import datasets import evaluate # from harim_scorer import Harimplus_Scorer #no plan to package it to pip import torch import torch.nn.functional as F from transformers import (AutoModelForSeq2SeqLM, AutoTokenizer, PreTrainedTokenizer, PreTrainedTokenizerFast, ) from transformers.tokenization_utils_base import BatchEncoding # for custom tokenizer other than huggingface import pandas as pd from tqdm import tqdm from typing import List, Dict, Union from collections import defaultdict from functools import partial logger = evaluate.logging.get_logger(__name__) CODEBASE_URL='https://huggingface.co/spaces/NCSOFT/harim_plus' PAPER_URL='https://arxiv.org/abs/2211.12118' _CITATION = """\ @inproceedings{son-etal-2022-harim, title = "{H}a{R}i{M}$^+$: Evaluating Summary Quality with Hallucination Risk", author = "Son, Seonil (Simon) and Park, Junsoo and Hwang, Jeong-in and Lee, Junghwa and Noh, Hyungjong and Lee, Yeonsoo", booktitle = "Proceedings of the 2nd Conference of the Asia-Pacific Chapter of the Association for Computational Linguistics and the 12th International Joint Conference on Natural Language Processing", month = nov, year = "2022", address = "Online only", publisher = "Association for Computational Linguistics", url = "https://aclanthology.org/2022.aacl-main.66", pages = "895--924", abstract = "One of the challenges of developing a summarization model arises from the difficulty in measuring the factual inconsistency of the generated text. In this study, we reinterpret the decoder overconfidence-regularizing objective suggested in (Miao et al., 2021) as a hallucination risk measurement to better estimate the quality of generated summaries. We propose a reference-free metric, HaRiM+, which only requires an off-the-shelf summarization model to compute the hallucination risk based on token likelihoods. Deploying it requires no additional training of models or ad-hoc modules, which usually need alignment to human judgments. For summary-quality estimation, HaRiM+ records state-of-the-art correlation to human judgment on three summary-quality annotation sets: FRANK, QAGS, and SummEval. We hope that our work, which merits the use of summarization models, facilitates the progress of both automated evaluation and generation of summary.", } """ _DESCRIPTION = f"""HaRiM+ is a reference-less evaluation metric (i.e. requires only article-summary pair, no reference summary) for summarization which leverages the power of summarization model. Summarization model inside the HaRiM+ will read and evaluate how good the quality of a summary given the paired article. It will work great for ranking the summary-article pairs according to its quality. HaRiM+ is proved effective for benchmarking summarization systems (system-level performance) as well as ranking the article-summary pairs (segment-level performance) in comprehensive aspect such as factuality, consistency, coherency, fluency, and relevance. For details, refer to our [paper]({PAPER_URL}) published in AACL2022. NOTE that for HaRiM+... * predictions = summaries (List[str]) * references = articles (List[str]) Also Note that * higher score = better quality """ _KWARGS_DESCRIPTION = """ HaRiM+ score. Args: For scorer = evaluate.load(): `pretrained_name` (str or pathlib.Path): summarization model checkpoint or path, loaded by transformers.AutoModelForSeq2SeqLM.from_pretrained(). Defaults to Yale-LILY/brio-cnndm-uncased. `tokenizer`: (use when your tokenizer cannot be loaded by from_pretrained)Tokenizer function compatible with transformers.PreTrainedTokenizer. It requires tokenizer.pad_token|eos_token|bos_token and tokenizer.