def outputResults(self): """Creates output feature class Local Gi*.""" #### Prepare Derived Variables for Output Feature Class #### outPath, outName = OS.path.split(self.outputFC) fieldOrder = UTILS.getFieldNames(giFieldNames, outPath) fieldData = [self.gi, self.pVals] fieldTypes = ["DOUBLE", "DOUBLE"] #### Add Pseudo-P Field #### if self.permutations: fieldOrder.append(giPseudoFieldName) fieldData.append(self.pseudoPVals) fieldTypes.append("DOUBLE") #### Add Gi Bin Field #### fieldOrder.append(giBinFieldName) fieldData.append(self.giBins) fieldTypes.append("LONG") #### Create Alias Field Names #### rowStandard = False if self.wType == 8: addString = OS.path.basename(self.weightsFile) elif self.wType in [0, 1, 7]: if self.maxSet: addString = "0" else: addString = str(int(self.threshold)) else: addString = None aliasList = WU.createSpatialFieldAliases( fieldOrder, addString=addString, wType=self.wType, exponent=self.exponent, rowStandard=rowStandard ) if self.applyFDR: aliasList[-1] += "_FDR" #### Create/Populate Dictionary of Candidate Fields #### candidateFields = {} for fieldInd, fieldName in enumerate(fieldOrder): fieldType = fieldTypes[fieldInd] candidateField = SSDO.CandidateField(fieldName, fieldType, fieldData[fieldInd], alias=aliasList[fieldInd]) candidateFields[fieldName] = candidateField #### Input Fields to Copy to Output FC #### appendFields = [i for i in self.fieldNames] #### Add Date-Time Field If Applicable #### if self.swmFileBool: if self.swm.wType == 9: if self.ssdo.allFields.has_key(self.swm.timeField.upper()): appendFields.insert(0, self.swm.timeField.upper()) #### Write Data to Output Feature Class #### self.ssdo.output2NewFC(self.outputFC, candidateFields, appendFields=appendFields, fieldOrder=fieldOrder) return fieldOrder[0], fieldOrder[1]
def outputResults(self): """Creates output feature class Local Gi*.""" #### Prepare Derived Variables for Output Feature Class #### outPath, outName = OS.path.split(self.outputFC) fieldOrder = UTILS.getFieldNames(giFieldNames, outPath) fieldData = [self.gi, self.pVals] fieldTypes = ["DOUBLE", "DOUBLE"] #### Add Pseudo-P Field #### if self.permutations: fieldOrder.append(giPseudoFieldName) fieldData.append(self.pseudoPVals) fieldTypes.append("DOUBLE") #### Add Gi Bin Field #### fieldOrder.append(giBinFieldName) fieldData.append(self.giBins) fieldTypes.append("LONG") #### Create Alias Field Names #### rowStandard = False if self.wType == 8: addString = OS.path.basename(self.weightsFile) elif self.wType in [0, 1, 7]: if self.maxSet: addString = "0" else: addString = str(int(self.threshold)) else: addString = None aliasList = WU.createSpatialFieldAliases(fieldOrder, addString=addString, wType=self.wType, exponent=self.exponent, rowStandard=rowStandard) if self.applyFDR: aliasList[-1] += "_FDR" #### Create/Populate Dictionary of Candidate Fields #### candidateFields = {} for fieldInd, fieldName in enumerate(fieldOrder): fieldType = fieldTypes[fieldInd] candidateField = SSDO.CandidateField(fieldName, fieldType, fieldData[fieldInd], alias=aliasList[fieldInd]) candidateFields[fieldName] = candidateField #### Input Fields to Copy to Output FC #### appendFields = [i for i in self.fieldNames] #### Add Date-Time Field If Applicable #### if self.swmFileBool: if self.swm.wType == 9: if self.ssdo.allFields.has_key(self.swm.timeField.upper()): appendFields.insert(0, self.swm.timeField.upper()) #### Write Data to Output Feature Class #### self.ssdo.output2NewFC(self.outputFC, candidateFields, appendFields=appendFields, fieldOrder=fieldOrder) return fieldOrder[0], fieldOrder[1]
