"
10 #include "ui/gfx/image/image_skia.h"
11 #include "ui/gfx/image/image_unittest_util.h"
13 #if defined(OS_IOS)
14 #include "base/mac/foundation_util.h"
15 #include "skia/ext/skia_utils_ios.h"
16 #elif defined(OS_MACOSX)
17 #include "base/mac/foundation_util.h"
18 #include "skia/ext/skia_utils_mac.h"
19 #endif
21 namespace {
23 #if defined(OS_IOS) || defined(OS_MACOSX)
24 const bool kUsesSkiaNatively = false;
25 #else
26 const bool kUsesSkiaNatively = true;
27 #endif
29 class ImageTest : public testing::Test {
30 public:
31 ImageTest() {
32 std::vector<float> scales;
33 scales.push_back(1.0f);
34 #if !defined(OS_IOS)
35 scales.push_back(2.0f);
36 #endif
37 gfx::ImageSkia::SetSupportedScales(scales);
41 namespace gt = gfx::test;
43 TEST_F(ImageTest, EmptyImage) {
44 // Test the default constructor.
45 gfx::Image image;
46 EXPECT_EQ(0U, image.RepresentationCount());
47 EXPECT_TRUE(image.IsEmpty());
48 EXPECT_EQ(0, image.Width());
49 EXPECT_EQ(0, image.Height());
51 // Test the copy constructor.
52 gfx::Image imageCopy(image);
53 EXPECT_TRUE(imageCopy.IsEmpty());
54 EXPECT_EQ(0, imageCopy.Width());
55 EXPECT_EQ(0, imageCopy.Height());
57 // Test calling SwapRepresentations() with an empty image.
58 gfx::Image image2(gt::CreateImageSkia(25, 25));
59 EXPECT_FALSE(image2.IsEmpty());
60 EXPECT_EQ(25, image2.Width());
61 EXPECT_EQ(25, image2.Height());
63 image.SwapRepresentations(&image2);
64 EXPECT_FALSE(image.IsEmpty());
65 EXPECT_EQ(25, image.Width());
66 EXPECT_EQ(25, image.Height());
67 EXPECT_TRUE(image2.IsEmpty());
68 EXPECT_EQ(0, image2.Width());
69 EXPECT_EQ(0, image2.Height());
72 // Test constructing a gfx::Image from an empty PlatformImage.
73 TEST_F(ImageTest, EmptyImageFromEmptyPlatformImage) {
74 #if defined(OS_IOS) || defined(OS_MACOSX)
75 gfx::Image image1(NULL);
76 EXPECT_TRUE(image1.IsEmpty());
77 EXPECT_EQ(0, image1.Width());
78 EXPECT_EQ(0, image1.Height());
79 EXPECT_EQ(0U, image1.RepresentationCount());
80 #endif
82 // gfx::ImageSkia and gfx::ImagePNGRep are available on all platforms.
83 gfx::ImageSkia image_skia;
84 EXPECT_TRUE(image_skia.isNull());
85 gfx::Image image2(image_skia);
86 EXPECT_TRUE(image2.IsEmpty());
87 EXPECT_EQ(0, image2.Width());
88 EXPECT_EQ(0, image2.Height());
89 EXPECT_EQ(0U, image2.RepresentationCount());
91 std::vector<gfx::ImagePNGRep> image_png_reps;
92 gfx::Image image3(image_png_reps);
93 EXPECT_TRUE(image3.IsEmpty());
94 EXPECT_EQ(0, image3.Width());
95 EXPECT_EQ(0, image3.Height());
96 EXPECT_EQ(0U, image3.RepresentationCount());
99 // The resulting Image should be empty when it is created using obviously
100 // invalid data.
