crhead.outputline("~"+name+"();");
craux.outputline("#include \""+headername+"\"");
craux.outputline("#include \"size.h\"");
-
+ if (Compiler.ALLOCATECPLUSPLUS) {
+ for(Iterator it=state.stTypes.descriptors();it.hasNext();) {
+ TypeDescriptor td=(TypeDescriptor)it.next();
+ if (td instanceof StructureTypeDescriptor) {
+ if (((StructureTypeDescriptor)td).size()>0) {
+ FieldDescriptor fd=((StructureTypeDescriptor)td).get(0);
+ if (fd.getSymbol().startsWith("_vptr_")) {
+ String vtable="_ZTV";
+ vtable+=td.getSymbol().length();
+ vtable+=td.getSymbol();
+ craux.outputline("extern void * "+vtable+";");
+ }
+ }
+ }
+ }
+ }
craux.outputline(name+"::"+name+"() {");
craux.outputline("// creating hashtables ");
crhead.outputline("void doanalysis();");
craux.outputline("void "+name +"_state::doanalysis()");
craux.startblock();
+ if (Compiler.TIME) {
+ craux.outputline("struct timeval _begin_time,_end_time;");
+ craux.outputline("gettimeofday(&_begin_time,NULL);");
+ }
+
if (Compiler.GENERATEINSTRUMENT) {
craux.outputline("updatecount=0;");
craux.outputline("rebuildcount=0;");
private void generate_teardown() {
CodeWriter cr = new StandardCodeWriter(outputaux);
cr.endblock();
+ if (Compiler.TIME) {
+ cr.outputline("gettimeofday(&_end_time,NULL);");
+ cr.outputline("printf(\"time=%ld uS\\n\",(_end_time.tv_sec-_begin_time.tv_sec)*1000000+_end_time.tv_usec-_begin_time.tv_usec)");
+ }
+
if (Compiler.GENERATEINSTRUMENT) {
cr.outputline("printf(\"updatecount=%d\\n\",updatecount);");
cr.outputline("printf(\"rebuildcount=%d\\n\",rebuildcount);");
}
private void generate_checks() {
-
/* do constraint checks */
- // Vector constraints = state.vConstraints;
-
-
- // for (int i = 0; i < constraints.size(); i++) {
- // Constraint constraint = (Constraint) constraints.elementAt(i);
- for (Iterator i = termination.constraintdependence.computeOrdering().iterator(); i.hasNext();) {
- Constraint constraint = (Constraint) ((GraphNode)i.next()).getOwner();
+ Iterator i;
+ if (Compiler.REPAIR)
+ i=termination.constraintdependence.computeOrdering().iterator();
+ else
+ i=state.vConstraints.iterator();
+ for (; i.hasNext();) {
+ Constraint constraint;
+ if (Compiler.REPAIR)
+ constraint= (Constraint) ((GraphNode)i.next()).getOwner();
+ else
+ constraint=(Constraint)i.next();
{
final SymbolTable st = constraint.getSymbolTable();
cr.outputline("if (maybe)");
cr.startblock();
cr.outputline("printf(\"maybe fail " + escape(constraint.toString()) + ". \\n\");");
- cr.outputline("exit(1);");
+ //cr.outputline("exit(1);");
cr.endblock();
cr.outputline("else if (!" + constraintboolean.getSafeSymbol() + ")");
p.generate(cr,predvalue);
if (k==0)
cr.outputline("int "+costvar.getSafeSymbol()+"=0;");
-
+
if (negate)
cr.outputline("if (maybe||"+predvalue.getSafeSymbol()+")");
else
cr.outputline("if (maybe||!"+predvalue.getSafeSymbol()+")");
cr.outputline(costvar.getSafeSymbol()+"+="+cost.getCost(dpred)+";");
}
-
+
if(!first) {
cr.outputline("if ("+costvar.getSafeSymbol()+"<"+mincost.getSafeSymbol()+")");
cr.startblock();
for(int j=0;j<dnfconst.size();j++) {
GraphNode gn=(GraphNode)dnfconst.get(j);
Conjunction conj=((TermNode)gn.getOwner()).getConjunction();
