From d7c5ad7d6263fd1baf9bfdbaa4c50b70ef2fbdb2 Mon Sep 17 00:00:00 2001 From: Alexander Sulfrian Date: Tue, 8 Jun 2010 08:22:05 +0200 Subject: reverted folder structure change for better mergeing with upstream --- .../org/mozilla/javascript/optimizer/Block.java | 615 --------------------- 1 file changed, 615 deletions(-) delete mode 100644 infrastructure/rhino1_7R1/src/org/mozilla/javascript/optimizer/Block.java (limited to 'infrastructure/rhino1_7R1/src/org/mozilla/javascript/optimizer/Block.java') diff --git a/infrastructure/rhino1_7R1/src/org/mozilla/javascript/optimizer/Block.java b/infrastructure/rhino1_7R1/src/org/mozilla/javascript/optimizer/Block.java deleted file mode 100644 index bd56714..0000000 --- a/infrastructure/rhino1_7R1/src/org/mozilla/javascript/optimizer/Block.java +++ /dev/null @@ -1,615 +0,0 @@ -/* ***** BEGIN LICENSE BLOCK ***** - * Version: MPL 1.1/GPL 2.0 - * - * The contents of this file are subject to the Mozilla Public License Version - * 1.1 (the "License"); you may not use this file except in compliance with - * the License. You may obtain a copy of the License at - * http://www.mozilla.org/MPL/ - * - * Software distributed under the License is distributed on an "AS IS" basis, - * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License - * for the specific language governing rights and limitations under the - * License. - * - * The Original Code is Rhino code, released - * May 6, 1999. - * - * The Initial Developer of the Original Code is - * Netscape Communications Corporation. - * Portions created by the Initial Developer are Copyright (C) 1997-1999 - * the Initial Developer. All Rights Reserved. - * - * Contributor(s): - * Norris Boyd - * Igor Bukanov - * Roger Lawrence - * - * Alternatively, the contents of this file may be used under the terms of - * the GNU General Public License Version 2 or later (the "GPL"), in which - * case the provisions of the GPL are applicable instead of those above. If - * you wish to allow use of your version of this file only under the terms of - * the GPL and not to allow others to use your version of this file under the - * MPL, indicate your decision by deleting the provisions above and replacing - * them with the notice and other provisions required by the GPL. If you do - * not delete the provisions above, a recipient may use your version of this - * file under either the MPL or the GPL. - * - * ***** END LICENSE BLOCK ***** */ - -package org.mozilla.javascript.optimizer; - -import org.mozilla.javascript.*; - -import java.util.Hashtable; - -import java.io.PrintWriter; -import java.io.StringWriter; - -class Block -{ - - private static class FatBlock - { - - private static Block[] reduceToArray(ObjToIntMap map) - { - Block[] result = null; - if (!map.isEmpty()) { - result = new Block[map.size()]; - int i = 0; - ObjToIntMap.Iterator iter = map.newIterator(); - for (iter.start(); !iter.done(); iter.next()) { - FatBlock fb = (FatBlock)(iter.getKey()); - result[i++] = fb.realBlock; - } - } - return result; - } - - void addSuccessor(FatBlock b) { successors.put(b, 0); } - void addPredecessor(FatBlock b) { predecessors.put(b, 0); } - - Block[] getSuccessors() { return reduceToArray(successors); } - Block[] getPredecessors() { return reduceToArray(predecessors); } - - // all the Blocks that come immediately after this - private ObjToIntMap successors = new ObjToIntMap(); - // all the Blocks that come immediately before this - private ObjToIntMap predecessors = new ObjToIntMap(); - - Block realBlock; - } - - Block(int startNodeIndex, int