# This code is part of a Qiskit project.
#
# (C) Copyright IBM 2018, 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
# that they have been altered from the originals.
"""An application class for the Max-cut."""
from typing import List, Dict, Optional, Union
import networkx as nx
import numpy as np
from docplex.mp.model import Model
from qiskit_optimization.algorithms import OptimizationResult
from qiskit_optimization.problems.quadratic_program import QuadraticProgram
from qiskit_optimization.translators import from_docplex_mp
from .graph_optimization_application import GraphOptimizationApplication
[ドキュメント]class Maxcut(GraphOptimizationApplication):
"""Optimization application for the "max-cut" [1] problem based on a NetworkX graph.
References:
[1]: "Maximum cut",
https://en.wikipedia.org/wiki/Maximum_cut
"""
[ドキュメント] def to_quadratic_program(self) -> QuadraticProgram:
"""Convert a Max-cut problem instance into a
:class:`~qiskit_optimization.problems.QuadraticProgram`
Returns:
The :class:`~qiskit_optimization.problems.QuadraticProgram` created
from the Max-cut problem instance.
"""
mdl = Model(name="Max-cut")
x = {i: mdl.binary_var(name=f"x_{i}") for i in range(self._graph.number_of_nodes())}
for w, v in self._graph.edges:
self._graph.edges[w, v].setdefault("weight", 1)
objective = mdl.sum(
self._graph.edges[i, j]["weight"] * x[i] * (1 - x[j])
+ self._graph.edges[i, j]["weight"] * x[j] * (1 - x[i])
for i, j in self._graph.edges
)
mdl.maximize(objective)
op = from_docplex_mp(mdl)
return op
def _draw_result(
self,
result: Union[OptimizationResult, np.ndarray],
pos: Optional[Dict[int, np.ndarray]] = None,
) -> None:
"""Draw the result with colors
Args:
result : The calculated result for the problem
pos: The positions of nodes
"""
x = self._result_to_x(result)
nx.draw(self._graph, node_color=self._node_color(x), pos=pos, with_labels=True)
[ドキュメント] def interpret(self, result: Union[OptimizationResult, np.ndarray]) -> List[List[int]]:
"""Interpret a result as two lists of node indices
Args:
result : The calculated result of the problem
Returns:
Two lists of node indices correspond to two node sets for the Max-cut
"""
x = self._result_to_x(result)
cut = [[], []] # type: List[List[int]]
for i, value in enumerate(x):
if value == 0:
cut[0].append(i)
else:
cut[1].append(i)
return cut
def _node_color(self, x: np.ndarray) -> List[str]:
# Return a list of strings for draw.
# Color a node with red when the corresponding variable is 1.
# Otherwise color it with blue.
return ["b" if x[node] == 1 else "r" for node in self._graph.nodes]
[ドキュメント] @staticmethod
def get_gset_result(x: np.ndarray) -> Dict[int, int]:
"""Get graph solution in Gset format from binary string.
Args:
x: binary string as numpy array.
Returns:
A graph solution in Gset format.
"""
return {i + 1: 1 - x[i] for i in range(len(x))}