import numpy as np from PIL import Image from huggingface_hub import snapshot_download from leffa.transform import LeffaTransform from leffa.model import LeffaModel from leffa.inference import LeffaInference from utils.garment_agnostic_mask_predictor import AutoMasker from utils.densepose_predictor import DensePosePredictor from utils.utils import resize_and_center, list_dir import gradio as gr # Download checkpoints snapshot_download(repo_id="franciszzj/Leffa", local_dir="./ckpts") class LeffaPredictor(object): def __init__(self): self.mask_predictor = AutoMasker( densepose_path="./ckpts/densepose", schp_path="./ckpts/schp", ) self.densepose_predictor = DensePosePredictor( config_path="./ckpts/densepose/densepose_rcnn_R_50_FPN_s1x.yaml", weights_path="./ckpts/densepose/model_final_162be9.pkl", ) vt_model = LeffaModel( pretrained_model_name_or_path="./ckpts/stable-diffusion-inpainting", pretrained_model="./ckpts/virtual_tryon.pth", ) self.vt_inference = LeffaInference(model=vt_model) self.vt_model_type = "viton_hd" pt_model = LeffaModel( pretrained_model_name_or_path="./ckpts/stable-diffusion-xl-1.0-inpainting-0.1", pretrained_model="./ckpts/pose_transfer.pth", ) self.pt_inference = LeffaInference(model=pt_model) def change_vt_model(self, vt_model_type): if vt_model_type == self.vt_model_type: return if vt_model_type == "viton_hd": pretrained_model = "./ckpts/virtual_tryon.pth" elif vt_model_type == "dress_code": pretrained_model = "./ckpts/virtual_tryon_dc.pth" vt_model = LeffaModel( pretrained_model_name_or_path="./ckpts/stable-diffusion-inpainting", pretrained_model=pretrained_model, ) self.vt_inference = LeffaInference(model=vt_model) self.vt_model_type = vt_model_type def leffa_predict(self, src_image_path, ref_image_path, control_type, step=50, scale=2.5, seed=42): assert control_type in [ "virtual_tryon", "pose_transfer"], "Invalid control type: {}".format(control_type) src_image = Image.open(src_image_path) ref_image = Image.open(ref_image_path) src_image = resize_and_center(src_image, 768, 1024) ref_image = resize_and_center(ref_image, 768, 1024) src_image_array = np.array(src_image) # Mask if control_type == "virtual_tryon": src_image = src_image.convert("RGB") mask = self.mask_predictor(src_image, "upper")["mask"] elif control_type == "pose_transfer": mask = Image.fromarray(np.ones_like(src_image_array) * 255) # DensePose if control_type == "virtual_tryon": src_image_seg_array = self.densepose_predictor.predict_seg( src_image_array) src_image_seg = Image.fromarray(src_image_seg_array) densepose = src_image_seg elif control_type == "pose_transfer": src_image_iuv_array = self.densepose_predictor.predict_iuv( src_image_array) src_image_iuv = Image.fromarray(src_image_iuv_array) densepose = src_image_iuv # Leffa transform = LeffaTransform() data = { "src_image": [src_image], "ref_image": [ref_image], "mask": [mask], "densepose": [densepose], } data = transform(data) if control_type == "virtual_tryon": inference = self.vt_inference elif control_type == "pose_transfer": inference = self.pt_inference output = inference( data, num_inference_steps=step, guidance_scale=scale, seed=seed,) gen_image = output["generated_image"][0] # gen_image.save("gen_image.png") return np.array(gen_image) def leffa_predict_vt(self, src_image_path, ref_image_path, step, scale, seed): return self.leffa_predict(src_image_path, ref_image_path, "virtual_tryon", step, scale, seed) def leffa_predict_pt(self, src_image_path, ref_image_path, step, scale, seed): return self.leffa_predict(src_image_path, ref_image_path, "pose_transfer", step, scale, seed) if __name__ == "__main__": leffa_predictor = LeffaPredictor() example_dir = "./ckpts/examples" person1_images = list_dir(f"{example_dir}/person1") person2_images = list_dir(f"{example_dir}/person2") garment_images = list_dir(f"{example_dir}/garment") title = "## Leffa: Learning Flow Fields in Attention for Controllable Person Image Generation" link = "[📚 