101 TEST_F(ImageTest, EmptyImageFromObviouslyInvalidPNGImage) {
102 std::vector<gfx::ImagePNGRep> image_png_reps1;
103 image_png_reps1.push_back(gfx::ImagePNGRep(NULL, 1.0f));
104 gfx::Image image1(image_png_reps1);
105 EXPECT_TRUE(image1.IsEmpty());
106 EXPECT_EQ(0U, image1.RepresentationCount());
108 std::vector<gfx::ImagePNGRep> image_png_reps2;
109 image_png_reps2.push_back(gfx::ImagePNGRep(
110 new base::RefCountedBytes(), 1.0f));
111 gfx::Image image2(image_png_reps2);
112 EXPECT_TRUE(image2.IsEmpty());
113 EXPECT_EQ(0U, image2.RepresentationCount());
116 // Test the Width, Height and Size of an empty and non-empty image.
117 TEST_F(ImageTest, ImageSize) {
118 gfx::Image image;
119 EXPECT_EQ(0, image.Width());
120 EXPECT_EQ(0, image.Height());
121 EXPECT_EQ(gfx::Size(0, 0), image.Size());
123 gfx::Image image2(gt::CreateImageSkia(10, 25));
124 EXPECT_EQ(10, image2.Width());
125 EXPECT_EQ(25, image2.Height());
126 EXPECT_EQ(gfx::Size(10, 25), image2.Size());
129 TEST_F(ImageTest, SkiaToSkia) {
130 gfx::Image image(gt::CreateImageSkia(25, 25));
131 EXPECT_EQ(25, image.Width());
132 EXPECT_EQ(25, image.Height());
134 // Test ToImageSkia().
135 const gfx::ImageSkia* image_skia1 = image.ToImageSkia();
136 EXPECT_TRUE(image_skia1);
137 EXPECT_FALSE(image_skia1->isNull());
138 EXPECT_EQ(1U, image.RepresentationCount());
140 // Make sure double conversion doesn't happen.
141 const gfx::ImageSkia* image_skia2 = image.ToImageSkia();
142 EXPECT_EQ(1U, image.RepresentationCount());
144 // ToImageSkia() should always return the same gfx::ImageSkia.
145 EXPECT_EQ(image_skia1, image_skia2);
147 // Test ToSkBitmap().
148 const SkBitmap* bitmap1 = image.ToSkBitmap();
149 const SkBitmap* bitmap2 = image.ToSkBitmap();
150 EXPECT_TRUE(bitmap1);
151 EXPECT_FALSE(bitmap1->isNull());
152 EXPECT_EQ(bitmap1, bitmap2);
154 EXPECT_EQ(1U, image.RepresentationCount());
155 EXPECT_TRUE(image.HasRepresentation(gfx::Image::kImageRepSkia));
156 if (!kUsesSkiaNatively)
157 EXPECT_FALSE(image.HasRepresentation(gt::GetPlatformRepresentationType()));
160 TEST_F(ImageTest, EmptyImageToPNG) {
161 gfx::Image image;
162 scoped_refptr<base::RefCountedMemory> png_bytes = image.As1xPNGBytes();
163 EXPECT_TRUE(png_bytes.get());
164 EXPECT_FALSE(png_bytes->size());
167 // Check that getting the 1x PNG bytes from images which do not have a 1x
168 // representation returns NULL.
169 TEST_F(ImageTest, ImageNo1xToPNG) {
170 // Image with 2x only.
171 const int kSize2x = 50;
172 gfx::ImageSkia image_skia;
173 image_skia.AddRepresentation(gfx::ImageSkiaRep(gt::CreateBitmap(
174 kSize2x, kSize2x), 2.0f));
175 gfx::Image image1(image_skia);
176 scoped_refptr<base::RefCountedMemory> png_bytes1 = image1.As1xPNGBytes();
177 EXPECT_TRUE(png_bytes1.get());
178 EXPECT_FALSE(png_bytes1->size());
180 std::vector<gfx::ImagePNGRep> image_png_reps;
181 image_png_reps.push_back(gfx::ImagePNGRep(
182 gt::CreatePNGBytes(kSize2x), 2.0f));
183 gfx::Image image2(image_png_reps);
184 EXPECT_FALSE(image2.IsEmpty());
185 EXPECT_EQ(0, image2.Width());
186 EXPECT_EQ(0, image2.Height());
187 scoped_refptr<base::RefCountedMemory> png_bytes2 = image2.As1xPNGBytes();
188 EXPECT_TRUE(png_bytes2.get());
189 EXPECT_FALSE(png_bytes2->size());
192 // Check that for an image initialized with multi resolution PNG data,
193 // As1xPNGBytes() returns the 1x bytes.
