opencv/modules/core/src/convert_scale.dispatch.cpp

// 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


#include "precomp.hpp"
#include "opencl_kernels_core.hpp"

#include "convert_scale.simd.hpp"
#include "convert_scale.simd_declarations.hpp" // defines CV_CPU_DISPATCH_MODES_ALL=AVX2,...,BASELINE based on CMakeLists.txt content

namespace cv
{

static BinaryFunc getCvtScaleAbsFunc(int depth)
{
    CV_INSTRUMENT_REGION();
    CV_CPU_DISPATCH(getCvtScaleAbsFunc, (depth),
        CV_CPU_DISPATCH_MODES_ALL);
}

BinaryFunc getConvertScaleFunc(int sdepth, int ddepth)
{
    CV_INSTRUMENT_REGION();
    CV_CPU_DISPATCH(getConvertScaleFunc, (sdepth, ddepth),
        CV_CPU_DISPATCH_MODES_ALL);
}

#ifdef HAVE_OPENCL

static bool ocl_convertScaleAbs( InputArray _src, OutputArray _dst, double alpha, double beta )
{
    const ocl::Device & d = ocl::Device::getDefault();

    int type = _src.type(), depth = CV_MAT_DEPTH(type), cn = CV_MAT_CN(type);
    bool doubleSupport = d.doubleFPConfig() > 0;
    if (!doubleSupport && depth == CV_64F)
        return false;

    _dst.create(_src.size(), CV_8UC(cn));
    int kercn = 1;
    if (d.isIntel())
    {
        static const int vectorWidths[] = {4, 4, 4, 4, 4, 4, 4, -1};
        kercn = ocl::checkOptimalVectorWidth( vectorWidths, _src, _dst,
                                              noArray(), noArray(), noArray(),
                                              noArray(), noArray(), noArray(),
                                              noArray(), ocl::OCL_VECTOR_MAX);
    }
    else
        kercn = ocl::predictOptimalVectorWidthMax(_src, _dst);

    int rowsPerWI = d.isIntel() ? 4 : 1;
    char cvt[2][50];
    int wdepth = std::max(depth, CV_32F);
    String build_opt = format("-D OP_CONVERT_SCALE_ABS -D UNARY_OP -D dstT=%s -D DEPTH_dst=%d -D srcT1=%s"
                         " -D workT=%s -D wdepth=%d -D convertToWT1=%s -D convertToDT=%s"
                         " -D workT1=%s -D rowsPerWI=%d%s",
                         ocl::typeToStr(CV_8UC(kercn)), CV_8U,
                         ocl::typeToStr(CV_MAKE_TYPE(depth, kercn)),
                         ocl::typeToStr(CV_MAKE_TYPE(wdepth, kercn)), wdepth,
                         ocl::convertTypeStr(depth, wdepth, kercn, cvt[0], sizeof(cvt[0])),
                         ocl::convertTypeStr(wdepth, CV_8U, kercn, cvt[1], sizeof(cvt[1])),
                         ocl::typeToStr(wdepth), rowsPerWI,
                         doubleSupport ? " -D DOUBLE_SUPPORT" : "");
    ocl::Kernel k("KF", ocl::core::arithm_oclsrc, build_opt);
    if (k.empty())
        return false;

    UMat src = _src.getUMat();
    UMat dst = _dst.getUMat();

    ocl::KernelArg srcarg = ocl::KernelArg::ReadOnlyNoSize(src),
            dstarg = ocl::KernelArg::WriteOnly(dst, cn, kercn);

    if (wdepth == CV_32F)
        k.args(srcarg, dstarg, (float)alpha, (float)beta);
    else if (wdepth == CV_64F)
        k.args(srcarg, dstarg, alpha, beta);

    size_t globalsize[2] = { (size_t)src.cols * cn / kercn, ((size_t)src.rows + rowsPerWI - 1) / rowsPerWI };
    return k.run(2, globalsize, NULL, false);
}

#endif

void convertScaleAbs(InputArray _src, OutputArray _dst, double alpha, double beta)
{
    CV_INSTRUMENT_REGION();

    CV_OCL_RUN(_src.dims() <= 2 && _dst.isUMat(),
               ocl_convertScaleAbs(_src, _dst, alpha, beta))