-
if (removed.contains(gn))
continue;
cr.outputline("case "+j+":");
cr.outputline("break;");
}
cr.outputline("}");
-
+
cr.outputline("if ("+oldmodel.getSafeSymbol()+")");
cr.outputline("delete "+oldmodel.getSafeSymbol()+";");
cr.outputline(oldmodel.getSafeSymbol()+"="+newmodel.getSafeSymbol()+";");
cr.endblock();
cr.outputline("rebuild:");
cr.outputline(";");
-
}
private MultUpdateNode getmultupdatenode(Conjunction conj, DNFPredicate dpred, int repairtype) {
- MultUpdateNode mun=null;
+ Set nodes=getmultupdatenodeset(conj,dpred,repairtype);
+ Iterator it=nodes.iterator();
+ if (it.hasNext())
+ return (MultUpdateNode)it.next();
+ else
+ return null;
+ }
+
+ private Set getmultupdatenodeset(Conjunction conj, DNFPredicate dpred, int repairtype) {
+ HashSet hs=new HashSet();
GraphNode gn=(GraphNode) termination.conjtonodemap.get(conj);
- for(Iterator edgeit=gn.edges();(mun==null)&&edgeit.hasNext();) {
+ for(Iterator edgeit=gn.edges();edgeit.hasNext();) {
GraphNode gn2=((GraphNode.Edge) edgeit.next()).getTarget();
TermNode tn2=(TermNode)gn2.getOwner();
if (tn2.getType()==TermNode.ABSTRACT) {
if (!removed.contains(gn3)) {
TermNode tn3=(TermNode)gn3.getOwner();
if (tn3.getType()==TermNode.UPDATE) {
- mun=tn3.getUpdate();
- break;
+ hs.add(tn3.getUpdate());
}
}
}
}
}
}
- return mun;
+ return hs;
}
+ private AbstractRepair getabstractrepair(Conjunction conj, DNFPredicate dpred, int repairtype) {
+ HashSet hs=new HashSet();
+ MultUpdateNode mun=null;
+ GraphNode gn=(GraphNode) termination.conjtonodemap.get(conj);
+ for(Iterator edgeit=gn.edges();(mun==null)&&edgeit.hasNext();) {
+ GraphNode gn2=((GraphNode.Edge) edgeit.next()).getTarget();
+ TermNode tn2=(TermNode)gn2.getOwner();
+ if (tn2.getType()==TermNode.ABSTRACT) {
+ AbstractRepair ar=tn2.getAbstract();
+ if (((repairtype==-1)||(ar.getType()==repairtype))&&
+ ar.getPredicate()==dpred) {
+ return ar;
+ }
+ }
+ }
+ return null;
+ }
+
+
/** Generates abstract (and concrete) repair for a comparison */
private void generatecomparisonrepair(Conjunction conj, DNFPredicate dpred, CodeWriter cr){
- MultUpdateNode munmodify=getmultupdatenode(conj,dpred,AbstractRepair.MODIFYRELATION);
- MultUpdateNode munremove=getmultupdatenode(conj,dpred,AbstractRepair.REMOVEFROMRELATION);
- MultUpdateNode munadd=getmultupdatenode(conj,dpred,AbstractRepair.ADDTORELATION);
+ Set updates=getmultupdatenodeset(conj,dpred,AbstractRepair.MODIFYRELATION);
+ AbstractRepair ar=getabstractrepair(conj,dpred,AbstractRepair.MODIFYRELATION);
+ MultUpdateNode munmodify=null;
+ MultUpdateNode munadd=null;
+ MultUpdateNode munremove=null;
+ for(Iterator it=updates.iterator();it.hasNext();) {
+ MultUpdateNode mun=(MultUpdateNode)it.next();
+ if (mun.getType()==MultUpdateNode.ADD) {
+ munadd=mun;
+ } else if (mun.getType()==MultUpdateNode.REMOVE) {
+ munremove=mun;
+ } else if (mun.getType()==MultUpdateNode.MODIFY) {
+ munmodify=mun;
+ }
+ }
+
ExprPredicate ep=(ExprPredicate)dpred.getPredicate();
RelationDescriptor rd=(RelationDescriptor)ep.getDescriptor();
boolean usageimage=rd.testUsage(RelationDescriptor.IMAGE);
VarDescriptor leftside=VarDescriptor.makeNew("leftside");
