import java.io.*;
import java.util.*;
import MCC.State;
+import MCC.Compiler;
public class RepairGenerator {
State state;
HashSet togenerate;
static boolean DEBUG=false;
Cost cost;
- Sources sources;
+ ModelRuleDependence mrd;
public RepairGenerator(State state, Termination t) {
this.state = state;
removed=t.removedset;
togenerate=new HashSet();
togenerate.addAll(termination.conjunctions);
- togenerate.removeAll(removed);
+ if (Compiler.REPAIR)
+ togenerate.removeAll(removed);
GraphNode.computeclosure(togenerate,removed);
cost=new Cost();
- sources=new Sources(state);
+ mrd=ModelRuleDependence.doAnalysis(state);
Repair.repairgenerator=this;
}
generate_hashtables();
generate_stateobject();
generate_call();
- generate_worklist();
+ generate_start();
generate_rules();
+ if (!Compiler.REPAIR||Compiler.GENERATEDEBUGPRINT) {
+ generate_print();
+ }
generate_checks();
generate_teardown();
CodeWriter crhead = new StandardCodeWriter(this.outputhead);
CodeWriter craux = new StandardCodeWriter(this.outputaux);
crhead.outputline("};");
craux.outputline("}");
+
+ if (Compiler.GENERATEDEBUGHOOKS) {
+ crhead.outputline("void debughook();");
+ craux.outputline("void debughook() {}");
+ }
generatetypechecks(false);
generate_computesizes();
generatetypechecks(true);
String strepairtable="repairtable";
String stleft="left";
String stright="right";
+ String stnew="newvalue";
private void generate_updates() {
int count=0;
CodeWriter crhead = new StandardCodeWriter(outputhead);
CodeWriter craux = new StandardCodeWriter(outputaux);
+ RelationDescriptor.prefix = "model->";
+ SetDescriptor.prefix = "model->";
/* Rewrite globals */
}
craux.startblock();
craux.outputline("int maybe=0;");
+ if (Compiler.GENERATEINSTRUMENT)
+ craux.outputline("updatecount++;");
+
final SymbolTable st = un.getRule().getSymbolTable();
CodeWriter cr = new StandardCodeWriter(outputaux) {
public SymbolTable getSymbolTable() { return st; }
};
- un.generate(cr, false, stleft,stright,this);
+ un.generate(cr, false, false, stleft,stright, null,this);
craux.outputline("if (maybe) printf(\"REALLY BAD\");");
craux.endblock();
break;
- case MultUpdateNode.REMOVE:
+ case MultUpdateNode.REMOVE: {
Rule r=un.getRule();
String methodcall="void "+methodname+"("+name+"_state * "+ststate+","+name+" * "+stmodel+", RepairHash * "+strepairtable;
for(int j=0;j<r.numQuantifiers();j++) {
craux.outputline(methodcall);
craux.startblock();
craux.outputline("int maybe=0;");
+ if (Compiler.GENERATEINSTRUMENT)
+ craux.outputline("updatecount++;");
+ final SymbolTable st2 = un.getRule().getSymbolTable();
+ CodeWriter cr2 = new StandardCodeWriter(outputaux) {
+ public SymbolTable getSymbolTable() { return st2; }
+ };
+ un.generate(cr2, true, false, null,null, null,this);
+ craux.outputline("if (maybe) printf(\"REALLY BAD\");");
+ craux.endblock();
+ }
+ break;
+ case MultUpdateNode.MODIFY: {
+ Rule r=un.getRule();
+ String methodcall="void "+methodname+"("+name+"_state * "+ststate+","+name+" * "+stmodel+", RepairHash * "+strepairtable;
+ for(int j=0;j<r.numQuantifiers();j++) {
+ Quantifier q=r.getQuantifier(j);
+ if (q instanceof SetQuantifier) {
+ SetQuantifier sq=(SetQuantifier) q;
+ methodcall+=","+sq.getVar().getType().getGenerateType().getSafeSymbol()+" "+sq.getVar().getSafeSymbol();
+ } else if (q instanceof RelationQuantifier) {
+ RelationQuantifier rq=(RelationQuantifier) q;
+
+ methodcall+=", "+rq.x.getType().getGenerateType().getSafeSymbol()+" "+rq.x.getSafeSymbol();
+ methodcall+=", "+rq.y.getType().getGenerateType().getSafeSymbol()+" "+rq.y.getSafeSymbol();
+ } else if (q instanceof ForQuantifier) {
+ ForQuantifier fq=(ForQuantifier) q;
+ methodcall+=", int "+fq.getVar().getSafeSymbol();
+ }
+ }
+ methodcall+=", int "+stleft+", int "+stright+", int "+stnew;
+ methodcall+=")";
+ crhead.outputline(methodcall+";");
+ craux.outputline(methodcall);
+ craux.startblock();
+ craux.outputline("int maybe=0;");
+ if (Compiler.GENERATEINSTRUMENT)
+ craux.outputline("updatecount++;");
final SymbolTable st2 = un.getRule().getSymbolTable();
CodeWriter cr2 = new StandardCodeWriter(outputaux) {
public SymbolTable getSymbolTable() { return st2; }
};
- un.generate(cr2, true, null,null,this);
+ un.generate(cr2, false, true, stleft, stright, stnew, this);
craux.outputline("if (maybe) printf(\"REALLY BAD\");");
craux.endblock();
+ }
break;
- case MultUpdateNode.MODIFY:
+
default:
throw new Error("Nonimplement Update");
}
TypeDescriptor ttd=(TypeDescriptor)it.next();
tdarray[ttd.getId()]=ttd;
}
- CodeWriter cr=new StandardCodeWriter(outputaux);
+ final SymbolTable st = state.stGlobals;
+ CodeWriter cr = new StandardCodeWriter(outputaux) {
+ public SymbolTable getSymbolTable() { return st; }
+ };
+
cr.outputline("void "+name+"_state::computesizes(int *sizearray,int **numele) {");
+ cr.outputline("int maybe=0;");
for(int i=0;i<max;i++) {
TypeDescriptor td=tdarray[i];
Expr size=td.getSizeExpr();
}
}
}
+ cr.outputline("if (maybe) printf(\"BAD ERROR\");");
cr.outputline("}");
}
TypeDescriptor ttd=(TypeDescriptor)it.next();
tdarray[ttd.getId()]=ttd;
}
- CodeWriter cr=new StandardCodeWriter(outputaux);
+ final SymbolTable st = state.stGlobals;
+ CodeWriter cr = new StandardCodeWriter(outputaux) {
+ public SymbolTable getSymbolTable() { return st; }
+ };
cr.outputline("void "+name+"_state::recomputesizes() {");
+ cr.outputline("int maybe=0;");
for(int i=0;i<max;i++) {
TypeDescriptor td=tdarray[i];
Expr size=td.getSizeExpr();
}
}
}
+ cr.outputline("if (maybe) printf(\"BAD ERROR\");");
cr.outputline("}");
}
}
if (relation.testUsage(RelationDescriptor.INVIMAGE)) {
- craux.outputline("delete " + relation.getSafeSymbol() + ";");
+ craux.outputline("delete " + relation.getSafeSymbol() + "_hashinv;");
}
}
craux.outputline("}");
}
- private void generate_worklist() {
+ private void generate_start() {
CodeWriter crhead = new StandardCodeWriter(outputhead);
CodeWriter craux = new StandardCodeWriter(outputaux);
oldmodel=VarDescriptor.makeNew("oldmodel");
worklist=VarDescriptor.makeNew("worklist");
goodflag=VarDescriptor.makeNew("goodflag");
repairtable=VarDescriptor.makeNew("repairtable");
+
+ if (Compiler.GENERATEINSTRUMENT) {
+ craux.outputline("int updatecount;");
+ craux.outputline("int rebuildcount;");
+ craux.outputline("int abstractcount;");
+ }
+
crhead.outputline("void doanalysis();");
craux.outputline("void "+name +"_state::doanalysis()");
craux.startblock();
+ if (Compiler.GENERATEINSTRUMENT) {
+ craux.outputline("updatecount=0;");
+ craux.outputline("rebuildcount=0;");
+ craux.outputline("abstractcount=0;");
+ }
craux.outputline("int highmark;");
craux.outputline("initializestack(&highmark);");
craux.outputline("typeobject *typeobject1=gettypeobject();");
craux.outputline("RepairHash * "+repairtable.getSafeSymbol()+"=0;");
craux.outputline("while (1)");
craux.startblock();
- craux.outputline("int "+goodflag.getSafeSymbol()+"=1;");
craux.outputline(name+ " * "+newmodel.getSafeSymbol()+"=new "+name+"();");
+ craux.outputline(worklist.getSafeSymbol()+"->reset();");
+ if (Compiler.GENERATEINSTRUMENT)
+ craux.outputline("rebuildcount++;");
}
private void generate_teardown() {
CodeWriter cr = new StandardCodeWriter(outputaux);
cr.endblock();
+ if (Compiler.GENERATEINSTRUMENT) {
+ cr.outputline("printf(\"updatecount=%d\\n\",updatecount);");
+ cr.outputline("printf(\"rebuildcount=%d\\n\",rebuildcount);");
+ cr.outputline("printf(\"abstractcount=%d\\n\",abstractcount);");
+ }
+
}
- private void generate_rules() {
- /* first we must sort the rules */
- Iterator allrules = state.vRules.iterator();
- Vector emptyrules = new Vector(); // rules with no quantifiers
- Vector worklistrules = new Vector(); // the rest of the rules
- RelationDescriptor.prefix = newmodel.getSafeSymbol()+"->";
- SetDescriptor.prefix = newmodel.getSafeSymbol()+"->";
+ private void generate_print() {
+
+ final SymbolTable st = new SymbolTable();
- while (allrules.hasNext()) {
- Rule rule = (Rule) allrules.next();
- ListIterator quantifiers = rule.quantifiers();
- boolean noquantifiers = true;
- while (quantifiers.hasNext()) {
- Quantifier quantifier = (Quantifier) quantifiers.next();
- if (quantifier instanceof ForQuantifier) {
- // ok, because integers exist already!
