# # @file TestKineticLaw_newSetters.py # @brief KineticLaw unit tests for new set function API # # @author Akiya Jouraku (Python conversion) # @author Sarah Keating # # ====== WARNING ===== WARNING ===== WARNING ===== WARNING ===== WARNING ====== # # DO NOT EDIT THIS FILE. # # This file was generated automatically by converting the file located at # src/sbml/test/TestKineticLaw_newSetters.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 TestKineticLaw_newSetters(unittest.TestCase): global kl kl = None def setUp(self): self.kl = libsbml.KineticLaw(2,4) if (self.kl == None): pass pass def tearDown(self): _dummyList = [ self.kl ]; _dummyList[:] = []; del _dummyList pass def test_KineticLaw_addParameter1(self): self.kl = libsbml.KineticLaw(2,2) p = libsbml.Parameter(2,2) i = self.kl.addParameter(p) self.assertTrue( i == libsbml.LIBSBML_INVALID_OBJECT ) p.setId( "p") i = self.kl.addParameter(p) self.assertTrue( i == libsbml.LIBSBML_OPERATION_SUCCESS ) self.assertTrue( self.kl.getNumParameters() == 1 ) _dummyList = [ p ]; _dummyList[:] = []; del _dummyList _dummyList = [ self.kl ]; _dummyList[:] = []; del _dummyList pass def test_KineticLaw_addParameter2(self): self.kl = libsbml.KineticLaw(2,2) p = libsbml.Parameter(2,1) p.setId( "p") i = self.kl.addParameter(p) self.assertTrue( i == libsbml.LIBSBML_VERSION_MISMATCH ) self.assertTrue( self.kl.getNumParameters() == 0 ) _dummyList = [ p ]; _dummyList[:] = []; del _dummyList _dummyList = [ self.kl ]; _dummyList[:] = []; del _dummyList pass def test_KineticLaw_addParameter3(self): self.kl = libsbml.KineticLaw(2,2) p = libsbml.Parameter(1,2) p.setId( "p") i = self.kl.addParameter(p) self.assertTrue( i == libsbml.LIBSBML_LEVEL_MISMATCH ) self.assertTrue( self.kl.getNumParameters() == 0 ) _dummyList = [ p ]; _dummyList[:] = []; del _dummyList _dummyList = [ self.kl ]; _dummyList[:] = []; del _dummyList pass def test_KineticLaw_addParameter4(self): self.kl = libsbml.KineticLaw(2,2) p = None i = self.kl.addParameter(p) self.assertTrue( i == libsbml.LIBSBML_OPERATION_FAILED ) self.assertTrue( self.kl.getNumParameters() == 0 ) _dummyList = [ self.kl ]; _dummyList[:] = []; del _dummyList pass def test_KineticLaw_createParameter(self): self.kl = libsbml.KineticLaw(2,2) p = self.kl.createParameter() self.assertTrue( self.kl.getNumParameters() == 1 ) self.assertTrue( (p).getLevel() == 2 ) self.assertTrue( (p).getVersion() == 2 ) _dummyList = [ self.kl ]; _dummyList[:] = []; del _dummyList pass def test_KineticLaw_setFormula1(self): formula = "k1*X0"; i = self.kl.setFormula(formula) self.assertTrue( i == libsbml.LIBSBML_OPERATION_SUCCESS ) self.assertTrue(( formula == self.kl.getFormula() )) self.assertEqual( True, self.kl.isSetFormula() ) pass def test_KineticLaw_setFormula2(self): i = self.kl.setFormula("") self.assertTrue( i == libsbml.LIBSBML_OPERATION_SUCCESS ) self.assertEqual( False, self.kl.isSetFormula() ) pass def test_KineticLaw_setFormula3(self): formula = "k1 X0"; i = self.kl.setFormula(formula) self.assertTrue( i == libsbml.LIBSBML_INVALID_OBJECT ) self.assertEqual( False, self.kl.isSetFormula() ) pass def test_KineticLaw_setMath1(self): math = libsbml.ASTNode(libsbml.AST_TIMES) a = libsbml.ASTNode() b = libsbml.ASTNode() a.setName( "a") b.setName( "b") math.addChild(a) math.addChild(b) i = self.kl.setMath(math) self.assertTrue( i == libsbml.LIBSBML_OPERATION_SUCCESS ) self.assertEqual( True, self.kl.isSetMath() ) math1 = self.kl.getMath() self.assertTrue( math1 != None ) formula = libsbml.formulaToString(math1) self.assertTrue( formula != None ) self.assertTrue(( "a * b" == formula )) _dummyList = [ math ]; _dummyList[:] = []; del _dummyList pass def