First commit

vllm/multimodal/utils.py

@@ -0,0 +1,323 @@
+import base64
+from functools import lru_cache
+from io import BytesIO
+from typing import Any, List, Optional, Tuple, TypeVar, Union
+
+import numpy as np
+import numpy.typing as npt
+from PIL import Image
+
+from vllm.connections import global_http_connection
+from vllm.envs import VLLM_AUDIO_FETCH_TIMEOUT, VLLM_IMAGE_FETCH_TIMEOUT
+from vllm.logger import init_logger
+from vllm.multimodal.base import MultiModalDataDict
+from vllm.transformers_utils.tokenizer import AnyTokenizer, get_tokenizer
+
+logger = init_logger(__name__)
+
+cached_get_tokenizer = lru_cache(get_tokenizer)
+
+
+def _load_image_from_bytes(b: bytes):
+    image = Image.open(BytesIO(b))
+    image.load()
+    return image
+
+
+def _load_image_from_data_url(image_url: str):
+    # Only split once and assume the second part is the base64 encoded image
+    _, image_base64 = image_url.split(",", 1)
+    return load_image_from_base64(image_base64)
+
+
+def fetch_image(image_url: str, *, image_mode: str = "RGB") -> Image.Image:
+    """
+    Load a PIL image from a HTTP or base64 data URL.
+
+    By default, the image is converted into RGB format.
+    """
+    if image_url.startswith('http'):
+        image_raw = global_http_connection.get_bytes(
+            image_url, timeout=VLLM_IMAGE_FETCH_TIMEOUT)
+        image = _load_image_from_bytes(image_raw)
+
+    elif image_url.startswith('data:image'):
+        image = _load_image_from_data_url(image_url)
+    else:
+        raise ValueError("Invalid 'image_url': A valid 'image_url' must start "
+                         "with either 'data:image' or 'http'.")
+
+    return image.convert(image_mode)
+
+
+async def async_fetch_image(image_url: str,
+                            *,
+                            image_mode: str = "RGB") -> Image.Image:
+    """
+    Asynchronously load a PIL image from a HTTP or base64 data URL.
+
+    By default, the image is converted into RGB format.
+    """
+    if image_url.startswith('http'):
+        image_raw = await global_http_connection.async_get_bytes(
+            image_url, timeout=VLLM_IMAGE_FETCH_TIMEOUT)
+        image = _load_image_from_bytes(image_raw)
+
+    elif image_url.startswith('data:image'):
+        image = _load_image_from_data_url(image_url)
+    else:
+        raise ValueError("Invalid 'image_url': A valid 'image_url' must start "
+                         "with either 'data:image' or 'http'.")
+
+    return image.convert(image_mode)
+
+
+def try_import_audio_packages() -> Tuple[Any, Any]:
+    try:
+        import librosa
+        import soundfile
+    except ImportError:
+        raise ImportError(
+            "Please install vllm[audio] for audio support.") from None
+    return librosa, soundfile
+
+
+def fetch_audio(audio_url: str) -> Tuple[np.ndarray, Union[int, float]]:
+    """
+    Load audio from a URL.
+    """
+    librosa, _ = try_import_audio_packages()
+
+    if audio_url.startswith("http"):
+        audio_bytes = global_http_connection.get_bytes(
+            audio_url, timeout=VLLM_AUDIO_FETCH_TIMEOUT)
+    elif audio_url.startswith("data:audio"):
+        _, audio_base64 = audio_url.split(",", 1)
+        audio_bytes = base64.b64decode(audio_base64)
+    else:
+        raise ValueError("Invalid 'audio_url': A valid 'audio_url' must start "
+                         "with either 'data:audio' or 'http'.")
+
+    return librosa.load(BytesIO(audio_bytes), sr=None)
+
+
+async def async_fetch_audio(
+        audio_url: str) -> Tuple[np.ndarray, Union[int, float]]:
+    """
+    Asynchronously fetch audio from a URL.
