# # @file TestReadFromFile2.py # @brief Reads tests/l1v1-units.xml into memory and tests it. # # @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/TestReadFromFile2.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 TestReadFromFile2(unittest.TestCase): def test_create_l1v1_units(self): d = libsbml.SBMLDocument() m = libsbml.Model(2,4) d.setModel(m) ud = m.createUnitDefinition() ud.setName( "substance") u = m.createUnit() u.setKind(libsbml.UNIT_KIND_MOLE) u.setScale(-3) ud = m.createUnitDefinition() ud.setName( "mls") u = m.createUnit() u.setKind(libsbml.UNIT_KIND_MOLE) u.setScale(-3) u = m.createUnit() u.setKind(libsbml.UNIT_KIND_LITER) u.setExponent(-1) u = m.createUnit() u.setKind(libsbml.UNIT_KIND_SECOND) u.setExponent(-1) c = m.createCompartment() c.setName( "cell") s = m.createSpecies() s.setName( "x0") s.setCompartment( "cell") s.setInitialAmount(1) s = m.createSpecies() s.setName( "x1") s.setCompartment( "cell") s.setInitialAmount(1) s = m.createSpecies() s.setName( "s1") s.setCompartment( "cell") s.setInitialAmount(1) s = m.createSpecies() s.setName( "s2") s.setCompartment( "cell") s.setInitialAmount(1) p = m.createParameter() p.setName( "vm") p.setUnits( "mls") p.setValue(2) p = m.createParameter() p.setName( "km") p.setValue(2) r = m.createReaction() r.setName( "v1") sr = m.createReactant() sr.setSpecies( "x0") sr = m.createProduct() sr.setSpecies( "s1") kl = m.createKineticLaw() kl.setFormula( "(vm * s1)/(km + s1)") r = m.createReaction() r.setName( "v2") sr = m.createReactant() sr.setSpecies( "s1") sr = m.createProduct() sr.setSpecies( "s2") kl = m.createKineticLaw() kl.setFormula( "(vm * s2)/(km + s2)") r = m.createReaction() r.setName( "v3") sr = m.createReactant() sr.setSpecies( "s2") sr = m.createProduct() sr.setSpecies( "x1") kl = m.createKineticLaw() kl.setFormula( "(vm * s1)/(km + s1)") _dummyList = [ d ]; _dummyList[:] = []; del _dummyList pass def test_read_l1v1_units(self): filename = "../../sbml/test/test-data/l1v1-units.xml" d = libsbml.readSBML(filename) if (d == None): pass self.assertTrue( d.getLevel() == 1 ) self.assertTrue( d.getVersion() == 1 ) m = d.getModel() self.assertTrue( m.getNumUnitDefinitions() == 2 ) ud = m.getUnitDefinition(0) self.assertTrue(( "substance" == ud.getName() )) ud = m.getUnitDefinition(1) self.assertTrue(( "mls" == ud.getName() )) ud = m.getUnitDefinition(0) self.assertTrue( ud.getNumUnits() == 1 ) u = ud.getUnit(0) self.assertTrue( u.getKind() == libsbml.UNIT_KIND_MOLE ) self.assertTrue( u.getExponent() == 1 ) self.assertTrue( u.getScale() == -3 ) ud = m.getUnitDefinition(1) self.assertTrue( ud.getNumUnits() == 3 ) u = ud.getUnit(0) self.assertTrue( u.getKind() == libsbml.UNIT_KIND_MOLE ) self.assertTrue( u.getExponent() == 1 ) self.assertTrue( u.getScale() == -3 ) u = ud.getUnit(1) self.assertTrue( u.getKind() == libsbml.UNIT_KIND_LITER ) self.assertTrue( u.getExponent() == -1 ) self.assertTrue( u.getScale() == 0 ) u = ud.getUnit(2) self.assertTrue( u.getKind() == libsbml.UNIT_KIND_SECOND ) self.assertTrue( u.getExponent() == -1 ) self.assertTrue( u.getScale() == 0 ) self.assertTrue( m.getNumCompartments() == 1 ) c = m.getCompartment(0) self.assertTrue(( "cell" == c.getName() )) self.assertTrue( m.getNumSpecies() == 4 ) s = m.getSpecies(0) self.assertTrue(( "x0" == s.getName() )) self.assertTrue(( "cell" == s.getCompartment() )) self.assertTrue( s.getInitialAmount() == 1 ) self.assertTrue( s.getBoundaryCondition() == False ) ud = s.getDerivedUnitDefinition() self.assertTrue( ud.getNumUnits() == 2 ) self.assertTrue( ud.getUnit(0).getKind() == libsbml.UNIT_KIND_MOLE ) self.assertTrue( ud.getUnit(0).getExponent() == 1 ) self.assertTrue( ud.getUnit(0).getScale() == -3 ) self.assertTrue( ud.getUnit(1).getKind() == libsbml.UNIT_KIND_LITRE ) self.assertTrue( ud.getUnit(1).getExponent() == -1 ) s = m.getSpecies(1) self.assertTrue(( "x1" == s.getName() )) self.assertTrue(( "cell" == s.getCompartment() )) self.assertTrue( s.getInitialAmount() == 1 ) self.assertTrue( s.getBoundaryCondition() == False ) s = m.getSpecies(2) self.assertTrue(( "s1" == s.getName() )) self.assertTrue(( "cell" == s.getCompartment() )) self.assertTrue( s.getInitialAmount() == 1 ) self.assertTrue( s.getBoundaryCondition() == False ) s = m.getSpecies(3) self.assertTrue(( "s2" == s.getName() )) self.assertTrue(( "cell" == s.getCompartment() )) self.assertTrue( s.getInitialAmount() == 1 ) self.assertTrue( s.getBoundaryCondition() == False ) self.assertTrue( m.getNumParameters() == 2 ) p = m.getParameter(0) self.assertTrue(( "vm" == p.getName() )) self.assertTrue(( "mls" == p.getUnits() )) self.assertTrue( p.getValue() == 2 ) ud = p.getDerivedUnitDefinition() self.assertTrue( ud.getNumUnits() == 3 ) self.assertTrue( ud.getUnit(0).getKind() == libsbml.UNIT_KIND_MOLE ) self.assertTrue( ud.getUnit(0).getExponent() == 1 ) self.assertTrue( ud.getUnit(0).getScale() == -3 ) self.assertTrue( ud.getUnit(1).getKind() == libsbml.UNIT_KIND_LITER ) self.assertTrue( ud.getUnit(1).getExponent() == -1 ) self.assertTrue( ud.getUnit(2).getKind() == libsbml.UNIT_KIND_SECOND ) self.assertTrue( ud.getUnit(2).getExponent() == -1 ) p = m.getParameter(1) self.assertTrue(( "km" == p.getName() )) self.assertTrue( p.getValue() == 2 ) ud = p.getDerivedUnitDefinition() self.assertTrue( ud.getNumUnits() == 0 ) self.assertTrue( m.getNumReactions() == 3 ) r = m.getReaction(0) self.assertTrue(( "v1" == r.getName() )) self.assertTrue( r.getReversible() != False ) self.assertTrue( r.getFast() == False ) r = m.getReaction(1) self.assertTrue(( "v2" == r.getName() )) self.assertTrue( r.getReversible() != False ) self.assertTrue( r.getFast() == False ) r = m.getReaction(2) self.assertTrue(( "v3" == r.getName() )) self.assertTrue( r.getReversible() != False ) self.assertTrue( r.getFast() == False ) r = m.getReaction(0) self.assertTrue( r.getNumReactants() == 1 ) self.assertTrue( r.getNumProducts() == 1 ) sr = r.getReactant(0) self.assertTrue(( "x0" == sr.getSpecies() )) self.assertTrue( sr.getStoichiometry() == 1 ) self.assertTrue( sr.getDenominator() == 1 ) sr = r.getProduct(0) self.assertTrue(( "s1" == sr.getSpecies() )) self.assertTrue( sr.getStoichiometry() == 1 ) self.assertTrue( sr.getDenominator() == 1 ) kl = r.getKineticLaw() self.assertTrue(( "cell * (vm * s1)/(km + s1)" == kl.getFormula() )) r = m.getReaction(1) self.assertTrue( r.getNumReactants() == 1 ) self.assertTrue( r.getNumProducts() == 1 ) sr = r.getReactant(0) self.assertTrue(( "s1" == sr.getSpecies() )) self.assertTrue( sr.getStoichiometry() == 1 ) self.assertTrue( sr.getDenominator() == 1 ) sr = r.getProduct(0) self.assertTrue(( "s2" == sr.getSpecies() )) self.assertTrue( sr.getStoichiometry() == 1 ) self.assertTrue( sr.getDenominator() == 1 ) kl = r.getKineticLaw() self.assertTrue(( "cell * (vm * s2)/(km + s2)" == kl.getFormula() )) r = m.getReaction(2) self.assertTrue( r.getNumReactants() == 1 ) self.assertTrue( r.getNumProducts() == 1 ) sr = r.getReactant(0) self.assertTrue(( "s2" == sr.getSpecies() )) self.assertTrue( sr.getStoichiometry() == 1 ) self.assertTrue( sr.getDenominator() == 1 ) sr = r.getProduct(0) self.assertTrue(( "x1" == sr.getSpecies() )) self.assertTrue( sr.getStoichiometry() == 1 ) self.assertTrue( sr.getDenominator() == 1 ) kl = r.getKineticLaw() self.assertTrue(( "cell * (vm * s1)/(km + s1)" == kl.getFormula() )) _dummyList = [ d ]; _dummyList[:] = []; del _dummyList pass def suite(): suite = unittest.TestSuite() suite.addTest(unittest.TestLoader.loadTestsFromTestCase(TestReadFromFile2)) return suite if __name__ == "__main__": if unittest.TextTestRunner(verbosity=1).run(suite()).wasSuccessful() : sys.exit(0) else: sys.exit(1)