import sys sys.path.append('../') import itertools import json import typing import networkx as nx import numpy as np from networkx.readwrite import json_graph from random import choice from abc import ABC from optimizers.optimizer import Optimizer from estimators import structure_estimator as se import structure_graph.network_graph as ng class HillClimbing(Optimizer): """ Optimizer class that implement Hill Climbing Search """ def __init__(self, node_id:str, structure_estimator: se.StructureEstimator, max_parents:int = None, iterations_number:int= 40, patience:int = None ): """ Compute Optimization process for a structure_estimator Parameters: max_parents: maximum number of parents for each variable. If None, disabled iterations_number: maximum number of optimization algorithm's iteration patience: number of iteration without any improvement before to stop the search.If None, disabled """ super().__init__(node_id, structure_estimator) self.max_parents = max_parents self.iterations_number = iterations_number self.patience = patience def optimize_structure(self) -> typing.List: """ Compute Optimization process for a structure_estimator Parameters: Returns: the estimated structure for the node """ #'Create the graph for the single node' graph = ng.NetworkGraph(self.structure_estimator.sample_path.structure) other_nodes = [node for node in self.structure_estimator.sample_path.structure.nodes_labels if node != self.node_id] actual_best_score = self.structure_estimator.get_score_from_graph(graph,self.node_id) patince_count = 0 for i in range(self.iterations_number): 'choose a new random edge' current_new_parent = choice(other_nodes) current_edge = (current_new_parent,self.node_id) added = False parent_removed = None if graph.has_edge(current_edge): graph.remove_edges([current_edge]) else: 'check the max_parents constraint' if self.max_parents is not None: parents_list = graph.get_parents_by_id(self.node_id) if len(parents_list) >= self.max_parents : parent_removed = (choice(parents_list), self.node_id) graph.remove_edges([parent_removed]) graph.add_edges([current_edge]) added = True #print('**************************') current_score = self.structure_estimator.get_score_from_graph(graph,self.node_id) if current_score > actual_best_score: 'update current best score' actual_best_score = current_score patince_count = 0 else: 'undo the last update' if added: graph.remove_edges([current_edge]) 'If a parent was removed, add it again to the graph' if parent_removed is not None: graph.add_edges([parent_removed]) else: graph.add_edges([current_edge]) 'update patience count' patince_count += 1 if self.patience is not None and patince_count > self.patience: break print(f"finito variabile: {self.node_id}") return graph.edges