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- from abp import GraphState
- from anders_briegel import graphsim
- from abp import CircuitModel
- from abp import clifford
- import random
- import numpy as np
- from tqdm import tqdm
-
- REPEATS = 100000
-
- def assert_equal(a, b, debug=""):
- assert a.to_json() == b.to_json()
-
- def test_hadamard():
- """ Test hadamards """
- a = graphsim.GraphRegister(1)
- b = GraphState()
- b.add_node(0)
-
- assert_equal(a, b)
- a.hadamard(0)
- b.act_hadamard(0)
- assert_equal(a, b)
- a.hadamard(0)
- b.act_hadamard(0)
- assert_equal(a, b)
-
-
- def test_local_rotations():
- """ Test local rotations """
- a = graphsim.GraphRegister(1)
- b = GraphState()
- b.add_node(0)
- assert_equal(a, b)
-
- for i in range(1000):
- j = random.randint(0, 23)
- a.local_op(0, graphsim.LocCliffOp(j))
- b.act_local_rotation(0, j)
- assert_equal(a, b)
-
-
- def test_times_table():
- """ Test times table """
- for i, j in it.product(range(24), range(24)):
- a = graphsim.GraphRegister(1)
- b = GraphState([0])
- a.local_op(0, graphsim.LocCliffOp(i))
- a.local_op(0, graphsim.LocCliffOp(j))
- b.act_local_rotation(0, i)
- b.act_local_rotation(0, j)
- assert_equal(a, b)
-
-
- def test_cz_table(N=10):
- """ Test the CZ table """
-
- clifford.use_old_cz()
-
- for i in range(24):
- for j in range(24):
-
- a = graphsim.GraphRegister(2)
- b = GraphState()
- b.add_nodes([0, 1])
-
- a.local_op(0, graphsim.LocCliffOp(i))
- b.act_local_rotation(0, i)
- a.local_op(1, graphsim.LocCliffOp(j))
- b.act_local_rotation(1, j)
-
- a.cphase(0, 1)
- b.act_cz(0, 1)
-
- assert_equal(a, b)
-
- for i in range(24):
- for j in range(24):
-
- a = graphsim.GraphRegister(2)
- b = GraphState()
- b.add_nodes([0, 1])
-
- a.local_op(0, graphsim.LocCliffOp(10))
- b.act_local_rotation(0, 10)
-
- a.cphase(0, 1)
- b.act_cz(0, 1)
-
- a.local_op(0, graphsim.LocCliffOp(i))
- b.act_local_rotation(0, i)
- a.local_op(1, graphsim.LocCliffOp(j))
- b.act_local_rotation(1, j)
-
- a.cphase(0, 1)
- b.act_cz(0, 1)
-
- assert_equal(a, b)
-
-
- def test_with_cphase_gates_hadamard_only(N=10):
- """ Hadamrds and CPHASEs, deterministic """
-
- a = graphsim.GraphRegister(N)
- b = GraphState()
-
- for i in range(N):
- a.hadamard(i)
- b.add_node(i)
- b.act_hadamard(i)
-
- for i in range(N-1):
- a.cphase(i, i+1)
- b.act_cz(i, i+1)
-
- assert_equal(a, b)
-
- def test_cz_hadamard(N=10):
- """ Test CZs and Hadamards at random """
-
- clifford.use_old_cz()
-
- a = graphsim.GraphRegister(N)
- b = GraphState(range(N))
- for i in tqdm(range(REPEATS), desc="Testing CZ and Hadamard against A&B"):
- if random.random()>0.5:
- j = random.randint(0, N-1)
- a.hadamard(j)
- b.act_hadamard(j)
- else:
- q = random.randint(0, N-2)
- a.cphase(q, q+1)
- b.act_cz(q, q+1)
- assert_equal(a, b)
-
-
-
- def test_all(N=9):
- """ Test everything"""
-
- clifford.use_old_cz()
-
- a = graphsim.GraphRegister(N)
- b = GraphState(range(N))
- print "woi"
- for i in tqdm(range(REPEATS), desc="Testing all gates against Anders and Briegel"):
- if random.random()>0.5:
- j = random.randint(0, N-1)
- u = random.randint(0, 23)
- a.local_op(j, graphsim.LocCliffOp(u))
- b.act_local_rotation(j, u)
- else:
- q = random.randint(0, N-2)
- a.cphase(q, q+1)
- b.act_cz(q, q+1)
- assert_equal(a, b, str(i))
-
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