** This is part of the CTSim program
** Copyright (c) 1983-2001 Kevin Rosenberg
**
-** $Id: views.cpp,v 1.138 2001/03/13 10:35:06 kevin Exp $
+** $Id: views.cpp,v 1.147 2001/09/27 02:11:29 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
#endif
EVT_MENU(IFMENU_FILTER_MAGNITUDE, ImageFileView::OnMagnitude)
EVT_MENU(IFMENU_FILTER_PHASE, ImageFileView::OnPhase)
+EVT_MENU(IFMENU_FILTER_REAL, ImageFileView::OnReal)
+EVT_MENU(IFMENU_FILTER_IMAGINARY, ImageFileView::OnImaginary)
EVT_MENU(IFMENU_PLOT_ROW, ImageFileView::OnPlotRow)
EVT_MENU(IFMENU_PLOT_COL, ImageFileView::OnPlotCol)
#ifdef HAVE_FFT
END_EVENT_TABLE()
ImageFileView::ImageFileView()
-: wxView(), m_pFrame(NULL), m_pCanvas(NULL), m_pFileMenu(0), m_bMinSpecified(false), m_bMaxSpecified(false)
+: wxView(), m_pFrame(NULL), m_pCanvas(NULL), m_pFileMenu(0), m_pFilterMenu(0), m_bMinSpecified(false), m_bMaxSpecified(false)
{
m_iDefaultExportFormatID = ImageFile::EXPORT_FORMAT_PNG;
}
void
ImageFileView::OnMagnitude (wxCommandEvent& event)
+{
+ ImageFile& rIF = GetDocument()->getImageFile();
+ rIF.magnitude (rIF);
+ rIF.labelAdd ("Magnitude");
+ m_bMinSpecified = false;
+ m_bMaxSpecified = false;
+ if (theApp->getAskDeleteNewDocs())
+ GetDocument()->Modify (true);
+ GetDocument()->UpdateAllViews (this);
+ GetDocument()->Activate();
+}
+
+void
+ImageFileView::OnPhase (wxCommandEvent& event)
{
ImageFile& rIF = GetDocument()->getImageFile();
if (rIF.isComplex()) {
- rIF.magnitude (rIF);
- rIF.labelAdd ("Magnitude of complex-image");
+ rIF.phase (rIF);
+ rIF.labelAdd ("Phase of complex-image");
m_bMinSpecified = false;
m_bMaxSpecified = false;
if (theApp->getAskDeleteNewDocs())
}
void
-ImageFileView::OnPhase (wxCommandEvent& event)
+ImageFileView::OnReal (wxCommandEvent& event)
{
ImageFile& rIF = GetDocument()->getImageFile();
if (rIF.isComplex()) {
- rIF.phase (rIF);
- rIF.labelAdd ("Phase of complex-image");
+ rIF.real (rIF);
+ rIF.labelAdd ("Real component of complex-image");
+ m_bMinSpecified = false;
+ m_bMaxSpecified = false;
+ if (theApp->getAskDeleteNewDocs())
+ GetDocument()->Modify (true);
+ GetDocument()->UpdateAllViews (this);
+ }
+ GetDocument()->Activate();
+}
+
+void
+ImageFileView::OnImaginary (wxCommandEvent& event)
+{
+ ImageFile& rIF = GetDocument()->getImageFile();
+ if (rIF.isComplex()) {
+ rIF.imaginary (rIF);
+ rIF.labelAdd ("Imaginary component of complex-image");
m_bMinSpecified = false;
m_bMaxSpecified = false;
if (theApp->getAskDeleteNewDocs())
theApp->setIconForFrame (subframe);
m_pFileMenu = new wxMenu;
-
m_pFileMenu->Append(MAINMENU_FILE_CREATE_PHANTOM, "Cr&eate Phantom...\tCtrl-P");
m_pFileMenu->Append(MAINMENU_FILE_CREATE_FILTER, "Create &Filter...\tCtrl-F");
m_pFileMenu->Append(wxID_OPEN, "&Open...\tCtrl-O");
view_menu->Append(IFMENU_VIEW_SCALE_AUTO, "Display Scale &Auto...\tCtrl-A");
view_menu->Append(IFMENU_VIEW_SCALE_FULL, "Display F&ull Scale\tCtrl-U");
- wxMenu* filter_menu = new wxMenu;
- filter_menu->Append (IFMENU_FILTER_INVERTVALUES, "&Invert Values");
- filter_menu->Append (IFMENU_FILTER_SQUARE, "&Square");
- filter_menu->Append (IFMENU_FILTER_SQRT, "Square &Root");
