def setupUi(self, MainWindow):

MainWindow.setObjectName("NARMAX")

MainWindow.resize(1280, 720)

########

self.mainSolver = Solver() #variables

self.yTitle = '' #name of the file containing the signal(y)

self.xTitles = [] #array with the external inputs (x)

self.mode = 2 #mode is automatically set as 2-step

self.plotsWindows = [] #storage for handles of the plots generated in new windows

########

self.initiate_layout(MainWindow)

self.connectSignalsAndSlots()

self.refresh()

def initiate_layout(self, MainWindow):

self.centralwidget = QtWidgets.QWidget(MainWindow) # central widget ini

self.centralwidget.setObjectName("centralwidget")

self.centralwidget.setMinimumSize(QtCore.QSize(800, 600))

self.horizontalLayout = QtWidgets.QHBoxLayout(self.centralwidget) #main layout is horizontal

self.horizontalLayout.setSizeConstraint(QtWidgets.QLayout.SetDefaultConstraint)

self.horizontalLayout.setContentsMargins(0, 0, 0, 0)

self.horizontalLayout.setObjectName("horizontalLayout")

self.centralwidget.setLayout(self.horizontalLayout)

self.verticalLayout = QtWidgets.QVBoxLayout() #left column of widgets#######################################

self.leftLabel = QtWidgets.QLabel("Input parameters")

self.leftLabel.setAlignment(QtCore.Qt.AlignCenter)

self.verticalLayout.addWidget(self.leftLabel)

self.tableWidget1 = QtWidgets.QTableWidget(self.centralwidget) #table with uploaded data

self.tableWidget1.setObjectName("tableWidget")

self.tableWidget1.setColumnCount(2)

self.tableWidget1.setRowCount(2)

self.tableWidget1.horizontalScrollBar().hide()

self.tableWidget1.horizontalHeader().hide()

self.tableWidget1.verticalHeader().hide()

self.tableWidget1.horizontalHeader().setSectionResizeMode(QtWidgets.QHeaderView.Stretch)

self.verticalLayout.addWidget(self.tableWidget1)

self.tableWidget1.setMaximumWidth(200)

self.Parameters = QtWidgets.QGroupBox() #box with editable parameters of modelling

self.Parameters.setMaximumWidth(200)

self.maxLagLabel = QtWidgets.QLabel('Max Lag')

self.maxLevelLabel = QtWidgets.QLabel('Max level')

self.modelTestRatioLabel = QtWidgets.QLabel('Model-To-Test data ratio')

self.maxLagEdit = QtWidgets.QLineEdit('7')

self.maxLevelEdit = QtWidgets.QLineEdit('2')

self.modelTestRatioEdit = QtWidgets.QLineEdit('0.8')

self.maxLagEdit.setMaximumWidth(30)

self.maxLevelEdit.setMaximumWidth(30)

self.grid = QtWidgets.QGridLayout()

self.grid.addWidget(self.maxLagLabel, 1, 0)

self.grid.addWidget(self.maxLagEdit, 1, 1)

self.grid.addWidget(self.maxLevelLabel, 2, 0)

self.grid.addWidget(self.maxLevelEdit, 2, 1)

self.grid.addWidget(self.modelTestRatioLabel, 3, 0)

self.grid.addWidget(self.modelTestRatioEdit, 3, 1)

self.grid.setAlignment(QtCore.Qt.AlignRight)

self.Parameters.setLayout(self.grid)

self.verticalLayout.addWidget(self.Parameters)

self.horizontalLayout.addLayout(self.verticalLayout)#####################################################

self.verticalLayout2 = QtWidgets.QVBoxLayout() #central column of widgets

self.horizontalButtonLayout = QtWidgets.QHBoxLayout() #buttons for modelling steps

self.startNextButton = QtWidgets.QPushButton("Start")

self.undoButton = QtWidgets.QPushButton("Undo")

self.startNextButton.setMaximumWidth(150)

self.undoButton.setMaximumWidth(150)

self.horizontalButtonLayout.addWidget(self.undoButton)

self.horizontalButtonLayout.addWidget(self.startNextButton)

self.undoButton.setEnabled(False)

self.startNextButton.setEnabled(False)

self.fig = plt.figure() #plot area with toolbar

self.canvas = FigureCanvas(self.fig)

self.axes = self.fig.add_subplot(111)

self.toolbar = NavigationToolbar(self.canvas, self)

self.canvas.setObjectName("graphicsView")

self.verticalLayout2.addLayout(self.horizontalButtonLayout)