+    """
+    librosa, _ = try_import_audio_packages()
+
+    if audio_url.startswith("http"):
+        audio_bytes = await global_http_connection.async_get_bytes(
+            audio_url, timeout=VLLM_AUDIO_FETCH_TIMEOUT)
+    elif audio_url.startswith("data:audio"):
+        _, audio_base64 = audio_url.split(",", 1)
+        audio_bytes = base64.b64decode(audio_base64)
+    else:
+        raise ValueError("Invalid 'audio_url': A valid 'audio_url' must start "
+                         "with either 'data:audio' or 'http'.")
+
+    return librosa.load(BytesIO(audio_bytes), sr=None)
+
+
+def get_and_parse_audio(audio_url: str) -> MultiModalDataDict:
+    audio, sr = fetch_audio(audio_url)
+    return {"audio": (audio, sr)}
+
+
+def get_and_parse_image(image_url: str) -> MultiModalDataDict:
+    image = fetch_image(image_url)
+    return {"image": image}
+
+
+async def async_get_and_parse_audio(audio_url: str) -> MultiModalDataDict:
+    audio, sr = await async_fetch_audio(audio_url)
+    return {"audio": (audio, sr)}
+
+
+async def async_get_and_parse_image(image_url: str) -> MultiModalDataDict:
+    image = await async_fetch_image(image_url)
+    return {"image": image}
+
+
+def encode_audio_base64(
+    audio: np.ndarray,
+    sampling_rate: int,
+) -> str:
+    """Encode audio as base64."""
+    _, soundfile = try_import_audio_packages()
+
+    buffered = BytesIO()
+    soundfile.write(buffered, audio, sampling_rate, format="WAV")
+
+    return base64.b64encode(buffered.getvalue()).decode('utf-8')
+
+
+def encode_image_base64(
+    image: Image.Image,
+    *,
+    image_mode: str = "RGB",
+    format: str = "JPEG",
+) -> str:
+    """
+    Encode a pillow image to base64 format.
+
+    By default, the image is converted into RGB format before being encoded.
+    """
+    buffered = BytesIO()
+    image = image.convert(image_mode)
+    image.save(buffered, format)
+    return base64.b64encode(buffered.getvalue()).decode('utf-8')
+
+
+def load_image_from_base64(image: Union[bytes, str]) -> Image.Image:
+    """Load image from base64 format."""
+    return _load_image_from_bytes(base64.b64decode(image))
+
+
+def rescale_image_size(image: Image.Image,
+                       size_factor: float,
+                       transpose: int = -1) -> Image.Image:
+    """Rescale the dimensions of an image by a constant factor."""
+    new_width = int(image.width * size_factor)
+    new_height = int(image.height * size_factor)
+    image = image.resize((new_width, new_height))
+    if transpose >= 0:
+        image = image.transpose(Image.Transpose(transpose))
+    return image
+
+
+def try_import_video_packages() -> Any:
+    try:
+        import cv2
+    except ImportError:
+        raise ImportError(
+            "Please install vllm[video] for video support.") from None
+    return cv2
+
+
+def resize_video(frames: npt.NDArray, size: Tuple[int, int]) -> npt.NDArray:
+    cv2 = try_import_video_packages()
+
+    num_frames, _, _, channels = frames.shape
+    new_height, new_width = size
+    resized_frames = np.empty((num_frames, new_height, new_width, channels),
+                              dtype=frames.dtype)
+    for i, frame in enumerate(frames):
+        resized_frame = cv2.resize(frame, (new_width, new_height))
+        resized_frames[i] = resized_frame
+    return resized_frames
+
+
+def rescale_video_size(frames: npt.NDArray, size_factor: float) -> npt.NDArray:
+    _, height, width, _ = frames.shape
+    new_height = int(height * size_factor)
+    new_width = int(width * size_factor)
+
+    return resize_video(frames, (new_height, new_width))
+
+
+def sample_frames_from_video(frames: npt.NDArray,
+                             num_frames: int) -> npt.NDArray:
+    total_frames = frames.shape[0]
+    if num_frames == -1:
+        return frames
+    else:
+        frame_indices = np.linspace(0, total_frames - 1, num_frames, dtype=int)
+        sampled_frames = frames[frame_indices, ...]
