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import os | |
import glob | |
from PIL import Image | |
import torch | |
import yaml | |
import cv2 | |
import importlib | |
import numpy as np | |
from util.tensor_util import resize_frames, resize_masks | |
class BaseInpainter: | |
def __init__(self, E2FGVI_checkpoint, device) -> None: | |
""" | |
E2FGVI_checkpoint: checkpoint of inpainter (version hq, with multi-resolution support) | |
""" | |
net = importlib.import_module('model.e2fgvi_hq') | |
self.model = net.InpaintGenerator().to(device) | |
self.model.load_state_dict(torch.load(E2FGVI_checkpoint, map_location=device)) | |
self.model.eval() | |
self.device = device | |
# load configurations | |
with open("inpainter/config/config.yaml", 'r') as stream: | |
config = yaml.safe_load(stream) | |
self.neighbor_stride = config['neighbor_stride'] | |
self.num_ref = config['num_ref'] | |
self.step = config['step'] | |
# sample reference frames from the whole video | |
def get_ref_index(self, f, neighbor_ids, length): | |
ref_index = [] | |
if self.num_ref == -1: | |
for i in range(0, length, self.step): | |
if i not in neighbor_ids: | |
ref_index.append(i) | |
else: | |
start_idx = max(0, f - self.step * (self.num_ref // 2)) | |
end_idx = min(length, f + self.step * (self.num_ref // 2)) | |
for i in range(start_idx, end_idx + 1, self.step): | |
if i not in neighbor_ids: | |
if len(ref_index) > self.num_ref: | |
break | |
ref_index.append(i) | |
return ref_index | |
def inpaint(self, frames, masks, dilate_radius=15, ratio=1): | |
""" | |
frames: numpy array, T, H, W, 3 | |
masks: numpy array, T, H, W | |
dilate_radius: radius when applying dilation on masks | |
ratio: down-sample ratio | |
Output: | |
inpainted_frames: numpy array, T, H, W, 3 | |
""" | |
assert frames.shape[:3] == masks.shape, 'different size between frames and masks' | |
assert ratio > 0 and ratio <= 1, 'ratio must in (0, 1]' | |
masks = masks.copy() | |
masks = np.clip(masks, 0, 1) | |
kernel = cv2.getStructuringElement(2, (dilate_radius, dilate_radius)) | |
masks = np.stack([cv2.dilate(mask, kernel) for mask in masks], 0) | |
T, H, W = masks.shape | |
# size: (w, h) | |
if ratio == 1: | |
size = None | |
else: | |
size = (int(W*ratio), int(H*ratio)) | |
masks = np.expand_dims(masks, axis=3) # expand to T, H, W, 1 | |
binary_masks = resize_masks(masks, size) | |
frames = resize_frames(frames, size) # T, H, W, 3 | |
# frames and binary_masks are numpy arrays | |
h, w = frames.shape[1:3] | |
video_length = T | |
# convert to tensor | |
imgs = (torch.from_numpy(frames).permute(0, 3, 1, 2).contiguous().unsqueeze(0).float().div(255)) * 2 - 1 | |
masks = torch.from_numpy(binary_masks).permute(0, 3, 1, 2).contiguous().unsqueeze(0) | |
imgs, masks = imgs.to(self.device), masks.to(self.device) | |
comp_frames = [None] * video_length | |
for f in range(0, video_length, self.neighbor_stride): | |
neighbor_ids = [ | |
i for i in range(max(0, f - self.neighbor_stride), | |
min(video_length, f + self.neighbor_stride + 1)) | |
] | |
ref_ids = self.get_ref_index(f, neighbor_ids, video_length) | |
selected_imgs = imgs[:1, neighbor_ids + ref_ids, :, :, :] | |
selected_masks = masks[:1, neighbor_ids + ref_ids, :, :, :] | |
with torch.no_grad(): | |
masked_imgs = selected_imgs * (1 - selected_masks) | |
mod_size_h = 60 | |
mod_size_w = 108 | |
h_pad = (mod_size_h - h % mod_size_h) % mod_size_h | |
w_pad = (mod_size_w - w % mod_size_w) % mod_size_w | |
masked_imgs = torch.cat( | |
[masked_imgs, torch.flip(masked_imgs, [3])], | |
3)[:, :, :, :h + h_pad, :] | |
masked_imgs = torch.cat( | |
[masked_imgs, torch.flip(masked_imgs, [4])], | |
4)[:, :, :, :, :w + w_pad] | |
pred_imgs, _ = self.model(masked_imgs, len(neighbor_ids)) | |
pred_imgs = pred_imgs[:, :, :h, :w] | |
pred_imgs = (pred_imgs + 1) / 2 | |
pred_imgs = pred_imgs.cpu().permute(0, 2, 3, 1).numpy() * 255 | |
for i in range(len(neighbor_ids)): | |
idx = neighbor_ids[i] | |
img = pred_imgs[i].astype(np.uint8) * binary_masks[idx] + frames[idx] * ( | |
1 - binary_masks[idx]) | |
if comp_frames[idx] is None: | |
comp_frames[idx] = img | |
else: | |
comp_frames[idx] = comp_frames[idx].astype( | |
np.float32) * 0.5 + img.astype(np.float32) * 0.5 | |
inpainted_frames = np.stack(comp_frames, 0) | |
return inpainted_frames.astype(np.uint8) | |
if __name__ == '__main__': | |
frame_path = glob.glob(os.path.join('/ssd1/gaomingqi/datasets/davis/JPEGImages/480p/parkour', '*.jpg')) | |
frame_path.sort() | |
mask_path = glob.glob(os.path.join('/ssd1/gaomingqi/datasets/davis/Annotations/480p/parkour', "*.png")) | |
mask_path.sort() | |
save_path = '/ssd1/gaomingqi/results/inpainting/parkour' | |
if not os.path.exists(save_path): | |
os.mkdir(save_path) | |
frames = [] | |
masks = [] | |
for fid, mid in zip(frame_path, mask_path): | |
frames.append(Image.open(fid).convert('RGB')) | |
masks.append(Image.open(mid).convert('P')) | |
frames = np.stack(frames, 0) | |
masks = np.stack(masks, 0) | |
# ---------------------------------------------- | |
# how to use | |
# ---------------------------------------------- | |
# 1/3: set checkpoint and device | |
checkpoint = '/ssd1/gaomingqi/checkpoints/E2FGVI-HQ-CVPR22.pth' | |
device = 'cuda:6' | |
# 2/3: initialise inpainter | |
base_inpainter = BaseInpainter(checkpoint, device) | |
# 3/3: inpainting (frames: numpy array, T, H, W, 3; masks: numpy array, T, H, W) | |
# ratio: (0, 1], ratio for down sample, default value is 1 | |
inpainted_frames = base_inpainter.inpaint(frames, masks, ratio=1) # numpy array, T, H, W, 3 | |
# ---------------------------------------------- | |
# end | |
# ---------------------------------------------- | |
# save | |
for ti, inpainted_frame in enumerate(inpainted_frames): | |
frame = Image.fromarray(inpainted_frame).convert('RGB') | |
frame.save(os.path.join(save_path, f'{ti:05d}.jpg')) | |