BlueGreycalmElegant

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• This comparison shows the changes necessary to convert path

  → /lab/sipmscan/trunk/src/window_layout.cpp @ 172

  → /lab/sipmscan/trunk/src/window_layout.cpp @ 173

  ↔ Reverse comparison

• Compare Path:	Rev

  With Path:	Rev

Ignore whitespace Rev 172 → Rev 173

/lab/sipmscan/trunk/src/window_layout.cpp
284,6 → 284,450
delete[] layoutdir;
}
// Function for saving all current measurement settings in a file and reopening them on next program open
void TGAppMainFrame::SaveMeasSettings()
{
char *cTemp;
cTemp = new char[1024];
sprintf(cTemp, "%s/settings/measurement_settings.txt", rootdir);
std::ofstream osettings;
osettings.open(cTemp, std::ofstream::out);
if(osettings.is_open())
{
osettings << "# Settings pane" << std::endl;
for(int i = 0; i < 4; i++)
osettings << (int)scansOn->widgetChBox[i]->IsDown() << std::endl;
osettings << vHardlimit->widgetNE[0]->GetNumber() << std::endl;
osettings << NCH->widgetNE[0]->GetNumber() << std::endl;
osettings << posUnits->widgetCB->GetSelected() << std::endl;
osettings << rotUnits->widgetCB->GetSelected() << std::endl;
osettings << oscConnect->widgetTE->GetText() << std::endl;
osettings << laserInfo->widgetTE->GetText() << std::endl;
osettings << chtemp->widgetNE[0]->GetNumber() << std::endl;
osettings << (int)liveDisp->widgetChBox[0]->IsDown() << std::endl;
osettings << std::endl;
osettings << "# Main measurement window" << std::endl;
osettings << vOutCh->widgetCB->GetSelected() << std::endl;
for(int i = 0; i < 2; i++)
osettings << (int)vOutOpt->widgetChBox[i]->IsDown() << std::endl;
osettings << vOutStart->widgetNE[0]->GetNumber() << std::endl;
osettings << vOutStop->widgetNE[0]->GetNumber() << std::endl;
osettings << vOutStep->widgetNE[0]->GetNumber() << std::endl;
osettings << zPosMin->widgetNE[0]->GetNumber() << std::endl;
osettings << zPosMax->widgetNE[0]->GetNumber() << std::endl;
osettings << zPosStep->widgetNE[0]->GetNumber() << std::endl;
osettings << xPosMin->widgetNE[0]->GetNumber() << std::endl;
osettings << xPosMax->widgetNE[0]->GetNumber() << std::endl;
osettings << xPosStep->widgetNE[0]->GetNumber() << std::endl;
osettings << yPosMin->widgetNE[0]->GetNumber() << std::endl;
osettings << yPosMax->widgetNE[0]->GetNumber() << std::endl;
osettings << yPosStep->widgetNE[0]->GetNumber() << std::endl;
osettings << rotPosMin->widgetNE[0]->GetNumber() << std::endl;
osettings << rotPosMax->widgetNE[0]->GetNumber() << std::endl;
osettings << rotPosStep->widgetNE[0]->GetNumber() << std::endl;
osettings << evtNum->widgetNE[0]->GetNumber() << std::endl;
osettings << fileName->widgetTE->GetText() << std::endl;
printf("Saving measurement settings to file.\n");
}
else
printf("Error! Save file can not be opened.\n");
osettings.close();
}
// Function for saving all current analysis settings in a file and reopening them on next program open
void TGAppMainFrame::SaveAnalSettings()
{
char *cTemp;
cTemp = new char[1024];
sprintf(cTemp, "%s/settings/analysis_settings.txt", rootdir);
std::ofstream osettings;
osettings.open(cTemp, std::ofstream::out);
if(osettings.is_open())
{
osettings << "# Analysis" << std::endl;
// Integrate spectrum
for(int i = 0; i < 3; i++)
osettings << (int)intSpect->widgetChBox[i]->IsDown() << std::endl;
for(int i = 0; i < 2; i++)
