int main(int argc,char** argv) { int retval = 0; SBMLNamespaces sbmlns(3,1,"comp",1); // create the document SBMLDocument *document = new SBMLDocument(&sbmlns); //Create our submodel CompSBMLDocumentPlugin* compdoc = static_cast<CompSBMLDocumentPlugin*>(document->getPlugin("comp")); compdoc->setRequired(true); ModelDefinition* mod1 = compdoc->createModelDefinition(); mod1->setId("enzyme"); mod1->setName("enzyme"); Compartment* comp=mod1->createCompartment(); comp->setSpatialDimensions((unsigned int)3); comp->setConstant(true); comp->setId("comp"); comp->setSize(1L); Species spec(&sbmlns); 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); Reaction rxn(&sbmlns); rxn.setReversible(true); rxn.setFast(false); Reaction rxn2(rxn); rxn.setId("J0"); rxn2.setId("J1"); SpeciesReference sr(&sbmlns); 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 Model* model=document->createModel(); model->setId("aggregate"); // Create a submodel CompModelPlugin* mplugin = static_cast<CompModelPlugin*>(model->getPlugin("comp")); Submodel* submod1 = mplugin->createSubmodel(); submod1->setId("submod1"); submod1->setModelRef("enzyme"); Submodel submod2; submod2.setId("submod2"); submod2.setModelRef("enzyme"); mplugin->addSubmodel(&submod2); writeSBMLToFile(document,"eg-simple-aggregate.xml"); writeSBMLToFile(document,"enzyme_model.xml"); delete document; document = readSBMLFromFile("enzyme_model.xml"); if (document == NULL) { cout << "Error reading back in file." << endl; retval = -1; } else { document->setConsistencyChecks(LIBSBML_CAT_UNITS_CONSISTENCY, false); document->checkConsistency(); if (document->getErrorLog()->getNumFailsWithSeverity(2) > 0 || document->getErrorLog()->getNumFailsWithSeverity(3) > 0) { stringstream errorstream; document->printErrors(errorstream); cout << "Errors encoutered when round-tripping SBML file: \n" << errorstream.str() << endl; retval = -1; } writeSBMLToFile(document, "enzyme_model_rt.xml"); delete document; } #ifdef WIN32 if (retval != 0) { cout << "(Press any key to exit.)" << endl; _getch(); } #endif return retval; }
int main(int argc,char** argv) { int retval = 0; SBMLNamespaces sbmlns(3,1,"comp",1); // create the document SBMLDocument *document = new SBMLDocument(&sbmlns); //Define the external model definitions CompSBMLDocumentPlugin* compdoc = static_cast<CompSBMLDocumentPlugin*>(document->getPlugin("comp")); compdoc->setRequired(true); ExternalModelDefinition* extmod = compdoc->createExternalModelDefinition(); extmod->setId("ExtMod1"); extmod->setSource("enzyme_model.xml"); extmod->setModelRef("enzyme"); // create the main Model Model* model=document->createModel(); // Set the submodels CompModelPlugin* mplugin = static_cast<CompModelPlugin*>(model->getPlugin("comp")); Submodel* submod1 = mplugin->createSubmodel(); submod1->setId("A"); submod1->setModelRef("ExtMod1"); Submodel* submod2 = mplugin->createSubmodel(); submod2->setId("B"); submod2->setModelRef("ExtMod1"); // create a replacement compartment Compartment* comp=model->createCompartment(); comp->setSpatialDimensions((unsigned int)3); comp->setConstant(true); comp->setId("comp"); comp->setSize(1L); //Tell the model that this compartment replaces both of the inside ones. CompSBasePlugin* compartplug = static_cast<CompSBasePlugin*>(comp->getPlugin("comp")); ReplacedElement re; re.setIdRef("comp"); re.setSubmodelRef("A"); compartplug->addReplacedElement(&re); re.setSubmodelRef("B"); compartplug->addReplacedElement(&re); // create a replacement species Species* spec = model->createSpecies(); spec->setCompartment("comp"); spec->setHasOnlySubstanceUnits(false); spec->setConstant(false); spec->setBoundaryCondition(false); spec->setId("S"); //Tell the model that this species replaces both