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ZeST / DPT /run_segmentation.py
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"""Compute segmentation maps for images in the input folder.
"""
import os
import glob
import cv2
import argparse
import torch
import torch.nn.functional as F
import util.io
from torchvision.transforms import Compose
from dpt.models import DPTSegmentationModel
from dpt.transforms import Resize, NormalizeImage, PrepareForNet
def run(input_path, output_path, model_path, model_type="dpt_hybrid", optimize=True):
"""Run segmentation network
Args:
input_path (str): path to input folder
output_path (str): path to output folder
model_path (str): path to saved model
"""
print("initialize")
# select device
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
print("device: %s" % device)
net_w = net_h = 480
# load network
if model_type == "dpt_large":
model = DPTSegmentationModel(
150,
path=model_path,
backbone="vitl16_384",
)
elif model_type == "dpt_hybrid":
model = DPTSegmentationModel(
150,
path=model_path,
backbone="vitb_rn50_384",
)
else:
assert (
False
), f"model_type '{model_type}' not implemented, use: --model_type [dpt_large|dpt_hybrid]"
transform = Compose(
[
Resize(
net_w,
net_h,
resize_target=None,
keep_aspect_ratio=True,
ensure_multiple_of=32,
resize_method="minimal",
image_interpolation_method=cv2.INTER_CUBIC,
),
NormalizeImage(mean=[0.5, 0.5, 0.5], std=[0.5, 0.5, 0.5]),
PrepareForNet(),
]
)
model.eval()
if optimize == True and device == torch.device("cuda"):
model = model.to(memory_format=torch.channels_last)
model = model.half()
model.to(device)
# get input
img_names = glob.glob(os.path.join(input_path, "*"))
num_images = len(img_names)
# create output folder
os.makedirs(output_path, exist_ok=True)
print("start processing")
for ind, img_name in enumerate(img_names):
print(" processing {} ({}/{})".format(img_name, ind + 1, num_images))
# input
img = util.io.read_image(img_name)
img_input = transform({"image": img})["image"]
# compute
with torch.no_grad():
sample = torch.from_numpy(img_input).to(device).unsqueeze(0)
if optimize == True and device == torch.device("cuda"):
sample = sample.to(memory_format=torch.channels_last)
sample = sample.half()
out = model.forward(sample)
prediction = torch.nn.functional.interpolate(
out, size=img.shape[:2], mode="bicubic", align_corners=False
)
prediction = torch.argmax(prediction, dim=1) + 1
prediction = prediction.squeeze().cpu().numpy()
# output
filename = os.path.join(
output_path, os.path.splitext(os.path.basename(img_name))[0]
)
util.io.write_segm_img(filename, img, prediction, alpha=0.5)
print("finished")
if __name__ == "__main__":
parser = argparse.ArgumentParser()
parser.add_argument(
"-i", "--input_path", default="input", help="folder with input images"
)
parser.add_argument(
"-o", "--output_path", default="output_semseg", help="folder for output images"
)
parser.add_argument(
"-m",
"--model_weights",
default=None,
help="path to the trained weights of model",
)
# 'vit_large', 'vit_hybrid'
parser.add_argument("-t", "--model_type", default="dpt_hybrid", help="model type")
parser.add_argument("--optimize", dest="optimize", action="store_true")
parser.add_argument("--no-optimize", dest="optimize", action="store_false")
parser.set_defaults(optimize=True)
args = parser.parse_args()
default_models = {
"dpt_large": "weights/dpt_large-ade20k-b12dca68.pt",
"dpt_hybrid": "weights/dpt_hybrid-ade20k-53898607.pt",
}
if args.model_weights is None:
args.model_weights = default_models[args.model_type]
# set torch options
torch.backends.cudnn.enabled = True
torch.backends.cudnn.benchmark = True
# compute segmentation maps
run(
args.input_path,
args.output_path,
args.model_weights,
args.model_type,
args.optimize,
)