339 lines
14 KiB
Python
339 lines
14 KiB
Python
# -*- coding: utf-8 -*-
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from __future__ import unicode_literals
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import os
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import unittest
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from copy import copy
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from decimal import Decimal
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from unittest import skipUnless
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from django.conf import settings
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from django.contrib.gis.gdal import HAS_GDAL
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from django.contrib.gis.geos import HAS_GEOS
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from django.db import connection
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from django.test import TestCase, override_settings, skipUnlessDBFeature
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from django.utils._os import upath
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if HAS_GEOS and HAS_GDAL:
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from django.contrib.gis.utils.layermapping import (LayerMapping,
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LayerMapError, InvalidDecimal, InvalidString, MissingForeignKey)
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from django.contrib.gis.gdal import DataSource
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from .models import (
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City, County, CountyFeat, Interstate, ICity1, ICity2, Invalid, State,
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city_mapping, co_mapping, cofeat_mapping, inter_mapping)
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shp_path = os.path.realpath(os.path.join(os.path.dirname(upath(__file__)), os.pardir, 'data'))
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city_shp = os.path.join(shp_path, 'cities', 'cities.shp')
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co_shp = os.path.join(shp_path, 'counties', 'counties.shp')
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inter_shp = os.path.join(shp_path, 'interstates', 'interstates.shp')
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invalid_shp = os.path.join(shp_path, 'invalid', 'emptypoints.shp')
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# Dictionaries to hold what's expected in the county shapefile.
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NAMES = ['Bexar', 'Galveston', 'Harris', 'Honolulu', 'Pueblo']
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NUMS = [1, 2, 1, 19, 1] # Number of polygons for each.
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STATES = ['Texas', 'Texas', 'Texas', 'Hawaii', 'Colorado']
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@skipUnless(HAS_GDAL, "LayerMapTest needs GDAL support")
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@skipUnlessDBFeature("gis_enabled")
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class LayerMapTest(TestCase):
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def test_init(self):
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"Testing LayerMapping initialization."
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# Model field that does not exist.
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bad1 = copy(city_mapping)
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bad1['foobar'] = 'FooField'
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# Shapefile field that does not exist.
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bad2 = copy(city_mapping)
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bad2['name'] = 'Nombre'
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# Nonexistent geographic field type.
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bad3 = copy(city_mapping)
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bad3['point'] = 'CURVE'
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# Incrementing through the bad mapping dictionaries and
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# ensuring that a LayerMapError is raised.
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for bad_map in (bad1, bad2, bad3):
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with self.assertRaises(LayerMapError):
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LayerMapping(City, city_shp, bad_map)
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# A LookupError should be thrown for bogus encodings.
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with self.assertRaises(LookupError):
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LayerMapping(City, city_shp, city_mapping, encoding='foobar')
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def test_simple_layermap(self):
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"Test LayerMapping import of a simple point shapefile."
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# Setting up for the LayerMapping.
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lm = LayerMapping(City, city_shp, city_mapping)
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lm.save()
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# There should be three cities in the shape file.
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self.assertEqual(3, City.objects.count())
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# Opening up the shapefile, and verifying the values in each
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# of the features made it to the model.
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ds = DataSource(city_shp)
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layer = ds[0]
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for feat in layer:
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city = City.objects.get(name=feat['Name'].value)
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self.assertEqual(feat['Population'].value, city.population)
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self.assertEqual(Decimal(str(feat['Density'])), city.density)
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self.assertEqual(feat['Created'].value, city.dt)
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# Comparing the geometries.
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pnt1, pnt2 = feat.geom, city.point
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self.assertAlmostEqual(pnt1.x, pnt2.x, 5)
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self.assertAlmostEqual(pnt1.y, pnt2.y, 5)
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def test_layermap_strict(self):
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"Testing the `strict` keyword, and import of a LineString shapefile."
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# When the `strict` keyword is set an error encountered will force
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# the importation to stop.
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with self.assertRaises(InvalidDecimal):
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lm = LayerMapping(Interstate, inter_shp, inter_mapping)
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lm.save(silent=True, strict=True)
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Interstate.objects.all().delete()
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# This LayerMapping should work b/c `strict` is not set.
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lm = LayerMapping(Interstate, inter_shp, inter_mapping)
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lm.save(silent=True)
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# Two interstate should have imported correctly.
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self.assertEqual(2, Interstate.objects.count())
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# Verifying the values in the layer w/the model.
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ds = DataSource(inter_shp)
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# Only the first two features of this shapefile are valid.
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valid_feats = ds[0][:2]
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for feat in valid_feats:
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istate = Interstate.objects.get(name=feat['Name'].value)
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if feat.fid == 0:
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self.assertEqual(Decimal(str(feat['Length'])), istate.length)
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elif feat.fid == 1:
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# Everything but the first two decimal digits were truncated,
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# because the Interstate model's `length` field has decimal_places=2.
