//# SpectralElement.h: Describes (a set of related) spectral lines
//# Copyright (C) 2001,2003,2004
//# Associated Universities, Inc. Washington DC, USA.
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//# $Id: SpectralElement.h 20652 2009-07-06 05:04:32Z Malte.Marquarding $
#ifndef COMPONENTS_LOGTRANSFORMEDPOLYNOMIALSPECTRALELEMENT_H
#define COMPONENTS_LOGTRANSFORMEDPOLYNOMIALSPECTRALELEMENT_H
#include <components/SpectralComponents/PolynomialSpectralElement.h>
namespace casa { //# NAMESPACE CASA - BEGIN
// <summary>
// Describes the often used for determining spectral index plus higher order terms:
// y = log (S_x) = ln(c_0) + c_1*ln(x) + c_2*ln(x)**2 + c_3*ln(x)**3 + ...
// where c_1 is the traditional spectral index (alpha).
// </summary>
// <use visibility=export>
// <reviewed reviewer="" date="yyyy/mm/dd" tests="tSpectralFit" demos="">
// </reviewed>
// <prerequisite>
// <li> <linkto module=SpectralElement>SpectralElement</linkto> module
// </prerequisite>
//
// <etymology>
// From power law, logarithm, and polynomial and spectral line and element
// </etymology>
//
// <synopsis>
// Describes a function that can be used to fit for spectral index and higher order terms.
// The implementation simply subclasses PolynomialSpectralElement since that's all this function
// really is, whicht the exception the the lhs is ln(y) not y. This means it's the fitter
// configurator's responsibility to pass in the ln of the actual ordinate values and the ln
// of the abscissa values, not the ordinate and abscissa values themselves. Essentially, this
// class differs from PolynomialSpectralElement in its type and its stream operator.
// </synopsis>
//
// <example>
// </example>
//
// <motivation>
// To have a spectral element representing a spectral index function.
// </motivation>
class LogTransformedPolynomialSpectralElement: public PolynomialSpectralElement {
public:
// Constructor. The n coefficients c_i to be solved for are
// c_0 + c_1 * ln(x) + c_2 * ln(x)**2 + c_3 * ln(x)**3 + ... c_(n-1)*ln(x)**(n-1)
// where x = nu/nu0. <src> order</order> is the polynomial, so the actual
// function will have order+1 coefficients
explicit LogTransformedPolynomialSpectralElement(casacore::uInt order);
// Construct with the given parameters. See above constructor for
// order in which the parameters should be supplied.
LogTransformedPolynomialSpectralElement(const casacore::Vector<casacore::Double> ¶m);
// Copy constructor (deep copy)
LogTransformedPolynomialSpectralElement(const LogTransformedPolynomialSpectralElement &other);
~LogTransformedPolynomialSpectralElement();
LogTransformedPolynomialSpectralElement &operator=(
const LogTransformedPolynomialSpectralElement& other
);
SpectralElement* clone() const;
};
std::ostream &operator<<(
std::ostream &os, const LogTransformedPolynomialSpectralElement &elem
);
} //# NAMESPACE CASA - END
#endif