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| 1 /* |
| 2 * Copyright (c) 2004 The WebRTC project authors. All Rights Reserved. |
| 3 * |
| 4 * Use of this source code is governed by a BSD-style license |
| 5 * that can be found in the LICENSE file in the root of the source |
| 6 * tree. An additional intellectual property rights grant can be found |
| 7 * in the file PATENTS. All contributing project authors may |
| 8 * be found in the AUTHORS file in the root of the source tree. |
| 9 */ |
| 10 |
| 11 #ifndef WEBRTC_MEDIA_BASE_VIDEOFRAME_UNITTEST_H_ |
| 12 #define WEBRTC_MEDIA_BASE_VIDEOFRAME_UNITTEST_H_ |
| 13 |
| 14 #include <algorithm> |
| 15 #include <memory> |
| 16 #include <string> |
| 17 |
| 18 #include "libyuv/convert.h" |
| 19 #include "libyuv/convert_from.h" |
| 20 #include "libyuv/planar_functions.h" |
| 21 #include "libyuv/rotate.h" |
| 22 #include "webrtc/base/gunit.h" |
| 23 #include "webrtc/base/pathutils.h" |
| 24 #include "webrtc/base/stream.h" |
| 25 #include "webrtc/base/stringutils.h" |
| 26 #include "webrtc/common_video/rotation.h" |
| 27 #include "webrtc/media/base/testutils.h" |
| 28 #include "webrtc/media/base/videocommon.h" |
| 29 #include "webrtc/media/base/videoframe.h" |
| 30 #include "webrtc/test/testsupport/fileutils.h" |
| 31 |
| 32 #if defined(_MSC_VER) |
| 33 #define ALIGN16(var) __declspec(align(16)) var |
| 34 #else |
| 35 #define ALIGN16(var) var __attribute__((aligned(16))) |
| 36 #endif |
| 37 |
| 38 #define kImageFilename "media/faces.1280x720_P420" |
| 39 #define kYuvExtension "yuv" |
| 40 #define kJpeg420Filename "media/faces_I420" |
| 41 #define kJpeg422Filename "media/faces_I422" |
| 42 #define kJpeg444Filename "media/faces_I444" |
| 43 #define kJpeg411Filename "media/faces_I411" |
| 44 #define kJpeg400Filename "media/faces_I400" |
| 45 #define kJpegExtension "jpg" |
| 46 |
| 47 // Generic test class for testing various video frame implementations. |
| 48 template <class T> |
| 49 class VideoFrameTest : public testing::Test { |
| 50 public: |
| 51 VideoFrameTest() : repeat_(1) {} |
| 52 |
| 53 protected: |
| 54 static const int kWidth = 1280; |
| 55 static const int kHeight = 720; |
| 56 static const int kAlignment = 16; |
| 57 static const int kMinWidthAll = 1; // Constants for ConstructYUY2AllSizes. |
| 58 static const int kMinHeightAll = 1; |
| 59 static const int kMaxWidthAll = 17; |
| 60 static const int kMaxHeightAll = 23; |
| 61 |
| 62 // Load a video frame from disk. |
| 63 bool LoadFrameNoRepeat(T* frame) { |
| 64 int save_repeat = repeat_; // This LoadFrame disables repeat. |
| 65 repeat_ = 1; |
| 66 bool success = LoadFrame(LoadSample(kImageFilename, kYuvExtension).get(), |
| 67 cricket::FOURCC_I420, |
| 68 kWidth, kHeight, frame); |
| 69 repeat_ = save_repeat; |
| 70 return success; |
| 71 } |
| 72 |
| 73 bool LoadFrame(const std::string& filename, |
| 74 uint32_t format, |
| 75 int32_t width, |
| 76 int32_t height, |
| 77 T* frame) { |
| 78 return LoadFrame(filename, format, width, height, width, abs(height), |
| 79 webrtc::kVideoRotation_0, frame); |
| 80 } |
| 81 bool LoadFrame(const std::string& filename, |
| 82 uint32_t format, |
| 83 int32_t width, |
| 84 int32_t height, |
| 85 int dw, |
| 86 int dh, |
| 87 webrtc::VideoRotation rotation, |
| 88 T* frame) { |
| 89 std::unique_ptr<rtc::MemoryStream> ms(LoadSample(filename)); |
| 90 return LoadFrame(ms.get(), format, width, height, dw, dh, rotation, frame); |
| 91 } |
| 92 // Load a video frame from a memory stream. |
| 93 bool LoadFrame(rtc::MemoryStream* ms, |
| 94 uint32_t format, |
| 95 int32_t width, |
| 96 int32_t height, |
| 97 T* frame) { |
| 98 return LoadFrame(ms, format, width, height, width, abs(height), |
| 99 webrtc::kVideoRotation_0, frame); |
| 100 } |
| 101 bool LoadFrame(rtc::MemoryStream* ms, |
| 102 uint32_t format, |
| 103 int32_t width, |
| 104 int32_t height, |
| 105 int dw, |
| 106 int dh, |
| 107 webrtc::VideoRotation rotation, |
| 108 T* frame) { |
| 109 if (!ms) { |
| 110 return false; |
| 111 } |
| 112 size_t data_size; |
| 113 bool ret = ms->GetSize(&data_size); |
| 114 EXPECT_TRUE(ret); |
| 115 if (ret) { |
| 116 ret = LoadFrame(reinterpret_cast<uint8_t*>(ms->GetBuffer()), data_size, |
| 117 format, width, height, dw, dh, rotation, frame); |
| 118 } |
| 119 return ret; |
| 120 } |
| 121 // Load a frame from a raw buffer. |
| 122 bool LoadFrame(uint8_t* sample, |
| 123 size_t sample_size, |
| 124 uint32_t format, |
| 125 int32_t width, |
| 126 int32_t height, |
| 127 T* frame) { |
| 128 return LoadFrame(sample, sample_size, format, width, height, width, |
| 129 abs(height), webrtc::kVideoRotation_0, frame); |
| 130 } |
| 131 bool LoadFrame(uint8_t* sample, |
| 132 size_t sample_size, |
| 133 uint32_t format, |
| 134 int32_t width, |
| 135 int32_t height, |
| 136 int dw, |
| 137 int dh, |
| 138 webrtc::VideoRotation rotation, |
| 139 T* frame) { |
| 140 bool ret = false; |
| 141 for (int i = 0; i < repeat_; ++i) { |
| 142 ret = frame->Init(format, width, height, dw, dh, |
| 143 sample, sample_size, 0, rotation); |
| 144 } |
| 145 return ret; |
| 146 } |
| 147 |
| 148 std::unique_ptr<rtc::MemoryStream> LoadSample(const std::string& filename, |
| 149 const std::string& extension) { |
| 150 rtc::Pathname path(webrtc::test::ResourcePath(filename, extension)); |
| 151 std::unique_ptr<rtc::FileStream> fs( |
| 152 rtc::Filesystem::OpenFile(path, "rb")); |
| 153 if (!fs.get()) { |
| 154 LOG(LS_ERROR) << "Could not open test file path: " << path.pathname() |
| 155 << " from current dir " |
| 156 << rtc::Filesystem::GetCurrentDirectory().pathname(); |
| 157 return NULL; |
| 158 } |
| 159 |
| 160 char buf[4096]; |
| 161 std::unique_ptr<rtc::MemoryStream> ms( |
| 162 new rtc::MemoryStream()); |
| 163 rtc::StreamResult res = Flow(fs.get(), buf, sizeof(buf), ms.get()); |
| 164 if (res != rtc::SR_SUCCESS) { |
| 165 LOG(LS_ERROR) << "Could not load test file path: " << path.pathname(); |
| 166 return NULL; |
| 167 } |
| 168 |
| 169 return ms; |
| 170 } |
| 171 |
| 172 bool DumpSample(const std::string& filename, const void* buffer, int size) { |
| 173 rtc::Pathname path(filename); |
| 174 std::unique_ptr<rtc::FileStream> fs( |
| 175 rtc::Filesystem::OpenFile(path, "wb")); |
| 176 if (!fs.get()) { |
| 177 return false; |
| 178 } |
| 179 |
| 180 return (fs->Write(buffer, size, NULL, NULL) == rtc::SR_SUCCESS); |
| 181 } |
| 182 |
| 183 // Create a test image in the desired color space. |
| 184 // The image is a checkerboard pattern with 63x63 squares, which allows |
| 185 // I420 chroma artifacts to easily be seen on the square boundaries. |
| 186 // The pattern is { { green, orange }, { blue, purple } } |
| 187 // There is also a gradient within each square to ensure that the luma |
| 188 // values are handled properly. |
| 189 std::unique_ptr<rtc::MemoryStream> CreateYuv422Sample(uint32_t fourcc, |
| 190 uint32_t width, |
