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""" |
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Processor class for MiniCPMV. |
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""" |
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from typing import List, Optional, Union, Dict, Any |
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import torch |
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import re |
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|
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from transformers.image_processing_utils import BatchFeature |
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from transformers.image_utils import ImageInput |
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from transformers.processing_utils import ProcessorMixin |
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from transformers.tokenization_utils_base import PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy |
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from transformers.utils import TensorType, requires_backends, is_torch_dtype, is_torch_device |
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from .image_processing_minicpmv import MiniCPMVBatchFeature |
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class MiniCPMVProcessor(ProcessorMixin): |
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r""" |
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Constructs a MiniCPMV processor which wraps a MiniCPMV image processor and a MiniCPMV tokenizer into a single processor. |
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[`MiniCPMVProcessor`] offers all the functionalities of [`MiniCPMVImageProcessor`] and [`LlamaTokenizerWrapper`]. See the |
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[`~MiniCPMVProcessor.__call__`] and [`~MiniCPMVProcessor.decode`] for more information. |
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Args: |
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image_processor ([`MiniCPMVImageProcessor`], *optional*): |
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The image processor is a required input. |
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tokenizer ([`LlamaTokenizerWrapper`], *optional*): |
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The tokenizer is a required input. |
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""" |
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attributes = ["image_processor", "tokenizer"] |
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image_processor_class = "AutoImageProcessor" |
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tokenizer_class = "AutoTokenizer" |
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def __init__(self, image_processor=None, tokenizer=None): |
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super().__init__(image_processor, tokenizer) |
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self.version = image_processor.version |
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def __call__( |
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self, |
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text: Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]], |
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images: ImageInput = None, |
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padding: Union[bool, str, PaddingStrategy] = False, |
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truncation: Union[bool, str, TruncationStrategy] = None, |
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max_length: Optional[int] = None, |
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do_pad: Optional[bool] = True, |
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return_tensors: Optional[Union[str, TensorType]] = TensorType.PYTORCH, |
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) -> MiniCPMVBatchFeature: |
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""" |
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Only support for single input for now. Batched input is coming soon. |
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Args: |
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text (`str`): |
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The sequence or batch of sequences to be encoded. Each sequence can be a string or a list of strings |
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(pretokenized string). If the sequences are provided as list of strings (pretokenized), you must set |
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`is_split_into_words=True` (to lift the ambiguity with a batch of sequences). |
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images (`PIL.Image.Image`, `np.ndarray`, `torch.Tensor`, `List[PIL.Image.Image]`, `List[np.ndarray]`, `List[torch.Tensor]`): |
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The image or batch of images to be prepared. Each image can be a PIL image, NumPy array or PyTorch |
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tensor. Both channels-first and channels-last formats are supported. |
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padding (`bool`, `str` or [`~utils.PaddingStrategy`], *optional*, defaults to `False`): |
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Select a strategy to pad the returned sequences (according to the model's padding side and padding |
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index) among: |
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- `True` or `'longest'`: Pad to the longest sequence in the batch (or no padding if only a single |
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sequence if provided). |
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- `'max_length'`: Pad to a maximum length specified with the argument `max_length` or to the maximum |
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acceptable input length for the model if that argument is not provided. |
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- `False` or `'do_not_pad'` (default): No padding (i.e., can output a batch with sequences of different |
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lengths). |
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max_length (`int`, *optional*): |
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Maximum length of the returned list and optionally padding length (see above). |
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do_pad (`bool`, *optional*, defaults to self.do_pad): |
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Whether to pad the image. If `True` will pad the images in the batch to the largest image in the batch |
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and create a pixel mask. Padding will be applied to the bottom and right of the image with zeros. |
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truncation (`bool`, *optional*): |
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Activates truncation to cut input sequences longer than `max_length` to `max_length`. |
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return_tensors (`str` or [`~utils.TensorType`], *optional*): |
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If set, will return tensors of a particular framework. Acceptable values are: |
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- `'tf'`: Return TensorFlow `tf.constant` objects. |
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- `'pt'`: Return PyTorch `torch.Tensor` objects. |
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- `'np'`: Return NumPy `np.ndarray` objects. |
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- `'jax'`: Return JAX `jnp.ndarray` objects. |
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Returns: |
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[`BatchFeature`]: A [`BatchFeature`] with the following fields: |
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- **input_ids** -- List of token ids to be fed to a model. Returned when `text` is not `None`. |
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- **attention_mask** -- List of indices specifying which tokens should be attended to by the model (when |
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`return_attention_mask=True` or if *"attention_mask"* is in `self.model_input_names` and if `text` is not |
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`None`). |
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- **pixel_values** -- Pixel values to be fed to a model. Returned when `images` is not `None`. |
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""" |
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if images is not None: |
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image_inputs = self.image_processor(images, do_pad=do_pad, return_tensors=return_tensors) |
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return self._convert_images_texts_to_inputs(image_inputs, text, max_length=max_length) |
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def batch_decode(self, *args, **kwargs): |
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""" |
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This method forwards all its arguments to LlamaTokenizerFast's [`~PreTrainedTokenizer.batch_decode`]. Please |
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refer to the docstring of this method for more information. |
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""" |
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output_ids = args[0] |
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result_text = [] |
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for result in output_ids: |
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result = result[result != 0] |
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if result[0] == self.tokenizer.bos_id: |