- filter_menu->Append (IFMENU_FILTER_LOG, "&Log");
- filter_menu->Append (IFMENU_FILTER_EXP, "&Exp");
- filter_menu->AppendSeparator();
+ m_pFilterMenu = new wxMenu;
+ m_pFilterMenu->Append (IFMENU_FILTER_INVERTVALUES, "In&vert Values");
+ m_pFilterMenu->Append (IFMENU_FILTER_SQUARE, "&Square");
+ m_pFilterMenu->Append (IFMENU_FILTER_SQRT, "Square &Root");
+ m_pFilterMenu->Append (IFMENU_FILTER_LOG, "&Log");
+ m_pFilterMenu->Append (IFMENU_FILTER_EXP, "E&xp");
+ m_pFilterMenu->AppendSeparator();
#ifdef HAVE_FFT
- filter_menu->Append (IFMENU_FILTER_FFT, "2-D &FFT");
- filter_menu->Append (IFMENU_FILTER_IFFT, "2-D &IFFT");
- filter_menu->Append (IFMENU_FILTER_FFT_ROWS, "FFT Rows");
- filter_menu->Append (IFMENU_FILTER_IFFT_ROWS, "IFFT Rows");
- filter_menu->Append (IFMENU_FILTER_FFT_COLS, "FFT Columns");
- filter_menu->Append (IFMENU_FILTER_IFFT_COLS, "IFFT Columns");
- filter_menu->Append (IFMENU_FILTER_FOURIER, "2-D F&ourier");
- filter_menu->Append (IFMENU_FILTER_INVERSE_FOURIER, "2-D Inverse Fo&urier");
+ m_pFilterMenu->Append (IFMENU_FILTER_FFT, "2-D &FFT\tCtrl-2");
+ m_pFilterMenu->Append (IFMENU_FILTER_IFFT, "2-D &IFFT\tAlt-2");
+ m_pFilterMenu->Append (IFMENU_FILTER_FFT_ROWS, "FFT Rows");
+ m_pFilterMenu->Append (IFMENU_FILTER_IFFT_ROWS, "IFFT Rows");
+ m_pFilterMenu->Append (IFMENU_FILTER_FFT_COLS, "FFT Columns");
+ m_pFilterMenu->Append (IFMENU_FILTER_IFFT_COLS, "IFFT Columns");
+ m_pFilterMenu->Append (IFMENU_FILTER_FOURIER, "2-D F&ourier");
+ m_pFilterMenu->Append (IFMENU_FILTER_INVERSE_FOURIER, "2-D Inverse Fo&urier");
#else
- filter_menu->Append (IFMENU_FILTER_FOURIER, "&Fourier");
- filter_menu->Append (IFMENU_FILTER_INVERSE_FOURIER, "&Inverse Fourier");
+ m_pFilterMenu->Append (IFMENU_FILTER_FOURIER, "&Fourier");
+ m_pFilterMenu->Append (IFMENU_FILTER_INVERSE_FOURIER, "&Inverse Fourier");
#endif
- filter_menu->Append (IFMENU_FILTER_SHUFFLEFOURIERTONATURALORDER, "S&huffle Fourier to Natural Order");
- filter_menu->Append (IFMENU_FILTER_SHUFFLENATURALTOFOURIERORDER, "Shu&ffle Natural to Fourier Order");
- filter_menu->Append (IFMENU_FILTER_MAGNITUDE, "&Magnitude");
- filter_menu->Append (IFMENU_FILTER_PHASE, "&Phase");
+ m_pFilterMenu->Append (IFMENU_FILTER_SHUFFLEFOURIERTONATURALORDER, "Shuffl&e Fourier to Natural Order");
+ m_pFilterMenu->Append (IFMENU_FILTER_SHUFFLENATURALTOFOURIERORDER, "Shuffle &Natural to Fourier Order");
+ m_pFilterMenu->AppendSeparator();
+ m_pFilterMenu->Append (IFMENU_FILTER_MAGNITUDE, "&Magnitude");
+ m_pFilterMenu->Append (IFMENU_FILTER_PHASE, "&Phase");
+ m_pFilterMenu->Append (IFMENU_FILTER_REAL, "Re&al");
+ m_pFilterMenu->Append (IFMENU_FILTER_IMAGINARY, "Ima&ginary");
wxMenu* image_menu = new wxMenu;
image_menu->Append (IFMENU_IMAGE_ADD, "&Add...");
menu_bar->Append(edit_menu, "&Edit");
menu_bar->Append(view_menu, "&View");
menu_bar->Append(image_menu, "&Image");
- menu_bar->Append(filter_menu, "Fi<er");
+ menu_bar->Append(m_pFilterMenu, "Fi<er");
menu_bar->Append(m_pMenuAnalyze, "&Analyze");
menu_bar->Append(help_menu, "&Help");
subframe->Centre(wxBOTH);
- wxAcceleratorEntry accelEntries[8];
+ wxAcceleratorEntry accelEntries[10];
