typedef void (*ReduceFunc)( const Mat& src, Mat& dst );
}
-
+
+#define reduceSumR8u32s reduceR_<uchar, int, OpAdd<int> >
+#define reduceSumR8u32f reduceR_<uchar, float, OpAdd<int> >
+#define reduceSumR8u64f reduceR_<uchar, double,OpAdd<int> >
+#define reduceSumR16u32f reduceR_<ushort,float, OpAdd<float> >
+#define reduceSumR16u64f reduceR_<ushort,double,OpAdd<double> >
+#define reduceSumR16s32f reduceR_<short, float, OpAdd<float> >
+#define reduceSumR16s64f reduceR_<short, double,OpAdd<double> >
+#define reduceSumR32f32f reduceR_<float, float, OpAdd<float> >
+#define reduceSumR32f64f reduceR_<float, double,OpAdd<double> >
+#define reduceSumR64f64f reduceR_<double,double,OpAdd<double> >
+
+#define reduceMaxR8u reduceR_<uchar, uchar, OpMax<uchar> >
+#define reduceMaxR16u reduceR_<ushort,ushort,OpMax<ushort> >
+#define reduceMaxR16s reduceR_<short, short, OpMax<short> >
+#define reduceMaxR32f reduceR_<float, float, OpMax<float> >
+#define reduceMaxR64f reduceR_<double,double,OpMax<double> >
+
+#define reduceMinR8u reduceR_<uchar, uchar, OpMin<uchar> >
+#define reduceMinR16u reduceR_<ushort,ushort,OpMin<ushort> >
+#define reduceMinR16s reduceR_<short, short, OpMin<short> >
+#define reduceMinR32f reduceR_<float, float, OpMin<float> >
+#define reduceMinR64f reduceR_<double,double,OpMin<double> >
+
+#define reduceSumC8u32s reduceC_<uchar, int, OpAdd<int> >
+#define reduceSumC8u32f reduceC_<uchar, float, OpAdd<int> >
+#define reduceSumC8u64f reduceC_<uchar, double,OpAdd<int> >
+#define reduceSumC16u32f reduceC_<ushort,float, OpAdd<float> >
+#define reduceSumC16u64f reduceC_<ushort,double,OpAdd<double> >
+#define reduceSumC16s32f reduceC_<short, float, OpAdd<float> >
+#define reduceSumC16s64f reduceC_<short, double,OpAdd<double> >
+#define reduceSumC32f32f reduceC_<float, float, OpAdd<float> >
+#define reduceSumC32f64f reduceC_<float, double,OpAdd<double> >
+#define reduceSumC64f64f reduceC_<double,double,OpAdd<double> >
+
+#define reduceMaxC8u reduceC_<uchar, uchar, OpMax<uchar> >
+#define reduceMaxC16u reduceC_<ushort,ushort,OpMax<ushort> >
+#define reduceMaxC16s reduceC_<short, short, OpMax<short> >
+#define reduceMaxC32f reduceC_<float, float, OpMax<float> >
+#define reduceMaxC64f reduceC_<double,double,OpMax<double> >
+
+#define reduceMinC8u reduceC_<uchar, uchar, OpMin<uchar> >
+#define reduceMinC16u reduceC_<ushort,ushort,OpMin<ushort> >
+#define reduceMinC16s reduceC_<short, short, OpMin<short> >
+#define reduceMinC32f reduceC_<float, float, OpMin<float> >
+#define reduceMinC64f reduceC_<double,double,OpMin<double> >
+
void cv::reduce(InputArray _src, OutputArray _dst, int dim, int op, int dtype)
{
Mat src = _src.getMat();
Mat dst = _dst.getMat(), temp = dst;
CV_Assert( op == CV_REDUCE_SUM || op == CV_REDUCE_MAX ||
- op == CV_REDUCE_MIN || op == CV_REDUCE_AVG );
+ op == CV_REDUCE_MIN || op == CV_REDUCE_AVG );
CV_Assert( src.channels() == dst.channels() );
if( op == CV_REDUCE_AVG )
if( op == CV_REDUCE_SUM )
{
if(sdepth == CV_8U && ddepth == CV_32S)
-#ifdef HAVE_TEGRA_OPTIMIZATION
- func = tegra::getTegraOptimized_reduceR8uAdd(tegra::reduceR8uAdd);
-#else
