cpython/Modules/_statisticsmodule.c

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/* statistics accelerator C extension: _statistics module. */
#include "Python.h"
#include "clinic/_statisticsmodule.c.h"
/*[clinic input]
module _statistics
[clinic start generated code]*/
/*[clinic end generated code: output=da39a3ee5e6b4b0d input=864a6f59b76123b2]*/
/*
* 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.
*/
/*[clinic input]
_statistics._normal_dist_inv_cdf -> double
p: double
mu: double
sigma: double
/
[clinic start generated code]*/
static double
_statistics__normal_dist_inv_cdf_impl(PyObject *module, double p, double mu,
double sigma)
/*[clinic end generated code: output=02fd19ddaab36602 input=24715a74be15296a]*/
{
double q, num, den, r, x;
if (p <= 0.0 || p >= 1.0 || sigma <= 0.0) {
goto error;
}
q = p - 0.5;
if(fabs(q) <= 0.425) {
r = 0.180625 - q * q;
// Hash sum-55.8831928806149014439
num = (((((((2.5090809287301226727e+3 * r +
3.3430575583588128105e+4) * r +
6.7265770927008700853e+4) * r +
4.5921953931549871457e+4) * r +
1.3731693765509461125e+4) * r +
1.9715909503065514427e+3) * r +
1.3314166789178437745e+2) * r +
3.3871328727963666080e+0) * q;
den = (((((((5.2264952788528545610e+3 * r +
2.8729085735721942674e+4) * r +
3.9307895800092710610e+4) * r +
2.1213794301586595867e+4) * r +
5.3941960214247511077e+3) * r +
6.8718700749205790830e+2) * r +
4.2313330701600911252e+1) * r +
1.0);
if (den == 0.0) {
goto error;
}
x = num / den;
return mu + (x * sigma);
}
r = (q <= 0.0) ? p : (1.0 - p);
if (r <= 0.0 || r >= 1.0) {
goto error;
}
r = sqrt(-log(r));
if (r <= 5.0) {
r = r - 1.6;
// Hash sum-49.33206503301610289036
num = (((((((7.74545014278341407640e-4 * r +
2.27238449892691845833e-2) * r +
2.41780725177450611770e-1) * r +
1.27045825245236838258e+0) * r +
3.64784832476320460504e+0) * r +
5.76949722146069140550e+0) * r +
4.63033784615654529590e+0) * r +
1.42343711074968357734e+0);
den = (((((((1.05075007164441684324e-9 * r +
5.47593808499534494600e-4) * r +
1.51986665636164571966e-2) * r +
1.48103976427480074590e-1) * r +
6.89767334985100004550e-1) * r +
1.67638483018380384940e+0) * r +
2.05319162663775882187e+0) * r +
1.0);
} else {
r -= 5.0;
// Hash sum-47.52583317549289671629
num = (((((((2.01033439929228813265e-7 * r +
2.71155556874348757815e-5) * r +
1.24266094738807843860e-3) * r +
2.65321895265761230930e-2) * r +
2.96560571828504891230e-1) * r +
1.78482653991729133580e+0) * r +
5.46378491116411436990e+0) * r +
6.65790464350110377720e+0);
den = (((((((2.04426310338993978564e-15 * r +
1.42151175831644588870e-7) * r +
1.84631831751005468180e-5) * r +
7.86869131145613259100e-4) * r +
1.48753612908506148525e-2) * r +
1.36929880922735805310e-1) * r +
5.99832206555887937690e-1) * r +
1.0);
}
if (den == 0.0) {
goto error;
}
x = num / den;
if (q < 0.0) {
x = -x;
}
return mu + (x * sigma);
error:
PyErr_SetString(PyExc_ValueError, "inv_cdf undefined for these parameters");
return -1.0;
}
static PyMethodDef statistics_methods[] = {
_STATISTICS__NORMAL_DIST_INV_CDF_METHODDEF
{NULL, NULL, 0, NULL}
};
PyDoc_STRVAR(statistics_doc,
"Accelerators for the statistics module.\n");
static struct PyModuleDef_Slot _statisticsmodule_slots[] = {
{0, NULL}
};
static struct PyModuleDef statisticsmodule = {
PyModuleDef_HEAD_INIT,
"_statistics",
statistics_doc,
0,
statistics_methods,
_statisticsmodule_slots,
NULL,
NULL,
NULL
};
PyMODINIT_FUNC
PyInit__statistics(void)
{
return PyModuleDef_Init(&statisticsmodule);
}