of the inside ones. CompSBasePlugin* spp = static_cast<CompSBasePlugin*>(spec->getPlugin("comp")); re.setIdRef("S"); re.setSubmodelRef("A"); spp->addReplacedElement(&re); re.setSubmodelRef("B"); spp->addReplacedElement(&re); writeSBMLToFile(document,"eg-import-external.xml"); writeSBMLToFile(document,"spec_example2.xml"); delete document; document = readSBMLFromFile("spec_example2.xml"); if (document == NULL) { cout << "Error reading back in file." << endl; retval = -1; } else { document->setConsistencyChecks(LIBSBML_CAT_UNITS_CONSISTENCY, false); document->checkConsistency(); if (document->getErrorLog()->getNumFailsWithSeverity(2) > 0 || document->getErrorLog()->getNumFailsWithSeverity(3) > 0) { stringstream errorstream; document->printErrors(errorstream); cout << "Errors encoutered when round-tripping SBML file: \n" << errorstream.str() << endl; retval = -1; } writeSBMLToFile(document, "spec_example2_rt.xml"); delete document; } #ifdef WIN32 if (retval != 0) { cout << "(Press any key to exit.)" << endl; _getch(); } #endif return retval; }
int main(int argc,char** argv) { int retval = 0; SBMLNamespaces sbmlns(3,1,"comp",1); // create the document SBMLDocument *document = new SBMLDocument(&sbmlns); //Define the external model definition CompSBMLDocumentPlugin* compdoc = static_cast<CompSBMLDocumentPlugin*>(document->getPlugin("comp")); compdoc->setRequired(true); ExternalModelDefinition* extmod = compdoc->createExternalModelDefinition(); extmod->setId("ExtMod1"); extmod->setSource("enzyme_model.xml"); extmod->setModelRef("enzyme"); //Define the 'simple' model ModelDefinition* mod1 = compdoc->createModelDefinition(); mod1->setId("simple"); Compartment* comp=mod1->createCompartment(); comp->setSpatialDimensions((unsigned int)3); comp->setConstant(true); comp->setId("comp"); comp->setSize(1L); // We have to construct it this way because we get the comp // plugin from it later. Species spec(&sbmlns); 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); Reaction rxn(&sbmlns); rxn.setReversible(true); rxn.setFast(false); rxn.setId("J0"); SpeciesReference sr(&sbmlns); sr.setConstant(true); sr.setStoichiometry(1); sr.setSpecies("S"); rxn.addReactant(&sr); sr.setSpecies("D"); rxn.addProduct(&sr); mod1->addReaction(&rxn); CompModelPlugin* mod1plug = static_cast<CompModelPlugin*>(mod1->getPlugin("comp")); Port port; port.setId("S_port"); port.setIdRef("S"); mod1plug->addPort(&port); Port* 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 Model* model=document->createModel(); model->setId("complexified"); // Set the submodels CompModelPlugin* mplugin = static_cast<CompModelPlugin*>(model->getPlugin("comp")); Submodel* submod1 = mplugin->createSubmodel(); submod1->setId("A"); submod1->setModelRef("ExtMod1"); Submodel* submod2 = mplugin->createSubmodel(); submod2->setId("B"); submod2->setModelRef("simple"); Deletion* del = submod2->createDeletion(); del->setPortRef("J0_port"); // Synchronize the compartments Compartment* mcomp=model->createCompartment(); mcomp->setSpatialDimensions((unsigned int)3); mcomp->setConstant(true); mcomp->setId("comp"); mcomp->setSize(1L); CompSBasePlugin* compartplug = static_cast<CompSBasePlugin*>(mcomp->getPlugin("comp")); ReplacedElement re; 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.unsetInitialConcentration(); CompSBasePlugin* specplug = static_cast<CompSBasePlugin*>(spec.getPlugin("comp")); ReplacedElement* sre = specplug->createReplacedElement(); sre->setSubmodelRef("A"); sre->setIdRef("S"); ReplacedBy* srb = specplug->createReplacedBy(); srb->setSubmodelRef("B"); srb->setPortRef("S_port"); model->addSpecies(&spec); spec.setId("D"); sre->setIdRef("D"); srb->setPortRef("D_port"); model->addSpecies(&spec); writeSBMLToFile(document,"eg-ports.xml"); writeSBMLToFile(document,"spec_example3.xml"); delete