344 lines
14 KiB
Python
344 lines
14 KiB
Python
import json
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from django.contrib.gis.db.models.fields import BaseSpatialField
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from django.contrib.gis.db.models.functions import Distance
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from django.contrib.gis.db.models.lookups import DistanceLookupBase, GISLookup
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from django.contrib.gis.gdal import GDALRaster
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from django.contrib.gis.geos import GEOSGeometry
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from django.contrib.gis.measure import D
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from django.contrib.gis.shortcuts import numpy
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from django.db.models import Q
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from django.test import TransactionTestCase, skipUnlessDBFeature
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from ..data.rasters.textrasters import JSON_RASTER
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from .models import RasterModel, RasterRelatedModel
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@skipUnlessDBFeature('supports_raster')
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class RasterFieldTest(TransactionTestCase):
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available_apps = ['gis_tests.rasterapp']
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def setUp(self):
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rast = GDALRaster({
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"srid": 4326,
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"origin": [0, 0],
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"scale": [-1, 1],
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"skew": [0, 0],
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"width": 5,
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"height": 5,
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"nr_of_bands": 2,
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"bands": [{"data": range(25)}, {"data": range(25, 50)}],
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})
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model_instance = RasterModel.objects.create(
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rast=rast,
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rastprojected=rast,
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geom="POINT (-95.37040 29.70486)",
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)
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RasterRelatedModel.objects.create(rastermodel=model_instance)
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def test_field_null_value(self):
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"""
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Test creating a model where the RasterField has a null value.
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"""
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r = RasterModel.objects.create(rast=None)
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r.refresh_from_db()
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self.assertIsNone(r.rast)
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def test_access_band_data_directly_from_queryset(self):
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RasterModel.objects.create(rast=JSON_RASTER)
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qs = RasterModel.objects.all()
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qs[0].rast.bands[0].data()
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def test_model_creation(self):
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"""
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Test RasterField through a test model.
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"""
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# Create model instance from JSON raster
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r = RasterModel.objects.create(rast=JSON_RASTER)
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r.refresh_from_db()
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# Test raster metadata properties
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self.assertEqual((5, 5), (r.rast.width, r.rast.height))
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self.assertEqual([0.0, -1.0, 0.0, 0.0, 0.0, 1.0], r.rast.geotransform)
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self.assertIsNone(r.rast.bands[0].nodata_value)
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# Compare srs
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self.assertEqual(r.rast.srs.srid, 4326)
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# Compare pixel values
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band = r.rast.bands[0].data()
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# If numpy, convert result to list
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if numpy:
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band = band.flatten().tolist()
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# Loop through rows in band data and assert single
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# value is as expected.
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self.assertEqual(
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[
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0.0, 1.0, 2.0, 3.0, 4.0,
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5.0, 6.0, 7.0, 8.0, 9.0,
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10.0, 11.0, 12.0, 13.0, 14.0,
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15.0, 16.0, 17.0, 18.0, 19.0,
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20.0, 21.0, 22.0, 23.0, 24.0
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],
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band
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)
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def test_implicit_raster_transformation(self):
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"""
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Test automatic transformation of rasters with srid different from the
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field srid.
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"""
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# Parse json raster
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rast = json.loads(JSON_RASTER)
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# Update srid to another value
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rast['srid'] = 3086
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# Save model and get it from db
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r = RasterModel.objects.create(rast=rast)
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r.refresh_from_db()
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# Confirm raster has been transformed to the default srid
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self.assertEqual(r.rast.srs.srid, 4326)
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# Confirm geotransform is in lat/lon
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expected = [
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-87.9298551266551, 9.459646421449934e-06, 0.0, 23.94249275457565,
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0.0, -9.459646421449934e-06,
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]
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for val, exp in zip(r.rast.geotransform, expected):
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self.assertAlmostEqual(exp, val)
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def test_verbose_name_arg(self):
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"""
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RasterField should accept a positional verbose name argument.
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"""
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self.assertEqual(
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RasterModel._meta.get_field('rast').verbose_name,
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'A Verbose Raster Name'
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)
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def test_all_gis_lookups_with_rasters(self):
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"""
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Evaluate all possible lookups for all input combinations (i.e.
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raster-raster, raster-geom, geom-raster) and for projected and
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unprojected coordinate systems. This test just checks that the lookup
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can be called, but doesn't check if the result makes logical sense.
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"""
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from django.contrib.gis.db.backends.postgis.operations import PostGISOperations
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# Create test raster and geom.
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rast = GDALRaster(json.loads(JSON_RASTER))
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stx_pnt = GEOSGeometry('POINT (-95.370401017314293 29.704867409475465)', 4326)
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stx_pnt.transform(3086)
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# Loop through all the GIS lookups.
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for name, lookup in BaseSpatialField.get_lookups().items():
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if not isinstance(lookup, GISLookup):
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continue
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# Construct lookup filter strings.
