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import os |
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import pickle |
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import math |
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import shutil |
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import numpy as np |
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import lmdb as lmdb |
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import textgrid as tg |
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import pandas as pd |
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import torch |
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import glob |
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import json |
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from termcolor import colored |
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from loguru import logger |
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from collections import defaultdict |
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from torch.utils.data import Dataset |
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import torch.distributed as dist |
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import pyarrow |
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import librosa |
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import smplx |
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from .build_vocab import Vocab |
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from .utils.audio_features import Wav2Vec2Model |
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from .data_tools import joints_list |
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from .utils import rotation_conversions as rc |
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from .utils import other_tools |
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class CustomDataset(Dataset): |
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def __init__(self, args, loader_type, augmentation=None, kwargs=None, build_cache=True): |
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self.args = args |
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self.loader_type = loader_type |
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|
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self.rank = dist.get_rank() |
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self.ori_stride = self.args.stride |
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self.ori_length = self.args.pose_length |
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self.alignment = [0,0] |
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|
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self.ori_joint_list = joints_list[self.args.ori_joints] |
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self.tar_joint_list = joints_list[self.args.tar_joints] |
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if 'smplx' in self.args.pose_rep: |
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self.joint_mask = np.zeros(len(list(self.ori_joint_list.keys()))*3) |
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self.joints = len(list(self.tar_joint_list.keys())) |
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for joint_name in self.tar_joint_list: |
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self.joint_mask[self.ori_joint_list[joint_name][1] - self.ori_joint_list[joint_name][0]:self.ori_joint_list[joint_name][1]] = 1 |
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else: |
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self.joints = len(list(self.ori_joint_list.keys()))+1 |
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self.joint_mask = np.zeros(self.joints*3) |
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for joint_name in self.tar_joint_list: |
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if joint_name == "Hips": |
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self.joint_mask[3:6] = 1 |
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else: |
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self.joint_mask[self.ori_joint_list[joint_name][1] - self.ori_joint_list[joint_name][0]:self.ori_joint_list[joint_name][1]] = 1 |
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self.smplx = smplx.create( |
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self.args.data_path_1+"smplx_models/", |
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model_type='smplx', |
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gender='NEUTRAL_2020', |
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use_face_contour=False, |
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num_betas=300, |
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num_expression_coeffs=100, |
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ext='npz', |
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use_pca=False, |
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).cuda().eval() |
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split_rule = pd.read_csv(args.data_path+"test.csv") |
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self.selected_file = split_rule |
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self.data_dir = args.data_path |
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|
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if loader_type == "test": |
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self.args.multi_length_training = [1.0] |
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self.max_length = int(args.pose_length * self.args.multi_length_training[-1]) |
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self.max_audio_pre_len = math.floor(args.pose_length / args.pose_fps * self.args.audio_sr) |
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if self.max_audio_pre_len > self.args.test_length*self.args.audio_sr: |