| 191 uint32_t height) { |
| 192 int y1_pos, y2_pos, u_pos, v_pos; |
| 193 if (!GetYuv422Packing(fourcc, &y1_pos, &y2_pos, &u_pos, &v_pos)) { |
| 194 return NULL; |
| 195 } |
| 196 |
| 197 std::unique_ptr<rtc::MemoryStream> ms( |
| 198 new rtc::MemoryStream); |
| 199 int awidth = (width + 1) & ~1; |
| 200 int size = awidth * 2 * height; |
| 201 if (!ms->ReserveSize(size)) { |
| 202 return NULL; |
| 203 } |
| 204 for (uint32_t y = 0; y < height; ++y) { |
| 205 for (int x = 0; x < awidth; x += 2) { |
| 206 uint8_t quad[4]; |
| 207 quad[y1_pos] = (x % 63 + y % 63) + 64; |
| 208 quad[y2_pos] = ((x + 1) % 63 + y % 63) + 64; |
| 209 quad[u_pos] = ((x / 63) & 1) ? 192 : 64; |
| 210 quad[v_pos] = ((y / 63) & 1) ? 192 : 64; |
| 211 ms->Write(quad, sizeof(quad), NULL, NULL); |
| 212 } |
| 213 } |
| 214 return ms; |
| 215 } |
| 216 |
| 217 // Create a test image for YUV 420 formats with 12 bits per pixel. |
| 218 std::unique_ptr<rtc::MemoryStream> CreateYuvSample(uint32_t width, |
| 219 uint32_t height, |
| 220 uint32_t bpp) { |
| 221 std::unique_ptr<rtc::MemoryStream> ms( |
| 222 new rtc::MemoryStream); |
| 223 if (!ms->ReserveSize(width * height * bpp / 8)) { |
| 224 return NULL; |
| 225 } |
| 226 |
| 227 for (uint32_t i = 0; i < width * height * bpp / 8; ++i) { |
| 228 uint8_t value = ((i / 63) & 1) ? 192 : 64; |
| 229 ms->Write(&value, sizeof(value), NULL, NULL); |
| 230 } |
| 231 return ms; |
| 232 } |
| 233 |
| 234 std::unique_ptr<rtc::MemoryStream> CreateRgbSample(uint32_t fourcc, |
| 235 uint32_t width, |
| 236 uint32_t height) { |
| 237 int r_pos, g_pos, b_pos, bytes; |
| 238 if (!GetRgbPacking(fourcc, &r_pos, &g_pos, &b_pos, &bytes)) { |
| 239 return NULL; |
| 240 } |
| 241 |
| 242 std::unique_ptr<rtc::MemoryStream> ms( |
| 243 new rtc::MemoryStream); |
| 244 if (!ms->ReserveSize(width * height * bytes)) { |
| 245 return NULL; |
| 246 } |
| 247 |
| 248 for (uint32_t y = 0; y < height; ++y) { |
| 249 for (uint32_t x = 0; x < width; ++x) { |
| 250 uint8_t rgb[4] = {255, 255, 255, 255}; |
| 251 rgb[r_pos] = ((x / 63) & 1) ? 224 : 32; |
| 252 rgb[g_pos] = (x % 63 + y % 63) + 96; |
| 253 rgb[b_pos] = ((y / 63) & 1) ? 224 : 32; |
| 254 ms->Write(rgb, bytes, NULL, NULL); |
| 255 } |
| 256 } |
| 257 return ms; |
| 258 } |
| 259 |
| 260 // Simple conversion routines to verify the optimized VideoFrame routines. |
| 261 // Converts from the specified colorspace to I420. |
| 262 std::unique_ptr<T> ConvertYuv422(const rtc::MemoryStream* ms, |
| 263 uint32_t fourcc, |
| 264 uint32_t width, |
| 265 uint32_t height) { |
| 266 int y1_pos, y2_pos, u_pos, v_pos; |
| 267 if (!GetYuv422Packing(fourcc, &y1_pos, &y2_pos, &u_pos, &v_pos)) { |
| 268 return nullptr; |
| 269 } |
| 270 |
| 271 rtc::scoped_refptr<webrtc::I420Buffer> buffer( |
| 272 new rtc::RefCountedObject<webrtc::I420Buffer>(width, height)); |
| 273 |
| 274 buffer->SetToBlack(); |
| 275 |
| 276 const uint8_t* start = reinterpret_cast<const uint8_t*>(ms->GetBuffer()); |
| 277 int awidth = (width + 1) & ~1; |
| 278 int stride_y = buffer->StrideY(); |
| 279 int stride_u = buffer->StrideU(); |
| 280 int stride_v = buffer->StrideV(); |
| 281 uint8_t* plane_y = buffer->MutableDataY(); |
| 282 uint8_t* plane_u = buffer->MutableDataU(); |
| 283 uint8_t* plane_v = buffer->MutableDataV(); |
| 284 for (uint32_t y = 0; y < height; ++y) { |
| 285 for (uint32_t x = 0; x < width; x += 2) { |
| 286 const uint8_t* quad1 = start + (y * awidth + x) * 2; |
| 287 plane_y[stride_y * y + x] = quad1[y1_pos]; |
| 288 if ((x + 1) < width) { |
| 289 plane_y[stride_y * y + x + 1] = quad1[y2_pos]; |
| 290 } |
| 291 if ((y & 1) == 0) { |
| 292 const uint8_t* quad2 = quad1 + awidth * 2; |
| 293 if ((y + 1) >= height) { |
| 294 quad2 = quad1; |
| 295 } |
| 296 plane_u[stride_u * (y / 2) + x / 2] = |
| 297 (quad1[u_pos] + quad2[u_pos] + 1) / 2; |
| 298 plane_v[stride_v * (y / 2) + x / 2] = |
| 299 (quad1[v_pos] + quad2[v_pos] + 1) / 2; |
| 300 } |
| 301 } |
| 302 } |
| 303 return std::unique_ptr<T>(new T(buffer, 0, webrtc::kVideoRotation_0)); |
| 304 } |
| 305 |
| 306 // Convert RGB to 420. |
| 307 // A negative height inverts the image. |
| 308 std::unique_ptr<T> ConvertRgb(const rtc::MemoryStream* ms, |
| 309 uint32_t fourcc, |
| 310 int32_t width, |
| 311 int32_t height) { |
| 312 int r_pos, g_pos, b_pos, bytes; |
| 313 if (!GetRgbPacking(fourcc, &r_pos, &g_pos, &b_pos, &bytes)) { |
| 314 return nullptr; |
| 315 } |
| 316 int pitch = width * bytes; |
| 317 const uint8_t* start = reinterpret_cast<const uint8_t*>(ms->GetBuffer()); |
| 318 if (height < 0) { |
| 319 height = -height; |
| 320 start = start + pitch * (height - 1); |
| 321 pitch = -pitch; |
| 322 } |
| 323 rtc::scoped_refptr<webrtc::I420Buffer> buffer( |
| 324 new rtc::RefCountedObject<webrtc::I420Buffer>(width, height)); |
| 325 |
| 326 buffer->SetToBlack(); |
| 327 |
| 328 int stride_y = buffer->StrideY(); |
| 329 int stride_u = buffer->StrideU(); |
| 330 int stride_v = buffer->StrideV(); |
| 331 uint8_t* plane_y = buffer->MutableDataY(); |
| 332 uint8_t* plane_u = buffer->MutableDataU(); |
| 333 uint8_t* plane_v = buffer->MutableDataV(); |
| 334 for (int32_t y = 0; y < height; y += 2) { |
| 335 for (int32_t x = 0; x < width; x += 2) { |
| 336 const uint8_t* rgb[4]; |
| 337 uint8_t yuv[4][3]; |
| 338 rgb[0] = start + y * pitch + x * bytes; |
| 339 rgb[1] = rgb[0] + ((x + 1) < width ? bytes : 0); |
| 340 rgb[2] = rgb[0] + ((y + 1) < height ? pitch : 0); |
| 341 rgb[3] = rgb[2] + ((x + 1) < width ? bytes : 0); |
| 342 for (size_t i = 0; i < 4; ++i) { |
| 343 ConvertRgbPixel(rgb[i][r_pos], rgb[i][g_pos], rgb[i][b_pos], |
| 344 &yuv[i][0], &yuv[i][1], &yuv[i][2]); |
| 345 } |
| 346 plane_y[stride_y * y + x] = yuv[0][0]; |
| 347 if ((x + 1) < width) { |
| 348 plane_y[stride_y * y + x + 1] = yuv[1][0]; |
| 349 } |
| 350 if ((y + 1) < height) { |
| 351 plane_y[stride_y * (y + 1) + x] = yuv[2][0]; |
| 352 if ((x + 1) < width) { |
| 353 plane_y[stride_y * (y + 1) + x + 1] = yuv[3][0]; |
| 354 } |
| 355 } |
| 356 plane_u[stride_u * (y / 2) + x / 2] = |
| 357 (yuv[0][1] + yuv[1][1] + yuv[2][1] + yuv[3][1] + 2) / 4; |
| 358 plane_v[stride_v * (y / 2) + x / 2] = |
| 359 (yuv[0][2] + yuv[1][2] + yuv[2][2] + yuv[3][2] + 2) / 4; |
| 360 } |
| 361 } |
| 362 return std::unique_ptr<T>(new T(buffer, 0, webrtc::kVideoRotation_0)); |
| 363 } |
| 364 |
| 365 // Simple and slow RGB->YUV conversion. From NTSC standard, c/o Wikipedia. |
| 366 void ConvertRgbPixel(uint8_t r, |
| 367 uint8_t g, |
| 368 uint8_t b, |
| 369 uint8_t* y, |
| 370 uint8_t* u, |
| 371 uint8_t* v) { |
| 372 *y = static_cast<int>(.257 * r + .504 * g + .098 * b) + 16; |
| 373 *u = static_cast<int>(-.148 * r - .291 * g + .439 * b) + 128; |
| 374 *v = static_cast<int>(.439 * r - .368 * g - .071 * b) + 128; |
| 375 } |
| 376 |
| 377 bool GetYuv422Packing(uint32_t fourcc, |
| 378 int* y1_pos, |
| 379 int* y2_pos, |
| 380 int* u_pos, |
