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import logging
from pathlib import Path
from typing import Any, Callable, Dict, Iterator, List, Optional, Union
import numpy as np
import torch
import transformers as tr
from reader.data.relik_reader_data_utils import batchify, flatten
from reader.data.relik_reader_sample import RelikReaderSample
from reader.pytorch_modules.hf.modeling_relik import (
RelikReaderConfig,
RelikReaderREModel,
)
from tqdm import tqdm
from transformers import AutoConfig
from relik.common.log import get_console_logger, get_logger
from relik.reader.utils.special_symbols import NME_SYMBOL, get_special_symbols_re
console_logger = get_console_logger()
logger = get_logger(__name__, level=logging.INFO)
class RelikReaderForTripletExtraction(torch.nn.Module):
def __init__(
self,
transformer_model: Optional[Union[str, tr.PreTrainedModel]] = None,
additional_special_symbols: Optional[int] = 0,
num_layers: Optional[int] = None,
activation: str = "gelu",
linears_hidden_size: Optional[int] = 512,
use_last_k_layers: int = 1,
training: bool = False,
device: Optional[Union[str, torch.device]] = None,
tokenizer: Optional[Union[str, tr.PreTrainedTokenizer]] = None,
**kwargs,
) -> None:
super().__init__()
if isinstance(transformer_model, str):
config = AutoConfig.from_pretrained(
transformer_model, trust_remote_code=True
)
if "relik_reader" in config.model_type:
transformer_model = RelikReaderREModel.from_pretrained(
transformer_model, **kwargs
)
else:
reader_config = RelikReaderConfig(
transformer_model=transformer_model,
additional_special_symbols=additional_special_symbols,
num_layers=num_layers,
activation=activation,
linears_hidden_size=linears_hidden_size,
use_last_k_layers=use_last_k_layers,
training=training,
)
transformer_model = RelikReaderREModel(reader_config)
self.relik_reader_re_model = transformer_model
self._tokenizer = tokenizer
# move the model to the device
self.to(device or torch.device("cpu"))
def forward(
self,
input_ids: torch.Tensor,
attention_mask: torch.Tensor,
token_type_ids: torch.Tensor,
prediction_mask: Optional[torch.Tensor] = None,
special_symbols_mask: Optional[torch.Tensor] = None,
special_symbols_mask_entities: Optional[torch.Tensor] = None,
start_labels: Optional[torch.Tensor] = None,
end_labels: Optional[torch.Tensor] = None,
disambiguation_labels: Optional[torch.Tensor] = None,
relation_labels: Optional[torch.Tensor] = None,
is_validation: bool = False,
is_prediction: bool = False,
*args,
**kwargs,
) -> Dict[str, Any]:
return self.relik_reader_re_model(
input_ids,
attention_mask,
token_type_ids,
prediction_mask,
special_symbols_mask,
special_symbols_mask_entities,
start_labels,
end_labels,
disambiguation_labels,
relation_labels,
is_validation,
is_prediction,
*args,
**kwargs,
)
def batch_predict(
self,
input_ids: torch.Tensor,
attention_mask: torch.Tensor,
token_type_ids: Optional[torch.Tensor] = None,
prediction_mask: Optional[torch.Tensor] = None,
special_symbols_mask: Optional[torch.Tensor] = None,
special_symbols_mask_entities: Optional[torch.Tensor] = None,
sample: Optional[List[RelikReaderSample]] = None,
*args,
**kwargs,
) -> Iterator[RelikReaderSample]:
"""
Predicts the labels for a batch of samples.
Args:
input_ids: The input ids of the batch.
attention_mask: The attention mask of the batch.
token_type_ids: The token type ids of the batch.
prediction_mask: The prediction mask of the batch.
special_symbols_mask: The special symbols mask of the batch.
special_symbols_mask_entities: The special symbols mask entities of the batch.
sample: The samples of the batch.
Returns:
The predicted labels for each sample.