Paper](https://arxiv.org/abs/2412.08486) - [🤖 Code](https://github.com/franciszzj/Leffa) - [🔥 Demo](https://huggingface.co/spaces/franciszzj/Leffa) - [🤗 Model](https://huggingface.co/franciszzj/Leffa)" news = """## News - 18/Dec/2024, thanks to @[StartHua](https://github.com/StartHua) for integrating Leffa into ComfyUI! Here is the [repo](https://github.com/StartHua/Comfyui_leffa)! - 16/Dec/2024, the virtual try-on [model](https://huggingface.co/franciszzj/Leffa/blob/main/virtual_tryon_dc.pth) trained on DressCode is released. - 12/Dec/2024, the HuggingFace [demo](https://huggingface.co/spaces/franciszzj/Leffa) and [models](https://huggingface.co/franciszzj/Leffa) (virtual try-on model trained on VITON-HD and pose transfer model trained on DeepFashion) are released. - 11/Dec/2024, the [arXiv](https://arxiv.org/abs/2412.08486) version of the paper is released. """ description = "Leffa is a unified framework for controllable person image generation that enables precise manipulation of both appearance (i.e., virtual try-on) and pose (i.e., pose transfer)." note = "Note: The models used in the demo are trained solely on academic datasets. Virtual try-on uses VITON-HD/DressCode, and pose transfer uses DeepFashion." with gr.Blocks(theme=gr.themes.Default(primary_hue=gr.themes.colors.pink, secondary_hue=gr.themes.colors.red)).queue() as demo: gr.Markdown(title) gr.Markdown(link) gr.Markdown(news) gr.Markdown(description) with gr.Tab("Control Appearance (Virtual Try-on)"): with gr.Row(): with gr.Column(): gr.Markdown("#### Person Image") vt_src_image = gr.Image( sources=["upload"], type="filepath", label="Person Image", width=512, height=512, ) gr.Examples( inputs=vt_src_image, examples_per_page=10, examples=person1_images, ) with gr.Column(): gr.Markdown("#### Garment Image") vt_ref_image = gr.Image( sources=["upload"], type="filepath", label="Garment Image", width=512, height=512, ) gr.Examples( inputs=vt_ref_image, examples_per_page=10, examples=garment_images, ) with gr.Column(): gr.Markdown("#### Generated Image") vt_gen_image = gr.Image( label="Generated Image", width=512, height=512, ) with gr.Row(): vt_gen_button = gr.Button("Generate") with gr.Accordion("Advanced Options", open=False): vt_step = gr.Number( label="Inference Steps", minimum=30, maximum=100, step=1, value=50) vt_scale = gr.Number( label="Guidance Scale", minimum=0.1, maximum=5.0, step=0.1, value=2.5) vt_seed = gr.Number( label="Random Seed", minimum=-1, maximum=2147483647, step=1, value=42) vt_gen_button.click(fn=leffa_predictor.leffa_predict_vt, inputs=[ vt_src_image, vt_ref_image, vt_step, vt_scale, vt_seed], outputs=[vt_gen_image]) with gr.Tab("Control Pose (Pose Transfer)"): with gr.Row(): with gr.Column(): gr.Markdown("#### Person Image") pt_ref_image = gr.Image( sources=["upload"], type="filepath", label="Person Image", width=512, height=512, ) gr.Examples( inputs=pt_ref_image, examples_per_page=10, examples=person1_images, ) with gr.Column(): gr.Markdown("#### Target Pose Person Image") pt_src_image = gr.Image( sources=["upload"], type="filepath", label="Target Pose Person Image", width=512, height=512, ) gr.Examples( inputs=pt_src_image, examples_per_page=10, examples=person2_images, ) with gr.Column(): gr.Markdown("#### Generated Image") pt_gen_image = gr.Image( label="Generated Image", width=512, height=512, ) with gr.Row(): pose_transfer_gen_button = gr.Button("Generate") with gr.Accordion("Advanced Options", open=False): pt_step = gr.Number( label="Inference Steps", minimum=30, maximum=100, step=1, value=50) pt_scale = gr.Number( label="Guidance Scale", minimum=0.1, maximum=5.0, step=0.1, value=2.5) pt_seed = gr.Number( label="Random Seed", minimum=-1, maximum=2147483647, step=1, value=42) pose_transfer_gen_button.click(fn=leffa_predictor.leffa_predict_pt, inputs=[ pt_src_image, pt_ref_image, pt_step, pt_scale, pt_seed], outputs=[pt_gen_image]) gr.Markdown(note) demo.launch(share=True, server_port=7860)