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import sys
import os
import torch
sys.path.append(".")
from gradio_wrapper.gradio_options import GradioTestOptions
from models.hyperstyle.utils.model_utils import load_model
from models.hyperstyle.utils.common import tensor2im
from models.hyperstyle.utils.inference_utils import run_inversion
from hyperstyle_global_directions.edit import load_direction_calculator, edit_image
from torchvision import transforms
import gradio as gr
from utils.alignment import align_face
import dlib
from argparse import Namespace
from mapper.styleclip_mapper import StyleCLIPMapper
import ris.spherical_kmeans as spherical_kmeans
from ris.blend import blend_latents
from ris.model import Generator as RIS_Generator
from PIL import Image
opts_args = ['--no_fine_mapper']
opts = GradioTestOptions().parse(opts_args)
device = 'cuda' if torch.cuda.is_available() else 'cpu'
opts.device= device
mapper_dict = {
'afro':'./pretrained_models/styleCLIP_mappers/afro_hairstyle.pt',
'bob':'./pretrained_models/styleCLIP_mappers/bob_hairstyle.pt',
'bowl':'./pretrained_models/styleCLIP_mappers/bowl_hairstyle.pt',
'buzz':'./pretrained_models/styleCLIP_mappers/buzz_hairstyle.pt',
'caesar':'./pretrained_models/styleCLIP_mappers/caesar_hairstyle.pt',
'crew':'./pretrained_models/styleCLIP_mappers/crew_hairstyle.pt',
'pixie':'./pretrained_models/styleCLIP_mappers/pixie_hairstyle.pt',
'straight':'./pretrained_models/styleCLIP_mappers/straight_hairstyle.pt',
'undercut':'./pretrained_models/styleCLIP_mappers/undercut_hairstyle.pt',
'wavy':'./pretrained_models/styleCLIP_mappers/wavy_hairstyle.pt'
}
mapper_descs = {
'afro':'A face with an afro',
'bob':'A face with a bob-cut hairstyle',
'bowl':'A face with a bowl cut hairstyle',
'buzz':'A face with a buzz cut hairstyle',
'caesar':'A face with a caesar cut hairstyle',
'crew':'A face with a crew cut hairstyle',
'pixie':'A face with a pixie cut hairstyle',
'straight':'A face with a straight hair hairstyle',
'undercut':'A face with a undercut hairstyle',
'wavy':'A face with a wavy hair hairstyle',
}
predictor = dlib.shape_predictor("./pretrained_models/hyperstyle/shape_predictor_68_face_landmarks.lfs.dat")
hyperstyle, hyperstyle_args = load_model(opts.hyperstyle_checkpoint_path, device=device, update_opts=opts)
resize_amount = (256, 256) if hyperstyle_args.resize_outputs else (hyperstyle_args.output_size, hyperstyle_args.output_size)
im2tensor_transforms = transforms.Compose([transforms.Resize((256, 256)), transforms.ToTensor(), transforms.Normalize([0.5, 0.5, 0.5], [0.5, 0.5, 0.5])])
direction_calculator = load_direction_calculator(opts)
ris_gen = RIS_Generator(1024, 512, 8, channel_multiplier=2).to(device).eval()
ris_ckpt = torch.load('./pretrained_models/ris/stylegan2-ffhq-config-f.pt', map_location=lambda storage, loc: storage)
ris_gen.load_state_dict(ris_ckpt['g_ema'], strict=False)
with gr.Blocks() as demo:
with gr.Row() as row:
with gr.Column() as inputs:
source = gr.Image(label="Image to Map", type='filepath')
align = gr.Checkbox(True, label='Align Image')
inverter_bools = gr.CheckboxGroup(["Hyperstyle", "E4E"], value=['Hyperstyle'], label='Inverter Choices')
n_hyperstyle_iterations = gr.Number(5, label='Number of Iterations For Hyperstyle', precision=0)
with gr.Box():
invert_bool = gr.Checkbox(False, label='Output Inverter Result')
with gr.Box():
mapper_bool = gr.Checkbox(True, label='Output Mapper Result')
with gr.Box() as mapper_opts:
mapper_choice = gr.Dropdown(list(mapper_dict.keys()), value='afro', label='What Hairstyle Mapper to Use?')