"""
forward_output = self.forward(
input_ids,
attention_mask,
token_type_ids,
prediction_mask,
special_symbols_mask,
special_symbols_mask_entities,
is_prediction=True,
)
ned_start_predictions = forward_output["ned_start_predictions"].cpu().numpy()
ned_end_predictions = forward_output["ned_end_predictions"] # .cpu().numpy()
ed_predictions = forward_output["re_entities_predictions"].cpu().numpy()
ned_type_predictions = forward_output["ned_type_predictions"].cpu().numpy()
re_predictions = forward_output["re_predictions"].cpu().numpy()
re_probabilities = forward_output["re_probabilities"].detach().cpu().numpy()
if sample is None:
sample = [RelikReaderSample() for _ in range(len(input_ids))]
for ts, ne_st, ne_end, re_pred, re_prob, edp, ne_et in zip(
sample,
ned_start_predictions,
ned_end_predictions,
re_predictions,
re_probabilities,
ed_predictions,
ned_type_predictions,
):
ne_end = ne_end.cpu().numpy()
entities = []
if self.relik_reader_re_model.entity_type_loss:
starts = np.argwhere(ne_st)
i = 0
for start, end in zip(starts, ne_end):
ends = np.argwhere(end)
for e in ends:
entities.append([start[0], e[0], ne_et[i]])
i += 1
else:
starts = np.argwhere(ne_st)
for start, end in zip(starts, ne_end):
ends = np.argwhere(end)
for e in ends:
entities.append([start[0], e[0]])
edp = edp[: len(entities)]
re_pred = re_pred[: len(entities), : len(entities)]
re_prob = re_prob[: len(entities), : len(entities)]
possible_re = np.argwhere(re_pred)
predicted_triplets = []
predicted_triplets_prob = []
for i, j, r in possible_re:
if self.relik_reader_re_model.relation_disambiguation_loss:
if not (
i != j
and edp[i, r] == 1
and edp[j, r] == 1
and edp[i, 0] == 0
and edp[j, 0] == 0
):
continue
predicted_triplets.append([i, j, r])
predicted_triplets_prob.append(re_prob[i, j, r])
ts._d["predicted_relations"] = predicted_triplets
ts._d["predicted_entities"] = entities
ts._d["predicted_relations_probabilities"] = predicted_triplets_prob
if ts.token2word:
self._convert_tokens_to_word_annotations(ts)
yield ts
def _build_input(self, text: List[str], candidates: List[List[str]]) -> List[int]:
candidates_symbols = get_special_symbols_re(len(candidates))
candidates = [
[cs, ct] if ct != NME_SYMBOL else [NME_SYMBOL]
for cs, ct in zip(candidates_symbols, candidates)
]
return (
[self.tokenizer.cls_token]
+ text
+ [self.tokenizer.sep_token]
+ flatten(candidates)
+ [self.tokenizer.sep_token]
)
@staticmethod
def _compute_offsets(offsets_mapping):
offsets_mapping = offsets_mapping.numpy()
token2word = []
word2token = {}
count = 0
for i, offset in enumerate(offsets_mapping):
if offset[0] == 0:
token2word.append(i - count)
word2token[i - count] = [i]
else:
token2word.append(token2word[-1])
word2token[token2word[-1]].append(i)
count += 1
return token2word, word2token
@staticmethod
def _convert_tokens_to_word_annotations(sample: RelikReaderSample):
triplets = []
entities = []
for entity in sample.predicted_entities:
if sample.entity_candidates:
entities.append(
(
sample.token2word[entity[0] - 1],
sample.token2word[entity[1] - 1] + 1,
sample.entity_candidates[entity[2]],
)
)
else:
entities.append(
(
sample.token2word[entity[0] - 1],
sample.token2word[entity[1] - 1] + 1,
-1,
)
)
for predicted_triplet, predicted_triplet_probabilities in zip(
sample.predicted_relations, sample.predicted_relations_probabilities
):
subject, object_, relation = predicted_triplet
subject = entities[subject]
object_ = entities[object_]
relation = sample.candidates[relation]
triplets.append(
{
"subject": {
"start": subject[0],
"end": subject[1],
"type": subject[2],
"name": " ".join(sample.tokens[subject[0] : subject[1]]),
},
"relation": {
"name": relation,
"probability": float(predicted_triplet_probabilities.round(2)),
},
"object": {
"start": object_[0],
"end": object_[1],
"type": object_[2],
"name": " ".join(sample.tokens[object_[0] : object_[1]]),
},
}
)
sample.predicted_entities = entities
sample.predicted_relations = triplets
sample.predicted_relations_probabilities = None
@torch.no_grad()
@torch.inference_mode()
def read(
self,
text: Optional[Union[List[str], List[List[str]]]] = None,
samples: Optional[List[RelikReaderSample]] = None,
input_ids: Optional[torch.Tensor] = None,
attention_mask: Optional[torch.Tensor] = None,
token_type_ids: Optional[torch.Tensor] = None,
prediction_mask: Optional[torch.Tensor] = None,
special_symbols_mask: Optional[torch.Tensor] = None,
special_symbols_mask_entities: Optional[torch.Tensor] = None,
candidates: Optional[List[List[str]]] = None,
max_length: Optional[int] = 1024,
max_batch_size: Optional[int] = 64,
token_batch_size: Optional[int] = None,
progress_bar: bool = False,
*args,
**kwargs,
) -> List[List[RelikReaderSample]]:
"""
Reads the given text.
