// 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) 2020 Intel Corporation
#ifndef OPENCV_GAPI_MEDIA_HPP
#define OPENCV_GAPI_MEDIA_HPP
#include <memory> // unique_ptr<>, shared_ptr<>
#include <array> // array<>
#include <functional> // function<>
#include <utility> // forward<>()
#include <opencv2/gapi/gframe.hpp>
#include <opencv2/gapi/util/any.hpp>
// Forward declaration
namespace cv {
namespace gapi {
namespace s11n {
struct IOStream;
struct IIStream;
} // namespace s11n
} // namespace gapi
} // namespace cv
namespace cv {
/** \addtogroup gapi_data_structures
* @{
*
* @brief Extra G-API data structures used to pass input/output data
* to the graph for processing.
*/
/**
* @brief cv::MediaFrame class represents an image/media frame
* obtained from an external source.
*
* cv::MediaFrame represents image data as specified in
* cv::MediaFormat. cv::MediaFrame is designed to be a thin wrapper over some
* external memory of buffer; the class itself provides an uniform
* interface over such types of memory. cv::MediaFrame wraps data from
* a camera driver or from a media codec and provides an abstraction
* layer over this memory to G-API. MediaFrame defines a compact interface
* to access and manage the underlying data; the implementation is
* fully defined by the associated Adapter (which is usually
* user-defined).
*
* @sa cv::RMat
*/
class GAPI_EXPORTS MediaFrame {
public:
/// This enum defines different types of cv::MediaFrame provided
/// access to the underlying data. Note that different flags can't
/// be combined in this version.
enum class Access {
R, ///< Access data for reading
W, ///< Access data for writing
};
class IAdapter;
class View;
using AdapterPtr = std::unique_ptr<IAdapter>;
/**
* @brief Constructs an empty MediaFrame
*
* The constructed object has no any data associated with it.
*/
MediaFrame();
/**
* @brief Constructs a MediaFrame with the given
* Adapter. MediaFrame takes ownership over the passed adapter.
*
* @param p an unique pointer to instance of IAdapter derived class.
*/
explicit MediaFrame(AdapterPtr &&p);
/**
* @overload
* @brief Constructs a MediaFrame with the given parameters for
* the Adapter. The adapter of type `T` is costructed on the fly.
*
* @param args list of arguments to construct an adapter of type
* `T`.
*/
template<class T, class... Args> static cv::MediaFrame Create(Args&&... args);
/**
* @brief Obtain access to the underlying data with the given
* mode.
*
* Depending on the associated Adapter and the data wrapped, this
* method may be cheap (e.g., the underlying memory is local) or
* costly (if the underlying memory is external or device
* memory).
*
* @param mode an access mode flag
* @return a MediaFrame::View object. The views should be handled
* carefully, refer to the MediaFrame::View documentation for details.
*/
View access(Access mode) const;
/**
* @brief Returns a media frame descriptor -- the information
* about the media format, dimensions, etc.
* @return a cv::GFrameDesc
*/
cv::GFrameDesc desc() const;
// FIXME: design a better solution
// Should be used only if the actual adapter provides implementation
/// @private -- exclude from the OpenCV documentation for now.
cv::util::any blobParams() const;
/**
* @brief Casts and returns the associated MediaFrame adapter to
* the particular adapter type `T`, returns nullptr if the type is
* different.
*
* This method may be useful if the adapter type is known by the
* caller, and some lower level access to the memory is required.
* Depending on the memory type, it may be more efficient than
* access().
*
* @return a pointer to the adapter object, nullptr if the adapter
* type is different.
*/
template<typename T> T* get() const {
static_assert(std::is_base_of<IAdapter, T>::value,
"T is not derived from cv::MediaFrame::IAdapter!");
auto* adapter = getAdapter();
GAPI_Assert(adapter != nullptr);
return dynamic_cast<T*>(adapter);
}
/**
* @brief Serialize MediaFrame's data to a byte array.
*
* @note The actual logic is implemented by frame's adapter class.
* Does nothing by default.
*
* @param os Bytestream to store serialized MediaFrame data in.
