# # @file TestReadFromFile9.py # @brief Reads tests/l3v1-new.xml into memory and tests it. # # @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/TestReadFromFile9.cpp # 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 def isnan(x): return (x != x) pass SBML_INT_MAX = 2147483647 class TestReadFromFile9(unittest.TestCase): def test_read_l3v1_new(self): reader = libsbml.SBMLReader() filename = "../../sbml/test/test-data/" filename += "l3v1-new-invalid.xml" d = reader.readSBML(filename) if (d == None): pass self.assertTrue( d.getLevel() == 3 ) self.assertTrue( d.getVersion() == 1 ) m = d.getModel() self.assertTrue( m != None ) self.assertEqual( True, m.isSetSubstanceUnits() ) self.assertEqual( True, m.isSetTimeUnits() ) self.assertEqual( True, m.isSetVolumeUnits() ) self.assertEqual( True, m.isSetLengthUnits() ) self.assertEqual( True, m.isSetAreaUnits() ) self.assertEqual( True, m.isSetExtentUnits() ) self.assertEqual( True, m.isSetConversionFactor() ) self.assertTrue( m.getSubstanceUnits() == "mole" ) self.assertTrue( m.getTimeUnits() == "second" ) self.assertTrue( m.getVolumeUnits() == "litre" ) self.assertTrue( m.getLengthUnits() == "metre" ) self.assertTrue( m.getAreaUnits() == "metre" ) self.assertTrue( m.getExtentUnits() == "mole" ) self.assertTrue( m.getConversionFactor() == "p" ) self.assertTrue( m.getNumUnitDefinitions() == 2 ) ud = m.getUnitDefinition(0) self.assertTrue( ud.getNumUnits() == 1 ) u = ud.getUnit(0) self.assertEqual( False, u.isSetExponent() ) self.assertEqual( False, u.isSetScale() ) self.assertEqual( False, u.isSetMultiplier() ) self.assertEqual( True, isnan(u.getExponentAsDouble()) ) self.assertTrue( u.getScale() == SBML_INT_MAX ) self.assertEqual( True, isnan(u.getMultiplier()) ) ud = m.getUnitDefinition(1) self.assertTrue( ud.getNumUnits() == 3 ) u = ud.getUnit(0) self.assertEqual( True, u.isSetExponent() ) self.assertEqual( True, u.isSetScale() ) self.assertEqual( True, u.isSetMultiplier() ) self.assertTrue( u.getExponent() == -1 ) self.assertTrue( u.getExponentAsDouble() == -1 ) self.assertTrue( u.getScale() == 2 ) self.assertTrue( u.getMultiplier() == 1.3 ) u = ud.getUnit(1) self.assertEqual( True, u.isSetExponent() ) self.assertEqual( True, u.isSetScale() ) self.assertEqual( True, u.isSetMultiplier() ) self.assertTrue( u.getExponentAsDouble() == 1.5 ) self.assertTrue( u.getScale() == 10 ) self.assertTrue( u.getMultiplier() == 0.5 ) u = ud.getUnit(2) self.assertEqual( True, u.isSetExponent() ) self.assertEqual( True, u.isSetScale() ) self.assertEqual( True, u.isSetMultiplier() ) self.assertTrue( u.getExponent() == 1 ) self.assertTrue( u.getScale() == 0 ) self.assertTrue( u.getMultiplier() == 1 ) self.assertTrue( m.getNumCompartments() == 3 ) c = m.getCompartment(0) self.assertEqual( True, c.isSetSize() ) self.assertEqual( True, c.isSetSpatialDimensions() ) self.assertEqual( True, c.isSetConstant() ) self.assertTrue( c.getId() == "comp" ) self.assertTrue( c.getSize() == 1e-14 ) self.assertTrue( c.getSpatialDimensions() == 3 ) self.assertTrue( c.getSpatialDimensionsAsDouble() == 3 ) self.assertTrue( c.getUnits() == "litre" ) self.assertTrue( c.getConstant() == True ) c = m.getCompartment(1) self.assertEqual( False, c.isSetSize() ) self.assertEqual( False, c.isSetSpatialDimensions() ) self.assertEqual( True, c.isSetConstant() ) self.assertTrue( c.getId() == "comp1" ) self.assertEqual( True, isnan(c.getSize()) ) self.assertEqual( True, isnan(c.getSpatialDimensionsAsDouble()) ) self.assertTrue( c.getConstant() == False ) c = m.getCompartment(2) self.assertEqual( False, c.isSetSize() ) self.assertEqual( True, c.isSetSpatialDimensions() ) self.assertEqual( False, c.isSetConstant() ) self.assertTrue( c.getId() == "comp2" ) self.assertTrue( c.getSpatialDimensionsAsDouble() == 4.6 ) self.assertTrue( m.getNumSpecies() == 2 ) s = m.getSpecies(0) self.assertTrue( s.getId() == "ES" ) self.assertTrue( s.getCompartment() == "comp" ) self.assertEqual( True, s.isSetConversionFactor() ) self.assertTrue( s.getConversionFactor() == "p" ) self.assertEqual( True, s.isSetBoundaryCondition() ) self.assertTrue( s.getBoundaryCondition() == False ) self.assertEqual( True, s.isSetHasOnlySubstanceUnits() ) self.assertTrue( s.getHasOnlySubstanceUnits() == False ) self.assertEqual( True, s.isSetSubstanceUnits() ) self.assertTrue( s.getSubstanceUnits() == "mole" ) self.assertEqual( True, s.isSetConstant() ) self.assertTrue( s.getConstant() == False ) self.assertEqual( True, s.isSetInitialAmount() ) self.assertTrue( s.getInitialAmount() == 0 ) self.assertEqual( False, s.isSetInitialConcentration() ) self.assertEqual( True, isnan(s.getInitialConcentration()) ) s = m.getSpecies(1) self.assertTrue( s.getId() == "P" ) self.assertTrue( s.getCompartment() == "comp" ) self.assertEqual( False, s.isSetConversionFactor() ) self.assertTrue( s.getConversionFactor() == "" ) self.assertEqual( False, s.isSetBoundaryCondition() ) self.assertEqual( False, s.isSetHasOnlySubstanceUnits() ) self.assertEqual( False, s.isSetSubstanceUnits() ) self.assertTrue( s.getSubstanceUnits() == "" ) self.assertEqual( False, s.isSetConstant() ) self.assertEqual( False, s.isSetInitialAmount() ) self.assertEqual( True, isnan(s.getInitialAmount()) ) self.assertEqual( False, s.isSetInitialConcentration() ) self.assertEqual( True, isnan(s.getInitialConcentration()) ) self.assertTrue( m.getNumParameters() == 3 ) p = m.getParameter(0) self.assertTrue( p.getId() == "Keq" ) self.assertEqual( True, p.isSetValue() ) self.assertTrue( p.getValue() == 2.5 ) self.assertEqual( True, p.isSetUnits() ) self.assertTrue( p.getUnits() == "dimensionless" ) self.assertEqual( True, p.isSetConstant() ) self.assertTrue( p.getConstant() == True ) p = m.getParameter(1) self.assertTrue( p.getId() == "Keq1" ) self.assertEqual( False, p.isSetValue() ) self.assertEqual( True, isnan(p.getValue()) ) self.assertEqual( False, p.isSetUnits() ) self.assertTrue( p.getUnits() == "" ) self.assertEqual( True, p.isSetConstant() ) self.assertTrue( p.getConstant() == False ) p = m.getParameter(2) self.assertTrue( p.getId() == "Keq2" ) self.assertEqual( False, p.isSetValue() ) self.assertEqual( True, isnan(p.getValue()) ) self.assertEqual( False, p.isSetUnits() ) self.assertTrue( p.getUnits() == "" ) self.assertEqual( False, p.isSetConstant() ) self.assertTrue( m.getNumReactions() == 3 ) r = m.getReaction(0) self.assertEqual( True, r.isSetFast() ) self.assertTrue( r.getFast() == False ) self.assertEqual( True, r.isSetReversible() ) self.assertTrue( r.getReversible() == False ) self.assertEqual( True, r.isSetCompartment() ) self.assertTrue( r.getCompartment() == "comp" ) sr = r.getReactant(0) self.assertEqual( True, sr.isSetConstant() ) self.assertTrue( sr.getConstant() == True ) self.assertEqual( True, sr.isSetStoichiometry() ) self.assertTrue( sr.getStoichiometry() == 1 ) sr = r.getProduct(0) self.assertEqual( True, sr.isSetConstant() ) self.assertTrue( sr.getConstant() == False ) self.assertEqual( False, sr.isSetStoichiometry() ) self.assertEqual( True, isnan(sr.getStoichiometry()) ) kl = r.getKineticLaw() self.assertTrue( kl.getNumLocalParameters() == 2 ) self.assertTrue( kl.getNumParameters() == 2 ) p = kl.getParameter(0) self.assertEqual( True, p.isSetUnits() ) self.assertTrue( p.getUnits() == "per_second" ) self.assertEqual( True, p.isSetValue() ) self.assertTrue( p.getValue() == 0.1 ) lp = kl.getLocalParameter(0) self.assertEqual( True, lp.isSetUnits() ) self.assertTrue( lp.getUnits() == "per_second" ) self.assertEqual( True, lp.isSetValue() ) self.assertTrue( lp.getValue() == 0.1 ) lp = kl.getLocalParameter(1) self.assertEqual( False, lp.isSetUnits() ) self.assertTrue( lp.getUnits() == "" ) self.assertEqual( False, lp.isSetValue() ) self.assertEqual( True, isnan(lp.getValue()) ) r = m.getReaction(1) self.assertEqual( True, r.isSetFast() ) self.assertTrue( r.getFast() == True ) self.assertEqual( True, r.isSetReversible() ) self.assertTrue( r.getReversible() == True ) self.assertEqual( False, r.isSetCompartment() ) self.assertTrue( r.getCompartment() == "" ) sr = r.getReactant(0) self.assertEqual( False, sr.isSetConstant() ) r = m.getReaction(2) self.assertEqual( False, r.isSetFast() ) self.assertEqual( False, r.isSetReversible() ) self.assertEqual( False, r.isSetCompartment() ) self.assertTrue( r.getCompartment() == "" ) e = m.getEvent(0) t = e.getTrigger() self.assertEqual( True, t.isSetPersistent() ) self.assertTrue( t.getPersistent() == False ) self.assertEqual( True, t.isSetInitialValue() ) self.assertTrue( t.getInitialValue() == False ) self.assertEqual( True, e.isSetPriority() ) pr = e.getPriority() self.assertTrue( pr != None ) self.assertEqual( True, pr.isSetMath() ) e = m.getEvent(1) self.assertEqual( False, e.isSetPriority() ) t = e.getTrigger() self.assertEqual( False, (t.isSetPersistent()) ) self.assertEqual( False, (t.isSetInitialValue()) ) d = None pass def suite(): suite = unittest.TestSuite() suite.addTest(unittest.TestLoader.loadTestsFromTestCase(TestReadFromFile9)) return suite if __name__ == "__main__": if unittest.TextTestRunner(verbosity=1).run(suite()).wasSuccessful() : sys.exit(0) else: sys.exit(1)