django1/django/contrib/gis/tests/geoapp/tests.py

713 lines
34 KiB
Python

import os, unittest
from django.contrib.gis import gdal
from django.contrib.gis.db.backend import SpatialBackend
from django.contrib.gis.geos import *
from django.contrib.gis.measure import Distance
from django.contrib.gis.tests.utils import no_oracle, no_postgis, no_spatialite
from models import Country, City, PennsylvaniaCity, State
if not SpatialBackend.spatialite:
from models import Feature, MinusOneSRID
# TODO: Some tests depend on the success/failure of previous tests, these should
# be decoupled. This flag is an artifact of this problem, and makes debugging easier;
# specifically, the DISABLE flag will disables all tests, allowing problem tests to
# be examined individually.
DISABLE = False
class GeoModelTest(unittest.TestCase):
def test01_initial_sql(self):
"Testing geographic initial SQL."
if DISABLE: return
if SpatialBackend.oracle:
# Oracle doesn't allow strings longer than 4000 characters
# in SQL files, and I'm stumped on how to use Oracle BFILE's
# in PLSQL, so we set up the larger geometries manually, rather
# than relying on the initial SQL.
# Routine for returning the path to the data files.
data_dir = os.path.join(os.path.dirname(__file__), 'sql')
def get_file(wkt_file):
return os.path.join(data_dir, wkt_file)
State(name='Puerto Rico', poly=None).save()
State(name='Colorado', poly=fromfile(get_file('co.wkt'))).save()
State(name='Kansas', poly=fromfile(get_file('ks.wkt'))).save()
Country(name='Texas', mpoly=fromfile(get_file('tx.wkt'))).save()
Country(name='New Zealand', mpoly=fromfile(get_file('nz.wkt'))).save()
# Ensuring that data was loaded from initial SQL.
self.assertEqual(2, Country.objects.count())
self.assertEqual(8, City.objects.count())
self.assertEqual(3, State.objects.count())
def test02_proxy(self):
"Testing Lazy-Geometry support (using the GeometryProxy)."
if DISABLE: return
## Testing on a Point
pnt = Point(0, 0)
nullcity = City(name='NullCity', point=pnt)
nullcity.save()
# Making sure TypeError is thrown when trying to set with an
# incompatible type.
for bad in [5, 2.0, LineString((0, 0), (1, 1))]:
try:
nullcity.point = bad
except TypeError:
pass
else:
self.fail('Should throw a TypeError')
# Now setting with a compatible GEOS Geometry, saving, and ensuring
# the save took, notice no SRID is explicitly set.
new = Point(5, 23)
nullcity.point = new
# Ensuring that the SRID is automatically set to that of the
# field after assignment, but before saving.
self.assertEqual(4326, nullcity.point.srid)
nullcity.save()
# Ensuring the point was saved correctly after saving
self.assertEqual(new, City.objects.get(name='NullCity').point)
# Setting the X and Y of the Point
nullcity.point.x = 23
nullcity.point.y = 5
# Checking assignments pre & post-save.
self.assertNotEqual(Point(23, 5), City.objects.get(name='NullCity').point)
nullcity.save()
self.assertEqual(Point(23, 5), City.objects.get(name='NullCity').point)
nullcity.delete()
## Testing on a Polygon
shell = LinearRing((0, 0), (0, 100), (100, 100), (100, 0), (0, 0))
inner = LinearRing((40, 40), (40, 60), (60, 60), (60, 40), (40, 40))
# Creating a State object using a built Polygon
ply = Polygon(shell, inner)
nullstate = State(name='NullState', poly=ply)
self.assertEqual(4326, nullstate.poly.srid) # SRID auto-set from None
nullstate.save()
ns = State.objects.get(name='NullState')
self.assertEqual(ply, ns.poly)
# Testing the `ogr` and `srs` lazy-geometry properties.
if gdal.HAS_GDAL:
self.assertEqual(True, isinstance(ns.poly.ogr, gdal.OGRGeometry))
self.assertEqual(ns.poly.wkb, ns.poly.ogr.wkb)
self.assertEqual(True, isinstance(ns.poly.srs, gdal.SpatialReference))
self.assertEqual('WGS 84', ns.poly.srs.name)
# Changing the interior ring on the poly attribute.
new_inner = LinearRing((30, 30), (30, 70), (70, 70), (70, 30), (30, 30))
ns.poly[1] = new_inner
ply[1] = new_inner
self.assertEqual(4326, ns.poly.srid)
ns.save()
self.assertEqual(ply, State.objects.get(name='NullState').poly)
ns.delete()
@no_oracle # Oracle does not support KML.
