fft_operator_support.py 4.54 KB
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# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program.  If not, see <http://www.gnu.org/licenses/>.
#
# Copyright(C) 2013-2017 Max-Planck-Society
#
# NIFTy is being developed at the Max-Planck-Institut fuer Astrophysik
# and financially supported by the Studienstiftung des deutschen Volkes.

from __future__ import division
import numpy as np
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from .. import nifty_utilities as utilities
from ..low_level_library import hartley
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from ..dobj import to_ndarray as to_np, from_ndarray as from_np
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from ..field import Field
from ..spaces.gl_space import GLSpace
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class Transformation(object):
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    def __init__(self, pdom, hdom, space):
        self.pdom = pdom
        self.hdom = hdom
        self.space = space
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class RGRGTransformation(Transformation):
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    def __init__(self, pdom, hdom, space):
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        import pyfftw
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        super(RGRGTransformation, self).__init__(pdom, hdom, space)
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        pyfftw.interfaces.cache.enable()
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        # correct for forward/inverse fft.
        # naively one would set power to 0.5 here in order to
        # apply effectively a factor of 1/sqrt(N) to the field.
        # BUT: the pixel volumes of the domain and codomain are different.
        # Hence, in order to produce the same scalar product, power==1.
        self.fct_p2h = pdom[space].scalar_dvol()
        self.fct_h2p = 1./(pdom[space].scalar_dvol()*hdom[space].dim)
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    @property
    def unitary(self):
        return True

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    def transform(self, x):
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        """
        RG -> RG transform method.

        Parameters
        ----------
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        x : Field
            The field to be transformed
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        """
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        axes = x.domain.axes[self.space]
        p2h = x.domain == self.pdom
        if p2h:
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            Tval = Field(self.hdom, from_np(hartley(to_np(x.val), axes)))
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        else:
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            Tval = Field(self.pdom, from_np(hartley(to_np(x.val), axes)))
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        fct = self.fct_p2h if p2h else self.fct_h2p
        if fct != 1:
            Tval *= fct
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        return Tval
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class SlicingTransformation(Transformation):
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    def transform(self, x):
        p2h = x.domain == self.pdom
        if p2h:
            res = Field(self.hdom, dtype=x.dtype)

            for slice in utilities.get_slice_list(x.shape,
                                                  x.domain.axes[self.space]):
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                res.val[slice] = from_np(self._slice_p2h(to_np(x.val[slice])))
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        else:
            res = Field(self.pdom, dtype=x.dtype)
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            for slice in utilities.get_slice_list(x.shape,
                                                  x.domain.axes[self.space]):
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                res.val[slice] = from_np(self._slice_h2p(to_np(x.val[slice])))
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        return res
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def buildLm(nr, lmax):
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    res = np.empty((len(nr)+lmax+1)//2, dtype=(nr[0]*1j).dtype)
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    res[0:lmax+1] = nr[0:lmax+1]
    res[lmax+1:] = np.sqrt(0.5)*(nr[lmax+1::2] + 1j*nr[lmax+2::2])
    return res


def buildIdx(nr, lmax):
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    res = np.empty((lmax+1)*(lmax+1), dtype=nr[0].real.dtype)
    res[0:lmax+1] = nr[0:lmax+1].real
    res[lmax+1::2] = np.sqrt(2)*nr[lmax+1:].real
    res[lmax+2::2] = np.sqrt(2)*nr[lmax+1:].imag
    return res
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class SphericalTransformation(SlicingTransformation):
    def __init__(self, pdom, hdom, space):
        super(SphericalTransformation, self).__init__(pdom, hdom, space)
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        from pyHealpix import sharpjob_d

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        self.lmax = self.hdom[self.space].lmax
        self.sjob = sharpjob_d()
        self.sjob.set_triangular_alm_info(self.hdom[self.space].lmax,
                                          self.hdom[self.space].mmax)
        if isinstance(self.pdom[self.space], GLSpace):
            self.sjob.set_Gauss_geometry(self.pdom[self.space].nlat,
                                         self.pdom[self.space].nlon)
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        else:
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            self.sjob.set_Healpix_geometry(self.pdom[self.space].nside)
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    @property
    def unitary(self):
        return False

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    def _slice_p2h(self, inp):
        rr = self.sjob.map2alm(inp)
        return buildIdx(rr, lmax=self.lmax)
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    def _slice_h2p(self, inp):
        result = buildLm(inp, lmax=self.lmax)
        return self.sjob.alm2map(result)