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Rhino is an open-source implementation of JavaScript written entirely in Java. It is typically embedded into Java applications to provide scripting to end users.
/* -*- Mode: java; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
*
* ***** 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):
* 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.classfile;
import org.mozilla.javascript.ObjToIntMap;
import org.mozilla.javascript.ObjArray;
import org.mozilla.javascript.UintMap;
import java.io.*;
/**
* ClassFileWriter
*
* A ClassFileWriter is used to write a Java class file. Methods are
* provided to create fields and methods, and within methods to write
* Java bytecodes.
*
* @author Roger Lawrence
*/
public class ClassFileWriter {
/**
* Thrown for cases where the error in generating the class file is
* due to a program size constraints rather than a likely bug in the
* compiler.
*/
public static class ClassFileFormatException extends RuntimeException {
ClassFileFormatException(String message) {
super(message);
}
}
/**
* Construct a ClassFileWriter for a class.
*
* @param className the name of the class to write, including
* full package qualification.
* @param superClassName the name of the superclass of the class
* to write, including full package qualification.
* @param sourceFileName the name of the source file to use for
* producing debug information, or null if debug information
* is not desired
*/
public ClassFileWriter(String className, String superClassName,
String sourceFileName)
{
generatedClassName = className;
itsConstantPool = new ConstantPool(this);
itsThisClassIndex = itsConstantPool.addClass(className);
itsSuperClassIndex = itsConstantPool.addClass(superClassName);
if (sourceFileName != null)
itsSourceFileNameIndex = itsConstantPool.addUtf8(sourceFileName);
itsFlags = ACC_PUBLIC;
}
public final String getClassName()
{
return generatedClassName;
}
/**
* Add an interface implemented by this class.
*
* This method may be called multiple times for classes that
* implement multiple interfaces.
*
* @param interfaceName a name of an interface implemented
* by the class being written, including full package
* qualification.
*/
public void addInterface(String interfaceName) {
short interfaceIndex = itsConstantPool.addClass(interfaceName);
itsInterfaces.add(new Short(interfaceIndex));
}
public static final short
ACC_PUBLIC = 0x0001,
ACC_PRIVATE = 0x0002,
ACC_PROTECTED = 0x0004,
ACC_STATIC = 0x0008,
ACC_FINAL = 0x0010,
ACC_SYNCHRONIZED = 0x0020,
ACC_VOLATILE = 0x0040,
ACC_TRANSIENT = 0x0080,
ACC_NATIVE = 0x0100,
ACC_ABSTRACT = 0x0400;
/**
* Set the class's flags.
*
* Flags must be a set of the following flags, bitwise or'd
* together:
* ACC_PUBLIC
* ACC_PRIVATE
* ACC_PROTECTED
* ACC_FINAL
* ACC_ABSTRACT
* TODO: check that this is the appropriate set
* @param flags the set of class flags to set
*/
public void setFlags(short flags) {
itsFlags = flags;
}
static String getSlashedForm(String name)
{
return name.replace('.', '/');
}
/**
* Convert Java class name in dot notation into
* "Lname-with-dots-replaced-by-slashes;" form suitable for use as
* JVM type signatures.
*/
public static String classNameToSignature(String name)
{
int nameLength = name.length();
int colonPos = 1 + nameLength;
char[] buf = new char[colonPos + 1];
buf[0] = 'L';
buf[colonPos] = ';';
name.getChars(0, nameLength, buf, 1);
for (int i = 1; i != colonPos; ++i) {
if (buf[i] == '.') {
buf[i] = '/';
}
}
return new String(buf, 0, colonPos + 1);
}
/**
* Add a field to the class.
*
* @param fieldName the name of the field
* @param type the type of the field using ...
* @param flags the attributes of the field, such as ACC_PUBLIC, etc.
* bitwise or'd together
*/
public void addField(String fieldName, String type, short flags) {
short fieldNameIndex = itsConstantPool.addUtf8(fieldName);
short typeIndex = itsConstantPool.addUtf8(type);
itsFields.add(new ClassFileField(fieldNameIndex, typeIndex, flags));
}
/**
* Add a field to the class.
*
* @param fieldName the name of the field
* @param type the type of the field using ...
* @param flags the attributes of the field, such as ACC_PUBLIC, etc.
