public void test_KineticLaw_Parameter_ancestor_create_model() { Model m = new Model(2, 4); Reaction r = m.createReaction(); KineticLaw kl = m.createKineticLaw(); Parameter p = m.createKineticLawParameter(); assertTrue(kl.getNumParameters() == 1); ListOfParameters lop = kl.getListOfParameters(); assertTrue(p.getAncestorOfType(libsbml.SBML_KINETIC_LAW) == kl); assertTrue(p.getAncestorOfType(libsbml.SBML_LIST_OF) == lop); assertTrue(p.getAncestorOfType(libsbml.SBML_REACTION) == r); assertTrue(p.getAncestorOfType(libsbml.SBML_MODEL) == m); assertTrue(p.getAncestorOfType(libsbml.SBML_DOCUMENT) == null); assertTrue(p.getAncestorOfType(libsbml.SBML_COMPARTMENT) == null); Parameter obj = kl.getParameter(0); assertTrue(obj.getAncestorOfType(libsbml.SBML_KINETIC_LAW) == kl); assertTrue(obj.getAncestorOfType(libsbml.SBML_LIST_OF) == lop); assertTrue(obj.getAncestorOfType(libsbml.SBML_REACTION) == r); assertTrue(obj.getAncestorOfType(libsbml.SBML_MODEL) == m); assertTrue(obj.getAncestorOfType(libsbml.SBML_DOCUMENT) == null); assertTrue(obj.getAncestorOfType(libsbml.SBML_COMPARTMENT) == null); kl = null; }
public void test_KineticLaw_Parameter_parent_create() { KineticLaw kl = new KineticLaw(2, 4); Parameter p = kl.createParameter(); assertTrue(kl.getNumParameters() == 1); ListOfParameters lop = kl.getListOfParameters(); assertTrue(kl == lop.getParentSBMLObject()); assertTrue(lop == p.getParentSBMLObject()); assertTrue(lop == kl.getParameter(0).getParentSBMLObject()); kl = null; }
public void test_KineticLaw_Parameter_parent_create_model() { Model m = new Model(2, 4); Reaction r = m.createReaction(); KineticLaw kl = m.createKineticLaw(); Parameter p = m.createKineticLawParameter(); assertTrue(kl.getNumParameters() == 1); ListOfParameters lop = kl.getListOfParameters(); assertTrue(r == kl.getParentSBMLObject()); assertTrue(kl == lop.getParentSBMLObject()); assertTrue(lop == p.getParentSBMLObject()); assertTrue(lop == kl.getParameter(0).getParentSBMLObject()); kl = null; }
public void test_KineticLaw_Parameter_parent_add() { KineticLaw kl = new KineticLaw(2, 4); Parameter p = new Parameter(2, 4); p.setId("jake"); kl.addParameter(p); p = null; assertTrue(kl.getNumParameters() == 1); assertTrue(kl.getParameter(0).getId() == "jake"); ListOfParameters lop = kl.getListOfParameters(); assertTrue(kl == lop.getParentSBMLObject()); assertTrue(lop == kl.getParameter(0).getParentSBMLObject()); kl = null; }
public void test_KineticLaw_Parameter_ancestor_add() { KineticLaw kl = new KineticLaw(2, 4); Parameter p = new Parameter(2, 4); p.setId("jake"); kl.addParameter(p); p = null; ListOfParameters lop = kl.getListOfParameters(); Parameter obj = kl.getParameter(0); assertTrue(obj.getAncestorOfType(libsbml.SBML_KINETIC_LAW) == kl); assertTrue(obj.getAncestorOfType(libsbml.SBML_LIST_OF) == lop); assertTrue(obj.getAncestorOfType(libsbml.SBML_DOCUMENT) == null); assertTrue(obj.getAncestorOfType(libsbml.SBML_COMPARTMENT) == null); kl = null; }
public void test_KineticLaw_Parameter_ancestor_create() { KineticLaw kl = new KineticLaw(2, 4); Parameter p = kl.createParameter(); assertTrue(kl.getNumParameters() == 1); ListOfParameters lop = kl.getListOfParameters(); assertTrue(p.getAncestorOfType(libsbml.SBML_KINETIC_LAW) == kl); assertTrue(p.getAncestorOfType(libsbml.SBML_LIST_OF) == lop); assertTrue(p.getAncestorOfType(libsbml.SBML_DOCUMENT) == null); assertTrue(p.getAncestorOfType(libsbml.SBML_COMPARTMENT) == null); Parameter obj = kl.getParameter(0); assertTrue(obj.getAncestorOfType(libsbml.SBML_KINETIC_LAW) == kl); assertTrue(obj.getAncestorOfType(libsbml.SBML_LIST_OF) == lop); assertTrue(obj.getAncestorOfType(libsbml.SBML_DOCUMENT) == null); assertTrue(obj.getAncestorOfType(libsbml.SBML_COMPARTMENT) == null); kl = null; }