- func = reduceR_<uchar,int,OpAdd<int> >;
-#endif
+ func = GET_OPTIMIZED(reduceSumR8u32s);
else if(sdepth == CV_8U && ddepth == CV_32F)
- func = reduceR_<uchar,float,OpAdd<int> >;
+ func = reduceSumR8u32f;
else if(sdepth == CV_8U && ddepth == CV_64F)
- func = reduceR_<uchar,double,OpAdd<int> >;
+ func = reduceSumR8u64f;
else if(sdepth == CV_16U && ddepth == CV_32F)
- func = reduceR_<ushort,float,OpAdd<float> >;
+ func = reduceSumR16u32f;
else if(sdepth == CV_16U && ddepth == CV_64F)
- func = reduceR_<ushort,double,OpAdd<double> >;
+ func = reduceSumR16u64f;
else if(sdepth == CV_16S && ddepth == CV_32F)
- func = reduceR_<short,float,OpAdd<float> >;
+ func = reduceSumR16s32f;
else if(sdepth == CV_16S && ddepth == CV_64F)
- func = reduceR_<short,double,OpAdd<double> >;
- else if(sdepth == CV_32F && ddepth == CV_32F)
- #ifdef HAVE_TEGRA_OPTIMIZATION
- func = tegra::getTegraOptimized_reduceR32fAdd(tegra::reduceR32fAdd);
-#else
- func = reduceR_<float,float,OpAdd<float> >;
-#endif
+ func = reduceSumR16s64f;
+ else if(sdepth == CV_32F && ddepth == CV_32F)
+ func = GET_OPTIMIZED(reduceSumR32f32f);
else if(sdepth == CV_32F && ddepth == CV_64F)
- func = reduceR_<float,double,OpAdd<double> >;
+ func = reduceSumR32f64f;
else if(sdepth == CV_64F && ddepth == CV_64F)
- func = reduceR_<double,double,OpAdd<double> >;
+ func = reduceSumR64f64f;
}
else if(op == CV_REDUCE_MAX)
{
if(sdepth == CV_8U && ddepth == CV_8U)
-#ifdef HAVE_TEGRA_OPTIMIZATION
- func = tegra::getTegraOptimized_reduceR8uMax(tegra::reduceR8uMax);
-#else
- func = reduceR_<uchar, uchar, OpMax<uchar> >;
-#endif
- else if(sdepth == CV_16U && ddepth == CV_16U)
- func = reduceR_<ushort, ushort, OpMax<ushort> >;
+ func = GET_OPTIMIZED(reduceMaxR8u);
+ else if(sdepth == CV_16U && ddepth == CV_16U)
+ func = reduceMaxR16u;
else if(sdepth == CV_16S && ddepth == CV_16S)
- func = reduceR_<short, short, OpMax<short> >;
+ func = reduceMaxR16s;
else if(sdepth == CV_32F && ddepth == CV_32F)
-#ifdef HAVE_TEGRA_OPTIMIZATION
- func = tegra::getTegraOptimized_reduceR32fMax(tegra::reduceR32fMax);
-#else
- func = reduceR_<float, float, OpMax<float> >;
-#endif
- else if(sdepth == CV_64F && ddepth == CV_64F)
- func = reduceR_<double, double, OpMax<double> >;
+ func = GET_OPTIMIZED(reduceMaxR32f);
+ else if(sdepth == CV_64F && ddepth == CV_64F)
+ func = reduceMaxR64f;
}
else if(op == CV_REDUCE_MIN)
{
if(sdepth == CV_8U && ddepth == CV_8U)
-#ifdef HAVE_TEGRA_OPTIMIZATION
- func = tegra::getTegraOptimized_reduceR8uMin(tegra::reduceR8uMin);
-#else
- func = reduceR_<uchar, uchar, OpMin<uchar> >;
-#endif
+ func = GET_OPTIMIZED(reduceMinR8u);
else if(sdepth == CV_16U && ddepth == CV_16U)
- func = reduceR_<ushort, ushort, OpMin<ushort> >;
+ func = reduceMinR16u;
else if(sdepth == CV_16S && ddepth == CV_16S)
- func = reduceR_<short, short, OpMin<short> >;
+ func = reduceMinR16s;
else if(sdepth == CV_32F && ddepth == CV_32F)
-#ifdef HAVE_TEGRA_OPTIMIZATION
- func = tegra::getTegraOptimized_reduceR32fMin(tegra::reduceR32fMin);
-#else
- func = reduceR_<float, float, OpMin<float> >;
-#endif
+ func = GET_OPTIMIZED(reduceMinR32f);
