def test_undefined_quil_gate():
"""There are no such things as FREDKIN & TOFFOLI in Quil. The standard
names for those gates in Quil are CSWAP and CCNOT. Of course, they can
be defined via DEFGATE / DEFCIRCUIT."""
with pytest.raises(UndefinedQuilGate):
circuit_from_quil("FREDKIN 0 1 2")
with pytest.raises(UndefinedQuilGate):
circuit_from_quil("TOFFOLI 0 1 2")
def test_unsupported_quil_instruction():
with pytest.raises(UnsupportedQuilInstruction):
circuit_from_quil("NOP")
with pytest.raises(UnsupportedQuilInstruction):
circuit_from_quil("PRAGMA ADD-KRAUS X 0 \"(0.0 1.0 1.0 0.0)\"")
with pytest.raises(UnsupportedQuilInstruction):
circuit_from_quil("RESET")
with pytest.raises(UnsupportedQuilInstruction):
circuit_from_quil(QUIL_PROGRAM_WITH_PARAMETERIZED_DEFGATE)
def test_circuit_from_quil():
q0, q1, q2 = LineQubit.range(3)
cirq_circuit = Circuit([
I(q0),
I(q1),
I(q2),
X(q0),
Y(q1),
Z(q2),
H(q0),
S(q1),
T(q2),
Z(q0)**(1 / 8),
Z(q1)**(1 / 8),
Z(q2)**(1 / 8),
rx(np.pi / 2)(q0),
ry(np.pi / 2)(q1),
rz(np.pi / 2)(q2),
CZ(q0, q1),
CNOT(q1, q2),
cphase(np.pi / 2)(q0, q1),
cphase00(np.pi / 2)(q1, q2),
cphase01(np.pi / 2)(q0, q1),
cphase10(np.pi / 2)(q1, q2),
ISWAP(q0, q1),
pswap(np.pi / 2)(q1, q2),
SWAP(q0, q1),
xy(np.pi / 2)(q1, q2),
CCNOT(q0, q1, q2),
CSWAP(q0, q1, q2),
MeasurementGate(1, key="ro[0]")(q0),
MeasurementGate(1, key="ro[1]")(q1),
MeasurementGate(1, key="ro[2]")(q2),
])
# build the same Circuit, using Quil
quil_circuit = circuit_from_quil(QUIL_PROGRAM)
# test Circuit equivalence
assert cirq_circuit == quil_circuit
pyquil_circuit = Program(QUIL_PROGRAM)
# drop declare and measures, get Program unitary
pyquil_unitary = program_unitary(pyquil_circuit[1:-3], n_qubits=3)
# fix qubit order convention
cirq_circuit_swapped = Circuit(SWAP(q0, q2), cirq_circuit[:-1],
SWAP(q0, q2))
# get Circuit unitary
cirq_unitary = cirq_circuit_swapped.unitary()
# test unitary equivalence
assert np.isclose(pyquil_unitary, cirq_unitary).all()
def test_quil_with_defgate():
q0 = LineQubit(0)
cirq_circuit = Circuit([X(q0), Z(q0)])
quil_circuit = circuit_from_quil(QUIL_PROGRAM_WITH_DEFGATE)
assert np.isclose(quil_circuit.unitary(), cirq_circuit.unitary()).all()
def test_measurement_without_classical_reg():
"""Measure operations must declare a classical register."""
with pytest.raises(UnsupportedQuilInstruction):
circuit_from_quil("MEASURE 0")