def moveLocalErrorsToSQL(prefixKeyName):
    print("Moving errors from the Local gdb to SQL for the prefix key name of: " + str(prefixKeyName) + ".")
    for errorItemFC in prefixesToMoveErrorsFor:
        errorItemFCBaseName = returnFeatureClass(errorItemFC)
        sqlPath = returnGDBOrSDEPath(dailyProcessSDESourceCenterlinesLocation)
        errorItemCopyName = prefixKeyName + '_' + errorItemFCBaseName
        errorItemSQLLocation = os.path.join(sqlPath, errorItemCopyName)
        lowerstrErrorItemFCBaseName = str(errorItemFCBaseName).lower()
        if lowerstrErrorItemFCBaseName.find('selfintclassification') >= 0:
            # Already includes the prefix name in the basename, so just use the full BaseName for the class.
            errorItemSQLLocation = os.path.join(sqlPath, errorItemFCBaseName)
        else:
            pass
        if Exists(errorItemSQLLocation):
            try:
                Delete_management(errorItemSQLLocation)
            except:
                print("Could not delete the FC at: " + str(errorItemSQLLocation) + ".")
                print("Please make sure that the FC does not have any locks on it and try again.")
        try:
            CopyFeatures_management(errorItemFC, errorItemSQLLocation)
        except:
            print("Could not copy from the FC at: " + str(errorItemFC))
            print("to the FC at: " + str(errorItemSQLLocation) + ".")
            print("Please make sure that the FC to copy from exists")
            print("and that the FC to copy to is not locked.")
def routesSourceCreation():
    env.workspace = returnGDBOrSDEPath(routesSourceCenterlines)
    env.overwriteOutput = 1
    
    # Checking to see if the output already exists.
    # If so, remove it.
    if Exists(routesSourceCenterlines):
        Delete_management(routesSourceCenterlines)
    else:
        pass
    # Create a new file for the output.
    print("Making a copy of " + returnFeatureClass(inputCenterlines) + " called " + returnFeatureClass(routesSourceCenterlines) + ".")
    CopyFeatures_management(inputCenterlines, routesSourceCenterlines)
    
    print("Adding fields to " + returnFeatureClass(routesSourceCenterlines) + ".")
    #Addfields:
    # SourceRouteId (Text, 50)
    AddField_management(routesSourceCenterlines, "SourceRouteId", "TEXT", "", "", 50, "SourceRouteId", nullable)
    # SourceFromMeasure (Double)
    AddField_management(routesSourceCenterlines, "SourceFromMeasure", "DOUBLE", "", "", "", "SourceFromMeasure", nullable)
    # SourceToMeasure (Double)
    AddField_management(routesSourceCenterlines, "SourceToMeasure", "DOUBLE", "", "", "", "SourceToMeasure", nullable)
    
    if useNewFieldLogic == True:
        KDOTKeyCalculation_NewFieldLogic()
    else:
        TranscendFieldCalculation()
    
    TranscendRampReplacement()
    
    if useNewFieldLogic == True:
        KDOTKeyCalculation_NewFieldLogic()
    else:
        TranscendFieldCalculation()
    LocalRouteReduction()
def routeCreation():
    env.workspace = returnGDBOrSDEPath(createRoutesOutputFC)
    env.overwriteOutput = 1
    '''
    # Need to match what Transcend used. -- Done.
    routeId = 'SourceRouteId'
    measureSource = 'TWO_FIELDS'
    fMeasureField = 'SourceFromMeasure'
    tMeasureField = 'SourceToMeasure'
    coordinatePriority = 'UPPER_LEFT'
    measureFactor = 1
    measureOffset = 0
    ignoreGaps = True
    buildIndex = True
    '''
    # Modifications for County Target Network.
    routeId = 'TargetCountyLRSKey'
    measureSource = 'Shapelength'
    #fMeasureField = 'SourceFromMeasure'
    #tMeasureField = 'SourceToMeasure'
    coordinatePriority = 'LOWER_LEFT'
    measureFactor = 1
    measureOffset = 0
    ignoreGaps = True
    buildIndex = True

