─░├žeri─če ge├ž

Referans i├žin ultralytics/data/explorer/utils.py

Not

Bu dosya https://github.com/ultralytics/ultralytics/blob/main/ ultralytics/data/explorer/utils .py adresinde mevcuttur. Bir sorun tespit ederseniz l├╝tfen bir ├çekme ─░ste─či ­čŤá´ŞĆ ile katk─▒da bulunarak d├╝zeltilmesine yard─▒mc─▒ olun. Te┼čekk├╝rler ­čÖĆ!



ultralytics.data.explorer.utils.get_table_schema(vector_size)

Bir veritaban─▒ tablosunun ┼čemas─▒n─▒ ├ž─▒kar─▒r ve d├Ând├╝r├╝r.

Kaynak kodu ultralytics/data/explorer/utils.py
def get_table_schema(vector_size):
    """Extracts and returns the schema of a database table."""
    from lancedb.pydantic import LanceModel, Vector

    class Schema(LanceModel):
        im_file: str
        labels: List[str]
        cls: List[int]
        bboxes: List[List[float]]
        masks: List[List[List[int]]]
        keypoints: List[List[List[float]]]
        vector: Vector(vector_size)

    return Schema



ultralytics.data.explorer.utils.get_sim_index_schema()

Belirtilen vekt├Âr boyutuna sahip bir veritaban─▒ tablosu i├žin bir LanceModel ┼čemas─▒ d├Ând├╝r├╝r.

Kaynak kodu ultralytics/data/explorer/utils.py
def get_sim_index_schema():
    """Returns a LanceModel schema for a database table with specified vector size."""
    from lancedb.pydantic import LanceModel

    class Schema(LanceModel):
        idx: int
        im_file: str
        count: int
        sim_im_files: List[str]

    return Schema



ultralytics.data.explorer.utils.sanitize_batch(batch, dataset_info)

Do─čru format ve boyutlar─▒ sa─člayarak ├ž─▒kar─▒m i├žin girdi y─▒─č─▒n─▒n─▒ sterilize eder.

Kaynak kodu ultralytics/data/explorer/utils.py
def sanitize_batch(batch, dataset_info):
    """Sanitizes input batch for inference, ensuring correct format and dimensions."""
    batch["cls"] = batch["cls"].flatten().int().tolist()
    box_cls_pair = sorted(zip(batch["bboxes"].tolist(), batch["cls"]), key=lambda x: x[1])
    batch["bboxes"] = [box for box, _ in box_cls_pair]
    batch["cls"] = [cls for _, cls in box_cls_pair]
    batch["labels"] = [dataset_info["names"][i] for i in batch["cls"]]
    batch["masks"] = batch["masks"].tolist() if "masks" in batch else [[[]]]
    batch["keypoints"] = batch["keypoints"].tolist() if "keypoints" in batch else [[[]]]
    return batch



ultralytics.data.explorer.utils.plot_query_result(similar_set, plot_labels=True)

Benzer setten g├Âr├╝nt├╝leri ├žizin.

Parametreler:

─░sim Tip A├ž─▒klama Varsay─▒lan
similar_set list

Benzer veri noktalar─▒n─▒ i├žeren Pyarrow veya pandas nesnesi

gerekli
plot_labels bool

Etiketlerin ├žizilip ├žizilmeyece─či

True
Kaynak kodu ultralytics/data/explorer/utils.py
def plot_query_result(similar_set, plot_labels=True):
    """
    Plot images from the similar set.

    Args:
        similar_set (list): Pyarrow or pandas object containing the similar data points
        plot_labels (bool): Whether to plot labels or not
    """
    import pandas  # scope for faster 'import ultralytics'

    similar_set = (
        similar_set.to_dict(orient="list") if isinstance(similar_set, pandas.DataFrame) else similar_set.to_pydict()
    )
    empty_masks = [[[]]]
    empty_boxes = [[]]
    images = similar_set.get("im_file", [])
    bboxes = similar_set.get("bboxes", []) if similar_set.get("bboxes") is not empty_boxes else []
    masks = similar_set.get("masks") if similar_set.get("masks")[0] != empty_masks else []
    kpts = similar_set.get("keypoints") if similar_set.get("keypoints")[0] != empty_masks else []
    cls = similar_set.get("cls", [])

