// This file is part of OpenCV project. // It is subject to the license terms in the LICENSE file found in the top-level directory // of this distribution and at http://opencv.org/license.html. #include "test_precomp.hpp" using namespace std; namespace opencv_test { namespace { static inline long long getFileSize(const string &filename) { ifstream f(filename, ios_base::in | ios_base::binary); f.seekg(0, ios_base::end); return f.tellg(); } typedef tuple FourCC_Ext_Size; typedef testing::TestWithParam< FourCC_Ext_Size > videoio_ffmpeg; TEST_P(videoio_ffmpeg, write_big) { if (!videoio_registry::hasBackend(CAP_FFMPEG)) throw SkipTestException("FFmpeg backend was not found"); const string fourcc = get<0>(GetParam()); const string ext = get<1>(GetParam()); const Size sz = get<2>(GetParam()); const double time_sec = 1; const double fps = 25; ostringstream buf; buf << "write_big_" << fourcc << "." << ext; const string filename = tempfile(buf.str().c_str()); VideoWriter writer(filename, CAP_FFMPEG, fourccFromString(fourcc), fps, sz); if (ext == "mp4" && fourcc == "H264" && !writer.isOpened()) { throw cvtest::SkipTestException("H264/mp4 codec is not supported - SKIP"); } ASSERT_TRUE(writer.isOpened()); Mat img(sz, CV_8UC3, Scalar::all(0)); const int coeff = cvRound(min(sz.width, sz.height)/(fps * time_sec)); for (int i = 0 ; i < static_cast(fps * time_sec); i++ ) { rectangle(img, Point2i(coeff * i, coeff * i), Point2i(coeff * (i + 1), coeff * (i + 1)), Scalar::all(255 * (1.0 - static_cast(i) / (fps * time_sec * 2))), -1); writer << img; } writer.release(); EXPECT_GT(getFileSize(filename), 8192); remove(filename.c_str()); } #if defined(OPENCV_32BIT_CONFIGURATION) static const Size bigSize(1920, 1080); #else static const Size bigSize(4096, 4096); #endif const FourCC_Ext_Size entries[] = { make_tuple("", "avi", bigSize), make_tuple("DX50", "avi", bigSize), make_tuple("FLV1", "avi", bigSize), make_tuple("H261", "avi", Size(352, 288)), make_tuple("H263", "avi", Size(704, 576)), make_tuple("I420", "avi", bigSize), make_tuple("MJPG", "avi", bigSize), make_tuple("mp4v", "avi", bigSize), make_tuple("MPEG", "avi", Size(720, 576)), make_tuple("XVID", "avi", bigSize), make_tuple("H264", "mp4", Size(4096, 2160)), make_tuple("FFV1", "avi", bigSize), make_tuple("FFV1", "mkv", bigSize) }; INSTANTIATE_TEST_CASE_P(videoio, videoio_ffmpeg, testing::ValuesIn(entries)); //========================================================================== TEST(videoio_ffmpeg, image) { if (!videoio_registry::hasBackend(CAP_FFMPEG)) throw SkipTestException("FFmpeg backend was not found"); const string filename = findDataFile("readwrite/ordinary.bmp"); Mat image = imread(filename, IMREAD_COLOR); ASSERT_FALSE(image.empty()); VideoCapture cap(filename, CAP_FFMPEG); ASSERT_TRUE(cap.isOpened()); Mat frame1, frame2; cap >> frame1 >> frame2; ASSERT_FALSE(frame1.empty()); ASSERT_TRUE(frame2.empty()); ASSERT_EQ(0, cvtest::norm(image, frame1, NORM_INF)); } //========================================================================== typedef tuple videoio_read_params_t; typedef testing::TestWithParam< testing::tuple> videoio_read; TEST_P(videoio_read, threads) { const VideoCaptureAPIs api = CAP_FFMPEG; if (!videoio_registry::hasBackend(api)) throw SkipTestException("Backend was not found"); const string fileName = get<0>(get<0>(GetParam())); const int nFrames = get<1>(get<0>(GetParam())); const bool fixedThreadCount = get<2>(get<0>(GetParam())); const int nThreads = get<1>(GetParam()); const bool rawRead = get<2>(GetParam()); VideoCapture cap(findDataFile(fileName), api, { CAP_PROP_N_THREADS, nThreads }); if (!cap.isOpened()) throw SkipTestException("Video stream is not supported"); if (nThreads == 0 || fixedThreadCount) EXPECT_EQ(cap.get(CAP_PROP_N_THREADS), VideoCapture(findDataFile(fileName), api).get(CAP_PROP_N_THREADS)); else EXPECT_EQ(cap.get(CAP_PROP_N_THREADS), nThreads); if (rawRead && !cap.set(CAP_PROP_FORMAT, -1)) // turn off video decoder (extract stream) throw SkipTestException("Fetching of RAW video streams is not supported"); Mat frame; int n = 0; while (cap.read(frame)) { ASSERT_FALSE(frame.empty()); n++; } ASSERT_EQ(n, nFrames); } const videoio_read_params_t videoio_read_params[] = { videoio_read_params_t("video/big_buck_bunny.h264", 125, false), //videoio_read_params_t("video/big_buck_bunny.h265", 125, false), videoio_read_params_t("video/big_buck_bunny.mjpg.avi", 125, true), //videoio_read_params_t("video/big_buck_bunny.mov", 125, false), //videoio_read_params_t("video/big_buck_bunny.mp4", 125, false), //videoio_read_params_t("video/big_buck_bunny.mpg", 125, false), //videoio_read_params_t("video/big_buck_bunny.wmv", 125, true), }; INSTANTIATE_TEST_CASE_P(/**/, videoio_read, testing::Combine(testing::ValuesIn(videoio_read_params), testing::Values(0, 1, 2, 50), testing::Values(true, false))); //========================================================================== typedef tuple videoio_container_params_t; typedef testing::TestWithParam< videoio_container_params_t > videoio_container; TEST_P(videoio_container, read) { const VideoCaptureAPIs api = get<0>(GetParam()); if (!videoio_registry::hasBackend(api)) throw SkipTestException("Backend was not found"); const string path = get<1>(GetParam()); const string ext = get<2>(GetParam()); const string ext_raw = get<3>(GetParam()); const string codec = get<4>(GetParam()); const string pixelFormat = get<5>(GetParam()); const string fileName = path + "." + ext; const string fileNameOut = tempfile(cv::format("test_container_stream.%s", ext_raw.c_str()).c_str()); // Write encoded video read using VideoContainer to tmp file size_t totalBytes = 0; { VideoCapture container(findDataFile(fileName), api); if (!container.isOpened()) throw SkipTestException("Video stream is not supported"); if (!container.set(CAP_PROP_FORMAT, -1)) // turn off video decoder (extract stream) throw SkipTestException("Fetching of RAW video streams is not supported"); ASSERT_EQ(-1.f, container.get(CAP_PROP_FORMAT)); // check EXPECT_EQ(codec, fourccToString((int)container.get(CAP_PROP_FOURCC))); EXPECT_EQ(pixelFormat, fourccToString((int)container.get(CAP_PROP_CODEC_PIXEL_FORMAT))); std::ofstream file(fileNameOut.c_str(), ios::out | ios::trunc | std::ios::binary); Mat raw_data; while (true) { container >> raw_data; size_t size = raw_data.total(); if (raw_data.empty()) break; ASSERT_EQ(CV_8UC1, raw_data.type()); ASSERT_LE(raw_data.dims, 2); ASSERT_EQ(raw_data.rows, 1); ASSERT_EQ((size_t)raw_data.cols, raw_data.total()); ASSERT_TRUE(raw_data.isContinuous()); totalBytes += size; file.write(reinterpret_cast(raw_data.data), size); ASSERT_FALSE(file.fail()); } ASSERT_GE(totalBytes, (size_t)39775) << "Encoded stream is too small"; } std::cout << "Checking extracted video stream: " << fileNameOut << " (size: " << totalBytes << " bytes)" << std::endl; // Check decoded frames read from original media are equal to frames decoded from tmp file { VideoCapture capReference(findDataFile(fileName), api); ASSERT_TRUE(capReference.isOpened()); VideoCapture capActual(fileNameOut.c_str(), api); ASSERT_TRUE(capActual.isOpened()); Mat reference, actual; int nframes = 0, n_err = 0; while (capReference.read(reference) && n_err < 3) { nframes++; ASSERT_TRUE(capActual.read(actual)) << nframes; EXPECT_EQ(0, cvtest::norm(actual, reference, NORM_INF)) << "frame=" << nframes << " err=" << ++n_err; } ASSERT_GT(nframes, 0); } ASSERT_EQ(0, remove(fileNameOut.c_str())); } const videoio_container_params_t