# This code is part of Qiskit.
#
# (C) Copyright IBM 2017.
#
# This code is licensed under the Apache License, Version 2.0. You may
# obtain a copy of this license in the LICENSE.txt file in the root directory
# of this source tree or at http://www.apache.org/licenses/LICENSE-2.0.
#
# Any modifications or derivative works of this code must retain this
# copyright notice, and modified files need to carry a notice indicating
# that they have been altered from the originals.
"""
Instruction collection.
"""
from __future__ import annotations
from typing import Callable
from qiskit.circuit.exceptions import CircuitError
from .classicalregister import Clbit, ClassicalRegister
from .operation import Operation
from .quantumcircuitdata import CircuitInstruction
[문서]class InstructionSet:
"""Instruction collection, and their contexts."""
__slots__ = ("_instructions", "_requester")
def __init__( # pylint: disable=bad-docstring-quotes
self,
*,
resource_requester: Callable[..., ClassicalRegister | Clbit] | None = None,
):
"""New collection of instructions.
The context (``qargs`` and ``cargs`` that each instruction is attached to) is also stored
separately for each instruction.
Args:
resource_requester: A callable that takes in the classical resource used in the
condition, verifies that it is present in the attached circuit, resolves any indices
into concrete :obj:`.Clbit` instances, and returns the concrete resource. If this
is not given, specifying a condition with an index is forbidden, and all concrete
:obj:`.Clbit` and :obj:`.ClassicalRegister` resources will be assumed to be valid.
.. note::
The callback ``resource_requester`` is called once for each call to
:meth:`.c_if`, and assumes that a call implies that the resource will now be
used. It may throw an error if the resource is not valid for usage.
"""
self._instructions: list[CircuitInstruction] = []
self._requester = resource_requester
def __len__(self):
"""Return number of instructions in set"""
return len(self._instructions)
def __getitem__(self, i):
"""Return instruction at index"""
return self._instructions[i]
[문서] def add(self, instruction, qargs=None, cargs=None):
"""Add an instruction and its context (where it is attached)."""
if not isinstance(instruction, CircuitInstruction):
if not isinstance(instruction, Operation):
raise CircuitError("attempt to add non-Operation to InstructionSet")
if qargs is None or cargs is None:
raise CircuitError("missing qargs or cargs in old-style InstructionSet.add")
instruction = CircuitInstruction(instruction, tuple(qargs), tuple(cargs))
self._instructions.append(instruction)
[문서] def inverse(self):
"""Invert all instructions."""
for i, instruction in enumerate(self._instructions):
self._instructions[i] = instruction.replace(operation=instruction.operation.inverse())
return self
[문서] def c_if(self, classical: Clbit | ClassicalRegister | int, val: int) -> "InstructionSet":
"""Set a classical equality condition on all the instructions in this set between the
:obj:`.ClassicalRegister` or :obj:`.Clbit` ``classical`` and value ``val``.
.. note::
This is a setter method, not an additive one. Calling this multiple times will silently
override any previously set condition on any of the contained instructions; it does not
stack.
Args:
classical: the classical resource the equality condition should be on. If this is given
as an integer, it will be resolved into a :obj:`.Clbit` using the same conventions
as the circuit these instructions are attached to.
val: the value the classical resource should be equal to.
Returns:
This same instance of :obj:`.InstructionSet`, but now mutated to have the given equality
condition.
Raises:
CircuitError: if the passed classical resource is invalid, or otherwise not resolvable
to a concrete resource that these instructions are permitted to access.
Example:
.. plot::
:include-source:
from qiskit import ClassicalRegister, QuantumRegister, QuantumCircuit
qr = QuantumRegister(2)
cr = ClassicalRegister(2)
qc = QuantumCircuit(qr, cr)
qc.h(range(2))
qc.measure(range(2), range(2))
# apply x gate if the classical register has the value 2 (10 in binary)
qc.x(0).c_if(cr, 2)
# apply y gate if bit 0 is set to 1
qc.y(1).c_if(0, 1)
qc.draw('mpl')
"""
if self._requester is None and not isinstance(classical, (Clbit, ClassicalRegister)):
raise CircuitError(
"Cannot pass an index as a condition variable without specifying a requester"
" when creating this InstructionSet."
)
if self._requester is not None:
classical = self._requester(classical)
for instruction in self._instructions:
instruction.operation.c_if(classical, val)
return self
# Legacy support for properties. Added in Terra 0.21 to support the internal switch in
# `QuantumCircuit.data` from the 3-tuple to `CircuitInstruction`.
@property
def instructions(self):
"""Legacy getter for the instruction components of an instruction set. This does not
support mutation."""
return [instruction.operation for instruction in self._instructions]
@property
def qargs(self):
"""Legacy getter for the qargs components of an instruction set. This does not support
mutation."""
return [list(instruction.qubits) for instruction in self._instructions]
@property
def cargs(self):
"""Legacy getter for the cargs components of an instruction set. This does not support
mutation."""
return [list(instruction.clbits) for instruction in self._instructions]