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# This code is based on https://github.com/openai/guided-diffusion
"""
Train a diffusion model on images.
"""
import os
import json
import torch
from utils.fixseed import fixseed
from utils.parser_util import train_args
from utils import dist_util
from train.training_loop_ours import TrainLoop
from data_loaders.get_data import get_dataset_loader
# from utils.model_util import create_model_and_diffusion
from utils.model_util import create_model_and_diffusion, load_model_wo_clip, load_multiple_models_fr_path
from train.train_platforms import ClearmlPlatform, TensorboardPlatform, NoPlatform
from tqdm import tqdm
from argparse import Namespace
import trimesh
from scipy.spatial.transform import Rotation as R
import numpy as np
import data_loaders.humanml.data.utils as utils
def get_args():
args = Namespace()
args.fps = 20
args.model_path = './save/humanml_trans_enc_512/model000200000.pt'
args.guidance_param = 2.5
args.unconstrained = False
args.dataset = 'humanml'
args.cond_mask_prob = 1
args.emb_trans_dec = False
args.latent_dim = 512
args.layers = 8
args.arch = 'trans_enc'
args.noise_schedule = 'cosine'
args.sigma_small = True
args.lambda_vel = 0.0
args.lambda_rcxyz = 0.0
args.lambda_fc = 0.0
return args
# def sample_loop(model, diffusion, dataloader, device):
# for motion, cond in tqdm(dataloader): ## motion; cond; data ##
# motion = motion.to(device)
# cond['y'] = {key: val.to(device) if torch.is_tensor(val) else val for key, val in cond['y'].items()}
def get_obj_sequences_from_data(data):
# tot_obj_idx = []
tot_obj_global_orient = []
tot_obj_global_transl = []
# object_pc_th
tot_obj_pcs = []
for batch in data:
# obj_idx = batch['object_id']
obj_global_orient = batch['object_global_orient']
obj_global_transl = batch['object_transl']
obj_pc = batch["object_pc_th"]
# tot_obj_idx.append(obj_idx)
tot_obj_global_orient.append(obj_global_orient)
tot_obj_global_transl.append(obj_global_transl)
tot_obj_pcs.append(obj_pc)
# tot_obj_idx = torch.cat(tot_obj_idx, dim=0)
tot_obj_global_orient = torch.cat(tot_obj_global_orient, dim=0)
tot_obj_global_transl = torch.cat(tot_obj_global_transl, dim=0)
tot_obj_pcs = torch.cat(tot_obj_pcs, dim=0)
# obj_idx = tot_obj_idx[0].item()
return tot_obj_global_orient, tot_obj_global_transl, tot_obj_pcs
def get_base_pts_rhand_joints_from_data(data):
tot_base_pts = []
tot_rhand_joints = []
tot_base_normals = []
tot_gt_rhand_joints = []
tot_obj_rot = []
tot_obj_transl = []
for batch in data:
base_pts = batch['base_pts']
rhand_joints = batch['rhand_joints']
base_normals = batch['base_normals']
gt_rhand_joints = batch['gt_rhand_joints']
obj_rot = batch['obj_rot']
obj_transl = batch['obj_transl']
tot_base_pts.append(base_pts.detach().cpu())
tot_rhand_joints.append(rhand_joints.detach().cpu())
tot_base_normals.append(base_normals.detach().cpu())
tot_gt_rhand_joints.append(gt_rhand_joints.detach().cpu())
tot_obj_rot.append(obj_rot.detach().cpu())
tot_obj_transl.append(obj_transl.detach().cpu())
tot_base_pts = torch.cat(tot_base_pts, dim=0)
tot_rhand_joints = torch.cat(tot_rhand_joints, dim=0)
tot_base_normals = torch.cat(tot_base_normals, dim=0)
tot_gt_rhand_joints = torch.cat(tot_gt_rhand_joints, dim=0)
tot_obj_rot = torch.cat(tot_obj_rot, dim=0)
tot_obj_transl = torch.cat(tot_obj_transl, dim=0)
# tot_obj_idx = torch.cat(tot_obj_idx, dim=0)
# tot_obj_global_orient = torch.cat(tot_obj_global_orient, dim=0)
# tot_obj_global_transl = torch.cat(tot_obj_global_transl, dim=0)
# obj_idx = tot_obj_idx[0].item()
return tot_base_pts, tot_base_normals, tot_rhand_joints, tot_gt_rhand_joints, tot_obj_rot, tot_obj_transl
