import java.util.*;
import java.io.*;
import MCC.State;
+import MCC.Compiler;
public class GraphAnalysis {
Termination termination;
termination=t;
}
+ private boolean safetransclosure(GraphNode gn, Set removed, Set cantremove, Set couldremove) {
+ Stack workset=new Stack();
+ HashSet closureset=new HashSet();
+ boolean needcyclecheck=false;
+ HashSet cantremovetrans=new HashSet();
+ workset.push(gn);
+ while(!workset.empty()) {
+ GraphNode gn2=(GraphNode)workset.pop();
+ if (!closureset.contains(gn2)) {
+ closureset.add(gn2);
+ boolean goodoption=false;
+ for(Iterator edgeit=gn2.edges();edgeit.hasNext();) {
+ GraphNode gn3=((GraphNode.Edge)edgeit.next()).getTarget();
+ if (removed.contains(gn3))
+ continue;
+ if (((cantremove.contains(gn2)||!couldremove.contains(gn2))
+ &&termination.conjunctions.contains(gn2))||
+ cantremovetrans.contains(gn2))
+ cantremovetrans.add(gn3);
+
+ if (termination.abstractrepair.contains(gn3)||
+ termination.conjunctions.contains(gn3)||
+ termination.updatenodes.contains(gn3)) {
+ /** Check for cycles if the graphnode can't
+ * be removed (we know we aren't introducing
+ * new things to repair). */
+ if ((!termination.abstractrepair.contains(gn3)&&
+ cantremove.contains(gn3))||
+ cantremovetrans.contains(gn3)) {
+ needcyclecheck=true;
+ } else return false;
+ }
+ if ((!couldremove.contains(gn3))||cantremove.contains(gn3))
+ goodoption=true;
+ workset.push(gn3);
+ }
+ if (!goodoption) {
+ if (termination.scopenodes.contains(gn2))
+ return false;
+ }
+ }
+ }
+ if (needcyclecheck) {
+ Set cycles=GraphNode.findcycles(closureset);
+ for(Iterator it=cycles.iterator();it.hasNext();) {
+ GraphNode gn2=(GraphNode)it.next();
+ if (termination.abstractrepair.contains(gn2)||
+ termination.conjunctions.contains(gn2)||
+ termination.updatenodes.contains(gn2))
+ return false;
+ }
+ }
+ return true;
+ }
+
public Set doAnalysis() {
HashSet cantremove=new HashSet();
HashSet mustremove=new HashSet();
couldremove.addAll(termination.conjunctions);
couldremove.addAll(termination.updatenodes);
couldremove.addAll(termination.consequencenodes);
- couldremove.retainAll(cycles);
+ couldremove.retainAll(nodes);
+
+
+ /* Check for consequence nodes which are fine */
+
+ for(Iterator it=termination.consequencenodes.iterator();it.hasNext();) {
+ GraphNode gn=(GraphNode) it.next();
+ if (safetransclosure(gn, mustremove,cantremove, couldremove)) {
+ couldremove.remove(gn);
+ }
+ }
+
+ /* Check for update nodes which are fine */
+
+ for(Iterator it=termination.updatenodes.iterator();it.hasNext();) {
+ GraphNode gn=(GraphNode) it.next();
+ if (safetransclosure(gn, mustremove,cantremove, cantremove)) {
+ couldremove.remove(gn);
+ }
+ }
+
+ /* Check for conjunction nodes which are fine */
+
+ for(Iterator it=termination.conjunctions.iterator();it.hasNext();) {
+ GraphNode gn=(GraphNode) it.next();
+ if (mustremove.contains(gn)||cantremove.contains(gn))
+ continue;
+ if (!safetransclosure(gn, mustremove,cantremove, cantremove))
+ continue;
+
+ boolean allgood=true;
+ for(Iterator edgeit=gn.edges();edgeit.hasNext();) {
+ GraphNode gn2=((GraphNode.Edge)edgeit.next()).getTarget();
+ TermNode tn2=(TermNode)gn2.getOwner();
+ assert tn2.getType()==TermNode.ABSTRACT;
+ boolean foundupdate=false;
+ for(Iterator edgeit2=gn2.edges();edgeit2.hasNext();) {