accelEntries[0].Set (wxACCEL_CTRL, static_cast<int>('A'), IFMENU_VIEW_SCALE_AUTO);
accelEntries[1].Set (wxACCEL_CTRL, static_cast<int>('U'), IFMENU_VIEW_SCALE_FULL);
accelEntries[2].Set (wxACCEL_CTRL, static_cast<int>('E'), IFMENU_VIEW_SCALE_MINMAX);
accelEntries[4].Set (wxACCEL_CTRL, static_cast<int>('C'), IFMENU_EDIT_COPY);
accelEntries[5].Set (wxACCEL_CTRL, static_cast<int>('X'), IFMENU_EDIT_CUT);
accelEntries[6].Set (wxACCEL_CTRL, static_cast<int>('V'), IFMENU_EDIT_PASTE);
+ int iEntry = 7;
+#ifdef HAVE_FFT
+ accelEntries[iEntry++].Set (wxACCEL_CTRL, static_cast<int>('2'), IFMENU_FILTER_FFT);
+ accelEntries[iEntry++].Set (wxACCEL_ALT, static_cast<int>('2'), IFMENU_FILTER_IFFT);
+#endif
#if wxUSE_GLCANVAS
- accelEntries[7].Set (wxACCEL_CTRL, static_cast<int>('3'), IFMENU_IMAGE_CONVERT3D);
- wxAcceleratorTable accelTable (8, accelEntries);
-#else
- wxAcceleratorTable accelTable (7, accelEntries);
+ accelEntries[iEntry++].Set (wxACCEL_CTRL, static_cast<int>('3'), IFMENU_IMAGE_CONVERT3D);
#endif
+ wxAcceleratorTable accelTable (iEntry, accelEntries);
subframe->SetAcceleratorTable (accelTable);
ImageFileView::OnUpdate (wxView *WXUNUSED(sender), wxObject *WXUNUSED(hint) )
{
const ImageFile& rIF = GetDocument()->getImageFile();
+ if (m_pFilterMenu && rIF.isComplex()) {
+ m_pFilterMenu->Enable(IFMENU_FILTER_REAL, true);
+ m_pFilterMenu->Enable(IFMENU_FILTER_IMAGINARY, true);
+ m_pFilterMenu->Enable(IFMENU_FILTER_PHASE, true);
+ } else {
+ m_pFilterMenu->Enable(IFMENU_FILTER_REAL, false);
+ m_pFilterMenu->Enable(IFMENU_FILTER_IMAGINARY, false);
+ m_pFilterMenu->Enable(IFMENU_FILTER_PHASE, false);
+ }
ImageFileArrayConst v = rIF.getArray();
int nx = rIF.nx();
int ny = rIF.ny();
int nx = rIF.nx();
int ny = rIF.ny();
+ bool bMonochrome = false;
+
if (bitmap.Ok() == true && bitmap.GetWidth() == nx && bitmap.GetHeight() == ny) {
wxImage image (bitmap);
+ double dScale3 = 3 * 255;
unsigned char* pixels = image.GetData();
ImageFileArray v = rIF.getArray();
- for (int ix = 0; ix < rIF.nx(); ix++) {
- for (int iy = 0; iy < rIF.ny(); iy++) {
+ for (unsigned int ix = 0; ix < rIF.nx(); ix++) {
+ for (unsigned int iy = 0; iy < rIF.ny(); iy++) {
unsigned int iBase = 3 * (iy * nx + ix);
- double dR = pixels[iBase] / 255.;
- double dG = pixels[iBase+1] / 255.;
- double dB = pixels[iBase+2] / 255.;
- v[ix][ny - 1 - iy] = ImageFile::colorToGrayscale (dR, dG, dB);
+ if (ix == 0 && iy == 0 && (pixels[iBase] == pixels[iBase+1] && pixels[iBase+1] == pixels[iBase+2]))
+ bMonochrome = true;
+ if (bMonochrome) {
+ v[ix][ny - 1 - iy] = (pixels[iBase]+pixels[iBase+1]+pixels[iBase+2]) / dScale3;
+ } else {
+ double dR = pixels[iBase] / 255.;
+ double dG = pixels[iBase+1] / 255.;
+ double dB = pixels[iBase+2] / 255.;
+ v[ix][ny - 1 - iy] = ImageFile::colorToGrayscale (dR, dG, dB);
+ }
}
}
OnUpdate(this, NULL);
strWildcard = "DICOM Files (*.*)|*.*";
}
#endif
+ else if (m_iDefaultExportFormatID == ImageFile::EXPORT_FORMAT_TEXT) {
+ strExt = ".txt";
+ strWildcard = "Text (*.txt)|*.txt";
+ }
else {
strExt = "";
strWildcard = "Miscellaneous (*.*)|*.*";
pcIn[i].im = 0;
}
