Removed duplicated code

master
Per A Brodtkorb 8 years ago
parent 311437f05c
commit 082835478e

@ -116,11 +116,11 @@ def osc_weights(omega, g, dg, x, basis, ab, *args, **kwds):
return np.asarray(w).ravel()
class QuadOsc(object):
class _Integrator(object):
info = namedtuple('info', ['error_estimate', 'n'])
def __init__(self, f, g, dg=None, a=-1, b=1, basis=chebyshev_basis, s=15,
precision=10, endpoints=False, maxiter=17, full_output=False):
def __init__(self, f, g, dg=None, a=-1, b=1, basis=chebyshev_basis, s=1,
precision=10, endpoints=True, full_output=False):
self.f = f
self.g = g
self.dg = nd.Derivative(g) if dg is None else dg
@ -129,10 +129,18 @@ class QuadOsc(object):
self.b = b
self.s = s
self.endpoints = endpoints
self.maxiter = maxiter
self.precision = precision
self.full_output = full_output
class QuadOsc(_Integrator):
def __init__(self, f, g, dg=None, a=-1, b=1, basis=chebyshev_basis, s=15,
precision=10, endpoints=False, full_output=False, maxiter=17):
self.maxiter = maxiter
super(QuadOsc, self).__init__(f, g, dg=dg, a=a, b=b, basis=basis, s=s,
precision=precision, endpoints=endpoints,
full_output=full_output)
@staticmethod
def _change_interval_to_0_1(f, g, dg, a, b):
def f1(t, *args, **kwds):
@ -344,22 +352,8 @@ def chebyshev_roots(M, delta=None):
return x
class AdaptiveLevin(object):
class AdaptiveLevin(_Integrator):
'''Return integral for the Levin-type and adaptive Levin-type methods'''
info = namedtuple('info', ['error_estimate', 'n'])
def __init__(self, f, g, dg=None, a=-1, b=1, basis=chebyshev_basis, s=1,
precision=10, endpoints=True, full_output=False):
self.f = f
self.g = g
self.dg = nd.Derivative(g) if dg is None else dg
self.basis = basis
self.a = a
self.b = b
self.s = s
self.precision = precision
self.endpoints = endpoints
self.full_output = full_output
@staticmethod
def aLevinTQ(omega, ff, gg, dgg, x, s, basis, *args, **kwds):
@ -510,16 +504,10 @@ class EvansWebster(AdaptiveLevin):
def __init__(self, f, g, dg=None, a=-1, b=1, basis=chebyshev_basis, s=8,
precision=10, endpoints=False, full_output=False):
self.f = f
self.g = g
self.dg = nd.Derivative(g) if dg is None else dg
self.basis = basis
self.a = a
self.b = b
self.s = s
self.endpoints = endpoints
self.precision = precision
self.full_output = full_output
super(EvansWebster,
self).__init__(f, g, dg=dg, a=a, b=b, basis=basis, s=s,
precision=precision, endpoints=endpoints,
full_output=full_output)
def aLevinTQ(self, omega, ff, gg, dgg, x, s, basis, *args, **kwds):
w = evans_webster_weights(omega, gg, dgg, x, basis, *args, **kwds)
@ -531,55 +519,6 @@ class EvansWebster(AdaptiveLevin):
def _get_num_points(self, s, prec, betam):
return 8 if s > 1 else int(prec / max(np.log10(betam + 1), 1) + 1)
# def _QaL(self, s, a, b, omega, *args, **kwds):
# '''if s>1,the integral is computed by Q_s^L'''
# scale = (b - a) / 2
# offset = (a + b) / 2
# prec = self.precision # desired precision
#
# def ff(t, *args, **kwds):
# return scale * self.f(scale * t + offset, *args, **kwds)
#
# def gg(t, *args, **kwds):
# return self.g(scale * t + offset, *args, **kwds)
#
# def dgg(t, *args, **kwds):
# return scale * self.dg(scale * t + offset, *args, **kwds)
# dg_a = abs(omega * dgg(-1, *args, **kwds))
# dg_b = abs(omega * dgg(1, *args, **kwds))
# g_a = abs(omega * gg(-1, *args, **kwds))
# g_b = abs(omega * gg(1, *args, **kwds))
# delta, alpha = min(dg_a, dg_b), min(g_a, g_b)
#
# betam = delta # * scale
# if self.endpoints:
# if (delta < 10 or alpha <= 10 or s > 1):
# points = chebyshev_extrema
# else:
# points = adaptive_levin_points
# elif (delta < 10 or alpha <= 10 or s > 1):
# points = chebyshev_roots
# else:
# points = tanh_sinh_open_nodes
#
# m = 8 if s > 1 else int(prec / max(np.log10(betam + 1), 1) + 1)
# abseps = 10*10.0**-prec
# num_collocation_point_list = 2*m*np.arange(1, 6, 2)
# # range(num_points, num_points+3, 2)
# basis = self.basis
# Q = 1e+300
# n = 0
# for num_collocation_points in num_collocation_point_list:
# Q_old = Q
# x = points(num_collocation_points-1, betam)
# Q = self.aLevinTQ(omega, ff, gg, dgg, x, s, basis, *args, **kwds)
# n += num_collocation_points
# err = np.abs(Q-Q_old)
# if err <= abseps:
# break
# info = self.info(err, n)
# return Q, info
if __name__ == '__main__':
tanh_sinh_nodes(16)

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