154 lines
5.7 KiB
Python
154 lines
5.7 KiB
Python
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# Natural Language Toolkit: Interface to scikit-learn classifiers
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#
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# Author: Lars Buitinck <L.J.Buitinck@uva.nl>
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# URL: <http://nltk.org/>
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# For license information, see LICENSE.TXT
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"""
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scikit-learn (http://scikit-learn.org) is a machine learning library for
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Python. It supports many classification algorithms, including SVMs,
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Naive Bayes, logistic regression (MaxEnt) and decision trees.
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This package implements a wrapper around scikit-learn classifiers. To use this
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wrapper, construct a scikit-learn estimator object, then use that to construct
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a SklearnClassifier. E.g., to wrap a linear SVM with default settings:
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>>> from sklearn.svm import LinearSVC
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>>> from nltk.classify.scikitlearn import SklearnClassifier
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>>> classif = SklearnClassifier(LinearSVC())
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A scikit-learn classifier may include preprocessing steps when it's wrapped
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in a Pipeline object. The following constructs and wraps a Naive Bayes text
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classifier with tf-idf weighting and chi-square feature selection to get the
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best 1000 features:
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>>> from sklearn.feature_extraction.text import TfidfTransformer
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>>> from sklearn.feature_selection import SelectKBest, chi2
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>>> from sklearn.naive_bayes import MultinomialNB
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>>> from sklearn.pipeline import Pipeline
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>>> pipeline = Pipeline([('tfidf', TfidfTransformer()),
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... ('chi2', SelectKBest(chi2, k=1000)),
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... ('nb', MultinomialNB())])
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>>> classif = SklearnClassifier(pipeline)
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"""
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from __future__ import print_function, unicode_literals
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from six.moves import zip
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from nltk.classify.api import ClassifierI
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from nltk.probability import DictionaryProbDist
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from nltk import compat
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try:
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from sklearn.feature_extraction import DictVectorizer
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from sklearn.preprocessing import LabelEncoder
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except ImportError:
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pass
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__all__ = ['SklearnClassifier']
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@compat.python_2_unicode_compatible
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class SklearnClassifier(ClassifierI):
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"""Wrapper for scikit-learn classifiers."""
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def __init__(self, estimator, dtype=float, sparse=True):
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"""
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:param estimator: scikit-learn classifier object.
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:param dtype: data type used when building feature array.
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scikit-learn estimators work exclusively on numeric data. The
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default value should be fine for almost all situations.
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:param sparse: Whether to use sparse matrices internally.
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The estimator must support these; not all scikit-learn classifiers
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do (see their respective documentation and look for "sparse
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matrix"). The default value is True, since most NLP problems
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involve sparse feature sets. Setting this to False may take a
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great amount of memory.
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:type sparse: boolean.
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"""
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self._clf = estimator
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self._encoder = LabelEncoder()
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self._vectorizer = DictVectorizer(dtype=dtype, sparse=sparse)
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def __repr__(self):
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return "<SklearnClassifier(%r)>" % self._clf
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def classify_many(self, featuresets):
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"""Classify a batch of samples.
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:param featuresets: An iterable over featuresets, each a dict mapping
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strings to either numbers, booleans or strings.
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:return: The predicted class label for each input sample.
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:rtype: list
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"""
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X = self._vectorizer.transform(featuresets)
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classes = self._encoder.classes_
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return [classes[i] for i in self._clf.predict(X)]
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def prob_classify_many(self, featuresets):
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"""Compute per-class probabilities for a batch of samples.
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:param featuresets: An iterable over featuresets, each a dict mapping
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strings to either numbers, booleans or strings.
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:rtype: list of ``ProbDistI``
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"""
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X = self._vectorizer.transform(featuresets)
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y_proba_list = self._clf.predict_proba(X)
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return [self._make_probdist(y_proba) for y_proba in y_proba_list]
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def labels(self):
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"""The class labels used by this classifier.
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:rtype: list
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"""
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return list(self._encoder.classes_)
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def train(self, labeled_featuresets):
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"""
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Train (fit) the scikit-learn estimator.
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:param labeled_featuresets: A list of ``(featureset, label)``
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where each ``featureset`` is a dict mapping strings to either
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numbers, booleans or strings.
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"""
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X, y = list(zip(*labeled_featuresets))
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X = self._vectorizer.fit_transform(X)
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y = self._encoder.fit_transform(y)
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self._clf.fit(X, y)
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return self
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def _make_probdist(self, y_proba):
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classes = self._encoder.classes_
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return DictionaryProbDist(dict((classes[i], p)
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for i, p in enumerate(y_proba)))
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# skip doctests if scikit-learn is not installed
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def setup_module(module):
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from nose import SkipTest
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try:
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import sklearn
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except ImportError:
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raise SkipTest("scikit-learn is not installed")
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if __name__ == "__main__":
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from nltk.classify.util import names_demo, names_demo_features
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from sklearn.linear_model import LogisticRegression
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from sklearn.naive_bayes import BernoulliNB
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# Bernoulli Naive Bayes is designed for binary classification. We set the
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# binarize option to False since we know we're passing boolean features.
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print("scikit-learn Naive Bayes:")
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names_demo(SklearnClassifier(BernoulliNB(binarize=False)).train,
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features=names_demo_features)
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# The C parameter on logistic regression (MaxEnt) controls regularization.
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# The higher it's set, the less regularized the classifier is.
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print("\n\nscikit-learn logistic regression:")
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names_demo(SklearnClassifier(LogisticRegression(C=1000)).train,
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features=names_demo_features)
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