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https://github.com/opencv/opencv.git
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moments work now and work more or less fast
This commit is contained in:
Vadim Pisarevsky
parent
6035925f41
commit
83f749afd2
@ -2261,6 +2261,12 @@ void _OutputArray::release() const
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((Mat*)obj)->release();
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return;
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}
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if( k == UMAT )
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{
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((UMat*)obj)->release();
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return;
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}
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if( k == GPU_MAT )
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{
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@ -363,36 +363,31 @@ Moments::Moments( double _m00, double _m10, double _m01, double _m20, double _m1
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nu30 = mu30*s3; nu21 = mu21*s3; nu12 = mu12*s3; nu03 = mu03*s3;
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}
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static const int OCL_TILE_SIZE = 32;
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static bool ocl_moments( InputArray _src, Moments& m, bool binary )
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static bool ocl_moments( InputArray _src, Moments& m)
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{
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printf("!!!!!!!!!!!!!!!!!! ocl moments !!!!!!!!!!!!!!!!!!!\n");
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const int TILE_SIZE = 16;
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const int K = 10;
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ocl::Kernel k("moments", ocl::imgproc::moments_oclsrc, binary ? "-D BINARY_MOMENTS" : "");
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ocl::Kernel k("moments", ocl::imgproc::moments_oclsrc, format("-D TILE_SIZE=%d", TILE_SIZE));
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if( k.empty() )
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return false;
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UMat src = _src.getUMat();
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Size sz = src.size();
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int xtiles = (sz.width + OCL_TILE_SIZE-1)/OCL_TILE_SIZE;
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int ytiles = (sz.height + OCL_TILE_SIZE-1)/OCL_TILE_SIZE;
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int xtiles = (sz.width + TILE_SIZE-1)/TILE_SIZE;
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int ytiles = (sz.height + TILE_SIZE-1)/TILE_SIZE;
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int ntiles = xtiles*ytiles;
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UMat umbuf(1, ntiles*K, CV_32S);
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umbuf.setTo(Scalar::all(0));
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size_t globalsize[] = {xtiles, ytiles};
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size_t localsize[] = {1, 1};
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bool ok = k.args(ocl::KernelArg::ReadOnly(src),
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ocl::KernelArg::PtrWriteOnly(umbuf),
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OCL_TILE_SIZE, xtiles, ytiles).run(2, globalsize, localsize, false);
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xtiles).run(2, globalsize, 0, true);
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if(!ok)
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return false;
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Mat mbuf;
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umbuf.copyTo(mbuf);
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Mat mbuf = umbuf.getMat(ACCESS_READ);
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for( int i = 0; i < ntiles; i++ )
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{
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double x = (i % xtiles)*OCL_TILE_SIZE, y = (i / xtiles)*OCL_TILE_SIZE;
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double x = (i % xtiles)*TILE_SIZE, y = (i / xtiles)*TILE_SIZE;
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const int* mom = mbuf.ptr<int>() + i*K;
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double xm = x * mom[0], ym = y * mom[0];
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@ -452,10 +447,8 @@ cv::Moments cv::moments( InputArray _src, bool binary )
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if( size.width <= 0 || size.height <= 0 )
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return m;
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if( ocl::useOpenCL() && depth == CV_8U &&
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size.width >= OCL_TILE_SIZE &&
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size.height >= OCL_TILE_SIZE &&
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/*_src.isUMat() &&*/ ocl_moments(_src, m, binary) )
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if( ocl::useOpenCL() && depth == CV_8U && !binary &&
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_src.isUMat() && ocl_moments(_src, m) )
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;
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else
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{
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@ -1,110 +1,70 @@
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/* See LICENSE file in the root OpenCV directory */
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#ifdef BINARY_MOMENTS
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#define READ_PIX(ref) (ref != 0)
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#else
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#define READ_PIX(ref) ref
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#endif
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__kernel void moments(__global const uchar* src, int src_step, int src_offset,
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int src_rows, int src_cols, __global int* mom0,
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int tile_size, int xtiles, int ytiles)
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int src_rows, int src_cols, __global int* mom0, int xtiles)
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{
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int x = get_global_id(0);
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int y = get_global_id(1);
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int x_min = x*tile_size;
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int y_min = y*tile_size;
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int x_min = x*TILE_SIZE;
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int y_min = y*TILE_SIZE;
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if( x_min < src_cols && y_min < src_rows )
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{