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combo_keys = [
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field + name for field in [
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'rast__', 'rast__', 'rastprojected__0__', 'rast__',
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'rastprojected__', 'geom__', 'rast__',
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]
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]
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if issubclass(lookup, DistanceLookupBase):
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# Set lookup values for distance lookups.
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combo_values = [
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(rast, 50, 'spheroid'),
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(rast, 0, 50, 'spheroid'),
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(rast, 0, D(km=1)),
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(stx_pnt, 0, 500),
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(stx_pnt, D(km=1000)),
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(rast, 500),
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(json.loads(JSON_RASTER), 500),
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]
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elif name == 'relate':
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# Set lookup values for the relate lookup.
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combo_values = [
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(rast, 'T*T***FF*'),
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(rast, 0, 'T*T***FF*'),
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(rast, 0, 'T*T***FF*'),
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(stx_pnt, 0, 'T*T***FF*'),
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(stx_pnt, 'T*T***FF*'),
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(rast, 'T*T***FF*'),
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(json.loads(JSON_RASTER), 'T*T***FF*'),
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]
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elif name == 'isvalid':
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# The isvalid lookup doesn't make sense for rasters.
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continue
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elif PostGISOperations.gis_operators[name].func:
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# Set lookup values for all function based operators.
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combo_values = [
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rast, (rast, 0), (rast, 0), (stx_pnt, 0), stx_pnt,
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rast, rast, json.loads(JSON_RASTER)
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]
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else:
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# Override band lookup for these, as it's not supported.
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combo_keys[2] = 'rastprojected__' + name
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# Set lookup values for all other operators.
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combo_values = [rast, rast, rast, stx_pnt, stx_pnt, rast, rast, json.loads(JSON_RASTER)]
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# Create query filter combinations.
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combos = [{x[0]: x[1]} for x in zip(combo_keys, combo_values)]
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for combo in combos:
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# Apply this query filter.
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qs = RasterModel.objects.filter(**combo)
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# Evaluate normal filter qs.
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self.assertIn(qs.count(), [0, 1])
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# Evaluate on conditional Q expressions.
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qs = RasterModel.objects.filter(Q(**combos[0]) & Q(**combos[1]))
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self.assertIn(qs.count(), [0, 1])
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def test_dwithin_gis_lookup_ouptut_with_rasters(self):
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"""
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Check the logical functionality of the dwithin lookup for different
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input parameters.
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"""
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# Create test raster and geom.
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rast = GDALRaster(json.loads(JSON_RASTER))
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stx_pnt = GEOSGeometry('POINT (-95.370401017314293 29.704867409475465)', 4326)
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stx_pnt.transform(3086)
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# Filter raster with different lookup raster formats.
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qs = RasterModel.objects.filter(rastprojected__dwithin=(rast, D(km=1)))
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self.assertEqual(qs.count(), 1)
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qs = RasterModel.objects.filter(rastprojected__dwithin=(json.loads(JSON_RASTER), D(km=1)))
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self.assertEqual(qs.count(), 1)
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qs = RasterModel.objects.filter(rastprojected__dwithin=(JSON_RASTER, D(km=1)))
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self.assertEqual(qs.count(), 1)
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# Filter in an unprojected coordinate system.
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qs = RasterModel.objects.filter(rast__dwithin=(rast, 40))
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self.assertEqual(qs.count(), 1)
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# Filter with band index transform.
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qs = RasterModel.objects.filter(rast__1__dwithin=(rast, 1, 40))
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self.assertEqual(qs.count(), 1)
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qs = RasterModel.objects.filter(rast__1__dwithin=(rast, 40))
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self.assertEqual(qs.count(), 1)
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qs = RasterModel.objects.filter(rast__dwithin=(rast, 1, 40))
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self.assertEqual(qs.count(), 1)
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# Filter raster by geom.
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qs = RasterModel.objects.filter(rast__dwithin=(stx_pnt, 500))
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self.assertEqual(qs.count(), 1)
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qs = RasterModel.objects.filter(rastprojected__dwithin=(stx_pnt, D(km=10000)))
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self.assertEqual(qs.count(), 1)
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qs = RasterModel.objects.filter(rast__dwithin=(stx_pnt, 5))
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self.assertEqual(qs.count(), 0)
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qs = RasterModel.objects.filter(rastprojected__dwithin=(stx_pnt, D(km=100)))
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self.assertEqual(qs.count(), 0)
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# Filter geom by raster.
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qs = RasterModel.objects.filter(geom__dwithin=(rast, 500))
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self.assertEqual(qs.count(), 1)
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# Filter through related model.
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qs = RasterRelatedModel.objects.filter(rastermodel__rast__dwithin=(rast, 40))
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self.assertEqual(qs.count(), 1)
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# Filter through related model with band index transform
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qs = RasterRelatedModel.objects.filter(rastermodel__rast__1__dwithin=(rast, 40))
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self.assertEqual(qs.count(), 1)
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# Filter through conditional statements.
