first test

2023-02-05 18:05:14 +01:00 · 2023-02-05 18:05:14 +01:00 · b20d7e61b2
commit b20d7e61b2
parent df8a5e5699
1 changed files with 88 additions and 0 deletions
--- a/src/nmreval/math/bootstrap.py
+++ b/src/nmreval/math/bootstrap.py
@ -0,0 +1,88 @@
 import multiprocessing
 import numpy as np
 from numpy import arange
 from numpy.random import default_rng
 from scipy.optimize import least_squares
 class Bootstrap:
    def __init__(self, func, x, y, p, bounds=None, n_sims=1000, seed=None):
        self._func = func
        self._x = x
        self._y = y
        self._bounds = bounds
        self.n_sims = n_sims
        self.idx = arange(len(self._x))
        self.num = len(self._x)
        self._p_start = p
        self.manager = multiprocessing.Manager()
        self.rng = default_rng(seed=seed)
    def resid(self, pp, xx, yy):
        return self._func(xx, *pp) - yy
    def run(self):
        shared_list = self.manager.list()
        sims_to_do = self.n_sims
        while sims_to_do > 0:
            # print('next_round', sims_to_do)
            jobs = []
            for i in range(sims_to_do):
                # drawing inside fit gives same ind for all
                ind = self.rng.choice(self.idx, self.num, replace=True)
                p = multiprocessing.Process(target=self.fit, args=(ind, shared_list))
                jobs.append(p)
                p.start()
            for p in jobs:
                p.join()
            sims_to_do = self.n_sims - len(shared_list)
        parameter = np.empty((self.n_sims, len(self._p_start)))
        chi = np.empty(self.n_sims)
        for i, (p, c) in enumerate(shared_list):
            parameter[i] = p
            chi[i] = c
        return parameter, chi
    def fit(self, ind, ret_list):
        r = least_squares(self.resid, self._p_start, bounds=self._bounds, args=(self._x[ind], self._y[ind]))
        if not r.success:  # r.status == 0:
            print('failure', r.status)
            return
        res = []
        res.extend(r.x.tolist())
        ret_list.append((res, sum(r.fun**2)))
 def mag(xx, *p):
    return p[0]*(1-np.exp(-(xx/p[1])**p[2])) + p[3]*(1-np.exp(-(xx/p[4])**p[5])) + p[6]
 if __name__ == '__main__':
    x = np.logspace(-4, 2, num=31)
    p = [1000, 0.03, 1, 100, 0.9, 0.5, 0]
    bounds = ([0] * 6 + [-np.inf], [np.inf, np.inf, 1, np.inf, 20, 1, np.inf])
    # bounds = (-np.inf, np.inf)
    y = mag(x, *p) + 10 * (2 * np.random.randn(len(x)) - 1)
    import matplotlib.pyplot as plt
    plt.semilogx(x, y)
    plt.show()
    bootstrap3 = Bootstrap(mag, x, y, p, bounds=bounds, n_sims=10)
    from pprint import pprint
    pprint(bootstrap3.run())