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sttn_video_inpaint.py
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sttn_video_inpaint.py
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import argparse
import importlib
import os
import sys
from pathlib import Path
from typing import List
import cv2
import numpy as np
import torch
from PIL import Image
from torchvision import transforms
import imageio
sys.path.insert(0, str(Path(__file__).resolve().parent / "sttn"))
from core.utils import Stack, ToTorchFormatTensor
_to_tensors = transforms.Compose([
Stack(),
ToTorchFormatTensor()]
)
def get_ref_index(neighbor_ids, length):
ref_length = 10
ref_index = []
for i in range(0, length, ref_length):
if not i in neighbor_ids:
ref_index.append(i)
return ref_index
def read_mask(mpath):
masks = []
mnames = os.listdir(mpath)
mnames.sort()
for m in mnames:
m = Image.open(os.path.join(mpath, m))
# m = m.resize((w, h), Image.NEAREST)
m = np.array(m.convert('L'))
m = np.array(m > 0).astype(np.uint8)
m = cv2.dilate(m, cv2.getStructuringElement(
cv2.MORPH_CROSS, (3, 3)), iterations=4)
masks.append(Image.fromarray(m * 255))
return masks
def read_frame_from_videos(vname):
frames = []
vidcap = cv2.VideoCapture(vname)
success, image = vidcap.read()
count = 0
while success:
image = Image.fromarray(cv2.cvtColor(image, cv2.COLOR_BGR2RGB))
# frames.append(image.resize((w, h)))
frames.append(image)
success, image = vidcap.read()
count += 1
return frames
def build_sttn_model(ckpt_p, model_type="sttn", device="cuda"):
net = importlib.import_module(f'model.{model_type}')
model = net.InpaintGenerator().to(device)
data = torch.load(ckpt_p, map_location=device)
model.load_state_dict(data['netG'])
model.eval()
return model
@torch.no_grad()
def inpaint_video_with_builded_sttn(
model,
frames: List[Image.Image],
masks: List[Image.Image],
device="cuda"
) -> List[Image.Image]:
w, h = 432, 240
neighbor_stride = 5
video_length = len(frames)
feats = [frame.resize((w, h)) for frame in frames]
feats = _to_tensors(feats).unsqueeze(0) * 2 - 1
_masks = [mask.resize((w, h), Image.NEAREST) for mask in masks]
_masks = _to_tensors(_masks).unsqueeze(0)
feats, _masks = feats.to(device), _masks.to(device)
comp_frames = [None] * video_length
feats = (feats * (1 - _masks).float()).view(video_length, 3, h, w)
feats = model.encoder(feats)
_, c, feat_h, feat_w = feats.size()
feats = feats.view(1, video_length, c, feat_h, feat_w)
# completing holes by spatial-temporal transformers
for f in range(0, video_length, neighbor_stride):
neighbor_ids = list(range(max(0, f - neighbor_stride),
min(video_length, f + neighbor_stride + 1)))
ref_ids = get_ref_index(neighbor_ids, video_length)
pred_feat = model.infer(feats[0, neighbor_ids + ref_ids, :, :, :],
_masks[0, neighbor_ids + ref_ids, :, :, :])
pred_img = model.decoder(pred_feat[:len(neighbor_ids), :, :, :])
pred_img = torch.tanh(pred_img)
pred_img = (pred_img + 1) / 2
pred_img = pred_img.permute(0, 2, 3, 1) * 255
for i in range(len(neighbor_ids)):
idx = neighbor_ids[i]
b_mask = _masks.squeeze()[idx].unsqueeze(-1)
b_mask = (b_mask != 0).int()
frame = torch.from_numpy(np.array(frames[idx].resize((w, h))))
frame = frame.to(device)
img = pred_img[i] * b_mask + frame * (1 - b_mask)
img = img.cpu().numpy()
if comp_frames[idx] is None:
comp_frames[idx] = img
else:
comp_frames[idx] = comp_frames[idx] * 0.5 + img * 0.5
ori_w, ori_h = frames[0].size
for idx in range(len(frames)):
frame = np.array(frames[idx])
b_mask = np.uint8(np.array(masks[idx])[..., np.newaxis] != 0)
comp_frame = np.uint8(comp_frames[idx])
comp_frame = Image.fromarray(comp_frame).resize((ori_w, ori_h))
comp_frame = np.array(comp_frame)
comp_frame = comp_frame * b_mask + frame * (1 - b_mask)
comp_frames[idx] = Image.fromarray(np.uint8(comp_frame))
return comp_frames
@torch.no_grad()
def inpaint_video_with_sttn(
video_p,
mask_dir,
output_dir,
ckpt_p,
model_type="sttn"
):
device = "cuda" if torch.cuda.is_available() else "cpu"
# build sttn model
model = build_sttn_model(ckpt_p, model_type, device)
# prepare dataset, encode all frames into deep space
frames = read_frame_from_videos(video_p)
masks = read_mask(mask_dir)
# inference
comp_frames = inpaint_video_with_builded_sttn(
model, frames, masks, device)
video_stem = Path(video_p).stem
output_p = Path(output_dir) / video_stem/ f"removed_w_mask.mp4"
output_p.parent.mkdir(exist_ok=True, parents=True)
w, h = frames[0].size
fps = imageio.v3.immeta(video_p, exclude_applied=False)["fps"]
writer = cv2.VideoWriter(
str(output_p),
cv2.VideoWriter_fourcc(*"mp4v"),
fps,
(w, h)
)
for idx in range(len(comp_frames)):
writer.write(cv2.cvtColor(np.uint8(comp_frames[idx]), cv2.COLOR_BGR2RGB))
writer.release()
print(output_p)
def setup_args(parser):
parser.add_argument("-v", "--video_p", type=str, required=True)
parser.add_argument("-m", "--mask_dir", type=str, required=True)
parser.add_argument("-o", "--output_dir", type=str, required=True)
parser.add_argument("-c", "--ckpt_p", type=str, required=True)
parser.add_argument("--model", type=str, default='sttn')
if __name__ == '__main__':
'''
1. Download STTN pretrained model and move it to ./pretrained_models/sttn.pth
2. Run:
python sttn_video_inpaint.py \
--video_p ./example/remove-anything-video/breakdance-flare/original_video.mp4 \
--mask_dir ./example/remove-anything-video/breakdance-flare/mask \
--output_dir ./results
--ckpt_p pretrained_models/sttn.pth
'''
parser = argparse.ArgumentParser()
setup_args(parser)
args = parser.parse_args(sys.argv[1:])
inpaint_video_with_sttn(
args.video_p, args.mask_dir, args.output_dir, args.ckpt_p)