psiInteractorA.setIdentifiers(psiIdentifierA); psiInteractorA.setAlternativeIdentifiers(psiAlternativeIdentifierA); psiInteractorA.setAliases(psiAliasA); psiInteractorA.setOrganism(psiOrganismA); psiInteractorB.setIdentifiers(psiIdentifierB); psiInteractorB.setAlternativeIdentifiers(psiAlternativeIdentifierB); psiInteractorB.setAliases(psiAliasB); psiInteractorB.setOrganism(psiOrganismB);
psiInteractorA.setIdentifiers(psiIdentifierA); psiInteractorA.setAlternativeIdentifiers(psiAlternativeIdentifierA); psiInteractorA.setAliases(psiAliasA); psiInteractorA.setOrganism(psiOrganismA); psiInteractorB.setIdentifiers(psiIdentifierB); psiInteractorB.setAlternativeIdentifiers(psiAlternativeIdentifierB); psiInteractorB.setAliases(psiAliasB); psiInteractorB.setOrganism(psiOrganismB);
tabInteractor.setAliases(tabAliases);
public Interactor createProteinInteractorRandom() { final Interactor interactor = buildInteractor(); interactor.setAliases( createAliasRandom( boundRandom( 1, 4 ), "uniprotkb" ) ); interactor.setAlternativeIdentifiers( createUniprotCrossReferenceList( boundRandom( 0, 4 ) ) ); interactor.setIdentifiers( createList( createCrossReference( "uniprotkb", randomUniprotAc() ) ) ); interactor.setOrganism( ( Organism ) pickRandom( organisms ) ); return interactor; }
interactorA.setAliases(splitAliases(line[PsimiTabColumns.ALIAS_INTERACTOR_A.ordinal()])); interactorA.setOrganism(splitOrganism(line[PsimiTabColumns.TAXID_A.ordinal()])); interactorB.setAliases(splitAliases(line[PsimiTabColumns.ALIAS_INTERACTOR_B.ordinal()])); interactorB.setOrganism(splitOrganism(line[PsimiTabColumns.TAXID_B.ordinal()]));