    routesOutputGDB = returnGDBOrSDEPath(createRoutesOutputFC)
    routesOutputGDBName = returnGDBOrSDEName(routesOutputGDB)
    # Need to implement a new path function to get the GDB's folder.
    routesOutputGDBFolder = mainFolder
    if Exists(routesOutputGDB):
        Delete_management(routesOutputGDB)
    else:
        pass
    CreateFileGDB_management(routesOutputGDBFolder, routesOutputGDBName)

    # Checking to see if the copy for routes output exists.
    # If so, remove it.
    #if Exists(createRoutesOutputFC):
    #    Delete_management(createRoutesOutputFC)
    #else:
    #    pass

    print("Creating the lrs routes.")
    # CreateRoutes_lr GP Tool
    CreateRoutes_lr(createRoutesInputFC, routeId, createRoutesOutputFC,
                    measureSource, fMeasureField, tMeasureField,
                    coordinatePriority, measureFactor, measureOffset,
                    ignoreGaps, buildIndex)

    print("Adding date fields to " + returnFeatureClass(createRoutesOutputFC) +
          ".")
    #Addfields:
    AddField_management(createRoutesOutputFC, "F_Date", "DATE", "", "", "",
                        "F_Date", nullable)
    pyDateExpression = '''def pyFindTheDate():
        import time
        return time.strftime("%Y/%m/%d")'''

    CalculateField_management(createRoutesOutputFC, "F_Date",
                              "pyFindTheDate()", "PYTHON_9.3",
                              pyDateExpression)
    # T_Date (Date)
    AddField_management(createRoutesOutputFC, "T_Date", "DATE", "", "", "",
                        "T_Date", nullable)

    # ---- Add route calibration point creation steps for Start & End points. ----
    MakeFeatureLayer_management(createRoutesInputFC, 'tempFeatureLayer')

    # Checking to see if the output already exists.
    # If so, remove it so that it can be recreated.
    if Exists(startCalibrationPoints):
        Delete_management(startCalibrationPoints)
    else:
        pass
    if Exists(endCalibrationPoints):
        Delete_management(endCalibrationPoints)
    else:
        pass

    # Create 2 fieldInfo objects. Turn off all the fields in each one.
    featureDesc = Describe('tempFeatureLayer')
    if featureDesc.dataType == "FeatureLayer":
        fieldInfo_For_Start_CP_Fields = featureDesc.fieldInfo
        fieldInfo_For_End_CP_Fields = featureDesc.fieldInfo
        # Use the count property to iterate through all the fields
        for index in range(0, fieldInfo_For_Start_CP_Fields.count):
            fieldInfo_For_Start_CP_Fields.setVisible(index, 'HIDDEN')
            fieldInfo_For_End_CP_Fields.setVisible(index, 'HIDDEN')

    # Turn on the needed fields.
    visibile_Fields_For_Start_CP_Layer = [routeId, 'SourceFromMeasure']
    for visibile_Field in visibile_Fields_For_Start_CP_Layer:
        tempIndex = fieldInfo_For_Start_CP_Fields.findFieldByName(
            visibile_Field)
        fieldInfo_For_Start_CP_Fields.setVisible(tempIndex, 'VISIBLE')
    # Create a feature layer that only shows the needed fields.
    MakeFeatureLayer_management(createRoutesInputFC,
                                featureLayerCL_For_Start_CP, "", "",
                                fieldInfo_For_Start_CP_Fields)
    # Use that feature layer to create the 1st calibration point set.
    FeatureVerticesToPoints_management(featureLayerCL_For_Start_CP,
                                       startCalibrationPoints, "START")

