}
for(int j=0;j<array.length;j++) {
+ if (array[j]==AbstractRepair.ADDTOSET) {
+
+ System.out.println("1");
+ if ((dp.getPredicate() instanceof ExprPredicate)&&
+ (((ExprPredicate)dp.getPredicate()).getType()==ExprPredicate.SIZE)) {
+ System.out.println("2");
+ boolean neg=dp.isNegated();
+ Opcode op=((ExprPredicate)dp.getPredicate()).getOp();
+ int size=((ExprPredicate)dp.getPredicate()).rightSize();
+ op=Opcode.translateOpcode(neg,op);
+ Descriptor des=((ExprPredicate)dp.getPredicate()).getDescriptor();
+ if (des instanceof SetDescriptor) {
+ System.out.println("3");
+
+ int minsize=exactsize.minSize((SetDescriptor)des);
+ Constraint reqc=exactsize.ensuresMinSize((SetDescriptor)des);
+ if (((size==minsize)&&(op==Opcode.EQ))||
+ ((size<=minsize)&&(op==Opcode.GE))||
+ ((size<minsize)&&(op==Opcode.GT))) {
+ System.out.println("4");
+ constraintdependence.requiresConstraint(gn,reqc);
+ //force good ordering
+ continue; //no repair action needed here...
+ }
+ }
+ }
+ }
+
AbstractRepair ar=new AbstractRepair(dp,array[j],d,sources);
TermNode tn2=new TermNode(ar);
// GraphNode gn2=new GraphNode(gn.getLabel()+"A"+i+"B"+ar.type(),gn.getTextLabel()+" #"+i+" "+ar.type(),tn2);