def _assert_meets_standards_helper( val: Any, *, ignoring_global_phase: bool, setup_code: str, global_vals: Optional[Dict[str, Any]], local_vals: Optional[Dict[str, Any]], ignore_decompose_to_default_gateset: bool, ) -> None: __tracebackhide__ = True # pylint: disable=unused-variable assert_consistent_resolve_parameters(val) assert_specifies_has_unitary_if_unitary(val) assert_has_consistent_qid_shape(val) assert_has_consistent_apply_unitary(val) assert_all_implemented_act_on_effects_match_unitary(val) assert_qasm_is_consistent_with_unitary(val) assert_has_consistent_trace_distance_bound(val) assert_decompose_is_consistent_with_unitary( val, ignoring_global_phase=ignoring_global_phase) if not ignore_decompose_to_default_gateset: assert_decompose_ends_at_default_gateset(val) assert_phase_by_is_consistent_with_unitary(val) assert_pauli_expansion_is_consistent_with_unitary(val) assert_equivalent_repr(val, setup_code=setup_code, global_vals=global_vals, local_vals=local_vals) assert protocols.measurement_key_objs( val) == protocols.measurement_key_names(val) if isinstance(val, ops.EigenGate): assert_eigen_shifts_is_consistent_with_eigen_components(val) if isinstance(val, ops.Gate) and protocols.has_mixture(val): assert_controlled_and_controlled_by_identical(val)
def _assert_meets_standards_helper( val: Any, *, ignoring_global_phase: bool, setup_code: str, global_vals: Optional[Dict[str, Any]], local_vals: Optional[Dict[str, Any]], ) -> None: __tracebackhide__ = True # pylint: disable=unused-variable assert_consistent_resolve_parameters(val) assert_specifies_has_unitary_if_unitary(val) assert_has_consistent_qid_shape(val) assert_has_consistent_apply_unitary(val) assert_all_implemented_act_on_effects_match_unitary(val) assert_qasm_is_consistent_with_unitary(val) assert_has_consistent_trace_distance_bound(val) assert_decompose_is_consistent_with_unitary( val, ignoring_global_phase=ignoring_global_phase) assert_phase_by_is_consistent_with_unitary(val) assert_pauli_expansion_is_consistent_with_unitary(val) assert_equivalent_repr(val, setup_code=setup_code, global_vals=global_vals, local_vals=local_vals) if isinstance(val, ops.EigenGate): assert_eigen_shifts_is_consistent_with_eigen_components(val)
def _assert_meets_standards_helper( val: Any, qubit_count: Optional[int], ignoring_global_phase, setup_code: str, global_vals: Optional[Dict[str, Any]], local_vals: Optional[Dict[str, Any]]) -> None: assert_has_consistent_qid_shape(val, qubit_count=qubit_count) assert_has_consistent_apply_unitary(val, qubit_count=qubit_count) assert_qasm_is_consistent_with_unitary(val) assert_decompose_is_consistent_with_unitary( val, ignoring_global_phase=ignoring_global_phase) assert_phase_by_is_consistent_with_unitary(val) assert_pauli_expansion_is_consistent_with_unitary(val) assert_equivalent_repr(val, setup_code=setup_code, global_vals=global_vals, local_vals=local_vals) if isinstance(val, ops.EigenGate): assert_eigen_shifts_is_consistent_with_eigen_components(val)