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self.max_audio_pre_len = self.args.test_length*self.args.audio_sr |
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if args.word_rep is not None: |
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with open(f"{args.data_path}weights/vocab.pkl", 'rb') as f: |
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self.lang_model = pickle.load(f) |
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preloaded_dir = self.args.root_path + self.args.cache_path + loader_type + f"/{args.pose_rep}_cache" |
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if build_cache and self.rank == 0: |
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self.build_cache(preloaded_dir) |
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self.lmdb_env = lmdb.open(preloaded_dir, readonly=True, lock=False) |
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with self.lmdb_env.begin() as txn: |
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self.n_samples = txn.stat()["entries"] |
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def build_cache(self, preloaded_dir): |
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logger.info(f"Audio bit rate: {self.args.audio_fps}") |
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logger.info("Reading data '{}'...".format(self.data_dir)) |
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logger.info("Creating the dataset cache...") |
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if self.args.new_cache: |
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if os.path.exists(preloaded_dir): |
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shutil.rmtree(preloaded_dir) |
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if os.path.exists(preloaded_dir): |
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logger.info("Found the cache {}".format(preloaded_dir)) |
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elif self.loader_type == "test": |
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self.cache_generation( |
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preloaded_dir, True, |
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0, 0, |
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is_test=True) |
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else: |
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self.cache_generation( |
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preloaded_dir, self.args.disable_filtering, |
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self.args.clean_first_seconds, self.args.clean_final_seconds, |
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is_test=False) |
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def __len__(self): |
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return self.n_samples |
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def cache_generation(self, out_lmdb_dir, disable_filtering, clean_first_seconds, clean_final_seconds, is_test=False): |
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self.n_out_samples = 0 |
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if not os.path.exists(out_lmdb_dir): os.makedirs(out_lmdb_dir) |
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if len(self.args.training_speakers) == 1: |
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dst_lmdb_env = lmdb.open(out_lmdb_dir, map_size= int(1024 ** 3 * 50)) |
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else: |
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dst_lmdb_env = lmdb.open(out_lmdb_dir, map_size= int(1024 ** 3 * 200)) |
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n_filtered_out = defaultdict(int) |
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|
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for index, file_name in self.selected_file.iterrows(): |
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f_name = file_name["id"] |
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ext = ".npz" if "smplx" in self.args.pose_rep else ".bvh" |
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pose_file = self.data_dir + self.args.pose_rep + "/" + f_name + ext |
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pose_each_file = [] |
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trans_each_file = [] |
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shape_each_file = [] |
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audio_each_file = [] |
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facial_each_file = [] |
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word_each_file = [] |
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emo_each_file = [] |
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sem_each_file = [] |
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vid_each_file = [] |
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id_pose = f_name |
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|
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logger.info(colored(f"# ---- Building cache for Pose {id_pose} ---- #", "blue")) |
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if "smplx" in self.args.pose_rep: |
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pose_data = np.load(pose_file, allow_pickle=True) |
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assert 30%self.args.pose_fps == 0, 'pose_fps should be an aliquot part of 30' |
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stride = int(30/self.args.pose_fps) |
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pose_each_file = pose_data["poses"][::stride] |
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trans_each_file = pose_data["trans"][::stride] |
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shape_each_file = np.repeat(pose_data["betas"].reshape(1, 300), pose_each_file.shape[0], axis=0) |
