Merge pull request #2586 from ilya-lavrenov:ipp_disable

modules/core/src/stat.cpp

@@ -2031,7 +2031,7 @@ double cv::norm( InputArray _src, int normType, InputArray _mask )
                 normType == NORM_INF ?
                 (type == CV_8UC1 ? (ippiMaskNormFuncC1)ippiNorm_Inf_8u_C1MR :
                 type == CV_8SC1 ? (ippiMaskNormFuncC1)ippiNorm_Inf_8s_C1MR :
-                type == CV_16UC1 ? (ippiMaskNormFuncC1)ippiNorm_Inf_16u_C1MR :
+//                type == CV_16UC1 ? (ippiMaskNormFuncC1)ippiNorm_Inf_16u_C1MR :
                 type == CV_32FC1 ? (ippiMaskNormFuncC1)ippiNorm_Inf_32f_C1MR :
                 0) :
             normType == NORM_L1 ?

modules/imgproc/src/color.cpp

@@ -200,12 +200,14 @@ void CvtColorLoop(const Mat& src, Mat& dst, const Cvt& cvt)
 }
 
 #if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
+
 typedef IppStatus (CV_STDCALL* ippiReorderFunc)(const void *, int, void *, int, IppiSize, const int *);
 typedef IppStatus (CV_STDCALL* ippiGeneralFunc)(const void *, int, void *, int, IppiSize);
 typedef IppStatus (CV_STDCALL* ippiColor2GrayFunc)(const void *, int, void *, int, IppiSize, const Ipp32f *);
 
 template <typename Cvt>
-class CvtColorIPPLoop_Invoker : public ParallelLoopBody
+class CvtColorIPPLoop_Invoker :
+        public ParallelLoopBody
 {
 public:
 
@@ -251,8 +253,8 @@ bool CvtColorIPPLoopCopy(Mat& src, Mat& dst, const Cvt& cvt)
         source = temp;
     }
     bool ok;
-    parallel_for_(Range(0, source.rows), CvtColorIPPLoop_Invoker<Cvt>(source, dst, cvt, &ok), source.total()/(double)(1<<16) );
-    //ok = cvt(src.ptr<uchar>(0), (int)src.step[0], dst.ptr<uchar>(0), (int)dst.step[0], src.cols, src.rows);
+    parallel_for_(Range(0, source.rows), CvtColorIPPLoop_Invoker<Cvt>(source, dst, cvt, &ok),
+                  source.total()/(double)(1<<16) );
     return ok;
 }
 
@@ -308,8 +310,8 @@ static ippiReorderFunc ippiSwapChannelsC4RTab[] =
 
 static ippiColor2GrayFunc ippiColor2GrayC3Tab[] =
 {
-    (ippiColor2GrayFunc)ippiColorToGray_8u_C3C1R, 0, (ippiColor2GrayFunc)ippiColorToGray_16u_C3C1R, 0,
-    0, (ippiColor2GrayFunc)ippiColorToGray_32f_C3C1R, 0, 0
+    /*(ippiColor2GrayFunc)ippiColorToGray_8u_C3C1R*/ 0, 0, /*(ippiColor2GrayFunc)ippiColorToGray_16u_C3C1R*/ 0, 0,
+    0, /*(ippiColor2GrayFunc)ippiColorToGray_32f_C3C1R*/ 0, 0, 0
 };
 
 static ippiColor2GrayFunc ippiColor2GrayC4Tab[] =
@@ -339,18 +341,18 @@ static ippiGeneralFunc ippiCopyP3C3RTab[] =
 static ippiGeneralFunc ippiRGB2XYZTab[] =
 {
     (ippiGeneralFunc)ippiRGBToXYZ_8u_C3R, 0, (ippiGeneralFunc)ippiRGBToXYZ_16u_C3R, 0,
-    0, (ippiGeneralFunc)ippiRGBToXYZ_32f_C3R, 0, 0
+    0, /*(ippiGeneralFunc)ippiRGBToXYZ_32f_C3R*/ 0, 0, 0
 };
 
