** This is part of the CTSim program
** Copyright (C) 1983-2000 Kevin Rosenberg
**
-** $Id: procsignal.h,v 1.3 2000/08/27 20:32:54 kevin Exp $
+** $Id: procsignal.h,v 1.5 2000/09/02 05:10:39 kevin Exp $
**
** This program is free software; you can redistribute it and/or modify
** it under the terms of the GNU General Public License (version 2) as
class SignalFilter;
+class SGP;
class ProcessSignal {
public:
static const int FILTER_GENERATION_DIRECT;
static const int FILTER_GENERATION_INVERSE_FOURIER;
- ProcessSignal (const char* szFilterName, const char* szFilterMethodName,double bw, double signalIncrement, int n, double param, const char* szDomainName, const char* szFilterGenerationName, const int zeropad = 0, const int preinterpolationFactor = 1, const int iTraceLevel = Trace::TRACE_NONE, int iGeometry = Scanner::GEOMETRY_PARALLEL);
-
- ProcessSignal (const int idFilter, int idFilterMethod, double dBandwidth, double dSignalIncrement, int nSignalPoints, double dFilterParam, const int idDomain, int idFilterGeneration, const int iZeropad = 0, const int iPreinterpolationFactor = 1, const int iTraceLevel = Trace::TRACE_NONE);
+ ProcessSignal (const char* szFilterName, const char* szFilterMethodName,double bw, double signalIncrement, int n, double param, const char* szDomainName, const char* szFilterGenerationName, const int zeropad = 0, const int preinterpolationFactor = 1, const int iTraceLevel = Trace::TRACE_NONE, int iGeometry = Scanner::GEOMETRY_PARALLEL, double dFocalLength = 1., SGP* pSGP = NULL);
~ProcessSignal();
- void filterSignal (const double input[], double output[], int view =0) const;
- void filterSignal (const float input[], double output[], int view = 0) const;
+ void filterSignal (const float input[], double output[]) const;
bool fail(void) const {return m_fail;}
const string& failMessage(void) const {return m_failMessage;}
int m_nOutputPoints;
int m_iPreinterpolationFactor;
int m_idGeometry;
+ double m_dFocalLength;
bool m_fail;
string m_failMessage;
fftw_plan m_complexPlanForward, m_complexPlanBackward;
#endif
- void init (const int idFilter, int idFilterMethod, double dBandwidth, double dSignalIncrement, int nSignalPoints, double dFilterParam, const int idDomain, int idFilterGeneration, const int iZeropad, const int iPreinterpolationFactor, const int iTraceLevel, const int iGeometry);
+ void init (const int idFilter, int idFilterMethod, double dBandwidth, double dSignalIncrement, int nSignalPoints, double dFilterParam, const int idDomain, int idFilterGeneration, const int iZeropad, const int iPreinterpolationFactor, const int iTraceLevel, const int iGeometry, double dFocalLength, SGP* pSGP);
// transforms that use precalculated trig tables, therefore don't
// require number of data points (n) as an argument
void finiteFourierTransform (const complex<double> input[], complex<double> output[], const int direction) const;
void finiteFourierTransform (const complex<double> input[], double output[], const int direction) const;
+ double convolve (const double func[], const double filter[], const double dx, const int n, const int np) const;
double convolve (const double f[], const double dx, const int n, const int np) const;
double convolve (const float f[], const double dx, const int n, const int np) const;