194 TEST_F(ImageTest, CreateExtractPNGBytes) {
195 const int kSize1x = 25;
196 const int kSize2x = 50;
198 scoped_refptr<base::RefCountedMemory> bytes1x = gt::CreatePNGBytes(kSize1x);
199 std::vector<gfx::ImagePNGRep> image_png_reps;
200 image_png_reps.push_back(gfx::ImagePNGRep(bytes1x, 1.0f));
201 image_png_reps.push_back(gfx::ImagePNGRep(
202 gt::CreatePNGBytes(kSize2x), 2.0f));
204 gfx::Image image(image_png_reps);
205 EXPECT_FALSE(image.IsEmpty());
206 EXPECT_EQ(25, image.Width());
207 EXPECT_EQ(25, image.Height());
209 EXPECT_TRUE(std::equal(bytes1x->front(), bytes1x->front() + bytes1x->size(),
210 image.As1xPNGBytes()->front()));
213 TEST_F(ImageTest, MultiResolutionImageSkiaToPNG) {
214 const int kSize1x = 25;
215 const int kSize2x = 50;
217 SkBitmap bitmap_1x = gt::CreateBitmap(kSize1x, kSize1x);
218 gfx::ImageSkia image_skia;
219 image_skia.AddRepresentation(gfx::ImageSkiaRep(bitmap_1x,
220 1.0f));
221 image_skia.AddRepresentation(gfx::ImageSkiaRep(gt::CreateBitmap(
222 kSize2x, kSize2x), 2.0f));
223 gfx::Image image(image_skia);
225 EXPECT_TRUE(gt::IsEqual(image.As1xPNGBytes(), bitmap_1x));
226 EXPECT_TRUE(image.HasRepresentation(gfx::Image::kImageRepPNG));
229 TEST_F(ImageTest, MultiResolutionPNGToImageSkia) {
230 const int kSize1x = 25;
231 const int kSize2x = 50;
233 scoped_refptr<base::RefCountedMemory> bytes1x = gt::CreatePNGBytes(kSize1x);
234 scoped_refptr<base::RefCountedMemory> bytes2x = gt::CreatePNGBytes(kSize2x);
236 std::vector<gfx::ImagePNGRep> image_png_reps;
237 image_png_reps.push_back(gfx::ImagePNGRep(bytes1x, 1.0f));
238 image_png_reps.push_back(gfx::ImagePNGRep(bytes2x, 2.0f));
239 gfx::Image image(image_png_reps);
241 std::vector<float> scales;
242 scales.push_back(1.0f);
243 scales.push_back(2.0f);
244 gfx::ImageSkia image_skia = image.AsImageSkia();
245 EXPECT_TRUE(gt::IsEqual(bytes1x,
246 image_skia.GetRepresentation(1.0f).sk_bitmap()));
247 EXPECT_TRUE(gt::IsEqual(bytes2x,
248 image_skia.GetRepresentation(2.0f).sk_bitmap()));
249 EXPECT_TRUE(gt::ImageSkiaStructureMatches(image_skia, kSize1x, kSize1x,
250 scales));
251 #if !defined(OS_IOS)
252 // IOS does not support arbitrary scale factors.
