def test_tuple_derivative2(self): cell = ('aa', 'v', 'aa') d_cell = derivative(cell, self.DGC) d_cell = [tp for c in d_cell for tp in expand_tuple_list(c)] self.assertEqual(d_cell, [('b', 'v', 'aa'), ('aa', 'v', 'b')])
def test_chain_derivative2(self): chain = [('v', 'aa'), ('v', 'ab'), ('aa', 'v'), ('ab', 'v'), ('a', 'a'), ('a', 'b'), ('b', 'a'), ('b', 'b')] d_chain = derivative(chain, self.DGC) d_chain = [tp for c in d_chain for tp in expand_tuple_list(c)] self.assertEqual(d_chain, [('v', 'b'), ('b', 'v')])
def test_chain_derivative1(self): chain = ['m_{4}', 'm_{11}'] d_chain = derivative(chain, self.BR3) self.assertEqual(d_chain, ['v_{2}', 'v_{1}', 'v_{2}', 'v_{1}']) d_chain = list_mod(d_chain) self.assertFalse(d_chain)
def test_tuple_derivative(self): cell = ('m_{4}', 'm_{11}') d_cell = derivative(cell, self.BR3) self.assertEqual(d_cell, [(['v_{2}', 'v_{1}'], 'm_{11}'), ('m_{4}', ['v_{2}', 'v_{1}'])]) d_cell = [tp for c in d_cell for tp in expand_tuple_list(c)] self.assertEqual(d_cell, [('v_{2}', 'm_{11}'), ('v_{1}', 'm_{11}'), ('m_{4}', 'v_{2}'), ('m_{4}', 'v_{1}')])
def test_BR3_g3_h1_1(self): g3_h1_1a = [(['c_{3}', 'c_{7}'], ['v_{1}', 'v_{3}'], ['m_{4}']), (['c_{3}', 'c_{7}'], ['c_{3}'], ['v_{1}', 'v_{3}']), (['c_{3}', 'c_{7}'], ['m_{4}'], ['v_{1}', 'v_{2}']), (['c_{3}', 'c_{7}'], ['v_{2}', 'v_{3}'], ['c_{3}'])] anti_g3_h1_1a = chain_integrate(g3_h1_1a, self.BR_C) self.assertIsNotNone(anti_g3_h1_1a) d_anti_g3_h1_1a = [dX for dXs in derivative(anti_g3_h1_1a, self.BR_C) for dX in expand_tuple_list(dXs)] d_anti_g3_h1_1a = list_mod(d_anti_g3_h1_1a) g3_h1_1a_exp = [x for xs in g3_h1_1a for x in expand_tuple_list(xs)] g3_h1_1a_exp = list_mod(g3_h1_1a_exp) self.assertSetEqual(set(d_anti_g3_h1_1a), set(g3_h1_1a_exp))
def test_chain_derivative2(self): chain = [('v_{1}', 'm_{4}'), ('v_{2}', 'm_{4}'), ('v_{1}', 'm_{11}'), ('v_{2}', 'm_{11}')] d_chain = derivative(chain, self.BR3) self.assertEqual(d_chain, [([], 'm_{4}'), ('v_{1}', ['v_{2}', 'v_{1}']), ([], 'm_{4}'), ('v_{2}', ['v_{2}', 'v_{1}']), ([], 'm_{11}'), ('v_{1}', ['v_{2}', 'v_{1}']), ([], 'm_{11}'), ('v_{2}', ['v_{2}', 'v_{1}'])]) d_chain = [tp for c in d_chain for tp in expand_tuple_list(c)] self.assertEqual(d_chain, [('v_{1}', 'v_{2}'), ('v_{1}', 'v_{1}'), ('v_{2}', 'v_{2}'), ('v_{2}', 'v_{1}'), ('v_{1}', 'v_{2}'), ('v_{1}', 'v_{1}'), ('v_{2}', 'v_{2}'), ('v_{2}', 'v_{1}')]) d_chain = list_mod(d_chain) self.assertFalse(d_chain)
def test_chain_derivative1(self): chain = ['aa', 'ab'] self.assertEqual(derivative(chain, self.DGC), ['b'])
def test_simple_derivative(self): cell = 'aa' self.assertEqual(derivative(cell, self.DGC), ['b'])
def test_simple_derivative(self): cell1 = 'm_{4}' self.assertSetEqual(set(derivative(cell1, self.BR3)), set(['v_{1}', 'v_{2}']))