@Override public void run(StructuredGraph graph) { schedulePhase.apply(graph, false); schedule = graph.getLastSchedule(); schedule.getCFG().computePostdominators(); Block startBlock = schedule.getCFG().getStartBlock(); ProcessFrame rootFrame = new ProcessFrame(startBlock, graph.createNodeBitMap(), startBlock.getBeginNode(), null); LoweringPhase.processBlock(rootFrame); }
@SuppressWarnings("try") private ScheduleResult getFinalSchedule( final String snippet, final TestMode mode, final SchedulingStrategy schedulingStrategy) { final StructuredGraph graph = parseEager(snippet, AllowAssumptions.NO); try (Scope d = Debug.scope("FloatingReadTest", graph)) { try (OverrideScope s = OptionValue.override( OptScheduleOutOfLoops, schedulingStrategy == SchedulingStrategy.LATEST_OUT_OF_LOOPS, OptImplicitNullChecks, false)) { HighTierContext context = getDefaultHighTierContext(); CanonicalizerPhase canonicalizer = new CanonicalizerPhase(); canonicalizer.apply(graph, context); if (mode == TestMode.INLINED_WITHOUT_FRAMESTATES) { new InliningPhase(canonicalizer).apply(graph, context); } new LoweringPhase(canonicalizer, LoweringTool.StandardLoweringStage.HIGH_TIER) .apply(graph, context); if (mode == TestMode.WITHOUT_FRAMESTATES || mode == TestMode.INLINED_WITHOUT_FRAMESTATES) { graph.clearAllStateAfter(); } Debug.dump(graph, "after removal of framestates"); new FloatingReadPhase().apply(graph); new RemoveValueProxyPhase().apply(graph); MidTierContext midContext = new MidTierContext( getProviders(), getTargetProvider(), OptimisticOptimizations.ALL, graph.getProfilingInfo()); new GuardLoweringPhase().apply(graph, midContext); new LoweringPhase(canonicalizer, LoweringTool.StandardLoweringStage.MID_TIER) .apply(graph, midContext); new LoweringPhase(canonicalizer, LoweringTool.StandardLoweringStage.LOW_TIER) .apply(graph, midContext); SchedulePhase schedule = new SchedulePhase(schedulingStrategy); schedule.apply(graph); assertDeepEquals(1, graph.getNodes().filter(StartNode.class).count()); return graph.getLastSchedule(); } } catch (Throwable e) { throw Debug.handle(e); } }
@Test public void testValueProxyInputs() { StructuredGraph graph = parseEager("testValueProxyInputsSnippet", AllowAssumptions.YES); for (FrameState fs : graph.getNodes().filter(FrameState.class).snapshot()) { fs.replaceAtUsages(null); GraphUtil.killWithUnusedFloatingInputs(fs); } SchedulePhase schedulePhase = new SchedulePhase(SchedulingStrategy.LATEST); schedulePhase.apply(graph); ScheduleResult schedule = graph.getLastSchedule(); NodeMap<Block> nodeToBlock = schedule.getCFG().getNodeToBlock(); assertTrue(graph.getNodes().filter(LoopExitNode.class).count() == 1); LoopExitNode loopExit = graph.getNodes().filter(LoopExitNode.class).first(); List<Node> list = schedule.nodesFor(nodeToBlock.get(loopExit)); for (BinaryArithmeticNode<?> node : graph.getNodes().filter(BinaryArithmeticNode.class)) { if (!(node instanceof AddNode)) { assertTrue(node.toString(), nodeToBlock.get(node) == nodeToBlock.get(loopExit)); assertTrue( list.indexOf(node) + " < " + list.indexOf(loopExit) + ", " + node + ", " + loopExit, list.indexOf(node) < list.indexOf(loopExit)); } } }