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	from .stream import Stream
	from .operator import SingleStreamOperator, StreamInstanceOperator
	from dataclasses import dataclass, field
	from abc import abstractmethod, ABC

	from typing import List, Dict, Any


	def absrtact_factory():
	return {}


	def abstract_field():
	return field(default_factory=absrtact_factory)


	class UpdateStream(StreamInstanceOperator):
	update: dict

	def process(self, instance: Dict[str, Any], stream_name: str = None) -> Dict[str, Any]:
	instance.update(self.update)
	return instance


	class Metric(ABC):
	@property
	@abstractmethod
	def main_score(self):
	pass


	class GlobalMetric(SingleStreamOperator, Metric):
	def process(self, stream: Stream):
	references = []
	predictions = []
	global_score = {}

	instances = []

	for instance in stream:
	if "score" not in instance:
	instance["score"] = {"global": global_score, "instance": {}}
	else:
	global_score = instance["score"]["global"]

	refs, pred = instance["references"], instance["prediction"]

	instance_score = self._compute([refs], [pred])
	instance["score"]["instance"].update(instance_score)

	references.append(refs)
	predictions.append(pred)
	instances.append(instance)

	result = self._compute(references, predictions)

	global_score.update(result)

	for instance in instances:
	instance["score"]["global"] = global_score
	yield instance

	def _compute(self, references: List[List[str]], predictions: List[str]) -> dict:
	result = self.compute(references, predictions)
	result["score"] = result[self.main_score]
	return result

	@abstractmethod
	def compute(self, references: List[List[str]], predictions: List[str]) -> dict:
	pass


	class InstanceMetric(SingleStreamOperator, Metric):
	implemented_reductions: List[str] = field(default_factory=lambda: ["mean"])

	@property
	@abstractmethod
	def reduction_map(self) -> dict:
	pass

	def process(self, stream: Stream):
	global_score = {}
	instances = []

	for instance in stream:
	refs, pred = instance["references"], instance["prediction"]

	instance_score = self._compute(refs, pred)

	if "score" not in instance:
	instance["score"] = {"global": global_score, "instance": {}}
	else:
	global_score = instance["score"]["global"]

	instance["score"]["instance"].update(instance_score)

	instances.append(instance)

	for reduction, fields in self.reduction_map.items():
	assert (
	reduction in self.implemented_reductions
	), f"Reduction {reduction} is not implemented, use one of {self.implemented_reductions}"

	if reduction == "mean":
	from statistics import mean

	for field in fields:
	global_score[field] = mean([instance["score"]["instance"][field] for instance in instances])
	if field == self.main_score:
	global_score["score"] = global_score[field]

	for instance in instances:
	yield instance

	def _compute(self, references: List[List[str]], predictions: List[str]) -> dict:
	result = self.compute(references, predictions)
	result["score"] = result[self.main_score]
	return result

	@abstractmethod
	def compute(self, references: List[str], prediction: str) -> dict:
	pass


	class SingleReferenceInstanceMetric(InstanceMetric):
	def _compute(self, references: List[str], prediction: str) -> dict:
	result = self.compute(references[0], prediction)
	result["score"] = result[self.main_score]
	return result

	@abstractmethod
	def compute(self, reference, prediction: str) -> dict:
	pass


	class Accuracy(SingleReferenceInstanceMetric):
	reduction_map = {"mean": ["accuracy"]}
	main_score = "accuracy"

	def compute(self, reference, prediction: str) -> dict:
	return {"accuracy": float(str(reference) == str(prediction))}