- fftw_plan plan = fftw_create_plan (nx, FFTW_FORWARD, FFTW_IN_PLACE);
+ fftw_plan plan = fftw_create_plan (nx, FFTW_FORWARD, FFTW_IN_PLACE | FFTW_ESTIMATE | FFTW_USE_WISDOM);
fftw_one (plan, pcIn, NULL);
fftw_destroy_plan (plan);
double* pYMag = new double [nx];
for (i = 0; i < nx; i++) {
pX[i] = i;
- pYReal[i] = pcIn[i].re;
- pYImag[i] = pcIn[i].im;
+ pYReal[i] = pcIn[i].re / nx;
+ pYImag[i] = pcIn[i].im / nx;
pYMag[i] = ::sqrt (pcIn[i].re * pcIn[i].re + pcIn[i].im * pcIn[i].im);
}
Fourier::shuffleFourierToNaturalOrder (pYReal, nx);
for (i = 0; i < ny; i++)
pcIn[i].im = pdTemp[i];
- fftw_plan plan = fftw_create_plan (ny, FFTW_BACKWARD, FFTW_IN_PLACE);
+ fftw_plan plan = fftw_create_plan (ny, FFTW_BACKWARD, FFTW_IN_PLACE | FFTW_ESTIMATE | FFTW_USE_WISDOM);
fftw_one (plan, pcIn, NULL);
fftw_destroy_plan (plan);
double* pYMag = new double [ny];
for (i = 0; i < ny; i++) {
pX[i] = i;
- pYReal[i] = pcIn[i].re;
- pYImag[i] = pcIn[i].im;
+ pYReal[i] = pcIn[i].re / ny;
+ pYImag[i] = pcIn[i].im / ny;
pYMag[i] = ::sqrt (pcIn[i].re * pcIn[i].re + pcIn[i].im * pcIn[i].im);
}
s += rIF.labelGet(iL).getLabelString();
rPlotFile.addDescription (s.c_str());
}
- os << " Plot of " << GetDocument()->GetFirstView()->GetFrame()->GetTitle().c_str();
+ os << " plot of " << GetDocument()->GetFirstView()->GetFrame()->GetTitle().c_str();
*theApp->getLog() << os.str().c_str() << "\n";
rPlotFile.addDescription (os.str().c_str());
delete pX;
int xSize, ySize;
theApp->getMainFrame()->GetClientSize (&xSize, &ySize);
xSize = maxValue<int> (xSize, ySize);
+#ifdef CTSIM_MDI
ySize = xSize = (xSize / 4);
+#else
+ ySize = xSize;
+#endif
return wxSize (xSize, ySize);
}
m_iDefaultNView = 320;
m_iDefaultNSample = 2;
#endif
+ m_iDefaultOffsetView = 0;
m_dDefaultRotation = 1;
m_dDefaultFocalLength = 2;
m_dDefaultCenterDetectorLength = 2;
PhantomFileView::OnProjections (wxCommandEvent& event)
{
DialogGetProjectionParameters dialogProjection (getFrameForChild(),
- m_iDefaultNDet, m_iDefaultNView, m_iDefaultNSample, m_dDefaultRotation,
+ m_iDefaultNDet, m_iDefaultNView, m_iDefaultOffsetView, m_iDefaultNSample, m_dDefaultRotation,
m_dDefaultFocalLength, m_dDefaultCenterDetectorLength, m_dDefaultViewRatio, m_dDefaultScanRatio,
m_iDefaultGeometry, m_iDefaultTrace);
int retVal = dialogProjection.ShowModal();
m_iDefaultNDet = dialogProjection.getNDet();
m_iDefaultNView = dialogProjection.getNView();
+ m_iDefaultOffsetView = dialogProjection.getOffsetView();
m_iDefaultNSample = dialogProjection.getNSamples();
m_iDefaultTrace = dialogProjection.getTrace();
m_dDefaultRotation = dialogProjection.getRotAngle();
return;
const Phantom& rPhantom = GetDocument()->getPhantom();
- Scanner theScanner (rPhantom, sGeometry.c_str(), m_iDefaultNDet, m_iDefaultNView, m_iDefaultNSample,
+ Scanner theScanner (rPhantom, sGeometry.c_str(), m_iDefaultNDet, m_iDefaultNView, m_iDefaultOffsetView, m_iDefaultNSample,
dRotationRadians, m_dDefaultFocalLength, m_dDefaultCenterDetectorLength, m_dDefaultViewRatio, m_dDefaultScanRatio);
if (theScanner.fail()) {
wxString msg = "Failed making scanner\n";
}
std::ostringstream os;
- os << "Projections for " << rPhantom.name() << ": nDet=" << m_iDefaultNDet
