def test_compose(self):
random.seed(SEED)
circ1 = cliffords(3, 15)
circ2 = cliffords(3, 20)
t1 = tensorfy(circ1)
t2 = tensorfy(circ2)
comp1 = compose_tensors(t1, t2)
circ1.compose(circ2)
comp2 = tensorfy(circ1)
self.assertTrue(compare_tensors(comp1, comp2))
def test_adjoint(self):
random.seed(SEED)
circ = cliffords(3, 16)
t = tensorfy(circ)
t_adj = adjoint(t)
circ_adj = tensorfy(circ.adjoint())
self.assertTrue(compare_tensors(t_adj, circ_adj))
def test_cliffords_preserves_graph_semantics(self):
random.seed(SEED)
g = cliffords(5,30)
c = Circuit.from_graph(g)
g2 = c.to_graph()
t = tensorfy(g)
t2 = tensorfy(g2)
self.assertTrue(compare_tensors(t,t2))
def test_clifford_extract(self):
random.seed(SEED)
tests = 0
tries = 0
while True:
tries += 1
circ = cliffords(5,70)
clifford_simp(circ,quiet=True)
circ.normalise()
if circ.depth()>3: continue # It is not in normal form, so skip this one
tests += 1
with self.subTest(test=tests,tries=tries):
t = tensorfy(circ)
clifford_extract(circ,1,2)
t2 = tensorfy(circ)
self.assertTrue(compare_tensors(t,t2))
if tests>5: break