* bitwise or'd together
* @param value an initial integral value
*/
public void addField(String fieldName, String type, short flags,
int value)
{
short fieldNameIndex = itsConstantPool.addUtf8(fieldName);
short typeIndex = itsConstantPool.addUtf8(type);
ClassFileField field = new ClassFileField(fieldNameIndex, typeIndex,
flags);
field.setAttributes(itsConstantPool.addUtf8("ConstantValue"),
(short)0,
(short)0,
itsConstantPool.addConstant(value));
itsFields.add(field);
}
/**
* Add a field to the class.
*
* @param fieldName the name of the field
* @param type the type of the field using ...
* @param flags the attributes of the field, such as ACC_PUBLIC, etc.
* bitwise or'd together
* @param value an initial long value
*/
public void addField(String fieldName, String type, short flags,
long value)
{
short fieldNameIndex = itsConstantPool.addUtf8(fieldName);
short typeIndex = itsConstantPool.addUtf8(type);
ClassFileField field = new ClassFileField(fieldNameIndex, typeIndex,
flags);
field.setAttributes(itsConstantPool.addUtf8("ConstantValue"),
(short)0,
(short)2,
itsConstantPool.addConstant(value));
itsFields.add(field);
}
/**
* Add a field to the class.
*
* @param fieldName the name of the field
* @param type the type of the field using ...
* @param flags the attributes of the field, such as ACC_PUBLIC, etc.
* bitwise or'd together
* @param value an initial double value
*/
public void addField(String fieldName, String type, short flags,
double value)
{
short fieldNameIndex = itsConstantPool.addUtf8(fieldName);
short typeIndex = itsConstantPool.addUtf8(type);
ClassFileField field = new ClassFileField(fieldNameIndex, typeIndex,
flags);
field.setAttributes(itsConstantPool.addUtf8("ConstantValue"),
(short)0,
(short)2,
itsConstantPool.addConstant(value));
itsFields.add(field);
}
/**
* Add Information about java variable to use when generating the local
* variable table.
*
* @param name variable name.
* @param type variable type as bytecode descriptor string.
* @param startPC the starting bytecode PC where this variable is live,
* or -1 if it does not have a Java register.
* @param register the Java register number of variable
* or -1 if it does not have a Java register.
*/
public void addVariableDescriptor(String name, String type, int startPC, int register)
{
int nameIndex = itsConstantPool.addUtf8(name);
int descriptorIndex = itsConstantPool.addUtf8(type);
int [] chunk = { nameIndex, descriptorIndex, startPC, register };
if (itsVarDescriptors == null) {
itsVarDescriptors = new ObjArray();
}
itsVarDescriptors.add(chunk);
}
/**
* Add a method and begin adding code.
*
* This method must be called before other methods for adding code,
* exception tables, etc. can be invoked.
*
* @param methodName the name of the method
* @param type a string representing the type
* @param flags the attributes of the field, such as ACC_PUBLIC, etc.
* bitwise or'd together
*/
public void startMethod(String methodName, String type, short flags) {
short methodNameIndex = itsConstantPool.addUtf8(methodName);
short typeIndex = itsConstantPool.addUtf8(type);
itsCurrentMethod = new ClassFileMethod(methodNameIndex, typeIndex,
flags);
itsMethods.add(itsCurrentMethod);
}
/**
* Complete generation of the method.
*
* After this method is called, no more code can be added to the
* method begun with startMethod
.
*
* @param maxLocals the maximum number of local variable slots
* (a.k.a. Java registers) used by the method
*/
public void stopMethod(short maxLocals) {
if (itsCurrentMethod == null)
throw new IllegalStateException("No method to stop");
fixLabelGotos();
itsMaxLocals = maxLocals;
int lineNumberTableLength = 0;
if (itsLineNumberTable != null) {
// 6 bytes for the attribute header
// 2 bytes for the line number count
// 4 bytes for each entry
lineNumberTableLength = 6 + 2 + (itsLineNumberTableTop * 4);
}
int variableTableLength = 0;
if (itsVarDescriptors != null) {
// 6 bytes for the attribute header
// 2 bytes for the variable count
// 10 bytes for each entry
variableTableLength = 6 + 2 + (itsVarDescriptors.size() * 10);
}
int attrLength = 2 + // attribute_name_index
4 + // attribute_length
2 + // max_stack
2 + // max_locals
4 + // code_length
itsCodeBufferTop +
2 + // exception_table_length
(itsExceptionTableTop * 8) +
2 + // attributes_count
lineNumberTableLength +
variableTableLength;
if (attrLength > 65536) {
// See http://java.sun.com/docs/books/jvms/second_edition/html/ClassFile.doc.html,
// section 4.10, "The amount of code per non-native, non-abstract
// method is limited to 65536 bytes...
