Sync from v0.13

tests/models/multimodal/generation/test_qwen2_vl.py

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+# SPDX-License-Identifier: Apache-2.0
+# SPDX-FileCopyrightText: Copyright contributors to the vLLM project
+
+from typing import Any, TypedDict
+
+import numpy.typing as npt
+import pytest
+import torch
+from PIL import Image
+
+from vllm.multimodal.image import rescale_image_size
+from vllm.multimodal.video import rescale_video_size, sample_frames_from_video
+
+from ....conftest import (
+    IMAGE_ASSETS,
+    VIDEO_ASSETS,
+    PromptImageInput,
+    PromptVideoInput,
+    VllmRunner,
+)
+from ...utils import check_logprobs_close
+
+
+@pytest.fixture(scope="function", autouse=True)
+def enable_pickle(monkeypatch):
+    """`LLM.apply_model` requires pickling a function."""
+    monkeypatch.setenv("VLLM_ALLOW_INSECURE_SERIALIZATION", "1")
+
+
+models = ["Qwen/Qwen2-VL-2B-Instruct"]
+target_dtype = "half"
+
+IMAGE_PLACEHOLDER = "<|vision_start|><|image_pad|><|vision_end|>"
+VIDEO_PLACEHOLDER = "<|vision_start|><|video_pad|><|vision_end|>"
+MODEL_HIDDEN_SIZE = 1536
+
+
+def qwen2_vl_chat_template(*query):
+    return f"<|im_start|>system\nYou are a helpful assistant.<|im_end|>\n<|im_start|>user\n{''.join(query)}<|im_end|><|im_start|>assistant\n"  # noqa: E501
+
+
+IMAGE_PROMPTS = IMAGE_ASSETS.prompts(
+    {
+        "stop_sign": qwen2_vl_chat_template(
+            IMAGE_PLACEHOLDER,
+            "What is the biggest text's content in this image?",
+        ),
+        "cherry_blossom": qwen2_vl_chat_template(
+            IMAGE_PLACEHOLDER,
+            "What is the season shown in this image? ",
+            "Reply with a short sentence (no more than 20 words)",
+        ),
+    }
+)
+
+VIDEO_PROMPTS = VIDEO_ASSETS.prompts(
+    {
+        "baby_reading": qwen2_vl_chat_template(
+            VIDEO_PLACEHOLDER,
+            "Describe this video with a short sentence ",
+            "(no more than 20 words)",
+        ),
+    }
+)
+
+MULTIIMAGE_PROMPT = qwen2_vl_chat_template(
+    IMAGE_PLACEHOLDER,
+    IMAGE_PLACEHOLDER,
+    "Describe these two images separately. ",
+    "For each image, reply with a short sentence ",
+    "(no more than 10 words).",
+)
+
+
+class Qwen2VLPromptImageEmbeddingInput(TypedDict):
+    image_embeds: torch.Tensor
+    image_grid_thw: torch.Tensor
+
+
+class Qwen2VLPromptVideoEmbeddingInput(TypedDict):
+    video_embeds: torch.Tensor
+    video_grid_thw: torch.Tensor
+
+
+def batch_make_image_embeddings(
+    image_batches: list[Image.Image | list[Image.Image]],
+    processor,
+    llm: VllmRunner,
+) -> list[Qwen2VLPromptImageEmbeddingInput]:
+    """batched image embeddings for Qwen2-VL
+
+    This will infer all images' embeddings in a single batch,
+      and split the result according to input batches.
