class sklearn.feature_extraction.text.HashingVectorizer(input=’content’, encoding=’utf-8’, decode_error=’strict’, strip_accents=None, lowercase=True, preprocessor=None, tokenizer=None, stop_words=None, token_pattern=’(?u)\b\w\w+\b’, ngram_range=(1, 1), analyzer=’word’, n_features=1048576, binary=False, norm=’l2’, alternate_sign=True, non_negative=False, dtype=<class ‘numpy.float64’>)
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Convert a collection of text documents to a matrix of token occurrences
It turns a collection of text documents into a scipy.sparse matrix holding token occurrence counts (or binary occurrence information), possibly normalized as token frequencies if norm=’l1’ or projected on the euclidean unit sphere if norm=’l2’.
This text vectorizer implementation uses the hashing trick to find the token string name to feature integer index mapping.
This strategy has several advantages:
There are also a couple of cons (vs using a CountVectorizer with an in-memory vocabulary):
The hash function employed is the signed 32-bit version of Murmurhash3.
Read more in the User Guide.
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, default=’utf-8’ 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 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’, ‘char_wb’} or callable Whether the feature should be made of word or character n-grams. Option ‘char_wb’ creates character n-grams only from text inside word boundaries; n-grams at the edges of words are padded with space. 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 ngram_range : tuple (min_n, max_n), default=(1, 1) 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 ‘english’, a built-in stop word list for English is used. If a list, that list is assumed to contain stop words, all of which will be removed from the resulting tokens. Only applies if lowercase : boolean, default=True Convert all characters to lowercase before tokenizing. token_pattern : string Regular expression denoting what constitutes a “token”, only used if n_features : integer, default=(2 ** 20) The number of features (columns) in the output matrices. Small numbers of features are likely to cause hash collisions, but large numbers will cause larger coefficient dimensions in linear learners. norm : ‘l1’, ‘l2’ or None, optional Norm used to normalize term vectors. None for no normalization. binary : boolean, default=False. If True, all non zero counts are set to 1. This is useful for discrete probabilistic models that model binary events rather than integer counts. dtype : type, optional Type of the matrix returned by fit_transform() or transform(). alternate_sign : boolean, optional, default True When True, an alternating sign is added to the features as to approximately conserve the inner product in the hashed space even for small n_features. This approach is similar to sparse random projection. New in version 0.19. non_negative : boolean, optional, default False When True, an absolute value is applied to the features matrix prior to returning it. When used in conjunction with alternate_sign=True, this significantly reduces the inner product preservation property. Deprecated since version 0.19: This option will be removed in 0.21. |
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See also
build_analyzer () | Return a callable that handles preprocessing and tokenization |
build_preprocessor () | Return a function to preprocess the text before tokenization |
build_tokenizer () | Return a function that splits a string into a sequence of tokens |
decode (doc) | Decode the input into a string of unicode symbols |
fit (X[, y]) | Does nothing: this transformer is stateless. |
fit_transform (X[, y]) | Fit to data, then transform it. |
get_params ([deep]) | Get parameters for this estimator. |
get_stop_words () | Build or fetch the effective stop words list |
partial_fit (X[, y]) | Does nothing: this transformer is stateless. |
set_params (**params) | Set the parameters of this estimator. |
transform (X) | Transform a sequence of documents to a document-term matrix. |
__init__(input=’content’, encoding=’utf-8’, decode_error=’strict’, strip_accents=None, lowercase=True, preprocessor=None, tokenizer=None, stop_words=None, token_pattern=’(?u)\b\w\w+\b’, ngram_range=(1, 1), analyzer=’word’, n_features=1048576, binary=False, norm=’l2’, alternate_sign=True, non_negative=False, dtype=<class ‘numpy.float64’>)
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build_analyzer()
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Return a callable that handles preprocessing and tokenization
build_preprocessor()
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Return a function to preprocess the text before tokenization
build_tokenizer()
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Return a function that splits a string into a sequence of tokens
decode(doc)
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Decode the input into a string of unicode symbols
The decoding strategy depends on the vectorizer parameters.
fit(X, y=None)
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Does nothing: this transformer is stateless.
fit_transform(X, y=None, **fit_params)
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Fit to data, then transform it.
Fits transformer to X and y with optional parameters fit_params and returns a transformed version of X.
Parameters: |
X : numpy array of shape [n_samples, n_features] Training set. y : numpy array of shape [n_samples] Target values. |
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Returns: |
X_new : numpy array of shape [n_samples, n_features_new] Transformed array. |
get_params(deep=True)
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Get parameters for this estimator.
Parameters: |
deep : boolean, optional If True, will return the parameters for this estimator and contained subobjects that are estimators. |
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Returns: |
params : mapping of string to any Parameter names mapped to their values. |
get_stop_words()
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Build or fetch the effective stop words list
partial_fit(X, y=None)
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Does nothing: this transformer is stateless.
This method is just there to mark the fact that this transformer can work in a streaming setup.
set_params(**params)
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Set the parameters of this estimator.
The method works on simple estimators as well as on nested objects (such as pipelines). The latter have parameters of the form <component>__<parameter>
so that it’s possible to update each component of a nested object.
Returns: | self : |
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transform(X)
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Transform a sequence of documents to a document-term matrix.
Parameters: |
X : iterable over raw text documents, length = n_samples Samples. Each sample must be a text document (either bytes or unicode strings, file name or file object depending on the constructor argument) which will be tokenized and hashed. |
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Returns: |
X : scipy.sparse matrix, shape = (n_samples, self.n_features) Document-term matrix. |
sklearn.feature_extraction.text.HashingVectorizer
© 2007–2017 The scikit-learn developers
Licensed under the 3-clause BSD License.
http://scikit-learn.org/stable/modules/generated/sklearn.feature_extraction.text.HashingVectorizer.html