Exemplo n.º 1
0
 private static void killEnd(AbstractEndNode end) {
   MergeNode merge = end.merge();
   if (merge != null) {
     merge.removeEnd(end);
     StructuredGraph graph = end.graph();
     if (merge instanceof LoopBeginNode && merge.forwardEndCount() == 0) { // dead loop
       for (PhiNode phi : merge.phis().snapshot()) {
         propagateKill(phi);
       }
       LoopBeginNode begin = (LoopBeginNode) merge;
       // disconnect and delete loop ends & loop exits
       for (LoopEndNode loopend : begin.loopEnds().snapshot()) {
         loopend.predecessor().replaceFirstSuccessor(loopend, null);
         loopend.safeDelete();
       }
       begin.removeExits();
       FixedNode loopBody = begin.next();
       if (loopBody != null) { // for small infinite loops, the body may be killed while
         // killing the loop ends
         killCFG(loopBody);
       }
       begin.safeDelete();
     } else if (merge instanceof LoopBeginNode
         && ((LoopBeginNode) merge).loopEnds().isEmpty()) { // not
       // a
       // loop
       // anymore
       graph.reduceDegenerateLoopBegin((LoopBeginNode) merge);
     } else if (merge.phiPredecessorCount() == 1) { // not a merge anymore
       graph.reduceTrivialMerge(merge);
     }
   }
 }
Exemplo n.º 2
0
 public void reduceTrivialMerge(AbstractMergeNode merge) {
   assert merge.forwardEndCount() == 1;
   assert !(merge instanceof LoopBeginNode) || ((LoopBeginNode) merge).loopEnds().isEmpty();
   for (PhiNode phi : merge.phis().snapshot()) {
     assert phi.valueCount() == 1;
     ValueNode singleValue = phi.valueAt(0);
     phi.replaceAtUsagesAndDelete(singleValue);
   }
   // remove loop exits
   if (merge instanceof LoopBeginNode) {
     ((LoopBeginNode) merge).removeExits();
   }
   AbstractEndNode singleEnd = merge.forwardEndAt(0);
   FixedNode sux = merge.next();
   FrameState stateAfter = merge.stateAfter();
   // evacuateGuards
   merge.prepareDelete((FixedNode) singleEnd.predecessor());
   merge.safeDelete();
   if (stateAfter != null && stateAfter.isAlive() && stateAfter.hasNoUsages()) {
     GraphUtil.killWithUnusedFloatingInputs(stateAfter);
   }
   if (sux == null) {
     singleEnd.replaceAtPredecessor(null);
     singleEnd.safeDelete();
   } else {
     singleEnd.replaceAndDelete(sux);
   }
 }
 private static void iterateSuccessorsAndInputs(NodeFlood flood) {
   BiConsumer<Node, Node> consumer =
       (n, succOrInput) -> {
         assert succOrInput.isAlive() : "dead successor or input " + succOrInput + " in " + n;
         flood.add(succOrInput);
       };
   for (Node current : flood) {
     if (current instanceof AbstractEndNode) {
       AbstractEndNode end = (AbstractEndNode) current;
       flood.add(end.merge());
     } else {
       current.acceptSuccessors(consumer);
       current.acceptInputs(consumer);
     }
   }
 }
 private void processFixedGuardAndMerge(
     FixedGuardNode fixedGuard,
     PhaseContext context,
     CompareNode compare,
     ValueNode x,
     ValuePhiNode xPhi,
     ValueNode y,
     ValuePhiNode yPhi,
     AbstractMergeNode merge) {
   List<EndNode> mergePredecessors = merge.cfgPredecessors().snapshot();
   for (int i = 0; i < mergePredecessors.size(); ++i) {
     AbstractEndNode mergePredecessor = mergePredecessors.get(i);
     if (!mergePredecessor.isAlive()) {
       break;
     }
     Constant xs;
     if (xPhi == null) {
       xs = x.asConstant();
     } else {
       xs = xPhi.valueAt(mergePredecessor).asConstant();
     }
     Constant ys;
     if (yPhi == null) {
       ys = y.asConstant();
     } else {
       ys = yPhi.valueAt(mergePredecessor).asConstant();
     }
     if (xs != null
         && ys != null
         && compare
                 .condition()
                 .foldCondition(xs, ys, context.getConstantReflection(), compare.unorderedIsTrue())
             == fixedGuard.isNegated()) {
       visitDeoptBegin(
           AbstractBeginNode.prevBegin(mergePredecessor),
           fixedGuard.getAction(),
           fixedGuard.getReason(),
           fixedGuard.getSpeculation(),
           fixedGuard.graph());
     }
   }
 }
Exemplo n.º 5
0
 /**
  * The {@link com.oracle.graal.nodes.AbstractEndNode} at the end of the current code path
  * contributes values to {@link com.oracle.graal.nodes.PhiNode}s. Now is a good time to {@link
  * EquationalReasoner#deverbosify(com.oracle.graal.graph.Node) EquationalReasoner#deverbosify}
  * those values.
  *
  * <p>Precondition: inputs haven't been deverbosified yet.
  */
 private void visitAbstractEndNode(AbstractEndNode endNode) {
   MergeNode merge = endNode.merge();
   for (PhiNode phi : merge.phis()) {
     if (phi instanceof ValuePhiNode && phi.getKind() == Kind.Object) {
       assert phi.verify();
       int index = merge.phiPredecessorIndex(endNode);
       ValueNode original = phi.valueAt(index);
       ValueNode reduced = (ValueNode) reasoner.deverbosify(original);
       if (reduced != original) {
         phi.setValueAt(index, reduced);
         // `original` if unused will be removed in finished()
       }
     }
   }
 }