Preparation for generic user views
Added a getSuffixValues method that is meant to allow for having a
non-public field as key_name.
Also added support for a key-name field being embeded in the form so
that if the key-fields change the old key_name is not lost.
"""
Distance and Area objects to allow for sensible and convienient 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 initialisation 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 initialisation 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.failIf(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)
try:
d5 = d1 + 1
except TypeError, e:
pass
else:
self.fail('Distance + number should raise TypeError')
try:
d5 = d1 - 1
except TypeError, e:
pass
else:
self.fail('Distance - number should raise TypeError')
try:
d1 += 1
except TypeError, e:
pass
else:
self.fail('Distance += number should raise TypeError')
try:
d1 -= 1
except TypeError, e:
pass
else:
self.fail('Distance -= number should raise TypeError')
def testMultiplication(self):
"Test multiplication & division"
d1 = D(m=100)
d3 = d1 * 2
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)
a5 = d1 * D(m=10)
self.assert_(isinstance(a5, Area))
self.assertEqual(a5.sq_m, 100*10)
try:
d1 *= D(m=1)
except TypeError, e:
pass
else:
self.fail('Distance *= Distance should raise TypeError')
try:
d5 = d1 / D(m=1)
except TypeError, e:
pass
else:
self.fail('Distance / Distance should raise TypeError')
try:
d1 /= D(m=1)
except TypeError, e:
pass
else:
self.fail('Distance /= Distance should raise TypeError')
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.assert_(d2 > d1)
self.assert_(d1 == d1)
self.assert_(d1 < d2)
self.failIf(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 initialisation 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 initialisation 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.failIf(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)
try:
a5 = a1 + 1
except TypeError, e:
pass
else:
self.fail('Area + number should raise TypeError')
try:
a5 = a1 - 1
except TypeError, e:
pass
else:
self.fail('Area - number should raise TypeError')
try:
a1 += 1
except TypeError, e:
pass
else:
self.fail('Area += number should raise TypeError')
try:
a1 -= 1
except TypeError, e:
pass
else:
self.fail('Area -= number should raise TypeError')
def testMultiplication(self):
"Test multiplication & division"
a1 = A(sq_m=100)
a3 = a1 * 2
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)
try:
a5 = a1 * A(sq_m=1)
except TypeError, e:
pass
else:
self.fail('Area * Area should raise TypeError')
try:
a1 *= A(sq_m=1)
except TypeError, e:
pass
else:
self.fail('Area *= Area should raise TypeError')
try:
a5 = a1 / A(sq_m=1)
except TypeError, e:
pass
else:
self.fail('Area / Area should raise TypeError')
try:
a1 /= A(sq_m=1)
except TypeError, e:
pass
else:
self.fail('Area /= Area should raise TypeError')
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.assert_(a2 > a1)
self.assert_(a1 == a1)
self.assert_(a1 < a2)
self.failIf(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()