- << ", nView=" << m_iDefaultNView << ", nSamples=" << m_iDefaultNSample
- << ", RotAngle=" << m_dDefaultRotation << ", FocalLengthRatio=" << m_dDefaultFocalLength
+ os << "Projections for " << rPhantom.name()
+ << ": nDet=" << m_iDefaultNDet
+ << ", nView=" << m_iDefaultNView
+ << ", gantry offset=" << m_iDefaultOffsetView
+ << ", nSamples=" << m_iDefaultNSample
+ << ", RotAngle=" << m_dDefaultRotation
+ << ", FocalLengthRatio=" << m_dDefaultFocalLength
<< ", CenterDetectorLengthRatio=" << m_dDefaultCenterDetectorLength
- << ", ViewRatio=" << m_dDefaultViewRatio << ", ScanRatio=" << m_dDefaultScanRatio
- << ", Geometry=" << sGeometry.c_str() << ", FanBeamAngle=" <<
- convertRadiansToDegrees (theScanner.fanBeamAngle());
+ << ", ViewRatio=" << m_dDefaultViewRatio
+ << ", ScanRatio=" << m_dDefaultScanRatio
+ << ", Geometry=" << sGeometry.c_str()
+ << ", FanBeamAngle=" << convertRadiansToDegrees (theScanner.fanBeamAngle());
Timer timer;
Projections* pProj = NULL;
#if HAVE_WXTHREADS
if (theApp->getUseBackgroundTasks()) {
ProjectorSupervisorThread* pProjector = new ProjectorSupervisorThread (this, m_iDefaultNDet,
- m_iDefaultNView, sGeometry.c_str(), m_iDefaultNSample, dRotationRadians,
+ m_iDefaultNView, m_iDefaultOffsetView, sGeometry.c_str(), m_iDefaultNSample, dRotationRadians,
m_dDefaultFocalLength, m_dDefaultCenterDetectorLength, m_dDefaultViewRatio, m_dDefaultScanRatio, os.str().c_str());
if (pProjector->Create() != wxTHREAD_NO_ERROR) {
sys_error (ERR_SEVERE, "Error creating projector thread");
pProj->initFromScanner (theScanner);
wxProgressDialog dlgProgress (wxString("Projection"), wxString("Projection Progress"), pProj->nView() + 1, getFrameForChild(), wxPD_CAN_ABORT );
for (int i = 0; i < pProj->nView(); i++) {
- theScanner.collectProjections (*pProj, rPhantom, i, 1, true, m_iDefaultTrace);
+ //theScanner.collectProjections (*pProj, rPhantom, i, 1, true, m_iDefaultTrace);
+ theScanner.collectProjections (*pProj, rPhantom, i, 1, theScanner.offsetView(), true, m_iDefaultTrace);
if (! dlgProgress.Update (i+1)) {
delete pProj;
return;
EVT_MENU(PJMENU_RECONSTRUCT_FBP, ProjectionFileView::OnReconstructFBP)
EVT_MENU(PJMENU_RECONSTRUCT_FBP_REBIN, ProjectionFileView::OnReconstructFBPRebin)
EVT_MENU(PJMENU_RECONSTRUCT_FOURIER, ProjectionFileView::OnReconstructFourier)
+EVT_MENU(PJMENU_CONVERT_RECTANGULAR, ProjectionFileView::OnConvertRectangular)
EVT_MENU(PJMENU_CONVERT_POLAR, ProjectionFileView::OnConvertPolar)
EVT_MENU(PJMENU_CONVERT_FFT_POLAR, ProjectionFileView::OnConvertFFTPolar)
EVT_MENU(PJMENU_CONVERT_PARALLEL, ProjectionFileView::OnConvertParallel)
EVT_MENU(PJMENU_PLOT_TTHETA_SAMPLING, ProjectionFileView::OnPlotTThetaSampling)
+EVT_MENU(PJMENU_PLOT_HISTOGRAM, ProjectionFileView::OnPlotHistogram)
EVT_MENU(PJMENU_ARTIFACT_REDUCTION, ProjectionFileView::OnArtifactReduction)
END_EVENT_TABLE()
}
+void
+ProjectionFileView::OnConvertRectangular (wxCommandEvent& event)
+{
+ Projections& rProj = GetDocument()->getProjections();
+
+ int nDet = rProj.nDet();
+ int nView = rProj.nView();
+ ImageFile* pIF = new ImageFile (nDet, nView);