osettings << resol2d->widgetNE[i]->GetNumber() << std::endl;
// Relative PDE
osettings << (int)relPde->widgetChBox[0]->IsDown() << std::endl;
osettings << (int)midPeak->widgetChBox[0]->IsDown() << std::endl;
osettings << zeroAngle->widgetNE[0]->GetNumber() << std::endl;
// Breakdown voltage
osettings << minPeak->widgetNE[0]->GetNumber() << std::endl;
osettings << peakSepCalc->widgetNE[0]->GetNumber() << std::endl;
// Surface scan
for(int i = 0; i < 2; i++)
osettings << (int)surfScanOpt->widgetChBox[i]->IsDown() << std::endl;
for(int i = 0; i < 2; i++)
osettings << resolSurf->widgetNE[i]->GetNumber() << std::endl;
// Fitting
osettings << fitSigma->widgetNE[0]->GetNumber() << std::endl;
osettings << fitTresh->widgetNE[0]->GetNumber() << std::endl;
osettings << fitInter->widgetNE[0]->GetNumber() << std::endl;
osettings << adcOffset->widgetNE[0]->GetNumber() << std::endl;
osettings << accError->widgetNE[0]->GetNumber() << std::endl;
osettings << pedesLow->widgetNE[0]->GetNumber() << std::endl;
for(int i = 0; i < 2; i++)
osettings << (int)fitChecks->widgetChBox[i]->IsDown() << std::endl;
osettings << std::endl;
osettings << "# Histogram controls" << std::endl;
for(int i = 0; i < 2; i++)
osettings << adcRange->widgetNE[i]->GetNumber() << std::endl;
for(int i = 0; i < 2; i++)
osettings << tdcRange->widgetNE[i]->GetNumber() << std::endl;
for(int i = 0; i < 2; i++)
osettings << yRange->widgetNE[i]->GetNumber() << std::endl;
osettings << selectCh->widgetNE[0]->GetNumber() << std::endl;
for(int i = 0 ; i < 2; i++)
osettings << (int)histOpt->widgetChBox[i]->IsDown() << std::endl;
osettings << posUnitsPlot->widgetCB->GetSelected() << std::endl;
printf("Saving analysis settings to file.\n");
}
else
printf("Error! Save file can not be opened.\n");
osettings.close();
}
// Function for getting all measurement settings from a file
void TGAppMainFrame::GetMeasSettings()
{
char *cTemp, readTemp[1024];
cTemp = new char[1024];
sprintf(cTemp, "%s/settings/measurement_settings.txt", rootdir);
int iTemp, k = 0;
double dTemp;
std::ifstream isettings;
isettings.open(cTemp, std::ifstream::in);
if(isettings.is_open())
{
printf("Opening measurement settings from file.\n");
while(1)
{
if(isettings.peek() == '#')
{
isettings.getline(readTemp, 1024, '\n');
if(DBGSIG > 1) printf("GetMeasSettings(): readTemp = %s\n", readTemp);
}
else if(isettings.peek() == '\n')
isettings.ignore(1, '\n');
else
{
if(k == 0)
{
// Scan settings
for(int i = 0; i < 4; i++)
{
isettings >> iTemp;
isettings.ignore(1, '\n');
if(iTemp == 0) scansOn->widgetChBox[i]->SetState(kButtonUp);
else if(iTemp == 1) scansOn->widgetChBox[i]->SetState(kButtonDown);
}
// Hard voltage limit
isettings >> dTemp;
isettings.ignore(1, '\n');
vHardlimit->widgetNE[0]->SetNumber(dTemp);
// Number of channels
isettings >> iTemp;
isettings.ignore(1, '\n');
NCH->widgetNE[0]->SetNumber(iTemp);
// Position units
isettings >> iTemp;
isettings.ignore(1, '\n');
posUnits->widgetCB->Select(iTemp);
// Rotation units
isettings >> iTemp;
isettings.ignore(1, '\n');
rotUnits->widgetCB->Select(iTemp);
// Oscilloscope IP address
isettings.getline(readTemp, 1024, '\n');
oscConnect->widgetTE->SetText(readTemp);
// Laser info
isettings.getline(readTemp, 1024, '\n');
laserInfo->widgetTE->SetText(readTemp);
// Chamber temperature
isettings >> dTemp;