__call__() method for HaRiM+ score computation. For scorer.compute(): `predictions` (list of str): generated summaries `references` (list of str): source articles to be summarized `use_aggregator` (bool=False): if True, average of the scores are returned `bsz` (int=32): batch size for harim to iterate through the given pairs `return_details` (bool=False): whether to show more than harim+ score (returns logppl, harim term. refer to the paper for detail) `tokenwise_score` (bool=False): whether to show tokenwise scores for input pairs (if return_details=False, this is ignored) Returns: 'results' (list of float): harim+ score for each summary-article pair Examples: >>> summaries = ["hello there", "hello there"] >>> articles = ["hello, this is the article to be summarized", "hello, this is the article to be summarized"] >>> scorer = evaluate.load("NCSOFT/harim_plus") #, pretrained_name='PRETRAINEDNAME', tokenizer=TOKENIZER # optional >>> results = scorer.compute(predictions=summaries, references=articles) # use_aggregator=True # optional >>> print([round(v, 2) for v in results["harim+"]]) [float, float] """ class Harimplus_Scorer: def __init__(self, pretrained_name:str='none', tokenizer:Union[PreTrainedTokenizer, PreTrainedTokenizerFast]=None, mixing_factor:float=7., # same as lambda in the paper device:str='cuda', src_maxlen=1024, tgt_maxlen=110, ): self._pretrained_name = pretrained_name self._lambda = mixing_factor self._device = torch.device('cuda') if torch.cuda.is_available() else torch.device('cpu') self._encdec_model = AutoModelForSeq2SeqLM.from_pretrained(self._pretrained_name) if tokenizer is None: self._tokenizer = AutoTokenizer.from_pretrained(self._pretrained_name) else: self._tokenizer = tokenizer self._encdec_model.to(self._device) self._encdec_model.eval() self._src_maxlen = src_maxlen self._tgt_maxlen = tgt_maxlen def _prep_input(self, src_tgt_txts, src_or_tgt='src'): L = self._src_maxlen if src_or_tgt=='src' else self._tgt_maxlen if isinstance(src_tgt_txts, pd.Series): src_tgt_txts=src_tgt_txts.tolist() if src_or_tgt == 'src': src_tgt_txts = [ s.replace("\n", " ") for s in src_tgt_txts ] return self._tokenizer(src_tgt_txts, padding=True, truncation=True, max_length=L, return_tensors='pt') # ModelInput dataclass '''below are helper functions w/o dependency to the self, but included inside the class for ease of use''' def likelihoods(self, logits, force_decode_indices, tgt_mask): probs = F.softmax(logits, dim=-1) probs_force_decode_ = probs.gather(-1, force_decode_indices.unsqueeze(-1)).squeeze() probs_force_decode= probs_force_decode_ * tgt_mask assert probs_force_decode.shape == force_decode_indices.shape return probs_force_decode def log_likelihoods(self, logits, force_decode_indices, tgt_mask): ll = F.log_softmax(logits, dim=-1) ll_force_decode_ = ll.gather(-1, force_decode_indices.unsqueeze(-1)).squeeze() ll_force_decode = ll_force_decode_ * tgt_mask return ll_force_decode def harim(self, s2s_logits, lm_logits, force_decode_indices, tgt_mask ): p_s2s, p_lm = self.likelihoods(s2s_logits, force_decode_indices, tgt_mask), \ self.likelihoods(lm_logits, force_decode_indices, tgt_mask) delta = p_s2s - p_lm margin_linear = (1-delta) / 2 harim = -(1-p_s2s) * margin_linear + 1 return harim # this is -1 * hallucination risk def make_minibatches(self, exs:List[str], bsz:int=32): idx=0 minibatches = [] while True: start = idx end = idx+bsz if start >= len(exs): break minibatches.append( exs[start:end] ) idx += bsz return minibatches def make_empty_minibatches(self, minibatches:List[List[str]]): e_minibatches = minibatches.copy() for i, mb in enumerate(e_minibatches): e_minibatches[i] = ['' for ex in mb] return e_minibatches def compute(self, predictions:List[str], references:List[str], bsz:int=32, use_aggregator:bool=False, return_details:bool=False, # tokenwise_score:bool=False, ): ''' returns harim+ score (List[float]) for predictions (summaries) and references (articles) **Note** - here, predictions = generated summaries to be evaluated, references = article to be summarized (but to follow the convention of the evaluate, we named kwarg as "references") - log_ppl equals to bartscore (yuan et al., neurips 2021) if tokenwise_score: returns minibatch chunks of harim+ scores and log-likelihoods with tokenized predictions (List[str]) if use_aggregator: returning scores are aggregated (mean) over given test set ''' # tokenize/prep src/tgts make_minibatches_bsz = partial(self.make_minibatches, bsz=bsz) summaries = predictions articles = references b_srcs, b_tgts = map(make_minibatches_bsz, [articles, summaries]) b_emps = self.make_empty_minibatches(b_srcs) scores=defaultdict(list) for mini_s, mini_e, mini_t in