/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (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.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * */ package org.apache.bcel.util; import java.util.ArrayList; import java.util.HashMap; import java.util.Iterator; import java.util.List; import java.util.Locale; import java.util.Map; import java.util.regex.Matcher; import java.util.regex.Pattern; import org.apache.bcel.Const; import org.apache.bcel.generic.ClassGenException; import org.apache.bcel.generic.InstructionHandle; import org.apache.bcel.generic.InstructionList; /** * InstructionFinder is a tool to search for given instructions patterns, i.e., * match sequences of instructions in an instruction list via regular * expressions. This can be used, e.g., in order to implement a peep hole * optimizer that looks for code patterns and replaces them with faster * equivalents. * *

* This class internally uses the java.util.regex * package to search for regular expressions. * * A typical application would look like this: * *

 *
 *
 *   InstructionFinder f   = new InstructionFinder(il);
 *   String            pat = "IfInstruction ICONST_0 GOTO ICONST_1 NOP (IFEQ|IFNE)";
 *
 *   for (Iterator i = f.search(pat, constraint); i.hasNext(); ) {
 *   InstructionHandle[] match = (InstructionHandle[])i.next();
 *   ...
 *   il.delete(match[1], match[5]);
 *   ...
 *   }
 *
 *
 * 
* * @version $Id$ * @see org.apache.bcel.generic.Instruction * @see InstructionList */ public class InstructionFinder { private static final int OFFSET = 32767; // char + OFFSET is outside of LATIN-1 private static final int NO_OPCODES = 256; // Potential number, some are not used private static final Map map = new HashMap<>(); private final InstructionList il; private String il_string; // instruction list as string private InstructionHandle[] handles; // map instruction // list to array /** * @param il * instruction list to search for given patterns */ public InstructionFinder(final InstructionList il) { this.il = il; reread(); } /** * Reread the instruction list, e.g., after you've altered the list upon a * match. */ public final void reread() { final int size = il.getLength(); final char[] buf = new char[size]; // Create a string with length equal to il length handles = il.getInstructionHandles(); // Map opcodes to characters for (int i = 0; i < size; i++) { buf[i] = makeChar(handles[i].getInstruction().getOpcode()); } il_string = new String(buf); } /** * Map symbolic instruction names like "getfield" to a single character. * * @param pattern * instruction pattern in lower case * @return encoded string for a pattern such as "BranchInstruction". */ private static String mapName( final String pattern ) { final String result = map.get(pattern); if (result != null) { return result; } for (short i = 0; i < NO_OPCODES; i++) { if (pattern.equals(Const.getOpcodeName(i))) { return "" + makeChar(i); } } throw new RuntimeException("Instruction unknown: " + pattern); } /** * Replace symbolic names of instructions with the appropiate character and * remove all white space from string. Meta characters such as +, * are * ignored. * * @param pattern * The pattern to compile * @return translated regular expression string */ private static String compilePattern( final String pattern ) { //Bug: BCEL-77 - Instructions are assumed to be english, to avoid odd Locale issues final String lower = pattern.toLowerCase(Locale.ENGLISH); final StringBuilder buf = new StringBuilder(); final int size = pattern.length(); for (int i = 0; i < size; i++) { char ch = lower.charAt(i); if (Character.isLetterOrDigit(ch)) { final StringBuilder name = new StringBuilder(); while ((Character.isLetterOrDigit(ch) || ch == '_') && i < size) { name.append(ch); if (++i < size) { ch = lower.charAt(i); } else { break; } } i--; buf.append(mapName(name.toString())); } else if (!Character.isWhitespace(ch)) { buf.append(ch); } } return buf.toString(); } /** * @return the matched piece of code as an array of instruction (handles) */ private InstructionHandle[] getMatch( final int matched_from, final int match_length ) { final InstructionHandle[] match = new InstructionHandle[match_length]; System.arraycopy(handles, matched_from, match, 0, match_length); return