| |
| """ |
| Generate a large batch of image samples from a model and save them as a large |
| numpy array. This can be used to produce samples for FID evaluation. |
| """ |
| from utils.fixseed import fixseed |
| import os |
| import numpy as np |
| import torch |
| from utils.parser_util import edit_args |
| from sample.generate import save_multiple_samples, construct_template_variables |
| from utils.model_util import create_model_and_diffusion, load_saved_model |
| from utils import dist_util |
| from utils.sampler_util import ClassifierFreeSampleModel |
| from data_loaders.get_data import get_dataset_loader |
| from data_loaders.humanml.scripts.motion_process import recover_from_ric |
| from data_loaders import humanml_utils |
| import data_loaders.humanml.utils.paramUtil as paramUtil |
| from data_loaders.humanml.utils.plot_script import plot_3d_motion |
| import shutil |
|
|
|
|
| def main(): |
| args = edit_args() |
| fixseed(args.seed) |
| out_path = args.output_dir |
| name = os.path.basename(os.path.dirname(args.model_path)) |
| niter = os.path.basename(args.model_path).replace('model', '').replace('.pt', '') |
| max_frames = 196 if args.dataset in ['kit', 'humanml'] else 60 |
| fps = 12.5 if args.dataset == 'kit' else 20 |
| n_frames = 120 |
|
|
| dist_util.setup_dist(args.device) |
| if out_path == '': |
| out_path = os.path.join(os.path.dirname(args.model_path), |
| 'edit_{}_{}_{}_seed{}'.format(name, niter, args.edit_mode, args.seed)) |
| if args.text_condition != '': |
| out_path += '_' + args.text_condition.replace(' ', '_').replace('.', '') |
|
|
| print('Loading dataset...') |
| assert args.num_samples <= args.batch_size, \ |
| f'Please either increase batch_size({args.batch_size}) or reduce num_samples({args.num_samples})' |
| |
| |
| |
| |
| args.batch_size = args.num_samples |
| data = get_dataset_loader(name=args.dataset, |
| batch_size=args.batch_size, |
| num_frames=max_frames, |
| split='test', |
| hml_mode='train') |
| |
| total_num_samples = args.num_samples * args.num_repetitions |
|
|
| print("Creating model and diffusion...") |
| model, diffusion = create_model_and_diffusion(args, data) |
|
|
| print(f"Loading checkpoints from [{args.model_path}]...") |
| load_saved_model(model, args.model_path, use_avg=args.use_ema) |
|
|
| model = ClassifierFreeSampleModel(model) |
| model.to(dist_util.dev()) |
| model.eval() |
|
|
| iterator = iter(data) |
| input_motions, model_kwargs = next(iterator) |
| input_motions = input_motions.to(dist_util.dev()) |
| texts = [args.text_condition] * args.num_samples |
| model_kwargs['y']['text'] = texts |
| if args.text_condition == '': |
| args.guidance_param = 0. |
|
|
| |
| assert max_frames == input_motions.shape[-1] |
| gt_frames_per_sample = {} |
| model_kwargs['y']['inpainted_motion'] = input_motions |
| if args.edit_mode == 'in_between': |
| model_kwargs['y']['inpainting_mask'] = torch.ones_like(input_motions, dtype=torch.bool, |
| device=input_motions.device) |
| for i, length in enumerate(model_kwargs['y']['lengths'].cpu().numpy()): |
| start_idx, end_idx = int(args.prefix_end * length), int(args.suffix_start * length) |
| gt_frames_per_sample[i] = list(range(0, start_idx)) + list(range(end_idx, max_frames)) |
| model_kwargs['y']['inpainting_mask'][i, :, :, |
| start_idx: end_idx] = False |
| elif args.edit_mode == 'upper_body': |
| model_kwargs['y']['inpainting_mask'] = torch.tensor(humanml_utils.HML_LOWER_BODY_MASK, dtype=torch.bool, |
| device=input_motions.device) |
| model_kwargs['y']['inpainting_mask'] = model_kwargs['y']['inpainting_mask'].unsqueeze(0).unsqueeze( |
| -1).unsqueeze(-1).repeat(input_motions.shape[0], 1, input_motions.shape[2], input_motions.shape[3]) |
|
|
| all_motions = [] |
| all_lengths = [] |
| all_text = [] |
|
|
| for rep_i in range(args.num_repetitions): |
| print(f'### Start sampling [repetitions #{rep_i}]') |
|
|
| |
| model_kwargs['y']['scale'] = torch.ones(args.batch_size, device=dist_util.dev()) * args.guidance_param |
|
|
| sample_fn = diffusion.p_sample_loop |
|
|
| sample = sample_fn( |
| model, |
| (args.batch_size, model.njoints, model.nfeats, max_frames), |
| clip_denoised=False, |
| model_kwargs=model_kwargs, |
| skip_timesteps=0, |
| init_image=None, |
| progress=True, |
