** This is part of the CTSim program
** Copyright (c) 1983-2001 Kevin Rosenberg
**
-** $Id: backprojectors.cpp,v 1.29 2001/03/01 07:30:49 kevin Exp $
+** $Id$
**
** 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
******************************************************************************/
#include "ct.h"
+#include "interpolator.h"
const int Backprojector::BPROJ_INVALID = -1;
const int Backprojector::BPROJ_TRIG = 0;
const char* const Backprojector::s_aszBackprojectName[] =
{
- {"trig"},
- {"table"},
- {"diff"},
- {"idiff"},
+ "trig",
+ "table",
+ "diff",
+ "idiff",
};
const char* const Backprojector::s_aszBackprojectTitle[] =
{
- {"Direct Trigometric"},
- {"Trigometric Table"},
- {"Difference Iteration"},
- {"Integer Difference Iteration"},
+ "Direct Trigometric",
+ "Trigometric Table",
+ "Difference Iteration",
+ "Integer Difference Iteration",
};
const int Backprojector::s_iBackprojectCount = sizeof(s_aszBackprojectName) / sizeof(const char*);
const char* const Backprojector::s_aszInterpName[] =
{
- {"nearest"},
- {"linear"},
- {"cubic"},
+ "nearest",
+ "linear",
+ "cubic",
#if HAVE_FREQ_PREINTERP
- {"freq_preinterpolationj"},
+ "freq_preinterpolationj",
#endif
#if HAVE_BSPLINE_INTERP
- {"bspline"},
- {"1bspline"},
- {"2bspline"},
- {"3bspline"},
+ "bspline",
+ "1bspline",
+ "2bspline",
+ "3bspline",
#endif
};
const char* const Backprojector::s_aszInterpTitle[] =
{
- {"Nearest"},
- {"Linear"},
- {"Cubic"},
+ "Nearest",
+ "Linear",
+ "Cubic",
#if HAVE_FREQ_PREINTERP
- {"Frequency Preinterpolation"},
+ "Frequency Preinterpolation",
#endif
#if HAVE_BSPLINE_INTERP
- {"B-Spline"},
- {"B-Spline 1st Order"},
- {"B-Spline 2nd Order"},
- {"B-Spline 3rd Order"},
+ "B-Spline",
+ "B-Spline 1st Order",
+ "B-Spline 2nd Order",
+ "B-Spline 3rd Order",
#endif
};
-Backprojector::Backprojector (const Projections& proj, ImageFile& im, const char* const backprojName, const char* const interpName, const int interpFactor)
+Backprojector::Backprojector (const Projections& proj, ImageFile& im, const char* const backprojName,
+ const char* const interpName, const int interpFactor, const ReconstructionROI* pROI)
{
m_fail = false;
m_pBackprojectImplem = NULL;
- initBackprojector (proj, im, backprojName, interpName, interpFactor);
+ initBackprojector (proj, im, backprojName, interpName, interpFactor, pROI);
}
void
// and initializes the backprojector
bool
-Backprojector::initBackprojector (const Projections& proj, ImageFile& im, const char* const backprojName, const char* const interpName, const int interpFactor)
+Backprojector::initBackprojector (const Projections& proj, ImageFile& im, const char* const backprojName,
+ const char* const interpName, const int interpFactor, const ReconstructionROI* pROI)
{
m_nameBackproject = backprojName;
m_nameInterpolation = interpName;
}
if (proj.geometry() == Scanner::GEOMETRY_EQUILINEAR)
- m_pBackprojectImplem = static_cast<Backproject*>(new BackprojectEquilinear(proj, im, m_idInterpolation, interpFactor));
+ m_pBackprojectImplem = static_cast<Backproject*>(new BackprojectEquilinear(proj, im, m_idInterpolation, interpFactor, pROI));
else if (proj.geometry() == Scanner::GEOMETRY_EQUIANGULAR)
- m_pBackprojectImplem = static_cast<Backproject*>(new BackprojectEquiangular(proj, im, m_idInterpolation, interpFactor));
+ m_pBackprojectImplem = static_cast<Backproject*>(new BackprojectEquiangular(proj, im, m_idInterpolation, interpFactor, pROI));
else if (proj.geometry() == Scanner::GEOMETRY_PARALLEL) {
if (m_idBackproject == BPROJ_TRIG)
- m_pBackprojectImplem = static_cast<Backproject*>(new BackprojectTrig (proj, im, m_idInterpolation, interpFactor));
+ m_pBackprojectImplem = static_cast<Backproject*>(new BackprojectTrig (proj, im, m_idInterpolation, interpFactor, pROI));
else if (m_idBackproject == BPROJ_TABLE)
- m_pBackprojectImplem = static_cast<Backproject*>(new BackprojectTable (proj, im, m_idInterpolation, interpFactor));
+ m_pBackprojectImplem = static_cast<Backproject*>(new BackprojectTable (proj, im, m_idInterpolation, interpFactor, pROI));
else if (m_idBackproject == BPROJ_DIFF)
- m_pBackprojectImplem = static_cast<Backproject*>(new BackprojectDiff (proj, im, m_idInterpolation, interpFactor));
+ m_pBackprojectImplem = static_cast<Backproject*>(new BackprojectDiff (proj, im, m_idInterpolation, interpFactor, pROI));
else if (m_idBackproject == BPROJ_IDIFF)
- m_pBackprojectImplem = static_cast<Backproject*>(new BackprojectIntDiff (proj, im, m_idInterpolation, interpFactor));
+ m_pBackprojectImplem = static_cast<Backproject*>(new BackprojectIntDiff (proj, im, m_idInterpolation, interpFactor, pROI));
} else {
m_fail = true;
m_failMessage = "Unable to select a backprojection method [Backprojector::initBackprojector]";
// PURPOSE
// Pure virtual base class for all backprojectors.
