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""" |
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processing_prismatic.py |
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|
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HuggingFace-style preprocessor definitions for Prismatic VLMs, inheriting from `ProcessorMixin`. Default configuration |
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specifies `siglip-224px+7b`. |
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""" |
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|
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from typing import Any, ClassVar, List, Optional, Tuple, Union |
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|
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import timm.data |
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import torch |
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import torchvision.transforms.functional as TVF |
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from PIL import Image |
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from torchvision.transforms import CenterCrop, Compose, Normalize, Resize, ToTensor |
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from transformers import PreTrainedTokenizerBase |
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from transformers.image_processing_utils import BatchFeature, ImageProcessingMixin |
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from transformers.processing_utils import ProcessorMixin |
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from transformers.tokenization_utils import PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy |
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from transformers.utils import TensorType |
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def letterbox_pad_transform(image: Image.Image, padding_fill_value: Tuple[int, int, int]) -> Image.Image: |
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"""Given a PIL.Image, pad to square by adding a symmetric border around the height/width.""" |
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(w, h), max_wh = image.size, max(image.size) |
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horizontal_pad, vertical_pad = int((max_wh - w) / 2), int((max_wh - h) / 2) |
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padding = (horizontal_pad, vertical_pad, horizontal_pad, vertical_pad) |
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return TVF.pad(image, padding, fill=padding_fill_value, padding_mode="constant") |
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class PrismaticImageProcessor(ImageProcessingMixin): |
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model_input_names: ClassVar[List[str]] = ["pixel_values"] |
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def __init__( |
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self, |
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use_fused_vision_backbone: bool = False, |
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image_resize_strategy: str = "letterbox", |
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input_sizes: Optional[List[Tuple[int, int, int]]] = None, |
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interpolations: Optional[List[str]] = None, |
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means: Optional[List[Tuple[float, float, float]]] = None, |
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stds: Optional[List[Tuple[float, float, float]]] = None, |
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**kwargs: str, |
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) -> None: |
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""" |
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Initialize a PrismaticImageProcessor as a wrapper around a torchvision transform; this transform will be |
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created by TIMM, and edited to follow our custom `image_resize_strategy` logic. |
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@param use_fused_vision_backbone: Boolean indicating single or fused (dual) vision backbone |
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@param image_resize_strategy: Prismatic image resize strategy in < resize-naive | resize-crop | letterbox > |
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@param input_size: [TIMM :: `data_cfg`] Input image size as tuple (channels, width, height) |
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@param interpolation: [TIMM :: `data_cfg`] Interpolation as string (default: "bicubic") |
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@param mean: [TIMM :: `data_cfg`] Normalization mean as float tuple (or two-tuple if `fused_backbone`) |
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@param std: [TIMM :: `data_cfg`] Normalization std as float tuple (or two-tuple if `fused_backbone`) |
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""" |
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self.use_fused_vision_backbone = use_fused_vision_backbone |
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self.image_resize_strategy = image_resize_strategy |
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input_sizes = [(3, 224, 224)] if input_sizes is None else input_sizes |
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means = [(0.5, 0.5, 0.5)] if means is None else means |
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stds = [(0.5, 0.5, 0.5)] if stds is None else stds |
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self.input_sizes, self.interpolations, self.means, self.stds = input_sizes, interpolations, means, stds |
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self.tvf_resize_params, self.tvf_crop_params, self.tvf_normalize_params = [], [], [] |
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self.tvf_do_letterbox, self.tvf_letterbox_fill = False, None |
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for idx in range(len(input_sizes)): |
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transform = timm.data.create_transform( |
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input_size=self.input_sizes[idx], |
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interpolation=self.interpolations[idx], |
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mean=self.means[idx], |
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std=self.stds[idx], |
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crop_pct=1.0, |
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crop_mode="center", |
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is_training=False, |
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) |
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if not ( |
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isinstance(transform, Compose) |
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and (len(transform.transforms) == 4) |
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and isinstance(transform.transforms[0], Resize) |
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and isinstance(transform.transforms[1], CenterCrop) |
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and isinstance(transform.transforms[2], ToTensor) |
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and isinstance(transform.transforms[3], Normalize) |
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and (transform.transforms[0].size == self.input_sizes[idx][-1]) |
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and (transform.transforms[1].size == self.input_sizes[idx][-2:]) |
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): |
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raise ValueError(f"Unexpected TIMM image transformation structure/sizes: `{transform}`") |
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resize_t, crop_t, norm_t = transform.transforms[0], transform.transforms[1], transform.transforms[3] |
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self.tvf_resize_params.append( |
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{ |
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"size": resize_t.size, |
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"interpolation": TVF.pil_modes_mapping[resize_t.interpolation], |
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"max_size": None, |
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"antialias": True, |
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} |
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) |
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self.tvf_crop_params.append({"output_size": crop_t.size}) |
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self.tvf_normalize_params.append( |
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{ |
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"mean": norm_t.mean.float().numpy().tolist(), |
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"std": norm_t.std.float().numpy().tolist(), |
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"inplace": False, |
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} |
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) |
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self.tvf_do_letterbox, self.tvf_letterbox_fill = False, None |
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if self.image_resize_strategy == "resize-naive": |
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self.tvf_resize_params[idx]["size"] = (resize_t.size, resize_t.size) |
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elif self.image_resize_strategy == "letterbox": |
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self.tvf_do_letterbox, self.tvf_letterbox_fill = True, tuple([int(x * 255) for x in self.means[idx]]) |
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elif self.image_resize_strategy == "resize-crop": |
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pass |
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else: |
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raise ValueError(f"Image resize strategy `{self.image_resize_strategy}` is not supported!") |
