/* * Copyright (c) 2011, 2016, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package org.graalvm.compiler.phases.common; import static org.graalvm.compiler.graph.Graph.NodeEvent.NODE_ADDED; import static org.graalvm.compiler.graph.Graph.NodeEvent.ZERO_USAGES; import static jdk.internal.vm.compiler.word.LocationIdentity.any; import java.util.EnumSet; import java.util.Iterator; import java.util.List; import jdk.internal.vm.compiler.collections.EconomicMap; import jdk.internal.vm.compiler.collections.EconomicSet; import jdk.internal.vm.compiler.collections.Equivalence; import jdk.internal.vm.compiler.collections.UnmodifiableMapCursor; import org.graalvm.compiler.core.common.cfg.Loop; import org.graalvm.compiler.debug.DebugCloseable; import org.graalvm.compiler.graph.Graph.NodeEventScope; import org.graalvm.compiler.graph.Node; import org.graalvm.compiler.nodes.AbstractBeginNode; import org.graalvm.compiler.nodes.AbstractMergeNode; import org.graalvm.compiler.nodes.FixedNode; import org.graalvm.compiler.nodes.InvokeWithExceptionNode; import org.graalvm.compiler.nodes.LoopBeginNode; import org.graalvm.compiler.nodes.LoopEndNode; import org.graalvm.compiler.nodes.LoopExitNode; import org.graalvm.compiler.nodes.PhiNode; import org.graalvm.compiler.nodes.ReturnNode; import org.graalvm.compiler.nodes.StartNode; import org.graalvm.compiler.nodes.StructuredGraph; import org.graalvm.compiler.nodes.ValueNodeUtil; import org.graalvm.compiler.nodes.calc.FloatingNode; import org.graalvm.compiler.nodes.cfg.Block; import org.graalvm.compiler.nodes.cfg.ControlFlowGraph; import org.graalvm.compiler.nodes.cfg.HIRLoop; import org.graalvm.compiler.nodes.memory.FloatableAccessNode; import org.graalvm.compiler.nodes.memory.FloatingAccessNode; import org.graalvm.compiler.nodes.memory.FloatingReadNode; import org.graalvm.compiler.nodes.memory.MemoryAccess; import org.graalvm.compiler.nodes.memory.MemoryAnchorNode; import org.graalvm.compiler.nodes.memory.MemoryCheckpoint; import org.graalvm.compiler.nodes.memory.MemoryMap; import org.graalvm.compiler.nodes.memory.MemoryMapNode; import org.graalvm.compiler.nodes.memory.MemoryNode; import org.graalvm.compiler.nodes.memory.MemoryPhiNode; import org.graalvm.compiler.nodes.memory.ReadNode; import org.graalvm.compiler.nodes.util.GraphUtil; import org.graalvm.compiler.phases.Phase; import org.graalvm.compiler.phases.common.util.EconomicSetNodeEventListener; import org.graalvm.compiler.phases.graph.ReentrantNodeIterator; import org.graalvm.compiler.phases.graph.ReentrantNodeIterator.LoopInfo; import org.graalvm.compiler.phases.graph.ReentrantNodeIterator.NodeIteratorClosure; import jdk.internal.vm.compiler.word.LocationIdentity; public class FloatingReadPhase extends Phase { private boolean createFloatingReads; private boolean createMemoryMapNodes; public static class MemoryMapImpl implements MemoryMap { private final EconomicMap lastMemorySnapshot; public MemoryMapImpl(MemoryMapImpl memoryMap) { lastMemorySnapshot = EconomicMap.create(Equivalence.DEFAULT, memoryMap.lastMemorySnapshot); } public MemoryMapImpl(StartNode start) { this(); lastMemorySnapshot.put(any(), start); } public MemoryMapImpl() { lastMemorySnapshot = EconomicMap.create(Equivalence.DEFAULT); } @Override public MemoryNode getLastLocationAccess(LocationIdentity locationIdentity) { MemoryNode lastLocationAccess; if (locationIdentity.isImmutable()) { return null; } else { lastLocationAccess = lastMemorySnapshot.get(locationIdentity); if (lastLocationAccess == null) { lastLocationAccess = lastMemorySnapshot.get(any()); assert lastLocationAccess != null; } return lastLocationAccess; } } @Override public Iterable getLocations() { return lastMemorySnapshot.getKeys(); } public EconomicMap getMap() { return lastMemorySnapshot; } } public FloatingReadPhase() { this(true, false); } /** * @param createFloatingReads specifies whether {@link FloatableAccessNode}s like * {@link ReadNode} should be converted into floating nodes (e.g., * {@link FloatingReadNode}s) where possible * @param createMemoryMapNodes a {@link MemoryMapNode} will be created for each return if this * is true */ public FloatingReadPhase(boolean createFloatingReads, boolean createMemoryMapNodes) { this.createFloatingReads = createFloatingReads; this.createMemoryMapNodes = createMemoryMapNodes; } @Override public float codeSizeIncrease() { return 1.25f; } /** * Removes nodes from a given set that (transitively) have a usage outside the set. */ private static EconomicSet removeExternallyUsedNodes(EconomicSet set) { boolean change; do { change = false; for (Iterator iter = set.iterator(); iter.hasNext();) { Node node = iter.next(); for (Node usage : node.usages()) { if (!set.contains(usage)) { change = true; iter.remove(); break; } } } } while (change); return set; } protected void processNode(FixedNode node, EconomicSet currentState) { if (node instanceof MemoryCheckpoint.Single) { processIdentity(currentState, ((MemoryCheckpoint.Single) node).getLocationIdentity()); } else if (node instanceof MemoryCheckpoint.Multi) { for (LocationIdentity identity : ((MemoryCheckpoint.Multi) node).getLocationIdentities()) { processIdentity(currentState, identity); } } } private static void processIdentity(EconomicSet currentState, LocationIdentity identity) { if (identity.isMutable()) { currentState.add(identity); } } protected void processBlock(Block b, EconomicSet currentState) { for (FixedNode n : b.getNodes()) { processNode(n, currentState); } } private EconomicSet processLoop(HIRLoop loop, EconomicMap> modifiedInLoops) { LoopBeginNode loopBegin = (LoopBeginNode) loop.getHeader().getBeginNode(); EconomicSet result = modifiedInLoops.get(loopBegin); if (result != null) { return result; } result = EconomicSet.create(Equivalence.DEFAULT); for (Loop inner : loop.getChildren()) { result.addAll(processLoop((HIRLoop) inner, modifiedInLoops)); } for (Block b : loop.getBlocks()) { if (b.getLoop() == loop) { processBlock(b, result); } } modifiedInLoops.put(loopBegin, result); return result; } @Override @SuppressWarnings("try") protected void run(StructuredGraph graph) { EconomicMap> modifiedInLoops = null; if (graph.hasLoops()) { modifiedInLoops = EconomicMap.create(Equivalence.IDENTITY); ControlFlowGraph cfg = ControlFlowGraph.compute(graph, true, true, false, false); for (Loop l : cfg.getLoops()) { HIRLoop loop = (HIRLoop) l; processLoop(loop, modifiedInLoops); } } EconomicSetNodeEventListener listener = new EconomicSetNodeEventListener(EnumSet.of(NODE_ADDED, ZERO_USAGES)); try (NodeEventScope nes = graph.trackNodeEvents(listener)) { ReentrantNodeIterator.apply(new FloatingReadClosure(modifiedInLoops, createFloatingReads, createMemoryMapNodes), graph.start(), new MemoryMapImpl(graph.start())); } for (Node n : removeExternallyUsedNodes(listener.getNodes())) { if (n.isAlive() && n instanceof FloatingNode) { n.replaceAtUsages(null); GraphUtil.killWithUnusedFloatingInputs(n); } } if (createFloatingReads) { assert !graph.isAfterFloatingReadPhase(); graph.setAfterFloatingReadPhase(true); } } public static MemoryMapImpl