endNodeIndex) - { - itsStartNodeIndex = startNodeIndex; - itsEndNodeIndex = endNodeIndex; - } - - static void runFlowAnalyzes(OptFunctionNode fn, Node[] statementNodes) - { - int paramCount = fn.fnode.getParamCount(); - int varCount = fn.fnode.getParamAndVarCount(); - int[] varTypes = new int[varCount]; - // If the variable is a parameter, it could have any type. - for (int i = 0; i != paramCount; ++i) { - varTypes[i] = Optimizer.AnyType; - } - // If the variable is from a "var" statement, its typeEvent will be set - // when we see the setVar node. - for (int i = paramCount; i != varCount; ++i) { - varTypes[i] = Optimizer.NoType; - } - - Block[] theBlocks = buildBlocks(statementNodes); - - if (DEBUG) { - ++debug_blockCount; - System.out.println("-------------------"+fn.fnode.getFunctionName()+" "+debug_blockCount+"--------"); - System.out.println(toString(theBlocks, statementNodes)); - } - - reachingDefDataFlow(fn, statementNodes, theBlocks, varTypes); - typeFlow(fn, statementNodes, theBlocks, varTypes); - - if (DEBUG) { - for (int i = 0; i < theBlocks.length; i++) { - System.out.println("For block " + theBlocks[i].itsBlockID); - theBlocks[i].printLiveOnEntrySet(fn); - } - System.out.println("Variable Table, size = " + varCount); - for (int i = 0; i != varCount; i++) { - System.out.println("["+i+"] type: "+varTypes[i]); - } - } - - for (int i = paramCount; i != varCount; i++) { - if (varTypes[i] == Optimizer.NumberType) { - fn.setIsNumberVar(i); - } - } - - } - - private static Block[] buildBlocks(Node[] statementNodes) - { - // a mapping from each target node to the block it begins - Hashtable theTargetBlocks = new Hashtable(); - ObjArray theBlocks = new ObjArray(); - - // there's a block that starts at index 0 - int beginNodeIndex = 0; - - for (int i = 0; i < statementNodes.length; i++) { - switch (statementNodes[i].getType()) { - case Token.TARGET : - { - if (i != beginNodeIndex) { - FatBlock fb = newFatBlock(beginNodeIndex, i - 1); - if (statementNodes[beginNodeIndex].getType() - == Token.TARGET) - theTargetBlocks.put(statementNodes[beginNodeIndex], fb); - theBlocks.add(fb); - // start the next block at this node - beginNodeIndex = i; - } - } - break; - case Token.IFNE : - case Token.IFEQ : - case Token.GOTO : - { - FatBlock fb = newFatBlock(beginNodeIndex, i); - if (statementNodes[beginNodeIndex].getType() - == Token.TARGET) - theTargetBlocks.put(statementNodes[beginNodeIndex], fb); - theBlocks.add(fb); - // start the next block at the next node - beginNodeIndex = i + 1; - } - break; - } - } - - if (beginNodeIndex != statementNodes.length) { - FatBlock fb = newFatBlock(beginNodeIndex, statementNodes.length - 1); - if (statementNodes[beginNodeIndex].getType() == Token.TARGET) - theTargetBlocks.put(statementNodes[beginNodeIndex], fb); - theBlocks.add(fb); - } - - // build successor and predecessor links - - for (int i = 0; i < theBlocks.size(); i++) { - FatBlock fb = (FatBlock)(theBlocks.get(i)); - - Node blockEndNode = statementNodes[fb.realBlock.itsEndNodeIndex]; - int blockEndNodeType = blockEndNode.getType(); - - if ((blockEndNodeType != Token.GOTO) - && (i < (theBlocks.size() - 1))) { - FatBlock fallThruTarget = (FatBlock)(theBlocks.get(i + 1)); - fb.addSuccessor(fallThruTarget); - fallThruTarget.addPredecessor(fb); - } - - - if ( (blockEndNodeType == Token.IFNE) - || (blockEndNodeType == Token.IFEQ) - || (blockEndNodeType == Token.GOTO) ) { - Node target = ((Node.Jump)blockEndNode).target; - FatBlock branchTargetBlock - = (FatBlock)(theTargetBlocks.get(target)); - target.putProp(Node.TARGETBLOCK_PROP, - branchTargetBlock.realBlock); - fb.addSuccessor(branchTargetBlock); - branchTargetBlock.addPredecessor(fb); - } - } - - Block[] result = new Block[theBlocks.size()]; - - for (int i = 0; i < theBlocks.size(); i++) { - FatBlock fb = (FatBlock)(theBlocks.get(i)); - Block b = fb.realBlock; - b.itsSuccessors = fb.getSuccessors(); - b.itsPredecessors = fb.getPredecessors(); - b.itsBlockID = i; - result[i] = b; - } - - return result; - } - - private static FatBlock newFatBlock(int startNodeIndex, int endNodeIndex) - { - FatBlock fb = new FatBlock(); - fb.realBlock = new Block(startNodeIndex, endNodeIndex); - return fb; - } - - private static String toString(Block[] blockList, Node[] statementNodes) - { - if (!DEBUG) return null; - - StringWriter sw = new StringWriter(); - PrintWriter pw = new PrintWriter(sw); - - pw.println(blockList.length + " Blocks"); - for (int i = 0; i < blockList.length; i++) { - Block b = blockList[i]; - pw.println("#" + b.itsBlockID); - pw.println("from " + b.itsStartNodeIndex - + " " - + statementNodes[b.itsStartNodeIndex].toString()); - pw.println("thru " + b.itsEndNodeIndex - + " " - + statementNodes[b.itsEndNodeIndex].toString()); - pw.print("Predecessors "); - if (b.itsPredecessors != null) { - for (int j = 0; j < b.itsPredecessors.length; j++) - pw.print(b.itsPredecessors[j].itsBlockID + " "); - pw.println(); - } - else - pw.println("none"); - pw.print("Successors "); - if (b.itsSuccessors != null) { - for (int j = 0; j < b.itsSuccessors.length; j++) - pw.print(b.itsSuccessors[j].itsBlockID + " "); - pw.println(); - } - else - pw.println("none"); - } - return sw.toString(); - } - - private static void reachingDefDataFlow(OptFunctionNode fn, Node[] statementNodes, Block theBlocks[], int[] varTypes) - { -/* - initialize the liveOnEntry and liveOnExit sets, then discover the variables - that are def'd by each function, and those that are used before being def'd - (hence liveOnEntry) -*/ - for (int i = 0; i < theBlocks.length; i++) { - theBlocks[i].initLiveOnEntrySets(fn, statementNodes); - } -/* - this visits every block starting at the last, re-adding the predecessors of - any block whose inputs change as a result of the dataflow. - REMIND, better would be to visit in CFG postorder -*/ - boolean visit[] = new boolean[theBlocks.length]; - boolean doneOnce[] = new boolean[theBlocks.length]; - int vIndex = theBlocks.length - 1; - boolean needRescan = false; - visit[vIndex] = true; - while (true) { - if (visit[vIndex] || !doneOnce[vIndex]) { - doneOnce[vIndex] = true; - visit[vIndex] = false; - if (theBlocks[vIndex].doReachedUseDataFlow()) { - Block pred[] = theBlocks[vIndex].itsPredecessors; - if (pred != null) { - for (int i = 0; i < pred.length; i++) { - int index = pred[i].itsBlockID; - visit[index] = true; - needRescan |= (index > vIndex); - } - } - } - } - if (vIndex == 0) { - if (needRescan) { - vIndex = theBlocks.length - 1; - needRescan = false; - } - else - break; - } - else - vIndex--; - } -/* - if any variable is live on entry to block 0, we have to mark it as - not jRegable - since it means that someone is trying to access the - 'undefined'-ness of that variable. -*/ - - theBlocks[0].markAnyTypeVariables(varTypes); - } - - private static void typeFlow(OptFunctionNode fn, Node[] statementNodes, Block theBlocks[], int[] varTypes) - { - boolean visit[] = new boolean[theBlocks.length]; - boolean doneOnce[] = new boolean[theBlocks.length]; - int vIndex = 0; - boolean needRescan = false; - visit[vIndex] = true; - while (true) { - if (visit[vIndex] || !doneOnce[vIndex]) { - doneOnce[vIndex] = true; - visit[vIndex] = false; - if (theBlocks[vIndex].doTypeFlow(fn, statementNodes, varTypes)) - { - Block succ[] = theBlocks[vIndex].itsSuccessors; - if (succ != null) { - for (int i = 0; i < succ.length; i++) { - int index = succ[i].itsBlockID; - visit[index] = true; - needRescan |= (index < vIndex); - } - } - } - } - if (vIndex == (theBlocks.length - 1)) { - if (needRescan) { - vIndex = 0; - needRescan = false; - } - else - break; - } - else - vIndex++; - } - } - - private static boolean assignType(int[] varTypes, int index, int type) - { - return type != (varTypes[index] |= type); - } - - private void markAnyTypeVariables(int[] varTypes) - { - for (int i = 0; i != varTypes.length; i++) { - if (itsLiveOnEntrySet.test(i)) { - assignType(varTypes, i, Optimizer.AnyType); - } - } - - } - - /* - We're tracking uses and defs - in order to - build the def set and to identify the last use - nodes. - - The itsNotDefSet is built reversed then flipped later. - - */ - private void lookForVariableAccess(OptFunctionNode fn, Node n) - { - switch (n.getType()) { - case Token.DEC : - case Token.INC : - { - Node child = n.getFirstChild(); - if (child.getType() == Token.GETVAR) { - int varIndex = fn.getVarIndex(child); - if (!itsNotDefSet.test(varIndex)) - itsUseBeforeDefSet.set(varIndex); - itsNotDefSet.set(varIndex); - } - } - break; - case Token.SETVAR : - { - Node lhs = n.getFirstChild(); - Node rhs = lhs.getNext(); - lookForVariableAccess(fn, rhs); - itsNotDefSet.set(fn.getVarIndex(n)); - } - break; - case Token.GETVAR : - { - int varIndex = fn.getVarIndex(n); - if (!itsNotDefSet.test(varIndex)) - itsUseBeforeDefSet.set(varIndex); - } - break; - default : - Node child = n.getFirstChild(); - while (child != null) { - lookForVariableAccess(fn, child); - child = child.getNext(); - } - break; - } - } - - /* - build the live on entry/exit sets. - Then walk the trees looking for defs/uses of variables - and build the def and useBeforeDef sets. - */ - private void initLiveOnEntrySets(OptFunctionNode fn, Node[] statementNodes) - { - int listLength = fn.getVarCount(); - itsUseBeforeDefSet = new DataFlowBitSet(listLength); - itsNotDefSet = new DataFlowBitSet(listLength); - itsLiveOnEntrySet = new DataFlowBitSet(listLength); - itsLiveOnExitSet = new DataFlowBitSet(listLength); - for (int i = itsStartNodeIndex; i <= itsEndNodeIndex; i++) { - Node n = statementNodes[i]; - lookForVariableAccess(fn, n); - } - itsNotDefSet.not(); // truth in advertising - } - - /* - the liveOnEntry of each successor is the liveOnExit for this block. - The liveOnEntry for this block is - - liveOnEntry = liveOnExit - defsInThisBlock + useBeforeDefsInThisBlock - - */ - private boolean doReachedUseDataFlow() - { - itsLiveOnExitSet.clear(); - if (itsSuccessors != null) - for (int i = 0; i < itsSuccessors.length; i++) - itsLiveOnExitSet.or(itsSuccessors[i].itsLiveOnEntrySet); - return itsLiveOnEntrySet.df2(itsLiveOnExitSet, - itsUseBeforeDefSet, itsNotDefSet); - } - - /* - the type of an expression is relatively unknown. Cases we can be sure - about are - - Literals, - Arithmetic operations - always return a Number - */ - private static int findExpressionType(OptFunctionNode fn, Node n, - int[] varTypes) - { - switch (n.getType()) { - case Token.NUMBER : - return Optimizer.NumberType; - - case Token.CALL : - case Token.NEW : - case Token.REF_CALL : - return Optimizer.AnyType; - - case Token.GETELEM : - return Optimizer.AnyType; - - case Token.GETVAR : - return varTypes[fn.getVarIndex(n)]; - - case