videoio_container_params[] = { videoio_container_params_t(CAP_FFMPEG, "video/big_buck_bunny", "h264", "h264", "h264", "I420"), videoio_container_params_t(CAP_FFMPEG, "video/big_buck_bunny", "h265", "h265", "hevc", "I420"), videoio_container_params_t(CAP_FFMPEG, "video/big_buck_bunny", "mjpg.avi", "mjpg", "MJPG", "I420"), videoio_container_params_t(CAP_FFMPEG, "video/sample_322x242_15frames.yuv420p.libx264", "mp4", "h264", "h264", "I420") //videoio_container_params_t(CAP_FFMPEG, "video/big_buck_bunny", "h264.mkv", "mkv.h264", "h264", "I420"), //videoio_container_params_t(CAP_FFMPEG, "video/big_buck_bunny", "h265.mkv", "mkv.h265", "hevc", "I420"), //videoio_container_params_t(CAP_FFMPEG, "video/big_buck_bunny", "h264.mp4", "mp4.avc1", "avc1", "I420"), //videoio_container_params_t(CAP_FFMPEG, "video/big_buck_bunny", "h265.mp4", "mp4.hev1", "hev1", "I420"), }; INSTANTIATE_TEST_CASE_P(/**/, videoio_container, testing::ValuesIn(videoio_container_params)); typedef tuple videoio_encapsulate_params_t; typedef testing::TestWithParam< videoio_encapsulate_params_t > videoio_encapsulate; TEST_P(videoio_encapsulate, write) { #ifdef _WIN32 throw SkipTestException("Test disabled until PR for raw video encapsulation is merged and windows dll is updated"); #else const VideoCaptureAPIs api = CAP_FFMPEG; if (!videoio_registry::hasBackend(api)) throw SkipTestException("FFmpeg backend was not found"); const string fileName = findDataFile(get<0>(GetParam())); const string ext = get<1>(GetParam()); const int idrPeriod = get<2>(GetParam()); const int nFrames = get<3>(GetParam()); const string fileNameOut = tempfile(cv::format("test_encapsulated_stream.%s", ext.c_str()).c_str()); // Use VideoWriter to encapsulate encoded video read with VideoReader { VideoCapture capRaw(fileName, api, { CAP_PROP_FORMAT, -1 }); ASSERT_TRUE(capRaw.isOpened()); const int width = static_cast(capRaw.get(CAP_PROP_FRAME_WIDTH)); const int height = static_cast(capRaw.get(CAP_PROP_FRAME_HEIGHT)); const double fps = capRaw.get(CAP_PROP_FPS); const int codecExtradataIndex = static_cast(capRaw.get(CAP_PROP_CODEC_EXTRADATA_INDEX)); Mat extraData; capRaw.retrieve(extraData, codecExtradataIndex); const int fourcc = static_cast(capRaw.get(CAP_PROP_FOURCC)); const bool mpeg4 = (fourcc == fourccFromString("FMP4")); VideoWriter container(fileNameOut, api, fourcc, fps, { width, height }, { VideoWriterProperties::VIDEOWRITER_PROP_RAW_VIDEO, 1, VideoWriterProperties::VIDEOWRITER_PROP_KEY_INTERVAL, idrPeriod }); ASSERT_TRUE(container.isOpened()); Mat rawFrame; for (int i = 0; i < nFrames; i++) { ASSERT_TRUE(capRaw.read(rawFrame)); ASSERT_FALSE(rawFrame.empty()); if (i == 0 && mpeg4) { Mat tmp = rawFrame.clone(); const size_t newSzt = tmp.total() + extraData.total(); const int newSz = static_cast(newSzt); ASSERT_TRUE(newSzt == static_cast(newSz)); rawFrame = Mat(1, newSz, CV_8UC1); memcpy(rawFrame.data, extraData.data, extraData.total()); memcpy(rawFrame.data + extraData.total(), tmp.data, tmp.total()); } container.write(rawFrame); } container.release(); } std::cout << "Checking encapsulated video container: " << fileNameOut << std::endl; // Check encapsulated video container is "identical" to the original { VideoCapture capReference(fileName), capActual(fileNameOut), capActualRaw(fileNameOut, api, { CAP_PROP_FORMAT, -1 }); ASSERT_TRUE(capReference.isOpened()); ASSERT_TRUE(capActual.isOpened()); ASSERT_TRUE(capActualRaw.isOpened()); const double fpsReference = capReference.get(CAP_PROP_FPS); const double fpsActual = capActual.get(CAP_PROP_FPS); ASSERT_NEAR(fpsReference, fpsActual, 1e-2); const int nFramesActual = static_cast(capActual.get(CAP_PROP_FRAME_COUNT)); ASSERT_EQ(nFrames, nFramesActual); Mat reference, actual; for (int i = 0; i < nFrames; i++) { ASSERT_TRUE(capReference.read(reference)); ASSERT_FALSE(reference.empty()); ASSERT_TRUE(capActual.read(actual)); ASSERT_FALSE(actual.empty()); ASSERT_EQ(0, cvtest::norm(reference, actual, NORM_INF)); ASSERT_TRUE(capActualRaw.grab()); const bool keyFrameActual = capActualRaw.get(CAP_PROP_LRF_HAS_KEY_FRAME) == 1.; const bool keyFrameReference = idrPeriod ? i % idrPeriod == 0 : 1; ASSERT_EQ(keyFrameReference, keyFrameActual); } } ASSERT_EQ(0, remove(fileNameOut.c_str())); #endif } const videoio_encapsulate_params_t videoio_encapsulate_params[] = { videoio_encapsulate_params_t("video/big_buck_bunny.h264", "avi", 125, 125), videoio_encapsulate_params_t("video/big_buck_bunny.h265", "mp4", 125, 125), videoio_encapsulate_params_t("video/big_buck_bunny.wmv", "wmv", 12, 13), videoio_encapsulate_params_t("video/big_buck_bunny.mp4", "mp4", 12, 13), videoio_encapsulate_params_t("video/big_buck_bunny.mjpg.avi", "mp4", 0, 4), videoio_encapsulate_params_t("video/big_buck_bunny.mov", "mp4", 12, 13), videoio_encapsulate_params_t("video/big_buck_bunny.avi", "mp4", 125, 125), videoio_encapsulate_params_t("video/big_buck_bunny.mpg", "mp4", 12, 13), videoio_encapsulate_params_t("video/VID00003-20100701-2204.wmv", "wmv", 12, 13), videoio_encapsulate_params_t("video/VID00003-20100701-2204.mpg", "mp4", 12,13), videoio_encapsulate_params_t("video/VID00003-20100701-2204.avi", "mp4", 12, 13), videoio_encapsulate_params_t("video/VID00003-20100701-2204.3GP", "mp4", 51, 52), videoio_encapsulate_params_t("video/sample_sorenson.avi", "mp4", 12, 13), videoio_encapsulate_params_t("video/sample_322x242_15frames.yuv420p.libxvid.mp4", "mp4", 3, 4), videoio_encapsulate_params_t("video/sample_322x242_15frames.yuv420p.mpeg2video.mp4", "mp4", 12, 13), videoio_encapsulate_params_t("video/sample_322x242_15frames.yuv420p.mjpeg.mp4", "mp4", 0, 5), videoio_encapsulate_params_t("video/sample_322x242_15frames.yuv420p.libx264.mp4", "avi", 15, 15), videoio_encapsulate_params_t("../cv/tracking/faceocc2/data/faceocc2.webm", "webm", 128, 129), videoio_encapsulate_params_t("../cv/video/1920x1080.avi", "mp4", 12, 13), videoio_encapsulate_params_t("../cv/video/768x576.avi", "avi", 15, 16) // Not supported by with FFmpeg: //videoio_encapsulate_params_t("video/sample_322x242_15frames.yuv420p.libx265.mp4", "mp4", 15, 15), //videoio_encapsulate_params_t("video/sample_322x242_15frames.yuv420p.libvpx-vp9.mp4", "mp4", 15, 15), }; INSTANTIATE_TEST_CASE_P(/**/, videoio_encapsulate, testing::ValuesIn(videoio_encapsulate_params)); TEST(videoio_encapsulate_set_idr, write) { #ifdef _WIN32 throw SkipTestException("Test disabled until PR for raw video encapsulation is merged and windows dll is updated"); #else const VideoCaptureAPIs api = CAP_FFMPEG; if (!videoio_registry::hasBackend(api)) throw SkipTestException("FFmpeg backend was not found"); const string fileName = findDataFile("video/big_buck_bunny.mp4"); const string ext = "mp4"; const string fileNameOut = tempfile(cv::format("test_encapsulated_stream_set_idr.%s", ext.c_str()).c_str()); // Use VideoWriter to encapsulate encoded video read with VideoReader { VideoCapture capRaw(fileName, api, { CAP_PROP_FORMAT, -1 }); ASSERT_TRUE(capRaw.isOpened()); const int width = static_cast(capRaw.get(CAP_PROP_FRAME_WIDTH)); const int height = static_cast(capRaw.get(CAP_PROP_FRAME_HEIGHT)); const double fps = capRaw.get(CAP_PROP_FPS); const int codecExtradataIndex = static_cast(capRaw.get(CAP_PROP_CODEC_EXTRADATA_INDEX)); Mat extraData; capRaw.retrieve(extraData, codecExtradataIndex); const int fourcc = static_cast(capRaw.get(CAP_PROP_FOURCC)); const bool mpeg4 = (fourcc == fourccFromString("FMP4")); VideoWriter container(fileNameOut, api, fourcc, fps, { width, height }, { VideoWriterProperties::VIDEOWRITER_PROP_RAW_VIDEO, 1 }); ASSERT_TRUE(container.isOpened()); Mat rawFrame; int i = 0; while (capRaw.read(rawFrame)) { ASSERT_FALSE(rawFrame.empty()); if (i == 0 && mpeg4) { Mat tmp = rawFrame.clone(); const size_t newSzt = tmp.total() + extraData.total(); const int newSz = static_cast(newSzt); ASSERT_TRUE(newSzt == static_cast(newSz)); rawFrame = Mat(1, newSz, CV_8UC1); memcpy(rawFrame.data, extraData.data, extraData.total()); memcpy(rawFrame.data + extraData.total(), tmp.data, tmp.total()); } if (static_cast(capRaw.get(CAP_PROP_LRF_HAS_KEY_FRAME))) container.set(VideoWriterProperties::VIDEOWRITER_PROP_KEY_FLAG, 1); else container.set(VideoWriterProperties::VIDEOWRITER_PROP_KEY_FLAG, 0); container.write(rawFrame); i++; } container.release(); } std::cout << "Checking encapsulated video container: " << fileNameOut << std::endl; // Check encapsulated video container is "identical" to the original { VideoCapture capReference(fileName), capReferenceRaw(fileName, api, { CAP_PROP_FORMAT, -1 }), capActual(fileNameOut), capActualRaw(fileNameOut, api, { CAP_PROP_FORMAT, -1 }); ASSERT_TRUE(capReference.isOpened()); ASSERT_TRUE(capActual.isOpened()); ASSERT_TRUE(capReferenceRaw.isOpened()); ASSERT_TRUE(capActualRaw.isOpened()); const double fpsReference = capReference.get(CAP_PROP_FPS); const double fpsActual = capActual.get(CAP_PROP_FPS); ASSERT_EQ(fpsReference, fpsActual); const int nFramesReference = static_cast(capReference.get(CAP_PROP_FRAME_COUNT)); const int nFramesActual = static_cast(capActual.get(CAP_PROP_FRAME_COUNT)); ASSERT_EQ(nFramesReference, nFramesActual); Mat reference, actual; for (int i = 0; i < nFramesReference; i++) { ASSERT_TRUE(capReference.read(reference)); ASSERT_FALSE(reference.empty()); ASSERT_TRUE(capActual.read(actual)); ASSERT_FALSE(actual.empty()); ASSERT_EQ(0, cvtest::norm(reference, actual, NORM_INF)); ASSERT_TRUE(capReferenceRaw.grab()); ASSERT_TRUE(capActualRaw.grab()); const bool keyFrameReference = capActualRaw.get(CAP_PROP_LRF_HAS_KEY_FRAME) == 1.; const bool keyFrameActual = capActualRaw.get(CAP_PROP_LRF_HAS_KEY_FRAME) == 1.; ASSERT_EQ(keyFrameReference, keyFrameActual); } } ASSERT_EQ(0, remove(fileNameOut.c_str())); #endif } typedef tuple videoio_skip_params_t; typedef testing::TestWithParam< videoio_skip_params_t > videoio_skip; TEST_P(videoio_skip, DISABLED_read) // optional test, may fail in some configurations { #if CV_VERSION_MAJOR >= 4 if (!videoio_registry::hasBackend(CAP_FFMPEG)) throw SkipTestException("Backend was not found"); #endif const string path = get<0>(GetParam()); const string env = get<1>(GetParam()); const int expectedFrameNumber = get<2>(GetParam()); #ifdef _WIN32 _putenv_s("OPENCV_FFMPEG_CAPTURE_OPTIONS", env.c_str()); #else setenv("OPENCV_FFMPEG_CAPTURE_OPTIONS", env.c_str(), 1); #endif VideoCapture container(findDataFile(path), CAP_FFMPEG); #ifdef _WIN32 _putenv_s("OPENCV_FFMPEG_CAPTURE_OPTIONS", ""); #else setenv("OPENCV_FFMPEG_CAPTURE_OPTIONS", "", 1); #endif ASSERT_TRUE(container.isOpened()); Mat reference; int nframes = 0, n_err = 0; while (container.isOpened()) { if (container.read(reference)) nframes++; else if (++n_err > 3) break; } EXPECT_EQ(expectedFrameNumber, nframes); } const videoio_skip_params_t videoio_skip_params[] = { videoio_skip_params_t("video/big_buck_bunny.mp4", "", 125), videoio_skip_params_t("video/big_buck_bunny.mp4", "avdiscard;nonkey", 11) }; INSTANTIATE_TEST_CASE_P(/**/, videoio_skip, testing::ValuesIn(videoio_skip_params)); //========================================================================== static void generateFrame(Mat &frame, unsigned int i, const Point ¢er, const Scalar &color) { frame = Scalar::all(i % 255); stringstream buf(ios::out); buf << "frame #" << i; putText(frame, buf.str(), Point(50, center.y), FONT_HERSHEY_SIMPLEX, 5.0, color, 5, LINE_AA); circle(frame, center, i + 2, color, 2, LINE_AA); } TEST(videoio_ffmpeg, parallel) { if (!videoio_registry::hasBackend(CAP_FFMPEG)) throw SkipTestException("FFmpeg backend was not found"); const int NUM = 4; const int GRAN = 4; const Range R(0, NUM); const Size sz(1020, 900); const int frameNum = 300; const Scalar color(Scalar::all(0)); const Point center(sz.height / 2, sz.width / 2); // Generate filenames vector files; for (int i = 0; i < NUM; ++i) { ostringstream stream; stream << i << ".avi"; files.push_back(tempfile(stream.str().c_str())); } // Write videos { vector< Ptr > writers(NUM); auto makeWriters = [&](const Range &r) { for (int i = r.start; i != r.end; ++i) writers[i] = makePtr(files[i], CAP_FFMPEG, VideoWriter::fourcc('X','V','I','D'), 25.0f, sz); }; parallel_for_(R, makeWriters, GRAN); for(int i = 0; i < NUM; ++i) { ASSERT_TRUE(writers[i]); ASSERT_TRUE(writers[i]->isOpened()); } auto writeFrames = [&](const Range &r) { for (int j = r.start; j < r.end; ++j) { Mat frame(sz, CV_8UC3); for (int i = 0; i < frameNum; ++i) { generateFrame(frame, i, center, color); writers[j]->write(frame); } } }; parallel_for_(R, writeFrames, GRAN); } // Read videos { vector< Ptr > readers(NUM); auto makeCaptures = [&](const Range &r) { for (int i = r.start; i != r.end; ++i) readers[i] = makePtr(files[i], CAP_FFMPEG); }; parallel_for_(R, makeCaptures, GRAN); for(int i = 0; i < NUM; ++i) { ASSERT_TRUE(readers[i]); ASSERT_TRUE(readers[i]->isOpened()); } auto readFrames = [&](const Range &r) { for (int j = r.start; j < r.end; ++j) { Mat reference(sz, CV_8UC3); for (int i = 0; i < frameNum; ++i) { Mat actual; EXPECT_TRUE(readers[j]->read(actual)); EXPECT_FALSE(actual.empty()); generateFrame(reference, i, center, color); EXPECT_EQ(reference.size(), actual.size()); EXPECT_EQ(reference.depth(), actual.depth()); EXPECT_EQ(reference.channels(), actual.channels()); EXPECT_GE(cvtest::PSNR(actual, reference), 35.0) << "cap" << j << ", frame " << i; } } }; parallel_for_(R, readFrames, GRAN); } // Remove files for(int i = 0; i < NUM; ++i) { remove(files[i].c_str()); } } typedef std::pair cap_property_t; typedef std::vector cap_properties_t; typedef std::pair ffmpeg_cap_properties_param_t; typedef testing::TestWithParam ffmpeg_cap_properties; TEST_P(ffmpeg_cap_properties, can_read_property) { if (!videoio_registry::hasBackend(CAP_FFMPEG)) throw SkipTestException("FFmpeg backend was not found"); ffmpeg_cap_properties_param_t parameters = GetParam(); const std::string path = parameters.first; const cap_properties_t properties = parameters.second; VideoCapture cap(findDataFile(path), CAP_FFMPEG); ASSERT_TRUE(cap.isOpened()) << "Can not open " << findDataFile(path); for (std::size_t i = 0; i < properties.size(); ++i) { const cap_property_t& prop = properties[i]; const double actualValue = cap.get(static_cast(prop.first)); EXPECT_DOUBLE_EQ(actualValue, prop.second) << "Property " << static_cast(prop.first) << " has wrong value"; } } cap_properties_t loadBigBuckBunnyFFProbeResults() { cap_property_t properties[] = { cap_property_t(CAP_PROP_BITRATE, 5851.), cap_property_t(CAP_PROP_FPS, 24.), cap_property_t(CAP_PROP_FRAME_HEIGHT, 384.), cap_property_t(CAP_PROP_FRAME_WIDTH, 672.) }; return cap_properties_t(properties, properties + sizeof(properties) / sizeof(cap_property_t)); } const ffmpeg_cap_properties_param_t videoio_ffmpeg_properties[] = { ffmpeg_cap_properties_param_t("video/big_buck_bunny.avi", loadBigBuckBunnyFFProbeResults()) }; INSTANTIATE_TEST_CASE_P(videoio, ffmpeg_cap_properties, testing::ValuesIn(videoio_ffmpeg_properties)); typedef tuple ffmpeg_get_fourcc_param_t; typedef testing::TestWithParam