isettings.ignore(1, '\n');
chtemp->widgetNE[0]->SetNumber(dTemp);
// Live display
isettings >> iTemp;
isettings.ignore(1, '\n');
if(iTemp == 0) liveDisp->widgetChBox[0]->SetState(kButtonUp);
else if(iTemp == 1) liveDisp->widgetChBox[0]->SetState(kButtonDown);
k++;
}
else if(k == 1)
{
// Voltage supply channel
isettings >> iTemp;
isettings.ignore(1, '\n');
vOutCh->widgetCB->Select(iTemp);
// Voltage supply options
for(int i = 0; i < 2; i++)
{
isettings >> iTemp;
isettings.ignore(1, '\n');
if(iTemp == 0) vOutOpt->widgetChBox[i]->SetState(kButtonUp);
else if(iTemp == 1) vOutOpt->widgetChBox[i]->SetState(kButtonDown);
}
// Voltage supply min, max and step
isettings >> dTemp;
isettings.ignore(1, '\n');
vOutStart->widgetNE[0]->SetNumber(dTemp);
isettings >> dTemp;
isettings.ignore(1, '\n');
vOutStop->widgetNE[0]->SetNumber(dTemp);
isettings >> dTemp;
isettings.ignore(1, '\n');
vOutStep->widgetNE[0]->SetNumber(dTemp);
// Z axis scan min, max and step
isettings >> dTemp;
isettings.ignore(1, '\n');
zPosMin->widgetNE[0]->SetNumber(dTemp);
isettings >> dTemp;
isettings.ignore(1, '\n');
zPosMax->widgetNE[0]->SetNumber(dTemp);
isettings >> dTemp;
isettings.ignore(1, '\n');
zPosStep->widgetNE[0]->SetNumber(dTemp);
// X axis scan min, max and step
isettings >> dTemp;
isettings.ignore(1, '\n');
xPosMin->widgetNE[0]->SetNumber(dTemp);
isettings >> dTemp;
isettings.ignore(1, '\n');
xPosMax->widgetNE[0]->SetNumber(dTemp);
isettings >> dTemp;
isettings.ignore(1, '\n');
xPosStep->widgetNE[0]->SetNumber(dTemp);
// Y axis scan min, max and step
isettings >> dTemp;
isettings.ignore(1, '\n');
yPosMin->widgetNE[0]->SetNumber(dTemp);
isettings >> dTemp;
isettings.ignore(1, '\n');
yPosMax->widgetNE[0]->SetNumber(dTemp);
isettings >> dTemp;
isettings.ignore(1, '\n');
yPosStep->widgetNE[0]->SetNumber(dTemp);
// Rotation min, max and step
isettings >> dTemp;
isettings.ignore(1, '\n');
rotPosMin->widgetNE[0]->SetNumber(dTemp);
isettings >> dTemp;
isettings.ignore(1, '\n');
rotPosMax->widgetNE[0]->SetNumber(dTemp);
isettings >> dTemp;
isettings.ignore(1, '\n');
rotPosStep->widgetNE[0]->SetNumber(dTemp);
// Number of events
isettings >> iTemp;
isettings.ignore(1, '\n');
evtNum->widgetNE[0]->SetNumber(iTemp);
// Save filename
isettings.getline(readTemp, 1024, '\n');
fileName->widgetTE->SetText(readTemp);
k++;
}
else
break;
}
}
}
else
printf("Error! Measurement settings file can not be opened. Using defaults.\n");
}
// Function for getting all analysis settings from a file
void TGAppMainFrame::GetAnalSettings()
{
char *cTemp, readTemp[1024];
cTemp = new char[1024];
sprintf(cTemp, "%s/settings/analysis_settings.txt", rootdir);
int iTemp, k = 0;
double dTemp;
std::ifstream isettings;
isettings.open(cTemp, std::ifstream::in);
if(isettings.is_open())
{
printf("Opening analysis settings from file.\n");
while(1)
{
if(isettings.peek() == '#')
{
isettings.getline(readTemp, 1024, '\n');
if(DBGSIG > 1) printf("GetAnalSettings(): readTemp = %s\n", readTemp);
}
else if(isettings.peek() == '\n')
isettings.ignore(1, '\n');
else
{
if(k == 0)
{
// Integrate spectrum options
for(int i = 0; i < 3; i++)
{
isettings >> iTemp;
isettings.ignore(1, '\n');
if(iTemp == 0) intSpect->widgetChBox[i]->SetState(kButtonUp);
else if(iTemp == 1) intSpect->widgetChBox[i]->SetState(kButtonDown);
}
// Integrate spectrum 2D resolution