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int x_max = src_cols - x_min;
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int y_max = src_rows - y_min;
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int m[10]={0,0,0,0,0,0,0,0,0,0};
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__global const uchar* ptr = (src + src_offset);// + y_min*src_step + x_min;
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int x_max = min(src_cols - x_min, TILE_SIZE);
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int y_max = min(src_rows - y_min, TILE_SIZE);
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int m00=0, m10=0, m01=0, m20=0, m11=0, m02=0, m30=0, m21=0, m12=0, m03=0;
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__global const uchar* ptr = src + src_offset + y_min*src_step + x_min;
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__global int* mom = mom0 + (xtiles*y + x)*10;
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x_max = x_max < tile_size ? x_max : tile_size;
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y_max = y_max < tile_size ? y_max : tile_size;
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for( y = 0; y < y_max; y++ )
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for( y = 0; y < y_max; y++, ptr += src_step )
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{
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int x00, x10, x20, x30;
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int sx, sy, p;
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x00 = x10 = x20 = x30 = 0;
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sy = y*y;
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int4 S = (int4)(0,0,0,0);
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for( x = 0; x < x_max; x++ )
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for( x = 0; x <= x_max - 4; x += 4 )
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{
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p = ptr[0];//READ_PIX(ptr[x]);
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sx = x*x;
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x00 += p;
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x10 += x*p;
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x20 += sx*p;
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x30 += x*sx*p;
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int4 p = convert_int4(vload4(0, ptr + x));
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#define SUM_ELEM(elem, ofs) \
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(int4)(elem, (x+ofs)*elem, (x+ofs)*(x+ofs)*elem, (x+ofs)*(x+ofs)*(x+ofs)*elem)
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S += SUM_ELEM(p.s0, 0) + SUM_ELEM(p.s1, 1) + SUM_ELEM(p.s2, 2) + SUM_ELEM(p.s3, 3);
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}
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m[0] += x00;
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m[1] += x10;
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m[2] += y*x00;
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m[3] += x20;
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m[4] += y*x10;
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m[5] += sy*x00;
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m[6] += x30;
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m[7] += y*x20;
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m[8] += sy*x10;
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m[9] += y*sy*x00;
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//ptr += src_step;
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if( x < x_max )
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{
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int ps = ptr[x];
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S += SUM_ELEM(ps, 0);
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if( x+1 < x_max )
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{
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ps = ptr[x+1];
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S += SUM_ELEM(ps, 1);
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if( x+2 < x_max )
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{
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ps = ptr[x+2];
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S += SUM_ELEM(ps, 2);
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}
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}
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}
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int sy = y*y;
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m00 += S.s0;
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m10 += S.s1;
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m01 += y*S.s0;
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m20 += S.s2;
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m11 += y*S.s1;
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m02 += sy*S.s0;
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m30 += S.s3;
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m21 += y*S.s2;
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m12 += sy*S.s1;
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m03 += y*sy*S.s0;
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}
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mom[0] = m[0];
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mom[1] = m[1];
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mom[2] = m[2];
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mom[3] = m[3];
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mom[4] = m[4];
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mom[5] = m[5];
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mom[6] = m[6];
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mom[7] = m[7];
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mom[8] = m[8];
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mom[9] = m[9];
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mom[0] = m00;
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mom[1] = m10;
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mom[2] = m01;
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mom[3] = m20;
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mom[4] = m11;
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mom[5] = m02;
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mom[6] = m30;
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mom[7] = m21;
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mom[8] = m12;
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mom[9] = m03;
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}
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}
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/*__kernel void moments(__global const uchar* src, int src_step, int src_offset,
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int src_rows, int src_cols, __global float* mom0,
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int tile_size, int xtiles, int ytiles)
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{
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int x = get_global_id(0);