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assert self.args.pose_fps == 30, "should 30" |
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m_data = np.load(pose_file, allow_pickle=True) |
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betas, poses, trans, exps = m_data["betas"], m_data["poses"], m_data["trans"], m_data["expressions"] |
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n, c = poses.shape[0], poses.shape[1] |
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betas = betas.reshape(1, 300) |
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betas = np.tile(betas, (n, 1)) |
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betas = torch.from_numpy(betas).cuda().float() |
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poses = torch.from_numpy(poses.reshape(n, c)).cuda().float() |
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exps = torch.from_numpy(exps.reshape(n, 100)).cuda().float() |
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trans = torch.from_numpy(trans.reshape(n, 3)).cuda().float() |
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max_length = 128 |
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s, r = n//max_length, n%max_length |
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all_tensor = [] |
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for i in range(s): |
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with torch.no_grad(): |
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joints = self.smplx( |
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betas=betas[i*max_length:(i+1)*max_length], |
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transl=trans[i*max_length:(i+1)*max_length], |
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expression=exps[i*max_length:(i+1)*max_length], |
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jaw_pose=poses[i*max_length:(i+1)*max_length, 66:69], |
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global_orient=poses[i*max_length:(i+1)*max_length,:3], |
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body_pose=poses[i*max_length:(i+1)*max_length,3:21*3+3], |
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left_hand_pose=poses[i*max_length:(i+1)*max_length,25*3:40*3], |
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right_hand_pose=poses[i*max_length:(i+1)*max_length,40*3:55*3], |
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return_verts=True, |
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return_joints=True, |
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leye_pose=poses[i*max_length:(i+1)*max_length, 69:72], |
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reye_pose=poses[i*max_length:(i+1)*max_length, 72:75], |
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)['joints'][:, (7,8,10,11), :].reshape(max_length, 4, 3).cpu() |
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all_tensor.append(joints) |
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if r != 0: |
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with torch.no_grad(): |
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joints = self.smplx( |
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betas=betas[s*max_length:s*max_length+r], |
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transl=trans[s*max_length:s*max_length+r], |
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expression=exps[s*max_length:s*max_length+r], |
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jaw_pose=poses[s*max_length:s*max_length+r, 66:69], |
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global_orient=poses[s*max_length:s*max_length+r,:3], |
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body_pose=poses[s*max_length:s*max_length+r,3:21*3+3], |
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left_hand_pose=poses[s*max_length:s*max_length+r,25*3:40*3], |
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right_hand_pose=poses[s*max_length:s*max_length+r,40*3:55*3], |
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return_verts=True, |
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return_joints=True, |
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leye_pose=poses[s*max_length:s*max_length+r, 69:72], |
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reye_pose=poses[s*max_length:s*max_length+r, 72:75], |
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)['joints'][:, (7,8,10,11), :].reshape(r, 4, 3).cpu() |
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all_tensor.append(joints) |
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joints = torch.cat(all_tensor, axis=0) |
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feetv = torch.zeros(joints.shape[1], joints.shape[0]) |
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joints = joints.permute(1, 0, 2) |
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feetv[:, :-1] = (joints[:, 1:] - joints[:, :-1]).norm(dim=-1) |
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contacts = (feetv < 0.01).numpy().astype(float) |
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contacts = contacts.transpose(1, 0) |
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pose_each_file = pose_each_file * self.joint_mask |
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pose_each_file = pose_each_file[:, self.joint_mask.astype(bool)] |
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pose_each_file = np.concatenate([pose_each_file, contacts], axis=1) |
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if self.args.facial_rep is not None: |
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logger.info(f"# ---- Building cache for Facial {id_pose} and Pose {id_pose} ---- #") |
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facial_each_file = pose_data["expressions"][::stride] |
