// 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. // // Copyright (C) 2019 Intel Corporation #ifndef OPENCV_GAPI_STREAMING_CAP_HPP #define OPENCV_GAPI_STREAMING_CAP_HPP /** * YOUR ATTENTION PLEASE! * * This is a header-only implementation of cv::VideoCapture-based * Stream source. It is not built by default with G-API as G-API * doesn't depend on videoio module. * * If you want to use it in your application, please make sure * videioio is available in your OpenCV package and is linked to your * application. * * Note for developers: please don't put videoio dependency in G-API * because of this file. */ #include #include #include #include namespace cv { namespace gapi { namespace wip { /** * @brief OpenCV's VideoCapture-based streaming source. * * This class implements IStreamSource interface. * Its constructor takes the same parameters as cv::VideoCapture does. * * Please make sure that videoio OpenCV module is available before using * this in your application (G-API doesn't depend on it directly). * * @note stream sources are passed to G-API via shared pointers, so * please gapi::make_src<> to create objects and ptr() to pass a * GCaptureSource to cv::gin(). */ class GCaptureSource: public IStreamSource { public: explicit GCaptureSource(int id) : cap(id) { prep(); } explicit GCaptureSource(const std::string &path) : cap(path) { prep(); } // TODO: Add more constructor overloads to make it // fully compatible with VideoCapture's interface. protected: cv::VideoCapture cap; cv::Mat first; bool first_pulled = false; int64_t counter = 0; void prep() { // Prepare first frame to report its meta to engine // when needed GAPI_Assert(first.empty()); cv::Mat tmp; if (!cap.read(tmp)) { GAPI_Assert(false && "Couldn't grab the very first frame"); } // NOTE: Some decode/media VideoCapture backends continue // owning the video buffer under cv::Mat so in order to // process it safely in a highly concurrent pipeline, clone() // is the only right way. first = tmp.clone(); } virtual bool pull(cv::gapi::wip::Data &data) override { if (!first_pulled) { GAPI_Assert(!first.empty()); first_pulled = true; data = first; // no need to clone here since it was cloned already } else { if (!cap.isOpened()) return false; cv::Mat frame; if (!cap.read(frame)) { // end-of-stream happened return false; } // Same reason to clone as in prep() data = frame.clone(); } // Tag data with seq_id/ts const auto now = std::chrono::system_clock::now(); const auto dur = std::chrono::duration_cast (now.time_since_epoch()); data.meta[cv::gapi::streaming::meta_tag::timestamp] = int64_t{dur.count()}; data.meta[cv::gapi::streaming::meta_tag::seq_id] = int64_t{counter++}; return true; } virtual GMetaArg descr_of() const override { GAPI_Assert(!first.empty()); return cv::GMetaArg{cv::descr_of(first)}; } }; // NB: Overload for using from python GAPI_EXPORTS_W cv::Ptr inline make_capture_src(const std::string& path) { return make_src(path); } // NB: Overload for using from python GAPI_EXPORTS_W cv::Ptr inline make_capture_src(const int id) { return make_src(id); } } // namespace wip } // namespace gapi } // namespace cv #endif // OPENCV_GAPI_STREAMING_CAP_HPP