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result = result[1:] |
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if result[-1] == self.tokenizer.eos_id: |
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result = result[:-1] |
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result_text.append(self.tokenizer.decode(result, *args[1:], **kwargs).strip()) |
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return result_text |
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def decode(self, *args, **kwargs): |
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""" |
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This method forwards all its arguments to LlamaTokenizerFast's [`~PreTrainedTokenizer.decode`]. Please refer to |
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the docstring of this method for more information. |
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""" |
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result = args[0] |
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result = result[result != 0] |
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if result[0] == self.tokenizer.bos_id: |
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result = result[1:] |
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if result[-1] == self.tokenizer.eos_id or (hasattr(self.tokenizer, "eot_id") and result[-1] == self.tokenizer.eot_id): |
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result = result[:-1] |
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return self.tokenizer.decode(result, *args[1:], **kwargs).strip() |
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def _convert( |
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self, input_str, max_inp_length: Optional[int] = None |
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): |
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if self.version == 2.5 or self.tokenizer.add_bos_token: |
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input_ids = self.tokenizer.encode(input_str) |
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else: |
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input_ids = [self.tokenizer.bos_id] + self.tokenizer.encode(input_str) |
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if max_inp_length is not None: |
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input_ids = input_ids[:max_inp_length] |
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input_ids = torch.tensor(input_ids, dtype=torch.int32) |
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image_start_tokens = torch.where(input_ids == self.tokenizer.im_start_id)[0] |
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image_start_tokens += 1 |
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image_end_tokens = torch.where(input_ids == self.tokenizer.im_end_id)[0] |
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valid_image_nums = max(len(image_start_tokens), len(image_end_tokens)) |
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image_bounds = torch.hstack( |
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[ |
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image_start_tokens[:valid_image_nums].unsqueeze(-1), |
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image_end_tokens[:valid_image_nums].unsqueeze(-1), |
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] |
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) |
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return input_ids.unsqueeze(0), image_bounds |
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def _convert_images_texts_to_inputs(self, images, texts, do_pad=False, truncation=None, max_length=None, return_tensors=None): |
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if not len(images): |
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model_inputs = self.tokenizer(texts, return_tensors=return_tensors, padding=do_pad, truncation=truncation, max_length=max_length) |
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return MiniCPMVBatchFeature(data={**model_inputs}) |
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pattern = "(<image>./</image>)" |
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images, image_sizes, tgt_sizes = images["pixel_values"], images["image_sizes"], images["tgt_sizes"] |
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image_tags = re.findall(pattern, texts) |
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assert len(image_tags) == len(image_sizes[0]) |
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text_chunks = texts.split(pattern) |
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final_texts = "" |
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for i in range(len(image_tags)): |
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final_texts = final_texts + text_chunks[i] + self.image_processor.get_slice_image_placeholder(image_sizes[0][i]) |
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final_texts += text_chunks[-1] |
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input_ids, image_bounds = self._convert(final_texts, max_length) |
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return MiniCPMVBatchFeature(data={ |
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"input_ids": input_ids, |
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"pixel_values": images, |
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"image_sizes": image_sizes, |
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"image_bound": [image_bounds], |
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"tgt_sizes": tgt_sizes |
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}) |
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@property |
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def model_input_names(self): |
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tokenizer_input_names = self.tokenizer.model_input_names |
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image_processor_input_names = self.image_processor.model_input_names |
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return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names)) |
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def pad(self, orig_items, key, max_length=None, padding_value=0, padding_side="left"): |
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items = [] |
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if isinstance(orig_items[0][key], list): |
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assert isinstance(orig_items[0][key][0], torch.Tensor) |
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for it in orig_items: |
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for tr in it[key]: |
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items.append({key: tr}) |
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else: |
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assert isinstance(orig_items[0][key], torch.Tensor) |
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items = orig_items |
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batch_size = len(items) |
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shape = items[0][key].shape |
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dim = len(shape) |
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assert dim <= 3 |
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if max_length is None: |
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max_length = 0 |
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max_length = max(max_length, max(item[key].shape[-1] for item in items)) |
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min_length = min(item[key].shape[-1] for item in items) |
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dtype = items[0][key].dtype |
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if dim == 1: |
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return torch.cat([item[key] for item in items], dim=0) |
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elif dim == 2: |
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if max_length == min_length: |
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return torch.cat([item[key] for item in items], dim=0) |
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tensor = torch.zeros((batch_size, max_length), dtype=dtype) + padding_value |
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else: |
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tensor = ( |
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torch.zeros((batch_size, max_length, shape[-1]), dtype=dtype) |
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+ padding_value |
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) |
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for i, item in enumerate(items): |
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if dim == 2: |
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if padding_side == "left": |
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tensor[i, -len(item[key][0]) :] = item[key][0].clone() |
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else: |
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tensor[i, : len(item[key][0])] = item[key][0].clone() |
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elif dim == 3: |
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if padding_side == "left": |
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tensor[i, -len(item[key][0]) :, :] = item[key][0].clone() |
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else: |
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tensor[i, : len(item[key][0]), :] = item[key][0].clone() |
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return tensor |
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