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import contextlib |
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import logging |
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from typing import Any, Dict, Iterator, List |
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import numpy as np |
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import torch |
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import transformers as tr |
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from lightning_fabric.utilities import move_data_to_device |
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from torch.utils.data import DataLoader, IterableDataset |
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from tqdm import tqdm |
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from relik.common.log import get_logger |
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from relik.common.torch_utils import get_autocast_context |
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from relik.common.utils import get_callable_from_string |
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from relik.inference.data.objects import AnnotationType |
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from relik.reader.data.relik_reader_sample import RelikReaderSample |
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from relik.reader.pytorch_modules.base import RelikReaderBase |
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from relik.retriever.pytorch_modules import PRECISION_MAP |
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logger = get_logger(__name__, level=logging.INFO) |
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class RelikReaderForTripletExtraction(RelikReaderBase): |
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""" |
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A class for the RelikReader model for triplet extraction. |
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Args: |
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transformer_model (:obj:`str` or :obj:`transformers.PreTrainedModel` or :obj:`None`, `optional`): |
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The transformer model to use. If `None`, the default model is used. |
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additional_special_symbols (:obj:`int`, `optional`, defaults to 0): |
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The number of additional special symbols to add to the tokenizer. |
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num_layers (:obj:`int`, `optional`): |
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The number of layers to use. If `None`, all layers are used. |
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activation (:obj:`str`, `optional`, defaults to "gelu"): |
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The activation function to use. |
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linears_hidden_size (:obj:`int`, `optional`, defaults to 512): |
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The hidden size of the linears. |
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use_last_k_layers (:obj:`int`, `optional`, defaults to 1): |
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The number of last layers to use. |
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training (:obj:`bool`, `optional`, defaults to False): |
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Whether the model is in training mode. |
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device (:obj:`str` or :obj:`torch.device` or :obj:`None`, `optional`): |
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The device to use. If `None`, the default device is used. |
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tokenizer (:obj:`str` or :obj:`transformers.PreTrainedTokenizer` or :obj:`None`, `optional`): |
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The tokenizer to use. If `None`, the default tokenizer is used. |
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dataset (:obj:`IterableDataset` or :obj:`str` or :obj:`None`, `optional`): |
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The dataset to use. If `None`, the default dataset is used. |
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dataset_kwargs (:obj:`Dict[str, Any]` or :obj:`None`, `optional`): |
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The keyword arguments to pass to the dataset class. |
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default_reader_class (:obj:`str` or :obj:`transformers.PreTrainedModel` or :obj:`None`, `optional`): |
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The default reader class to use. If `None`, the default reader class is used. |
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**kwargs: |
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Keyword arguments. |
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""" |
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default_reader_class: str = ( |
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"relik.reader.pytorch_modules.hf.modeling_relik.RelikReaderREModel" |
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) |
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default_data_class: str = "relik.reader.data.relik_reader_re_data.RelikREDataset" |
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def __init__( |
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self, |
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transformer_model: str | tr.PreTrainedModel | None = None, |
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additional_special_symbols: int = 0, |
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additional_special_symbols_types: int = 0, |
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entity_type_loss: bool | None = None, |
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add_entity_embedding: bool | None = None, |
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num_layers: int | None = None, |
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activation: str = "gelu", |
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linears_hidden_size: int | None = 512, |
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use_last_k_layers: int = 1, |
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training: bool = False, |
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device: str | torch.device | None = None, |
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tokenizer: str | tr.PreTrainedTokenizer | None = None, |
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dataset: IterableDataset | str | None = None, |
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dataset_kwargs: Dict[str, Any] | None = None, |
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default_reader_class: tr.PreTrainedModel | str | None = None, |
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**kwargs, |
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): |
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super().__init__( |
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transformer_model=transformer_model, |
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additional_special_symbols=additional_special_symbols, |
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additional_special_symbols_types=additional_special_symbols_types, |
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entity_type_loss=entity_type_loss, |
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add_entity_embedding=add_entity_embedding, |
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num_layers=num_layers, |
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activation=activation, |
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linears_hidden_size=linears_hidden_size, |
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use_last_k_layers=use_last_k_layers, |
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training=training, |
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device=device, |
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tokenizer=tokenizer, |
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dataset=dataset, |
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default_reader_class=default_reader_class, |
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**kwargs, |
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) |
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self.dataset = dataset |
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if self.dataset is None and training is False: |
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self.default_data_class = get_callable_from_string(self.default_data_class) |
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default_data_kwargs = dict( |
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dataset_path=None, |
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materialize_samples=False, |
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transformer_model=self.tokenizer, |
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special_symbols=self.default_data_class.get_special_symbols_re( |
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self.relik_reader_model.config.additional_special_symbols, |
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use_nme=kwargs.get("use_nme_re", False), |
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), |
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special_symbols_types=self.default_data_class.get_special_symbols( |
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self.relik_reader_model.config.additional_special_symbols_types - 1 |
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) |
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if self.relik_reader_model.config.additional_special_symbols_types > 0 |
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else [], |
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for_inference=True, |
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use_nme=kwargs.get("use_nme", False), |
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) |
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default_data_kwargs.update(dataset_kwargs or {}) |
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self.dataset = self.default_data_class(**default_data_kwargs) |
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@torch.no_grad() |
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@torch.inference_mode() |