mergeMemoryMaps(AbstractMergeNode merge, List states) { MemoryMapImpl newState = new MemoryMapImpl(); EconomicSet keys = EconomicSet.create(Equivalence.DEFAULT); for (MemoryMap other : states) { keys.addAll(other.getLocations()); } assert checkNoImmutableLocations(keys); for (LocationIdentity key : keys) { int mergedStatesCount = 0; boolean isPhi = false; MemoryNode merged = null; for (MemoryMap state : states) { MemoryNode last = state.getLastLocationAccess(key); if (isPhi) { ((MemoryPhiNode) merged).addInput(ValueNodeUtil.asNode(last)); } else { if (merged == last) { // nothing to do } else if (merged == null) { merged = last; } else { MemoryPhiNode phi = merge.graph().addWithoutUnique(new MemoryPhiNode(merge, key)); for (int j = 0; j < mergedStatesCount; j++) { phi.addInput(ValueNodeUtil.asNode(merged)); } phi.addInput(ValueNodeUtil.asNode(last)); merged = phi; isPhi = true; } } mergedStatesCount++; } newState.lastMemorySnapshot.put(key, merged); } return newState; } private static boolean checkNoImmutableLocations(EconomicSet keys) { keys.forEach(t -> { assert t.isMutable(); }); return true; } public static class FloatingReadClosure extends NodeIteratorClosure { private final EconomicMap> modifiedInLoops; private boolean createFloatingReads; private boolean createMemoryMapNodes; public FloatingReadClosure(EconomicMap> modifiedInLoops, boolean createFloatingReads, boolean createMemoryMapNodes) { this.modifiedInLoops = modifiedInLoops; this.createFloatingReads = createFloatingReads; this.createMemoryMapNodes = createMemoryMapNodes; } @Override protected MemoryMapImpl processNode(FixedNode node, MemoryMapImpl state) { if (node instanceof MemoryAnchorNode) { processAnchor((MemoryAnchorNode) node, state); return state; } if (node instanceof MemoryAccess) { processAccess((MemoryAccess) node, state); } if (createFloatingReads && node instanceof FloatableAccessNode) { processFloatable((FloatableAccessNode) node, state); } else if (node instanceof MemoryCheckpoint.Single) { processCheckpoint((MemoryCheckpoint.Single) node, state); } else if (node instanceof MemoryCheckpoint.Multi) { processCheckpoint((MemoryCheckpoint.Multi) node, state); } assert MemoryCheckpoint.TypeAssertion.correctType(node) : node; if (createMemoryMapNodes && node instanceof ReturnNode) { ((ReturnNode) node).setMemoryMap(node.graph().unique(new MemoryMapNode(state.lastMemorySnapshot))); } return state; } /** * Improve the memory graph by re-wiring all usages of a {@link MemoryAnchorNode} to the * real last access location. */ private static void processAnchor(MemoryAnchorNode anchor, MemoryMapImpl state) { for (Node node : anchor.usages().snapshot()) { if (node instanceof MemoryAccess) { MemoryAccess access = (MemoryAccess) node; if (access.getLastLocationAccess() == anchor) { MemoryNode lastLocationAccess = state.getLastLocationAccess(access.getLocationIdentity()); assert lastLocationAccess != null; access.setLastLocationAccess(lastLocationAccess); } } } if (anchor.hasNoUsages()) { anchor.graph().removeFixed(anchor); } } private static void processAccess(MemoryAccess access, MemoryMapImpl state) { LocationIdentity locationIdentity = access.getLocationIdentity(); if (!locationIdentity.equals(LocationIdentity.any())) { MemoryNode lastLocationAccess = state.getLastLocationAccess(locationIdentity); access.setLastLocationAccess(lastLocationAccess); } } private static void processCheckpoint(MemoryCheckpoint.Single checkpoint, MemoryMapImpl state) { processIdentity(checkpoint.getLocationIdentity(), checkpoint, state); } private