+
+    image_batches:
+      - Single-image batches: `list[Image.Image]`
+      - Multiple-image batches: `list[list[Image.Image]]]`
+
+    returns: `list[Qwen2VLPromptImageEmbeddingInput]`
+    """
+
+    image_batches_: list[Any] = image_batches[:]
+
+    # convert single-image batches to multiple-image batches
+    for idx in range(len(image_batches_)):
+        if not isinstance(image_batches_[idx], list):
+            image_batches_[idx] = [image_batches_[idx]]
+
+        assert isinstance(image_batches_[idx], list)
+
+    # append all images into a list (as a batch)
+    images: list[Image.Image] = []
+    for image_batch in image_batches_:
+        images += image_batch
+
+    # image to pixel values
+    image_processor = processor.image_processor
+
+    preprocess_result = image_processor.preprocess(
+        images=images, return_tensors="pt"
+    ).data
+    pixel_values = preprocess_result["pixel_values"]
+    image_grid_thw = preprocess_result["image_grid_thw"]
+
+    # pixel values to embeddings & grid_thws
+    def get_image_embeds(model):
+        with torch.no_grad():
+            visual = model.visual
+
+            pixel_values_on_device = pixel_values.to(visual.device, dtype=visual.dtype)
+            return visual(pixel_values_on_device, grid_thw=image_grid_thw).cpu()
+
+    image_embeds = torch.concat(llm.apply_model(get_image_embeds))
+
+    # split into original batches
+    result: list[Qwen2VLPromptImageEmbeddingInput] = []
+    image_counter = 0
+    embed_counter = 0
+    for image_batch in image_batches_:
+        cur_batch_image_count = len(image_batch)
+        merge_size = image_processor.merge_size
+        cur_batch_embed_len = sum(
+            grid_thw.prod(-1) // merge_size // merge_size
+            for grid_thw in image_grid_thw[
+                image_counter : image_counter + cur_batch_image_count
+            ]
+        )
+
+        result.append(
+            {
+                "image_embeds": image_embeds[
+                    embed_counter : embed_counter + cur_batch_embed_len
+                ],
+                "image_grid_thw": image_grid_thw[
+                    image_counter : image_counter + cur_batch_image_count
+                ],
+            }
+        )
+
+        embed_counter += cur_batch_embed_len
+        image_counter += cur_batch_image_count
+
+    # ensure we don't lose any images or embeddings
+    assert embed_counter == image_embeds.size(0)
+    assert image_counter == image_grid_thw.size(0)
+    assert len(image_batches) == len(result)
+
+    return result
+
+
+def batch_make_video_embeddings(
+    video_batches: PromptVideoInput, processor, llm: VllmRunner
+) -> list[Qwen2VLPromptVideoEmbeddingInput]:
+    """batched video embeddings for Qwen2-VL
+
+    A NDArray represents a single video's all frames.
+
+    This will infer all videos' embeddings in a single batch,
+      and split the result according to input batches.
+
+    video_batches:
+      - Single-video batches: `list[NDArray]`
+      - Multiple-video batches: `list[list[NDArray]]`
+    """
+
+    video_batches_: list[Any] = video_batches[:]
+
+    for idx in range(len(video_batches_)):
+        if not isinstance(video_batches_[idx], list):
+            single_video_batch: list[npt.NDArray] = [video_batches_[idx]]
+            video_batches_[idx] = single_video_batch
+
+        assert isinstance(video_batches_[idx], list)
+
+    # append all videos into a list (as a batch)
+    videos: list[npt.NDArray] = []
+    for video_batch in video_batches_:
+        videos += video_batch
+
+    # video to pixel values
+    image_processor = processor.image_processor
+
+    preprocess_result = image_processor.preprocess(
+        images=None, videos=videos, return_tensors="pt"
+    ).data
+    pixel_values = preprocess_result["pixel_values_videos"]
+    video_grid_thw = preprocess_result["video_grid_thw"]
+
