// 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 "precomp.hpp" #include "videoio_registry.hpp" #include "opencv2/videoio/registry.hpp" #include "cap_librealsense.hpp" #include "cap_dshow.hpp" #ifdef HAVE_MFX #include "cap_mfx_reader.hpp" #include "cap_mfx_writer.hpp" #endif #include "plugin_api.hpp" // All WinRT versions older than 8.0 should provide classes used for video support #if defined(WINRT) && !defined(WINRT_8_0) && defined(__cplusplus_winrt) # include "cap_winrt_capture.hpp" # include "cap_winrt_bridge.hpp" # define WINRT_VIDEO #endif #if defined _M_X64 && defined _MSC_VER && !defined CV_ICC #pragma optimize("",off) #pragma warning(disable: 4748) #endif using namespace cv; namespace cv { namespace { #define DECLARE_DYNAMIC_BACKEND(cap, name, mode) \ { \ cap, (BackendMode)(mode), 1000, name, createPluginBackendFactory(cap, name) \ } #define DECLARE_STATIC_BACKEND(cap, name, mode, createCaptureFile, createCaptureCamera, createWriter) \ { \ cap, (BackendMode)(mode), 1000, name, createBackendFactory(createCaptureFile, createCaptureCamera, createWriter) \ } /** Ordering guidelines: - modern optimized, multi-platform libraries: ffmpeg, gstreamer, Media SDK - platform specific universal SDK: WINRT, AVFOUNDATION, MSMF/DSHOW, V4L/V4L2 - RGB-D: OpenNI/OpenNI2, REALSENSE - special OpenCV (file-based): "images", "mjpeg" - special camera SDKs, including stereo: other special SDKs: FIREWIRE/1394, XIMEA/ARAVIS/GIGANETIX/PVAPI(GigE) - other: XINE, gphoto2, etc */ static const struct VideoBackendInfo builtin_backends[] = { #ifdef HAVE_FFMPEG DECLARE_STATIC_BACKEND(CAP_FFMPEG, "FFMPEG", MODE_CAPTURE_BY_FILENAME | MODE_WRITER, cvCreateFileCapture_FFMPEG_proxy, 0, cvCreateVideoWriter_FFMPEG_proxy), #elif defined(ENABLE_PLUGINS) DECLARE_DYNAMIC_BACKEND(CAP_FFMPEG, "FFMPEG", MODE_CAPTURE_BY_FILENAME | MODE_WRITER), #endif #ifdef HAVE_GSTREAMER DECLARE_STATIC_BACKEND(CAP_GSTREAMER, "GSTREAMER", MODE_CAPTURE_ALL | MODE_WRITER, createGStreamerCapture_file, createGStreamerCapture_cam, create_GStreamer_writer), #elif defined(ENABLE_PLUGINS) DECLARE_DYNAMIC_BACKEND(CAP_GSTREAMER, "GSTREAMER", MODE_CAPTURE_ALL | MODE_WRITER), #endif #ifdef HAVE_MFX // Media SDK DECLARE_STATIC_BACKEND(CAP_INTEL_MFX, "INTEL_MFX", MODE_CAPTURE_BY_FILENAME | MODE_WRITER, create_MFX_capture, 0, create_MFX_writer), #endif // Apple platform #ifdef HAVE_AVFOUNDATION DECLARE_STATIC_BACKEND(CAP_AVFOUNDATION, "AVFOUNDATION", MODE_CAPTURE_ALL | MODE_WRITER, create_AVFoundation_capture_file, create_AVFoundation_capture_cam, create_AVFoundation_writer), #endif // Windows #ifdef WINRT_VIDEO DECLARE_STATIC_BACKEND(CAP_WINRT, "WINRT", MODE_CAPTURE_BY_INDEX, 0, create_WRT_capture, 0), #endif #ifdef HAVE_MSMF DECLARE_STATIC_BACKEND(CAP_MSMF, "MSMF", MODE_CAPTURE_ALL | MODE_WRITER, cvCreateCapture_MSMF, cvCreateCapture_MSMF, cvCreateVideoWriter_MSMF), #endif #ifdef HAVE_DSHOW DECLARE_STATIC_BACKEND(CAP_DSHOW, "DSHOW", MODE_CAPTURE_BY_INDEX, 0, create_DShow_capture, 0), #endif // Linux, some Unix #if defined HAVE_CAMV4L2 DECLARE_STATIC_BACKEND(CAP_V4L2, "V4L2", MODE_CAPTURE_ALL, create_V4L_capture_file, create_V4L_capture_cam, 0), #elif defined HAVE_VIDEOIO DECLARE_STATIC_BACKEND(CAP_V4L, "V4L_BSD", MODE_CAPTURE_ALL, create_V4L_capture_file, create_V4L_capture_cam, 0), #endif // RGB-D universal #ifdef HAVE_OPENNI2 DECLARE_STATIC_BACKEND(CAP_OPENNI2, "OPENNI2", MODE_CAPTURE_ALL, create_OpenNI2_capture_file, create_OpenNI2_capture_cam, 0), #endif #ifdef HAVE_LIBREALSENSE DECLARE_STATIC_BACKEND(CAP_REALSENSE, "INTEL_REALSENSE", MODE_CAPTURE_BY_INDEX, 0, create_RealSense_capture, 0), #endif // OpenCV file-based only DECLARE_STATIC_BACKEND(CAP_IMAGES, "CV_IMAGES", MODE_CAPTURE_BY_FILENAME | MODE_WRITER, create_Images_capture, 