import collections import re import sys import unicodedata from lm_eval.filters.extraction import Filter, RegexFilter class ExtendedRegexFilter(RegexFilter): punct_tbl = dict.fromkeys( i for i in range(sys.maxunicode) if unicodedata.category(chr(i)).startswith("P") ) def __init__( self, regex_pattern: str = r"#### (\-?[0-9\.\,]+)", group_select=0, fallback: str = "[invalid]", ignore_case=False, ignore_punctuation=False, regexes_to_ignore=None, ) -> None: super().__init__(regex_pattern, group_select, fallback) self.ignore_case = ignore_case self.ignore_punctuation = ignore_punctuation self.regexes_to_ignore = regexes_to_ignore def filter_ignores(self, st): if self.regexes_to_ignore is not None: for s in self.regexes_to_ignore: st = re.sub(s, "", st) if self.ignore_case: st = st.lower() if self.ignore_punctuation: # https://stackoverflow.com/a/266162 st = st.translate(self.punct_tbl) return st def find_match(self, regex, resp, convert_dict={}): match = regex.findall(resp) if match: match = match[self.group_select] if isinstance(match, tuple): match = [m for m in match if m][0] match = match.strip() if match and match in convert_dict: match = convert_dict[match] return match class MapRegexFilter(ExtendedRegexFilter): def __init__( self, regex_pattern_to_value: dict = {}, group_select=0, fallback: str = "[invalid]", ignore_case=False, ignore_punctuation=False, regexes_to_ignore=None, ) -> None: """ regex_pattern_to_value: Match the regex pattern and change the result into the value group_select: Selects the (group_select)th match from the findall result. We use the whole regex_patterns, concatenated by | ignore_case: Lowers the case of response before matching with the given regex ignore_punctuation: Remove the punctuation before matching with the given regex regexes_to_ignore: Remove these regexes before matching with the given regex """ super().__init__( "|".join(list(regex_pattern_to_value.keys())), group_select, fallback, ignore_case, ignore_punctuation, regexes_to_ignore, ) self.regex_to_value = { re.compile(r): v for r, v in regex_pattern_to_value.items() } def apply(self, resps, docs): filtered_resps = [] for r in resps: filtered = [] for resp in r: whole_match_considering_group_select = self.find_match( self.regex, self.filter_ignores(resp) ) if whole_match_considering_group_select: for regex, mapped_value in self.regex_to_value.items(): match = self.find_match( regex, self.filter_ignores(whole_match_considering_group_select), ) if match: match = mapped_value break if not whole_match_considering_group_select or not match: match = self.fallback filtered.append(match) filtered_resps.append(filtered) return filtered_resps class NumberParseRegexFilter(ExtendedRegexFilter): def apply(self, resps, docs): # here, we assume we have a list, in which each element is # a list of model responses for some particular input/target pair. # so we process each of these (same input/target response sets) # independently (and keep them a list.) filtered_resps = [] import regex from word2number import w2n # https://www.reddit.com/r/regex/comments/11a38uk/parsing_numbers_written_out_as_english_words english_number_regex = regex.compile( "((?:(?:zero|one|two|three|four|five|(?:twen|thir|for|fif|six|seven|nine)(?|teen|ty)|eight(?:|een|y)|ten|eleven|twelve|fourteen|hundred|thousand|(?:m|b|tr)illion)(?:zero|one|two|three|four|five|(?:twen|thir|for|fif|six|seven|nine)(?:|teen|ty)|eight(?|een|y)|ten|eleven|twelve|fourteen|hundred|thousand|(?:m|b|tr)illion|[^\S\r\n]|,|and|&)+)?(?:zero|one|two|three|four|five|(?:twen|thir|for|fif|six|seven|nine)(?|teen|ty)|eight(?|een|y)|ten|eleven|twelve|fourteen|hundred|thousand|(?:m|b|tr)illion))" ) for r in resps: filtered = [] for resp in r: match = self.find_match(self.regex, resp) if not match: match = self.find_match(english_number_regex, resp.lower()) if match: match = str(w2n.word_to_num(match)) if not match: match = self.fallback filtered.append(match) filtered_resps.append(filtered) return filtered_resps class WordSortFilter(Filter): """ """ def apply(self, resps, docs): filtered_resps = [] for r, doc in zip(resps, docs): words = doc["input"].split("List:")[1].strip().split() regex = re.compile("|".join([f"\\b{w}\\b" for w in words])) filtered = [] for resp in r: match = regex.findall(resp) match.reverse() ordered_words = reversed( collections.OrderedDict(zip(match, [None] * len(match))) ) filtered.append(" ".join(ordered_words)) filtered_resps.append(filtered) return filtered_resps class MultiChoiceRegexFilter(ExtendedRegexFilter): def __init__(self, *args, **kwargs): """ regex_pattern: The basic regex pattern to use. If fails to match, we will use the customized match procedure - step 1 : We parse the choices between ([A-Z])s then try to find these choices in the response. - step 2 : We parse the choice with regex :[\s]*([A-?]), where ? varies by number of choices. group_select: Selects the (group_select)th match from the findall result. ignore_case: Ignores the case during step 1 matching ignore_punctuation: Remove the punctuation during step 1 matching regexes_to_ignore: Remove these regexes during step 1 matching """ super().__init__(*args, **kwargs) def apply(self, resps, docs): # here, we assume we have a list, in which each element is # a list of model responses for some particular input/target pair. # so we process each of these (same input/target response sets) # independently (and keep them a list.) filtered_resps = [] for r, doc in zip(resps, docs): fallback_regexes = [] choice_to_alpha = {} next_alpha = "A" without_paren_fallback_regexes = [] without_paren_to_target = {} multiple_choices_regex = re.compile(r"\([A-Z]\)([^\n^(]*)") match = multiple_choices_regex.findall(doc["input"]) for m in match: m = self.filter_ignores(m.strip()) fallback_regexes.append(f"{re.escape(m)}") choice_to_alpha[m] = f"({next_alpha})" without_paren_fallback_regexes.append(next_alpha) without_paren_to_target[next_alpha] = f"({next_alpha})" next_alpha = chr(ord(next_alpha) + 1) fallback_regex = re.compile("|".join(fallback_regexes)) without_paren_fallback_regex = "|".join(without_paren_fallback_regexes) without_paren_fallback_regex = re.compile( f":[\s]*({without_paren_fallback_regex})" ) filtered = [] for resp in r: match = self.find_match(self.regex, resp) if not match: match = self.find_match( fallback_regex, self.filter_ignores(resp), choice_to_alpha ) if not match: match = self.find_match( without_paren_fallback_regex, resp, without_paren_to_target ) if not match: match = self.fallback filtered.append(match) filtered_resps.append(filtered) return filtered_resps