- } else {
- // real quantifier
- noquantifiers = false;
- break;
- }
- }
- if (noquantifiers) {
- emptyrules.add(rule);
- } else {
- worklistrules.add(rule);
- }
- }
-
- Iterator iterator_er = emptyrules.iterator();
- while (iterator_er.hasNext()) {
- Rule rule = (Rule) iterator_er.next();
- {
- final SymbolTable st = rule.getSymbolTable();
- CodeWriter cr = new StandardCodeWriter(outputaux) {
- public SymbolTable getSymbolTable() { return st; }
- };
- cr.outputline("// build " +escape(rule.toString()));
- cr.startblock();
- cr.outputline("int maybe=0;");
- ListIterator quantifiers = rule.quantifiers();
- while (quantifiers.hasNext()) {
- Quantifier quantifier = (Quantifier) quantifiers.next();
- quantifier.generate_open(cr);
- }
+ CodeWriter cr = new StandardCodeWriter(outputaux) {
+ public SymbolTable getSymbolTable() { return st; }
+ };
- /* pretty print! */
- cr.output("//");
- rule.getGuardExpr().prettyPrint(cr);
- cr.outputline("");
+ cr.outputline("// printing sets!");
+ cr.outputline("printf(\"\\n\\nPRINTING SETS AND RELATIONS\\n\");");
- /* now we have to generate the guard test */
- VarDescriptor guardval = VarDescriptor.makeNew();
- rule.getGuardExpr().generate(cr, guardval);
- cr.outputline("if (" + guardval.getSafeSymbol() + ")");
- cr.startblock();
+ Iterator setiterator = state.stSets.descriptors();
+ while (setiterator.hasNext()) {
+ SetDescriptor sd = (SetDescriptor) setiterator.next();
+ if (sd.getSymbol().equals("int") || sd.getSymbol().equals("token")) {
+ continue;
+ }
- /* now we have to generate the inclusion code */
- currentrule=rule;
- rule.getInclusion().generate(cr);
- cr.endblock();
- while (quantifiers.hasPrevious()) {
- Quantifier quantifier = (Quantifier) quantifiers.previous();
- cr.endblock();
- }
- cr.endblock();
- cr.outputline("");
- cr.outputline("");
- }
- }
+ String setname = sd.getSafeSymbol();
- CodeWriter cr2 = new StandardCodeWriter(outputaux);
+ cr.startblock();
+ cr.outputline("// printing set " + setname);
+ cr.outputline("printf(\"\\nPrinting set " + sd.getSymbol() + " - %d elements \\n\", " + setname + "_hash->count());");
+ cr.outputline("SimpleIterator __setiterator;");
+ cr.outputline("" + setname + "_hash->iterator(__setiterator);");
+ cr.outputline("while (__setiterator.hasNext())");
+ cr.startblock();
+ cr.outputline("int __setval = (int) __setiterator.next();");
- cr2.outputline("while ("+goodflag.getSafeSymbol()+"&&"+worklist.getSafeSymbol()+"->hasMoreElements())");
- cr2.startblock();
- VarDescriptor idvar=VarDescriptor.makeNew("id");
- cr2.outputline("int "+idvar.getSafeSymbol()+"="+worklist.getSafeSymbol()+"->getid();");
-
- String elseladder = "if";
+ TypeDescriptor td = sd.getType();
+ if (td instanceof StructureTypeDescriptor) {
+ StructureTypeDescriptor std = (StructureTypeDescriptor) td;
+ VarDescriptor vd = new VarDescriptor ("__setval", "__setval", td, false);
+ std.generate_printout(cr, vd);
+ } else { // Missing type descriptor or reserved type, just print int
+ cr.outputline("printf(\"<%d> \", __setval);");
+ }
- Iterator iterator_rules = worklistrules.iterator();
- while (iterator_rules.hasNext()) {
- Rule rule = (Rule) iterator_rules.next();
- int dispatchid = rule.getNum();
+ cr.endblock();
+ cr.endblock();
+ }
- {
- final SymbolTable st = rule.getSymbolTable();
- CodeWriter cr = new StandardCodeWriter(outputaux) {
- public SymbolTable getSymbolTable() { return st; }
- };
+ cr.outputline("printf(\"\\n\\n------------------- END PRINTING\\n\");");
+ }
- cr.indent();
- cr.outputline(elseladder + " ("+idvar.getSafeSymbol()+" == " + dispatchid + ")");
- cr.startblock();
- cr.outputline("int maybe=0;");
- VarDescriptor typevar=VarDescriptor.makeNew("type");
- VarDescriptor leftvar=VarDescriptor.makeNew("left");
- VarDescriptor rightvar=VarDescriptor.makeNew("right");
- cr.outputline("int "+typevar.getSafeSymbol()+"="+worklist.getSafeSymbol()+"->gettype();");
- cr.outputline("int "+leftvar.getSafeSymbol()+"="+worklist.getSafeSymbol()+"->getlvalue();");
- cr.outputline("int "+rightvar.getSafeSymbol()+"="+worklist.getSafeSymbol()+"->getrvalue();");
- cr.outputline("// build " +escape(rule.toString()));
+ Set ruleset=null;
+ private void generate_rules() {
+ /* first we must sort the rules */
+ RelationDescriptor.prefix = newmodel.getSafeSymbol()+"->";
+ SetDescriptor.prefix = newmodel.getSafeSymbol()+"->";
+ System.out.println("SCC="+(mrd.numSCC()-1));
+ for(int sccindex=0;sccindex<mrd.numSCC();sccindex++) {
+ ruleset=mrd.getSCC(sccindex);
+ boolean needworklist=mrd.hasCycle(sccindex);
+
+ if (!needworklist) {
+ Iterator iterator_rs = ruleset.iterator();
+ while (iterator_rs.hasNext()) {
+ Rule rule = (Rule) iterator_rs.next();
+ if (rule.getnogenerate())
+ continue;
+ {
+ final SymbolTable st = rule.getSymbolTable();
+ CodeWriter cr = new StandardCodeWriter(outputaux) {
+ public SymbolTable getSymbolTable() { return st; }
+ };
+ InvariantValue ivalue=new InvariantValue();
+ cr.setInvariantValue(ivalue);
+
+ cr.outputline("// build " +escape(rule.toString()));
+ cr.startblock();
+ cr.outputline("int maybe=0;");
+
+ Expr ruleexpr=rule.getGuardExpr();
+ HashSet invariantvars=new HashSet();
+ Set invariants=ruleexpr.findInvariants(invariantvars);
+
+ if ((ruleexpr instanceof BooleanLiteralExpr)&&
+ ((BooleanLiteralExpr)ruleexpr).getValue()) {
+ if (rule.getInclusion() instanceof SetInclusion) {
+ invariants.addAll(((SetInclusion)rule.getInclusion()).getExpr().findInvariants(invariantvars));
+ } else if (rule.getInclusion() instanceof RelationInclusion) {
+ invariants.addAll(((RelationInclusion)rule.getInclusion()).getLeftExpr().findInvariants(invariantvars));
+ invariants.addAll(((RelationInclusion)rule.getInclusion()).getRightExpr().findInvariants(invariantvars));
+ }
+ }
+ ListIterator quantifiers = rule.quantifiers();
+ while (quantifiers.hasNext()) {
+ Quantifier quantifier = (Quantifier) quantifiers.next();
+ if (quantifier instanceof ForQuantifier) {
+ ForQuantifier fq=(ForQuantifier)quantifier;
+ invariants.addAll(fq.lower.findInvariants(invariantvars));
+ invariants.addAll(fq.upper.findInvariants(invariantvars));
+ }
+ }
+ for(Iterator invit=invariants.iterator();invit.hasNext();) {
+ Expr invexpr=(Expr)invit.next();
+ VarDescriptor tmpvd=VarDescriptor.makeNew("tmpvar");
+ VarDescriptor maybevd=VarDescriptor.makeNew("maybevar");
+ invexpr.generate(cr,tmpvd);
+ cr.outputline("int "+maybevd.getSafeSymbol()+"=maybe;");
+ cr.outputline("maybe=0;");
+ ivalue.assignPair(invexpr,tmpvd,maybevd);
+ }
- for (int j=0;j<rule.numQuantifiers();j++) {
- Quantifier quantifier = rule.getQuantifier(j);
- quantifier.generate_open(cr, typevar.getSafeSymbol(),j,leftvar.getSafeSymbol(),rightvar.getSafeSymbol());
