sklearn.inspection
.partial_dependence#
- sklearn.inspection.partial_dependence(estimator, X, features, *, sample_weight=None, categorical_features=None, feature_names=None, response_method='auto', percentiles=(0.05, 0.95), grid_resolution=100, method='auto', kind='average')[source]#
Partial dependence of
features
.Partial dependence of a feature (or a set of features) corresponds to the average response of an estimator for each possible value of the feature.
Read more in the User Guide.
Warning
For
GradientBoostingClassifier
andGradientBoostingRegressor
, the'recursion'
method (used by default) will not account for theinit
predictor of the boosting process. In practice, this will produce the same values as'brute'
up to a constant offset in the target response, provided thatinit
is a constant estimator (which is the default). However, ifinit
is not a constant estimator, the partial dependence values are incorrect for'recursion'
because the offset will be sample-dependent. It is preferable to use the'brute'
method. Note that this only applies toGradientBoostingClassifier
andGradientBoostingRegressor
, not toHistGradientBoostingClassifier
andHistGradientBoostingRegressor
.- Parameters:
- estimatorBaseEstimator
A fitted estimator object implementing predict, predict_proba, or decision_function. Multioutput-multiclass classifiers are not supported.
- X{array-like, sparse matrix or dataframe} of shape (n_samples, n_features)
X
is used to generate a grid of values for the targetfeatures
(where the partial dependence will be evaluated), and also to generate values for the complement features when themethod
is ‘brute’.- featuresarray-like of {int, str, bool} or int or str
The feature (e.g.
[0]
) or pair of interacting features (e.g.[(0, 1)]
) for which the partial dependency should be computed.- sample_weightarray-like of shape (n_samples,), default=None
Sample weights are used to calculate weighted means when averaging the model output. If
None
, then samples are equally weighted. Ifsample_weight
is notNone
, thenmethod
will be set to'brute'
. Note thatsample_weight
is ignored forkind='individual'
.New in version 1.3.
- categorical_featuresarray-like of shape (n_features,) or shape (n_categorical_features,), dtype={bool, int, str}, default=None
Indicates the categorical features.
None
: no feature will be considered categorical;- boolean array-like: boolean mask of shape
(n_features,)
indicating which features are categorical. Thus, this array has the same shape has
X.shape[1]
;
- boolean array-like: boolean mask of shape
- integer or string array-like: integer indices or strings
indicating categorical features.
New in version 1.2.
- feature_namesarray-like of shape (n_features,), dtype=str, default=None
Name of each feature;
feature_names[i]
holds the name of the feature with indexi
. By default, the name of the feature corresponds to their numerical index for NumPy array and their column name for pandas dataframe.New in version 1.2.
- response_method{‘auto’, ‘predict_proba’, ‘decision_function’}, default=’auto’
Specifies whether to use predict_proba or decision_function as the target response. For regressors this parameter is ignored and the response is always the output of predict. By default, predict_proba is tried first and we revert to decision_function if it doesn’t exist. If
method
is ‘recursion’, the response is always the output of decision_function.- percentilestuple of float, default=(0.05, 0.95)
The lower and upper percentile used to create the extreme values for the grid. Must be in [0, 1].
- grid_resolutionint, default=100
The number of equally spaced points on the grid, for each target feature.
- method{‘auto’, ‘recursion’, ‘brute’}, default=’auto’
The method used to calculate the averaged predictions:
'recursion'
is only supported for some tree-based estimators (namelyGradientBoostingClassifier
,GradientBoostingRegressor
,HistGradientBoostingClassifier
,HistGradientBoostingRegressor
,DecisionTreeRegressor
,RandomForestRegressor
, ) whenkind='average'
. This is more efficient in terms of speed. With this method, the target response of a classifier is always the decision function, not the predicted probabilities. Since the'recursion'
method implicitly computes the average of the Individual Conditional Expectation (ICE) by design, it is not compatible with ICE and thuskind
must be'average'
.'brute'
is supported for any estimator, but is more computationally intensive.'auto'
: the'recursion'
is used for estimators that support it, and'brute'
is used otherwise. Ifsample_weight
is notNone
, then'brute'
is used regardless of the estimator.
Please see this note for differences between the
'brute'
and'recursion'
method.- kind{‘average’, ‘individual’, ‘both’}, default=’average’
Whether to return the partial dependence averaged across all the samples in the dataset or one value per sample or both. See Returns below.
Note that the fast
method='recursion'
option is only available forkind='average'
andsample_weights=None
. Computing individual dependencies and doing weighted averages requires using the slowermethod='brute'
.New in version 0.24.
- Returns:
- predictions
Bunch
Dictionary-like object, with the following attributes.
- individualndarray of shape (n_outputs, n_instances, len(values[0]), len(values[1]), …)
The predictions for all the points in the grid for all samples in X. This is also known as Individual Conditional Expectation (ICE). Only available when
kind='individual'
orkind='both'
.- averagendarray of shape (n_outputs, len(values[0]), len(values[1]), …)
The predictions for all the points in the grid, averaged over all samples in X (or over the training data if
method
is ‘recursion’). Only available whenkind='average'
orkind='both'
.- valuesseq of 1d ndarrays
The values with which the grid has been created.
Deprecated since version 1.3: The key
values
has been deprecated in 1.3 and will be removed in 1.5 in favor ofgrid_values
. Seegrid_values
for details about thevalues
attribute.- grid_valuesseq of 1d ndarrays
The values with which the grid has been created. The generated grid is a cartesian product of the arrays in
grid_values
wherelen(grid_values) == len(features)
. The size of each arraygrid_values[j]
is eithergrid_resolution
, or the number of unique values inX[:, j]
, whichever is smaller.New in version 1.3.
n_outputs
corresponds to the number of classes in a multi-class setting, or to the number of tasks for multi-output regression. For classical regression and binary classificationn_outputs==1
.n_values_feature_j
corresponds to the sizegrid_values[j]
.
- predictions
See also
PartialDependenceDisplay.from_estimator
Plot Partial Dependence.
PartialDependenceDisplay
Partial Dependence visualization.
Examples
>>> X = [[0, 0, 2], [1, 0, 0]] >>> y = [0, 1] >>> from sklearn.ensemble import GradientBoostingClassifier >>> gb = GradientBoostingClassifier(random_state=0).fit(X, y) >>> partial_dependence(gb, features=[0], X=X, percentiles=(0, 1), ... grid_resolution=2) (array([[-4.52..., 4.52...]]), [array([ 0., 1.])])
Examples using sklearn.inspection.partial_dependence
#
Partial Dependence and Individual Conditional Expectation Plots