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Commit 2c56a09b authored by Andrey Kamaev's avatar Andrey Kamaev
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Merge pull request #226 from taka-no-me/equalizeHist 

Fix equalization formula in equalizeHist function & rewrite in C++
parents 09be997e 98d7d992
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Showing with 179 additions and 34 deletions
modules/imgproc/src/histogram.cpp
View file @ 2c56a09b
...@@ -2404,61 +2404,206 @@ cvCalcProbDensity( const CvHistogram* hist, const CvHistogram* hist_mask, ...@@ -2404,61 +2404,206 @@ cvCalcProbDensity( const CvHistogram* hist, const CvHistogram* hist_mask,
} }
} }
class EqualizeHistCalcHist_Invoker
CV_IMPL void cvEqualizeHist( const CvArr* srcarr, CvArr* dstarr )
{ {
CvMat sstub, *src = cvGetMat(srcarr, &sstub); public:
CvMat dstub, *dst = cvGetMat(dstarr, &dstub); enum {HIST_SZ = 256};
#ifdef HAVE_TBB
typedef tbb::mutex* MutextPtr;
#else
typedef void* MutextPtr;
#endif
EqualizeHistCalcHist_Invoker(cv::Mat& src, int* histogram, MutextPtr histogramLock)
: src_(src), globalHistogram_(histogram), histogramLock_(histogramLock)
{ }
CV_Assert( CV_ARE_SIZES_EQ(src, dst) && CV_ARE_TYPES_EQ(src, dst) && void operator()( const cv::BlockedRange& rowRange ) const
CV_MAT_TYPE(src->type) == CV_8UC1 );
CvSize size = cvGetMatSize(src);
if( CV_IS_MAT_CONT(src->type & dst->type) )
{ {
size.width *= size.height; int localHistogram[HIST_SZ] = {0, };
size.height = 1;
const size_t sstep = src_.step;
int width = src_.cols;
int height = rowRange.end() - rowRange.begin();
if (src_.isContinuous())
{
width *= height;
height = 1;
}
for (const uchar* ptr = src_.ptr<uchar>(rowRange.begin()); height--; ptr += sstep)
{
int x = 0;
for (; x <= width - 4; x += 4)
{
int t0 = ptr[x], t1 = ptr[x+1];
localHistogram[t0]++; localHistogram[t1]++;
t0 = ptr[x+2]; t1 = ptr[x+3];
localHistogram[t0]++; localHistogram[t1]++;
}
for (; x < width; ++x, ++ptr)
localHistogram[ptr[x]]++;
}
#ifdef HAVE_TBB
tbb::mutex::scoped_lock lock(*histogramLock_);
#endif
for( int i = 0; i < HIST_SZ; i++ )
globalHistogram_[i] += localHistogram[i];
} }
int x, y;
const int hist_sz = 256;
int hist[hist_sz];
memset(hist, 0, sizeof(hist));
for( y = 0; y < size.height; y++ ) static bool isWorthParallel( const cv::Mat& src )
{ {
const uchar* sptr = src->data.ptr + src->step*y; #ifdef HAVE_TBB
for( x = 0; x < size.width; x++ ) return ( src.total() >= 640*480 );
hist[sptr[x]]++; #else
(void)src;
return false;
#endif
} }
float scale = 255.f/(size.width*size.height); private:
int sum = 0; EqualizeHistCalcHist_Invoker& operator=(const EqualizeHistCalcHist_Invoker&);
uchar lut[hist_sz+1];
cv::Mat& src_;
int* globalHistogram_;
MutextPtr histogramLock_;
};
class EqualizeHistLut_Invoker
{
public:
EqualizeHistLut_Invoker( cv::Mat& src, cv::Mat& dst, int* lut )
: src_(src),
dst_(dst),
lut_(lut)
{ }
for( int i = 0; i < hist_sz; i++ ) void operator()( const cv::BlockedRange& rowRange ) const
{ {
