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2862760894
Additionally, a test has been updated to account for small SRS WKT differences. Thanks Tim Graham for writing the doc part.
270 lines
10 KiB
Python
270 lines
10 KiB
Python
import os
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import re
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import unittest
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from django.contrib.gis.gdal import (
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GDAL_VERSION, DataSource, Envelope, GDALException, OGRGeometry,
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OGRIndexError,
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)
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from django.contrib.gis.gdal.field import OFTInteger, OFTReal, OFTString
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from ..test_data import TEST_DATA, TestDS, get_ds_file
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wgs_84_wkt = (
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'GEOGCS["GCS_WGS_1984",DATUM["WGS_1984",SPHEROID["WGS_1984",'
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'6378137,298.257223563]],PRIMEM["Greenwich",0],UNIT["Degree",'
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'0.017453292519943295]]'
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)
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# Using a regex because of small differences depending on GDAL versions.
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# AUTHORITY part has been added in GDAL 2.2.
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wgs_84_wkt_regex = (
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r'^GEOGCS\["GCS_WGS_1984",DATUM\["WGS_1984",SPHEROID\["WGS_(19)?84",'
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r'6378137,298.257223563\]\],PRIMEM\["Greenwich",0\],UNIT\["Degree",'
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r'0.017453292519943295\](,AUTHORITY\["EPSG","4326"\])?\]$'
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)
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# List of acceptable data sources.
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ds_list = (
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TestDS(
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'test_point', nfeat=5, nfld=3, geom='POINT', gtype=1, driver='ESRI Shapefile',
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fields={'dbl': OFTReal, 'int': OFTInteger, 'str': OFTString},
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extent=(-1.35011, 0.166623, -0.524093, 0.824508), # Got extent from QGIS
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srs_wkt=wgs_84_wkt,
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field_values={
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'dbl': [float(i) for i in range(1, 6)],
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'int': list(range(1, 6)),
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'str': [str(i) for i in range(1, 6)],
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},
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fids=range(5)
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),
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TestDS(
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'test_vrt', ext='vrt', nfeat=3, nfld=3, geom='POINT', gtype='Point25D',
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driver='OGR_VRT' if GDAL_VERSION >= (2, 0) else 'VRT',
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fields={
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'POINT_X': OFTString,
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'POINT_Y': OFTString,
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'NUM': OFTString,
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}, # VRT uses CSV, which all types are OFTString.
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extent=(1.0, 2.0, 100.0, 523.5), # Min/Max from CSV
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field_values={
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'POINT_X': ['1.0', '5.0', '100.0'],
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'POINT_Y': ['2.0', '23.0', '523.5'],
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'NUM': ['5', '17', '23'],
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},
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fids=range(1, 4)
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),
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TestDS(
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'test_poly', nfeat=3, nfld=3, geom='POLYGON', gtype=3,
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driver='ESRI Shapefile',
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fields={'float': OFTReal, 'int': OFTInteger, 'str': OFTString},
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extent=(-1.01513, -0.558245, 0.161876, 0.839637), # Got extent from QGIS
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srs_wkt=wgs_84_wkt,
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)
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)
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bad_ds = (TestDS('foo'),)
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class DataSourceTest(unittest.TestCase):
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def test01_valid_shp(self):
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"Testing valid SHP Data Source files."
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for source in ds_list:
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# Loading up the data source
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ds = DataSource(source.ds)
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# Making sure the layer count is what's expected (only 1 layer in a SHP file)
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self.assertEqual(1, len(ds))
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# Making sure GetName works
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self.assertEqual(source.ds, ds.name)
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# Making sure the driver name matches up
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self.assertEqual(source.driver, str(ds.driver))
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# Making sure indexing works
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with self.assertRaises(OGRIndexError):
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ds[len(ds)]
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def test02_invalid_shp(self):
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"Testing invalid SHP files for the Data Source."
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for source in bad_ds:
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with self.assertRaises(GDALException):
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DataSource(source.ds)
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def test03a_layers(self):
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"Testing Data Source Layers."
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for source in ds_list:
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ds = DataSource(source.ds)
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# Incrementing through each layer, this tests DataSource.__iter__
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for layer in ds:
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# Making sure we get the number of features we expect
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self.assertEqual(len(layer), source.nfeat)
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# Making sure we get the number of fields we expect
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self.assertEqual(source.nfld, layer.num_fields)
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self.assertEqual(source.nfld, len(layer.fields))
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# Testing the layer's extent (an Envelope), and its properties
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self.assertIsInstance(layer.extent, Envelope)
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self.assertAlmostEqual(source.extent[0], layer.extent.min_x, 5)
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self.assertAlmostEqual(source.extent[1], layer.extent.min_y, 5)
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self.assertAlmostEqual(source.extent[2], layer.extent.max_x, 5)
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self.assertAlmostEqual(source.extent[3], layer.extent.max_y, 5)
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# Now checking the field names.
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flds = layer.fields
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for f in flds:
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self.assertIn(f, source.fields)
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# Negative FIDs are not allowed.
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with self.assertRaises(OGRIndexError):
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layer.__getitem__(-1)
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with self.assertRaises(OGRIndexError):
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layer.__getitem__(50000)
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if hasattr(source, 'field_values'):
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# Testing `Layer.get_fields` (which uses Layer.__iter__)
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for fld_name, fld_value in source.field_values.items():
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self.assertEqual(fld_value, layer.get_fields(fld_name))
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# Testing `Layer.__getitem__`.
