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utils.py
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utils.py
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import itertools
import json
import linecache
import os
import pickle
import warnings
from logging import getLogger
from pathlib import Path
from typing import Callable, Dict, Iterable, List
import git
import numpy as np
import torch
from rouge_score import rouge_scorer, scoring
from sacrebleu import corpus_bleu
from torch import nn
from torch.utils.data import Dataset, Sampler
from transformers import BartTokenizer
def label_smoothed_nll_loss(lprobs, target, epsilon, ignore_index=-100):
"""From fairseq"""
if target.dim() == lprobs.dim() - 1:
target = target.unsqueeze(-1)
nll_loss = -lprobs.gather(dim=-1, index=target)
smooth_loss = -lprobs.sum(dim=-1, keepdim=True)
if ignore_index is not None:
pad_mask = target.eq(ignore_index)
nll_loss.masked_fill_(pad_mask, 0.0)
smooth_loss.masked_fill_(pad_mask, 0.0)
bs = pad_mask.long().sum()
else:
nll_loss = nll_loss.squeeze(-1)
smooth_loss = smooth_loss.squeeze(-1)
bs = lprobs.shape[0]
nll_loss = nll_loss.sum() # mean()? Scared to break other math.
smooth_loss = smooth_loss.sum()
eps_i = epsilon / lprobs.size(-1)
loss = (1.0 - epsilon) * nll_loss + eps_i * smooth_loss
return loss / bs, nll_loss / bs
def encode_line(tokenizer, line, max_length, pad_to_max_length=True, return_tensors="pt"):
extra_kw = {"add_prefix_space": True} if isinstance(tokenizer, BartTokenizer) else {}
return tokenizer(
[line],
max_length=max_length,
padding="max_length" if pad_to_max_length else None,
truncation=True,
return_tensors=return_tensors,
**extra_kw,
)
def lmap(f: Callable, x: Iterable) -> List:
"""list(map(f, x))"""
return list(map(f, x))
def calculate_bleu_score(output_lns, refs_lns, **kwargs) -> dict:
"""Uses sacrebleu's corpus_bleu implementation."""
return {"bleu": corpus_bleu(output_lns, [refs_lns], **kwargs).score}
def trim_batch(
input_ids, pad_token_id, attention_mask=None,
):
"""Remove columns that are populated exclusively by pad_token_id"""
keep_column_mask = input_ids.ne(pad_token_id).any(dim=0)
if attention_mask is None:
return input_ids[:, keep_column_mask]
else:
return (input_ids[:, keep_column_mask], attention_mask[:, keep_column_mask])
class Seq2SeqDataset(Dataset):
def __init__(
self,
tokenizer,
data_dir,
max_source_length,
max_target_length,
type_path="train",
n_obs=None,
src_lang=None,
tgt_lang=None,
prefix="",
):
super().__init__()
self.src_file = Path(data_dir).joinpath(type_path + ".source")
self.tgt_file = Path(data_dir).joinpath(type_path + ".target")
self.src_lens = self.get_char_lens(self.src_file)
self.max_source_length = max_source_length
self.max_target_length = max_target_length
assert min(self.src_lens) > 0, f"found empty line in {self.src_file}"
self.tokenizer = tokenizer
self.prefix = prefix
if n_obs is not None:
self.src_lens = self.src_lens[:n_obs]
self.pad_token_id = self.tokenizer.pad_token_id
self.src_lang = src_lang
self.tgt_lang = tgt_lang
def __len__(self):
return len(self.src_lens)
def __getitem__(self, index) -> Dict[str, torch.Tensor]:
index = index + 1 # linecache starts at 1
source_line = self.prefix + linecache.getline(str(self.src_file), index).rstrip("\n")
tgt_line = linecache.getline(str(self.tgt_file), index).rstrip("\n")
assert source_line, f"empty source line for index {index}"
assert tgt_line, f"empty tgt line for index {index}"
source_inputs = encode_line(self.tokenizer, source_line, self.max_source_length)
target_inputs = encode_line(self.tokenizer, tgt_line, self.max_target_length)
source_ids = source_inputs["input_ids"].squeeze()
target_ids = target_inputs["input_ids"].squeeze()
src_mask = source_inputs["attention_mask"].squeeze()
return {
"input_ids": source_ids,
"attention_mask": src_mask,
"decoder_input_ids": target_ids,
}
@staticmethod
def get_char_lens(data_file):
return [len(x) for x in Path(data_file).open().readlines()]
@staticmethod
def trim_seq2seq_batch(batch, pad_token_id) -> tuple:
y = trim_batch(batch["decoder_input_ids"], pad_token_id)
source_ids, source_mask = trim_batch(batch["input_ids"], pad_token_id, attention_mask=batch["attention_mask"])
return source_ids, source_mask, y
def collate_fn(self, batch) -> Dict[str, torch.Tensor]:
input_ids = torch.stack([x["input_ids"] for x in batch])
masks = torch.stack([x["attention_mask"] for x in batch])
target_ids = torch.stack([x["decoder_input_ids"] for x in batch])
pad_token_id = self.pad_token_id
y = trim_batch(target_ids, pad_token_id)
source_ids, source_mask = trim_batch(input_ids, pad_token_id, attention_mask=masks)
batch = {
"input_ids": source_ids,
"attention_mask": source_mask,
"decoder_input_ids": y,
}
return batch
def make_sortish_sampler(self, batch_size):
return SortishSampler(self.src_lens, batch_size)
class MBartDataset(Seq2SeqDataset):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
if self.max_source_length != self.max_target_length:
warnings.warn(
f"Mbart will ignore max_target_length = {self.max_target_length} and use {self.max_source_length} for both sides."
