Add some cdf functions from std lib

This commit is contained in:
Isaac Shoebottom 2024-04-22 13:16:50 -03:00
parent e3566d1c21
commit cdc19c0509
2 changed files with 83 additions and 5 deletions

79
cdf.py Normal file
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@ -0,0 +1,79 @@
import math
def normal_dist_cdf(x, mu=0.0, sigma=1.0):
return 0.5 * (1.0 + math.erf((x - mu) / (sigma * (2 ** 0.5))))
def normal_dist_inv_cdf(p, mu=0.0, sigma=1.0):
# There is no closed-form solution to the inverse CDF for the normal
# distribution, so we use a rational approximation instead:
# Wichura, M.J. (1988). "Algorithm AS241: The Percentage Points of the
# Normal Distribution". Applied Statistics. Blackwell Publishing. 37
# (3): 477484. doi:10.2307/2347330. JSTOR 2347330.
q = p - 0.5
if math.fabs(q) <= 0.425:
r = 0.180625 - q * q
# Hash sum: 55.88319_28806_14901_4439
num = (((((((2.50908_09287_30122_6727e+3 * r +
3.34305_75583_58812_8105e+4) * r +
6.72657_70927_00870_0853e+4) * r +
4.59219_53931_54987_1457e+4) * r +
1.37316_93765_50946_1125e+4) * r +
1.97159_09503_06551_4427e+3) * r +
1.33141_66789_17843_7745e+2) * r +
3.38713_28727_96366_6080e+0) * q
den = (((((((5.22649_52788_52854_5610e+3 * r +
2.87290_85735_72194_2674e+4) * r +
3.93078_95800_09271_0610e+4) * r +
2.12137_94301_58659_5867e+4) * r +
5.39419_60214_24751_1077e+3) * r +
6.87187_00749_20579_0830e+2) * r +
4.23133_30701_60091_1252e+1) * r +
1.0)
x = num / den
return mu + (x * sigma)
r = p if q <= 0.0 else 1.0 - p
r = math.sqrt(-math.log(r))
if r <= 5.0:
r = r - 1.6
# Hash sum: 49.33206_50330_16102_89036
num = (((((((7.74545_01427_83414_07640e-4 * r +
2.27238_44989_26918_45833e-2) * r +
2.41780_72517_74506_11770e-1) * r +
1.27045_82524_52368_38258e+0) * r +
3.64784_83247_63204_60504e+0) * r +
5.76949_72214_60691_40550e+0) * r +
4.63033_78461_56545_29590e+0) * r +
1.42343_71107_49683_57734e+0)
den = (((((((1.05075_00716_44416_84324e-9 * r +
5.47593_80849_95344_94600e-4) * r +
1.51986_66563_61645_71966e-2) * r +
1.48103_97642_74800_74590e-1) * r +
6.89767_33498_51000_04550e-1) * r +
1.67638_48301_83803_84940e+0) * r +
2.05319_16266_37758_82187e+0) * r +
1.0)
else:
r = r - 5.0
# Hash sum: 47.52583_31754_92896_71629
num = (((((((2.01033_43992_92288_13265e-7 * r +
2.71155_55687_43487_57815e-5) * r +
1.24266_09473_88078_43860e-3) * r +
2.65321_89526_57612_30930e-2) * r +
2.96560_57182_85048_91230e-1) * r +
1.78482_65399_17291_33580e+0) * r +
5.46378_49111_64114_36990e+0) * r +
6.65790_46435_01103_77720e+0)
den = (((((((2.04426_31033_89939_78564e-15 * r +
1.42151_17583_16445_88870e-7) * r +
1.84631_83175_10054_68180e-5) * r +
7.86869_13114_56132_59100e-4) * r +
1.48753_61290_85061_48525e-2) * r +
1.36929_88092_27358_05310e-1) * r +
5.99832_20655_58879_37690e-1) * r +
1.0)
x = num / den
if q < 0.0:
x = -x
return mu + (x * sigma)

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@ -1,5 +1,5 @@
import math import math
import statistics import cdf
def factorial(n): def factorial(n):
@ -418,8 +418,8 @@ def z_to_p(z):
:param z: The z-score. :param z: The z-score.
:return: Returns the probability of the z-score. :return: Returns the probability of the z-score.
""" """
nd = statistics.NormalDist()
return nd.cdf(z) return cdf.normal_dist_cdf(z)
def p_to_z(p): def p_to_z(p):
@ -428,8 +428,7 @@ def p_to_z(p):
:param p: The probability. :param p: The probability.
:return: Returns the z-score of the probability. :return: Returns the z-score of the probability.
""" """
nd = statistics.NormalDist() return cdf.normal_dist_inv_cdf(p)
return nd.inv_cdf(p)
def gamma(u, n): def gamma(u, n):