from abc import ABCMeta, abstractmethod # Base Quantifier abstract class # ------------------------------------ class BaseQuantifier(metaclass=ABCMeta): @abstractmethod def fit(self, data, *args): ... @abstractmethod def quantify(self, instances, *args): ... @abstractmethod def set_params(self, **parameters): ... @abstractmethod def get_params(self, deep=True): ... # class OneVsAll(AggregativeQuantifier): # """ # Allows any binary quantifier to perform quantification on single-label datasets. The method maintains one binary # quantifier for each class, and then l1-normalizes the outputs so that the class prevelences sum up to 1. # """ # # def __init__(self, binary_method, n_jobs=-1): # self.binary_method = binary_method # self.n_jobs = n_jobs # # def fit(self, data: LabelledCollection, **kwargs): # assert not data.binary, f'{self.__class__.__name__} expect non-binary data' # assert isinstance(self.binary_method, BaseQuantifier), f'{self.binary_method} does not seem to be a Quantifier' # self.class_method = {c: deepcopy(self.binary_method) for c in data.classes_} # Parallel(n_jobs=self.n_jobs, backend='threading')( # delayed(self._delayed_binary_fit)(c, self.class_method, data, **kwargs) for c in data.classes_ # ) # return self # # def quantify(self, X, *args): # prevalences = np.asarray( # Parallel(n_jobs=self.n_jobs, backend='threading')( # delayed(self._delayed_binary_predict)(c, self.class_method, X) for c in self.classes # ) # ) # return F.normalize_prevalence(prevalences) # # @property # def classes(self): # return sorted(self.class_method.keys()) # # def set_params(self, **parameters): # self.binary_method.set_params(**parameters) # # def get_params(self, deep=True): # return self.binary_method.get_params() # # def _delayed_binary_predict(self, c, learners, X): # return learners[c].quantify(X)[:,1] # the mean is the estimation for the positive class prevalence # # def _delayed_binary_fit(self, c, learners, data, **kwargs): # bindata = LabelledCollection(data.instances, data.labels == c, n_classes=2) # learners[c].fit(bindata, **kwargs)