deepfake_gi_fastGAN / scripts /generate_video.py
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from easing_functions.easing import LinearInOut
import torch
import pandas as pd
from torchvision import utils as vutils
import os
import cv2
from tqdm import tqdm
from scipy import io
import numpy as np
import argparse
from easing_functions import QuadEaseInOut
from easing_functions import SineEaseIn, SineEaseInOut, SineEaseOut
from easing_functions import ElasticEaseIn, ElasticEaseInOut, ElasticEaseOut
ease_fn_dict = {'QuadEaseInOut': QuadEaseInOut,
'SineEaseIn': SineEaseIn,
'SineEaseInOut': SineEaseInOut,
'SineEaseOut': SineEaseOut,
'ElasticEaseIn': ElasticEaseIn,
'ElasticEaseInOut': ElasticEaseInOut,
'ElasticEaseOut': ElasticEaseOut,
'Linear': LinearInOut}
def interpolate(z1, z2, num_interp):
# this is a "first frame included, last frame excluded" interpolation
w = torch.linspace(0, 1, num_interp+1)
interp_zs = []
for n in range(num_interp):
interp_zs.append( (z2*w[n].item() + z1*(1-w[n].item())).unsqueeze(0) )
return torch.cat(interp_zs)
def interpolate_ease_inout(z1, z2, num_interp, ease_fn, model_type='freeform'):
# this is a "first frame included, last frame excluded" interpolation
w = ease_fn(start=0, end=1, duration=num_interp+1)
interp_zs = []
# just to make sure the latent vectors in the right shape
if model_type == 'freeform':
z1 = z1.view(1, -1)
z2 = z2.view(1, -1)
if model_type == 'stylegan2':
if type(z1) is list:
z1 = [z1[0].view(1, -1), z1[1].view(1, -1)]
else:
z1 = [z1.view(1, -1), z1.view(1, -1)]
if type(z2) is list:
z2 = [z2[0].view(1, -1), z2[1].view(1, -1)]
else:
z2 = [z2.view(1, -1), z2.view(1, -1)]
for n in range(num_interp):
if model_type == 'freeform':
interp_zs.append( z2*w.ease(n) + z1*(1-w.ease(n)) )
if model_type == 'stylegan2':
interp_zs.append( [ z2[0]*w.ease(n) + z1[0]*(1-w.ease(n)),
z2[1]*w.ease(n) + z1[1]*(1-w.ease(n)) ] )
return interp_zs
@torch.no_grad()
def net_generate(netG, z, model_type='freeform', im_size=1024):
if model_type == 'stylegan2':
z_contents = []
z_styles = []
for zidx in range(len(z)):
z_contents.append(z[zidx][0])
z_styles.append(z[zidx][1])
z = [ torch.cat(z_contents), torch.cat(z_styles) ]
gimg = netG( z, inject_index=8, input_is_latent=True, randomize_noise=False )[0].cpu()
elif model_type == 'freeform':
z = torch.cat(z)
gimg = netG(z)[0].cpu()
return torch.nn.functional.interpolate(gimg, im_size)
def batch_generate_and_save(netG, zs, folder_name, batch_size=8, model_type='freeform', im_size=1024):
# zs is a list of vectors if model is freeform
# zs is a list of lists, each list is 2 vectors, if model is stylegan
t = 0
num = 0
if len(zs) < batch_size:
gimgs = net_generate(netG, zs, model_type, im_size=im_size).cpu()
for image in gimgs:
vutils.save_image( image.add(1).mul(0.5), folder_name+"/%d.jpg"%(num) )
num += 1
for k in tqdm(range(len(zs)//batch_size)):
gimgs = net_generate(netG, zs[k*batch_size:(k+1)*batch_size], model_type, im_size=im_size)
for image in gimgs:
vutils.save_image( image.add(1).mul(0.5), folder_name+"/%d.jpg"%(num) )
num += 1
t = k
if len(zs)%batch_size>0:
gimgs = net_generate(netG, zs[(t+1)*batch_size:], model_type, im_size=im_size)
for image in gimgs:
vutils.save_image( image.add(1).mul(0.5), folder_name+"/%d.jpg"%(num) )
num += 1
def batch_save(images, folder_name, start_num=0):
os.makedirs(folder_name, exist_ok=True)
num = start_num
for image in images:
vutils.save_image( image.add(1).mul(0.5), folder_name+"/%d.jpg"%(num) )
