cvfloodfill.cpp.svn-base
来自「非结构化路识别」· SVN-BASE 代码 · 共 1,138 行 · 第 1/3 页
SVN-BASE
1,138 行
img[i*3+2] = newVal[2];
}
else if( region )
for( i = L; i <= R; i++ )
{
sum[0] += img[i*3];
sum[1] += img[i*3+1];
sum[2] += img[i*3+2];
}
}
if( region )
{
region->area = area;
region->rect.x = XMin;
region->rect.y = YMin;
region->rect.width = XMax - XMin + 1;
region->rect.height = YMax - YMin + 1;
if( fillImage )
region->value = CV_RGB(newVal[2],newVal[1],newVal[0]);
else
{
region->value = 0;
if( area )
{
double inv_area = 1./area;
int b = cvRound(sum[0]*inv_area);
int g = cvRound(sum[1]*inv_area);
int r = cvRound(sum[2]*inv_area);
b = CV_CAST_8U(b);
g = CV_CAST_8U(g);
r = CV_CAST_8U(r);
region->value = CV_RGB( r, g, b );
}
}
}
return CV_NO_ERR;
}
static CvStatus
icvFloodFill_Grad_32f_C1IR( float* pImage, int step, uchar* pMask, int maskStep,
CvSize /*roiSize*/, CvPoint seed, float* _newVal, float* _d_lw,
float* _d_up, CvConnectedComp* region, int flags,
CvFFillSegment* buffer, int buffersize )
{
const int cn = 1;
float* img = pImage + (step /= sizeof(pImage[0]))*seed.y;
uchar* mask = (pMask += maskStep + 1) + maskStep*seed.y;
int i, L, R;
int area = 0;
double sum = 0;
float val0[1] = {0};
float newVal = _newVal[0];
float interval = 0.5f*(_d_lw[0] + _d_up[0]);
float d_lw = 0.5f*(_d_lw[0] - _d_up[0]);
int XMin, XMax, YMin = seed.y, YMax = seed.y;
int _8_connectivity = (flags & 255) == 8;
int fixedRange = flags & CV_FLOODFILL_FIXED_RANGE;
int fillImage = (flags & CV_FLOODFILL_MASK_ONLY) == 0;
uchar newMaskVal = (uchar)(flags & 0xff00 ? flags >> 8 : 1);
CvFFillSegment* buffer_end = buffer + buffersize, *head = buffer, *tail = buffer;
L = R = seed.x;
if( mask[L] )
return CV_OK;
mask[L] = newMaskVal;
if( fixedRange )
{
val0[0] = img[seed.x];
while( DIFF_FLT_C1( img + (R+1)*cn, val0 ) && !mask[R + 1] )
mask[++R] = newMaskVal;
while( DIFF_FLT_C1( img + (L-1)*cn, val0 ) && !mask[L - 1] )
mask[--L] = newMaskVal;
}
else
{
while( DIFF_FLT_C1( img + (R+1)*cn, img + R*cn ) && !mask[R + 1] )
mask[++R] = newMaskVal;
while( DIFF_FLT_C1( img + (L-1)*cn, img + L*cn ) && !mask[L - 1] )
mask[--L] = newMaskVal;
}
XMax = R;
XMin = L;
ICV_PUSH( seed.y, L, R, R + 1, R, UP );
while( head != tail )
{
int k, YC, PL, PR, dir, curstep;
ICV_POP( YC, L, R, PL, PR, dir );
int data[][3] =
{
{-dir, L - _8_connectivity, R + _8_connectivity},
{dir, L - _8_connectivity, PL - 1},
{dir, PR + 1, R + _8_connectivity}
};
unsigned length = (unsigned)(R-L);
if( region )
{
area += (int)length + 1;
if( XMax < R ) XMax = R;
if( XMin > L ) XMin = L;
if( YMax < YC ) YMax = YC;
if( YMin > YC ) YMin = YC;
}
for( k = 0; k < 3; k++ )
{
dir = data[k][0];
curstep = dir * step;
img = pImage + (YC + dir) * step;
mask = pMask + (YC + dir) * maskStep;
int left = data[k][1];
int right = data[k][2];
if( fixedRange )
{
for( i = left; i <= right; i++ )
{
if( !mask[i] && DIFF_FLT_C1( img + i*cn, val0 ))
{
int j = i;
mask[i] = newMaskVal;
while( !mask[--j] && DIFF_FLT_C1( img + j*cn, val0 ))