@no_spatialite # SpatiaLite does not support KML.
def test03a_kml(self):
"Testing KML output from the database using GeoQuerySet.kml()."
if DISABLE: return
# Should throw a TypeError when trying to obtain KML from a
# non-geometry field.
qs = City.objects.all()
self.assertRaises(TypeError, qs.kml, 'name')
# The reference KML depends on the version of PostGIS used
# (the output stopped including altitude in 1.3.3).
major, minor1, minor2 = SpatialBackend.version
ref_kml1 = '<Point><coordinates>-104.609252,38.255001,0</coordinates></Point>'
ref_kml2 = '<Point><coordinates>-104.609252,38.255001</coordinates></Point>'
if major == 1:
if minor1 > 3 or (minor1 == 3 and minor2 >= 3): ref_kml = ref_kml2
else: ref_kml = ref_kml1
else:
ref_kml = ref_kml2
# Ensuring the KML is as expected.
ptown1 = City.objects.kml(field_name='point', precision=9).get(name='Pueblo')
ptown2 = City.objects.kml(precision=9).get(name='Pueblo')
for ptown in [ptown1, ptown2]:
self.assertEqual(ref_kml, ptown.kml)
@no_spatialite # SpatiaLite does not support GML.
def test03b_gml(self):
"Testing GML output from the database using GeoQuerySet.gml()."
if DISABLE: return
# Should throw a TypeError when tyring to obtain GML from a
# non-geometry field.
qs = City.objects.all()
self.assertRaises(TypeError, qs.gml, field_name='name')
ptown1 = City.objects.gml(field_name='point', precision=9).get(name='Pueblo')
ptown2 = City.objects.gml(precision=9).get(name='Pueblo')
if SpatialBackend.oracle:
# No precision parameter for Oracle :-/
import re
gml_regex = re.compile(r'<gml:Point srsName="SDO:4326" xmlns:gml="http://www.opengis.net/gml"><gml:coordinates decimal="\." cs="," ts=" ">-104.60925\d+,38.25500\d+ </gml:coordinates></gml:Point>')
for ptown in [ptown1, ptown2]:
self.assertEqual(True, bool(gml_regex.match(ptown.gml)))
else:
for ptown in [ptown1, ptown2]:
self.assertEqual('<gml:Point srsName="EPSG:4326"><gml:coordinates>-104.609252,38.255001</gml:coordinates></gml:Point>', ptown.gml)
@no_spatialite
@no_oracle
def test03c_geojson(self):
"Testing GeoJSON output from the database using GeoQuerySet.geojson()."
if DISABLE: return
# PostGIS only supports GeoJSON on 1.3.4+
if not SpatialBackend.geojson:
return
# Precision argument should only be an integer
self.assertRaises(TypeError, City.objects.geojson, precision='foo')
# Reference queries and values.
# SELECT ST_AsGeoJson("geoapp_city"."point", 8, 0) FROM "geoapp_city" WHERE "geoapp_city"."name" = 'Pueblo';
json = '{"type":"Point","coordinates":[-104.60925200,38.25500100]}'
self.assertEqual(City.objects.geojson().get(name='Pueblo').geojson, json)
# SELECT ST_AsGeoJson("geoapp_city"."point", 8, 1) FROM "geoapp_city" WHERE "geoapp_city"."name" = 'Houston';
json = '{"type":"Point","crs":{"type":"EPSG","properties":{"EPSG":4326}},"coordinates":[-95.36315100,29.76337400]}'
# This time we want to include the CRS by using the `crs` keyword.
self.assertEqual(City.objects.geojson(crs=True, model_att='json').get(name='Houston').json, json)
# SELECT ST_AsGeoJson("geoapp_city"."point", 8, 2) FROM "geoapp_city" WHERE "geoapp_city"."name" = 'Victoria';
json = '{"type":"Point","bbox":[-123.30519600,48.46261100,-123.30519600,48.46261100],"coordinates":[-123.30519600,48.46261100]}'
# This time we include the bounding box by using the `bbox` keyword.
self.assertEqual(City.objects.geojson(bbox=True).get(name='Victoria').geojson, json)
# SELECT ST_AsGeoJson("geoapp_city"."point", 5, 3) FROM "geoapp_city" WHERE "geoapp_city"."name" = 'Chicago';
json = '{"type":"Point","crs":{"type":"EPSG","properties":{"EPSG":4326}},"bbox":[-87.65018,41.85039,-87.65018,41.85039],"coordinates":[-87.65018,41.85039]}'
# Finally, we set every available keyword.
self.assertEqual(City.objects.geojson(bbox=True, crs=True, precision=5).get(name='Chicago').geojson, json)
@no_oracle
def test03d_svg(self):
"Testing SVG output using GeoQuerySet.svg()."
