Mercurial > hg > truffle
view graal/com.oracle.max.graal.printer/src/com/oracle/max/graal/printer/CFGPrinter.java @ 4205:2af849af1723
moved graphbuilder into the graal.java project.
author | Thomas Wuerthinger <thomas.wuerthinger@oracle.com> |
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date | Tue, 03 Jan 2012 18:22:10 +0100 |
parents | 816ac0e579fb |
children | fa53d5e4aa35 |
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/* * Copyright (c) 2009, 2012, 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.max.graal.printer; import static com.oracle.max.cri.ci.CiValueUtil.*; import java.io.*; import java.util.*; import com.oracle.max.cri.ci.*; import com.oracle.max.cri.ri.*; import com.oracle.max.criutils.*; import com.oracle.max.graal.compiler.*; import com.oracle.max.graal.compiler.alloc.*; import com.oracle.max.graal.compiler.alloc.Interval.UsePosList; import com.oracle.max.graal.compiler.lir.*; import com.oracle.max.graal.compiler.schedule.*; import com.oracle.max.graal.graph.*; import com.oracle.max.graal.graph.Node.*; import com.oracle.max.graal.graph.NodeClass.*; import com.oracle.max.graal.java.*; import com.oracle.max.graal.nodes.*; import com.oracle.max.graal.nodes.calc.*; /** * Utility for printing Graal IR at various compilation phases. */ class CFGPrinter extends CompilationPrinter { public final ByteArrayOutputStream buffer; public final GraalCompilation compilation; public final CiTarget target; public final RiRuntime runtime; /** * Creates a control flow graph printer. * * @param buffer where the output generated via this printer shown be written */ public CFGPrinter(ByteArrayOutputStream buffer, GraalCompilation compilation) { super(buffer); this.buffer = buffer; this.compilation = compilation; this.target = compilation.compiler.target; this.runtime = compilation.compiler.runtime; } public CFGPrinter(ByteArrayOutputStream buffer, GraalCompilation compilation, CiTarget target, RiRuntime runtime) { super(buffer); this.buffer = buffer; this.compilation = compilation; this.target = target; this.runtime = runtime; } /** * Prints the control flow graph denoted by a given block map. * * @param label A label describing the compilation phase that produced the control flow graph. * @param blockMap A data structure describing the blocks in a method and how they are connected. */ public void printCFG(String label, BlockMap blockMap) { begin("cfg"); out.print("name \"").print(label).println('"'); for (BlockMap.Block block : blockMap.blocks) { begin("block"); printBlock(block); end("block"); } end("cfg"); } private void printBlock(BlockMap.Block block) { out.print("name \"B").print(block.startBci).println('"'); out.print("from_bci ").println(block.startBci); out.print("to_bci ").println(block.endBci); out.println("predecessors "); out.print("successors "); for (BlockMap.Block succ : block.successors) { if (!succ.isExceptionEntry) { out.print("\"B").print(succ.startBci).print("\" "); } } out.println(); out.print("xhandlers"); for (BlockMap.Block succ : block.successors) { if (succ.isExceptionEntry) { out.print("\"B").print(succ.startBci).print("\" "); } } out.println(); out.print("flags "); if (block.isExceptionEntry) { out.print("\"ex\" "); } if (block.isLoopHeader) { out.print("\"plh\" "); } out.println(); out.print("loop_depth ").println(Long.bitCount(block.loops)); } /** * Prints the specified list of blocks. * * @param label A label describing the compilation phase that produced the control flow graph. * @param blocks The list of blocks to be printed. * @param printNodes If {@code true} the nodes in the block will be printed. */ public void printCFG(String label, List<? extends Block> blocks, boolean printNodes) { begin("cfg"); out.print("name \"").print(label).println('"'); for (Block block : blocks) { printBlock(block, printNodes); } end("cfg"); } private void printBlock(Block block, boolean printNodes) { begin("block"); out.print("name \"").print(blockToString(block)).println('"'); out.println("from_bci -1"); out.println("to_bci -1"); out.print("predecessors "); for (Block pred : block.getPredecessors()) { out.print("\"").print(blockToString(pred)).print("\" "); } out.println(); out.print("successors "); for (Block succ : block.getSuccessors()) { if (!succ.isExceptionBlock()) { out.print("\"").print(blockToString(succ)).print("\" "); } } out.println(); out.print("xhandlers"); for (Block succ : block.getSuccessors()) { if (succ.isExceptionBlock()) { out.print("\"").print(blockToString(succ)).print("\" "); } } out.println(); out.print("flags "); if (block.isLoopHeader()) { out.print("\"llh\" "); } if (block.isLoopEnd()) { out.print("\"lle\" "); } if (block.isExceptionBlock()) { out.print("\"ex\" "); } out.println(); out.print("loop_index ").println(block.loopIndex()); out.print("loop_depth ").println(block.loopDepth()); if (printNodes) { printNodes(block); } if (block instanceof LIRBlock) { printLIR((LIRBlock) block); } end("block"); } private void printNodes(Block block) { begin("IR"); out.println("HIR"); out.disableIndentation(); if (block.getPredecessors().size() == 0) { // Currently method parameters are not in the schedule, so print them separately here. for (ValueNode param : block.firstNode().graph().getNodes(LocalNode.class)) { printNode(param); } } if (block.firstNode() instanceof MergeNode) { // Currently phi functions are not in the schedule, so print them separately here. for (ValueNode phi : ((MergeNode) block.firstNode()).phis()) { printNode(phi); } } for (Node node : block.getInstructions()) { printNode(node); } out.enableIndentation(); end("IR"); } private void printNode(Node node) { if (node instanceof FixedWithNextNode) { out.print("f ").print(HOVER_START).print("#").print(HOVER_SEP).print("fixed with next").print(HOVER_END).println(COLUMN_END); } else if (node instanceof FixedNode) { out.print("f ").print(HOVER_START).print("*").print(HOVER_SEP).print("fixed").print(HOVER_END).println(COLUMN_END); } else if (node instanceof FloatingNode) { out.print("f ").print(HOVER_START).print("~").print(HOVER_SEP).print("floating").print(HOVER_END).println(COLUMN_END); } if (compilation.nodeOperands != null && node instanceof ValueNode) { CiValue operand = compilation.operand((ValueNode) node); if (operand != null) { out.print("result ").print(operand.toString()).println(COLUMN_END); } } out.print("tid ").print(nodeToString(node)).println(COLUMN_END); if (node instanceof StateSplit) { StateSplit stateSplit = (StateSplit) node; if (stateSplit.stateAfter() != null) { String state = stateToString(stateSplit.stateAfter()); out.print("st ").print(HOVER_START).print("st").print(HOVER_SEP).print(state).print(HOVER_END).println(COLUMN_END); } } Map<Object, Object> props = new TreeMap<>(node.getDebugProperties()); out.print("d ").print(HOVER_START).print("d").print(HOVER_SEP); out.println("=== Debug Properties ==="); for (Map.Entry<Object, Object> entry : props.entrySet()) { out.print(entry.getKey().toString()).print(": ").print(entry.getValue() == null ? "[null]" : entry.getValue().toString()).println(); } out.println("=== Inputs ==="); printNamedNodes(node, node.inputs().iterator(), "", "\n", null); out.println("=== Succesors ==="); printNamedNodes(node, node.successors().iterator(), "", "\n", null); out.println("=== Usages ==="); if (!node.usages().isEmpty()) { for (Node usage : node.usages()) { out.print(nodeToString(usage)).print(" "); } out.println(); } out.println("=== Predecessor ==="); out.print(nodeToString(node.predecessor())).print(" "); out.print(HOVER_END).println(COLUMN_END); out.print("instruction "); out.print(HOVER_START).print(node.getNodeClass().shortName()).print(HOVER_SEP).print(node.getClass().getName()).print(HOVER_END).print(" "); printNamedNodes(node, node.inputs().iterator(), "", "", "#NDF"); printNamedNodes(node, node.successors().iterator(), "#", "", "#NDF"); for (Map.Entry<Object, Object> entry : props.entrySet()) { String key = entry.getKey().toString(); if (key.startsWith("data.") && !key.equals("data.stamp")) { out.print(key.substring("data.".length())).print(": ").print(entry.getValue() == null ? "[null]" : entry.getValue().toString()).print(" "); } } out.print(COLUMN_END).print(' ').println(COLUMN_END); } private void printNamedNodes(Node node, NodeClassIterator iter, String prefix, String suffix, String hideSuffix) { int lastIndex = -1; while (iter.hasNext()) { Position pos = iter.nextPosition(); if (hideSuffix != null && node.getNodeClass().getName(pos).endsWith(hideSuffix)) { continue; } if (pos.index != lastIndex) { if (lastIndex != -1) { out.print(suffix); } out.print(prefix).print(node.getNodeClass().getName(pos)).print(": "); lastIndex = pos.index; } out.print(nodeToString(node.getNodeClass().get(node, pos))).print(" "); } if (lastIndex != -1) { out.print(suffix); } } private String stateToString(FrameState state) { StringBuilder buf = new StringBuilder(); FrameState curState = state; do { buf.append(CiUtil.toLocation(curState.method(), curState.bci)).append('\n'); if (curState.stackSize() > 0) { buf.append("stack: "); for (int i = 0; i < curState.stackSize(); i++) { buf.append(stateValueToString(curState.stackAt(i))).append(' '); } buf.append("\n"); } if (curState.locksSize() > 0) { buf.append("locks: "); for (int i = 0; i < curState.locksSize(); ++i) { buf.append(stateValueToString(curState.lockAt(i))).append(' '); } buf.append("\n"); } buf.append("locals: "); for (int i = 0; i < curState.localsSize(); i++) { buf.append(stateValueToString(curState.localAt(i))).append(' '); } buf.append("\n"); curState = curState.outerFrameState(); } while (curState != null); return buf.toString(); } private String stateValueToString(ValueNode value) { String result = nodeToString(value); if (value != null) { CiValue operand = compilation.operand(value); if (operand != null) { result += ": " + operand; } } return result; } /** * Prints the LIR for each instruction in a given block. * * @param block the block to print */ private void printLIR(LIRBlock block) { List<LIRInstruction> lir = block.lir(); if (lir == null) { return; } begin("IR"); out.println("LIR"); if (block.phis != null) { CiValue[] results = block.phis.results(); for (int i = 0; i < results.length; i++) { out.print("instruction PHI ").print(results[i].toString()).print(" = ("); String sep = ""; for (LIRBlock pred : block.getLIRPredecessors()) { out.print(sep).print(block.phis.inputs(pred)[i].toString()); sep = ", "; } out.print(")").print(COLUMN_END).println(COLUMN_END); } } for (int i = 0; i < lir.size(); i++) { LIRInstruction inst = lir.get(i); out.printf("nr %4d ", inst.id()).print(COLUMN_END); if (inst.info != null) { int level = out.indentationLevel(); out.adjustIndentation(-level); String state; if (inst.info.hasDebugInfo()) { state = debugInfoToString(inst.info.debugInfo().codePos, inst.info.debugInfo().registerRefMap, inst.info.debugInfo().frameRefMap, target.arch); } else { state = debugInfoToString(inst.info.topFrame, null, null, target.arch); } if (state != null) { out.print(" st ").print(HOVER_START).print("st").print(HOVER_SEP).print(state).print(HOVER_END).print(COLUMN_END); } out.adjustIndentation(level); } out.print(" instruction ").print(inst.toString()).print(COLUMN_END); out.println(COLUMN_END); } end("IR"); } private String nodeToString(Node node) { if (node == null) { return "-"; } String prefix; if (node instanceof BeginNode && compilation != null && compilation.lir() == null) { prefix = "B"; } else if (node instanceof ValueNode) { ValueNode value = (ValueNode) node; if (value.kind() == CiKind.Illegal) { prefix = "v"; } else { prefix = String.valueOf(value.kind().typeChar); } } else { prefix = "?"; } return prefix + node.toString(Verbosity.Id); } private String blockToString(Block block) { if (compilation != null && compilation.lir() == null) { // During all the front-end phases, the block schedule is built only for the debug output. // Therefore, the block numbers would be different for every CFG printed -> use the id of the first instruction. return "B" + block.firstNode().toString(Verbosity.Id); } else { // LIR instructions contain references to blocks and these blocks are printed as the blockID -> use the blockID. return "B" + block.blockID(); } } public void printIntervals(String label, Interval[] intervals) { begin("intervals"); out.println(String.format("name \"%s\"", label)); for (Interval interval : intervals) { if (interval != null) { printInterval(interval); } } end("intervals"); } private void printInterval(Interval interval) { out.printf("%s %s ", interval.operand, (isRegister(interval.operand) ? "fixed" : interval.kind().name())); if (isRegister(interval.operand)) { out.printf("\"[%s|%c]\"", interval.operand, interval.operand.kind.typeChar); } else { if (interval.location() != null) { out.printf("\"[%s|%c]\"", interval.location(), interval.location().kind.typeChar); } } Interval hint = interval.locationHint(false); out.printf("%s %s ", interval.splitParent().operand, hint != null ? hint.operand : -1); // print ranges Range cur = interval.first(); while (cur != Range.EndMarker) { out.printf("[%d, %d[", cur.from, cur.to); cur = cur.next; assert cur != null : "range list not closed with range sentinel"; } // print use positions int prev = 0; UsePosList usePosList = interval.usePosList(); for (int i = usePosList.size() - 1; i >= 0; --i) { assert prev < usePosList.usePos(i) : "use positions not sorted"; out.printf("%d %s ", usePosList.usePos(i), usePosList.registerPriority(i)); prev = usePosList.usePos(i); } out.printf(" \"%s\"", interval.spillState()); out.println(); } }