import numpy as np from transformers.feature_extraction_utils import BatchFeature from transformers.image_utils import ImageInput from transformers.processing_utils import MultiModalData, ProcessingKwargs, ProcessorMixin, Unpack from transformers.tokenization_utils_base import PreTokenizedInput, TextInput from transformers.utils import logging from transformers.utils.auto_docstring import auto_docstring from transformers.video_utils import VideoInput logger = logging.get_logger(__name__) class Qwen3VLProcessorKwargs(ProcessingKwargs, total=False): _defaults = { # type: ignore "text_kwargs": { "padding": False, "return_token_type_ids": False, "return_mm_token_type_ids": False, }, "videos_kwargs": {"return_metadata": True}, } @auto_docstring class ZFQwen3VLProcessor(ProcessorMixin): def __init__(self, image_processor=None, tokenizer=None, video_processor=None, chat_template=None, **kwargs): self.image_token = "<|image_pad|>" if not hasattr(tokenizer, "image_token") else tokenizer.image_token # type: ignore self.video_token = "<|video_pad|>" if not hasattr(tokenizer, "video_token") else tokenizer.video_token # type: ignore self.image_token_id = ( tokenizer.image_token_id # type: ignore if getattr(tokenizer, "image_token_id", None) else tokenizer.convert_tokens_to_ids(self.image_token) # type: ignore ) self.video_token_id = ( tokenizer.video_token_id # type: ignore if getattr(tokenizer, "video_token_id", None) else tokenizer.convert_tokens_to_ids(self.video_token) # type: ignore ) super().__init__(image_processor, tokenizer, video_processor, chat_template=chat_template) self.vision_start_token = ( "<|vision_start|>" if not hasattr(tokenizer, "vision_start_token") else tokenizer.vision_start_token # type: ignore ) self.vision_end_token = ( "<|vision_end|>" if not hasattr(tokenizer, "vision_end_token") else tokenizer.vision_end_token # type: ignore ) self.vision_start_token_id = ( tokenizer.vision_start_token_id # type: ignore if getattr(tokenizer, "vision_start_token_id", None) else tokenizer.convert_tokens_to_ids(self.vision_start_token) # type: ignore ) self.vision_end_token_id = ( tokenizer.vision_end_token_id # type: ignore if getattr(tokenizer, "vision_end_token_id", None) else tokenizer.convert_tokens_to_ids(self.vision_end_token) # type: ignore ) @auto_docstring def __call__( # type: ignore self, images: ImageInput = None, # type: ignore text: TextInput | PreTokenizedInput | list[TextInput] | list[PreTokenizedInput] = None, # type: ignore videos: VideoInput = None, # type: ignore **kwargs: Unpack[Qwen3VLProcessorKwargs], ) -> BatchFeature: r""" Returns: [`BatchFeature`]: A [`BatchFeature`] with the following fields: - **input_ids** -- List of token ids to be fed to a model. Returned when `text` is not `None`. - **attention_mask** -- List of indices specifying which tokens should be attended to by the model (when `return_attention_mask=True` or if *"attention_mask"* is in `self.model_input_names` and if `text` is not `None`). - **pixel_values** -- Pixel values to be fed to a model. Returned when `images` is not `None`. - **pixel_values_videos** -- Pixel values of videos to be fed to a model. Returned when `videos` is not `None`. - **image_grid_thw** -- List of image 3D grid in LLM. Returned when `images` is not `None`. - **video_grid_thw** -- List of video 3D grid in LLM. Returned when `videos` is not `None`. """ output_kwargs = self._merge_kwargs( Qwen3VLProcessorKwargs, # type: ignore tokenizer_init_kwargs=self.tokenizer.init_kwargs, # type: ignore **kwargs, ) if images is not None: image_inputs = self.image_processor(images=images, **output_kwargs["images_kwargs"]) # type: ignore image_grid_thw = image_inputs["image_grid_thw"] else: image_inputs = {} image_grid_thw = None if videos is not None: videos_inputs = self.video_processor(videos=videos, **output_kwargs["videos_kwargs"]) # type: ignore video_grid_thw = videos_inputs["video_grid_thw"] # If user has not requested video metadata, pop it if not kwargs.get("return_metadata"): video_metadata = videos_inputs.pop("video_metadata") else: video_metadata = videos_inputs["video_metadata"] else: videos_inputs = {} video_grid_thw = None if not isinstance(text, list): text = [text] text = text.copy() # below lines change text in-place if image_grid_thw is not None: merge_length = self.image_processor.merge_size**2 # type: ignore index = 0 for i in range(len(text)): while self.image_token in text[i]: num_image_tokens = image_grid_thw[index].prod() // merge_length text[i] = text[i].replace(self.image_token, "<|placeholder|>" * num_image_tokens, 1) # type: ignore index += 1 text[i] = text[i].replace("<|placeholder|>", self.image_token) # type: ignore if video_grid_thw is not None: merge_length = self.video_processor.merge_size**2 # type: ignore index = 0 for i in range(len(text)): while self.video_token in text[i]: metadata = video_metadata[index] # type: ignore if metadata.fps is None: logger.warning_once( # type: ignore "Qwen3VL requires frame timestamps to construct prompts, but the `fps` of the input video could not be inferred. " "Probably `video_metadata` was missing from inputs and you passed pre-sampled frames. " "Defaulting to `fps=24`. Please provide `video_metadata` for