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qs = RasterModel.objects.filter(Q(rast__dwithin=(rast, 40)) & Q(rastprojected__dwithin=(stx_pnt, D(km=10000))))
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self.assertEqual(qs.count(), 1)
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# Filter through different lookup.
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qs = RasterModel.objects.filter(rastprojected__bbcontains=rast)
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self.assertEqual(qs.count(), 1)
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def test_lookup_input_tuple_too_long(self):
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rast = GDALRaster(json.loads(JSON_RASTER))
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qs = RasterModel.objects.filter(rast__bbcontains=(rast, 1, 2))
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msg = 'Tuple too long for lookup bbcontains.'
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with self.assertRaisesMessage(ValueError, msg):
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qs.count()
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def test_lookup_input_band_not_allowed(self):
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rast = GDALRaster(json.loads(JSON_RASTER))
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qs = RasterModel.objects.filter(rast__bbcontains=(rast, 1))
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msg = 'Band indices are not allowed for this operator, it works on bbox only.'
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with self.assertRaisesMessage(ValueError, msg):
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qs.count()
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def test_isvalid_lookup_with_raster_error(self):
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qs = RasterModel.objects.filter(rast__isvalid=True)
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msg = 'IsValid function requires a GeometryField in position 1, got RasterField.'
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with self.assertRaisesMessage(TypeError, msg):
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qs.count()
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def test_result_of_gis_lookup_with_rasters(self):
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# Point is in the interior
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qs = RasterModel.objects.filter(rast__contains=GEOSGeometry('POINT (-0.5 0.5)', 4326))
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self.assertEqual(qs.count(), 1)
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# Point is in the exterior
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qs = RasterModel.objects.filter(rast__contains=GEOSGeometry('POINT (0.5 0.5)', 4326))
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self.assertEqual(qs.count(), 0)
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# A point on the boundary is not contained properly
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qs = RasterModel.objects.filter(rast__contains_properly=GEOSGeometry('POINT (0 0)', 4326))
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self.assertEqual(qs.count(), 0)
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# Raster is located left of the point
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qs = RasterModel.objects.filter(rast__left=GEOSGeometry('POINT (1 0)', 4326))
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self.assertEqual(qs.count(), 1)
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def test_lookup_with_raster_bbox(self):
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rast = GDALRaster(json.loads(JSON_RASTER))
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# Shift raster upwards
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rast.origin.y = 2
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# The raster in the model is not strictly below
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qs = RasterModel.objects.filter(rast__strictly_below=rast)
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self.assertEqual(qs.count(), 0)
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# Shift raster further upwards
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rast.origin.y = 6
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# The raster in the model is strictly below
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qs = RasterModel.objects.filter(rast__strictly_below=rast)
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self.assertEqual(qs.count(), 1)
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def test_lookup_with_polygonized_raster(self):
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rast = GDALRaster(json.loads(JSON_RASTER))
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# Move raster to overlap with the model point on the left side
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rast.origin.x = -95.37040 + 1
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rast.origin.y = 29.70486
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# Raster overlaps with point in model
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qs = RasterModel.objects.filter(geom__intersects=rast)
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self.assertEqual(qs.count(), 1)
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# Change left side of raster to be nodata values
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rast.bands[0].data(data=[0, 0, 0, 1, 1], shape=(5, 1))
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rast.bands[0].nodata_value = 0
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qs = RasterModel.objects.filter(geom__intersects=rast)
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# Raster does not overlap anymore after polygonization
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# where the nodata zone is not included.
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self.assertEqual(qs.count(), 0)
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def test_lookup_value_error(self):
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# Test with invalid dict lookup parameter
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obj = {}
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msg = "Couldn't create spatial object from lookup value '%s'." % obj
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with self.assertRaisesMessage(ValueError, msg):
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RasterModel.objects.filter(geom__intersects=obj)
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# Test with invalid string lookup parameter
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obj = '00000'
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msg = "Couldn't create spatial object from lookup value '%s'." % obj
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with self.assertRaisesMessage(ValueError, msg):
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RasterModel.objects.filter(geom__intersects=obj)
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def test_db_function_errors(self):
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"""
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Errors are raised when using DB functions with raster content.
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"""
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point = GEOSGeometry("SRID=3086;POINT (-697024.9213808845 683729.1705516104)")
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rast = GDALRaster(json.loads(JSON_RASTER))
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msg = "Distance function requires a geometric argument in position 2."
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with self.assertRaisesMessage(TypeError, msg):
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RasterModel.objects.annotate(distance_from_point=Distance("geom", rast))
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with self.assertRaisesMessage(TypeError, msg):
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RasterModel.objects.annotate(distance_from_point=Distance("rastprojected", rast))
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msg = "Distance function requires a GeometryField in position 1, got RasterField."
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with self.assertRaisesMessage(TypeError, msg):
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RasterModel.objects.annotate(distance_from_point=Distance("rastprojected", point)).count()
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