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@@ -30,14 +30,15 @@
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# You should have received a copy of the GNU General Public License
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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-__version__ = '2.3'
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-__title__ = 'Calculation of the scattering of EM radiation by a multilayered sphere'
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-__mod__ = 'python-scattnlay'
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-__author__ = 'Ovidio Peña Rodríguez'
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-__email__ = 'ovidio@bytesfall.com'
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-__url__ = 'https://github.com/ovidiopr/scattnlay'
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-__download_url__ = 'https://github.com/ovidiopr/scattnlay/archive/v' + \
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- __version__+'.0.tar.gz'
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+__version__ = "2.3"
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+__title__ = "Calculation of the scattering of EM radiation by a multilayered sphere"
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+__mod__ = "python-scattnlay"
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+__author__ = "Ovidio Peña Rodríguez"
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+__email__ = "ovidio@bytesfall.com"
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+__url__ = "https://github.com/ovidiopr/scattnlay"
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+__download_url__ = (
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+ "https://github.com/ovidiopr/scattnlay/archive/v" + __version__ + ".0.tar.gz"
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+)
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from setuptools import setup
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from setuptools import setup
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from setuptools.extension import Extension
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from setuptools.extension import Extension
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@@ -45,21 +46,23 @@ import numpy as np
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import pybind11 as pb
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import pybind11 as pb
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-ext_dp = Extension("scattnlay_dp",
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- ["src/pb11-wrapper.cc"],
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- language="c++",
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- include_dirs=[np.get_include(), pb.get_include()],
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- # extra_compile_args=['-std=c++11']
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- )
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+ext_dp = Extension(
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+ "scattnlay_dp",
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+ ["src/pb11-wrapper.cc"],
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+ language="c++",
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+ include_dirs=[np.get_include(), pb.get_include()],
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+ extra_compile_args=["-std=c++11"],
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+)
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# extra_compile_args=['-std=c++11', '-O3',
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# extra_compile_args=['-std=c++11', '-O3',
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# '-mavx2', '-mfma',
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# '-mavx2', '-mfma',
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# '-finline-limit=1000000', '-ffp-contract=fast']),
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# '-finline-limit=1000000', '-ffp-contract=fast']),
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-ext_mp = Extension("scattnlay_mp",
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- ["src/pb11-wrapper.cc"],
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- language="c++",
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- include_dirs=[np.get_include(), pb.get_include()],
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- extra_compile_args=[ # '-std=c++11',
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- '-DMULTI_PRECISION=100'])
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+ext_mp = Extension(
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+ "scattnlay_mp",
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+ [" src/pb11-wrapper.cc"],
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+ language="c++",
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+ include_dirs=[np.get_include(), pb.get_include()],
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+ extra_compile_args=["-std=c++11", "-DMULTI_PRECISION=100"],
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+)
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# extra_compile_args=['-std=c++11', '-O3',
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# extra_compile_args=['-std=c++11', '-O3',
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# '-mavx2', '-mfma',
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# '-mavx2', '-mfma',
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# '-finline-limit=1000000', '-ffp-contract=fast',
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# '-finline-limit=1000000', '-ffp-contract=fast',
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@@ -67,33 +70,38 @@ ext_mp = Extension("scattnlay_mp",
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def run_setup(extensions):
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def run_setup(extensions):
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- setup(name=__mod__,
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- version=__version__,
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- description=__title__,
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- long_description="""The Python version of scattnlay, a computer implementation of the algorithm for the \
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+ setup(
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+ name=__mod__,
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+ version=__version__,
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+ description=__title__,
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+ long_description="""The Python version of scattnlay, a computer implementation of the algorithm for the \
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calculation of electromagnetic radiation scattering by a multilayered sphere developed by Yang. It has been \
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calculation of electromagnetic radiation scattering by a multilayered sphere developed by Yang. It has been \
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shown that the program is effective, resulting in very accurate values of scattering efficiencies for a wide \
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shown that the program is effective, resulting in very accurate values of scattering efficiencies for a wide \
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range of size parameters, which is a considerable improvement over previous implementations of similar algorithms. \
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range of size parameters, which is a considerable improvement over previous implementations of similar algorithms. \
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For details see: O. Pena, U. Pal, Comput. Phys. Commun. 180 (2009) 2348-2354.""",
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For details see: O. Pena, U. Pal, Comput. Phys. Commun. 180 (2009) 2348-2354.""",
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- author=__author__,
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- author_email=__email__,
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- maintainer=__author__,
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- maintainer_email=__email__,
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- keywords=['Mie scattering', 'Multilayered sphere',
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- 'Efficiency factors', 'Cross-sections'],
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- url=__url__,
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- download_url=__download_url__,
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- license='GPL',
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- platforms='any',
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- packages=['scattnlay'], # , 'scattnlay_dp', 'scattnlay_mp'],
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- test_suite="tests",
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- ext_modules=extensions,
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- install_requires=['numpy']
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- )
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+ author=__author__,
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+ author_email=__email__,
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+ maintainer=__author__,
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+ maintainer_email=__email__,
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+ keywords=[
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+ "Mie scattering",
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+ "Multilayered sphere",
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+ "Efficiency factors",
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+ "Cross-sections",
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+ ],
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+ url=__url__,
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+ download_url=__download_url__,
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+ license="GPL",
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+ platforms="any",
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+ packages=["scattnlay"], # , 'scattnlay_dp', 'scattnlay_mp'],
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+ test_suite="tests",
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+ ext_modules=extensions,
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+ install_requires=["numpy"],
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+ )
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try:
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try:
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run_setup([ext_dp, ext_mp])
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run_setup([ext_dp, ext_mp])
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except:
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except:
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- print('Failed to build all extensions... Building only in double precision...')
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+ print("Failed to build all extensions... Building only in double precision...")
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run_setup([ext_dp])
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run_setup([ext_dp])
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