setReversible() public méthode

public setReversible ( bool value ) : int
value bool
Résultat int
        private static int Main(string[] args)
        {
            var retval = 0;
            var sbmlns = new SBMLNamespaces(3, 1, "comp", 1);

            // create the document
            var document = new SBMLDocument(sbmlns);

            //Define the external model definition
            var compdoc = (CompSBMLDocumentPlugin)(document.getPlugin("comp"));
            compdoc.setRequired(true);
            var extmod = compdoc.createExternalModelDefinition();
            extmod.setId("ExtMod1");
            extmod.setSource("enzyme_model.xml");
            extmod.setModelRef("enzyme");

            //Define the 'simple' model
            var mod1 = compdoc.createModelDefinition();
            mod1.setId("simple");
            var comp = mod1.createCompartment();
            comp.setSpatialDimensions(3);
            comp.setConstant(true);
            comp.setId("comp");
            comp.setSize(1L);

            var spec = new Species(sbmlns);
            //We have to construct it this way because we get the comp plugin from it later.
            spec.setCompartment("comp");
            spec.setHasOnlySubstanceUnits(false);
            spec.setConstant(false);
            spec.setBoundaryCondition(false);
            spec.setId("S");
            spec.setInitialConcentration(5);
            mod1.addSpecies(spec);
            spec.setId("D");
            spec.setInitialConcentration(10);
            mod1.addSpecies(spec);

            var rxn = new Reaction(3, 1);
            rxn.setReversible(true);
            rxn.setFast(false);
            rxn.setId("J0");

            var sr = new SpeciesReference(3, 1);
            sr.setConstant(true);
            sr.setStoichiometry(1);
            sr.setSpecies("S");
            rxn.addReactant(sr);
            sr.setSpecies("D");
            rxn.addProduct(sr);

            mod1.addReaction(rxn);

            var mod1plug = (CompModelPlugin)(mod1.getPlugin("comp"));
            var port = new Port();
            port.setId("S_port");
            port.setIdRef("S");
            mod1plug.addPort(port);

            var port2 = mod1plug.createPort();
            port2.setId("D_port");
            port2.setIdRef("D");

            port.setId("comp_port");
            port.setIdRef("comp");
            mod1plug.addPort(port);

            port.setId("J0_port");
            port.setIdRef("J0");
            mod1plug.addPort(port);

            // create the Model
            var model = document.createModel();
            model.setId("complexified");

            // Set the submodels
            var mplugin = (CompModelPlugin)(model.getPlugin("comp"));
            var submod1 = mplugin.createSubmodel();
            submod1.setId("A");
            submod1.setModelRef("ExtMod1");
            var submod2 = mplugin.createSubmodel();
            submod2.setId("B");
            submod2.setModelRef("simple");
            var del = submod2.createDeletion();
            del.setPortRef("J0_port");

            // Synchronize the compartments
            var mcomp = model.createCompartment();
            mcomp.setSpatialDimensions(3);
            mcomp.setConstant(true);
            mcomp.setId("comp");
            mcomp.setSize(1L);
            var compartplug = (CompSBasePlugin)(mcomp.getPlugin("comp"));
            var re = new ReplacedElement();
            re.setIdRef("comp");
            re.setSubmodelRef("A");
            compartplug.addReplacedElement(re);
            re.setSubmodelRef("B");
            re.unsetIdRef();
            re.setPortRef("comp_port");
            compartplug.addReplacedElement(re);

            //Synchronize the species
            spec.setId("S");
            spec.setInitialConcentration(5);
            var specplug = (CompSBasePlugin)(spec.getPlugin("comp"));
            var sre = specplug.createReplacedElement();
            sre.setSubmodelRef("A");
            sre.setIdRef("S");
            var sre2 = specplug.createReplacedElement();
            sre2.setSubmodelRef("B");
            sre2.setPortRef("S_port");
            model.addSpecies(spec);

            spec.setId("D");
            spec.setInitialConcentration(10);
            sre.setIdRef("D");
            sre2.setPortRef("D_port");
            model.addSpecies(spec);

            libsbml.writeSBMLToFile(document, "spec_example3.xml");
            document = libsbml.readSBMLFromFile("spec_example3.xml");
            if (document == null)
            {
                Console.WriteLine("Error reading back in file.");