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super().__init__(**kwargs) |
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def apply_transform(self, img: Image.Image) -> torch.Tensor: |
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"""Apply `functional` variant of TIMM's Transform = Compose([Resize -> CenterCrop -> ToTensor -> Normalize])""" |
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if self.tvf_do_letterbox: |
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img = letterbox_pad_transform(img, self.tvf_letterbox_fill) |
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imgs_t = [] |
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for idx in range(len(self.input_sizes)): |
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img_idx = TVF.resize(img, **self.tvf_resize_params[idx]) |
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img_idx = TVF.center_crop(img_idx, **self.tvf_crop_params[idx]) |
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img_idx_t = TVF.to_tensor(img_idx) |
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img_idx_t = TVF.normalize(img_idx_t, **self.tvf_normalize_params[idx]) |
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imgs_t.append(img_idx_t) |
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img_t = torch.vstack(imgs_t) |
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return img_t |
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|
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def preprocess( |
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self, |
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images: Union[Image.Image, List[Image.Image]], |
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return_tensors: Optional[Union[str, TensorType]] = None, |
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**_: str, |
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) -> BatchFeature: |
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""" |
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Preprocess an image (or batch of images); note that unlike the `transformers :: BaseImageProcessor` we |
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explicitly only handle PIL.Image.Image instances for simplicity. |
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@param images: A (batch of) PIL.Image.Image instance(s) to preprocess. |
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@param return_tensors: BatchFeature default Tensor format (e.g., "pt" for torch); if None, returns np.ndarray |
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@return: Instance of `transformers :: BatchFeature` with a single key "pixel_values" |
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""" |
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if not isinstance(images, list): |
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images = [images] |
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pixel_values = torch.stack([self.apply_transform(img.convert("RGB")) for img in images]) |
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return BatchFeature(data={"pixel_values": pixel_values.float().numpy()}, tensor_type=return_tensors) |
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|
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def __call__(self, images: Union[Image.Image, List[Image.Image]], **kwargs) -> BatchFeature: |
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return self.preprocess(images, **kwargs) |
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|
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class PrismaticProcessor(ProcessorMixin): |
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attributes: ClassVar[List[str]] = ["image_processor", "tokenizer"] |
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image_processor_class: str = "AutoImageProcessor" |
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tokenizer_class: str = "AutoTokenizer" |
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|
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def __init__( |
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self, |
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image_processor: Optional[ImageProcessingMixin] = None, |
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tokenizer: Optional[PreTrainedTokenizerBase] = None, |
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) -> None: |
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super().__init__(image_processor, tokenizer) |
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|
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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: Union[Image.Image, List[Image.Image]], |
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padding: Union[bool, str, PaddingStrategy] = False, |
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truncation: Optional[Union[bool, str, TruncationStrategy]] = None, |
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max_length: Optional[int] = None, |
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return_tensors: Optional[Union[str, TensorType]] = TensorType.PYTORCH, |
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) -> BatchFeature: |
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""" |
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Preprocess a given (batch) of text/images for a Prismatic VLM; forwards text to the underlying LLM's tokenizer, |
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forwards images to PrismaticImageProcessor. |
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@param text: The (batch) of text to encode; must be a string or list of strings. |
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@param images: A (batch of) PIL.Image.Image instance(s) to preprocess. |
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@param padding: Sequence padding strategy (if multiple specified) in < True = "longest" | "max_length" | False > |
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@param truncation: Truncation strategy for the output sequences; requires `max_length` to be specified |
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@param max_length: Maximum length (in tokens) to truncate |
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@param return_tensors: Type of return tensors (usually "pt" or TensorType.PYTORCH) |
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@return: BatchFeature with keys for `input_ids`, `attention_mask` and `pixel_values`. |
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""" |
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pixel_values = self.image_processor(images, return_tensors=return_tensors)["pixel_values"] |
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text_inputs = self.tokenizer( |
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text, return_tensors=return_tensors, padding=padding, truncation=truncation, max_length=max_length |
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) |
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if pixel_values.shape[0] != text_inputs.input_ids.shape[0]: |
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raise ValueError("Batch is malformed; expected same number of images and text inputs!") |
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return BatchFeature(data={**text_inputs, "pixel_values": pixel_values}) |
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|
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|
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def batch_decode( |
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self, |
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sequences: Union[List[int], List[List[int]], torch.Tensor, Any], |
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skip_special_tokens: bool = False, |
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clean_up_tokenization_spaces: Optional[bool] = None, |
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**kwargs: str, |
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) -> List[str]: |
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return self.tokenizer.batch_decode( |
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sequences=sequences, |
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skip_special_tokens=skip_special_tokens, |
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clean_up_tokenization_spaces=clean_up_tokenization_spaces, |
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**kwargs, |
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) |
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|
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def decode( |
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self, |
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token_ids: Union[int, List[int], torch.Tensor, Any], |
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skip_special_tokens: bool = False, |
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clean_up_tokenization_spaces: Optional[bool] = None, |
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**kwargs: str, |
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) -> str: |
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return self.tokenizer.decode( |
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token_ids=token_ids, |
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skip_special_tokens=skip_special_tokens, |
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clean_up_tokenization_spaces=clean_up_tokenization_spaces, |
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**kwargs, |
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) |
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|
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@property |
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def model_input_names(self) -> List[str]: |
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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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|
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return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names)) |
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