+ quantifiers = rule.quantifiers();
+ while (quantifiers.hasNext()) {
+ Quantifier quantifier = (Quantifier) quantifiers.next();
+ quantifier.generate_open(cr);
+ }
+
+ /* pretty print! */
+ cr.output("//");
+ rule.getGuardExpr().prettyPrint(cr);
+ cr.outputline("");
+
+ /* now we have to generate the guard test */
+ VarDescriptor guardval = VarDescriptor.makeNew();
+ rule.getGuardExpr().generate(cr, guardval);
+ cr.outputline("if (" + guardval.getSafeSymbol() + ")");
+ cr.startblock();
+
+ /* now we have to generate the inclusion code */
+ currentrule=rule;
+ rule.getInclusion().generate(cr);
+ cr.endblock();
+ while (quantifiers.hasPrevious()) {
+ Quantifier quantifier = (Quantifier) quantifiers.previous();
+ cr.endblock();
+ }
+ cr.endblock();
+ cr.outputline("");
+ cr.outputline("");
+ }
}
-
- /* pretty print! */
- cr.output("//");
-
- rule.getGuardExpr().prettyPrint(cr);
- cr.outputline("");
-
- /* now we have to generate the guard test */
-
- VarDescriptor guardval = VarDescriptor.makeNew();
- rule.getGuardExpr().generate(cr, guardval);
-
- cr.outputline("if (" + guardval.getSafeSymbol() + ")");
- cr.startblock();
-
- /* now we have to generate the inclusion code */
- currentrule=rule;
- rule.getInclusion().generate(cr);
- cr.endblock();
-
- for (int j=0;j<rule.numQuantifiers();j++) {
- cr.endblock();
+ } else {
+ CodeWriter cr2 = new StandardCodeWriter(outputaux);
+
+ for(Iterator initialworklist=ruleset.iterator();initialworklist.hasNext();) {
+ /** Construct initial worklist set */
+ Rule rule=(Rule)initialworklist.next();
+ cr2.outputline(worklist.getSafeSymbol()+"->add("+rule.getNum()+",-1,0,0);");
}
- // close startblocks generated by DotExpr memory checks
- //DotExpr.generate_memory_endblocks(cr);
-
- cr.endblock(); // end else-if WORKLIST ladder
-
- elseladder = "else if";
- }
- }
-
- cr2.outputline("else");
- cr2.startblock();
- cr2.outputline("printf(\"VERY BAD !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!\\n\\n\");");
- cr2.outputline("exit(1);");
- cr2.endblock();
- // end block created for worklist
- cr2.outputline(worklist.getSafeSymbol()+"->pop();");
- cr2.endblock();
+ cr2.outputline("while ("+worklist.getSafeSymbol()+"->hasMoreElements())");
+ cr2.startblock();
+ VarDescriptor idvar=VarDescriptor.makeNew("id");
+ cr2.outputline("int "+idvar.getSafeSymbol()+"="+worklist.getSafeSymbol()+"->getid();");
+
+ String elseladder = "if";
+
+ Iterator iterator_rules = ruleset.iterator();
+ while (iterator_rules.hasNext()) {
+
+ Rule rule = (Rule) iterator_rules.next();
+ int dispatchid = rule.getNum();
+
+ {
+ final SymbolTable st = rule.getSymbolTable();
+ CodeWriter cr = new StandardCodeWriter(outputaux) {
+ public SymbolTable getSymbolTable() { return st; }
+ };
+
+ cr.indent();
+ cr.outputline(elseladder + " ("+idvar.getSafeSymbol()+" == " + dispatchid + ")");
+ cr.startblock();
+ cr.outputline("int maybe=0;");
+ VarDescriptor typevar=VarDescriptor.makeNew("type");
+ VarDescriptor leftvar=VarDescriptor.makeNew("left");
+ VarDescriptor rightvar=VarDescriptor.makeNew("right");
+ cr.outputline("int "+typevar.getSafeSymbol()+"="+worklist.getSafeSymbol()+"->gettype();");
+ cr.outputline("int "+leftvar.getSafeSymbol()+"="+worklist.getSafeSymbol()+"->getlvalue();");
+ cr.outputline("int "+rightvar.getSafeSymbol()+"="+worklist.getSafeSymbol()+"->getrvalue();");
+ cr.outputline("// build " +escape(rule.toString()));
+
+
+ for (int j=0;j<rule.numQuantifiers();j++) {
+ Quantifier quantifier = rule.getQuantifier(j);
+ quantifier.generate_open(cr, typevar.getSafeSymbol(),j,leftvar.getSafeSymbol(),rightvar.getSafeSymbol());
+ }
+
+ /* pretty print! */
+ cr.output("//");
+
+ rule.getGuardExpr().prettyPrint(cr);
+ cr.outputline("");
+
+ /* now we have to generate the guard test */
+
+ VarDescriptor guardval = VarDescriptor.makeNew();
+ rule.getGuardExpr().generate(cr, guardval);
+
+ cr.outputline("if (" + guardval.getSafeSymbol() + ")");
+ cr.startblock();
+
+ /* now we have to generate the inclusion code */
+ currentrule=rule;
+ rule.getInclusion().generate(cr);
+ cr.endblock();
+
+ for (int j=0;j<rule.numQuantifiers();j++) {
+ cr.endblock();
+ }
+
+ // close startblocks generated by DotExpr memory checks
+ //DotExpr.generate_memory_endblocks(cr);
+
+ cr.endblock(); // end else-if WORKLIST ladder
+
+ elseladder = "else if";
+ }
+ }
+ cr2.outputline("else");
+ cr2.startblock();
+ cr2.outputline("printf(\"VERY BAD !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!\\n\\n\");");
+ cr2.outputline("exit(1);");
+ cr2.endblock();
+ // end block created for worklist
+ cr2.outputline(worklist.getSafeSymbol()+"->pop();");
+ cr2.endblock();
+ }
+ }
}
public static String escape(String s) {
}
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);
-
+ 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();
+ CodeWriter cr = new StandardCodeWriter(outputaux);
+ cr.pushSymbolTable(constraint.getSymbolTable());
- final SymbolTable st = constraint.getSymbolTable();
-
- CodeWriter cr = new StandardCodeWriter(outputaux) {
- public SymbolTable getSymbolTable() { return st; }
- };
-
- cr.outputline("// checking " + escape(constraint.toString()));
+ cr.outputline("// checking " + escape(constraint.toString()));
cr.startblock();
ListIterator quantifiers = constraint.quantifiers();
while (quantifiers.hasNext()) {
- Quantifier quantifier = (Quantifier) quantifiers.next();
+ Quantifier quantifier = (Quantifier) quantifiers.next();
quantifier.generate_open(cr);
- }
+ }
cr.outputline("int maybe = 0;");
cr.outputline("if (maybe)");
cr.startblock();
- cr.outputline("printf(\"maybe fail " + escape(constraint.toString()) + ". \");");
- cr.outputline("exit(1);");
+ cr.outputline("printf(\"maybe fail " + escape(constraint.toString()) + ". \\n\");");
+ //cr.outputline("exit(1);");
cr.endblock();
cr.outputline("else if (!" + constraintboolean.getSafeSymbol() + ")");
cr.startblock();
- if (DEBUG)
- cr.outputline("printf(\"fail " + escape(constraint.toString()) + ". \");");
-
+ if (!Compiler.REPAIR||Compiler.GENERATEDEBUGHOOKS)
+ cr.outputline("printf(\"fail " + escape(constraint.toString()) + ". \\n\");");
+
+ if (Compiler.REPAIR) {
/* Do repairs */
/* Build new repair table */
cr.outputline("if ("+repairtable.getSafeSymbol()+")");
cr.outputline("delete "+repairtable.getSafeSymbol()+";");
cr.outputline(repairtable.getSafeSymbol()+"=new RepairHash();");
-
+ if (Compiler.GENERATEDEBUGHOOKS)
+ cr.outputline("debughook();");
/* Compute cost of each repair */
VarDescriptor mincost=VarDescriptor.makeNew("mincost");
VarDescriptor mincostindex=VarDescriptor.makeNew("mincostindex");
