本文整理汇总了Python中scipy.interpolate.RectBivariateSpline.y方法的典型用法代码示例。如果您正苦于以下问题:Python RectBivariateSpline.y方法的具体用法?Python RectBivariateSpline.y怎么用?Python RectBivariateSpline.y使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类scipy.interpolate.RectBivariateSpline
的用法示例。
在下文中一共展示了RectBivariateSpline.y方法的1个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: qlf
# 需要导入模块: from scipy.interpolate import RectBivariateSpline [as 别名]
# 或者: from scipy.interpolate.RectBivariateSpline import y [as 别名]
def qlf(cosmology, band, magnitude=False, returnraw=False):
""" returns an scipy interpolated function for the hopkins 2007 QLF,
at a given band.
band can be a frequency, or 'bol', 'blue', 'ir', 'soft', 'hard'.
HOPKINS2007 cosmology is implied.
result shall not depend on the input cosmology but the HOPKINS cosmology
is implied in the fits.
if return raw is true, return
zrange, Lbol, Lband, M_AB, S_nu, Phi
"""
zbins = numpy.linspace(0, 6, 200)
Lbolbins=numpy.linspace(8, 18, 300)
U = cosmology.units
banddict = {'bol':0, 'blue':-1, 'ir':-2, 'soft':-3, 'hard': -4}
from scipy.interpolate import RectBivariateSpline
if band in banddict:
band = banddict[band]
else: band = _bandconv(U, band, hertz=True)
key = band
if key not in _qlf_interp:
v = numpy.empty(numpy.broadcast(Lbolbins[None, :], zbins[:, None]).shape)
Lband, M_AB, S_nu, Phi = _qlf.qlf(band, 1.0, Lbolbins)
with sharedmem.TPool() as pool:
def work(v, z):
Lband_, M_AB_, S_nu, Phi = _qlf.qlf(band, z, Lbolbins)
v[:] = Phi
pool.starmap(work, zip(v, zbins))
v /= (U.MPC ** 3)
# Notice that hopkins used 3.9e33 ergs/s for Lsun, but we use a different number.
# but the internal fits of his numbers
# thus we skip the conversion, in order to match the fits with luminosity in terms of Lsun.
# Lbol = Lbol - numpy.log10(U.SOLARLUMINOSITY/U.ERG*U.SECOND) + numpy.log10(3.9e33)
data = numpy.empty(shape=len(Lbolbins),
dtype=[
('Lbol', 'f4'),
('Lband', 'f4'),
('M_AB', 'f4'),
('S_nu', 'f4'),
('Phi', ('f4', v.shape[0]))])
data['Lbol'] = Lbolbins
data['Lband'] = Lband
data['M_AB'] = M_AB
data['S_nu'] = S_nu
data['Phi'] = v.T
_qlf_interp[key] = data
data = _qlf_interp[key]
if returnraw:
return data.view(numpy.recarray)
if magnitude:
func = RectBivariateSpline(zbins, - data['M_AB'], data['Phi'].T)
func.x = zbins
func.y = -data['M_AB']
func.z = data['Phi'].T
return func
else:
func = RectBivariateSpline(zbins, data['Lband'], data['Phi'].T)
func.x = zbins
func.y = data['Lband']
func.z = data['Phi'].T
return func