if DISABLE: return
self.assertRaises(TypeError, City.objects.svg, precision='foo')
# SELECT AsSVG(geoapp_city.point, 0, 8) FROM geoapp_city WHERE name = 'Pueblo';
svg1 = 'cx="-104.609252" cy="-38.255001"'
# Even though relative, only one point so it's practically the same except for
# the 'c' letter prefix on the x,y values.
svg2 = svg1.replace('c', '')
self.assertEqual(svg1, City.objects.svg().get(name='Pueblo').svg)
self.assertEqual(svg2, City.objects.svg(relative=5).get(name='Pueblo').svg)
def test04_transform(self):
"Testing the transform() GeoManager method."
if DISABLE: return
# Pre-transformed points for Houston and Pueblo.
htown = fromstr('POINT(1947516.83115183 6322297.06040572)', srid=3084)
ptown = fromstr('POINT(992363.390841912 481455.395105533)', srid=2774)
prec = 3 # Precision is low due to version variations in PROJ and GDAL.
# Asserting the result of the transform operation with the values in
# the pre-transformed points. Oracle does not have the 3084 SRID.
if not SpatialBackend.oracle:
h = City.objects.transform(htown.srid).get(name='Houston')
self.assertEqual(3084, h.point.srid)
self.assertAlmostEqual(htown.x, h.point.x, prec)
self.assertAlmostEqual(htown.y, h.point.y, prec)
p1 = City.objects.transform(ptown.srid, field_name='point').get(name='Pueblo')
p2 = City.objects.transform(srid=ptown.srid).get(name='Pueblo')
for p in [p1, p2]:
self.assertEqual(2774, p.point.srid)
self.assertAlmostEqual(ptown.x, p.point.x, prec)
self.assertAlmostEqual(ptown.y, p.point.y, prec)
@no_spatialite # SpatiaLite does not have an Extent function
def test05_extent(self):
"Testing the `extent` GeoQuerySet method."
if DISABLE: return
# Reference query:
# `SELECT ST_extent(point) FROM geoapp_city WHERE (name='Houston' or name='Dallas');`
# => BOX(-96.8016128540039 29.7633724212646,-95.3631439208984 32.7820587158203)
expected = (-96.8016128540039, 29.7633724212646, -95.3631439208984, 32.782058715820)
qs = City.objects.filter(name__in=('Houston', 'Dallas'))
extent = qs.extent()
for val, exp in zip(extent, expected):
self.assertAlmostEqual(exp, val, 4)
@no_oracle
@no_spatialite # SpatiaLite does not have a MakeLine function
def test06_make_line(self):
"Testing the `make_line` GeoQuerySet method."
if DISABLE: return
# Ensuring that a `TypeError` is raised on models without PointFields.
self.assertRaises(TypeError, State.objects.make_line)
self.assertRaises(TypeError, Country.objects.make_line)
# Reference query:
# SELECT AsText(ST_MakeLine(geoapp_city.point)) FROM geoapp_city;
ref_line = GEOSGeometry('LINESTRING(-95.363151 29.763374,-96.801611 32.782057,-97.521157 34.464642,174.783117 -41.315268,-104.609252 38.255001,-95.23506 38.971823,-87.650175 41.850385,-123.305196 48.462611)', srid=4326)
self.assertEqual(ref_line, City.objects.make_line())
def test09_disjoint(self):
"Testing the `disjoint` lookup type."
if DISABLE: return
ptown = City.objects.get(name='Pueblo')
qs1 = City.objects.filter(point__disjoint=ptown.point)
self.assertEqual(7, qs1.count())
if not (SpatialBackend.postgis or SpatialBackend.spatialite):
# TODO: Do NULL columns bork queries on PostGIS? The following
# error is encountered:
# psycopg2.ProgrammingError: invalid memory alloc request size 4294957297
#
# Similarly, on SpatiaLite Puerto Rico is also returned (could be a
# manifestation of
qs2 = State.objects.filter(poly__disjoint=ptown.point)
self.assertEqual(1, qs2.count())
self.assertEqual('Kansas', qs2[0].name)
def test10_contains_contained(self):
"Testing the 'contained', 'contains', and 'bbcontains' lookup types."