253 gfx::ImageSkiaRep rep_1_6x = image_skia.GetRepresentation(1.6f);
254 ASSERT_FALSE(rep_1_6x.is_null());
255 ASSERT_EQ(1.6f, rep_1_6x.scale());
256 EXPECT_EQ("40x40", rep_1_6x.pixel_size().ToString());
258 gfx::ImageSkiaRep rep_0_8x = image_skia.GetRepresentation(0.8f);
259 ASSERT_FALSE(rep_0_8x.is_null());
260 ASSERT_EQ(0.8f, rep_0_8x.scale());
261 EXPECT_EQ("20x20", rep_0_8x.pixel_size().ToString());
262 #endif
265 TEST_F(ImageTest, MultiResolutionPNGToPlatform) {
266 const int kSize1x = 25;
267 const int kSize2x = 50;
269 scoped_refptr<base::RefCountedMemory> bytes1x = gt::CreatePNGBytes(kSize1x);
270 scoped_refptr<base::RefCountedMemory> bytes2x = gt::CreatePNGBytes(kSize2x);
271 std::vector<gfx::ImagePNGRep> image_png_reps;
272 image_png_reps.push_back(gfx::ImagePNGRep(bytes1x, 1.0f));
273 image_png_reps.push_back(gfx::ImagePNGRep(bytes2x, 2.0f));
275 gfx::Image from_png(image_png_reps);
276 gfx::Image from_platform(gt::CopyPlatformType(from_png));
277 #if defined(OS_IOS)
278 // On iOS the platform type (UIImage) only supports one resolution.
279 std::vector<float> scales = gfx::ImageSkia::GetSupportedScales();
280 EXPECT_EQ(scales.size(), 1U);
281 if (scales[0] == 1.0f)
282 EXPECT_TRUE(gt::IsEqual(bytes1x, from_platform.AsBitmap()));
283 else if (scales[0] == 2.0f)
284 EXPECT_TRUE(gt::IsEqual(bytes2x, from_platform.AsBitmap()));
285 else
286 ADD_FAILURE() << "Unexpected platform scale factor.";
287 #else
288 EXPECT_TRUE(gt::IsEqual(bytes1x, from_platform.AsBitmap()));
289 #endif // defined(OS_IOS)
293 TEST_F(ImageTest, PlatformToPNGEncodeAndDecode) {
294 gfx::Image image(gt::CreatePlatformImage());
295 scoped_refptr<base::RefCountedMemory> png_data = image.As1xPNGBytes();
296 EXPECT_TRUE(png_data.get());
297 EXPECT_TRUE(png_data->size());
298 EXPECT_TRUE(image.HasRepresentation(gfx::Image::kImageRepPNG));
300 std::vector<gfx::ImagePNGRep> image_png_reps;
301 image_png_reps.push_back(gfx::ImagePNGRep(png_data, 1.0f));
302 gfx::Image from_png(image_png_reps);
304 EXPECT_TRUE(from_png.HasRepresentation(gfx::Image::kImageRepPNG));
305 EXPECT_TRUE(gt::IsPlatformImageValid(gt::ToPlatformType(from_png)));
308 // The platform types use the platform provided encoding/decoding of PNGs. Make
309 // sure these work with the Skia Encode/Decode.
310 TEST_F(ImageTest, PNGEncodeFromSkiaDecodeToPlatform) {
311 // Force the conversion sequence skia to png to platform_type.
312 gfx::Image from_bitmap = gfx::Image::CreateFrom1xBitmap(
313 gt::CreateBitmap(25, 25));
314 scoped_refptr<base::RefCountedMemory> png_bytes =
315 from_bitmap.As1xPNGBytes();
317 std::vector<gfx::ImagePNGRep> image_png_reps;
318 image_png_reps.push_back(gfx::ImagePNGRep(png_bytes, 1.0f));
319 gfx::Image from_png(image_png_reps);
321 gfx::Image from_platform(gt::CopyPlatformType(from_png));
323 EXPECT_TRUE(gt::IsPlatformImageValid(gt::ToPlatformType(from_platform)));
324 EXPECT_TRUE(gt::IsEqual(png_bytes, from_platform.AsBitmap()));
327 TEST_F(ImageTest, PNGEncodeFromPlatformDecodeToSkia) {
328 // Force the conversion sequence platform_type to png to skia.
