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// For Open Source Computer Vision Library
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#include "opencv2/opencv_modules.hpp"
#ifndef HAVE_OPENCV_CUDEV
#error "opencv_cudev is required"
#else
#include "opencv2/cudaarithm.hpp"
#include "opencv2/cudev.hpp"
#include "opencv2/core/private.cuda.hpp"
using namespace cv;
using namespace cv::cuda;
using namespace cv::cudev;
namespace
{
struct ShiftMap
{
typedef int2 value_type;
typedef int index_type;
int top;
int left;
__device__ __forceinline__ int2 operator ()(int y, int x) const
{
return make_int2(x - left, y - top);
}
};
struct ShiftMapSz : ShiftMap
{
int rows, cols;
};
}
namespace cv { namespace cudev {
template <> struct PtrTraits<ShiftMapSz> : PtrTraitsBase<ShiftMapSz, ShiftMap>
{
};
}}
namespace
{
template <typename T, int cn>
void copyMakeBorderImpl(const GpuMat& src, GpuMat& dst, int top, int left, int borderMode, cv::Scalar borderValue, Stream& stream)
{
typedef typename MakeVec<T, cn>::type src_type;
cv::Scalar_<T> borderValue_ = borderValue;
const src_type brdVal = VecTraits<src_type>::make(borderValue_.val);
ShiftMapSz map;
map.top = top;
map.left = left;
map.rows = dst.rows;
map.cols = dst.cols;
switch (borderMode)
{
case cv::BORDER_CONSTANT:
gridCopy(remapPtr(brdConstant(globPtr<src_type>(src), brdVal), map), globPtr<src_type>(dst), stream);
break;
case cv::BORDER_REPLICATE:
gridCopy(remapPtr(brdReplicate(globPtr<src_type>(src)), map), globPtr<src_type>(dst), stream);
break;
case cv::BORDER_REFLECT:
gridCopy(remapPtr(brdReflect(globPtr<src_type>(src)), map), globPtr<src_type>(dst), stream);
break;
case cv::BORDER_WRAP:
gridCopy(remapPtr(brdWrap(globPtr<src_type>(src)), map), globPtr<src_type>(dst), stream);
break;
case cv::BORDER_REFLECT_101:
gridCopy(remapPtr(brdReflect101(globPtr<src_type>(src)), map), globPtr<src_type>(dst), stream);
break;
};
}
}
void cv::cuda::copyMakeBorder(InputArray _src, OutputArray _dst, int top, int bottom, int left, int right, int borderType, Scalar value, Stream& stream)
{
typedef void (*func_t)(const GpuMat& src, GpuMat& dst, int top, int left, int borderMode, cv::Scalar borderValue, Stream& stream);
static const func_t funcs[6][4] =
{
{ copyMakeBorderImpl<uchar , 1> , copyMakeBorderImpl<uchar , 2> , copyMakeBorderImpl<uchar , 3> , copyMakeBorderImpl<uchar , 4> },
{0 /*copyMakeBorderImpl<schar , 1>*/, 0 /*copyMakeBorderImpl<schar , 2>*/, 0 /*copyMakeBorderImpl<schar , 3>*/, 0 /*copyMakeBorderImpl<schar , 4>*/},
{ copyMakeBorderImpl<ushort, 1> , 0 /*copyMakeBorderImpl<ushort, 2>*/, copyMakeBorderImpl<ushort, 3> , copyMakeBorderImpl<ushort, 4> },
{ copyMakeBorderImpl<short , 1> , 0 /*copyMakeBorderImpl<short , 2>*/, copyMakeBorderImpl<short , 3> , copyMakeBorderImpl<short , 4> },
{0 /*copyMakeBorderImpl<int , 1>*/, 0 /*copyMakeBorderImpl<int , 2>*/, 0 /*copyMakeBorderImpl<int , 3>*/, 0 /*copyMakeBorderImpl<int , 4>*/},
{ copyMakeBorderImpl<float , 1> , 0 /*copyMakeBorderImpl<float , 2>*/, copyMakeBorderImpl<float , 3> , copyMakeBorderImpl<float ,4> }
};
GpuMat src = getInputMat(_src, stream);
const int depth = src.depth();
const int cn = src.channels();
CV_Assert( depth <= CV_32F && cn <= 4 );
CV_Assert( borderType == BORDER_REFLECT_101 || borderType == BORDER_REPLICATE || borderType == BORDER_CONSTANT || borderType == BORDER_REFLECT || borderType == BORDER_WRAP );
GpuMat dst = getOutputMat(_dst, src.rows + top + bottom, src.cols + left + right, src.type(), stream);
const func_t func = funcs[depth][cn - 1];
if (!func)
CV_Error(cv::Error::StsUnsupportedFormat, "Unsupported combination of source and destination types");
func(src, dst, top, left, borderType, value, stream);
syncOutput(dst, _dst, stream);
}
#endif