ffmpeg (v6.0/v7.x), gensim, numpy, opencv

be94e5d verified 10 months ago

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	// 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) 2018 Intel Corporation


	#ifndef OPENCV_GAPI_GPROTO_HPP
	#define OPENCV_GAPI_GPROTO_HPP

	#include <type_traits>
	#include <vector>
	#include <ostream>

	#include <opencv2/gapi/util/variant.hpp>

	#include <opencv2/gapi/gmat.hpp>
	#include <opencv2/gapi/gscalar.hpp>
	#include <opencv2/gapi/garray.hpp>
	#include <opencv2/gapi/gopaque.hpp>
	#include <opencv2/gapi/garg.hpp>
	#include <opencv2/gapi/gmetaarg.hpp>

	namespace cv {

	// FIXME: user shouldn't deal with it - put to detail?
	// GProtoArg is an union type over G-types which can serve as
	// GComputation's in/output slots. In other words, GProtoArg
	// wraps any type which can serve as G-API exchange type.
	//
	// In Runtime, GProtoArgs are substituted with appropriate GRunArgs.
	//
	// GProtoArg objects are constructed in-place when user describes
	// (captures) computations, user doesn't interact with these types
	// directly.
	using GProtoArg = util::variant
	< GMat
	, GMatP
	, GFrame
	, GScalar
	, detail::GArrayU // instead of GArray<T>
	, detail::GOpaqueU // instead of GOpaque<T>
	>;

	using GProtoArgs = std::vector<GProtoArg>;

	namespace detail
	{
	template<typename... Ts> inline GProtoArgs packArgs(Ts... args)
	{
	return GProtoArgs{ GProtoArg(wrap_gapi_helper<Ts>::wrap(args))... };
	}

	}

	template<class Tag>
	struct GIOProtoArgs
	{
	public:
	// NB: Used by python wrapper
	GIOProtoArgs() = default;
	explicit GIOProtoArgs(const GProtoArgs& args) : m_args(args) {}
	explicit GIOProtoArgs(GProtoArgs &&args) : m_args(std::move(args)) {}

	GProtoArgs m_args;

	// TODO: Think about the addition operator
	/**
	* @brief This operator allows to complement the proto vectors at runtime.
	*
	* It's an ordinary overload of addition assignment operator.
	*
	* Example of usage:
	* @snippet samples/cpp/tutorial_code/gapi/doc_snippets/dynamic_graph_snippets.cpp GIOProtoArgs usage
	*
	*/
	template<typename Tg>
	friend GIOProtoArgs<Tg>& operator += (GIOProtoArgs<Tg> &lhs, const GIOProtoArgs<Tg> &rhs);
	};

	template<typename Tg>
	cv::GIOProtoArgs<Tg>& operator += (cv::GIOProtoArgs<Tg> &lhs, const cv::GIOProtoArgs<Tg> &rhs)
	{
	lhs.m_args.reserve(lhs.m_args.size() + rhs.m_args.size());
	lhs.m_args.insert(lhs.m_args.end(), rhs.m_args.begin(), rhs.m_args.end());
	return lhs;
	}

	struct In_Tag{};
	struct Out_Tag{};

	using GProtoInputArgs = GIOProtoArgs<In_Tag>;
	using GProtoOutputArgs = GIOProtoArgs<Out_Tag>;

	// Perfect forwarding
	template<typename... Ts> inline GProtoInputArgs GIn(Ts&&... ts)
	{
	return GProtoInputArgs(detail::packArgs(std::forward<Ts>(ts)...));
	}

	template<typename... Ts> inline GProtoOutputArgs GOut(Ts&&... ts)
	{
	return GProtoOutputArgs(detail::packArgs(std::forward<Ts>(ts)...));
	}

	namespace detail
	{
	// Extract elements form tuple
	// FIXME: Someday utilize a generic tuple_to_vec<> routine
	template<typename... Ts, int... Indexes>
	static GProtoOutputArgs getGOut_impl(const std::tuple<Ts...>& ts, detail::Seq<Indexes...>)
	{
	return GProtoOutputArgs{ detail::packArgs(std::get<Indexes>(ts)...)};
	}
	}

	template<typename... Ts> inline GProtoOutputArgs GOut(const std::tuple<Ts...>& ts)
	{
	// TODO: think of std::forward(ts)
	return detail::getGOut_impl(ts, typename detail::MkSeq<sizeof...(Ts)>::type());
	}

	// Takes rvalue as input arg
	template<typename... Ts> inline GProtoOutputArgs GOut(std::tuple<Ts...>&& ts)
	{
	// TODO: think of std::forward(ts)
	return detail::getGOut_impl(ts, typename detail::MkSeq<sizeof...(Ts)>::type());
	}

	// Extract run-time arguments from node origin
	// Can be used to extract constant values associated with G-objects
	// (like GScalar) at graph construction time
	GRunArg value_of(const GOrigin &origin);

	// Transform run-time computation arguments into a collection of metadata
	// extracted from that arguments
	GMetaArg GAPI_EXPORTS descr_of(const GRunArg &arg );
	GMetaArgs GAPI_EXPORTS descr_of(const GRunArgs &args);

	// Transform run-time operation result argument into metadata extracted from that argument
	// Used to compare the metadata, which generated at compile time with the metadata result operation in run time
	GMetaArg GAPI_EXPORTS descr_of(const GRunArgP& argp);

	// Checks if run-time computation argument can be described by metadata
	bool GAPI_EXPORTS can_describe(const GMetaArg& meta, const GRunArg& arg);
	bool GAPI_EXPORTS can_describe(const GMetaArgs& metas, const GRunArgs& args);

	// Checks if run-time computation result argument can be described by metadata.
	// Used to check if the metadata generated at compile time
	// coincides with output arguments passed to computation in cpu and ocl backends
	bool GAPI_EXPORTS can_describe(const GMetaArg& meta, const GRunArgP& argp);

	// Validates input arguments
	void GAPI_EXPORTS validate_input_arg(const GRunArg& arg);
	void GAPI_EXPORTS validate_input_args(const GRunArgs& args);

	} // namespace cv

	#endif // OPENCV_GAPI_GPROTO_HPP