self.verticalLayout2.addWidget(self.canvas)

self.verticalLayout2.addWidget(self.toolbar)

self.horizontalLayout.addLayout(self.verticalLayout2)###########################################################

self.verticalLayout3 = QtWidgets.QVBoxLayout() #right column of widdgets

self.verticalLayout3.setObjectName("verticalLayout_2")

self.rightLabel = QtWidgets.QLabel("Outcome Model")

self.rightLabel.setAlignment(QtCore.Qt.AlignCenter)

self.verticalLayout3.addWidget(self.rightLabel)

self.tableWidget3 = QtWidgets.QTableWidget(self.centralwidget) #calculated model parameters

self.tableWidget3.setObjectName("tableWidget")

self.tableWidget3.setColumnCount(3)

self.tableWidget3.setRowCount(1)

self.tableWidget3.horizontalScrollBar().hide()

self.tableWidget3.horizontalHeader().hide()

self.tableWidget3.verticalHeader().hide()

self.tableWidget3.horizontalScrollBar().setEnabled(True)

self.tableWidget3.setItem(0, 0, QtWidgets.QTableWidgetItem("Term"))

self.tableWidget3.setItem(0, 1, QtWidgets.QTableWidgetItem("Parameter"))

self.tableWidget3.setItem(0, 2, QtWidgets.QTableWidgetItem("ERR"))

self.tableWidget3.horizontalHeader().setSectionResizeMode(QtWidgets.QHeaderView.Stretch)

self.tableWidget3.resizeColumnsToContents()

self.tableWidget3.setMaximumWidth(400)

self.verticalLayout3.addWidget(self.tableWidget3)

self.Statistics = QtWidgets.QGroupBox() #statistics about the model

self.Statistics.setMaximumWidth(200)

self.curreentSERRlabel = QtWidgets.QLabel('Current SERR')

self.prevSERRvalue = QtWidgets.QLabel('0')

self.curSERRlabel = QtWidgets.QLabel('Previous SERR')

self.curSERRvalue = QtWidgets.QLabel('0')

self.grid2 = QtWidgets.QGridLayout()

self.grid2.addWidget(self.curreentSERRlabel, 1, 0)

self.grid2.addWidget(self.prevSERRvalue, 1, 1)

self.grid2.addWidget(self.curSERRlabel, 2, 0)

self.grid2.addWidget(self.curSERRvalue, 2, 1)

# self.grid2.setAlignment(QtCore.Qt.AlignRight)

self.Statistics.setLayout(self.grid2)

self.verticalLayout3.addWidget(self.Statistics)

self.horizontalLayout.addLayout(self.verticalLayout3)

MainWindow.setCentralWidget(self.centralwidget)#set the layout###############################################

self.statusbar = QtWidgets.QStatusBar(MainWindow) #status bar

self.statusbar.setObjectName("statusbar")

self.statusLabel = QtWidgets.QLabel("Ready.")

self.statusbar.addWidget(self.statusLabel)

self.menubar = QtWidgets.QMenuBar(MainWindow)#menu ###################################################

self.menubar.setObjectName("menubar")

self.menuFile = QtWidgets.QMenu(self.menubar)

self.menuFile.setObjectName("menuFile")

self.menuStatistics = QtWidgets.QMenu(self.menubar)

self.menuStatistics.setObjectName("menuStatistics")

self.menuCorrelation = QtWidgets.QMenu(self.menubar)

self.menuCorrelation.setObjectName("menuCorrelation")

self.actionCorrResRes = QtWidgets.QAction(MainWindow)

self.actionCorrResRes.setObjectName("actionCorrResRes")

self.actionCorrSigSig = QtWidgets.QAction(MainWindow)

self.actionCorrSigSig.setObjectName("actionCorrSigSig")

self.actionPlotResiduals = QtWidgets.QAction(MainWindow)

self.actionPlotResiduals.setObjectName("actionPlotResiduals")

self.actionPlotPrediction = QtWidgets.QAction(MainWindow)

self.actionPlotPrediction.setObjectName("actionPlotPrediction")

self.actionPlotPredictionResiduals = QtWidgets.QAction(MainWindow)

self.actionPlotPredictionResiduals.setObjectName("actionPlotPredictionResiduals")

self.actionPlotSERR = QtWidgets.QAction(MainWindow)

self.actionPlotSERR.setObjectName("actionPlotSERR")

self.menuCorrelation.addAction(self.actionCorrResRes)

