a hM8@s8ddlmZmZmZddlmZmZGdddeZdS))"_BinaryClassifierCurveDisplayMixin_despine_validate_style_kwargs)auc roc_curvec @szeZdZdZddddddZdddddddd Zedd d ddddddd d dZedd dddddddddZdS)RocCurveDisplayaROC Curve visualization. It is recommend to use :func:`~sklearn.metrics.RocCurveDisplay.from_estimator` or :func:`~sklearn.metrics.RocCurveDisplay.from_predictions` to create a :class:`~sklearn.metrics.RocCurveDisplay`. All parameters are stored as attributes. Read more in the :ref:`User Guide `. Parameters ---------- fpr : ndarray False positive rate. tpr : ndarray True positive rate. roc_auc : float, default=None Area under ROC curve. If None, the roc_auc score is not shown. estimator_name : str, default=None Name of estimator. If None, the estimator name is not shown. pos_label : int, float, bool or str, default=None The class considered as the positive class when computing the roc auc metrics. By default, `estimators.classes_[1]` is considered as the positive class. .. versionadded:: 0.24 Attributes ---------- line_ : matplotlib Artist ROC Curve. chance_level_ : matplotlib Artist or None The chance level line. It is `None` if the chance level is not plotted. .. versionadded:: 1.3 ax_ : matplotlib Axes Axes with ROC Curve. figure_ : matplotlib Figure Figure containing the curve. See Also -------- roc_curve : Compute Receiver operating characteristic (ROC) curve. RocCurveDisplay.from_estimator : Plot Receiver Operating Characteristic (ROC) curve given an estimator and some data. RocCurveDisplay.from_predictions : Plot Receiver Operating Characteristic (ROC) curve given the true and predicted values. roc_auc_score : Compute the area under the ROC curve. Examples -------- >>> import matplotlib.pyplot as plt >>> import numpy as np >>> from sklearn import metrics >>> y = np.array([0, 0, 1, 1]) >>> pred = np.array([0.1, 0.4, 0.35, 0.8]) >>> fpr, tpr, thresholds = metrics.roc_curve(y, pred) >>> roc_auc = metrics.auc(fpr, tpr) >>> display = metrics.RocCurveDisplay(fpr=fpr, tpr=tpr, roc_auc=roc_auc, ... estimator_name='example estimator') >>> display.plot() <...> >>> plt.show() N)roc_aucestimator_name pos_labelcCs"||_||_||_||_||_dS)N)r fprtprr r )selfr r r r r r[/var/www/html/assistant/venv/lib/python3.9/site-packages/sklearn/metrics/_plot/roc_curve.py__init__Us zRocCurveDisplay.__init__F)nameplot_chance_levelchance_level_kwdespinec Ks\|j||d\|_|_}i}|jdurH|durH|d|jdd|d<n.|jdurfd|jd|d<n|durv||d<t||}dd d d } |duri}t| |}|jj|j|jfi|\|_|j durd |j dnd } d| } d| } |jj | d| ddd|r |jjdi|\|_ nd|_ |r6t |jd|vsJd|vrX|jj dd|S)a}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 ROC Curve for labeling. If `None`, use `estimator_name` if not `None`, otherwise no labeling is shown. plot_chance_level : bool, default=False Whether to plot the chance level. .. versionadded:: 1.3 chance_level_kw : dict, default=None Keyword arguments to be passed to matplotlib's `plot` for rendering the chance level line. .. versionadded:: 1.3 despine : bool, default=False Whether to remove the top and right spines from the plot. .. versionadded:: 1.6 **kwargs : dict Keyword arguments to be passed to matplotlib's `plot`. Returns ------- display : :class:`~sklearn.metrics.RocCurveDisplay` Object that stores computed values. )axrNz (AUC = z0.2f)labelzAUC = zChance level (AUC = 0.5)kz--)rcolorZ linestylez (Positive label: zFalse Positive RatezTrue Positive Rate)g{Gzg)\(?equal)xlabelZxlimylabelZylimZaspectz lower right)loc)rr)Z_validate_plot_paramsZax_Zfigure_r rplotr r Zline_r setZ chance_level_rZlegend) rrrrrrkwargsZdefault_line_kwargsZ line_kwargsZdefault_chance_level_line_kwZinfo_pos_labelrrrrrr#\sL0   zRocCurveDisplay.plotTauto) sample_weightdrop_intermediateresponse_methodr rrrrrc  KsB|j||||||d\}}}|jf|||||| || | | d | S)a Create a ROC Curve display from an estimator. 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. drop_intermediate : bool, default=True Whether to drop some suboptimal thresholds which would not appear on a plotted ROC curve. This is useful in order to create lighter ROC curves. 