329 gfx::Image from_platform(gt::CreatePlatformImage());
330 scoped_refptr<base::RefCountedMemory> png_bytes =
331 from_platform.As1xPNGBytes();
332 std::vector<gfx::ImagePNGRep> image_png_reps;
333 image_png_reps.push_back(gfx::ImagePNGRep(png_bytes, 1.0f));
334 gfx::Image from_png(image_png_reps);
336 EXPECT_TRUE(gt::IsEqual(from_platform.AsBitmap(), from_png.AsBitmap()));
339 TEST_F(ImageTest, PNGDecodeToSkiaFailure) {
340 scoped_refptr<base::RefCountedBytes> invalid_bytes(
341 new base::RefCountedBytes());
342 invalid_bytes->data().push_back('0');
343 std::vector<gfx::ImagePNGRep> image_png_reps;
344 image_png_reps.push_back(gfx::ImagePNGRep(
345 invalid_bytes, 1.0f));
346 gfx::Image image(image_png_reps);
347 gt::CheckImageIndicatesPNGDecodeFailure(image);
350 TEST_F(ImageTest, PNGDecodeToPlatformFailure) {
351 scoped_refptr<base::RefCountedBytes> invalid_bytes(
352 new base::RefCountedBytes());
353 invalid_bytes->data().push_back('0');
354 std::vector<gfx::ImagePNGRep> image_png_reps;
355 image_png_reps.push_back(gfx::ImagePNGRep(
356 invalid_bytes, 1.0f));
357 gfx::Image from_png(image_png_reps);
358 gfx::Image from_platform(gt::CopyPlatformType(from_png));
359 gt::CheckImageIndicatesPNGDecodeFailure(from_platform);
362 TEST_F(ImageTest, SkiaToPlatform) {
363 gfx::Image image(gt::CreateImageSkia(25, 25));
364 EXPECT_EQ(25, image.Width());
365 EXPECT_EQ(25, image.Height());
366 const size_t kRepCount = kUsesSkiaNatively ? 1U : 2U;
368 EXPECT_TRUE(image.HasRepresentation(gfx::Image::kImageRepSkia));
369 if (!kUsesSkiaNatively)
370 EXPECT_FALSE(image.HasRepresentation(gt::GetPlatformRepresentationType()));
372 EXPECT_TRUE(gt::IsPlatformImageValid(gt::ToPlatformType(image)));
373 EXPECT_EQ(kRepCount, image.RepresentationCount());
375 const SkBitmap* bitmap = image.ToSkBitmap();
376 EXPECT_FALSE(bitmap->isNull());
377 EXPECT_EQ(kRepCount, image.RepresentationCount());
379 EXPECT_TRUE(image.HasRepresentation(gfx::Image::kImageRepSkia));
380 EXPECT_TRUE(image.HasRepresentation(gt::GetPlatformRepresentationType()));
381 EXPECT_EQ(25, image.Width());
382 EXPECT_EQ(25, image.Height());
385 TEST_F(ImageTest, PlatformToSkia) {
386 gfx::Image image(gt::CreatePlatformImage());
387 EXPECT_EQ(25, image.Width());
388 EXPECT_EQ(25, image.Height());
389 const size_t kRepCount = kUsesSkiaNatively ? 1U : 2U;
391 EXPECT_TRUE(image.HasRepresentation(gt::GetPlatformRepresentationType()));
392 if (!kUsesSkiaNatively)
393 EXPECT_FALSE(image.HasRepresentation(gfx::Image::kImageRepSkia));
395 const SkBitmap* bitmap = image.ToSkBitmap();
396 EXPECT_TRUE(bitmap);
397 EXPECT_FALSE(bitmap->isNull());
398 EXPECT_EQ(kRepCount, image.RepresentationCount());
400 EXPECT_TRUE(gt::IsPlatformImageValid(gt::ToPlatformType(image)));
401 EXPECT_EQ(kRepCount, image.RepresentationCount());
403 EXPECT_TRUE(image.HasRepresentation(gfx::Image::kImageRepSkia));
404 EXPECT_EQ(25, image.Width());
405 EXPECT_EQ(25, image.Height());
408 TEST_F(ImageTest, PlatformToPlatform) {
409 gfx::Image image(gt::CreatePlatformImage());
410 EXPECT_EQ(25, image.Width());
411 EXPECT_EQ(25, image.Height());
412 EXPECT_TRUE(gt::IsPlatformImageValid(gt::ToPlatformType(image)));
413 EXPECT_EQ(1U, image.RepresentationCount());
415 // Make sure double conversion doesn't happen.