else if(sdepth == CV_64F && ddepth == CV_64F)
- func = reduceR_<double, double, OpMin<double> >;
+ func = reduceMinR64f;
}
}
else
if(op == CV_REDUCE_SUM)
{
if(sdepth == CV_8U && ddepth == CV_32S)
-#ifdef HAVE_TEGRA_OPTIMIZATION
- func = tegra::getTegraOptimized_reduceC8uAdd(tegra::reduceC8uAdd);
-#else
- func = reduceC_<uchar,int,OpAdd<int> >;
-#endif
+ func = GET_OPTIMIZED(reduceSumC8u32s);
else if(sdepth == CV_8U && ddepth == CV_32F)
- func = reduceC_<uchar,float,OpAdd<int> >;
+ func = reduceSumC8u32f;
else if(sdepth == CV_8U && ddepth == CV_64F)
- func = reduceC_<uchar,double,OpAdd<int> >;
+ func = reduceSumC8u64f;
else if(sdepth == CV_16U && ddepth == CV_32F)
- func = reduceC_<ushort,float,OpAdd<float> >;
+ func = reduceSumC16u32f;
else if(sdepth == CV_16U && ddepth == CV_64F)
- func = reduceC_<ushort,double,OpAdd<double> >;
+ func = reduceSumC16u64f;
else if(sdepth == CV_16S && ddepth == CV_32F)
- func = reduceC_<short,float,OpAdd<float> >;
+ func = reduceSumC16s32f;
else if(sdepth == CV_16S && ddepth == CV_64F)
- func = reduceC_<short,double,OpAdd<double> >;
- else if(sdepth == CV_32F && ddepth == CV_32F)
- func = reduceC_<float,float,OpAdd<float> >;
+ func = reduceSumC16s64f;
+ else if(sdepth == CV_32F && ddepth == CV_32F)
+ func = GET_OPTIMIZED(reduceSumC32f32f);
else if(sdepth == CV_32F && ddepth == CV_64F)
- func = reduceC_<float,double,OpAdd<double> >;
+ func = reduceSumC32f64f;
else if(sdepth == CV_64F && ddepth == CV_64F)
- func = reduceC_<double,double,OpAdd<double> >;
+ func = reduceSumC64f64f;
}
else if(op == CV_REDUCE_MAX)
{
if(sdepth == CV_8U && ddepth == CV_8U)
- func = reduceC_<uchar, uchar, OpMax<uchar> >;
- else if(sdepth == CV_16U && ddepth == CV_16U)
- func = reduceC_<ushort, ushort, OpMax<ushort> >;
+ func = GET_OPTIMIZED(reduceMaxC8u);
+ else if(sdepth == CV_16U && ddepth == CV_16U)
+ func = reduceMaxC16u;
else if(sdepth == CV_16S && ddepth == CV_16S)
- func = reduceC_<short, short, OpMax<short> >;
+ func = reduceMaxC16s;
else if(sdepth == CV_32F && ddepth == CV_32F)
- func = reduceC_<float, float, OpMax<float> >;
+ func = GET_OPTIMIZED(reduceMaxC32f);
else if(sdepth == CV_64F && ddepth == CV_64F)
- func = reduceC_<double, double, OpMax<double> >;
+ func = reduceMaxC64f;
}
else if(op == CV_REDUCE_MIN)
{
if(sdepth == CV_8U && ddepth == CV_8U)
- func = reduceC_<uchar, uchar, OpMin<uchar> >;
+ func = GET_OPTIMIZED(reduceMinC8u);
else if(sdepth == CV_16U && ddepth == CV_16U)
- func = reduceC_<ushort, ushort, OpMin<ushort> >;
+ func = reduceMinC16u;
else if(sdepth == CV_16S && ddepth == CV_16S)
- func = reduceC_<short, short, OpMin<short> >;
+ func = reduceMinC16s;
else if(sdepth == CV_32F && ddepth == CV_32F)
- func = reduceC_<float, float, OpMin<float> >;
+ func = GET_OPTIMIZED(reduceMinC32f);
else if(sdepth == CV_64F && ddepth == CV_64F)
- func = reduceC_<double, double, OpMin<double> >;
+ func = reduceMinC64f;
}
}
if( !func )
CV_Error( CV_StsUnsupportedFormat,
- "Unsupported combination of input and output array formats" );
+ "Unsupported combination of input and output array formats" );
func( src, temp );
- if( op0 == CV_REDUCE_AVG )