if DISABLE: return
# Getting Texas, yes we were a country -- once ;)
texas = Country.objects.get(name='Texas')
# Seeing what cities are in Texas, should get Houston and Dallas,
# and Oklahoma City because 'contained' only checks on the
# _bounding box_ of the Geometries.
if not SpatialBackend.oracle:
qs = City.objects.filter(point__contained=texas.mpoly)
self.assertEqual(3, qs.count())
cities = ['Houston', 'Dallas', 'Oklahoma City']
for c in qs: self.assertEqual(True, c.name in cities)
# Pulling out some cities.
houston = City.objects.get(name='Houston')
wellington = City.objects.get(name='Wellington')
pueblo = City.objects.get(name='Pueblo')
okcity = City.objects.get(name='Oklahoma City')
lawrence = City.objects.get(name='Lawrence')
# Now testing contains on the countries using the points for
# Houston and Wellington.
tx = Country.objects.get(mpoly__contains=houston.point) # Query w/GEOSGeometry
nz = Country.objects.get(mpoly__contains=wellington.point.hex) # Query w/EWKBHEX
self.assertEqual('Texas', tx.name)
self.assertEqual('New Zealand', nz.name)
# Spatialite 2.3 thinks that Lawrence is in Puerto Rico (a NULL geometry).
if not SpatialBackend.spatialite:
ks = State.objects.get(poly__contains=lawrence.point)
self.assertEqual('Kansas', ks.name)
# Pueblo and Oklahoma City (even though OK City is within the bounding box of Texas)
# are not contained in Texas or New Zealand.
self.assertEqual(0, len(Country.objects.filter(mpoly__contains=pueblo.point))) # Query w/GEOSGeometry object
self.assertEqual(0, len(Country.objects.filter(mpoly__contains=okcity.point.wkt))) # Qeury w/WKT
# OK City is contained w/in bounding box of Texas.
if not SpatialBackend.oracle:
qs = Country.objects.filter(mpoly__bbcontains=okcity.point)
self.assertEqual(1, len(qs))
self.assertEqual('Texas', qs[0].name)
def test11_lookup_insert_transform(self):
"Testing automatic transform for lookups and inserts."
if DISABLE: return
# San Antonio in 'WGS84' (SRID 4326)
sa_4326 = 'POINT (-98.493183 29.424170)'
wgs_pnt = fromstr(sa_4326, srid=4326) # Our reference point in WGS84
# Oracle doesn't have SRID 3084, using 41157.
if SpatialBackend.oracle:
# San Antonio in 'Texas 4205, Southern Zone (1983, meters)' (SRID 41157)
# Used the following Oracle SQL to get this value:
# SELECT SDO_UTIL.TO_WKTGEOMETRY(SDO_CS.TRANSFORM(SDO_GEOMETRY('POINT (-98.493183 29.424170)', 4326), 41157)) FROM DUAL;
nad_wkt = 'POINT (300662.034646583 5416427.45974934)'
nad_srid = 41157
else:
# San Antonio in 'NAD83(HARN) / Texas Centric Lambert Conformal' (SRID 3084)
nad_wkt = 'POINT (1645978.362408288754523 6276356.025927528738976)' # Used ogr.py in gdal 1.4.1 for this transform
nad_srid = 3084
# Constructing & querying with a point from a different SRID. Oracle
# `SDO_OVERLAPBDYINTERSECT` operates differently from
# `ST_Intersects`, so contains is used instead.
nad_pnt = fromstr(nad_wkt, srid=nad_srid)
if SpatialBackend.oracle:
tx = Country.objects.get(mpoly__contains=nad_pnt)
else:
tx = Country.objects.get(mpoly__intersects=nad_pnt)
self.assertEqual('Texas', tx.name)
# Creating San Antonio. Remember the Alamo.
sa = City(name='San Antonio', point=nad_pnt)
sa.save()
# Now verifying that San Antonio was transformed correctly
sa = City.objects.get(name='San Antonio')
self.assertAlmostEqual(wgs_pnt.x, sa.point.x, 6)
self.assertAlmostEqual(wgs_pnt.y, sa.point.y, 6)
# If the GeometryField SRID is -1, then we shouldn't perform any
# transformation if the SRID of the input geometry is different.
# SpatiaLite does not support missing SRID values.
if not SpatialBackend.spatialite:
m1 = MinusOneSRID(geom=Point(17, 23, srid=4326))
m1.save()
self.assertEqual(-1, m1.geom.srid)
def test12_null_geometries(self):
"Testing NULL geometry support, and the `isnull` lookup type."