match; } /** * Search for the given pattern in the instruction list. You can search for * any valid opcode via its symbolic name, e.g. "istore". You can also use a * super class or an interface name to match a whole set of instructions, e.g. * "BranchInstruction" or "LoadInstruction". "istore" is also an alias for all * "istore_x" instructions. Additional aliases are "if" for "ifxx", "if_icmp" * for "if_icmpxx", "if_acmp" for "if_acmpxx". * * Consecutive instruction names must be separated by white space which will * be removed during the compilation of the pattern. * * For the rest the usual pattern matching rules for regular expressions * apply. *

* Example pattern: * *

     * search("BranchInstruction NOP ((IfInstruction|GOTO)+ ISTORE Instruction)*");
     * 
* *

* If you alter the instruction list upon a match such that other matching * areas are affected, you should call reread() to update the finder and call * search() again, because the matches are cached. * * @param pattern * the instruction pattern to search for, where case is ignored * @param from * where to start the search in the instruction list * @param constraint * optional CodeConstraint to check the found code pattern for * user-defined constraints * @return iterator of matches where e.nextElement() returns an array of * instruction handles describing the matched area */ public final Iterator search( final String pattern, final InstructionHandle from, final CodeConstraint constraint ) { final String search = compilePattern(pattern); int start = -1; for (int i = 0; i < handles.length; i++) { if (handles[i] == from) { start = i; // Where to start search from (index) break; } } if (start == -1) { throw new ClassGenException("Instruction handle " + from + " not found in instruction list."); } final Pattern regex = Pattern.compile(search); final List matches = new ArrayList<>(); final Matcher matcher = regex.matcher(il_string); while (start < il_string.length() && matcher.find(start)) { final int startExpr = matcher.start(); final int endExpr = matcher.end(); final int lenExpr = endExpr - startExpr; final InstructionHandle[] match = getMatch(startExpr, lenExpr); if ((constraint == null) || constraint.checkCode(match)) { matches.add(match); } start = endExpr; } return matches.iterator(); } /** * Start search beginning from the start of the given instruction list. * * @param pattern * the instruction pattern to search for, where case is ignored * @return iterator of matches where e.nextElement() returns an array of * instruction handles describing the matched area */ public final Iterator search( final String pattern ) { return search(pattern, il.getStart(), null); } /** * Start search beginning from `from'. * * @param pattern * the instruction pattern to search for, where case is ignored * @param from * where to start the search in the instruction list * @return iterator of matches where e.nextElement() returns an array of * instruction handles describing the matched area */ public final Iterator search( final String pattern, final InstructionHandle from ) { return search(pattern, from, null); } /** * Start search beginning from the start of the given instruction list. Check * found matches with the constraint object. * * @param pattern * the instruction pattern to search for, case is ignored * @param constraint * constraints to be checked on matching code * @return instruction handle or `null' if the match failed */ public final Iterator search( final String pattern, final CodeConstraint constraint ) { return search(pattern, il.getStart(), constraint); } /** * Convert opcode number to char. */ private static char makeChar( final short opcode ) { return (char) (opcode + OFFSET); } /** * @return the inquired instruction list */ public final InstructionList getInstructionList() { return il; } /** * Code patterns found may be checked using an additional user-defined * constraint object whether they really match the needed criterion. I.e., * check constraints that can not expressed with regular expressions. * */ public interface CodeConstraint { /** * @param match * array of instructions matching the requested pattern * @return true if the matched area is really useful */ boolean checkCode( InstructionHandle[] match ); } // Initialize