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from os.path import join as pjoin |
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from typing import Union |
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import numpy as np |
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import os |
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from utils.quaternion import * |
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from utils.skeleton import Skeleton |
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from utils.paramUtil import * |
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import torch |
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from tqdm import tqdm |
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def uniform_skeleton(positions, target_offset): |
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src_skel = Skeleton(n_raw_offsets, kinematic_chain, 'cpu') |
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src_offset = src_skel.get_offsets_joints(torch.from_numpy(positions[0])) |
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src_offset = src_offset.numpy() |
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tgt_offset = target_offset.numpy() |
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'''Calculate Scale Ratio as the ratio of legs''' |
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src_leg_len = np.abs(src_offset[l_idx1]).max() + np.abs(src_offset[l_idx2]).max() |
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tgt_leg_len = np.abs(tgt_offset[l_idx1]).max() + np.abs(tgt_offset[l_idx2]).max() |
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scale_rt = tgt_leg_len / src_leg_len |
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src_root_pos = positions[:, 0] |
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tgt_root_pos = src_root_pos * scale_rt |
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'''Inverse Kinematics''' |
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quat_params = src_skel.inverse_kinematics_np(positions, face_joint_indx) |
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'''Forward Kinematics''' |
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src_skel.set_offset(target_offset) |
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new_joints = src_skel.forward_kinematics_np(quat_params, tgt_root_pos) |
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return new_joints |
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def extract_features(positions, feet_thre, n_raw_offsets, kinematic_chain, face_joint_indx, fid_r, fid_l): |
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global_positions = positions.copy() |
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""" Get Foot Contacts """ |
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def foot_detect(positions, thres): |
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velfactor, heightfactor = np.array([thres, thres]), np.array([3.0, 2.0]) |
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feet_l_x = (positions[1:, fid_l, 0] - positions[:-1, fid_l, 0]) ** 2 |
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feet_l_y = (positions[1:, fid_l, 1] - positions[:-1, fid_l, 1]) ** 2 |
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feet_l_z = (positions[1:, fid_l, 2] - positions[:-1, fid_l, 2]) ** 2 |
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feet_l = ((feet_l_x + feet_l_y + feet_l_z) < velfactor).astype(np.float) |
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feet_r_x = (positions[1:, fid_r, 0] - positions[:-1, fid_r, 0]) ** 2 |
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feet_r_y = (positions[1:, fid_r, 1] - positions[:-1, fid_r, 1]) ** 2 |
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feet_r_z = (positions[1:, fid_r, 2] - positions[:-1, fid_r, 2]) ** 2 |
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feet_r = (((feet_r_x + feet_r_y + feet_r_z) < velfactor)).astype(np.float) |
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return feet_l, feet_r |
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feet_l, feet_r = foot_detect(positions, feet_thre) |
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'''Quaternion and Cartesian representation''' |
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r_rot = None |
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def get_rifke(positions): |
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'''Local pose''' |
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positions[..., 0] -= positions[:, 0:1, 0] |
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positions[..., 2] -= positions[:, 0:1, 2] |
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'''All pose face Z+''' |
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positions = qrot_np(np.repeat(r_rot[:, None], positions.shape[1], axis=1), positions) |
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return positions |
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def get_quaternion(positions): |
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skel = Skeleton(n_raw_offsets, kinematic_chain, "cpu") |
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quat_params = skel.inverse_kinematics_np(positions, face_joint_indx, smooth_forward=False) |
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'''Fix Quaternion Discontinuity''' |
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quat_params = qfix(quat_params) |
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r_rot = quat_params[:, 0].copy() |
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'''Root Linear Velocity''' |
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velocity = (positions[1:, 0] - positions[:-1, 0]).copy() |
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velocity = qrot_np(r_rot[1:], velocity) |
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'''Root Angular Velocity''' |
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r_velocity = qmul_np(r_rot[1:], qinv_np(r_rot[:-1])) |
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quat_params[1:, 0] = r_velocity |
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return quat_params, r_velocity, velocity, r_rot |
