Individual y = strategy.createFreshIndividual( x, ds );
strategy.addType( y, c, ds );
return;
}
Role role = strategy.getABox().getRole( s );
// Is there a r-neighbor that satisfies the someValuesFrom restriction
boolean neighborFound = false;
// Safety condition as defined in the SHOIQ algorithm.
// An R-neighbor y of a node x is safe if
// (i) x is blockable or if
// (ii) x is a nominal node and y is not blocked.
boolean neighborSafe = x.isBlockable();
// y is going to be the node we create, and edge its connection to the
// current node
Node y = null;
Edge edge = null;
// edges contains all the edges going into of coming out from the node
// And labeled with the role R
EdgeList edges = x.getRNeighborEdges( role );
// We examine all those edges one by one and check if the neighbor has
// type C, in which case we set neighborFound to true
for( Iterator<Edge> i = edges.iterator(); i.hasNext(); ) {
edge = i.next();
y = edge.getNeighbor( x );
if( PelletOptions.USE_COMPLETION_QUEUE && y.isPruned() ){
y = null;
continue;
}
if( y.hasType( c ) ) {
neighborFound = neighborSafe || y.isLiteral() || !strategy.getBlocking().isBlocked( (Individual) y );
if( neighborFound ) {
break;
}
}
}
// If we have found a R-neighbor with type C, continue, do nothing
if( neighborFound )
return;
// If not, we have to create it
// If the role is a datatype property...
if( role.isDatatypeRole() ) {
Literal literal = (Literal) y;
if( ATermUtils.isNominal( c ) && !PelletOptions.USE_PSEUDO_NOMINALS ) {
strategy.getABox().copyOnWrite();
final ATermAppl input = (ATermAppl) c.getArgument( 0 );
ATermAppl canonical;
if( input.getArgument( ATermUtils.LIT_URI_INDEX ).equals( ATermUtils.NO_DATATYPE ) ) {
canonical = input;
}
else {
try {
canonical = strategy.getABox().getDatatypeReasoner().getCanonicalRepresentation( input );
} catch( InvalidLiteralException e ) {
final String msg = "Invalid literal encountered in nominal when attempting to apply some values rule: "
+ e.getMessage();
throw new InternalReasonerException( msg, e );
} catch( UnrecognizedDatatypeException e ) {
final String msg = "Unrecognized datatype for literal encountered in nominal when attempting to apply some values rule: "
+ e.getMessage();
throw new InternalReasonerException( msg, e );
}
}
literal = strategy.getABox().addLiteral( canonical );
}
else {
if( !role.isFunctional() || literal == null ) {
literal = strategy.getABox().addLiteral( ds );
}
else {
ds = ds.union( role.getExplainFunctional(), strategy.getABox().doExplanation() );
ds = ds.union( edge.getDepends(), strategy.getABox().doExplanation() );
}
strategy.addType( literal, c, ds );
}
if( log.isLoggable( Level.FINE ) )
log.fine( "SOME: " + x + " -> " + s + " -> " + literal + " : " + ATermUtils.toString( c ) + " - " + ds );
strategy. addEdge( x, role, literal, ds );
}
// If it is an object property
else {
if( ATermUtils.isNominal( c ) && !PelletOptions.USE_PSEUDO_NOMINALS ) {
strategy.getABox().copyOnWrite();
ATermAppl value = (ATermAppl) c.getArgument( 0 );
y = strategy.getABox().getIndividual( value );
if( log.isLoggable( Level.FINE ) )
log.fine( "VAL : " + x + " -> " + ATermUtils.toString( s ) + " -> " + y + " - " + ds );
if( y == null ) {
if( ATermUtils.isAnonNominal( value ) ) {
y = strategy.getABox().addIndividual( value, ds );
}
else if( ATermUtils.isLiteral( value ) )
throw new InternalReasonerException( "Object Property " + role
+ " is used with a hasValue restriction "
+ "where the value is a literal: " + ATermUtils.toString( value ) );
else
throw new InternalReasonerException( "Nominal " + c
+ " is not found in the KB!" );
}
if( y.isMerged() ) {
ds = ds.union( y.getMergeDependency( true ), strategy.getABox().doExplanation() );
y = y.getSame();
}
strategy.addEdge( x, role, y, ds );
}
else {
boolean useExistingNode = false;
boolean useExistingRole = false;
DependencySet maxCardDS = role.isFunctional()
? role.getExplainFunctional()
: x.hasMax1( role );
if( maxCardDS != null ) {
ds = ds.union( maxCardDS, strategy.getABox().doExplanation() );
// if there is an r-neighbor and we can have at most one r then
// we should reuse that node and edge. there is no way that neighbor
// is not safe (a node is unsafe only if it is blockable and has
// a nominal successor which is not possible if there is a cardinality
// restriction on the property)
if( edge != null ) {
useExistingRole = useExistingNode = true;
}
else {
// this is the tricky part. we need some merges to happen
// under following conditions:
// 1) if r is functional and there is a p-neighbor where
// p is superproperty of r then we need to reuse that
// p neighbor for the some values restriction (no
// need to check subproperties because functionality of r
// precents having two or more successors for subproperties)
// 2) if r is not functional, i.e. max(r, 1) is in the types,
// then having a p neighbor (where p is subproperty of r)
// means we need to reuse that p-neighbor
// In either case if there are more than one such value we also
// need to merge them together
Set<Role> fs = role.isFunctional() ? role.getFunctionalSupers() : role
.getSubRoles();
for( Iterator<Role> it = fs.iterator(); it.hasNext(); ) {
Role f = it.next();
edges = x.getRNeighborEdges( f );
if( !edges.isEmpty() ) {
if( useExistingNode ) {
DependencySet fds = DependencySet.INDEPENDENT;
if (PelletOptions.USE_TRACING) {
if (role.isFunctional()) {
fds = role.getExplainSuper(f.getName());
} else {
fds = role.getExplainSub(f.getName());
}
}
Edge otherEdge = edges.edgeAt( 0 );
Node otherNode = otherEdge.getNeighbor( x );
DependencySet d = ds.union( edge.getDepends(), strategy.getABox().doExplanation() ).union(