END_TEST START_TEST (test_FbcExtension_read_L3V1V1_defaultNS) { char *filename = safe_strcat(TestDataDirectory, "fbc_example1_defaultNS.xml"); SBMLDocument *document = readSBMLFromFile(filename); fail_unless(document->getPackageName() == "core"); Model *model = document->getModel(); fail_unless(model != NULL); fail_unless(model->getPackageName() == "core"); fail_unless(document->getNumErrors() == 0); // get the fbc plugin FbcModelPlugin* mplugin = static_cast<FbcModelPlugin*>(model->getPlugin("fbc")); fail_unless(mplugin != NULL); fail_unless(mplugin->getNumObjectives() == 1); fail_unless(mplugin->getListOfObjectives()->getPackageName() == "fbc"); Objective* objective = mplugin->getObjective(0); fail_unless(objective->getId() == "obj1"); fail_unless(objective->getType() == "maximize"); fail_unless(objective->getNumFluxObjectives() == 1); fail_unless(objective->getPackageName() == "fbc"); fail_unless(objective->getListOfFluxObjectives()->getPackageName() == "fbc"); FluxObjective* fluxObjective = objective->getFluxObjective(0); fail_unless(fluxObjective->getReaction() == "J8"); fail_unless(fluxObjective->getPackageName() == "fbc"); fail_unless(fluxObjective->getCoefficient() == 1); fail_unless(mplugin->getNumFluxBounds() == 1); fail_unless(mplugin->getListOfFluxBounds()->getPackageName() == "fbc"); FluxBound* bound = mplugin->getFluxBound(0); fail_unless(bound->getId() == "bound1"); fail_unless(bound->getPackageName() == "fbc"); fail_unless(bound->getReaction() == "J0"); fail_unless(bound->getOperation() == "equal"); fail_unless(bound->getValue() == 10); delete document; }
END_TEST START_TEST(test_FbcExtension_convert_and_write) { string file(TestDataDirectory); file += "/fbc_ga_example.xml"; SBMLDocument* document = readSBMLFromFile(file.c_str()); document->printErrors(); fail_unless(document->getNumErrors(LIBSBML_SEV_ERROR) == 0); fail_unless(document->getModel() != NULL); // convert to v2 { ConversionProperties props; props.addOption("convert fbc v1 to fbc v2", true); props.addOption("strict", true); int result = document->convert(props); // ensure that all is well with the model fail_unless(result == LIBSBML_OPERATION_SUCCESS); fail_unless(document->getLevel() == 3); fail_unless(document->getVersion() == 1); fail_unless(document->getPlugin("fbc") != NULL); fail_unless(document->getPlugin("fbc")->getPackageVersion() == 2); } // ensure that all the v1 stuff is no longer there FbcModelPlugin* mplug = dynamic_cast<FbcModelPlugin*>( document->getModel()->getPlugin("fbc")); fail_unless(mplug != NULL); fail_unless(mplug->isSetStrict()); fail_unless(mplug->getNumGeneAssociations() == 0); fail_unless(mplug->getNumFluxBounds() == 0); delete document; }
int FbcToCobraConverter::convert() { int result = LIBSBML_OPERATION_FAILED; if (mDocument == NULL) { return LIBSBML_INVALID_OBJECT; } Model* mModel = mDocument->getModel(); if (mModel == NULL) { return LIBSBML_INVALID_OBJECT; } FbcModelPlugin *plugin = static_cast<FbcModelPlugin*>(mDocument->getModel()->getPlugin("fbc")); // if we have don't have a fbc model we cannot do the conversion if (plugin == NULL || mDocument->getLevel() != 3) { return LIBSBML_OPERATION_FAILED; } // collect information Model* model = mDocument->getModel(); map<const string, int> chargeMap; map<const string, string> formulaMap; for (unsigned int i = 0; i < model->getNumSpecies(); ++i) { Species* current = model->getSpecies(i); const string& currentId = current->getId(); FbcSpeciesPlugin *splugin = static_cast<FbcSpeciesPlugin*>(current->getPlugin("fbc")); if (splugin == NULL) continue; if (splugin->isSetCharge()) { chargeMap[currentId] = splugin->getCharge(); } if (splugin->isSetChemicalFormula()) { formulaMap[currentId] = splugin->getChemicalFormula(); } } // create KineticLaw for (unsigned int i = 0; i < model->getNumReactions(); ++i) { Reaction* reaction = model->getReaction(i); if (reaction == NULL) continue; createKineticLawForReaction(reaction); } // update kinetic law from bounds for (unsigned int i = 0; i < plugin->getNumFluxBounds(); ++i) { FluxBound *current = plugin->getFluxBound(i); if (current == NULL) continue; Reaction* reaction = model->getReaction(current->getReaction()); if (reaction == NULL) continue; updateKineticLawFromBound(reaction, current); } setObjectiveCoefficient(plugin, model); // disable package mDocument->enablePackage("http://www.sbml.org/sbml/level3/version1/fbc/version1", "fbc",false); // convert model to L2V1 (as L2V2 is the last model that had charge) mDocument->setConversionValidators(AllChecksON & UnitsCheckOFF); ConversionProperties prop(new SBMLNamespaces(2,1)); prop.addOption("strict", false, "should validity be preserved"); prop.addOption("ignorePackages", true, "convert even if packages are used"); prop.addOption("setLevelAndVersion", true, "convert the document to the given level and version"); int conversionResult = mDocument->convert(prop); if (conversionResult != LIBSBML_OPERATION_SUCCESS) return conversionResult; // set charge on species for (unsigned int i = 0; i < model->getNumSpecies(); ++i) { Species* current = model->getSpecies(i); const string currentId = current->getId(); int charge = chargeMap[currentId]; if (charge != 0) current->setCharge(charge); const string formula = formulaMap[currentId]; if (!formula.empty()) { current->setNotes( getNotesForFormula(formula) ); } } result = LIBSBML_OPERATION_SUCCESS; return result; }