def test_calc_Expec_Pauli_Hamil() -> None:
"""Test calculating the expectation value of a PauliHamil"""
env = utils.createQuestEnv()()
qubits = utils.createQureg()(4, env)
pauli_hamil = utils.createPauliHamil()(number_qubits=4,
number_pauliprods=1)
workspace = utils.createQureg()(4, env)
a = cheat.calcExpecPauliHamil()(
qureg=qubits,
pauli_hamil=pauli_hamil,
workspace=workspace,
)
npt.assert_almost_equal(a, 0.0)
def test_PauliHamil() -> None:
"""Testing the creation, destruction and reporting of a PauliHamil"""
env = utils.createQuestEnv()()
pauli_hamil = utils.createPauliHamil()(number_qubits=5,
number_pauliprods=3)
cheat.initPauliHamil()(pauli_hamil=pauli_hamil,
coeffs=[0.1, 0.2, 0.3, 0.2, 0.4],
codes=[[2, 1, 3], [1, 2, 0], [3, 0, 0], [3, 0, 0],
[3, 0, 0]])
utils.reportPauliHamil()(pauli_hamil=pauli_hamil)
result_type = utils.reportPauliHamil().restype
argument_type = utils.reportPauliHamil().argtype
assert result_type == "floats/integers"
assert argument_type == ["Coefficient", "PauliMatrix"]
utils.destroyPauliHamil()(pauli_hamil=pauli_hamil)
def test_init_functions(init) -> None:
"""Test init functions
initZeroState, initPlusState, initDebugState, initBlankState, initClassicalState,
initPureState, initStateFromAmps, initPauliHamil
"""
env = utils.createQuestEnv()()
qubits = utils.createQureg()(3, env)
initialisation = init[0]()
args = init[1]
if args[0] == 'qureg':
args[0] = qubits
elif args[0] == 'pauli':
args[0] = utils.createPauliHamil()(number_qubits=3,
number_pauliprods=3)
initialisation(*args)
matrix[i, co] = cComplex.real + 1j * cComplex.imag
else:
cComplex = cheat.getAmp()(qureg=qubits, index=i)
matrix[i, co] = cComplex.real + 1j * cComplex.imag
return matrix
@pytest.mark.parametrize(
"applied",
[(ops.applyDiagonalOp, [(5, utils.createQuestEnv()())]),
(ops.applyMatrix2, [2, np.array([[0, 1], [2, 1]])]),
(ops.applyMatrix4, [1, 3, 'matrix']),
(ops.applyMatrixN, [[1, 2], 'matrix']),
(ops.applyMultiControlledMatrixN, [[1, 2], [3, 4], 'matrix']),
(ops.applyPauliHamil, [
utils.createPauliHamil()(5, 2),
utils.createQureg()(5, utils.createQuestEnv()())
]),
(ops.applyPauliSum, [[[0, 1, 2, 3], [3, 2, 1, 0]], [0.4, 0.3],
utils.createQureg()(5, utils.createQuestEnv()())]),
(ops.applyTrotterCircuit, [utils.createPauliHamil()(5, 2), 0.7, 1, 2])])
def test_apply_functions(applied) -> None:
"""Test all non-deprecated apply functions"""
env = utils.createQuestEnv()()
qubits = utils.createQureg()(5, env)
cheat.initZeroState()(qureg=qubits)
op = applied[0]()
positional_args = applied[1]
matrix = np.array([[1, 0, 0, 1], [0, 2, 0, 2], [2, 0, 2, 0], [1, 0, 0, 1]])
if positional_args[-1] == 'matrix':
args = [qubits]
elif control is True:
cComplex = cheat.getAmp()(qureg=qubits, index=i + 4)
matrix[i, co] = cComplex.real + 1j * cComplex.imag
else:
cComplex = cheat.getAmp()(qureg=qubits, index=i)
matrix[i, co] = cComplex.real + 1j * cComplex.imag
return matrix
@pytest.mark.parametrize("applied", [
(ops.applyDiagonalOp, [(5, utils.createQuestEnv()()), 'Neither']),
(ops.applyMatrix2, [2, np.array([[0, 1], [2, 1]]), 'Neither']),
(ops.applyMatrix4, [1, 3, 'matrix']),
(ops.applyMatrixN, [[1, 2], 'matrix']),
(ops.applyMultiControlledMatrixN, [[1, 2], [3, 4], 'matrix']),
(ops.applyPauliHamil, [utils.createPauliHamil()(5, 2),
utils.createQureg()(5, utils.createQuestEnv()()), 'pauli'],),
(ops.applyPauliSum, [[[0, 1, 2, 3, 0], [3, 2, 1, 0, 0]], [0.4, 0.3],
utils.createQureg()(5, utils.createQuestEnv()()), 'Neither']),
(ops.applyTrotterCircuit, [utils.createPauliHamil()(5, 2), 0.7, 1, 2, 'pauli'])
])
def test_apply_functions(applied: Tuple[Any, List]) -> None:
"""Test all non-deprecated apply functions"""
env = utils.createQuestEnv()()
qubits = utils.createQureg()(5, env)
cheat.initZeroState()(qureg=qubits)
op = applied[0]()
positional_args = applied[1]
matrix = np.array([[1, 0, 0, 1], [0, 2, 0, 2], [2, 0, 2, 0], [1, 0, 0, 1]])
last_element: str = positional_args.pop()
if last_element == 'matrix':