416 EXPECT_TRUE(gt::IsPlatformImageValid(gt::ToPlatformType(image)));
417 EXPECT_EQ(1U, image.RepresentationCount());
419 EXPECT_TRUE(image.HasRepresentation(gt::GetPlatformRepresentationType()));
420 if (!kUsesSkiaNatively)
421 EXPECT_FALSE(image.HasRepresentation(gfx::Image::kImageRepSkia));
422 EXPECT_EQ(25, image.Width());
423 EXPECT_EQ(25, image.Height());
426 TEST_F(ImageTest, PlatformToSkiaToCopy) {
427 const gfx::ImageSkia* image_skia = NULL;
429 gfx::Image image(gt::CreatePlatformImage());
430 image_skia = image.CopyImageSkia();
432 EXPECT_TRUE(image_skia);
433 EXPECT_FALSE(image_skia->isNull());
434 delete image_skia;
436 const SkBitmap* bitmap = NULL;
438 gfx::Image image(gt::CreatePlatformImage());
439 bitmap = image.CopySkBitmap();
442 EXPECT_TRUE(bitmap);
443 EXPECT_FALSE(bitmap->isNull());
444 delete bitmap;
447 #if defined(OS_IOS)
448 TEST_F(ImageTest, SkiaToCocoaTouchCopy) {
449 UIImage* ui_image;
452 gfx::Image image(gt::CreateImageSkia(25, 25));
453 ui_image = image.CopyUIImage();
456 EXPECT_TRUE(ui_image);
457 base::mac::NSObjectRelease(ui_image);
459 #elif defined(OS_MACOSX)
460 TEST_F(ImageTest, SkiaToCocoaCopy) {
461 NSImage* ns_image;
464 gfx::Image image(gt::CreateImageSkia(25, 25));
465 ns_image = image.CopyNSImage();
468 EXPECT_TRUE(ns_image);
469 base::mac::NSObjectRelease(ns_image);
471 #endif
473 TEST_F(ImageTest, CheckSkiaColor) {
474 gfx::Image image(gt::CreatePlatformImage());
476 const SkBitmap* bitmap = image.ToSkBitmap();
477 SkAutoLockPixels auto_lock(*bitmap);
478 gt::CheckColors(bitmap->getColor(10, 10), SK_ColorGREEN);
481 TEST_F(ImageTest, SkBitmapConversionPreservesOrientation) {
482 const int width = 50;
483 const int height = 50;
484 SkBitmap bitmap;
485 bitmap.allocN32Pixels(width, height);
486 bitmap.eraseARGB(255, 0, 255, 0);
488 // Paint the upper half of the image in red (lower half is in green).
489 SkCanvas canvas(bitmap);
490 SkPaint red;
491 red.setColor(SK_ColorRED);
492 canvas.drawRect(SkRect::MakeWH(width, height / 2), red);
494 SCOPED_TRACE("Checking color of the initial SkBitmap");
495 gt::CheckColors(bitmap.getColor(10, 10), SK_ColorRED);
496 gt::CheckColors(bitmap.getColor(10, 40), SK_ColorGREEN);
499 // Convert from SkBitmap to a platform representation, then check the upper
500 // half of the platform image to make sure it is red, not green.
501 gfx::Image from_skbitmap = gfx::Image::CreateFrom1xBitmap(bitmap);
503 SCOPED_TRACE("Checking color of the platform image");
504 gt::CheckColors(
505 gt::GetPlatformImageColor(gt::ToPlatformType(from_skbitmap), 10, 10),
506 SK_ColorRED);
507 gt::CheckColors(
508 gt::GetPlatformImageColor(gt::ToPlatformType(from_skbitmap), 10, 40),
509 SK_ColorGREEN);
512 // Force a conversion back to SkBitmap and check that the upper half is red.
