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import spaces
import time
import os
import gradio as gr
import torch
from einops import rearrange
from PIL import Image
from flux.details import SamplingOptions
from flux.sampling import denoise, get_noise, get_schedule, prepare, unpack
from flux.util import load_ae, load_clip, load_flow_model, load_t5
from eva_clip.model_configs.fluxpipeline import ToonMagePipeline
from toonmage.utils import resize_numpy_image_long
def get_models(name: str, device: torch.device, offload: bool):
t5 = load_t5(device, max_length=128)
clip = load_clip(device)
model = load_flow_model(name, device="cpu" if offload else device)
model.eval()
ae = load_ae(name, device="cpu" if offload else device)
return model, ae, t5, clip
class FluxGenerator:
def __init__(self):
self.device = torch.device('cuda')
self.offload = False
self.model_name = 'flux-dev'
self.model, self.ae, self.t5, self.clip = get_models(
self.model_name,
device=self.device,
offload=self.offload,
)
self.toonmage_model = ToonMagePipeline(self.model, 'cuda', weight_dtype=torch.bfloat16)
self.toonmage_model.load_pretrain()
flux_generator = FluxGenerator()
@spaces.GPU
@torch.inference_mode()
def generate_image(
width,
height,
num_steps,
start_step,
guidance,
seed,
prompt,
id_image=None,
id_weight=1.0,
neg_prompt="",
true_cfg=1.0,
timestep_to_start_cfg=1,
max_sequence_length=128,
):
flux_generator.t5.max_length = max_sequence_length
seed = int(seed)
if seed == -1:
seed = None
opts = SamplingOptions(
prompt=prompt,
width=width,
height=height,
num_steps=num_steps,
guidance=guidance,
seed=seed,
)
if opts.seed is None:
opts.seed = torch.Generator(device="cpu").seed()
print(f"Generating '{opts.prompt}' with seed {opts.seed}")
t0 = time.perf_counter()
use_true_cfg = abs(true_cfg - 1.0) > 1e-2
if id_image is not None:
id_image = resize_numpy_image_long(id_image, 1024)
id_embeddings, uncond_id_embeddings = flux_generator.toonmage_model.get_id_embedding(id_image, cal_uncond=use_true_cfg)
else:
id_embeddings = None
uncond_id_embeddings = None
print(id_embeddings)
# prepare input
x = get_noise(
1,
opts.height,
opts.width,
device=flux_generator.device,
dtype=torch.bfloat16,
seed=opts.seed,
)
print(x)
timesteps = get_schedule(
opts.num_steps,
x.shape[-1] * x.shape[-2] // 4,
shift=True,
)
if flux_generator.offload:
flux_generator.t5, flux_generator.clip = flux_generator.t5.to(flux_generator.device), flux_generator.clip.to(flux_generator.device)
inp = prepare(t5=flux_generator.t5, clip=flux_generator.clip, img=x, prompt=opts.prompt)
inp_neg = prepare(t5=flux_generator.t5, clip=flux_generator.clip, img=x, prompt=neg_prompt) if use_true_cfg else None
# offload TEs to CPU, load model to gpu
if flux_generator.offload:
flux_generator.t5, flux_generator.clip = flux_generator.t5.cpu(), flux_generator.clip.cpu()
torch.cuda.empty_cache()
flux_generator.model = flux_generator.model.to(flux_generator.device)
# denoise initial noise
x = denoise(
flux_generator.model, **inp, timesteps=timesteps, guidance=opts.guidance, id=id_embeddings, id_weight=id_weight,
start_step=start_step, uncond_id=uncond_id_embeddings, true_cfg=true_cfg,
timestep_to_start_cfg=timestep_to_start_cfg,
neg_txt=inp_neg["txt"] if use_true_cfg else None,
neg_txt_ids=inp_neg["txt_ids"] if use_true_cfg else None,
neg_vec=inp_neg["vec"] if use_true_cfg else None,
)
# offload model, load autoencoder to gpu
if flux_generator.offload:
flux_generator.model.cpu()
torch.cuda.empty_cache()
flux_generator.ae.decoder.to(x.device)
# decode latents to pixel space
x = unpack(x.float(), opts.height, opts.width)
with torch.autocast(device_type=flux_generator.device.type, dtype=torch.bfloat16):
x = flux_generator.ae.decode(x)
if flux_generator.offload:
flux_generator.ae.decoder.cpu()
torch.cuda.empty_cache()
t1 = time.perf_counter()
print(f"Done in {t1 - t0:.1f}s.")
# bring into PIL format
x = x.clamp(-1, 1)
# x = embed_watermark(x.float())
x = rearrange(x[0], "c h w -> h w c")
img = Image.fromarray((127.5 * (x + 1.0)).cpu().byte().numpy())
return img, str(opts.seed), flux_generator.toonmage_model.debug_img_list
MARKDOWN = """
This demo utilizes <a href="https://huggingface.co/black-forest-labs/FLUX.1-dev">FLUX Pipeline</a> for Image to Image Translation
**Tips**
- Smaller value of timestep to start inserting ID would lead to higher fidelity, however, it will reduce the editability; and vice versa.
