import numpy as np from typing import Union, Optional, Type, List, Dict, Any from abc import ABC, abstractmethod from .exception import SamplerException class Sampler(ABC): @abstractmethod def sample_parameter(self) -> float: pass class UniformSampler(Sampler): """ Uniformly draws a single sample in the range [min_value, max_value). """ def __init__( self, min_value: Union[int, float], max_value: Union[int, float], seed: Optional[int] = None, ): """ :param min_value: minimum value of the range to be sampled uniformly from :param max_value: maximum value of the range to be sampled uniformly from :param seed: Random seed used for making draws from the uniform sampler """ self.min_value = min_value self.max_value = max_value # Draw from random state to allow for consistent reset parameter draw for a seed self.random_state = np.random.RandomState(seed) def sample_parameter(self) -> float: """ Draws and returns a sample from the specified interval """ return self.random_state.uniform(self.min_value, self.max_value) class MultiRangeUniformSampler(Sampler): """ Draws a single sample uniformly from the intervals provided. The sampler first picks an interval based on a weighted selection, with the weights assigned to an interval based on its range. After picking the range, it proceeds to pick a value uniformly in that range. """ def __init__( self, intervals: List[List[Union[int, float]]], seed: Optional[int] = None ): """ :param intervals: List of intervals to draw uniform samples from :param seed: Random seed used for making uniform draws from the specified intervals """ self.intervals = intervals # Measure the length of the intervals interval_lengths = [abs(x[1] - x[0]) for x in self.intervals] cum_interval_length = sum(interval_lengths) # Assign weights to an interval proportionate to the interval size self.interval_weights = [x / cum_interval_length for x in interval_lengths] # Draw from random state to allow for consistent reset parameter draw for a seed self.random_state = np.random.RandomState(seed) def sample_parameter(self) -> float: """ Selects an interval to pick and then draws a uniform sample from the picked interval """ cur_min, cur_max = self.intervals[ self.random_state.choice(len(self.intervals), p=self.interval_weights) ] return self.random_state.uniform(cur_min, cur_max) class GaussianSampler(Sampler): """ Draw a single sample value from a normal (gaussian) distribution. This sampler is characterized by the mean and the standard deviation. """ def __init__( self, mean: Union[float, int], st_dev: Union[float, int], seed: Optional[int] = None, ): """ :param mean: Specifies the mean of the gaussian distribution to draw from :param st_dev: Specifies the standard devation of the gaussian distribution to draw from :param seed: Random seed used for making gaussian draws from the sample """ self.mean = mean self.st_dev = st_dev # Draw from random state to allow for consistent reset parameter draw for a seed self.random_state = np.random.RandomState(seed) def sample_parameter(self) -> float: """ Returns a draw from the specified Gaussian distribution """ return self.random_state.normal(self.mean, self.st_dev) class SamplerFactory: """ Maintain a directory of all samplers available. Add new samplers using the register_sampler method. """ NAME_TO_CLASS = { "uniform": UniformSampler, "gaussian": GaussianSampler, "multirange_uniform": MultiRangeUniformSampler, } @staticmethod def register_sampler(name: str, sampler_cls: Type[Sampler]) -> None: """ Registers the sampe in the Sampler Factory to be used later :param name: String name to set as key for the sampler_cls in the factory :param sampler_cls: Sampler object to associate to the name in the factory """ SamplerFactory.NAME_TO_CLASS[name] = sampler_cls @staticmethod def init_sampler_class( name: str, params: Dict[str, Any], seed: Optional[int] = None ) -> Sampler: """ Initializes the sampler class associated with the name with the params :param name: Name of the sampler in the factory to initialize :param params: Parameters associated to the sampler attached to the name :param seed: Random seed to be used to set deterministic random draws for the sampler """ if name not in SamplerFactory.NAME_TO_CLASS: raise SamplerException( name + " sampler is not registered in the SamplerFactory." " Use the register_sample method to register the string" " associated to your sampler in the SamplerFactory." ) sampler_cls = SamplerFactory.NAME_TO_CLASS[name] params["seed"] = seed try: return sampler_cls(**params) except TypeError: raise SamplerException( "The sampler class associated to the " + name + " key in the factory " "was not provided the required arguments. Please ensure that the sampler " "config file consists of the appropriate keys for this sampler class." ) class SamplerManager: def __init__( self, reset_param_dict: Dict[str, Any], seed: Optional[int] = None ) -> None: """ :param reset_param_dict: Arguments needed for initializing the samplers :param seed: Random seed to be used for drawing samples from the samplers """ self.reset_param_dict = reset_param_dict if reset_param_dict else {} assert isinstance(self.reset_param_dict, dict) self.samplers: Dict[str, Sampler] = {} for param_name, cur_param_dict in self.reset_param_dict.items(): if "sampler-type" not in cur_param_dict: raise SamplerException( "'sampler_type' argument hasn't been supplied for the {0} parameter".format( param_name ) ) sampler_name = cur_param_dict.pop("sampler-type") param_sampler = SamplerFactory.init_sampler_class( sampler_name, cur_param_dict, seed ) self.samplers[param_name] = param_sampler def is_empty(self) -> bool: """ Check for if sampler_manager is empty. """ return not bool(self.samplers) def sample_all(self) -> Dict[str, float]: """ Loop over all samplers and draw a sample from each one for generating next set of reset parameter values. """ res = {} for param_name, param_sampler in list(self.samplers.items()): res[param_name] = param_sampler.sample_parameter() return res