 static ippiGeneralFunc ippiXYZ2RGBTab[] =
 {
     (ippiGeneralFunc)ippiXYZToRGB_8u_C3R, 0, (ippiGeneralFunc)ippiXYZToRGB_16u_C3R, 0,
-    0, (ippiGeneralFunc)ippiXYZToRGB_32f_C3R, 0, 0
+    0, /*(ippiGeneralFunc)ippiXYZToRGB_32f_C3R*/ 0, 0, 0
 };
 
 static ippiGeneralFunc ippiRGB2HSVTab[] =
 {
-    (ippiGeneralFunc)ippiRGBToHSV_8u_C3R, 0, (ippiGeneralFunc)ippiRGBToHSV_16u_C3R, 0,
+    /*(ippiGeneralFunc)ippiRGBToHSV_8u_C3R*/ 0, 0, /*(ippiGeneralFunc)ippiRGBToHSV_16u_C3R*/ 0, 0,
     0, 0, 0, 0
 };
 
@@ -377,7 +379,7 @@ struct IPPGeneralFunctor
     IPPGeneralFunctor(ippiGeneralFunc _func) : func(_func){}
     bool operator()(const void *src, int srcStep, void *dst, int dstStep, int cols, int rows) const
     {
-        return func(src, srcStep, dst, dstStep, ippiSize(cols, rows)) >= 0;
+        return func ? func(src, srcStep, dst, dstStep, ippiSize(cols, rows)) >= 0 : false;
     }
 private:
     ippiGeneralFunc func;
@@ -394,7 +396,7 @@ struct IPPReorderFunctor
     }
     bool operator()(const void *src, int srcStep, void *dst, int dstStep, int cols, int rows) const
     {
-        return func(src, srcStep, dst, dstStep, ippiSize(cols, rows), order) >= 0;
+        return func ? func(src, srcStep, dst, dstStep, ippiSize(cols, rows), order) >= 0 : false;
     }
 private:
     ippiReorderFunc func;
@@ -403,7 +405,8 @@ private:
 
 struct IPPColor2GrayFunctor
 {
-    IPPColor2GrayFunctor(ippiColor2GrayFunc _func) : func(_func)
+    IPPColor2GrayFunctor(ippiColor2GrayFunc _func) :
+        func(_func)
     {
         coeffs[0] = 0.114f;
         coeffs[1] = 0.587f;
@@ -411,7 +414,7 @@ struct IPPColor2GrayFunctor
     }
     bool operator()(const void *src, int srcStep, void *dst, int dstStep, int cols, int rows) const
     {
-        return func(src, srcStep, dst, dstStep, ippiSize(cols, rows), coeffs) >= 0;
+        return func ? func(src, srcStep, dst, dstStep, ippiSize(cols, rows), coeffs) >= 0 : false;
     }
 private:
     ippiColor2GrayFunc func;
@@ -420,9 +423,16 @@ private:
 
 struct IPPGray2BGRFunctor
 {
-    IPPGray2BGRFunctor(ippiGeneralFunc _func) : func(_func){}
+    IPPGray2BGRFunctor(ippiGeneralFunc _func) :
+        func(_func)
+    {
+    }
+
     bool operator()(const void *src, int srcStep, void *dst, int dstStep, int cols, int rows) const
     {
+        if (func == 0)
+            return false;
+
         const void* srcarray[3] = { src, src, src };
         return func(srcarray, srcStep, dst, dstStep, ippiSize(cols, rows)) >= 0;
     }
@@ -432,9 +442,16 @@ private:
 
 struct IPPGray2BGRAFunctor
 {
-    IPPGray2BGRAFunctor(ippiGeneralFunc _func1, ippiReorderFunc _func2, int _depth) : func1(_func1), func2(_func2), depth(_depth){}
+    IPPGray2BGRAFunctor(ippiGeneralFunc _func1, ippiReorderFunc _func2, int _depth) :
+        func1(_func1), func2(_func2), depth(_depth)
+    {
+    }
+
     bool operator()(const void *src, int srcStep, void *dst, int dstStep, int cols, int rows) const
     {
+        if (func1 == 0 || func2 == 0)
+            return false;
+
         const void* srcarray[3] = { src, src, src };
         Mat temp(rows, cols, CV_MAKETYPE(depth, 3));
         if(func1(srcarray, srcStep, temp.data, (int)temp.step[0], ippiSize(cols, rows)) < 0)
@@ -450,7 +467,8 @@ private:
 
