本文整理汇总了Python中geopandas.GeoSeries.symmetric_difference方法的典型用法代码示例。如果您正苦于以下问题:Python GeoSeries.symmetric_difference方法的具体用法?Python GeoSeries.symmetric_difference怎么用?Python GeoSeries.symmetric_difference使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类geopandas.GeoSeries的用法示例。
在下文中一共展示了GeoSeries.symmetric_difference方法的3个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: TestSeries
# 需要导入模块: from geopandas import GeoSeries [as 别名]
# 或者: from geopandas.GeoSeries import symmetric_difference [as 别名]
#.........这里部分代码省略.........
assert a1['B'].equals(a2['B'])
assert a1['C'].is_empty
def test_almost_equals(self):
assert np.alltrue(self.g1.equals(self.g1))
assert np.all(self.g1.equals(self.sq).values == np.array([0, 1], dtype=bool))
def test_equals_exact(self):
assert np.alltrue(self.g1.equals(self.g1))
assert np.all(self.g1.equals(self.sq).values == np.array([0, 1], dtype=bool))
def test_crosses(self):
# TODO
pass
def test_disjoint(self):
# TODO
pass
def test_intersects(self):
# TODO
pass
def test_overlaps(self):
# TODO
pass
def test_touches(self):
# TODO
pass
def test_within(self):
# TODO
pass
def test_intersection(self):
assert geom_equals(self.g1 & self.g2, self.t1)
def test_union_series(self):
u = self.g1.union(self.g2)
assert u[0].equals(self.sq)
assert u[1].equals(self.sq)
assert geom_equals(u, self.g1 | self.g2)
def test_union_polgon(self):
u = self.g1.union(self.t2)
assert u[0].equals(self.sq)
assert u[1].equals(self.sq)
def test_symmetric_difference_series(self):
u = self.g3.symmetric_difference(self.g4)
assert u[0].equals(self.sq)
assert u[1].equals(self.sq)
assert geom_equals(u, self.g3 ^ self.g4)
def test_symmetric_difference_poly(self):
u = self.g3.symmetric_difference(self.t1)
assert u[0].is_empty
assert u[1].equals(self.sq)
def test_difference_series(self):
u = self.g1.difference(self.g2)
assert u[0].is_empty
assert u[1].equals(self.t2)
assert geom_equals(u, self.g1 - self.g2)
def test_difference_poly(self):
u = self.g1.difference(self.t2)
assert u[0].equals(self.t1)
assert u[1].equals(self.t1)
def test_is_valid(self):
assert np.alltrue(self.g1.is_valid)
def test_is_empty(self):
assert np.alltrue(np.logical_not(self.g1.is_empty))
def test_is_ring(self):
assert np.alltrue(self.g1.is_ring)
def test_is_simple(self):
assert np.alltrue(self.g1.is_simple)
def test_envelope(self):
e = self.g3.envelope
assert np.alltrue(e.equals(self.sq))
def test_exterior(self):
# TODO
pass
def test_interiors(self):
# TODO
pass
def test_representative_point(self):
assert np.alltrue(self.g1.contains(self.g1.representative_point()))
assert np.alltrue(self.g2.contains(self.g2.representative_point()))
assert np.alltrue(self.g3.contains(self.g3.representative_point()))
assert np.alltrue(self.g4.contains(self.g4.representative_point()))示例2: TestSeries
# 需要导入模块: from geopandas import GeoSeries [as 别名]
# 或者: from geopandas.GeoSeries import symmetric_difference [as 别名]
#.........这里部分代码省略.........
@unittest.skip('TODO')
def test_touches(self):
# TODO
pass
def test_to_file(self):
""" Test to_file and from_file """
tempfilename = os.path.join(self.tempdir, 'test.shp')
self.g3.to_file(tempfilename)
