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	/*M///////////////////////////////////////////////////////////////////////////////////////
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	// License Agreement
	// For Open Source Computer Vision Library
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	#ifndef OPENCV_DNN_DNN_SHAPE_UTILS_HPP
	#define OPENCV_DNN_DNN_SHAPE_UTILS_HPP

	#include <opencv2/dnn/dnn.hpp>
	#include <opencv2/core/types_c.h> // CV_MAX_DIM
	#include <iostream>
	#include <ostream>
	#include <sstream>

	namespace cv {
	namespace dnn {
	CV__DNN_EXPERIMENTAL_NS_BEGIN

	//Slicing

	struct _Range : public cv::Range
	{
	_Range(const Range &r) : cv::Range(r) {}
	_Range(int start_, int size_ = 1) : cv::Range(start_, start_ + size_) {}
	};

	static inline Mat slice(const Mat &m, const _Range &r0)
	{
	Range ranges[CV_MAX_DIM];
	for (int i = 1; i < m.dims; i++)
	ranges[i] = Range::all();
	ranges[0] = r0;
	return m(&ranges[0]);
	}

	static inline Mat slice(const Mat &m, const _Range &r0, const _Range &r1)
	{
	CV_Assert(m.dims >= 2);
	Range ranges[CV_MAX_DIM];
	for (int i = 2; i < m.dims; i++)
	ranges[i] = Range::all();
	ranges[0] = r0;
	ranges[1] = r1;
	return m(&ranges[0]);
	}

	static inline Mat slice(const Mat &m, const _Range &r0, const _Range &r1, const _Range &r2)
	{
	CV_Assert(m.dims >= 3);
	Range ranges[CV_MAX_DIM];
	for (int i = 3; i < m.dims; i++)
	ranges[i] = Range::all();
	ranges[0] = r0;
	ranges[1] = r1;
	ranges[2] = r2;
	return m(&ranges[0]);
	}

	static inline Mat slice(const Mat &m, const _Range &r0, const _Range &r1, const _Range &r2, const _Range &r3)
	{
	CV_Assert(m.dims >= 4);
	Range ranges[CV_MAX_DIM];
	for (int i = 4; i < m.dims; i++)
	ranges[i] = Range::all();
	ranges[0] = r0;
	ranges[1] = r1;
	ranges[2] = r2;
	ranges[3] = r3;
	return m(&ranges[0]);
	}

	static inline Mat getPlane(const Mat &m, int n, int cn)
	{
	CV_Assert(m.dims > 2);
	int sz[CV_MAX_DIM];
	for(int i = 2; i < m.dims; i++)
	{
	sz[i-2] = m.size.p[i];
	}
	return Mat(m.dims - 2, sz, m.type(), (void*)m.ptr<float>(n, cn));
	}

	static inline MatShape shape(const int* dims, const int n)
	{
	MatShape shape;
	shape.assign(dims, dims + n);
	return shape;
	}

	static inline MatShape shape(const Mat& mat)
	{
	return shape(mat.size.p, mat.dims);
	}

	static inline MatShape shape(const MatSize& sz)
	{
	return shape(sz.p, sz.dims());
	}

	static inline MatShape shape(const UMat& mat)
	{
	return shape(mat.size.p, mat.dims);
	}

	namespace {inline bool is_neg(int i) { return i < 0; }}

	static inline MatShape shape(int a0, int a1=-1, int a2=-1, int a3=-1)
	{
	int dims[] = {a0, a1, a2, a3};
	MatShape s = shape(dims, 4);
	s.erase(std::remove_if(s.begin(), s.end(), is_neg), s.end());
	return s;
	}

	static inline int total(const MatShape& shape, int start = -1, int end = -1)
	{
	if (start == -1) start = 0;
	if (end == -1) end = (int)shape.size();

	if (shape.empty())
	return 0;

	int elems = 1;
	CV_Assert(start <= (int)shape.size() && end <= (int)shape.size() &&
	start <= end);
	for(int i = start; i < end; i++)
	{
	elems *= shape[i];
	}
	return elems;
	}

	static inline MatShape concat(const MatShape& a, const MatShape& b)
	{
	MatShape c = a;
	c.insert(c.end(), b.begin(), b.end());

	return c;
	}

	static inline std::string toString(const MatShape& shape, const String& name = "")
	{
	std::ostringstream ss;
	if (!name.empty())
	ss << name << ' ';
	ss << '[';
	for(size_t i = 0, n = shape.size(); i < n; ++i)
	ss << ' ' << shape[i];
	ss << " ]";
	return ss.str();
	}
	static inline void print(const MatShape& shape, const String& name = "")
	{
	std::cout << toString(shape, name) << std::endl;
	}
	static inline std::ostream& operator<<(std::ostream &out, const MatShape& shape)
	{
	out << toString(shape);
	return out;
	}

	inline int clamp(int ax, int dims)
	{
	return ax < 0 ? ax + dims : ax;
	}

	inline int clamp(int ax, const MatShape& shape)
	{
	return clamp(ax, (int)shape.size());
	}

	inline Range clamp(const Range& r, int axisSize)
	{
	Range clamped(std::max(r.start, 0),
	r.end > 0 ? std::min(r.end, axisSize) : axisSize + r.end + 1);
	CV_Assert_N(clamped.start < clamped.end, clamped.end <= axisSize);
	return clamped;
	}

	CV__DNN_EXPERIMENTAL_NS_END
	}
	}
	#endif