# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserve. # #Licensed under the Apache License, Version 2.0 (the "License"); #you may not use this file except in compliance with the License. #You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # #Unless required by applicable law or agreed to in writing, software #distributed under the License is distributed on an "AS IS" BASIS, #WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. #See the License for the specific language governing permissions and #limitations under the License. import os import cv2 import glob import shutil import numpy as np from tqdm import tqdm from imageio import imread, imsave import paddle import paddle.fluid as fluid from ppgan.utils.download import get_path_from_url from ppgan.utils.video import video2frames, frames2video from .base_predictor import BasePredictor DAIN_WEIGHT_URL = 'https://paddlegan.bj.bcebos.com/applications/DAIN_weight.tar' class DAINPredictor(BasePredictor): def __init__(self, output='output', weight_path=None, time_step=None, use_gpu=True, remove_duplicates=False): self.output_path = os.path.join(output, 'DAIN') if weight_path is None: weight_path = get_path_from_url(DAIN_WEIGHT_URL) self.weight_path = weight_path self.time_step = time_step self.key_frame_thread = 0 self.remove_duplicates = remove_duplicates self.build_inference_model() def run(self, video_path): frame_path_input = os.path.join(self.output_path, 'frames-input') frame_path_interpolated = os.path.join(self.output_path, 'frames-interpolated') frame_path_combined = os.path.join(self.output_path, 'frames-combined') video_path_output = os.path.join(self.output_path, 'videos-output') if not os.path.exists(self.output_path): os.makedirs(self.output_path) if not os.path.exists(frame_path_input): os.makedirs(frame_path_input) if not os.path.exists(frame_path_interpolated): os.makedirs(frame_path_interpolated) if not os.path.exists(frame_path_combined): os.makedirs(frame_path_combined) if not os.path.exists(video_path_output): os.makedirs(video_path_output) timestep = self.time_step num_frames = int(1.0 / timestep) - 1 cap = cv2.VideoCapture(video_path) fps = cap.get(cv2.CAP_PROP_FPS) print("Old fps (frame rate): ", fps) times_interp = int(1.0 / timestep) r2 = str(int(fps) * times_interp) print("New fps (frame rate): ", r2) out_path = video2frames(video_path, frame_path_input) vidname = video_path.split('/')[-1].split('.')[0] frames = sorted(glob.glob(os.path.join(out_path, '*.png'))) if self.remove_duplicates: frames = self.remove_duplicate_frames(out_path) img = imread(frames[0]) int_width = img.shape[1] int_height = img.shape[0] channel = img.shape[2] if not channel == 3: return if int_width != ((int_width >> 7) << 7): int_width_pad = (((int_width >> 7) + 1) << 7) # more than necessary padding_left = int((int_width_pad - int_width) / 2) padding_right = int_width_pad - int_width - padding_left else: int_width_pad = int_width padding_left = 32 padding_right = 32 if int_height != ((int_height >> 7) << 7): int_height_pad = ( ((int_height >> 7) + 1) << 7) # more than necessary padding_top = int((int_height_pad - int_height) / 2) padding_bottom = int_height_pad - int_height - padding_top else: int_height_pad = int_height padding_top = 32 padding_bottom = 32 frame_num = len(frames) if not os.path.exists(os.path.join(frame_path_interpolated, vidname)): os.makedirs(os.path.join(frame_path_interpolated, vidname)) if not os.path.exists(os.path.join(frame_path_combined, vidname)): os.makedirs(os.path.join(frame_path_combined, vidname)) for i in range(frame_num - 1): first = frames[i] second = frames[i + 1] first_index = int(first.split('/')[-1].split('.')[-2]) second_index = int(second.split('/')[-1].split('.')[-2]) img_first = imread(first) img_second = imread(second) '''--------------Frame change test------------------------''' #img_first_gray = np.dot(img_first[..., :3], [0.299, 0.587, 0.114]) #img_second_gray = np.dot(img_second[..., :3], [0.299, 0.587, 0.114]) #img_first_gray = img_first_gray.flatten(order='C') #img_second_gray = img_second_gray.flatten(order='C') #corr = np.corrcoef(img_first_gray, img_second_gray)[0, 1] #key_frame = False #if corr < self.key_frame_thread: # key_frame = True '''-------------------------------------------------------''' X0 = img_first.astype('float32').transpose((2, 0, 1)) / 255 X1 = img_second.astype('float32').transpose((2, 0, 1)) / 255 assert (X0.shape[1] == X1.shape[1]) assert (X0.shape[2] == X1.shape[2]) X0 = np.pad(X0, ((0,0), (padding_top, padding_bottom), \ (padding_left, padding_right)), mode='edge') X1 = np.pad(X1, ((0,0), (padding_top, padding_bottom), \ (padding_left, padding_right)), mode='edge') X0 = np.expand_dims(X0, axis=0) X1 = np.expand_dims(X1, axis=0) X0 = np.expand_dims(X0, axis=0) X1 = np.expand_dims(X1, axis=0) X = np.concatenate((X0, X1), axis=0) o = self.base_forward(X) y_ = o[0] y_ = [ np.transpose( 255.0 * item.clip( 0, 1.0)[0, :, padding_top:padding_top + int_height, padding_left:padding_left + int_width], (1, 2, 0)) for item in y_ ] if self.remove_duplicates: num_frames = times_interp * (second_index - first_index) - 1 time_offsets = [ kk * timestep for kk in range(1, 1 + num_frames, 1) ] start = times_interp * first_index + 1 for item, time_offset in zip(y_, time_offsets): out_dir = os.path.join(frame_path_interpolated, vidname, "{:08d}.png".format(start)) imsave(out_dir, np.round(item).astype(np.uint8)) start = start + 1 else: time_offsets = [ kk * timestep for kk in range(1, 1 + num_frames, 1) ] count = 1 for item, time_offset in zip(y_, time_offsets): out_dir = os.path.join( frame_path_interpolated, vidname, "{:0>6d}_{:0>4d}.png".format(i, count)) count = count + 1 imsave(out_dir, np.round(item).astype(np.uint8)) input_dir = os.path.join(frame_path_input, vidname) interpolated_dir = os.path.join(frame_path_interpolated, vidname) combined_dir = os.path.join(frame_path_combined, vidname) if self.remove_duplicates: self.combine_frames_with_rm(input_dir, interpolated_dir, combined_dir, times_interp) else: num_frames = int(1.0 / timestep) - 1 self.combine_frames(input_dir, interpolated_dir, combined_dir, num_frames) frame_pattern_combined = os.path.join(frame_path_combined, vidname, '%08d.png') video_pattern_output = os.path.join(video_path_output, vidname + '.mp4') if os.path.exists(video_pattern_output): os.remove(video_pattern_output) frames2video(frame_pattern_combined, video_pattern_output, r2) return frame_pattern_combined, video_pattern_output def combine_frames(self, input, interpolated, combined, num_frames): frames1 = sorted(glob.glob(os.path.join(input, '*.png'))) frames2 = sorted(glob.glob(os.path.join(interpolated, '*.png'))) num1 = len(frames1) num2 = len(frames2) for i in range(num1): src = frames1[i] imgname = int(src.split('/')[-1].split('.')[-2]) assert i == imgname dst = os.path.join(combined, '{:08d}.png'.format(i * (num_frames + 1))) shutil.copy2(src, dst) if i < num1 - 1: try: for k in range(num_frames): src = frames2[i * num_frames + k] dst = os.path.join( combined, '{:08d}.png'.format(i * (num_frames + 1) + k + 1)) shutil.copy2(src, dst) except Exception as e: print(e) def combine_frames_with_rm(self, input, interpolated, combined, times_interp): frames1 = sorted(glob.glob(os.path.join(input, '*.png'))) frames2 = sorted(glob.glob(os.path.join(interpolated, '*.png'))) num1 = len(frames1) num2 = len(frames2) for i in range(num1): src = frames1[i] index = int(src.split('/')[-1].split('.')[-2]) dst = os.path.join(combined, '{:08d}.png'.format(times_interp * index)) shutil.copy2(src, dst) for i in range(num2): src = frames2[i] imgname = src.split('/')[-1] dst = os.path.join(combined, imgname) shutil.copy2(src, dst) def remove_duplicate_frames(self, paths): def dhash(image, hash_size=8): gray = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY) resized = cv2.resize(gray, (hash_size + 1, hash_size)) diff = resized[:, 1:] > resized[:, :-1] return sum([2**i for (i, v) in enumerate(diff.flatten()) if v]) hashes = {} max_interp = 9 image_paths = sorted(glob.glob(os.path.join(paths, '*.png'))) for image_path in image_paths: image = cv2.imread(image_path) h = dhash(image) p = hashes.get(h, []) p.append(image_path) hashes[h] = p for (h, hashed_paths) in hashes.items(): if len(hashed_paths) > 1: first_index = int(hashed_paths[0].split('/')[-1].split('.')[-2]) last_index = int( hashed_paths[-1].split('/')[-1].split('.')[-2]) + 1 gap = 2 * (last_index - first_index) - 1 if gap > 2 * max_interp: cut1 = len(hashed_paths) // 3 cut2 = cut1 * 2 for p in hashed_paths[1:cut1 - 1]: os.remove(p) for p in hashed_paths[cut1 + 1:cut2]: os.remove(p) for p in hashed_paths[cut2 + 1:]: os.remove(p) if gap > max_interp: mid = len(hashed_paths) // 2 for p in hashed_paths[1:mid - 1]: os.remove(p) for p in hashed_paths[mid + 1:]: os.remove(p) else: for p in hashed_paths[1:]: os.remove(p) frames = sorted(glob.glob(os.path.join(paths, '*.png'))) return frames