 struct IPPReorderGeneralFunctor
 {
-    IPPReorderGeneralFunctor(ippiReorderFunc _func1, ippiGeneralFunc _func2, int _order0, int _order1, int _order2, int _depth) : func1(_func1), func2(_func2), depth(_depth)
+    IPPReorderGeneralFunctor(ippiReorderFunc _func1, ippiGeneralFunc _func2, int _order0, int _order1, int _order2, int _depth) :
+        func1(_func1), func2(_func2), depth(_depth)
     {
         order[0] = _order0;
         order[1] = _order1;
@@ -459,6 +477,9 @@ struct IPPReorderGeneralFunctor
     }
     bool operator()(const void *src, int srcStep, void *dst, int dstStep, int cols, int rows) const
     {
+        if (func1 == 0 || func2 == 0)
+            return false;
+
         Mat temp;
         temp.create(rows, cols, CV_MAKETYPE(depth, 3));
         if(func1(src, srcStep, temp.data, (int)temp.step[0], ippiSize(cols, rows), order) < 0)
@@ -474,7 +495,8 @@ private:
 
 struct IPPGeneralReorderFunctor
 {
-    IPPGeneralReorderFunctor(ippiGeneralFunc _func1, ippiReorderFunc _func2, int _order0, int _order1, int _order2, int _depth) : func1(_func1), func2(_func2), depth(_depth)
+    IPPGeneralReorderFunctor(ippiGeneralFunc _func1, ippiReorderFunc _func2, int _order0, int _order1, int _order2, int _depth) :
+        func1(_func1), func2(_func2), depth(_depth)
     {
         order[0] = _order0;
         order[1] = _order1;
@@ -483,6 +505,9 @@ struct IPPGeneralReorderFunctor
     }
     bool operator()(const void *src, int srcStep, void *dst, int dstStep, int cols, int rows) const
     {
+        if (func1 == 0 || func2 == 0)
+            return false;
+
         Mat temp;
         temp.create(rows, cols, CV_MAKETYPE(depth, 3));
         if(func1(src, srcStep, temp.data, (int)temp.step[0], ippiSize(cols, rows)) < 0)
@@ -495,6 +520,7 @@ private:
     int order[4];
     int depth;
 };
+
 #endif
 
 ////////////////// Various 3/4-channel to 3/4-channel RGB transformations /////////////////
@@ -3317,15 +3343,12 @@ void cv::cvtColor( InputArray _src, OutputArray _dst, int code, int dcn )
             dst = _dst.getMat();
 
 #if defined (HAVE_IPP) && (IPP_VERSION_MAJOR >= 7)
-/*
             if( code == CV_BGR2GRAY )
             {
                 if( CvtColorIPPLoop(src, dst, IPPColor2GrayFunctor(ippiColor2GrayC3Tab[depth])) )
                     return;
             }
-            else
-*/
-            if( code == CV_RGB2GRAY )
+            else if( code == CV_RGB2GRAY )
             {
                 if( CvtColorIPPLoop(src, dst, IPPGeneralFunctor(ippiRGB2GrayC3Tab[depth])) )
                     return;

modules/imgproc/src/deriv.cpp

@@ -341,6 +341,7 @@ static bool IPPDeriv(const Mat& src, Mat& dst, int ddepth, int dx, int dy, int k
 
         if (src.type() == CV_32F && dst.type() == CV_32F)
         {
+#if 0
             if ((dx == 1) && (dy == 0))
             {
                 if (0 > ippiFilterSobelNegVertGetBufferSize_32f_C1R(ippiSize(src.cols, src.rows), (IppiMaskSize)(ksize*10+ksize), &bufSize))
@@ -374,6 +375,7 @@ static bool IPPDeriv(const Mat& src, Mat& dst, int ddepth, int dx, int dy, int k
                     ippiMulC_32f_C1R((Ipp32f *)dst.data, (int)dst.step, (Ipp32f)scale, (Ipp32f *)dst.data, (int)dst.step, ippiSize(dst.cols*dst.channels(), dst.rows));
                 return true;
             }
+#endif
 
