** This is part of the CTSim program
** Copyright (C) 1983-2000 Kevin Rosenberg
**
-** $Id: projections.cpp,v 1.22 2000/08/25 15:59:13 kevin Exp $
+** $Id: projections.cpp,v 1.23 2000/08/27 20:32:55 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
m_phmLen = scanner.phmLen();
m_rotInc = scanner.rotInc();
m_detInc = scanner.detInc();
+ m_focalLength = scanner.focalLength();
+ m_fieldOfView = scanner.fieldOfView();
m_rotStart = 0;
m_detStart = -(scanner.detLen() / 2) + (scanner.detInc() / 2);
}
kfloat64 _detStart = m_detStart;
kfloat64 _detInc = m_detInc;
kfloat64 _phmLen = m_phmLen;
-
+ kfloat64 _fieldOfView = m_fieldOfView;
+ kfloat64 _focalLength = m_focalLength;
+
fs.seekp(0);
if (! fs)
return false;
fs.writeFloat64 (_detStart);
fs.writeFloat64 (_detInc);
fs.writeFloat64 (_phmLen);
+ fs.writeFloat64 (_focalLength);
+ fs.writeFloat64 (_fieldOfView);
fs.writeInt16 (_year);
fs.writeInt16 (_month);
fs.writeInt16 (_day);
{
kuint16 _hsize, _signature, _year, _month, _day, _hour, _minute, _second, _remarksize = 0;
kuint32 _nView, _nDet, _geom;
- kfloat64 _calcTime, _rotStart, _rotInc, _detStart, _detInc, _phmLen;
+ kfloat64 _calcTime, _rotStart, _rotInc, _detStart, _detInc, _phmLen, _focalLength, _fieldOfView;
fs.seekg(0);
if (! fs)
fs.readFloat64 (_detStart);
fs.readFloat64 (_detInc);
fs.readFloat64 (_phmLen);
+ fs.readFloat64 (_focalLength);
+ fs.readFloat64 (_fieldOfView);
fs.readInt16 (_year);
fs.readInt16 (_month);
fs.readInt16 (_day);
m_detStart = _detStart;
m_detInc = _detInc;
m_phmLen = _phmLen;
+ m_focalLength = _focalLength;
+ m_fieldOfView = _fieldOfView;
m_year = _year;
m_month = _month;
m_day = _day;
{
printf("Projections Print\n\n");
printf("Description: %s\n", m_remark.c_str());
- printf("nView = %d nDet = %d\n", m_nView, m_nDet);
- printf("rotStart = %8.4f rotInc = %8.4f\n", m_rotStart, m_rotInc);
- printf("detStart = %8.4f detInc = %8.4f\n", m_detStart, m_detInc);
-
+ printf("nView = %8d nDet = %8d\n", m_nView, m_nDet);
+ printf("rotStart = %8.4f rotInc = %8.4f\n", m_rotStart, m_rotInc);
+ printf("detStart = %8.4f detInc = %8.4f\n", m_detStart, m_detInc);
+ printf("focalLength = %8.4f fieldOfView = %8.4f\n", m_focalLength, m_fieldOfView);
if (m_projData != NULL) {
for (int ir = 0; ir < m_nView; ir++) {
DetectorValue* detval = m_projData[ir]->detValues();
#endif
double filterBW = 1. / detInc;
- ProcessSignal processSignal (filterName, filterMethodName, filterBW, m_detInc, m_nDet, filt_param, "spatial", filterGenerationName, zeropad, interpFactor, trace);
+ ProcessSignal processSignal (filterName, filterMethodName, filterBW, m_detInc, m_nDet, filt_param, "spatial", filterGenerationName, zeropad, interpFactor, trace, m_geometry);
if (processSignal.fail()) {
sys_error (ERR_SEVERE, "%s [Projections::reconstruct]", processSignal.failMessage().c_str());
int nVecFilter = processSignal.getNFilterPoints();
double plot_xaxis [nVecFilter]; // array for plotting
- if (trace > TRACE_TEXT && nVecFilter > 0) {
+ if (trace > Trace::TRACE_CONSOLE && nVecFilter > 0) {
int i;
double f;
double filterInc = processSignal.getFilterIncrement();
cio_kb_getc ();
}
}
- if (trace >= TRACE_TEXT) {
+ if (trace >= Trace::TRACE_CONSOLE) {
printf ("nview=%d, ndet=%d, det_start=%.4f, detInc=%.4f\n", m_nView, m_nDet, m_detStart, m_detInc);
}
#endif //HAVE_SGP
}
for (int iview = 0; iview < m_nView; iview++) {
- if (trace >= TRACE_TEXT)
+ if (trace >= Trace::TRACE_CONSOLE)
printf ("Reconstructing view %d (last = %d)\n", iview, m_nView - 1);
const DetectorArray& darray = getDetectorArray (iview);
const DetectorValue* detval = darray.detValues();
- processSignal.filterSignal (detval, filteredProj);
+ processSignal.filterSignal (detval, filteredProj, iview);
#ifdef HAVE_BSPLINE_INTERP
if (interp_type == I_BSPLINE)
bspline (m_nDet, zoom_factor, spline_order, filteredProj, filteredProj);
#ifdef HAVE_SGP
- if (trace >= TRACE_PLOT && interp_type == I_BSPLINE) {
+ if (trace >= Trace::TRACE_PLOT && interp_type == I_BSPLINE) {
bspline (m_nDet, zoom_factor, spline_order, filteredProj, filteredProj);
ezplot_1d (filteredProj, n_filteredProj);
}
bj.BackprojectView (filteredProj, darray.viewAngle());
#ifdef HAVE_SGP
- if (trace >= TRACE_PLOT) {
+ if (trace >= Trace::TRACE_PLOT) {
SGPDriver sgpDriverProj ("Projection");
SGP sgpProj (sgpDriverProj);
EZPlot ezplotProj (sgpProj);