Metadata-Version: 1.0
Name: civisml-extensions
Version: 0.1.4
Summary: scikit-learn-compatible estimators from Civis Analytics
Home-page: https://www.civisanalytics.com
Author: Civis Analytics
Author-email: opensource@civisanalytics.com
License: BSD-3
Description: civisml-extensions
        ==================
        
        .. image:: https://www.travis-ci.org/civisanalytics/civisml-extensions.svg?branch=master
            :target: https://www.travis-ci.org/civisanalytics/civisml-extensions
        
        scikit-learn-compatible estimators from Civis Analytics
        
        Installation
        ------------
        
        Installation with ``pip`` is recommended::
        
            $ pip install civisml-extensions
        
        For development, a few additional dependencies are needed::
        
            $ pip install -r dev-requirements.txt
        
        Contents and Usage
        ------------------
        
        This package contains `scikit-learn`_-compatible estimators for stacking (
        ``StackedClassifier``, ``StackedRegressor``), non-negative linear regression (
        ``NonNegativeLinearRegression``), preprocessing pandas_ ``DataFrames`` (
        ``DataFrameETL``), and using Hyperband_ for cross-validating hyperparameters (
        ``HyperbandSearchCV``).
        
        Usage of these estimators follows the standard sklearn conventions. Here is an
        example of using the ``StackedClassifier``::
        
            >>> from sklearn.linear_model import LogisticRegression
            >>> from sklearn.ensemble import RandomForestClassifier
            >>> from civismlext.stacking import StackedClassifier
            >>> # Note that the final estimator 'metalr' is the meta-estimator
            >>> estlist = [('rf', RandomForestClassifier()),
            >>>            ('lr', LogisticRegression()),
            >>>            ('metalr', LogisticRegression())]
            >>> mysm = StackedClassifier(estlist)
            >>> # Set some parameters, if you didn't set them at instantiation
            >>> mysm.set_params(rf__random_state=7, lr__random_state=8,
            >>>                 metalr__random_state=9, metalr__C=10**7)
            >>> # Fit
            >>> mysm.fit(Xtrain, ytrain)
            >>> # Predict!
            >>> ypred = mysm.predict_proba(Xtest)
        
        See the doc strings of the various estimators for more information.
        
        Contributing
        ------------
        
        See ``CONTIBUTING.md`` for information about contributing to this project.
        
        License
        -------
        
        BSD-3
        
        See ``LICENSE.md`` for details.
        
        .. _scikit-learn: http://scikit-learn.org/
        .. _pandas: http://pandas.pydata.org/
        .. _Hyperband: https://arxiv.org/abs/1603.06560
        
Platform: UNKNOWN
