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 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
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package org.graalvm.compiler.phases.common;

import static org.graalvm.compiler.phases.common.DeadCodeEliminationPhase.Optionality.Optional;

import java.util.List;

import org.graalvm.compiler.core.common.GraalOptions;
import org.graalvm.compiler.debug.DebugCloseable;
import org.graalvm.compiler.graph.Node;
import org.graalvm.compiler.graph.NodeSourcePosition;
import org.graalvm.compiler.graph.spi.SimplifierTool;
import org.graalvm.compiler.nodeinfo.InputType;
import org.graalvm.compiler.nodes.AbstractBeginNode;
import org.graalvm.compiler.nodes.AbstractEndNode;
import org.graalvm.compiler.nodes.AbstractMergeNode;
import org.graalvm.compiler.nodes.ConstantNode;
import org.graalvm.compiler.nodes.ControlSplitNode;
import org.graalvm.compiler.nodes.DeoptimizeNode;
import org.graalvm.compiler.nodes.EndNode;
import org.graalvm.compiler.nodes.FixedGuardNode;
import org.graalvm.compiler.nodes.FixedNode;
import org.graalvm.compiler.nodes.FixedWithNextNode;
import org.graalvm.compiler.nodes.GuardNode;
import org.graalvm.compiler.nodes.IfNode;
import org.graalvm.compiler.nodes.LogicNode;
import org.graalvm.compiler.nodes.LoopExitNode;
import org.graalvm.compiler.nodes.ProxyNode;
import org.graalvm.compiler.nodes.StartNode;
import org.graalvm.compiler.nodes.StaticDeoptimizingNode;
import org.graalvm.compiler.nodes.StructuredGraph;
import org.graalvm.compiler.nodes.ValueNode;
import org.graalvm.compiler.nodes.ValuePhiNode;
import org.graalvm.compiler.nodes.calc.CompareNode;
import org.graalvm.compiler.nodes.spi.LoweringProvider;
import org.graalvm.compiler.nodes.util.GraphUtil;
import org.graalvm.compiler.phases.BasePhase;
import org.graalvm.compiler.phases.tiers.PhaseContext;

import jdk.vm.ci.meta.Constant;
import jdk.vm.ci.meta.DeoptimizationAction;