+    # pixel values to embeddings & grid_thws
+    def get_image_embeds(model):
+        with torch.no_grad():
+            visual = model.visual
+
+            pixel_values_on_device = pixel_values.to(visual.device, dtype=visual.dtype)
+            return visual(pixel_values_on_device, grid_thw=video_grid_thw).cpu()
+
+    video_embeds = torch.concat(llm.apply_model(get_image_embeds))
+
+    # split into original batches
+    result: list[Qwen2VLPromptVideoEmbeddingInput] = []
+    video_counter = 0
+    embed_counter = 0
+    for video_batch in video_batches_:
+        cur_batch_video_count = len(video_batch)
+        merge_size = image_processor.merge_size
+        cur_batch_embed_len = sum(
+            grid_thw.prod(-1) // merge_size // merge_size
+            for grid_thw in video_grid_thw[
+                video_counter : video_counter + cur_batch_video_count
+            ]
+        )
+
+        result.append(
+            {
+                "video_embeds": video_embeds[
+                    embed_counter : embed_counter + cur_batch_embed_len
+                ],
+                "video_grid_thw": video_grid_thw[
+                    video_counter : video_counter + cur_batch_video_count
+                ],
+            }
+        )
+
+        embed_counter += cur_batch_embed_len
+        video_counter += cur_batch_video_count
+
+    # ensure we don't lose any videos or embeddings
+    assert embed_counter == video_embeds.size(0)
+    assert video_counter == video_grid_thw.size(0)
+    assert len(video_batches) == len(result)
+
+    return result
+
+
+def run_embedding_input_test(
+    vllm_runner: type[VllmRunner],
+    inputs: list[tuple[list[str], PromptImageInput, PromptVideoInput]],
+    model: str,
+    *,
+    dtype: str,
+    max_tokens: int,
+    num_logprobs: int,
+    mm_limit: int,
+    tensor_parallel_size: int,
+    distributed_executor_backend: str | None = None,
+):
+    """Inference result should be the same between
+    original image/video input and image/video embeddings input.
+    """
+    from transformers import AutoProcessor  # noqa: F401
+
+    processor = AutoProcessor.from_pretrained(model)
+
+    # max_model_len should be greater than image_feature_size
+    with vllm_runner(
+        model,
+        runner="generate",
+        max_model_len=4000,
+        max_num_seqs=3,
+        dtype=dtype,
+        limit_mm_per_prompt={"image": mm_limit, "video": mm_limit},
+        tensor_parallel_size=tensor_parallel_size,
+        distributed_executor_backend=distributed_executor_backend,
+        default_torch_num_threads=1,
+        enable_mm_embeds=True,
+    ) as vllm_model:
+        outputs_per_case_for_original_input = [
+            vllm_model.generate_greedy_logprobs(
+                prompts,
+                max_tokens,
+                num_logprobs=num_logprobs,
+                images=images or None,
+                videos=videos or None,
+            )
+            for prompts, images, videos in inputs
+        ]
+
+        outputs_per_case_for_embeddings_input = [
+            vllm_model.generate_greedy_logprobs(
+                prompts,
+                max_tokens,
+                num_logprobs=num_logprobs,
+                images=batch_make_image_embeddings(images, processor, vllm_model)
+                if images
+                else None,
+                videos=batch_make_video_embeddings(videos, processor, vllm_model)
+                if videos
+                else None,
+            )
+            for prompts, images, videos in inputs
+        ]
+
+    for outputs_for_original_input, outputs_for_embeddings_input in zip(
+        outputs_per_case_for_original_input, outputs_per_case_for_embeddings_input
+    ):
+        check_logprobs_close(
+            outputs_0_lst=outputs_for_original_input,
+            outputs_1_lst=outputs_for_embeddings_input,
+            name_0="original_input",