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def get_cont6d_params(positions): |
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skel = Skeleton(n_raw_offsets, kinematic_chain, "cpu") |
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quat_params = skel.inverse_kinematics_np(positions, face_joint_indx, smooth_forward=True) |
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'''Quaternion to continuous 6D''' |
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cont_6d_params = quaternion_to_cont6d_np(quat_params) |
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r_rot = quat_params[:, 0].copy() |
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'''Root Linear Velocity''' |
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velocity = (positions[1:, 0] - positions[:-1, 0]).copy() |
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velocity = qrot_np(r_rot[1:], velocity) |
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'''Root Angular Velocity''' |
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r_velocity = qmul_np(r_rot[1:], qinv_np(r_rot[:-1])) |
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return cont_6d_params, r_velocity, velocity, r_rot |
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cont_6d_params, r_velocity, velocity, r_rot = get_cont6d_params(positions) |
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positions = get_rifke(positions) |
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'''Root height''' |
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root_y = positions[:, 0, 1:2] |
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'''Root rotation and linear velocity''' |
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r_velocity = np.arcsin(r_velocity[:, 2:3]) |
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l_velocity = velocity[:, [0, 2]] |
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root_data = np.concatenate([r_velocity, l_velocity, root_y[:-1]], axis=-1) |
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'''Get Joint Rotation Representation''' |
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rot_data = cont_6d_params[:, 1:].reshape(len(cont_6d_params), -1) |
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'''Get Joint Rotation Invariant Position Represention''' |
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ric_data = positions[:, 1:].reshape(len(positions), -1) |
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'''Get Joint Velocity Representation''' |
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local_vel = qrot_np(np.repeat(r_rot[:-1, None], global_positions.shape[1], axis=1), |
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global_positions[1:] - global_positions[:-1]) |
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local_vel = local_vel.reshape(len(local_vel), -1) |
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data = root_data |
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data = np.concatenate([data, ric_data[:-1]], axis=-1) |
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data = np.concatenate([data, rot_data[:-1]], axis=-1) |
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data = np.concatenate([data, local_vel], axis=-1) |
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data = np.concatenate([data, feet_l, feet_r], axis=-1) |
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return data |
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def process_file(positions, feet_thre): |
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'''Uniform Skeleton''' |
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positions = uniform_skeleton(positions, tgt_offsets) |
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'''Put on Floor''' |
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floor_height = positions.min(axis=0).min(axis=0)[1] |
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positions[:, :, 1] -= floor_height |
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'''XZ at origin''' |
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root_pos_init = positions[0] |
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root_pose_init_xz = root_pos_init[0] * np.array([1, 0, 1]) |
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positions = positions - root_pose_init_xz |
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'''All initially face Z+''' |
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r_hip, l_hip, sdr_r, sdr_l = face_joint_indx |
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across1 = root_pos_init[r_hip] - root_pos_init[l_hip] |
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across2 = root_pos_init[sdr_r] - root_pos_init[sdr_l] |
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across = across1 + across2 |
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across = across / np.sqrt((across ** 2).sum(axis=-1))[..., np.newaxis] |
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forward_init = np.cross(np.array([[0, 1, 0]]), across, axis=-1) |
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forward_init = forward_init / np.sqrt((forward_init ** 2).sum(axis=-1))[..., np.newaxis] |
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target = np.array([[0, 0, 1]]) |
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root_quat_init = qbetween_np(forward_init, target) |
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root_quat_init = np.ones(positions.shape[:-1] + (4,)) * root_quat_init |
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positions_b = positions.copy() |
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positions = qrot_np(root_quat_init, positions) |
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'''New ground truth positions''' |
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global_positions = positions.copy() |
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""" Get Foot Contacts """ |
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def foot_detect(positions, thres): |
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velfactor, heightfactor = np.array([thres, thres]), np.array([3.0, 2.0]) |
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feet_l_x = (positions[1:, fid_l, 0] - positions[:-1, fid_l, 0]) ** 2 |