*/
void serialize(cv::gapi::s11n::IOStream& os) const;
private:
struct Priv;
std::shared_ptr<Priv> m;
IAdapter* getAdapter() const;
};
template<class T, class... Args>
inline cv::MediaFrame cv::MediaFrame::Create(Args&&... args) {
std::unique_ptr<T> ptr(new T(std::forward<Args>(args)...));
return cv::MediaFrame(std::move(ptr));
}
/**
* @brief Provides access to the MediaFrame's underlying data.
*
* This object contains the necessary information to access the pixel
* data of the associated MediaFrame: arrays of pointers and strides
* (distance between every plane row, in bytes) for every image
* plane, as defined in cv::MediaFormat.
* There may be up to four image planes in MediaFrame.
*
* Depending on the MediaFrame::Access flag passed in
* MediaFrame::access(), a MediaFrame::View may be read- or
* write-only.
*
* Depending on the MediaFrame::IAdapter implementation associated
* with the parent MediaFrame, writing to memory with
* MediaFrame::Access::R flag may have no effect or lead to
* undefined behavior. Same applies to reading the memory with
* MediaFrame::Access::W flag -- again, depending on the IAdapter
* implementation, the host-side buffer the view provides access to
* may have no current data stored in (so in-place editing of the
* buffer contents may not be possible).
*
* MediaFrame::View objects must be handled carefully, as an external
* resource associated with MediaFrame may be locked for the time the
* MediaFrame::View object exists. Obtaining MediaFrame::View should
* be seen as "map" and destroying it as "unmap" in the "map/unmap"
* idiom (applicable to OpenCL, device memory, remote
* memory).
*
* When a MediaFrame buffer is accessed for writing, and the memory
* under MediaFrame::View::Ptrs is altered, the data synchronization
* of a host-side and device/remote buffer is not guaranteed until the
* MediaFrame::View is destroyed. In other words, the real data on the
* device or in a remote target may be updated at the MediaFrame::View
* destruction only -- but it depends on the associated
* MediaFrame::IAdapter implementation.
*/
class GAPI_EXPORTS MediaFrame::View final {
public:
static constexpr const size_t MAX_PLANES = 4;
using Ptrs = std::array<void*, MAX_PLANES>;
using Strides = std::array<std::size_t, MAX_PLANES>; // in bytes
using Callback = std::function<void()>;
/// @private
View(Ptrs&& ptrs, Strides&& strs, Callback &&cb = [](){});
/// @private
View(const View&) = delete;
/// @private
View(View&&) = default;
/// @private
View& operator = (const View&) = delete;
~View();
Ptrs ptr; ///< Array of image plane pointers
Strides stride; ///< Array of image plane strides, in bytes.
private:
Callback m_cb;
};
/**
* @brief An interface class for MediaFrame data adapters.
*
* Implement this interface to wrap media data in the MediaFrame. It
* makes sense to implement this class if there is a custom
* cv::gapi::wip::IStreamSource defined -- in this case, a stream
* source can produce MediaFrame objects with this adapter and the
* media data may be passed to graph without any copy. For example, a
* GStreamer-based stream source can implement an adapter over
* `GstBuffer` and G-API will transparently use it in the graph.
*/
class GAPI_EXPORTS MediaFrame::IAdapter {
public:
virtual ~IAdapter() = 0;
virtual cv::GFrameDesc meta() const = 0;
virtual MediaFrame::View access(MediaFrame::Access) = 0;
// FIXME: design a better solution
// The default implementation does nothing
virtual cv::util::any blobParams() const;
virtual void serialize(cv::gapi::s11n::IOStream&) {
GAPI_Error("Generic serialize method of MediaFrame::IAdapter does nothing by default. "
"Please, implement it in derived class to properly serialize the object.");
}
virtual void deserialize(cv::gapi::s11n::IIStream&) {
GAPI_Error("Generic deserialize method of MediaFrame::IAdapter does nothing by default. "
"Please, implement it in derived class to properly deserialize the object.");
}
};
/** @} */
} //namespace cv
#endif // OPENCV_GAPI_MEDIA_HPP
