Vehicle-Anti-Theft-Face-Rec.../venv/Lib/site-packages/scipy/special/_precompute/utils.py

44 lines
1.2 KiB
Python

from numpy.testing import suppress_warnings
try:
import mpmath as mp # type: ignore[import]
except ImportError:
pass
try:
# Can remove when sympy #11255 is resolved; see
# https://github.com/sympy/sympy/issues/11255
with suppress_warnings() as sup:
sup.filter(DeprecationWarning, "inspect.getargspec.. is deprecated")
from sympy.abc import x # type: ignore[import]
except ImportError:
pass
def lagrange_inversion(a):
"""Given a series
f(x) = a[1]*x + a[2]*x**2 + ... + a[n-1]*x**(n - 1),
use the Lagrange inversion formula to compute a series
g(x) = b[1]*x + b[2]*x**2 + ... + b[n-1]*x**(n - 1)
so that f(g(x)) = g(f(x)) = x mod x**n. We must have a[0] = 0, so
necessarily b[0] = 0 too.
The algorithm is naive and could be improved, but speed isn't an
issue here and it's easy to read.
"""
n = len(a)
f = sum(a[i]*x**i for i in range(len(a)))
h = (x/f).series(x, 0, n).removeO()
hpower = [h**0]
for k in range(n):
hpower.append((hpower[-1]*h).expand())
b = [mp.mpf(0)]
for k in range(1, n):
b.append(hpower[k].coeff(x, k - 1)/k)
b = map(lambda x: mp.mpf(x), b)
return b