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from typing import Tuple, List
import cv2
import numpy as np
import supervision as sv
import torch
from PIL import Image
from torchvision.ops import box_convert
import bisect
import groundingdino.datasets.transforms as T
from groundingdino.models import build_model
from groundingdino.util.misc import clean_state_dict
from groundingdino.util.slconfig import SLConfig
from groundingdino.util.utils import get_phrases_from_posmap
# ----------------------------------------------------------------------------------------------------------------------
# OLD API
# ----------------------------------------------------------------------------------------------------------------------
def preprocess_caption(caption: str) -> str:
result = caption.lower().strip()
if result.endswith("."):
return result
return result + "."
def load_model(model_config_path: str, model_checkpoint_path: str, device: str = "cuda"):
args = SLConfig.fromfile(model_config_path)
args.device = device
model = build_model(args)
checkpoint = torch.load(model_checkpoint_path, map_location="cpu")
model.load_state_dict(clean_state_dict(checkpoint["model"]), strict=False)
model.eval()
return model
def load_image(image_path: str) -> Tuple[np.array, torch.Tensor]:
transform = T.Compose(
[
T.RandomResize([800], max_size=1333),
T.ToTensor(),
T.Normalize([0.485, 0.456, 0.406], [0.229, 0.224, 0.225]),
]
)
image_source = Image.open(image_path).convert("RGB")
image = np.asarray(image_source)
image_transformed, _ = transform(image_source, None)
return image, image_transformed
def predict(
model,
image: torch.Tensor,
caption: str,
box_threshold: float,
text_threshold: float,
device: str = "cuda",
remove_combined: bool = False
) -> Tuple[torch.Tensor, torch.Tensor, List[str]]:
caption = preprocess_caption(caption=caption)
model = model.to(device)
image = image.to(device)
with torch.no_grad():
outputs = model(image[None], captions=[caption])
prediction_logits = outputs["pred_logits"].cpu().sigmoid()[0] # prediction_logits.shape = (nq, 256)
prediction_boxes = outputs["pred_boxes"].cpu()[0] # prediction_boxes.shape = (nq, 4)
mask = prediction_logits.max(dim=1)[0] > box_threshold
logits = prediction_logits[mask] # logits.shape = (n, 256)
boxes = prediction_boxes[mask] # boxes.shape = (n, 4)
tokenizer = model.tokenizer
tokenized = tokenizer(caption)
if remove_combined:
sep_idx = [i for i in range(len(tokenized['input_ids'])) if tokenized['input_ids'][i] in [101, 102, 1012]]
phrases = []
for logit in logits:
max_idx = logit.argmax()
insert_idx = bisect.bisect_left(sep_idx, max_idx)
right_idx = sep_idx[insert_idx]
left_idx = sep_idx[insert_idx - 1]
phrases.append(get_phrases_from_posmap(logit > text_threshold, tokenized, tokenizer, left_idx, right_idx).replace('.', ''))
else:
phrases = [
get_phrases_from_posmap(logit > text_threshold, tokenized, tokenizer).replace('.', '')
for logit
in logits
]
return boxes, logits.max(dim=1)[0], phrases
def annotate(image_source: np.ndarray, boxes: torch.Tensor, logits: torch.Tensor, phrases: List[str]) -> np.ndarray:
"""
This function annotates an image with bounding boxes and labels.
Parameters:
image_source (np.ndarray): The source image to be annotated.
boxes (torch.Tensor): A tensor containing bounding box coordinates.
logits (torch.Tensor): A tensor containing confidence scores for each bounding box.
phrases (List[str]): A list of labels for each bounding box.
Returns:
np.ndarray: The annotated image.
