def AlgorithmRun(self): # Setting threads set_thread_num(int(self.threadsNum.value())) if self.isVariogramValid() == 1: if self.AlgorithmType.currentIndex() == 0: check, self.Err = self.SKWidget.isValuesValid() if check == 0: self.ShowError(self.Err) else: self.hide() self.log += "Starting Simple Kriging Algorithm\n" self.algName = '_SK' Variogram = self.GetVariogram() EllipsoidRanges = self.SKWidget.getSearchRanges() IntPoints = self.SKWidget.getIntPoints() Mean = self.contCubes.meanOf(self.currIndex) self.NewThread = SKT.SKThread(self.contCubes.property(self.currIndex), self.contCubes.gridObject(self.currIndex), EllipsoidRanges, IntPoints, Variogram, Mean ) # self.emitLog( # '# RUNNING SIMPLE KRIGING\n' + # 'ellipsRanges = %s\n' % (EllipsoidRanges,) + # 'intPoints = %i\n' % (IntPoints,) + # 'mean = %f\n' % (Mean,) + # 'result = simple_kriging(prop, gridObject, '+ # 'ellipsRanges, intPoints, variogram, mean)' # ) #info = ['Simple Kriging', self.NewThread] #self.emit(QtCore.SIGNAL('algorithm(PyQt_PyObject)'), info) info = 'Simple Kriging' self.algoInfo.emit(info) #QtCore.QObject.connect(self.NewThread, # QtCore.SIGNAL("msg(QString)"), # self.UpdateUI) #QtCore.QObject.connect(self.NewThread, # QtCore.SIGNAL("progress(QString)"), # self.UpdateProgress) #QtCore.QObject.connect(self.NewThread, # QtCore.SIGNAL("Result(PyQt_PyObject)"), # self.CatchResult) self.NewThread.logMessage.connect(self.UpdateUI) self.NewThread.progressMessage.connect(self.UpdateProgress) self.NewThread.propSignal.connect(self.CatchResult) self.NewThread.start() self.RunButton.setDisabled(1) self.RunButton.setToolTip(self.__tr("Wait while algorithm is processing")) elif self.AlgorithmType.currentIndex() == 1: check, self.Err = self.OKWidget.isValuesValid() if check == 0: self.ShowError(self.Err) else: self.hide() self.algName = '_OK' Variogram = self.GetVariogram() EllipsoidRanges = self.OKWidget.getSearchRanges() IntPoints = self.OKWidget.getIntPoints() self.NewThread = OKT.OKThread(self.contCubes.property(self.currIndex), self.contCubes.gridObject(self.currIndex), EllipsoidRanges, IntPoints, Variogram) # self.emitLog( # '# RUNNING ORDINARY KRIGING\n' + # 'ellipsRanges = %s\n' % (EllipsoidRanges,) + # 'intPoints = %i\n' % (IntPoints,) + # 'result = ordinary_kriging(prop, gridObject, '+ # 'ellipsRanges, intPoints, variogram)' # ) #info = ['Ordinary Kriging', self] #self.emit(QtCore.SIGNAL('algorithm(PyQt_PyObject)'), info) info = 'Ordinary Kriging' self.algoInfo.emit(info) self.NewThread.logMessage.connect(self.UpdateUI) self.NewThread.progressMessage.connect(self.UpdateProgress) self.NewThread.propSignal.connect(self.CatchResult) self.NewThread.start() self.RunButton.setDisabled(1) self.RunButton.setToolTip(self.__tr("Wait while algorithm is processing")) elif self.AlgorithmType.currentIndex() == 2: check, self.Err = self.LVMWidget.isValuesValid() if check == 0: self.ShowError(self.Err) else: self.hide() self.log += "Starting Local Varying Mean Algorithm\n" self.algName = '_LVM' Variogram = self.GetVariogram() EllipsoidRanges = self.LVMWidget.getSearchRanges() IntPoints = self.LVMWidget.getIntPoints() Mean = self.LVMWidget.getMean(self.contCubes) self.NewThread = LVMT.LVMThread(self.contCubes.property(self.currIndex), self.contCubes.gridObject(self.currIndex), Mean, EllipsoidRanges, IntPoints, Variogram) #self.emitLog( # '# RUNNING LVM KRIGING\n' + # 'ellipsRanges = %s\n' % (EllipsoidRanges,) + # 'intPoints = %i\n' % (IntPoints,) + # 'mean = %s\n' % (Mean,) + # 'result = lvm_kriging(prop, gridObject, '+ # 'mean, ellipsRanges, intPoints, variogram)' # ) #info = ['LVM Kriging', self] #self.emit(QtCore.SIGNAL('algorithm(PyQt_PyObject)'), info) info = 'LVM Kriging' self.algoInfo.emit(info) self.NewThread.logMessage.connect(self.UpdateUI) self.NewThread.progressMessage.connect(self.UpdateProgress) self.NewThread.propSignal.connect(self.CatchResult) self.NewThread.start() self.RunButton.setDisabled(1) self.RunButton.setToolTip(self.__tr("Wait while algorithm is processing")) elif self.AlgorithmType.currentIndex() == 3: check, self.Err = self.SGSWidget.isValuesValid(self.Err) if check == 0: self.ShowError(self.Err) else: self.hide() self.log += "Starting Sequantial Gaussian Algorithm\n" self.algName = '_SGS' Variogram = self.GetVariogram() EllipsoidRanges = self.SGSWidget.getSearchRanges() IntPoints = self.SGSWidget.getIntPoints() Seed = self.SGSWidget.GetSeed() UseHd = self.SGSWidget.GetUseHd() KrType = self.SGSWidget.GetKrType() Mean = self.SGSWidget.getMean(self.contCubes) Mask = self.SGSWidget.GetMask(self.contCubes) self.NewThread = SGST.SGSThread(self.contCubes.property(self.currIndex), self.contCubes.gridObject(self.currIndex), EllipsoidRanges, IntPoints, Variogram, Seed, KrType, Mean, UseHd, Mask) #info = ['SGS', self] #self.emit(QtCore.SIGNAL('algorithm(PyQt_PyObject)'), info) info = 'SGS' self.algoInfo.emit(info) self.NewThread.logMessage.connect(self.UpdateUI) self.NewThread.progressMessage.connect(self.UpdateProgress) self.NewThread.propSignal.connect(self.CatchResult) self.NewThread.start() self.RunButton.setDisabled(1) self.RunButton.setToolTip(self.__tr("Wait while algorithm is processing"))
def AlgorithmRun(self): # Setting threads set_thread_num(int(self.threadsNum.value())) if self.AlgorithmType.currentIndex() == 0: k = 0 MaxIndicators = self.contCubes.indicatorsCount(self.currIndex) for i in xrange(MaxIndicators): j, errors = self.Tab4Tabs[i].isVariogramValid() if j == 0: self.Err += 'In tab #' + str(i) + ':\n' + errors k += j if k != MaxIndicators: self.ShowError(self.Err) else: self.hide() self.log += "Starting Indicator Kriging Algorithm\n" self.algName = '_IK' Variograms = range(MaxIndicators) MargProbs = range(MaxIndicators) VarData = range(MaxIndicators) EllipsoidRanges = self.IKWidget.getSearchRanges() IntPoints = self.IKWidget.getIntPoints() for i in xrange(MaxIndicators): Variograms[i] = self.Tab4Tabs[i].GetVariogram() MargProbs[i] = self.Tab4Tabs[i].GetMargProbs() VarData[i] = { "cov_model" : Variograms[i], "max_neighbours" : IntPoints, "radiuses" : EllipsoidRanges } self.NewThread = IKT.IKThread(self.contCubes.property(self.currIndex), self.contCubes.gridObject(self.currIndex), VarData, MargProbs) # info = ['Indicator Kriging', self] # self.emit(QtCore.SIGNAL('algorithm(PyQt_PyObject)'), info) self.algoInfo.emit('Indicator Kriging') self.NewThread.logMessage.connect(self.UpdateUI) self.NewThread.progressMessage.connect(self.UpdateProgress) self.NewThread.propSignal.connect(self.CatchResult) self.NewThread.start() self.RunButton.setDisabled(1) self.RunButton.setToolTip(self.