www.pudn.com > OpenCV-Intel.zip > cvgeometry.cpp
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#include "_cv.h"
CV_IMPL CvRect
cvMaxRect( const CvRect* rect1, const CvRect* rect2 )
{
if( rect1 && rect2 )
{
CvRect max_rect;
int a, b;
max_rect.x = a = rect1->x;
b = rect2->x;
if( max_rect.x > b )
max_rect.x = b;
max_rect.width = a += rect1->width;
b += rect2->width;
if( max_rect.width < b )
max_rect.width = b;
max_rect.width -= max_rect.x;
max_rect.y = a = rect1->y;
b = rect2->y;
if( max_rect.y > b )
max_rect.y = b;
max_rect.height = a += rect1->height;
b += rect2->height;
if( max_rect.height < b )
max_rect.height = b;
max_rect.height -= max_rect.y;
return max_rect;
}
else if( rect1 )
return *rect1;
else if( rect2 )
return *rect2;
else
return cvRect(0,0,0,0);
}
CV_IMPL void
cvBoxPoints( CvBox2D box, CvPoint2D32f pt[4] )
{
CV_FUNCNAME( "cvBoxPoints" );
__BEGIN__;
float a = (float)cos(box.angle)*0.5f;
float b = (float)sin(box.angle)*0.5f;
if( !pt )
CV_ERROR( CV_StsNullPtr, "NULL vertex array pointer" );
pt[0].x = box.center.x - a*box.size.height - b*box.size.width;
pt[0].y = box.center.y + b*box.size.height - a*box.size.width;
pt[1].x = box.center.x + a*box.size.height - b*box.size.width;
pt[1].y = box.center.y - b*box.size.height - a*box.size.width;
pt[2].x = 2*box.center.x - pt[0].x;
pt[2].y = 2*box.center.y - pt[0].y;
pt[3].x = 2*box.center.x - pt[1].x;
pt[3].y = 2*box.center.y - pt[1].y;
__END__;
}
int
icvIntersectLines( double x1, double dx1, double y1, double dy1,
double x2, double dx2, double y2, double dy2, double *t2 )
{
double d = dx1 * dy2 - dx2 * dy1;
int result = -1;
if( d != 0 )
{
*t2 = ((x2 - x1) * dy1 - (y2 - y1) * dx1) / d;
result = 0;
}
return result;
}
void
icvCreateCenterNormalLine( CvSubdiv2DEdge edge, double *_a, double *_b, double *_c )
{
CvPoint2D32f org = cvSubdiv2DEdgeOrg( edge )->pt;
CvPoint2D32f dst = cvSubdiv2DEdgeDst( edge )->pt;
double a = dst.x - org.x;
double b = dst.y - org.y;
double c = -(a * (dst.x + org.x) + b * (dst.y + org.y));
*_a = a + a;
*_b = b + b;
*_c = c;
}
void
icvIntersectLines3( double *a0, double *b0, double *c0,
double *a1, double *b1, double *c1, CvPoint2D32f * point )
{
double det = a0[0] * b1[0] - a1[0] * b0[0];
if( det != 0 )
{
det = 1. / det;
point->x = (float) ((b0[0] * c1[0] - b1[0] * c0[0]) * det);
point->y = (float) ((a1[0] * c0[0] - a0[0] * c1[0]) * det);
}
else
{
point->x = point->y = FLT_MAX;
}
}
CV_IMPL double
cvPointPolygonTest( const CvArr* _contour, CvPoint2D32f pt, int measure_dist )
{
double result = 0;
CV_FUNCNAME( "cvCheckPointPolygon" );
__BEGIN__;
CvSeqBlock block;
CvContour header;
CvSeq* contour = (CvSeq*)_contour;
CvSeqReader reader;
int i, total, counter = 0;
int is_float;
double min_dist_num = FLT_MAX, min_dist_denom = 1;
CvPoint ip = {0,0};
if( !CV_IS_SEQ(contour) )
{
CV_CALL( contour = cvPointSeqFromMat( CV_SEQ_KIND_CURVE + CV_SEQ_FLAG_CLOSED,
_contour, &header, &block ));
}
else if( CV_IS_SEQ_POLYGON(contour) )
{
if( contour->header_size == sizeof(CvContour) && !measure_dist )