                retval = -1;
            }
            else
            {
                document.setConsistencyChecks(libsbml.LIBSBML_CAT_UNITS_CONSISTENCY, false);
                document.checkConsistency();
                if (document.getErrorLog().getNumFailsWithSeverity(2) > 0 ||
                    document.getErrorLog().getNumFailsWithSeverity(3) > 0)
                {
                    var stream = new OStringStream();
                    document.printErrors(stream);
                    Console.WriteLine("Errors encoutered when round-tripping  SBML file: \n" +
                                      stream.str());
                    retval = -1;
                }
                libsbml.writeSBMLToFile(document, "spec_example3_rt.xml");
            }
            return retval;
        }
 public void test_L3_Reaction_hasRequiredAttributes()
 {
     Reaction r = new  Reaction(3,1);
       assertEquals( false, r.hasRequiredAttributes() );
       r.setId( "id");
       assertEquals( false, r.hasRequiredAttributes() );
       r.setFast(false);
       assertEquals( false, r.hasRequiredAttributes() );
       r.setReversible(false);
       assertEquals( true, r.hasRequiredAttributes() );
       r = null;
 }
        private static int Main(string[] args)
        {
            var retval = 0;
            var sbmlns = new SBMLNamespaces(3, 1, "comp", 1);

            // create the document
            var document = new SBMLDocument(sbmlns);

            //Create our submodel
            var compdoc = (CompSBMLDocumentPlugin) (document.getPlugin("comp"));
            compdoc.setRequired(true);
            var mod1 = compdoc.createModelDefinition();
            mod1.setId("enzyme");
            mod1.setName("enzyme");
            var comp = mod1.createCompartment();
            comp.setSpatialDimensions(3);
            comp.setConstant(true);
            comp.setId("comp");
            comp.setSize(1L);
            var spec = new Species(3, 1);
            spec.setCompartment("comp");
            spec.setHasOnlySubstanceUnits(false);
            spec.setConstant(false);
            spec.setBoundaryCondition(false);
            spec.setId("S");
            mod1.addSpecies(spec);
            spec.setId("E");
            mod1.addSpecies(spec);
            spec.setId("D");
            mod1.addSpecies(spec);
            spec.setId("ES");
            mod1.addSpecies(spec);
            var rxn = new Reaction(3, 1);
            rxn.setReversible(true);
            rxn.setFast(false);
            var rxn2 = new Reaction(rxn);
            rxn.setId("J0");
            rxn2.setId("J1");
            var sr = new SpeciesReference(3, 1);
            sr.setConstant(true);
            sr.setStoichiometry(1);
            sr.setSpecies("S");
            rxn.addReactant(sr);
            sr.setSpecies("E");
            rxn.addReactant(sr);
            rxn2.addProduct(sr);
            sr.setSpecies("ES");
            rxn.addProduct(sr);
            rxn2.addReactant(sr);
            sr.setSpecies("D");
            rxn2.addProduct(sr);

            mod1.addReaction(rxn);
            mod1.addReaction(rxn2);

            // create the Model
            var model = document.createModel();
            model.setId("aggregate");

            // Create a submodel
            var mplugin = (CompModelPlugin) (model.getPlugin("comp"));
            var submod1 = mplugin.createSubmodel();
            submod1.setId("submod1");
            submod1.setModelRef("enzyme");

            var submod2 = new Submodel();
            submod2.setId("submod2");
            submod2.setModelRef("enzyme");
            mplugin.addSubmodel(submod2);

            libsbml.writeSBMLToFile(document, "enzyme_model.xml");
            document = libsbml.readSBMLFromFile("enzyme_model.xml");
            if (document == null)
            {
                Console.WriteLine("Error reading back in file.");
                retval = -1;
            }
            else
            {
                document.setConsistencyChecks(libsbml.LIBSBML_CAT_UNITS_CONSISTENCY, false);
                document.checkConsistency();
                if (document.getErrorLog().getNumFailsWithSeverity(2) > 0 ||
                    document.getErrorLog().getNumFailsWithSeverity(3) > 0)
                {
                    var stream = new OStringStream();
                    document.printErrors(stream);
                    Console.WriteLine("Errors encoutered when round-tripping  SBML file: \n" +
                                      stream.str());
                    retval = -1;
                }
                libsbml.writeSBMLToFile(document, "enzyme_model_rt.xml");
            }
            return retval;
        }