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if self.args.facial_norm: |
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facial_each_file = (facial_each_file - self.mean_facial) / self.std_facial |
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else: |
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assert 120%self.args.pose_fps == 0, 'pose_fps should be an aliquot part of 120' |
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stride = int(120/self.args.pose_fps) |
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with open(pose_file, "r") as pose_data: |
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for j, line in enumerate(pose_data.readlines()): |
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if j < 431: continue |
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if j%stride != 0:continue |
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data = np.fromstring(line, dtype=float, sep=" ") |
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rot_data = rc.euler_angles_to_matrix(torch.from_numpy(np.deg2rad(data)).reshape(-1, self.joints,3), "XYZ") |
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rot_data = rc.matrix_to_axis_angle(rot_data).reshape(-1, self.joints*3) |
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rot_data = rot_data.numpy() * self.joint_mask |
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pose_each_file.append(rot_data) |
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trans_each_file.append(data[:3]) |
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pose_each_file = np.array(pose_each_file) |
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trans_each_file = np.array(trans_each_file) |
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shape_each_file = np.repeat(np.array(-1).reshape(1, 1), pose_each_file.shape[0], axis=0) |
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if self.args.facial_rep is not None: |
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logger.info(f"# ---- Building cache for Facial {id_pose} and Pose {id_pose} ---- #") |
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facial_file = pose_file.replace(self.args.pose_rep, self.args.facial_rep).replace("bvh", "json") |
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assert 60%self.args.pose_fps == 0, 'pose_fps should be an aliquot part of 120' |
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stride = int(60/self.args.pose_fps) |
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if not os.path.exists(facial_file): |
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logger.warning(f"# ---- file not found for Facial {id_pose}, skip all files with the same id ---- #") |
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self.selected_file = self.selected_file.drop(self.selected_file[self.selected_file['id'] == id_pose].index) |
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continue |
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with open(facial_file, 'r') as facial_data_file: |
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facial_data = json.load(facial_data_file) |
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for j, frame_data in enumerate(facial_data['frames']): |
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if j%stride != 0:continue |
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facial_each_file.append(frame_data['weights']) |
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facial_each_file = np.array(facial_each_file) |
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if self.args.facial_norm: |
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facial_each_file = (facial_each_file - self.mean_facial) / self.std_facial |
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if self.args.id_rep is not None: |
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int_value = 1 |
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vid_each_file = np.repeat(np.array(int_value).reshape(1, 1), pose_each_file.shape[0], axis=0) |
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if self.args.audio_rep is not None: |
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logger.info(f"# ---- Building cache for Audio {id_pose} and Pose {id_pose} ---- #") |
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audio_file = pose_file.replace(self.args.pose_rep, 'wave16k').replace(ext, ".wav") |
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if not os.path.exists(audio_file): |
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logger.warning(f"# ---- file not found for Audio {id_pose}, skip all files with the same id ---- #") |
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self.selected_file = self.selected_file.drop(self.selected_file[self.selected_file['id'] == id_pose].index) |
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continue |
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audio_each_file, sr = librosa.load(audio_file) |
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audio_each_file = librosa.resample(audio_each_file, orig_sr=sr, target_sr=self.args.audio_sr) |
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if self.args.audio_rep == "onset+amplitude": |
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from numpy.lib import stride_tricks |
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frame_length = 1024 |
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shape = (audio_each_file.shape[-1] - frame_length + 1, frame_length) |
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strides = (audio_each_file.strides[-1], audio_each_file.strides[-1]) |
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rolling_view = stride_tricks.as_strided(audio_each_file, shape=shape, strides=strides) |
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amplitude_envelope = np.max(np.abs(rolling_view), axis=1) |
