Exemplo n.º 1
0
def test_circuit(boolean_str):
    boolean_expr = sympy_parser.parse_expr(boolean_str)
    var_names = cirq.parameter_names(boolean_expr)
    qubits = [cirq.NamedQubit(name) for name in var_names]

    # We use Sympy to evaluate the expression:
    n = len(var_names)

    expected = []
    for binary_inputs in itertools.product([0, 1], repeat=n):
        subed_expr = boolean_expr
        for var_name, binary_input in zip(var_names, binary_inputs):
            subed_expr = subed_expr.subs(var_name, binary_input)
        expected.append(bool(subed_expr))

    # We build a circuit and look at its output state vector:
    circuit = cirq.Circuit()
    circuit.append(cirq.H.on_each(*qubits))

    hamiltonian_gate = cirq.BooleanHamiltonian({q.name: q
                                                for q in qubits},
                                               [boolean_str], 0.1 * math.pi)

    assert hamiltonian_gate.num_qubits() == n

    circuit.append(hamiltonian_gate)

    phi = cirq.Simulator().simulate(circuit,
                                    qubit_order=qubits,
                                    initial_state=0).state_vector()
    actual = np.arctan2(phi.real, phi.imag) - math.pi / 2.0 > 0.0

    # Compare the two:
    np.testing.assert_array_equal(actual, expected)
Exemplo n.º 2
0
def test_with_custom_names():
    q0, q1, q2, q3 = cirq.LineQubit.range(4)
    original_op = cirq.BooleanHamiltonian(
        {
            'a': q0,
            'b': q1
        },
        ['a'],
        0.1,
    )
    assert cirq.decompose(original_op) == [cirq.Rz(rads=-0.05).on(q0)]

    renamed_op = original_op.with_qubits(q2, q3)
    assert cirq.decompose(renamed_op) == [cirq.Rz(rads=-0.05).on(q2)]

    with pytest.raises(ValueError,
                       match='Length of replacement qubits must be the same'):
        original_op.with_qubits(q2)
Exemplo n.º 3
0
def test_with_custom_names():
    q0, q1, q2, q3 = cirq.LineQubit.range(4)
    with cirq.testing.assert_deprecated(
        'Use cirq.BooleanHamiltonianGate', deadline='v0.15', count=3
    ):
        original_op = cirq.BooleanHamiltonian(
            {'a': q0, 'b': q1},
            ['a'],
            0.1,
        )
        assert cirq.decompose(original_op) == [cirq.Rz(rads=-0.05).on(q0)]

        renamed_op = original_op.with_qubits(q2, q3)
        assert cirq.decompose(renamed_op) == [cirq.Rz(rads=-0.05).on(q2)]

        with pytest.raises(ValueError, match='Length of replacement qubits must be the same'):
            original_op.with_qubits(q2)

        with pytest.raises(ValueError, match='All qubits must be 2-dimensional'):
            original_op.with_qubits(q0, cirq.LineQid(1, 3))