265 lines
11 KiB
ReStructuredText
265 lines
11 KiB
ReStructuredText
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.. _20newsgroups_dataset:
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The 20 newsgroups text dataset
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------------------------------
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The 20 newsgroups dataset comprises around 18000 newsgroups posts on
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20 topics split in two subsets: one for training (or development)
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and the other one for testing (or for performance evaluation). The split
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between the train and test set is based upon a messages posted before
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and after a specific date.
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This module contains two loaders. The first one,
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:func:`sklearn.datasets.fetch_20newsgroups`,
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returns a list of the raw texts that can be fed to text feature
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extractors such as :class:`~sklearn.feature_extraction.text.CountVectorizer`
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with custom parameters so as to extract feature vectors.
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The second one, :func:`sklearn.datasets.fetch_20newsgroups_vectorized`,
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returns ready-to-use features, i.e., it is not necessary to use a feature
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extractor.
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**Data Set Characteristics:**
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================= ==========
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Classes 20
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Samples total 18846
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Dimensionality 1
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Features text
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================= ==========
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|details-start|
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**Usage**
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|details-split|
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The :func:`sklearn.datasets.fetch_20newsgroups` function is a data
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fetching / caching functions that downloads the data archive from
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the original `20 newsgroups website`_, extracts the archive contents
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in the ``~/scikit_learn_data/20news_home`` folder and calls the
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:func:`sklearn.datasets.load_files` on either the training or
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testing set folder, or both of them::
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>>> from sklearn.datasets import fetch_20newsgroups
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>>> newsgroups_train = fetch_20newsgroups(subset='train')
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>>> from pprint import pprint
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>>> pprint(list(newsgroups_train.target_names))
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['alt.atheism',
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'comp.graphics',
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'comp.os.ms-windows.misc',
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'comp.sys.ibm.pc.hardware',
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'comp.sys.mac.hardware',
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'comp.windows.x',
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'misc.forsale',
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'rec.autos',
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'rec.motorcycles',
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'rec.sport.baseball',
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'rec.sport.hockey',
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'sci.crypt',
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'sci.electronics',
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'sci.med',
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'sci.space',
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'soc.religion.christian',
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'talk.politics.guns',
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'talk.politics.mideast',
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'talk.politics.misc',
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'talk.religion.misc']
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The real data lies in the ``filenames`` and ``target`` attributes. The target
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attribute is the integer index of the category::
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>>> newsgroups_train.filenames.shape
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(11314,)
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>>> newsgroups_train.target.shape
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(11314,)
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>>> newsgroups_train.target[:10]
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array([ 7, 4, 4, 1, 14, 16, 13, 3, 2, 4])
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It is possible to load only a sub-selection of the categories by passing the
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list of the categories to load to the
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:func:`sklearn.datasets.fetch_20newsgroups` function::
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>>> cats = ['alt.atheism', 'sci.space']
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>>> newsgroups_train = fetch_20newsgroups(subset='train', categories=cats)
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>>> list(newsgroups_train.target_names)
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['alt.atheism', 'sci.space']
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>>> newsgroups_train.filenames.shape
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(1073,)
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>>> newsgroups_train.target.shape
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(1073,)
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>>> newsgroups_train.target[:10]
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array([0, 1, 1, 1, 0, 1, 1, 0, 0, 0])
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|details-end|
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|details-start|
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**Converting text to vectors**
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|details-split|
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In order to feed predictive or clustering models with the text data,
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one first need to turn the text into vectors of numerical values suitable
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for statistical analysis. This can be achieved with the utilities of the
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``sklearn.feature_extraction.text`` as demonstrated in the following
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example that extract `TF-IDF`_ vectors of unigram tokens
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from a subset of 20news::
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>>> from sklearn.feature_extraction.text import TfidfVectorizer
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>>> categories = ['alt.atheism', 'talk.religion.misc',
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... 'comp.graphics', 'sci.space']
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>>> newsgroups_train = fetch_20newsgroups(subset='train',
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... categories=categories)
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>>> vectorizer = TfidfVectorizer()
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>>> vectors = vectorizer.fit_transform(newsgroups_train.data)
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>>> vectors.shape
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(2034, 34118)
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The extracted TF-IDF vectors are very sparse, with an average of 159 non-zero
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components by sample in a more than 30000-dimensional space
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(less than .5% non-zero features)::
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>>> vectors.nnz / float(vectors.shape[0])
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159.01327...
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:func:`sklearn.datasets.fetch_20newsgroups_vectorized` is a function which
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returns ready-to-use token counts features instead of file names.
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.. _`20 newsgroups website`: http://people.csail.mit.edu/jrennie/20Newsgroups/
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.. _`TF-IDF`: https://en.wikipedia.org/wiki/Tf-idf
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|details-end|
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|details-start|
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**Filtering text for more realistic training**
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|details-split|
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It is easy for a classifier to overfit on particular things that appear in the
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20 Newsgroups data, such as newsgroup headers. Many classifiers achieve very
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high F-scores, but their results would not generalize to other documents that
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aren't from this window of time.