    Mat src = _src.getMat();
    int cn = src.channels();
    double scale[] = {alpha, beta};
    _dst.create( src.dims, src.size, CV_8UC(cn) );
    Mat dst = _dst.getMat();
    BinaryFunc func = getCvtScaleAbsFunc(src.depth());
    CV_Assert( func != 0 );

    if( src.dims <= 2 )
    {
        Size sz = getContinuousSize2D(src, dst, cn);
        func( src.ptr(), src.step, 0, 0, dst.ptr(), dst.step, sz, scale );
    }
    else
    {
        const Mat* arrays[] = {&src, &dst, 0};
        uchar* ptrs[2] = {};
        NAryMatIterator it(arrays, ptrs);
        Size sz((int)it.size*cn, 1);

        for( size_t i = 0; i < it.nplanes; i++, ++it )
            func( ptrs[0], 0, 0, 0, ptrs[1], 0, sz, scale );
    }
}

} // namespace
Split convert.cpp into smaller pieces 2018-02-06 20:02:51 +08:00			`// 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`


			`#include "precomp.hpp"`
			`#include "opencl_kernels_core.hpp"`

core: dispatch convert_scale 2019-02-08 22:56:25 +08:00			`#include "convert_scale.simd.hpp"`
			`#include "convert_scale.simd_declarations.hpp" // defines CV_CPU_DISPATCH_MODES_ALL=AVX2,...,BASELINE based on CMakeLists.txt content`
Split convert.cpp into smaller pieces 2018-02-06 20:02:51 +08:00
core: dispatch convert_scale 2019-02-08 22:56:25 +08:00			`namespace cv`
Split convert.cpp into smaller pieces 2018-02-06 20:02:51 +08:00			`{`

			`static BinaryFunc getCvtScaleAbsFunc(int depth)`
			`{`
core: dispatch convert_scale 2019-02-08 22:56:25 +08:00			`CV_INSTRUMENT_REGION();`
			`CV_CPU_DISPATCH(getCvtScaleAbsFunc, (depth),`
			`CV_CPU_DISPATCH_MODES_ALL);`
Split convert.cpp into smaller pieces 2018-02-06 20:02:51 +08:00			`}`

			`BinaryFunc getConvertScaleFunc(int sdepth, int ddepth)`
			`{`
core: dispatch convert_scale 2019-02-08 22:56:25 +08:00			`CV_INSTRUMENT_REGION();`
			`CV_CPU_DISPATCH(getConvertScaleFunc, (sdepth, ddepth),`
			`CV_CPU_DISPATCH_MODES_ALL);`
Split convert.cpp into smaller pieces 2018-02-06 20:02:51 +08:00			`}`

			`#ifdef HAVE_OPENCL`

			`static bool ocl_convertScaleAbs( InputArray _src, OutputArray _dst, double alpha, double beta )`
			`{`
			`const ocl::Device & d = ocl::Device::getDefault();`

			`int type = _src.type(), depth = CV_MAT_DEPTH(type), cn = CV_MAT_CN(type);`
			`bool doubleSupport = d.doubleFPConfig() > 0;`
			`if (!doubleSupport && depth == CV_64F)`
			`return false;`

			`_dst.create(_src.size(), CV_8UC(cn));`
			`int kercn = 1;`
			`if (d.isIntel())`
			`{`
			`static const int vectorWidths[] = {4, 4, 4, 4, 4, 4, 4, -1};`
			`kercn = ocl::checkOptimalVectorWidth( vectorWidths, _src, _dst,`
			`noArray(), noArray(), noArray(),`
			`noArray(), noArray(), noArray(),`
			`noArray(), ocl::OCL_VECTOR_MAX);`
			`}`
			`else`
			`kercn = ocl::predictOptimalVectorWidthMax(_src, _dst);`