mapper_alpha = gr.Slider(minimum=-0.5, maximum=0.5, value=0.1, step=0.01, label='Strength of Mapper Alpha',)
with gr.Box():
gd_bool = gr.Checkbox(False, label='Output Global Direction Result')
with gr.Box(visible=False) as gd_opts:
neutral_text = gr.Text(value='A face with hair', label='Neutral Text')
target_text = gr.Text(value=mapper_descs['afro'], label='Target Text')
alpha = gr.Slider(minimum=-10.0, maximum=10.0, value=4.1, step=0.1, label="Alpha for Global Direction")
beta = gr.Slider(minimum=0.0, maximum=0.30, value=0.15, step=0.01, label="Beta for Global Direction")
with gr.Box():
ris_bool = gr.Checkbox(False, label='Output RIS Result')
with gr.Box(visible=False) as ris_opts:
ref_img = gr.Image(label='Refrence Image for Hair', type='filepath')
submit_button = gr.Button("Edit Image")
with gr.Column() as outputs:
with gr.Row() as hyperstyle_images:
output_hyperstyle_invert = gr.Image(type='pil', label="Hyperstyle Inverted", visible=False)
output_hyperstyle_mapper = gr.Image(type='pil', label="Hyperstyle Mapper")
output_hyperstyle_gd = gr.Image(type='pil', label="Hyperstyle Global Directions", visible=False)
output_hyperstyle_ris = gr.Image(type='pil', label='Hyperstyle RIS', visible=False)
with gr.Row() as hyperstyle_metrics:
output_hypersyle_metrics = gr.Text()
with gr.Row(visible=False) as e4e_images:
output_e4e_invert = gr.Image(type='pil', label="E4E Inverted", visible=False)
output_e4e_mapper = gr.Image(type='pil', label="E4E Mapper")
output_e4e_gd = gr.Image(type='pil', label="E4E Global Directions", visible=False)
output_e4e_ris = gr.Image(type='pil', label='E4E RIS', visible=False)
with gr.Row() as e4e_metrics:
output_e4e_metrics = gr.Text()
def n_iter_change(number):
if number < 0:
return 0
else:
return number
def mapper_change(new_mapper):
return mapper_descs[new_mapper]
def inverter_toggles(bools):
e4e_bool = 'E4E' in bools
hyperstyle_bool = 'Hyperstyle' in bools
return {
hyperstyle_images: gr.update(visible=hyperstyle_bool),
e4e_images: gr.update(visible=e4e_bool),
n_hyperstyle_iterations: gr.update(visible=hyperstyle_bool)
}
def outp_toggles(bool):
return {
output_hyperstyle_invert: gr.update(visible=bool),
output_e4e_invert: gr.update(visible=bool)
}
def mapper_toggles(bool):
return {
mapper_opts: gr.update(visible=bool),
output_hyperstyle_mapper: gr.update(visible=bool),
output_e4e_mapper: gr.update(visible=bool)
}
def gd_toggles(bool):
return {
gd_opts: gr.update(visible=bool),
output_hyperstyle_gd: gr.update(visible=bool),
output_e4e_gd: gr.update(visible=bool)
}
def ris_toggles(bool):
return {
ris_opts: gr.update(visible=bool),
output_hyperstyle_ris: gr.update(visible=bool),
output_e4e_ris: gr.update(visible=bool)
}
n_hyperstyle_iterations.change(n_iter_change, n_hyperstyle_iterations, n_hyperstyle_iterations)
mapper_choice.change(mapper_change, mapper_choice, [target_text])
inverter_bools.change(inverter_toggles, inverter_bools, [hyperstyle_images, e4e_images, n_hyperstyle_iterations])
invert_bool.change(outp_toggles, invert_bool, [output_hyperstyle_invert, output_e4e_invert])
mapper_bool.change(mapper_toggles, mapper_bool, [mapper_opts, output_hyperstyle_mapper, output_e4e_mapper])
gd_bool.change(gd_toggles, gd_bool, [gd_opts, output_hyperstyle_gd, output_e4e_gd])
ris_bool.change(ris_toggles, ris_bool, [ris_opts, output_hyperstyle_ris, output_e4e_ris])
def map_latent(mapper, inputs, stylespace=False, weight_deltas=None, strength=0.1):
w = inputs.to(device)
with torch.no_grad():
if stylespace:
delta = mapper.mapper(w)
w_hat = [c + strength * delta_c for (c, delta_c) in zip(w, delta)]
x_hat, _, w_hat = mapper.decoder([w_hat], input_is_latent=True, return_latents=True,
randomize_noise=False, truncation=1, input_is_stylespace=True, weights_deltas=weight_deltas)
else:
delta = mapper.mapper(w)
w_hat = w + strength * delta
x_hat, w_hat, _ = mapper.decoder([w_hat], input_is_latent=True, return_latents=True,