test_KineticLaw_setMath2(self): math = libsbml.ASTNode(libsbml.AST_DIVIDE) a = libsbml.ASTNode() a.setName( "a") math.addChild(a) i = self.kl.setMath(math) self.assertTrue( i == libsbml.LIBSBML_INVALID_OBJECT ) self.assertEqual( False, self.kl.isSetMath() ) _dummyList = [ math ]; _dummyList[:] = []; del _dummyList pass def test_KineticLaw_setMath3(self): i = self.kl.setMath(None) self.assertTrue( i == libsbml.LIBSBML_OPERATION_SUCCESS ) self.assertEqual( False, self.kl.isSetMath() ) pass def test_KineticLaw_setSubstanceUnits1(self): i = self.kl.setSubstanceUnits( "mole") self.assertTrue( i == libsbml.LIBSBML_UNEXPECTED_ATTRIBUTE ) self.assertEqual( False, self.kl.isSetSubstanceUnits() ) i = self.kl.unsetSubstanceUnits() self.assertTrue( i == libsbml.LIBSBML_UNEXPECTED_ATTRIBUTE ) self.assertEqual( False, self.kl.isSetSubstanceUnits() ) pass def test_KineticLaw_setSubstanceUnits2(self): kl1 = libsbml.KineticLaw(1,2) i = kl1.setSubstanceUnits( "mole") self.assertTrue( i == libsbml.LIBSBML_OPERATION_SUCCESS ) self.assertEqual( True, kl1.isSetSubstanceUnits() ) i = kl1.unsetSubstanceUnits() self.assertTrue( i == libsbml.LIBSBML_OPERATION_SUCCESS ) self.assertEqual( False, kl1.isSetSubstanceUnits() ) _dummyList = [ kl1 ]; _dummyList[:] = []; del _dummyList pass def test_KineticLaw_setSubstanceUnits3(self): kl1 = libsbml.KineticLaw(1,2) i = kl1.setSubstanceUnits( "1second") self.assertTrue( i == libsbml.LIBSBML_INVALID_ATTRIBUTE_VALUE ) self.assertEqual( False, kl1.isSetSubstanceUnits() ) i = kl1.unsetSubstanceUnits() self.assertTrue( i == libsbml.LIBSBML_OPERATION_SUCCESS ) self.assertEqual( False, kl1.isSetSubstanceUnits() ) _dummyList = [ kl1 ]; _dummyList[:] = []; del _dummyList pass def test_KineticLaw_setSubstanceUnits4(self): kl1 = libsbml.KineticLaw(1,2) i = kl1.setSubstanceUnits("") self.assertTrue( i == libsbml.LIBSBML_OPERATION_SUCCESS ) self.assertEqual( False, kl1.isSetSubstanceUnits() ) _dummyList = [ kl1 ]; _dummyList[:] = []; del _dummyList pass def test_KineticLaw_setTimeUnits1(self): i = self.kl.setTimeUnits( "second") self.assertTrue( i == libsbml.LIBSBML_UNEXPECTED_ATTRIBUTE ) self.assertEqual( False, self.kl.isSetTimeUnits() ) i = self.kl.unsetTimeUnits() self.assertTrue( i == libsbml.LIBSBML_UNEXPECTED_ATTRIBUTE ) self.assertEqual( False, self.kl.isSetTimeUnits() ) pass def test_KineticLaw_setTimeUnits2(self): kl1 = libsbml.KineticLaw(1,2) i = kl1.setTimeUnits( "second") self.assertTrue( i == libsbml.LIBSBML_OPERATION_SUCCESS ) self.assertEqual( True, kl1.isSetTimeUnits() ) i = kl1.unsetTimeUnits() self.assertTrue( i == libsbml.LIBSBML_OPERATION_SUCCESS ) self.assertEqual( False, kl1.isSetTimeUnits() ) _dummyList = [ kl1 ]; _dummyList[:] = []; del _dummyList pass def test_KineticLaw_setTimeUnits3(self): kl1 = libsbml.KineticLaw(1,2) i = kl1.setTimeUnits( "1second") self.assertTrue( i == libsbml.LIBSBML_INVALID_ATTRIBUTE_VALUE ) self.assertEqual( False, kl1.isSetTimeUnits() ) i = kl1.unsetTimeUnits() self.assertTrue( i == libsbml.LIBSBML_OPERATION_SUCCESS ) self.assertEqual( False, kl1.isSetTimeUnits() ) _dummyList = [ kl1 ]; _dummyList[:] = []; del _dummyList pass def test_KineticLaw_setTimeUnits4(self): kl1 = libsbml.KineticLaw(1,2) i = kl1.setTimeUnits("") self.assertTrue( i == libsbml.LIBSBML_OPERATION_SUCCESS ) self.assertEqual( False, kl1.isSetTimeUnits() ) _dummyList = [ kl1 ]; _dummyList[:] = []; del _dummyList pass def suite(): suite = unittest.TestSuite() suite.addTest(unittest.TestLoader.loadTestsFromTestCase(TestKineticLaw_newSetters)) return suite if __name__ == "__main__": if unittest.TextTestRunner(verbosity=1).run(suite()).wasSuccessful() : sys.exit(0) else: sys.exit(1)