__tr("Wait while algorithm is processing")) elif self.AlgorithmType.currentIndex() == 1: k = 0 MaxIndicators = self.contCubes.indicatorsCount(self.currIndex) for i in xrange(MaxIndicators): j, errors = self.Tab4Tabs[i].isVariogramValid() if j == 0: self.Err += 'In variogram tab #' + str(i) + ':\n' + errors k += j if k != MaxIndicators: self.ShowError(self.Err) else: self.hide() self.log += "Starting Sequantial Indicator Algorithm\n" self.algName = '_SIS' Variograms = range(MaxIndicators) MargProbs = range(MaxIndicators) VarData = range(MaxIndicators) EllipsoidRanges = self.SISWidget.getSearchRanges() IntPoints = self.SISWidget.getIntPoints() Seed = self.SISWidget.GetSeed() UseCorr = self.SISWidget.GetUseCorr() Mask = self.SISWidget.GetMask(self.contCubes) # is right? for i in xrange(MaxIndicators): Variograms[i] = self.Tab4Tabs[i].GetVariogram() MargProbs[i] = self.Tab4Tabs[i].GetMargProbs() VarData[i] = { "cov_model" : Variograms[i], "max_neighbours" : IntPoints, "radiuses" : EllipsoidRanges } self.NewThread = SIST.SISThread(self.contCubes.property(self.currIndex), self.contCubes.gridObject(self.currIndex), VarData, MargProbs, Seed, UseCorr, Mask) # info = ['SIS', self] # self.emit(QtCore.SIGNAL('algorithm(PyQt_PyObject)'), info) self.algoInfo.emit('SIS') self.NewThread.logMessage.connect(self.UpdateUI) self.NewThread.progressMessage.connect(self.UpdateProgress) self.NewThread.propSignal.connect(self.CatchResult) self.NewThread.start() self.RunButton.setDisabled(1) self.RunButton.setToolTip(self.__tr("Wait while algorithm is processing"))
def AlgorithmRun(self): # Setting threads set_thread_num(int(self.threadsNum.value())) if self.AlgorithmType.currentIndex() == 0: k = 0 MaxIndicators = self.contCubes.indicatorsCount(self.currIndex) for i in xrange(MaxIndicators): j, errors = self.Tab4Tabs[i].isVariogramValid() if j == 0: self.Err += 'In tab #' + str(i) + ':\n' + errors k += j if k != MaxIndicators: self.ShowError(self.Err) else: self.hide() self.log += "Starting Indicator Kriging Algorithm\n" self.algName = '_IK' Variograms = range(MaxIndicators) MargProbs = range(MaxIndicators) VarData = range(MaxIndicators) EllipsoidRanges = self.IKWidget.getSearchRanges() IntPoints = self.IKWidget.getIntPoints() for i in xrange(MaxIndicators): Variograms[i] = self.Tab4Tabs[i].GetVariogram() MargProbs[i] = self.Tab4Tabs[i].GetMargProbs() VarData[i] = { "cov_model": Variograms[i], "max_neighbours": IntPoints, "radiuses": EllipsoidRanges } self.NewThread = IKT.IKThread( self.contCubes.property(self.currIndex), self.contCubes.gridObject(self.currIndex), VarData, MargProbs) # info = ['Indicator Kriging', self] # self.emit(QtCore.SIGNAL('algorithm(PyQt_PyObject)'), info) self.algoInfo.emit('Indicator Kriging') self.NewThread.logMessage.connect(self.UpdateUI) self.NewThread.progressMessage.connect(self.UpdateProgress) self.NewThread.propSignal.connect(self.CatchResult) self.NewThread.start() self.RunButton.setDisabled(1) self.RunButton.setToolTip( self.