if DISABLE: return
# Querying for both NULL and Non-NULL values.
nullqs = State.objects.filter(poly__isnull=True)
validqs = State.objects.filter(poly__isnull=False)
# Puerto Rico should be NULL (it's a commonwealth unincorporated territory)
self.assertEqual(1, len(nullqs))
self.assertEqual('Puerto Rico', nullqs[0].name)
# The valid states should be Colorado & Kansas
self.assertEqual(2, len(validqs))
state_names = [s.name for s in validqs]
self.assertEqual(True, 'Colorado' in state_names)
self.assertEqual(True, 'Kansas' in state_names)
# Saving another commonwealth w/a NULL geometry.
nmi = State.objects.create(name='Northern Mariana Islands', poly=None)
self.assertEqual(nmi.poly, None)
# Assigning a geomery and saving -- then UPDATE back to NULL.
nmi.poly = 'POLYGON((0 0,1 0,1 1,1 0,0 0))'
nmi.save()
State.objects.filter(name='Northern Mariana Islands').update(poly=None)
self.assertEqual(None, State.objects.get(name='Northern Mariana Islands').poly)
@no_oracle # No specific `left` or `right` operators in Oracle.
@no_spatialite # No `left` or `right` operators in SpatiaLite.
def test13_left_right(self):
"Testing the 'left' and 'right' lookup types."
if DISABLE: return
# Left: A << B => true if xmax(A) < xmin(B)
# Right: A >> B => true if xmin(A) > xmax(B)
# See: BOX2D_left() and BOX2D_right() in lwgeom_box2dfloat4.c in PostGIS source.
# Getting the borders for Colorado & Kansas
co_border = State.objects.get(name='Colorado').poly
ks_border = State.objects.get(name='Kansas').poly
# Note: Wellington has an 'X' value of 174, so it will not be considered
# to the left of CO.
# These cities should be strictly to the right of the CO border.
cities = ['Houston', 'Dallas', 'San Antonio', 'Oklahoma City',
'Lawrence', 'Chicago', 'Wellington']
qs = City.objects.filter(point__right=co_border)
self.assertEqual(7, len(qs))
for c in qs: self.assertEqual(True, c.name in cities)
# These cities should be strictly to the right of the KS border.
cities = ['Chicago', 'Wellington']
qs = City.objects.filter(point__right=ks_border)
self.assertEqual(2, len(qs))
for c in qs: self.assertEqual(True, c.name in cities)
# Note: Wellington has an 'X' value of 174, so it will not be considered
# to the left of CO.
vic = City.objects.get(point__left=co_border)
self.assertEqual('Victoria', vic.name)
cities = ['Pueblo', 'Victoria']
qs = City.objects.filter(point__left=ks_border)
self.assertEqual(2, len(qs))
for c in qs: self.assertEqual(True, c.name in cities)
def test14_equals(self):
"Testing the 'same_as' and 'equals' lookup types."
if DISABLE: return
pnt = fromstr('POINT (-95.363151 29.763374)', srid=4326)
c1 = City.objects.get(point=pnt)
c2 = City.objects.get(point__same_as=pnt)
c3 = City.objects.get(point__equals=pnt)
for c in [c1, c2, c3]: self.assertEqual('Houston', c.name)
def test15_relate(self):
"Testing the 'relate' lookup type."
if DISABLE: return
# To make things more interesting, we will have our Texas reference point in
# different SRIDs.
pnt1 = fromstr('POINT (649287.0363174 4177429.4494686)', srid=2847)
pnt2 = fromstr('POINT(-98.4919715741052 29.4333344025053)', srid=4326)
# Not passing in a geometry as first param shoud
# raise a type error when initializing the GeoQuerySet
self.assertRaises(TypeError, Country.objects.filter, mpoly__relate=(23, 'foo'))
