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grounded_sam2_hf_model_demo.py
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grounded_sam2_hf_model_demo.py
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import argparse
import os
import cv2
import json
import torch
import numpy as np
import supervision as sv
import pycocotools.mask as mask_util
from pathlib import Path
from supervision.draw.color import ColorPalette
from utils.supervision_utils import CUSTOM_COLOR_MAP
from PIL import Image
from sam2.build_sam import build_sam2
from sam2.sam2_image_predictor import SAM2ImagePredictor
from transformers import AutoProcessor, AutoModelForZeroShotObjectDetection
"""
Hyper parameters
"""
parser = argparse.ArgumentParser()
parser.add_argument('--grounding-model', default="IDEA-Research/grounding-dino-tiny")
parser.add_argument("--text-prompt", default="car. tire.")
parser.add_argument("--img-path", default="notebooks/images/truck.jpg")
parser.add_argument("--sam2-checkpoint", default="./checkpoints/sam2.1_hiera_large.pt")
parser.add_argument("--sam2-model-config", default="configs/sam2.1/sam2.1_hiera_l.yaml")
parser.add_argument("--output-dir", default="outputs/test_sam2.1")
parser.add_argument("--no-dump-json", action="store_true")
parser.add_argument("--force-cpu", action="store_true")
args = parser.parse_args()
GROUNDING_MODEL = args.grounding_model
TEXT_PROMPT = args.text_prompt
IMG_PATH = args.img_path
SAM2_CHECKPOINT = args.sam2_checkpoint
SAM2_MODEL_CONFIG = args.sam2_model_config
DEVICE = "cuda" if torch.cuda.is_available() and not args.force_cpu else "cpu"
OUTPUT_DIR = Path(args.output_dir)
DUMP_JSON_RESULTS = not args.no_dump_json
# create output directory
OUTPUT_DIR.mkdir(parents=True, exist_ok=True)
# environment settings
# use bfloat16
torch.autocast(device_type=DEVICE, dtype=torch.bfloat16).__enter__()
if torch.cuda.get_device_properties(0).major >= 8:
# turn on tfloat32 for Ampere GPUs (https://pytorch.org/docs/stable/notes/cuda.html#tensorfloat-32-tf32-on-ampere-devices)
torch.backends.cuda.matmul.allow_tf32 = True
torch.backends.cudnn.allow_tf32 = True
# build SAM2 image predictor
sam2_checkpoint = SAM2_CHECKPOINT
model_cfg = SAM2_MODEL_CONFIG
sam2_model = build_sam2(model_cfg, sam2_checkpoint, device=DEVICE)
sam2_predictor = SAM2ImagePredictor(sam2_model)
# build grounding dino from huggingface
model_id = GROUNDING_MODEL
processor = AutoProcessor.from_pretrained(model_id)
grounding_model = AutoModelForZeroShotObjectDetection.from_pretrained(model_id).to(DEVICE)
# setup the input image and text prompt for SAM 2 and Grounding DINO
# VERY important: text queries need to be lowercased + end with a dot
text = TEXT_PROMPT
img_path = IMG_PATH
image = Image.open(img_path)
sam2_predictor.set_image(np.array(image.convert("RGB")))
inputs = processor(images=image, text=text, return_tensors="pt").to(DEVICE)
with torch.no_grad():
outputs = grounding_model(**inputs)
results = processor.post_process_grounded_object_detection(
outputs,
inputs.input_ids,
box_threshold=0.4,
text_threshold=0.3,
target_sizes=[image.size[::-1]]
)
"""
Results is a list of dict with the following structure:
[
{
'scores': tensor([0.7969, 0.6469, 0.6002, 0.4220], device='cuda:0'),
'labels': ['car', 'tire', 'tire', 'tire'],
'boxes': tensor([[ 89.3244, 278.6940, 1710.3505, 851.5143],
[1392.4701, 554.4064, 1628.6133, 777.5872],
[ 436.1182, 621.8940, 676.5255, 851.6897],
[1236.0990, 688.3547, 1400.2427, 753.1256]], device='cuda:0')
}
]
"""
# get the box prompt for SAM 2
input_boxes = results[0]["boxes"].cpu().numpy()
masks, scores, logits = sam2_predictor.predict(
point_coords=None,
point_labels=None,
box=input_boxes,
multimask_output=False,
)
"""
Post-process the output of the model to get the masks, scores, and logits for visualization
"""
# convert the shape to (n, H, W)
if masks.ndim == 4:
masks = masks.squeeze(1)
confidences = results[0]["scores"].cpu().numpy().tolist()
class_names = results[0]["labels"]
class_ids = np.array(list(range(len(class_names))))
labels = [
f"{class_name} {confidence:.2f}"
for class_name, confidence
in zip(class_names, confidences)
]
"""
Visualize image with supervision useful API
"""
img = cv2.imread(img_path)
detections = sv.Detections(
xyxy=input_boxes, # (n, 4)
mask=masks.astype(bool), # (n, h, w)
class_id=class_ids
)
"""
Note that if you want to use default color map,
you can set color=ColorPalette.DEFAULT
"""
box_annotator = sv.BoxAnnotator(color=ColorPalette.from_hex(CUSTOM_COLOR_MAP))
annotated_frame = box_annotator.annotate(scene=img.copy(), detections=detections)
label_annotator = sv.LabelAnnotator(color=ColorPalette.from_hex(CUSTOM_COLOR_MAP))
annotated_frame = label_annotator.annotate(scene=annotated_frame, detections=detections, labels=labels)
cv2.imwrite(os.path.join(OUTPUT_DIR, "groundingdino_annotated_image.jpg"), annotated_frame)
mask_annotator = sv.MaskAnnotator(color=ColorPalette.from_hex(CUSTOM_COLOR_MAP))
annotated_frame = mask_annotator.annotate(scene=annotated_frame, detections=detections)
cv2.imwrite(os.path.join(OUTPUT_DIR, "grounded_sam2_annotated_image_with_mask.jpg"), annotated_frame)
"""
Dump the results in standard format and save as json files
"""
def single_mask_to_rle(mask):
rle = mask_util.encode(np.array(mask[:, :, None], order="F", dtype="uint8"))[0]
rle["counts"] = rle["counts"].decode("utf-8")
return rle
if DUMP_JSON_RESULTS:
# convert mask into rle format
mask_rles = [single_mask_to_rle(mask) for mask in masks]
input_boxes = input_boxes.tolist()
scores = scores.tolist()
# save the results in standard format
results = {
"image_path": img_path,
"annotations" : [
{
"class_name": class_name,
"bbox": box,
"segmentation": mask_rle,
"score": score,
}
for class_name, box, mask_rle, score in zip(class_names, input_boxes, mask_rles, scores)
],
"box_format": "xyxy",
"img_width": image.width,
"img_height": image.height,
}
with open(os.path.join(OUTPUT_DIR, "grounded_sam2_hf_model_demo_results.json"), "w") as f:
json.dump(results, f, indent=4)