Пример #1
0
 def testReadSingleFile(self):
     """
     Test the correct interpretation of physical constants
     as definied in FMF version 1.1.
     """
     consts = LoadFMF.readSingleFile(self.FMFinput, "testReadSingleFile")[0].attributes[
         "Mathematical and Physical Constants"
     ]
     self.assertEqual(consts[u"Speed of light"][1], str2unit("1 c", FMFversion="1.1"))
     self.assertEqual(
         consts[u"Permeability of vacuum"][1],
         str2unit("1 mu0", FMFversion="1.1"),
         "The values differ by %s." % (consts[u"Permeability of vacuum"][1] - str2unit("1 mu0", FMFversion="1.1"),),
     )
     self.assertEqual(consts[u"Permittivity of vacuum"][1], str2unit("1 eps0", FMFversion="1.1"))
     self.assertEqual(consts[u"Gravitational constant"][1], str2unit("1 G", FMFversion="1.1"))
     self.assertEqual(consts[u"Planck constant"][1], str2unit("1 h", FMFversion="1.1"))
     self.assertEqual(consts[u"Planck constant / 2pi"][1], str2unit("1 hbar", FMFversion="1.1"))
     self.assertEqual(
         consts[u"Elementary charge"][1],
         str2unit("1 e", FMFversion="1.1"),
         "The elements %s and %s do not match."
         % (consts[u"Elementary charge"][1], str2unit("1 e", FMFversion="1.1")),
     )
     self.assertEqual(consts[u"Electron mass"][1], str2unit("1 me", FMFversion="1.1"))
     self.assertEqual(consts[u"Proton mass"][1], str2unit("1 mp", FMFversion="1.1"))
     self.assertEqual(consts[u"Avogadro number"][1], str2unit("1 NA", FMFversion="1.1"))
     self.assertEqual(consts[u"Boltzmann constant"][1], str2unit("1 k", FMFversion="1.1"))
     self.assertEqual(consts[u"Rydberg constant"][1], str2unit("1 Ryd", FMFversion="1.1"))
     consts = LoadFMF.readSingleFile(self.FMFinput, "testReadSingleFile")[0].attributes[
         "Additional constants changed from FMF version 1.0 to 1.1"
     ]
     self.assertEqual(consts[u"Parsec"][1], str2unit("1 pc", FMFversion="1.1"))
     self.assertEqual(consts[u"US gallon"][1], str2unit("1 galUS", FMFversion="1.1"))
     self.assertEqual(consts[u"Atomic mass units"][1], str2unit("1 u", FMFversion="1.1"))
Пример #2
0
 def testReadSingleFile(self):
     """
     Test the correct interpretation of physical constants
     as definied in FMF version 1.1.
     """
     consts = LoadFMF.readSingleFile(
         self.FMFinput, "testReadSingleFile"
     )[0].attributes['Mathematical and Physical Constants']
     self.assertEqual(consts[u'Speed of light'][1],
                      str2unit("1 c", FMFversion="1.1"))
     self.assertEqual(
         consts[u'Permeability of vacuum'][1],
         str2unit("1 mu0", FMFversion="1.1"),
         'The values differ by %s.' % (
             consts[u'Permeability of vacuum'][1] -\
             str2unit("1 mu0", FMFversion="1.1"),
             )
         )
     self.assertEqual(consts[u'Permittivity of vacuum'][1],
                      str2unit("1 eps0", FMFversion="1.1"))
     self.assertEqual(consts[u'Gravitational constant'][1],
                      str2unit("1 G", FMFversion="1.1"))
     self.assertEqual(consts[u'Planck constant'][1],
                      str2unit("1 h", FMFversion="1.1"))
     self.assertEqual(consts[u'Planck constant / 2pi'][1],
                      str2unit("1 hbar", FMFversion="1.1"))
     self.assertEqual(
         consts[u'Elementary charge'][1], str2unit("1 e", FMFversion="1.1"),
         'The elements %s and %s do not match.' %
         (consts[u'Elementary charge'][1], str2unit("1 e",
                                                    FMFversion="1.1")))
     self.assertEqual(consts[u'Electron mass'][1],
                      str2unit("1 me", FMFversion="1.1"))
     self.assertEqual(consts[u'Proton mass'][1],
                      str2unit("1 mp", FMFversion="1.1"))
     self.assertEqual(consts[u'Avogadro number'][1],
                      str2unit("1 NA", FMFversion="1.1"))
     self.assertEqual(consts[u'Boltzmann constant'][1],
                      str2unit("1 k", FMFversion="1.1"))
     self.assertEqual(consts[u'Rydberg constant'][1],
                      str2unit("1 Ryd", FMFversion="1.1"))
     consts = LoadFMF.readSingleFile(
         self.FMFinput, "testReadSingleFile")[0].attributes[
             'Additional constants changed from FMF version 1.0 to 1.1']
     self.assertEqual(consts[u'Parsec'][1],
                      str2unit("1 pc", FMFversion="1.1"))
     self.assertEqual(consts[u'US gallon'][1],
                      str2unit("1 galUS", FMFversion="1.1"))
     self.assertEqual(consts[u'Atomic mass units'][1],
                      str2unit("1 u", FMFversion="1.1"))
Пример #3
0
 def testReadSingleFile(self):
     """
     Test the correct interpretation of physical constants
     as definied in FMF version 1.0.