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def _read( |
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self, |
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samples: List[RelikReaderSample] | None = None, |
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input_ids: torch.Tensor | None = None, |
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attention_mask: torch.Tensor | None = None, |
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token_type_ids: torch.Tensor | None = None, |
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prediction_mask: torch.Tensor | None = None, |
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special_symbols_mask: torch.Tensor | None = None, |
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max_length: int = 2048, |
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max_batch_size: int = 128, |
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token_batch_size: int = 2048, |
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precision: str = 32, |
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annotation_type: AnnotationType = AnnotationType.CHAR, |
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progress_bar: bool = False, |
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*args: object, |
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**kwargs: object, |
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) -> List[RelikReaderSample] | List[List[RelikReaderSample]]: |
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""" |
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A wrapper around the forward method that returns the predicted labels for each sample. |
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Args: |
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samples (:obj:`List[RelikReaderSample]`, `optional`): |
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The samples to read. If provided, `text` and `candidates` are ignored. |
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input_ids (:obj:`torch.Tensor`, `optional`): |
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The input ids of the text. If `samples` is provided, this is ignored. |
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attention_mask (:obj:`torch.Tensor`, `optional`): |
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The attention mask of the text. If `samples` is provided, this is ignored. |
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token_type_ids (:obj:`torch.Tensor`, `optional`): |
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The token type ids of the text. If `samples` is provided, this is ignored. |
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prediction_mask (:obj:`torch.Tensor`, `optional`): |
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The prediction mask of the text. If `samples` is provided, this is ignored. |
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special_symbols_mask (:obj:`torch.Tensor`, `optional`): |
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The special symbols mask of the text. If `samples` is provided, this is ignored. |
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max_length (:obj:`int`, `optional`, defaults to 1000): |
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The maximum length of the text. |
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max_batch_size (:obj:`int`, `optional`, defaults to 128): |
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The maximum batch size. |
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token_batch_size (:obj:`int`, `optional`): |
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The token batch size. |
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progress_bar (:obj:`bool`, `optional`, defaults to False): |
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Whether to show a progress bar. |
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precision (:obj:`str`, `optional`, defaults to 32): |
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The precision to use for the model. |
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annotation_type (`AnnotationType`, `optional`, defaults to `AnnotationType.CHAR`): |
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The type of annotation to return. If `char`, the spans will be in terms of |
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character offsets. If `word`, the spans will be in terms of word offsets. |
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*args: |
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Positional arguments. |
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**kwargs: |
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Keyword arguments. |
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Returns: |
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:obj:`List[RelikReaderSample]` or :obj:`List[List[RelikReaderSample]]`: |
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The predicted labels for each sample. |
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""" |
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precision = precision or self.precision |
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if samples is not None: |
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def _read_iterator(): |
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def samples_it(): |
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for i, sample in enumerate(samples): |
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assert sample._mixin_prediction_position is None |
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sample._mixin_prediction_position = i |
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if sample.spans is not None and len(sample.spans) > 0: |
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entities = [] |
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offset_span = sample.char2token_start[str(sample.offset)] |
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for span_start, span_end in sample.spans: |
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if str(span_start) not in sample.char2token_start: |
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while str(span_start) not in sample.char2token_start: |
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span_start -= 1 |
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if span_start < 0: |
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break |
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if str(span_end) not in sample.char2token_end: |
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while str(span_end) not in sample.char2token_end: |
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span_end += 1 |
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if span_end >= int(list(sample.char2token_end.keys())[-1]): |
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break |
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if span_start < 0 or span_end > int(list(sample.char2token_end.keys())[-1]): |
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continue |
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entities.append([sample.char2token_start[str(span_start)]-offset_span, sample.char2token_end[str(span_end)]+1-offset_span, ""]) |
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sample.entities = entities |
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yield sample |
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next_prediction_position = 0 |
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position2predicted_sample = {} |
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if self.dataset is None: |
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raise ValueError( |
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"You need to pass a dataset to the model in order to predict" |
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) |
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self.dataset.samples = samples_it() |
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self.dataset.model_max_length = max_length |
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self.dataset.tokens_per_batch = token_batch_size |
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self.dataset.max_batch_size = max_batch_size |
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iterator = DataLoader( |
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self.dataset, batch_size=None, num_workers=0, shuffle=False |
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) |
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if progress_bar: |
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iterator = tqdm(iterator, desc="Predicting with RelikReader") |
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with get_autocast_context(self.device, precision): |
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for batch in iterator: |
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batch = move_data_to_device(batch, self.device) |
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batch.update(kwargs) |
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batch_out = self._batch_predict(**batch) |
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for sample in batch_out: |
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if ( |
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sample._mixin_prediction_position |
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>= next_prediction_position |
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): |
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position2predicted_sample[ |
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sample._mixin_prediction_position |
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] = sample |
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while next_prediction_position in position2predicted_sample: |
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yield position2predicted_sample[next_prediction_position] |
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del position2predicted_sample[next_prediction_position] |
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next_prediction_position += 1 |
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outputs = list(_read_iterator()) |
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for sample in outputs: |
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self.dataset.merge_patches_predictions(sample) |