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for i, fid in enumerate(source.fids):
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feat = layer[fid]
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self.assertEqual(fid, feat.fid)
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# Maybe this should be in the test below, but we might as well test
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# the feature values here while in this loop.
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for fld_name, fld_value in source.field_values.items():
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self.assertEqual(fld_value[i], feat.get(fld_name))
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def test03b_layer_slice(self):
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"Test indexing and slicing on Layers."
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# Using the first data-source because the same slice
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# can be used for both the layer and the control values.
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source = ds_list[0]
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ds = DataSource(source.ds)
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sl = slice(1, 3)
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feats = ds[0][sl]
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for fld_name in ds[0].fields:
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test_vals = [feat.get(fld_name) for feat in feats]
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control_vals = source.field_values[fld_name][sl]
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self.assertEqual(control_vals, test_vals)
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def test03c_layer_references(self):
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"""
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Ensure OGR objects keep references to the objects they belong to.
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"""
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source = ds_list[0]
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# See ticket #9448.
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def get_layer():
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# This DataSource object is not accessible outside this
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# scope. However, a reference should still be kept alive
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# on the `Layer` returned.
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ds = DataSource(source.ds)
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return ds[0]
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# Making sure we can call OGR routines on the Layer returned.
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lyr = get_layer()
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self.assertEqual(source.nfeat, len(lyr))
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self.assertEqual(source.gtype, lyr.geom_type.num)
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# Same issue for Feature/Field objects, see #18640
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self.assertEqual(str(lyr[0]['str']), "1")
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def test04_features(self):
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"Testing Data Source Features."
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for source in ds_list:
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ds = DataSource(source.ds)
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# Incrementing through each layer
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for layer in ds:
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# Incrementing through each feature in the layer
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for feat in layer:
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# Making sure the number of fields, and the geometry type
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# are what's expected.
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self.assertEqual(source.nfld, len(list(feat)))
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self.assertEqual(source.gtype, feat.geom_type)
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# Making sure the fields match to an appropriate OFT type.
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for k, v in source.fields.items():
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# Making sure we get the proper OGR Field instance, using
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# a string value index for the feature.
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self.assertIsInstance(feat[k], v)
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# Testing Feature.__iter__
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for fld in feat:
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self.assertIn(fld.name, source.fields)
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def test05_geometries(self):
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"Testing Geometries from Data Source Features."
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for source in ds_list:
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ds = DataSource(source.ds)
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# Incrementing through each layer and feature.
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for layer in ds:
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for feat in layer:
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g = feat.geom
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# Making sure we get the right Geometry name & type
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self.assertEqual(source.geom, g.geom_name)
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self.assertEqual(source.gtype, g.geom_type)
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# Making sure the SpatialReference is as expected.
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if hasattr(source, 'srs_wkt'):
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self.assertIsNotNone(re.match(wgs_84_wkt_regex, g.srs.wkt))
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def test06_spatial_filter(self):
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"Testing the Layer.spatial_filter property."
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ds = DataSource(get_ds_file('cities', 'shp'))
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lyr = ds[0]
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# When not set, it should be None.
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self.assertIsNone(lyr.spatial_filter)
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# Must be set a/an OGRGeometry or 4-tuple.
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with self.assertRaises(TypeError):
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lyr._set_spatial_filter('foo')
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# Setting the spatial filter with a tuple/list with the extent of
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# a buffer centering around Pueblo.
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with self.assertRaises(ValueError):
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lyr._set_spatial_filter(list(range(5)))
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filter_extent = (-105.609252, 37.255001, -103.609252, 39.255001)
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lyr.spatial_filter = (-105.609252, 37.255001, -103.609252, 39.255001)
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self.assertEqual(OGRGeometry.from_bbox(filter_extent), lyr.spatial_filter)
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feats = [feat for feat in lyr]
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self.assertEqual(1, len(feats))
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self.assertEqual('Pueblo', feats[0].get('Name'))
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# Setting the spatial filter with an OGRGeometry for buffer centering
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# around Houston.
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filter_geom = OGRGeometry(
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'POLYGON((-96.363151 28.763374,-94.363151 28.763374,'
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'-94.363151 30.763374,-96.363151 30.763374,-96.363151 28.763374))'
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)
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lyr.spatial_filter = filter_geom
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self.assertEqual(filter_geom, lyr.spatial_filter)
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feats = [feat for feat in lyr]
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self.assertEqual(1, len(feats))
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self.assertEqual('Houston', feats[0].get('Name'))
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# Clearing the spatial filter by setting it to None. Now
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# should indicate that there are 3 features in the Layer.
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lyr.spatial_filter = None
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self.assertEqual(3, len(lyr))
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def test07_integer_overflow(self):
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"Testing that OFTReal fields, treated as OFTInteger, do not overflow."
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# Using *.dbf from Census 2010 TIGER Shapefile for Texas,
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# which has land area ('ALAND10') stored in a Real field
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# with no precision.
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ds = DataSource(os.path.join(TEST_DATA, 'texas.dbf'))
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feat = ds[0][0]
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# Reference value obtained using `ogrinfo`.
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self.assertEqual(676586997978, feat.get('ALAND10'))
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