    # Turn on the needed fields.
    visibile_Fields_For_End_CP_Layer = [routeId, 'SourceToMeasure']
    for visibile_Field in visibile_Fields_For_End_CP_Layer:
        tempIndex = fieldInfo_For_End_CP_Fields.findFieldByName(visibile_Field)
        fieldInfo_For_End_CP_Fields.setVisible(tempIndex, 'VISIBLE')
    # Create a feature layer that only shows the needed fields.
    MakeFeatureLayer_management(createRoutesInputFC, featureLayerCL_For_End_CP,
                                "", "", fieldInfo_For_End_CP_Fields)
    # Use that feature layer to create the 2nd calibration point set.
    FeatureVerticesToPoints_management(featureLayerCL_For_End_CP,
                                       endCalibrationPoints, "END")

    # ---- Merge the Start & End calibration points. ----
    # Checking to see if the output already exists.
    # If so, remove it so that it can be recreated.
    if Exists(mergedCalibrationPoints):
        Delete_management(mergedCalibrationPoints)
    else:
        pass
    # RoutesSource_Start_CP.SourceRouteId to CalPts_Merge.RouteId
    # RoutesSource_End_CP.SourceRouteId to CalPts_Merge.RouteId
    mcp_Field1 = FieldMap()
    mcp_Field1.addInputField(startCalibrationPoints, routeId)
    mcp_Field1.addInputField(endCalibrationPoints, routeId)
    mcp_Field1_OutField = mcp_Field1.outputField
    mcp_Field1_OutField.name = 'RouteId'
    mcp_Field1_OutField.aliasName = 'RouteId'
    mcp_Field1_OutField.type = 'String'
    mcp_Field1_OutField.length = 50
    mcp_Field1.outputField = mcp_Field1_OutField

    # RoutesSource_Start_CP.SourceFromMeasure to CalPts_Merge.Measure
    mcp_Field2 = FieldMap()
    mcp_Field2.addInputField(startCalibrationPoints, 'SourceFromMeasure')
    mcp_Field2.addInputField(endCalibrationPoints, 'SourceToMeasure')
    mcp_Field2_OutField = mcp_Field2.outputField
    mcp_Field2_OutField.name = 'Measure'
    mcp_Field2_OutField.aliasName = 'Measure'
    mcp_Field2_OutField.type = 'Double'
    mcp_Field2.outputField = mcp_Field2_OutField

    # Create a fieldMappings object for the layer merge.
    calibrationPointsMappings = FieldMappings()
    calibrationPointsMappings.addFieldMap(mcp_Field1)
    calibrationPointsMappings.addFieldMap(mcp_Field2)

    #Merge the points together into a single feature class.
    inputMergeLayers = [startCalibrationPoints, endCalibrationPoints]
    Merge_management(inputMergeLayers, mergedCalibrationPoints,
                     calibrationPointsMappings)

    MakeFeatureLayer_management(mergedCalibrationPoints, 'tempMergedPoints')

    dissolveFields = ["RouteId", "Measure"]
    print('Dissolving points.')
    Dissolve_management('tempMergedPoints', dissolvedCalibrationPoints,
                        dissolveFields, "#", "SINGLE_PART")
def main():
    if usePrefixSetTestingAndReporting == True:
        for prefixKey in prefixSetErrorReportingDict.keys():
            prefixAttributeQuery = prefixSetErrorReportingDict[prefixKey]
            prefixKeyItemDict = outerTestDict[prefixKey]
            prefixSetGdbBaseName = prefixKeyItemDict["prefixSetGdbBaseName"]
            prefixSetSourceGDBName = prefixSetGdbBaseName + '_Source.gdb'
            prefixSetSourceGDBLocation = os.path.join(mainFolder,
                                                      prefixSetSourceGDBName)
            routesSourceOutputLocation = os.path.join(
                prefixSetSourceGDBLocation, 'RoutesSource')

            try:
                Delete_management(
                    routesSourceFCAsALayer
                )  #pre-emptive layer delete prior to rebuilding it
                time.sleep(3)
            except:
                pass