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if annotation_type == AnnotationType.CHAR: |
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self.dataset.convert_to_char_annotations(sample) |
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elif annotation_type == AnnotationType.WORD: |
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self.dataset.convert_to_word_annotations(sample) |
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else: |
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raise ValueError( |
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f"Annotation type {annotation_type} not recognized. " |
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f"Please choose one of {list(AnnotationType)}." |
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) |
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else: |
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outputs = list( |
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self._batch_predict( |
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input_ids, |
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attention_mask, |
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token_type_ids, |
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prediction_mask, |
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special_symbols_mask, |
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*args, |
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**kwargs, |
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) |
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) |
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return outputs |
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def _batch_predict( |
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self, |
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input_ids: torch.Tensor, |
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attention_mask: torch.Tensor, |
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token_type_ids: torch.Tensor | None = None, |
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prediction_mask: torch.Tensor | None = None, |
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special_symbols_mask: torch.Tensor | None = None, |
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special_symbols_mask_entities: torch.Tensor | None = None, |
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sample: List[RelikReaderSample] | None = None, |
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*args, |
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**kwargs, |
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) -> Iterator[RelikReaderSample]: |
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""" |
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A wrapper around the forward method that returns the predicted labels for each sample. |
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It also adds the predicted labels to the samples. |
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Args: |
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input_ids (:obj:`torch.Tensor`): |
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The input ids of the text. |
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attention_mask (:obj:`torch.Tensor`): |
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The attention mask of the text. |
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token_type_ids (:obj:`torch.Tensor`, `optional`): |
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The token type ids of the text. |
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prediction_mask (:obj:`torch.Tensor`, `optional`): |
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The prediction mask of the text. |
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special_symbols_mask (:obj:`torch.Tensor`, `optional`): |
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The special symbols mask of the text. |
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sample (:obj:`List[RelikReaderSample]`, `optional`): |
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The samples to read. If provided, `text` and `candidates` are ignored. |
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top_k (:obj:`int`, `optional`, defaults to 5): |
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The amount of top-k most probable entities to predict. |
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*args: |
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Positional arguments. |
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**kwargs: |
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Keyword arguments. |
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Returns: |
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The predicted labels for each sample. |
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""" |
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forward_output = self.forward( |
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input_ids=input_ids, |
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attention_mask=attention_mask, |
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token_type_ids=token_type_ids, |
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prediction_mask=prediction_mask, |
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special_symbols_mask=special_symbols_mask, |
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special_symbols_mask_entities=special_symbols_mask_entities, |
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is_prediction=True, |
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*args, |
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**kwargs, |
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) |
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ned_start_predictions = forward_output["ned_start_predictions"].cpu().numpy() |
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ned_end_predictions = forward_output["ned_end_predictions"] |
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ed_predictions = forward_output["re_entities_predictions"].cpu().numpy() |
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ned_type_predictions = forward_output["ned_type_predictions"].cpu().numpy() |
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re_predictions = forward_output["re_predictions"].cpu().numpy() |
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re_probabilities = forward_output["re_probabilities"].detach().cpu().numpy() |
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for ts, ne_st, ne_end, re_pred, re_prob, edp, ne_et in zip( |
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sample, |
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ned_start_predictions, |
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ned_end_predictions, |
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re_predictions, |
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re_probabilities, |
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ed_predictions, |
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ned_type_predictions, |
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): |
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ne_end = ne_end.cpu().numpy() |
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entities = [] |
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if self.relik_reader_model.config.entity_type_loss: |
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starts = np.argwhere(ne_st) |
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i = 0 |
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for start, end in zip(starts, ne_end): |
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ends = np.argwhere(end) |
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for e in ends: |
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entities.append([start[0], e[0], ne_et[i]]) |
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i += 1 |
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else: |
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starts = np.argwhere(ne_st) |
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for start, end in zip(starts, ne_end): |
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ends = np.argwhere(end) |
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for e in ends: |
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entities.append([start[0], e[0]]) |
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edp = edp[: len(entities)] |
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re_pred = re_pred[: len(entities), : len(entities)] |
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re_prob = re_prob[: len(entities), : len(entities)] |
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possible_re = np.argwhere(re_pred) |
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predicted_triplets = [] |
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predicted_triplets_prob = [] |
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for i, j, r in possible_re: |
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if self.relik_reader_model.relation_disambiguation_loss: |
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if not ( |
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i != j |
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and edp[i, r] == 1 |
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and edp[j, r] == 1 |
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and edp[i, 0] == 0 |
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and edp[j, 0] == 0 |
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): |
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continue |
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predicted_triplets.append([i, j, r]) |
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predicted_triplets_prob.append(re_prob[i, j, r]) |
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ts._d["predicted_relations"] = predicted_triplets |
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ts._d["predicted_entities"] = entities |
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ts._d["predicted_relations_probabilities"] = predicted_triplets_prob |
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ts._d["predicted_triples"] = predicted_triplets |
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yield ts |
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