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. pos_label : int, float, bool or str, default=None The class considered as the positive class when computing the roc auc metrics. By default, `estimators.classes_[1]` is considered as the positive class. name : str, default=None Name of ROC Curve for labeling. If `None`, use the name of the estimator. ax : matplotlib axes, default=None Axes object to plot on. If `None`, a new figure and axes is created. plot_chance_level : bool, default=False Whether to plot the chance level. .. versionadded:: 1.3 chance_level_kw : dict, default=None Keyword arguments to be passed to matplotlib's `plot` for rendering the chance level line. .. versionadded:: 1.3 despine : bool, default=False Whether to remove the top and right spines from the plot. .. versionadded:: 1.6 **kwargs : dict Keyword arguments to be passed to matplotlib's `plot`. Returns ------- display : :class:`~sklearn.metrics.RocCurveDisplay` The ROC Curve display. See Also -------- roc_curve : Compute Receiver operating characteristic (ROC) curve. RocCurveDisplay.from_predictions : ROC Curve visualization given the probabilities of scores of a classifier. roc_auc_score : Compute the area under the ROC curve. Examples -------- >>> import matplotlib.pyplot as plt >>> from sklearn.datasets import make_classification >>> from sklearn.metrics import RocCurveDisplay >>> 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).fit(X_train, y_train) >>> RocCurveDisplay.from_estimator( ... clf, X_test, y_test) <...> >>> plt.show() )r)r r) y_truey_predr'r(rrr rrr)Z!_validate_and_get_response_valuesfrom_predictions)clsZ estimatorXyr'r(r)r rrrrrr%r+rrrfrom_estimators,j  zRocCurveDisplay.from_estimator)r'r(r rrrrrcKsh|j|||||d\} }t|||||d\} }}t| |}|| |||| d}|jf|||| | d| S)u Plot ROC curve given the true and predicted values. Read more in the :ref:`User Guide `. .. versionadded:: 1.0 Parameters ---------- y_true : array-like of shape (n_samples,) True labels. y_pred : array-like of shape (n_samples,) Target scores, can either be probability estimates of the positive class, confidence values, or non-thresholded measure of decisions (as returned by “decision_function” on some classifiers). sample_weight : array-like of shape (n_samples,), default=None Sample weights. drop_intermediate : bool, default=True Whether to drop some suboptimal thresholds which would not appear on a plotted ROC curve. This is useful in order to create lighter ROC curves. pos_label : int, float, bool or str, default=None The label of the positive class. When `pos_label=None`, if `y_true` is in {-1, 1} or {0, 1}, `pos_label` is set to 1, otherwise an error will be raised. name : str, default=None Name of ROC curve for labeling. 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. plot_chance_level : bool, default=False Whether to plot the chance level. .. versionadded:: 1.3 chance_level_kw : dict, default=None Keyword arguments to be passed to matplotlib's `plot` for rendering the chance level line. .. versionadded:: 1.3 despine : bool, default=False Whether to remove the top and right spines from the plot. .. versionadded:: 1.6 **kwargs : dict Additional keywords arguments passed to matplotlib `plot` function. Returns ------- display : :class:`~sklearn.metrics.RocCurveDisplay` Object that stores computed values. See Also -------- roc_curve : Compute Receiver operating characteristic (ROC) curve. RocCurveDisplay.from_estimator : ROC Curve visualization given an estimator and some data. roc_auc_score : Compute the area under the ROC curve. Examples -------- >>> import matplotlib.pyplot as plt >>> from sklearn.datasets import make_classification >>> from sklearn.metrics import RocCurveDisplay >>> 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).fit(X_train, y_train) >>> y_pred = clf.decision_function(X_test) >>> RocCurveDisplay.from_predictions( ... y_test, y_pred) <...> >>> plt.show() )r'r r)r r'r()r r r r r )rrrrr)Z!_validate_from_predictions_paramsrrr#)r-r*r+r'r(r rrrrrr%Zpos_label_validatedr r _r Zvizrrrr,Bs6e   z RocCurveDisplay.from_predictions)N) __name__ __module__ __qualname____doc__rr# classmethodr0r,rrrrr s>H  erN)Zutils._plottingrrrZ_rankingrrrrrrrs