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feet_l_y = (positions[1:, fid_l, 1] - positions[:-1, fid_l, 1]) ** 2 |
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feet_l_z = (positions[1:, fid_l, 2] - positions[:-1, fid_l, 2]) ** 2 |
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feet_l = ((feet_l_x + feet_l_y + feet_l_z) < velfactor).astype(np.float) |
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feet_r_x = (positions[1:, fid_r, 0] - positions[:-1, fid_r, 0]) ** 2 |
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feet_r_y = (positions[1:, fid_r, 1] - positions[:-1, fid_r, 1]) ** 2 |
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feet_r_z = (positions[1:, fid_r, 2] - positions[:-1, fid_r, 2]) ** 2 |
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feet_r = (((feet_r_x + feet_r_y + feet_r_z) < velfactor)).astype(np.float) |
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return feet_l, feet_r |
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feet_l, feet_r = foot_detect(positions, feet_thre) |
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'''Quaternion and Cartesian representation''' |
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r_rot = None |
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def get_rifke(positions): |
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'''Local pose''' |
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positions[..., 0] -= positions[:, 0:1, 0] |
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positions[..., 2] -= positions[:, 0:1, 2] |
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'''All pose face Z+''' |
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positions = qrot_np(np.repeat(r_rot[:, None], positions.shape[1], axis=1), positions) |
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return positions |
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def get_quaternion(positions): |
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skel = Skeleton(n_raw_offsets, kinematic_chain, "cpu") |
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quat_params = skel.inverse_kinematics_np(positions, face_joint_indx, smooth_forward=False) |
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'''Fix Quaternion Discontinuity''' |
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quat_params = qfix(quat_params) |
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r_rot = quat_params[:, 0].copy() |
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'''Root Linear Velocity''' |
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velocity = (positions[1:, 0] - positions[:-1, 0]).copy() |
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velocity = qrot_np(r_rot[1:], velocity) |
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'''Root Angular Velocity''' |
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r_velocity = qmul_np(r_rot[1:], qinv_np(r_rot[:-1])) |
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quat_params[1:, 0] = r_velocity |
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return quat_params, r_velocity, velocity, r_rot |
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def get_cont6d_params(positions): |
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skel = Skeleton(n_raw_offsets, kinematic_chain, "cpu") |
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quat_params = skel.inverse_kinematics_np(positions, face_joint_indx, smooth_forward=True) |
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'''Quaternion to continuous 6D''' |
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cont_6d_params = quaternion_to_cont6d_np(quat_params) |
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r_rot = quat_params[:, 0].copy() |
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'''Root Linear Velocity''' |
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velocity = (positions[1:, 0] - positions[:-1, 0]).copy() |
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velocity = qrot_np(r_rot[1:], velocity) |
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'''Root Angular Velocity''' |
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r_velocity = qmul_np(r_rot[1:], qinv_np(r_rot[:-1])) |
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return cont_6d_params, r_velocity, velocity, r_rot |
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cont_6d_params, r_velocity, velocity, r_rot = get_cont6d_params(positions) |
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positions = get_rifke(positions) |
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'''Root height''' |
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root_y = positions[:, 0, 1:2] |
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'''Root rotation and linear velocity''' |
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r_velocity = np.arcsin(r_velocity[:, 2:3]) |
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l_velocity = velocity[:, [0, 2]] |
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root_data = np.concatenate([r_velocity, l_velocity, root_y[:-1]], axis=-1) |
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'''Get Joint Rotation Representation''' |
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rot_data = cont_6d_params[:, 1:].reshape(len(cont_6d_params), -1) |
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'''Get Joint Rotation Invariant Position Represention''' |
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ric_data = positions[:, 1:].reshape(len(positions), -1) |
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'''Get Joint Velocity Representation''' |
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local_vel = qrot_np(np.repeat(r_rot[:-1, None], global_positions.shape[1], axis=1), |
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global_positions[1:] - global_positions[:-1]) |
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local_vel = local_vel.reshape(len(local_vel), -1) |
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data = root_data |
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data = np.concatenate([data, ric_data[:-1]], axis=-1) |
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data = np.concatenate([data, rot_data[:-1]], axis=-1) |