VarDescriptor rightside=VarDescriptor.makeNew("rightside");
VarDescriptor newvalue=VarDescriptor.makeNew("newvalue");
- if (!inverted) {
+ boolean needremoveloop=ar.mayNeedFunctionEnforcement(state)&&ar.needsRemoves(state);
+
+ if (needremoveloop&&((munadd==null)||(munremove==null))) {
+ System.out.println("Warning: need to have individual remove operations for"+dpred.name());
+ needremoveloop=false;
+ }
+ if (needremoveloop)
+ cr.outputline("while (1) {");
+
+ if (!inverted) {
((RelationExpr)expr.getLeftExpr()).getExpr().generate(cr,leftside);
expr.getRightExpr().generate(cr,newvalue);
cr.outputline(rd.getRange().getType().getGenerateType().getSafeSymbol()+" "+rightside.getSafeSymbol()+";");
cr.outputline(rd.getDomain().getType().getGenerateType().getSafeSymbol()+" "+leftside.getSafeSymbol()+";");
cr.outputline(rd.getSafeSymbol()+"_hashinv->get("+rightside.getSafeSymbol()+","+leftside.getSafeSymbol()+");");
}
- if (negated)
- if (opcode==Opcode.GT) {
- opcode=Opcode.LE;
- } else if (opcode==Opcode.GE) {
- opcode=Opcode.LT;
- } else if (opcode==Opcode.LT) {
- opcode=Opcode.GE;
- } else if (opcode==Opcode.LE) {
- opcode=Opcode.GT;
- } else if (opcode==Opcode.EQ) {
- opcode=Opcode.NE;
- } else if (opcode==Opcode.NE) {
- opcode=Opcode.EQ;
- } else {
- throw new Error("Unrecognized Opcode");
- }
+
+ opcode=Opcode.translateOpcode(negated,opcode);
if (opcode==Opcode.GT) {
cr.outputline(newvalue.getSafeSymbol()+"++;");
/* Do abstract repairs */
if (usageimage) {
cr.outputline(rd.getSafeSymbol()+"_hash->remove("+leftside.getSafeSymbol()+","+rightside.getSafeSymbol()+");");
+ }
+ if (usageinvimage) {
+ cr.outputline(rd.getSafeSymbol()+"_hashinv->remove("+rightside.getSafeSymbol()+","+leftside.getSafeSymbol()+");");
+ }
+
+ if (needremoveloop) {
+ if (!inverted) {
+ cr.outputline("if ("+rd.getSafeSymbol()+"_hash->contains("+leftside.getSafeSymbol()+")) {");
+ } else {
+ cr.outputline("if ("+rd.getSafeSymbol()+"_hashinv->contains("+rightside.getSafeSymbol()+")) {");
+ }
+ for(int i=0;i<state.vRules.size();i++) {
+ Rule r=(Rule)state.vRules.get(i);
+ if (r.getInclusion().getTargetDescriptors().contains(rd)) {
+ for(int j=0;j<munremove.numUpdates();j++) {
+ UpdateNode un=munremove.getUpdate(i);
+ if (un.getRule()==r) {
+ /* Update for rule r */
+ String name=(String)updatenames.get(un);
+ cr.outputline(repairtable.getSafeSymbol()+"->addrelation("+rd.getNum()+","+r.getNum()+","+leftside.getSafeSymbol()+","+rightside.getSafeSymbol()+",(int) &"+name+");");
+ }
+ }
+ }
+ }
+ cr.outputline("continue;");
+ cr.outputline("}");
+ }
+
+ if (usageimage) {
if (!inverted) {
cr.outputline(rd.getSafeSymbol()+"_hash->add("+leftside.getSafeSymbol()+","+newvalue.getSafeSymbol()+");");
} else {
}
}
if (usageinvimage) {
- cr.outputline(rd.getSafeSymbol()+"_hashinv->remove("+rightside.getSafeSymbol()+","+leftside.getSafeSymbol()+");");
if (!inverted) {
cr.outputline(rd.getSafeSymbol()+"_hashinv->add("+newvalue.getSafeSymbol()+","+leftside.getSafeSymbol()+");");
} else {
}
}
/* Do concrete repairs */
- if (munmodify!=null) {
+ if (munmodify!=null&&(!ar.mayNeedFunctionEnforcement(state))||(munadd==null)||(ar.needsRemoves(state)&&(munremove==null))) {
