"""Crossover implementation which generated new solution by splitting at mean size best solution and current solution
"""
# main imports
import random
import sys
# module imports
from .Crossover import Crossover
from ...solutions.BinarySolution import BinarySolution
from ...solutions.Solution import Solution
[docs]class SimpleCrossover(Crossover):
"""Crossover implementation which generated new solution by splitting at mean size best solution and current solution
Attributes:
kind: {Algorithm} -- specify the kind of operator
"""
[docs] def apply(self, solution):
"""Create new solution based on best solution found and solution passed as parameter
Args:
_solution: {Solution} -- the solution to use for generating new solution
Returns:
{Solution} -- new generated solution
"""
size = solution.size
# copy data of solution
firstData = solution.data.copy()
# get best solution from current algorithm
secondData = self.algo.bestSolution.data.copy()
splitIndex = int(size / 2)
if random.uniform(0, 1) > 0.5:
firstData[splitIndex:(size - 1)] = firstData[splitIndex:(size - 1)]
currentData = firstData
else:
secondData[splitIndex:(size - 1)] = firstData[splitIndex:(size -
1)]
currentData = secondData
# create solution of same kind with new data
return globals()[type(solution).__name__](currentData, size)