/** * @file * @brief Unit tests for openshot::Frame * @author Jonathan Thomas * @author FeRD (Frank Dana) * * @ref License */ // Copyright (c) 2008-2019 OpenShot Studios, LLC // // SPDX-License-Identifier: LGPL-3.0-or-later #include #include #include #include #include #ifdef USE_OPENCV #define int64 opencv_broken_int #define uint64 opencv_broken_uint #include #undef int64 #undef uint64 #endif #include "openshot_catch.h" #include "Clip.h" #include "Fraction.h" #include "Frame.h" using namespace openshot; namespace { std::shared_ptr make_vertical_stripe_frame() { auto frame = std::make_shared(1, 100, 300, "#000000"); auto image = std::make_shared(100, 300, QImage::Format_RGBA8888); for (int y = 0; y < image->height(); ++y) { QColor color = Qt::red; if (y >= 100 && y < 200) color = Qt::green; else if (y >= 200) color = Qt::blue; for (int x = 0; x < image->width(); ++x) image->setPixelColor(x, y, color); } frame->AddImage(image); return frame; } QImage write_thumbnail( const std::shared_ptr& frame, const std::string& path, bool ignore_aspect, ScaleType scale_mode = SCALE_FIT) { frame->Thumbnail(path, 98, 64, "", "", "#000000", ignore_aspect, "PNG", 100, 0.0f, scale_mode); QImage result(QString::fromStdString(path)); std::remove(path.c_str()); return result; } void check_thumbnail_dimensions(const QImage& image) { REQUIRE_FALSE(image.isNull()); CHECK(image.width() == 98); CHECK(image.height() == 64); } } TEST_CASE( "Default_Constructor", "[libopenshot][frame]" ) { // Create a "blank" default Frame std::shared_ptr f1(new Frame()); REQUIRE(f1 != nullptr); // Test aborts here if we didn't get a Frame // Check basic default parameters CHECK(f1->GetHeight() == 1); CHECK(f1->GetWidth() == 1); CHECK(f1->SampleRate() == 44100); CHECK(f1->GetAudioChannelsCount() == 2); // Should be false until we load or create contents CHECK(f1->has_image_data == false); CHECK(f1->has_audio_data == false); // Calling GetImage() paints a blank frame, by default std::shared_ptr i1 = f1->GetImage(); REQUIRE(i1 != nullptr); CHECK(f1->has_image_data == true); CHECK(f1->has_audio_data == false); } TEST_CASE( "Data_Access", "[libopenshot][frame]" ) { // Create a video clip std::stringstream path; path << TEST_MEDIA_PATH << "sintel_trailer-720p.mp4"; Clip c1(path.str()); c1.Open(); // Get first frame std::shared_ptr f1 = c1.GetFrame(1); REQUIRE(f1 != nullptr); CHECK(f1->number == 1); CHECK(f1->GetWidth() == 1280); CHECK(f1->GetHeight() == 720); } TEST_CASE( "AddImage_QImage", "[libopenshot][frame]" ) { // Create a "blank" default Frame std::shared_ptr f1(new Frame()); // Load an image std::stringstream path; path << TEST_MEDIA_PATH << "front.png"; auto i1 = std::make_shared(QString::fromStdString(path.str())); REQUIRE(f1 != nullptr); // Test aborts here if we didn't get a Frame CHECK(i1->isNull() == false); f1->AddImage(i1); // Check loaded image parameters CHECK(f1->GetHeight() == i1->height()); CHECK(f1->GetWidth() == i1->width()); CHECK(f1->has_image_data == true); } TEST_CASE( "Copy_Constructor", "[libopenshot][frame]" ) { // Create a dummy Frame openshot::Frame f1(1, 800, 600, "#000000"); // Load an image std::stringstream path; path << TEST_MEDIA_PATH << "front.png"; auto i1 = std::make_shared(QString::fromStdString(path.str())); CHECK(i1->isNull() == false); // Add image to f1, then copy f1 to f2 f1.AddImage(i1); Frame f2 = f1; CHECK(f1.GetHeight() == f2.GetHeight()); CHECK(f1.GetWidth() == f2.GetWidth()); CHECK(f1.has_image_data == f2.has_image_data); CHECK(f1.has_audio_data == f2.has_audio_data); Fraction par1 = f1.GetPixelRatio(); Fraction par2 = f2.GetPixelRatio(); CHECK(par1.num == par2.num); CHECK(par1.den == par2.den); CHECK(f1.SampleRate() == f2.SampleRate()); CHECK(f1.GetAudioChannelsCount() == f2.GetAudioChannelsCount()); CHECK(f1.ChannelsLayout() == f2.ChannelsLayout()); CHECK(f1.GetBytes() == f2.GetBytes()); CHECK(f1.GetAudioSamplesCount() == f2.GetAudioSamplesCount()); } TEST_CASE( "GetSamplesPerFrame invalid rate inputs", "[libopenshot][frame]" ) { CHECK(Frame::GetSamplesPerFrame(/*frame_number=*/1, Fraction(0, 1), /*sample_rate=*/44100, /*channels=*/2) == 0); CHECK(Frame::GetSamplesPerFrame(/*frame_number=*/1, Fraction(30, 0), /*sample_rate=*/44100, /*channels=*/2) == 0); CHECK(Frame::GetSamplesPerFrame(/*frame_number=*/1, Fraction(30, 1), /*sample_rate=*/0, /*channels=*/2) == 0); CHECK(Frame::GetSamplesPerFrame(/*frame_number=*/1, Fraction(30, 1), /*sample_rate=*/44100, /*channels=*/0) == 0); } TEST_CASE( "Thumbnail preserves legacy fit behavior without scale mode", "[libopenshot][frame][thumbnail]" ) { std::stringstream thumb_path; thumb_path << TEST_MEDIA_PATH << "thumbnail-fit-default-test.png"; auto result = write_thumbnail(make_vertical_stripe_frame(), thumb_path.str(), false); check_thumbnail_dimensions(result); QColor left = result.pixelColor(0, result.height() / 2); QColor center = result.pixelColor(result.width() / 2, result.height() / 2); QColor right = result.pixelColor(result.width() - 1, result.height() / 2); CHECK(left == QColor(Qt::black)); CHECK(center == QColor(Qt::green)); CHECK(right == QColor(Qt::black)); } TEST_CASE( "Thumbnail explicit fit scale mode matches legacy behavior", "[libopenshot][frame][thumbnail]" ) { std::stringstream thumb_path; thumb_path << TEST_MEDIA_PATH << "thumbnail-fit-explicit-test.png"; auto result = write_thumbnail(make_vertical_stripe_frame(), thumb_path.str(), false, SCALE_FIT); check_thumbnail_dimensions(result); QColor left = result.pixelColor(0, result.height() / 2); QColor center = result.pixelColor(result.width() / 2, result.height() / 2); QColor right = result.pixelColor(result.width() - 1, result.height() / 2); CHECK(left == QColor(Qt::black)); CHECK(center == QColor(Qt::green)); CHECK(right == QColor(Qt::black)); } TEST_CASE( "Thumbnail scale mode supports crop", "[libopenshot][frame][thumbnail]" ) { std::stringstream thumb_path; thumb_path << TEST_MEDIA_PATH << "thumbnail-crop-test.png"; auto result = write_thumbnail(make_vertical_stripe_frame(), thumb_path.str(), false, SCALE_CROP); check_thumbnail_dimensions(result); QColor left = result.pixelColor(0, result.height() / 2); QColor center = result.pixelColor(result.width() / 2, result.height() / 2); QColor right = result.pixelColor(result.width() - 1, result.height() / 2); CHECK(left == QColor(Qt::green)); CHECK(center == QColor(Qt::green)); CHECK(right == QColor(Qt::green)); } #ifdef USE_OPENCV TEST_CASE( "Convert_Image", "[libopenshot][opencv][frame]" ) { // Create a video clip std::stringstream path; path << TEST_MEDIA_PATH << "sintel_trailer-720p.mp4"; Clip c1(path.str()); c1.Open(); // Get first frame auto f1 = c1.GetFrame(1); // Get first Mat image cv::Mat cvimage = f1->GetImageCV(); CHECK_FALSE(cvimage.empty()); CHECK(f1->number == 1); CHECK(f1->GetWidth() == cvimage.cols); CHECK(f1->GetHeight() == cvimage.rows); CHECK(cvimage.channels() == 3); } #endif