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https://github.com/SickGear/SickGear.git
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e56303798c
Initial SickGear for Python 3.
288 lines
11 KiB
Python
288 lines
11 KiB
Python
#!/usr/bin/env python
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# encoding: utf-8
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from . import fuzz
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from . import utils
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import heapq
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import logging
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from functools import partial
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logger = logging.getLogger(__name__)
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logger.addHandler(logging.NullHandler())
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default_scorer = fuzz.WRatio
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default_processor = utils.full_process
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def extractWithoutOrder(query, choices, processor=default_processor, scorer=default_scorer, score_cutoff=0):
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"""Select the best match in a list or dictionary of choices.
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Find best matches in a list or dictionary of choices, return a
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generator of tuples containing the match and its score. If a dictionary
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is used, also returns the key for each match.
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Arguments:
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query: An object representing the thing we want to find.
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choices: An iterable or dictionary-like object containing choices
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to be matched against the query. Dictionary arguments of
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{key: value} pairs will attempt to match the query against
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each value.
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processor: Optional function of the form f(a) -> b, where a is the query or
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individual choice and b is the choice to be used in matching.
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This can be used to match against, say, the first element of
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a list:
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lambda x: x[0]
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Defaults to fuzzywuzzy.utils.full_process().
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scorer: Optional function for scoring matches between the query and
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an individual processed choice. This should be a function
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of the form f(query, choice) -> int.
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By default, fuzz.WRatio() is used and expects both query and
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choice to be strings.
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score_cutoff: Optional argument for score threshold. No matches with
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a score less than this number will be returned. Defaults to 0.
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Returns:
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Generator of tuples containing the match and its score.
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If a list is used for choices, then the result will be 2-tuples.
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If a dictionary is used, then the result will be 3-tuples containing
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the key for each match.
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For example, searching for 'bird' in the dictionary
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{'bard': 'train', 'dog': 'man'}
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may return
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('train', 22, 'bard'), ('man', 0, 'dog')
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"""
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# Catch generators without lengths
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def no_process(x):
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return x
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try:
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if choices is None or len(choices) == 0:
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return
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except TypeError:
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pass
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# If the processor was removed by setting it to None
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# perfom a noop as it still needs to be a function
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if processor is None:
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processor = no_process
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# Run the processor on the input query.
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processed_query = processor(query)
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if len(processed_query) == 0:
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logger.warning(u"Applied processor reduces input query to empty string, "
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"all comparisons will have score 0. "
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"[Query: \'{0}\']".format(query))
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# Don't run full_process twice
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if scorer in [fuzz.WRatio, fuzz.QRatio,
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fuzz.token_set_ratio, fuzz.token_sort_ratio,
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fuzz.partial_token_set_ratio, fuzz.partial_token_sort_ratio,
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fuzz.UWRatio, fuzz.UQRatio] \
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and processor == utils.full_process:
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processor = no_process
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# Only process the query once instead of for every choice
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if scorer in [fuzz.UWRatio, fuzz.UQRatio]:
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pre_processor = partial(utils.full_process, force_ascii=False)
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scorer = partial(scorer, full_process=False)
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elif scorer in [fuzz.WRatio, fuzz.QRatio,
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fuzz.token_set_ratio, fuzz.token_sort_ratio,
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fuzz.partial_token_set_ratio, fuzz.partial_token_sort_ratio]:
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pre_processor = partial(utils.full_process, force_ascii=True)
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scorer = partial(scorer, full_process=False)
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else:
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pre_processor = no_process
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processed_query = pre_processor(processed_query)
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try:
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# See if choices is a dictionary-like object.
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for key, choice in choices.items():
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processed = pre_processor(processor(choice))
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score = scorer(processed_query, processed)
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if score >= score_cutoff:
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yield (choice, score, key)
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except AttributeError:
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# It's a list; just iterate over it.
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for choice in choices:
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processed = pre_processor(processor(choice))
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score = scorer(processed_query, processed)
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if score >= score_cutoff:
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yield (choice, score)
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def extract(query, choices, processor=default_processor, scorer=default_scorer, limit=5):
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"""Select the best match in a list or dictionary of choices.
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Find best matches in a list or dictionary of choices, return a
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list of tuples containing the match and its score. If a dictionary
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is used, also returns the key for each match.
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Arguments:
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query: An object representing the thing we want to find.
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choices: An iterable or dictionary-like object containing choices
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to be matched against the query. Dictionary arguments of
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{key: value} pairs will attempt to match the query against
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each value.
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processor: Optional function of the form f(a) -> b, where a is the query or
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individual choice and b is the choice to be used in matching.
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This can be used to match against, say, the first element of
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a list:
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lambda x: x[0]
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Defaults to fuzzywuzzy.utils.full_process().
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scorer: Optional function for scoring matches between the query and
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an individual processed choice. This should be a function
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of the form f(query, choice) -> int.
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By default, fuzz.WRatio() is used and expects both query and
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choice to be strings.