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int y = get_global_id(1);
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if( x < xtiles && y < ytiles )
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{
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//int x_min = x*tile_size;
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//int y_min = y*tile_size;
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//int x_max = src_cols - x_min;
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//int y_max = src_rows - y_min;
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__global const uchar* ptr = src + src_offset;// + src_step*y_min + x_min;
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__global float* mom = mom0;// + (y*xtiles + x)*16;
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//int x00, x10, x20, x30, m00=0;
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//x_max = min(x_max, tile_size);
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//y_max = min(y_max, tile_size);
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//int m00 = 0;
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//for( y = 0; y < y_max; y++, ptr += src_step )
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//{
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//int x00 = 0, x10 = 0, x20 = 0, x30 = 0;
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//for( x = 0; x < x_max; x++ )
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//{
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int p = ptr[x];
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//m00 = p;
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//x10 += x*p;
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/*x20 += x*x*p;
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x30 += x*x*x*p;
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//}
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//m00 = m00 + x00;
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//}
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mom[0] = p;
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}
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}*/
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@ -60,6 +60,7 @@ protected:
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void run_func();
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int coi;
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bool is_binary;
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bool try_umat;
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};
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@ -102,20 +103,25 @@ void CV_MomentsTest::get_test_array_types_and_sizes( int test_case_idx,
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{
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RNG& rng = ts->get_rng();
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cvtest::ArrayTest::get_test_array_types_and_sizes( test_case_idx, sizes, types );
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int cn = cvtest::randInt(rng) % 4 + 1;
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int cn = (cvtest::randInt(rng) % 4) + 1;
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int depth = cvtest::randInt(rng) % 4;
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depth = depth == 0 ? CV_8U : depth == 1 ? CV_16U : depth == 2 ? CV_16S : CV_32F;
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if( cn == 2 )
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is_binary = cvtest::randInt(rng) % 2 != 0;
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if( depth == 0 && !is_binary )
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try_umat = cvtest::randInt(rng) % 5 != 0;
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else
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try_umat = cvtest::randInt(rng) % 2 != 0;
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if( cn == 2 || try_umat )
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cn = 1;
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sizes[INPUT][0].height = sizes[INPUT][0].width;
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types[INPUT][0] = CV_MAKETYPE(depth, cn);
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types[OUTPUT][0] = types[REF_OUTPUT][0] = CV_64FC1;
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sizes[OUTPUT][0] = sizes[REF_OUTPUT][0] = cvSize(MOMENT_COUNT,1);
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if(CV_MAT_DEPTH(types[INPUT][0])>=CV_32S)
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sizes[INPUT][0].width = MAX(sizes[INPUT][0].width, 3);
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is_binary = cvtest::randInt(rng) % 2 != 0;
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coi = 0;
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cvmat_allowed = true;
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if( cn > 1 )
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@ -150,7 +156,16 @@ void CV_MomentsTest::run_func()
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{
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CvMoments* m = (CvMoments*)test_mat[OUTPUT][0].ptr<double>();
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double* others = (double*)(m + 1);
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cvMoments( test_array[INPUT][0], m, is_binary );
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if( try_umat )
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{
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UMat u;
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test_mat[INPUT][0].clone().copyTo(u);
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Moments new_m = moments(u, is_binary != 0);
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*m = new_m;
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}
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else
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cvMoments( test_array[INPUT][0], m, is_binary );
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others[0] = cvGetNormalizedCentralMoment( m, 2, 0 );
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others[1] = cvGetNormalizedCentralMoment( m, 1, 1 );
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others[2] = cvGetNormalizedCentralMoment( m, 0, 2 );
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@ -275,10 +290,6 @@ void CV_MomentsTest::prepare_to_validation( int /*test_case_idx*/ )
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mdata[6] = m.mu03 * s3;
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}
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test_mat[REF_OUTPUT][0].copyTo(test_mat[OUTPUT][0]);
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cout << "ref moments: " << test_mat[REF_OUTPUT][0] << "\n";
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cout << "fun moments: " << test_mat[OUTPUT][0] << "\n";
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double* a = test_mat[REF_OUTPUT][0].ptr<double>();
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double* b = test_mat[OUTPUT][0].ptr<double>();
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for( i = 0; i < MOMENT_COUNT; i++ )
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