""" Precompute coefficients of Temme's asymptotic expansion for gammainc. This takes about 8 hours to run on a 2.3 GHz Macbook Pro with 4GB ram. Sources: [1] NIST, "Digital Library of Mathematical Functions", http://dlmf.nist.gov/ """ from __future__ import division, print_function, absolute_import import os from scipy.special._precompute.utils import lagrange_inversion try: import mpmath as mp except ImportError: pass def compute_a(n): """a_k from DLMF 5.11.6""" a = [mp.sqrt(2)/2] for k in range(1, n): ak = a[-1]/k for j in range(1, len(a)): ak -= a[j]*a[-j]/(j + 1) ak /= a[0]*(1 + mp.mpf(1)/(k + 1)) a.append(ak) return a def compute_g(n): """g_k from DLMF 5.11.3/5.11.5""" a = compute_a(2*n) g = [] for k in range(n): g.append(mp.sqrt(2)*mp.rf(0.5, k)*a[2*k]) return g def eta(lam): """Function from DLMF 8.12.1 shifted to be centered at 0.""" if lam > 0: return mp.sqrt(2*(lam - mp.log(lam + 1))) elif lam < 0: return -mp.sqrt(2*(lam - mp.log(lam + 1))) else: return 0 def compute_alpha(n): """alpha_n from DLMF 8.12.13""" coeffs = mp.taylor(eta, 0, n - 1) return lagrange_inversion(coeffs) def compute_d(K, N): """d_{k, n} from DLMF 8.12.12""" M = N + 2*K d0 = [-mp.mpf(1)/3] alpha = compute_alpha(M + 2) for n in range(1, M): d0.append((n + 2)*alpha[n+2]) d = [d0] g = compute_g(K) for k in range(1, K): dk = [] for n in range(M - 2*k): dk.append((-1)**k*g[k]*d[0][n] + (n + 2)*d[k-1][n+2]) d.append(dk) for k in range(K): d[k] = d[k][:N] return d header = \ r"""/* This file was automatically generated by _precomp/gammainc.py. * Do not edit it manually! */ #ifndef IGAM_H #define IGAM_H #define K {} #define N {} static const double d[K][N] = {{""" footer = \ r""" #endif """ def main(): print(__doc__) K = 25 N = 25 with mp.workdps(50): d = compute_d(K, N) fn = os.path.join(os.path.dirname(__file__), '..', 'cephes', 'igam.h') with open(fn + '.new', 'w') as f: f.write(header.format(K, N)) for k, row in enumerate(d): row = map(lambda x: mp.nstr(x, 17, min_fixed=0, max_fixed=0), row) f.write('{') f.write(", ".join(row)) if k < K - 1: f.write('},\n') else: f.write('}};\n') f.write(footer) os.rename(fn + '.new', fn) if __name__ == "__main__": main()