randomize_noise=False, truncation=1, weights_deltas=weight_deltas)
result_batch = (x_hat, w_hat)
return result_batch
def submit(
src, align_img, inverter_bools, n_iterations, invert_bool,
mapper_bool, mapper_choice, mapper_alpha,
gd_bool, neutral_text, target_text, alpha, beta,
ris_bool, ref_img,
):
if device == 'cuda': torch.cuda.empty_cache()
opts.checkpoint_path = mapper_dict[mapper_choice]
ckpt = torch.load(mapper_dict[mapper_choice], map_location='cpu')
mapper_args = ckpt['opts']
mapper_args.update(vars(opts))
mapper_args = Namespace(**mapper_args)
mapper = StyleCLIPMapper(mapper_args)
mapper.eval()
mapper.to(device)
with torch.no_grad():
output_imgs = []
if align_img:
input_img = align_face(src, predictor)
else:
input_img = Image.open(src).convert('RGB')
input_img = im2tensor_transforms(input_img).to(device)
if gd_bool:
opts.neutral_text = neutral_text
opts.target_text = target_text
opts.alpha = alpha
opts.beta = beta
if ris_bool:
if align_img:
ref_input = align_face(ref_img, predictor)
else:
ref_input = Image.open(src).convert('RGB')
ref_input = im2tensor_transforms(ref_input).to(device)
if 'Hyperstyle' in inverter_bools:
hyperstyle_batch, hyperstyle_latents, hyperstyle_deltas, _ = run_inversion(input_img.unsqueeze(0), hyperstyle, hyperstyle_args, return_intermediate_results=False)
if invert_bool:
invert_hyperstyle = tensor2im(hyperstyle_batch[0])
else:
invert_hyperstyle = None
if mapper_bool:
mapped_hyperstyle, _ = map_latent(mapper, hyperstyle_latents, stylespace=False, weight_deltas=hyperstyle_deltas, strength=mapper_alpha)
mapped_hyperstyle = tensor2im(mapped_hyperstyle[0])
else:
mapped_hyperstyle = None
if gd_bool:
gd_hyperstyle = edit_image(_, hyperstyle_latents[0], hyperstyle.decoder, direction_calculator, opts, hyperstyle_deltas)[0]
gd_hyperstyle = tensor2im(gd_hyperstyle)
else:
gd_hyperstyle = None
if ris_bool:
ref_hyperstyle_batch, ref_hyperstyle_latents, ref_hyperstyle_deltas, _ = run_inversion(ref_input.unsqueeze(0), hyperstyle, hyperstyle_args, return_intermediate_results=False)
blend_hyperstyle, blend_hyperstyle_latents = blend_latents(hyperstyle_latents, ref_hyperstyle_batch,
src_deltas=hyperstyle_deltas, ref_deltas=ref_hyperstyle_deltas,
generator=ris_gen, device=device)
ris_hyperstyle = tensor2im(blend_hyperstyle)
else:
ris_hyperstyle=None
hyperstyle_output = [invert_hyperstyle, mapped_hyperstyle,gd_hyperstyle, ris_hyperstyle]
else:
hyperstyle_output = [None, None, None, None]
output_imgs.extend(hyperstyle_output)
if 'E4E' in inverter_bools:
e4e_batch, e4e_latents = hyperstyle.w_invert(input_img.unsqueeze(0))
e4e_deltas = None
if invert_bool:
invert_e4e = tensor2im(e4e_batch[0])
else:
invert_e4e = None
if mapper_bool:
mapped_e4e, _ = map_latent(mapper, e4e_latents, stylespace=False, weight_deltas=e4e_deltas, strength=mapper_alpha)
mapped_e4e = tensor2im(mapped_e4e[0])
else:
mapped_e4e = None
if gd_bool:
gd_e4e = edit_image(_, e4e_latents[0], hyperstyle.decoder, direction_calculator, opts, e4e_deltas)[0]
gd_e4e = tensor2im(gd_e4e)
else:
gd_e4e = None
if ris_bool:
ref_e4e_batch, ref_e4e_latents, = hyperstyle.w_invert(ref_input.unsqueeze(0))
ref_e4e_deltas= None
blend_e4e, blend_e4e_latents = blend_latents(e4e_latents, ref_e4e_batch,
src_deltas=None, ref_deltas=None,
generator=ris_gen, device=device)
ris_e4e = tensor2im(blend_e4e)
else:
ris_e4e=None
e4e_output = [invert_e4e, mapped_e4e, gd_e4e, ris_e4e]
else:
e4e_output = [None, None, None, None]
output_imgs.extend(e4e_output)
return output_imgs
submit_button.click(
submit,
[
source, align, inverter_bools, n_hyperstyle_iterations, invert_bool,
mapper_bool, mapper_choice, mapper_alpha,
gd_bool, neutral_text, target_text, alpha, beta,
ris_bool, ref_img
],
[output_hyperstyle_invert, output_hyperstyle_mapper, output_hyperstyle_gd, output_hyperstyle_ris,
output_e4e_invert, output_e4e_mapper, output_e4e_gd, output_e4e_ris]
)
demo.launch() |