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# Copyright 2022 The HuggingFace Datasets Authors and the current dataset script contributor.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Perplexity Metric."""
import datasets
import numpy as np
import torch
from torch.nn import CrossEntropyLoss
from transformers import AutoModelForCausalLM, AutoTokenizer
import evaluate
_CITATION = """\
"""
_DESCRIPTION = """
Perplexity (PPL) is one of the most common metrics for evaluating language models.
It is defined as the exponentiated average negative log-likelihood of a sequence, calculated with exponent base `e`.
For more information, see https://huggingface.co/docs/transformers/perplexity
"""
_KWARGS_DESCRIPTION = """
Args:
model_id (str): model used for calculating Perplexity
NOTE: Perplexity can only be calculated for causal language models.
This includes models such as gpt2, causal variations of bert,
causal versions of t5, and more (the full list can be found
in the AutoModelForCausalLM documentation here:
https://huggingface.co/docs/transformers/master/en/model_doc/auto#transformers.AutoModelForCausalLM )
predictions (list of str): input text, each separate text snippet
is one list entry.
batch_size (int): the batch size to run texts through the model. Defaults to 16.
add_start_token (bool): whether to add the start token to the texts,
so the perplexity can include the probability of the first word. Defaults to True.
device (str): device to run on, defaults to 'cuda' when available
Returns:
perplexity: dictionary containing the perplexity scores for the texts
in the input list, as well as the mean perplexity. If one of the input texts is
longer than the max input length of the model, then it is truncated to the
max length for the perplexity computation.
Examples:
Example 1:
>>> perplexity = evaluate.load("perplexity", module_type="metric")
>>> input_texts = ["lorem ipsum", "Happy Birthday!", "Bienvenue"]
>>> results = perplexity.compute(model_id='gpt2',
... add_start_token=False,
... predictions=input_texts) # doctest:+ELLIPSIS
>>> print(list(results.keys()))
['perplexities', 'mean_perplexity']
>>> print(round(results["mean_perplexity"], 0))
647.0
>>> print(round(results["perplexities"][0], 0))
32.0
Example 2:
>>> from datasets import load_dataset
>>> perplexity = evaluate.load("perplexity", module_type="metric")
>>> input_texts = load_dataset("wikitext", "wikitext-2-raw-v1", split="test")["text"][:10] # doctest: +SKIP
>>> input_texts = [s for s in input_texts if s!='']
>>> results = perplexity.compute(model_id='gpt2',
... predictions=input_texts)
>>> print(list(results.keys()))
['perplexities', 'mean_perplexity']
>>> print(round(results["mean_perplexity"], 2)) # doctest: +SKIP
576.76
>>> print(round(results["perplexities"][0], 2)) # doctest: +SKIP
889.28
"""
@evaluate.utils.file_utils.add_start_docstrings(_DESCRIPTION, _KWARGS_DESCRIPTION)
class Perplexity(evaluate.Metric):
def _info(self):
return evaluate.MetricInfo(
module_type="metric",
description=_DESCRIPTION,
citation=_CITATION,
inputs_description=_KWARGS_DESCRIPTION,
features=datasets.Features(
{
"predictions": datasets.Value("string"),
}
),
reference_urls=["https://huggingface.co/docs/transformers/perplexity"],
)
def _compute(
self, predictions, model_id, batch_size: int = 16, add_start_token: bool = True, device=None, max_length=None, trust_remote_code=False,
):
if device is not None:
assert device in ["gpu", "cpu", "cuda"], "device should be either gpu or cpu."
if device == "gpu":
device = "cuda"
else:
device = "cuda" if torch.cuda.is_available() else "cpu"
model = AutoModelForCausalLM.from_pretrained(model_id, trust_remote_code=trust_remote_code)
model = model.to(device)
tokenizer = AutoTokenizer.from_pretrained(model_id, trust_remote_code=trust_remote_code)
# if batch_size > 1 (which generally leads to padding being required), and
# if there is not an already assigned pad_token, assign an existing
# special token to also be the padding token
if tokenizer.pad_token is None and batch_size > 1:
existing_special_tokens = list(tokenizer.special_tokens_map_extended.values())
# check that the model already has at least one special token defined
assert (
len(existing_special_tokens) > 0
), "If batch_size > 1, model must have at least one special token to use for padding. Please use a different model or set batch_size=1."
# assign one of the special tokens to also be the pad token
tokenizer.add_special_tokens({"pad_token": existing_special_tokens[0]})
if add_start_token and max_length:
# leave room for <BOS> token to be added:
assert (
tokenizer.bos_token is not None
), "Input model must already have a BOS token if using add_start_token=True. Please use a different model, or set add_start_token=False"
max_tokenized_len = max_length - 1
else:
max_tokenized_len = max_length
encodings = tokenizer(
predictions,
add_special_tokens=False,
padding=True,
truncation=True if max_tokenized_len else False,
max_length=max_tokenized_len,
return_tensors="pt",
return_attention_mask=True,
).to(device)
encoded_texts = encodings["input_ids"]
attn_masks = encodings["attention_mask"]
# check that each input is long enough:
if add_start_token:
assert torch.all(torch.ge(attn_masks.sum(1), 1)), "Each input text must be at least one token long."
else:
assert torch.all(
torch.ge(attn_masks.sum(1), 2)
), "When add_start_token=False, each input text must be at least two tokens long. Run with add_start_token=True if inputting strings of only one token, and remove all empty input strings."
ppls = []
loss_fct = CrossEntropyLoss(reduction="none")
for start_index in range(0, len(encoded_texts), batch_size):
end_index = min(start_index + batch_size, len(encoded_texts))
encoded_batch = encoded_texts[start_index:end_index]
attn_mask = attn_masks[start_index:end_index]
if add_start_token:
bos_tokens_tensor = torch.tensor([[tokenizer.bos_token_id]] * encoded_batch.size(dim=0)).to(device)
encoded_batch = torch.cat([bos_tokens_tensor, encoded_batch], dim=1)
attn_mask = torch.cat(
[torch.ones(bos_tokens_tensor.size(), dtype=torch.int64).to(device), attn_mask], dim=1
)
labels = encoded_batch
with torch.no_grad():
out_logits = model(encoded_batch, attention_mask=attn_mask).logits
shift_logits = out_logits[..., :-1, :].contiguous()
shift_labels = labels[..., 1:].contiguous()
shift_attention_mask_batch = attn_mask[..., 1:].contiguous()
perplexity_batch = torch.exp(
(loss_fct(shift_logits.transpose(1, 2), shift_labels) * shift_attention_mask_batch).sum(1)
/ shift_attention_mask_batch.sum(1)
)
ppls += perplexity_batch.tolist()
return {"perplexities": ppls, "mean_perplexity": np.mean(ppls)}
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