def test_multi_qubit_measurement_to_proto(): gate = cirq.MeasurementGate(2, 'test') proto = operations_pb2.Operation(measurement=operations_pb2.Measurement( targets=[ operations_pb2.Qubit(row=2, col=3), operations_pb2.Qubit(row=3, col=4) ], key='test', )) assert_proto_dict_convert(gate, proto, cirq.GridQubit(2, 3), cirq.GridQubit(3, 4))
def test_single_qubit_measurement_to_proto_pad_invert_mask(): gate = cirq.MeasurementGate(2, 'test', invert_mask=(True, )) proto = operations_pb2.Operation(measurement=operations_pb2.Measurement( targets=[ operations_pb2.Qubit(row=2, col=3), operations_pb2.Qubit(row=2, col=4) ], key='test', invert_mask=[True, False], )) assert (programs.gate_to_proto( gate, (cirq.GridQubit(2, 3), cirq.GridQubit(2, 4)), delay=0) == proto)
def test_z_proto_convert(): gate = cirq.Z**sympy.Symbol('k') proto = operations_pb2.Operation(exp_z=operations_pb2.ExpZ( target=operations_pb2.Qubit(row=2, col=3), half_turns=operations_pb2.ParameterizedFloat(parameter_key='k'), )) assert_proto_dict_convert(gate, proto, cirq.GridQubit(2, 3)) gate = cirq.Z**0.5 proto = operations_pb2.Operation(exp_z=operations_pb2.ExpZ( target=operations_pb2.Qubit(row=2, col=3), half_turns=operations_pb2.ParameterizedFloat(raw=0.5), )) assert_proto_dict_convert(gate, proto, cirq.GridQubit(2, 3))
def test_single_qubit_measurement_to_proto_convert_invert_mask(): gate = cirq.MeasurementGate(1, 'test', invert_mask=(True, )) proto = operations_pb2.Operation(measurement=operations_pb2.Measurement( targets=[operations_pb2.Qubit(row=2, col=3)], key='test', invert_mask=[True])) assert_proto_dict_convert(gate, proto, cirq.GridQubit(2, 3))
def test_w_to_proto(): gate = cirq.PhasedXPowGate(exponent=sympy.Symbol('k'), phase_exponent=1) proto = operations_pb2.Operation(exp_w=operations_pb2.ExpW( target=operations_pb2.Qubit(row=2, col=3), axis_half_turns=operations_pb2.ParameterizedFloat(raw=1), half_turns=operations_pb2.ParameterizedFloat(parameter_key='k'), )) assert_proto_dict_convert(gate, proto, cirq.GridQubit(2, 3)) gate = cirq.PhasedXPowGate(exponent=0.5, phase_exponent=sympy.Symbol('j')) proto = operations_pb2.Operation(exp_w=operations_pb2.ExpW( target=operations_pb2.Qubit(row=2, col=3), axis_half_turns=operations_pb2.ParameterizedFloat(parameter_key='j'), half_turns=operations_pb2.ParameterizedFloat(raw=0.5), )) assert_proto_dict_convert(gate, proto, cirq.GridQubit(2, 3)) gate = cirq.X**0.25 proto = operations_pb2.Operation(exp_w=operations_pb2.ExpW( target=operations_pb2.Qubit(row=2, col=3), axis_half_turns=operations_pb2.ParameterizedFloat(raw=0.0), half_turns=operations_pb2.ParameterizedFloat(raw=0.25), )) assert_proto_dict_convert(gate, proto, cirq.GridQubit(2, 3)) gate = cirq.Y**0.25 proto = operations_pb2.Operation(exp_w=operations_pb2.ExpW( target=operations_pb2.Qubit(row=2, col=3), axis_half_turns=operations_pb2.ParameterizedFloat(raw=0.5), half_turns=operations_pb2.ParameterizedFloat(raw=0.25), )) assert_proto_dict_convert(gate, proto, cirq.GridQubit(2, 3)) gate = cirq.PhasedXPowGate(exponent=0.5, phase_exponent=sympy.Symbol('j')) proto = operations_pb2.Operation(exp_w=operations_pb2.ExpW( target=operations_pb2.Qubit(row=2, col=3), axis_half_turns=operations_pb2.ParameterizedFloat(parameter_key='j'), half_turns=operations_pb2.ParameterizedFloat(raw=0.5), )) assert_proto_dict_convert(gate, proto, cirq.GridQubit(2, 3))
def _qubit_to_proto(qubit): return operations_pb2.Qubit(row=qubit.row, col=qubit.col)