0c9bf8ae
 dmayerich
Case-sensitive er...
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#ifndef INTERACTIVEMIE_H
#define INTERACTIVEMIE_H
#include <QtGui/QMainWindow>
#include <QDragEnterEvent>
#include <qfiledialog.h>
#include <qinputdialog.h>
#include "ui_interactivemie.h"
#include "globals.h"
class InteractiveMie : public QMainWindow
{
Q_OBJECT
public:
InteractiveMie(QWidget *parent = 0, Qt::WFlags flags = 0);
~InteractiveMie();
bool updating;
void refreshUI()
{
updating = true;
ui.spinNuMin->setValue(nuMin);
ui.spinNuMax->setValue(nuMax);
ui.spinAMin->setValue(aMin);
ui.spinAMax->setValue(aMax);
ui.spinRadius->setValue(radius);
ui.spinBaseIR->setValue(baseIR);
ui.spinScaleK->setValue(cA);
ui.spinObjNAi->setValue(oNAi);
ui.spinObjNAo->setValue(oNAo);
ui.spinCondNAi->setValue(cNAi);
ui.spinCondNAo->setValue(cNAo);
ui.spinError->setValue(minMSE);
ui.spinMaxIter->setValue(maxFitIter);
ui.spinI0Scale->setValue(scaleI0);
//display spectra values
ui.chkDisplaySimSpec->setChecked(dispSimSpec);
ui.chkDisplayRefSpec->setChecked(dispRefSpec);
ui.chkDisplaySimK->setChecked(dispSimK);
ui.chkDisplayMatK->setChecked(dispMatK);
ui.chkDisplaySimN->setChecked(dispSimN);
ui.chkDisplayMatN->setChecked(dispMatN);
ui.spinDispScaleK->setValue(dispScaleK);
ui.spinDispScaleN->setValue(dispScaleN);
//material selection combo box
ui.cmbMaterial->clear();
for(unsigned int i=0; i<MaterialList.size(); i++)
ui.cmbMaterial->addItem(MaterialList[i].name.c_str(), i);
ui.cmbMaterial->setCurrentIndex(currentMaterial);
updating = false;
}
void dragEnterEvent(QDragEnterEvent *event)
{
cout<<"This is a test."<<endl;
QStringList s = event->mimeData()->formats();
if (event->mimeData()->hasFormat("application/x-qt-windows-mime;value=\"FileName\"") ||
event->mimeData()->hasFormat("text/plain"))
{
event->acceptProposedAction();
}
}
void dropEvent(QDropEvent *event)
{
//cout<<"Challenge Accepted."<<endl;
RefSpectrum.clear();
RefSpectrum.push_back(SetReferenceSpectrum(event->mimeData()->text().toAscii().data()));
UpdateDisplay();
}
private:
Ui::InteractiveMieClass ui;
public slots:
//display parameters
void on_spinNuMin_valueChanged(int i){
nuMin = (float)i;
UpdateDisplay();
}
void on_spinNuMax_valueChanged(int i){
nuMax = (float)i;
UpdateDisplay();
}
void on_spinAMin_valueChanged(double d){
aMin = d;
UpdateDisplay();
}
void on_spinAMax_valueChanged(double d){
aMax = d;
UpdateDisplay();
}
void on_chkDisplaySimSpec_clicked(bool b){
dispSimSpec = b;
UpdateDisplay();
}
void on_chkDisplayRefSpec_clicked(bool b){
dispRefSpec = b;
UpdateDisplay();
}
void on_chkDisplaySimK_clicked(bool b){
dispSimK = b;
UpdateDisplay();
}
void on_chkDisplayMatK_clicked(bool b){
dispMatK = b;
UpdateDisplay();
}
void on_chkDisplaySimN_clicked(bool b){
dispSimN = b;
UpdateDisplay();
}
void on_chkDisplayMatN_clicked(bool b){
dispMatN = b;
UpdateDisplay();
}
void on_spinDispScaleK_valueChanged(double d){
dispScaleK = d;
UpdateDisplay();
}
void on_spinDispScaleN_valueChanged(double d){
dispScaleN = d;
UpdateDisplay();
}
void on_radDisplayAbsorbance_clicked(bool b){
dispSimType = AbsorbanceSpecType;
SimulateSpectrum();
UpdateDisplay();
}
void on_radDisplayIntensity_toggled(bool b){
dispSimType = IntensitySpecType;
SimulateSpectrum();
UpdateDisplay();
}
void on_chkNormalize_clicked(bool b){
dispNormalize = b;
SimulateSpectrum();
UpdateDisplay();
}
void on_spinNormFactor_valueChanged(double d){
dispNormFactor = d;
SimulateSpectrum();
UpdateDisplay();
}
//material parameters
void on_spinRadius_valueChanged(double d){
radius = d;
SimulateSpectrum();
UpdateDisplay();
}
void on_spinBaseIR_valueChanged(double d){
baseIR = d;
ChangeAbsorbance();
SimulateSpectrum();
UpdateDisplay();
}
void on_spinScaleK_valueChanged(double d){
cA = d;
ChangeAbsorbance();
SimulateSpectrum();
UpdateDisplay();
}
void on_chkApplyMaterial_clicked(bool b){
applyMaterial = b;
SimulateSpectrum();
UpdateDisplay();