This phase will find branches which always end with a DeoptimizeNode and replace their ControlSplitNodes with FixedGuardNodes. This is useful because FixedGuardNodes will be lowered to GuardNodes which can later be optimized more aggressively than control-flow constructs. This is currently only done for branches that start from a IfNode. If it encounters a branch starting at an other kind of ControlSplitNode, it will only bring the DeoptimizeNode as close to the ControlSplitNode as possible.
/** * This phase will find branches which always end with a {@link DeoptimizeNode} and replace their * {@link ControlSplitNode ControlSplitNodes} with {@link FixedGuardNode FixedGuardNodes}. * * This is useful because {@link FixedGuardNode FixedGuardNodes} will be lowered to {@link GuardNode * GuardNodes} which can later be optimized more aggressively than control-flow constructs. * * This is currently only done for branches that start from a {@link IfNode}. If it encounters a * branch starting at an other kind of {@link ControlSplitNode}, it will only bring the * {@link DeoptimizeNode} as close to the {@link ControlSplitNode} as possible. * */
public class ConvertDeoptimizeToGuardPhase extends BasePhase<PhaseContext> { @Override @SuppressWarnings("try") protected void run(final StructuredGraph graph, PhaseContext context) { assert graph.hasValueProxies() : "ConvertDeoptimizeToGuardPhase always creates proxies"; assert !graph.getGuardsStage().areFrameStatesAtDeopts() : graph.getGuardsStage(); for (DeoptimizeNode d : graph.getNodes(DeoptimizeNode.TYPE)) { assert d.isAlive(); if (d.getAction() == DeoptimizationAction.None) { continue; } try (DebugCloseable closable = d.withNodeSourcePosition()) { propagateFixed(d, d, context != null ? context.getLowerer() : null); } } if (context != null) { for (FixedGuardNode fixedGuard : graph.getNodes(FixedGuardNode.TYPE)) { try (DebugCloseable closable = fixedGuard.withNodeSourcePosition()) { trySplitFixedGuard(fixedGuard, context); } } } new DeadCodeEliminationPhase(Optional).apply(graph); } private void trySplitFixedGuard(FixedGuardNode fixedGuard, PhaseContext context) { LogicNode condition = fixedGuard.condition(); if (condition instanceof CompareNode) { CompareNode compare = (CompareNode) condition; ValueNode x = compare.getX(); ValuePhiNode xPhi = (x instanceof ValuePhiNode) ? (ValuePhiNode) x : null; if (x instanceof ConstantNode || xPhi != null) { ValueNode y = compare.getY(); ValuePhiNode yPhi = (y instanceof ValuePhiNode) ? (ValuePhiNode) y : null; if (y instanceof ConstantNode || yPhi != null) { processFixedGuardAndPhis(fixedGuard, context, compare, x, xPhi, y, yPhi); } } } } private void processFixedGuardAndPhis(FixedGuardNode fixedGuard, PhaseContext context, CompareNode compare, ValueNode x, ValuePhiNode xPhi, ValueNode y, ValuePhiNode yPhi) { AbstractBeginNode pred = AbstractBeginNode.prevBegin(fixedGuard); if (pred instanceof AbstractMergeNode) { AbstractMergeNode merge = (AbstractMergeNode) pred; if (xPhi != null && xPhi.merge() != merge) { return; } if (yPhi != null && yPhi.merge() != merge) { return; } processFixedGuardAndMerge(fixedGuard, context, compare, x, xPhi, y, yPhi, merge); } } @SuppressWarnings("try") 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()) { try (DebugCloseable position = fixedGuard.withNodeSourcePosition()) { propagateFixed(mergePredecessor, fixedGuard, context.getLowerer()); } } } } @SuppressWarnings("try") private void propagateFixed(FixedNode from, StaticDeoptimizingNode deopt, LoweringProvider loweringProvider) { Node current = from; while (current != null) { if (GraalOptions.GuardPriorities.getValue(from.getOptions()) && current instanceof FixedGuardNode) { FixedGuardNode otherGuard = (FixedGuardNode) current; if (otherGuard.computePriority().isHigherPriorityThan(deopt.computePriority())) { moveAsDeoptAfter(otherGuard, deopt); return; } } else if (current instanceof AbstractBeginNode) { if (current instanceof AbstractMergeNode) { AbstractMergeNode mergeNode = (AbstractMergeNode) current; FixedNode next = mergeNode.next(); while (mergeNode.isAlive()) { AbstractEndNode end = mergeNode.forwardEnds().first(); propagateFixed(end, deopt, loweringProvider); } if (next.isAlive()) { propagateFixed(next, deopt, loweringProvider); } return; } else if (current.predecessor() instanceof IfNode) { IfNode ifNode = (IfNode) current.predecessor(); // Prioritize the source position of the IfNode try (DebugCloseable closable = ifNode.withNodeSourcePosition()) { StructuredGraph graph = ifNode.graph(); LogicNode conditionNode = ifNode.condition(); boolean negateGuardCondition = current == ifNode.trueSuccessor(); NodeSourcePosition survivingSuccessorPosition = negateGuardCondition ? ifNode.falseSuccessor().getNodeSourcePosition() : ifNode.trueSuccessor().getNodeSourcePosition(); FixedGuardNode guard = graph.add( new FixedGuardNode(conditionNode, deopt.getReason(), deopt.getAction(), deopt.getSpeculation(), negateGuardCondition, survivingSuccessorPosition)); FixedWithNextNode pred = (FixedWithNextNode) ifNode.predecessor(); AbstractBeginNode survivingSuccessor; if (negateGuardCondition) { survivingSuccessor = ifNode.falseSuccessor(); } else { survivingSuccessor = ifNode.trueSuccessor(); } graph.removeSplitPropagate(ifNode, survivingSuccessor); Node newGuard = guard; if (survivingSuccessor instanceof LoopExitNode) { newGuard = ProxyNode.forGuard(guard, (LoopExitNode) survivingSuccessor, graph); } survivingSuccessor.replaceAtUsages(InputType.Guard, newGuard); graph.getDebug().log("Converting deopt on %-5s branch of %s to guard for remaining branch %s.", negateGuardCondition, ifNode, survivingSuccessor); FixedNode next = pred.next(); pred.setNext(guard); guard.setNext(next); SimplifierTool simplifierTool = GraphUtil.getDefaultSimplifier(null, null, null, false, graph.getAssumptions(), graph.getOptions(), loweringProvider); survivingSuccessor.simplify(simplifierTool); return; } } else if (current.predecessor() == null || current.predecessor() instanceof ControlSplitNode) { assert current.predecessor() != null || (current instanceof StartNode && current == ((AbstractBeginNode) current).graph().start()); moveAsDeoptAfter((AbstractBeginNode) current, deopt); return; } } current = current.predecessor(); } } @SuppressWarnings("try") private static void moveAsDeoptAfter(FixedWithNextNode node, StaticDeoptimizingNode deopt) { try (DebugCloseable position = deopt.asNode().withNodeSourcePosition()) { FixedNode next = node.next(); if (next != deopt.asNode()) { node.setNext(node.graph().add(new DeoptimizeNode(deopt.getAction(), deopt.getReason(), deopt.getSpeculation()))); GraphUtil.killCFG(next); } } } }