0, create_Images_writer), DECLARE_STATIC_BACKEND(CAP_OPENCV_MJPEG, "CV_MJPEG", MODE_CAPTURE_BY_FILENAME | MODE_WRITER, createMotionJpegCapture, 0, createMotionJpegWriter), // special interfaces / stereo cameras / other SDKs #if defined(HAVE_DC1394_2) DECLARE_STATIC_BACKEND(CAP_FIREWIRE, "FIREWIRE", MODE_CAPTURE_BY_INDEX, 0, create_DC1394_capture, 0), #endif // GigE #ifdef HAVE_PVAPI DECLARE_STATIC_BACKEND(CAP_PVAPI, "PVAPI", MODE_CAPTURE_BY_INDEX, 0, create_PvAPI_capture, 0), #endif #ifdef HAVE_XIMEA DECLARE_STATIC_BACKEND(CAP_XIAPI, "XIMEA", MODE_CAPTURE_ALL, create_XIMEA_capture_file, create_XIMEA_capture_cam, 0), #endif #ifdef HAVE_ARAVIS_API DECLARE_STATIC_BACKEND(CAP_ARAVIS, "ARAVIS", MODE_CAPTURE_BY_INDEX, 0, create_Aravis_capture, 0), #endif #ifdef HAVE_GPHOTO2 DECLARE_STATIC_BACKEND(CAP_GPHOTO2, "GPHOTO2", MODE_CAPTURE_ALL, createGPhoto2Capture, createGPhoto2Capture, 0), #endif #ifdef HAVE_XINE DECLARE_STATIC_BACKEND(CAP_XINE, "XINE", MODE_CAPTURE_BY_FILENAME, createXINECapture, 0, 0), #endif #ifdef HAVE_ANDROID_MEDIANDK DECLARE_STATIC_BACKEND(CAP_ANDROID, "ANDROID_MEDIANDK", MODE_CAPTURE_BY_FILENAME, createAndroidCapture_file, 0, 0), #endif // dropped backends: MIL, TYZX }; bool sortByPriority(const VideoBackendInfo &lhs, const VideoBackendInfo &rhs) { return lhs.priority > rhs.priority; } /** @brief Manages list of enabled backends */ class VideoBackendRegistry { protected: std::vector enabledBackends; VideoBackendRegistry() { const int N = sizeof(builtin_backends)/sizeof(builtin_backends[0]); enabledBackends.assign(builtin_backends, builtin_backends + N); for (int i = 0; i < N; i++) { VideoBackendInfo& info = enabledBackends[i]; info.priority = 1000 - i * 10; } CV_LOG_DEBUG(NULL, "VIDEOIO: Builtin backends(" << N << "): " << dumpBackends()); if (readPrioritySettings()) { CV_LOG_INFO(NULL, "VIDEOIO: Updated backends priorities: " << dumpBackends()); } int enabled = 0; for (int i = 0; i < N; i++) { VideoBackendInfo& info = enabledBackends[enabled]; if (enabled != i) info = enabledBackends[i]; size_t param_priority = utils::getConfigurationParameterSizeT(cv::format("OPENCV_VIDEOIO_PRIORITY_%s", info.name).c_str(), (size_t)info.priority); CV_Assert(param_priority == (size_t)(int)param_priority); // overflow check if (param_priority > 0) { info.priority = (int)param_priority; enabled++; } else { CV_LOG_INFO(NULL, "VIDEOIO: Disable backend: " << info.name); } } enabledBackends.resize(enabled); CV_LOG_DEBUG(NULL, "VIDEOIO: Available backends(" << enabled << "): " << dumpBackends()); std::sort(enabledBackends.begin(), enabledBackends.end(), sortByPriority); CV_LOG_INFO(NULL, "VIDEOIO: Enabled backends(" << enabled << ", sorted by priority): " << dumpBackends()); } static std::vector tokenize_string(const std::string& input, char token) { std::vector result; std::string::size_type prev_pos = 0, pos = 0; while((pos = input.find(token, pos)) != std::string::npos) { result.push_back(input.substr(prev_pos, pos-prev_pos)); prev_pos = ++pos; } result.push_back(input.substr(prev_pos)); return result; } bool readPrioritySettings() { bool hasChanges = false; cv::String prioritized_backends = utils::getConfigurationParameterString("OPENCV_VIDEOIO_PRIORITY_LIST", NULL); if (prioritized_backends.empty()) return hasChanges; CV_LOG_INFO(NULL, "VIDEOIO: Configured priority list (OPENCV_VIDEOIO_PRIORITY_LIST): " << prioritized_backends); const std::vector names = tokenize_string(prioritized_backends, ','); for (size_t i = 0; i < names.size(); i++) { const std::string& name = names[i]; bool found = false; for (size_t k = 0; k < enabledBackends.size(); k++) { VideoBackendInfo& info = enabledBackends[k]; if (name == info.name) { info.priority = (int)(100000 + (names.size() - i) * 1000); CV_LOG_DEBUG(NULL, "VIDEOIO: New backend priority: '" << name << "' => " << info.priority); found = true; hasChanges = true; break; } } if (!found) { CV_LOG_WARNING(NULL, "VIDEOIO: Can't prioritize unknown/unavailable backend: '" << name << "'"); } } return hasChanges; } public: std::string dumpBackends() const { std::ostringstream os; for (size_t i = 0; i < enabledBackends.size(); i++) { if (i > 0) os << "; "; const VideoBackendInfo& info = enabledBackends[i]; os << info.name << '(' << info.priority << ')'; } return os.str(); } static VideoBackendRegistry& getInstance() { static VideoBackendRegistry g_instance; return g_instance; } inline std::vector getEnabledBackends() const { return enabledBackends; } inline std::vector getAvailableBackends_CaptureByIndex() const { std::vector result; for (size_t i = 0; i < enabledBackends.size(); i++) { const VideoBackendInfo& info = enabledBackends[i]; if (info.mode & MODE_CAPTURE_BY_INDEX) result.push_back(info); } return result; } inline std::vector getAvailableBackends_CaptureByFilename() const { std::vector result; for (size_t i = 0; i < enabledBackends.size(); i++) { const VideoBackendInfo& info = enabledBackends[i]; if (info.mode & MODE_CAPTURE_BY_FILENAME) result.push_back(info); } return result; } inline std::vector getAvailableBackends_Writer() const { std::vector result; for (size_t i = 0; i < enabledBackends.size(); i++) { const VideoBackendInfo& info = enabledBackends[i]; if (info.mode & MODE_WRITER) result.push_back(info); } return result; } }; } // namespace namespace videoio_registry { std::vector getAvailableBackends_CaptureByIndex() { const std::vector result = VideoBackendRegistry::getInstance().getAvailableBackends_CaptureByIndex(); return result; } std::vector getAvailableBackends_CaptureByFilename() { const std::vector result = VideoBackendRegistry::getInstance().getAvailableBackends_CaptureByFilename(); return result; } std::vector getAvailableBackends_Writer() { const std::vector result = VideoBackendRegistry::getInstance().getAvailableBackends_Writer(); return result; } cv::String getBackendName(VideoCaptureAPIs api) { if (api == CAP_ANY) return "CAP_ANY"; // special case, not a part of backends list const int N = sizeof(builtin_backends)/sizeof(builtin_backends[0]); for (size_t i = 0; i < N; i++) { const VideoBackendInfo& backend = builtin_backends[i]; if (backend.id == api) return backend.name; } return cv::format("UnknownVideoAPI(%d)", (int)api); } std::vector getBackends() { std::vector backends = VideoBackendRegistry::getInstance().getEnabledBackends(); std::vector result; for (size_t i = 0; i < backends.size(); i++) result.push_back((VideoCaptureAPIs)backends[i].id); return result; } std::vector getCameraBackends() { const std::vector backends = VideoBackendRegistry::getInstance().getAvailableBackends_CaptureByIndex(); std::vector result; for (size_t i = 0; i < backends.size(); i++) result.push_back((VideoCaptureAPIs)backends[i].id); return result; } std::vector getStreamBackends() { const std::vector backends = VideoBackendRegistry::getInstance().getAvailableBackends_CaptureByFilename(); std::vector result; for (size_t i = 0; i < backends.size(); i++) result.push_back((VideoCaptureAPIs)backends[i].id); return result; } std::vector getWriterBackends() { const std::vector backends = VideoBackendRegistry::getInstance().getAvailableBackends_Writer(); std::vector result; for (size_t i = 0; i < backends.size(); i++) result.push_back((VideoCaptureAPIs)backends[i].id); return result; } bool hasBackend(VideoCaptureAPIs api) { std::vector backends = VideoBackendRegistry::getInstance().getEnabledBackends(); for (size_t i = 0; i < backends.size(); i++) { const VideoBackendInfo& info = backends[i]; if (api == info.id) { CV_Assert(!info.backendFactory.empty()); return !info.backendFactory->getBackend().empty(); } } return false; } } // namespace registry } // namespace