- DNFConstraint dnfconst=constraint.dnfconstraint;
+ Vector dnfconst=new Vector();
+ dnfconst.addAll((Set)termination.conjunctionmap.get(constraint));
+
if (dnfconst.size()<=1) {
cr.outputline("int "+mincostindex.getSafeSymbol()+"=0;");
}
cr.outputline("int "+mincostindex.getSafeSymbol()+";");
boolean first=true;
for(int j=0;j<dnfconst.size();j++) {
- Conjunction conj=dnfconst.get(j);
- GraphNode gn=(GraphNode)termination.conjtonodemap.get(conj);
+ GraphNode gn=(GraphNode)dnfconst.get(j);
+ Conjunction conj=((TermNode)gn.getOwner()).getConjunction();
if (removed.contains(gn))
continue;
boolean negate=dpred.isNegated();
VarDescriptor predvalue=VarDescriptor.makeNew("Predicatevalue");
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()+")");
- if (k==0)
- cr.outputline("int "+costvar.getSafeSymbol()+"="+cost.getCost(dpred)+";");
- else
- cr.outputline(costvar.getSafeSymbol()+"+="+cost.getCost(dpred)+";");
+ cr.outputline(costvar.getSafeSymbol()+"+="+cost.getCost(dpred)+";");
}
-
+
if(!first) {
cr.outputline("if ("+costvar.getSafeSymbol()+"<"+mincost.getSafeSymbol()+")");
cr.startblock();
}
cr.outputline("switch("+mincostindex.getSafeSymbol()+") {");
for(int j=0;j<dnfconst.size();j++) {
- Conjunction conj=dnfconst.get(j);
- GraphNode gn=(GraphNode)termination.conjtonodemap.get(conj);
+ GraphNode gn=(GraphNode)dnfconst.get(j);
+ Conjunction conj=((TermNode)gn.getOwner()).getConjunction();
if (removed.contains(gn))
continue;
cr.outputline("case "+j+":");
+ cr.startblock();
for(int k=0;k<conj.size();k++) {
DNFPredicate dpred=conj.get(k);
Predicate p=dpred.getPredicate();
else
cr.outputline("if (maybe||!"+predvalue.getSafeSymbol()+")");
cr.startblock();
+ if (Compiler.GENERATEINSTRUMENT)
+ cr.outputline("abstractcount++;");
if (p instanceof InclusionPredicate)
generateinclusionrepair(conj,dpred, cr);
else if (p instanceof ExprPredicate) {
cr.endblock();
}
/* Update model */
+ cr.endblock();
cr.outputline("break;");
}
cr.outputline("}");
-
- cr.outputline(goodflag.getSafeSymbol()+"=0;");
+
cr.outputline("if ("+oldmodel.getSafeSymbol()+")");
cr.outputline("delete "+oldmodel.getSafeSymbol()+";");
cr.outputline(oldmodel.getSafeSymbol()+"="+newmodel.getSafeSymbol()+";");
cr.outputline("goto rebuild;"); /* Rebuild model and all */
-
+ }
cr.endblock();
-
+
while (quantifiers.hasPrevious()) {
Quantifier quantifier = (Quantifier) quantifiers.previous();
cr.endblock();
}
- cr.outputline("if ("+goodflag.getSafeSymbol()+")");
- cr.startblock();
- cr.outputline("if ("+repairtable.getSafeSymbol()+")");
- cr.outputline("delete "+repairtable.getSafeSymbol()+";");
- cr.outputline("if ("+oldmodel.getSafeSymbol()+")");
- cr.outputline("delete "+oldmodel.getSafeSymbol()+";");
- cr.outputline("delete "+newmodel.getSafeSymbol()+";");
- cr.outputline("delete "+worklist.getSafeSymbol()+";");
- cr.outputline("resettypemap();");
- cr.outputline("break;");
- cr.endblock();
- cr.outputline("rebuild:");
- cr.outputline(";");
cr.endblock();
cr.outputline("");
cr.outputline("");
}
}
+ CodeWriter cr = new StandardCodeWriter(outputaux);
+ cr.startblock();
+ cr.outputline("if ("+repairtable.getSafeSymbol()+")");
+ cr.outputline("delete "+repairtable.getSafeSymbol()+";");
+ cr.outputline("if ("+oldmodel.getSafeSymbol()+")");
+ cr.outputline("delete "+oldmodel.getSafeSymbol()+";");
+ cr.outputline("delete "+newmodel.getSafeSymbol()+";");
+ cr.outputline("delete "+worklist.getSafeSymbol()+";");
+ cr.outputline("resettypemap();");
+ cr.outputline("break;");
+ cr.endblock();
+ cr.outputline("rebuild:");
+ cr.outputline(";");
}
private MultUpdateNode getmultupdatenode(Conjunction conj, DNFPredicate dpred, int repairtype) {
+ 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();
MultUpdateNode mun=null;
GraphNode gn=(GraphNode) termination.conjtonodemap.get(conj);
for(Iterator edgeit=gn.edges();(mun==null)&&edgeit.hasNext();) {
if (!removed.contains(gn3)) {
TermNode tn3=(TermNode)gn3.getOwner();
if (tn3.getType()==TermNode.UPDATE) {
- mun=tn3.getUpdate();
- break;
+ hs.add(mun);
}
}
}
}
}
}
- return mun;
+ return hs;
}
- public void generatecomparisonrepair(Conjunction conj, DNFPredicate dpred, CodeWriter cr){
- MultUpdateNode munremove=getmultupdatenode(conj,dpred,AbstractRepair.REMOVEFROMRELATION);
- MultUpdateNode munadd=getmultupdatenode(conj,dpred,AbstractRepair.ADDTORELATION);
+ 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){
+ 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 rightside=VarDescriptor.makeNew("rightside");
VarDescriptor newvalue=VarDescriptor.makeNew("newvalue");
if (!inverted) {
- expr.getLeftExpr().generate(cr,leftside);
+ ((RelationExpr)expr.getLeftExpr()).getExpr().generate(cr,leftside);
expr.getRightExpr().generate(cr,newvalue);
cr.outputline(rd.getRange().getType().getGenerateType().getSafeSymbol()+" "+rightside.getSafeSymbol()+";");
cr.outputline(rd.getSafeSymbol()+"_hash->get("+leftside.getSafeSymbol()+","+rightside.getSafeSymbol()+");");
} else {
- expr.getLeftExpr().generate(cr,rightside);
+ ((RelationExpr)expr.getLeftExpr()).getExpr().generate(cr,rightside);
expr.getRightExpr().generate(cr,newvalue);
cr.outputline(rd.getDomain().getType().getGenerateType().getSafeSymbol()+" "+leftside.getSafeSymbol()+";");
- cr.outputline(rd.getSafeSymbol()+"_hashinv->get("+leftside.getSafeSymbol()+","+leftside.getSafeSymbol()+");");
+ cr.outputline(rd.getSafeSymbol()+"_hashinv->get("+rightside.getSafeSymbol()+","+leftside.getSafeSymbol()+");");
}
if (negated)
if (opcode==Opcode.GT) {
/* Equal */
} else if (opcode==Opcode.EQ) {
/* Equal */
- } else if (opcode==Opcode.NE) {
+ } else if (opcode==Opcode.NE) { /* search for FLAGNE if this is changed*/
cr.outputline(newvalue.getSafeSymbol()+"++;");
} else {
throw new Error("Unrecognized Opcode");
}
}
/* Do concrete repairs */
- /* 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 (munmodify!=null) {
+ 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<munmodify.numUpdates();j++) {
+ UpdateNode un=munmodify.getUpdate(j);
+ 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+","+newvalue.getSafeSymbol()+");");
+ }
}
}
}
- }
- /* Now do addition */
- UpdateNode un=munadd.getUpdate(0);
- String name=(String)updatenames.get(un);
- if (!inverted) {
- cr.outputline(name+"(this,"+newmodel.getSafeSymbol()+","+repairtable.getSafeSymbol()+","+leftside.getSafeSymbol()+","+newvalue.getSafeSymbol()+");");
} else {
- cr.outputline(name+"(this,"+newmodel.getSafeSymbol()+","+repairtable.getSafeSymbol()+","+newvalue.getSafeSymbol()+","+rightside.getSafeSymbol()+");");
+ /* Start with scheduling removal */
+ 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);
+ if (!inverted) {
