use of org.graalvm.compiler.hotspot.phases.WriteBarrierVerificationPhase in project graal by oracle.
the class HotSpotSuitesProvider method createSuites.
@Override
public Suites createSuites(OptionValues options) {
Suites ret = defaultSuitesCreator.createSuites(options);
if (ImmutableCode.getValue(options)) {
// lowering introduces class constants, therefore it must be after lowering
ret.getHighTier().appendPhase(new LoadJavaMirrorWithKlassPhase(config));
if (VerifyPhases.getValue(options)) {
ret.getHighTier().appendPhase(new AheadOfTimeVerificationPhase());
}
if (GeneratePIC.getValue(options)) {
ListIterator<BasePhase<? super HighTierContext>> highTierLowering = ret.getHighTier().findPhase(LoweringPhase.class);
highTierLowering.previous();
highTierLowering.add(new EliminateRedundantInitializationPhase());
if (HotSpotAOTProfilingPlugin.Options.TieredAOT.getValue(options)) {
highTierLowering.add(new FinalizeProfileNodesPhase(HotSpotAOTProfilingPlugin.Options.TierAInvokeInlineeNotifyFreqLog.getValue(options)));
}
ListIterator<BasePhase<? super MidTierContext>> midTierLowering = ret.getMidTier().findPhase(LoweringPhase.class);
midTierLowering.add(new ReplaceConstantNodesPhase());
// Replace inlining policy
if (Inline.getValue(options)) {
ListIterator<BasePhase<? super HighTierContext>> iter = ret.getHighTier().findPhase(InliningPhase.class);
InliningPhase inlining = (InliningPhase) iter.previous();
CanonicalizerPhase canonicalizer = inlining.getCanonicalizer();
iter.set(new InliningPhase(new AOTInliningPolicy(null), canonicalizer));
}
}
}
ret.getMidTier().appendPhase(new WriteBarrierAdditionPhase(config));
if (VerifyPhases.getValue(options)) {
ret.getMidTier().appendPhase(new WriteBarrierVerificationPhase(config));
}
return ret;
}
use of org.graalvm.compiler.hotspot.phases.WriteBarrierVerificationPhase in project graal by oracle.
the class WriteBarrierVerificationTest method testPredicate.
@SuppressWarnings("try")
private void testPredicate(final String snippet, final GraphPredicate expectedBarriers, final int... removedBarrierIndices) {
DebugContext debug = getDebugContext();
try (DebugCloseable d = debug.disableIntercept();
DebugContext.Scope s = debug.scope("WriteBarrierVerificationTest", new DebugDumpScope(snippet))) {
final StructuredGraph graph = parseEager(snippet, AllowAssumptions.YES, debug);
HighTierContext highTierContext = getDefaultHighTierContext();
new InliningPhase(new CanonicalizerPhase()).apply(graph, highTierContext);
MidTierContext midTierContext = new MidTierContext(getProviders(), getTargetProvider(), OptimisticOptimizations.ALL, graph.getProfilingInfo());
new LoweringPhase(new CanonicalizerPhase(), LoweringTool.StandardLoweringStage.HIGH_TIER).apply(graph, highTierContext);
new GuardLoweringPhase().apply(graph, midTierContext);
new LoopSafepointInsertionPhase().apply(graph);
new LoweringPhase(new CanonicalizerPhase(), LoweringTool.StandardLoweringStage.MID_TIER).apply(graph, highTierContext);
new WriteBarrierAdditionPhase(config).apply(graph);
int barriers = 0;
// First, the total number of expected barriers is checked.
if (config.useG1GC) {
barriers = graph.getNodes().filter(G1PreWriteBarrier.class).count() + graph.getNodes().filter(G1PostWriteBarrier.class).count() + graph.getNodes().filter(G1ArrayRangePreWriteBarrier.class).count() + graph.getNodes().filter(G1ArrayRangePostWriteBarrier.class).count();
Assert.assertTrue(expectedBarriers.apply(graph) * 2 == barriers);
} else {
barriers = graph.getNodes().filter(SerialWriteBarrier.class).count() + graph.getNodes().filter(SerialArrayRangeWriteBarrier.class).count();
Assert.assertTrue(expectedBarriers.apply(graph) == barriers);
}
ResolvedJavaField barrierIndexField = getMetaAccess().lookupJavaField(WriteBarrierVerificationTest.class.getDeclaredField("barrierIndex"));
LocationIdentity barrierIdentity = new FieldLocationIdentity(barrierIndexField);
// Iterate over all write nodes and remove barriers according to input indices.
NodeIteratorClosure<Boolean> closure = new NodeIteratorClosure<Boolean>() {
@Override
protected Boolean processNode(FixedNode node, Boolean currentState) {
if (node instanceof WriteNode) {
WriteNode write = (WriteNode) node;
LocationIdentity obj = write.getLocationIdentity();
if (obj.equals(barrierIdentity)) {
/*
* A "barrierIndex" variable was found and is checked against the input
* barrier array.
*/
if (eliminateBarrier(write.value().asJavaConstant().asInt(), removedBarrierIndices)) {
return true;
}
}
} else if (node instanceof SerialWriteBarrier || node instanceof G1PostWriteBarrier) {
// Remove flagged write barriers.
if (currentState) {
graph.removeFixed(((FixedWithNextNode) node));
return false;
}
}
return currentState;
}
private boolean eliminateBarrier(int index, int[] map) {
for (int i = 0; i < map.length; i++) {
if (map[i] == index) {
return true;
}
}
return false;
}
@Override
protected EconomicMap<LoopExitNode, Boolean> processLoop(LoopBeginNode loop, Boolean initialState) {
return ReentrantNodeIterator.processLoop(this, loop, initialState).exitStates;
}
@Override
protected Boolean merge(AbstractMergeNode merge, List<Boolean> states) {
return false;
}
@Override
protected Boolean afterSplit(AbstractBeginNode node, Boolean oldState) {
return false;
}
};
try (Scope disabled = debug.disable()) {
ReentrantNodeIterator.apply(closure, graph.start(), false);
new WriteBarrierVerificationPhase(config).apply(graph);
} catch (AssertionError error) {
/*
* Catch assertion, test for expected one and re-throw in order to validate unit
* test.
*/
Assert.assertTrue(error.getMessage().contains("Write barrier must be present"));
throw error;
}
} catch (Throwable e) {
throw debug.handle(e);
}
}
Aggregations