Add BERTopic.
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戒酒的李白
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import numpy as np
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from itertools import chain
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from typing import List
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from scipy import sparse
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from scipy.sparse import csr_matrix
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from sklearn.feature_extraction.text import CountVectorizer
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class OnlineCountVectorizer(CountVectorizer):
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"""An online variant of the CountVectorizer with updating vocabulary.
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At each `.partial_fit`, its vocabulary is updated based on any OOV words
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it might find. Then, `.update_bow` can be used to track and update
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the Bag-of-Words representation. These functions are separated such that
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the vectorizer can be used in iteration without updating the Bag-of-Words
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representation can might speed up the fitting process. However, the
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`.update_bow` function is used in BERTopic to track changes in the
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topic representations and allow for decay.
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This class inherits its parameters and attributes from:
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`sklearn.feature_extraction.text.CountVectorizer`
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Arguments:
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decay: A value between [0, 1] to weight the percentage of frequencies
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the previous bag-of-words should be decreased. For example,
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a value of `.1` will decrease the frequencies in the bag-of-words
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matrix with 10% at each iteration.
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delete_min_df: Delete words at each iteration from its vocabulary
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that are below a minimum frequency.
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This will keep the resulting bag-of-words matrix small
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such that it does not explode in size with increasing
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vocabulary. If `decay` is None then this equals `min_df`.
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**kwargs: Set of parameters inherited from:
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`sklearn.feature_extraction.text.CountVectorizer`
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In practice, this means that you can still use parameters
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from the original CountVectorizer, like `stop_words` and
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`ngram_range`.
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Attributes:
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X_ (scipy.sparse.csr_matrix) : The Bag-of-Words representation
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Examples:
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```python
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from bertopic.vectorizers import OnlineCountVectorizer
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vectorizer = OnlineCountVectorizer(stop_words="english")
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for index, doc in enumerate(my_docs):
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vectorizer.partial_fit(doc)
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# Update and clean the bow every 100 iterations:
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if index % 100 == 0:
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X = vectorizer.update_bow()
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```
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To use the model in BERTopic:
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```python
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from bertopic import BERTopic
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from bertopic.vectorizers import OnlineCountVectorizer
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vectorizer_model = OnlineCountVectorizer(stop_words="english")
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topic_model = BERTopic(vectorizer_model=vectorizer_model)
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```
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References:
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Adapted from: https://github.com/idoshlomo/online_vectorizers
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"""
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def __init__(self, decay: float = None, delete_min_df: float = None, **kwargs):
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self.decay = decay
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self.delete_min_df = delete_min_df
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super(OnlineCountVectorizer, self).__init__(**kwargs)
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def partial_fit(self, raw_documents: List[str]) -> None:
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"""Perform a partial fit and update vocabulary with OOV tokens.
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Arguments:
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raw_documents: A list of documents
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"""
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if not hasattr(self, "vocabulary_"):
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return self.fit(raw_documents)
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analyzer = self.build_analyzer()
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analyzed_documents = [analyzer(doc) for doc in raw_documents]
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new_tokens = set(chain.from_iterable(analyzed_documents))
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oov_tokens = new_tokens.difference(set(self.vocabulary_.keys()))
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if oov_tokens:
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max_index = max(self.vocabulary_.values())
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oov_vocabulary = dict(
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zip(
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oov_tokens,
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list(range(max_index + 1, max_index + 1 + len(oov_tokens), 1)),
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)
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)
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self.vocabulary_.update(oov_vocabulary)
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return self
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def update_bow(self, raw_documents: List[str]) -> csr_matrix:
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"""Create or update the bag-of-words matrix.
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Update the bag-of-words matrix by adding the newly transformed
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documents. This may add empty columns if new words are found and/or
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add empty rows if new topics are found.
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During this process, the previous bag-of-words matrix might be
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decayed if `self.decay` has been set during init. Similarly, words
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that do not exceed `self.delete_min_df` are removed from its
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vocabulary and bag-of-words matrix.
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Arguments:
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raw_documents: A list of documents
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Returns:
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X_: Bag-of-words matrix
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"""
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if hasattr(self, "X_"):
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X = self.transform(raw_documents)
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# Add empty columns if new words are found
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columns = csr_matrix((self.X_.shape[0], X.shape[1] - self.X_.shape[1]), dtype=int)
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self.X_ = sparse.hstack([self.X_, columns])
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# Add empty rows if new topics are found
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rows = csr_matrix((X.shape[0] - self.X_.shape[0], self.X_.shape[1]), dtype=int)
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self.X_ = sparse.vstack([self.X_, rows])
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# Decay of BoW matrix
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if self.decay is not None:
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self.X_ = self.X_ * (1 - self.decay)
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self.X_ += X
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else:
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self.X_ = self.transform(raw_documents)
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if self.delete_min_df is not None:
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self._clean_bow()
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return self.X_
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def _clean_bow(self) -> None:
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"""Remove words that do not exceed `self.delete_min_df`."""
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# Only keep words with a minimum frequency
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indices = np.where(self.X_.sum(0) >= self.delete_min_df)[1]
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indices_dict = {index: index for index in indices}
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self.X_ = self.X_[:, indices]
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# Update vocabulary with new words
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new_vocab = {}
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vocabulary_dict = {v: k for k, v in self.vocabulary_.items()}
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for i, index in enumerate(indices):
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if indices_dict.get(index) is not None:
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new_vocab[vocabulary_dict[index]] = i
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self.vocabulary_ = new_vocab
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