Mercurial > hg > openjdk > jdk9 > jaxp
view src/java.xml/share/classes/com/sun/org/apache/bcel/internal/generic/Instruction.java @ 1113:2fdbfbde3bc0
8162572: Update License Header for all JAXP sources
Reviewed-by: lancea
| author | joehw |
|---|---|
| date | Mon, 17 Apr 2017 16:24:10 -0700 |
| parents | 2bfaf29cc90b |
| children |
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/* * reserved comment block * DO NOT REMOVE OR ALTER! */ /* * 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 com.sun.org.apache.bcel.internal.generic; import com.sun.org.apache.bcel.internal.Constants; import com.sun.org.apache.bcel.internal.classfile.Utility; import com.sun.org.apache.bcel.internal.classfile.ConstantPool; import java.io.*; import com.sun.org.apache.bcel.internal.util.ByteSequence; /** * Abstract super class for all Java byte codes. * * @author <A HREF="mailto:markus.dahm@berlin.de">M. Dahm</A> */ public abstract class Instruction implements Cloneable, Serializable { protected short length = 1; // Length of instruction in bytes protected short opcode = -1; // Opcode number private static InstructionComparator cmp = InstructionComparator.DEFAULT; /** * Empty constructor needed for the Class.newInstance() statement in * Instruction.readInstruction(). Not to be used otherwise. */ Instruction() {} public Instruction(short opcode, short length) { this.length = length; this.opcode = opcode; } /** * Dump instruction as byte code to stream out. * @param out Output stream */ public void dump(DataOutputStream out) throws IOException { out.writeByte(opcode); // Common for all instructions } /** @return name of instruction, i.e., opcode name */ public String getName() { return Constants.OPCODE_NAMES[opcode]; } /** * Long output format: * * <name of opcode> "["<opcode number>"]" * "("<length of instruction>")" * * @param verbose long/short format switch * @return mnemonic for instruction */ public String toString(boolean verbose) { if(verbose) return getName() + "[" + opcode + "](" + length + ")"; else return getName(); } /** * @return mnemonic for instruction in verbose format */ public String toString() { return toString(true); } /** * @return mnemonic for instruction with sumbolic references resolved */ public String toString(ConstantPool cp) { return toString(false); } /** * Use with caution, since `BranchInstruction's have a `target' reference which * is not copied correctly (only basic types are). This also applies for * `Select' instructions with their multiple branch targets. * * @see BranchInstruction * @return (shallow) copy of an instruction */ public Instruction copy() { Instruction i = null; // "Constant" instruction, no need to duplicate if(InstructionConstants.INSTRUCTIONS[this.getOpcode()] != null) i = this; else { try { i = (Instruction)clone(); } catch(CloneNotSupportedException e) { System.err.println(e); } } return i; } /** * Read needed data (e.g. index) from file. * * @param bytes byte sequence to read from * @param wide "wide" instruction flag */ protected void initFromFile(ByteSequence bytes, boolean wide) throws IOException {} /** * Read an instruction from (byte code) input stream and return the * appropiate object. * * @param file file to read from * @return instruction object being read */ public static final Instruction readInstruction(ByteSequence bytes) throws IOException { boolean wide = false; short opcode = (short)bytes.readUnsignedByte(); Instruction obj = null; if(opcode == Constants.WIDE) { // Read next opcode after wide byte wide = true; opcode = (short)bytes.readUnsignedByte(); } if(InstructionConstants.INSTRUCTIONS[opcode] != null) return InstructionConstants.INSTRUCTIONS[opcode]; // Used predefined immutable object, if available /* Find appropiate class, instantiate an (empty) instruction object * and initialize it by hand. */ Class clazz; try { clazz = Class.forName(className(opcode)); } catch (ClassNotFoundException cnfe){ // If a class by that name does not exist, the opcode is illegal. // Note that IMPDEP1, IMPDEP2, BREAKPOINT are also illegal in a sense. throw new ClassGenException("Illegal opcode detected."); } try { obj = (Instruction)clazz.newInstance(); if(wide && !((obj instanceof LocalVariableInstruction) || (obj instanceof IINC) || (obj instanceof RET))) throw new Exception("Illegal opcode after wide: " + opcode); obj.setOpcode(opcode); obj.initFromFile(bytes, wide); // Do further initializations, if any // Byte code offset set in InstructionList } catch(Exception e) { throw new ClassGenException(e.toString()); } return obj; } private static final String className(short opcode) { String name = Constants.OPCODE_NAMES[opcode].toUpperCase(); /* ICONST_0, etc. will be shortened to ICONST, etc., since ICONST_0 and the like * are not implemented (directly). */ try { int len = name.length(); char ch1 = name.charAt(len - 2), ch2 = name.charAt(len - 1); if((ch1 == '_') && (ch2 >= '0') && (ch2 <= '5')) name = name.substring(0, len - 2); if(name.equals("ICONST_M1")) // Special case name = "ICONST"; } catch(StringIndexOutOfBoundsException e) { System.err.println(e); } return "com.sun.org.apache.bcel.internal.generic." + name; } /** * This method also gives right results for instructions whose * effect on the stack depends on the constant pool entry they * reference. * @return Number of words consumed from stack by this instruction, * or Constants.UNPREDICTABLE, if this can not be computed statically */ public int consumeStack(ConstantPoolGen cpg) { return Constants.CONSUME_STACK[opcode]; } /** * This method also gives right results for instructions whose * effect on the stack depends on the constant pool entry they * reference. * @return Number of words produced onto stack by this instruction, * or Constants.UNPREDICTABLE, if this can not be computed statically */ public int produceStack(ConstantPoolGen cpg) { return Constants.PRODUCE_STACK[opcode]; } /** * @return this instructions opcode */ public short getOpcode() { return opcode; } /** * @return length (in bytes) of instruction */ public int getLength() { return length; } /** * Needed in readInstruction. */ private void setOpcode(short opcode) { this.opcode = opcode; } /** Some instructions may be reused, so don't do anything by default. */ void dispose() {} /** * Call corresponding visitor method(s). The order is: * Call visitor methods of implemented interfaces first, then * call methods according to the class hierarchy in descending order, * i.e., the most specific visitXXX() call comes last. * * @param v Visitor object */ public abstract void accept(Visitor v); /** Get Comparator object used in the equals() method to determine * equality of instructions. * * @return currently used comparator for equals() */ public static InstructionComparator getComparator() { return cmp; } /** Set comparator to be used for equals(). */ public static void setComparator(InstructionComparator c) { cmp = c; } /** Check for equality, delegated to comparator * @return true if that is an Instruction and has the same opcode */ public boolean equals(Object that) { return (that instanceof Instruction)? cmp.equals(this, (Instruction)that) : false; } }