| 381 int* v_pos) { |
| 382 if (fourcc == cricket::FOURCC_YUY2) { |
| 383 *y1_pos = 0; *u_pos = 1; *y2_pos = 2; *v_pos = 3; |
| 384 } else if (fourcc == cricket::FOURCC_UYVY) { |
| 385 *u_pos = 0; *y1_pos = 1; *v_pos = 2; *y2_pos = 3; |
| 386 } else { |
| 387 return false; |
| 388 } |
| 389 return true; |
| 390 } |
| 391 |
| 392 bool GetRgbPacking(uint32_t fourcc, |
| 393 int* r_pos, |
| 394 int* g_pos, |
| 395 int* b_pos, |
| 396 int* bytes) { |
| 397 if (fourcc == cricket::FOURCC_RAW) { |
| 398 *r_pos = 0; *g_pos = 1; *b_pos = 2; *bytes = 3; // RGB in memory. |
| 399 } else if (fourcc == cricket::FOURCC_24BG) { |
| 400 *r_pos = 2; *g_pos = 1; *b_pos = 0; *bytes = 3; // BGR in memory. |
| 401 } else if (fourcc == cricket::FOURCC_ABGR) { |
| 402 *r_pos = 0; *g_pos = 1; *b_pos = 2; *bytes = 4; // RGBA in memory. |
| 403 } else if (fourcc == cricket::FOURCC_BGRA) { |
| 404 *r_pos = 1; *g_pos = 2; *b_pos = 3; *bytes = 4; // ARGB in memory. |
| 405 } else if (fourcc == cricket::FOURCC_ARGB) { |
| 406 *r_pos = 2; *g_pos = 1; *b_pos = 0; *bytes = 4; // BGRA in memory. |
| 407 } else { |
| 408 return false; |
| 409 } |
| 410 return true; |
| 411 } |
| 412 |
| 413 // Comparison functions for testing. |
| 414 static bool IsNull(const cricket::VideoFrame& frame) { |
| 415 return !frame.video_frame_buffer(); |
| 416 } |
| 417 |
| 418 static bool IsSize(const cricket::VideoFrame& frame, |
| 419 int width, |
| 420 int height) { |
| 421 return !IsNull(frame) && frame.video_frame_buffer()->StrideY() >= width && |
| 422 frame.video_frame_buffer()->StrideU() >= width / 2 && |
| 423 frame.video_frame_buffer()->StrideV() >= width / 2 && |
| 424 frame.width() == width && frame.height() == height; |
| 425 } |
| 426 |
| 427 static bool IsPlaneEqual(const std::string& name, |
| 428 const uint8_t* plane1, |
| 429 uint32_t pitch1, |
| 430 const uint8_t* plane2, |
| 431 uint32_t pitch2, |
| 432 uint32_t width, |
| 433 uint32_t height, |
| 434 int max_error) { |
| 435 const uint8_t* r1 = plane1; |
| 436 const uint8_t* r2 = plane2; |
| 437 for (uint32_t y = 0; y < height; ++y) { |
| 438 for (uint32_t x = 0; x < width; ++x) { |
| 439 if (abs(static_cast<int>(r1[x] - r2[x])) > max_error) { |
| 440 LOG(LS_INFO) << "IsPlaneEqual(" << name << "): pixel[" |
| 441 << x << "," << y << "] differs: " |
| 442 << static_cast<int>(r1[x]) << " vs " |
| 443 << static_cast<int>(r2[x]); |
| 444 return false; |
| 445 } |
| 446 } |
| 447 r1 += pitch1; |
| 448 r2 += pitch2; |
| 449 } |
| 450 return true; |
| 451 } |
| 452 |
| 453 static bool IsEqual(const cricket::VideoFrame& frame, |
| 454 int width, |
| 455 int height, |
| 456 const uint8_t* y, |
| 457 uint32_t ypitch, |
| 458 const uint8_t* u, |
| 459 uint32_t upitch, |
| 460 const uint8_t* v, |
| 461 uint32_t vpitch, |
| 462 int max_error) { |
| 463 return IsSize(frame, width, height) && |
| 464 IsPlaneEqual("y", frame.video_frame_buffer()->DataY(), |
| 465 frame.video_frame_buffer()->StrideY(), y, ypitch, |
| 466 static_cast<uint32_t>(width), |
| 467 static_cast<uint32_t>(height), max_error) && |
| 468 IsPlaneEqual("u", frame.video_frame_buffer()->DataU(), |
| 469 frame.video_frame_buffer()->StrideU(), u, upitch, |
| 470 static_cast<uint32_t>((width + 1) / 2), |
| 471 static_cast<uint32_t>((height + 1) / 2), max_error) && |
| 472 IsPlaneEqual("v", frame.video_frame_buffer()->DataV(), |
| 473 frame.video_frame_buffer()->StrideV(), v, vpitch, |
| 474 static_cast<uint32_t>((width + 1) / 2), |
| 475 static_cast<uint32_t>((height + 1) / 2), max_error); |
| 476 } |
| 477 |
| 478 static bool IsEqual(const cricket::VideoFrame& frame1, |
| 479 const cricket::VideoFrame& frame2, |
| 480 int max_error) { |
| 481 return frame1.timestamp_us() == frame2.timestamp_us() && |
| 482 IsEqual(frame1, |
| 483 frame2.width(), frame2.height(), |
| 484 frame2.video_frame_buffer()->DataY(), |
| 485 frame2.video_frame_buffer()->StrideY(), |
| 486 frame2.video_frame_buffer()->DataU(), |
| 487 frame2.video_frame_buffer()->StrideU(), |
| 488 frame2.video_frame_buffer()->DataV(), |
| 489 frame2.video_frame_buffer()->StrideV(), max_error); |
| 490 } |
| 491 |
| 492 static bool IsEqual( |
| 493 const cricket::VideoFrame& frame1, |
| 494 const rtc::scoped_refptr<webrtc::VideoFrameBuffer>& buffer, |
| 495 int max_error) { |
| 496 return IsEqual(frame1, buffer->width(), buffer->height(), |
| 497 buffer->DataY(), buffer->StrideY(), |
| 498 buffer->DataU(), buffer->StrideU(), |
| 499 buffer->DataV(), buffer->StrideV(), |
| 500 max_error); |
| 501 } |
| 502 |
| 503 static bool IsEqualWithCrop(const cricket::VideoFrame& frame1, |
| 504 const cricket::VideoFrame& frame2, |
| 505 int hcrop, int vcrop, int max_error) { |
| 506 return frame1.width() <= frame2.width() && |
| 507 frame1.height() <= frame2.height() && |
| 508 frame1.timestamp_us() == frame2.timestamp_us() && |
| 509 IsEqual(frame1, |
| 510 frame2.width() - hcrop * 2, |
| 511 frame2.height() - vcrop * 2, |
| 512 frame2.video_frame_buffer()->DataY() |
| 513 + vcrop * frame2.video_frame_buffer()->StrideY() |
| 514 + hcrop, |
| 515 frame2.video_frame_buffer()->StrideY(), |
| 516 frame2.video_frame_buffer()->DataU() |
| 517 + vcrop * frame2.video_frame_buffer()->StrideU() / 2 |
| 518 + hcrop / 2, |
| 519 frame2.video_frame_buffer()->StrideU(), |
| 520 frame2.video_frame_buffer()->DataV() |
| 521 + vcrop * frame2.video_frame_buffer()->StrideV() / 2 |
| 522 + hcrop / 2, |
| 523 frame2.video_frame_buffer()->StrideV(), |
| 524 max_error); |
| 525 } |
| 526 |
| 527 static bool IsBlack(const cricket::VideoFrame& frame) { |
| 528 return !IsNull(frame) && |
| 529 *frame.video_frame_buffer()->DataY() <= 16 && |
| 530 *frame.video_frame_buffer()->DataU() == 128 && |
| 531 *frame.video_frame_buffer()->DataV() == 128; |
| 532 } |
| 533 |
| 534 //////////////////////// |
| 535 // Construction tests // |
| 536 //////////////////////// |
| 537 |
| 538 // Test constructing an image from a I420 buffer. |
| 539 void ConstructI420() { |
| 540 T frame; |
| 541 EXPECT_TRUE(IsNull(frame)); |
| 542 std::unique_ptr<rtc::MemoryStream> ms( |
| 543 CreateYuvSample(kWidth, kHeight, 12)); |
| 544 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_I420, |
| 545 kWidth, kHeight, &frame)); |
| 546 |
| 547 const uint8_t* y = reinterpret_cast<uint8_t*>(ms.get()->GetBuffer()); |
| 548 const uint8_t* u = y + kWidth * kHeight; |
| 549 const uint8_t* v = u + kWidth * kHeight / 4; |
| 550 EXPECT_TRUE(IsEqual(frame, kWidth, kHeight, y, kWidth, u, kWidth / 2, v, |
| 551 kWidth / 2, 0)); |
| 552 } |
| 553 |
| 554 // Test constructing an image from a YV12 buffer. |
| 555 void ConstructYV12() { |
| 556 T frame; |
| 557 std::unique_ptr<rtc::MemoryStream> ms( |
| 558 CreateYuvSample(kWidth, kHeight, 12)); |
| 559 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_YV12, |
| 560 kWidth, kHeight, &frame)); |
| 561 |
| 562 const uint8_t* y = reinterpret_cast<uint8_t*>(ms.get()->GetBuffer()); |
