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estimate_pose.py
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estimate_pose.py
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#!/usr/bin/env python3
# coding: utf-8
"""
Reference: https://github.com/YadiraF/PRNet/blob/master/utils/estimate_pose.py
"""
from math import cos, sin, atan2, asin, sqrt
import numpy as np
from .params import param_mean, param_std
def parse_pose(param):
param = param * param_std + param_mean
Ps = param[:12].reshape(3, -1) # camera matrix
# R = P[:, :3]
s, R, t3d = P2sRt(Ps)
P = np.concatenate((R, t3d.reshape(3, -1)), axis=1) # without scale
# P = Ps / s
pose = matrix2angle(R) # yaw, pitch, roll
# offset = p_[:, -1].reshape(3, 1)
return P, pose
def matrix2angle(R):
''' compute three Euler angles from a Rotation Matrix. Ref: http://www.gregslabaugh.net/publications/euler.pdf
Args:
R: (3,3). rotation matrix
Returns:
x: yaw
y: pitch
z: roll
'''
# assert(isRotationMatrix(R))
if R[2, 0] != 1 and R[2, 0] != -1:
x = asin(R[2, 0])
y = atan2(R[2, 1] / cos(x), R[2, 2] / cos(x))
z = atan2(R[1, 0] / cos(x), R[0, 0] / cos(x))
else: # Gimbal lock
z = 0 # can be anything
if R[2, 0] == -1:
x = np.pi / 2
y = z + atan2(R[0, 1], R[0, 2])
else:
x = -np.pi / 2
y = -z + atan2(-R[0, 1], -R[0, 2])
return x, y, z
def P2sRt(P):
''' decompositing camera matrix P.
Args:
P: (3, 4). Affine Camera Matrix.
Returns:
s: scale factor.
R: (3, 3). rotation matrix.
t2d: (2,). 2d translation.
'''
t3d = P[:, 3]
R1 = P[0:1, :3]
R2 = P[1:2, :3]
s = (np.linalg.norm(R1) + np.linalg.norm(R2)) / 2.0
r1 = R1 / np.linalg.norm(R1)
r2 = R2 / np.linalg.norm(R2)
r3 = np.cross(r1, r2)
R = np.concatenate((r1, r2, r3), 0)
return s, R, t3d
def main():
pass
if __name__ == '__main__':
main()