test_smoothing_operator.py 4.52 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/>.
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#
# 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.
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import unittest
import numpy as np
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from numpy.testing import assert_equal, assert_allclose
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from nifty2go import Field,\
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    RGSpace,\
    PowerSpace,\
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    FFTSmoothingOperator,\
    DirectSmoothingOperator
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from itertools import product
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from test.common import expand, marco_binbounds
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def _get_rtol(tp):
    if (tp == np.float64) or (tp == np.complex128):
        return 1e-10
    else:
        return 1e-5

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class SmoothingOperator_Tests(unittest.TestCase):
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    spaces = [RGSpace(128)]
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    @expand(product(spaces, [0., .5, 5.]))
    def test_property(self, space, sigma):
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        op = FFTSmoothingOperator(space, sigma=sigma)
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        if op.domain[0] != space:
            raise TypeError
        if op.unitary != False:
            raise ValueError
        if op.self_adjoint != True:
            raise ValueError
        if op.sigma != sigma:
            raise ValueError

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    @expand(product(spaces, [0., .5, 5.]))
    def test_adjoint_times(self, space, sigma):
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        op = FFTSmoothingOperator(space, sigma=sigma)
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        rand1 = Field.from_random('normal', domain=space)
        rand2 = Field.from_random('normal', domain=space)
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        tt1 = rand1.vdot(op.times(rand2))
        tt2 = rand2.vdot(op.adjoint_times(rand1))
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        assert_allclose(tt1, tt2)
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    @expand(product(spaces, [0., .5, 5.]))
    def test_times(self, space, sigma):
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        op = FFTSmoothingOperator(space, sigma=sigma)
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        rand1 = Field(space, val=0.)
        rand1.val[0] = 1.
        tt1 = op.times(rand1)
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        assert_allclose(1, tt1.sum())
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    @expand(product([128, 256], [1, 0.4], [0., 1.,  3.7],
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                    [np.float64, np.complex128]))
    def test_smooth_regular1(self, sz, d, sigma, tp):
        tol = _get_rtol(tp)
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        sp = RGSpace(sz, distances=d)
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        smo = FFTSmoothingOperator(sp, sigma=sigma)
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        inp = Field.from_random(domain=sp, random_type='normal', std=1, mean=4,
                                dtype=tp)
        out = smo(inp)
        assert_allclose(inp.sum(), out.sum(), rtol=tol, atol=tol)

    @expand(product([10, 15], [7, 10], [1, 0.4], [2, 0.3], [0., 1.,  3.7],
                    [np.float64, np.complex128]))
    def test_smooth_regular2(self, sz1, sz2, d1, d2, sigma, tp):
        tol = _get_rtol(tp)
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        sp = RGSpace([sz1, sz2], distances=[d1, d2])
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        smo = FFTSmoothingOperator(sp, sigma=sigma)
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        inp = Field.from_random(domain=sp, random_type='normal', std=1, mean=4,
                                dtype=tp)
        out = smo(inp)
        assert_allclose(inp.sum(), out.sum(), rtol=tol, atol=tol)

    @expand(product([100, 200], [False, True], [0., 1.,  3.7],
                    [np.float64, np.complex128]))
    def test_smooth_irregular1(self, sz, log, sigma, tp):
        tol = _get_rtol(tp)
        sp = RGSpace(sz, harmonic=True)
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        ps = PowerSpace(sp, binbounds=marco_binbounds(
                                                sp, logarithmic=log, nbin=sz))
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        smo = DirectSmoothingOperator(ps, sigma=sigma)
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        inp = Field.from_random(domain=ps, random_type='normal', std=1, mean=4,
                                dtype=tp)
        out = smo(inp)
        assert_allclose(inp.sum(), out.sum(), rtol=tol, atol=tol)

    @expand(product([10, 15], [7, 10], [False, True], [0., 1.,  3.7],
                    [np.float64, np.complex128]))
    def test_smooth_irregular2(self, sz1, sz2, log, sigma, tp):
        tol = _get_rtol(tp)
        sp = RGSpace([sz1, sz2], harmonic=True)
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        ps = PowerSpace(sp, binbounds=marco_binbounds(sp, logarithmic=log))
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        smo = DirectSmoothingOperator(ps, sigma=sigma)
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        inp = Field.from_random(domain=ps, random_type='normal', std=1, mean=4,
                                dtype=tp)
        out = smo(inp)
        assert_allclose(inp.sum(), out.sum(), rtol=tol, atol=tol)