import time
def get_resplit_test_idxes():
test_split_mesh_nm_to_seq_idxes = "/home/xueyi/sim/motion-diffusion-model/test_mesh_nm_to_test_seqs.npy"
test_split_mesh_nm_to_seq_idxes = np.load(test_split_mesh_nm_to_seq_idxes, allow_pickle=True).item()
tot_test_seq_idxes = []
for tst_nm in test_split_mesh_nm_to_seq_idxes:
tot_test_seq_idxes = tot_test_seq_idxes + test_split_mesh_nm_to_seq_idxes[tst_nm]
return tot_test_seq_idxes
def get_arctic_seq_paths():
processed_arctic_root = "/data/datasets/genn/sim/arctic_processed_data/processed_seqs"
subj_folders = os.listdir(processed_arctic_root)
tot_arctic_seq_paths = []
tot_arctic_seq_tags = []
for cur_subj_folder in subj_folders:
full_cur_subj_folder = os.path.join(processed_arctic_root, cur_subj_folder)
cur_subj_seq_nms = os.listdir(full_cur_subj_folder)
cur_subj_seq_nms = [fn for fn in cur_subj_seq_nms if fn.endswith(".npy")]
for cur_subj_seq_nm in cur_subj_seq_nms:
full_seq_nm = os.path.join(full_cur_subj_folder, cur_subj_seq_nm)
tot_arctic_seq_paths.append(full_seq_nm)
cur_seq_tag = f"{cur_subj_folder}_{cur_subj_seq_nm.split('.')[0]}"
tot_arctic_seq_tags.append(cur_seq_tag)
return tot_arctic_seq_paths, tot_arctic_seq_tags
import pickle as pkl
# def main():
def predict_from_data(data_file):
args = train_args()
# fixseed(args.seed)
# dist_util.setup_dist(args.device)
# use_reverse = args.use_reverse
# os.makedirs(args.save_dir, exist_ok=True)
train_platform_type = eval(args.train_platform_type)
os.makedirs("./temp", exist_ok=True)
train_platform = train_platform_type("./temp")
train_platform.report_args(args, name='Args')
### get arg path ###
# args_path = os.path.join(args.save_dir, 'args.json')
# with open(args_path, 'w') as fw:
# json.dump(vars(args), fw, indent=4, sort_keys=True)
# tot_hho_seq_paths = [args.single_seq_path]
# tot_hho_seq_tags = ["test"]
args.model_path = "./ckpt/model001039000.pt"
single_seq_path = data_file
data_dict = pkl.load(open(single_seq_path, 'rb'))
data_hand_verts = data_dict['hand_verts']
nn_frames = data_hand_verts.shape[0]
nn_st_skip = 30
num_cleaning_frames = 60
num_ending_clearning_frames = nn_frames - num_cleaning_frames + 1
print(range(0, num_ending_clearning_frames, nn_st_skip))
st_idxes = list(range(0, num_ending_clearning_frames, nn_st_skip))
if st_idxes[-1] + num_cleaning_frames < nn_frames:
st_idxes.append(nn_frames - num_cleaning_frames)
print(f"st_idxes: {st_idxes}")
# for cur_seed in range(0, 122, 11):
cur_seed = 0
args.seed = cur_seed
st_idx_to_sv_dict = {}
for st_fr in st_idxes:
args.start_idx = st_fr
# random seeds #
args.predicted_info_fn = ""
# obj_sv_path = "/".join(args.single_seq_path.split("/")[:-1])
# # obj_name = args.single_seq_path.split("/")[-1].split("_")[0]
# obj_name = args.single_seq_path.split("/")[-1].split(".")[0]
# obj_mesh_fn = os.path.join(obj_sv_path, obj_name + ".obj") # object mesh file #
# print(f"loading from {obj_mesh_fn}") ## loading
# template_obj_vs, template_obj_fs = utils.read_obj_file_ours(obj_mesh_fn, sub_one=True)
# template_obj_fs = np.array(template_obj_fs, dtype=np.long)
# ## loaded the template obj
# print(f"Current sequence path: {args.single_seq_path}, seed: {args.seed}; Template obj loaded with verts: {template_obj_vs.shape}, template_obj_fs: {template_obj_fs.shape}")
## get dataest loader ##
### ==== DATA LOADER ==== ### # DATA loade r##
print("creating data loader...")
