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run.py
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run.py
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import os
import torch
import argparse
from argparse import Namespace
def prepare_data(dataset_folder, zip_file=None, target_size=256):
# Unzip
if zip_file is not None:
os.system(f'unzip {zip_file} -d "/{zip_file}"')
os.system(f'rm {zip_file}')
# prepare data
os.system(f'python prepare_data.py --out {dataset_folder}/LMDB --size {target_size} {dataset_folder}')
def download_pretrained_model(DownLoad_All=True, file=''):
from utils import download_pretrained_model
if DownLoad_All:
download_pretrained_model()
else:
download_pretrained_model(False, "ffhq256.pt")
def project(encoder = True, img='00006.jpg'):
if encoder:
os.system(f'python projector_factor.py --ckpt=/networks/ffhq256.pt --e_ckpt=/networks/encoder_ffhq.pt \
--files=/asset/ffhq-sample/{img}')
else:
os.system(f'python projector_factor.py --ckpt=/networks/ffhq256.pt \
--files=/asset/ffhq-sample/{img}')
def generate_using_styleclip(description, seed=100,
network1="/networks/ffhq256.pt",
network2="networks/ffhq256.pt",
latent_path=None, optimization_steps=300, truncation = 0.7,
l2_lambda = 0.004, result_dir = "asset/results_styleclip",
device = 'cuda',
number_of_step = 5 ,
strength = 1.5,
swap = True,
swap_layer_num = 1):
# -----------------------------
args = {
"seed" : seed,
"description": description,
"ckpt": network1,
"ckpt2": network2,
"stylegan_size": 256,
"latent_dim" : 14,
"lr_rampup": 0.05,
"lr": 0.1,
"step": optimization_steps,
"l2_lambda": l2_lambda,
"latent_path": latent_path,
"truncation": truncation,
"device" : device,
"results_dir": result_dir,
}
from run_optimization import main
final_result, latent_init1, latent_fin1 = main(Namespace(**args))
# ---------------
# Generator
# ---------------
from model import Generator
# Generator1
network1 = torch.load(network1)
generator1 = Generator(256, 512, 8, channel_multiplier=2).to(device)
generator1.load_state_dict(network1["g_ema"], strict=False)
trunc1 = generator1.mean_latent(4096)
# Generator2
network2 = torch.load(network2)
generator2 = Generator(256, 512, 8, channel_multiplier=2).to(device)
generator2.load_state_dict(network2["g_ema"], strict=False)
trunc2 = generator2.mean_latent(4096)
# ---------------
# Interpolation
# ---------------
latent_interp = torch.zeros(number_of_step, latent_init1.shape[1], latent_init1.shape[2]).to(device)
with torch.no_grad():
for j in range(number_of_step):
latent_interp[j] = latent_init1 + strength * (latent_fin1-latent_init1) * float(j/(number_of_step-1))
imgs_gen1, save_swap_layer = generator1([latent_interp],
input_is_latent=True,
truncation=0.7,
truncation_latent=trunc1,
swap=swap, swap_layer_num=swap_layer_num,
randomize_noise=False)
imgs_gen2, _ = generator2([latent_interp],
input_is_latent=True,
truncation=0.7,
swap=swap, swap_layer_num=swap_layer_num, swap_layer_tensor=save_swap_layer,
truncation_latent=trunc2)
im1 = torch.cat([img_gen for img_gen in imgs_gen1], dim=2)
im2 = torch.cat([img_gen for img_gen in imgs_gen2], dim=2)
result = torch.cat([im1, im2], dim=1)
return result # if you want to show image :: `imshow(tensor2image(result))`
def generate_using_latent_mixing(seed1=100, seed2=200,
network1="/networks/ffhq256.pt",
network2="networks/ffhq256.pt",
latent_mixing1=10, latent_mixing2=10,
latent_path=None, optimization_steps=300, truncation = 0.7,
l2_lambda = 0.004, result_dir = "asset/results_styleclip",
device = 'cuda',
number_of_step = 5 ,
strength = 1.5,
swap = True,
swap_layer_num = 1):
# ----------------------
# Source Images (FFHQ)
# ----------------------
from model import Generator
# Genearator1
network1 = torch.load(network1)
generator1 = Generator(256, 512, 8, channel_multiplier=2).to(device)
generator1.load_state_dict(network1["g"], strict=False)
trunc1 = generator1.mean_latent(4096)
# latent1
torch.manual_seed(seed1)
r_latent1 = torch.randn(1, 14, 512, device=device)
latent1 = generator1.get_latent(r_latent1)
# latent2
torch.manual_seed(seed2)
r_latent2 = torch.randn(1, 14, 512, device=device)
latent2 = generator1.get_latent(r_latent2)
# latent mixing
latent3 = torch.cat([latent1[:,:latent_mixing1,:], latent2[:,latent_mixing1:,:]], dim = 1)
latent4 = torch.cat([latent1[:,:,:latent_mixing2], latent2[:,:,latent_mixing2:]], dim = 2)
# Latent !
latent = torch.cat([latent1, latent2, latent3, latent4], dim = 0)
# generate image
img1, save_swap_layer = generator1(
[latent],
input_is_latent=True,
truncation=truncation,
truncation_latent=trunc1,
swap=swap, swap_layer_num=swap_layer_num,
)
# =================================================
# ----------------------
# Target Images (Cartoon)
# ----------------------
# Genearator2
network2 = torch.load(network2)
generator2 = Generator(256, 512, 8, channel_multiplier=2).to(device)
generator2.load_state_dict(network2["g"], strict=False)
trunc2 = generator2.mean_latent(4096)
# generate image
img2, _ = generator2(
[latent],
input_is_latent=True,
truncation=truncation,
truncation_latent=trunc1,
swap=swap, swap_layer_num=swap_layer_num, swap_layer_tensor=save_swap_layer,
)
# return
ffhq = torch.cat([img1[0], img1[1], img1[2], img1[3]], dim=2)
cartoon = torch.cat([img2[0], img2[1], img2[2], img2[3]], dim=2)
return torch.cat([ffhq, cartoon], dim = 1)
def generate_using_sefa(network1="/networks/ffhq256.pt",
network2="/networks/ffhq256.pt",
factor='factor.pt',
index=7, degree=14, seed=116177, n_sample=5,
result_dir='asset/results-sefa'):
os.system(f'python apply_factor.py --index={index} --degree={degree} --seed={seed} --n_sample={n_sample} \
--ckpt={network1} --ckpt2={network2} \
--factor={factor} --outdir={result_dir} --video')
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="")
# parser.add_argument("path", type=str, help="path to the lmdb dataset")
parser.add_argument("--prepare_data", type=str, default=None)
parser.add_argument("--zip", type=str, default=None)
parser.add_argument("--size", type=int, default=256)
parser.add_argument("--gif", action="store_true", help="path to the lmdb dataset")
args = parser.parse_args()
if args.prepare_data is not None:
prepare_data(dataset_folder = args.prepare_data, zip_file = args.zip, target_size = args.size)