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self.assertAlmostEqual(feat.get('Length'), float(istate.length), 2)
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for p1, p2 in zip(feat.geom, istate.path):
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self.assertAlmostEqual(p1[0], p2[0], 6)
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self.assertAlmostEqual(p1[1], p2[1], 6)
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def county_helper(self, county_feat=True):
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"Helper function for ensuring the integrity of the mapped County models."
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for name, n, st in zip(NAMES, NUMS, STATES):
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# Should only be one record b/c of `unique` keyword.
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c = County.objects.get(name=name)
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self.assertEqual(n, len(c.mpoly))
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self.assertEqual(st, c.state.name) # Checking ForeignKey mapping.
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# Multiple records because `unique` was not set.
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if county_feat:
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qs = CountyFeat.objects.filter(name=name)
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self.assertEqual(n, qs.count())
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def test_layermap_unique_multigeometry_fk(self):
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"Testing the `unique`, and `transform`, geometry collection conversion, and ForeignKey mappings."
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# All the following should work.
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# Telling LayerMapping that we want no transformations performed on the data.
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lm = LayerMapping(County, co_shp, co_mapping, transform=False)
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# Specifying the source spatial reference system via the `source_srs` keyword.
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lm = LayerMapping(County, co_shp, co_mapping, source_srs=4269)
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lm = LayerMapping(County, co_shp, co_mapping, source_srs='NAD83')
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# Unique may take tuple or string parameters.
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for arg in ('name', ('name', 'mpoly')):
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lm = LayerMapping(County, co_shp, co_mapping, transform=False, unique=arg)
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# Now test for failures
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# Testing invalid params for the `unique` keyword.
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for e, arg in ((TypeError, 5.0), (ValueError, 'foobar'), (ValueError, ('name', 'mpolygon'))):
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self.assertRaises(e, LayerMapping, County, co_shp, co_mapping, transform=False, unique=arg)
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# No source reference system defined in the shapefile, should raise an error.
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if connection.features.supports_transform:
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self.assertRaises(LayerMapError, LayerMapping, County, co_shp, co_mapping)
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# Passing in invalid ForeignKey mapping parameters -- must be a dictionary
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# mapping for the model the ForeignKey points to.
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bad_fk_map1 = copy(co_mapping)
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bad_fk_map1['state'] = 'name'
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bad_fk_map2 = copy(co_mapping)
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bad_fk_map2['state'] = {'nombre': 'State'}
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self.assertRaises(TypeError, LayerMapping, County, co_shp, bad_fk_map1, transform=False)
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self.assertRaises(LayerMapError, LayerMapping, County, co_shp, bad_fk_map2, transform=False)
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# There exist no State models for the ForeignKey mapping to work -- should raise
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# a MissingForeignKey exception (this error would be ignored if the `strict`
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# keyword is not set).
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lm = LayerMapping(County, co_shp, co_mapping, transform=False, unique='name')
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self.assertRaises(MissingForeignKey, lm.save, silent=True, strict=True)
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# Now creating the state models so the ForeignKey mapping may work.
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State.objects.bulk_create([
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State(name='Colorado'), State(name='Hawaii'), State(name='Texas')
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])
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# If a mapping is specified as a collection, all OGR fields that
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# are not collections will be converted into them. For example,
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# a Point column would be converted to MultiPoint. Other things being done
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# w/the keyword args:
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# `transform=False`: Specifies that no transform is to be done; this
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# has the effect of ignoring the spatial reference check (because the
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# county shapefile does not have implicit spatial reference info).
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#
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# `unique='name'`: Creates models on the condition that they have
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# unique county names; geometries from each feature however will be
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# appended to the geometry collection of the unique model. Thus,
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# all of the various islands in Honolulu county will be in in one
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# database record with a MULTIPOLYGON type.
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lm = LayerMapping(County, co_shp, co_mapping, transform=False, unique='name')
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lm.save(silent=True, strict=True)
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# A reference that doesn't use the unique keyword; a new database record will
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# created for each polygon.
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lm = LayerMapping(CountyFeat, co_shp, cofeat_mapping, transform=False)
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lm.save(silent=True, strict=True)
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# The county helper is called to ensure integrity of County models.
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self.county_helper()
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def test_test_fid_range_step(self):
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"Tests the `fid_range` keyword and the `step` keyword of .save()."
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# Function for clearing out all the counties before testing.
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def clear_counties():
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County.objects.all().delete()
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State.objects.bulk_create([
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State(name='Colorado'), State(name='Hawaii'), State(name='Texas')
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])
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# Initializing the LayerMapping object to use in these tests.
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lm = LayerMapping(County, co_shp, co_mapping, transform=False, unique='name')
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# Bad feature id ranges should raise a type error.
