Intelegentny_Pszczelarz/.venv/Lib/site-packages/sklearn/metrics/_plot/precision_recall_curve.py

from sklearn.base import is_classifier
from .base import _get_response

from .. import average_precision_score
from .. import precision_recall_curve
from .._base import _check_pos_label_consistency
from .._classification import check_consistent_length

from ...utils import check_matplotlib_support


class PrecisionRecallDisplay:
    """Precision Recall visualization.

    It is recommend to use
    :func:`~sklearn.metrics.PrecisionRecallDisplay.from_estimator` or
    :func:`~sklearn.metrics.PrecisionRecallDisplay.from_predictions` to create
    a :class:`~sklearn.metrics.PredictionRecallDisplay`. All parameters are
    stored as attributes.

    Read more in the :ref:`User Guide <visualizations>`.

    Parameters
    ----------
    precision : ndarray
        Precision values.

    recall : ndarray
        Recall values.

    average_precision : float, default=None
        Average precision. If None, the average precision is not shown.

    estimator_name : str, default=None
        Name of estimator. If None, then the estimator name is not shown.

    pos_label : str or int, default=None
        The class considered as the positive class. If None, the class will not
        be shown in the legend.

        .. versionadded:: 0.24

    Attributes
    ----------
    line_ : matplotlib Artist
        Precision recall curve.

    ax_ : matplotlib Axes
        Axes with precision recall curve.

    figure_ : matplotlib Figure
        Figure containing the curve.

    See Also
    --------
    precision_recall_curve : Compute precision-recall pairs for different
        probability thresholds.
    PrecisionRecallDisplay.from_estimator : Plot Precision Recall Curve given
        a binary classifier.
    PrecisionRecallDisplay.from_predictions : Plot Precision Recall Curve
        using predictions from a binary classifier.

    Notes
    -----
    The average precision (cf. :func:`~sklearn.metrics.average_precision`) in
    scikit-learn is computed without any interpolation. To be consistent with
    this metric, the precision-recall curve is plotted without any
    interpolation as well (step-wise style).

    You can change this style by passing the keyword argument
    `drawstyle="default"` in :meth:`plot`, :meth:`from_estimator`, or
    :meth:`from_predictions`. However, the curve will not be strictly
    consistent with the reported average precision.

    Examples
    --------
    >>> import matplotlib.pyplot as plt
    >>> from sklearn.datasets import make_classification
    >>> from sklearn.metrics import (precision_recall_curve,
    ...                              PrecisionRecallDisplay)
    >>> from sklearn.model_selection import train_test_split
    >>> from sklearn.svm import SVC
    >>> X, y = make_classification(random_state=0)
    >>> X_train, X_test, y_train, y_test = train_test_split(X, y,
    ...                                                     random_state=0)
    >>> clf = SVC(random_state=0)
    >>> clf.fit(X_train, y_train)
    SVC(random_state=0)
    >>> predictions = clf.predict(X_test)
    >>> precision, recall, _ = precision_recall_curve(y_test, predictions)
    >>> disp = PrecisionRecallDisplay(precision=precision, recall=recall)
    >>> disp.plot()
    <...>
    >>> plt.show()
    """

    def __init__(
        self,
        precision,
        recall,
        *,
        average_precision=None,
        estimator_name=None,
        pos_label=None,
    ):
        self.estimator_name = estimator_name
        self.precision = precision
        self.recall = recall
        self.average_precision = average_precision
        self.pos_label = pos_label

    def plot(self, ax=None, *, name=None, **kwargs):
        """Plot visualization.

        Extra keyword arguments will be passed to matplotlib's `plot`.

        Parameters
        ----------
        ax : Matplotlib Axes, default=None
            Axes object to plot on. If `None`, a new figure and axes is
            created.

        name : str, default=None
            Name of precision recall curve for labeling. If `None`, use
            `estimator_name` if not `None`, otherwise no labeling is shown.

