KML 转图层 (转换)

import arcpy

arcpy.KMLToLayer_conversion(r'C:\kmls\earthquakes.kml',r'C:\gisdata\fromkmls','earthquake_09')

# Name: BatchKML_to_GDB.py
# Description: Convert a directory of KMLs and copy the output into a single 
#              fGDB. A 2-step process: first convert the KML files; then 
#              copy the feature classes.

# Import system modules
import arcpy
import os

# Set workspace (where all the KMLs are)
arcpy.env.workspace = "C:/VancouverData/KML"

# Set local variables and location for the consolidated file geodatabase
out_location = "C:/WorkingData/fGDBs"
gdb = 'AllKMLLayers.gdb'
gdb_location = os.path.join(out_location, gdb)

# Create the primary file geodatabase
arcpy.management.CreateFileGDB(out_location, gdb)

# Convert all KMZ and KML files found in the current workspace
for kmz in arcpy.ListFiles('*.KM*'):
    print("CONVERTING: {0}".format(os.path.join(arcpy.env.workspace, kmz)))
    arcpy.conversion.KMLToLayer(kmz, out_location)

# Change the workspace to fGDB location
arcpy.env.workspace = out_location

# Loop through all the file geodatabases in the workspace
wks = arcpy.ListWorkspaces('*', 'FileGDB')
# Skip the primary GDB
wks.remove(gdb_location)

for fgdb in wks:
    # Change the workspace to the current file geodatabase
    arcpy.env.workspace = fgdb

    # For every feature class inside, copy it to the primary and use the name 
    # from the original fGDB  
    feature_classes = arcpy.ListFeatureClasses('*', '', 'Placemarks')
    for fc in feature_classes:
        print("COPYING: {} FROM: {}".format(fc, fgdb))
        fcCopy = os.path.join(fgdb, 'Placemarks', fc)
        arcpy.conversion.FeatureClassToFeatureClass(
            fcCopy, gdb_location, fgdb[fgdb.rfind(os.sep) + 1:-4])

# Name: Extract_KML_popup_table.py
# Description: Convert a .kmz file and transfer a 2-column table from the pop-up 
#              to the field attributes.

# Import system modules
import arcpy
import os

# Set local variables and location for the consolidated file geodatabase
out_location = "C:/WorkingData/fGDBs"
gdb = 'SCP BoardDistricts.gdb'
gdb_location = os.path.join(out_location, gdb)

# Set kmz path
kmz = os.path.join(out_location, "SCP BoardDistricts.kmz")

# Convert all KMZ files to feature in the current workspace
arcpy.conversion.KMLToLayer(kmz, out_location)
    
# Change the workspace to fGDB location
arcpy.env.workspace = gdb_location

# Loop through all the file geodatabases in the workspace
feature_classes = arcpy.ListFeatureClasses('*', '', 'Placemarks')
for fc in feature_classes:
    popup_info_field_name = 'PopupInfo'
    field_names = [['gs_guid', 'TEXT', '#', 255, None, ''], 
                   ['gs_vc_revision', 'TEXT', '#', 255, None, ''], 
                   ['gs_vc_modified_sw', 'TEXT', '#', 255, None, ''], 
                   ['gs_old_objectid', 'TEXT', '#', 255, None, ''], 
                   ['gs_date_created', 'TEXT', '#', 255, None, ''], 
                   ['gs_date_modified', 'TEXT', '#', 255, None, ''], 
                   ['gs_code', 'TEXT', '#', 255, None, ''], 
                   ['gs_reference_scale', 'TEXT', '#', 255, None, ''], 
                   ['gs_description', 'TEXT', '#', 255, None, ''], 
                   ['gs_plot_scale', 'TEXT', '#', 255, None, ''], 
                   ['gs_nisc_guid', 'TEXT', '#', 255, None, ''], 
                   ['gs_mapped_by', 'TEXT', '#', 255, None, ''], 
                   ['gs_district', 'TEXT', 'Name', 255, None, ''], 
                   ['gs_boardmember', 'TEXT', '#', 255, None, ''], 
                   ['gs_servicetype', 'TEXT', 'Name', 255, None, ''], 
                   ['gs_legacy_futuraguid', 'TEXT', '#', 255, None, ''], 
                   ['gs_last_modified_by', 'TEXT', '#', 255, None, ''], 
                   ['gs_shape_from_gps_sw', 'TEXT', '#', 255, None, ''], 
                   ['gs_district_code', 'TEXT', '#', 255, None, ''], 
                   ['gs_district_name', 'TEXT', '#', 255, None, '']]
    arcpy.management.AddFields(fc, field_names, None)
    field_calculation = [[calc[0], f"extract_field(!{popup_info_field_name}!, '{calc[0]}')"] for calc in field_names]
    arcpy.management.CalculateFields(
        fc, "PYTHON3", field_calculation, 
"""from lxml import etree as _etree
def extract_field(s, field):
    ''' Extract fields from pop-up from each record in the calculate fields tool '''
    html = _etree.HTML(s)

    # Get all 'td'
    rows = html.xpath('//table/tr/td')
    next_value = False
    for row in rows:
        c = row.text
        if next_value:
            return c
        if c == field:
            next_value = True
    return None""", 
        "NO_ENFORCE_DOMAINS")