# Making sure the right exception is raised for the given
# bad arguments.
for bad_args, e in [((pnt1, 0), TypeError), ((pnt2, 'T*T***FF*', 0), ValueError)]:
qs = Country.objects.filter(mpoly__relate=bad_args)
self.assertRaises(e, qs.count)
# Relate works differently for the different backends.
if SpatialBackend.postgis or SpatialBackend.spatialite:
contains_mask = 'T*T***FF*'
within_mask = 'T*F**F***'
intersects_mask = 'T********'
elif SpatialBackend.oracle:
contains_mask = 'contains'
within_mask = 'inside'
# TODO: This is not quite the same as the PostGIS mask above
intersects_mask = 'overlapbdyintersect'
# Testing contains relation mask.
self.assertEqual('Texas', Country.objects.get(mpoly__relate=(pnt1, contains_mask)).name)
self.assertEqual('Texas', Country.objects.get(mpoly__relate=(pnt2, contains_mask)).name)
# Testing within relation mask.
ks = State.objects.get(name='Kansas')
self.assertEqual('Lawrence', City.objects.get(point__relate=(ks.poly, within_mask)).name)
# Testing intersection relation mask.
if not SpatialBackend.oracle:
self.assertEqual('Texas', Country.objects.get(mpoly__relate=(pnt1, intersects_mask)).name)
self.assertEqual('Texas', Country.objects.get(mpoly__relate=(pnt2, intersects_mask)).name)
self.assertEqual('Lawrence', City.objects.get(point__relate=(ks.poly, intersects_mask)).name)
def test16_createnull(self):
"Testing creating a model instance and the geometry being None"
if DISABLE: return
c = City()
self.assertEqual(c.point, None)
def test17_unionagg(self):
"Testing the `unionagg` (aggregate union) GeoManager method."
if DISABLE: return
tx = Country.objects.get(name='Texas').mpoly
# Houston, Dallas, San Antonio -- Oracle has different order.
union1 = fromstr('MULTIPOINT(-98.493183 29.424170,-96.801611 32.782057,-95.363151 29.763374)')
union2 = fromstr('MULTIPOINT(-96.801611 32.782057,-95.363151 29.763374,-98.493183 29.424170)')
qs = City.objects.filter(point__within=tx)
self.assertRaises(TypeError, qs.unionagg, 'name')
# Using `field_name` keyword argument in one query and specifying an
# order in the other (which should not be used because this is
# an aggregate method on a spatial column)
u1 = qs.unionagg(field_name='point')
u2 = qs.order_by('name').unionagg()
tol = 0.00001
if SpatialBackend.oracle:
union = union2
else:
union = union1
self.assertEqual(True, union.equals_exact(u1, tol))
self.assertEqual(True, union.equals_exact(u2, tol))
qs = City.objects.filter(name='NotACity')
self.assertEqual(None, qs.unionagg(field_name='point'))
@no_spatialite # SpatiaLite does not support abstract geometry columns
def test18_geometryfield(self):
"Testing GeometryField."
if DISABLE: return
Feature(name='Point', geom=Point(1, 1)).save()
Feature(name='LineString', geom=LineString((0, 0), (1, 1), (5, 5))).save()
Feature(name='Polygon', geom=Polygon(LinearRing((0, 0), (0, 5), (5, 5), (5, 0), (0, 0)))).save()
Feature(name='GeometryCollection',
geom=GeometryCollection(Point(2, 2), LineString((0, 0), (2, 2)),
Polygon(LinearRing((0, 0), (0, 5), (5, 5), (5, 0), (0, 0))))).save()
f_1 = Feature.objects.get(name='Point')
self.assertEqual(True, isinstance(f_1.geom, Point))
self.assertEqual((1.0, 1.0), f_1.geom.tuple)
f_2 = Feature.objects.get(name='LineString')
self.assertEqual(True, isinstance(f_2.geom, LineString))
self.assertEqual(((0.0, 0.0), (1.0, 1.0), (5.0, 5.0)), f_2.geom.tuple)
f_3 = Feature.objects.get(name='Polygon')
self.assertEqual(True, isinstance(f_3.geom, Polygon))
f_4 = Feature.objects.get(name='GeometryCollection')
self.assertEqual(True, isinstance(f_4.geom, GeometryCollection))
self.assertEqual(f_3.geom, f_4.geom[2])
def test19_centroid(self):
"Testing the `centroid` GeoQuerySet method."