+ cr.outputline(name+"(this,"+newmodel.getSafeSymbol()+","+repairtable.getSafeSymbol()+","+leftside.getSafeSymbol()+","+newvalue.getSafeSymbol()+");");
+ } else {
+ cr.outputline(name+"(this,"+newmodel.getSafeSymbol()+","+repairtable.getSafeSymbol()+","+newvalue.getSafeSymbol()+","+rightside.getSafeSymbol()+");");
+ }
}
}
ExprPredicate ep=(ExprPredicate)dpred.getPredicate();
OpExpr expr=(OpExpr)ep.expr;
Opcode opcode=expr.getOpcode();
- {
- boolean negated=dpred.isNegated();
- 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(dpred.isNegated(),opcode);
+
MultUpdateNode munremove;
MultUpdateNode munadd;
munremove=getmultupdatenode(conj,dpred,AbstractRepair.REMOVEFROMSET);
munadd=getmultupdatenode(conj,dpred,AbstractRepair.ADDTOSET);
}
- int size=ep.leftsize();
+ int size=ep.rightSize();
VarDescriptor sizevar=VarDescriptor.makeNew("size");
((OpExpr)expr).left.generate(cr, sizevar);
VarDescriptor change=VarDescriptor.makeNew("change");
} else {
throw new Error("Unrecognized Opcode");
}
+
+// In some cases the analysis has determined that generating removes
+// is unnecessary
+ if (generateremove&&munremove==null)
+ generateremove=false;
+
Descriptor d=ep.getDescriptor();
if (generateremove) {
cr.outputline("for(;"+change.getSafeSymbol()+"<0;"+change.getSafeSymbol()+"++)");
cr.outputline(d.getSafeSymbol()+"_hashinv->get((int)"+rightvar.getSafeSymbol()+","+leftvar.getSafeSymbol()+");");
} else {
leftvar=((ImageSetExpr)((SizeofExpr)((OpExpr)expr).left).setexpr).getVar();
- cr.outputline("int "+rightvar.getSafeSymbol()+";");
+ cr.outputline("int "+rightvar.getSafeSymbol()+"=0;");
cr.outputline(d.getSafeSymbol()+"_hash->get((int)"+leftvar.getSafeSymbol()+","+rightvar.getSafeSymbol()+");");
}
} else {
boolean usageimage=rd.testUsage(RelationDescriptor.IMAGE);
boolean usageinvimage=rd.testUsage(RelationDescriptor.INVIMAGE);
if (usageimage)
- cr.outputline(rd.getSafeSymbol() + "_hash->remove((int)" + leftvar + ", (int)" + rightvar + ");");
+ cr.outputline(rd.getSafeSymbol() + "_hash->remove((int)" + leftvar.getSafeSymbol() + ", (int)" + rightvar.getSafeSymbol() + ");");
if (usageinvimage)
- cr.outputline(rd.getSafeSymbol() + "_hashinv->remove((int)" + rightvar + ", (int)" + leftvar + ");");
+ cr.outputline(rd.getSafeSymbol() + "_hashinv->remove((int)" + rightvar.getSafeSymbol() + ", (int)" + leftvar.getSafeSymbol() + ");");
} else {
- cr.outputline(d.getSafeSymbol() + "_hash->remove((int)" + leftvar + ", (int)" + leftvar + ");");
+ cr.outputline(d.getSafeSymbol() + "_hash->remove((int)" + leftvar.getSafeSymbol() + ", (int)" + leftvar.getSafeSymbol() + ");");
}
/* Generate concrete remove instruction */
for(int i=0;i<state.vRules.size();i++) {
if (d instanceof RelationDescriptor) {
VarDescriptor otherside=((ImageSetExpr)((SizeofExpr)((OpExpr)ep.expr).left).setexpr).vd;
RelationDescriptor rd=(RelationDescriptor)d;
- if (sources.relsetSource(rd,!ep.inverted())) {
+ if (termination.sources.relsetSource(rd,!ep.inverted())) {
/* Set Source */
- SetDescriptor sd=sources.relgetSourceSet(rd,!ep.inverted());
+ SetDescriptor sd=termination.sources.relgetSourceSet(rd,!ep.inverted());
VarDescriptor iterator=VarDescriptor.makeNew("iterator");
cr.outputline(sd.getType().getGenerateType().getSafeSymbol() +" "+newobject.getSafeSymbol()+";");
- cr.outputline("for("+iterator.getSafeSymbol()+"="+sd.getSafeSymbol()+"_hash->iterator();"+iterator.getSafeSymbol()+".hasNext();)");
+ cr.outputline("SimpleIterator "+iterator.getSafeSymbol()+";");
+ cr.outputline("for("+sd.getSafeSymbol()+"_hash->iterator("+ iterator.getSafeSymbol() +");"+iterator.getSafeSymbol()+".hasNext();)");
cr.startblock();
if (ep.inverted()) {
- cr.outputline("if !"+rd.getSafeSymbol()+"_hashinv->contains("+iterator.getSafeSymbol()+"->key(),"+otherside.getSafeSymbol()+")");
+ cr.outputline("if (!"+rd.getSafeSymbol()+"_hashinv->contains("+iterator.getSafeSymbol()+".key(),"+otherside.getSafeSymbol()+"))");
} else {
- cr.outputline("if !"+rd.getSafeSymbol()+"_hash->contains("+otherside.getSafeSymbol()+","+iterator.getSafeSymbol()+"->key())");
+ cr.outputline("if (!"+rd.getSafeSymbol()+"_hash->contains("+otherside.getSafeSymbol()+","+iterator.getSafeSymbol()+".key()))");
}
cr.outputline(newobject.getSafeSymbol()+"="+iterator.getSafeSymbol()+".key();");
- cr.outputline(iterator.getSafeSymbol()+"->next();");
+ cr.outputline(iterator.getSafeSymbol()+".next();");
cr.endblock();
- } else if (sources.relallocSource(rd,!ep.inverted())) {
+ } else if (termination.sources.relallocSource(rd,!ep.inverted())) {
/* Allocation Source*/
- sources.relgenerateSourceAlloc(cr,newobject,rd,!ep.inverted());
+ termination.sources.relgenerateSourceAlloc(cr,newobject,rd,!ep.inverted());
} else throw new Error("No source for adding to Relation");
if (ep.inverted()) {
boolean usageimage=rd.testUsage(RelationDescriptor.IMAGE);
}
} else {
SetDescriptor sd=(SetDescriptor)d;
- if (sources.setSource(sd)) {
+ if (termination.sources.setSource(sd)) {
/* Set Source */
/* Set Source */
- SetDescriptor sourcesd=sources.getSourceSet(sd);
+ SetDescriptor sourcesd=termination.sources.getSourceSet(sd);
VarDescriptor iterator=VarDescriptor.makeNew("iterator");
cr.outputline(sourcesd.getType().getGenerateType().getSafeSymbol() +" "+newobject.getSafeSymbol()+";");
- cr.outputline("for("+iterator.getSafeSymbol()+"="+sourcesd.getSafeSymbol()+"_hash->iterator();"+iterator.getSafeSymbol()+".hasNext();)");
+ cr.outputline("SimpleIterator "+iterator.getSafeSymbol()+";");
+ cr.outputline("for("+sourcesd.getSafeSymbol()+"_hash->iterator("+iterator.getSafeSymbol()+");"+iterator.getSafeSymbol()+".hasNext();)");
cr.startblock();
- cr.outputline("if !"+sd.getSafeSymbol()+"_hash->contains("+iterator.getSafeSymbol()+"->key())");
+ cr.outputline("if (!"+sd.getSafeSymbol()+"_hash->contains("+iterator.getSafeSymbol()+".key()))");
cr.outputline(newobject.getSafeSymbol()+"="+iterator.getSafeSymbol()+".key();");
- cr.outputline(iterator.getSafeSymbol()+"->next();");
+ cr.outputline(iterator.getSafeSymbol()+".next();");
cr.endblock();
- } else if (sources.allocSource(sd)) {
+ } else if (termination.sources.allocSource(sd)) {
/* Allocation Source*/
- sources.generateSourceAlloc(cr,newobject,sd);
+ termination.sources.generateSourceAlloc(cr,newobject,sd);
} else throw new Error("No source for adding to Set");
cr.outputline(sd.getSafeSymbol()+"_hash->add("+newobject.getSafeSymbol()+","+newobject.getSafeSymbol()+");");
UpdateNode un=munadd.getUpdate(0);
boolean usageinvimage=rd.testUsage(RelationDescriptor.INVIMAGE);
if (inverse) {
if (usageimage)
- cr.outputline(rd.getSafeSymbol() + "_hash->remove((int)" + rightvar + ", (int)" + leftvar + ");");