-Backproject::Backproject (const Projections& proj, ImageFile& im, int interpType, const int interpFactor)
+Backproject::Backproject (const Projections& proj, ImageFile& im, int interpType, const int interpFactor,
+ const ReconstructionROI* pROI)
: proj(proj), im(im), interpType(interpType), m_interpFactor(interpFactor), m_bPostProcessingDone(false)
{
detInc = proj.detInc();
yMin = -proj.phmLen() / 2;
yMax = yMin + proj.phmLen();
+ if (pROI) {
+ if (pROI->m_dXMin > xMin)
+ xMin = pROI->m_dXMin;
+ if (pROI->m_dXMax < xMax)
+ xMax = pROI->m_dXMax;
+ if (pROI->m_dYMin > yMin)
+ yMin = pROI->m_dYMin;
+ if (pROI->m_dYMax < yMax)
+ yMax = pROI->m_dYMax;
+
+ if (xMin > xMax) {
+ double temp = xMin;
+ xMin = xMax;
+ xMax = temp;
+ }
+ if (yMin > yMax) {
+ double temp = yMin;
+ yMin = yMax;
+ yMax = temp;
+ }
+ }
+
xInc = (xMax - xMin) / nx; // size of cells
yInc = (yMax - yMin) / ny;
+ im.setAxisIncrement (xInc, yInc);
+ im.setAxisExtent (xMin, xMax, yMin, yMax);
+
m_dFocalLength = proj.focalLength();
m_dSourceDetectorLength = proj.sourceDetectorLength();
}
double frac = p - pFloor; // fraction distance from det
if (iDetPos >= 0 && iDetPos < nDet - 1)
v[ix][iy] += rotScale * ((1-frac) * filteredProj[iDetPos] + frac * filteredProj[iDetPos+1]);
- } else if (interpType = Backprojector::INTERP_CUBIC) {
+ } else if (interpType == Backprojector::INTERP_CUBIC) {
double p = iDetCenter + (L / detInc); // position along detector
if (p >= 0 && p < nDet)
v[ix][iy] += rotScale * pCubicInterp->interpolate (p);
// PURPOSE
// Precalculates trigometric function value for each point in image for backprojection.
-BackprojectTable::BackprojectTable (const Projections& proj, ImageFile& im, int interpType, const int interpFactor)
-: Backproject (proj, im, interpType, interpFactor)
+BackprojectTable::BackprojectTable (const Projections& proj, ImageFile& im, int interpType,
+ const int interpFactor, const ReconstructionROI* pROI)
+: Backproject (proj, im, interpType, interpFactor, pROI)
{
arrayR.initSetSize (im.nx(), im.ny());
arrayPhi.initSetSize (im.nx(), im.ny());
double frac = dPos - dPosFloor; // fraction distance from det
if (iDetPos >= 0 && iDetPos < nDet - 1)
pImCol[iy] += ((1-frac) * filteredProj[iDetPos] + frac * filteredProj[iDetPos+1]);
- } else if (interpType = Backprojector::INTERP_CUBIC) {
+ } else if (interpType == Backprojector::INTERP_CUBIC) {
double p = iDetCenter + (L / detInc); // position along detector
if (p >= 0 && p < nDet)
pImCol[iy] += pCubicInterp->interpolate (p);
// Backprojects by precalculating the change in L position for each x & y step in the image.
// Iterates in x & y direction by adding difference in L position
-BackprojectDiff::BackprojectDiff (const Projections& proj, ImageFile& im, int interpType, const int interpFactor)
-: Backproject (proj, im, interpType, interpFactor)
+BackprojectDiff::BackprojectDiff (const Projections& proj, ImageFile& im, int interpType,
+ const int interpFactor, const ReconstructionROI* pROI)
+: Backproject (proj, im, interpType, interpFactor, pROI)
{
// calculate center of first pixel v[0][0]
double x = xMin + xInc / 2;
double frac = curDetPos - detPosFloor; // fraction distance from det
if (iDetPos > 0 && iDetPos < nDet - 1)
*pImCol++ += filteredProj[iDetPos] + (frac * (filteredProj[iDetPos+1] - filteredProj[iDetPos]));
- } else if (interpType = Backprojector::INTERP_CUBIC) {
+ } else if (interpType == Backprojector::INTERP_CUBIC) {
double p = iDetCenter + curDetPos; // position along detector
if (p >= 0 && p < nDet)
*pImCol++ += pCubicInterp->interpolate (p);
if (iDetPos >= 0 && iDetPos <= iLastDet)
*pImCol++ += filteredProj[iDetPos] + (detRemainder * deltaFilteredProj[iDetPos]);
} // end for iy
- } else if (interpType = Backprojector::INTERP_CUBIC) {
+ } else if (interpType == Backprojector::INTERP_CUBIC) {
for (int iy = 0; iy < ny; iy++, curDetPos += det_dy) {
*pImCol++ += pCubicInterp->interpolate (static_cast<double>(curDetPos) / 65536);
}
projects / ctsim.git / blobdiff