Quellcode für qiskit.transpiler.passes.utils.unroll_forloops

# This code is part of Qiskit.
# (C) Copyright IBM 2023.
# 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
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""" UnrollForLoops transpilation pass """

from qiskit.circuit import ForLoopOp, ContinueLoopOp, BreakLoopOp, IfElseOp
from qiskit.transpiler.basepasses import TransformationPass
from qiskit.transpiler.passes.utils import control_flow
from qiskit.converters import circuit_to_dag

[Doku]class UnrollForLoops(TransformationPass): """``UnrollForLoops`` transpilation pass unrolls for-loops when possible.""" def __init__(self, max_target_depth=-1): """Things like `for x in {0, 3, 4} {rx(x) qr[1];}` will turn into `rx(0) qr[1]; rx(3) qr[1]; rx(4) qr[1];`. .. note:: The ``UnrollForLoops`` unrolls only one level of block depth. No inner loop will be considered by ``max_target_depth``. Args: max_target_depth (int): Optional. Checks if the unrolled block is over a particular subcircuit depth. To disable the check, use ``-1`` (Default). """ super().__init__() self.max_target_depth = max_target_depth
[Doku] @control_flow.trivial_recurse def run(self, dag): """Run the UnrollForLoops pass on `dag`. Args: dag (DAGCircuit): the directed acyclic graph to run on. Returns: DAGCircuit: Transformed DAG. """ for forloop_op in dag.op_nodes(ForLoopOp): (indexset, loop_param, body) = forloop_op.op.params # skip unrolling if it results in bigger than max_target_depth if 0 < self.max_target_depth < len(indexset) * body.depth(): continue # skip unroll when break_loop or continue_loop inside body if _body_contains_continue_or_break(body): continue unrolled_dag = circuit_to_dag(body).copy_empty_like() for index_value in indexset: bound_body = body.bind_parameters({loop_param: index_value}) if loop_param else body unrolled_dag.compose(circuit_to_dag(bound_body), inplace=True) dag.substitute_node_with_dag(forloop_op, unrolled_dag) return dag
def _body_contains_continue_or_break(circuit): """Checks if a circuit contains ``continue``s or ``break``s. Conditional bodies are inspected.""" for inst in circuit.data: operation = inst.operation if isinstance(operation, (ContinueLoopOp, BreakLoopOp)): return True if isinstance(operation, IfElseOp): for block in operation.params: if _body_contains_continue_or_break(block): return True return False