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- """Local Search algorithm
- """
- # main imports
- import logging
- # module imports
- from ..Algorithm import Algorithm
- class LocalSearch(Algorithm):
- """Local Search used as exploitation optimization algorithm
- Attributes:
- initalizer: {function} -- basic function strategy to initialize solution
- evaluator: {function} -- basic function in order to obtained fitness (mono or multiple objectives)
- operators: {[Operator]} -- list of operator to use when launching algorithm
- policy: {Policy} -- Policy class implementation strategy to select operators
- validator: {function} -- basic function to check if solution is valid or not under some constraints
- maximise: {bool} -- specify kind of optimization problem
- currentSolution: {Solution} -- current solution managed for current evaluation
- bestSolution: {Solution} -- best solution found so far during running algorithm
- callbacks: {[Callback]} -- list of Callback class implementation to do some instructions every number of evaluations and `load` when initializing algorithm
- """
- def run(self, _evaluations):
- """
- Run the local search algorithm
- Args:
- _evaluations: {int} -- number of Local search evaluations
-
- Returns:
- {Solution} -- best solution found
- """
- # by default use of mother method to initialize variables
- super().run(_evaluations)
- if self.parent:
- self.bestSolution = self.parent.bestSolution
- # initialize current solution
- self.initRun()
- solutionSize = self.currentSolution.size
- # local search algorithm implementation
- while not self.stop():
- for _ in range(solutionSize):
- # update current solution using policy
- newSolution = self.update(self.currentSolution)
- # if better solution than currently, replace it
- if self.isBetter(newSolution):
- self.bestSolution = newSolution
- # increase number of evaluations
- self.increaseEvaluation()
- self.progress()
- logging.info("---- Current %s - SCORE %s" %
- (newSolution, newSolution.fitness()))
- # stop algorithm if necessary
- if self.stop():
- break
- logging.info("End of %s, best solution found %s" %
- (type(self).__name__, self.bestSolution))
- return self.bestSolution
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