)
def __getitem__(self, index) -> Dict[str, str]:
index = index + 1 # linecache starts at 1
source_line = self.prefix + linecache.getline(str(self.src_file), index).rstrip("\n")
tgt_line = linecache.getline(str(self.tgt_file), index).rstrip("\n")
assert source_line, f"empty source line for index {index}"
assert tgt_line, f"empty tgt line for index {index}"
return {
"tgt_texts": tgt_line,
"src_texts": source_line,
}
def collate_fn(self, batch) -> Dict[str, torch.Tensor]:
batch_encoding = self.tokenizer.prepare_translation_batch(
[x["src_texts"] for x in batch],
src_lang=self.src_lang,
tgt_texts=[x["tgt_texts"] for x in batch],
tgt_lang=self.tgt_lang,
max_length=self.max_source_length,
)
return batch_encoding.data
class SortishSampler(Sampler):
"Go through the text data by order of src length with a bit of randomness. From fastai repo."
def __init__(self, data, batch_size):
self.data, self.bs = data, batch_size
def key(self, i):
return self.data[i]
def __len__(self) -> int:
return len(self.data)
def __iter__(self):
idxs = np.random.permutation(len(self.data))
sz = self.bs * 50
ck_idx = [idxs[i : i + sz] for i in range(0, len(idxs), sz)]
sort_idx = np.concatenate([sorted(s, key=self.key, reverse=True) for s in ck_idx])
sz = self.bs
ck_idx = [sort_idx[i : i + sz] for i in range(0, len(sort_idx), sz)]
max_ck = np.argmax([self.key(ck[0]) for ck in ck_idx]) # find the chunk with the largest key,
ck_idx[0], ck_idx[max_ck] = ck_idx[max_ck], ck_idx[0] # then make sure it goes first.
sort_idx = np.concatenate(np.random.permutation(ck_idx[1:])) if len(ck_idx) > 1 else np.array([], dtype=np.int)
sort_idx = np.concatenate((ck_idx[0], sort_idx))
return iter(sort_idx)
logger = getLogger(__name__)
def use_task_specific_params(model, task):
"""Update config with summarization specific params."""
task_specific_params = model.config.task_specific_params
if task_specific_params is not None:
pars = task_specific_params.get(task, {})
logger.info(f"using task specific params for {task}: {pars}")
model.config.update(pars)
def pickle_load(path):
"""pickle.load(path)"""
with open(path, "rb") as f:
return pickle.load(f)
def pickle_save(obj, path):
"""pickle.dump(obj, path)"""
with open(path, "wb") as f:
return pickle.dump(obj, f)
def flatten_list(summary_ids: List[List]):
return [x for x in itertools.chain.from_iterable(summary_ids)]
def save_git_info(folder_path: str) -> None:
"""Save git information to output_dir/git_log.json"""
repo_infos = get_git_info()
save_json(repo_infos, os.path.join(folder_path, "git_log.json"))
def save_json(content, path):
with open(path, "w") as f:
json.dump(content, f, indent=4)
def load_json(path):
with open(path) as f:
return json.load(f)
def get_git_info():
repo = git.Repo(search_parent_directories=True)
repo_infos = {
"repo_id": str(repo),
"repo_sha": str(repo.head.object.hexsha),
"repo_branch": str(repo.active_branch),
}
return repo_infos
ROUGE_KEYS = ["rouge1", "rouge2", "rougeL"]
def calculate_rouge(output_lns: List[str], reference_lns: List[str], use_stemmer=True) -> Dict:
scorer = rouge_scorer.RougeScorer(ROUGE_KEYS, use_stemmer=use_stemmer)
aggregator = scoring.BootstrapAggregator()
for reference_ln, output_ln in zip(reference_lns, output_lns):
scores = scorer.score(reference_ln, output_ln)
aggregator.add_scores(scores)
result = aggregator.aggregate()
return {k: v.mid.fmeasure for k, v in result.items()}
def freeze_params(model: nn.Module):
for par in model.parameters():
par.requires_grad = False
def grad_status(model: nn.Module) -> Iterable:
return (par.requires_grad for par in model.parameters())
def any_requires_grad(model: nn.Module) -> bool:
return any(grad_status(model))
def assert_all_frozen(model):
model_grads: List[bool] = list(grad_status(model))
n_require_grad = sum(lmap(int, model_grads))
npars = len(model_grads)
assert not any(model_grads), f"{n_require_grad/npars:.1%} of {npars} weights require grad"
def assert_not_all_frozen(model):
model_grads: List[bool] = list(grad_status(model))
npars = len(model_grads)
assert any(model_grads), f"none of {npars} weights require grad"