import argparse
import copy
import logging
import os
from typing import Any, Dict, Iterator, List
import torch
from omegaconf import open_dict
from torch import nn
from fairseq import utils
from fairseq.data import encoders
logger = logging.getLogger(__name__)
def from_pretrained(
model_name_or_path,
checkpoint_file="model.pt",
data_name_or_path=".",
archive_map=None,
**kwargs
):
from fairseq import checkpoint_utils, file_utils
if archive_map is not None:
if model_name_or_path in archive_map:
model_name_or_path = archive_map[model_name_or_path]
if data_name_or_path is not None and data_name_or_path in archive_map:
data_name_or_path = archive_map[data_name_or_path]
if isinstance(model_name_or_path, dict):
for k, v in model_name_or_path.items():
if k == "checkpoint_file":
checkpoint_file = v
elif (
k != "path"
and k not in kwargs
):
kwargs[k] = v
model_name_or_path = model_name_or_path["path"]
model_path = file_utils.load_archive_file(model_name_or_path)
if data_name_or_path.startswith("."):
kwargs["data"] = os.path.abspath(os.path.join(model_path, data_name_or_path))
else:
kwargs["data"] = file_utils.load_archive_file(data_name_or_path)
for file, arg in {
"code": "bpe_codes",
"bpecodes": "bpe_codes",
"sentencepiece.bpe.model": "sentencepiece_model",
"merges.txt": "bpe_merges",
"vocab.json": "bpe_vocab",
}.items():
path = os.path.join(model_path, file)
if os.path.exists(path):
kwargs[arg] = path
if "user_dir" in kwargs:
utils.import_user_module(argparse.Namespace(user_dir=kwargs["user_dir"]))
models, args, task = checkpoint_utils.load_model_ensemble_and_task(
[os.path.join(model_path, cpt) for cpt in checkpoint_file.split(os.pathsep)],
arg_overrides=kwargs,
)
return {
"args": args,
"task": task,
"models": models,
}
class GeneratorHubInterface(nn.Module):
"""
PyTorch Hub interface for generating sequences from a pre-trained
translation or language model.
"""
def __init__(self, cfg, task, models):
super().__init__()
self.cfg = cfg
self.task = task
self.models = nn.ModuleList(models)
self.src_dict = task.source_dictionary
self.tgt_dict = task.target_dictionary
for model in self.models:
model.prepare_for_inference_(cfg)
self.align_dict = utils.load_align_dict(cfg.generation.replace_unk)
self.tokenizer = encoders.build_tokenizer(cfg.tokenizer)
self.bpe = encoders.build_bpe(cfg.bpe)
self.max_positions = utils.resolve_max_positions(
self.task.max_positions(), *[model.max_positions() for model in models]
)
self.register_buffer("_float_tensor", torch.tensor([0], dtype=torch.float))
@property
def device(self):
return self._float_tensor.device
def translate(
self, sentences: List[str], beam: int = 5, verbose: bool = False, **kwargs
) -> List[str]:
return self.sample(sentences, beam, verbose, **kwargs)
def sample(
self, sentences: List[str], beam: int = 1, verbose: bool = False, **kwargs
) -> List[str]:
if isinstance(sentences, str):
return self.sample([sentences], beam=beam, verbose=verbose, **kwargs)[0]
tokenized_sentences = [self.encode(sentence) for sentence in sentences]
batched_hypos = self.generate(tokenized_sentences, beam, verbose, **kwargs)
return [self.decode(hypos[0]["tokens"]) for hypos in batched_hypos]
def score(
self, sentences: List[str], replace_newline_with_eos: bool = False, **kwargs
):
if isinstance(sentences, str):
return self.score(
[sentences], replace_newline_with_eos=replace_newline_with_eos, **kwargs
)[0]
def encode(sentence):
if replace_newline_with_eos:
return torch.cat([self.encode(line) for line in sentence.splitlines()])
else:
return self.encode(sentence)
tokenized_sentences = [encode(sentence) for sentence in sentences]
return [
hypos[0]
for hypos in self.generate(
tokenized_sentences, score_reference=True, **kwargs
)
]
def generate(
self,
tokenized_sentences: List[torch.LongTensor],
beam: int = 5,
verbose: bool = False,
skip_invalid_size_inputs=False,
inference_step_args=None,
prefix_allowed_tokens_fn=None,
**kwargs
) -> List[List[Dict[str, torch.Tensor]]]:
if torch.is_tensor(tokenized_sentences) and tokenized_sentences.dim() == 1:
return self.generate(
tokenized_sentences.unsqueeze(0), beam=beam, verbose=verbose, **kwargs
)[0]
gen_args = copy.deepcopy(self.cfg.generation)
with open_dict(gen_args):
gen_args.beam = beam
for k, v in kwargs.items():
setattr(gen_args, k, v)
generator = self.task.build_generator(
self.models,
gen_args,
prefix_allowed_tokens_fn=prefix_allowed_tokens_fn,
)
inference_step_args = inference_step_args or {}
results = []
for batch in self._build_batches(tokenized_sentences, skip_invalid_size_inputs):
batch = utils.apply_to_sample(lambda t: t.to(self.device), batch)
translations = self.task.inference_step(
generator, self.models, batch, **inference_step_args
)
for id, hypos in zip(batch["id"].tolist(), translations):
results.append((id, hypos))
outputs = [hypos for _, hypos in sorted(results, key=lambda x: x[0])]
if verbose:
def getarg(name, default):
return getattr(gen_args, name, getattr(self.cfg, name, default))
for source_tokens, target_hypotheses in zip(tokenized_sentences, outputs):
src_str_with_unk = self.string(source_tokens)
logger.info("S\t{}".format(src_str_with_unk))
for hypo in target_hypotheses:
hypo_str = self.decode(hypo["tokens"])
logger.info("H\t{}\t{}".format(hypo["score"], hypo_str))
logger.info(
"P\t{}".format(
" ".join(
map(
lambda x: "{:.4f}".format(x),
hypo["positional_scores"].tolist(),
)
)
)
)
if hypo["alignment"] is not None and getarg(
"print_alignment", False
):
logger.info(
"A\t{}".format(
" ".join(
[
"{}-{}".format(src_idx, tgt_idx)
for src_idx, tgt_idx in hypo["alignment"]
]
)
)
)
return outputs
def encode(self, sentence: str) -> torch.LongTensor:
sentence = self.tokenize(sentence)
sentence = self.apply_bpe(sentence)
return self.binarize(sentence)
def decode(self, tokens: torch.LongTensor) -> str:
sentence = self.string(tokens)
sentence = self.remove_bpe(sentence)
return self.detokenize(sentence)
def tokenize(self, sentence: str) -> str:
if self.tokenizer is not None:
sentence = self.tokenizer.encode(sentence)
return sentence
def detokenize(self, sentence: str) -> str:
if self.tokenizer is not None:
sentence = self.tokenizer.decode(sentence)
return sentence
def apply_bpe(self, sentence: str) -> str:
if self.bpe is not None:
sentence = self.bpe.encode(sentence)
return sentence
def remove_bpe(self, sentence: str) -> str:
if self.bpe is not None:
sentence = self.bpe.decode(sentence)
return sentence
def binarize(self, sentence: str) -> torch.LongTensor:
return self.src_dict.encode_line(sentence, add_if_not_exist=False).long()
def string(self, tokens: torch.LongTensor) -> str:
return self.tgt_dict.string(tokens)
def _build_batches(
self, tokens: List[List[int]], skip_invalid_size_inputs: bool
) -> Iterator[Dict[str, Any]]:
lengths = torch.LongTensor([t.numel() for t in tokens])
batch_iterator = self.task.get_batch_iterator(
dataset=self.task.build_dataset_for_inference(tokens, lengths),
max_tokens=self.cfg.dataset.max_tokens,
max_sentences=self.cfg.dataset.batch_size,
max_positions=self.max_positions,
ignore_invalid_inputs=skip_invalid_size_inputs,
disable_iterator_cache=True,
).next_epoch_itr(shuffle=False)
return batch_iterator
class BPEHubInterface(object):
"""PyTorch Hub interface for Byte-Pair Encoding (BPE)."""
def __init__(self, bpe, **kwargs):
super().__init__()
args = argparse.Namespace(bpe=bpe, **kwargs)
self.bpe = encoders.build_bpe(args)
assert self.bpe is not None
def encode(self, sentence: str) -> str:
return self.bpe.encode(sentence)
def decode(self, sentence: str) -> str:
return self.bpe.decode(sentence)
class TokenizerHubInterface(object):
"""PyTorch Hub interface for tokenization."""
def __init__(self, tokenizer, **kwargs):
super().__init__()
args = argparse.Namespace(tokenizer=tokenizer, **kwargs)
self.tokenizer = encoders.build_tokenizer(args)
assert self.tokenizer is not None
def encode(self, sentence: str) -> str:
return self.tokenizer.encode(sentence)
def decode(self, sentence: str) -> str:
return self.tokenizer.decode(sentence)