__tr("Wait while algorithm is processing")) elif self.AlgorithmType.currentIndex() == 1: k = 0 MaxIndicators = self.contCubes.indicatorsCount(self.currIndex) for i in xrange(MaxIndicators): j, errors = self.Tab4Tabs[i].isVariogramValid() if j == 0: self.Err += 'In variogram tab #' + str(i) + ':\n' + errors k += j if k != MaxIndicators: self.ShowError(self.Err) else: self.hide() self.log += "Starting Sequantial Indicator Algorithm\n" self.algName = '_SIS' Variograms = range(MaxIndicators) MargProbs = range(MaxIndicators) VarData = range(MaxIndicators) EllipsoidRanges = self.SISWidget.getSearchRanges() IntPoints = self.SISWidget.getIntPoints() Seed = self.SISWidget.GetSeed() UseCorr = self.SISWidget.GetUseCorr() Mask = self.SISWidget.GetMask(self.contCubes) # is right? for i in xrange(MaxIndicators): Variograms[i] = self.Tab4Tabs[i].GetVariogram() MargProbs[i] = self.Tab4Tabs[i].GetMargProbs() VarData[i] = { "cov_model": Variograms[i], "max_neighbours": IntPoints, "radiuses": EllipsoidRanges } self.NewThread = SIST.SISThread( self.contCubes.property(self.currIndex), self.contCubes.gridObject(self.currIndex), VarData, MargProbs, Seed, UseCorr, Mask) # info = ['SIS', self] # self.emit(QtCore.SIGNAL('algorithm(PyQt_PyObject)'), info) self.algoInfo.emit('SIS') self.NewThread.logMessage.connect(self.UpdateUI) self.NewThread.progressMessage.connect(self.UpdateProgress) self.NewThread.propSignal.connect(self.CatchResult) self.NewThread.start() self.RunButton.setDisabled(1) self.RunButton.setToolTip( self.__tr("Wait while algorithm is processing"))
def AlgorithmRun(self): # Setting threads set_thread_num(int(self.threadsNum.value())) if self.isVariogramValid() == 1: if self.AlgorithmType.currentIndex() == 0: check, self.Err = self.SKWidget.isValuesValid() if check == 0: self.ShowError(self.Err) else: self.hide() self.log += "Starting Simple Kriging Algorithm\n" self.algName = '_SK' Variogram = self.GetVariogram() EllipsoidRanges = self.SKWidget.getSearchRanges() IntPoints = self.SKWidget.getIntPoints() Mean = self.contCubes.meanOf(self.currIndex) self.NewThread = SKT.SKThread( self.contCubes.property(self.currIndex), self.contCubes.gridObject(self.currIndex), EllipsoidRanges, IntPoints, Variogram, Mean) # self.emitLog( # '# RUNNING SIMPLE KRIGING\n' + # 'ellipsRanges = %s\n' % (EllipsoidRanges,) + # 'intPoints = %i\n' % (IntPoints,) + # 'mean = %f\n' % (Mean,) + # 'result = simple_kriging(prop, gridObject, '+ # 'ellipsRanges, intPoints, variogram, mean)' # ) #info = ['Simple Kriging', self.NewThread] #self.emit(QtCore.SIGNAL('algorithm(PyQt_PyObject)'), info) info = 'Simple Kriging' self.algoInfo.emit(info) #QtCore.QObject.connect(self.NewThread, # QtCore.SIGNAL("msg(QString)"), # self.UpdateUI) #QtCore.QObject.connect(self.NewThread, # QtCore.SIGNAL("progress(QString)"), # self.UpdateProgress) #QtCore.QObject.connect(self.NewThread, # QtCore.SIGNAL("Result(PyQt_PyObject)"), # self.CatchResult) self.NewThread.logMessage.connect(self.UpdateUI) self.NewThread.progressMessage.connect(self.UpdateProgress) self.NewThread.propSignal.connect(self.CatchResult) self.NewThread.start() self.RunButton.setDisabled(1) self.RunButton.setToolTip( self.