+ if( op0 == CV_REDUCE_AVG )
temp.convertTo(dst, dst.type(), 1./(dim == 0 ? src.rows : src.cols));
- }
+}
//////////////////////////////////////// sort ///////////////////////////////////////////
return nzm;
}
-
+
static int sum8u( const uchar* src, const uchar* mask, int* dst, int len, int cn )
{ return sum_(src, mask, dst, len, cn); }
(SumFunc)GET_OPTIMIZED(sum32f), (SumFunc)sum64f,
0
};
-
+
template<typename T>
static int countNonZero_(const T* src, int len )
{
{ return countNonZero_(src, len); }
typedef int (*CountNonZeroFunc)(const uchar*, int);
-
+
static CountNonZeroFunc countNonZeroTab[] =
{
(CountNonZeroFunc)GET_OPTIMIZED(countNonZero8u), (CountNonZeroFunc)(countNonZero8u),
(CountNonZeroFunc)countNonZero64f, 0
};
-
+
template<typename T, typename ST, typename SQT>
static int sumsqr_(const T* src0, const uchar* mask, ST* sum, SQT* sqsum, int len, int cn )
{
};
}
-
+
cv::Scalar cv::sum( InputArray _src )
{
Mat src = _src.getMat();
blockSize = std::min(blockSize, intSumBlockSize);
_buf.allocate(cn);
buf = _buf;
-
+
for( k = 0; k < cn; k++ )
buf[k] = 0;
esz = src.elemSize();
}
-
+
for( size_t i = 0; i < it.nplanes; i++, ++it )
{
for( j = 0; j < total; j += blockSize )
return nz;
}
-
+
cv::Scalar cv::mean( InputArray _src, InputArray _mask )
{
Mat src = _src.getMat(), mask = _mask.getMat();
return s*(nz0 ? 1./nz0 : 0);
}
-
+
void cv::meanStdDev( InputArray _src, OutputArray _mean, OutputArray _sdv, InputArray _mask )
{
Mat src = _src.getMat(), mask = _mask.getMat();
Mat dst = _dst.getMat();
int dcn = (int)dst.total();
CV_Assert( dst.type() == CV_64F && dst.isContinuous() &&
- (dst.cols == 1 || dst.rows == 1) && dcn >= cn );
+ (dst.cols == 1 || dst.rows == 1) && dcn >= cn );
double* dptr = dst.ptr<double>();
for( k = 0; k < cn; k++ )
dptr[k] = sptr[k];
static void minMaxIdx_64f(const double* src, const uchar* mask, double* minval, double* maxval,
size_t* minidx, size_t* maxidx, int len, size_t startidx )
{ minMaxIdx_(src, mask, minval, maxval, minidx, maxidx, len, startidx ); }
-
+
typedef void (*MinMaxIdxFunc)(const uchar*, const uchar*, int*, int*, size_t*, size_t*, int, size_t);
static MinMaxIdxFunc minmaxTab[] =
(MinMaxIdxFunc)GET_OPTIMIZED(minMaxIdx_32f), (MinMaxIdxFunc)GET_OPTIMIZED(minMaxIdx_64f),
0
};
-
+
static void ofs2idx(const Mat& a, size_t ofs, int* idx)
{
int i, d = a.dims;
idx[i] = -1;
}
}
-
+
}
void cv::minMaxIdx(InputArray _src, double* minVal,
if( maxIdx )
ofs2idx(src, maxidx, maxIdx);
}
-
+
void cv::minMaxLoc( InputArray _img, double* minVal, double* maxVal,
- Point* minLoc, Point* maxLoc, InputArray mask )
+ Point* minLoc, Point* maxLoc, InputArray mask )
{
Mat img = _img.getMat();
CV_Assert(img.dims <= 2);
if( maxLoc )
std::swap(maxLoc->x, maxLoc->y);
}
-
+
/****************************************************************************************\
* norm *
\****************************************************************************************/
return d;
}
-
+
float normL1_(const float* a, const float* b, int n)
{
int j = 0; float d = 0.f;
for( ; j <= n - 4; j += 4 )
{
d += std::abs(a[j] - b[j]) + std::abs(a[j+1] - b[j+1]) +
