Read camshift.cpp located in modules\video\scr\

For example cvCamShift():

```
cvCamShift( const void* imgProb, CvRect windowIn,
CvTermCriteria criteria,
CvConnectedComp* _comp,
CvBox2D* box )
{
const int TOLERANCE = 10;
CvMoments moments;
double m00 = 0, m10, m01, mu20, mu11, mu02, inv_m00;
double a, b, c, xc, yc;
double rotate_a, rotate_c;
double theta = 0, square;
double cs, sn;
double length = 0, width = 0;
int itersUsed = 0;
CvConnectedComp comp;
CvMat cur_win, stub, *mat = (CvMat*)imgProb;
comp.rect = windowIn;
mat = cvGetMat( mat, &stub );
itersUsed = cvMeanShift( mat, windowIn, criteria, &comp );
windowIn = comp.rect;
windowIn.x -= TOLERANCE;
if( windowIn.x < 0 )
windowIn.x = 0;
windowIn.y -= TOLERANCE;
if( windowIn.y < 0 )
windowIn.y = 0;
windowIn.width += 2 * TOLERANCE;
if( windowIn.x + windowIn.width > mat->width )
windowIn.width = mat->width - windowIn.x;
windowIn.height += 2 * TOLERANCE;
if( windowIn.y + windowIn.height > mat->height )
windowIn.height = mat->height - windowIn.y;
cvGetSubRect( mat, &cur_win, windowIn );
/* Calculating moments in new center mass */
cvMoments( &cur_win, &moments );
m00 = moments.m00;
m10 = moments.m10;
m01 = moments.m01;
mu11 = moments.mu11;
mu20 = moments.mu20;
mu02 = moments.mu02;
if( fabs(m00) < DBL_EPSILON )
return -1;
inv_m00 = 1. / m00;
xc = cvRound( m10 * inv_m00 + windowIn.x );
yc = cvRound( m01 * inv_m00 + windowIn.y );
a = mu20 * inv_m00;
b = mu11 * inv_m00;
c = mu02 * inv_m00;
/* Calculating width & height */
square = sqrt( 4 * b * b + (a - c) * (a - c) );
/* Calculating orientation */
theta = atan2( 2 * b, a - c + square );
/* Calculating width & length of figure */
cs = cos( theta );
sn = sin( theta );
rotate_a = cs * cs * mu20 + 2 * cs * sn * mu11 + sn * sn * mu02;
rotate_c = sn * sn * mu20 - 2 * cs * sn * mu11 + cs * cs * mu02;
length = sqrt( rotate_a * inv_m00 ) * 4;
width = sqrt( rotate_c * inv_m00 ) * 4;
/* In case, when tetta is 0 or 1.57... the Length & Width may be exchanged */
if( length < width )
{
double t;
CV_SWAP( length, width, t );
CV_SWAP( cs, sn, t );
theta = CV_PI*0.5 - theta;
}
/* Saving results */
if( _comp || box )
{
int t0, t1;
int _xc = cvRound( xc );
int _yc = cvRound( yc );
t0 = cvRound( fabs( length * cs ));
t1 = cvRound( fabs( width * sn ));
t0 = MAX( t0, t1 ) + 2;
comp.rect.width = MIN( t0, (mat->width - _xc) * 2 );
t0 = cvRound( fabs( length * sn ));
t1 = cvRound( fabs( width * cs ));
t0 = MAX( t0, t1 ) + 2;
comp.rect.height = MIN( t0, (mat->height - _yc) * 2 );
comp.rect.x = MAX( 0, _xc - comp.rect.width / 2 );
comp.rect.y = MAX( 0, _yc - comp.rect.height / 2 );
comp.rect.width = MIN( mat->width - comp.rect.x, comp.rect.width );
comp.rect.height = MIN( mat->height - comp.rect.y, comp.rect.height );
comp.area = (float) m00;
}
if( _comp )
*_comp = comp;
if( box )
{
box->size.height = (float)length;
box->size.width = (float)width;
box->angle = (float)((CV_PI*0.5+theta)*180./CV_PI);
while(box->angle < 0)
box->angle += 360;
while(box->angle >= 360)
box->angle -= 360;
if(box->angle >= 180)
box->angle -= 180;
box->center = cvPoint2D32f( comp.rect.x + comp.rect.width*0.5f,
comp.rect.y + comp.rect.height*0.5f);
}
return itersUsed;
}
```