ffmpeg_get_fourcc; TEST_P(ffmpeg_get_fourcc, check_short_codecs) { const VideoCaptureAPIs api = CAP_FFMPEG; if (!videoio_registry::hasBackend(api)) throw SkipTestException("Backend was not found"); const string fileName = get<0>(GetParam()); const string fourcc_string = get<1>(GetParam()); VideoCapture cap(findDataFile(fileName), api); if (!cap.isOpened()) throw SkipTestException("Video stream is not supported"); const double fourcc = cap.get(CAP_PROP_FOURCC); ASSERT_EQ(fourcc_string, fourccToString((int)fourcc)); } const ffmpeg_get_fourcc_param_t ffmpeg_get_fourcc_param[] = { ffmpeg_get_fourcc_param_t("../cv/tracking/faceocc2/data/faceocc2.webm", "VP80"), ffmpeg_get_fourcc_param_t("video/big_buck_bunny.h265", "hevc"), ffmpeg_get_fourcc_param_t("video/big_buck_bunny.h264", "h264"), ffmpeg_get_fourcc_param_t("video/sample_322x242_15frames.yuv420p.libvpx-vp9.mp4", "VP90"), ffmpeg_get_fourcc_param_t("video/sample_322x242_15frames.yuv420p.libaom-av1.mp4", "AV01"), ffmpeg_get_fourcc_param_t("video/big_buck_bunny.mp4", "FMP4"), ffmpeg_get_fourcc_param_t("video/sample_322x242_15frames.yuv420p.mpeg2video.mp4", "mpg2"), ffmpeg_get_fourcc_param_t("video/sample_322x242_15frames.yuv420p.mjpeg.mp4", "MJPG"), ffmpeg_get_fourcc_param_t("video/sample_322x242_15frames.yuv420p.libxvid.mp4", "FMP4"), ffmpeg_get_fourcc_param_t("video/sample_322x242_15frames.yuv420p.libx265.mp4", "hevc"), ffmpeg_get_fourcc_param_t("video/sample_322x242_15frames.yuv420p.libx264.mp4", "h264") }; INSTANTIATE_TEST_CASE_P(videoio, ffmpeg_get_fourcc, testing::ValuesIn(ffmpeg_get_fourcc_param)); static void ffmpeg_check_read_raw(VideoCapture& cap) { ASSERT_TRUE(cap.isOpened()) << "Can't open the video"; Mat data; cap >> data; EXPECT_EQ(CV_8UC1, data.type()) << "CV_8UC1 != " << typeToString(data.type()); EXPECT_TRUE(data.rows == 1 || data.cols == 1) << data.size; EXPECT_EQ((size_t)29729, data.total()); cap >> data; EXPECT_EQ(CV_8UC1, data.type()) << "CV_8UC1 != " << typeToString(data.type()); EXPECT_TRUE(data.rows == 1 || data.cols == 1) << data.size; EXPECT_EQ((size_t)37118, data.total()); #ifndef WIN32 // 12 is the nearset key frame to frame 18 EXPECT_TRUE(cap.set(CAP_PROP_POS_FRAMES, 18.)); EXPECT_EQ(cap.get(CAP_PROP_POS_FRAMES), 12.); cap >> data; EXPECT_EQ(CV_8UC1, data.type()) << "CV_8UC1 != " << typeToString(data.type()); EXPECT_TRUE(data.rows == 1 || data.cols == 1) << data.size; EXPECT_EQ((size_t)8726, data.total()); #endif } TEST(videoio_ffmpeg, ffmpeg_check_extra_data) { if (!videoio_registry::hasBackend(CAP_FFMPEG)) throw SkipTestException("FFmpeg backend was not found"); string video_file = findDataFile("video/big_buck_bunny.mp4"); VideoCapture cap; EXPECT_NO_THROW(cap.open(video_file, CAP_FFMPEG)); ASSERT_TRUE(cap.isOpened()) << "Can't open the video"; const int codecExtradataIdx = (int)cap.get(CAP_PROP_CODEC_EXTRADATA_INDEX); Mat data; ASSERT_TRUE(cap.retrieve(data, codecExtradataIdx)); EXPECT_EQ(CV_8UC1, data.type()) << "CV_8UC1 != " << typeToString(data.type()); EXPECT_TRUE(data.rows == 1 || data.cols == 1) << data.size; EXPECT_EQ((size_t)45, data.total()); } TEST(videoio_ffmpeg, open_with_property) { if (!videoio_registry::hasBackend(CAP_FFMPEG)) throw SkipTestException("FFmpeg backend was not found"); string video_file = findDataFile("video/big_buck_bunny.mp4"); VideoCapture cap; EXPECT_NO_THROW(cap.open(video_file, CAP_FFMPEG, { CAP_PROP_FORMAT, -1 // demux only })); // confirm properties are returned without initializing AVCodecContext EXPECT_EQ(cap.get(CAP_PROP_FORMAT), -1); EXPECT_EQ(static_cast(cap.get(CAP_PROP_FOURCC)), fourccFromString("FMP4")); #ifndef WIN32 EXPECT_EQ(cap.get(CAP_PROP_N_THREADS), 0.0); #endif EXPECT_EQ(cap.get(CAP_PROP_FRAME_HEIGHT), 384.0); EXPECT_EQ(cap.get(CAP_PROP_FRAME_WIDTH), 