data = get_dataset_loader(name=args.dataset, batch_size=args.batch_size, num_frames=args.num_frames, args=args)
### ==== CREATE MODEL AND DIFFUSION MODEL ==== ### # create model and diffusion model #
# create model and diffusion #
print("creating model and diffusion...")
model, diffusion = create_model_and_diffusion(args, data)
# if ';' in args.model_path:
# print(f"Loading model with multiple activated settings from {args.model_path}")
# load_multiple_models_fr_path(args.model_path, model)
# else:
print(f"Loading model with single activated setting from {args.model_path}")
### ==== STATE DICT ==== ###
state_dict = torch.load(args.model_path, map_location='cpu')
load_model_wo_clip(model, state_dict) ## load model wihtout clip #
model.to(dist_util.dev())
model.eval()
try:
model.set_bn_to_eval()
except:
pass
### === GET object global orientation, translations from data === ### # get obj sequences from data #
tot_obj_global_orient, tot_obj_global_transl, tot_obj_pcs = get_obj_sequences_from_data(data) #
tot_base_pts, tot_base_normals, tot_rhand_joints, tot_gt_rhand_joints, tot_obj_rot, tot_obj_transl = get_base_pts_rhand_joints_from_data(data)
## predict_from_data
print('Total params: %.2fM' % (sum(p.numel() for p in model.parameters_wo_clip()) / 1000000.0))
# if args.diff_basejtse:
# # tot_dec_disp_e_along_normals, tot_dec_disp_e_vt_normals #
# tot_targets, tot_model_outputs, tot_st_idxes, tot_ed_idxes, tot_pert_verts, tot_verts, tot_dec_disp_e_along_normals, tot_dec_disp_e_vt_normals = TrainLoop(args, train_platform, model, diffusion, data).predict_from_data()
# else:
tot_targets, tot_model_outputs, tot_st_idxes, tot_ed_idxes, tot_pert_verts, tot_verts = TrainLoop(args, train_platform, model, diffusion, data).predict_from_data()
tot_dec_disp_e_along_normals = None
tot_dec_disp_e_vt_normals = None
# print(f"tot_st_idxes: {tot_st_idxes.size()}, tot_ed_idxes: {tot_ed_idxes.size()}")
## predict ours objbase ##
data_scale_factor = 1.0
# shoudl reture
n_batches = tot_targets.size(0)
full_targets = []
full_outputs = []
full_pert_verts = []
full_verts = []
full_dec_disp_e_along_normals = []
full_dec_disp_e_vt_normals = []
for i_b in range(n_batches):
cur_targets = tot_targets[i_b]
cur_outputs = tot_model_outputs[i_b]
cur_pert_verts = tot_pert_verts[i_b]
cur_verts = tot_verts[i_b]
cur_obj_orient = tot_obj_global_orient[i_b]
cur_obj_transl = tot_obj_global_transl[i_b]
if args.diff_basejtse:
cur_dec_disp_e_along_normals = tot_dec_disp_e_along_normals[i_b]
cur_dec_disp_e_vt_normals = tot_dec_disp_e_vt_normals[i_b]
cur_st_idxes = tot_st_idxes[i_b].item()
cur_ed_idxes = tot_ed_idxes[i_b].item()
cur_len_full_targets = len(full_targets)
for i_ins in range(cur_len_full_targets, cur_ed_idxes):
cur_ins_rel_idx = i_ins - cur_ed_idxes # negative index here
cur_ins_targets = cur_targets[cur_ins_rel_idx] / data_scale_factor
cur_ins_outputs = cur_outputs[cur_ins_rel_idx] / data_scale_factor
cur_ins_pert_verts = cur_pert_verts[cur_ins_rel_idx, ...]