}
void on_cmbMaterial_currentIndexChanged(int i){
if(updating) return;
currentMaterial = i;
SetMaterial();
SimulateSpectrum();
UpdateDisplay();
refreshUI();
}
//optical parameters
void on_spinCondNAi_valueChanged(double d){
cNAi = d;
SimulateSpectrum();
UpdateDisplay();
}
void on_spinCondNAo_valueChanged(double d){
cNAo = d;
SimulateSpectrum();
UpdateDisplay();
}
void on_spinObjNAi_valueChanged(double d){
oNAi = d;
SimulateSpectrum();
UpdateDisplay();
}
void on_spinObjNAo_valueChanged(double d){
oNAo = d;
SimulateSpectrum();
UpdateDisplay();
}
void on_radTransmissionOptics_clicked(bool d){
ui.spinCondNAi->setEnabled(true);
ui.spinCondNAo->setEnabled(true);
opticsMode = TransmissionOpticsType;
SimulateSpectrum();
UpdateDisplay();
}
void on_radReflectionOptics_clicked(bool d){
ui.spinCondNAi->setEnabled(false);
ui.spinCondNAo->setEnabled(false);
ui.radDisplayAbsorbance->setEnabled(false);
ui.radDisplayIntensity->setChecked(true);
opticsMode = ReflectionOpticsType;
SimulateSpectrum();
UpdateDisplay();
}
void on_chkPointDetector_clicked(bool b){
if(b)
{
pointDetector = true;
ui.spinObjectiveSamples->setEnabled(false);
}
else
{
pointDetector = false;
ui.spinObjectiveSamples->setEnabled(true);
}
SimulateSpectrum();
UpdateDisplay();
}
void on_spinObjectiveSamples_valueChanged(int i){
objectiveSamples = i;
SimulateSpectrum();
UpdateDisplay();
}
//Fitting
void on_spinMaxIter_valueChanged(int i){
maxFitIter = i;
}
void on_spinError_valueChanged(double d){
minMSE = d;
}
void on_spinI0Scale_valueChanged(double d){
scaleI0 = d;
SimulateSpectrum();
UpdateDisplay();
}
void on_spinRefSlope_valueChanged(double d){
refSlope = d;
UpdateDisplay();
}
//display settings
//Buttons
void on_btnFit_clicked(){
FitDisplay();
refreshUI();
}
void on_btnSave_clicked(){
SaveState();
}
void on_btnReset_clicked(){
SetDefaults();
SimulateSpectrum();
UpdateDisplay();
refreshUI();
}
void on_btnResetK_clicked(){
ChangeAbsorbance();
SimulateSpectrum();
UpdateDisplay();
}
void on_btnEstimateK_clicked(){
EstimateMaterial();
SimulateSpectrum();
UpdateDisplay();
}
void on_btnDistortion_clicked(){
//ComputeDistortion();
MinimizeDistortion();
}
void on_btnTimings_clicked(){
PD.PrintResults(cout);
}
//menu items
void on_mnuLoadReference_triggered(){
QString fileName = QFileDialog::getOpenFileName(this, tr("Open Reference Spectrum"));
if(fileName != QString::null){
RefSpectrum.clear();
RefSpectrum.push_back(LoadSpectrum(fileName.toAscii().data()));
}
UpdateDisplay();
}
void on_mnuLoadMaterial_triggered(){
//first load the imaginary part
QString kFileName = QFileDialog::getOpenFileName(this, tr("Open Imaginary (k) Spectrum"));
//exit if no file was selected
if(kFileName == QString::null)
return;
QString nFileName = QFileDialog::getOpenFileName(this, tr("Open Imaginary (n) Spectrum"));
//request the material name
QString matName = QInputDialog::getText(this, tr("Material Name"), tr("Enter material name:"));
//if a real part was given, load both
if(nFileName != QString::null)
LoadMaterial(kFileName.toAscii().data(), nFileName.toAscii().data(), matName.toAscii().data());
else
LoadMaterial(kFileName.toAscii().data(), matName.toAscii().data());
//add the new material to the combo box
refreshUI();
}
void on_mnuSaveSim_triggered(){
//first load the imaginary part
QString fileName = QFileDialog::getSaveFileName(this, tr("Save Simulated Spectrum"));
SaveSimulation(fileName.toAscii().data());
}
void on_mnuSaveK_triggered(){
//first load the imaginary part
QString fileName = QFileDialog::getSaveFileName(this, tr("Save Imaginary Index of Refraction (k)"));
SaveK(fileName.toAscii().data());
}
void on_mnuSaveN_triggered(){
//first load the imaginary part
QString fileName = QFileDialog::getSaveFileName(this, tr("Save Real Index of Refraction (n)"));
SaveN(fileName.toAscii().data());
}
};
#endif // INTERACTIVEMIE_H
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