** This is part of the CTSim program
** Copyright (C) 1983-2000 Kevin Rosenberg
**
-** $Id: procsignal.cpp,v 1.5 2000/08/31 08:38:58 kevin Exp $
+** $Id: procsignal.cpp,v 1.7 2000/09/07 14:29:05 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 IDENTIFICATION
// ProcessSignal
//
-ProcessSignal::ProcessSignal (const char* szFilterName, const char* szFilterMethodName, double dBandwidth, double dSignalIncrement, int nSignalPoints, double dFilterParam, const char* szDomainName, const char* szFilterGenerationName, int iZeropad, int iPreinterpolationFactor, int iTraceLevel, int iGeometry, double dFocalLength)
+ProcessSignal::ProcessSignal (const char* szFilterName, const char* szFilterMethodName, double dBandwidth, double dSignalIncrement, int nSignalPoints, double dFilterParam, const char* szDomainName, const char* szFilterGenerationName, int iZeropad, int iPreinterpolationFactor, int iTraceLevel, int iGeometry, double dFocalLength, SGP* pSGP)
: m_adFourierCosTable(NULL), m_adFourierSinTable(NULL), m_adFilter(NULL), m_fail(false)
{
m_idFilterMethod = convertFilterMethodNameToID (szFilterMethodName);
return;
}
- init (m_idFilter, m_idFilterMethod, dBandwidth, dSignalIncrement, nSignalPoints, dFilterParam, m_idDomain, m_idFilterGeneration, iZeropad, iPreinterpolationFactor, iTraceLevel, iGeometry, dFocalLength);
+ init (m_idFilter, m_idFilterMethod, dBandwidth, dSignalIncrement, nSignalPoints, dFilterParam, m_idDomain, m_idFilterGeneration, iZeropad, iPreinterpolationFactor, iTraceLevel, iGeometry, dFocalLength, pSGP);
}
void
-ProcessSignal::init (const int idFilter, const int idFilterMethod, double dBandwidth, double dSignalIncrement, int nSignalPoints, double dFilterParam, const int idDomain, const int idFilterGeneration, const int iZeropad, const int iPreinterpolationFactor, int iTraceLevel, int iGeometry, double dFocalLength)
+ProcessSignal::init (const int idFilter, const int idFilterMethod, double dBandwidth, double dSignalIncrement, int nSignalPoints, double dFilterParam, const int idDomain, const int idFilterGeneration, const int iZeropad, const int iPreinterpolationFactor, int iTraceLevel, int iGeometry, double dFocalLength, SGP* pSGP)
{
m_idFilter = idFilter;
m_idDomain = idDomain;
m_adFilter = new double[ m_nFilterPoints ];
double adFrequencyFilter [m_nFilterPoints];
filter.copyFilterData (adFrequencyFilter, 0, m_nFilterPoints);
- if (m_traceLevel >= Trace::TRACE_PLOT) {
- SGPDriver sgpDriver ("Frequency Filter: Natural Order");
- SGP sgp (sgpDriver);
- EZPlot ezplot (sgp);
-
- ezplot.ezset ("title Filter Response: Natural Order");
- ezplot.addCurve (adFrequencyFilter, m_nFilterPoints);
- ezplot.plot();
- cio_put_str ("Press any key to continue");
- cio_kb_getc ();
+#ifdef HAVE_SGP
+ EZPlot* pEZPlot = NULL;
+ if (pSGP && m_traceLevel >= Trace::TRACE_PLOT) {
+ pEZPlot = new EZPlot (*pSGP);
+ pEZPlot->ezset ("title Filter Response: Natural Order");
+ pEZPlot->ezset ("ylength 0.25");
+ pEZPlot->addCurve (adFrequencyFilter, m_nFilterPoints);
+ pEZPlot->plot();
}
-
+#endif
shuffleNaturalToFourierOrder (adFrequencyFilter, m_nFilterPoints);
- if (m_traceLevel >= Trace::TRACE_PLOT) {
- SGPDriver sgpDriver ("Frequency Filter: Fourier Order");
- SGP sgp (sgpDriver);
