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tlem / tlem.py

Zhuoyang Song

Delete: print extraction info

868c1b2 8 months ago

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	# %%

	try:
	from ipytorch import logging
	except Exception as e:
	import logging

	from typing import Any, Optional, Protocol, Iterable, Callable
	from numpy.lib import extract
	from tqdm.auto import tqdm
	from evaluate.evaluation_suite import EvaluationSuite
	import evaluate
	import numpy as np
	import datasets
	import pandas as pd
	from .tasks import *
	from .utils import is_equiv


	class ReasoningMetric(evaluate.Metric):
	"""TODO: Short description of my evaluation module."""

	def _info(self):
	# if self.config_name in ["cmmlu"]:
	features = datasets.Features(
	{
	"responses": datasets.Value("string"),
	# "responses": datasets.Sequence(datasets.Value("float")),
	"references": datasets.Value("string"),
	}
	)

	# TODO: Specifies the evaluate.EvaluationModuleInfo object
	return evaluate.EvaluationModuleInfo(
	# This is the description that will appear on the modules page.
	# module_type="measurement",
	description="",
	citation="",
	inputs_description="",
	# This defines the format of each prediction and reference
	features=features,
	# Homepage of the module for documentation
	homepage="http://module.homepage",
	# Additional links to the codebase or references
	codebase_urls=["http://github.com/path/to/codebase/of/new_module"],
	reference_urls=["http://path.to.reference.url/new_module"],
	)

	def _compute(self, responses, references, verbose=False):
	extract_responses, extract_references = getattr(Metrics, self.config_name)(
	responses, references
	)
	df = pd.DataFrame(
	{
	"responses": responses,
	"references": references,
	}
	)
	df["extract_responses"] = extract_responses
	df["extract_references"] = extract_references
	# print(df)
	results = {
	"Accuracy": (df["extract_references"] == df["extract_responses"])
	.astype(int)
	.mean(),
	}
	logging.info(results)
	if verbose:
	results["df"] = df
	return results


	class Suite(EvaluationSuite):
	task_class = Task

	def run(
	self,
	model_or_pipeline: Any,
	) -> dict[str, float]:
	self.assert_suite_nonempty()

	def run_tasks(tasks):
	for task in (bar := tqdm(tasks, leave=False)):
	bar.desc = f"complete {task.name}."
	if task.name not in self.cached_result:
	self.cached_result[task.name] = task.run(model_or_pipeline)
	results = [self.cached_result[task.name] for task in tasks]
	return pd.DataFrame(results).mean().to_dict()

	if isinstance(self.suite, dict):
	for category, tasks in (bar := tqdm(self.suite.items())):
	bar.desc = f"complete {category}."
	logging.warning(f"Combined results {category}: {run_tasks(tasks)}")
	else:
	logging.warning(f"Combined results: {run_tasks(self.suite)}")

	return self.cached_result

	def add(self, name):
	self.load(name)

	def load(self, name):
	chat = False
	match name:
	case _ if "chat" in name:
	chat = True
	match name:
	case _ if name.startswith("mmlu"):
	suite = MMLU.suite(chat=chat)
	case _ if name.startswith("cmmlu"):
	suite = CMMLU.suite(chat=chat)
	case "gsm8k":
	suite = Task(
	dataset_name=("gsm8k", "main"),
	metric_name=("sustech/tlem", "gsm8k"),
	input_column="question",
	label_column="answer",
	)
	case "bbh":
	suite = BBH.suite()
	case "arc":
	suite = ARC.suite()
	case "hellaswag":
	suite = HellaSwag.suite()
	case "drop":
	suite = DROP.suite()
	case "winogrande":
	suite = Winogrande.suite()
	case _ if name.startswith("ceval"):
	suite = CEVAL.suite(chat=chat)
	case "mt_bench":
	suite = Task(
	dataset_name="SUSTech/mt_bench_judge",
	split="train",
	prompt=mt_bench_prompt
	# metric_name=("sustech/tlem", "gsm8k"),
	)
	match name:
	case _ if "test" in name:
	suite = suite["Test"]

	self.suite = [suite] if isinstance(suite, Task) else suite

	def __init__(self, name="tlem"):
	super().__init__(name)
	self.cached_result = {}
	self.suite = []