| dump_steps=None, |
| noise=None, |
| const_noise=False, |
| ) |
|
|
|
|
| |
| if model.data_rep == 'hml_vec': |
| n_joints = 22 if sample.shape[1] == 263 else 21 |
| sample = data.dataset.t2m_dataset.inv_transform(sample.cpu().permute(0, 2, 3, 1)).float() |
| sample = recover_from_ric(sample, n_joints) |
| sample = sample.view(-1, *sample.shape[2:]).permute(0, 2, 3, 1) |
|
|
| all_text += model_kwargs['y']['text'] |
| all_motions.append(sample.cpu().numpy()) |
| all_lengths.append(model_kwargs['y']['lengths'].cpu().numpy()) |
|
|
| print(f"created {len(all_motions) * args.batch_size} samples") |
|
|
|
|
| all_motions = np.concatenate(all_motions, axis=0) |
| all_motions = all_motions[:total_num_samples] |
| all_text = all_text[:total_num_samples] |
| all_lengths = np.concatenate(all_lengths, axis=0)[:total_num_samples] |
|
|
| if os.path.exists(out_path): |
| shutil.rmtree(out_path) |
| os.makedirs(out_path) |
|
|
| npy_path = os.path.join(out_path, 'results.npy') |
| print(f"saving results file to [{npy_path}]") |
| np.save(npy_path, |
| {'motion': all_motions, 'text': all_text, 'lengths': all_lengths, |
| 'num_samples': args.num_samples, 'num_repetitions': args.num_repetitions}) |
| with open(npy_path.replace('.npy', '.txt'), 'w') as fw: |
| fw.write('\n'.join(all_text)) |
| with open(npy_path.replace('.npy', '_len.txt'), 'w') as fw: |
| fw.write('\n'.join([str(l) for l in all_lengths])) |
|
|
| print(f"saving visualizations to [{out_path}]...") |
| skeleton = paramUtil.kit_kinematic_chain if args.dataset == 'kit' else paramUtil.t2m_kinematic_chain |
|
|
| |
| if model.data_rep == 'hml_vec': |
| input_motions = data.dataset.t2m_dataset.inv_transform(input_motions.cpu().permute(0, 2, 3, 1)).float() |
| input_motions = recover_from_ric(input_motions, n_joints) |
| input_motions = input_motions.view(-1, *input_motions.shape[2:]).permute(0, 2, 3, 1).cpu().numpy() |
|
|
|
|
| sample_print_template, row_print_template, all_print_template, \ |
| sample_file_template, row_file_template, all_file_template = construct_template_variables(args.unconstrained) |
| max_vis_samples = 6 |
| num_vis_samples = min(args.num_samples, max_vis_samples) |
| animations = np.empty(shape=(args.num_samples, args.num_repetitions), dtype=object) |
| max_length = max(all_lengths) |
| |
| for sample_i in range(args.num_samples): |
| caption = 'Input Motion' |
| length = model_kwargs['y']['lengths'][sample_i] |
| motion = input_motions[sample_i].transpose(2, 0, 1)[:length] |
| save_file = 'input_motion{:02d}.mp4'.format(sample_i) |
| animation_save_path = os.path.join(out_path, save_file) |
| rep_files = [animation_save_path] |
| |
| |
| |
| |
| |
| for rep_i in range(args.num_repetitions): |
| caption = all_text[rep_i*args.batch_size + sample_i] |
| if caption == '': |
| caption = 'Edit [{}] unconditioned'.format(args.edit_mode) |
| else: |
| caption = 'Edit [{}]: {}'.format(args.edit_mode, caption) |
| length = all_lengths[rep_i*args.batch_size + sample_i] |
| motion = all_motions[rep_i*args.batch_size + sample_i].transpose(2, 0, 1)[:length] |
| save_file = 'sample{:02d}_rep{:02d}.mp4'.format(sample_i, rep_i) |
| animation_save_path = os.path.join(out_path, save_file) |
| rep_files.append(animation_save_path) |
| gt_frames = gt_frames_per_sample.get(sample_i, []) |
| print(f'[({sample_i}) "{caption}" | Rep #{rep_i} | -> {save_file}]') |
| animations[sample_i, rep_i] = plot_3d_motion(animation_save_path, |
| skeleton, motion, dataset=args.dataset, title=caption, |
| fps=fps, gt_frames=gt_frames) |
| |
|
|
| all_rep_save_file = os.path.join(out_path, 'sample{:02d}.mp4'.format(sample_i)) |
| ffmpeg_rep_files = [f' -i {f} ' for f in rep_files] |
| hstack_args = f' -filter_complex hstack=inputs={args.num_repetitions+1}' |
| ffmpeg_rep_cmd = f'ffmpeg -y -loglevel warning ' + ''.join(ffmpeg_rep_files) + f'{hstack_args} {all_rep_save_file}' |
| os.system(ffmpeg_rep_cmd) |
| print(f'[({sample_i}) "{caption}" | all repetitions | -> {all_rep_save_file}]') |
| |
| save_multiple_samples(out_path, {'all': all_file_template}, animations, fps, max(list(all_lengths) + [n_frames])) |
|
|
| abs_path = os.path.abspath(out_path) |
| print(f'[Done] Results are at [{abs_path}]') |
|
|
|
|
| if __name__ == "__main__": |
| main() |
|
|