Its value range is from 0 - 4. If you want to generate a stylized scene; use the value of 0 - 1. If you want to generate a photorealistic image; use the value of 4.
-It is recommended to use fake CFG by setting the true CFG scale value to 1 while you can vary the guidance scale. However, in a few cases, utilizing a true CFG can yield better results.
Try out with different prompts using your image and do provide your feedback.
**Demo by [Sunder Ali Khowaja](https://sander-ali.github.io) - [X](https://x.com/SunderAKhowaja) -[Github](https://github.com/sander-ali) -[Hugging Face](https://huggingface.co/SunderAli17)**
"""
theme = gr.themes.Soft(
font=[gr.themes.GoogleFont('Source Code Pro'), gr.themes.GoogleFont('Public Sans'), 'system-ui', 'sans-serif'],
)
js_func = """
function refresh() {
const url = new URL(window.location);
if (url.searchParams.get('__theme') !== 'dark') {
url.searchParams.set('__theme', 'dark');
window.location.href = url.href;
}
}
"""
def create_demo(args, model_name: str, device: str = "cuda" if torch.cuda.is_available() else "cpu",
offload: bool = False):
with gr.Blocks(s = js_func, theme = theme) as demo:
gr.Markdown(MARKDOWN)
with gr.Row():
with gr.Column():
prompt = gr.Textbox(label="Prompt", value="portrait, color, cinematic")
id_image = gr.Image(label="ID Image")
id_weight = gr.Slider(0.0, 3.0, 1, step=0.05, label="id weight")
width = gr.Slider(256, 1536, 896, step=16, label="Width")
height = gr.Slider(256, 1536, 1152, step=16, label="Height")
num_steps = gr.Slider(1, 20, 20, step=1, label="Number of steps")
start_step = gr.Slider(0, 10, 0, step=1, label="timestep to start inserting ID")
guidance = gr.Slider(1.0, 10.0, 4, step=0.1, label="Guidance")
seed = gr.Textbox(-1, label="Seed (-1 for random)")
max_sequence_length = gr.Slider(128, 512, 128, step=128,
label="max_sequence_length for prompt (T5), small will be faster")
with gr.Accordion("Advanced Options (True CFG, true_cfg_scale=1 means use fake CFG, >1 means use true CFG, if using true CFG, we recommend set the guidance scale to 1)", open=False): # noqa E501
neg_prompt = gr.Textbox(
label="Negative Prompt",
value="bad quality, worst quality, text, signature, watermark, extra limbs")
true_cfg = gr.Slider(1.0, 10.0, 1, step=0.1, label="true CFG scale")
timestep_to_start_cfg = gr.Slider(0, 20, 1, step=1, label="timestep to start cfg", visible=args.dev)
generate_btn = gr.Button("Generate")
with gr.Column():
output_image = gr.Image(label="Generated Image")
seed_output = gr.Textbox(label="Used Seed")
intermediate_output = gr.Gallery(label='Output', elem_id="gallery", visible=args.dev)
with gr.Row(), gr.Column():
gr.Markdown("## Examples")
example_inps = [
[
'a high quality digital cartoon avatar eating ice cream',
'sample_img/image1.png',
0, 4, -1, 1
],
[
'a high quality anime character with mountains and lakes in the background',
'sample_img/test1.jpg',
0, 4, -1, 1
],
[
'a high quality photorealistic image with VR technology atmosphere, revolutionary exceptional magnum with remarkable details',
'sample_img/test24.jpg',
0, 4, -1, 1
]
]
gr.Examples(examples=example_inps, inputs=[prompt, id_image, start_step, guidance, seed, true_cfg],
label='fake CFG')
generate_btn.click(
fn=generate_image,
inputs=[width, height, num_steps, start_step, guidance, seed, prompt, id_image, id_weight, neg_prompt,
true_cfg, timestep_to_start_cfg, max_sequence_length],
outputs=[output_image, seed_output, intermediate_output],
)
return demo
if __name__ == "__main__":
import argparse
parser = argparse.ArgumentParser(description="ToonMage with FLUX")
parser.add_argument("--name", type=str, default="flux-dev", choices=list('flux-dev'),
help="currently only support flux-dev")
parser.add_argument("--device", type=str, default="cuda" if torch.cuda.is_available() else "cpu",
help="Device to use")
parser.add_argument("--offload", action="store_true", help="Offload model to CPU when not in use")
parser.add_argument("--port", type=int, default=8080, help="Port to use")
parser.add_argument("--dev", action='store_true', help="Development mode")
parser.add_argument("--pretrained_model", type=str, help='for development')
args = parser.parse_args()
import huggingface_hub
huggingface_hub.login(os.getenv('HF_TOKEN'))
demo = create_demo(args, args.name, args.device, args.offload)
demo.launch() |