def updateLabel(self): self.lbl4.setText("Total Energy (" + str(self.units['Energy'][0]) + "): ") E_tot = self.units['Energy'][1] * Math.average(self.file1.getE_Tot()) deviation = Math.standard_deviation( self.units['Energy'][1] * self.file1.getE_Tot(), E_tot) self.lblE_tot.setText(self.displayData(E_tot, deviation)) self.lbl5.setText("Volume (" + str(self.units['Volume'][0]) + "): ") Vol = self.units['Volume'][1] * Math.average(self.file1.getVol()) deviation = Math.standard_deviation( self.units['Volume'][1] * self.file1.getVol(), Vol) self.lblVol.setText(self.displayData(Vol, deviation)) self.lbl6.setText("Temperature (" + str(self.units['Temperature'][0]) + "): ") Temp = self.file1.getTemp() ATemp = Math.average(Temp) - self.units['Temperature'][1] deviation = Math.standard_deviation( Temp - self.units['Temperature'][1], ATemp) self.lblTemp.setText(self.displayData(ATemp, deviation)) self.lbl7.setText("Pressure (" + str(self.units['Pressure'][0]) + "): ") Press = Math.average(self.file1.getPress()) * self.units['Pressure'][1] deviation = Math.standard_deviation( self.units['Pressure'][1] * self.file1.getPress(), Press) self.lblPress.setText(self.displayData(Press, deviation))
def updateLabel(self): E_tot = self.units['Energy'][1] * Math.average(self.file1.getE_Tot()) deviation = self.file1.getStandardDeviation( self.units['Energy'][1] * self.file1.getE_Tot(), E_tot) strETOT = self.displayData(E_tot, deviation) vol = self.units['Volume'][1] * Math.average(self.file1.getVol()) deviation = self.file1.getStandardDeviation( self.units['Volume'][1] * self.file1.getVol(), vol) strVol = self.displayData(vol, deviation) Temp = self.file1.getTemp() ATemp = Math.average(Temp) - self.units['Temperature'][1] deviation = Math.standard_deviation( Temp - self.units['Temperature'][1], ATemp) strTemp = self.displayData(ATemp, deviation) Press = Math.average(self.file1.getPress()) * self.units['Pressure'][1] deviation = Math.standard_deviation( self.units['Pressure'][1] * self.file1.getPress(), Press) strPress = self.displayData(Press, deviation) self.lbl4.setText("Total Energy (" + str(self.units['Energy'][0]) + "): " + strETOT) self.lbl5.setText("Volume (" + str(self.units['Volume'][0]) + "): " + strVol) self.lbl6.setText("Temperature (" + str(self.units['Temperature'][0]) + ") : " + strTemp) self.lbl7.setText("Pressure (" + str(self.units['Pressure'][0]) + ") : " + strPress)
def __init__(self, pfile, punits, parent = None): self.file1 = pfile self.ni = self.file1.getNi()#Departure of the dataset self.nf = self.file1.getNf()#End of the dataset self.units = punits #Dictionary with the units ans the conversion QtGui.QWidget.__init__(self, parent) self.layout = QtGui.QGridLayout() self.setLayout(self.layout) self.box2 = QtGui.QGroupBox("Simulation data:") self.box2layout = QtGui.QGridLayout() self.box2.setLayout(self.box2layout) E_tot = self.units['Energy'][1] * Math.average(self.file1.getE_Tot()) deviation = self.file1.getStandardDeviation(self.units['Energy'][1] *self.file1.getE_Tot(), E_tot) strETOT = self.displayData(E_tot,deviation) vol = self.units['Volume'][1] * Math.average(self.file1.getVol()) deviation = self.file1.getStandardDeviation(self.units['Volume'][1] *self.file1.getVol(), vol) strVol = self.displayData(vol,deviation) Temp = self.file1.getTemp() ATemp = Math.average(Temp) - self.units['Temperature'][1] deviation = Math.standard_deviation( Temp - self.units['Temperature'][1] , ATemp) strTemp = self.displayData(ATemp,deviation) Press = Math.average( self.file1.getPress() ) * self.units['Pressure'][1] deviation = Math.standard_deviation(self.units['Pressure'][1] * self.file1.getPress(), Press) strPress = self.displayData(Press,deviation) self.lbl1 = QtGui.QLabel("Number of cell(s) : "+str(self.file1.getNImage()), self) self.lbl2 = QtGui.QLabel("Number of atoms : "+str(self.file1.getNatom()), self) self.lbl3 = QtGui.QLabel("Number of steps : "+str(self.file1.getNbTime()), self) self.lbl4 = QtGui.QLabel("Total Energy ("+str(self.units['Energy'][0])+"): "+strETOT, self) self.lbl5 = QtGui.QLabel("Volume ("+str(self.units['Volume'][0])+"): "+strVol, self) self.lbl6 = QtGui.QLabel("Temperature ("+str(self.units['Temperature'][0])+") : "+strTemp, self) self.lbl7 = QtGui.QLabel("Pressure ("+str(self.units['Pressure'][0])+") : "+strPress, self) self.lbl1.setFixedWidth(300) self.lbl2.setFixedWidth(300) self.lbl3.setFixedWidth(300) self.lbl4.setFixedWidth(300) self.lbl5.setFixedWidth(300) self.lbl6.setFixedWidth(300) self.lbl7.setFixedWidth(300) self.box2layout.addWidget(self.lbl1,1,0) self.box2layout.addWidget(self.lbl2,2,0) self.box2layout.addWidget(self.lbl3,3,0) self.box2layout.addWidget(self.lbl4,4,0) self.box2layout.addWidget(self.lbl5,5,0) self.box2layout.addWidget(self.lbl6,6,0) self.box2layout.addWidget(self.lbl7,7,0) self.box3 = QtGui.QGroupBox("Option") self.box3layout = QtGui.QGridLayout() self.box3.setLayout(self.box3layout) self.lbl3_1 = QtGui.QLabel('Choose the initial and final step\nfor the molecular dynamics :') self.lbl3_1.setFixedSize(300,50) self.lblni = QtGui.QLabel('initial step') self.lblnf = QtGui.QLabel('final step') self.sbni = QtGui.QSpinBox() self.sbnf = QtGui.QSpinBox() self.sbni.setMaximum(self.file1.getNbTime()) self.sbnf.setMaximum(self.file1.getNbTime()) self.sbni.setMinimum(1) self.sbnf.setMinimum(1) self.sbni.setFixedSize(150,20) self.sbnf.setFixedSize(150,20) self.sbni.setValue(self.ni) self.sbnf.setValue(self.nf) self.connect(self.sbni,QtCore.SIGNAL('keyPressed'),self.verifStep) self.connect(self.sbnf,QtCore.SIGNAL('keyPressed'),self.verifStep) self.pbok = QtGui.QPushButton("update") self.pbok.setFixedSize(100,20) self.connect(self.pbok,QtCore.SIGNAL("clicked()"),self.updateStep) self.box3layout.addWidget(self.lbl3_1, 1, 0, 1, 2,QtCore.Qt.AlignCenter) self.box3layout.addWidget(self.lblni, 2, 0, 1, 1,QtCore.Qt.AlignCenter) self.box3layout.addWidget(self.sbni, 2, 1, 1, 1,QtCore.Qt.AlignCenter) self.box3layout.addWidget(self.lblnf, 3, 0, 1, 1,QtCore.Qt.AlignCenter) self.box3layout.addWidget(self.sbnf, 3, 1, 1 , 1,QtCore.Qt.AlignCenter) self.box3layout.addWidget(self.pbok, 4, 0,1,2,QtCore.Qt.AlignCenter) self.box4 = QtGui.QGroupBox("Graphics") self.box4layout = QtGui.QGridLayout() self.box4.setLayout(self.box4layout) self.potentialEnergy = QtGui.QPushButton('Potential Energy', self) self.potentialEnergy.setStatusTip('Show graphic of Potential energy') self.connect(self.potentialEnergy, QtCore.SIGNAL('clicked()'), self.showPotentialEnergy) self.totalEnergy = QtGui.QPushButton('Total Energy', self) self.totalEnergy.setStatusTip('Show graphic of total energy') self.connect(self.totalEnergy, QtCore.SIGNAL('clicked()'), self.showTotalEnergy) self.kineticEnergy = QtGui.QPushButton('Kinetic