test_field.py 4.96 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
from numpy.testing import assert_,\
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                          assert_almost_equal,\
                          assert_allclose
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from nose.plugins.skip import SkipTest
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from itertools import product
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from nifty import Field,\
                  RGSpace,\
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                  LMSpace,\
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                  PowerSpace,\
                  nifty_configuration
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from test.common import expand
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SPACES = [RGSpace((4,)), RGSpace((5))]
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SPACE_COMBINATIONS = [(), SPACES[0], SPACES[1], SPACES]
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class Test_Interface(unittest.TestCase):
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    @expand(product(SPACE_COMBINATIONS,
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                    [['domain', tuple],
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                     ['domain_axes', tuple],
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                     ['val', np.ndarray],
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                     ['shape', tuple],
                     ['dim', np.int],
                     ['dof', np.int],
                     ['total_volume', np.float]]))
    def test_return_types(self, domain, attribute_desired_type):
        attribute = attribute_desired_type[0]
        desired_type = attribute_desired_type[1]
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        f = Field(domain=domain)
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        assert_(isinstance(getattr(f, attribute), desired_type))

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class Test_Functionality(unittest.TestCase):
    @expand(product([True, False], [True, False],
                    [True, False], [True, False],
                    [(1,), (4,), (5,)], [(1,), (6,), (7,)]))
    def test_hermitian_decomposition(self, z1, z2, preserve, complexdata,
                                     s1, s2):
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        try:
            r1 = RGSpace(s1, harmonic=True, zerocenter=(z1,))
            r2 = RGSpace(s2, harmonic=True, zerocenter=(z2,))
            ra = RGSpace(s1+s2, harmonic=True, zerocenter=(z1, z2))
        except ValueError:
            raise SkipTest
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        if preserve:
            complexdata=True
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        v = np.random.random(s1+s2)
        if complexdata:
            v = v + 1j*np.random.random(s1+s2)
        f1 = Field(ra, val=v, copy=True)
        f2 = Field((r1, r2), val=v, copy=True)
        h1, a1 = Field._hermitian_decomposition((ra,), f1.val, (0,),
                                                ((0, 1,),), preserve)
        h2, a2 = Field._hermitian_decomposition((r1, r2), f2.val, (0, 1),
                                                ((0,), (1,)), preserve)
        h3, a3 = Field._hermitian_decomposition((r1, r2), f2.val, (1, 0),
                                                ((0,), (1,)), preserve)

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        assert_almost_equal(h1, h2)
        assert_almost_equal(a1, a2)
        assert_almost_equal(h1, h3)
        assert_almost_equal(a1, a3)
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    @expand(product([RGSpace((8,), harmonic=True,
                             zerocenter=False),
                     RGSpace((8, 8), harmonic=True, distances=0.123,
                             zerocenter=True)],
                    [RGSpace((8,), harmonic=True,
                             zerocenter=False),
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                     LMSpace(12)],
                    ['real', 'complex']))
    def test_power_synthesize_analyze(self, space1, space2, base):
        nifty_configuration['harmonic_rg_base'] = base

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        np.random.seed(11)
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        p1 = PowerSpace(space1)
        spec1 = lambda k: 42/(1+k)**2
        fp1 = Field(p1, val=spec1)

        p2 = PowerSpace(space2)
        spec2 = lambda k: 42/(1+k)**3
        fp2 = Field(p2, val=spec2)

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        outer = np.outer(fp1.val, fp2.val)
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        fp = Field((p1, p2), val=outer)

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        samples = 2000
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        ps1 = 0.
        ps2 = 0.
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        for ii in range(samples):
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            sk = fp.power_synthesize(spaces=(0, 1), real_signal=True)

            sp = sk.power_analyze(spaces=(0, 1), keep_phase_information=False)
            ps1 += sp.sum(spaces=1)/fp2.sum()
            ps2 += sp.sum(spaces=0)/fp1.sum()

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        assert_allclose(ps1.val/samples,
                        fp1.val,
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                        rtol=0.2)
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        assert_allclose(ps2.val/samples,
                        fp2.val,
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                        rtol=0.2)
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    def test_vdot(self):
        s=RGSpace((10,))
        f1=Field.from_random("normal",domain=s,dtype=np.complex128)
        f2=Field.from_random("normal",domain=s,dtype=np.complex128)
        assert_allclose(f1.vdot(f2),f1.vdot(f2,spaces=0))
        assert_allclose(f1.vdot(f2),np.conj(f2.vdot(f1)))