tqdm(zip(b_srcs, b_emps, b_tgts), total=len(b_tgts), desc=f"computing HaRiM+ {bsz=}, core={self._pretrained_name}"): src_in = self._prep_input(mini_s, src_or_tgt='src') emp_in = self._prep_input(mini_e, src_or_tgt='src') tgt_in = self._prep_input(mini_t, src_or_tgt='tgt') if emp_in.input_ids.shape[-1]==0: # emp_in.input_ids.shape == (32,0) boseos = f"{self._tokenizer.bos_token}{self._tokenizer.eos_token}" mini_e_ = [boseos for _ in range(len(mini_e))] emp_in = self._prep_input( mini_e_, src_or_tgt='src' ) tgt_mask = tgt_in.attention_mask # torch.Tensor # if not tokenizer loaded from huggingface, this might cause some problem (.to(device)) if not isinstance(src_in, BatchEncoding): src_in = BatchEncoding(src_in) if not isinstance(emp_in, BatchEncoding): emp_in = BatchEncoding(emp_in) if not isinstance(tgt_in, BatchEncoding): tgt_in = BatchEncoding(tgt_in) src_in = src_in.to(self._device) emp_in = emp_in.to(self._device) tgt_in = tgt_in.to(self._device) tgt_mask = tgt_mask.to(self._device) fill_ignore_mask = ~(tgt_mask.bool()) with torch.no_grad(): # token_type_ids attribute causes error s2s_logits = self._encdec_model.forward( input_ids = src_in.input_ids, attention_mask = src_in.attention_mask, labels = tgt_in.input_ids.masked_fill(fill_ignore_mask, -100), return_dict=True).logits lm_logits = self._encdec_model.forward( input_ids = emp_in.input_ids, attention_mask = emp_in.attention_mask, labels = tgt_in.input_ids.masked_fill(fill_ignore_mask, -100), return_dict=True).logits sent_lengths = tgt_mask.sum(-1) ll_tok = self.log_likelihoods(s2s_logits, tgt_in.input_ids, tgt_mask) ll = ll_tok.sum(-1) / sent_lengths harim_tok = self.harim(s2s_logits, lm_logits, tgt_in.input_ids, tgt_mask) harim = harim_tok.sum(-1) / sent_lengths harim_plus_normalized = (ll + self._lambda * harim) # loglikelihood + lambda * negative_harim (negative harim=-1* risk) scores['harim+'].extend(harim_plus_normalized.tolist()) scores['harim'].extend(harim.tolist()) scores['log_ppl'].extend(ll.tolist()) # if tokenwise_score: # scores['tok_harim+'].append(harim_tok*self._lambda + ll_tok) # scores['tok_predictions'].append( [self._tokenizer.convert_ids_to_token(idxs) for idxs in src_in.labels] ) if use_aggregator: # after for k, v in scores.items(): if not k.startswith('tok_'): scores[k] = sum(v)/len(v) # aggregate (mean) scores['lambda'] = self._lambda if not return_details: scores = scores['harim+'] return scores @evaluate.utils.file_utils.add_start_docstrings(_DESCRIPTION, _KWARGS_DESCRIPTION) class Harimplus(evaluate.Metric): def __init__(self, pretrained_name='facebook/bart-large-cnn', tokenizer=None, device='cuda', **kwargs ): super().__init__(**kwargs) self.myconfig = dict( pretrained_name=pretrained_name, tokenizer=tokenizer, device=device, ) def _info(self): return evaluate.MetricInfo( description=_DESCRIPTION, citation=_CITATION, homepage=CODEBASE_URL, inputs_description=_KWARGS_DESCRIPTION, features=datasets.Features( { "predictions": datasets.Value("string", id="sequence"), "references": datasets.Value("string", id="sequence"), } ), codebase_urls=[CODEBASE_URL], reference_urls=[CODEBASE_URL, PAPER_URL], ) def _download_and_prepare(self, dl_manager): pretrained_name = self.myconfig['pretrained_name'] is_custom_tokenizer = self.myconfig['tokenizer'] is not None logger.warning( "Loading HaRiM+ score" f"\tpretrained_name = {pretrained_name}" ) if is_custom_tokenizer: logger.warning( f"tokenizer is overriden by \n\tself.myconfig['tokenizer']" ) logger.warning( "You can change checkpoints with `pretrained_name` kwarg in evaluate.load. Strongly recommend to use *-large or larger ones." "Refrain from using checkpoints trained on noisy corpus such as bbc-XSUM.") # download the model checkpoint specified by self.myconfig_name and set up the scorer self.scorer = Harimplus_Scorer(**self.myconfig) def _compute(self, predictions=None, references=None, use_aggregator=False, bsz=32, return_details=False): # tokenwise_score=False, summaries = predictions articles = references scores = self.scorer.compute(predictions=summaries, references=articles, use_aggregator=use_aggregator, bsz=bsz, #tokenwise_score=tokenwise_score, return_details=return_details) return scores