__tr("Wait while algorithm is processing")) elif self.AlgorithmType.currentIndex() == 1: check, self.Err = self.OKWidget.isValuesValid() if check == 0: self.ShowError(self.Err) else: self.hide() self.algName = '_OK' Variogram = self.GetVariogram() EllipsoidRanges = self.OKWidget.getSearchRanges() IntPoints = self.OKWidget.getIntPoints() self.NewThread = OKT.OKThread( self.contCubes.property(self.currIndex), self.contCubes.gridObject(self.currIndex), EllipsoidRanges, IntPoints, Variogram) # self.emitLog( # '# RUNNING ORDINARY KRIGING\n' + # 'ellipsRanges = %s\n' % (EllipsoidRanges,) + # 'intPoints = %i\n' % (IntPoints,) + # 'result = ordinary_kriging(prop, gridObject, '+ # 'ellipsRanges, intPoints, variogram)' # ) #info = ['Ordinary Kriging', self] #self.emit(QtCore.SIGNAL('algorithm(PyQt_PyObject)'), info) info = 'Ordinary Kriging' self.algoInfo.emit(info) self.NewThread.logMessage.connect(self.UpdateUI) self.NewThread.progressMessage.connect(self.UpdateProgress) self.NewThread.propSignal.connect(self.CatchResult) self.NewThread.start() self.RunButton.setDisabled(1) self.RunButton.setToolTip( self.__tr("Wait while algorithm is processing")) elif self.AlgorithmType.currentIndex() == 2: check, self.Err = self.LVMWidget.isValuesValid() if check == 0: self.ShowError(self.Err) else: self.hide() self.log += "Starting Local Varying Mean Algorithm\n" self.algName = '_LVM' Variogram = self.GetVariogram() EllipsoidRanges = self.LVMWidget.getSearchRanges() IntPoints = self.LVMWidget.getIntPoints() Mean = self.LVMWidget.getMean(self.contCubes) self.NewThread = LVMT.LVMThread( self.contCubes.property(self.currIndex), self.contCubes.gridObject(self.currIndex), Mean, EllipsoidRanges, IntPoints, Variogram) #self.emitLog( # '# RUNNING LVM KRIGING\n' + # 'ellipsRanges = %s\n' % (EllipsoidRanges,) + # 'intPoints = %i\n' % (IntPoints,) + # 'mean = %s\n' % (Mean,) + # 'result = lvm_kriging(prop, gridObject, '+ # 'mean, ellipsRanges, intPoints, variogram)' # ) #info = ['LVM Kriging', self] #self.emit(QtCore.SIGNAL('algorithm(PyQt_PyObject)'), info) info = 'LVM Kriging' self.algoInfo.emit(info) self.NewThread.logMessage.connect(self.UpdateUI) self.NewThread.progressMessage.connect(self.UpdateProgress) self.NewThread.propSignal.connect(self.CatchResult) self.NewThread.start() self.RunButton.setDisabled(1) self.RunButton.setToolTip( self.__tr("Wait while algorithm is processing")) elif self.AlgorithmType.currentIndex() == 3: check, self.Err = self.SGSWidget.isValuesValid(self.Err) if check == 0: self.ShowError(self.Err) else: self.hide() self.log += "Starting Sequantial Gaussian Algorithm\n" self.algName = '_SGS' Variogram = self.GetVariogram() EllipsoidRanges = self.SGSWidget.getSearchRanges() IntPoints = self.SGSWidget.getIntPoints() Seed = self.SGSWidget.GetSeed() UseHd = self.SGSWidget.GetUseHd() KrType = self.SGSWidget.GetKrType() Mean = self.SGSWidget.getMean(self.contCubes) Mask = self.SGSWidget.GetMask(self.contCubes) self.NewThread = SGST.SGSThread( self.contCubes.property(self.currIndex), self.contCubes.gridObject(self.currIndex), EllipsoidRanges, IntPoints, Variogram, Seed, KrType, Mean, UseHd, Mask) #info = ['SGS', self] #self.emit(QtCore.SIGNAL('algorithm(PyQt_PyObject)'), info) info = 'SGS' self.algoInfo.emit(info) self.NewThread.logMessage.connect(self.UpdateUI) self.NewThread.progressMessage.connect(self.UpdateProgress) self.NewThread.propSignal.connect(self.CatchResult) self.NewThread.start() self.RunButton.setDisabled(1) self.RunButton.setToolTip( self.__tr("Wait while algorithm is processing"))