# # @file TestUnitKind.py # @brief UnitKind enumeration unit tests # # @author Akiya Jouraku (Python conversion) # @author Ben Bornstein # # ====== WARNING ===== WARNING ===== WARNING ===== WARNING ===== WARNING ====== # # DO NOT EDIT THIS FILE. # # This file was generated automatically by converting the file located at # src/sbml/test/TestUnitKind.c # using the conversion program dev/utilities/translateTests/translateTests.pl. # Any changes made here will be lost the next time the file is regenerated. # # ----------------------------------------------------------------------------- # This file is part of libSBML. Please visit http://sbml.org for more # information about SBML, and the latest version of libSBML. # # Copyright 2005-2010 California Institute of Technology. # Copyright 2002-2005 California Institute of Technology and # Japan Science and Technology Corporation. # # This library is free software; you can redistribute it and/or modify it # under the terms of the GNU Lesser General Public License as published by # the Free Software Foundation. A copy of the license agreement is provided # in the file named "LICENSE.txt" included with this software distribution # and also available online as http://sbml.org/software/libsbml/license.html # ----------------------------------------------------------------------------- import sys import unittest import libsbml class TestUnitKind(unittest.TestCase): def test_UnitKind_equals(self): self.assertEqual( 1, libsbml.UnitKind_equals(libsbml.UNIT_KIND_AMPERE,libsbml.UNIT_KIND_AMPERE) ) self.assertEqual( 1, libsbml.UnitKind_equals(libsbml.UNIT_KIND_INVALID,libsbml.UNIT_KIND_INVALID) ) self.assertEqual( 1, libsbml.UnitKind_equals(libsbml.UNIT_KIND_LITER,libsbml.UNIT_KIND_LITER) ) self.assertEqual( 1, libsbml.UnitKind_equals(libsbml.UNIT_KIND_LITRE,libsbml.UNIT_KIND_LITRE) ) self.assertEqual( 1, libsbml.UnitKind_equals(libsbml.UNIT_KIND_METER,libsbml.UNIT_KIND_METER) ) self.assertEqual( 1, libsbml.UnitKind_equals(libsbml.UNIT_KIND_METRE,libsbml.UNIT_KIND_METRE) ) self.assertEqual( 1, libsbml.UnitKind_equals(libsbml.UNIT_KIND_LITER,libsbml.UNIT_KIND_LITRE) ) self.assertEqual( 1, libsbml.UnitKind_equals(libsbml.UNIT_KIND_LITRE,libsbml.UNIT_KIND_LITER) ) self.assertEqual( 1, libsbml.UnitKind_equals(libsbml.UNIT_KIND_METER,libsbml.UNIT_KIND_METRE) ) self.assertEqual( 1, libsbml.UnitKind_equals(libsbml.UNIT_KIND_METRE,libsbml.UNIT_KIND_METER) ) self.assertEqual( 0, libsbml.UnitKind_equals(libsbml.UNIT_KIND_AMPERE,libsbml.UNIT_KIND_WEBER) ) pass def test_UnitKind_forName(self): self.assertTrue( libsbml.UnitKind_forName("ampere") == libsbml.UNIT_KIND_AMPERE ) self.assertTrue( libsbml.UnitKind_forName("becquerel") == libsbml.UNIT_KIND_BECQUEREL ) self.assertTrue( libsbml.UnitKind_forName("candela") == libsbml.UNIT_KIND_CANDELA ) self.assertTrue( libsbml.UnitKind_forName("Celsius") == libsbml.UNIT_KIND_CELSIUS ) self.assertTrue( libsbml.UnitKind_forName("coulomb") == libsbml.UNIT_KIND_COULOMB ) self.assertTrue( libsbml.UnitKind_forName("dimensionless") == libsbml.UNIT_KIND_DIMENSIONLESS ) self.assertTrue( libsbml.UnitKind_forName("farad") == libsbml.UNIT_KIND_FARAD ) self.assertTrue( libsbml.UnitKind_forName("gram") == libsbml.UNIT_KIND_GRAM ) self.assertTrue( libsbml.UnitKind_forName("gray") == libsbml.UNIT_KIND_GRAY ) self.assertTrue( libsbml.UnitKind_forName("henry") == libsbml.UNIT_KIND_HENRY ) self.assertTrue( libsbml.UnitKind_forName("hertz") == libsbml.UNIT_KIND_HERTZ ) self.assertTrue( libsbml.UnitKind_forName("item") == libsbml.UNIT_KIND_ITEM ) self.assertTrue( libsbml.UnitKind_forName("joule") == libsbml.UNIT_KIND_JOULE ) self.assertTrue( libsbml.UnitKind_forName("katal") == libsbml.UNIT_KIND_KATAL ) self.assertTrue( libsbml.UnitKind_forName("kelvin") == libsbml.UNIT_KIND_KELVIN ) self.assertTrue( libsbml.UnitKind_forName("kilogram") == libsbml.UNIT_KIND_KILOGRAM ) self.assertTrue( libsbml.UnitKind_forName("liter") == libsbml.UNIT_KIND_LITER ) self.assertTrue( libsbml.UnitKind_forName("litre") == libsbml.UNIT_KIND_LITRE ) self.assertTrue( libsbml.UnitKind_forName("lumen") == libsbml.UNIT_KIND_LUMEN ) self.assertTrue( libsbml.UnitKind_forName("lux") == libsbml.UNIT_KIND_LUX ) self.assertTrue( libsbml.UnitKind_forName("meter") == libsbml.UNIT_KIND_METER ) self.assertTrue( libsbml.UnitKind_forName("metre") == libsbml.UNIT_KIND_METRE ) self.assertTrue( libsbml.UnitKind_forName("mole") == libsbml.UNIT_KIND_MOLE ) self.assertTrue( libsbml.UnitKind_forName("newton") == libsbml.UNIT_KIND_NEWTON ) self.assertTrue( libsbml.UnitKind_forName("ohm") == libsbml.UNIT_KIND_OHM ) self.assertTrue( libsbml.UnitKind_forName("pascal") == libsbml.UNIT_KIND_PASCAL ) self.assertTrue( libsbml.UnitKind_forName("radian") == libsbml.UNIT_KIND_RADIAN ) self.assertTrue( libsbml.UnitKind_forName("second") == libsbml.UNIT_KIND_SECOND ) self.assertTrue( libsbml.UnitKind_forName("siemens") == libsbml.UNIT_KIND_SIEMENS ) self.assertTrue( libsbml.UnitKind_forName("sievert") == libsbml.UNIT_KIND_SIEVERT ) self.assertTrue( libsbml.UnitKind_forName("steradian") == libsbml.UNIT_KIND_STERADIAN ) self.assertTrue( libsbml.UnitKind_forName("tesla") == libsbml.UNIT_KIND_TESLA ) self.assertTrue( libsbml.UnitKind_forName("volt") == libsbml.UNIT_KIND_VOLT ) self.assertTrue( libsbml.UnitKind_forName("watt") == libsbml.UNIT_KIND_WATT ) self.assertTrue( libsbml.UnitKind_forName("weber") == libsbml.UNIT_KIND_WEBER ) self.assertTrue( libsbml.UnitKind_forName(None) == libsbml.UNIT_KIND_INVALID ) self.assertTrue( libsbml.UnitKind_forName("") == libsbml.UNIT_KIND_INVALID ) self.assertTrue( libsbml.UnitKind_forName("foobar") == libsbml.UNIT_KIND_INVALID ) pass def test_UnitKind_isValidUnitKindString(self): self.assertEqual( 0, libsbml.UnitKind_isValidUnitKindString("fun-foam-unit for kids!",1,1) ) self.assertEqual( 1, libsbml.UnitKind_isValidUnitKindString("litre",2,2) ) self.assertEqual( 0, libsbml.UnitKind_isValidUnitKindString("liter",2,2) ) self.assertEqual( 1, libsbml.UnitKind_isValidUnitKindString("liter",1,2) ) self.assertEqual( 0, libsbml.UnitKind_isValidUnitKindString("meter",2,3) ) self.assertEqual( 1, libsbml.UnitKind_isValidUnitKindString("metre",2,1) ) self.assertEqual( 1, libsbml.UnitKind_isValidUnitKindString("meter",1,2) ) self.assertEqual( 1, libsbml.UnitKind_isValidUnitKindString("Celsius",2,1) ) self.assertEqual( 0, libsbml.UnitKind_isValidUnitKindString("Celsius",2,2) ) pass def test_UnitKind_toString(self): s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_AMPERE) self.assertTrue(( "ampere" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_BECQUEREL) self.assertTrue(( "becquerel" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_CANDELA) self.assertTrue(( "candela" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_CELSIUS) self.assertTrue(( "Celsius" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_COULOMB) self.assertTrue(( "coulomb" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_DIMENSIONLESS) self.assertTrue(( "dimensionless" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_FARAD) self.assertTrue(( "farad" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_GRAM) self.assertTrue(( "gram" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_GRAY) self.assertTrue(( "gray" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_HENRY) self.assertTrue(( "henry" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_HERTZ) self.assertTrue(( "hertz" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_ITEM) self.assertTrue(( "item" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_JOULE) self.assertTrue(( "joule" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_KATAL) self.assertTrue(( "katal" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_KELVIN) self.assertTrue(( "kelvin" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_KILOGRAM) self.assertTrue(( "kilogram" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_LITER) self.assertTrue(( "liter" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_LITRE) self.assertTrue(( "litre" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_LUMEN) self.assertTrue(( "lumen" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_LUX) self.assertTrue(( "lux" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_METER) self.assertTrue(( "meter" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_METRE) self.assertTrue(( "metre" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_MOLE) self.assertTrue(( "mole" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_NEWTON) self.assertTrue(( "newton" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_OHM) self.assertTrue(( "ohm" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_PASCAL) self.assertTrue(( "pascal" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_RADIAN) self.assertTrue(( "radian" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_SECOND) self.assertTrue(( "second" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_SIEMENS) self.assertTrue(( "siemens" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_SIEVERT) self.assertTrue(( "sievert" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_STERADIAN) self.assertTrue(( "steradian" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_TESLA) self.assertTrue(( "tesla" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_VOLT) self.assertTrue(( "volt" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_WATT) self.assertTrue(( "watt" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_WEBER) self.assertTrue(( "weber" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_INVALID) self.assertTrue(( "(Invalid UnitKind)" == s )) s = libsbml.UnitKind_toString(-1) self.assertTrue(( "(Invalid UnitKind)" == s )) s = libsbml.UnitKind_toString(libsbml.UNIT_KIND_INVALID + 1) self.assertTrue(( "(Invalid UnitKind)" == s )) pass def suite(): suite = unittest.TestSuite() suite.addTest(unittest.TestLoader.loadTestsFromTestCase(TestUnitKind)) return suite if __name__ == "__main__": if unittest.TextTestRunner(verbosity=1).run(suite()).wasSuccessful() : sys.exit(0) else: sys.exit(1)