import spaces import time import os import gradio as gr import torch from einops import rearrange from PIL import Image from flux.cli 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 pulid.pipeline_flux import PuLIDPipeline from pulid.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.pulid_model = PuLIDPipeline(self.model, 'cuda', weight_dtype=torch.bfloat16) self.pulid_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.pulid_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.pulid_model.debug_img_list css = """ footer { visibility: hidden; } """ def create_demo(args, model_name: str, device: str = "cuda" if torch.cuda.is_available() else "cpu", offload: bool = False): with gr.Blocks(theme="Nymbo/Nymbo_Theme", css=css) as demo: 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(): with gr.Column(): gr.Markdown("## Examples") # 모든 예시를 하나의 리스트로 합칩니다 all_examples = [ ['a woman holding sign with glowing green text \"PuLID for FLUX\"', 'example_inputs/liuyifei.png', 4, 4, 2680261499100305976, 1], ['portrait, side view', 'example_inputs/liuyifei.png', 4, 4, 1205240166692517553, 1], ['white-haired woman with vr technology atmosphere, revolutionary exceptional magnum with remarkable details', 'example_inputs/liuyifei.png', 4, 4, 6349424134217931066, 1], ['a young child is eating Icecream', 'example_inputs/liuyifei.png', 4, 4, 10606046113565776207, 1], ['a man is holding a sign with text \"PuLID for FLUX\", winter, snowing, top of the mountain', 'example_inputs/pengwei.jpg', 4, 4, 2410129802683836089, 1], ['portrait, candle light', 'example_inputs/pengwei.jpg', 4, 4, 17522759474323955700, 1], ['profile shot dark photo of a 25-year-old male with smoke escaping from his mouth, the backlit smoke gives the image an ephemeral quality, natural face, natural eyebrows, natural skin texture, award winning photo, highly detailed face, atmospheric lighting, film grain, monochrome', 'example_inputs/pengwei.jpg', 4, 4, 17733156847328193625, 1], ['American Comics, 1boy', 'example_inputs/pengwei.jpg', 1, 4, 13223174453874179686, 1], ['portrait, pixar', 'example_inputs/pengwei.jpg', 1, 4, 9445036702517583939, 1], ['portrait, made of ice sculpture', 'example_inputs/lecun.jpg', 1, 1, 3811899118709451814, 5], ] # 예시 이미지와 캡션을 준비합니다 example_images = [example[1] for example in all_examples] example_captions = [example[0] for example in all_examples] # Gallery 컴포넌트를 사용하여 그리드 형태로 예시들을 표시합니다 gallery = gr.Gallery( value=list(zip(example_images, example_captions)), label="Example Gallery", show_label=False, elem_id="gallery", columns=5, rows=2, object_fit="contain", height="auto" ) # 예시 클릭 시 입력 필드에 값을 채우는 함수 def fill_example(evt: gr.SelectData): return [all_examples[evt.index][i] for i in [0, 1, 2, 3, 4, 5]] gallery.select( fill_example, None, [prompt, id_image, start_step, guidance, seed, true_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="PuLID for FLUX.1-dev") 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()