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amplitude_envelope = np.pad(amplitude_envelope, (0, frame_length-1), mode='constant', constant_values=amplitude_envelope[-1]) |
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audio_onset_f = librosa.onset.onset_detect(y=audio_each_file, sr=self.args.audio_sr, units='frames') |
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onset_array = np.zeros(len(audio_each_file), dtype=float) |
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onset_array[audio_onset_f] = 1.0 |
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audio_each_file = np.concatenate([amplitude_envelope.reshape(-1, 1), onset_array.reshape(-1, 1)], axis=1) |
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elif self.args.audio_rep == "mfcc": |
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audio_each_file = librosa.feature.melspectrogram(y=audio_each_file, sr=self.args.audio_sr, n_mels=128, hop_length=int(self.args.audio_sr/self.args.audio_fps)) |
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audio_each_file = audio_each_file.transpose(1, 0) |
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if self.args.audio_norm and self.args.audio_rep == "wave16k": |
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audio_each_file = (audio_each_file - self.mean_audio) / self.std_audio |
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time_offset = 0 |
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if self.args.word_rep is not None: |
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logger.info(f"# ---- Building cache for Word {id_pose} and Pose {id_pose} ---- #") |
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word_file = f"{self.data_dir}{self.args.word_rep}/{id_pose}.TextGrid" |
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if not os.path.exists(word_file): |
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logger.warning(f"# ---- file not found for Word {id_pose}, skip all files with the same id ---- #") |
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self.selected_file = self.selected_file.drop(self.selected_file[self.selected_file['id'] == id_pose].index) |
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continue |
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tgrid = tg.TextGrid.fromFile(word_file) |
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if self.args.t_pre_encoder == "bert": |
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from transformers import AutoTokenizer, BertModel |
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tokenizer = AutoTokenizer.from_pretrained(self.args.data_path_1 + "hub/bert-base-uncased", local_files_only=True) |
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model = BertModel.from_pretrained(self.args.data_path_1 + "hub/bert-base-uncased", local_files_only=True).eval() |
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list_word = [] |
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all_hidden = [] |
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max_len = 400 |
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last = 0 |
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word_token_mapping = [] |
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first = True |
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for i, word in enumerate(tgrid[0]): |
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last = i |
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if (i%max_len != 0) or (i==0): |
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if word.mark == "": |
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list_word.append(".") |
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else: |
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list_word.append(word.mark) |
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else: |
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max_counter = max_len |
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str_word = ' '.join(map(str, list_word)) |
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if first: |
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global_len = 0 |
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end = -1 |
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offset_word = [] |
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for k, wordvalue in enumerate(list_word): |
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start = end+1 |
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end = start+len(wordvalue) |
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offset_word.append((start, end)) |
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token_scan = tokenizer.encode_plus(str_word, return_offsets_mapping=True)['offset_mapping'] |
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|
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for start, end in offset_word: |
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sub_mapping = [] |
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for i, (start_t, end_t) in enumerate(token_scan[1:-1]): |
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if int(start) <= int(start_t) and int(end_t) <= int(end): |
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sub_mapping.append(i+global_len) |
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word_token_mapping.append(sub_mapping) |
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|
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global_len = word_token_mapping[-1][-1] + 1 |
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list_word = [] |
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if word.mark == "": |
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list_word.append(".") |
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else: |
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list_word.append(word.mark) |
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|
