""" Distance and Area objects to allow for sensible and convenient calculation and conversions. Here are some tests. """ import unittest from django.contrib.gis.measure import Distance, Area, D, A class DistanceTest(unittest.TestCase): "Testing the Distance object" def testInit(self): "Testing initialization from valid units" d = Distance(m=100) self.assertEqual(d.m, 100) d1, d2, d3 = D(m=100), D(meter=100), D(metre=100) for d in (d1, d2, d3): self.assertEqual(d.m, 100) d = D(nm=100) self.assertEqual(d.m, 185200) y1, y2, y3 = D(yd=100), D(yard=100), D(Yard=100) for d in (y1, y2, y3): self.assertEqual(d.yd, 100) mm1, mm2 = D(millimeter=1000), D(MiLLiMeTeR=1000) for d in (mm1, mm2): self.assertEqual(d.m, 1.0) self.assertEqual(d.mm, 1000.0) def testInitInvalid(self): "Testing initialization from invalid units" self.assertRaises(AttributeError, D, banana=100) def testAccess(self): "Testing access in different units" d = D(m=100) self.assertEqual(d.km, 0.1) self.assertAlmostEqual(d.ft, 328.084, 3) def testAccessInvalid(self): "Testing access in invalid units" d = D(m=100) self.assertFalse(hasattr(d, 'banana')) def testAddition(self): "Test addition & subtraction" d1 = D(m=100) d2 = D(m=200) d3 = d1 + d2 self.assertEqual(d3.m, 300) d3 += d1 self.assertEqual(d3.m, 400) d4 = d1 - d2 self.assertEqual(d4.m, -100) d4 -= d1 self.assertEqual(d4.m, -200) with self.assertRaises(TypeError): d1 + 1 with self.assertRaises(TypeError): d1 - 1 with self.assertRaises(TypeError): d1 += 1 with self.assertRaises(TypeError): d1 -= 1 def testMultiplication(self): "Test multiplication & division" d1 = D(m=100) d3 = d1 * 2 self.assertEqual(d3.m, 200) d3 = 2 * d1 self.assertEqual(d3.m, 200) d3 *= 5 self.assertEqual(d3.m, 1000) d4 = d1 / 2 self.assertEqual(d4.m, 50) d4 /= 5 self.assertEqual(d4.m, 10) d5 = d1 / D(m=2) self.assertEqual(d5, 50) a5 = d1 * D(m=10) self.assertIsInstance(a5, Area) self.assertEqual(a5.sq_m, 100 * 10) with self.assertRaises(TypeError): d1 *= D(m=1) with self.assertRaises(TypeError): d1 /= D(m=1) def testUnitConversions(self): "Testing default units during maths" d1 = D(m=100) d2 = D(km=1) d3 = d1 + d2 self.assertEqual(d3._default_unit, 'm') d4 = d2 + d1 self.assertEqual(d4._default_unit, 'km') d5 = d1 * 2 self.assertEqual(d5._default_unit, 'm') d6 = d1 / 2 self.assertEqual(d6._default_unit, 'm') def testComparisons(self): "Testing comparisons" d1 = D(m=100) d2 = D(km=1) d3 = D(km=0) self.assertTrue(d2 > d1) self.assertTrue(d1 == d1) self.assertTrue(d1 < d2) self.assertFalse(d3) def testUnitsStr(self): "Testing conversion to strings" d1 = D(m=100) d2 = D(km=3.5) self.assertEqual(str(d1), '100.0 m') self.assertEqual(str(d2), '3.5 km') self.assertEqual(repr(d1), 'Distance(m=100.0)') self.assertEqual(repr(d2), 'Distance(km=3.5)') def testUnitAttName(self): "Testing the `unit_attname` class method" unit_tuple = [('Yard', 'yd'), ('Nautical Mile', 'nm'), ('German legal metre', 'german_m'), ('Indian yard', 'indian_yd'), ('Chain (Sears)', 'chain_sears'), ('Chain', 'chain')] for nm, att in unit_tuple: self.assertEqual(att, D.unit_attname(nm)) class AreaTest(unittest.TestCase): "Testing the Area object" def testInit(self): "Testing initialization from valid units" a = Area(sq_m=100) self.assertEqual(a.sq_m, 100) a = A(sq_m=100) self.assertEqual(a.sq_m, 100) a = A(sq_mi=100) self.assertEqual(a.sq_m, 258998811.0336) def testInitInvaliA(self): "Testing initialization from invalid units" self.assertRaises(AttributeError, A, banana=100) def testAccess(self): "Testing access in different units" a = A(sq_m=100) self.assertEqual(a.sq_km, 0.0001) self.assertAlmostEqual(a.sq_ft, 1076.391, 3) def testAccessInvaliA(self): "Testing access in invalid units" a = A(sq_m=100) self.assertFalse(hasattr(a, 'banana')) def testAddition(self): "Test addition & subtraction" a1 = A(sq_m=100) a2 = A(sq_m=200) a3 = a1 + a2 self.assertEqual(a3.sq_m, 300) a3 += a1 self.assertEqual(a3.sq_m, 400) a4 = a1 - a2 self.assertEqual(a4.sq_m, -100) a4 -= a1 self.assertEqual(a4.sq_m, -200) with self.assertRaises(TypeError): a1 + 1 with self.assertRaises(TypeError): a1 - 1 with self.assertRaises(TypeError): a1 += 1 with self.assertRaises(TypeError): a1 -= 1 def testMultiplication(self): "Test multiplication & division" a1 = A(sq_m=100) a3 = a1 * 2 self.assertEqual(a3.sq_m, 200) a3 = 2 * a1 self.assertEqual(a3.sq_m, 200) a3 *= 5 self.assertEqual(a3.sq_m, 1000) a4 = a1 / 2 self.assertEqual(a4.sq_m, 50) a4 /= 5 self.assertEqual(a4.sq_m, 10) with self.assertRaises(TypeError): a1 * A(sq_m=1) with self.assertRaises(TypeError): a1 *= A(sq_m=1) with self.assertRaises(TypeError): a1 / A(sq_m=1) with self.assertRaises(TypeError): a1 /= A(sq_m=1) def testUnitConversions(self): "Testing default units during maths" a1 = A(sq_m=100) a2 = A(sq_km=1) a3 = a1 + a2 self.assertEqual(a3._default_unit, 'sq_m') a4 = a2 + a1 self.assertEqual(a4._default_unit, 'sq_km') a5 = a1 * 2 self.assertEqual(a5._default_unit, 'sq_m') a6 = a1 / 2 self.assertEqual(a6._default_unit, 'sq_m') def testComparisons(self): "Testing comparisons" a1 = A(sq_m=100) a2 = A(sq_km=1) a3 = A(sq_km=0) self.assertTrue(a2 > a1) self.assertTrue(a1 == a1) self.assertTrue(a1 < a2) self.assertFalse(a3) def testUnitsStr(self): "Testing conversion to strings" a1 = A(sq_m=100) a2 = A(sq_km=3.5) self.assertEqual(str(a1), '100.0 sq_m') self.assertEqual(str(a2), '3.5 sq_km') self.assertEqual(repr(a1), 'Area(sq_m=100.0)') self.assertEqual(repr(a2), 'Area(sq_km=3.5)') def suite(): s = unittest.TestSuite() s.addTest(unittest.makeSuite(DistanceTest)) s.addTest(unittest.makeSuite(AreaTest)) return s def run(verbosity=2): unittest.TextTestRunner(verbosity=verbosity).run(suite()) if __name__ == "__main__": run()