root/modules/cudawarping/src/resize.cpp

DEFINITIONS

1. resize
2. resize

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#include "precomp.hpp"

#if !defined HAVE_CUDA || defined(CUDA_DISABLER)

void cv::cuda::resize(InputArray, OutputArray, Size, double, double, int, Stream&) { throw_no_cuda(); }

#else // HAVE_CUDA

namespace cv { namespace cuda { namespace device
{
    template <typename T>
    void resize(const PtrStepSzb& src, const PtrStepSzb& srcWhole, int yoff, int xoff, const PtrStepSzb& dst, float fy, float fx, int interpolation, cudaStream_t stream);
}}}

void cv::cuda::resize(InputArray _src, OutputArray _dst, Size dsize, double fx, double fy, int interpolation, Stream& stream)
{
    GpuMat src = _src.getGpuMat();

    typedef void (*func_t)(const PtrStepSzb& src, const PtrStepSzb& srcWhole, int yoff, int xoff, const PtrStepSzb& dst, float fy, float fx, int interpolation, cudaStream_t stream);
    static const func_t funcs[6][4] =
    {
        {device::resize<uchar>      , 0 /*device::resize<uchar2>*/ , device::resize<uchar3>     , device::resize<uchar4>     },
        {0 /*device::resize<schar>*/, 0 /*device::resize<char2>*/  , 0 /*device::resize<char3>*/, 0 /*device::resize<char4>*/},
        {device::resize<ushort>     , 0 /*device::resize<ushort2>*/, device::resize<ushort3>    , device::resize<ushort4>    },
        {device::resize<short>      , 0 /*device::resize<short2>*/ , device::resize<short3>     , device::resize<short4>     },
        {0 /*device::resize<int>*/  , 0 /*device::resize<int2>*/   , 0 /*device::resize<int3>*/ , 0 /*device::resize<int4>*/ },
        {device::resize<float>      , 0 /*device::resize<float2>*/ , device::resize<float3>     , device::resize<float4>     }
    };

    CV_Assert( src.depth() <= CV_32F && src.channels() <= 4 );
    CV_Assert( interpolation == INTER_NEAREST || interpolation == INTER_LINEAR || interpolation == INTER_CUBIC || interpolation == INTER_AREA );
    CV_Assert( !(dsize == Size()) || (fx > 0 && fy > 0) );

    if (dsize == Size())
    {
        dsize = Size(saturate_cast<int>(src.cols * fx), saturate_cast<int>(src.rows * fy));
    }
    else
    {
        fx = static_cast<double>(dsize.width) / src.cols;
        fy = static_cast<double>(dsize.height) / src.rows;
    }

    _dst.create(dsize, src.type());
    GpuMat dst = _dst.getGpuMat();

    if (dsize == src.size())
    {
        src.copyTo(dst, stream);
        return;
    }

    const func_t func = funcs[src.depth()][src.channels() - 1];

    if (!func)
        CV_Error(Error::StsUnsupportedFormat, "Unsupported combination of source and destination types");

    Size wholeSize;
    Point ofs;
    src.locateROI(wholeSize, ofs);
    PtrStepSzb wholeSrc(wholeSize.height, wholeSize.width, src.datastart, src.step);

    func(src, wholeSrc, ofs.y, ofs.x, dst, static_cast<float>(1.0 / fy), static_cast<float>(1.0 / fx), interpolation, StreamAccessor::getStream(stream));
}

#endif // HAVE_CUDA