Token.INC : - case Token.DEC : - case Token.DIV: - case Token.MOD: - case Token.BITOR: - case Token.BITXOR: - case Token.BITAND: - case Token.LSH: - case Token.RSH: - case Token.URSH: - case Token.SUB : - return Optimizer.NumberType; - - case Token.ARRAYLIT: - case Token.OBJECTLIT: - return Optimizer.AnyType; // XXX: actually, we know it's not - // number, but no type yet for that - - case Token.ADD : { - // if the lhs & rhs are known to be numbers, we can be sure that's - // the result, otherwise it could be a string. - Node child = n.getFirstChild(); - int lType = findExpressionType(fn, child, varTypes); - int rType = findExpressionType(fn, child.getNext(), varTypes); - return lType | rType; // we're not distinguishing strings yet - } - } - - Node child = n.getFirstChild(); - if (child == null) { - return Optimizer.AnyType; - } else { - int result = Optimizer.NoType; - while (child != null) { - result |= findExpressionType(fn, child, varTypes); - child = child.getNext(); - } - return result; - } - } - - private static boolean findDefPoints(OptFunctionNode fn, Node n, - int[] varTypes) - { - boolean result = false; - Node child = n.getFirstChild(); - switch (n.getType()) { - default : - while (child != null) { - result |= findDefPoints(fn, child, varTypes); - child = child.getNext(); - } - break; - case Token.DEC : - case Token.INC : - if (child.getType() == Token.GETVAR) { - // theVar is a Number now - int i = fn.getVarIndex(child); - result |= assignType(varTypes, i, Optimizer.NumberType); - } - break; - case Token.SETPROP : - case Token.SETPROP_OP : - if (child.getType() == Token.GETVAR) { - int i = fn.getVarIndex(child); - assignType(varTypes, i, Optimizer.AnyType); - } - while (child != null) { - result |= findDefPoints(fn, child, varTypes); - child = child.getNext(); - } - break; - case Token.SETVAR : { - Node rValue = child.getNext(); - int theType = findExpressionType(fn, rValue, varTypes); - int i = fn.getVarIndex(n); - result |= assignType(varTypes, i, theType); - break; - } - } - return result; - } - - private boolean doTypeFlow(OptFunctionNode fn, Node[] statementNodes, - int[] varTypes) - { - boolean changed = false; - - for (int i = itsStartNodeIndex; i <= itsEndNodeIndex; i++) { - Node n = statementNodes[i]; - if (n != null) - changed |= findDefPoints(fn, n, varTypes); - } - - return changed; - } - - private void printLiveOnEntrySet(OptFunctionNode fn) - { - if (DEBUG) { - for (int i = 0; i < fn.getVarCount(); i++) { - String name = fn.fnode.getParamOrVarName(i); - if (itsUseBeforeDefSet.test(i)) - System.out.println(name + " is used before def'd"); - if (itsNotDefSet.test(i)) - System.out.println(name + " is not def'd"); - if (itsLiveOnEntrySet.test(i)) - System.out.println(name + " is live on entry"); - if (itsLiveOnExitSet.test(i)) - System.out.println(name + " is live on exit"); - } - } - } - - // all the Blocks that come immediately after this - private Block[] itsSuccessors; - // all the Blocks that come immediately before this - private Block[] itsPredecessors; - - private int itsStartNodeIndex; // the Node at the start of the block - private int itsEndNodeIndex; // the Node at the end of the block - - private int itsBlockID; // a unique index for each block - -// reaching def bit sets - - private DataFlowBitSet itsLiveOnEntrySet; - private DataFlowBitSet itsLiveOnExitSet; - private DataFlowBitSet itsUseBeforeDefSet; - private DataFlowBitSet itsNotDefSet; - - static final boolean DEBUG = false; - private static int debug_blockCount; - -} - -- cgit v1.2.3