package MCC.IR;
import java.util.*;
+import MCC.State;
class UpdateNode {
Vector updates;
public Updates getUpdate(int i) {
return (Updates)updates.get(i);
}
- public void generate(CodeWriter cr, boolean removal, String slot0, String slot1) {
+
+ private MultUpdateNode getMultUpdateNode(boolean negate, Descriptor d, RepairGenerator rg) {
+ Termination termination=rg.termination;
+ MultUpdateNode mun=null;
+ GraphNode gn;
+ if (negate)
+ gn=(GraphNode)termination.abstractremove.get(d);
+ else
+ gn=(GraphNode)termination.abstractadd.get(d);
+ TermNode tn=(TermNode)gn.getOwner();
+ for(Iterator edgeit=gn.edges();edgeit.hasNext();) {
+ GraphNode gn2=((GraphNode.Edge) edgeit.next()).getTarget();
+ if (!rg.removed.contains(gn2)) {
+ TermNode tn2=(TermNode)gn2.getOwner();
+ if (tn2.getType()==TermNode.UPDATE) {
+ mun=tn2.getUpdate();
+ break;
+ }
+ }
+ }
+ if (mun==null)
+ throw new Error("Can't find update node!");
+ return mun;
+ }
+
+ public void generate_abstract(CodeWriter cr, boolean removal, String slot0, String slot1, Updates u, RepairGenerator rg) {
+ State state=rg.state;
+ Expr abstractexpr=u.getLeftExpr();
+ boolean negated=u.negate;
+ Descriptor d=null;
+ Expr left=null;
+ Expr right=null;
+ boolean istuple=false;
+ if (abstractexpr instanceof TupleOfExpr) {
+ TupleOfExpr toe=(TupleOfExpr) abstractexpr;
+ d=toe.relation;
+ left=toe.left;
+ right=toe.right;
+ istuple=true;
+ } else if (abstractexpr instanceof TupleOfExpr) {
+ ElementOfExpr eoe=(ElementOfExpr) abstractexpr;
+ d=eoe.set;
+ left=eoe.element;
+ istuple=false;
+ } else {
+ throw new Error("Unsupported Expr");
+ }
+ MultUpdateNode mun=getMultUpdateNode(negated,d,rg);
+ VarDescriptor leftvar=VarDescriptor.makeNew("leftvar");
+ VarDescriptor rightvar=VarDescriptor.makeNew("rightvar");
+ left.generate(cr, leftvar);
+ if (istuple)
+ right.generate(cr,rightvar);
+
+ if (negated) {
+ if (istuple) {
+ RelationDescriptor rd=(RelationDescriptor)d;
+ boolean usageimage=rd.testUsage(RelationDescriptor.IMAGE);
+ boolean usageinvimage=rd.testUsage(RelationDescriptor.INVIMAGE);
+ if (usageimage)
+ cr.outputline(rg.stmodel+"->"+rd.getJustSafeSymbol() + "_hash->remove((int)" + leftvar.getSafeSymbol() + ", (int)" + rightvar.getSafeSymbol() + ");");
+ if (usageinvimage)
+ cr.outputline(rg.stmodel+"->"+rd.getJustSafeSymbol() + "_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);
+ if (un.getRule()==r) {
+ /* Update for rule rule r */
+ String name=(String)rg.updatenames.get(un);
+ cr.outputline(rg.strepairtable+"->addrelation("+rd.getNum()+","+r.getNum()+","+leftvar.getSafeSymbol()+","+rightvar.getSafeSymbol()+",(int) &"+name+");");
+ }
+ }
+ }
+ }
+ } else {
+ SetDescriptor sd=(SetDescriptor) d;
+ cr.outputline(rg.stmodel+"->"+sd.getJustSafeSymbol() + "_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);
+ if (un.getRule()==r) {
+ /* Update for rule rule r */
+ String name=(String)rg.updatenames.get(un);
+ cr.outputline(rg.strepairtable+"->addset("+sd.getNum()+","+r.getNum()+","+leftvar.getSafeSymbol()+",(int) &"+name+");");
+ }
+ }
+ }
+ }
+ }
+ } else {
+ /* Generate update */
+ if (istuple) {
+ RelationDescriptor rd=(RelationDescriptor) d;
+ boolean usageimage=rd.testUsage(RelationDescriptor.IMAGE);
+ boolean usageinvimage=rd.testUsage(RelationDescriptor.INVIMAGE);
+ if (usageimage)
+ cr.outputline(rg.stmodel+"->"+rd.getJustSafeSymbol() + "_hash->add((int)" + leftvar.getSafeSymbol() + ", (int)" + rightvar.getSafeSymbol() + ");");
+ if (usageinvimage)
+ cr.outputline(rg.stmodel+"->"+rd.getJustSafeSymbol() + "_hashinv->add((int)" + rightvar.getSafeSymbol() + ", (int)" + leftvar.getSafeSymbol() + ");");
+
+ UpdateNode un=mun.getUpdate(0);
+ String name=(String)rg.updatenames.get(un);
+ cr.outputline(name+"(this,"+rg.stmodel+","+rg.strepairtable+","+leftvar.getSafeSymbol()+","+rightvar.getSafeSymbol()+");");
+ } else {
+ SetDescriptor sd=(SetDescriptor)d;
+ cr.outputline(rg.stmodel+"->"+sd.getJustSafeSymbol() + "_hash->add((int)" + leftvar.getSafeSymbol() + ", (int)" + leftvar.getSafeSymbol() + ");");
+
+ UpdateNode un=mun.getUpdate(0);
+ /* Update for rule rule r */
+ String name=(String)rg.updatenames.get(un);
+ cr.outputline(name+"(this,"+rg.stmodel+","+rg.strepairtable+","+leftvar.getSafeSymbol()+");");
+ }
+ }
+
+ }
+
+ public void generate(CodeWriter cr, boolean removal, String slot0, String slot1, RepairGenerator rg) {
if (!removal)
generate_bindings(cr, slot0,slot1);
for(int i=0;i<updates.size();i++) {
Updates u=(Updates)updates.get(i);
VarDescriptor right=VarDescriptor.makeNew("right");
- if (u.getType()==Updates.ABSTRACT)
- throw new Error("Abstract update not implemented");
+ if (u.getType()==Updates.ABSTRACT) {
+ generate_abstract(cr, removal, slot0, slot1, u, rg);
+ }
switch(u.getType()) {
case Updates.EXPR:
}
}
- private int bitmask(int bits) {
- int mask = 0;
-
- for (int i = 0; i < bits; i++) {
- mask <<= 1;
- mask += 1;
- }
-
- return mask;
- }
-
private void generate_bindings(CodeWriter cr, String slot0, String slot1) {
for(int i=0;i<bindings.size();i++) {
Binding b=(Binding)bindings.get(i);