self.menuCorrelation.addAction(self.actionCorrSigSig)

self.menuStatistics.addMenu(self.menuCorrelation)

self.menuStatistics.addAction(self.actionPlotResiduals)

self.menuStatistics.addAction(self.actionPlotPrediction)

self.menuStatistics.addAction(self.actionPlotPredictionResiduals)

self.menuStatistics.addAction(self.actionPlotSERR)

self.actionUpload = QtWidgets.QAction(MainWindow)

self.actionUpload.setObjectName("actionUpload")

self.actionUpload_input = QtWidgets.QAction(MainWindow)

self.actionUpload_input.setObjectName("actionUpload_input")

self.actionClearInputs = QtWidgets.QAction(MainWindow)

self.actionClearInputs.setObjectName("actionClearInputs")

self.actionSave = QtWidgets.QAction(MainWindow)

self.actionSave.setObjectName("actionSave")

self.menuChooseMode = QtWidgets.QMenu(self.menubar)

self.menuChooseMode.setObjectName("actionChooseMode")

self.actionOneStepMode = QtWidgets.QAction(MainWindow)

self.actionOneStepMode.setObjectName("actiononeStepMode")

self.actionTwoStepMode = QtWidgets.QAction(MainWindow)

self.actionTwoStepMode.setObjectName("actionTwoStepMode")

self.menuChooseMode.addAction(self.actionOneStepMode)

self.menuChooseMode.addAction(self.actionTwoStepMode)

self.menuFile.addAction(self.actionUpload)

self.menuFile.addAction(self.actionUpload_input)

self.menuFile.addAction(self.actionClearInputs)

self.menuFile.addMenu(self.menuChooseMode)

self.menuFile.addAction(self.actionSave)

self.menubar.addAction(self.menuFile.menuAction())

self.menubar.addAction(self.menuStatistics.menuAction())

MainWindow.setMenuBar(self.menubar)

MainWindow.setStatusBar(self.statusbar)

self.retranslateUi(MainWindow)#initialisation of the gui

QtCore.QMetaObject.connectSlotsByName(MainWindow)

def retranslateUi(self, MainWindow): #add labels to the menu

_translate = QtCore.QCoreApplication.translate

MainWindow.setWindowTitle(_translate("MainWindow", "MainWindow"))

self.menuFile.setTitle(_translate("MainWindow", "File"))

self.menuChooseMode.setTitle(_translate("MainWindow", "Choose mode"))

self.menuStatistics.setTitle(_translate("MainWindow", "Statistics"))

self.menuCorrelation.setTitle(_translate("MainWindow", "Cross-Correlation"))

self.actionUpload.setText(_translate("MainWindow", "Upload signal (y)"))

self.actionUpload_input.setText(_translate("MainWindow", "Upload input (x)"))

self.actionClearInputs.setText(_translate("MainWindow", "Clear inputs"))

self.actionSave.setText(_translate("MainWindow", "Save"))

self.actionCorrSigSig.setText(_translate("MainWindow", "Correlation SigSig"))

self.actionCorrResRes.setText(_translate("MainWindow", "Correlation ResRes"))

self.actionPlotResiduals.setText(_translate("MainWindow", "Model residuals"))

self.actionOneStepMode.setText(_translate("MainWindow", "One step mode"))

self.actionTwoStepMode.setText(_translate("MainWindow", "Two step mode"))

self.actionPlotPrediction.setText(_translate("MainWindow", "Model-based prediction"))

self.actionPlotPredictionResiduals.setText(_translate("MainWindow", "Model-based prediction residuals"))

self.actionPlotSERR.setText(_translate("MainWindow", "Plot SERR"))

self.actionTwoStepMode.setCheckable(True)

self.actionTwoStepMode.setChecked(True)

self.actionOneStepMode.setCheckable(True)

self.actionOneStepMode.setChecked(False)

def connectSignalsAndSlots(self):

self.actionUpload.triggered.connect(self.loadY)

self.actionUpload_input.triggered.connect(self.loadX)

self.actionClearInputs.triggered.connect(self.clearInputs)

self.maxLagEdit.textChanged.connect(self.optimizationParamtereChange)

self.maxLevelEdit.textChanged.connect(self.optimizationParamtereChange)

self.modelTestRatioEdit.textChanged.connect(self.optimizationParamtereChange)

self.startNextButton.clicked.connect(self.startStep)

self.undoButton.clicked.connect(self.undo)

self.actionSave.triggered.connect(self.saveModelAsCSV)

