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| author | Arun Isaac | 2021-03-19 21:46:38 +0530 |
|---|---|---|
| committer | Arun Isaac | 2021-03-19 21:46:38 +0530 |
| commit | 5b8aa0c2cb6f187eba957de9400913b83bbf539a (patch) | |
| tree | c3a3331ba5dc2bb969a77da2b1478080b867da1d | |
| parent | 30104d8ee20733cf4e2195ef9a6cd202a7a257e5 (diff) | |
| download | nsmc-5b8aa0c2cb6f187eba957de9400913b83bbf539a.tar.gz nsmc-5b8aa0c2cb6f187eba957de9400913b83bbf539a.tar.lz nsmc-5b8aa0c2cb6f187eba957de9400913b83bbf539a.zip | |
Factor out random planar angle generation.
* contrib/cone-vector.py (random_planar_angle_cdf,
random_vector_on_disk): New functions.
(random_vector_on_spherical_cap): Rename to
random_vector_on_spherical_cap_cdf. Call random_planar_angle_cdf and
random_vector_on_disk.
(sample_code): Call random_vector_on_spherical_cap_cdf instead of
random_vector_on_spherical_cap.
| -rw-r--r-- | contrib/cone-vector.py | 22 |
1 files changed, 16 insertions, 6 deletions
diff --git a/contrib/cone-vector.py b/contrib/cone-vector.py index 8d1877e..65e08ee 100644 --- a/contrib/cone-vector.py +++ b/contrib/cone-vector.py @@ -56,24 +56,34 @@ def rotate_from_nth_canonical(x, axis): - axisn*(xn*s + a*(axisn - 1))/b return x -def random_vector_on_spherical_cap(axis, maximum_planar_angle): - """Return a random vector uniformly distributed on a spherical cap.""" +def random_planar_angle_cdf(maximum_planar_angle, dim): + """Return a random planar angle using inverse transform sampling.""" + return solid_angle_fraction2planar_angle( + planar_angle2solid_angle_fraction(maximum_planar_angle, dim)*random(), + dim) + +def random_vector_on_disk(axis, planar_angle): + """Return a random vector uniformly distributed on the periphery of a +disk.""" dim = axis.size - maximum_solid_angle_fraction = planar_angle2solid_angle_fraction(maximum_planar_angle, dim) - solid_angle_fraction = maximum_solid_angle_fraction*random() - planar_angle = solid_angle_fraction2planar_angle(solid_angle_fraction, dim) x = empty(dim) x[:-1] = sin(planar_angle) * random_vector_on_sphere(dim - 1) x[-1] = cos(planar_angle) return rotate_from_nth_canonical(x, axis) +def random_vector_on_spherical_cap_cdf(axis, maximum_planar_angle): + """Return a random vector uniformly distributed on a spherical +cap. The random planar angle is generated using inverse transform +sampling.""" + return random_vector_on_disk(axis, random_planar_angle_cdf(maximum_planar_angle, axis.size)) + def sample_code(): """Run some sample code testing the defined functions.""" dim = 100 maximum_planar_angle = pi/3 axis = ones(dim) axis = axis/norm(axis) - print(random_vector_on_spherical_cap(axis, maximum_planar_angle)) + print(random_vector_on_spherical_cap_cdf(axis, maximum_planar_angle)) if __name__ == '__main__': sample_code() |