def test_constructor(self):
"""
Test initialization
"""
# Initialize empty map
f = Map()
self.assertTrue(isinstance(f, Map))
self.assertIsNone(f.dim())
#
# Exceptions
#
mesh = Mesh1D()
# Mesh dimension incompatible with element
element = QuadFE(2, 'DQ1')
#self.assertRaises(Exception, Map, **{'mesh':mesh, 'element':element})
# Dofhandler incompatibility
element = QuadFE(1, 'Q1')
dofhandler = DofHandler(mesh, element)
#self.assertRaises(Exception, Map, **{'dofhandler': dofhandler,
# 'dim':2})
# function returns the same mesh
f1 = Map(dofhandler=dofhandler)
f2 = Map(mesh=mesh)
self.assertEqual(f1.mesh(), f2.mesh())
def func(name, x):
from function import Map
if Map.has_key(name):
print Map[name](x)
else:
print 'It\'s not a valid function name:', name, ', valid function names:', Map.keys()
print 'It\'s not a valid function name:' + name + ', valid function names:' + str(Map.keys())
def func():
from function import Map
print Map.keys() # ['func3', 'func2', 'func1']
print Map.values() # [<function <lambda> at 0x21feed8>, <function <lambda> at 0x21fee60>, <function <lambda> at 0x21fede8>]
print Map.iteritems() # <dictionary-itemiterator object at 0x226ef18>
print Map.viewkeys() # dict_keys(['func3', 'func2', 'func1'])
print Map.viewvalues() # dict_values([<function <lambda> at 0x21feed8>, <function <lambda> at 0x21fee60>, <function <lambda> at 0x21fede8>])
print Map.viewitems() # dict_items([('func3', <function <lambda> at 0x21feed8>), ('func2', <function <lambda> at 0x21fee60>), ('func1', <function <lambda> at 0x21fede8>)])