for(int i=0;i<state.vRules.size();i++) {
Rule r=(Rule)state.vRules.get(i);
if (r.getInclusion().getTargetDescriptors().contains(rd)) {
}
}
}
-
} else {
/* Start with scheduling removal */
- for(int i=0;i<state.vRules.size();i++) {
- Rule r=(Rule)state.vRules.get(i);
- if (r.getInclusion().getTargetDescriptors().contains(rd)) {
- for(int j=0;j<munremove.numUpdates();j++) {
- UpdateNode un=munremove.getUpdate(i);
- if (un.getRule()==r) {
- /* Update for rule r */
- String name=(String)updatenames.get(un);
- cr.outputline(repairtable.getSafeSymbol()+"->addrelation("+rd.getNum()+","+r.getNum()+","+leftside.getSafeSymbol()+","+rightside.getSafeSymbol()+",(int) &"+name+");");
+ if (ar.needsRemoves(state))
+ for(int i=0;i<state.vRules.size();i++) {
+ Rule r=(Rule)state.vRules.get(i);
+ if (r.getInclusion().getTargetDescriptors().contains(rd)) {
+ for(int j=0;j<munremove.numUpdates();j++) {
+ UpdateNode un=munremove.getUpdate(i);
+ if (un.getRule()==r) {
+ /* Update for rule r */
+ String name=(String)updatenames.get(un);
+ cr.outputline(repairtable.getSafeSymbol()+"->addrelation("+rd.getNum()+","+r.getNum()+","+leftside.getSafeSymbol()+","+rightside.getSafeSymbol()+",(int) &"+name+");");
+ }
}
}
}
- }
/* Now do addition */
UpdateNode un=munadd.getUpdate(0);
String name=(String)updatenames.get(un);
cr.outputline(name+"(this,"+newmodel.getSafeSymbol()+","+repairtable.getSafeSymbol()+","+newvalue.getSafeSymbol()+","+rightside.getSafeSymbol()+");");
}
}
+ if (needremoveloop) {
+ cr.outputline("break;");
+ cr.outputline("}");
+ }
}
public void generatesizerepair(Conjunction conj, DNFPredicate dpred, CodeWriter cr) {
VarDescriptor rightvar=VarDescriptor.makeNew("rightvar");
if (d instanceof RelationDescriptor) {
if (ep.inverted()) {
- rightvar=((ImageSetExpr)((SizeofExpr)((OpExpr)expr).left).setexpr).getVar();
+ ((ImageSetExpr)((SizeofExpr)expr.left).setexpr).generate_leftside(cr,rightvar);
cr.outputline("int "+leftvar.getSafeSymbol()+";");
cr.outputline(d.getSafeSymbol()+"_hashinv->get((int)"+rightvar.getSafeSymbol()+","+leftvar.getSafeSymbol()+");");
} else {
- leftvar=((ImageSetExpr)((SizeofExpr)((OpExpr)expr).left).setexpr).getVar();
+ ((ImageSetExpr)((SizeofExpr)expr.left).setexpr).generate_leftside(cr,leftvar);
cr.outputline("int "+rightvar.getSafeSymbol()+"=0;");
cr.outputline(d.getSafeSymbol()+"_hash->get((int)"+leftvar.getSafeSymbol()+","+rightvar.getSafeSymbol()+");");
}
}
cr.endblock();
}
+
+// In some cases the analysis has determined that generating removes
+// is unnecessary
+ if (generateadd&&munadd==null)
+ generateadd=false;
+
if (generateadd) {
cr.outputline("for(;"+change.getSafeSymbol()+">0;"+change.getSafeSymbol()+"--)");
cr.startblock();
VarDescriptor newobject=VarDescriptor.makeNew("newobject");
if (d instanceof RelationDescriptor) {
- VarDescriptor otherside=((ImageSetExpr)((SizeofExpr)((OpExpr)ep.expr).left).setexpr).vd;
+ VarDescriptor otherside=VarDescriptor.makeNew("otherside");
+ ((ImageSetExpr)((SizeofExpr)expr.left).setexpr).generate_leftside(cr,otherside);
+
RelationDescriptor rd=(RelationDescriptor)d;
if (termination.sources.relsetSource(rd,!ep.inverted())) {
/* Set Source */