ML之NB:利用朴素贝叶斯NB算法(TfidfVectorizer+不去除停用词)对20类新闻文本数据集进行分类预测、评估

ML之NB:利用朴素贝叶斯NB算法(TfidfVectorizer+不去除停用词)对20类新闻文本数据集进行分类预测、评估


输出结果

设计思路

核心代码

class TfidfVectorizer Found at: sklearn.feature_extraction.text

class TfidfVectorizer(CountVectorizer):
    """Convert a collection of raw documents to a matrix of TF-IDF features.

    Equivalent to CountVectorizer followed by TfidfTransformer.

    Read more in the :ref:`User Guide <text_feature_extraction>`.

    Parameters
    ----------
    input : string {'filename', 'file', 'content'}
    If 'filename', the sequence passed as an argument to fit is
    expected to be a list of filenames that need reading to fetch
    the raw content to analyze.

    If 'file', the sequence items must have a 'read' method (file-like
    object) that is called to fetch the bytes in memory.

    Otherwise the input is expected to be the sequence strings or
    bytes items are expected to be analyzed directly.

    encoding : string, 'utf-8' by default.
    If bytes or files are given to analyze, this encoding is used to
    decode.

    decode_error : {'strict', 'ignore', 'replace'}
    Instruction on what to do if a byte sequence is given to analyze that
    contains characters not of the given `encoding`. By default, it is
    'strict', meaning that a UnicodeDecodeError will be raised. Other
    values are 'ignore' and 'replace'.

    strip_accents : {'ascii', 'unicode', None}
    Remove accents during the preprocessing step.
    'ascii' is a fast method that only works on characters that have
    an direct ASCII mapping.
    'unicode' is a slightly slower method that works on any characters.
    None (default) does nothing.

    analyzer : string, {'word', 'char'} or callable
    Whether the feature should be made of word or character n-grams.

    If a callable is passed it is used to extract the sequence of features
    out of the raw, unprocessed input.

    preprocessor : callable or None (default)
    Override the preprocessing (string transformation) stage while
    preserving the tokenizing and n-grams generation steps.

    tokenizer : callable or None (default)
    Override the string tokenization step while preserving the
    preprocessing and n-grams generation steps.
    Only applies if ``analyzer == 'word'``.

    ngram_range : tuple (min_n, max_n)
    The lower and upper boundary of the range of n-values for different
    n-grams to be extracted. All values of n such that min_n <= n <= max_n
    will be used.

    stop_words : string {'english'}, list, or None (default)
    If a string, it is passed to _check_stop_list and the appropriate stop
    list is returned. 'english' is currently the only supported string
    value.

    If a list, that list is assumed to contain stop words, all of which
    will be removed from the resulting tokens.
    Only applies if ``analyzer == 'word'``.

    If None, no stop words will be used. max_df can be set to a value
    in the range [0.7, 1.0) to automatically detect and filter stop
    words based on intra corpus document frequency of terms.

    lowercase : boolean, default True
    Convert all characters to lowercase before tokenizing.

    token_pattern : string
    Regular expression denoting what constitutes a "token", only used
    if ``analyzer == 'word'``. The default regexp selects tokens of 2
    or more alphanumeric characters (punctuation is completely ignored
    and always treated as a token separator).

    max_df : float in range [0.0, 1.0] or int, default=1.0
    When building the vocabulary ignore terms that have a document
    frequency strictly higher than the given threshold (corpus-specific
    stop words).
    If float, the parameter represents a proportion of documents, integer
    absolute counts.
    This parameter is ignored if vocabulary is not None.

    min_df : float in range [0.0, 1.0] or int, default=1
    When building the vocabulary ignore terms that have a document
    frequency strictly lower than the given threshold. This value is also
    called cut-off in the literature.
    If float, the parameter represents a proportion of documents, integer
    absolute counts.
    This parameter is ignored if vocabulary is not None.

    max_features : int or None, default=None
    If not None, build a vocabulary that only consider the top
    max_features ordered by term frequency across the corpus.

    This parameter is ignored if vocabulary is not None.

    vocabulary : Mapping or iterable, optional
    Either a Mapping (e.g., a dict) where keys are terms and values are
    indices in the feature matrix, or an iterable over terms. If not
    given, a vocabulary is determined from the input documents.

    binary : boolean, default=False
    If True, all non-zero term counts are set to 1. This does not mean
    outputs will have only 0/1 values, only that the tf term in tf-idf
    is binary. (Set idf and normalization to False to get 0/1 outputs.)

    dtype : type, optional
    Type of the matrix returned by fit_transform() or transform().

    norm : 'l1', 'l2' or None, optional
    Norm used to normalize term vectors. None for no normalization.

    use_idf : boolean, default=True
    Enable inverse-document-frequency reweighting.

    smooth_idf : boolean, default=True
    Smooth idf weights by adding one to document frequencies, as if an
    extra document was seen containing every term in the collection
    exactly once. Prevents zero divisions.

    sublinear_tf : boolean, default=False
    Apply sublinear tf scaling, i.e. replace tf with 1 + log(tf).