+ ImageFileArray v = pIF->getArray();
+ for (int iv = 0; iv < nView; iv++) {
+ DetectorValue* detval = rProj.getDetectorArray(iv).detValues();
+
+ for (int id = 0; id < nDet; id++)
+ v[id][iv] = detval[id];
+ }
+
+ ImageFileDocument* pRectDoc = theApp->newImageDoc ();
+ if (! pRectDoc) {
+ sys_error (ERR_SEVERE, "Unable to create image file");
+ return;
+ }
+ pRectDoc->setImageFile (pIF);
+ pIF->labelAdd (rProj.getLabel().getLabelString().c_str(), rProj.calcTime());
+ std::ostringstream os;
+ os << "Convert projection file " << GetFrame()->GetTitle().c_str() << " to rectangular image";
+ *theApp->getLog() << os.str().c_str() << "\n";
+ pIF->labelAdd (os.str().c_str());
+ if (theApp->getAskDeleteNewDocs())
+ pRectDoc->Modify (true);
+ pRectDoc->getView()->getFrame()->Show(true);
+ pRectDoc->UpdateAllViews ();
+ pRectDoc->Activate();
+}
+
void
ProjectionFileView::OnConvertPolar (wxCommandEvent& event)
{
Projections& rProj = GetDocument()->getProjections();
DialogGetConvertPolarParameters dialogPolar (getFrameForChild(), "Convert Polar", m_iDefaultPolarNX, m_iDefaultPolarNY,
- m_iDefaultPolarInterpolation, -1);
+ m_iDefaultPolarInterpolation, -1, IDH_DLG_POLAR);
if (dialogPolar.ShowModal() == wxID_OK) {
wxProgressDialog dlgProgress (wxString("Convert Polar"), wxString("Conversion Progress"), 1, getFrameForChild(), wxPD_APP_MODAL);
wxString strInterpolation (dialogPolar.getInterpolationName());
{
Projections& rProj = GetDocument()->getProjections();
DialogGetConvertPolarParameters dialogPolar (getFrameForChild(), "Convert to FFT Polar", m_iDefaultPolarNX, m_iDefaultPolarNY,
- m_iDefaultPolarInterpolation, m_iDefaultPolarZeropad);
+ m_iDefaultPolarInterpolation, m_iDefaultPolarZeropad, IDH_DLG_FFT_POLAR);
if (dialogPolar.ShowModal() == wxID_OK) {
wxProgressDialog dlgProgress (wxString("Convert FFT Polar"), wxString("Conversion Progress"), 1, getFrameForChild(), wxPD_APP_MODAL);
wxString strInterpolation (dialogPolar.getInterpolationName());
pPlotDoc->Activate();
}
+
+void
+ProjectionFileView::OnPlotHistogram (wxCommandEvent& event)
+{
+ Projections& rProj = GetDocument()->getProjections();
+ int nDet = rProj.nDet();
+ int nView = rProj.nView();
+
+ if (nDet < 1 || nView < 1)
+ return;
+
+ PlotFileDocument* pPlotDoc = theApp->newPlotDoc();
+ if (! pPlotDoc) {
+ sys_error (ERR_SEVERE, "Internal error: unable to create Plot file");
+ return;
+ }
+
+ DetectorValue* pdDetval = rProj.getDetectorArray(0).detValues();
+ double dMin = pdDetval[0], dMax = pdDetval[0];
+
+ for (int iv = 0; iv < nView; iv++) {
+ pdDetval = rProj.getDetectorArray(iv).detValues();
+ for (int id = 0; id < nDet; id++) {
+ double dV = pdDetval[id];
+ if (dV < dMin)
+ dMin = dV;
+ else if (dV > dMax)
+ dMax = dV;
+ }
+ }
+
+ double* pX = new double [NUMBER_HISTOGRAM_BINS];
+ double* pY = new double [NUMBER_HISTOGRAM_BINS];
+ double dBinWidth = (dMax - dMin) / NUMBER_HISTOGRAM_BINS;
+
+ for (int i = 0; i < NUMBER_HISTOGRAM_BINS; i++) {
+ pX[i] = dMin + (i + 0.5) * dBinWidth;
+ pY[i] = 0;
+ }
+ for (int j = 0; j < nView; j++) {
+ pdDetval = rProj.getDetectorArray(j).detValues();
+ for (int id = 0; id < nDet; id++) {