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For example, let's look at the results of a multinomial Naive Bayes classifier,
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which is fast to train and achieves a decent F-score::
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>>> from sklearn.naive_bayes import MultinomialNB
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>>> from sklearn import metrics
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>>> newsgroups_test = fetch_20newsgroups(subset='test',
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... categories=categories)
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>>> vectors_test = vectorizer.transform(newsgroups_test.data)
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>>> clf = MultinomialNB(alpha=.01)
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>>> clf.fit(vectors, newsgroups_train.target)
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MultinomialNB(alpha=0.01, class_prior=None, fit_prior=True)
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>>> pred = clf.predict(vectors_test)
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>>> metrics.f1_score(newsgroups_test.target, pred, average='macro')
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0.88213...
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(The example :ref:`sphx_glr_auto_examples_text_plot_document_classification_20newsgroups.py` shuffles
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the training and test data, instead of segmenting by time, and in that case
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multinomial Naive Bayes gets a much higher F-score of 0.88. Are you suspicious
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yet of what's going on inside this classifier?)
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Let's take a look at what the most informative features are:
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>>> import numpy as np
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>>> def show_top10(classifier, vectorizer, categories):
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... feature_names = vectorizer.get_feature_names_out()
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... for i, category in enumerate(categories):
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... top10 = np.argsort(classifier.coef_[i])[-10:]
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... print("%s: %s" % (category, " ".join(feature_names[top10])))
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...
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>>> show_top10(clf, vectorizer, newsgroups_train.target_names)
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alt.atheism: edu it and in you that is of to the
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comp.graphics: edu in graphics it is for and of to the
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sci.space: edu it that is in and space to of the
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talk.religion.misc: not it you in is that and to of the
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You can now see many things that these features have overfit to:
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- Almost every group is distinguished by whether headers such as
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``NNTP-Posting-Host:`` and ``Distribution:`` appear more or less often.
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- Another significant feature involves whether the sender is affiliated with
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a university, as indicated either by their headers or their signature.
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- The word "article" is a significant feature, based on how often people quote
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previous posts like this: "In article [article ID], [name] <[e-mail address]>
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wrote:"
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- Other features match the names and e-mail addresses of particular people who
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were posting at the time.
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With such an abundance of clues that distinguish newsgroups, the classifiers
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barely have to identify topics from text at all, and they all perform at the
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same high level.
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For this reason, the functions that load 20 Newsgroups data provide a
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parameter called **remove**, telling it what kinds of information to strip out
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of each file. **remove** should be a tuple containing any subset of
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``('headers', 'footers', 'quotes')``, telling it to remove headers, signature
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blocks, and quotation blocks respectively.
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>>> newsgroups_test = fetch_20newsgroups(subset='test',
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... remove=('headers', 'footers', 'quotes'),
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... categories=categories)
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>>> vectors_test = vectorizer.transform(newsgroups_test.data)
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>>> pred = clf.predict(vectors_test)
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>>> metrics.f1_score(pred, newsgroups_test.target, average='macro')
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0.77310...
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This classifier lost over a lot of its F-score, just because we removed
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metadata that has little to do with topic classification.
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It loses even more if we also strip this metadata from the training data:
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>>> newsgroups_train = fetch_20newsgroups(subset='train',
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... remove=('headers', 'footers', 'quotes'),
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... categories=categories)
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>>> vectors = vectorizer.fit_transform(newsgroups_train.data)
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>>> clf = MultinomialNB(alpha=.01)
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>>> clf.fit(vectors, newsgroups_train.target)
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MultinomialNB(alpha=0.01, class_prior=None, fit_prior=True)
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>>> vectors_test = vectorizer.transform(newsgroups_test.data)
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>>> pred = clf.predict(vectors_test)
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>>> metrics.f1_score(newsgroups_test.target, pred, average='macro')
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0.76995...
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Some other classifiers cope better with this harder version of the task. Try the
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:ref:`sphx_glr_auto_examples_model_selection_plot_grid_search_text_feature_extraction.py`
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example with and without the `remove` option to compare the results.
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|details-end|
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.. topic:: Data Considerations
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The Cleveland Indians is a major league baseball team based in Cleveland,
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Ohio, USA. In December 2020, it was reported that "After several months of
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discussion sparked by the death of George Floyd and a national reckoning over
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race and colonialism, the Cleveland Indians have decided to change their
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name." Team owner Paul Dolan "did make it clear that the team will not make
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its informal nickname -- the Tribe -- its new team name." "It's not going to
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be a half-step away from the Indians," Dolan said."We will not have a Native
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American-themed name."
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https://www.mlb.com/news/cleveland-indians-team-name-change
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.. topic:: Recommendation
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- When evaluating text classifiers on the 20 Newsgroups data, you
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should strip newsgroup-related metadata. In scikit-learn, you can do this
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by setting ``remove=('headers', 'footers', 'quotes')``. The F-score will be
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lower because it is more realistic.
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- This text dataset contains data which may be inappropriate for certain NLP
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applications. An example is listed in the "Data Considerations" section
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above. The challenge with using current text datasets in NLP for tasks such
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as sentence completion, clustering, and other applications is that text
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that is culturally biased and inflammatory will propagate biases. This
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should be taken into consideration when using the dataset, reviewing the
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output, and the bias should be documented.
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.. topic:: Examples
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* :ref:`sphx_glr_auto_examples_model_selection_plot_grid_search_text_feature_extraction.py`
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* :ref:`sphx_glr_auto_examples_text_plot_document_classification_20newsgroups.py`
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* :ref:`sphx_glr_auto_examples_text_plot_hashing_vs_dict_vectorizer.py`
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* :ref:`sphx_glr_auto_examples_text_plot_document_clustering.py`
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