def outputResults(self): """Creates output feature class for Local I.""" #### Prepare Derived Variables for Output Feature Class #### outPath, outName = OS.path.split(self.outputFC) fieldOrder = UTILS.getFieldNames(liFieldNames, outPath) fieldData = [self.li, self.zi, self.pVals] #### Add Pseudo-P Field #### if self.permutations: fieldOrder.append(liPseudoFieldName) fieldData.append(self.pseudoPVals) #### Add CO Type Field #### fieldOrder.append(liCOFieldName) whereNull = NUM.where(self.pVals == NUM.nan)[0] if len(whereNull): outBins = list(self.moranBins) for ind in whereNull: outBins[ind] = NUM.nan fieldData.append(outBins) else: fieldData.append(self.moranBins) #### Create Alias Field Names #### if self.wType == 8: addString = OS.path.basename(self.weightsFile) rowStandard = False elif self.wType in [0, 1, 7]: if self.maxSet: addString = "0" else: addString = str(int(self.threshold)) rowStandard = self.rowStandard else: addString = None rowStandard = self.rowStandard aliasList = WU.createSpatialFieldAliases(fieldOrder, addString = addString, wType = self.wType, exponent = self.exponent, rowStandard = rowStandard) if self.applyFDR: aliasList[-1] += "_FDR" #### Create/Populate Dictionary of Candidate Fields #### candidateFields = {} for fieldInd, fieldName in enumerate(fieldOrder): if fieldName == liCOFieldName: fType = "TEXT" length = 2 else: fType = "DOUBLE" length = None candidateField = SSDO.CandidateField(fieldName, fType, fieldData[fieldInd], alias = aliasList[fieldInd], length = length) candidateFields[fieldName] = candidateField #### Input Fields to Copy to Output FC #### appendFields = [i for i in self.fieldNames] #### Add Date-Time Field If Applicable #### if self.swmFileBool: if self.swm.wType == 9: if self.ssdo.allFields.has_key(self.swm.timeField.upper()): appendFields.insert(0, self.swm.timeField.upper()) #### Write Data to Output Feature Class #### self.ssdo.output2NewFC(self.outputFC, candidateFields, appendFields = appendFields, fieldOrder = fieldOrder) outFieldSet = fieldOrder[0:3] + [fieldOrder[-1]] return outFieldSet
def outputResults(self): """Creates output feature class for Local I.""" #### Prepare Derived Variables for Output Feature Class #### outPath, outName = OS.path.split(self.outputFC) fieldOrder = UTILS.getFieldNames(liFieldNames, outPath) fieldData = [self.li, self.zi, self.pVals] #### Add Pseudo-P Field #### if self.permutations: fieldOrder.append(liPseudoFieldName) fieldData.append(self.pseudoPVals) #### Add CO Type Field #### fieldOrder.append(liCOFieldName) whereNull = NUM.where(self.pVals == NUM.nan)[0] if len(whereNull): outBins = list(self.moranBins) for ind in whereNull: outBins[ind] = NUM.nan fieldData.append(outBins) else: fieldData.append(self.moranBins) #### Create Alias Field Names #### if self.wType == 8: addString = OS.path.basename(self.weightsFile) rowStandard = False elif self.wType in [0, 1, 7]: if self.maxSet: addString = "0" else: addString = str(int(self.threshold)) rowStandard = self.rowStandard else: addString = None rowStandard = self.rowStandard aliasList = WU.createSpatialFieldAliases(fieldOrder, addString=addString, wType=self.wType, exponent=self.exponent, rowStandard=rowStandard) if self.applyFDR: aliasList[-1] += "_FDR" #### Create/Populate Dictionary of Candidate Fields #### candidateFields = {} for fieldInd, fieldName in enumerate(fieldOrder): if fieldName == liCOFieldName: fType = "TEXT" length = 2 else: fType = "DOUBLE" length = None candidateField = SSDO.CandidateField(fieldName, fType, fieldData[fieldInd], alias=aliasList[fieldInd], length=length) candidateFields[fieldName] = candidateField #### Input Fields to Copy to Output FC #### appendFields = [i for i in self.fieldNames] #### Add Date-Time Field If Applicable #### if self.swmFileBool: if self.swm.wType == 9: if self.ssdo.allFields.has_key(self.swm.timeField.upper()): appendFields.insert(0, self.swm.timeField.upper()) #### Write Data to Output Feature Class #### self.ssdo.output2NewFC(self.outputFC, candidateFields, appendFields=appendFields, fieldOrder=fieldOrder) outFieldSet = fieldOrder[0:3] + [fieldOrder[-1]] return outFieldSet