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with torch.no_grad(): |
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inputs = tokenizer(str_word, return_tensors="pt") |
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outputs = model(**inputs) |
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last_hidden_states = outputs.last_hidden_state.reshape(-1, 768).cpu().numpy()[1:-1, :] |
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all_hidden.append(last_hidden_states) |
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|
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|
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if list_word == []: |
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pass |
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else: |
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if first: |
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global_len = 0 |
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str_word = ' '.join(map(str, list_word)) |
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end = -1 |
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offset_word = [] |
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for k, wordvalue in enumerate(list_word): |
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start = end+1 |
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end = start+len(wordvalue) |
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offset_word.append((start, end)) |
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|
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token_scan = tokenizer.encode_plus(str_word, return_offsets_mapping=True)['offset_mapping'] |
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|
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for start, end in offset_word: |
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sub_mapping = [] |
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for i, (start_t, end_t) in enumerate(token_scan[1:-1]): |
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if int(start) <= int(start_t) and int(end_t) <= int(end): |
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sub_mapping.append(i+global_len) |
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|
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word_token_mapping.append(sub_mapping) |
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|
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with torch.no_grad(): |
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inputs = tokenizer(str_word, return_tensors="pt") |
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outputs = model(**inputs) |
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last_hidden_states = outputs.last_hidden_state.reshape(-1, 768).cpu().numpy()[1:-1, :] |
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all_hidden.append(last_hidden_states) |
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last_hidden_states = np.concatenate(all_hidden, axis=0) |
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|
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for i in range(pose_each_file.shape[0]): |
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found_flag = False |
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current_time = i/self.args.pose_fps + time_offset |
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j_last = 0 |
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for j, word in enumerate(tgrid[0]): |
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word_n, word_s, word_e = word.mark, word.minTime, word.maxTime |
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if word_s<=current_time and current_time<=word_e: |
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if self.args.word_cache and self.args.t_pre_encoder == 'bert': |
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mapping_index = word_token_mapping[j] |
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|
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s_t = np.linspace(word_s, word_e, len(mapping_index)+1) |
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|
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for tt, t_sep in enumerate(s_t[1:]): |
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if current_time <= t_sep: |
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|
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word_each_file.append(last_hidden_states[mapping_index[tt]]) |
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break |
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else: |
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if word_n == " ": |
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word_each_file.append(self.lang_model.PAD_token) |
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else: |
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word_each_file.append(self.lang_model.get_word_index(word_n)) |
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found_flag = True |
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j_last = j |
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break |
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else: continue |
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if not found_flag: |
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if self.args.word_cache and self.args.t_pre_encoder == 'bert': |
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word_each_file.append(last_hidden_states[j_last]) |
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else: |
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word_each_file.append(self.lang_model.UNK_token) |
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word_each_file = np.array(word_each_file) |
|
|
|
|
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if self.args.emo_rep is not None: |
