#!/usr/bin/python3
# -*- coding: utf-8 -*-
# ******************************************************************************
# $Id: ogr_layer_algebra.py c6a7f326309cf9e043663557dead654e66cffea9 2018-04-27 10:04:51 +1000 Ben Elliston $
#
# Project: GDAL Python Interface
# Purpose: Application for executing OGR layer algebra operations
# Author: Even Rouault, even dot rouault at mines-paris dot org
#
# ******************************************************************************
# Copyright (c) 2013, Even Rouault <even dot rouault at mines-paris dot org>
#
# Permission is hereby granted, free of charge, to any person obtaining a
# copy of this software and associated documentation files (the "Software"),
# to deal in the Software without restriction, including without limitation
# the rights to use, copy, modify, merge, publish, distribute, sublicense,
# and/or sell copies of the Software, and to permit persons to whom the
# Software is furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included
# in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
# OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
# THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
# DEALINGS IN THE SOFTWARE.
# ******************************************************************************
import os
import sys
from osgeo import gdal
from osgeo import ogr
from osgeo import osr
###############################################################################
def Usage():
print("""
Usage: ogr_layer_algebra.py Union|Intersection|SymDifference|Identity|Update|Clip|Erase
-input_ds name [-input_lyr name]
-method_ds [-method_lyr name]
-output_ds name [-output_lyr name] [-overwrite]
[-opt NAME=VALUE]*
[-f format_name] [-dsco NAME=VALUE]* [-lco NAME=VALUE]*
[-input_fields NONE|ALL|fld1,fl2,...fldN] [-method_fields NONE|ALL|fld1,fl2,...fldN]
[-nlt geom_type] [-a_srs srs_def]""")
return 1
###############################################################################
def EQUAL(a, b):
return a.lower() == b.lower()
###############################################################################
def CreateLayer(output_ds, output_lyr_name, srs, geom_type, lco,
input_lyr, input_fields,
method_lyr, method_fields, opt):
output_lyr = output_ds.CreateLayer(output_lyr_name, srs, geom_type, lco)
if output_lyr is None:
print('Cannot create layer "%s"' % output_lyr_name)
return None
input_prefix = ''
method_prefix = ''
for val in opt:
if val.lower().find('input_prefix=') == 0:
input_prefix = val[len('input_prefix='):]
elif val.lower().find('method_prefix=') == 0:
method_prefix = val[len('method_prefix='):]
if input_fields == 'ALL':
layer_defn = input_lyr.GetLayerDefn()
for idx in range(layer_defn.GetFieldCount()):
fld_defn = layer_defn.GetFieldDefn(idx)
fld_defn = ogr.FieldDefn(input_prefix + fld_defn.GetName(), fld_defn.GetType())
if output_lyr.CreateField(fld_defn) != 0:
print('Cannot create field "%s" in layer "%s"' % (fld_defn.GetName(), output_lyr.GetName()))
elif input_fields != 'NONE':
layer_defn = input_lyr.GetLayerDefn()
for fld in input_fields:
idx = layer_defn.GetFieldIndex(fld)
if idx < 0:
print('Cannot find field "%s" in layer "%s"' % (fld, layer_defn.GetName()))
continue
fld_defn = layer_defn.GetFieldDefn(idx)
fld_defn = ogr.FieldDefn(input_prefix + fld_defn.GetName(), fld_defn.GetType())
if output_lyr.CreateField(fld_defn) != 0:
print('Cannot create field "%s" in layer "%s"' % (fld, output_lyr.GetName()))
if method_fields == 'ALL':
layer_defn = method_lyr.GetLayerDefn()
for idx in range(layer_defn.GetFieldCount()):
fld_defn = layer_defn.GetFieldDefn(idx)
fld_defn = ogr.FieldDefn(method_prefix + fld_defn.GetName(), fld_defn.GetType())
if output_lyr.CreateField(fld_defn) != 0:
print('Cannot create field "%s" in layer "%s"' % (fld_defn.GetName(), output_lyr.GetName()))
elif method_fields != 'NONE':
layer_defn = method_lyr.GetLayerDefn()
for fld in method_fields:
idx = layer_defn.GetFieldIndex(fld)
if idx < 0:
print('Cannot find field "%s" in layer "%s"' % (fld, layer_defn.GetName()))
continue
fld_defn = layer_defn.GetFieldDefn(idx)
fld_defn = ogr.FieldDefn(method_prefix + fld_defn.GetName(), fld_defn.GetType())
if output_lyr.CreateField(fld_defn) != 0:
print('Cannot create field "%s" in layer "%s"' % (fld, output_lyr.GetName()))
return output_lyr
###############################################################################
def main(argv=None):
frmt = 'ESRI Shapefile'
quiet_flag = 0
input_ds_name = None
input_lyr_name = None
method_ds_name = None
method_lyr_name = None
output_ds_name = None
output_lyr_name = None
op_str = None
dsco = []
lco = []
opt = []
overwrite = False
input_fields = 'ALL'
method_fields = None
geom_type = ogr.wkbUnknown
srs_name = None
srs = None
argv = ogr.GeneralCmdLineProcessor(sys.argv)
if argv is None:
return 1
# Parse command line arguments.
i = 1
while i < len(argv):
arg = argv[i]
if arg == '-f' and i + 1 < len(argv):
i = i + 1
frmt = argv[i]
elif arg == '-input_ds' and i + 1 < len(argv):
i = i + 1
input_ds_name = argv[i]
elif arg == '-input_lyr' and i + 1 < len(argv):
i = i + 1
input_lyr_name = argv[i]
elif arg == '-method_ds' and i + 1 < len(argv):
i = i + 1
method_ds_name = argv[i]
elif arg == '-method_lyr' and i + 1 < len(argv):
i = i + 1
method_lyr_name = argv[i]
elif arg == '-output_ds' and i + 1 < len(argv):
i = i + 1
output_ds_name = argv[i]
elif arg == '-output_lyr' and i + 1 < len(argv):
i = i + 1
output_lyr_name = argv[i]
elif arg == '-input_fields' and i + 1 < len(argv):
i = i + 1
if EQUAL(argv[i], "NONE"):
input_fields = "NONE"
elif EQUAL(argv[i], "ALL"):
input_fields = "ALL"
else:
input_fields = argv[i].split(',')
elif arg == '-method_fields' and i + 1 < len(argv):
i = i + 1
if EQUAL(argv[i], "NONE"):
method_fields = "NONE"
elif EQUAL(argv[i], "ALL"):
method_fields = "ALL"
else:
method_fields = argv[i].split(',')
elif arg == '-dsco' and i + 1 < len(argv):
i = i + 1
dsco.append(argv[i])
elif arg == '-lco' and i + 1 < len(argv):
i = i + 1
lco.append(argv[i])
elif arg == '-opt' and i + 1 < len(argv):
i = i + 1
opt.append(argv[i])
elif arg == "-nlt" and i + 1 < len(argv):
i = i + 1
val = argv[i]
if EQUAL(val, "NONE"):
geom_type = ogr.wkbNone
elif EQUAL(val, "GEOMETRY"):
geom_type = ogr.wkbUnknown
elif EQUAL(val, "POINT"):
geom_type = ogr.wkbPoint
elif EQUAL(val, "LINESTRING"):
geom_type = ogr.wkbLineString
elif EQUAL(val, "POLYGON"):
geom_type = ogr.wkbPolygon
elif EQUAL(val, "GEOMETRYCOLLECTION"):
geom_type = ogr.wkbGeometryCollection
elif EQUAL(val, "MULTIPOINT"):
geom_type = ogr.wkbMultiPoint
elif EQUAL(val, "MULTILINESTRING"):
geom_type = ogr.wkbMultiLineString
elif EQUAL(val, "MULTIPOLYGON"):
geom_type = ogr.wkbMultiPolygon
elif EQUAL(val, "GEOMETRY25D"):
geom_type = ogr.wkbUnknown | ogr.wkb25DBit
elif EQUAL(val, "POINT25D"):
geom_type = ogr.wkbPoint25D
elif EQUAL(val, "LINESTRING25D"):
geom_type = ogr.wkbLineString25D
elif EQUAL(val, "POLYGON25D"):
geom_type = ogr.wkbPolygon25D
elif EQUAL(val, "GEOMETRYCOLLECTION25D"):
geom_type = ogr.wkbGeometryCollection25D
elif EQUAL(val, "MULTIPOINT25D"):
geom_type = ogr.wkbMultiPoint25D
elif EQUAL(val, "MULTILINESTRING25D"):
geom_type = ogr.wkbMultiLineString25D
elif EQUAL(val, "MULTIPOLYGON25D"):
geom_type = ogr.wkbMultiPolygon25D
else:
print("-nlt %s: type not recognised." % val)
return 1
elif arg == "-a_srs" and i + 1 < len(argv):
i = i + 1
srs_name = argv[i]
elif EQUAL(arg, "Union"):
op_str = "Union"
elif EQUAL(arg, "Intersection"):
op_str = "Intersection"
elif EQUAL(arg, "SymDifference"):
op_str = "SymDifference"
elif EQUAL(arg, "Identity"):
op_str = "Identity"
elif EQUAL(arg, "Update"):
op_str = "Update"
elif EQUAL(arg, "Clip"):
op_str = "Clip"
elif EQUAL(arg, "Erase"):
op_str = "Erase"
elif arg == "-overwrite":
overwrite = True
elif arg == '-q' or arg == '-quiet':
quiet_flag = 1
else:
return Usage()
i = i + 1
if input_ds_name is None or \
method_ds_name is None or \
output_ds_name is None or \
op_str is None:
return Usage()
if method_fields is None:
if op_str in ('Update', 'Clip', 'Erase'):
method_fields = 'NONE'
else:
method_fields = 'ALL'
if input_fields == 'NONE' and method_fields == 'NONE':
print('Warning: -input_fields NONE and -method_fields NONE results in all fields being added')
# Input layer
input_ds = ogr.Open(input_ds_name)
if input_ds is None:
print('Cannot open input dataset : %s' % input_ds_name)
return 1
if input_lyr_name is None:
cnt = input_ds.GetLayerCount()
if cnt != 1:
print('Input datasource has not a single layer, so you should specify its name with -input_lyr')
return 1
input_lyr = input_ds.GetLayer(0)
else:
input_lyr = input_ds.GetLayerByName(input_lyr_name)
if input_lyr is None:
print('Cannot find input layer "%s"' % input_lyr_name)
return 1
# Method layer
method_ds = ogr.Open(method_ds_name)
if method_ds is None:
print('Cannot open method dataset : %s' % method_ds_name)
return 1
if method_lyr_name is None:
cnt = method_ds.GetLayerCount()
if cnt != 1:
print('Method datasource has not a single layer, so you should specify its name with -method_lyr')
return 1
method_lyr = method_ds.GetLayer(0)
else:
method_lyr = method_ds.GetLayerByName(method_lyr_name)
if method_lyr is None:
print('Cannot find method layer "%s"' % method_lyr_name)
return 1
# SRS
if srs_name is not None:
if not EQUAL(srs_name, "NULL") and not EQUAL(srs_name, "NONE"):
srs = osr.SpatialReference()
if srs.SetFromUserInput(srs_name) != 0:
print("Failed to process SRS definition: %s" % srs_name)
return 1
else:
srs = input_lyr.GetSpatialRef()
srs2 = method_lyr.GetSpatialRef()
if srs is None and srs2 is not None:
print('Warning: input layer has no SRS defined, but method layer has one.')