self.actionOneStepMode.triggered.connect(self.modeChangedToOne)

self.actionTwoStepMode.triggered.connect(self.modeChangedToTwo)

self.actionCorrResRes.triggered.connect(self.plotCorrResRes)

self.actionCorrSigSig.triggered.connect(self.plotCorrSigSig)

self.actionPlotResiduals.triggered.connect(self.plotResiduals)

self.actionPlotPrediction.triggered.connect(self.plotPrediction)

self.actionPlotPredictionResiduals.triggered.connect(self.plotPredictionResiduals)

self.actionPlotSERR.triggered.connect(self.plotSERR)

def loadY(self):

try:

dlg = QtWidgets.QFileDialog() #file dialog

data_filename, _ = dlg.getOpenFileName(self, "Open file", None, "Text files (*.txt *.csv)")

with open(data_filename, 'r') as opened_file: #read csv as a single column

_, self.yTitle = ntpath.split(opened_file.name) #remember title in order to show it

self.tableWidget1.setItem(0, 1, QtWidgets.QTableWidgetItem(self.yTitle))

read = csv.reader(opened_file) # open csv

temp = []

for row in read:

temp.append(float(row[0]))

self.mainSolver.insert_y(numpy.array(temp))

except:

pass

self.refresh()

self.statusLabel.setText("Signal (y) loaded successfully.")

self.statusLabel.setStyleSheet('color: black')

def loadX(self):

try:

dlg = QtWidgets.QFileDialog()

data_filename, _ = dlg.getOpenFileName(self, "Open file", None, "Text files (*.txt *.csv)")

with open(data_filename, 'r') as opened_file:

_, title = ntpath.split(opened_file.name)

read = csv.reader(opened_file) # open csv

temp = []

for row in read:

temp.append(float(row[0]))

if len(temp) > len(self.mainSolver.resources.y):

temp = temp[:len(self.mainSolver.resources.y)]

self.mainSolver.insert_x(numpy.array(temp))

self.xTitles.append(title)

self.showMessage("Warning",

"Provided data was too long, it was adjustet to the length of the signal.")

elif len(temp) < len(self.mainSolver.resources.y):

self.showMessage("Warning", "Provided data is too short.")

else:

self.mainSolver.insert_x(numpy.array(temp))

self.xTitles.append(title)

self.statusLabel.setText("Input (x) loaded successfully.")

self.statusLabel.setStyleSheet('color: black')

except:

pass

self.refresh()

def optimizationParamtereChange(self):#when optimisation parameters changed, they are checked

try:

newMaxLag = int(self.maxLagEdit.text())

self.statusLabel.setText("New Max Lag accepted.")

self.statusLabel.setStyleSheet('color: black')

except:

newMaxLag = 1

self.statusLabel.setText("Warning! Strange parameter, Max Lag changed to 1 instead!")

self.statusLabel.setStyleSheet('color: red')

try:

newMaxLev = int(self.maxLevelEdit.text())

self.statusLabel.setText("New Max Level accepted.")

self.statusLabel.setStyleSheet('color: black')

except:

newMaxLev = 1

self.statusLabel.setText("Warning! Strange parameter, Max Level changed to 1 instead!")

self.statusLabel.setStyleSheet('color: red')

try:

newRatio = float(self.modelTestRatioEdit.text())

if newRatio > 0.9:

self.statusLabel.setText("Warning! Ratio cannot be higher than 0.9. Changed to the max value instead.")

self.statusLabel.setStyleSheet('color: red')

newRatio = 0.9

else:

if newRatio < 0.1:

self.statusLabel.setText(

"Warning! Ratio cannot be lower than 0.1. Changed to the max value instead.")

self.statusLabel.setStyleSheet('color: red')

newRatio = 0.1

else:

self.statusLabel.setText("New Ratio accepted.")

self.statusLabel.setStyleSheet('color: black')

except:

newRatio = 0.8

self.statusLabel.setText("Warning! Strange parameter, Ratio changed to 0.8 instead!")

