Source code for shenfun.optimization.numba.twodma
import numba as nb
import numpy as np
from .la import Solve_axis_2D, Solve_axis_3D, Solve_axis_4D
__all__ = ['TwoDMA_Solve', 'TwoDMA_inner_solve']
[docs]
def TwoDMA_Solve(x, data, axis=0):
n = x.ndim
if n == 1:
TwoDMA_inner_solve(x, data)
elif n == 2:
Solve_axis_2D(data, x, TwoDMA_inner_solve, axis)
elif n == 3:
Solve_axis_3D(data, x, TwoDMA_inner_solve, axis)
elif n == 4:
Solve_axis_4D(data, x, TwoDMA_inner_solve, axis)
else:
if axis > 0:
x = np.moveaxis(x, axis, 0)
TwoDMA_inner_solve(x, data)
if axis > 0:
x = np.moveaxis(x, 0, axis)
[docs]
@nb.jit(nopython=True, fastmath=True, cache=True)
def TwoDMA_inner_solve(u, data):
d = data[0, :]
u1 = data[1, 2:]
n = d.shape[0]
u[n-1] = u[n-1]/d[n-1]
u[n-2] = u[n-2]/d[n-2]
for i in range(n - 3, -1, -1):
u[i] = (u[i] - u1[i]*u[i+2])/d[i]