+ int iBin = nearest<int> ((pdDetval[id] - dMin) / dBinWidth);
+ if (iBin >= 0 && iBin < NUMBER_HISTOGRAM_BINS)
+ pY[iBin] += 1;
+ }
+ }
+ PlotFile& rPlotFile = pPlotDoc->getPlotFile();
+ std::ostringstream os;
+ os << "Histogram";
+ std::string title("title ");
+ title += os.str();
+ rPlotFile.addEzsetCommand (title.c_str());
+ rPlotFile.addEzsetCommand ("xlabel Detector Value");
+ rPlotFile.addEzsetCommand ("ylabel Count");
+ rPlotFile.addEzsetCommand ("box");
+ rPlotFile.addEzsetCommand ("grid");
+ rPlotFile.setCurveSize (2, NUMBER_HISTOGRAM_BINS);
+ rPlotFile.addColumn (0, pX);
+ rPlotFile.addColumn (1, pY);
+ rPlotFile.addDescription (rProj.remark());
+ os << " plot of " << GetDocument()->GetFirstView()->GetFrame()->GetTitle().c_str();
+ *theApp->getLog() << os.str().c_str() << "\n";
+ rPlotFile.addDescription (os.str().c_str());
+ delete pX;
+ delete pY;
+ if (theApp->getAskDeleteNewDocs())
+ pPlotDoc->Modify (true);
+ pPlotDoc->getView()->getFrame()->Show(true);
+ pPlotDoc->UpdateAllViews ();
+ pPlotDoc->Activate();
+}
+
+
void
ProjectionFileView::OnConvertParallel (wxCommandEvent& event)
{
void
ProjectionFileView::OnReconstructFourier (wxCommandEvent& event)
{
- wxMessageBox ("Fourier Reconstruction is not yet supported", "Unimplemented function");
+ Projections& rProj = GetDocument()->getProjections();
+ DialogGetConvertPolarParameters dialogPolar (getFrameForChild(), "Fourier Reconstruction", m_iDefaultPolarNX, m_iDefaultPolarNY,
+ m_iDefaultPolarInterpolation, m_iDefaultPolarZeropad, IDH_DLG_RECON_FOURIER);
+ if (dialogPolar.ShowModal() == wxID_OK) {
+ wxProgressDialog dlgProgress (wxString("Reconstruction Fourier"), wxString("Reconstruction Progress"), 1, getFrameForChild(), wxPD_APP_MODAL);
+ wxString strInterpolation (dialogPolar.getInterpolationName());
+ m_iDefaultPolarNX = dialogPolar.getXSize();
+ m_iDefaultPolarNY = dialogPolar.getYSize();
+ m_iDefaultPolarZeropad = dialogPolar.getZeropad();
+ ImageFile* pIF = new ImageFile (m_iDefaultPolarNX, m_iDefaultPolarNY);
+
+ m_iDefaultPolarInterpolation = Projections::convertInterpNameToID (strInterpolation.c_str());
+ if (! rProj.convertFFTPolar (*pIF, m_iDefaultPolarInterpolation, m_iDefaultPolarZeropad)) {
+ delete pIF;
+ *theApp->getLog() << "Error converting to polar\n";
+ return;
+ }
+#ifdef HAVE_FFT
+ pIF->ifft(*pIF);
+#endif
+ pIF->magnitude(*pIF);
+ Fourier::shuffleFourierToNaturalOrder (*pIF);
+
+ ImageFileDocument* pPolarDoc = theApp->newImageDoc();
+ if (! pPolarDoc) {
+ sys_error (ERR_SEVERE, "Unable to create image file");
+ return;
+ }
+ pPolarDoc->setImageFile (pIF);
+ pIF->labelAdd (rProj.getLabel().getLabelString().c_str(), rProj.calcTime());
+ std::ostringstream os;
+ os << "Reconstruct Fourier " << GetFrame()->GetTitle().c_str() << ": xSize="
+ << m_iDefaultPolarNX << ", ySize=" << m_iDefaultPolarNY << ", interpolation="
+ << strInterpolation.c_str() << ", zeropad=" << m_iDefaultPolarZeropad;
+ *theApp->getLog() << os.str().c_str() << "\n";
+ pIF->labelAdd (os.str().c_str());
+ if (theApp->getAskDeleteNewDocs())
+ pPolarDoc->Modify (true);
+ pPolarDoc->getView()->getFrame()->Show(true);