sum += hist[i]; const size_t sstep = src_.step;
int val = cvRound(sum*scale); const size_t dstep = dst_.step;
lut[i] = CV_CAST_8U(val);
int width = src_.cols;
int height = rowRange.end() - rowRange.begin();
int* lut = lut_;
if (src_.isContinuous() && dst_.isContinuous())
{
width *= height;
height = 1;
}
const uchar* sptr = src_.ptr<uchar>(rowRange.begin());
uchar* dptr = dst_.ptr<uchar>(rowRange.begin());
for (; height--; sptr += sstep, dptr += dstep)
{
int x = 0;
for (; x <= width - 4; x += 4)
{
int v0 = sptr[x];
int v1 = sptr[x+1];
int x0 = lut[v0];
int x1 = lut[v1];
dptr[x] = (uchar)x0;
dptr[x+1] = (uchar)x1;
v0 = sptr[x+2];
v1 = sptr[x+3];
x0 = lut[v0];
x1 = lut[v1];
dptr[x+2] = (uchar)x0;
dptr[x+3] = (uchar)x1;
}
for (; x < width; ++x)
dptr[x] = (uchar)lut[sptr[x]];
}
} }
lut[0] = 0; static bool isWorthParallel( const cv::Mat& src )
for( y = 0; y < size.height; y++ )
{ {
const uchar* sptr = src->data.ptr + src->step*y; #ifdef HAVE_TBB
uchar* dptr = dst->data.ptr + dst->step*y; return ( src.total() >= 640*480 );
for( x = 0; x < size.width; x++ ) #else
dptr[x] = lut[sptr[x]]; (void)src;
return false;
#endif
} }
}
private:
EqualizeHistLut_Invoker& operator=(const EqualizeHistLut_Invoker&);
cv::Mat& src_;
cv::Mat& dst_;
int* lut_;
};
CV_IMPL void cvEqualizeHist( const CvArr* srcarr, CvArr* dstarr )
{
cv::equalizeHist(cv::cvarrToMat(srcarr), cv::cvarrToMat(dstarr));
}
void cv::equalizeHist( InputArray _src, OutputArray _dst ) void cv::equalizeHist( InputArray _src, OutputArray _dst )
{ {
Mat src = _src.getMat(); Mat src = _src.getMat();
CV_Assert( src.type() == CV_8UC1 );
_dst.create( src.size(), src.type() ); _dst.create( src.size(), src.type() );
Mat dst = _dst.getMat(); Mat dst = _dst.getMat();
CvMat _csrc = src, _cdst = dst;
cvEqualizeHist( &_csrc, &_cdst ); if(src.empty())
return;
#ifdef HAVE_TBB
tbb::mutex histogramLockInstance;
EqualizeHistCalcHist_Invoker::MutextPtr histogramLock = &histogramLockInstance;
#else
EqualizeHistCalcHist_Invoker::MutextPtr histogramLock = 0;
#endif
const int hist_sz = EqualizeHistCalcHist_Invoker::HIST_SZ;
int hist[hist_sz] = {0,};
int lut[hist_sz];
EqualizeHistCalcHist_Invoker calcBody(src, hist, histogramLock);
EqualizeHistLut_Invoker lutBody(src, dst, lut);
cv::BlockedRange heightRange(0, src.rows);
if(EqualizeHistCalcHist_Invoker::isWorthParallel(src))
parallel_for(heightRange, calcBody);
else
calcBody(heightRange);
int i = 0;
while (!hist[i]) ++i;
int total = (int)src.total();
if (hist[i] == total)
{
dst.setTo(i);
return;
}
float scale = (hist_sz - 1.f)/(total - hist[i]);
int sum = 0;
for (lut[i++] = 0; i < hist_sz; ++i)
{
sum += hist[i];
lut[i] = saturate_cast<uchar>(sum * scale);
}
if(EqualizeHistLut_Invoker::isWorthParallel(src))
parallel_for(heightRange, lutBody);
else
lutBody(heightRange);
} }
/* Implementation of RTTI and Generic Functions for CvHistogram */ /* Implementation of RTTI and Generic Functions for CvHistogram */
......
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