if DISABLE: return
qs = State.objects.exclude(poly__isnull=True).centroid()
if SpatialBackend.oracle:
tol = 0.1
elif SpatialBackend.spatialite:
tol = 0.000001
else:
tol = 0.000000001
for s in qs:
self.assertEqual(True, s.poly.centroid.equals_exact(s.centroid, tol))
def test20_pointonsurface(self):
"Testing the `point_on_surface` GeoQuerySet method."
if DISABLE: return
# Reference values.
if SpatialBackend.oracle:
# SELECT SDO_UTIL.TO_WKTGEOMETRY(SDO_GEOM.SDO_POINTONSURFACE(GEOAPP_COUNTRY.MPOLY, 0.05)) FROM GEOAPP_COUNTRY;
ref = {'New Zealand' : fromstr('POINT (174.616364 -36.100861)', srid=4326),
'Texas' : fromstr('POINT (-103.002434 36.500397)', srid=4326),
}
elif SpatialBackend.postgis or SpatialBackend.spatialite:
# Using GEOSGeometry to compute the reference point on surface values
# -- since PostGIS also uses GEOS these should be the same.
ref = {'New Zealand' : Country.objects.get(name='New Zealand').mpoly.point_on_surface,
'Texas' : Country.objects.get(name='Texas').mpoly.point_on_surface
}
for cntry in Country.objects.point_on_surface():
if SpatialBackend.spatialite:
# XXX This seems to be a WKT-translation-related precision issue?
tol = 0.00001
else: tol = 0.000000001
self.assertEqual(True, ref[cntry.name].equals_exact(cntry.point_on_surface, tol))
@no_oracle
def test21_scale(self):
"Testing the `scale` GeoQuerySet method."
if DISABLE: return
xfac, yfac = 2, 3
qs = Country.objects.scale(xfac, yfac, model_att='scaled')
for c in qs:
for p1, p2 in zip(c.mpoly, c.scaled):
for r1, r2 in zip(p1, p2):
for c1, c2 in zip(r1.coords, r2.coords):
# XXX The low precision is for SpatiaLite
self.assertAlmostEqual(c1[0] * xfac, c2[0], 5)
self.assertAlmostEqual(c1[1] * yfac, c2[1], 5)
@no_oracle
def test22_translate(self):
"Testing the `translate` GeoQuerySet method."
if DISABLE: return
xfac, yfac = 5, -23
qs = Country.objects.translate(xfac, yfac, model_att='translated')
for c in qs:
for p1, p2 in zip(c.mpoly, c.translated):
for r1, r2 in zip(p1, p2):
for c1, c2 in zip(r1.coords, r2.coords):
# XXX The low precision is for SpatiaLite
self.assertAlmostEqual(c1[0] + xfac, c2[0], 5)
self.assertAlmostEqual(c1[1] + yfac, c2[1], 5)
def test23_numgeom(self):
"Testing the `num_geom` GeoQuerySet method."
if DISABLE: return
# Both 'countries' only have two geometries.
for c in Country.objects.num_geom(): self.assertEqual(2, c.num_geom)
for c in City.objects.filter(point__isnull=False).num_geom():
# Oracle will return 1 for the number of geometries on non-collections,
# whereas PostGIS will return None.
if SpatialBackend.postgis: self.assertEqual(None, c.num_geom)
else: self.assertEqual(1, c.num_geom)
@no_spatialite # SpatiaLite can only count vertices in LineStrings
def test24_numpoints(self):
"Testing the `num_points` GeoQuerySet method."
if DISABLE: return
for c in Country.objects.num_points():
self.assertEqual(c.mpoly.num_points, c.num_points)
if not SpatialBackend.oracle:
# Oracle cannot count vertices in Point geometries.
for c in City.objects.num_points(): self.assertEqual(1, c.num_points)
def test25_geoset(self):
"Testing the `difference`, `intersection`, `sym_difference`, and `union` GeoQuerySet methods."
if DISABLE: return
geom = Point(5, 23)
tol = 1
qs = Country.objects.all().difference(geom).sym_difference(geom).union(geom)
# XXX For some reason SpatiaLite does something screwey with the Texas geometry here. Also,
# XXX it doesn't like the null intersection.
if SpatialBackend.spatialite:
qs = qs.exclude(name='Texas')
else:
qs = qs.intersection(geom)
for c in qs:
if SpatialBackend.oracle:
# Should be able to execute the queries; however, they won't be the same
# as GEOS (because Oracle doesn't use GEOS internally like PostGIS or
# SpatiaLite).
pass
else:
self.assertEqual(c.mpoly.difference(geom), c.difference)
if not SpatialBackend.spatialite:
self.assertEqual(c.mpoly.intersection(geom), c.intersection)
self.assertEqual(c.mpoly.sym_difference(geom), c.sym_difference)
self.assertEqual(c.mpoly.union(geom), c.union)
def test26_inherited_geofields(self):
"Test GeoQuerySet methods on inherited Geometry fields."