| 563 const uint8_t* v = y + kWidth * kHeight; |
| 564 const uint8_t* u = v + kWidth * kHeight / 4; |
| 565 EXPECT_TRUE(IsEqual(frame, kWidth, kHeight, y, kWidth, u, kWidth / 2, v, |
| 566 kWidth / 2, 0)); |
| 567 } |
| 568 |
| 569 // Test constructing an image from a I422 buffer. |
| 570 void ConstructI422() { |
| 571 T frame1, frame2; |
| 572 ASSERT_TRUE(LoadFrameNoRepeat(&frame1)); |
| 573 size_t buf_size = kWidth * kHeight * 2; |
| 574 std::unique_ptr<uint8_t[]> buf(new uint8_t[buf_size + kAlignment]); |
| 575 uint8_t* y = ALIGNP(buf.get(), kAlignment); |
| 576 uint8_t* u = y + kWidth * kHeight; |
| 577 uint8_t* v = u + (kWidth / 2) * kHeight; |
| 578 EXPECT_EQ(0, libyuv::I420ToI422(frame1.video_frame_buffer()->DataY(), |
| 579 frame1.video_frame_buffer()->StrideY(), |
| 580 frame1.video_frame_buffer()->DataU(), |
| 581 frame1.video_frame_buffer()->StrideU(), |
| 582 frame1.video_frame_buffer()->DataV(), |
| 583 frame1.video_frame_buffer()->StrideV(), |
| 584 y, kWidth, |
| 585 u, kWidth / 2, |
| 586 v, kWidth / 2, |
| 587 kWidth, kHeight)); |
| 588 EXPECT_TRUE(LoadFrame(y, buf_size, cricket::FOURCC_I422, |
| 589 kWidth, kHeight, &frame2)); |
| 590 EXPECT_TRUE(IsEqual(frame1, frame2, 1)); |
| 591 } |
| 592 |
| 593 // Test constructing an image from a YUY2 buffer. |
| 594 void ConstructYuy2() { |
| 595 T frame1, frame2; |
| 596 ASSERT_TRUE(LoadFrameNoRepeat(&frame1)); |
| 597 size_t buf_size = kWidth * kHeight * 2; |
| 598 std::unique_ptr<uint8_t[]> buf(new uint8_t[buf_size + kAlignment]); |
| 599 uint8_t* yuy2 = ALIGNP(buf.get(), kAlignment); |
| 600 EXPECT_EQ(0, libyuv::I420ToYUY2(frame1.video_frame_buffer()->DataY(), |
| 601 frame1.video_frame_buffer()->StrideY(), |
| 602 frame1.video_frame_buffer()->DataU(), |
| 603 frame1.video_frame_buffer()->StrideU(), |
| 604 frame1.video_frame_buffer()->DataV(), |
| 605 frame1.video_frame_buffer()->StrideV(), |
| 606 yuy2, kWidth * 2, |
| 607 kWidth, kHeight)); |
| 608 EXPECT_TRUE(LoadFrame(yuy2, buf_size, cricket::FOURCC_YUY2, |
| 609 kWidth, kHeight, &frame2)); |
| 610 EXPECT_TRUE(IsEqual(frame1, frame2, 0)); |
| 611 } |
| 612 |
| 613 // Test constructing an image from a YUY2 buffer with buffer unaligned. |
| 614 void ConstructYuy2Unaligned() { |
| 615 T frame1, frame2; |
| 616 ASSERT_TRUE(LoadFrameNoRepeat(&frame1)); |
| 617 size_t buf_size = kWidth * kHeight * 2; |
| 618 std::unique_ptr<uint8_t[]> buf(new uint8_t[buf_size + kAlignment + 1]); |
| 619 uint8_t* yuy2 = ALIGNP(buf.get(), kAlignment) + 1; |
| 620 EXPECT_EQ(0, libyuv::I420ToYUY2(frame1.video_frame_buffer()->DataY(), |
| 621 frame1.video_frame_buffer()->StrideY(), |
| 622 frame1.video_frame_buffer()->DataU(), |
| 623 frame1.video_frame_buffer()->StrideU(), |
| 624 frame1.video_frame_buffer()->DataV(), |
| 625 frame1.video_frame_buffer()->StrideV(), |
| 626 yuy2, kWidth * 2, |
| 627 kWidth, kHeight)); |
| 628 EXPECT_TRUE(LoadFrame(yuy2, buf_size, cricket::FOURCC_YUY2, |
| 629 kWidth, kHeight, &frame2)); |
| 630 EXPECT_TRUE(IsEqual(frame1, frame2, 0)); |
| 631 } |
| 632 |
| 633 // Test constructing an image from a wide YUY2 buffer. |
| 634 // Normal is 1280x720. Wide is 12800x72 |
| 635 void ConstructYuy2Wide() { |
| 636 std::unique_ptr<rtc::MemoryStream> ms( |
| 637 CreateYuv422Sample(cricket::FOURCC_YUY2, kWidth * 10, kHeight / 10)); |
| 638 ASSERT_TRUE(ms.get() != NULL); |
| 639 std::unique_ptr<T> frame1 = ConvertYuv422(ms.get(), cricket::FOURCC_YUY2, |
| 640 kWidth * 10, kHeight / 10); |
| 641 ASSERT_TRUE(frame1); |
| 642 T frame2; |
| 643 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_YUY2, |
| 644 kWidth * 10, kHeight / 10, &frame2)); |
| 645 EXPECT_TRUE(IsEqual(*frame1, frame2, 0)); |
| 646 } |
| 647 |
| 648 // Test constructing an image from a UYVY buffer. |
| 649 void ConstructUyvy() { |
| 650 std::unique_ptr<rtc::MemoryStream> ms( |
| 651 CreateYuv422Sample(cricket::FOURCC_UYVY, kWidth, kHeight)); |
| 652 ASSERT_TRUE(ms.get() != NULL); |
| 653 std::unique_ptr<T> frame1 = ConvertYuv422(ms.get(), cricket::FOURCC_UYVY, |
| 654 kWidth, kHeight); |
| 655 T frame2; |
| 656 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_UYVY, |
| 657 kWidth, kHeight, &frame2)); |
| 658 EXPECT_TRUE(IsEqual(*frame1, frame2, 0)); |
| 659 } |
| 660 |
| 661 // Test constructing an image from a random buffer. |
| 662 // We are merely verifying that the code succeeds and is free of crashes. |
| 663 void ConstructM420() { |
| 664 T frame; |
| 665 std::unique_ptr<rtc::MemoryStream> ms( |
| 666 CreateYuvSample(kWidth, kHeight, 12)); |
| 667 ASSERT_TRUE(ms.get() != NULL); |
| 668 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_M420, |
| 669 kWidth, kHeight, &frame)); |
| 670 } |
| 671 |
| 672 void ConstructNV21() { |
| 673 T frame; |
| 674 std::unique_ptr<rtc::MemoryStream> ms( |
| 675 CreateYuvSample(kWidth, kHeight, 12)); |
| 676 ASSERT_TRUE(ms.get() != NULL); |
| 677 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_NV21, |
| 678 kWidth, kHeight, &frame)); |
| 679 } |
| 680 |
| 681 void ConstructNV12() { |
| 682 T frame; |
| 683 std::unique_ptr<rtc::MemoryStream> ms( |
| 684 CreateYuvSample(kWidth, kHeight, 12)); |
| 685 ASSERT_TRUE(ms.get() != NULL); |
| 686 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_NV12, |
| 687 kWidth, kHeight, &frame)); |
| 688 } |
| 689 |
| 690 // Test constructing an image from a ABGR buffer |
| 691 // Due to rounding, some pixels may differ slightly from the VideoFrame impl. |
| 692 void ConstructABGR() { |
| 693 std::unique_ptr<rtc::MemoryStream> ms( |
| 694 CreateRgbSample(cricket::FOURCC_ABGR, kWidth, kHeight)); |
| 695 ASSERT_TRUE(ms.get() != NULL); |
| 696 std::unique_ptr<T> frame1 = ConvertRgb(ms.get(), cricket::FOURCC_ABGR, |
| 697 kWidth, kHeight); |
| 698 ASSERT_TRUE(frame1); |
| 699 T frame2; |
| 700 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_ABGR, |
| 701 kWidth, kHeight, &frame2)); |
| 702 EXPECT_TRUE(IsEqual(*frame1, frame2, 2)); |
| 703 } |
| 704 |
| 705 // Test constructing an image from a ARGB buffer |
| 706 // Due to rounding, some pixels may differ slightly from the VideoFrame impl. |
| 707 void ConstructARGB() { |
| 708 std::unique_ptr<rtc::MemoryStream> ms( |
| 709 CreateRgbSample(cricket::FOURCC_ARGB, kWidth, kHeight)); |
| 710 ASSERT_TRUE(ms.get() != NULL); |
| 711 std::unique_ptr<T> frame1 = ConvertRgb(ms.get(), cricket::FOURCC_ARGB, |
| 712 kWidth, kHeight); |
| 713 ASSERT_TRUE(frame1); |
| 714 T frame2; |
| 715 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_ARGB, |
| 716 kWidth, kHeight, &frame2)); |
| 717 EXPECT_TRUE(IsEqual(*frame1, frame2, 2)); |
| 718 } |
| 719 |
| 720 // Test constructing an image from a wide ARGB buffer |
| 721 // Normal is 1280x720. Wide is 12800x72 |
| 722 void ConstructARGBWide() { |
| 723 std::unique_ptr<rtc::MemoryStream> ms( |
| 724 CreateRgbSample(cricket::FOURCC_ARGB, kWidth * 10, kHeight / 10)); |