- EZPlot ezplot (sgp);
-
- ezplot.ezset ("title Filter Response: Fourier Order");
- ezplot.addCurve (adFrequencyFilter, m_nFilterPoints);
- ezplot.plot();
- cio_put_str ("Press any key to continue");
- cio_kb_getc ();
+#ifdef HAVE_SGP
+ if (pEZPlot && m_traceLevel >= Trace::TRACE_PLOT) {
+ pEZPlot->ezset ("title Filter Response: Fourier Order");
+ pEZPlot->ezset ("ylength 0.25");
+ pEZPlot->ezset ("yporigin 0.25");
+ pEZPlot->addCurve (adFrequencyFilter, m_nFilterPoints);
+ pEZPlot->plot();
}
+#endif
ProcessSignal::finiteFourierTransform (adFrequencyFilter, m_adFilter, m_nFilterPoints, -1);
- if (m_traceLevel >= Trace::TRACE_PLOT) {
- SGPDriver sgpDriver ("Inverse Fourier Frequency: Fourier Order");
- SGP sgp (sgpDriver);
- EZPlot ezplot (sgp);
-
- ezplot.ezset ("title Inverse Fourier Frequency: Fourier Order");
- ezplot.addCurve (m_adFilter, m_nFilterPoints);
- ezplot.plot();
- cio_put_str ("Press any key to continue");
- cio_kb_getc ();
+#ifdef HAVE_SGP
+ if (pEZPlot && m_traceLevel >= Trace::TRACE_PLOT) {
+ pEZPlot->ezset ("title Inverse Fourier Frequency: Fourier Order");
+ pEZPlot->ezset ("ylength 0.25");
+ pEZPlot->ezset ("yporigin 0.50");
+ pEZPlot->addCurve (m_adFilter, m_nFilterPoints);
+ pEZPlot->plot();
}
+#endif
shuffleFourierToNaturalOrder (m_adFilter, m_nFilterPoints);
- if (m_traceLevel >= Trace::TRACE_PLOT) {
- SGPDriver sgpDriver ("Inverse Fourier Frequency: Natural Order");
- SGP sgp (sgpDriver);
- EZPlot ezplot (sgp);
-
- ezplot.ezset ("title Inverse Fourier Frequency: Natural Order");
- ezplot.addCurve (m_adFilter, m_nFilterPoints);
- ezplot.plot();
- cio_put_str ("Press any key to continue");
- cio_kb_getc ();
+#ifdef HAVE_SGP
+ if (pEZPlot && m_traceLevel >= Trace::TRACE_PLOT) {
+ pEZPlot->ezset ("title Inverse Fourier Frequency: Natural Order");
+ pEZPlot->ezset ("ylength 0.25");
+ pEZPlot->ezset ("yporigin 0.75");
+ pEZPlot->addCurve (m_adFilter, m_nFilterPoints);
+ pEZPlot->plot();
+ delete pEZPlot;
}
+#endif
for (int i = 0; i < m_nFilterPoints; i++) {
m_adFilter[i] /= m_dSignalInc;
}
nextPowerOf2++;
nextPowerOf2 += (m_iZeropad - 1);
m_nFilterPoints = 1 << nextPowerOf2;
+#ifdef DEBUG
if (m_traceLevel >= Trace::TRACE_CONSOLE)
- cout << "nFilterPoints = " << m_nFilterPoints << endl;
+ cout << "nFilterPoints = " << m_nFilterPoints << endl;
+#endif
}
m_nOutputPoints = m_nFilterPoints * m_iPreinterpolationFactor;
m_adFilter = new double [m_nFilterPoints];
filter.copyFilterData (m_adFilter, 0, m_nFilterPoints);
+ // This doesn't work!
+ // Need to add filtering for divergent geometries & Frequency/Direct filtering
if (m_idGeometry == Scanner::GEOMETRY_EQUILINEAR) {
for (int i = 0; i < m_nFilterPoints; i++)
m_adFilter[i] *= 0.5;
else
sinScale = (iDetFromZero * m_dSignalInc) / sinScale;
double dScale = 0.5 * sinScale * sinScale;
- // m_adFilter[i] *= dScale;
+ m_adFilter[i] *= dScale;
}
}
- if (m_traceLevel >= Trace::TRACE_PLOT) {
- SGPDriver sgpDriver ("Frequency Filter: Natural Order");
- SGP sgp (sgpDriver);
- EZPlot ezplot (sgp);
-
- ezplot.ezset ("title Filter Filter: Natural Order");
- ezplot.addCurve (m_adFilter, m_nFilterPoints);
- ezplot.plot();
- cio_put_str ("Press any key to continue");
- cio_kb_getc ();
+#ifdef HAVE_SGP
+ EZPlot* pEZPlot = NULL;