elif srs is not None and srs2 is None:
print('Warning: input layer has a SRS defined, but method layer has not one.')
elif srs is not None and srs2 is not None and srs.IsSame(srs2) != 1:
print('Warning: input and method layers have SRS defined, but they are not identical. No on-the-fly reprojection will be done.')
# Result layer
output_ds = ogr.Open(output_ds_name, update=1)
if output_ds is None:
output_ds = ogr.Open(output_ds_name)
if output_ds is not None:
print('Output datasource "%s" exists, but cannot be opened in update mode' % output_ds_name)
return 1
drv = ogr.GetDriverByName(frmt)
if drv is None:
print('Cannot find driver %s' % frmt)
return 1
output_ds = drv.CreateDataSource(output_ds_name, options=dsco)
if output_ds is None:
print('Cannot create datasource "%s"' % output_ds_name)
return 1
# Special case
if EQUAL(drv.GetName(), "ESRI Shapefile") and output_lyr_name is None \
and EQUAL(os.path.splitext(output_ds_name)[1], ".SHP"):
output_lyr_name = os.path.splitext(os.path.basename(output_ds_name))[0]
if output_lyr_name is None:
print('-output_lyr should be specified')
return 1
output_lyr = CreateLayer(output_ds, output_lyr_name, srs, geom_type, lco, input_lyr, input_fields, method_lyr, method_fields, opt)
if output_lyr is None:
return 1
else:
drv = output_ds.GetDriver()
if output_lyr_name is None:
cnt = output_ds.GetLayerCount()
if cnt != 1:
print('Result datasource has not a single layer, so you should specify its name with -output_lyr')
return 1
output_lyr = output_ds.GetLayer(0)
output_lyr_name = output_lyr.GetName()
else:
output_lyr = output_ds.GetLayerByName(output_lyr_name)
if output_lyr is None:
if EQUAL(drv.GetName(), "ESRI Shapefile") and \
EQUAL(os.path.splitext(output_ds_name)[1], ".SHP") and \
not EQUAL(output_lyr_name, os.path.splitext(os.path.basename(output_ds_name))[0]):
print('Cannot create layer "%s" in a shapefile called "%s"' % (output_lyr_name, output_ds_name))
return 1
output_lyr = CreateLayer(output_ds, output_lyr_name, srs, geom_type, lco, input_lyr, input_fields, method_lyr, method_fields, opt)
if output_lyr is None:
return 1
if overwrite:
cnt = output_ds.GetLayerCount()
iLayer = None # initialise in case there are no loop iterations
for iLayer in range(cnt):
poLayer = output_ds.GetLayer(iLayer)
if poLayer is not None \
and poLayer.GetName() == output_lyr_name:
break
if iLayer != cnt:
if output_ds.DeleteLayer(iLayer) != 0:
print("DeleteLayer() failed when overwrite requested.")
return 1
output_lyr = CreateLayer(output_ds, output_lyr_name, srs, geom_type, lco, input_lyr, input_fields, method_lyr, method_fields, opt)
if output_lyr is None:
return 1
op = getattr(input_lyr, op_str)
if quiet_flag == 0:
ret = op(method_lyr, output_lyr, options=opt, callback=gdal.TermProgress_nocb)
else:
ret = op(method_lyr, output_lyr, options=opt)
input_ds = None
method_ds = None
output_ds = None
if ret != 0:
print('An error occurred during %s operation' % op_str)
return 1
return 0
###############################################################################
if __name__ == '__main__':
version_num = int(gdal.VersionInfo('VERSION_NUM'))
if version_num < 1100000:
print('ERROR: Python bindings of GDAL 1.10 or later required')
sys.exit(1)
sys.exit(main(sys.argv))
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