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data = np.concatenate([data, local_vel], axis=-1) |
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data = np.concatenate([data, feet_l, feet_r], axis=-1) |
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return data, global_positions, positions, l_velocity |
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def recover_root_rot_pos(data): |
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rot_vel = data[..., 0] |
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r_rot_ang = torch.zeros_like(rot_vel).to(data.device) |
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'''Get Y-axis rotation from rotation velocity''' |
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r_rot_ang[..., 1:] = rot_vel[..., :-1] |
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r_rot_ang = torch.cumsum(r_rot_ang, dim=-1) |
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r_rot_quat = torch.zeros(data.shape[:-1] + (4,)).to(data.device) |
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r_rot_quat[..., 0] = torch.cos(r_rot_ang) |
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r_rot_quat[..., 2] = torch.sin(r_rot_ang) |
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r_pos = torch.zeros(data.shape[:-1] + (3,)).to(data.device) |
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r_pos[..., 1:, [0, 2]] = data[..., :-1, 1:3] |
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'''Add Y-axis rotation to root position''' |
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r_pos = qrot(qinv(r_rot_quat), r_pos) |
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r_pos = torch.cumsum(r_pos, dim=-2) |
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r_pos[..., 1] = data[..., 3] |
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return r_rot_quat, r_pos |
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def recover_from_rot(data, joints_num, skeleton): |
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r_rot_quat, r_pos = recover_root_rot_pos(data) |
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r_rot_cont6d = quaternion_to_cont6d(r_rot_quat) |
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start_indx = 1 + 2 + 1 + (joints_num - 1) * 3 |
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end_indx = start_indx + (joints_num - 1) * 6 |
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cont6d_params = data[..., start_indx:end_indx] |
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cont6d_params = torch.cat([r_rot_cont6d, cont6d_params], dim=-1) |
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cont6d_params = cont6d_params.view(-1, joints_num, 6) |
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positions = skeleton.forward_kinematics_cont6d(cont6d_params, r_pos) |
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return positions |
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def recover_from_ric( |
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data: Union[torch.Tensor, np.array], joints_num: int |
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) -> Union[torch.Tensor, np.array]: |
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if isinstance(data, np.ndarray): |
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data = torch.from_numpy(data).float() |
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dtype = "numpy" |
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else: |
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data = data.float() |
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dtype = "tensor" |
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r_rot_quat, r_pos = recover_root_rot_pos(data) |
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positions = data[..., 4:(joints_num - 1) * 3 + 4] |
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positions = positions.view(positions.shape[:-1] + (-1, 3)) |
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'''Add Y-axis rotation to local joints''' |
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positions = qrot(qinv(r_rot_quat[..., None, :]).expand(positions.shape[:-1] + (4,)), positions) |
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'''Add root XZ to joints''' |
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positions[..., 0] += r_pos[..., 0:1] |
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positions[..., 2] += r_pos[..., 2:3] |
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'''Concate root and joints''' |
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positions = torch.cat([r_pos.unsqueeze(-2), positions], dim=-2) |
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if dtype == "numpy": |
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positions = positions.numpy() |
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return positions |
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''' |
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For Text2Motion Dataset |
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''' |
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''' |
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if __name__ == "__main__": |
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example_id = "000021" |
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# Lower legs |
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l_idx1, l_idx2 = 5, 8 |
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# Right/Left foot |
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fid_r, fid_l = [8, 11], [7, 10] |
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# Face direction, r_hip, l_hip, sdr_r, sdr_l |
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face_joint_indx = [2, 1, 17, 16] |
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# l_hip, r_hip |
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r_hip, l_hip = 2, 1 |
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joints_num = 22 |
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# ds_num = 8 |
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data_dir = '../dataset/pose_data_raw/joints/' |
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save_dir1 = '../dataset/pose_data_raw/new_joints/' |
