DualStyleGAN / dualstylegan.py
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from __future__ import annotations
import argparse
import os
import pathlib
import subprocess
import sys
from typing import Callable
import dlib
import huggingface_hub
import numpy as np
import PIL.Image
import torch
import torch.nn as nn
import torchvision.transforms as T
if os.getenv('SYSTEM') == 'spaces':
os.system("sed -i '10,17d' DualStyleGAN/model/stylegan/op/fused_act.py")
os.system("sed -i '10,17d' DualStyleGAN/model/stylegan/op/upfirdn2d.py")
app_dir = pathlib.Path(__file__).parent
submodule_dir = app_dir / 'DualStyleGAN'
sys.path.insert(0, submodule_dir.as_posix())
from model.dualstylegan import DualStyleGAN
from model.encoder.align_all_parallel import align_face
from model.encoder.psp import pSp
MODEL_REPO = 'CVPR/DualStyleGAN'
class Model:
def __init__(self):
self.device = torch.device(
'cuda:0' if torch.cuda.is_available() else 'cpu')
self.landmark_model = self._create_dlib_landmark_model()
self.encoder_dict = self._load_encoder()
self.transform = self._create_transform()
self.encoder_type = 'z+'
self.style_types = [
'cartoon',
'caricature',
'anime',
'arcane',
'comic',
'pixar',
'slamdunk',
]
self.generator_dict = {
style_type: self._load_generator(style_type)
for style_type in self.style_types
}
self.exstyle_dict = {
style_type: self._load_exstylecode(style_type)
for style_type in self.style_types
}
@staticmethod
def _create_dlib_landmark_model():
url = 'http://dlib.net/files/shape_predictor_68_face_landmarks.dat.bz2'
path = pathlib.Path('shape_predictor_68_face_landmarks.dat')
if not path.exists():
bz2_path = 'shape_predictor_68_face_landmarks.dat.bz2'
torch.hub.download_url_to_file(url, bz2_path)
subprocess.run(f'bunzip2 -d {bz2_path}'.split())
return dlib.shape_predictor(path.as_posix())
def _load_encoder(self) -> nn.Module:
ckpt_path = huggingface_hub.hf_hub_download(MODEL_REPO,
'models/encoder.pt')
ckpt = torch.load(ckpt_path, map_location='cpu')
opts = ckpt['opts']
opts['device'] = self.device.type
opts['checkpoint_path'] = ckpt_path
opts = argparse.Namespace(**opts)
model = pSp(opts)
model.to(self.device)
model.eval()
ckpt_path = huggingface_hub.hf_hub_download(MODEL_REPO,
'models/encoder_wplus.pt')
ckpt = torch.load(ckpt_path, map_location='cpu')
opts = ckpt['opts']
opts['device'] = self.device.type
opts['checkpoint_path'] = ckpt_path
opts['output_size'] = 1024
opts = argparse.Namespace(**opts)
model2 = pSp(opts)
model2.to(self.device)
model2.eval()
return {'z+': model, 'w+': model2}
@staticmethod
def _create_transform() -> Callable:
transform = T.Compose([
T.Resize(256),
T.CenterCrop(256),
T.ToTensor(),
T.Normalize([0.5, 0.5, 0.5], [0.5, 0.5, 0.5]),
])
return transform
def _load_generator(self, style_type: str) -> nn.Module:
model = DualStyleGAN(1024, 512, 8, 2, res_index=6)
ckpt_path = huggingface_hub.hf_hub_download(
MODEL_REPO, f'models/{style_type}/generator.pt')
ckpt = torch.load(ckpt_path, map_location='cpu')
model.load_state_dict(ckpt['g_ema'])
model.to(self.device)
model.eval()
return model
@staticmethod
def _load_exstylecode(style_type: str) -> dict[str, np.ndarray]:
if style_type in ['cartoon', 'caricature', 'anime']:
filename = 'refined_exstyle_code.npy'
else:
filename = 'exstyle_code.npy'
path = huggingface_hub.hf_hub_download(
MODEL_REPO, f'models/{style_type}/{filename}')
exstyles = np.load(path, allow_pickle=True).item()
return exstyles
def detect_and_align_face(self, image_path) -> np.ndarray:
image = align_face(filepath=image_path, predictor=self.landmark_model)
x, y = np.random.randint(255), np.random.randint(255)
r, g, b = image.getpixel((x, y))
image.putpixel(
(x, y), (r, g + 1, b)
) # trick to make sure run reconstruct_face() once any input setting changes
return image
@staticmethod
def denormalize(tensor: torch.Tensor) -> torch.Tensor:
return torch.clamp((tensor + 1) / 2 * 255, 0, 255).to(torch.uint8)
def postprocess(self, tensor: torch.Tensor) -> np.ndarray:
tensor = self.denormalize(tensor)
return tensor.cpu().numpy().transpose(1, 2, 0)
@torch.inference_mode()
def reconstruct_face(self, image: np.ndarray,
encoder_type: str) -> tuple[np.ndarray, torch.Tensor]:
if encoder_type == 'Z+ encoder (better stylization)':
self.encoder_type = 'z+'
z_plus_latent = True
return_z_plus_latent = True
else:
self.encoder_type = 'w+'
z_plus_latent = False
return_z_plus_latent = False
image = PIL.Image.fromarray(image)
input_data = self.transform(image).unsqueeze(0).to(self.device)
img_rec, instyle = self.encoder_dict[self.encoder_type](
input_data,
randomize_noise=False,
return_latents=True,
z_plus_latent=z_plus_latent,
return_z_plus_latent=return_z_plus_latent,
resize=False)
img_rec = torch.clamp(img_rec.detach(), -1, 1)
img_rec = self.postprocess(img_rec[0])
return img_rec, instyle
@torch.inference_mode()
def generate(self, style_type: str, style_id: int, structure_weight: float,
color_weight: float, structure_only: bool,
instyle: torch.Tensor) -> np.ndarray:
if self.encoder_type == 'z+':
z_plus_latent = True
input_is_latent = False
else:
z_plus_latent = False
input_is_latent = True
generator = self.generator_dict[style_type]
exstyles = self.exstyle_dict[style_type]
style_id = int(style_id)
stylename = list(exstyles.keys())[style_id]
latent = torch.tensor(exstyles[stylename]).to(self.device)
if structure_only and self.encoder_type == 'z+':
latent[0, 7:18] = instyle[0, 7:18]
exstyle = generator.generator.style(
latent.reshape(latent.shape[0] * latent.shape[1],
latent.shape[2])).reshape(latent.shape)
if structure_only and self.encoder_type == 'w+':
exstyle[:, 7:18] = instyle[:, 7:18]
img_gen, _ = generator([instyle],
exstyle,
input_is_latent=input_is_latent,
z_plus_latent=z_plus_latent,
truncation=0.7,
truncation_latent=0,
use_res=True,
interp_weights=[structure_weight] * 7 +
[color_weight] * 11)
img_gen = torch.clamp(img_gen.detach(), -1, 1)
img_gen = self.postprocess(img_gen[0])
return img_gen