            MakeFeatureLayer_management(routesSourceFC, routesSourceFCAsALayer)
            routesSourceSelectionClause = """ """ + str(
                prefixAttributeQuery) + """ """
            SelectLayerByAttribute_management(routesSourceFCAsALayer,
                                              "NEW_SELECTION",
                                              routesSourceSelectionClause)

            if Exists(returnGDBOrSDEPath(routesSourceOutputLocation)):
                pass
            else:
                CreateFileGDB_management(
                    mainFolder,
                    returnGDBOrSDEName(
                        returnGDBOrSDEPath(routesSourceOutputLocation)))
            # Checking to see if the output already exists.
            # If so, remove it.
            if Exists(routesSourceOutputLocation):
                print(
                    "Deleting the previous routesSourceOutputLocation at: \n" +
                    str(routesSourceOutputLocation) + ".")
                Delete_management(routesSourceOutputLocation)
                time.sleep(7)
            else:
                pass
            # Create a new file for the output.
            print(
                "Making a copy of the selection in the routesSourceFCAsALayer at: \n"
                + routesSourceOutputLocation + ".")
            CopyFeatures_management(routesSourceFCAsALayer,
                                    routesSourceOutputLocation)

            #Repeat for each of the other layers to be copied into the new *_Source.gdb.
            for itemToCopy in otherFCsToCopyList:
                itemToCopyInputLocation = os.path.join(
                    returnGDBOrSDEPath(routesSourceFC), itemToCopy)
                itemToCopyOutputLocation = os.path.join(
                    prefixSetSourceGDBLocation, itemToCopy)
                if Exists(itemToCopyOutputLocation):
                    print(
                        "Deleting the previous itemToCopyOutputLocation at: \n"
                        + str(itemToCopyOutputLocation) + ".")
                    Delete_management(itemToCopyOutputLocation)
                    time.sleep(7)
                else:
                    pass
                print("Making a copy of the itemToCopy at: \n" +
                      str(itemToCopyOutputLocation) + ".")
                CopyFeatures_management(itemToCopyInputLocation,
                                        itemToCopyOutputLocation)

    else:
        print(
            "The usePrefixSetTestingAndReporting value is not True. Will not create separate prefix set gdbs."
        )
Exemplo n.º 5
0
def mainProcessFeatureSimplification(inputFeatures, maxCount, outputFeatures):
    # Split the input features into intermediary features:
    # Add each intermediary feature class to a list and
    # pass one feature class of the intermediary features
    # to each subprocess.
    
    # When all of the subprocesses complete, use the
    # list of the intermediary feature classes to append
    # the data into the output features.
    
    countResult = GetCount_management(inputFeatures)
    intCount = int(countResult.getOutput(0))
    # debug print
    print("Counted " + str(intCount) + " features in the " + inputFeatures + " feature class.")
    
    if maxCount > 15000:
        maxCount = 15000
    elif maxCount < 2000:
        maxCount = 7000
    else:
        pass
    
    neededMirrors = intCount / maxCount + 1
    
    # debug print
    print("Will create " + str(neededMirrors) + " reflection gdbs.")
    
    infoForSubprocess = list()
    gdbToCreateList = list()
    
    for countItem in xrange(0, neededMirrors):
        gdbMirrorName = mirrorBaseName + '_' + '0' + str(countItem) + '.gdb'
        gdbMirrorFullPath = os.path.join(mainFolder, gdbMirrorName)
        gdbToCreateList.append(gdbMirrorFullPath)
        try:
            if Exists(gdbMirrorFullPath):
                try:
                    Delete_management(gdbMirrorFullPath)
                except:
                    pass
            else:
                pass
        except:
            pass
        
        CreateFileGDB_management(mainFolder, gdbMirrorName)
        
        # do a selection on the input features here
        # then copyfeatures to get the selected features
        # output to the target gdb.
        