- std::abs(a[j+2] - b[j+2]) + std::abs(a[j+3] - b[j+3]);
+ std::abs(a[j+2] - b[j+2]) + std::abs(a[j+3] - b[j+3]);
}
}
for( ; j <= n - 4; j += 4 )
{
d += std::abs(a[j] - b[j]) + std::abs(a[j+1] - b[j+1]) +
- std::abs(a[j+2] - b[j+2]) + std::abs(a[j+3] - b[j+3]);
+ std::abs(a[j+2] - b[j+2]) + std::abs(a[j+3] - b[j+3]);
}
}
2, 3, 3, 4, 3, 4, 4, 5, 3, 4, 4, 5, 4, 5, 5, 6, 3, 4, 4, 5, 4, 5, 5, 6, 4, 5, 5, 6, 5, 6, 6, 7,
3, 4, 4, 5, 4, 5, 5, 6, 4, 5, 5, 6, 5, 6, 6, 7, 4, 5, 5, 6, 5, 6, 6, 7, 5, 6, 6, 7, 6, 7, 7, 8
};
-
+
static const uchar popCountTable2[] =
{
0, 1, 1, 1, 1, 2, 2, 2, 1, 2, 2, 2, 1, 2, 2, 2, 1, 2, 2, 2, 2, 3, 3, 3, 2, 3, 3, 3, 2, 3, 3, 3,
1, 2, 2, 2, 2, 3, 3, 3, 2, 3, 3, 3, 2, 3, 3, 3, 2, 3, 3, 3, 3, 4, 4, 4, 3, 4, 4, 4, 3, 4, 4, 4,
2, 3, 3, 3, 3, 4, 4, 4, 3, 4, 4, 4, 3, 4, 4, 4, 2, 3, 3, 3, 3, 4, 4, 4, 3, 4, 4, 4, 3, 4, 4, 4
};
-
+
static const uchar popCountTable4[] =
{
0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
1, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 1, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
1, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 1, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2
};
-
+
int normHamming(const uchar* a, const uchar* b, int n)
{
int i = 0, result = 0;
#endif
for( ; i <= n - 4; i += 4 )
result += popCountTable[a[i] ^ b[i]] + popCountTable[a[i+1] ^ b[i+1]] +
- popCountTable[a[i+2] ^ b[i+2]] + popCountTable[a[i+3] ^ b[i+3]];
+ popCountTable[a[i+2] ^ b[i+2]] + popCountTable[a[i+3] ^ b[i+3]];
for( ; i < n; i++ )
result += popCountTable[a[i] ^ b[i]];
return result;
}
-
+
int normHamming(const uchar* a, const uchar* b, int n, int cellSize)
{
if( cellSize == 1 )
int i = 0, result = 0;
for( ; i <= n - 4; i += 4 )
result += tab[a[i] ^ b[i]] + tab[a[i+1] ^ b[i+1]] +
- tab[a[i+2] ^ b[i+2]] + tab[a[i+3] ^ b[i+3]];
+ tab[a[i+2] ^ b[i+2]] + tab[a[i+3] ^ b[i+3]];
for( ; i < n; i++ )
result += tab[a[i] ^ b[i]];
return result;
}
-
-
+
+
template<typename T, typename ST> int
normInf_(const T* src, const uchar* mask, ST* _result, int len, int cn)
{
*_result = result;
return 0;
}
-
+
template<typename T, typename ST> int
normL1_(const T* src, const uchar* mask, ST* _result, int len, int cn)
{
*_result = result;
return 0;
}
-
+
template<typename T, typename ST> int
normDiffInf_(const T* src1, const T* src2, const uchar* mask, ST* _result, int len, int cn)
{
#define CV_DEF_NORM_FUNC(L, suffix, type, ntype) \
-static int norm##L##_##suffix(const type* src, const uchar* mask, ntype* r, int len, int cn) \
+ static int norm##L##_##suffix(const type* src, const uchar* mask, ntype* r, int len, int cn) \
{ return norm##L##_(src, mask, r, len, cn); } \
-static int normDiff##L##_##suffix(const type* src1, const type* src2, \
- const uchar* mask, ntype* r, int len, int cn) \
+ static int normDiff##L##_##suffix(const type* src1, const type* src2, \
+ const uchar* mask, ntype* r, int len, int cn) \
{ return normDiff##L##_(src1, src2, mask, r, (int)len, cn); }
-
+
#define CV_DEF_NORM_ALL(suffix, type, inftype, l1type, l2type) \
-CV_DEF_NORM_FUNC(Inf, suffix, type, inftype) \
-CV_DEF_NORM_FUNC(L1, suffix, type, l1type) \