513 gfx::Image from_platform(gt::CopyPlatformType(from_skbitmap));
514 const SkBitmap* bitmap2 = from_platform.ToSkBitmap();
515 SkAutoLockPixels auto_lock(*bitmap2);
517 SCOPED_TRACE("Checking color after conversion back to SkBitmap");
518 gt::CheckColors(bitmap2->getColor(10, 10), SK_ColorRED);
519 gt::CheckColors(bitmap2->getColor(10, 40), SK_ColorGREEN);
523 TEST_F(ImageTest, SkBitmapConversionPreservesTransparency) {
524 const int width = 50;
525 const int height = 50;
526 SkBitmap bitmap;
527 bitmap.allocN32Pixels(width, height);
528 bitmap.eraseARGB(0, 0, 255, 0);
530 // Paint the upper half of the image in red (lower half is transparent).
531 SkCanvas canvas(bitmap);
532 SkPaint red;
533 red.setColor(SK_ColorRED);
534 canvas.drawRect(SkRect::MakeWH(width, height / 2), red);
536 SCOPED_TRACE("Checking color of the initial SkBitmap");
537 gt::CheckColors(bitmap.getColor(10, 10), SK_ColorRED);
538 gt::CheckIsTransparent(bitmap.getColor(10, 40));
541 // Convert from SkBitmap to a platform representation, then check the upper
542 // half of the platform image to make sure it is red, not green.
543 gfx::Image from_skbitmap = gfx::Image::CreateFrom1xBitmap(bitmap);
545 SCOPED_TRACE("Checking color of the platform image");
546 gt::CheckColors(
547 gt::GetPlatformImageColor(gt::ToPlatformType(from_skbitmap), 10, 10),
548 SK_ColorRED);
549 gt::CheckIsTransparent(
550 gt::GetPlatformImageColor(gt::ToPlatformType(from_skbitmap), 10, 40));
553 // Force a conversion back to SkBitmap and check that the upper half is red.
554 gfx::Image from_platform(gt::CopyPlatformType(from_skbitmap));
555 const SkBitmap* bitmap2 = from_platform.ToSkBitmap();
556 SkAutoLockPixels auto_lock(*bitmap2);
558 SCOPED_TRACE("Checking color after conversion back to SkBitmap");
559 gt::CheckColors(bitmap2->getColor(10, 10), SK_ColorRED);
560 gt::CheckIsTransparent(bitmap.getColor(10, 40));
564 TEST_F(ImageTest, SwapRepresentations) {
565 const size_t kRepCount = kUsesSkiaNatively ? 1U : 2U;
567 gfx::Image image1(gt::CreateImageSkia(25, 25));
568 const gfx::ImageSkia* image_skia1 = image1.ToImageSkia();
569 EXPECT_EQ(1U, image1.RepresentationCount());
571 gfx::Image image2(gt::CreatePlatformImage());
572 const gfx::ImageSkia* image_skia2 = image2.ToImageSkia();
573 gt::PlatformImage platform_image = gt::ToPlatformType(image2);
574 EXPECT_EQ(kRepCount, image2.RepresentationCount());
576 image1.SwapRepresentations(&image2);
578 EXPECT_EQ(image_skia2, image1.ToImageSkia());
579 EXPECT_TRUE(gt::PlatformImagesEqual(platform_image,
580 gt::ToPlatformType(image1)));
581 EXPECT_EQ(image_skia1, image2.ToImageSkia());
582 EXPECT_EQ(kRepCount, image1.RepresentationCount());
583 EXPECT_EQ(1U, image2.RepresentationCount());
586 TEST_F(ImageTest, Copy) {
587 const size_t kRepCount = kUsesSkiaNatively ? 1U : 2U;
589 gfx::Image image1(gt::CreateImageSkia(25, 25));
590 EXPECT_EQ(25, image1.Width());
591 EXPECT_EQ(25, image1.Height());
592 gfx::Image image2(image1);
593 EXPECT_EQ(25, image2.Width());
594 EXPECT_EQ(25, image2.Height());
596 EXPECT_EQ(1U, image1.RepresentationCount());
597 EXPECT_EQ(1U, image2.RepresentationCount());
598 EXPECT_EQ(image1.ToImageSkia(), image2.ToImageSkia());
600 EXPECT_TRUE(gt::IsPlatformImageValid(gt::ToPlatformType(image2)));
601 EXPECT_EQ(kRepCount, image2.RepresentationCount());
602 EXPECT_EQ(kRepCount, image1.RepresentationCount());
605 TEST_F(ImageTest, Assign) {
606 gfx::Image image1(gt::CreatePlatformImage());
607 EXPECT_EQ(25, image1.Width());
608 EXPECT_EQ(25, image1.Height());
609 // Assignment must be on a separate line to the declaration in order to test
610 // assignment operator (instead of copy constructor).
