private static ArrayList<BooleanVariableInterface> chooseVariablesForConstraints(
FeatureModel fm, int numVars) {
ArrayList<BooleanVariableInterface> vars = new ArrayList<BooleanVariableInterface>(numVars);
Collection<FeatureTreeNode> nodes = fm.getNodes();
int numNodes = nodes.size();
int varsGen = 0;
while (varsGen < numVars) {
int random = Math.abs(new Random().nextInt() % numNodes);
Iterator<FeatureTreeNode> it = nodes.iterator();
for (int i = 0; i < (random - 1); i++) {
it.next();
}
FeatureTreeNode node = it.next();
if (!(node instanceof FeatureGroup) && !(node instanceof RootNode)) {
if (!vars.contains(node)) {
vars.add(node);
varsGen++;
}
}
}
// System.out.println("choosen ==>");
// for( int i = 0 ; i < vars.size() ; i++ ) {
// System.out.print(vars.get(i).getName()+",");
// }
// System.out.println("");
return vars;
}
public String toString() {
String toString =
"Product Catalog: "
+ featureModel.getName()
+ " ["
+ concreteComponents.size()
+ " components, "
+ products.size()
+ " products]----------------- \r\n";
toString += "- Concrete Components \r\n";
for (ProductComponent component : concreteComponents.values()) {
toString += component.toString();
toString += "\r\n";
}
toString += "- Products ------ \r\n";
for (Product product : products.values()) {
toString += product.toString();
toString += "\r\n";
}
return toString;
}
public List<Product> filterProductsBasedOnFeatureModelSelection() {
List<Product> filteredProducts = new LinkedList<Product>();
filteredProducts.addAll(products.values());
// for each component
for (ProductComponent component : concreteComponents.values()) {
// for each component type
for (String componentType : component.getTypes()) {
FeatureTreeNode featureNode = featureModel.getNodeByID(componentType);
// if the component type is selected/deselected in the feature model
if (featureNode.isInstantiated()) {
// for each product
for (Iterator<Product> it = filteredProducts.iterator(); it.hasNext(); ) {
Product product = it.next();
String productComponentType = product.getComponent(component.getID());
// component type is selected in the feature model but is NOT part of the product -
// remove product from filter list
try {
if (featureNode.getValue() == 1
&& componentType.compareToIgnoreCase(productComponentType) != 0) {
it.remove();
}
// or if component type is DEselected in the feature model but IS part of the product
// - remove product from filter list
else if (featureNode.getValue() == 0
&& componentType.compareToIgnoreCase(productComponentType) == 0) {
it.remove();
}
} catch (Exception e) {
e.printStackTrace();
}
}
}
}
}
return filteredProducts;
}
public ProductCatalog(FeatureModel featureModel) {
this.featureModel = featureModel;
concreteComponents = new HashMap<String, ProductComponent>();
products = new LinkedHashMap<String, Product>();
extractComponentsFromFeatureModel(featureModel.getRoot());
}
public void init(String args[]) {
if (restoreState(args[0])) {
logLastFailure(collectionCurIndex);
modelCurIndex++; // skip the failing model
}
initializeHeuristics(null);
for (int collectionIndex = collectionCurIndex;
collectionIndex < collections.length;
collectionIndex++) {
for (int heuristicIndex = heuristicCurIndex;
heuristicIndex < heuristics.length;
heuristicIndex++) {
for (int modelIndex = modelCurIndex;
modelIndex <= collections[collectionIndex].size;
modelIndex++) {
String modelName = getModelToProcess(collectionIndex, modelIndex);
String heurName = heuristics[heuristicIndex];
System.out.println("-------------------------------------------------------");
System.out.println("Processing: [" + modelName + ", " + heurName + "]");
saveState(collectionIndex, heuristicIndex, modelIndex);
TestData data = new TestData();
data.heuristic = heurName;
data.modelName = modelName;
// if ( Math.abs(new Random().nextInt())% 5 == 0 ) {
// System.exit(-1);
// }
FeatureModel fm =
new XMLFeatureModel(
collectionPath + modelName + ".xml", XMLFeatureModel.SET_ID_AUTOMATICALLY);
try {
fm.loadModel();
} catch (FeatureModelException e) {
e.printStackTrace();
}
FeatureModelStatistics stats = new FeatureModelStatistics(fm);
stats.update();
data.fmSize = stats.countFeatures();
data.fmMan = stats.countMandatory();
data.fmOpt = stats.countOptional();
data.fmGrp1 = stats.countGrouped11();
data.fmGrpn = stats.countGrouped1n();
data.ecClauses = stats.countExtraConstraintCNFClauses();
data.ECR = ((stats.countConstraintVars() * 1.0) / data.fmSize);
data.simplified = 0;
if (simplifyModels) {
fm.shrink();
stats.update();
data.simplified = 1;
}
data.fmSizeSimp = stats.countFeatures();
data.ECRSimp = ((1.0 * stats.countConstraintVars()) / data.fmSizeSimp);
VariableOrderingHeuristic heurObject =
VariableOrderingHeuristicsManager.createHeuristicsManager().getHeuristic(heurName);
heurObject.setParameter("feature_model", fm);
heurObject.setParameter("start_node", "output");
CNFFormula cnf = fm.FM2CNF();
System.out.println(">> Running heuristic...");
heurObject.run(cnf);
data.heurTime = heurObject.getRunningTime();
System.out.println(">> done! (" + data.heurTime + "ms)");
ReasoningWithBDD reasoning =
new FMReasoningWithBDD(
fm, heurObject, bddNodeNum, bddCacheSize, bddTimeout, reorderMethod, "pre-order");
try {
System.out.println(">> Building BDD...");
reasoning.init();
data.timeout = 0;
System.out.println(
">> done! ("
+ reasoning.getBDD().nodeCount()
+ " BDD nodes - "
+ reasoning.getBDDBuildingTime()
+ "ms)");
} catch (Exception e) {
System.out.println(">>> Timeout: > " + bddTimeout);
data.timeout = 1;
System.out.println(">> done! (timed out!)");
}
data.bddTime = reasoning.getBDDBuildingTime();
data.bddSize = reasoning.getBDD().nodeCount();
data.sifting = 0;
data.span =
cnf.calculateClauseSpan(
VariableOrderingHeuristic.variableOrderingAsHashMap(
heurObject.getVariableOrdering()));
long tempTime = System.nanoTime();
reasoning.getBDD().satCount();
data.timeToCountBDDSolutions = ((System.nanoTime() - tempTime) / 1000000.0);
logData(data, collectionIndex);
}
saveState(collectionIndex, heuristicIndex, collections[collectionIndex].size + 1);
modelCurIndex = modelStartIndex;
if (heuristicIndex < heuristics.length - 1) {
startNewHeuristicInLog(collectionIndex);
}
}
heuristicCurIndex = 0;
}
}