dreamgaussian / sh_utils.py
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# Copyright 2021 The PlenOctree Authors.
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
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# 1. Redistributions of source code must retain the above copyright notice,
# this list of conditions and the following disclaimer.
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# 2. Redistributions in binary form must reproduce the above copyright notice,
# this list of conditions and the following disclaimer in the documentation
# and/or other materials provided with the distribution.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
# LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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import torch
C0 = 0.28209479177387814
C1 = 0.4886025119029199
C2 = [
1.0925484305920792,
-1.0925484305920792,
0.31539156525252005,
-1.0925484305920792,
0.5462742152960396
]
C3 = [
-0.5900435899266435,
2.890611442640554,
-0.4570457994644658,
0.3731763325901154,
-0.4570457994644658,
1.445305721320277,
-0.5900435899266435
]
C4 = [
2.5033429417967046,
-1.7701307697799304,
0.9461746957575601,
-0.6690465435572892,
0.10578554691520431,
-0.6690465435572892,
0.47308734787878004,
-1.7701307697799304,
0.6258357354491761,
]
def eval_sh(deg, sh, dirs):
"""
Evaluate spherical harmonics at unit directions
using hardcoded SH polynomials.
Works with torch/np/jnp.
... Can be 0 or more batch dimensions.
Args:
deg: int SH deg. Currently, 0-3 supported
sh: jnp.ndarray SH coeffs [..., C, (deg + 1) ** 2]
dirs: jnp.ndarray unit directions [..., 3]
Returns:
[..., C]
"""
assert deg <= 4 and deg >= 0
coeff = (deg + 1) ** 2
assert sh.shape[-1] >= coeff
result = C0 * sh[..., 0]
if deg > 0:
x, y, z = dirs[..., 0:1], dirs[..., 1:2], dirs[..., 2:3]
result = (result -
C1 * y * sh[..., 1] +
C1 * z * sh[..., 2] -
C1 * x * sh[..., 3])
if deg > 1:
xx, yy, zz = x * x, y * y, z * z
xy, yz, xz = x * y, y * z, x * z
result = (result +
C2[0] * xy * sh[..., 4] +
C2[1] * yz * sh[..., 5] +
C2[2] * (2.0 * zz - xx - yy) * sh[..., 6] +
C2[3] * xz * sh[..., 7] +
C2[4] * (xx - yy) * sh[..., 8])
if deg > 2:
result = (result +
C3[0] * y * (3 * xx - yy) * sh[..., 9] +
C3[1] * xy * z * sh[..., 10] +
C3[2] * y * (4 * zz - xx - yy)* sh[..., 11] +
C3[3] * z * (2 * zz - 3 * xx - 3 * yy) * sh[..., 12] +
C3[4] * x * (4 * zz - xx - yy) * sh[..., 13] +
C3[5] * z * (xx - yy) * sh[..., 14] +
C3[6] * x * (xx - 3 * yy) * sh[..., 15])
if deg > 3:
result = (result + C4[0] * xy * (xx - yy) * sh[..., 16] +
C4[1] * yz * (3 * xx - yy) * sh[..., 17] +
C4[2] * xy * (7 * zz - 1) * sh[..., 18] +
C4[3] * yz * (7 * zz - 3) * sh[..., 19] +
C4[4] * (zz * (35 * zz - 30) + 3) * sh[..., 20] +
C4[5] * xz * (7 * zz - 3) * sh[..., 21] +
C4[6] * (xx - yy) * (7 * zz - 1) * sh[..., 22] +
C4[7] * xz * (xx - 3 * yy) * sh[..., 23] +
C4[8] * (xx * (xx - 3 * yy) - yy * (3 * xx - yy)) * sh[..., 24])
return result
def RGB2SH(rgb):
return (rgb - 0.5) / C0
def SH2RGB(sh):
return sh * C0 + 0.5