num += 1
def read_img_and_make_video(dist, video_name, fps):
img_array = []
for i in tqdm(range(len(os.listdir(dist)))):
try:
filename = dist+'/%d.jpg'%(i)
img = cv2.imread(filename)
height, width, layers = img.shape
size = (width,height)
img_array.append(img)
except:
print('error at: %d'%i)
if '.mp4' not in video_name:
video_name += '.mp4'
out = cv2.VideoWriter(video_name,cv2.VideoWriter_fourcc(*'mp4v'), fps, size)
for i in range(len(img_array)):
out.write(img_array[i])
out.release()
from shutil import rmtree
def make_video_from_latents(net, selected_latents, frames_dist_folder, video_name, fps, video_length, ease_fn, model_type, im_size=1024):
# selected_latents: the latent noise of user selected key-frame images, it is a list
# each item in the list is a vector if the model is freeform,
# each item in the list is a list of two vectors if the model is stylegan2
# frames_dist_folder: the folder path to save the generated images to make the video
# fps: is the frames we generate per second
# video_length: is the time of the video, in seconds. For example: 30 means a video length of 30 seconds
# ease_fn: user selected type of transitions between each key-frame
# first calculate how many images need to generate
try:
rmtree(frames_dist_folder)
except:
pass
os.makedirs(frames_dist_folder, exist_ok=True)
nbr_generate = fps*video_length
nbr_keyframe = len(selected_latents)
nbr_interpolation = 1 + nbr_generate // (nbr_keyframe - 1)
main_zs = []
for idx in range(nbr_keyframe-1):
main_zs += interpolate_ease_inout(selected_latents[idx],
selected_latents[idx+1], nbr_interpolation, ease_fn, model_type)
print('generating images ...')
batch_generate_and_save(net, main_zs, folder_name=frames_dist_folder, batch_size=8, model_type=model_type, im_size=im_size)
print('making videos ...')
read_img_and_make_video(frames_dist_folder, video_name, fps=fps)
if __name__ == "__main__":
device = torch.device('cuda:%d'%(0))
load_model_err = 0
from models import Generator as Generator_freeform
frames_dist_folder = 'project_video_frames' # a folder to save generated images
ckpt_path = './time_1024_1/models/180000.pth' # path to the checkpoint
video_name = 'videl_keyframe_15' # name of the generated video
model_type = 'freeform'
net = Generator_freeform(ngf=64, nz=100)
net.load_state_dict(torch.load(ckpt_path)['g'])
net.to(device)
net.eval()
try:
rmtree(frames_dist_folder)
except:
pass
os.makedirs(frames_dist_folder, exist_ok=True)
fps = 30
minutes = 1
im_size = 1024
ease_fn=ease_fn_dict['SineEaseInOut']
init_kf_nbr = 15
nbr_key_frames_per_minute = [init_kf_nbr-i for i in range(minutes)]
nbr_key_frames_total = sum(nbr_key_frames_per_minute)
noises = torch.randn( nbr_key_frames_total , 100).to(device)
user_selected_noises = [n for n in noises]
nbr_interpolation_list = [[fps*60//nbr_kf]*nbr_kf for nbr_kf in nbr_key_frames_per_minute]
nbl = []
for nb in nbr_interpolation_list:
nbl += nb
print(len(nbl))
print(len(user_selected_noises))# , print("mismatch size")
main_zs = []
for idx in range(len(user_selected_noises)-1):
main_zs += interpolate_ease_inout(user_selected_noises[idx],
user_selected_noises[idx+1], nbl[idx], ease_fn, model_type)
for idx in range(100):
main_zs.append(main_zs[-1])
print('generating images ...')
batch_generate_and_save(net, main_zs, folder_name=frames_dist_folder, batch_size=8, model_type=model_type, im_size=im_size)
print('making videos ...')
read_img_and_make_video(frames_dist_folder, video_name, fps=fps)