        **kwargs : dict
            Keyword arguments to be passed to matplotlib's `plot`.

        Returns
        -------
        display : :class:`~sklearn.metrics.PrecisionRecallDisplay`
            Object that stores computed values.

        Notes
        -----
        The average precision (cf. :func:`~sklearn.metrics.average_precision`)
        in scikit-learn is computed without any interpolation. To be consistent
        with this metric, the precision-recall curve is plotted without any
        interpolation as well (step-wise style).

        You can change this style by passing the keyword argument
        `drawstyle="default"`. However, the curve will not be strictly
        consistent with the reported average precision.
        """
        check_matplotlib_support("PrecisionRecallDisplay.plot")

        name = self.estimator_name if name is None else name

        line_kwargs = {"drawstyle": "steps-post"}
        if self.average_precision is not None and name is not None:
            line_kwargs["label"] = f"{name} (AP = {self.average_precision:0.2f})"
        elif self.average_precision is not None:
            line_kwargs["label"] = f"AP = {self.average_precision:0.2f}"
        elif name is not None:
            line_kwargs["label"] = name
        line_kwargs.update(**kwargs)

        import matplotlib.pyplot as plt

        if ax is None:
            fig, ax = plt.subplots()

        (self.line_,) = ax.plot(self.recall, self.precision, **line_kwargs)
        info_pos_label = (
            f" (Positive label: {self.pos_label})" if self.pos_label is not None else ""
        )

        xlabel = "Recall" + info_pos_label
        ylabel = "Precision" + info_pos_label
        ax.set(xlabel=xlabel, ylabel=ylabel)

        if "label" in line_kwargs:
            ax.legend(loc="lower left")

        self.ax_ = ax
        self.figure_ = ax.figure
        return self

    @classmethod
    def from_estimator(
        cls,
        estimator,
        X,
        y,
        *,
        sample_weight=None,
        pos_label=None,
        response_method="auto",
        name=None,
        ax=None,
        **kwargs,
    ):
        """Plot precision-recall curve given an estimator and some data.

        Parameters
        ----------
        estimator : estimator instance
            Fitted classifier or a fitted :class:`~sklearn.pipeline.Pipeline`
            in which the last estimator is a classifier.

        X : {array-like, sparse matrix} of shape (n_samples, n_features)
            Input values.

        y : array-like of shape (n_samples,)
            Target values.

        sample_weight : array-like of shape (n_samples,), default=None
            Sample weights.

        pos_label : str or int, default=None
            The class considered as the positive class when computing the
            precision and recall metrics. By default, `estimators.classes_[1]`
            is considered as the positive class.

        response_method : {'predict_proba', 'decision_function', 'auto'}, \
            default='auto'
            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.

        name : str, default=None
            Name for labeling curve. If `None`, no name is used.

        ax : matplotlib axes, default=None
            Axes object to plot on. If `None`, a new figure and axes is created.

        **kwargs : dict
            Keyword arguments to be passed to matplotlib's `plot`.

        Returns
        -------
        display : :class:`~sklearn.metrics.PrecisionRecallDisplay`

        See Also
        --------
        PrecisionRecallDisplay.from_predictions : Plot precision-recall curve
            using estimated probabilities or output of decision function.

        Notes
        -----
        The average precision (cf. :func:`~sklearn.metrics.average_precision`)
        in scikit-learn is computed without any interpolation. To be consistent
        with this metric, the precision-recall curve is plotted without any
        interpolation as well (step-wise style).

        You can change this style by passing the keyword argument
        `drawstyle="default"`. However, the curve will not be strictly
        consistent with the reported average precision.

