|
- from abp import GraphState, clifford
- from anders_briegel import graphsim
- import numpy as np
- from tqdm import tqdm
- import itertools as it
- import dummy
-
- N = 10
- REPEATS = 10
- m = {1: graphsim.lco_X, 2: graphsim.lco_Y, 3: graphsim.lco_Z}
-
- def test_1():
- """ Check that single qubits work """
- space = it.product(range(24), (3,2,1), (0,1))
- for rotation, measurement, outcome in tqdm(space, "Testing single qubit measurements"):
- #print "\nr{} m{} o{}".format(rotation, measurement, outcome)
- a, b = dummy.onequbit()
- #print a.to_json()["node"][0]["vop"], b.to_json()["node"][0]["vop"]
- a.measure(0, str(measurement), outcome)
- b.measure(0, m[measurement], None, outcome)
- #print a.to_json()["node"][0]["vop"], b.to_json()["node"][0]["vop"]
- assert a == b, (a.to_json()["node"][0], b.to_json()["node"][0])
-
|