"""Utilities to get the response values of a classifier or a regressor. It allows to make uniform checks and validation. """ import numpy as np from ..base import is_classifier from .multiclass import type_of_target from .validation import _check_response_method, check_is_fitted def _process_predict_proba(*, y_pred, target_type, classes, pos_label): """Get the response values when the response method is `predict_proba`. This function process the `y_pred` array in the binary and multi-label cases. In the binary case, it selects the column corresponding to the positive class. In the multi-label case, it stacks the predictions if they are not in the "compressed" format `(n_samples, n_outputs)`. Parameters ---------- y_pred : ndarray Output of `estimator.predict_proba`. The shape depends on the target type: - for binary classification, it is a 2d array of shape `(n_samples, 2)`; - for multiclass classification, it is a 2d array of shape `(n_samples, n_classes)`; - for multilabel classification, it is either a list of 2d arrays of shape `(n_samples, 2)` (e.g. `RandomForestClassifier` or `KNeighborsClassifier`) or an array of shape `(n_samples, n_outputs)` (e.g. `MLPClassifier` or `RidgeClassifier`). target_type : {"binary", "multiclass", "multilabel-indicator"} Type of the target. classes : ndarray of shape (n_classes,) or list of such arrays Class labels as reported by `estimator.classes_`. pos_label : int, float, bool or str Only used with binary and multiclass targets. Returns ------- y_pred : ndarray of shape (n_samples,), (n_samples, n_classes) or \ (n_samples, n_output) Compressed predictions format as requested by the metrics. """ if target_type == "binary" and y_pred.shape[1] < 2: # We don't handle classifiers trained on a single class. raise ValueError( f"Got predict_proba of shape {y_pred.shape}, but need " "classifier with two classes." ) if target_type == "binary": col_idx = np.flatnonzero(classes == pos_label)[0] return y_pred[:, col_idx] elif target_type == "multilabel-indicator": # Use a compress format of shape `(n_samples, n_output)`. # Only `MLPClassifier` and `RidgeClassifier` return an array of shape # `(n_samples, n_outputs)`. if isinstance(y_pred, list): # list of arrays of shape `(n_samples, 2)` return np.vstack([p[:, -1] for p in y_pred]).T else: # array of shape `(n_samples, n_outputs)` return y_pred return y_pred def _process_decision_function(*, y_pred, target_type, classes, pos_label): """Get the response values when the response method is `decision_function`. This function process the `y_pred` array in the binary and multi-label cases. In the binary case, it inverts the sign of the score if the positive label is not `classes[1]`. In the multi-label case, it stacks the predictions if they are not in the "compressed" format `(n_samples, n_outputs)`. Parameters ---------- y_pred : ndarray Output of `estimator.predict_proba`. The shape depends on the target type: - for binary classification, it is a 1d array of shape `(n_samples,)` where the sign is assuming that `classes[1]` is the positive class; - for multiclass classification, it is a 2d array of shape `(n_samples, n_classes)`; - for multilabel classification, it is a 2d array of shape `(n_samples, n_outputs)`. target_type : {"binary", "multiclass", "multilabel-indicator"} Type of the target. classes : ndarray of shape (n_classes,) or list of such arrays Class labels as reported by `estimator.classes_`. pos_label : int, float, bool or str Only used with binary and multiclass targets. Returns ------- y_pred : ndarray of shape (n_samples,), (n_samples, n_classes) or \ (n_samples, n_output) Compressed predictions format as requested by the metrics. """ if target_type == "binary" and pos_label == classes[0]: return -1 * y_pred return y_pred def _get_response_values( estimator, X, response_method, pos_label=None, return_response_method_used=False, ): """Compute the response values of a classifier, an outlier detector, or a regressor. The response values are predictions such that it follows the following shape: - for binary classification, it is a 1d array of shape `(n_samples,)`; - for multiclass classification, it is a 2d array of shape `(n_samples, n_classes)`; - for multilabel classification, it is a 2d array of shape `(n_samples, n_outputs)`; - for outlier detection, it is a 1d array of shape `(n_samples,)`; - for regression, it is a 1d array of shape `(n_samples,)`. If `estimator` is a binary classifier, also return the label for the effective positive class. This utility is used primarily in the displays and the scikit-learn scorers. .. versionadded:: 1.3 Parameters ---------- estimator : estimator instance Fitted classifier, outlier detector, or regressor or a fitted :class:`~sklearn.pipeline.Pipeline` in which the last estimator is a classifier, an outlier detector, or a regressor. X : {array-like, sparse matrix} of shape (n_samples, n_features) Input values. response_method : {"predict_proba", "predict_log_proba", "decision_function", \ "predict"} or list of such str Specifies the response method to use get prediction from an