Made geo3d tests independent from each other

This commit is contained in:
Claude Paroz 2012-09-22 11:38:19 +02:00
parent 69ff1b7390
commit 59afc18f37
1 changed files with 85 additions and 49 deletions

View File

@ -1,16 +1,17 @@
from __future__ import absolute_import
from __future__ import absolute_import, unicode_literals
import os
import re
from django.utils.unittest import TestCase
from django.contrib.gis.db.models import Union, Extent3D
from django.contrib.gis.geos import GEOSGeometry, Point, Polygon
from django.contrib.gis.utils import LayerMapping, LayerMapError
from django.test import TestCase
from .models import (City3D, Interstate2D, Interstate3D, InterstateProj2D,
InterstateProj3D, Point2D, Point3D, MultiPoint3D, Polygon2D, Polygon3D)
data_path = os.path.realpath(os.path.join(os.path.dirname(__file__), '..', 'data'))
city_file = os.path.join(data_path, 'cities', 'cities.shp')
vrt_file = os.path.join(data_path, 'test_vrt', 'test_vrt.vrt')
@ -46,12 +47,11 @@ interstate_data = (
# Bounding box polygon for inner-loop of Houston (in projected coordinate
# system 32140), with elevation values from the National Elevation Dataset
# (see above).
bbox_wkt = 'POLYGON((941527.97 4225693.20,962596.48 4226349.75,963152.57 4209023.95,942051.75 4208366.38,941527.97 4225693.20))'
bbox_z = (21.71, 13.21, 9.12, 16.40, 21.71)
def gen_bbox():
bbox_2d = GEOSGeometry(bbox_wkt, srid=32140)
bbox_3d = Polygon(tuple((x, y, z) for (x, y), z in zip(bbox_2d[0].coords, bbox_z)), srid=32140)
return bbox_2d, bbox_3d
bbox_data = (
'POLYGON((941527.97 4225693.20,962596.48 4226349.75,963152.57 4209023.95,942051.75 4208366.38,941527.97 4225693.20))',
(21.71, 13.21, 9.12, 16.40, 21.71)
)
class Geo3DTest(TestCase):
"""
@ -63,20 +63,7 @@ class Geo3DTest(TestCase):
http://postgis.refractions.net/documentation/manual-1.4/ch08.html#PostGIS_3D_Functions
"""
def test01_3d(self):
"Test the creation of 3D models."
# 3D models for the rest of the tests will be populated in here.
# For each 3D data set create model (and 2D version if necessary),
# retrieve, and assert geometry is in 3D and contains the expected
# 3D values.
for name, pnt_data in city_data:
x, y, z = pnt_data
pnt = Point(x, y, z, srid=4326)
City3D.objects.create(name=name, point=pnt)
city = City3D.objects.get(name=name)
self.assertTrue(city.point.hasz)
self.assertEqual(z, city.point.z)
def _load_interstate_data(self):
# Interstate (2D / 3D and Geographic/Projected variants)
for name, line, exp_z in interstate_data:
line_3d = GEOSGeometry(line, srid=4269)
@ -90,26 +77,51 @@ class Geo3DTest(TestCase):
Interstate2D.objects.create(name=name, line=line_2d)
InterstateProj2D.objects.create(name=name, line=line_2d)
# Retrieving and making sure it's 3D and has expected
# Z values -- shouldn't change because of coordinate system.
def _load_city_data(self):
for name, pnt_data in city_data:
City3D.objects.create(name=name, point=Point(*pnt_data, srid=4326))
def _load_polygon_data(self):
bbox_wkt, bbox_z = bbox_data
bbox_2d = GEOSGeometry(bbox_wkt, srid=32140)
bbox_3d = Polygon(tuple((x, y, z) for (x, y), z in zip(bbox_2d[0].coords, bbox_z)), srid=32140)
Polygon2D.objects.create(name='2D BBox', poly=bbox_2d)
Polygon3D.objects.create(name='3D BBox', poly=bbox_3d)
def test_3d_hasz(self):
"""
Make sure data is 3D and has expected Z values -- shouldn't change
because of coordinate system.
"""
self._load_interstate_data()
for name, line, exp_z in interstate_data:
interstate = Interstate3D.objects.get(name=name)
interstate_proj = InterstateProj3D.objects.get(name=name)
for i in [interstate, interstate_proj]:
self.assertTrue(i.line.hasz)
self.assertEqual(exp_z, tuple(i.line.z))
# Creating 3D Polygon.
bbox2d, bbox3d = gen_bbox()
Polygon2D.objects.create(name='2D BBox', poly=bbox2d)
Polygon3D.objects.create(name='3D BBox', poly=bbox3d)
self._load_city_data()
for name, pnt_data in city_data:
city = City3D.objects.get(name=name)
z = pnt_data[2]
self.assertTrue(city.point.hasz)
self.assertEqual(z, city.point.z)
def test_3d_polygons(self):
"""
Test the creation of polygon 3D models.
"""
self._load_polygon_data()
p3d = Polygon3D.objects.get(name='3D BBox')
self.assertTrue(p3d.poly.hasz)
self.assertEqual(bbox3d, p3d.poly)