        Examples
        --------
        >>> import matplotlib.pyplot as plt
        >>> from sklearn.datasets import make_classification
        >>> from sklearn.metrics import PrecisionRecallDisplay
        >>> from sklearn.model_selection import train_test_split
        >>> from sklearn.linear_model import LogisticRegression
        >>> X, y = make_classification(random_state=0)
        >>> X_train, X_test, y_train, y_test = train_test_split(
        ...         X, y, random_state=0)
        >>> clf = LogisticRegression()
        >>> clf.fit(X_train, y_train)
        LogisticRegression()
        >>> PrecisionRecallDisplay.from_estimator(
        ...    clf, X_test, y_test)
        <...>
        >>> plt.show()
        """
        method_name = f"{cls.__name__}.from_estimator"
        check_matplotlib_support(method_name)
        if not is_classifier(estimator):
            raise ValueError(f"{method_name} only supports classifiers")
        y_pred, pos_label = _get_response(
            X,
            estimator,
            response_method,
            pos_label=pos_label,
        )

        name = name if name is not None else estimator.__class__.__name__

        return cls.from_predictions(
            y,
            y_pred,
            sample_weight=sample_weight,
            name=name,
            pos_label=pos_label,
            ax=ax,
            **kwargs,
        )

    @classmethod
    def from_predictions(
        cls,
        y_true,
        y_pred,
        *,
        sample_weight=None,
        pos_label=None,
        name=None,
        ax=None,
        **kwargs,
    ):
        """Plot precision-recall curve given binary class predictions.

        Parameters
        ----------
        y_true : array-like of shape (n_samples,)
            True binary labels.

        y_pred : array-like of shape (n_samples,)
            Estimated probabilities or output of decision function.

        sample_weight : array-like of shape (n_samples,), default=None
            Sample weights.

        pos_label : str or int, default=None
            The class considered as the positive class when computing the
            precision and recall metrics.

        name : str, default=None
            Name for labeling curve. If `None`, name will be set to
            `"Classifier"`.

        ax : matplotlib axes, default=None
            Axes object to plot on. If `None`, a new figure and axes is created.

        **kwargs : dict
            Keyword arguments to be passed to matplotlib's `plot`.

        Returns
        -------
        display : :class:`~sklearn.metrics.PrecisionRecallDisplay`

        See Also
        --------
        PrecisionRecallDisplay.from_estimator : Plot precision-recall curve
            using an estimator.

        Notes
        -----
        The average precision (cf. :func:`~sklearn.metrics.average_precision`)
        in scikit-learn is computed without any interpolation. To be consistent
        with this metric, the precision-recall curve is plotted without any
        interpolation as well (step-wise style).

        You can change this style by passing the keyword argument
        `drawstyle="default"`. However, the curve will not be strictly
        consistent with the reported average precision.

        Examples
        --------
        >>> import matplotlib.pyplot as plt
        >>> from sklearn.datasets import make_classification
        >>> from sklearn.metrics import PrecisionRecallDisplay
        >>> from sklearn.model_selection import train_test_split
        >>> from sklearn.linear_model import LogisticRegression
        >>> X, y = make_classification(random_state=0)
        >>> X_train, X_test, y_train, y_test = train_test_split(
        ...         X, y, random_state=0)
        >>> clf = LogisticRegression()
        >>> clf.fit(X_train, y_train)
        LogisticRegression()
        >>> y_pred = clf.predict_proba(X_test)[:, 1]
        >>> PrecisionRecallDisplay.from_predictions(
        ...    y_test, y_pred)
        <...>
        >>> plt.show()
        """
        check_matplotlib_support(f"{cls.__name__}.from_predictions")

        check_consistent_length(y_true, y_pred, sample_weight)
        pos_label = _check_pos_label_consistency(pos_label, y_true)

        precision, recall, _ = precision_recall_curve(
            y_true, y_pred, pos_label=pos_label, sample_weight=sample_weight
        )
        average_precision = average_precision_score(
            y_true, y_pred, pos_label=pos_label, sample_weight=sample_weight
        )

        name = name if name is not None else "Classifier"

        viz = PrecisionRecallDisplay(
            precision=precision,
            recall=recall,
            average_precision=average_precision,
            estimator_name=name,
            pos_label=pos_label,
        )

        return viz.plot(ax=ax, name=name, **kwargs)