672.0); EXPECT_EQ(cap.get(CAP_PROP_FRAME_COUNT), 125); EXPECT_EQ(cap.get(CAP_PROP_FPS), 24.0); ffmpeg_check_read_raw(cap); } TEST(videoio_ffmpeg, create_with_property) { if (!videoio_registry::hasBackend(CAP_FFMPEG)) throw SkipTestException("FFmpeg backend was not found"); string video_file = findDataFile("video/big_buck_bunny.mp4"); VideoCapture cap(video_file, CAP_FFMPEG, { CAP_PROP_FORMAT, -1 // demux only }); // confirm properties are returned without initializing AVCodecContext EXPECT_TRUE(cap.get(CAP_PROP_FORMAT) == -1); EXPECT_EQ(static_cast(cap.get(CAP_PROP_FOURCC)), fourccFromString("FMP4")); #ifndef WIN32 EXPECT_EQ(cap.get(CAP_PROP_N_THREADS), 0.0); #endif EXPECT_EQ(cap.get(CAP_PROP_FRAME_HEIGHT), 384.0); EXPECT_EQ(cap.get(CAP_PROP_FRAME_WIDTH), 672.0); EXPECT_EQ(cap.get(CAP_PROP_FRAME_COUNT), 125); EXPECT_EQ(cap.get(CAP_PROP_FPS), 24.0); ffmpeg_check_read_raw(cap); } TEST(videoio_ffmpeg, create_with_property_badarg) { if (!videoio_registry::hasBackend(CAP_FFMPEG)) throw SkipTestException("FFmpeg backend was not found"); string video_file = findDataFile("video/big_buck_bunny.mp4"); VideoCapture cap(video_file, CAP_FFMPEG, { CAP_PROP_FORMAT, -2 // invalid }); EXPECT_FALSE(cap.isOpened()); } // related issue: https://github.com/opencv/opencv/issues/16821 TEST(videoio_ffmpeg, DISABLED_open_from_web) { if (!videoio_registry::hasBackend(CAP_FFMPEG)) throw SkipTestException("FFmpeg backend was not found"); string video_file = "http://commondatastorage.googleapis.com/gtv-videos-bucket/sample/BigBuckBunny.mp4"; VideoCapture cap(video_file, CAP_FFMPEG); int n_frames = -1; EXPECT_NO_THROW(n_frames = (int)cap.get(CAP_PROP_FRAME_COUNT)); EXPECT_EQ((int)14315, n_frames); } typedef tuple FourCC_Ext_Color_Support; typedef testing::TestWithParam< FourCC_Ext_Color_Support > videoio_ffmpeg_16bit; TEST_P(videoio_ffmpeg_16bit, basic) { if (!videoio_registry::hasBackend(CAP_FFMPEG)) throw SkipTestException("FFmpeg backend was not found"); const int fourcc = fourccFromString(get<0>(GetParam())); const string ext = string(".") + get<1>(GetParam()); const bool isColor = get<2>(GetParam()); const bool isSupported = get<3>(GetParam()); const int cn = isColor ? 3 : 1; const int dataType = CV_16UC(cn); const string filename = tempfile(ext.c_str()); const Size sz(640, 480); const double fps = 30.0; const double time_sec = 1; const int numFrames = static_cast(fps * time_sec); { VideoWriter writer; writer.open(filename, CAP_FFMPEG, fourcc, fps, sz, { VIDEOWRITER_PROP_DEPTH, CV_16U, VIDEOWRITER_PROP_IS_COLOR, isColor }); ASSERT_EQ(isSupported, writer.isOpened()); if (isSupported) { Mat img(sz, dataType, Scalar::all(0)); const int coeff = cvRound(min(sz.width, sz.height)/(fps * time_sec)); for (int i = 0 ; i < numFrames; i++ ) { rectangle(img, Point2i(coeff * i, coeff * i), Point2i(coeff * (i + 1), coeff * (i + 1)), Scalar::all(255 * (1.0 - static_cast(i) / (fps * time_sec * 2))), -1); writer << img; } writer.release(); EXPECT_GT(getFileSize(filename), 8192); } } if (isSupported) { VideoCapture cap; ASSERT_TRUE(cap.open(filename, CAP_FFMPEG, {CAP_PROP_CONVERT_RGB, false})); ASSERT_TRUE(cap.isOpened()); Mat img; bool res = true; int numRead = 0; while(res) { res = cap.read(img); if (res) { ++numRead; ASSERT_EQ(img.type(), dataType); ASSERT_EQ(img.size(), sz); } } ASSERT_EQ(numRead, numFrames); remove(filename.c_str()); } } const FourCC_Ext_Color_Support sixteen_bit_modes[] = { // 16-bit grayscale is supported make_tuple("FFV1", "avi", false, true), make_tuple("FFV1", "mkv", false, true), // 16-bit color formats are NOT supported make_tuple("FFV1", "avi", true, false), make_tuple("FFV1", "mkv", true, false), }; INSTANTIATE_TEST_CASE_P(/**/, videoio_ffmpeg_16bit, testing::ValuesIn(sixteen_bit_modes)); }} // namespace