#!/usr/bin/env python from sklearn.tree import DecisionTreeRegressor as _DecisionTreeRegressor from base import RegressorMixin, BaseAlgo from codec import codecs_manager from util.param_util import convert_params from util.algo_util import tree_summary class DecisionTreeRegressor(RegressorMixin, BaseAlgo): def __init__(self, options): self.handle_options(options) out_params = convert_params( options.get('params', {}), ints=['random_state', 'max_depth', 'min_samples_split', 'max_leaf_nodes'], strs=['splitter', 'max_features'], ) if 'max_depth' not in out_params: out_params.setdefault('max_leaf_nodes', 2000) # whitelist valid values for splitter, as error raised by sklearn for invalid values is uninformative if 'splitter' in out_params: try: assert out_params['splitter'] in ['best', 'random'] except AssertionError: raise RuntimeError( 'Invalid value for option splitter: "%s"' % out_params['splitter'] ) # EAFP... convert max_features to int if it is a number. try: out_params['max_features'] = float(out_params['max_features']) max_features_int = int(out_params['max_features']) if out_params['max_features'] == max_features_int: out_params['max_features'] = max_features_int except: pass self.estimator = _DecisionTreeRegressor(**out_params) def summary(self, options): if 'args' in options: raise RuntimeError('Summarization does not take values other than parameters') return tree_summary(self, options) @staticmethod def register_codecs(): from codec.codecs import SimpleObjectCodec, TreeCodec codecs_manager.add_codec( 'algos.DecisionTreeRegressor', 'DecisionTreeRegressor', SimpleObjectCodec ) codecs_manager.add_codec( 'sklearn.tree._classes', 'DecisionTreeRegressor', SimpleObjectCodec ) codecs_manager.add_codec('sklearn.tree._tree', 'Tree', TreeCodec)