cur_ins_verts = cur_verts[cur_ins_rel_idx, ...]
if args.diff_basejtse:
try:
full_dec_disp_e_along_normals.append(cur_dec_disp_e_along_normals[cur_ins_rel_idx].detach().cpu().numpy())
full_dec_disp_e_vt_normals.append(cur_dec_disp_e_vt_normals[cur_ins_rel_idx].detach().cpu().numpy())
except:
pass
full_targets.append(cur_ins_targets.detach().cpu().numpy())
full_outputs.append(cur_ins_outputs.detach().cpu().numpy())
full_pert_verts.append(cur_ins_pert_verts.detach().cpu().numpy())
full_verts.append(cur_ins_verts.detach().cpu().numpy())
## full targets ##
full_targets = np.stack(full_targets, axis=0)
full_outputs = np.stack(full_outputs, axis=0)
full_pert_verts = np.stack(full_pert_verts, axis=0)
full_verts = np.stack(full_verts, axis=0)
# full_obj_verts = np.stack(full_obj_verts, axis=0)
if args.diff_basejtse:
full_dec_disp_e_along_normals = np.stack(full_dec_disp_e_along_normals, axis=0)
full_dec_disp_e_vt_normals = np.stack(full_dec_disp_e_vt_normals, axis=0)
### transform them ###
if args.use_left:
tot_base_pts[..., -1] = tot_base_pts[..., -1] * -1.
tot_rhand_joints[..., -1] = tot_rhand_joints[..., -1] * -1.
full_outputs[..., -1] = full_outputs[..., -1] * -1.
full_targets[..., -1] = full_targets[..., -1] * -1.
# penetration resolving
sv_dict = {
'targets': full_targets,
'outputs': full_outputs,
'pert_verts': full_pert_verts,
'verts': full_verts,
'tot_base_pts': tot_base_pts.numpy() / data_scale_factor, ## total base pts ##
'tot_rhand_joints': tot_rhand_joints.numpy() / data_scale_factor,
'tot_base_normals': tot_base_normals.numpy(),
'tot_gt_rhand_joints': tot_gt_rhand_joints.numpy() / data_scale_factor,
'tot_obj_rot': tot_obj_rot.numpy(), # ws x 3 x 3 #
'tot_obj_transl': tot_obj_transl.numpy(), # ws x 3 #
'tot_obj_pcs': tot_obj_pcs.detach().cpu().numpy(),
# 'template_obj_fs': template_obj_fs,
}
# if args.diff_basejtse:
# dec_e_dict = {
# 'dec_disp_e_along_normals': full_dec_disp_e_along_normals,
# 'dec_disp_e_vt_normals': full_dec_disp_e_vt_normals,
# }
# sv_dict.update(dec_e_dict)
# e_dict_sv_fn = os.path.join(args.save_dir, "e_predicted_infos.npy")
# np.save(e_dict_sv_fn, dec_e_dict)
# print(f"e dict ssaved to {e_dict_sv_fn}")
# # else:
# sv_predicted_info_fn = f"predicted_infos_seed_{args.seed}_tag_{args.test_tag}_st_{args.start_idx}.npy"
# sv_dict_sv_fn = os.path.join(args.save_dir, sv_predicted_info_fn)
# np.save(sv_dict_sv_fn, sv_dict)
# print(f"Predicted infos saved to {sv_dict_sv_fn}")
st_idx_to_sv_dict[st_fr] = sv_dict
train_platform.close()
return st_idx_to_sv_dict
# if __name__ == "__main__":
# main()
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