if DISABLE: return
# Creating a Pennsylvanian city.
mansfield = PennsylvaniaCity.objects.create(name='Mansfield', county='Tioga', point='POINT(-77.071445 41.823881)')
# All transformation SQL will need to be performed on the
# _parent_ table.
qs = PennsylvaniaCity.objects.transform(32128)
self.assertEqual(1, qs.count())
for pc in qs: self.assertEqual(32128, pc.point.srid)
@no_spatialite
@no_oracle
def test27_snap_to_grid(self):
"Testing GeoQuerySet.snap_to_grid()."
if DISABLE: return
# Let's try and break snap_to_grid() with bad combinations of arguments.
for bad_args in ((), range(3), range(5)):
self.assertRaises(ValueError, Country.objects.snap_to_grid, *bad_args)
for bad_args in (('1.0',), (1.0, None), tuple(map(unicode, range(4)))):
self.assertRaises(TypeError, Country.objects.snap_to_grid, *bad_args)
# Boundary for San Marino, courtesy of Bjorn Sandvik of thematicmapping.org
# from the world borders dataset he provides.
wkt = ('MULTIPOLYGON(((12.41580 43.95795,12.45055 43.97972,12.45389 43.98167,'
'12.46250 43.98472,12.47167 43.98694,12.49278 43.98917,'
'12.50555 43.98861,12.51000 43.98694,12.51028 43.98277,'
'12.51167 43.94333,12.51056 43.93916,12.49639 43.92333,'
'12.49500 43.91472,12.48778 43.90583,12.47444 43.89722,'
'12.46472 43.89555,12.45917 43.89611,12.41639 43.90472,'
'12.41222 43.90610,12.40782 43.91366,12.40389 43.92667,'
'12.40500 43.94833,12.40889 43.95499,12.41580 43.95795)))')
sm = Country.objects.create(name='San Marino', mpoly=fromstr(wkt))
# Because floating-point arithmitic isn't exact, we set a tolerance
# to pass into GEOS `equals_exact`.
tol = 0.000000001
# SELECT AsText(ST_SnapToGrid("geoapp_country"."mpoly", 0.1)) FROM "geoapp_country" WHERE "geoapp_country"."name" = 'San Marino';
ref = fromstr('MULTIPOLYGON(((12.4 44,12.5 44,12.5 43.9,12.4 43.9,12.4 44)))')
self.failUnless(ref.equals_exact(Country.objects.snap_to_grid(0.1).get(name='San Marino').snap_to_grid, tol))
# SELECT AsText(ST_SnapToGrid("geoapp_country"."mpoly", 0.05, 0.23)) FROM "geoapp_country" WHERE "geoapp_country"."name" = 'San Marino';
ref = fromstr('MULTIPOLYGON(((12.4 43.93,12.45 43.93,12.5 43.93,12.45 43.93,12.4 43.93)))')
self.failUnless(ref.equals_exact(Country.objects.snap_to_grid(0.05, 0.23).get(name='San Marino').snap_to_grid, tol))
# SELECT AsText(ST_SnapToGrid("geoapp_country"."mpoly", 0.5, 0.17, 0.05, 0.23)) FROM "geoapp_country" WHERE "geoapp_country"."name" = 'San Marino';
ref = fromstr('MULTIPOLYGON(((12.4 43.87,12.45 43.87,12.45 44.1,12.5 44.1,12.5 43.87,12.45 43.87,12.4 43.87)))')
self.failUnless(ref.equals_exact(Country.objects.snap_to_grid(0.05, 0.23, 0.5, 0.17).get(name='San Marino').snap_to_grid, tol))
from test_feeds import GeoFeedTest
from test_regress import GeoRegressionTests
from test_sitemaps import GeoSitemapTest
def suite():
s = unittest.TestSuite()
s.addTest(unittest.makeSuite(GeoModelTest))
s.addTest(unittest.makeSuite(GeoFeedTest))
s.addTest(unittest.makeSuite(GeoSitemapTest))
s.addTest(unittest.makeSuite(GeoRegressionTests))
return s