+ cr.outputline(rd.getSafeSymbol() + "_hash->remove((int)" + rightvar.getSafeSymbol() + ", (int)" + leftvar.getSafeSymbol() + ");");
if (usageinvimage)
- cr.outputline(rd.getSafeSymbol() + "_hashinv->remove((int)" + leftvar + ", (int)" + rightvar + ");");
+ cr.outputline(rd.getSafeSymbol() + "_hashinv->remove((int)" + leftvar.getSafeSymbol() + ", (int)" + rightvar.getSafeSymbol() + ");");
} else {
if (usageimage)
- cr.outputline(rd.getSafeSymbol() + "_hash->remove((int)" + leftvar + ", (int)" + rightvar + ");");
+ cr.outputline(rd.getSafeSymbol() + "_hash->remove((int)" + leftvar.getSafeSymbol() + ", (int)" + rightvar.getSafeSymbol() + ");");
if (usageinvimage)
- cr.outputline(rd.getSafeSymbol() + "_hashinv->remove((int)" + rightvar + ", (int)" + leftvar + ");");
+ cr.outputline(rd.getSafeSymbol() + "_hashinv->remove((int)" + rightvar.getSafeSymbol() + ", (int)" + leftvar.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<mun.numUpdates();j++) {
- UpdateNode un=mun.getUpdate(i);
+ UpdateNode un=mun.getUpdate(j);
if (un.getRule()==r) {
/* Update for rule rule r */
String name=(String)updatenames.get(un);
}
} else {
SetDescriptor sd=ip.setexpr.sd;
- cr.outputline(sd.getSafeSymbol() + "_hash->remove((int)" + leftvar + ", (int)" + leftvar + ");");
+ cr.outputline(sd.getSafeSymbol() + "_hash->remove((int)" + leftvar.getSafeSymbol() + ", (int)" + leftvar.getSafeSymbol() + ");");
for(int i=0;i<state.vRules.size();i++) {
Rule r=(Rule)state.vRules.get(i);
if (r.getInclusion().getTargetDescriptors().contains(sd)) {
for(int j=0;j<mun.numUpdates();j++) {
- UpdateNode un=mun.getUpdate(i);
+ UpdateNode un=mun.getUpdate(j);
if (un.getRule()==r) {
/* Update for rule rule r */
String name=(String)updatenames.get(un);
boolean usageinvimage=rd.testUsage(RelationDescriptor.INVIMAGE);
if (inverse) {
if (usageimage)
- cr.outputline(rd.getSafeSymbol() + "_hash->add((int)" + rightvar + ", (int)" + leftvar + ");");
+ cr.outputline(rd.getSafeSymbol() + "_hash->add((int)" + rightvar.getSafeSymbol() + ", (int)" + leftvar.getSafeSymbol() + ");");
if (usageinvimage)
- cr.outputline(rd.getSafeSymbol() + "_hashinv->add((int)" + leftvar + ", (int)" + rightvar + ");");
+ cr.outputline(rd.getSafeSymbol() + "_hashinv->add((int)" + leftvar.getSafeSymbol() + ", (int)" + rightvar.getSafeSymbol() + ");");
} else {
if (usageimage)
- cr.outputline(rd.getSafeSymbol() + "_hash->add((int)" + leftvar + ", (int)" + rightvar + ");");
+ cr.outputline(rd.getSafeSymbol() + "_hash->add((int)" + leftvar.getSafeSymbol() + ", (int)" + rightvar.getSafeSymbol() + ");");
if (usageinvimage)
- cr.outputline(rd.getSafeSymbol() + "_hashinv->add((int)" + rightvar + ", (int)" + leftvar + ");");
+ cr.outputline(rd.getSafeSymbol() + "_hashinv->add((int)" + rightvar.getSafeSymbol() + ", (int)" + leftvar.getSafeSymbol() + ");");
}
UpdateNode un=mun.getUpdate(0);
String name=(String)updatenames.get(un);
}
} else {
SetDescriptor sd=ip.setexpr.sd;
- cr.outputline(sd.getSafeSymbol() + "_hash->add((int)" + leftvar + ", (int)" + leftvar + ");");
+ cr.outputline(sd.getSafeSymbol() + "_hash->add((int)" + leftvar.getSafeSymbol() + ", (int)" + leftvar.getSafeSymbol() + ");");
UpdateNode un=mun.getUpdate(0);
/* Update for rule rule r */
}
}
-
-
public static Vector getrulelist(Descriptor d) {
Vector dispatchrules = new Vector();
Vector rules = State.currentState.vRules;
}
private boolean need_compensation(Rule r) {
+ if (!Compiler.REPAIR)
+ return false;
GraphNode gn=(GraphNode)termination.scopefalsify.get(r);
for(Iterator edgeit=gn.edges();edgeit.hasNext();) {
GraphNode.Edge edge=(GraphNode.Edge)edgeit.next();
return;
cr.outputline("// RELATION DISPATCH ");
- cr.outputline("if ("+oldmodel.getSafeSymbol()+"&&");
- if (usageimage)
- cr.outputline("!"+oldmodel.getSafeSymbol() +"->"+rd.getJustSafeSymbol()+"_hash->contains("+leftvar+","+rightvar+"))");
- else
- cr.outputline("!"+oldmodel.getSafeSymbol() +"->"+rd.getJustSafeSymbol()+"_hashinv->contains("+rightvar+","+leftvar+"))");
- cr.startblock(); {
- /* Adding new item */
- /* Perform safety checks */
- cr.outputline("if ("+repairtable.getSafeSymbol()+"&&");
- cr.outputline(repairtable.getSafeSymbol()+"->containsrelation("+rd.getNum()+","+currentrule.getNum()+","+leftvar+","+rightvar+"))");
+ if (Compiler.REPAIR) {
+ cr.outputline("if ("+oldmodel.getSafeSymbol()+"&&");
+ if (usageimage)
+ cr.outputline("!"+oldmodel.getSafeSymbol() +"->"+rd.getJustSafeSymbol()+"_hash->contains("+leftvar+","+rightvar+"))");
+ else
+ cr.outputline("!"+oldmodel.getSafeSymbol() +"->"+rd.getJustSafeSymbol()+"_hashinv->contains("+rightvar+","+leftvar+"))");
+
cr.startblock(); {
- /* Have update to call into */
- VarDescriptor funptr=VarDescriptor.makeNew("updateptr");
- String parttype="";
- for(int i=0;i<currentrule.numQuantifiers();i++) {
- if (currentrule.getQuantifier(i) instanceof RelationQuantifier)
- parttype=parttype+", int, int";
- else
- parttype=parttype+", int";
- }
- cr.outputline("void (*"+funptr.getSafeSymbol()+") ("+name+"_state *,"+name+"*,RepairHash *"+parttype+")=");
- cr.outputline("(void (*) ("+name+"_state *,"+name+"*,RepairHash *"+parttype+")) "+repairtable.getSafeSymbol()+"->getrelation("+rd.getNum()+","+currentrule.getNum()+","+leftvar+","+rightvar+");");
- String methodcall="("+funptr.getSafeSymbol()+") (this,"+oldmodel.getSafeSymbol()+","+repairtable.getSafeSymbol();
- for(int i=0;i<currentrule.numQuantifiers();i++) {
- Quantifier q=currentrule.getQuantifier(i);
- if (q instanceof SetQuantifier) {
- SetQuantifier sq=(SetQuantifier) q;
- methodcall+=","+sq.getVar().getSafeSymbol();
- } else if (q instanceof RelationQuantifier) {
- RelationQuantifier rq=(RelationQuantifier) q;
- methodcall+=","+rq.x.getSafeSymbol();
- methodcall+=","+rq.y.getSafeSymbol();
- } else if (q instanceof ForQuantifier) {
- ForQuantifier fq=(ForQuantifier) q;
- methodcall+=","+fq.getVar().getSafeSymbol();
+ /* Adding new item */
+ /* Perform safety checks */
+ cr.outputline("if ("+repairtable.getSafeSymbol()+"&&");
+ cr.outputline(repairtable.getSafeSymbol()+"->containsrelation("+rd.getNum()+","+currentrule.getNum()+","+leftvar+","+rightvar+"))");
+ cr.startblock(); {
+ /* Have update to call into */
+ VarDescriptor mdfyptr=VarDescriptor.makeNew("modifyptr");
+ VarDescriptor ismdfyptr=VarDescriptor.makeNew("ismodifyptr");
+ cr.outputline("int "+ismdfyptr.getSafeSymbol()+"="+repairtable.getSafeSymbol()+"->ismodify("+rd.getNum()+","+currentrule.getNum()+","+leftvar+","+rightvar+");");
+
+
+
+
+ String parttype="";
+ for(int i=0;i<currentrule.numQuantifiers();i++) {
+ if (currentrule.getQuantifier(i) instanceof RelationQuantifier)
+ parttype=parttype+", int, int";