pattern map static { map.put("arithmeticinstruction","(irem|lrem|iand|ior|ineg|isub|lneg|fneg|fmul|ldiv|fadd|lxor|frem|idiv|land|ixor|ishr|fsub|lshl|fdiv|iadd|lor|dmul|lsub|ishl|imul|lmul|lushr|dneg|iushr|lshr|ddiv|drem|dadd|ladd|dsub)"); map.put("invokeinstruction", "(invokevirtual|invokeinterface|invokestatic|invokespecial|invokedynamic)"); map.put("arrayinstruction", "(baload|aastore|saload|caload|fastore|lastore|iaload|castore|iastore|aaload|bastore|sastore|faload|laload|daload|dastore)"); map.put("gotoinstruction", "(goto|goto_w)"); map.put("conversioninstruction", "(d2l|l2d|i2s|d2i|l2i|i2b|l2f|d2f|f2i|i2d|i2l|f2d|i2c|f2l|i2f)"); map.put("localvariableinstruction","(fstore|iinc|lload|dstore|dload|iload|aload|astore|istore|fload|lstore)"); map.put("loadinstruction", "(fload|dload|lload|iload|aload)"); map.put("fieldinstruction", "(getfield|putstatic|getstatic|putfield)"); map.put("cpinstruction", "(ldc2_w|invokeinterface|invokedynamic|multianewarray|putstatic|instanceof|getstatic|checkcast|getfield|invokespecial|ldc_w|invokestatic|invokevirtual|putfield|ldc|new|anewarray)"); map.put("stackinstruction", "(dup2|swap|dup2_x2|pop|pop2|dup|dup2_x1|dup_x2|dup_x1)"); map.put("branchinstruction", "(ifle|if_acmpne|if_icmpeq|if_acmpeq|ifnonnull|goto_w|iflt|ifnull|if_icmpne|tableswitch|if_icmple|ifeq|if_icmplt|jsr_w|if_icmpgt|ifgt|jsr|goto|ifne|ifge|lookupswitch|if_icmpge)"); map.put("returninstruction", "(lreturn|ireturn|freturn|dreturn|areturn|return)"); map.put("storeinstruction", "(istore|fstore|dstore|astore|lstore)"); map.put("select", "(tableswitch|lookupswitch)"); map.put("ifinstruction", "(ifeq|ifgt|if_icmpne|if_icmpeq|ifge|ifnull|ifne|if_icmple|if_icmpge|if_acmpeq|if_icmplt|if_acmpne|ifnonnull|iflt|if_icmpgt|ifle)"); map.put("jsrinstruction", "(jsr|jsr_w)"); map.put("variablelengthinstruction", "(tableswitch|jsr|goto|lookupswitch)"); map.put("unconditionalbranch", "(goto|jsr|jsr_w|athrow|goto_w)"); map.put("constantpushinstruction", "(dconst|bipush|sipush|fconst|iconst|lconst)"); map.put("typedinstruction", "(imul|lsub|aload|fload|lor|new|aaload|fcmpg|iand|iaload|lrem|idiv|d2l|isub|dcmpg|dastore|ret|f2d|f2i|drem|iinc|i2c|checkcast|frem|lreturn|astore|lushr|daload|dneg|fastore|istore|lshl|ldiv|lstore|areturn|ishr|ldc_w|invokeinterface|invokedynamic|aastore|lxor|ishl|l2d|i2f|return|faload|sipush|iushr|caload|instanceof|invokespecial|putfield|fmul|ireturn|laload|d2f|lneg|ixor|i2l|fdiv|lastore|multianewarray|i2b|getstatic|i2d|putstatic|fcmpl|saload|ladd|irem|dload|jsr_w|dconst|dcmpl|fsub|freturn|ldc|aconst_null|castore|lmul|ldc2_w|dadd|iconst|f2l|ddiv|dstore|land|jsr|anewarray|dmul|bipush|dsub|sastore|d2i|i2s|lshr|iadd|l2i|lload|bastore|fstore|fneg|iload|fadd|baload|fconst|ior|ineg|dreturn|l2f|lconst|getfield|invokevirtual|invokestatic|iastore)"); map.put("popinstruction", "(fstore|dstore|pop|pop2|astore|putstatic|istore|lstore)"); map.put("allocationinstruction", "(multianewarray|new|anewarray|newarray)"); map.put("indexedinstruction", "(lload|lstore|fload|ldc2_w|invokeinterface|invokedynamic|multianewarray|astore|dload|putstatic|instanceof|getstatic|checkcast|getfield|invokespecial|dstore|istore|iinc|ldc_w|ret|fstore|invokestatic|iload|putfield|invokevirtual|ldc|new|aload|anewarray)"); map.put("pushinstruction", "(dup|lload|dup2|bipush|fload|ldc2_w|sipush|lconst|fconst|dload|getstatic|ldc_w|aconst_null|dconst|iload|ldc|iconst|aload)"); map.put("stackproducer", "(imul|lsub|aload|fload|lor|new|aaload|fcmpg|iand|iaload|lrem|idiv|d2l|isub|dcmpg|dup|f2d|f2i|drem|i2c|checkcast|frem|lushr|daload|dneg|lshl|ldiv|ishr|ldc_w|invokeinterface|invokedynamic|lxor|ishl|l2d|i2f|faload|sipush|iushr|caload|instanceof|invokespecial|fmul|laload|d2f|lneg|ixor|i2l|fdiv|getstatic|i2b|swap|i2d|dup2|fcmpl|saload|ladd|irem|dload|jsr_w|dconst|dcmpl|fsub|ldc|arraylength|aconst_null|tableswitch|lmul|ldc2_w|iconst|dadd|f2l|ddiv|land|jsr|anewarray|dmul|bipush|dsub|d2i|newarray|i2s|lshr|iadd|lload|l2i|fneg|iload|fadd|baload|fconst|lookupswitch|ior|ineg|lconst|l2f|getfield|invokevirtual|invokestatic)"); map.put("stackconsumer", "(imul|lsub|lor|iflt|fcmpg|if_icmpgt|iand|ifeq|if_icmplt|lrem|ifnonnull|idiv|d2l|isub|dcmpg|dastore|if_icmpeq|f2d|f2i|drem|i2c|checkcast|frem|lreturn|astore|lushr|pop2|monitorexit|dneg|fastore|istore