{
CvRect r = ((CvContour*)contour)->rect;
if( pt.x < r.x || pt.y < r.y ||
pt.x >= r.x + r.width || pt.y >= r.y + r.height )
return -100;
}
}
else if( CV_IS_SEQ_CHAIN(contour) )
{
CV_ERROR( CV_StsBadArg,
"Chains are not supported. Convert them to polygonal representation using cvApproxChains()" );
}
else
CV_ERROR( CV_StsBadArg, "Input contour is neither a valid sequence nor a matrix" );
total = contour->total;
is_float = CV_SEQ_ELTYPE(contour) == CV_32FC2;
cvStartReadSeq( contour, &reader, -1 );
if( !is_float && !measure_dist && (ip.x = cvRound(pt.x)) == pt.x && (ip.y = cvRound(pt.y)) == pt.y )
{
// the fastest "pure integer" branch
CvPoint v0, v;
CV_READ_SEQ_ELEM( v, reader );
for( i = 0; i < total; i++ )
{
int dist;
v0 = v;
CV_READ_SEQ_ELEM( v, reader );
if( v0.y <= ip.y && v.y <= ip.y ||
v0.y > ip.y && v.y > ip.y ||
v0.x < ip.x && v.x < ip.x )
{
if( ip.y == v.y && (ip.x == v.x || ip.y == v0.y &&
(v0.x <= ip.x && ip.x <= v.x || v.x <= ip.x && ip.x <= v0.x)) )
EXIT;
continue;
}
dist = (ip.y - v0.y)*(v.x - v0.x) - (ip.x - v0.x)*(v.y - v0.y);
if( dist == 0 )
EXIT;
if( v.y < v0.y )
dist = -dist;
counter += dist > 0;
}
result = counter % 2 == 0 ? -100 : 100;
}
else
{
CvPoint2D32f v0, v;
CvPoint iv;
if( is_float )
{
CV_READ_SEQ_ELEM( v, reader );
}
else
{
CV_READ_SEQ_ELEM( iv, reader );
v = cvPointTo32f( iv );
}
if( !measure_dist )
{
for( i = 0; i < total; i++ )
{
double dist;
v0 = v;
if( is_float )
{
CV_READ_SEQ_ELEM( v, reader );
}
else
{
CV_READ_SEQ_ELEM( iv, reader );
v = cvPointTo32f( iv );
}
if( v0.y <= pt.y && v.y <= pt.y ||
v0.y > pt.y && v.y > pt.y ||
v0.x < pt.x && v.x < pt.x )
{
if( pt.y == v.y && (pt.x == v.x || pt.y == v0.y &&
(v0.x <= pt.x && pt.x <= v.x || v.x <= pt.x && pt.x <= v0.x)) )
EXIT;
continue;
}
dist = (double)(pt.y - v0.y)*(v.x - v0.x) - (double)(pt.x - v0.x)*(v.y - v0.y);
if( dist == 0 )
EXIT;
if( v.y < v0.y )
dist = -dist;
counter += dist > 0;
}
result = counter % 2 == 0 ? -100 : 100;
}
else
{
for( i = 0; i < total; i++ )
{
double dx, dy, dx1, dy1, dx2, dy2, dist_num, dist_denom = 1;
v0 = v;
if( is_float )
{
CV_READ_SEQ_ELEM( v, reader );
}
else
{
CV_READ_SEQ_ELEM( iv, reader );
v = cvPointTo32f( iv );
}
dx = v.x - v0.x; dy = v.y - v0.y;
dx1 = pt.x - v0.x; dy1 = pt.y - v0.y;
dx2 = pt.x - v.x; dy2 = pt.y - v.y;
if( dx1*dx + dy1*dy <= 0 )
dist_num = dx1*dx1 + dy1*dy1;
else if( dx2*dx + dy2*dy >= 0 )
dist_num = dx2*dx2 + dy2*dy2;
else
{
dist_num = (dy1*dx - dx1*dy);
dist_num *= dist_num;
dist_denom = dx*dx + dy*dy;
}
if( dist_num*min_dist_denom < min_dist_num*dist_denom )
{
min_dist_num = dist_num;
min_dist_denom = dist_denom;
if( min_dist_num == 0 )
break;
}
if( v0.y <= pt.y && v.y <= pt.y ||
v0.y > pt.y && v.y > pt.y ||
v0.x < pt.x && v.x < pt.x )
continue;
dist_num = dy1*dx - dx1*dy;
if( dy < 0 )
dist_num = -dist_num;
counter += dist_num > 0;
}
result = sqrt(min_dist_num/min_dist_denom);
if( counter % 2 == 0 )
result = -result;
}
}
__END__;
return result;
}
/* End of file. */