+ else
+ parttype=parttype+", int";
+ }
+ VarDescriptor funptr=VarDescriptor.makeNew("updateptr");
+ VarDescriptor tmpptr=VarDescriptor.makeNew("tempupdateptr");
+
+ String methodcall="("+funptr.getSafeSymbol()+") (this,"+oldmodel.getSafeSymbol()+","+repairtable.getSafeSymbol();
+ for(int i=0;i<currentrule.numQuantifiers();i++) {
+ Quantifier q=currentrule.getQuantifier(i);
+ if (q instanceof SetQuantifier) {
+ SetQuantifier sq=(SetQuantifier) q;
+ methodcall+=","+sq.getVar().getSafeSymbol();
+ } else if (q instanceof RelationQuantifier) {
+ RelationQuantifier rq=(RelationQuantifier) q;
+ methodcall+=","+rq.x.getSafeSymbol();
+ methodcall+=","+rq.y.getSafeSymbol();
+ } else if (q instanceof ForQuantifier) {
+ ForQuantifier fq=(ForQuantifier) q;
+ methodcall+=","+fq.getVar().getSafeSymbol();
+ }
+ }
+
+
+
+ cr.outputline("void *"+tmpptr.getSafeSymbol()+"=");
+ cr.outputline("(void *) "+repairtable.getSafeSymbol()+"->getrelation("+rd.getNum()+","+currentrule.getNum()+","+leftvar+","+rightvar+");");
+ cr.outputline("if ("+ismdfyptr.getSafeSymbol()+")");
+ {
+ cr.startblock();
+ cr.outputline("int "+mdfyptr.getSafeSymbol()+"="+repairtable.getSafeSymbol()+"->getrelation2("+rd.getNum()+","+currentrule.getNum()+","+leftvar+","+rightvar+");");
+ cr.outputline("void (*"+funptr.getSafeSymbol()+") ("+name+"_state *,"+name+"*,RepairHash *"+parttype+",int,int,int)="+"(void (*) ("+name+"_state *,"+name+"*,RepairHash *"+parttype+",int,int,int)) "+tmpptr.getSafeSymbol()+";");
+ cr.outputline(methodcall+","+leftvar+", "+rightvar+", "+mdfyptr.getSafeSymbol() +");");
+ cr.endblock();
+ }
+ cr.outputline("else ");
+ {
+ cr.startblock();
+ cr.outputline("void (*"+funptr.getSafeSymbol()+") ("+name+"_state *,"+name+"*,RepairHash *"+parttype+")="+"(void (*) ("+name+"_state *,"+name+"*,RepairHash *"+parttype+")) "+tmpptr.getSafeSymbol()+";");
+ cr.outputline(methodcall+");");
+ cr.endblock();
}
+ cr.outputline("delete "+newmodel.getSafeSymbol()+";");
+ cr.outputline("goto rebuild;");
}
- methodcall+=");";
- cr.outputline(methodcall);
- cr.outputline(goodflag.getSafeSymbol()+"=0;");
- cr.outputline("continue;");
- }
- cr.endblock();
- /* Build standard compensation actions */
- if (need_compensation(currentrule)) {
- UpdateNode un=find_compensation(currentrule);
- String name=(String)updatenames.get(un);
- usedupdates.add(un); /* Mark as used */
- String methodcall=name+"(this,"+oldmodel.getSafeSymbol()+","+repairtable.getSafeSymbol();
- for(int i=0;i<currentrule.numQuantifiers();i++) {
- Quantifier q=currentrule.getQuantifier(i);
- if (q instanceof SetQuantifier) {
- SetQuantifier sq=(SetQuantifier) q;
- methodcall+=","+sq.getVar().getSafeSymbol();
- } else if (q instanceof RelationQuantifier) {
- RelationQuantifier rq=(RelationQuantifier) q;
- methodcall+=","+rq.x.getSafeSymbol();
- methodcall+=","+rq.y.getSafeSymbol();
- } else if (q instanceof ForQuantifier) {
- ForQuantifier fq=(ForQuantifier) q;
- methodcall+=","+fq.getVar().getSafeSymbol();
+ cr.endblock();
+
+ /* Build standard compensation actions */
+ if (need_compensation(currentrule)) {
+ UpdateNode un=find_compensation(currentrule);
+ String name=(String)updatenames.get(un);
+ usedupdates.add(un); /* Mark as used */
+ String methodcall=name+"(this,"+oldmodel.getSafeSymbol()+","+repairtable.getSafeSymbol();
+ for(int i=0;i<currentrule.numQuantifiers();i++) {
+ Quantifier q=currentrule.getQuantifier(i);
+ if (q instanceof SetQuantifier) {
+ SetQuantifier sq=(SetQuantifier) q;
+ methodcall+=","+sq.getVar().getSafeSymbol();
+ } else if (q instanceof RelationQuantifier) {
+ RelationQuantifier rq=(RelationQuantifier) q;
+ methodcall+=","+rq.x.getSafeSymbol();
+ methodcall+=","+rq.y.getSafeSymbol();
+ } else if (q instanceof ForQuantifier) {
+ ForQuantifier fq=(ForQuantifier) q;
+ methodcall+=","+fq.getVar().getSafeSymbol();
+ }
}
+ methodcall+=");";
+ cr.outputline(methodcall);
+ cr.outputline("delete "+newmodel.getSafeSymbol()+";");
+ cr.outputline("goto rebuild;");
}
- methodcall+=");";
- cr.outputline(methodcall);
- cr.outputline(goodflag.getSafeSymbol()+"=0;");
- cr.outputline("continue;");
}
+ cr.endblock();
}
- cr.endblock();
String addeditem = (VarDescriptor.makeNew("addeditem")).getSafeSymbol();
- cr.outputline("int " + addeditem + ";");
+ cr.outputline("int " + addeditem + "=0;");
+
+ String ifstring="if (!maybe&&";
+ boolean dogenerate=false;
+ if (rd.getDomain().getType() instanceof StructureTypeDescriptor) {
+ dogenerate=true;
+ ifstring+=leftvar;
+ }
+
+ if (rd.getRange().getType() instanceof StructureTypeDescriptor) {
+ if (dogenerate)
+ ifstring+="&&"+rightvar;
+ else
+ ifstring+=rightvar;
+ dogenerate=true;
+ }
+
+ ifstring+=")";
+
if (rd.testUsage(RelationDescriptor.IMAGE)) {
- cr.outputline(addeditem + " = " + rd.getSafeSymbol() + "_hash->add((int)" + leftvar + ", (int)" + rightvar + ");");
+ cr.outputline(ifstring);
+ cr.outputline(addeditem + " = " + rd.getSafeSymbol() + "_hash->add((int)" + leftvar + ", (int)" + rightvar+ ");");
}
if (rd.testUsage(RelationDescriptor.INVIMAGE)) {
+ cr.outputline(ifstring);
cr.outputline(addeditem + " = " + rd.getSafeSymbol() + "_hashinv->add((int)" + rightvar + ", (int)" + leftvar + ");");
}
- cr.outputline("if (" + addeditem + ")");
- cr.startblock();
Vector dispatchrules = getrulelist(rd);
+ Set toremove=new HashSet();
+ for(int i=0;i<dispatchrules.size();i++) {
+ Rule r=(Rule)dispatchrules.get(i);
+ if (!ruleset.contains(r))
+ toremove.add(r);
+ }
+ dispatchrules.removeAll(toremove);
if (dispatchrules.size() == 0) {
cr.outputline("// nothing to dispatch");
- cr.endblock();
return;
}
+
+ cr.outputline("if (" + addeditem + ")");
+ cr.startblock();
for(int i = 0; i < dispatchrules.size(); i++) {
Rule rule = (Rule) dispatchrules.elementAt(i);
}
}
}
+
cr.endblock();
}
public void generate_dispatch(CodeWriter cr, SetDescriptor sd, String setvar) {
-
- cr.outputline("// SET DISPATCH ");
-
- cr.outputline("if ("+oldmodel.getSafeSymbol()+"&&");
- cr.outputline("!"+oldmodel.getSafeSymbol() +"->"+sd.getJustSafeSymbol()+"_hash->contains("+setvar+"))");
- cr.startblock(); {
- /* Adding new item */
- /* Perform safety checks */
- cr.outputline("if ("+repairtable.getSafeSymbol()+"&&");
- cr.outputline(repairtable.getSafeSymbol()+"->containsset("+sd.getNum()+","+currentrule.getNum()+","+setvar+"))");
+ cr.outputline("// SET DISPATCH ");
+ if (Compiler.REPAIR) {
+ cr.outputline("if ("+oldmodel.getSafeSymbol()+"&&");
+ cr.outputline("!"+oldmodel.getSafeSymbol() +"->"+sd.getJustSafeSymbol()+"_hash->contains("+setvar+"))");
cr.startblock(); {
- /* Have update to call into */
- VarDescriptor funptr=VarDescriptor.makeNew("updateptr");
