// probability = (2*pi)^(-dims/2)*exp( -0.5 * cur )
cvConvertScale( &expo, &expo, -0.5 );
- double factor = -double(dims)/2.0 * log(2.0*M_PI);
+ double factor = -double(dims)/2.0 * log(2.0*CV_PI);
cvAndS( &expo, cvScalar(factor), &expo );
// Calculate the log-likelihood of the given sample -
// probability = (2*pi)^(-dims/2)*exp( -0.5 * cur )
cvConvertScale( &expo, &expo, -0.5 );
- double factor = -double(dims)/2.0 * log(2.0*M_PI);
+ double factor = -double(dims)/2.0 * log(2.0*CV_PI);
cvAndS( &expo, cvScalar(factor), &expo );
// Calculate the posterior probability of each component