| 725 ASSERT_TRUE(ms.get() != NULL); |
| 726 std::unique_ptr<T> frame1 = ConvertRgb(ms.get(), cricket::FOURCC_ARGB, |
| 727 kWidth * 10, kHeight / 10); |
| 728 ASSERT_TRUE(frame1); |
| 729 T frame2; |
| 730 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_ARGB, |
| 731 kWidth * 10, kHeight / 10, &frame2)); |
| 732 EXPECT_TRUE(IsEqual(*frame1, frame2, 2)); |
| 733 } |
| 734 |
| 735 // Test constructing an image from an BGRA buffer. |
| 736 // Due to rounding, some pixels may differ slightly from the VideoFrame impl. |
| 737 void ConstructBGRA() { |
| 738 std::unique_ptr<rtc::MemoryStream> ms( |
| 739 CreateRgbSample(cricket::FOURCC_BGRA, kWidth, kHeight)); |
| 740 ASSERT_TRUE(ms.get() != NULL); |
| 741 std::unique_ptr<T> frame1 = ConvertRgb(ms.get(), cricket::FOURCC_BGRA, |
| 742 kWidth, kHeight); |
| 743 ASSERT_TRUE(frame1); |
| 744 T frame2; |
| 745 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_BGRA, |
| 746 kWidth, kHeight, &frame2)); |
| 747 EXPECT_TRUE(IsEqual(*frame1, frame2, 2)); |
| 748 } |
| 749 |
| 750 // Test constructing an image from a 24BG buffer. |
| 751 // Due to rounding, some pixels may differ slightly from the VideoFrame impl. |
| 752 void Construct24BG() { |
| 753 std::unique_ptr<rtc::MemoryStream> ms( |
| 754 CreateRgbSample(cricket::FOURCC_24BG, kWidth, kHeight)); |
| 755 ASSERT_TRUE(ms.get() != NULL); |
| 756 std::unique_ptr<T> frame1 = ConvertRgb(ms.get(), cricket::FOURCC_24BG, |
| 757 kWidth, kHeight); |
| 758 ASSERT_TRUE(frame1); |
| 759 T frame2; |
| 760 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_24BG, |
| 761 kWidth, kHeight, &frame2)); |
| 762 EXPECT_TRUE(IsEqual(*frame1, frame2, 2)); |
| 763 } |
| 764 |
| 765 // Test constructing an image from a raw RGB buffer. |
| 766 // Due to rounding, some pixels may differ slightly from the VideoFrame impl. |
| 767 void ConstructRaw() { |
| 768 std::unique_ptr<rtc::MemoryStream> ms( |
| 769 CreateRgbSample(cricket::FOURCC_RAW, kWidth, kHeight)); |
| 770 ASSERT_TRUE(ms.get() != NULL); |
| 771 std::unique_ptr<T> frame1 = ConvertRgb(ms.get(), cricket::FOURCC_RAW, |
| 772 kWidth, kHeight); |
| 773 ASSERT_TRUE(frame1); |
| 774 T frame2; |
| 775 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_RAW, |
| 776 kWidth, kHeight, &frame2)); |
| 777 EXPECT_TRUE(IsEqual(*frame1, frame2, 2)); |
| 778 } |
| 779 |
| 780 // Macro to help test different rotations |
| 781 #define TEST_MIRROR(FOURCC, BPP) \ |
| 782 void Construct##FOURCC##Mirror() { \ |
| 783 T frame1, frame2; \ |
| 784 rtc::scoped_refptr<webrtc::I420Buffer> res_buffer; \ |
| 785 std::unique_ptr<rtc::MemoryStream> ms( \ |
| 786 CreateYuvSample(kWidth, kHeight, BPP)); \ |
| 787 ASSERT_TRUE(ms.get() != NULL); \ |
| 788 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_##FOURCC, kWidth, \ |
| 789 -kHeight, kWidth, kHeight, \ |
| 790 webrtc::kVideoRotation_180, &frame1)); \ |
| 791 size_t data_size; \ |
| 792 bool ret = ms->GetSize(&data_size); \ |
| 793 EXPECT_TRUE(ret); \ |
| 794 EXPECT_TRUE(frame2.Init(cricket::FOURCC_##FOURCC, kWidth, kHeight, kWidth, \ |
| 795 kHeight, \ |
| 796 reinterpret_cast<uint8_t*>(ms->GetBuffer()), \ |
| 797 data_size, 0, webrtc::kVideoRotation_0)); \ |
| 798 int width_rotate = frame1.width(); \ |
| 799 int height_rotate = frame1.height(); \ |
| 800 res_buffer = webrtc::I420Buffer::Create(width_rotate, height_rotate); \ |
| 801 libyuv::I420Mirror(frame2.video_frame_buffer()->DataY(), \ |
| 802 frame2.video_frame_buffer()->StrideY(), \ |
| 803 frame2.video_frame_buffer()->DataU(), \ |
| 804 frame2.video_frame_buffer()->StrideU(), \ |
| 805 frame2.video_frame_buffer()->DataV(), \ |
| 806 frame2.video_frame_buffer()->StrideV(), \ |
| 807 res_buffer->MutableDataY(), res_buffer->StrideY(), \ |
| 808 res_buffer->MutableDataU(), res_buffer->StrideU(), \ |
| 809 res_buffer->MutableDataV(), res_buffer->StrideV(), \ |
| 810 kWidth, kHeight); \ |
| 811 EXPECT_TRUE(IsEqual(frame1, res_buffer, 0)); \ |
| 812 } |
| 813 |
| 814 TEST_MIRROR(I420, 420) |
| 815 |
| 816 // Macro to help test different rotations |
| 817 #define TEST_ROTATE(FOURCC, BPP, ROTATE) \ |
| 818 void Construct##FOURCC##Rotate##ROTATE() { \ |
| 819 T frame1, frame2; \ |
| 820 rtc::scoped_refptr<webrtc::I420Buffer> res_buffer; \ |
| 821 std::unique_ptr<rtc::MemoryStream> ms( \ |
| 822 CreateYuvSample(kWidth, kHeight, BPP)); \ |
| 823 ASSERT_TRUE(ms.get() != NULL); \ |
| 824 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_##FOURCC, kWidth, kHeight, \ |
| 825 kWidth, kHeight, webrtc::kVideoRotation_##ROTATE, \ |
| 826 &frame1)); \ |
| 827 size_t data_size; \ |
| 828 bool ret = ms->GetSize(&data_size); \ |
| 829 EXPECT_TRUE(ret); \ |
| 830 EXPECT_TRUE(frame2.Init(cricket::FOURCC_##FOURCC, kWidth, kHeight, kWidth, \ |
| 831 kHeight, \ |
| 832 reinterpret_cast<uint8_t*>(ms->GetBuffer()), \ |
| 833 data_size, 0, webrtc::kVideoRotation_0)); \ |
| 834 int width_rotate = frame1.width(); \ |
| 835 int height_rotate = frame1.height(); \ |
| 836 res_buffer = webrtc::I420Buffer::Create(width_rotate, height_rotate); \ |
| 837 libyuv::I420Rotate(frame2.video_frame_buffer()->DataY(), \ |
| 838 frame2.video_frame_buffer()->StrideY(), \ |
| 839 frame2.video_frame_buffer()->DataU(), \ |
| 840 frame2.video_frame_buffer()->StrideU(), \ |
| 841 frame2.video_frame_buffer()->DataV(), \ |
| 842 frame2.video_frame_buffer()->StrideV(), \ |
| 843 res_buffer->MutableDataY(), res_buffer->StrideY(), \ |
| 844 res_buffer->MutableDataU(), res_buffer->StrideU(), \ |
| 845 res_buffer->MutableDataV(), res_buffer->StrideV(), \ |
| 846 kWidth, kHeight, libyuv::kRotate##ROTATE); \ |
| 847 EXPECT_TRUE(IsEqual(frame1, res_buffer, 0)); \ |
| 848 } |
| 849 |
| 850 // Test constructing an image with rotation. |
| 851 TEST_ROTATE(I420, 12, 0) |
| 852 TEST_ROTATE(I420, 12, 90) |
| 853 TEST_ROTATE(I420, 12, 180) |
| 854 TEST_ROTATE(I420, 12, 270) |
| 855 TEST_ROTATE(YV12, 12, 0) |
| 856 TEST_ROTATE(YV12, 12, 90) |
| 857 TEST_ROTATE(YV12, 12, 180) |
| 858 TEST_ROTATE(YV12, 12, 270) |
| 859 TEST_ROTATE(NV12, 12, 0) |
| 860 TEST_ROTATE(NV12, 12, 90) |
| 861 TEST_ROTATE(NV12, 12, 180) |
| 862 TEST_ROTATE(NV12, 12, 270) |
| 863 TEST_ROTATE(NV21, 12, 0) |
| 864 TEST_ROTATE(NV21, 12, 90) |
| 865 TEST_ROTATE(NV21, 12, 180) |
| 866 TEST_ROTATE(NV21, 12, 270) |
| 867 TEST_ROTATE(UYVY, 16, 0) |
| 868 TEST_ROTATE(UYVY, 16, 90) |
| 869 TEST_ROTATE(UYVY, 16, 180) |
| 870 TEST_ROTATE(UYVY, 16, 270) |
| 871 TEST_ROTATE(YUY2, 16, 0) |
| 872 TEST_ROTATE(YUY2, 16, 90) |
| 873 TEST_ROTATE(YUY2, 16, 180) |
| 874 TEST_ROTATE(YUY2, 16, 270) |
| 875 |
| 876 // Test constructing an image from a UYVY buffer rotated 90 degrees. |
| 877 void ConstructUyvyRotate90() { |
| 878 T frame2; |
| 879 std::unique_ptr<rtc::MemoryStream> ms( |
| 880 CreateYuv422Sample(cricket::FOURCC_UYVY, kWidth, kHeight)); |
| 881 ASSERT_TRUE(ms.get() != NULL); |
| 882 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_UYVY, kWidth, kHeight, |