self.statusLabel.setStyleSheet('color: red')

self.mainSolver.chagne_max_lag(newMaxLag)

self.mainSolver.change_max_level(newMaxLev)

self.mainSolver.modelTestDataRatio = newRatio

self.refresh()

def refresh(self): #main plotting function, shows/hides stuff accordingly

self.tableWidget1.clear() #beginning always consists of writing tables

self.tableWidget3.clear()

self.axes.cla()

self.tableWidget3.setItem(0, 0, QtWidgets.QTableWidgetItem("Term"))

self.tableWidget3.setItem(0, 1, QtWidgets.QTableWidgetItem("Parameter"))

self.tableWidget3.setItem(0, 2, QtWidgets.QTableWidgetItem("ERR"))

self.tableWidget3.setRowCount(self.mainSolver.currentStep + 1)

for index in range(self.mainSolver.currentStep):

self.tableWidget3.setItem(1 + index, 0,

QtWidgets.QTableWidgetItem(str(self.mainSolver.model.modelTermsNames[index])))

self.tableWidget3.setItem(1 + index, 1, QtWidgets.QTableWidgetItem(str(self.mainSolver.model.beta[index])))

self.tableWidget3.setItem(1 + index, 2, QtWidgets.QTableWidgetItem(str(self.mainSolver.model.ERR[index])))

setItemsReadOnly(self.tableWidget3)#tabels are only to read

self.tableWidget1.setRowCount(len(self.xTitles) + 2)

self.tableWidget1.setItem(0, 0, QtWidgets.QTableWidgetItem("Variable"))

self.tableWidget1.setItem(0, 1, QtWidgets.QTableWidgetItem("Source File"))

self.tableWidget1.setItem(1, 0, QtWidgets.QTableWidgetItem("y"))

self.tableWidget1.setItem(1, 1, QtWidgets.QTableWidgetItem(self.yTitle))

for num, path in enumerate(self.xTitles):

self.tableWidget1.setItem(2 + num, 0, QtWidgets.QTableWidgetItem("x" + str(num)))

self.tableWidget1.setItem(2 + num, 1, QtWidgets.QTableWidgetItem(path))

setItemsReadOnly(self.tableWidget1)#tabels are only to read

self.axes.plot(self.mainSolver.resources.y.tolist(), label='Signal') #plot stuff

self.axes.plot(self.mainSolver.model.simulatedY.tolist(), label='Model')

plt.legend(loc=1)

self.canvas.draw()

if not self.mainSolver.currentStep: ##Step == 0, most of the things are hidden

self.actionUpload.setEnabled(True)

self.actionCorrResRes.setEnabled(False)

self.actionPlotResiduals.setEnabled(False)

self.actionPlotPrediction.setEnabled(False)

self.actionPlotPredictionResiduals.setEnabled(False)

self.actionPlotSERR.setEnabled(False)

self.actionSave.setEnabled(False)

self.menuChooseMode.setEnabled(True)

self.startNextButton.setText('Start')

self.prevSERRvalue.setText('0')

self.curSERRvalue.setText('0')

self.maxLagEdit.setEnabled(True)

self.maxLevelEdit.setEnabled(True)

self.modelTestRatioEdit.setEnabled(True)

self.undoButton.setEnabled(False)

if not (self.mainSolver.resources.y.size): #step == 0, but y data is loaded

self.startNextButton.setEnabled(False)

self.actionUpload_input.setEnabled(False)

self.actionClearInputs.setEnabled(False)

self.actionCorrSigSig.setEnabled(False)

else:

self.startNextButton.setEnabled(True)

self.actionUpload_input.setEnabled(True)

self.actionClearInputs.setEnabled(True)

self.actionCorrSigSig.setEnabled(True)

else: #step != 0, data must have been loaded before

self.actionCorrSigSig.setEnabled(True)

self.actionCorrResRes.setEnabled(True)

self.actionPlotResiduals.setEnabled(True)

self.actionUpload.setEnabled(False)

self.actionUpload_input.setEnabled(False)

self.actionClearInputs.setEnabled(False)

self.actionSave.setEnabled(True)

self.actionPlotPrediction.setEnabled(True)

self.actionPlotPredictionResiduals.setEnabled(True)

self.actionPlotSERR.setEnabled(True)

self.menuChooseMode.setEnabled(False)

self.startNextButton.setText('Next')

self.prevSERRvalue.setText(str(sum(self.mainSolver.model.ERR)))

self.curSERRvalue.setText(str(sum(self.mainSolver.model.ERR[:-1])))

self.maxLagEdit.setEnabled(False)

self.maxLevelEdit.setEnabled(False)

self.modelTestRatioEdit.setEnabled(False)

self.undoButton.setEnabled(True)

self.startNextButton.setEnabled(True)

def startStep(self): #next step or start according to current state

if not self.mainSolver.currentStep:

if self.mode == 2:

self.mainSolver.start2()

else:

self.mainSolver.start()

else:

if self.mode == 2:

self.mainSolver.step2()

else:

self.mainSolver.step()

self.statusLabel.setText("New model term appended successfully.")

