import ast import json import re from difflib import get_close_matches from typing import Any, Dict from .operators import FieldOperator, InstanceFieldOperator class ToString(FieldOperator): def process_value(self, text: Any) -> Any: return str(text) class ToStringStripped(FieldOperator): def process_value(self, text: Any) -> Any: return str(text).strip() class SplitStrip(FieldOperator): delimiter: str = " " strip_every_element: bool = False def process_value(self, text: Any) -> Any: return [ x.strip() if self.strip_every_element else x for x in text.split(self.delimiter) ] class ToListByComma(SplitStrip): delimiter = "," strip_every_element = True class ToListByCommaSpace(SplitStrip): delimiter = ", " strip_every_element = True class RegexParser(FieldOperator): """A processor that uses regex in order to parse a string.""" regex: str termination_regex: str = None def process_value(self, text: Any) -> Any: if self.termination_regex is not None and re.fullmatch( self.termination_regex, text ): return [] return re.findall(self.regex, text) class ExtractWithRegex(RegexParser): def process_value(self, text: Any) -> Any: matches = super().process_value(text) if matches: return matches[0] return "" class ListToEmptyEntitiesTuples(FieldOperator): def process_value(self, lst: Any) -> Any: try: return [(str(item), "") for item in lst] except json.JSONDecodeError: return [] class DictOfListsToPairs(FieldOperator): position_key_before_value: bool = True def process_value(self, obj: Any) -> Any: try: result = [] for key, values in obj.items(): for value in values: assert isinstance(value, str) pair = ( (key, value) if self.position_key_before_value else (value, key) ) result.append(pair) return result except: return [] class TakeFirstNonEmptyLine(FieldOperator): def process_value(self, text: Any) -> Any: parts = str(text).strip().split("\n") if len(parts) == 0: return "" return parts[0].strip() class ConvertToBoolean(FieldOperator): def process_value(self, text: Any) -> Any: clean_instance = str(text).strip().lower() if any(w in clean_instance for w in ["no", "not", "wrong", "false"]): return "FALSE" if any(w in clean_instance for w in ["yes", "right", "correct", "true"]): return "TRUE" return "OTHER" class LowerCaseTillPunc(FieldOperator): def process_value(self, text: Any) -> Any: non_empty_line = text.lower() match = re.search(r"[.,!?;]", non_empty_line) if match: # Extract text up to the first punctuation non_empty_line = non_empty_line[: match.start()] return non_empty_line class LowerCase(FieldOperator): def process_value(self, text: Any) -> Any: return text.lower() class Capitalize(FieldOperator): def process_value(self, text: Any) -> Any: return text.capitalize() class GetStringAfter(FieldOperator): substring: str def process_value(self, text: Any) -> Any: return text.split(self.substring, 1)[-1].strip() class MatchClosestOption(InstanceFieldOperator): options_field: str = "options" def process_instance_value(self, value: Any, instance: Dict[str, Any]): options = instance["task_data"][self.options_field] return get_close_matches(value, options, n=1, cutoff=0.0)[0] def process_instance_value(self, value, instance): options = instance[self.options_field] # Get the closest match; n=1 returns the single closest match closest_match = get_close_matches(value, options, n=1, cutoff=0) return closest_match[0] if closest_match else None class Substring(FieldOperator): begin: int = 0 end: int = None def process_value(self, text: Any) -> Any: if self.end is None: return text[self.begin :] return text[self.begin : self.end] class FirstCharacter(FieldOperator): def process_value(self, text: Any) -> Any: match = re.search(r"\s*(\w)", text) if match: return match.groups(0)[0] return "" class TakeFirstWord(FieldOperator): def process_value(self, text: Any) -> Any: match = re.search(r"([-]*[0-9]+(\.([0-9]+))*)|([\w]+)", text) if match: return text[match.start() : match.end()] return "" class YesNoToInt(FieldOperator): def process_value(self, text: Any) -> Any: if text == "yes": return "1" if text == "no": return "0" return text class YesToOneElseZero(FieldOperator): def process_value(self, text: Any) -> Any: if text == "yes": return "1" return "0" class StrToFloatFormat(FieldOperator): def process_value(self, text: Any) -> Any: try: return str(float(text)) except Exception: return str(text) class ToYesOrNone(FieldOperator): def process_value(self, text: Any) -> Any: if text == "yes": return "yes" return "none" class StanceToProCon(FieldOperator): def process_value(self, text: Any) -> Any: if text == "positive": return "PRO" if text in ["negative", "suggestion"]: return "CON" return "none" class StringOrNotString(FieldOperator): string: str def process_value(self, text: Any) -> Any: if "not " + self.string.lower() in text.lower(): return "not " + self.string.lower() if self.string.lower() in text.lower(): return self.string.lower() return text class ExtractMtBenchRatingJudgment(FieldOperator): def process_value(self, text: Any) -> Any: match = re.search(r"\[\[([\d]+\.?[\d]*)\]\]", text) try: return float(match.group(1)) / 10 except: return 0.0 class ExtractMtBenchLabelJudgment(FieldOperator): def process_value(self, text: Any) -> Any: match = re.search(r"\[\[([^\]]+)\]\]", text) try: return str(match.group(1)) except: return "None" class LiteralEval(FieldOperator): def process_value(self, text: Any) -> Any: if text is not None and not isinstance(text, str): raise ValueError( f"LiteralEval: field '{self.field}' is expected to be of 'str' input type, got: {type(text)}" ) if text is None or text == "": return text return ast.literal_eval(text.strip()) class ExtractSafeUnsafeJudgment(FieldOperator): def process_value(self, text: Any) -> Any: first_line = str(text).strip().split("\n")[0].lower() if first_line == "safe": return 1.0 return 0.0