     """
     consts = LoadFMF.readSingleFile(
         self.FMFinput, "testReadSingleFile"
     )[0].attributes['Mathematical and Physical Constants']
     self.assertEqual(consts[u'Speed of light'][1],
                      str2unit("1 c", FMFversion="1.0"))
     self.assertEqual(consts[u'Speed of light'][1], str2unit("1 c"))
     self.assertEqual(consts[u'Permeability of vacuum'][1],
                      str2unit("1 mu0", FMFversion="1.0"))
     self.assertEqual(consts[u'Permittivity of vacuum'][1],
                      str2unit("1 eps0", FMFversion="1.0"))
     self.assertEqual(consts[u'Gravitational constant'][1],
                      str2unit("1 Grav", FMFversion="1.0"))
     self.assertTrue(consts[u'Planck constant'][1],
                     str2unit("1 hplanck", FMFversion="1.0"))
     self.almostEqual(consts[u'Planck constant / 2pi'][1],
                      str2unit("1 hbar", FMFversion="1.0"))
     self.almostEqual(consts[u'Elementary charge'][1],
                      str2unit("1 e", FMFversion="1.0"))
     self.assertNotEqual(
         consts[u'Elementary charge'][1], str2unit("1 e"),
         "Elementary charge has been adapted to new CODATA recommendations."
     )
     self.assertEqual(consts[u'Electron mass'][1],
                      str2unit("1 me", FMFversion="1.0"))
     self.assertNotEqual(
         consts[u'Electron mass'][1], str2unit("1 me"),
         "Electron mass has been adapted to new CODATA recommendations.")
     self.assertEqual(consts[u'Proton mass'][1],
                      str2unit("1 mp", FMFversion="1.0"))
     self.assertNotEqual(
         consts[u'Proton mass'][1], str2unit("1 mp"),
         "Proton mass has been adapted to new CODATA recommendations.")
     self.assertEqual(consts[u'Avogadro number'][1],
                      str2unit("1 Nav", FMFversion="1.0"))
     self.assertEqual(consts[u'Boltzmann constant'][1],
                      str2unit("1 k", FMFversion="1.0"))
     consts = LoadFMF.readSingleFile(
         self.FMFinput, "testReadSingleFile")[0].attributes[
             'Additional constants changed from FMF version 1.0 to 1.1']
     self.almostEqual(consts[u'Parsec'][1],
                      str2unit("1 pc", FMFversion="1.0"))
     self.almostEqual(consts[u'US gallon'][1],
                      str2unit("1 galUS", FMFversion="1.0"))
     self.assertEqual(consts[u'Atomic mass units'][1],
                      str2unit("1 amu", FMFversion="1.0"))
Пример #4
0
 def testReadSingleFile(self):
     """
     Test the correct interpretation of physical constants
     as definied in FMF version 1.0.