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logger.info(f"# ---- Building cache for Emo {id_pose} and Pose {id_pose} ---- #") |
|
rtype, start = int(id_pose.split('_')[3]), int(id_pose.split('_')[3]) |
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if rtype == 0 or rtype == 2 or rtype == 4 or rtype == 6: |
|
if start >= 1 and start <= 64: |
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score = 0 |
|
elif start >= 65 and start <= 72: |
|
score = 1 |
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elif start >= 73 and start <= 80: |
|
score = 2 |
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elif start >= 81 and start <= 86: |
|
score = 3 |
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elif start >= 87 and start <= 94: |
|
score = 4 |
|
elif start >= 95 and start <= 102: |
|
score = 5 |
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elif start >= 103 and start <= 110: |
|
score = 6 |
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elif start >= 111 and start <= 118: |
|
score = 7 |
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else: pass |
|
else: |
|
|
|
score = 0 |
|
emo_each_file = np.repeat(np.array(score).reshape(1, 1), pose_each_file.shape[0], axis=0) |
|
|
|
|
|
if self.args.sem_rep is not None: |
|
logger.info(f"# ---- Building cache for Sem {id_pose} and Pose {id_pose} ---- #") |
|
sem_file = f"{self.data_dir}{self.args.sem_rep}/{id_pose}.txt" |
|
sem_all = pd.read_csv(sem_file, |
|
sep='\t', |
|
names=["name", "start_time", "end_time", "duration", "score", "keywords"]) |
|
|
|
for i in range(pose_each_file.shape[0]): |
|
found_flag = False |
|
for j, (start, end, score) in enumerate(zip(sem_all['start_time'],sem_all['end_time'], sem_all['score'])): |
|
current_time = i/self.args.pose_fps + time_offset |
|
if start<=current_time and current_time<=end: |
|
sem_each_file.append(score) |
|
found_flag=True |
|
break |
|
else: continue |
|
if not found_flag: sem_each_file.append(0.) |
|
sem_each_file = np.array(sem_each_file) |
|
|
|
|
|
filtered_result = self._sample_from_clip( |
|
dst_lmdb_env, |
|
audio_each_file, pose_each_file, trans_each_file, shape_each_file, facial_each_file, word_each_file, |
|
vid_each_file, emo_each_file, sem_each_file, |
|
disable_filtering, clean_first_seconds, clean_final_seconds, is_test, |
|
) |
|
for type in filtered_result.keys(): |
|
n_filtered_out[type] += filtered_result[type] |
|
|
|
with dst_lmdb_env.begin() as txn: |
|
logger.info(colored(f"no. of samples: {txn.stat()['entries']}", "cyan")) |
|
n_total_filtered = 0 |
|
for type, n_filtered in n_filtered_out.items(): |
|
logger.info("{}: {}".format(type, n_filtered)) |
|
n_total_filtered += n_filtered |
|
logger.info(colored("no. of excluded samples: {} ({:.1f}%)".format( |
|
n_total_filtered, 100 * n_total_filtered / (txn.stat()["entries"] + n_total_filtered)), "cyan")) |
|
dst_lmdb_env.sync() |
|
dst_lmdb_env.close() |
|
|
|
def _sample_from_clip( |
|
self, dst_lmdb_env, audio_each_file, pose_each_file, trans_each_file, shape_each_file, facial_each_file, word_each_file, |
|
vid_each_file, emo_each_file, sem_each_file, |
|
disable_filtering, clean_first_seconds, clean_final_seconds, is_test, |
|
): |
|
""" |
|
for data cleaning, we ignore the data for first and final n s |
|
for test, we return all data |
|
""" |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
round_seconds_skeleton = pose_each_file.shape[0] // self.args.pose_fps |
|
|
|
if audio_each_file != []: |
|
if self.args.audio_rep != "wave16k": |
|
round_seconds_audio = len(audio_each_file) // self.args.audio_fps |
|
elif self.args.audio_rep == "mfcc": |
|
round_seconds_audio = audio_each_file.shape[0] // self.args.audio_fps |
|
else: |
|
round_seconds_audio = audio_each_file.shape[0] // self.args.audio_sr |
|
if facial_each_file != []: |
|
round_seconds_facial = facial_each_file.shape[0] // self.args.pose_fps |
|
logger.info(f"audio: {round_seconds_audio}s, pose: {round_seconds_skeleton}s, facial: {round_seconds_facial}s") |
|
round_seconds_skeleton = min(round_seconds_audio, round_seconds_skeleton, round_seconds_facial) |
|
max_round = max(round_seconds_audio, round_seconds_skeleton, round_seconds_facial) |
|
if round_seconds_skeleton != max_round: |
|
logger.warning(f"reduce to {round_seconds_skeleton}s, ignore {max_round-round_seconds_skeleton}s") |
|
else: |
|
logger.info(f"pose: {round_seconds_skeleton}s, audio: {round_seconds_audio}s") |
|
round_seconds_skeleton = min(round_seconds_audio, round_seconds_skeleton) |
|
max_round = max(round_seconds_audio, round_seconds_skeleton) |
|
if round_seconds_skeleton != max_round: |
|
logger.warning(f"reduce to {round_seconds_skeleton}s, ignore {max_round-round_seconds_skeleton}s") |
|
|
|
clip_s_t, clip_e_t = clean_first_seconds, round_seconds_skeleton - clean_final_seconds |
|
clip_s_f_audio, clip_e_f_audio = self.args.audio_fps * clip_s_t, clip_e_t * self.args.audio_fps |
|
clip_s_f_pose, clip_e_f_pose = clip_s_t * self.args.pose_fps, clip_e_t * self.args.pose_fps |
|
|
|
|
|
for ratio in self.args.multi_length_training: |
|
if is_test: |
|
cut_length = clip_e_f_pose - clip_s_f_pose |
|
self.args.stride = cut_length |
|
self.max_length = cut_length |
|
else: |
|
self.args.stride = int(ratio*self.ori_stride) |
|
cut_length = int(self.ori_length*ratio) |
|
|
|
num_subdivision = math.floor((clip_e_f_pose - clip_s_f_pose - cut_length) / self.args.stride) + 1 |
|
logger.info(f"pose from frame {clip_s_f_pose} to {clip_e_f_pose}, length {cut_length}") |
|
logger.info(f"{num_subdivision} clips is expected with stride {self.args.stride}") |
|
|
|
if audio_each_file != []: |
|
audio_short_length = math.floor(cut_length / self.args.pose_fps * self.args.audio_fps) |
|
""" |
|
for audio sr = 16000, fps = 15, pose_length = 34, |
|
audio short length = 36266.7 -> 36266 |
|
this error is fine. |
|
""" |
|
logger.info(f"audio from frame {clip_s_f_audio} to {clip_e_f_audio}, length {audio_short_length}") |