|lshl|ldiv|lstore|areturn|if_icmpge|ishr|monitorenter|invokeinterface|invokedynamic|aastore|lxor|ishl|l2d|i2f|return|iushr|instanceof|invokespecial|fmul|ireturn|d2f|lneg|ixor|pop|i2l|ifnull|fdiv|lastore|i2b|if_acmpeq|ifge|swap|i2d|putstatic|fcmpl|ladd|irem|dcmpl|fsub|freturn|ifgt|castore|lmul|dadd|f2l|ddiv|dstore|land|if_icmpne|if_acmpne|dmul|dsub|sastore|ifle|d2i|i2s|lshr|iadd|l2i|bastore|fstore|fneg|fadd|ior|ineg|ifne|dreturn|l2f|if_icmple|getfield|invokevirtual|invokestatic|iastore)"); map.put("exceptionthrower","(irem|lrem|laload|putstatic|baload|dastore|areturn|getstatic|ldiv|anewarray|iastore|castore|idiv|saload|lastore|fastore|putfield|lreturn|caload|getfield|return|aastore|freturn|newarray|instanceof|multianewarray|athrow|faload|iaload|aaload|dreturn|monitorenter|checkcast|bastore|arraylength|new|invokevirtual|sastore|ldc_w|ireturn|invokespecial|monitorexit|invokeinterface|invokedynamic|ldc|invokestatic|daload)"); map.put("loadclass", "(multianewarray|invokeinterface|invokedynamic|instanceof|invokespecial|putfield|checkcast|putstatic|invokevirtual|new|getstatic|invokestatic|getfield|anewarray)"); map.put("instructiontargeter", "(ifle|if_acmpne|if_icmpeq|if_acmpeq|ifnonnull|goto_w|iflt|ifnull|if_icmpne|tableswitch|if_icmple|ifeq|if_icmplt|jsr_w|if_icmpgt|ifgt|jsr|goto|ifne|ifge|lookupswitch|if_icmpge)"); // Some aliases map.put("if_icmp", "(if_icmpne|if_icmpeq|if_icmple|if_icmpge|if_icmplt|if_icmpgt)"); map.put("if_acmp", "(if_acmpeq|if_acmpne)"); map.put("if", "(ifeq|ifne|iflt|ifge|ifgt|ifle)"); // Precompile some aliases first map.put("iconst", precompile(Const.ICONST_0, Const.ICONST_5, Const.ICONST_M1)); map.put("lconst", new String(new char[] { '(', makeChar(Const.LCONST_0), '|', makeChar(Const.LCONST_1), ')' })); map.put("dconst", new String(new char[] { '(', makeChar(Const.DCONST_0), '|', makeChar(Const.DCONST_1), ')' })); map.put("fconst", new String(new char[] { '(', makeChar(Const.FCONST_0), '|', makeChar(Const.FCONST_1), '|', makeChar(Const.FCONST_2), ')' })); map.put("lload", precompile(Const.LLOAD_0, Const.LLOAD_3, Const.LLOAD)); map.put("iload", precompile(Const.ILOAD_0, Const.ILOAD_3, Const.ILOAD)); map.put("dload", precompile(Const.DLOAD_0, Const.DLOAD_3, Const.DLOAD)); map.put("fload", precompile(Const.FLOAD_0, Const.FLOAD_3, Const.FLOAD)); map.put("aload", precompile(Const.ALOAD_0, Const.ALOAD_3, Const.ALOAD)); map.put("lstore", precompile(Const.LSTORE_0, Const.LSTORE_3, Const.LSTORE)); map.put("istore", precompile(Const.ISTORE_0, Const.ISTORE_3, Const.ISTORE)); map.put("dstore", precompile(Const.DSTORE_0, Const.DSTORE_3, Const.DSTORE)); map.put("fstore", precompile(Const.FSTORE_0, Const.FSTORE_3, Const.FSTORE)); map.put("astore", precompile(Const.ASTORE_0, Const.ASTORE_3, Const.ASTORE)); // Compile strings for (final Map.Entry entry : map.entrySet()) { final String key = entry.getKey(); final String value = entry.getValue(); final char ch = value.charAt(1); // Omit already precompiled patterns if (ch < OFFSET) { map.put(key, compilePattern(value)); // precompile all patterns } } // Add instruction alias to match anything final StringBuilder buf = new StringBuilder("("); for (short i = 0; i < NO_OPCODES; i++) { if (Const.getNoOfOperands(i) != Const.UNDEFINED) { // Not an invalid opcode buf.append(makeChar(i)); if (i < NO_OPCODES - 1) { buf.append('|'); } } } buf.append(')'); map.put("instruction", buf.toString()); } private static String precompile( final short from, final short to, final short extra ) { final StringBuilder buf = new StringBuilder("("); for (short i = from; i <= to; i++) { buf.append(makeChar(i)); buf.append('|'); } buf.append(makeChar(extra)); buf.append(")"); return buf.toString(); } /* * Internal debugging routines. */ // private static final String pattern2string( String pattern ) { // return pattern2string(pattern, true); // } // private static final String pattern2string( String pattern, boolean make_string ) { // StringBuffer buf = new StringBuffer(); // for (int i = 0; i < pattern.length(); i++) { // char ch = pattern.charAt(i); // if (ch >= OFFSET) { // if (make_string) { // buf.append(Constants.getOpcodeName(ch - OFFSET)); // } else { // buf.append((ch - OFFSET)); // } // } else { // buf.append(ch); // } // } // return buf.toString(); // } }