| 883 kWidth, kHeight, webrtc::kVideoRotation_90, &frame2)); |
| 884 } |
| 885 |
| 886 // Test constructing an image from a UYVY buffer rotated 180 degrees. |
| 887 void ConstructUyvyRotate180() { |
| 888 T frame2; |
| 889 std::unique_ptr<rtc::MemoryStream> ms( |
| 890 CreateYuv422Sample(cricket::FOURCC_UYVY, kWidth, kHeight)); |
| 891 ASSERT_TRUE(ms.get() != NULL); |
| 892 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_UYVY, kWidth, kHeight, |
| 893 kWidth, kHeight, webrtc::kVideoRotation_180, |
| 894 &frame2)); |
| 895 } |
| 896 |
| 897 // Test constructing an image from a UYVY buffer rotated 270 degrees. |
| 898 void ConstructUyvyRotate270() { |
| 899 T frame2; |
| 900 std::unique_ptr<rtc::MemoryStream> ms( |
| 901 CreateYuv422Sample(cricket::FOURCC_UYVY, kWidth, kHeight)); |
| 902 ASSERT_TRUE(ms.get() != NULL); |
| 903 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_UYVY, kWidth, kHeight, |
| 904 kWidth, kHeight, webrtc::kVideoRotation_270, |
| 905 &frame2)); |
| 906 } |
| 907 |
| 908 // Test constructing an image from a YUY2 buffer rotated 90 degrees. |
| 909 void ConstructYuy2Rotate90() { |
| 910 T frame2; |
| 911 std::unique_ptr<rtc::MemoryStream> ms( |
| 912 CreateYuv422Sample(cricket::FOURCC_YUY2, kWidth, kHeight)); |
| 913 ASSERT_TRUE(ms.get() != NULL); |
| 914 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_YUY2, kWidth, kHeight, |
| 915 kWidth, kHeight, webrtc::kVideoRotation_90, &frame2)); |
| 916 } |
| 917 |
| 918 // Test constructing an image from a YUY2 buffer rotated 180 degrees. |
| 919 void ConstructYuy2Rotate180() { |
| 920 T frame2; |
| 921 std::unique_ptr<rtc::MemoryStream> ms( |
| 922 CreateYuv422Sample(cricket::FOURCC_YUY2, kWidth, kHeight)); |
| 923 ASSERT_TRUE(ms.get() != NULL); |
| 924 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_YUY2, kWidth, kHeight, |
| 925 kWidth, kHeight, webrtc::kVideoRotation_180, |
| 926 &frame2)); |
| 927 } |
| 928 |
| 929 // Test constructing an image from a YUY2 buffer rotated 270 degrees. |
| 930 void ConstructYuy2Rotate270() { |
| 931 T frame2; |
| 932 std::unique_ptr<rtc::MemoryStream> ms( |
| 933 CreateYuv422Sample(cricket::FOURCC_YUY2, kWidth, kHeight)); |
| 934 ASSERT_TRUE(ms.get() != NULL); |
| 935 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_YUY2, kWidth, kHeight, |
| 936 kWidth, kHeight, webrtc::kVideoRotation_270, |
| 937 &frame2)); |
| 938 } |
| 939 |
| 940 // Test 1 pixel edge case image I420 buffer. |
| 941 void ConstructI4201Pixel() { |
| 942 T frame; |
| 943 uint8_t pixel[3] = {1, 2, 3}; |
| 944 for (int i = 0; i < repeat_; ++i) { |
| 945 EXPECT_TRUE(frame.Init(cricket::FOURCC_I420, 1, 1, 1, 1, pixel, |
| 946 sizeof(pixel), 0, webrtc::kVideoRotation_0)); |
| 947 } |
| 948 const uint8_t* y = pixel; |
| 949 const uint8_t* u = y + 1; |
| 950 const uint8_t* v = u + 1; |
| 951 EXPECT_TRUE(IsEqual(frame, 1, 1, y, 1, u, 1, v, 1, 0)); |
| 952 } |
| 953 |
| 954 // Test 5 pixel edge case image. |
| 955 void ConstructI4205Pixel() { |
| 956 T frame; |
| 957 uint8_t pixels5x5[5 * 5 + ((5 + 1) / 2 * (5 + 1) / 2) * 2]; |
| 958 memset(pixels5x5, 1, 5 * 5 + ((5 + 1) / 2 * (5 + 1) / 2) * 2); |
| 959 for (int i = 0; i < repeat_; ++i) { |
| 960 EXPECT_TRUE(frame.Init(cricket::FOURCC_I420, 5, 5, 5, 5, pixels5x5, |
| 961 sizeof(pixels5x5), 0, |
| 962 webrtc::kVideoRotation_0)); |
| 963 } |
| 964 EXPECT_EQ(5, frame.width()); |
| 965 EXPECT_EQ(5, frame.height()); |
| 966 EXPECT_EQ(5, frame.video_frame_buffer()->StrideY()); |
| 967 EXPECT_EQ(3, frame.video_frame_buffer()->StrideU()); |
| 968 EXPECT_EQ(3, frame.video_frame_buffer()->StrideV()); |
| 969 } |
| 970 |
| 971 // Test constructing an image from an I420 buffer with horizontal cropping. |
| 972 void ConstructI420CropHorizontal() { |
| 973 T frame1, frame2; |
| 974 ASSERT_TRUE(LoadFrameNoRepeat(&frame1)); |
| 975 ASSERT_TRUE(LoadFrame(kImageFilename, kYuvExtension, |
| 976 cricket::FOURCC_I420, kWidth, kHeight, |
| 977 kWidth * 3 / 4, kHeight, webrtc::kVideoRotation_0, |
| 978 &frame2)); |
| 979 EXPECT_TRUE(IsEqualWithCrop(frame2, frame1, kWidth / 8, 0, 0)); |
| 980 } |
| 981 |
| 982 // Test constructing an image from a YUY2 buffer with horizontal cropping. |
| 983 void ConstructYuy2CropHorizontal() { |
| 984 T frame1, frame2; |
| 985 std::unique_ptr<rtc::MemoryStream> ms( |
| 986 CreateYuv422Sample(cricket::FOURCC_YUY2, kWidth, kHeight)); |
| 987 ASSERT_TRUE(ms.get() != NULL); |
| 988 EXPECT_TRUE(ConvertYuv422(ms.get(), cricket::FOURCC_YUY2, kWidth, kHeight, |
| 989 &frame1)); |
| 990 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_YUY2, kWidth, kHeight, |
| 991 kWidth * 3 / 4, kHeight, webrtc::kVideoRotation_0, |
| 992 &frame2)); |
| 993 EXPECT_TRUE(IsEqualWithCrop(frame2, frame1, kWidth / 8, 0, 0)); |
| 994 } |
| 995 |
| 996 // Test constructing an image from an ARGB buffer with horizontal cropping. |
| 997 void ConstructARGBCropHorizontal() { |
| 998 std::unique_ptr<rtc::MemoryStream> ms( |
| 999 CreateRgbSample(cricket::FOURCC_ARGB, kWidth, kHeight)); |
| 1000 ASSERT_TRUE(ms.get() != NULL); |
| 1001 std::unique_ptr<T> frame1 = ConvertRgb(ms.get(), cricket::FOURCC_ARGB, |
| 1002 kWidth, kHeight); |
| 1003 ASSERT_TRUE(frame1); |
| 1004 T frame2; |
| 1005 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_ARGB, kWidth, kHeight, |
| 1006 kWidth * 3 / 4, kHeight, webrtc::kVideoRotation_0, |
| 1007 &frame2)); |
| 1008 EXPECT_TRUE(IsEqualWithCrop(frame2, *frame1, kWidth / 8, 0, 2)); |
| 1009 } |
| 1010 |
| 1011 // Test constructing an image from an I420 buffer, cropping top and bottom. |
| 1012 void ConstructI420CropVertical() { |
| 1013 T frame1, frame2; |
| 1014 ASSERT_TRUE(LoadFrameNoRepeat(&frame1)); |
| 1015 ASSERT_TRUE(LoadFrame(LoadSample(kImageFilename, kYuvExtension).get(), |
| 1016 cricket::FOURCC_I420, kWidth, kHeight, |
| 1017 kWidth, kHeight * 3 / 4, webrtc::kVideoRotation_0, |
| 1018 &frame2)); |
| 1019 EXPECT_TRUE(IsEqualWithCrop(frame2, frame1, 0, kHeight / 8, 0)); |
| 1020 } |
| 1021 |
| 1022 // Test constructing an image from I420 synonymous formats. |
| 1023 void ConstructI420Aliases() { |
| 1024 T frame1, frame2, frame3; |
| 1025 ASSERT_TRUE(LoadFrame(LoadSample(kImageFilename, kYuvExtension), |
| 1026 cricket::FOURCC_I420, kWidth, kHeight, |
| 1027 &frame1)); |
| 1028 ASSERT_TRUE(LoadFrame(kImageFilename, kYuvExtension, |
| 1029 cricket::FOURCC_IYUV, kWidth, kHeight, |
| 1030 &frame2)); |
| 1031 ASSERT_TRUE(LoadFrame(kImageFilename, kYuvExtension, |
| 1032 cricket::FOURCC_YU12, kWidth, kHeight, |
| 1033 &frame3)); |
| 1034 EXPECT_TRUE(IsEqual(frame1, frame2, 0)); |
| 1035 EXPECT_TRUE(IsEqual(frame1, frame3, 0)); |
| 1036 } |
| 1037 |
| 1038 // Test constructing an image from an I420 MJPG buffer. |
| 1039 void ConstructMjpgI420() { |
| 1040 T frame1, frame2; |
| 1041 ASSERT_TRUE(LoadFrameNoRepeat(&frame1)); |
| 1042 ASSERT_TRUE(LoadFrame(kJpeg420Filename, kJpegExtension, |