        if Exists(simplifyTempLayer):
            try:
                Delete_management(simplifyTempLayer)
            except:
                pass
        else:
            pass
        
        MakeFeatureLayer_management(inputFeatures, simplifyTempLayer)
        
        currentSelectMin = int(countItem * maxCount) 
        currentSelectMax = int((countItem + 1) * maxCount)
        
        dynSelectClause = """"OBJECTID" >= """ + str(currentSelectMin) + """ AND "OBJECTID" < """ + str(currentSelectMax) + """"""
        
        SelectLayerByAttribute_management(simplifyTempLayer, "NEW_SELECTION", dynSelectClause)
        
        selectedSimplifyFeatures = os.path.join(gdbMirrorFullPath, simplifyInputName)
        
        CopyFeatures_management(simplifyTempLayer, selectedSimplifyFeatures)
        
        subprocessInfoItem = [mainFolder, gdbMirrorFullPath, simplifyAlgorithm, simplifyDistance]
        
        infoForSubprocess.append(subprocessInfoItem)
    
    # Predivide the list of data driven pages that each process needs to run
    # and pass it as a list of exportItems.
    
    coreCount = mp.cpu_count()
    
    # To support running this on the slow AR60, reduce the coreCount used to try to keep
    # this script from crashing there.
    if coreCount >= 3 and useMultithreading == True:
        coreCount = coreCount - 1
        
        print("Starting a multi-threaded job which will use (up to) " + str(coreCount) + " cores at once.")
        
        workPool = mp.Pool(processes=coreCount)
        # Note: This is a different usage of the word map than the one generally used in GIS.
        workPool.map(subProcessFeatureSimplification, infoForSubprocess)
        print("Multi-threaded job's done!")
        
        print("Waiting a few moments before closing down the worker processes...")
        time.sleep(20)
        workPool.close()
        time.sleep(20)
        workPool.join()
        
        print("Worker processes closed.")
        
    else:
        # Don't use multithreading here.
        print("Using the single threaded process for feature simplification.")
        print("This will be slower than the multi-threaded version,")
        print("but it should also be less likely to crash on slower machines")
        print("or those with low core counts.")
        for singleThreadedProcessInfoListItem in infoForSubprocess:
            singleThreadedProcessForSlowMachines(singleThreadedProcessInfoListItem)
        
        print("Waiting a few moments before continuing to the next part of the script...")
        time.sleep(20)
    
    # Delete the output target prior to recreating it and appending data into it.
    if Exists(outputFeatures):
        try:
            Delete_management(outputFeatures)
        except:
            pass
    else:
        pass
    
    # Need the gdb and fc name here from outputFeatures.
    outGDB = returnGDBOrSDEPath(outputFeatures)
    outGDBName = returnGDBOrSDEName(outGDB)
    outGDBFolder = returnGDBOrSDEFolder(outGDB)
    outFCName = returnFeatureClass(outputFeatures)
    
    if not Exists(outGDB):
        CreateFileGDB_management(outGDBFolder, outGDBName)
    
    # Use the inputFeatures as a template.
    CreateFeatureclass_management(outGDB, outFCName, "", inputFeatures)
    
    appendOutputFCList = list()
    
    for gdbToCreate in gdbToCreateList:
        appendOutputFC = os.path.join(gdbToCreate, 'simplificationOutput')
        appendOutputFCList.append(appendOutputFC)
    
    # Do appends here, then sleep again for a bit.
    # Shouldn't need a field mapping since they should all be the same.
    Append_management(appendOutputFCList, outputFeatures, "NO_TEST")
    
    print "Waiting a few moments to be sure that all of the locks have been removed prior to deleting the reflection gdbs..."
    time.sleep(20)
    
    # Then remove the mirror gdbs.
    for gdbToCreate in gdbToCreateList:
        try:
            if Exists(gdbToCreate):
                try:
                    Delete_management(gdbToCreate)
                except:
                    pass
            else:
                pass
        except:
            pass