+            name_1="embeddings_input",
+        )
+
+
+@pytest.mark.core_model
+@pytest.mark.parametrize("model", models)
+@pytest.mark.parametrize(
+    "size_factors",
+    [
+        # Single-scale
+        [0.5],
+        # Single-scale, batched
+        [0.5, 0.5],
+        # Multi-scale
+        [0.25, 0.5, 0.5],
+    ],
+)
+@pytest.mark.parametrize("dtype", [target_dtype])
+@pytest.mark.parametrize("max_tokens", [128])
+@pytest.mark.parametrize("num_logprobs", [10])
+def test_qwen2_vl_image_embeddings_input(
+    vllm_runner,
+    image_assets,
+    model,
+    size_factors,
+    dtype,
+    max_tokens,
+    num_logprobs,
+    monkeypatch,
+) -> None:
+    images = [asset.pil_image for asset in image_assets]
+
+    inputs_per_case: list[tuple[list[str], PromptImageInput, PromptVideoInput]] = [
+        (
+            [prompt for _ in size_factors],
+            [rescale_image_size(image, factor) for factor in size_factors],
+            [],
+        )
+        for image, prompt in zip(images, IMAGE_PROMPTS)
+    ]
+
+    run_embedding_input_test(
+        vllm_runner,
+        inputs_per_case,
+        model,
+        dtype=dtype,
+        max_tokens=max_tokens,
+        num_logprobs=num_logprobs,
+        mm_limit=1,
+        tensor_parallel_size=1,
+    )
+
+
+@pytest.mark.core_model
+@pytest.mark.parametrize("model", models)
+@pytest.mark.parametrize(
+    "size_factors",
+    [
+        [],
+        # Single-scale
+        [0.5],
+        # Single-scale, batched
+        [0.5, 0.5],
+        # Multi-scale
+        [0.25, 0.5, 0.5],
+    ],
+)
+@pytest.mark.parametrize("dtype", [target_dtype])
+@pytest.mark.parametrize("max_tokens", [128])
+@pytest.mark.parametrize("num_logprobs", [10])
+def test_qwen2_vl_multiple_image_embeddings_input(
+    vllm_runner,
+    image_assets,
+    model,
+    size_factors,
+    dtype: str,
+    max_tokens: int,
+    num_logprobs: int,
+) -> None:
+    images = [asset.pil_image for asset in image_assets]
+
+    inputs_per_case: list[tuple[list[str], PromptImageInput, PromptVideoInput]] = [
+        (
+            [MULTIIMAGE_PROMPT for _ in size_factors],
+            [
+                [rescale_image_size(image, factor) for image in images]
+                for factor in size_factors
+            ],
+            [],
+        )
+    ]
+
+    run_embedding_input_test(
+        vllm_runner,
+        inputs_per_case,
+        model,
+        dtype=dtype,
+        max_tokens=max_tokens,
+        num_logprobs=num_logprobs,
+        mm_limit=2,
+        tensor_parallel_size=1,
+    )
+
+
+@pytest.mark.core_model
+@pytest.mark.parametrize("model", models)
+@pytest.mark.parametrize(
+    "size_factors",
+    [
+        # Single-scale
+        [0.5],
+        # Single-scale, batched
+        [0.5, 0.5],
+        # Multi-scale
+        [0.25, 0.25, 0.5],
+    ],
+)
+@pytest.mark.parametrize("dtype", [target_dtype])
+@pytest.mark.parametrize("max_tokens", [128])
+@pytest.mark.parametrize("num_logprobs", [10])
+def test_qwen2_vl_video_embeddings_input(
+    vllm_runner,
+    video_assets,
+    model,
+    size_factors,
+    dtype: str,
+    max_tokens: int,
+    num_logprobs: int,
+) -> None:
+    num_frames = 4
+    sampled_vids = [
+        sample_frames_from_video(asset.np_ndarrays, num_frames)
+        for asset in video_assets
+    ]
+
+    inputs_per_case: list[tuple[list[str], PromptImageInput, PromptVideoInput]] = [
+        (
+            [prompt for _ in size_factors],
+            [],
+            [rescale_video_size(video, factor) for factor in size_factors],
+        )
+        for video, prompt in zip(sampled_vids, VIDEO_PROMPTS)
+    ]
+
+    run_embedding_input_test(
+        vllm_runner,
+        inputs_per_case,
+        model,
+        dtype=dtype,
+        max_tokens=max_tokens,
+        num_logprobs=num_logprobs,
+        mm_limit=1,
+        tensor_parallel_size=1,
+    )