| 1043 cricket::FOURCC_MJPG, kWidth, kHeight, &frame2)); |
| 1044 EXPECT_TRUE(IsEqual(frame1, frame2, 32)); |
| 1045 } |
| 1046 |
| 1047 // Test constructing an image from an I422 MJPG buffer. |
| 1048 void ConstructMjpgI422() { |
| 1049 T frame1, frame2; |
| 1050 ASSERT_TRUE(LoadFrameNoRepeat(&frame1)); |
| 1051 ASSERT_TRUE(LoadFrame(LoadSample(kJpeg422Filename, kJpegExtension).get(), |
| 1052 cricket::FOURCC_MJPG, kWidth, kHeight, &frame2)); |
| 1053 EXPECT_TRUE(IsEqual(frame1, frame2, 32)); |
| 1054 } |
| 1055 |
| 1056 // Test constructing an image from an I444 MJPG buffer. |
| 1057 void ConstructMjpgI444() { |
| 1058 T frame1, frame2; |
| 1059 ASSERT_TRUE(LoadFrameNoRepeat(&frame1)); |
| 1060 ASSERT_TRUE(LoadFrame(LoadSample(kJpeg444Filename, kJpegExtension), |
| 1061 cricket::FOURCC_MJPG, kWidth, kHeight, &frame2)); |
| 1062 EXPECT_TRUE(IsEqual(frame1, frame2, 32)); |
| 1063 } |
| 1064 |
| 1065 // Test constructing an image from an I444 MJPG buffer. |
| 1066 void ConstructMjpgI411() { |
| 1067 T frame1, frame2; |
| 1068 ASSERT_TRUE(LoadFrameNoRepeat(&frame1)); |
| 1069 ASSERT_TRUE(LoadFrame(kJpeg411Filename, kJpegExtension, |
| 1070 cricket::FOURCC_MJPG, kWidth, kHeight, &frame2)); |
| 1071 EXPECT_TRUE(IsEqual(frame1, frame2, 32)); |
| 1072 } |
| 1073 |
| 1074 // Test constructing an image from an I400 MJPG buffer. |
| 1075 // TODO(fbarchard): Stronger compare on chroma. Compare agaisnt a grey image. |
| 1076 void ConstructMjpgI400() { |
| 1077 T frame1, frame2; |
| 1078 ASSERT_TRUE(LoadFrameNoRepeat(&frame1)); |
| 1079 ASSERT_TRUE(LoadFrame(kJpeg400Filename, kJpegExtension, |
| 1080 cricket::FOURCC_MJPG, kWidth, kHeight, &frame2)); |
| 1081 EXPECT_TRUE(IsPlaneEqual("y", frame1.video_frame_buffer()->DataY(), |
| 1082 frame1.video_frame_buffer()->StrideY(), |
| 1083 frame2.video_frame_buffer()->DataY(), |
| 1084 frame2.video_frame_buffer()->StrideY(), |
| 1085 kWidth, kHeight, 32)); |
| 1086 EXPECT_TRUE(IsEqual(frame1, frame2, 128)); |
| 1087 } |
| 1088 |
| 1089 // Test constructing an image from an I420 MJPG buffer. |
| 1090 void ValidateFrame(const char* name, |
| 1091 const char* extension, |
| 1092 uint32_t fourcc, |
| 1093 int data_adjust, |
| 1094 int size_adjust, |
| 1095 bool expected_result) { |
| 1096 T frame; |
| 1097 std::unique_ptr<rtc::MemoryStream> ms(LoadSample(name, extension)); |
| 1098 ASSERT_TRUE(ms.get() != NULL); |
| 1099 const uint8_t* sample = |
| 1100 reinterpret_cast<const uint8_t*>(ms.get()->GetBuffer()); |
| 1101 size_t sample_size; |
| 1102 ms->GetSize(&sample_size); |
| 1103 // Optional adjust size to test invalid size. |
| 1104 size_t data_size = sample_size + data_adjust; |
| 1105 |
| 1106 // Allocate a buffer with end page aligned. |
| 1107 const int kPadToHeapSized = 16 * 1024 * 1024; |
| 1108 std::unique_ptr<uint8_t[]> page_buffer( |
| 1109 new uint8_t[((data_size + kPadToHeapSized + 4095) & ~4095)]); |
| 1110 uint8_t* data_ptr = page_buffer.get(); |
| 1111 if (!data_ptr) { |
| 1112 LOG(LS_WARNING) << "Failed to allocate memory for ValidateFrame test."; |
| 1113 EXPECT_FALSE(expected_result); // NULL is okay if failure was expected. |
| 1114 return; |
| 1115 } |
| 1116 data_ptr += kPadToHeapSized + (-(static_cast<int>(data_size)) & 4095); |
| 1117 memcpy(data_ptr, sample, std::min(data_size, sample_size)); |
| 1118 for (int i = 0; i < repeat_; ++i) { |
| 1119 EXPECT_EQ(expected_result, frame.Validate(fourcc, kWidth, kHeight, |
| 1120 data_ptr, |
| 1121 sample_size + size_adjust)); |
| 1122 } |
| 1123 } |
| 1124 |
| 1125 // Test validate for I420 MJPG buffer. |
| 1126 void ValidateMjpgI420() { |
| 1127 ValidateFrame(kJpeg420Filename, kJpegExtension, |
| 1128 cricket::FOURCC_MJPG, 0, 0, true); |
| 1129 } |
| 1130 |
| 1131 // Test validate for I422 MJPG buffer. |
| 1132 void ValidateMjpgI422() { |
| 1133 ValidateFrame(kJpeg422Filename, kJpegExtension, |
| 1134 cricket::FOURCC_MJPG, 0, 0, true); |
| 1135 } |
| 1136 |
| 1137 // Test validate for I444 MJPG buffer. |
| 1138 void ValidateMjpgI444() { |
| 1139 ValidateFrame(kJpeg444Filename, kJpegExtension, |
| 1140 cricket::FOURCC_MJPG, 0, 0, true); |
| 1141 } |
| 1142 |
| 1143 // Test validate for I411 MJPG buffer. |
| 1144 void ValidateMjpgI411() { |
| 1145 ValidateFrame(kJpeg411Filename, kJpegExtension, |
| 1146 cricket::FOURCC_MJPG, 0, 0, true); |
| 1147 } |
| 1148 |
| 1149 // Test validate for I400 MJPG buffer. |
| 1150 void ValidateMjpgI400() { |
| 1151 ValidateFrame(kJpeg400Filename, kJpegExtension, |
| 1152 cricket::FOURCC_MJPG, 0, 0, true); |
| 1153 } |
| 1154 |
| 1155 // Test validate for I420 buffer. |
| 1156 void ValidateI420() { |
| 1157 ValidateFrame(kImageFilename, kYuvExtension, |
| 1158 cricket::FOURCC_I420, 0, 0, true); |
| 1159 } |
| 1160 |
| 1161 // Test validate for I420 buffer where size is too small |
| 1162 void ValidateI420SmallSize() { |
| 1163 ValidateFrame(kImageFilename, kYuvExtension, |
| 1164 cricket::FOURCC_I420, 0, -16384, false); |
| 1165 } |
| 1166 |
| 1167 // Test validate for I420 buffer where size is too large (16 MB) |
| 1168 // Will produce warning but pass. |
| 1169 void ValidateI420LargeSize() { |
| 1170 ValidateFrame(kImageFilename, kYuvExtension, |
| 1171 cricket::FOURCC_I420, 16000000, 16000000, |
| 1172 true); |
| 1173 } |
| 1174 |
| 1175 // Test validate for I420 buffer where size is 1 GB (not reasonable). |
| 1176 void ValidateI420HugeSize() { |
| 1177 #ifndef WIN32 // TODO(fbarchard): Reenable when fixing bug 9603762. |
| 1178 ValidateFrame(kImageFilename, kYuvExtension, |
| 1179 cricket::FOURCC_I420, 1000000000u, |
| 1180 1000000000u, false); |
| 1181 #endif |
| 1182 } |
| 1183 |
| 1184 // The following test that Validate crashes if the size is greater than the |
| 1185 // actual buffer size. |
| 1186 // TODO(fbarchard): Consider moving a filter into the capturer/plugin. |
| 1187 #if defined(_MSC_VER) && !defined(NDEBUG) |
| 1188 int ExceptionFilter(unsigned int code, struct _EXCEPTION_POINTERS *ep) { |
| 1189 if (code == EXCEPTION_ACCESS_VIOLATION) { |
| 1190 LOG(LS_INFO) << "Caught EXCEPTION_ACCESS_VIOLATION as expected."; |
| 1191 return EXCEPTION_EXECUTE_HANDLER; |
| 1192 } else { |
| 1193 LOG(LS_INFO) << "Did not catch EXCEPTION_ACCESS_VIOLATION. Unexpected."; |
| 1194 return EXCEPTION_CONTINUE_SEARCH; |
| 1195 } |
| 1196 } |
| 1197 |
| 1198 // Test validate fails for truncated MJPG data buffer. If ValidateFrame |
| 1199 // crashes the exception handler will return and unittest passes with OK. |
| 1200 void ValidateMjpgI420InvalidSize() { |
| 1201 __try { |
| 1202 ValidateFrame(kJpeg420Filename, kJpegExtension, |
| 1203 cricket::FOURCC_MJPG, -16384, 0, false); |
| 1204 FAIL() << "Validate was expected to cause EXCEPTION_ACCESS_VIOLATION."; |
| 1205 } __except(ExceptionFilter(GetExceptionCode(), GetExceptionInformation())) { |
| 1206 return; // Successfully crashed in ValidateFrame. |
| 1207 } |
| 1208 } |
| 1209 |