- String parttype="";
- for(int i=0;i<currentrule.numQuantifiers();i++) {
- if (currentrule.getQuantifier(i) instanceof RelationQuantifier)
- parttype=parttype+", int, int";
- else
- parttype=parttype+", int";
- }
- cr.outputline("void (*"+funptr.getSafeSymbol()+") ("+name+"_state *,"+name+"*,RepairHash *"+parttype+")=");
- cr.outputline("(void (*) ("+name+"_state *,"+name+"*,RepairHash *"+parttype+")) "+repairtable.getSafeSymbol()+"->getset("+sd.getNum()+","+currentrule.getNum()+","+setvar+");");
- String methodcall="("+funptr.getSafeSymbol()+") (this,"+oldmodel.getSafeSymbol()+","+
- repairtable.getSafeSymbol();
- for(int i=0;i<currentrule.numQuantifiers();i++) {
- Quantifier q=currentrule.getQuantifier(i);
- if (q instanceof SetQuantifier) {
- SetQuantifier sq=(SetQuantifier) q;
- methodcall+=","+sq.getVar().getSafeSymbol();
- } else if (q instanceof RelationQuantifier) {
- RelationQuantifier rq=(RelationQuantifier) q;
- methodcall+=","+rq.x.getSafeSymbol();
- methodcall+=","+rq.y.getSafeSymbol();
- } else if (q instanceof ForQuantifier) {
- ForQuantifier fq=(ForQuantifier) q;
- methodcall+=","+fq.getVar().getSafeSymbol();
+ /* Adding new item */
+ /* See if there is an outstanding update in the repairtable */
+ cr.outputline("if ("+repairtable.getSafeSymbol()+"&&");
+ cr.outputline(repairtable.getSafeSymbol()+"->containsset("+sd.getNum()+","+currentrule.getNum()+","+setvar+"))");
+ cr.startblock(); {
+ /* Have update to call into */
+ VarDescriptor funptr=VarDescriptor.makeNew("updateptr");
+ String parttype="";
+ for(int i=0;i<currentrule.numQuantifiers();i++) {
+ if (currentrule.getQuantifier(i) instanceof RelationQuantifier)
+ parttype=parttype+", int, int";
+ else
+ parttype=parttype+", int";
}
+ cr.outputline("void (*"+funptr.getSafeSymbol()+") ("+name+"_state *,"+name+"*,RepairHash *"+parttype+")=");
+ cr.outputline("(void (*) ("+name+"_state *,"+name+"*,RepairHash *"+parttype+")) "+repairtable.getSafeSymbol()+"->getset("+sd.getNum()+","+currentrule.getNum()+","+setvar+");");
+ String methodcall="("+funptr.getSafeSymbol()+") (this,"+oldmodel.getSafeSymbol()+","+
+ repairtable.getSafeSymbol();
+ for(int i=0;i<currentrule.numQuantifiers();i++) {
+ Quantifier q=currentrule.getQuantifier(i);
+ if (q instanceof SetQuantifier) {
+ SetQuantifier sq=(SetQuantifier) q;
+ methodcall+=","+sq.getVar().getSafeSymbol();
+ } else if (q instanceof RelationQuantifier) {
+ RelationQuantifier rq=(RelationQuantifier) q;
+ methodcall+=","+rq.x.getSafeSymbol();
+ methodcall+=","+rq.y.getSafeSymbol();
+ } else if (q instanceof ForQuantifier) {
+ ForQuantifier fq=(ForQuantifier) q;
+ methodcall+=","+fq.getVar().getSafeSymbol();
+ }
+ }
+ methodcall+=");";
+ cr.outputline(methodcall);
+ cr.outputline("delete "+newmodel.getSafeSymbol()+";");
+ cr.outputline("goto rebuild;");
}
- methodcall+=");";
- cr.outputline(methodcall);
- cr.outputline(goodflag.getSafeSymbol()+"=0;");
- cr.outputline("continue;");
- }
- cr.endblock();
- /* Build standard compensation actions */
- if (need_compensation(currentrule)) {
- UpdateNode un=find_compensation(currentrule);
- String name=(String)updatenames.get(un);
- usedupdates.add(un); /* Mark as used */
-
- String methodcall=name+"(this,"+oldmodel.getSafeSymbol()+","+
- repairtable.getSafeSymbol();
- for(int i=0;i<currentrule.numQuantifiers();i++) {
- Quantifier q=currentrule.getQuantifier(i);
- if (q instanceof SetQuantifier) {
- SetQuantifier sq=(SetQuantifier) q;
- methodcall+=","+sq.getVar().getSafeSymbol();
- } else if (q instanceof RelationQuantifier) {
- RelationQuantifier rq=(RelationQuantifier) q;
- methodcall+=","+rq.x.getSafeSymbol();
- methodcall+=","+rq.y.getSafeSymbol();
- } else if (q instanceof ForQuantifier) {
- ForQuantifier fq=(ForQuantifier) q;
- methodcall+=","+fq.getVar().getSafeSymbol();
+ cr.endblock();
+ /* Build standard compensation actions */
+ Vector ruleset=new Vector();
+ ruleset.add(currentrule);
+ if (state.implicitruleinv.containsKey(currentrule))
+ ruleset.addAll((Set)state.implicitruleinv.get(currentrule));
+ for(int i=0;i<ruleset.size();i++) {
+ Rule itrule=(Rule)ruleset.get(i);
+
+ if (need_compensation(itrule)) {
+ UpdateNode un=find_compensation(itrule);
+ String name=(String)updatenames.get(un);
+ usedupdates.add(un); /* Mark as used */
+
+ String methodcall=name+"(this,"+oldmodel.getSafeSymbol()+","+
+ repairtable.getSafeSymbol();
+ for(int j=0;j<currentrule.numQuantifiers();j++) {
+ Quantifier q=currentrule.getQuantifier(j);
+ if (q instanceof SetQuantifier) {
+ SetQuantifier sq=(SetQuantifier) q;
+ methodcall+=","+sq.getVar().getSafeSymbol();
+ } else if (q instanceof RelationQuantifier) {
+ RelationQuantifier rq=(RelationQuantifier) q;
+ methodcall+=","+rq.x.getSafeSymbol();
+ methodcall+=","+rq.y.getSafeSymbol();
+ } else if (q instanceof ForQuantifier) {
+ ForQuantifier fq=(ForQuantifier) q;
+ methodcall+=","+fq.getVar().getSafeSymbol();
+ }
+ }
+ methodcall+=");";
+ if (currentrule!=itrule) {
+ SetDescriptor sdrule=((SetInclusion)itrule.getInclusion()).getSet();
+ cr.outputline("if ("+oldmodel.getSafeSymbol()+"&&");
+ cr.outputline("!"+oldmodel.getSafeSymbol() +"->"+sdrule.getJustSafeSymbol()+"_hash->contains("+setvar+"))");
+ cr.startblock();
+ }
+ cr.outputline(methodcall);
+ cr.outputline("delete "+newmodel.getSafeSymbol()+";");
+ cr.outputline("goto rebuild;");
+ cr.endblock();
}
+ if (currentrule==itrule)
+ cr.endblock();
}
- methodcall+=");";
- cr.outputline(methodcall);
- cr.outputline(goodflag.getSafeSymbol()+"=0;");
- cr.outputline("continue;");
}
}
- cr.endblock();
String addeditem = (VarDescriptor.makeNew("addeditem")).getSafeSymbol();
- cr.outputline("int " + addeditem + " = 1;");
+ cr.outputline("int " + addeditem + " = 0;");
+ if (sd.getType() instanceof StructureTypeDescriptor) {
+ cr.outputline("if (!maybe&&"+setvar+")");
+ } else
+ cr.outputline("if (!maybe)");
cr.outputline(addeditem + " = " + sd.getSafeSymbol() + "_hash->add((int)" + setvar + ", (int)" + setvar + ");");
cr.startblock();
Vector dispatchrules = getrulelist(sd);
+ Set toremove=new HashSet();
+ for(int i=0;i<dispatchrules.size();i++) {
+ Rule r=(Rule)dispatchrules.get(i);
+ if (!ruleset.contains(r))
+ toremove.add(r);
+ }
+ dispatchrules.removeAll(toremove);
+
if (dispatchrules.size() == 0) {
cr.outputline("// nothing to dispatch");
cr.endblock();
return;
}
-
+ /* Add item to worklist if new */
+ cr.outputline("if ("+addeditem+")");
+ cr.startblock();
for(int i = 0; i < dispatchrules.size(); i++) {
Rule rule = (Rule) dispatchrules.elementAt(i);
if (SetDescriptor.expand(rule.getGuardExpr().getRequiredDescriptors()).contains(sd)) {
}
}
cr.endblock();
+ cr.endblock();
}
}