# Read layer back in?
s = GeoSeries.from_file(tempfilename)
self.assertTrue(all(self.g3.equals(s)))
# TODO: compare crs
@unittest.skip('TODO')
def test_within(self):
# TODO
pass
def test_intersection(self):
self.assertTrue(geom_equals(self.g1 & self.g2, self.t1))
def test_union_series(self):
u = self.g1.union(self.g2)
self.assertTrue(u[0].equals(self.sq))
self.assertTrue(u[1].equals(self.sq))
self.assertTrue(geom_equals(u, self.g1 | self.g2))
def test_union_polgon(self):
u = self.g1.union(self.t2)
self.assertTrue(u[0].equals(self.sq))
self.assertTrue(u[1].equals(self.sq))
def test_symmetric_difference_series(self):
u = self.g3.symmetric_difference(self.g4)
self.assertTrue(u[0].equals(self.sq))
self.assertTrue(u[1].equals(self.sq))
self.assertTrue(geom_equals(u, self.g3 ^ self.g4))
self.assertEqual(self.g3.crs, u.crs)
def test_symmetric_difference_poly(self):
u = self.g3.symmetric_difference(self.t1)
self.assertTrue(u[0].is_empty)
self.assertTrue(u[1].equals(self.sq))
self.assertEqual(self.g3.crs, u.crs)
def test_difference_series(self):
u = self.g1.difference(self.g2)
self.assertTrue(u[0].is_empty)
self.assertTrue(u[1].equals(self.t2))
self.assertTrue(geom_equals(u, self.g1 - self.g2))
def test_difference_poly(self):
u = self.g1.difference(self.t2)
self.assertTrue(u[0].equals(self.t1))
self.assertTrue(u[1].equals(self.t1))
def test_is_valid(self):
self.assertTrue(np.alltrue(self.g1.is_valid))
def test_is_empty(self):
self.assertTrue(np.alltrue(np.logical_not(self.g1.is_empty)))
def test_is_ring(self):
self.assertTrue(np.alltrue(self.g1.is_ring))
示例3: TestSeries
# 需要导入模块: from geopandas import GeoSeries [as 别名]
# 或者: from geopandas.GeoSeries import symmetric_difference [as 别名]
#.........这里部分代码省略.........
def test_disjoint(self):
# TODO
pass
def test_intersects(self):
# TODO
pass
def test_overlaps(self):
# TODO
pass
def test_touches(self):
# TODO
pass
def test_within(self):
# TODO
pass
def test_intersection(self):
self.assertTrue(geom_equals(self.g1 & self.g2, self.t1))
def test_union_series(self):
u = self.g1.union(self.g2)
self.assertTrue(u[0].equals(self.sq))
self.assertTrue(u[1].equals(self.sq))
self.assertTrue(geom_equals(u, self.g1 | self.g2))
def test_union_polgon(self):
u = self.g1.union(self.t2)
self.assertTrue(u[0].equals(self.sq))
self.assertTrue(u[1].equals(self.sq))
def test_symmetric_difference_series(self):
u = self.g3.symmetric_difference(self.g4)
self.assertTrue(u[0].equals(self.sq))
self.assertTrue(u[1].equals(self.sq))
self.assertTrue(geom_equals(u, self.g3 ^ self.g4))
self.assertEqual(self.g3.crs, u.crs)
def test_symmetric_difference_poly(self):
u = self.g3.symmetric_difference(self.t1)
self.assertTrue(u[0].is_empty)
self.assertTrue(u[1].equals(self.sq))
self.assertEqual(self.g3.crs, u.crs)
def test_difference_series(self):
u = self.g1.difference(self.g2)
self.assertTrue(u[0].is_empty)
self.assertTrue(u[1].equals(self.t2))
self.assertTrue(geom_equals(u, self.g1 - self.g2))
def test_difference_poly(self):
u = self.g1.difference(self.t2)
self.assertTrue(u[0].equals(self.t1))
self.assertTrue(u[1].equals(self.t1))
def test_is_valid(self):
self.assertTrue(np.alltrue(self.g1.is_valid))
def test_is_empty(self):
self.assertTrue(np.alltrue(np.logical_not(self.g1.is_empty)))
def test_is_ring(self):
self.assertTrue(np.alltrue(self.g1.is_ring))
def test_is_simple(self):
self.assertTrue(np.alltrue(self.g1.is_simple))
def test_envelope(self):
e = self.g3.envelope
self.assertTrue(np.alltrue(e.equals(self.sq)))
self.assertIsInstance(e, GeoSeries)
self.assertEqual(self.g3.crs, e.crs)
def test_exterior(self):
# TODO
pass
def test_interiors(self):
# TODO
pass
def test_representative_point(self):
self.assertTrue(np.alltrue(self.g1.contains(self.g1.representative_point())))
self.assertTrue(np.alltrue(self.g2.contains(self.g2.representative_point())))
self.assertTrue(np.alltrue(self.g3.contains(self.g3.representative_point())))
self.assertTrue(np.alltrue(self.g4.contains(self.g4.representative_point())))
def test_transform(self):
utm18n = self.landmarks.to_crs(epsg=26918)
lonlat = utm18n.to_crs(epsg=4326)
self.assertTrue(np.alltrue(self.landmarks.almost_equals(lonlat)))
def test_fillna(self):
na = self.na_none.fillna()
self.assertTrue(isinstance(na[2], BaseGeometry))
self.assertTrue(na[2].is_empty)