|
|
|
n_filtered_out = defaultdict(int) |
|
sample_pose_list = [] |
|
sample_audio_list = [] |
|
sample_facial_list = [] |
|
sample_shape_list = [] |
|
sample_word_list = [] |
|
sample_emo_list = [] |
|
sample_sem_list = [] |
|
sample_vid_list = [] |
|
sample_trans_list = [] |
|
|
|
for i in range(num_subdivision): |
|
start_idx = clip_s_f_pose + i * self.args.stride |
|
fin_idx = start_idx + cut_length |
|
sample_pose = pose_each_file[start_idx:fin_idx] |
|
|
|
sample_trans = trans_each_file[start_idx:fin_idx] |
|
sample_shape = shape_each_file[start_idx:fin_idx] |
|
|
|
if self.args.audio_rep is not None: |
|
audio_start = clip_s_f_audio + math.floor(i * self.args.stride * self.args.audio_fps / self.args.pose_fps) |
|
audio_end = audio_start + audio_short_length |
|
sample_audio = audio_each_file[audio_start:audio_end] |
|
else: |
|
sample_audio = np.array([-1]) |
|
sample_facial = facial_each_file[start_idx:fin_idx] if self.args.facial_rep is not None else np.array([-1]) |
|
sample_word = word_each_file[start_idx:fin_idx] if self.args.word_rep is not None else np.array([-1]) |
|
sample_emo = emo_each_file[start_idx:fin_idx] if self.args.emo_rep is not None else np.array([-1]) |
|
sample_sem = sem_each_file[start_idx:fin_idx] if self.args.sem_rep is not None else np.array([-1]) |
|
sample_vid = vid_each_file[start_idx:fin_idx] if self.args.id_rep is not None else np.array([-1]) |
|
|
|
if sample_pose.any() != None: |
|
|
|
sample_pose, filtering_message = MotionPreprocessor(sample_pose).get() |
|
is_correct_motion = (sample_pose != []) |
|
if is_correct_motion or disable_filtering: |
|
sample_pose_list.append(sample_pose) |
|
sample_audio_list.append(sample_audio) |
|
sample_facial_list.append(sample_facial) |
|
sample_shape_list.append(sample_shape) |
|
sample_word_list.append(sample_word) |
|
sample_vid_list.append(sample_vid) |
|
sample_emo_list.append(sample_emo) |
|
sample_sem_list.append(sample_sem) |
|
sample_trans_list.append(sample_trans) |
|
else: |
|
n_filtered_out[filtering_message] += 1 |
|
|
|
if len(sample_pose_list) > 0: |
|
with dst_lmdb_env.begin(write=True) as txn: |
|
for pose, audio, facial, shape, word, vid, emo, sem, trans in zip( |
|
sample_pose_list, |
|
sample_audio_list, |
|
sample_facial_list, |
|
sample_shape_list, |
|
sample_word_list, |
|
sample_vid_list, |
|
sample_emo_list, |
|
sample_sem_list, |
|
sample_trans_list,): |
|
k = "{:005}".format(self.n_out_samples).encode("ascii") |
|
v = [pose, audio, facial, shape, word, emo, sem, vid, trans] |
|
v = pyarrow.serialize(v).to_buffer() |
|
txn.put(k, v) |
|
self.n_out_samples += 1 |
|
return n_filtered_out |
|
|
|
def __getitem__(self, idx): |
|
with self.lmdb_env.begin(write=False) as txn: |
|
key = "{:005}".format(idx).encode("ascii") |
|
sample = txn.get(key) |
|
sample = pyarrow.deserialize(sample) |
|
tar_pose, in_audio, in_facial, in_shape, in_word, emo, sem, vid, trans = sample |
|
|
|
|
|
emo = torch.from_numpy(emo).int() |
|
sem = torch.from_numpy(sem).float() |
|
in_audio = torch.from_numpy(in_audio).float() |
|
in_word = torch.from_numpy(in_word).float() if self.args.word_cache else torch.from_numpy(in_word).int() |
|
if self.loader_type == "test": |
|
tar_pose = torch.from_numpy(tar_pose).float() |
|
trans = torch.from_numpy(trans).float() |
|
in_facial = torch.from_numpy(in_facial).float() |
|
vid = torch.from_numpy(vid).float() |
|
in_shape = torch.from_numpy(in_shape).float() |
|
else: |
|
in_shape = torch.from_numpy(in_shape).reshape((in_shape.shape[0], -1)).float() |
|
trans = torch.from_numpy(trans).reshape((trans.shape[0], -1)).float() |
|
vid = torch.from_numpy(vid).reshape((vid.shape[0], -1)).float() |
|
tar_pose = torch.from_numpy(tar_pose).reshape((tar_pose.shape[0], -1)).float() |
|
in_facial = torch.from_numpy(in_facial).reshape((in_facial.shape[0], -1)).float() |
|
return {"pose":tar_pose, "audio":in_audio, "facial":in_facial, "beta": in_shape, "word":in_word, "id":vid, "emo":emo, "sem":sem, "trans":trans} |
|
|
|
|
|
class MotionPreprocessor: |
|
def __init__(self, skeletons): |
|
self.skeletons = skeletons |
|
|
|
self.filtering_message = "PASS" |
|
|
|
def get(self): |
|
assert (self.skeletons is not None) |
|
|
|
|
|
if self.skeletons != []: |
|
if self.check_pose_diff(): |
|
self.skeletons = [] |
|
self.filtering_message = "pose" |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
return self.skeletons, self.filtering_message |
|
|
|
def check_static_motion(self, verbose=True): |
|
def get_variance(skeleton, joint_idx): |
|
wrist_pos = skeleton[:, joint_idx] |
|
variance = np.sum(np.var(wrist_pos, axis=0)) |
|
return variance |
|
|
|
left_arm_var = get_variance(self.skeletons, 6) |
|
right_arm_var = get_variance(self.skeletons, 9) |
|
|
|
th = 0.0014 |
|
|
|
if left_arm_var < th and right_arm_var < th: |
|
if verbose: |
|
print("skip - check_static_motion left var {}, right var {}".format(left_arm_var, right_arm_var)) |
|
return True |
|
else: |
|
if verbose: |
|
print("pass - check_static_motion left var {}, right var {}".format(left_arm_var, right_arm_var)) |
|
return False |
|
|
|
|
|
def check_pose_diff(self, verbose=False): |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
return False |
|
|
|
|
|
def check_spine_angle(self, verbose=True): |
|
def angle_between(v1, v2): |
|
v1_u = v1 / np.linalg.norm(v1) |
|
v2_u = v2 / np.linalg.norm(v2) |
|
return np.arccos(np.clip(np.dot(v1_u, v2_u), -1.0, 1.0)) |
|
|
|
angles = [] |
|
for i in range(self.skeletons.shape[0]): |
|
spine_vec = self.skeletons[i, 1] - self.skeletons[i, 0] |
|
angle = angle_between(spine_vec, [0, -1, 0]) |
|
angles.append(angle) |
|
|
|
if np.rad2deg(max(angles)) > 30 or np.rad2deg(np.mean(angles)) > 20: |
|
|
|
if verbose: |
|
print("skip - check_spine_angle {:.5f}, {:.5f}".format(max(angles), np.mean(angles))) |
|
return True |
|
else: |
|
if verbose: |
|
print("pass - check_spine_angle {:.5f}".format(max(angles))) |
|
return False |