+ pPolarDoc->UpdateAllViews ();
+ pPolarDoc->Activate();
+ }
}
void
os << "Reconstruct " << rProj.getFilename() << ": xSize=" << m_iDefaultNX << ", ySize=" << m_iDefaultNY << ", Filter=" << optFilterName.c_str() << ", FilterParam=" << m_dDefaultFilterParam << ", FilterMethod=" << optFilterMethodName.c_str() << ", FilterGeneration=" << optFilterGenerationName.c_str() << ", Zeropad=" << m_iDefaultZeropad << ", Interpolation=" << optInterpName.c_str() << ", InterpolationParam=" << m_iDefaultInterpParam << ", Backprojection=" << optBackprojectName.c_str();
if (bRebinToParallel)
os << "; Interpolate to Parallel";
-
+
Timer timerRecon;
ImageFile* pImageFile = NULL;
if (m_iDefaultTrace > Trace::TRACE_CONSOLE) {
GetDocumentManager()->FileHistoryUseMenu(m_pFileMenu);
wxMenu *convert_menu = new wxMenu;
+ convert_menu->Append (PJMENU_CONVERT_RECTANGULAR, "&Rectangular Image");
convert_menu->Append (PJMENU_CONVERT_POLAR, "&Polar Image...\tCtrl-L");
- convert_menu->Append (PJMENU_CONVERT_FFT_POLAR, "&FFT->Polar Image...\tCtrl-M");
+ convert_menu->Append (PJMENU_CONVERT_FFT_POLAR, "FF&T->Polar Image...\tCtrl-T");
convert_menu->AppendSeparator();
convert_menu->Append (PJMENU_CONVERT_PARALLEL, "&Interpolate to Parallel");
filter_menu->Append (PJMENU_ARTIFACT_REDUCTION, "&Artifact Reduction");
wxMenu* analyze_menu = new wxMenu;
- analyze_menu->Append (PJMENU_PLOT_TTHETA_SAMPLING, "&Plot T-Theta Sampling\tCtrl-T");
-
+ analyze_menu->Append (PJMENU_PLOT_HISTOGRAM, "&Plot Histogram");
+ analyze_menu->Append (PJMENU_PLOT_TTHETA_SAMPLING, "Plot T-T&heta Sampling...\tCtrl-H");
+
wxMenu *reconstruct_menu = new wxMenu;
reconstruct_menu->Append (PJMENU_RECONSTRUCT_FBP, "&Filtered Backprojection...\tCtrl-R", "Reconstruct image using filtered backprojection");
reconstruct_menu->Append (PJMENU_RECONSTRUCT_FBP_REBIN, "Filtered &Backprojection (Rebin to Parallel)...\tCtrl-B", "Reconstruct image using filtered backprojection");
reconstruct_menu->Append (PJMENU_RECONSTRUCT_FOURIER, "&Fourier...\tCtrl-E", "Reconstruct image using inverse Fourier");
- reconstruct_menu->Enable (PJMENU_RECONSTRUCT_FOURIER, false);
wxMenu *help_menu = new wxMenu;
help_menu->Append(MAINMENU_HELP_CONTENTS, "&Contents\tF1");
wxAcceleratorEntry accelEntries[7];
accelEntries[0].Set (wxACCEL_CTRL, static_cast<int>('L'), PJMENU_CONVERT_POLAR);
- accelEntries[1].Set (wxACCEL_CTRL, static_cast<int>('M'), PJMENU_CONVERT_FFT_POLAR);
+ accelEntries[1].Set (wxACCEL_CTRL, static_cast<int>('T'), PJMENU_CONVERT_FFT_POLAR);
accelEntries[2].Set (wxACCEL_CTRL, static_cast<int>('R'), PJMENU_RECONSTRUCT_FBP);
accelEntries[3].Set (wxACCEL_CTRL, static_cast<int>('B'), PJMENU_RECONSTRUCT_FBP_REBIN);
accelEntries[4].Set (wxACCEL_CTRL, static_cast<int>('E'), PJMENU_RECONSTRUCT_FOURIER);
accelEntries[5].Set (wxACCEL_CTRL, static_cast<int>('I'), PJMENU_FILE_PROPERTIES);
- accelEntries[6].Set (wxACCEL_CTRL, static_cast<int>('T'), PJMENU_PLOT_TTHETA_SAMPLING);
+ accelEntries[6].Set (wxACCEL_CTRL, static_cast<int>('H'), PJMENU_PLOT_TTHETA_SAMPLING);
wxAcceleratorTable accelTable (7, accelEntries);
subframe->SetAcceleratorTable (accelTable);