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bad_ranges = (5.0, 'foo', co_shp)
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for bad in bad_ranges:
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self.assertRaises(TypeError, lm.save, fid_range=bad)
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# Step keyword should not be allowed w/`fid_range`.
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fr = (3, 5) # layer[3:5]
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self.assertRaises(LayerMapError, lm.save, fid_range=fr, step=10)
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lm.save(fid_range=fr)
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# Features IDs 3 & 4 are for Galveston County, Texas -- only
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# one model is returned because the `unique` keyword was set.
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qs = County.objects.all()
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self.assertEqual(1, qs.count())
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self.assertEqual('Galveston', qs[0].name)
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# Features IDs 5 and beyond for Honolulu County, Hawaii, and
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# FID 0 is for Pueblo County, Colorado.
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clear_counties()
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lm.save(fid_range=slice(5, None), silent=True, strict=True) # layer[5:]
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lm.save(fid_range=slice(None, 1), silent=True, strict=True) # layer[:1]
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# Only Pueblo & Honolulu counties should be present because of
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# the `unique` keyword. Have to set `order_by` on this QuerySet
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# or else MySQL will return a different ordering than the other dbs.
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qs = County.objects.order_by('name')
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self.assertEqual(2, qs.count())
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hi, co = tuple(qs)
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hi_idx, co_idx = tuple(map(NAMES.index, ('Honolulu', 'Pueblo')))
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self.assertEqual('Pueblo', co.name)
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self.assertEqual(NUMS[co_idx], len(co.mpoly))
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self.assertEqual('Honolulu', hi.name)
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self.assertEqual(NUMS[hi_idx], len(hi.mpoly))
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# Testing the `step` keyword -- should get the same counties
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# regardless of we use a step that divides equally, that is odd,
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# or that is larger than the dataset.
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for st in (4, 7, 1000):
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clear_counties()
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lm.save(step=st, strict=True)
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self.county_helper(county_feat=False)
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def test_model_inheritance(self):
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"Tests LayerMapping on inherited models. See #12093."
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icity_mapping = {'name': 'Name',
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'population': 'Population',
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'density': 'Density',
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'point': 'POINT',
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'dt': 'Created',
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}
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# Parent model has geometry field.
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lm1 = LayerMapping(ICity1, city_shp, icity_mapping)
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lm1.save()
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# Grandparent has geometry field.
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lm2 = LayerMapping(ICity2, city_shp, icity_mapping)
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lm2.save()
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self.assertEqual(6, ICity1.objects.count())
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self.assertEqual(3, ICity2.objects.count())
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def test_invalid_layer(self):
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"Tests LayerMapping on invalid geometries. See #15378."
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invalid_mapping = {'point': 'POINT'}
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lm = LayerMapping(Invalid, invalid_shp, invalid_mapping,
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source_srs=4326)
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lm.save(silent=True)
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def test_charfield_too_short(self):
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mapping = copy(city_mapping)
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mapping['name_short'] = 'Name'
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lm = LayerMapping(City, city_shp, mapping)
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with self.assertRaises(InvalidString):
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lm.save(silent=True, strict=True)
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def test_textfield(self):
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"Tests that String content fits also in a TextField"
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mapping = copy(city_mapping)
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mapping['name_txt'] = 'Name'
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lm = LayerMapping(City, city_shp, mapping)
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lm.save(silent=True, strict=True)
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self.assertEqual(City.objects.count(), 3)
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self.assertEqual(City.objects.get(name='Houston').name_txt, "Houston")
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def test_encoded_name(self):
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""" Test a layer containing utf-8-encoded name """
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city_shp = os.path.join(shp_path, 'ch-city', 'ch-city.shp')
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lm = LayerMapping(City, city_shp, city_mapping)
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lm.save(silent=True, strict=True)
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self.assertEqual(City.objects.count(), 1)
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self.assertEqual(City.objects.all()[0].name, "Zürich")
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class OtherRouter(object):
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def db_for_read(self, model, **hints):
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return 'other'
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def db_for_write(self, model, **hints):
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return self.db_for_read(model, **hints)
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def allow_relation(self, obj1, obj2, **hints):
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return None
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def allow_migrate(self, db, app_label, **hints):
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return True
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@skipUnless(HAS_GDAL, "LayerMapRouterTest needs GDAL support")
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@skipUnlessDBFeature("gis_enabled")
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@override_settings(DATABASE_ROUTERS=[OtherRouter()])
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class LayerMapRouterTest(TestCase):
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@unittest.skipUnless(len(settings.DATABASES) > 1, 'multiple databases required')
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def test_layermapping_default_db(self):
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lm = LayerMapping(City, city_shp, city_mapping)
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self.assertEqual(lm.using, 'other')
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