more accurate results." ) metadata.fps = 24 if metadata.fps is None else metadata.fps # if timestamps are not provided, calculate them curr_timestamp = self._calculate_timestamps( metadata.frames_indices, metadata.fps, self.video_processor.merge_size, # type: ignore self.video_processor.focus_size, # type: ignore ) video_placeholder = "" frame_seqlen = video_grid_thw[index][1:].prod() // merge_length for frame_idx in range(video_grid_thw[index][0]): curr_time = curr_timestamp[frame_idx] video_placeholder += f"<{curr_time:.1f} seconds>" video_placeholder += ( self.vision_start_token + "<|placeholder|>" * frame_seqlen + self.vision_end_token ) if f"{self.vision_start_token}{self.video_token}{self.vision_end_token}" in text[i]: text[i] = text[i].replace( # type: ignore f"{self.vision_start_token}{self.video_token}{self.vision_end_token}", video_placeholder, 1 ) else: # vllm may input video token directly text[i] = text[i].replace(self.video_token, video_placeholder, 1) # type: ignore index += 1 text[i] = text[i].replace("<|placeholder|>", self.video_token) # type: ignore return_tensors = output_kwargs["text_kwargs"].pop("return_tensors", None) return_mm_token_type_ids = output_kwargs["text_kwargs"].pop("return_mm_token_type_ids", None) text_inputs = self.tokenizer(text, **output_kwargs["text_kwargs"]) # type: ignore self._check_special_mm_tokens(text, text_inputs, modalities=["image", "video"]) # type: ignore if return_mm_token_type_ids: array_ids = np.array(text_inputs["input_ids"]) mm_token_type_ids = np.zeros_like(text_inputs["input_ids"]) mm_token_type_ids[array_ids == self.image_token_id] = 1 text_inputs["mm_token_type_ids"] = mm_token_type_ids.tolist() return BatchFeature(data={**text_inputs, **image_inputs, **videos_inputs}, tensor_type=return_tensors) def _get_num_multimodal_tokens(self, image_sizes=None, video_sizes=None, **kwargs): """ Computes the number of placeholder tokens needed for multimodal inputs with the given sizes. Args: image_sizes (`list[list[int]]`, *optional*): The input sizes formatted as (height, width) per each image. video_sizes (`list[list[int]]`, *optional*): The input sizes formatted as (num_frames, height, width) per each video. Returns: `MultiModalData`: A `MultiModalData` object holding number of tokens per each of the provided input modalities, along with other useful data. """ vision_data = {} if image_sizes is not None: images_kwargs = Qwen3VLProcessorKwargs._defaults.get("images_kwargs", {}) images_kwargs.update(kwargs) merge_size = images_kwargs.get("merge_size", None) or self.image_processor.merge_size # type: ignore num_image_patches = [ self.image_processor.get_number_of_image_patches(*image_size, images_kwargs) # type: ignore for image_size in image_sizes ] num_image_tokens = [(num_patches // merge_size**2) for num_patches in num_image_patches] vision_data.update({"num_image_tokens": num_image_tokens, "num_image_patches": num_image_patches}) if video_sizes is not None: videos_kwargs = Qwen3VLProcessorKwargs._defaults.get("videos_kwargs", {}) videos_kwargs.update(kwargs) num_video_patches = [ self.video_processor.get_number_of_video_patches(*video_size, videos_kwargs) # type: ignore for video_size in video_sizes ] num_video_tokens = [(num_patches // merge_size**2) for num_patches in num_video_patches] # type: ignore vision_data["num_video_tokens"] = num_video_tokens return MultiModalData(**vision_data) def post_process_image_text_to_text( self, generated_outputs, skip_special_tokens=True, clean_up_tokenization_spaces=False, **kwargs ): """ Post-process the output of the model to decode the text. Args: generated_outputs (`torch.Tensor` or `np.ndarray`): The output of the model `generate` function. The output is expected to be a tensor of shape `(batch_size, sequence_length)` or `(sequence_length,)`. skip_special_tokens (`bool`, *optional*, defaults to `True`): Whether or not to remove special tokens in the output. Argument passed to the tokenizer's `batch_decode` method. clean_up_tokenization_spaces (`bool`, *optional*, defaults to `False`): Whether or not to clean up the tokenization spaces. Argument passed to the tokenizer's `batch_decode` method. **kwargs: Additional arguments to be passed to the tokenizer's `batch_decode method`. Returns: `list[str]`: The decoded text. """ return self.tokenizer.batch_decode( # type: ignore generated_outputs, skip_special_tokens=skip_special_tokens, clean_up_tokenization_spaces=clean_up_tokenization_spaces, **kwargs, ) def _calculate_timestamps( self, indices: list[int] | np.ndarray, video_fps: float, merge_size: int = 2, focus_size: int = 2 ): if not isinstance(indices, list): indices = indices.tolist() if len(indices) % (merge_size * focus_size) != 0: indices.extend( # type: ignore indices[-1] for _ in range((merge_size * focus_size) - len(indices) % (merge_size * focus_size)) ) timestamps = [idx / video_fps for idx in indices] # @JJJYmmm frames are merged by self.merge_size, \ # so we need to average the timestamps between the first/last frame within the temporal patch timestamps = [ (timestamps[i] + timestamps[i + merge_size - 1]) / 2 for i in range(0, len(timestamps), merge_size) ] return timestamps __all__ = ["ZFQwen3VLProcessor"]