def test01a_3d_layermapping(self):
"Testing LayerMapping on 3D models."
from .models import Point2D, Point3D
self.assertIsInstance(p3d.poly, Polygon)
self.assertEqual(p3d.poly.srid, 32140)
def test_3d_layermapping(self):
"""
Testing LayerMapping on 3D models.
"""
point_mapping = {'point' : 'POINT'}
mpoint_mapping = {'mpoint' : 'MULTIPOINT'}
@ -134,34 +146,46 @@ class Geo3DTest(TestCase):
lm.save()
self.assertEqual(3, MultiPoint3D.objects.count())
def test02a_kml(self):
"Test GeoQuerySet.kml() with Z values."
def test_kml(self):
"""
Test GeoQuerySet.kml() with Z values.
"""
self._load_city_data()
h = City3D.objects.kml(precision=6).get(name='Houston')
# KML should be 3D.
# `SELECT ST_AsKML(point, 6) FROM geo3d_city3d WHERE name = 'Houston';`
ref_kml_regex = re.compile(r'^<Point><coordinates>-95.363\d+,29.763\d+,18</coordinates></Point>$')
self.assertTrue(ref_kml_regex.match(h.kml))
def test02b_geojson(self):
"Test GeoQuerySet.geojson() with Z values."
def test_geojson(self):
"""
Test GeoQuerySet.geojson() with Z values.
"""
self._load_city_data()
h = City3D.objects.geojson(precision=6).get(name='Houston')
# GeoJSON should be 3D
# `SELECT ST_AsGeoJSON(point, 6) FROM geo3d_city3d WHERE name='Houston';`
ref_json_regex = re.compile(r'^{"type":"Point","coordinates":\[-95.363151,29.763374,18(\.0+)?\]}$')
self.assertTrue(ref_json_regex.match(h.geojson))
def test03a_union(self):
"Testing the Union aggregate of 3D models."
def test_union(self):
"""
Testing the Union aggregate of 3D models.
"""
# PostGIS query that returned the reference EWKT for this test:
# `SELECT ST_AsText(ST_Union(point)) FROM geo3d_city3d;`
self._load_city_data()
ref_ewkt = 'SRID=4326;MULTIPOINT(-123.305196 48.462611 15,-104.609252 38.255001 1433,-97.521157 34.464642 380,-96.801611 32.782057 147,-95.363151 29.763374 18,-95.23506 38.971823 251,-87.650175 41.850385 181,174.783117 -41.315268 14)'
ref_union = GEOSGeometry(ref_ewkt)
union = City3D.objects.aggregate(Union('point'))['point__union']
self.assertTrue(union.hasz)
self.assertEqual(ref_union, union)
def test03b_extent(self):
"Testing the Extent3D aggregate for 3D models."
def test_extent(self):
"""
Testing the Extent3D aggregate for 3D models.
"""
self._load_city_data()
# `SELECT ST_Extent3D(point) FROM geo3d_city3d;`
ref_extent3d = (-123.305196, -41.315268, 14,174.783117, 48.462611, 1433)
extent1 = City3D.objects.aggregate(Extent3D('point'))['point__extent3d']
@ -174,8 +198,11 @@ class Geo3DTest(TestCase):
for e3d in [extent1, extent2]:
check_extent3d(e3d)
def test04_perimeter(self):
"Testing GeoQuerySet.perimeter() on 3D fields."
def test_perimeter(self):
"""
Testing GeoQuerySet.perimeter() on 3D fields.
"""
self._load_polygon_data()
# Reference query for values below:
# `SELECT ST_Perimeter3D(poly), ST_Perimeter2D(poly) FROM geo3d_polygon3d;`
ref_perim_3d = 76859.2620451
@ -188,12 +215,15 @@ class Geo3DTest(TestCase):
Polygon3D.objects.perimeter().get(name='3D BBox').perimeter.m,
tol)
def test05_length(self):
"Testing GeoQuerySet.length() on 3D fields."
def test_length(self):
"""
Testing GeoQuerySet.length() on 3D fields.
"""
# ST_Length_Spheroid Z-aware, and thus does not need to use
# a separate function internally.
# `SELECT ST_Length_Spheroid(line, 'SPHEROID["GRS 1980",6378137,298.257222101]')
# FROM geo3d_interstate[2d|3d];`
self._load_interstate_data()
tol = 3
ref_length_2d = 4368.1721949481
ref_length_3d = 4368.62547052088
@ -217,16 +247,22 @@ class Geo3DTest(TestCase):
InterstateProj3D.objects.length().get(name='I-45').length.m,
tol)
def test06_scale(self):
"Testing GeoQuerySet.scale() on Z values."
def test_scale(self):
"""
Testing GeoQuerySet.scale() on Z values.
"""
self._load_city_data()
# Mapping of City name to reference Z values.
zscales = (-3, 4, 23)
for zscale in zscales:
for city in City3D.objects.scale(1.0, 1.0, zscale):
self.assertEqual(city_dict[city.name][2] * zscale, city.scale.z)
def test07_translate(self):
"Testing GeoQuerySet.translate() on Z values."
def test_translate(self):
"""
Testing GeoQuerySet.translate() on Z values.
"""
self._load_city_data()
ztranslations = (5.23, 23, -17)
for ztrans in ztranslations:
for city in City3D.objects.translate(0, 0, ztrans):