document; document = readSBMLFromFile("spec_example3.xml"); if (document == NULL) { cout << "Error reading back in file." << endl; retval = -1; } else { document->setConsistencyChecks(LIBSBML_CAT_UNITS_CONSISTENCY, false); document->checkConsistency(); if (document->getErrorLog()->getNumFailsWithSeverity(2) > 0 || document->getErrorLog()->getNumFailsWithSeverity(3) > 0) { stringstream errorstream; document->printErrors(errorstream); cout << "Errors encoutered when round-tripping SBML file: \n" << errorstream.str() << endl; retval = -1; } writeSBMLToFile(document, "spec_example3_rt.xml"); delete document; } #ifdef WIN32 if (retval != 0) { cout << "(Press any key to exit.)" << endl; _getch(); } #endif return retval; }
LIBSBML_CPP_NAMESPACE_USE int main(int argc,char** argv) { DynPkgNamespaces sbmlns; sbmlns.addPackageNamespace("comp", 1, "comp"); // create the document SBMLDocument *document = new SBMLDocument(&sbmlns); document->setPackageRequired("dyn", true); document->setPackageRequired("comp", true); // create the Model Model* model=document->createModel(); model->setId("grid2x2"); // create the Compartment Compartment* compartment = model->createCompartment(); compartment->setId("Loc1"); compartment->setConstant(false); compartment->setSize(1); compartment->setSpatialDimensions(2.0); DynCompartmentPlugin* cplugin = static_cast<DynCompartmentPlugin*>(compartment->getPlugin("dyn")); SpatialComponent* component = cplugin->createSpatialComponent(); component->setSpatialIndex(DYN_SPATIALKIND_CARTESIANX); component->setVariable("q1_X"); component = cplugin->createSpatialComponent(); component->setSpatialIndex(DYN_SPATIALKIND_CARTESIANY); component->setVariable("q1_Y"); CompSBasePlugin* compPlugin = static_cast<CompSBasePlugin*>(compartment->getPlugin("comp")); ReplacedElement* relement = compPlugin->createReplacedElement(); relement->setIdRef("C"); relement->setSubmodelRef("GRID_1_1_cell"); compartment = model->createCompartment(); compartment->setId("Loc2"); compartment->setConstant(false); compartment->setSize(1); compartment->setSpatialDimensions(2.0); cplugin = static_cast<DynCompartmentPlugin*>(compartment->getPlugin("dyn")); component = cplugin->createSpatialComponent(); component->setSpatialIndex(DYN_SPATIALKIND_CARTESIANX); component->setVariable("q2_X"); component = cplugin->createSpatialComponent(); component->setSpatialIndex(DYN_SPATIALKIND_CARTESIANY); component->setVariable("q2_Y"); compPlugin = static_cast<CompSBasePlugin*>(compartment->getPlugin("comp")); relement = compPlugin->createReplacedElement(); relement->setIdRef("C"); relement->setSubmodelRef("GRID_1_2_cell"); compartment = model->createCompartment(); compartment->setId("Loc3"); compartment->setConstant(false); compartment->setSize(1); compartment->setSpatialDimensions(2.0); cplugin = static_cast<DynCompartmentPlugin*>(compartment->getPlugin("dyn")); component = cplugin->createSpatialComponent(); component->setSpatialIndex(DYN_SPATIALKIND_CARTESIANX); component->setVariable("q3_X"); component = cplugin->createSpatialComponent(); component->setSpatialIndex(DYN_SPATIALKIND_CARTESIANY); component->setVariable("q3_Y"); compPlugin = static_cast<CompSBasePlugin*>(compartment->getPlugin("comp")); relement = compPlugin->createReplacedElement(); relement->setIdRef("C"); relement->setSubmodelRef("GRID_2_1_cell"); compartment = model->createCompartment(); compartment->setId("Loc4"); compartment->setConstant(false); compartment->setSize(1); compartment->setSpatialDimensions(2.0); cplugin = static_cast<DynCompartmentPlugin*>(compartment->getPlugin("dyn")); component = cplugin->createSpatialComponent(); component->setSpatialIndex(DYN_SPATIALKIND_CARTESIANX); component->setVariable("q4_X"); component = cplugin->createSpatialComponent(); component->setSpatialIndex(DYN_SPATIALKIND_CARTESIANY); component->setVariable("q4_Y"); compPlugin = static_cast<CompSBasePlugin*>(compartment->getPlugin("comp")); relement = compPlugin->createReplacedElement(); relement->setIdRef("C"); relement->setSubmodelRef("GRID_2_2_cell"); // create Parameters Parameter* param = model->createParameter(); param->initDefaults(); param->setId("q1_X"); param->setValue(1); param = model->createParameter(); param->initDefaults(); param->setId("q1_Y"); param->setValue(1); param = model->createParameter(); param->initDefaults(); param->setId("q2_X"); param->setValue(2); param = model->createParameter(); param->initDefaults(); param->setId("q2_Y"); param->setValue(1); param = model->createParameter(); param->initDefaults(); param->setId("q3_X"); param->setValue(1); param = model->createParameter(); param->initDefaults(); param->setId("q3_Y"); param->setValue(2); param = model->createParameter(); param->initDefaults(); param->setId("q4_X"); param->setValue(2); param = model->createParameter(); param->initDefaults(); param->setId("q4_Y"); param->setValue(2); // create SubModels CompModelPlugin* mplugin = static_cast<CompModelPlugin*>(model->getPlugin("comp")); Submodel* submodel = mplugin->createSubmodel(); submodel->setId("GRID_1_1_cell"); submodel->setModelRef("Cell"); submodel = mplugin->createSubmodel(); submodel->setId("GRID_1_2_cell"); submodel->setModelRef("Cell"); submodel = mplugin->createSubmodel(); submodel->setId("GRID_2_1_cell"); submodel->setModelRef("Cell"); submodel = mplugin->createSubmodel(); submodel->setId("GRID_2_2_cell"); submodel->setModelRef("Cell"); // create the ModelDefinition CompSBMLDocumentPlugin* dplugin = static_cast<CompSBMLDocumentPlugin*>(document->getPlugin("comp")); ModelDefinition* mdef = dplugin->createModelDefinition(); mdef->setId("Cell"); compartment = mdef->createCompartment(); compartment->initDefaults(); compartment->setId("C"); compartment->setSpatialDimensions(2.0); compartment->setSize(1.0); Species* species = mdef->createSpecies(); species->setId("R"); species->setCompartment("C"); species->setHasOnlySubstanceUnits(false); species->setBoundaryCondition(false); species->setConstant(false); species = mdef->createSpecies(); species->setId("S"); species->setCompartment("C"); species->setHasOnlySubstanceUnits(false); species->setBoundaryCondition(false); species->setConstant(false); Reaction* reaction = mdef->createReaction(); reaction->setId("Degradation_R"); reaction->setReversible(false); reaction->setFast(false); reaction->setCompartment("C"); SpeciesReference* reactant = reaction->createReactant(); reactant->setSpecies("R"); reactant->setStoichiometry(1); reactant->setConstant(true); reaction = mdef->createReaction(); reaction->setId("Degradation_S"); reaction->setReversible(false); reaction->setFast(false); reaction->setCompartment("C"); reactant = reaction->createReactant(); reactant->setSpecies("S"); reactant->setStoichiometry(1); reactant->setConstant(true); document->checkConsistency(); Event* event = mdef->createEvent(); event->setId("event0"); event->setUseValuesFromTriggerTime(false); DynEventPlugin* eplugin = static_cast<DynEventPlugin*>(event->getPlugin("dyn")); eplugin->setApplyToAll(true); eplugin->setCboTerm("http://cbo.biocomplexity.indiana.edu/svn/cbo/trunk/CBO_1_0.owl#CellDivision"); Trigger* trigger = event->createTrigger(); trigger->setInitialValue(false); trigger->setPersistent(false); trigger->setMath(SBML_parseFormula("true")); if (document->getNumErrors(LIBSBML_SEV_ERROR) > 0) document->printErrors(); writeSBML(document,"dyn_example2.xml"); delete document; }