Args:
text: The text to read in tokens.
input_ids: The input ids of the text.
attention_mask: The attention mask of the text.
token_type_ids: The token type ids of the text.
prediction_mask: The prediction mask of the text.
special_symbols_mask: The special symbols mask of the text.
special_symbols_mask_entities: The special symbols mask entities of the text.
candidates: The candidates of the text.
max_length: The maximum length of the text.
max_batch_size: The maximum batch size.
token_batch_size: The maximum number of tokens per batch.
Returns:
The predicted labels for each sample.
"""
if text is None and input_ids is None and samples is None:
raise ValueError(
"Either `text` or `input_ids` or `samples` must be provided."
)
if (input_ids is None and samples is None) and (
text is None or candidates is None
):
raise ValueError(
"`text` and `candidates` must be provided to return the predictions when `input_ids` and `samples` is not provided."
)
if text is not None and samples is None:
if len(text) != len(candidates):
raise ValueError("`text` and `candidates` must have the same length.")
if isinstance(text[0], str): # change to list of text
text = [text]
candidates = [candidates]
samples = [
RelikReaderSample(tokens=t, candidates=c)
for t, c in zip(text, candidates)
]
if samples is not None:
# function that creates a batch from the 'current_batch' list
def output_batch() -> Dict[str, Any]:
assert (
len(
set(
[
len(elem["predictable_candidates"])
for elem in current_batch
]
)
)
== 1
), " ".join(
map(
str,
[len(elem["predictable_candidates"]) for elem in current_batch],
)
)
batch_dict = dict()
de_values_by_field = {
fn: [de[fn] for de in current_batch if fn in de]
for fn in self.fields_batcher
}
# in case you provide fields batchers but in the batch
# there are no elements for that field
de_values_by_field = {
fn: fvs for fn, fvs in de_values_by_field.items() if len(fvs) > 0
}
assert len(set([len(v) for v in de_values_by_field.values()]))
# todo: maybe we should report the user about possible
# fields filtering due to "None" instances
de_values_by_field = {
fn: fvs
for fn, fvs in de_values_by_field.items()
if all([fv is not None for fv in fvs])
}
for field_name, field_values in de_values_by_field.items():
field_batch = (
self.fields_batcher[field_name]([fv[0] for fv in field_values])
if self.fields_batcher[field_name] is not None
else field_values
)
batch_dict[field_name] = field_batch
batch_dict = {
k: v.to(self.device) if isinstance(v, torch.Tensor) else v
for k, v in batch_dict.items()
}
return batch_dict
current_batch = []
predictions = []
current_cand_len = -1
for sample in tqdm(samples, disable=not progress_bar):
sample.candidates = [NME_SYMBOL] + sample.candidates
inputs_text = self._build_input(sample.tokens, sample.candidates)
model_inputs = self.tokenizer(
inputs_text,
is_split_into_words=True,
add_special_tokens=False,
padding=False,
truncation=True,
max_length=max_length or self.tokenizer.model_max_length,
return_offsets_mapping=True,
return_tensors="pt",
)
model_inputs["special_symbols_mask"] = (
model_inputs["input_ids"] > self.tokenizer.vocab_size
)
# prediction mask is 0 until the first special symbol
model_inputs["token_type_ids"] = (
torch.cumsum(model_inputs["special_symbols_mask"], dim=1) > 0
).long()
# shift prediction_mask to the left
model_inputs["prediction_mask"] = model_inputs["token_type_ids"].roll(
shifts=-1, dims=1
)
model_inputs["prediction_mask"][:, -1] = 1
model_inputs["prediction_mask"][:, 0] = 1
assert (
len(model_inputs["special_symbols_mask"])