Energy', self) self.kineticEnergy.setStatusTip('Show graphic of kinetic energy') self.connect(self.kineticEnergy, QtCore.SIGNAL('clicked()'), self.showKineticEnergy) self.temperature = QtGui.QPushButton('Temperature', self) self.temperature.setStatusTip('Show graphic of temperature') self.connect(self.temperature, QtCore.SIGNAL('clicked()'), self.showTemperature) self.pressure = QtGui.QPushButton('Pressure', self) self.pressure.setStatusTip('Show graphic of pressure') self.connect(self.pressure, QtCore.SIGNAL('clicked()'), self.showPressure) self.stress = QtGui.QPushButton('Stress', self) self.stress.setStatusTip('Show graphic of stress') self.connect(self.stress, QtCore.SIGNAL('clicked()'), self.showStress) self.volume = QtGui.QPushButton('Volume', self) self.volume.setStatusTip('Show graphic of volume') self.connect(self.volume, QtCore.SIGNAL('clicked()'), self.showVolume) self.acell = QtGui.QPushButton('Cell', self) self.acell.setStatusTip('Show graphic of cell') self.connect(self.acell, QtCore.SIGNAL('clicked()'), self.showAcell) self.angles = QtGui.QPushButton('Angles', self) self.angles.setStatusTip('Show graphic of Angles') self.connect(self.angles, QtCore.SIGNAL('clicked()'), self.showAngles) self.VAF = QtGui.QPushButton('VACF', self) self.VAF.setStatusTip('Show graphic of Velocity autocorrelation function') # self.connect(self.VAF, QtCore.SIGNAL('clicked()'), self.showVAF) self.DOS = QtGui.QPushButton('VDOS', self) self.DOS.setStatusTip('Show graphic of Vibrational Density Of States') # self.connect(self.DOS, QtCore.SIGNAL('clicked()'), self.showDOS) self.RDF = QtGui.QPushButton('Topology', self) self.RDF.setStatusTip('Show graphic of Radial Distribution Function') # self.connect(self.RDF, QtCore.SIGNAL('clicked()'), self.showRDF) self.position = QtGui.QPushButton('Positions', self) self.position.setStatusTip('Show positions of all the particules for all the step in 2D ') # self.connect(self.position, QtCore.SIGNAL('clicked()'), self.showPosition) self.MSD = QtGui.QPushButton('MSD(beta)', self) self.MSD.setStatusTip('Show graphic of Means Squared Displacement(beta)') # self.connect(self.MSD, QtCore.SIGNAL('clicked()'), self.showMSD) self.netcdf = QtGui.QPushButton('save netcdf', self) self.netcdf.setStatusTip('Save molecular dynamics in necdf format') # self.connect(self.netcdf, QtCore.SIGNAL('clicked()'), self.showNetcdf) self.xyz = QtGui.QPushButton('save .xyz', self) self.xyz.setStatusTip('Save position in .xyz format') self.connect(self.xyz, QtCore.SIGNAL('clicked()'), self.showExport) self.box4layout.addWidget(self.potentialEnergy,1,0) self.box4layout.addWidget(self.totalEnergy,1,1) self.box4layout.addWidget(self.kineticEnergy ,1,2) self.box4layout.addWidget(self.temperature,1,3) self.box4layout.addWidget(self.pressure,1,4) self.box4layout.addWidget(self.stress,1,5) self.box4layout.addWidget(self.volume,2,0) self.box4layout.addWidget(self.acell,2,1) self.box4layout.addWidget(self.angles,2,2) self.box4layout.addWidget(self.VAF,3,0) self.box4layout.addWidget(self.DOS,3,1) self.box4layout.addWidget(self.RDF,3,2) self.box4layout.addWidget(self.MSD,3,3) self.box4layout.addWidget(self.position,2,3) self.box4layout.addWidget(self.netcdf,2,5) self.box4layout.addWidget(self.xyz,3,5) self.layout.addWidget(self.box2,1,0,5,1) self.layout.addWidget(self.box3,1,1,5,1) self.layout.addWidget(self.box4,6,0,1,2)