mask[j] = newMaskVal;
while( !mask[++i] && DIFF_FLT_C1( img + i*cn, val0 ))
mask[i] = newMaskVal;
ICV_PUSH( YC + dir, j+1, i-1, L, R, -dir );
}
}
}
else if( !_8_connectivity )
{
for( i = left; i <= right; i++ )
{
if( !mask[i] && DIFF_FLT_C1( img + i*cn, img - curstep + i*cn ))
{
int j = i;
mask[i] = newMaskVal;
while( !mask[--j] && DIFF_FLT_C1( img + j*cn, img + (j+1)*cn ))
mask[j] = newMaskVal;
while( !mask[++i] &&
(DIFF_FLT_C1( img + i*cn, img + (i-1)*cn ) ||
(DIFF_FLT_C1( img + i*cn, img + i*cn - curstep) && i <= R)))
mask[i] = newMaskVal;
ICV_PUSH( YC + dir, j+1, i-1, L, R, -dir );
}
}
}
else
{
for( i = left; i <= right; i++ )
{
int idx;
float val[1];
if( !mask[i] &&
((val[0] = img[i*cn],
(unsigned)(idx = i-L-1) <= length) &&
DIFF_FLT_C1( val, img - curstep + (i-1)*cn ) ||
(unsigned)(++idx) <= length &&
DIFF_FLT_C1( val, img - curstep + i*cn ) ||
(unsigned)(++idx) <= length &&
DIFF_FLT_C1( val, img - curstep + (i+1)*cn )))
{
int j = i;
mask[i] = newMaskVal;
while( !mask[--j] && DIFF_FLT_C1( img + j*cn, img + (j+1)*cn ))
mask[j] = newMaskVal;
while( !mask[++i] &&
((val[0] = img[i*cn],
DIFF_FLT_C1( val, img + (i-1)*cn )) ||
((unsigned)(idx = i-L-1) <= length &&
DIFF_FLT_C1( val, img - curstep + (i-1)*cn )) ||
(unsigned)(++idx) <= length &&
DIFF_FLT_C1( val, img - curstep + i*cn ) ||
(unsigned)(++idx) <= length &&
DIFF_FLT_C1( val, img - curstep + (i+1)*cn )))
mask[i] = newMaskVal;
ICV_PUSH( YC + dir, j+1, i-1, L, R, -dir );
}
}
}
}
img = pImage + YC * step;
if( fillImage )
for( i = L; i <= R; i++ )
img[i] = newVal;
else if( region )
for( i = L; i <= R; i++ )
sum += img[i];
}
if( region )
{
region->area = area;
region->rect.x = XMin;
region->rect.y = YMin;
region->rect.width = XMax - XMin + 1;
region->rect.height = YMax - YMin + 1;
if( fillImage )
region->value = newVal;
else
region->value = area ? ((double)sum)/area : 0;
}
return CV_NO_ERR;
}
/****************************************************************************************\
* External Functions *
\****************************************************************************************/
typedef CvStatus (CV_CDECL* CvFloodFillFunc)(
void* img, int step, CvSize size, CvPoint seed,
void* newval, CvConnectedComp* comp, int flags,
void* buffer, int buffersize );
typedef CvStatus (CV_CDECL* CvFloodFillGradFunc)(
void* img, int step, uchar* mask, int maskStep, CvSize size,
CvPoint seed, void* newval, void* d_lw, void* d_up,
void* ccomp, int flags, void* buffer, int buffersize );
static void icvInitFloodFill( void** ffill_tab,
void** ffillgrad_tab )
{
ffill_tab[0] = (void*)icvFloodFill_8u_C1IR;
ffill_tab[1] = (void*)icvFloodFill_8u_C3IR;
ffill_tab[2] = (void*)icvFloodFill_32f_C1IR;
ffillgrad_tab[0] = (void*)icvFloodFill_Grad_8u_C1IR;
ffillgrad_tab[1] = (void*)icvFloodFill_Grad_8u_C3IR;
ffillgrad_tab[2] = (void*)icvFloodFill_Grad_32f_C1IR;
}
CV_IMPL void
cvFloodFill( CvArr* arr, CvPoint seed_point,
double newVal, double lo_diff, double up_diff,