self.statusLabel.setStyleSheet('color: black')

self.refresh()

def undo(self):

if self.mainSolver.currentStep:

self.mainSolver.undo()

self.statusLabel.setText("Last term deleted successfully.")

self.statusLabel.setStyleSheet('color: black')

self.refresh()

def saveModelAsCSV(self):

try:

options = QtWidgets.QFileDialog.Options()

options |= QtWidgets.QFileDialog.DontUseNativeDialog

fileName, _ = QtWidgets.QFileDialog.getSaveFileName(self, "QFileDialog.getSaveFileName()", "",

"All Files (*);;Text Files (*.txt *.csv)",

options=options)

with open(fileName, 'w') as f:

writer = csv.writer(f)

for row in range(self.tableWidget3.rowCount()):

rowdata = []

for column in range(self.tableWidget3.columnCount()):

item = self.tableWidget3.item(row, column)

if item is not None:

rowdata.append(str(item.text()))

else:

rowdata.append('')

writer.writerow(rowdata)

for row in range(self.tableWidget1.rowCount()):

rowdata = []

for column in range(self.tableWidget3.columnCount()):

item = self.tableWidget3.item(row, column)

if item is not None:

rowdata.append(str(item.text()))

else:

rowdata.append('')

writer.writerow(rowdata)

self.statusLabel.setText("Data saved successfully.")

self.statusLabel.setStyleSheet('color: black')

except:

pass

def modeChangedToOne(self):

self.actionTwoStepMode.setChecked(False)

self.actionOneStepMode.setChecked(True)

self.mode = 1

self.statusLabel.setText("Method changed successfully.")

self.statusLabel.setStyleSheet('color: black')

def modeChangedToTwo(self):

self.actionTwoStepMode.setChecked(True)

self.actionOneStepMode.setChecked(False)

self.mode = 2

self.statusLabel.setText("Method changed successfully.")

self.statusLabel.setStyleSheet('color: black')

def showMessage(self, title, message):

messageBox = QtWidgets.QMessageBox()

messageBox.setIcon(QtWidgets.QMessageBox.Information)

messageBox.setWindowTitle(title)

messageBox.setText(message)

messageBox.setStandardButtons(QtWidgets.QMessageBox.Ok)

messageBox.exec_()

def clearInputs(self):

self.mainSolver.resources.X = []

self.xTitles = []

self.refresh()

self.statusLabel.setText("Inputs cleared successfully.")

self.statusLabel.setStyleSheet('color: black')

def plotCorrResRes(self): #plot autocorrelation of residuals

self.plotSignalInNewWindow("Cross correlation between residuals and themselves",

self.mainSolver.model.corrResRes)

def plotSERR(self): # plot autocorrelation of residuals

self.plotsWindows.append(

PlotSERR("SERR", self.mainSolver.model.ERR, 0))

self.plotsWindows[-1].show()

def plotCorrSigSig(self):

self.plotSignalInNewWindow("Cross correlation between signal derivative and its square",

self.mainSolver.resources.corrSigSig)

def plotResiduals(self):

self.plotsWindows.append(PlotCorrelationWindow("Calculated model residuals", self.mainSolver.model.residuals))

self.plotsWindows[-1].show()

def plotPrediction(self):

simY = self.mainSolver.model.simulate(self.mainSolver.resources.fullX, len(self.mainSolver.resources.simData))

testY = numpy.concatenate((self.mainSolver.resources.y, self.mainSolver.resources.simData), axis=0)

self.plotsWindows.append(PlotSignalPredictionWindow("Signal prediction vs test data", testY, simY, len(self.mainSolver.resources.y)))

self.plotsWindows[-1].show()

def plotPredictionResiduals(self):

simY = self.mainSolver.model.simulate(self.mainSolver.resources.fullX, len(self.mainSolver.resources.simData))

testY = numpy.concatenate((self.mainSolver.resources.y, self.mainSolver.resources.simData), axis=0)

self.plotsWindows.append(

PlotResiduals("Model prediction residuals", numpy.abs(numpy.subtract(simY, testY)),

len(self.mainSolver.resources.y)))

self.plotsWindows[-1].show()

def plotSignalInNewWindow(self, title, sig):

self.plotsWindows.append(PlotCorrelationWindow(title, sig))

rows = QTableWidget.rowCount()

columns = QTableWidget.columnCount()

for i in range(rows):

for j in range(columns):

item = QTableWidget.item(i, j)