+ GraphNode gn3=((GraphNode.Edge)edgeit2.next()).getTarget();
+ if (!couldremove.contains(gn3)&&!mustremove.contains(gn3)) {
+ TermNode tn3=(TermNode)gn3.getOwner();
+ if (tn3.getType()==TermNode.UPDATE)
+ foundupdate=true;
+ }
+ }
+ if (!foundupdate)
+ allgood=false;
+ }
+ if (allgood) {
+ couldremove.remove(gn);
+ if (Compiler.PRUNEQUANTIFIERS) {
+ TermNode tn=(TermNode)gn.getOwner();
+ Constraint constr=tn.getConstraint();
+ for(Iterator consit=((Set)termination.conjunctionmap.get(constr)).iterator();consit.hasNext();) {
+ GraphNode gn4=(GraphNode)consit.next();
+ TermNode tn4=(TermNode)gn4.getOwner();
+ if (tn4.getquantifiernode()) {
+ mustremove.add(gn4); /* This node is history */
+ System.out.println("Eliminating: "+gn4.getTextLabel());
+ }
+ }
+ }
+ }
+ }
+
/* Look for constraints which can only be satisfied one way */
-
+
Vector constraints=termination.state.vConstraints;
for(int i=0;i<constraints.size();i++) {
Constraint c=(Constraint)constraints.get(i);
change=true;
}
}
-
+
+ if (Compiler.AGGRESSIVESEARCH) {
+ /* Aggressively remove compensation nodes */
+ for(Iterator scopeit=termination.scopenodes.iterator();scopeit.hasNext();) {
+ GraphNode gn=(GraphNode)scopeit.next();
+ HashSet tmpset=new HashSet();
+ boolean doremove=false;
+ for(Iterator edgeit=gn.edges();edgeit.hasNext();) {
+ GraphNode.Edge e=(GraphNode.Edge)edgeit.next();
+ GraphNode gn2=e.getTarget();
+ if (termination.consequencenodes.contains(gn2)) {
+ if (((!couldremove.contains(gn2))||cantremove.contains(gn2))&&
+ !mustremove.contains(gn2)) {
+ doremove=true;
+ } else
+ break;
+ } else tmpset.add(gn2);
+ }
+ if (doremove)
+ mustremove.addAll(tmpset);
+ }
+ }
+
Set cycles2=GraphNode.findcycles(cantremove);
for(Iterator it=cycles2.iterator();it.hasNext();) {
GraphNode gn=(GraphNode)it.next();
}
System.out.println("Cycle through conjunction "+gn.getTextLabel() +" which can't be removed.");
+ System.out.println("CANTREMOVE");
+ for(Iterator it2=cantremove.iterator();it2.hasNext();) {
+ GraphNode gn2=(GraphNode)it2.next();
+ System.out.println(gn2.getTextLabel());
+ }
+ System.out.println("MUSTREMOVE");
+ for(Iterator it2=mustremove.iterator();it2.hasNext();) {
+ GraphNode gn2=(GraphNode)it2.next();
+ System.out.println(gn2.getTextLabel());
+ }
return null; // Out of luck
}
}
AbstractRepair ar=tn2.getAbstract();
boolean ismodify=ar.getType()==AbstractRepair.MODIFYRELATION;
int numadd=0;int numremove=0;
-
+
for (Iterator edgeit2=gn2.edges();edgeit2.hasNext();) {
GraphNode.Edge e2=(GraphNode.Edge)edgeit2.next();
GraphNode gn3=e2.getTarget();
if (!containsgn3)
cantremove.remove(gn3);
}
- if (ismodify&&((numadd==0)||(numremove==0))) {
+ if (ismodify&&((numadd==0)||(numremove==0&&ar.needsRemoves(termination.state)))) {
for (Iterator edgeit2=gn2.edges();edgeit2.hasNext();) {
GraphNode.Edge e2=(GraphNode.Edge)edgeit2.next();
GraphNode gn3=e2.getTarget();
GraphNode.Edge e=(GraphNode.Edge)edgeit.next();
GraphNode gn2=e.getTarget();
TermNode tn2=(TermNode)gn2.getOwner();
-
+
if ((tn2.getType()==TermNode.CONSEQUENCE)&&
!mustremove.contains(gn2))
count++;
-
+
if (tn2.getType()!=TermNode.UPDATE)
continue;
boolean containsgn2=cantremove.contains(gn2);
cantremove.add(gn);
cantremove.add(gn2);
-
+
Set cycle=GraphNode.findcycles(cantremove);
