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- import numpy as np
- from abp import GraphState
- from abp import qi, clifford
- from anders_briegel import graphsim
- from tqdm import tqdm
- import random
- import itertools as it
-
-
- def test_single_qubit_measurements():
- """ Various simple tests of measurements """
-
- # Test that measuring |0> in Z gives 0
- g = GraphState([0])
- assert g.measure(0, "pz") == 0, "Measuring |0> in Z gives 0"
-
- # Test that measuring |1> in Z gives 1
- g = GraphState([0])
- g.act_local_rotation(0, "px")
- assert g.measure(0, "pz") == 1, "Measuring |1> in Z gives 1"
-
- # Test that measuring |+> in X gives 0
- g = GraphState([0])
- g.act_local_rotation(0, "hadamard")
- assert g.measure(0, "px") == 0
- assert g.measure(0, "px") == 0, "Measuring |+> in X gives 0"
- g.act_local_rotation(0, "pz")
- assert g.measure(0, "px") == 1, "Measuring |-> in X gives 1"
-
-
- def test_type():
- """ Test that the output is always an int """
- for r, m, f in it.product(range(24), ("px", "py", "pz"), (0, 1)):
- g = GraphState([0])
- g.act_local_rotation(0, r)
- assert str(g.measure(0, m)) in "01"
- assert str(g.measure(0, m, f)) in "01"
- assert g.measure(0, m, f, detail=True)["determinate"] == True
-
-
- def test_random_outcomes():
- """ Testing random behaviour """
- ones = 0
- for i in range(1000):
- g = GraphState([0])
- g.act_local_rotation(0, "hadamard")
- ones += g.measure(0, "pz")
- assert 400 < ones < 600, "This is a probabilistic test!"
-
-
- def test_projection():
- """ Test that projection works correctly """
- g = GraphState([0])
- g.act_local_rotation(0, "hadamard")
- g.measure(0, "pz", 0)
- assert np.allclose(g.to_state_vector().state, qi.zero)
-
- # Now project onto |1>
- g = GraphState([0])
- g.act_local_rotation(0, "hadamard")
- g.measure(0, "pz", 1)
- assert np.allclose(g.to_state_vector().state, qi.one)
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