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Metrics functions for evaluating models. This module is styled after Scikit-Learn's metrics module: https://scikit-learn.org/stable/modules/metrics.html.
Modules Functions
accuracy_score
accuracy_score(
y_true: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
y_pred: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
normalize=True,
) -> float
Accuracy classification score.
Parameters | |
---|---|
Name | Description |
y_true |
Series or DataFrame of shape (n_samples,)
Ground truth (correct) labels. |
y_pred |
Series or DataFrame of shape (n_samples,)
Predicted labels, as returned by a classifier. |
normalize |
bool, default True
Default to True. If |
Returns | |
---|---|
Type | Description |
float | If normalize == True , return the fraction of correctly classified samples (float), else returns the number of correctly classified samples (int). |
auc
auc(
x: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
y: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
) -> float
Compute Area Under the Curve (AUC) using the trapezoidal rule.
This is a general function, given points on a curve. For computing the
area under the ROC-curve, see roc_auc_score
. For an alternative
way to summarize a precision-recall curve, see
average_precision_score
.
Parameters | |
---|---|
Name | Description |
x |
Series or DataFrame of shape (n_samples,)
X coordinates. These must be either monotonic increasing or monotonic decreasing. |
y |
Series or DataFrame of shape (n_samples,)
Y coordinates. |
Returns | |
---|---|
Type | Description |
float | Area Under the Curve. |
confusion_matrix
confusion_matrix(
y_true: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
y_pred: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
) -> pandas.core.frame.DataFrame
Compute confusion matrix to evaluate the accuracy of a classification.
By definition a confusion matrix :math:C
is such that :math:C_{i, j}
is equal to the number of observations known to be in group :math:i
and
predicted to be in group :math:j
.
Thus in binary classification, the count of true negatives is
:math:C_{0,0}
, false negatives is :math:C_{1,0}
, true positives is
:math:C_{1,1}
and false positives is :math:C_{0,1}
.
Parameters | |
---|---|
Name | Description |
y_true |
Series or DataFrame of shape (n_samples,)
Ground truth (correct) target values. |
y_pred |
Series or DataFrame of shape (n_samples,)
Estimated targets as returned by a classifier. |
Returns | |
---|---|
Type | Description |
DataFrame of shape (n_samples, n_features) | Confusion matrix whose i-th row and j-th column entry indicates the number of samples with true label being i-th class and predicted label being j-th class. |
f1_score
f1_score(
y_true: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
y_pred: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
average: str = "binary",
) -> pandas.core.series.Series
Compute the F1 score, also known as balanced F-score or F-measure.
The F1 score can be interpreted as a harmonic mean of the precision and recall, where an F1 score reaches its best value at 1 and worst score at 0. The relative contribution of precision and recall to the F1 score are equal. The formula for the F1 score is: F1 = 2 * (precision * recall) / (precision + recall).
In the multi-class and multi-label case, this is the average of
the F1 score of each class with weighting depending on the average
parameter.
Returns | |
---|---|
Type | Description |
f1_score | float or Series of float, shape = [n_unique_labels] F1 score of the positive class in binary classification or weighted average of the F1 scores of each class for the multiclass task. |
precision_score
precision_score(
y_true: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
y_pred: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
average: str = "binary",
) -> pandas.core.series.Series
Compute the precision.
The precision is the ratio tp / (tp + fp)
where tp
is the number of
true positives and fp
the number of false positives. The precision is
intuitively the ability of the classifier not to label as positive a sample
that is negative.
The best value is 1 and the worst value is 0.
Returns | |
---|---|
Type | Description |
precision | float (if average is not None) or Series of float of shape (n_unique_labels,). Precision of the positive class in binary classification or weighted average of the precision of each class for the multiclass task. |
r2_score
r2_score(
y_true: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
y_pred: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
force_finite=True,
) -> float
:math:R^2
(coefficient of determination) regression score function.
Best possible score is 1.0 and it can be negative (because the
model can be arbitrarily worse). In the general case when the true y is
non-constant, a constant model that always predicts the average y
disregarding the input features would get a :math:R^2
score of 0.0.
In the particular case when y_true
is constant, the :math:R^2
score
is not finite: it is either NaN
(perfect predictions) or -Inf
(imperfect predictions). To prevent such non-finite numbers to pollute
higher-level experiments such as a grid search cross-validation, by default
these cases are replaced with 1.0 (perfect predictions) or 0.0 (imperfect
predictions) respectively.
Parameters | |
---|---|
Name | Description |
y_true |
Series or DataFrame of shape (n_samples,)
Ground truth (correct) target values. |
y_pred |
Series or DataFrame of shape (n_samples,)
Estimated target values. |
Returns | |
---|---|
Type | Description |
float | The :math:R^2 score. |
recall_score
recall_score(
y_true: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
y_pred: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
average: str = "binary",
) -> pandas.core.series.Series
Compute the recall.
The recall is the ratio tp / (tp + fn)
where tp
is the number of
true positives and fn
the number of false negatives. The recall is
intuitively the ability of the classifier to find all the positive samples.
The best value is 1 and the worst value is 0.
Parameters | |
---|---|
Name | Description |
y_true |
Series or DataFrame of shape (n_samples,)
Ground truth (correct) target values. |
y_pred |
Series or DataFrame of shape (n_samples,)
Estimated targets as returned by a classifier. |
average |
{'micro', 'macro', 'samples', 'weighted', 'binary'} or None, default='binary'
This parameter is required for multiclass/multilabel targets. Possible values are 'None', 'micro', 'macro', 'samples', 'weighted', 'binary'. |
Returns | |
---|---|
Type | Description |
float (if average is not None) or Series of float of shape n_unique_labels,) | Recall of the positive class in binary classification or weighted average of the recall of each class for the multiclass task. |
roc_auc_score
roc_auc_score(
y_true: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
y_score: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
) -> float
Compute Area Under the Receiver Operating Characteristic Curve (ROC AUC) from prediction scores.
Parameters | |
---|---|
Name | Description |
y_true |
Series or DataFrame of shape (n_samples,)
True labels or binary label indicators. The binary and multiclass cases expect labels with shape (n_samples,) while the multilabel case expects binary label indicators with shape (n_samples, n_classes). |
y_score |
Series or DataFrame of shape (n_samples,)
Target scores. * In the binary case, it corresponds to an array of shape |
Returns | |
---|---|
Type | Description |
float | Area Under the Curve score. |
roc_curve
roc_curve(
y_true: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
y_score: typing.Union[bigframes.dataframe.DataFrame, bigframes.series.Series],
drop_intermediate: bool = True,
) -> typing.Tuple[
bigframes.series.Series, bigframes.series.Series, bigframes.series.Series
]
Compute Receiver operating characteristic (ROC).
Returns | |
---|---|
Type | Description |
fpr | Increasing false positive rates such that element i is the false positive rate of predictions with score >= thresholds[i] . tpr: Increasing true positive rates such that element i is the true positive rate of predictions with score >= thresholds[i] . thresholds: Decreasing thresholds on the decision function used to compute fpr and tpr. thresholds[0] represents no instances being predicted and is arbitrarily set to max(y_score) + 1 . |