import argparse import os from pathlib import Path import cv2 import gradio as gr import numpy as np import torch from PIL import Image os.system('pip install /home/user/app/vendor/pyrender') sys.path.append('/home/user/app/vendor/pyrender') from hmr2.configs import get_config from hmr2.datasets.vitdet_dataset import (DEFAULT_MEAN, DEFAULT_STD, ViTDetDataset) from hmr2.models import HMR2 from hmr2.utils import recursive_to from hmr2.utils.renderer import Renderer, cam_crop_to_full os.environ["PYOPENGL_PLATFORM"] = "egl" os.environ["MESA_GL_VERSION_OVERRIDE"] = "4.1" try: import detectron2 except: import os os.system('pip install git+https://github.com/facebookresearch/detectron2.git') # Setup HMR2.0 model LIGHT_BLUE=(0.65098039, 0.74117647, 0.85882353) DEFAULT_CHECKPOINT='logs/train/multiruns/hmr2/0/checkpoints/epoch=35-step=1000000.ckpt' device = torch.device('cuda') if torch.cuda.is_available() else torch.device('cpu') model_cfg = str(Path(DEFAULT_CHECKPOINT).parent.parent / 'model_config.yaml') model_cfg = get_config(model_cfg) model = HMR2.load_from_checkpoint(DEFAULT_CHECKPOINT, strict=False, cfg=model_cfg).to(device) model.eval() # Load detector from detectron2.config import LazyConfig from hmr2.utils.utils_detectron2 import DefaultPredictor_Lazy detectron2_cfg = LazyConfig.load(f"vendor/detectron2/projects/ViTDet/configs/COCO/cascade_mask_rcnn_vitdet_h_75ep.py") detectron2_cfg.train.init_checkpoint = "https://dl.fbaipublicfiles.com/detectron2/ViTDet/COCO/cascade_mask_rcnn_vitdet_h/f328730692/model_final_f05665.pkl" for i in range(3): detectron2_cfg.model.roi_heads.box_predictors[i].test_score_thresh = 0.25 detector = DefaultPredictor_Lazy(detectron2_cfg) # Setup the renderer renderer = Renderer(model_cfg, faces=model.smpl.faces) import numpy as np def infer(in_pil_img, in_threshold=0.8, out_pil_img=None): open_cv_image = np.array(in_pil_img) # Convert RGB to BGR open_cv_image = open_cv_image[:, :, ::-1].copy() print("EEEEE", open_cv_image.shape) det_out = detector(open_cv_image) det_instances = det_out['instances'] valid_idx = (det_instances.pred_classes==0) & (det_instances.scores > in_threshold) boxes=det_instances.pred_boxes.tensor[valid_idx].cpu().numpy() # Run HMR2.0 on all detected humans dataset = ViTDetDataset(model_cfg, open_cv_image, boxes) dataloader = torch.utils.data.DataLoader(dataset, batch_size=8, shuffle=False, num_workers=0) all_verts = [] all_cam_t = [] for batch in dataloader: batch = recursive_to(batch, device) with torch.no_grad(): out = model(batch) pred_cam = out['pred_cam'] box_center = batch["box_center"].float() box_size = batch["box_size"].float() img_size = batch["img_size"].float() render_size = img_size pred_cam_t = cam_crop_to_full(pred_cam, box_center, box_size, render_size).detach().cpu().numpy() # Render the result batch_size = batch['img'].shape[0] for n in range(batch_size): # Get filename from path img_path # img_fn, _ = os.path.splitext(os.path.basename(img_path)) person_id = int(batch['personid'][n]) white_img = (torch.ones_like(batch['img'][n]).cpu() - DEFAULT_MEAN[:,None,None]/255) / (DEFAULT_STD[:,None,None]/255) input_patch = batch['img'][n].cpu() * (DEFAULT_STD[:,None,None]/255) + (DEFAULT_MEAN[:,None,None]/255) input_patch = input_patch.permute(1,2,0).numpy() regression_img = renderer(out['pred_vertices'][n].detach().cpu().numpy(), out['pred_cam_t'][n].detach().cpu().numpy(), batch['img'][n], mesh_base_color=LIGHT_BLUE, scene_bg_color=(1, 1, 1), ) verts = out['pred_vertices'][n].detach().cpu().numpy() cam_t = pred_cam_t[n] all_verts.append(verts) all_cam_t.append(cam_t) # Render front view if len(all_verts) > 0: misc_args = dict( mesh_base_color=LIGHT_BLUE, scene_bg_color=(1, 1, 1), ) cam_view = renderer.render_rgba_multiple(all_verts, cam_t=all_cam_t, render_res=render_size[n], **misc_args) # Overlay image input_img = open_cv_image.astype(np.float32)[:,:,::-1]/255.0 input_img = np.concatenate([input_img, np.ones_like(input_img[:,:,:1])], axis=2) # Add alpha channel input_img_overlay = input_img[:,:,:3] * (1-cam_view[:,:,3:]) + cam_view[:,:,:3] * cam_view[:,:,3:] # convert to PIL image out_pil_img = Image.fromarray((input_img_overlay*255).astype(np.uint8)) return out_pil_img else: return None with gr.Blocks(title="4DHumans", css=".gradio-container") as demo: gr.HTML("""
HMR 2.0
""") with gr.Row(): input_image = gr.Image(label="Input image", type="pil", width=300, height=300, fixed_size=True) output_image = gr.Image(label="Reconstructions", type="pil", width=300, height=300, fixed_size=True) gr.HTML("""
""") with gr.Row(): threshold = gr.Slider(0, 1.0, value=0.8, label='Detection Threshold') send_btn = gr.Button("Infer") send_btn.click(fn=infer, inputs=[input_image, threshold], outputs=[output_image]) # gr.Examples(['samples/img1.jpg', 'samples/img2.png', 'samples/img3.jpg', 'samples/img4.jpg'], inputs=input_image) gr.HTML("""""") #demo.queue() demo.launch(debug=True) ### EOF ###