END_TEST


START_TEST ( test_KineticLaw_parent_add )
{
    KineticLaw* kl=new KineticLaw(2, 4);

    Reaction * r = new Reaction(2, 4);

    r->setKineticLaw(kl);

    fail_unless(r == r->getKineticLaw()->getParentSBMLObject());

    delete r;
}
Exemplo n.º 2
0
/**
 * Save the gene network to an SBML file. If the argument is null, use the network id.
 * @param filename URL to the file describing the network to load
 * @throws IOException
 */
void GeneNetwork::writeSBML(const char *filename) {
			
	ofstream data_file(filename); 
    if (!data_file.is_open()) {
        std::cerr << "Failed to open file " << filename << std::endl;
        exit(1);
    }
    data_file.close();
			
	::logging::log::emit<Info>() << "Writing file " << filename <<
		::logging::log::endl;
	
	SBMLDocument *sbmlDoc = new SBMLDocument(3, 1);

	Model *model = sbmlDoc->createModel();
	model->setId(id_);
	//model.getNotes ().add (comment_); // save network description
	
	int size = getSize();
	
	Compartment *comp = model->createCompartment();
  	comp->setId("cell");
	comp->setSize(1);

	std::vector<Species*> all_sp;
	Species *sp;

	for (int s=0; s < size; s++) { // save gene as species
//			species[s] = new Species(nodeIds_.get(s), nodeIds_.get(s));
		sp = model->createSpecies();
  		sp->setCompartment("cell");
  		sp->setId((nodes_.at(s)).getLabel());
  		all_sp.push_back(sp);
		//species[s].setInitialAmount(?); // maybe save the wild-type steady state?
		//model.addSpecies(species[s]);
	}
	
	// create the void species
	sp = model->createSpecies();
  	sp->setCompartment("cell");
  	sp->setId("_void_");
	sp->setInitialAmount(0);
	sp->setBoundaryCondition(true);
	sp->setConstant(true);
	all_sp.push_back(sp);
	//model.addSpecies(species[size]);


	// SET SYNTHESIS AND DEGRADATION REACTIONS FOR EVERY GENE
	for (int i=0; i<size; i++) {
		//::logging::log::emit<Info>() << ::logging::log::dec << i <<
		//::logging::log::endl;
		
		// the ID of gene i
//			String currentGeneID = nodeIds_.get(i);
		string currentGeneID = (nodes_.at(i)).getLabel();
		// The modifiers (regulators) of gene i
		std::vector<std::string> inputGenes = (nodes_.at(i)).getInputGenes();
		
		// SYNTHESIS REACTION
		std::string reactionId = currentGeneID + "_synthesis";
		Reaction *reaction = model->createReaction();
		KineticLaw *kineticLaw = reaction->createKineticLaw();
		SpeciesReference *spr;
		ModifierSpeciesReference *msr;
		reaction->setId(reactionId);
		reaction->setReversible (false);
		spr = reaction->createReactant();
  		spr->setSpecies(sp->getId());
  		spr = reaction->createProduct();
  		spr->setSpecies((all_sp.at(i))->getId());
		
		std::stringstream ss;
		ss << inputGenes.size();
		//::logging::log::emit<Debug>() << "node = " << nodes_.at(i).getLabel().c_str() << " #inputs = " << ss.str().c_str() << ::logging::log::endl;
		
		for (unsigned int r=0; r<inputGenes.size(); r++) {// set gene modifiers
//				reaction.addModifier(species[inputIndexes.get(r)]);
			//log.log(Level.INFO, "i = " + size);
			msr = reaction->createModifier();
			msr->setSpecies((all_sp.at(getIndexOfNode(inputGenes.at(r))))->getId());
		}

		//std::vector<RegulatoryModule> modules = (nodes_.at(i)).getRegulatoryModules();
		//log.log(Level.INFO, "size = " + modules.size());
		std::map<std::string, double> *params = new std::map<std::string, double>();
		(nodes_.at(i)).compileParameters(*params);
		
		//char buf[256];
		//sprintf(buf, "%f", nodes_.at(i).getDelta());
		//::logging::log::emit<Info>() << buf << ::logging::log::endl;
		//::logging::log::emit<Info>() << ::logging::log::dec << nodes_.at(i).getAlpha().size() <<
		//		::logging::log::endl;
		
		Parameter *para;
		// save gene parameters (note, the first param is the degradation rate)
		std::map<std::string, double>::iterator p = params->begin();
		//p++;
		for (; p!=params->end(); p++) {
			//if (p == params->begin()) {
			//	p++;
			//	continue;
			//}
			//::logging::log::emit<Info>() << p->first.c_str() <<
			//	::logging::log::endl;
			if (p->first != "delta") {
				para = kineticLaw->createParameter();
				para->setId(p->first);
				para->setValue(p->second);
			}
		}
		reaction->setKineticLaw(kineticLaw);
		model->addReaction(reaction);

		// DEGRADATION REACTION
		reaction = model->createReaction();
		kineticLaw = reaction->createKineticLaw();
		reactionId = currentGeneID + "_degradation";
		reaction->setId(reactionId);
		reaction->setReversible(false);
		spr = reaction->createReactant();
  		spr->setSpecies((all_sp.at(i))->getId());
  		spr = reaction->createProduct();
  		spr->setSpecies(sp->getId());

		para = kineticLaw->createParameter();
		std::map<std::string,double>::iterator it = params->find("delta");
		para->setId(it->first);
		para->setValue(it->second);
		
		reaction->setKineticLaw (kineticLaw);
		model->addReaction (reaction);
	}
	
	// PRINT FILE
	SBMLWriter sbmlWriter;
	sbmlWriter.writeSBML(sbmlDoc, filename);
	
	delete sbmlDoc;
}