611 gfx::Image image2;
612 image2 = image1;
613 EXPECT_EQ(25, image2.Width());
614 EXPECT_EQ(25, image2.Height());
616 EXPECT_EQ(1U, image1.RepresentationCount());
617 EXPECT_EQ(1U, image2.RepresentationCount());
618 EXPECT_EQ(image1.ToSkBitmap(), image2.ToSkBitmap());
621 TEST_F(ImageTest, MultiResolutionImageSkia) {
622 const int kWidth1x = 10;
623 const int kHeight1x = 12;
624 const int kWidth2x = 20;
625 const int kHeight2x = 24;
627 gfx::ImageSkia image_skia;
628 image_skia.AddRepresentation(gfx::ImageSkiaRep(
629 gt::CreateBitmap(kWidth1x, kHeight1x),
630 1.0f));
631 image_skia.AddRepresentation(gfx::ImageSkiaRep(
632 gt::CreateBitmap(kWidth2x, kHeight2x),
633 2.0f));
635 std::vector<float> scales;
636 scales.push_back(1.0f);
637 scales.push_back(2.0f);
638 EXPECT_TRUE(gt::ImageSkiaStructureMatches(image_skia, kWidth1x, kHeight1x,
639 scales));
641 // Check that the image has a single representation.
642 gfx::Image image(image_skia);
643 EXPECT_EQ(1u, image.RepresentationCount());
644 EXPECT_EQ(kWidth1x, image.Width());
645 EXPECT_EQ(kHeight1x, image.Height());
648 TEST_F(ImageTest, RemoveFromMultiResolutionImageSkia) {
649 const int kWidth2x = 20;
650 const int kHeight2x = 24;
652 gfx::ImageSkia image_skia;
654 image_skia.AddRepresentation(gfx::ImageSkiaRep(
655 gt::CreateBitmap(kWidth2x, kHeight2x), 2.0f));
656 EXPECT_EQ(1u, image_skia.image_reps().size());
658 image_skia.RemoveRepresentation(1.0f);
659 EXPECT_EQ(1u, image_skia.image_reps().size());
661 image_skia.RemoveRepresentation(2.0f);
662 EXPECT_EQ(0u, image_skia.image_reps().size());
665 // Tests that gfx::Image does indeed take ownership of the SkBitmap it is
666 // passed.
667 TEST_F(ImageTest, OwnershipTest) {
668 gfx::Image image;
670 SkBitmap bitmap(gt::CreateBitmap(10, 10));
671 EXPECT_TRUE(!bitmap.isNull());
672 image = gfx::Image(gfx::ImageSkia(
673 gfx::ImageSkiaRep(bitmap, 1.0f)));
675 EXPECT_TRUE(!image.ToSkBitmap()->isNull());
678 // Integration tests with UI toolkit frameworks require linking against the
679 // Views library and cannot be here (ui_base_unittests doesn't include it). They
680 // instead live in /chrome/browser/ui/tests/ui_gfx_image_unittest.cc.
682 } // namespace