for(int i = 0; i < 2; i++)
{
isettings >> iTemp;
isettings.ignore(1, '\n');
resol2d->widgetNE[i]->SetNumber(iTemp);
}
// Relative PDE normalization
isettings >> iTemp;
isettings.ignore(1, '\n');
if(iTemp == 0) relPde->widgetChBox[0]->SetState(kButtonUp);
else if(iTemp == 1) relPde->widgetChBox[0]->SetState(kButtonDown);
// Relative PDE middle peak
isettings >> iTemp;
isettings.ignore(1, '\n');
if(iTemp == 0) midPeak->widgetChBox[0]->SetState(kButtonUp);
else if(iTemp == 1) midPeak->widgetChBox[0]->SetState(kButtonDown);
// Relative PDE zero angle setting
isettings >> dTemp;
isettings.ignore(1, '\n');
zeroAngle->widgetNE[0]->SetNumber(dTemp);
// Breakdown voltage minimum number of detected peaks
isettings >> iTemp;
isettings.ignore(1, '\n');
minPeak->widgetNE[0]->SetNumber(iTemp);
// Breakdown voltage separation calculation
isettings >> iTemp;
isettings.ignore(1, '\n');
peakSepCalc->widgetNE[0]->SetNumber(iTemp);
// Surface scan options
for(int i = 0; i < 2; i++)
{
isettings >> iTemp;
isettings.ignore(1, '\n');
if(iTemp == 0) surfScanOpt->widgetChBox[i]->SetState(kButtonUp);
else if(iTemp == 1) surfScanOpt->widgetChBox[i]->SetState(kButtonDown);
}
// Surface scan 2D resolution
for(int i = 0; i < 2; i++)
{
isettings >> iTemp;
isettings.ignore(1, '\n');
resolSurf->widgetNE[i]->SetNumber(iTemp);
}
// Fitting - sigma
isettings >> dTemp;
isettings.ignore(1, '\n');
fitSigma->widgetNE[0]->SetNumber(dTemp);
// Fitting - S/N ratio
isettings >> dTemp;
isettings.ignore(1, '\n');
fitTresh->widgetNE[0]->SetNumber(dTemp);
// Fitting - interpolation
isettings >> iTemp;
isettings.ignore(1, '\n');
fitInter->widgetNE[0]->SetNumber(iTemp);
// Fitting - ADC offset
isettings >> dTemp;
isettings.ignore(1, '\n');
adcOffset->widgetNE[0]->SetNumber(dTemp);
// Fitting - Acceptable error
isettings >> dTemp;
isettings.ignore(1, '\n');
accError->widgetNE[0]->SetNumber(dTemp);
// Fitting - Pedestal lower limit
isettings >> dTemp;
isettings.ignore(1, '\n');
pedesLow->widgetNE[0]->SetNumber(dTemp);
// Fitting - settings
for(int i = 0; i < 2; i++)
{
isettings >> iTemp;
isettings.ignore(1, '\n');
if(iTemp == 0) fitChecks->widgetChBox[i]->SetState(kButtonUp);
else if(iTemp == 1) fitChecks->widgetChBox[i]->SetState(kButtonDown);
}
k++;
}
else if(k == 1)
{
// ADC range
for(int i = 0; i < 2; i++)
{
isettings >> dTemp;
isettings.ignore(1, '\n');
adcRange->widgetNE[i]->SetNumber(dTemp);
}
// TDC range
for(int i = 0; i < 2; i++)
{
isettings >> dTemp;
isettings.ignore(1, '\n');
tdcRange->widgetNE[i]->SetNumber(dTemp);
}
// Y axis range
for(int i = 0; i < 2; i++)
{
isettings >> dTemp;
isettings.ignore(1, '\n');
yRange->widgetNE[i]->SetNumber(dTemp);
}
// Displayed channel
isettings >> iTemp;
isettings.ignore(1, '\n');
selectCh->widgetNE[0]->SetNumber(iTemp);
// Display options
for(int i = 0; i < 2; i++)
{
isettings >> iTemp;
isettings.ignore(1, '\n');
if(iTemp == 0) histOpt->widgetChBox[i]->SetState(kButtonUp);
else if(iTemp == 1) histOpt->widgetChBox[i]->SetState(kButtonDown);
}
// Display position units
isettings >> iTemp;
isettings.ignore(1, '\n');
posUnitsPlot->widgetCB->Select(iTemp);
k++;
}
else
break;
}
}
}
else
printf("Error! Measurement settings file can not be opened. Using defaults.\n");
}
// Layout function for the main window (width and height)
void layoutMainWindow(int *w, int *h)
{