    plot_size = 640
    imgs, batch_idx, plot_boxes, plot_masks, plot_kpts = [], [], [], [], []
    for i, imf in enumerate(images):
        im = cv2.imread(imf)
        im = cv2.cvtColor(im, cv2.COLOR_BGR2RGB)
        h, w = im.shape[:2]
        r = min(plot_size / h, plot_size / w)
        imgs.append(LetterBox(plot_size, center=False)(image=im).transpose(2, 0, 1))
        if plot_labels:
            if len(bboxes) > i and len(bboxes[i]) > 0:
                box = np.array(bboxes[i], dtype=np.float32)
                box[:, [0, 2]] *= r
                box[:, [1, 3]] *= r
                plot_boxes.append(box)
            if len(masks) > i and len(masks[i]) > 0:
                mask = np.array(masks[i], dtype=np.uint8)[0]
                plot_masks.append(LetterBox(plot_size, center=False)(image=mask))
            if len(kpts) > i and kpts[i] is not None:
                kpt = np.array(kpts[i], dtype=np.float32)
                kpt[:, :, :2] *= r
                plot_kpts.append(kpt)
        batch_idx.append(np.ones(len(np.array(bboxes[i], dtype=np.float32))) * i)
    imgs = np.stack(imgs, axis=0)
    masks = np.stack(plot_masks, axis=0) if plot_masks else np.zeros(0, dtype=np.uint8)
    kpts = np.concatenate(plot_kpts, axis=0) if plot_kpts else np.zeros((0, 51), dtype=np.float32)
    boxes = xyxy2xywh(np.concatenate(plot_boxes, axis=0)) if plot_boxes else np.zeros(0, dtype=np.float32)
    batch_idx = np.concatenate(batch_idx, axis=0)
    cls = np.concatenate([np.array(c, dtype=np.int32) for c in cls], axis=0)

    return plot_images(
        imgs, batch_idx, cls, bboxes=boxes, masks=masks, kpts=kpts, max_subplots=len(images), save=False, threaded=False
    )



ultralytics.data.explorer.utils.prompt_sql_query(query)

Benzer bir veri setinden iste─če ba─čl─▒ etiketlere sahip g├Âr├╝nt├╝leri ├žizer.

Kaynak kodu ultralytics/data/explorer/utils.py
def prompt_sql_query(query):
    """Plots images with optional labels from a similar data set."""
    check_requirements("openai>=1.6.1")
    from openai import OpenAI

    if not SETTINGS["openai_api_key"]:
        logger.warning("OpenAI API key not found in settings. Please enter your API key below.")
        openai_api_key = getpass.getpass("OpenAI API key: ")
        SETTINGS.update({"openai_api_key": openai_api_key})
    openai = OpenAI(api_key=SETTINGS["openai_api_key"])

    messages = [
        {
            "role": "system",
            "content": """
                You are a helpful data scientist proficient in SQL. You need to output exactly one SQL query based on
                the following schema and a user request. You only need to output the format with fixed selection
                statement that selects everything from "'table'", like `SELECT * from 'table'`

                Schema:
                im_file: string not null
                labels: list<item: string> not null
                child 0, item: string
                cls: list<item: int64> not null
                child 0, item: int64
                bboxes: list<item: list<item: double>> not null
                child 0, item: list<item: double>
                    child 0, item: double
                masks: list<item: list<item: list<item: int64>>> not null
                child 0, item: list<item: list<item: int64>>
                    child 0, item: list<item: int64>
                        child 0, item: int64
                keypoints: list<item: list<item: list<item: double>>> not null
                child 0, item: list<item: list<item: double>>
                    child 0, item: list<item: double>
                        child 0, item: double
                vector: fixed_size_list<item: float>[256] not null
                child 0, item: float

                Some details about the schema:
                - the "labels" column contains the string values like 'person' and 'dog' for the respective objects
                    in each image
                - the "cls" column contains the integer values on these classes that map them the labels

                Example of a correct query:
                request - Get all data points that contain 2 or more people and at least one dog
                correct query-
                SELECT * FROM 'table' WHERE  ARRAY_LENGTH(cls) >= 2  AND ARRAY_LENGTH(FILTER(labels, x -> x = 'person')) >= 2  AND ARRAY_LENGTH(FILTER(labels, x -> x = 'dog')) >= 1;
             """,
        },
        {"role": "user", "content": f"{query}"},
    ]

    response = openai.chat.completions.create(model="gpt-3.5-turbo", messages=messages)
    return response.choices[0].message.content





Created 2024-01-10, Updated 2024-06-02
Authors: glenn-jocher (3), Burhan-Q (1)

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