| 1210 // Test validate fails for truncated I420 buffer. |
| 1211 void ValidateI420InvalidSize() { |
| 1212 __try { |
| 1213 ValidateFrame(kImageFilename, kYuvExtension, |
| 1214 cricket::FOURCC_I420, -16384, 0, false); |
| 1215 FAIL() << "Validate was expected to cause EXCEPTION_ACCESS_VIOLATION."; |
| 1216 } __except(ExceptionFilter(GetExceptionCode(), GetExceptionInformation())) { |
| 1217 return; // Successfully crashed in ValidateFrame. |
| 1218 } |
| 1219 } |
| 1220 #endif |
| 1221 |
| 1222 // Test constructing an image from a YUY2 buffer (and synonymous formats). |
| 1223 void ConstructYuy2Aliases() { |
| 1224 T frame1, frame2, frame3, frame4; |
| 1225 std::unique_ptr<rtc::MemoryStream> ms( |
| 1226 CreateYuv422Sample(cricket::FOURCC_YUY2, kWidth, kHeight)); |
| 1227 ASSERT_TRUE(ms.get() != NULL); |
| 1228 EXPECT_TRUE(ConvertYuv422(ms.get(), cricket::FOURCC_YUY2, kWidth, kHeight, |
| 1229 &frame1)); |
| 1230 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_YUY2, |
| 1231 kWidth, kHeight, &frame2)); |
| 1232 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_YUVS, |
| 1233 kWidth, kHeight, &frame3)); |
| 1234 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_YUYV, |
| 1235 kWidth, kHeight, &frame4)); |
| 1236 EXPECT_TRUE(IsEqual(frame1, frame2, 0)); |
| 1237 EXPECT_TRUE(IsEqual(frame1, frame3, 0)); |
| 1238 EXPECT_TRUE(IsEqual(frame1, frame4, 0)); |
| 1239 } |
| 1240 |
| 1241 // Test constructing an image from a UYVY buffer (and synonymous formats). |
| 1242 void ConstructUyvyAliases() { |
| 1243 T frame1, frame2, frame3, frame4; |
| 1244 std::unique_ptr<rtc::MemoryStream> ms( |
| 1245 CreateYuv422Sample(cricket::FOURCC_UYVY, kWidth, kHeight)); |
| 1246 ASSERT_TRUE(ms.get() != NULL); |
| 1247 EXPECT_TRUE(ConvertYuv422(ms.get(), cricket::FOURCC_UYVY, kWidth, kHeight, |
| 1248 &frame1)); |
| 1249 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_UYVY, |
| 1250 kWidth, kHeight, &frame2)); |
| 1251 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_2VUY, |
| 1252 kWidth, kHeight, &frame3)); |
| 1253 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_HDYC, |
| 1254 kWidth, kHeight, &frame4)); |
| 1255 EXPECT_TRUE(IsEqual(frame1, frame2, 0)); |
| 1256 EXPECT_TRUE(IsEqual(frame1, frame3, 0)); |
| 1257 EXPECT_TRUE(IsEqual(frame1, frame4, 0)); |
| 1258 } |
| 1259 |
| 1260 // Test creating a copy. |
| 1261 void ConstructCopy() { |
| 1262 T frame1, frame2; |
| 1263 ASSERT_TRUE(LoadFrameNoRepeat(&frame1)); |
| 1264 for (int i = 0; i < repeat_; ++i) { |
| 1265 EXPECT_TRUE(frame2.Init(frame1)); |
| 1266 } |
| 1267 EXPECT_TRUE(IsEqual(frame1, frame2, 0)); |
| 1268 } |
| 1269 |
| 1270 // Test creating a copy and check that it just increments the refcount. |
| 1271 void ConstructCopyIsRef() { |
| 1272 T frame1, frame2; |
| 1273 ASSERT_TRUE(LoadFrameNoRepeat(&frame1)); |
| 1274 for (int i = 0; i < repeat_; ++i) { |
| 1275 EXPECT_TRUE(frame2.Init(frame1)); |
| 1276 } |
| 1277 EXPECT_TRUE(IsEqual(frame1, frame2, 0)); |
| 1278 EXPECT_EQ(frame1.video_frame_buffer(), frame2.video_frame_buffer()); |
| 1279 } |
| 1280 |
| 1281 // Test constructing an image from a YUY2 buffer with a range of sizes. |
| 1282 // Only tests that conversion does not crash or corrupt heap. |
| 1283 void ConstructYuy2AllSizes() { |
| 1284 T frame1, frame2; |
| 1285 for (int height = kMinHeightAll; height <= kMaxHeightAll; ++height) { |
| 1286 for (int width = kMinWidthAll; width <= kMaxWidthAll; ++width) { |
| 1287 std::unique_ptr<rtc::MemoryStream> ms( |
| 1288 CreateYuv422Sample(cricket::FOURCC_YUY2, width, height)); |
| 1289 ASSERT_TRUE(ms.get() != NULL); |
| 1290 EXPECT_TRUE(ConvertYuv422(ms.get(), cricket::FOURCC_YUY2, width, height, |
| 1291 &frame1)); |
| 1292 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_YUY2, |
| 1293 width, height, &frame2)); |
| 1294 EXPECT_TRUE(IsEqual(frame1, frame2, 0)); |
| 1295 } |
| 1296 } |
| 1297 } |
| 1298 |
| 1299 // Test constructing an image from a ARGB buffer with a range of sizes. |
| 1300 // Only tests that conversion does not crash or corrupt heap. |
| 1301 void ConstructARGBAllSizes() { |
| 1302 for (int height = kMinHeightAll; height <= kMaxHeightAll; ++height) { |
| 1303 for (int width = kMinWidthAll; width <= kMaxWidthAll; ++width) { |
| 1304 std::unique_ptr<rtc::MemoryStream> ms( |
| 1305 CreateRgbSample(cricket::FOURCC_ARGB, width, height)); |
| 1306 ASSERT_TRUE(ms.get() != NULL); |
| 1307 std::unique_ptr<T> frame1 = ConvertRgb(ms.get(), cricket::FOURCC_ARGB, |
| 1308 width, height); |
| 1309 ASSERT_TRUE(frame1); |
| 1310 T frame2; |
| 1311 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_ARGB, |
| 1312 width, height, &frame2)); |
| 1313 EXPECT_TRUE(IsEqual(*frame1, frame2, 64)); |
| 1314 } |
| 1315 } |
| 1316 // Test a practical window size for screencasting usecase. |
| 1317 const int kOddWidth = 1228; |
| 1318 const int kOddHeight = 260; |
| 1319 for (int j = 0; j < 2; ++j) { |
| 1320 for (int i = 0; i < 2; ++i) { |
| 1321 std::unique_ptr<rtc::MemoryStream> ms( |
| 1322 CreateRgbSample(cricket::FOURCC_ARGB, kOddWidth + i, kOddHeight + j)); |
| 1323 ASSERT_TRUE(ms.get() != NULL); |
| 1324 std::unique_ptr<T> frame1 = ConvertRgb(ms.get(), cricket::FOURCC_ARGB, |
| 1325 kOddWidth + i, kOddHeight + j); |
| 1326 ASSERT_TRUE(frame1); |
| 1327 T frame2; |
| 1328 EXPECT_TRUE(LoadFrame(ms.get(), cricket::FOURCC_ARGB, |
| 1329 kOddWidth + i, kOddHeight + j, &frame2)); |
| 1330 EXPECT_TRUE(IsEqual(*frame1, frame2, 64)); |
| 1331 } |
| 1332 } |
| 1333 } |
| 1334 |
| 1335 ////////////////////// |
| 1336 // Conversion tests // |
| 1337 ////////////////////// |
| 1338 |
| 1339 // Test converting from I420 to I422. |
| 1340 void ConvertToI422Buffer() { |
| 1341 T frame1, frame2; |
| 1342 size_t out_size = kWidth * kHeight * 2; |
| 1343 std::unique_ptr<uint8_t[]> buf(new uint8_t[out_size + kAlignment]); |
| 1344 uint8_t* y = ALIGNP(buf.get(), kAlignment); |
| 1345 uint8_t* u = y + kWidth * kHeight; |
| 1346 uint8_t* v = u + (kWidth / 2) * kHeight; |
| 1347 ASSERT_TRUE(LoadFrameNoRepeat(&frame1)); |
| 1348 for (int i = 0; i < repeat_; ++i) { |
| 1349 EXPECT_EQ(0, libyuv::I420ToI422(frame1.video_frame_buffer()->DataY(), |
| 1350 frame1.video_frame_buffer()->StrideY(), |
| 1351 frame1.video_frame_buffer()->DataU(), |
| 1352 frame1.video_frame_buffer()->StrideU(), |
| 1353 frame1.video_frame_buffer()->DataV(), |
| 1354 frame1.video_frame_buffer()->StrideV(), |
| 1355 y, kWidth, |
| 1356 u, kWidth / 2, |
| 1357 v, kWidth / 2, |
| 1358 kWidth, kHeight)); |
| 1359 } |
| 1360 EXPECT_TRUE(frame2.Init(cricket::FOURCC_I422, kWidth, kHeight, kWidth, |
| 1361 kHeight, y, out_size, 1, 1, 0, |
| 1362 webrtc::kVideoRotation_0)); |
| 1363 EXPECT_TRUE(IsEqual(frame1, frame2, 1)); |
| 1364 } |
| 1365 |
| 1366 int repeat_; |
| 1367 }; |
| 1368 |
| 1369 #endif // WEBRTC_MEDIA_BASE_VIDEOFRAME_UNITTEST_H_ |
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