    Attributes
    ----------
    vocabulary_ : dict
    A mapping of terms to feature indices.

    idf_ : array, shape = [n_features], or None
    The learned idf vector (global term weights)
    when ``use_idf`` is set to True, None otherwise.

    stop_words_ : set
    Terms that were ignored because they either:

    - occurred in too many documents (`max_df`)
    - occurred in too few documents (`min_df`)
    - were cut off by feature selection (`max_features`).

    This is only available if no vocabulary was given.

    See also
    --------
    CountVectorizer
    Tokenize the documents and count the occurrences of token and
     return
    them as a sparse matrix

    TfidfTransformer
    Apply Term Frequency Inverse Document Frequency normalization to a
    sparse matrix of occurrence counts.

    Notes
    -----
    The ``stop_words_`` attribute can get large and increase the model size
    when pickling. This attribute is provided only for introspection and can
    be safely removed using delattr or set to None before pickling.
    """
    def __init__(self, input='content', encoding='utf-8',
        decode_error='strict', strip_accents=None, lowercase=True,
        preprocessor=None, tokenizer=None, analyzer='word',
        stop_words=None, token_pattern=r"(?u)\b\w\w+\b",
        ngram_range=(1, 1), max_df=1.0, min_df=1,
        max_features=None, vocabulary=None, binary=False,
        dtype=np.int64, norm='l2', use_idf=True, smooth_idf=True,
        sublinear_tf=False):
        super(TfidfVectorizer, self).__init__(input=input, encoding=encoding,
         decode_error=decode_error, strip_accents=strip_accents,
         lowercase=lowercase, preprocessor=preprocessor, tokenizer=tokenizer,
         analyzer=analyzer, stop_words=stop_words,
         token_pattern=token_pattern, ngram_range=ngram_range,
         max_df=max_df, min_df=min_df, max_features=max_features,
         vocabulary=vocabulary, binary=binary, dtype=dtype)
        self._tfidf = TfidfTransformer(norm=norm, use_idf=use_idf,
            smooth_idf=smooth_idf,
            sublinear_tf=sublinear_tf)

    # Broadcast the TF-IDF parameters to the underlying transformer
     instance
    # for easy grid search and repr
    @property
    def norm(self):
        return self._tfidf.norm

    @norm.setter
    def norm(self, value):
        self._tfidf.norm = value

    @property
    def use_idf(self):
        return self._tfidf.use_idf

    @use_idf.setter
    def use_idf(self, value):
        self._tfidf.use_idf = value

    @property
    def smooth_idf(self):
        return self._tfidf.smooth_idf

    @smooth_idf.setter
    def smooth_idf(self, value):
        self._tfidf.smooth_idf = value

    @property
    def sublinear_tf(self):
        return self._tfidf.sublinear_tf

    @sublinear_tf.setter
    def sublinear_tf(self, value):
        self._tfidf.sublinear_tf = value

    @property
    def idf_(self):
        return self._tfidf.idf_

    def fit(self, raw_documents, y=None):
        """Learn vocabulary and idf from training set.

        Parameters
        ----------
        raw_documents : iterable
            an iterable which yields either str, unicode or file objects

        Returns
        -------
        self : TfidfVectorizer
        """
        X = super(TfidfVectorizer, self).fit_transform(raw_documents)
        self._tfidf.fit(X)
        return self

    def fit_transform(self, raw_documents, y=None):
        """Learn vocabulary and idf, return term-document matrix.

        This is equivalent to fit followed by transform, but more efficiently
        implemented.

        Parameters
        ----------
        raw_documents : iterable
            an iterable which yields either str, unicode or file objects

        Returns
        -------
        X : sparse matrix, [n_samples, n_features]
            Tf-idf-weighted document-term matrix.
        """
        X = super(TfidfVectorizer, self).fit_transform(raw_documents)
        self._tfidf.fit(X)
        # X is already a transformed view of raw_documents so
        # we set copy to False
        return self._tfidf.transform(X, copy=False)

    def transform(self, raw_documents, copy=True):
        """Transform documents to document-term matrix.

        Uses the vocabulary and document frequencies (df) learned by fit (or
        fit_transform).

        Parameters
        ----------
        raw_documents : iterable
            an iterable which yields either str, unicode or file objects

        copy : boolean, default True
            Whether to copy X and operate on the copy or perform in-place
            operations.

        Returns
        -------
        X : sparse matrix, [n_samples, n_features]
            Tf-idf-weighted document-term matrix.
        """
        check_is_fitted(self, '_tfidf', 'The tfidf vector is not fitted')
        X = super(TfidfVectorizer, self).transform(raw_documents)
        return self._tfidf.transform(X, copy=False)
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