             if((dx == 2) && (dy == 0))
             {

modules/imgproc/src/filter.cpp

@@ -1464,7 +1464,7 @@ private:
     int ippiOperator(const uchar* _src, uchar* _dst, int width, int cn) const
     {
         int _ksize = kernel.rows + kernel.cols - 1;
-        if ((1 != cn && 3 != cn) || width < _ksize*8)
+//        if ((1 != cn && 3 != cn) || width < _ksize*8)
             return 0;
 
         const float* src = (const float*)_src;

modules/imgproc/src/smooth.cpp

@@ -2425,13 +2425,14 @@ bilateralFilter_8u( const Mat& src, Mat& dst, int d,
     Mat temp;
     copyMakeBorder( src, temp, radius, radius, radius, radius, borderType );
 
-#if defined HAVE_IPP && (IPP_VERSION_MAJOR >= 7)
+#if defined HAVE_IPP && (IPP_VERSION_MAJOR >= 7) && 0
     if( cn == 1 )
     {
         bool ok;
         IPPBilateralFilter_8u_Invoker body(temp, dst, sigma_color * sigma_color, sigma_space * sigma_space, radius, &ok );
         parallel_for_(Range(0, dst.rows), body, dst.total()/(double)(1<<16));
-        if( ok ) return;
+        if( ok )
+            return;
     }
 #endif
 

modules/imgproc/test/ocl/test_color.cpp

@@ -155,15 +155,23 @@ OCL_TEST_P(CvtColor, YCrCb2BGRA) { performTest(3, 4, CVTCODE(YCrCb2BGR)); }
 
 // RGB <-> XYZ
 
-OCL_TEST_P(CvtColor, RGB2XYZ) { performTest(3, 3, CVTCODE(RGB2XYZ)); }
-OCL_TEST_P(CvtColor, BGR2XYZ) { performTest(3, 3, CVTCODE(BGR2XYZ)); }
-OCL_TEST_P(CvtColor, RGBA2XYZ) { performTest(4, 3, CVTCODE(RGB2XYZ)); }
-OCL_TEST_P(CvtColor, BGRA2XYZ) { performTest(4, 3, CVTCODE(BGR2XYZ)); }
+#if IPP_VERSION_X100 > 0
+#define IPP_EPS depth <= CV_32S ? 1 : 4e-5
+#else
+#define IPP_EPS 0
+#endif
 
-OCL_TEST_P(CvtColor, XYZ2RGB) { performTest(3, 3, CVTCODE(XYZ2RGB)); }
-OCL_TEST_P(CvtColor, XYZ2BGR) { performTest(3, 3, CVTCODE(XYZ2BGR)); }
-OCL_TEST_P(CvtColor, XYZ2RGBA) { performTest(3, 4, CVTCODE(XYZ2RGB)); }
-OCL_TEST_P(CvtColor, XYZ2BGRA) { performTest(3, 4, CVTCODE(XYZ2BGR)); }
+OCL_TEST_P(CvtColor, RGB2XYZ) { performTest(3, 3, CVTCODE(RGB2XYZ), IPP_EPS); }
+OCL_TEST_P(CvtColor, BGR2XYZ) { performTest(3, 3, CVTCODE(BGR2XYZ), IPP_EPS); }
+OCL_TEST_P(CvtColor, RGBA2XYZ) { performTest(4, 3, CVTCODE(RGB2XYZ), IPP_EPS); }
+OCL_TEST_P(CvtColor, BGRA2XYZ) { performTest(4, 3, CVTCODE(BGR2XYZ), IPP_EPS); }
+
+OCL_TEST_P(CvtColor, XYZ2RGB) { performTest(3, 3, CVTCODE(XYZ2RGB), IPP_EPS); }
+OCL_TEST_P(CvtColor, XYZ2BGR) { performTest(3, 3, CVTCODE(XYZ2BGR), IPP_EPS); }
+OCL_TEST_P(CvtColor, XYZ2RGBA) { performTest(3, 4, CVTCODE(XYZ2RGB), IPP_EPS); }
+OCL_TEST_P(CvtColor, XYZ2BGRA) { performTest(3, 4, CVTCODE(XYZ2BGR), IPP_EPS); }
+
+#undef IPP_EPS
 