== len(model_inputs["prediction_mask"])
== len(model_inputs["input_ids"])
)
model_inputs["sample"] = sample
# compute cand_len using special_symbols_mask
model_inputs["predictable_candidates"] = sample.candidates[
: model_inputs["special_symbols_mask"].sum().item()
]
# cand_len = sum([id_ > self.tokenizer.vocab_size for id_ in model_inputs["input_ids"]])
offsets = model_inputs.pop("offset_mapping")
offsets = offsets[model_inputs["prediction_mask"] == 0]
sample.token2word, sample.word2token = self._compute_offsets(offsets)
future_max_len = max(
len(model_inputs["input_ids"]),
max([len(b["input_ids"]) for b in current_batch], default=0),
)
future_tokens_per_batch = future_max_len * (len(current_batch) + 1)
if len(current_batch) > 0 and (
(
len(model_inputs["predictable_candidates"]) != current_cand_len
and current_cand_len != -1
)
or (
isinstance(token_batch_size, int)
and future_tokens_per_batch >= token_batch_size
)
or len(current_batch) == max_batch_size
):
batch_inputs = output_batch()
current_batch = []
predictions.extend(list(self.batch_predict(**batch_inputs)))
current_cand_len = len(model_inputs["predictable_candidates"])
current_batch.append(model_inputs)
if current_batch:
batch_inputs = output_batch()
predictions.extend(list(self.batch_predict(**batch_inputs)))
else:
predictions = list(
self.batch_predict(
input_ids,
attention_mask,
token_type_ids,
prediction_mask,
special_symbols_mask,
special_symbols_mask_entities,
*args,
**kwargs,
)
)
return predictions
@property
def device(self) -> torch.device:
"""
The device of the model.
"""
return next(self.parameters()).device
@property
def tokenizer(self) -> tr.PreTrainedTokenizer:
"""
The tokenizer.
"""
if self._tokenizer:
return self._tokenizer
self._tokenizer = tr.AutoTokenizer.from_pretrained(
self.relik_reader_re_model.config.name_or_path
)
return self._tokenizer
@property
def fields_batcher(self) -> Dict[str, Union[None, Callable[[list], Any]]]:
fields_batchers = {
"input_ids": lambda x: batchify(
x, padding_value=self.tokenizer.pad_token_id
),
"attention_mask": lambda x: batchify(x, padding_value=0),
"token_type_ids": lambda x: batchify(x, padding_value=0),
"prediction_mask": lambda x: batchify(x, padding_value=1),
"global_attention": lambda x: batchify(x, padding_value=0),
"token2word": None,
"sample": None,
"special_symbols_mask": lambda x: batchify(x, padding_value=False),
"special_symbols_mask_entities": lambda x: batchify(x, padding_value=False),
}
if "roberta" in self.relik_reader_re_model.config.model_type:
del fields_batchers["token_type_ids"]
return fields_batchers
def save_pretrained(
self,
output_dir: str,
model_name: Optional[str] = None,
push_to_hub: bool = False,
**kwargs,
) -> None:
"""
Saves the model to the given path.
Args:
output_dir: The path to save the model to.
model_name: The name of the model.
push_to_hub: Whether to push the model to the hub.
"""
# create the output directory
output_dir = Path(output_dir)
output_dir.mkdir(parents=True, exist_ok=True)
model_name = model_name or "relik_reader_for_triplet_extraction"
logger.info(f"Saving reader to {output_dir / model_name}")
# save the model
self.relik_reader_re_model.register_for_auto_class()
self.relik_reader_re_model.save_pretrained(
output_dir / model_name, push_to_hub=push_to_hub, **kwargs
)
logger.info("Saving reader to disk done.")
if self.tokenizer:
self.tokenizer.save_pretrained(
output_dir / model_name, push_to_hub=push_to_hub, **kwargs
)
logger.info("Saving tokenizer to disk done.")
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