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save_dir2 = '../dataset/pose_data_raw/new_joint_vecs/' |
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n_raw_offsets = torch.from_numpy(t2m_raw_offsets) |
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kinematic_chain = t2m_kinematic_chain |
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# Get offsets of target skeleton |
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example_data = np.load(os.path.join(data_dir, example_id + '.npy')) |
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example_data = example_data.reshape(len(example_data), -1, 3) |
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example_data = torch.from_numpy(example_data) |
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tgt_skel = Skeleton(n_raw_offsets, kinematic_chain, 'cpu') |
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# (joints_num, 3) |
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tgt_offsets = tgt_skel.get_offsets_joints(example_data[0]) |
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# print(tgt_offsets) |
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source_list = os.listdir(data_dir) |
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frame_num = 0 |
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for source_file in tqdm(source_list): |
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source_data = np.load(os.path.join(data_dir, source_file))[:, :joints_num] |
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try: |
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data, ground_positions, positions, l_velocity = process_file(source_data, 0.002) |
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rec_ric_data = recover_from_ric(torch.from_numpy(data).unsqueeze(0).float(), joints_num) |
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np.save(pjoin(save_dir1, source_file), rec_ric_data.squeeze().numpy()) |
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np.save(pjoin(save_dir2, source_file), data) |
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frame_num += data.shape[0] |
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except Exception as e: |
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print(source_file) |
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print(e) |
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print('Total clips: %d, Frames: %d, Duration: %fm' % |
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(len(source_list), frame_num, frame_num / 20 / 60)) |
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''' |
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if __name__ == "__main__": |
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example_id = "03950_gt" |
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l_idx1, l_idx2 = 17, 18 |
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fid_r, fid_l = [14, 15], [19, 20] |
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face_joint_indx = [11, 16, 5, 8] |
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r_hip, l_hip = 11, 16 |
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joints_num = 21 |
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data_dir = '../dataset/kit_mocap_dataset/joints/' |
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save_dir1 = '../dataset/kit_mocap_dataset/new_joints/' |
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save_dir2 = '../dataset/kit_mocap_dataset/new_joint_vecs/' |
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n_raw_offsets = torch.from_numpy(kit_raw_offsets) |
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kinematic_chain = kit_kinematic_chain |
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'''Get offsets of target skeleton''' |
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example_data = np.load(os.path.join(data_dir, example_id + '.npy')) |
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example_data = example_data.reshape(len(example_data), -1, 3) |
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example_data = torch.from_numpy(example_data) |
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tgt_skel = Skeleton(n_raw_offsets, kinematic_chain, 'cpu') |
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tgt_offsets = tgt_skel.get_offsets_joints(example_data[0]) |
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source_list = os.listdir(data_dir) |
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frame_num = 0 |
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'''Read source data''' |
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for source_file in tqdm(source_list): |
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source_data = np.load(os.path.join(data_dir, source_file))[:, :joints_num] |
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try: |
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name = ''.join(source_file[:-7].split('_')) + '.npy' |
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data, ground_positions, positions, l_velocity = process_file(source_data, 0.05) |
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rec_ric_data = recover_from_ric(torch.from_numpy(data).unsqueeze(0).float(), joints_num) |
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if np.isnan(rec_ric_data.numpy()).any(): |
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print(source_file) |
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continue |
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np.save(pjoin(save_dir1, name), rec_ric_data.squeeze().numpy()) |
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np.save(pjoin(save_dir2, name), data) |
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frame_num += data.shape[0] |
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except Exception as e: |
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print(source_file) |
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print(e) |
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print('Total clips: %d, Frames: %d, Duration: %fm' % |
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(len(source_list), frame_num, frame_num / 12.5 / 60)) |