 // RGB <-> HSV
 
@@ -191,15 +199,21 @@ OCL_TEST_P(CvtColor8u32f, HSV2BGRA_FULL) { performTest(3, 4, CVTCODE(HSV2BGR_FUL
 
 // RGB <-> HLS
 
+#if IPP_VERSION_X100 > 0
+#define IPP_EPS depth == CV_8U ? 2 : 1e-3
+#else
+#define IPP_EPS depth == CV_8U ? 1 : 1e-3
+#endif
+
 OCL_TEST_P(CvtColor8u32f, RGB2HLS) { performTest(3, 3, CVTCODE(RGB2HLS), depth == CV_8U ? 1 : 1e-3); }
 OCL_TEST_P(CvtColor8u32f, BGR2HLS) { performTest(3, 3, CVTCODE(BGR2HLS), depth == CV_8U ? 1 : 1e-3); }
 OCL_TEST_P(CvtColor8u32f, RGBA2HLS) { performTest(4, 3, CVTCODE(RGB2HLS), depth == CV_8U ? 1 : 1e-3); }
 OCL_TEST_P(CvtColor8u32f, BGRA2HLS) { performTest(4, 3, CVTCODE(BGR2HLS), depth == CV_8U ? 1 : 1e-3); }
 
-OCL_TEST_P(CvtColor8u32f, RGB2HLS_FULL) { performTest(3, 3, CVTCODE(RGB2HLS_FULL), depth == CV_8U ? 1 : 1e-3); }
-OCL_TEST_P(CvtColor8u32f, BGR2HLS_FULL) { performTest(3, 3, CVTCODE(BGR2HLS_FULL), depth == CV_8U ? 1 : 1e-3); }
-OCL_TEST_P(CvtColor8u32f, RGBA2HLS_FULL) { performTest(4, 3, CVTCODE(RGB2HLS_FULL), depth == CV_8U ? 1 : 1e-3); }
-OCL_TEST_P(CvtColor8u32f, BGRA2HLS_FULL) { performTest(4, 3, CVTCODE(BGR2HLS_FULL), depth == CV_8U ? 1 : 1e-3); }
+OCL_TEST_P(CvtColor8u32f, RGB2HLS_FULL) { performTest(3, 3, CVTCODE(RGB2HLS_FULL), IPP_EPS); }
+OCL_TEST_P(CvtColor8u32f, BGR2HLS_FULL) { performTest(3, 3, CVTCODE(BGR2HLS_FULL), IPP_EPS); }
+OCL_TEST_P(CvtColor8u32f, RGBA2HLS_FULL) { performTest(4, 3, CVTCODE(RGB2HLS_FULL), IPP_EPS); }
+OCL_TEST_P(CvtColor8u32f, BGRA2HLS_FULL) { performTest(4, 3, CVTCODE(BGR2HLS_FULL), IPP_EPS); }
 
 OCL_TEST_P(CvtColor8u32f, HLS2RGB) { performTest(3, 3, CVTCODE(HLS2RGB), 1); }
 OCL_TEST_P(CvtColor8u32f, HLS2BGR) { performTest(3, 3, CVTCODE(HLS2BGR), 1); }
@@ -211,6 +225,8 @@ OCL_TEST_P(CvtColor8u32f, HLS2BGR_FULL) { performTest(3, 3, CVTCODE(HLS2BGR_FULL
 OCL_TEST_P(CvtColor8u32f, HLS2RGBA_FULL) { performTest(3, 4, CVTCODE(HLS2RGB_FULL), 1); }
 OCL_TEST_P(CvtColor8u32f, HLS2BGRA_FULL) { performTest(3, 4, CVTCODE(HLS2BGR_FULL), 1); }
 
+#undef IPP_EPS
+
 // RGB5x5 <-> RGB
 
 typedef CvtColor CvtColor8u;

modules/imgproc/test/test_precomp.hpp

@@ -11,6 +11,7 @@
 
 #include <iostream>
 #include "opencv2/ts.hpp"
+#include "opencv2/core/private.hpp"
 #include "opencv2/imgproc.hpp"
 #include "opencv2/highgui.hpp"