+ if (pSGP && m_traceLevel >= Trace::TRACE_PLOT) {
+ pEZPlot = new EZPlot (*pSGP);
+ pEZPlot->ezset ("title Filter Filter: Natural Order");
+ pEZPlot->ezset ("ylength 0.50");
+ pEZPlot->ezset ("yporigin 0.00");
+ pEZPlot->addCurve (m_adFilter, m_nFilterPoints);
+ pEZPlot->plot();
}
+#endif
shuffleNaturalToFourierOrder (m_adFilter, m_nFilterPoints);
- if (m_traceLevel >= Trace::TRACE_PLOT) {
- SGPDriver sgpDriver ("Frequency Filter: Fourier Order");
- SGP sgp (sgpDriver);
- EZPlot ezplot (sgp);
-
- ezplot.ezset ("title Filter Filter: Fourier Order");
- ezplot.addCurve (m_adFilter, m_nFilterPoints);
- ezplot.plot();
- cio_put_str ("Press any key to continue");
- cio_kb_getc ();
- }
+#ifdef HAVE_SGP
+ if (pEZPlot && m_traceLevel >= Trace::TRACE_PLOT) {
+ pEZPlot->ezset ("title Filter Filter: Fourier Order");
+ pEZPlot->ezset ("ylength 0.50");
+ pEZPlot->ezset ("yporigin 0.50");
+ pEZPlot->addCurve (m_adFilter, m_nFilterPoints);
+ pEZPlot->plot();
+ delete pEZPlot;
+ }
+#endif
} else if (m_idFilterGeneration == FILTER_GENERATION_INVERSE_FOURIER) {
// calculate number of filter points with zeropadding
int nSpatialPoints = 2 * (m_nSignalPoints - 1) + 1;
m_nFilterPoints = 1 << nextPowerOf2;
}
m_nOutputPoints = m_nFilterPoints * m_iPreinterpolationFactor;
+#ifdef DEBUG
if (m_traceLevel >= Trace::TRACE_CONSOLE)
cout << "nFilterPoints = " << m_nFilterPoints << endl;
+#endif
double adSpatialFilter [m_nFilterPoints];
SignalFilter filter (m_idFilter, m_dFilterMin, m_dFilterMax, nSpatialPoints, m_dBandwidth, m_dFilterParam, SignalFilter::DOMAIN_SPATIAL);
filter.copyFilterData (adSpatialFilter, 0, nSpatialPoints);
- if (m_traceLevel >= Trace::TRACE_PLOT) {
- SGPDriver sgpDriver ("Spatial Filter: Natural Order");
- SGP sgp (sgpDriver);
- EZPlot ezplot (sgp);
-
- ezplot.ezset ("title Spatial Filter: Natural Order");
- ezplot.addCurve (adSpatialFilter, nSpatialPoints);
- ezplot.plot();
- cio_put_str ("Press any key to continue");
- cio_kb_getc ();
+#ifdef HAVE_SGP
+ EZPlot* pEZPlot = NULL;
+ if (pSGP && m_traceLevel >= Trace::TRACE_PLOT) {
+ pEZPlot = new EZPlot (*pSGP);
+ pEZPlot->ezset ("title Spatial Filter: Natural Order");
+ pEZPlot->ezset ("ylength 0.50");
+ pEZPlot->ezset ("yporigin 0.00");
+ pEZPlot->addCurve (adSpatialFilter, nSpatialPoints);
+ pEZPlot->plot();
+ delete pEZPlot;
}
+#endif
if (m_idGeometry == Scanner::GEOMETRY_EQUILINEAR) {
for (int i = 0; i < m_nFilterPoints; i++)
adSpatialFilter[i] *= 0.5;
finiteFourierTransform (adSpatialFilter, acInverseFilter, m_nFilterPoints, 1);
for (int i = 0; i < m_nFilterPoints; i++)
m_adFilter[i] = abs(acInverseFilter[i]) * m_dSignalInc;
- if (m_traceLevel >= Trace::TRACE_PLOT) {
- SGPDriver sgpDriver ("Spatial Filter: Inverse");
- SGP sgp (sgpDriver);
- EZPlot ezplot (sgp);
-
- ezplot.ezset ("title Spatial Filter: Inverse");
- ezplot.addCurve (m_adFilter, m_nFilterPoints);
- ezplot.plot();
- cio_put_str ("Press any key to continue");
- cio_kb_getc ();
+#ifdef HAVE_SGP
+ if (pEZPlot && m_traceLevel >= Trace::TRACE_PLOT) {
+ pEZPlot->ezset ("title Spatial Filter: Inverse");
+ pEZPlot->ezset ("ylength 0.50");
+ pEZPlot->ezset ("yporigin 0.50");
+ pEZPlot->addCurve (m_adFilter, m_nFilterPoints);
+ pEZPlot->plot();
+ delete pEZPlot;
}
+#endif
}
}