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view graal/com.oracle.graal.phases/src/com/oracle/graal/phases/graph/PostOrderNodeIterator.java @ 7530:5e3d1a68664e
applied mx eclipseformat to all Java files
| author | Doug Simon <doug.simon@oracle.com> |
|---|---|
| date | Wed, 23 Jan 2013 16:34:57 +0100 |
| parents | d4bc143c575a |
| children | 85d4392b9e26 ff4fa8b0516e |
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/* * Copyright (c) 2011, 2011, 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 com.oracle.graal.phases.graph; import java.util.*; import com.oracle.graal.graph.*; import com.oracle.graal.nodes.*; /** * A PostOrderNodeIterator iterates the fixed nodes of the graph in post order starting from a * specified fixed node. * <p> * For this iterator the CFG is defined by the classical CFG nodes ({@link ControlSplitNode}, * {@link MergeNode}...) and the {@link FixedWithNextNode#next() next} pointers of * {@link FixedWithNextNode}. * <p> * While iterating it maintains a user-defined state by calling the methods available in * {@link MergeableState}. * * @param <T> the type of {@link MergeableState} handled by this PostOrderNodeIterator */ public abstract class PostOrderNodeIterator<T extends MergeableState<T>> { private final NodeBitMap visitedEnds; private final Deque<BeginNode> nodeQueue; private final IdentityHashMap<FixedNode, T> nodeStates; private final FixedNode start; protected T state; public PostOrderNodeIterator(FixedNode start, T initialState) { visitedEnds = start.graph().createNodeBitMap(); nodeQueue = new ArrayDeque<>(); nodeStates = new IdentityHashMap<>(); this.start = start; this.state = initialState; } public void apply() { FixedNode current = start; do { if (current instanceof InvokeWithExceptionNode) { invoke((Invoke) current); queueSuccessors(current, null); current = nextQueuedNode(); } else if (current instanceof LoopBeginNode) { state.loopBegin((LoopBeginNode) current); nodeStates.put(current, state); state = state.clone(); loopBegin((LoopBeginNode) current); current = ((LoopBeginNode) current).next(); assert current != null; } else if (current instanceof LoopEndNode) { loopEnd((LoopEndNode) current); finishLoopEnds((LoopEndNode) current); current = nextQueuedNode(); } else if (current instanceof MergeNode) { merge((MergeNode) current); current = ((MergeNode) current).next(); assert current != null; } else if (current instanceof FixedWithNextNode) { FixedNode next = ((FixedWithNextNode) current).next(); assert next != null : current; node(current); current = next; } else if (current instanceof EndNode) { end((EndNode) current); queueMerge((EndNode) current); current = nextQueuedNode(); } else if (current instanceof DeoptimizeNode) { deoptimize((DeoptimizeNode) current); current = nextQueuedNode(); } else if (current instanceof ReturnNode) { returnNode((ReturnNode) current); current = nextQueuedNode(); } else if (current instanceof UnwindNode) { unwind((UnwindNode) current); current = nextQueuedNode(); } else if (current instanceof ControlSplitNode) { Set<Node> successors = controlSplit((ControlSplitNode) current); queueSuccessors(current, successors); current = nextQueuedNode(); } else { assert false : current; } } while (current != null); } private void queueSuccessors(FixedNode x, Set<Node> successors) { nodeStates.put(x, state); if (successors != null) { for (Node node : successors) { if (node != null) { nodeStates.put((FixedNode) node.predecessor(), state); nodeQueue.addFirst((BeginNode) node); } } } else { for (Node node : x.successors()) { if (node != null) { nodeQueue.addFirst((BeginNode) node); } } } } private FixedNode nextQueuedNode() { int maxIterations = nodeQueue.size(); while (maxIterations-- > 0) { BeginNode node = nodeQueue.removeFirst(); if (node instanceof MergeNode) { MergeNode merge = (MergeNode) node; state = nodeStates.get(merge.forwardEndAt(0)).clone(); ArrayList<T> states = new ArrayList<>(merge.forwardEndCount() - 1); for (int i = 1; i < merge.forwardEndCount(); i++) { T other = nodeStates.get(merge.forwardEndAt(i)); assert other != null; states.add(other); } boolean ready = state.merge(merge, states); if (ready) { return merge; } else { nodeQueue.addLast(merge); } } else { assert node.predecessor() != null; state = nodeStates.get(node.predecessor()).clone(); state.afterSplit(node); return node; } } return null; } private void finishLoopEnds(LoopEndNode end) { assert !visitedEnds.isMarked(end); assert !nodeStates.containsKey(end); nodeStates.put(end, state); visitedEnds.mark(end); LoopBeginNode begin = end.loopBegin(); boolean endsVisited = true; for (LoopEndNode le : begin.loopEnds()) { if (!visitedEnds.isMarked(le)) { endsVisited = false; break; } } if (endsVisited) { ArrayList<T> states = new ArrayList<>(begin.loopEnds().count()); for (LoopEndNode le : begin.orderedLoopEnds()) { states.add(nodeStates.get(le)); } T loopBeginState = nodeStates.get(begin); if (loopBeginState != null) { loopBeginState.loopEnds(begin, states); } } } private void queueMerge(EndNode end) { assert !visitedEnds.isMarked(end); assert !nodeStates.containsKey(end); nodeStates.put(end, state); visitedEnds.mark(end); MergeNode merge = end.merge(); boolean endsVisited = true; for (int i = 0; i < merge.forwardEndCount(); i++) { if (!visitedEnds.isMarked(merge.forwardEndAt(i))) { endsVisited = false; break; } } if (endsVisited) { nodeQueue.add(merge); } } protected abstract void node(FixedNode node); protected void end(EndNode endNode) { node(endNode); } protected void merge(MergeNode merge) { node(merge); } protected void loopBegin(LoopBeginNode loopBegin) { node(loopBegin); } protected void loopEnd(LoopEndNode loopEnd) { node(loopEnd); } protected void deoptimize(DeoptimizeNode deoptimize) { node(deoptimize); } protected Set<Node> controlSplit(ControlSplitNode controlSplit) { node(controlSplit); return null; } protected void returnNode(ReturnNode returnNode) { node(returnNode); } protected void invoke(Invoke invoke) { node(invoke.node()); } protected void unwind(UnwindNode unwind) { node(unwind); } }