     """
     consts = LoadFMF.readSingleFile(self.FMFinput, "testReadSingleFile")[0].attributes[
         "Mathematical and Physical Constants"
     ]
     self.assertEqual(consts[u"Speed of light"][1], str2unit("1 c", FMFversion="1.0"))
     self.assertEqual(consts[u"Speed of light"][1], str2unit("1 c"))
     self.assertEqual(consts[u"Permeability of vacuum"][1], str2unit("1 mu0", FMFversion="1.0"))
     self.assertEqual(consts[u"Permittivity of vacuum"][1], str2unit("1 eps0", FMFversion="1.0"))
     self.assertEqual(consts[u"Gravitational constant"][1], str2unit("1 Grav", FMFversion="1.0"))
     self.assertTrue(consts[u"Planck constant"][1], str2unit("1 hplanck", FMFversion="1.0"))
     self.almostEqual(consts[u"Planck constant / 2pi"][1], str2unit("1 hbar", FMFversion="1.0"))
     self.almostEqual(consts[u"Elementary charge"][1], str2unit("1 e", FMFversion="1.0"))
     self.assertNotEqual(
         consts[u"Elementary charge"][1],
         str2unit("1 e"),
         "Elementary charge has been adapted to new CODATA recommendations.",
     )
     self.assertEqual(consts[u"Electron mass"][1], str2unit("1 me", FMFversion="1.0"))
     self.assertNotEqual(
         consts[u"Electron mass"][1],
         str2unit("1 me"),
         "Electron mass has been adapted to new CODATA recommendations.",
     )
     self.assertEqual(consts[u"Proton mass"][1], str2unit("1 mp", FMFversion="1.0"))
     self.assertNotEqual(
         consts[u"Proton mass"][1], str2unit("1 mp"), "Proton mass has been adapted to new CODATA recommendations."
     )
     self.assertEqual(consts[u"Avogadro number"][1], str2unit("1 Nav", FMFversion="1.0"))
     self.assertEqual(consts[u"Boltzmann constant"][1], str2unit("1 k", FMFversion="1.0"))
     consts = LoadFMF.readSingleFile(self.FMFinput, "testReadSingleFile")[0].attributes[
         "Additional constants changed from FMF version 1.0 to 1.1"
     ]
     self.almostEqual(consts[u"Parsec"][1], str2unit("1 pc", FMFversion="1.0"))
     self.almostEqual(consts[u"US gallon"][1], str2unit("1 galUS", FMFversion="1.0"))
     self.assertEqual(consts[u"Atomic mass units"][1], str2unit("1 amu", FMFversion="1.0"))
Пример #5
0
 def testReadSingleFile(self):
     """
     Test the correct interpretation of physical constants
     as definied in FMF version 1.1.
     """
     consts = LoadFMF.readSingleFile(
         self.FMFinput, "testReadSingleFile")[0].attributes[
         'Mathematical and Physical Constants'
         ]
     self.assertEqual(
         consts[u'Speed of light'][1], str2unit("1 c", FMFversion="1.1")
         )
     self.assertEqual(
         consts[u'Permeability of vacuum'][1],
         str2unit("1 mu0", FMFversion="1.1"),
         'The values differ by %s.' % (
             consts[u'Permeability of vacuum'][1] -\
             str2unit("1 mu0", FMFversion="1.1"),
             )
         )
     self.assertEqual(
         consts[u'Permittivity of vacuum'][1],
         str2unit("1 eps0", FMFversion="1.1")
         )
     self.assertEqual(
         consts[u'Gravitational constant'][1],
         str2unit("1 G", FMFversion="1.1")
         )
     self.assertEqual(
         consts[u'Planck constant'][1],
         str2unit("1 h", FMFversion="1.1")
         )
     self.assertEqual(
         consts[u'Planck constant / 2pi'][1],
         str2unit("1 hbar", FMFversion="1.1")
         )
     self.assertEqual(
         consts[u'Elementary charge'][1], str2unit("1 e",FMFversion="1.1"),
         'The elements %s and %s do not match.' % (
             consts[u'Elementary charge'][1],
             str2unit("1 e", FMFversion="1.1")
             )
         )
     self.assertEqual(
         consts[u'Electron mass'][1], str2unit("1 me", FMFversion="1.1")
         )
     self.assertEqual(
         consts[u'Proton mass'][1], str2unit("1 mp", FMFversion="1.1")
         )
     self.assertEqual(
         consts[u'Avogadro number'][1], str2unit("1 NA", FMFversion="1.1")
         )
     self.assertEqual(
         consts[u'Boltzmann constant'][1], str2unit("1 k",FMFversion="1.1")
         )
     self.assertEqual(
         consts[u'Rydberg constant'][1], str2unit("1 Ryd", FMFversion="1.1")
         )
     consts = LoadFMF.readSingleFile(
         self.FMFinput, "testReadSingleFile")[0].attributes[
         'Additional constants changed from FMF version 1.0 to 1.1'
         ]
     self.assertEqual(
         consts[u'Parsec'][1], str2unit("1 pc", FMFversion="1.1")
         )
     self.assertEqual(
         consts[u'US gallon'][1], str2unit("1 galUS", FMFversion="1.1")
         )
     self.assertEqual(
         consts[u'Atomic mass units'][1], str2unit("1 u", FMFversion="1.1")
         )