CvConnectedComp* comp, int flags, CvArr* maskarr )
{
static void* ffill_tab[3];
static void* ffillgrad_tab[3];
static int inittab = 0;
CvMat* tempMask = 0;
CvFFillSegment* buffer = 0;
CV_FUNCNAME( "cvFloodFill" );
__BEGIN__;
int type, is_simple, idx;
int connectivity = flags & 255;
int buffersize;
double nv_buf, ld_buf, ud_buf;
CvSize size;
CvMat stub, *img = (CvMat*)arr;
CvMat maskstub, *mask = (CvMat*)maskarr;
if( !inittab )
{
icvInitFloodFill( ffill_tab, ffillgrad_tab );
inittab = 1;
}
CV_CALL( img = cvGetMat( img, &stub ));
type = CV_MAT_TYPE( img->type );
idx = type == CV_8UC1 ? 0 : type == CV_8UC3 ? 1 : type == CV_32FC1 ? 2 : -1;
if( idx < 0 )
CV_ERROR( CV_StsUnsupportedFormat, "" );
if( connectivity == 0 )
connectivity = 4;
else if( connectivity != 4 && connectivity != 8 )
CV_ERROR( CV_StsBadFlag, "Connectivity must be 4, 0(=4) or 8" );
if( type != CV_8UC3 && (lo_diff < 0 || up_diff < 0) )
CV_ERROR( CV_StsBadArg, "lo_diff and up_diff must be non-negative" );
size = icvGetMatSize( img );
if( (unsigned)seed_point.x >= (unsigned)size.width ||
(unsigned)seed_point.y >= (unsigned)size.height )
CV_ERROR( CV_StsOutOfRange, "Seed point is outside of image" );
is_simple = lo_diff == 0 && up_diff == 0 && mask == 0 &&
(flags & CV_FLOODFILL_MASK_ONLY) == 0;
icvExtractColor( newVal, type, &nv_buf );
buffersize = MAX( size.width, size.height )*2;
CV_CALL( buffer = (CvFFillSegment*)cvAlloc( buffersize*sizeof(buffer[0])));
if( is_simple )
{
CvFloodFillFunc func = (CvFloodFillFunc)ffill_tab[idx];
if( !func )
CV_ERROR( CV_StsUnsupportedFormat, "" );
IPPI_CALL( func( img->data.ptr, img->step, size,
seed_point, &nv_buf, comp, flags,
buffer, buffersize ));
}
else
{
CvFloodFillGradFunc func = (CvFloodFillGradFunc)ffillgrad_tab[idx];
if( !func )
CV_ERROR( CV_StsUnsupportedFormat, "" );
if( !mask )
{
/* created mask will be 8-byte aligned */
tempMask = cvCreateMat( size.height + 2, (size.width + 9) & -8, CV_8UC1 );
mask = tempMask;
}
else
{
CV_CALL( mask = cvGetMat( mask, &maskstub ));
if( !CV_IS_MASK_ARR( mask ))
CV_ERROR( CV_StsBadMask, "" );
if( mask->width != size.width + 2 || mask->height != size.height + 2 )
CV_ERROR( CV_StsUnmatchedSizes, "mask must be 2 pixel wider "
"and 2 pixel taller than filled image" );
}
{
int i, width = tempMask ? mask->step : size.width + 2;
uchar* mask_row = mask->data.ptr + mask->step;
memset( mask_row - mask->step, 1, width );
for( i = 1; i <= size.height; i++, mask_row += mask->step )
{
if( tempMask )
memset( mask_row, 0, width );
mask_row[0] = mask_row[size.width+1] = (uchar)1;
}
memset( mask_row, 1, width );
}
icvExtractColor( lo_diff, type, &ld_buf );
icvExtractColor( up_diff, type, &ud_buf );
IPPI_CALL( func( img->data.ptr, img->step, mask->data.ptr, mask->step,
size, seed_point, &nv_buf, &ld_buf, &ud_buf,
comp, flags, buffer, buffersize ));
}
__END__;
cvFree( (void**)&buffer );
cvReleaseMat( &tempMask );
}
/* End of file. */
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