static void testClone(SBase s) { string ename = s.getElementName(); SBase c = s.clone(); if (c is Compartment) { Compartment x = (s as Compartment).clone(); c = x; } else if (c is CompartmentType) { CompartmentType x = (s as CompartmentType).clone(); c = x; } else if (c is Constraint) { Constraint x = (s as Constraint).clone(); c = x; } else if (c is Delay) { Delay x = (s as Delay).clone(); c = x; } else if (c is Event) { Event x = (s as Event).clone(); c = x; } else if (c is EventAssignment) { EventAssignment x = (s as EventAssignment).clone(); c = x; } else if (c is FunctionDefinition) { FunctionDefinition x = (s as FunctionDefinition).clone(); c = x; } else if (c is InitialAssignment) { InitialAssignment x = (s as InitialAssignment).clone(); c = x; } else if (c is KineticLaw) { KineticLaw x = (s as KineticLaw).clone(); c = x; } // currently return type of ListOf::clone() is SBase else if (c is ListOf) { SBase x = (s as ListOf).clone(); c = x; } else if (c is Model) { Model x = (s as Model).clone(); c = x; } else if (c is Parameter) { Parameter x = (s as Parameter).clone(); c = x; } else if (c is Reaction) { Reaction x = (s as Reaction).clone(); c = x; } else if (c is AlgebraicRule) { AlgebraicRule x = (s as AlgebraicRule).clone(); c = x; } else if (c is AssignmentRule) { AssignmentRule x = (s as AssignmentRule).clone(); c = x; } else if (c is RateRule) { RateRule x = (s as RateRule).clone(); c = x; } else if (c is SBMLDocument) { SBMLDocument x = (s as SBMLDocument).clone(); c = x; } else if (c is Species) { Species x = (s as Species).clone(); c = x; } else if (c is SpeciesReference) { SpeciesReference x = (s as SpeciesReference).clone(); c = x; } else if (c is SpeciesType) { SpeciesType x = (s as SpeciesType).clone(); c = x; } else if (c is SpeciesReference) { SpeciesReference x = (s as SpeciesReference).clone(); c = x; } else if (c is StoichiometryMath) { StoichiometryMath x = (s as StoichiometryMath).clone(); c = x; } else if (c is Trigger) { Trigger x = (s as Trigger).clone(); c = x; } else if (c is Unit) { Unit x = (s as Unit).clone(); c = x; } else if (c is UnitDefinition) { UnitDefinition x = (s as UnitDefinition).clone(); c = x; } else if (c is ListOfCompartmentTypes) { ListOfCompartmentTypes x = (s as ListOfCompartmentTypes).clone(); c = x; } else if (c is ListOfCompartments) { ListOfCompartments x = (s as ListOfCompartments).clone(); c = x; } else if (c is ListOfConstraints) { ListOfConstraints x = (s as ListOfConstraints).clone(); c = x; } else if (c is ListOfEventAssignments) { ListOfEventAssignments x = (s as ListOfEventAssignments).clone(); c = x; } else if (c is ListOfEvents) { ListOfEvents x = (s as ListOfEvents).clone(); c = x; } else if (c is ListOfFunctionDefinitions) { ListOfFunctionDefinitions x = (s as ListOfFunctionDefinitions).clone(); c = x; } else if (c is ListOfInitialAssignments) { ListOfInitialAssignments x = (s as ListOfInitialAssignments).clone(); c = x; } else if (c is ListOfParameters) { ListOfParameters x = (s as ListOfParameters).clone(); c = x; } else if (c is ListOfReactions) { ListOfReactions x = (s as ListOfReactions).clone(); c = x; } else if (c is ListOfRules) { ListOfRules x = (s as ListOfRules).clone(); c = x; } else if (c is ListOfSpecies) { ListOfSpecies x = (s as ListOfSpecies).clone(); c = x; } else if (c is ListOfSpeciesReferences) { ListOfSpeciesReferences x = (s as ListOfSpeciesReferences).clone(); c = x; } else if (c is ListOfSpeciesTypes) { ListOfSpeciesTypes x = (s as ListOfSpeciesTypes).clone(); c = x; } else if (c is ListOfUnitDefinitions) { ListOfUnitDefinitions x = (s as ListOfUnitDefinitions).clone(); c = x; } else if (c is ListOfUnits) { ListOfUnits x = (s as ListOfUnits).clone(); c = x; } else { ERR("[testClone] Error: (" + ename + ") : clone() failed."); return; } if (c == null) { ERR("[testClone] Error: (" + ename + ") : clone() failed."); return; } string enameClone = c.getElementName(); if (ename == enameClone) { //Console.Out.WriteLine("[testClone] OK: (" + ename + ") clone(" + enameClone + ") : type match."); OK(); } else { ERR("[testClone] Error: (" + ename + ") clone(" + enameClone + ") : type mismatch."); } }