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limit: Optional maximum for the number of elements returned. Defaults
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to 5.
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Returns:
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List of tuples containing the match and its score.
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If a list is used for choices, then the result will be 2-tuples.
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If a dictionary is used, then the result will be 3-tuples containing
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the key for each match.
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For example, searching for 'bird' in the dictionary
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{'bard': 'train', 'dog': 'man'}
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may return
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[('train', 22, 'bard'), ('man', 0, 'dog')]
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"""
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sl = extractWithoutOrder(query, choices, processor, scorer)
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return heapq.nlargest(limit, sl, key=lambda i: i[1]) if limit is not None else \
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sorted(sl, key=lambda i: i[1], reverse=True)
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def extractBests(query, choices, processor=default_processor, scorer=default_scorer, score_cutoff=0, limit=5):
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"""Get a list of the best matches to a collection of choices.
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Convenience function for getting the choices with best scores.
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Args:
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query: A string to match against
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choices: A list or dictionary of choices, suitable for use with
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extract().
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processor: Optional function for transforming choices before matching.
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See extract().
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scorer: Scoring function for extract().
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score_cutoff: Optional argument for score threshold. No matches with
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a score less than this number will be returned. Defaults to 0.
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limit: Optional maximum for the number of elements returned. Defaults
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to 5.
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Returns: A a list of (match, score) tuples.
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"""
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best_list = extractWithoutOrder(query, choices, processor, scorer, score_cutoff)
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return heapq.nlargest(limit, best_list, key=lambda i: i[1]) if limit is not None else \
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sorted(best_list, key=lambda i: i[1], reverse=True)
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def extractOne(query, choices, processor=default_processor, scorer=default_scorer, score_cutoff=0):
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"""Find the single best match above a score in a list of choices.
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This is a convenience method which returns the single best choice.
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See extract() for the full arguments list.
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Args:
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query: A string to match against
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choices: A list or dictionary of choices, suitable for use with
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extract().
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processor: Optional function for transforming choices before matching.
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See extract().
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scorer: Scoring function for extract().
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score_cutoff: Optional argument for score threshold. If the best
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match is found, but it is not greater than this number, then
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return None anyway ("not a good enough match"). Defaults to 0.
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Returns:
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A tuple containing a single match and its score, if a match
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was found that was above score_cutoff. Otherwise, returns None.
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"""
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best_list = extractWithoutOrder(query, choices, processor, scorer, score_cutoff)
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try:
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return max(best_list, key=lambda i: i[1])
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except ValueError:
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return None
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def dedupe(contains_dupes, threshold=70, scorer=fuzz.token_set_ratio):
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"""This convenience function takes a list of strings containing duplicates and uses fuzzy matching to identify
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and remove duplicates. Specifically, it uses the process.extract to identify duplicates that
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score greater than a user defined threshold. Then, it looks for the longest item in the duplicate list
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since we assume this item contains the most entity information and returns that. It breaks string
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length ties on an alphabetical sort.
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Note: as the threshold DECREASES the number of duplicates that are found INCREASES. This means that the
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returned deduplicated list will likely be shorter. Raise the threshold for fuzzy_dedupe to be less
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sensitive.
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Args:
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contains_dupes: A list of strings that we would like to dedupe.
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threshold: the numerical value (0,100) point at which we expect to find duplicates.
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Defaults to 70 out of 100
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scorer: Optional function for scoring matches between the query and
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an individual processed choice. This should be a function
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of the form f(query, choice) -> int.
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By default, fuzz.token_set_ratio() is used and expects both query and
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choice to be strings.
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Returns:
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A deduplicated list. For example:
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In: contains_dupes = ['Frodo Baggin', 'Frodo Baggins', 'F. Baggins', 'Samwise G.', 'Gandalf', 'Bilbo Baggins']
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In: fuzzy_dedupe(contains_dupes)
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Out: ['Frodo Baggins', 'Samwise G.', 'Bilbo Baggins', 'Gandalf']
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"""
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extractor = []
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# iterate over items in *contains_dupes*
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for item in contains_dupes:
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# return all duplicate matches found
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matches = extract(item, contains_dupes, limit=None, scorer=scorer)
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# filter matches based on the threshold
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filtered = [x for x in matches if x[1] > threshold]
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# if there is only 1 item in *filtered*, no duplicates were found so append to *extracted*
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if len(filtered) == 1:
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extractor.append(filtered[0][0])
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else:
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# alpha sort
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filtered = sorted(filtered, key=lambda x: x[0])
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# length sort
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filter_sort = sorted(filtered, key=lambda x: len(x[0]), reverse=True)
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# take first item as our 'canonical example'
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extractor.append(filter_sort[0][0])
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# uniquify *extractor* list
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keys = {}
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for e in extractor:
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keys[e] = 1
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extractor = keys.keys()
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# check that extractor differs from contain_dupes (e.g. duplicates were found)
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# if not, then return the original list
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if len(extractor) == len(contains_dupes):
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return contains_dupes
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else:
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return extractor
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