static void processCheckpoint(MemoryCheckpoint.Multi checkpoint, MemoryMapImpl state) { for (LocationIdentity identity : checkpoint.getLocationIdentities()) { processIdentity(identity, checkpoint, state); } } private static void processIdentity(LocationIdentity identity, MemoryCheckpoint checkpoint, MemoryMapImpl state) { if (identity.isAny()) { state.lastMemorySnapshot.clear(); } if (identity.isMutable()) { state.lastMemorySnapshot.put(identity, checkpoint); } } @SuppressWarnings("try") private static void processFloatable(FloatableAccessNode accessNode, MemoryMapImpl state) { StructuredGraph graph = accessNode.graph(); LocationIdentity locationIdentity = accessNode.getLocationIdentity(); if (accessNode.canFloat()) { assert accessNode.getNullCheck() == false; MemoryNode lastLocationAccess = state.getLastLocationAccess(locationIdentity); try (DebugCloseable position = accessNode.withNodeSourcePosition()) { FloatingAccessNode floatingNode = accessNode.asFloatingNode(lastLocationAccess); graph.replaceFixedWithFloating(accessNode, floatingNode); } } } @Override protected MemoryMapImpl merge(AbstractMergeNode merge, List states) { return mergeMemoryMaps(merge, states); } @Override protected MemoryMapImpl afterSplit(AbstractBeginNode node, MemoryMapImpl oldState) { MemoryMapImpl result = new MemoryMapImpl(oldState); if (node.predecessor() instanceof InvokeWithExceptionNode) { /* * InvokeWithException cannot be the lastLocationAccess for a FloatingReadNode. * Since it is both the invoke and a control flow split, the scheduler cannot * schedule anything immediately after the invoke. It can only schedule in the * normal or exceptional successor - and we have to tell the scheduler here which * side it needs to choose by putting in the location identity on both successors. */ InvokeWithExceptionNode invoke = (InvokeWithExceptionNode) node.predecessor(); result.lastMemorySnapshot.put(invoke.getLocationIdentity(), (MemoryCheckpoint) node); } return result; } @Override protected EconomicMap processLoop(LoopBeginNode loop, MemoryMapImpl initialState) { EconomicSet modifiedLocations = modifiedInLoops.get(loop); EconomicMap phis = EconomicMap.create(Equivalence.DEFAULT); if (modifiedLocations.contains(LocationIdentity.any())) { // create phis for all locations if ANY is modified in the loop modifiedLocations = EconomicSet.create(Equivalence.DEFAULT, modifiedLocations); modifiedLocations.addAll(initialState.lastMemorySnapshot.getKeys()); } for (LocationIdentity location : modifiedLocations) { createMemoryPhi(loop, initialState, phis, location); } initialState.lastMemorySnapshot.putAll(phis); LoopInfo loopInfo = ReentrantNodeIterator.processLoop(this, loop, initialState); UnmodifiableMapCursor endStateCursor = loopInfo.endStates.getEntries(); while (endStateCursor.advance()) { int endIndex = loop.phiPredecessorIndex(endStateCursor.getKey()); UnmodifiableMapCursor phiCursor = phis.getEntries(); while (phiCursor.advance()) { LocationIdentity key = phiCursor.getKey(); PhiNode phi = phiCursor.getValue(); phi.initializeValueAt(endIndex, ValueNodeUtil.asNode(endStateCursor.getValue().getLastLocationAccess(key))); } } return loopInfo.exitStates; } private static void createMemoryPhi(LoopBeginNode loop, MemoryMapImpl initialState, EconomicMap phis, LocationIdentity location) { MemoryPhiNode phi = loop.graph().addWithoutUnique(new MemoryPhiNode(loop, location)); phi.addInput(ValueNodeUtil.asNode(initialState.getLastLocationAccess(location))); phis.put(location, phi); } } }