if (cycle.contains(gn2)) {
if (!mustremove.contains(gn2)) {
if (!containsgn2)
cantremove.remove(gn2);
}
-
+
if (count==1) {
for (Iterator edgeit=gn.edges();edgeit.hasNext();) {
GraphNode.Edge e=(GraphNode.Edge)edgeit.next();
}
couldremove.removeAll(mustremove);
couldremove.removeAll(cantremove);
-
+
Vector couldremovevector=new Vector();
couldremovevector.addAll(couldremove);
Vector combination=new Vector();
continue; //recalculate
try {
- GraphNode.DOTVisitor.visit(new FileOutputStream("graphsearch.dot"),nodes);
+ GraphNode.DOTVisitor.visit(new FileOutputStream("graphsearch.dot"),nodes,couldremove);
+ } catch (Exception e) {
+ e.printStackTrace();
+ System.exit(-1);
+ }
+
+ try {
+ GraphNode.DOTVisitor.visit(new FileOutputStream("graphcycle.dot"),GraphNode.findcycles(nodes),couldremove);
} catch (Exception e) {
e.printStackTrace();
System.exit(-1);
}
-
+
System.out.println("Searching set of "+couldremove.size()+" nodes.");
System.out.println("Eliminated must "+mustremove.size()+" nodes");
System.out.println("Eliminated cant "+cantremove.size()+" nodes");
GraphNode gn=(GraphNode)it.next();
System.out.println(gn.getTextLabel());
}
-
-
+
+ System.out.println("==================================================");
while(true) {
if (illegal(combination,couldremovevector))
break;
Set combinationset=buildset(combination,couldremovevector);
+ System.out.println("---------------------------");
+ for(Iterator it=combinationset.iterator();it.hasNext();) {
+ System.out.println(((GraphNode)it.next()).getTextLabel());
+ }
+ System.out.println("---------------------------");
checkmodify(combinationset);
combinationset.addAll(mustremove);
if (combinationset!=null) {
- System.out.println("Checkabstract="+checkAbstract(combinationset));
- System.out.println("Checkrepairs="+checkRepairs(combinationset));
- System.out.println("Checkall="+checkAll(combinationset));
-
- if (checkAbstract(combinationset)==0&&
- checkRepairs(combinationset)==0&&
- checkAll(combinationset)==0) {
+ int checkabstract=checkAbstract(combinationset);
+ int checkrep=checkRepairs(combinationset);
+ int checkall=checkAll(combinationset);
+
+ System.out.println("Checkabstract="+checkabstract);
+ System.out.println("Checkrepairs="+checkrep);
+ System.out.println("Checkall="+checkall);
+
+ if (checkabstract==0&&
+ checkrep==0&&
+ checkall==0) {
return combinationset;
}
}
if (!removednodes.contains(gn2)&&
tn2.getType()==TermNode.UPDATE) {
MultUpdateNode mun=tn2.getUpdate();
-
+
if (mun.getType()==MultUpdateNode.ADD)
numadd++;
if (mun.getType()==MultUpdateNode.REMOVE)
numremove++;
}
}
- if ((numadd==0)||(numremove==0)) {
+ if ((numadd==0)||(numremove==0&&ar.needsRemoves(termination.state))) {
for(Iterator it2=gn.edges();it2.hasNext();) {
GraphNode.Edge edge=(GraphNode.Edge)it2.next();
GraphNode gn2=edge.getTarget();
}
if (incremented==false) /* Increase length */ {
combination.add(new Integer(0));
- System.out.println("Expanding to :"+combination.size());
+ System.out.println("Expanding to: "+combination.size());
}
}
tset.addAll(termination.consequencenodes);
abstractnodes.retainAll(tset);
Set cycles=GraphNode.findcycles(abstractnodes);
-
+
for(Iterator it=cycles.iterator();it.hasNext();) {
GraphNode gn=(GraphNode)it.next();
System.out.println("NODE: "+gn.getTextLabel());