estimator (i.e. :term:`predict_proba`, :term:`predict_log_proba`, :term:`decision_function` or :term:`predict`). Possible choices are: - if `str`, it corresponds to the name to the method to return; - if a list of `str`, it provides the method names in order of preference. The method returned corresponds to the first method in the list and which is implemented by `estimator`. pos_label : int, float, bool or str, default=None The class considered as the positive class when computing the metrics. If `None` and target is 'binary', `estimators.classes_[1]` is considered as the positive class. return_response_method_used : bool, default=False Whether to return the response method used to compute the response values. .. versionadded:: 1.4 Returns ------- y_pred : ndarray of shape (n_samples,), (n_samples, n_classes) or \ (n_samples, n_outputs) Target scores calculated from the provided `response_method` and `pos_label`. pos_label : int, float, bool, str or None The class considered as the positive class when computing the metrics. Returns `None` if `estimator` is a regressor or an outlier detector. response_method_used : str The response method used to compute the response values. Only returned if `return_response_method_used` is `True`. .. versionadded:: 1.4 Raises ------ ValueError If `pos_label` is not a valid label. If the shape of `y_pred` is not consistent for binary classifier. If the response method can be applied to a classifier only and `estimator` is a regressor. """ from sklearn.base import is_classifier, is_outlier_detector # noqa if is_classifier(estimator): prediction_method = _check_response_method(estimator, response_method) classes = estimator.classes_ target_type = type_of_target(classes) if target_type in ("binary", "multiclass"): if pos_label is not None and pos_label not in classes.tolist(): raise ValueError( f"pos_label={pos_label} is not a valid label: It should be " f"one of {classes}" ) elif pos_label is None and target_type == "binary": pos_label = classes[-1] y_pred = prediction_method(X) if prediction_method.__name__ in ("predict_proba", "predict_log_proba"): y_pred = _process_predict_proba( y_pred=y_pred, target_type=target_type, classes=classes, pos_label=pos_label, ) elif prediction_method.__name__ == "decision_function": y_pred = _process_decision_function( y_pred=y_pred, target_type=target_type, classes=classes, pos_label=pos_label, ) elif is_outlier_detector(estimator): prediction_method = _check_response_method(estimator, response_method) y_pred, pos_label = prediction_method(X), None else: # estimator is a regressor if response_method != "predict": raise ValueError( f"{estimator.__class__.__name__} should either be a classifier to be " f"used with response_method={response_method} or the response_method " "should be 'predict'. Got a regressor with response_method=" f"{response_method} instead." ) prediction_method = estimator.predict y_pred, pos_label = prediction_method(X), None if return_response_method_used: return y_pred, pos_label, prediction_method.__name__ return y_pred, pos_label def _get_response_values_binary( estimator, X, response_method, pos_label=None, return_response_method_used=False ): """Compute the response values of a binary classifier. Parameters ---------- estimator : estimator instance Fitted classifier or a fitted :class:`~sklearn.pipeline.Pipeline` in which the last estimator is a binary classifier. X : {array-like, sparse matrix} of shape (n_samples, n_features) Input values. response_method : {'auto', 'predict_proba', 'decision_function'} Specifies whether to use :term:`predict_proba` or :term:`decision_function` as the target response. If set to 'auto', :term:`predict_proba` is tried first and if it does not exist :term:`decision_function` is tried next. pos_label : int, float, bool or str, default=None The class considered as the positive class when computing the metrics. By default, `estimators.classes_[1]` is considered as the positive class. return_response_method_used : bool, default=False Whether to return the response method used to compute the response values. .. versionadded:: 1.5 Returns ------- y_pred : ndarray of shape (n_samples,) Target scores calculated from the provided response_method and pos_label. pos_label : int, float, bool or str The class considered as the positive class when computing the metrics. response_method_used : str The response method used to compute the response values. Only returned if `return_response_method_used` is `True`. .. versionadded:: 1.5 """ classification_error = "Expected 'estimator' to be a binary classifier." check_is_fitted(estimator) if not is_classifier(estimator): raise ValueError( classification_error + f" Got {estimator.__class__.__name__} instead." ) elif len(estimator.classes_) != 2: raise ValueError( classification_error + f" Got {len(estimator.classes_)} classes instead." ) if response_method == "auto": response_method = ["predict_proba", "decision_function"] return _get_response_values( estimator, X, response_method, pos_label=pos_label, return_response_method_used=return_response_method_used, )