.. Copyright (C) 2001-2023 NLTK Project .. For license information, see LICENSE.TXT ============= Classifiers ============= >>> from nltk.test.classify_fixt import setup_module >>> setup_module() Classifiers label tokens with category labels (or *class labels*). Typically, labels are represented with strings (such as ``"health"`` or ``"sports"``. In NLTK, classifiers are defined using classes that implement the `ClassifierI` interface, which supports the following operations: - self.classify(featureset) - self.classify_many(featuresets) - self.labels() - self.prob_classify(featureset) - self.prob_classify_many(featuresets) NLTK defines several classifier classes: - `ConditionalExponentialClassifier` - `DecisionTreeClassifier` - `MaxentClassifier` - `NaiveBayesClassifier` - `WekaClassifier` Classifiers are typically created by training them on a training corpus. Regression Tests ~~~~~~~~~~~~~~~~ We define a very simple training corpus with 3 binary features: ['a', 'b', 'c'], and are two labels: ['x', 'y']. We use a simple feature set so that the correct answers can be calculated analytically (although we haven't done this yet for all tests). >>> import nltk >>> train = [ ... (dict(a=1,b=1,c=1), 'y'), ... (dict(a=1,b=1,c=1), 'x'), ... (dict(a=1,b=1,c=0), 'y'), ... (dict(a=0,b=1,c=1), 'x'), ... (dict(a=0,b=1,c=1), 'y'), ... (dict(a=0,b=0,c=1), 'y'), ... (dict(a=0,b=1,c=0), 'x'), ... (dict(a=0,b=0,c=0), 'x'), ... (dict(a=0,b=1,c=1), 'y'), ... (dict(a=None,b=1,c=0), 'x'), ... ] >>> test = [ ... (dict(a=1,b=0,c=1)), # unseen ... (dict(a=1,b=0,c=0)), # unseen ... (dict(a=0,b=1,c=1)), # seen 3 times, labels=y,y,x ... (dict(a=0,b=1,c=0)), # seen 1 time, label=x ... ] Test the Naive Bayes classifier: >>> classifier = nltk.classify.NaiveBayesClassifier.train(train) >>> sorted(classifier.labels()) ['x', 'y'] >>> classifier.classify_many(test) ['y', 'x', 'y', 'x'] >>> for pdist in classifier.prob_classify_many(test): ... print('%.4f %.4f' % (pdist.prob('x'), pdist.prob('y'))) 0.2500 0.7500 0.5833 0.4167 0.3571 0.6429 0.7000 0.3000 >>> classifier.show_most_informative_features() Most Informative Features c = 0 x : y = 2.3 : 1.0 c = 1 y : x = 1.8 : 1.0 a = 1 y : x = 1.7 : 1.0 a = 0 x : y = 1.0 : 1.0 b = 0 x : y = 1.0 : 1.0 b = 1 x : y = 1.0 : 1.0 Test the Decision Tree classifier (without None): >>> classifier = nltk.classify.DecisionTreeClassifier.train( ... train[:-1], entropy_cutoff=0, ... support_cutoff=0) >>> sorted(classifier.labels()) ['x', 'y'] >>> print(classifier) c=0? .................................................. x a=0? ................................................ x a=1? ................................................ y c=1? .................................................. y >>> classifier.classify_many(test) ['y', 'y', 'y', 'x'] >>> for pdist in classifier.prob_classify_many(test): ... print('%.4f %.4f' % (pdist.prob('x'), pdist.prob('y'))) Traceback (most recent call last): . . . NotImplementedError Test the Decision Tree classifier (with None): >>> classifier = nltk.classify.DecisionTreeClassifier.train( ... train, entropy_cutoff=0, ... support_cutoff=0) >>> sorted(classifier.labels()) ['x', 'y'] >>> print(classifier) c=0? .................................................. x a=0? ................................................ x a=1? ................................................ y a=None? ............................................. x c=1? .................................................. y Test SklearnClassifier, which requires the scikit-learn package. >>> from nltk.classify import SklearnClassifier >>> from sklearn.naive_bayes import BernoulliNB >>> from sklearn.svm import SVC >>> train_data = [({"a": 4, "b": 1, "c": 0}, "ham"), ... ({"a": 5, "b": 2, "c": 1}, "ham"), ... ({"a": 0, "b": 3, "c": 4}, "spam"), ... ({"a": 5, "b": 1, "c": 1}, "ham"), ... ({"a": 1, "b": 4, "c": 3}, "spam")] >>> classif = SklearnClassifier(BernoulliNB()).train(train_data) >>> test_data = [{"a": 3, "b": 2, "c": 1}, ... {"a": 0, "b": 3, "c": 7}] >>> classif.classify_many(test_data) ['ham', 'spam'] >>> classif = SklearnClassifier(SVC(), sparse=False).train(train_data) >>> classif.classify_many(test_data) ['ham', 'spam'] Test the Maximum Entropy classifier training algorithms; they should all generate the same results. >>> def print_maxent_test_header(): ... print(' '*11+''.join([' test[%s] ' % i ... for i in range(len(test))])) ... print(' '*11+' p(x) p(y)'*len(test)) ... print('-'*(11+15*len(test))) >>> def test_maxent(algorithm): ... print('%11s' % algorithm, end=' ') ... try: ... classifier = nltk.classify.MaxentClassifier.train( ... train, algorithm, trace=0, max_iter=1000) ... except Exception as e: ... print('Error: %r' % e) ... return ... ... for featureset in test: ... pdist = classifier.prob_classify(featureset) ... print('%8.2f%6.2f' % (pdist.prob('x'), pdist.prob('y')), end=' ') ... print() >>> print_maxent_test_header(); test_maxent('GIS'); test_maxent('IIS') test[0] test[1] test[2] test[3] p(x) p(y) p(x) p(y) p(x) p(y) p(x) p(y) ----------------------------------------------------------------------- GIS 0.16 0.84 0.46 0.54 0.41 0.59 0.76 0.24 IIS 0.16 0.84 0.46 0.54 0.41 0.59 0.76 0.24 >>> test_maxent('MEGAM'); test_maxent('TADM') # doctest: +SKIP MEGAM 0.16 0.84 0.46 0.54 0.41 0.59 0.76 0.24 TADM 0.16 0.84 0.46 0.54 0.41 0.59 0.76 0.24 Regression tests for TypedMaxentFeatureEncoding ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ >>> from nltk.classify import maxent >>> train = [ ... ({'a': 1, 'b': 1, 'c': 1}, 'y'), ... ({'a': 5, 'b': 5, 'c': 5}, 'x'), ... ({'a': 0.9, 'b': 0.9, 'c': 0.9}, 'y'), ... ({'a': 5.5, 'b': 5.4, 'c': 5.3}, 'x'), ... ({'a': 0.8, 'b': 1.2, 'c': 1}, 'y'), ... ({'a': 5.1, 'b': 4.9, 'c': 5.2}, 'x') ... ] >>> test = [ ... {'a': 1, 'b': 0.8, 'c': 1.2}, ... {'a': 5.2, 'b': 5.1, 'c': 5} ... ] >>> encoding = maxent.TypedMaxentFeatureEncoding.train( ... train, count_cutoff=3, alwayson_features=True) >>> classifier = maxent.MaxentClassifier.train( ... train, bernoulli=False, encoding=encoding, trace=0) >>> classifier.classify_many(test) ['y', 'x']