void Pulsar::ComponentModel::evaluate (float *vals,
unsigned nvals, int icomp_selected)
{
//Construct the summed model
SumRule< Univariate<Scalar> > m;
if (icomp_selected >= 0)
{
check ("evaluate", icomp_selected);
m += components[icomp_selected];
}
else
{
for (unsigned icomp=0; icomp < components.size(); icomp++)
m += components[icomp];
}
// evaluate
Axis<double> argument;
m.set_argument (0, &argument);
for (unsigned i=0; i < nvals; i++)
{
argument.set_value( (i+0.5)/nvals * 2*M_PI );
vals[i] = m.evaluate();
}
}
void Pulsar::ComponentModel::evaluate (float *vals,
unsigned nvals, int icomp_selected)
{
double phase_offset = 0;
if (report_absolute_phases)
phase_offset = phase->get_value().val;
if (verbose)
cerr << "Pulsar::ComponentModel::evaluate"
" phase_offset=" << phase_offset/(2*M_PI) << " turns" << endl;
//Construct the summed model
SumRule< Univariate<Scalar> > m;
if (icomp_selected >= 0)
{
check ("evaluate", icomp_selected);
m += components[icomp_selected];
}
else
{
for (unsigned icomp=0; icomp < components.size(); icomp++)
m += components[icomp];
}
// evaluate
Axis<double> argument;
m.set_argument (0, &argument);
for (unsigned i=0; i < nvals; i++)
{
argument.set_value( (i+0.5)/nvals * 2*M_PI + phase_offset );
vals[i] = m.evaluate();
}
}