			`int rowsPerWI = d.isIntel() ? 4 : 1;`
			`char cvt[2][50];`
			`int wdepth = std::max(depth, CV_32F);`
core(ocl): replace ambiguous 'depth' to 'DEPTH_dst' - always pass DEPTH_dst value to core/arithm kernel 2018-10-14 09:49:14 +08:00			`String build_opt = format("-D OP_CONVERT_SCALE_ABS -D UNARY_OP -D dstT=%s -D DEPTH_dst=%d -D srcT1=%s"`
Split convert.cpp into smaller pieces 2018-02-06 20:02:51 +08:00			`" -D workT=%s -D wdepth=%d -D convertToWT1=%s -D convertToDT=%s"`
			`" -D workT1=%s -D rowsPerWI=%d%s",`
core(ocl): replace ambiguous 'depth' to 'DEPTH_dst' - always pass DEPTH_dst value to core/arithm kernel 2018-10-14 09:49:14 +08:00			`ocl::typeToStr(CV_8UC(kercn)), CV_8U,`
Split convert.cpp into smaller pieces 2018-02-06 20:02:51 +08:00			`ocl::typeToStr(CV_MAKE_TYPE(depth, kercn)),`
			`ocl::typeToStr(CV_MAKE_TYPE(wdepth, kercn)), wdepth,`
Deprecated convertTypeStr and made new variant that also takes the buffer size This allows removing the unsafe sprintf. 2022-12-27 08:00:03 +08:00			`ocl::convertTypeStr(depth, wdepth, kercn, cvt[0], sizeof(cvt[0])),`
			`ocl::convertTypeStr(wdepth, CV_8U, kercn, cvt[1], sizeof(cvt[1])),`
Split convert.cpp into smaller pieces 2018-02-06 20:02:51 +08:00			`ocl::typeToStr(wdepth), rowsPerWI,`
			`doubleSupport ? " -D DOUBLE_SUPPORT" : "");`
			`ocl::Kernel k("KF", ocl::core::arithm_oclsrc, build_opt);`
			`if (k.empty())`
			`return false;`

			`UMat src = _src.getUMat();`
			`UMat dst = _dst.getUMat();`

			`ocl::KernelArg srcarg = ocl::KernelArg::ReadOnlyNoSize(src),`
			`dstarg = ocl::KernelArg::WriteOnly(dst, cn, kercn);`

			`if (wdepth == CV_32F)`
			`k.args(srcarg, dstarg, (float)alpha, (float)beta);`
			`else if (wdepth == CV_64F)`
			`k.args(srcarg, dstarg, alpha, beta);`

			`size_t globalsize[2] = { (size_t)src.cols * cn / kercn, ((size_t)src.rows + rowsPerWI - 1) / rowsPerWI };`
			`return k.run(2, globalsize, NULL, false);`
			`}`

			`#endif`

core: dispatch convert_scale 2019-02-08 22:56:25 +08:00			`void convertScaleAbs(InputArray _src, OutputArray _dst, double alpha, double beta)`
Split convert.cpp into smaller pieces 2018-02-06 20:02:51 +08:00			`{`
Add semicolons after `CV_INSTRUMENT` macros 2018-09-14 05:35:26 +08:00			`CV_INSTRUMENT_REGION();`
Split convert.cpp into smaller pieces 2018-02-06 20:02:51 +08:00
			`CV_OCL_RUN(_src.dims() <= 2 && _dst.isUMat(),`
			`ocl_convertScaleAbs(_src, _dst, alpha, beta))`

			`Mat src = _src.getMat();`
			`int cn = src.channels();`
			`double scale[] = {alpha, beta};`
			`_dst.create( src.dims, src.size, CV_8UC(cn) );`
			`Mat dst = _dst.getMat();`
			`BinaryFunc func = getCvtScaleAbsFunc(src.depth());`
			`CV_Assert( func != 0 );`

			`if( src.dims <= 2 )`
			`{`
core: rework getContinuousSize() for vector-col/row support 2018-11-10 18:17:34 +08:00			`Size sz = getContinuousSize2D(src, dst, cn);`
Split convert.cpp into smaller pieces 2018-02-06 20:02:51 +08:00			`func( src.ptr(), src.step, 0, 0, dst.ptr(), dst.step, sz, scale );`
			`}`
			`else`
			`{`
			`const Mat* arrays[] = {&src, &dst, 0};`
backport fixes for static analyzer warnings Commits: - 09837928d934d104b3f327ce42122b7b8f35fff3 - 10fb88d02791b33d83a3756c62e21aa1c5a1e68d Excluded changes with std::atomic (C++98 requirement) 2018-09-04 21:44:47 +08:00			`uchar* ptrs[2] = {};`
Split convert.cpp into smaller pieces 2018-02-06 20:02:51 +08:00			`NAryMatIterator it(arrays, ptrs);`
			`Size sz((int)it.size*cn, 1);`

			`for( size_t i = 0; i < it.nplanes; i++, ++it )`
			`func( ptrs[0], 0, 0, 0, ptrs[1], 0, sz, scale );`
			`}`
			`}`

core: dispatch convert_scale 2019-02-08 22:56:25 +08:00			`} // namespace`