fdfd_tools/meanas/fdmath/vectorization.py

53 lines
1.5 KiB
Python

"""
Functions for moving between a vector field (list of 3 ndarrays, `[f_x, f_y, f_z]`)
and a 1D array representation of that field `[f_x0, f_x1, f_x2,... f_y0,... f_z0,...]`.
Vectorized versions of the field use row-major (ie., C-style) ordering.
"""
from typing import List
import numpy
from .types import fdfield_t, vfdfield_t
__author__ = 'Jan Petykiewicz'
def vec(f: fdfield_t) -> vfdfield_t:
"""
Create a 1D ndarray from a 3D vector field which spans a 1-3D region.
Returns `None` if called with `f=None`.
Args:
f: A vector field, `[f_x, f_y, f_z]` where each `f_` component is a 1- to
3-D ndarray (`f_*` should all be the same size). Doesn't fail with `f=None`.
Returns:
1D ndarray containing the linearized field (or `None`)
"""
if numpy.any(numpy.equal(f, None)):
return None
return numpy.ravel(f, order='C')
def unvec(v: vfdfield_t, shape: numpy.ndarray) -> fdfield_t:
"""
Perform the inverse of vec(): take a 1D ndarray and output a 3D field
of form `[f_x, f_y, f_z]` where each of `f_*` is a len(shape)-dimensional
ndarray.
Returns `None` if called with `v=None`.
Args:
v: 1D ndarray representing a 3D vector field of shape shape (or None)
shape: shape of the vector field
Returns:
`[f_x, f_y, f_z]` where each `f_` is a `len(shape)` dimensional ndarray (or `None`)
"""
if numpy.any(numpy.equal(v, None)):
return None
return v.reshape((3, *shape), order='C')