"""
h, w, _ = image_source.shape
boxes = boxes * torch.Tensor([w, h, w, h])
xyxy = box_convert(boxes=boxes, in_fmt="cxcywh", out_fmt="xyxy").numpy()
detections = sv.Detections(xyxy=xyxy)
labels = [
f"{phrase} {logit:.2f}"
for phrase, logit
in zip(phrases, logits)
]
bbox_annotator = sv.BoxAnnotator(color_lookup=sv.ColorLookup.INDEX)
label_annotator = sv.LabelAnnotator(color_lookup=sv.ColorLookup.INDEX)
annotated_frame = cv2.cvtColor(image_source, cv2.COLOR_RGB2BGR)
annotated_frame = bbox_annotator.annotate(scene=annotated_frame, detections=detections)
annotated_frame = label_annotator.annotate(scene=annotated_frame, detections=detections, labels=labels)
return annotated_frame
# ----------------------------------------------------------------------------------------------------------------------
# NEW API
# ----------------------------------------------------------------------------------------------------------------------
class Model:
def __init__(
self,
model_config_path: str,
model_checkpoint_path: str,
device: str = "cuda"
):
self.model = load_model(
model_config_path=model_config_path,
model_checkpoint_path=model_checkpoint_path,
device=device
).to(device)
self.device = device
def predict_with_caption(
self,
image: np.ndarray,
caption: str,
box_threshold: float = 0.35,
text_threshold: float = 0.25
) -> Tuple[sv.Detections, List[str]]:
"""
import cv2
image = cv2.imread(IMAGE_PATH)
model = Model(model_config_path=CONFIG_PATH, model_checkpoint_path=WEIGHTS_PATH)
detections, labels = model.predict_with_caption(
image=image,
caption=caption,
box_threshold=BOX_THRESHOLD,
text_threshold=TEXT_THRESHOLD
)
import supervision as sv
box_annotator = sv.BoxAnnotator()
annotated_image = box_annotator.annotate(scene=image, detections=detections, labels=labels)
"""
processed_image = Model.preprocess_image(image_bgr=image).to(self.device)
boxes, logits, phrases = predict(
model=self.model,
image=processed_image,
caption=caption,
box_threshold=box_threshold,
text_threshold=text_threshold,
device=self.device)
source_h, source_w, _ = image.shape
detections = Model.post_process_result(
source_h=source_h,
source_w=source_w,
boxes=boxes,
logits=logits)
return detections, phrases
def predict_with_classes(
self,
image: np.ndarray,
classes: List[str],
box_threshold: float,
text_threshold: float
) -> sv.Detections:
"""
import cv2
image = cv2.imread(IMAGE_PATH)
model = Model(model_config_path=CONFIG_PATH, model_checkpoint_path=WEIGHTS_PATH)
detections = model.predict_with_classes(
image=image,
classes=CLASSES,
box_threshold=BOX_THRESHOLD,
text_threshold=TEXT_THRESHOLD
)
import supervision as sv
box_annotator = sv.BoxAnnotator()
annotated_image = box_annotator.annotate(scene=image, detections=detections)
"""
caption = ". ".join(classes)
processed_image = Model.preprocess_image(image_bgr=image).to(self.device)
boxes, logits, phrases = predict(
model=self.model,
image=processed_image,
caption=caption,
box_threshold=box_threshold,
text_threshold=text_threshold,
device=self.device)
source_h, source_w, _ = image.shape
detections = Model.post_process_result(
source_h=source_h,
source_w=source_w,
boxes=boxes,
logits=logits)
class_id = Model.phrases2classes(phrases=phrases, classes=classes)
detections.class_id = class_id
return detections
@staticmethod
def preprocess_image(image_bgr: np.ndarray) -> torch.Tensor:
transform = T.Compose(
[
T.RandomResize([800], max_size=1333),
T.ToTensor(),
T.Normalize([0.485, 0.456, 0.406], [0.229, 0.224, 0.225]),
]
)
image_pillow = Image.fromarray(cv2.cvtColor(image_bgr, cv2.COLOR_BGR2RGB))
image_transformed, _ = transform(image_pillow, None)
return image_transformed
@staticmethod
def post_process_result(
source_h: int,
source_w: int,
boxes: torch.Tensor,
logits: torch.Tensor
) -> sv.Detections:
boxes = boxes * torch.Tensor([source_w, source_h, source_w, source_h])
xyxy = box_convert(boxes=boxes, in_fmt="cxcywh", out_fmt="xyxy").numpy()
confidence = logits.numpy()
return sv.Detections(xyxy=xyxy, confidence=confidence)
@staticmethod
def phrases2classes(phrases: List[str], classes: List[str]) -> np.ndarray:
class_ids = []
for phrase in phrases:
for class_ in classes:
if class_ in phrase:
class_ids.append(classes.index(class_))
break
else:
class_ids.append(None)
return np.array(class_ids)
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