-CV_DEF_NORM_FUNC(L2, suffix, type, l2type)
+ CV_DEF_NORM_FUNC(Inf, suffix, type, inftype) \
+ CV_DEF_NORM_FUNC(L1, suffix, type, l1type) \
+ CV_DEF_NORM_FUNC(L2, suffix, type, l2type)
CV_DEF_NORM_ALL(8u, uchar, int, int, int)
CV_DEF_NORM_ALL(8s, schar, int, int, int)
CV_DEF_NORM_ALL(32f, float, float, double, double)
CV_DEF_NORM_ALL(64f, double, double, double, double)
-
+
typedef int (*NormFunc)(const uchar*, const uchar*, uchar*, int, int);
typedef int (*NormDiffFunc)(const uchar*, const uchar*, const uchar*, uchar*, int, int);
};
}
-
+
double cv::norm( InputArray _src, int normType, InputArray _mask )
{
Mat src = _src.getMat(), mask = _mask.getMat();
if( normType == NORM_L2 )
{
double result = 0;
- GET_OPTIMIZED(normL2_32f)(data, 0, &result, (int)len, 1);
+ GET_OPTIMIZED(normL2_32f)(data, 0, &result, (int)len, 1);
return std::sqrt(result);
}
if( normType == NORM_L1 )
{
double result = 0;
- GET_OPTIMIZED(normL1_32f)(data, 0, &result, (int)len, 1);
+ GET_OPTIMIZED(normL1_32f)(data, 0, &result, (int)len, 1);
return result;
}
{
float result = 0;
- GET_OPTIMIZED(normInf_32f)(data, 0, &result, (int)len, 1);
+ GET_OPTIMIZED(normInf_32f)(data, 0, &result, (int)len, 1);
return result;
}
NAryMatIterator it(arrays, ptrs);
int j, total = (int)it.size, blockSize = total, intSumBlockSize = 0, count = 0;
bool blockSum = (normType == NORM_L1 && depth <= CV_16S) ||
- (normType == NORM_L2 && depth <= CV_8S);
+ (normType == NORM_L2 && depth <= CV_8S);
int isum = 0;
int *ibuf = &result.i;
size_t esz = 0;
for( j = 0; j < total; j += blockSize )
{
int bsz = std::min(total - j, blockSize);
- func( ptrs[0], ptrs[1], (uchar*)ibuf, bsz, cn );
- count += bsz;
+ func( ptrs[0], ptrs[1], (uchar*)ibuf, bsz, cn );
+ count += bsz;
if( blockSum && (count + blockSize >= intSumBlockSize || (i+1 >= it.nplanes && j+bsz >= total)) )
{
result.d += isum;
return result.d;
}
-
+
double cv::norm( InputArray _src1, InputArray _src2, int normType, InputArray _mask )
{
if( normType & CV_RELATIVE )
if( normType == NORM_L2 )
{
double result = 0;
- GET_OPTIMIZED(normDiffL2_32f)(data1, data2, 0, &result, (int)len, 1);
+ GET_OPTIMIZED(normDiffL2_32f)(data1, data2, 0, &result, (int)len, 1);
return std::sqrt(result);
}
if( normType == NORM_L1 )
{
double result = 0;
- GET_OPTIMIZED(normDiffL1_32f)(data1, data2, 0, &result, (int)len, 1);
+ GET_OPTIMIZED(normDiffL1_32f)(data1, data2, 0, &result, (int)len, 1);
return result;
}
{
float result = 0;
- GET_OPTIMIZED(normDiffInf_32f)(data1, data2, 0, &result, (int)len, 1);
+ GET_OPTIMIZED(normDiffInf_32f)(data1, data2, 0, &result, (int)len, 1);
return result;
}
}
NAryMatIterator it(arrays, ptrs);
int j, total = (int)it.size, blockSize = total, intSumBlockSize = 0, count = 0;
bool blockSum = (normType == NORM_L1 && depth <= CV_16S) ||
- (normType == NORM_L2 && depth <= CV_8S);
+ (normType == NORM_L2 && depth <= CV_8S);
unsigned isum = 0;
unsigned *ibuf = &result.u;
size_t esz = 0;
cv::extractImageCOI(imgarr, img);
cv::minMaxLoc( img, _minVal, _maxVal,
- (cv::Point*)_minLoc, (cv::Point*)_maxLoc, mask );
+ (cv::Point*)_minLoc, (cv::Point*)_maxLoc, mask );
}