+        return sampled_frames
+
+
+# Utilities for input processors
+_T = TypeVar("_T", str, int)
+
+
+def repeat_and_pad_token(
+    token: _T,
+    *,
+    repeat_count: int = 1,
+    pad_token_left: Optional[_T] = None,
+    pad_token_right: Optional[_T] = None,
+) -> List[_T]:
+    replacement = [token] * repeat_count
+    if pad_token_left is not None:
+        replacement = [pad_token_left] + replacement
+    if pad_token_right is not None:
+        replacement = replacement + [pad_token_right]
+
+    return replacement
+
+
+def repeat_and_pad_placeholder_tokens(
+    tokenizer: AnyTokenizer,
+    prompt: Optional[str],
+    prompt_token_ids: List[int],
+    *,
+    placeholder_token_id: int,
+    repeat_count: Union[int, List[int]],
+    pad_token_left: Optional[int] = None,
+    pad_token_right: Optional[int] = None,
+) -> Tuple[Optional[str], List[int]]:
+    if isinstance(repeat_count, int):
+        repeat_count = [repeat_count]
+
+    if prompt is None:
+        new_prompt = None
+    else:
+        placeholder_token_str = tokenizer.decode(placeholder_token_id)
+        pad_token_str_left = (None if pad_token_left is None else
+                              tokenizer.decode(pad_token_left))
+        pad_token_str_right = (None if pad_token_right is None else
+                               tokenizer.decode(pad_token_right))
+
+        placeholder_token_count = prompt.count(placeholder_token_str)
+        # This is an arbitrary number to distinguish between the two cases
+        if placeholder_token_count > 16:
+            logger.warning(
+                "Please follow the prompt format that is "
+                "documented on HuggingFace which does not involve "
+                "repeating %s tokens.", placeholder_token_str)
+        if placeholder_token_count < len(repeat_count):
+            logger.warning(
+                "The number of multi-modal placeholder tokens in the prompt "
+                "is less than the number of multi-modal inputs. Extra "
+                "placeholder tokens will be treated as plain text")
+            repeat_count = repeat_count[:placeholder_token_count]
+
+        prompt_parts = prompt.split(placeholder_token_str,
+                                    maxsplit=len(repeat_count))
+        new_prompt = ""
+        for i, repeat_count_item in enumerate(repeat_count):
+            replacement_str = "".join(
+                repeat_and_pad_token(
+                    placeholder_token_str,
+                    repeat_count=repeat_count_item,
+                    pad_token_left=pad_token_str_left,
+                    pad_token_right=pad_token_str_right,
+                ))
+            # The image tokens are removed to be consistent with HuggingFace
+            new_prompt += prompt_parts[i] + replacement_str
+        new_prompt += prompt_parts[-1]
+
+    new_token_ids: List[int] = []
+    placeholder_token_idx = 0
+    for i, token in enumerate(prompt_token_ids):
+        if token == placeholder_token_id:
+            replacement_ids = repeat_and_pad_token(
+                placeholder_token_id,
+                repeat_count=repeat_count[placeholder_token_idx],
+                pad_token_left=pad_token_left,
+                pad_token_right=pad_token_right,
+            )
+            new_token_ids.extend(replacement_ids)
+            placeholder_token_idx += 1
+
+            # No need to further scan the list since we replaced all tokens
+            if placeholder_token_idx >= len(repeat_count):
+                new_token_ids.extend(prompt_token_ids[i + 1:])
+                break
+        else:
+            new_token_ids.append(token)
+
+    return new_prompt, new_token_ids