throw new ClassFileFormatException(
"generated bytecode for method exceeds 64K limit.");
}
byte[] codeAttribute = new byte[attrLength];
int index = 0;
int codeAttrIndex = itsConstantPool.addUtf8("Code");
index = putInt16(codeAttrIndex, codeAttribute, index);
attrLength -= 6; // discount the attribute header
index = putInt32(attrLength, codeAttribute, index);
index = putInt16(itsMaxStack, codeAttribute, index);
index = putInt16(itsMaxLocals, codeAttribute, index);
index = putInt32(itsCodeBufferTop, codeAttribute, index);
System.arraycopy(itsCodeBuffer, 0, codeAttribute, index,
itsCodeBufferTop);
index += itsCodeBufferTop;
if (itsExceptionTableTop > 0) {
index = putInt16(itsExceptionTableTop, codeAttribute, index);
for (int i = 0; i < itsExceptionTableTop; i++) {
ExceptionTableEntry ete = itsExceptionTable[i];
short startPC = (short)getLabelPC(ete.itsStartLabel);
short endPC = (short)getLabelPC(ete.itsEndLabel);
short handlerPC = (short)getLabelPC(ete.itsHandlerLabel);
short catchType = ete.itsCatchType;
if (startPC == -1)
throw new IllegalStateException("start label not defined");
if (endPC == -1)
throw new IllegalStateException("end label not defined");
if (handlerPC == -1)
throw new IllegalStateException(
"handler label not defined");
index = putInt16(startPC, codeAttribute, index);
index = putInt16(endPC, codeAttribute, index);
index = putInt16(handlerPC, codeAttribute, index);
index = putInt16(catchType, codeAttribute, index);
}
}
else {
// write 0 as exception table length
index = putInt16(0, codeAttribute, index);
}
int attributeCount = 0;
if (itsLineNumberTable != null)
attributeCount++;
if (itsVarDescriptors != null)
attributeCount++;
index = putInt16(attributeCount, codeAttribute, index);
if (itsLineNumberTable != null) {
int lineNumberTableAttrIndex
= itsConstantPool.addUtf8("LineNumberTable");
index = putInt16(lineNumberTableAttrIndex, codeAttribute, index);
int tableAttrLength = 2 + (itsLineNumberTableTop * 4);
index = putInt32(tableAttrLength, codeAttribute, index);
index = putInt16(itsLineNumberTableTop, codeAttribute, index);
for (int i = 0; i < itsLineNumberTableTop; i++) {
index = putInt32(itsLineNumberTable[i], codeAttribute, index);
}
}
if (itsVarDescriptors != null) {
int variableTableAttrIndex
= itsConstantPool.addUtf8("LocalVariableTable");
index = putInt16(variableTableAttrIndex, codeAttribute, index);
int varCount = itsVarDescriptors.size();
int tableAttrLength = 2 + (varCount * 10);
index = putInt32(tableAttrLength, codeAttribute, index);
index = putInt16(varCount, codeAttribute, index);
for (int i = 0; i < varCount; i++) {
int[] chunk = (int[])itsVarDescriptors.get(i);
int nameIndex = chunk[0];
int descriptorIndex = chunk[1];
int startPC = chunk[2];
int register = chunk[3];
int length = itsCodeBufferTop - startPC;
index = putInt16(startPC, codeAttribute, index);
index = putInt16(length, codeAttribute, index);
index = putInt16(nameIndex, codeAttribute, index);
index = putInt16(descriptorIndex, codeAttribute, index);
index = putInt16(register, codeAttribute, index);
}
}
itsCurrentMethod.setCodeAttribute(codeAttribute);
itsExceptionTable = null;
itsExceptionTableTop = 0;
itsLineNumberTableTop = 0;
itsCodeBufferTop = 0;
itsCurrentMethod = null;
itsMaxStack = 0;
itsStackTop = 0;
itsLabelTableTop = 0;
itsFixupTableTop = 0;
itsVarDescriptors = null;
}
/**
* Add the single-byte opcode to the current method.
*
* @param theOpCode the opcode of the bytecode
*/
public void add(int theOpCode) {
if (opcodeCount(theOpCode) != 0)
throw new IllegalArgumentException("Unexpected operands");
int newStack = itsStackTop + stackChange(theOpCode);
if (newStack < 0 || Short.MAX_VALUE < newStack) badStack(newStack);
if (DEBUGCODE)
System.out.println("Add " + bytecodeStr(theOpCode));
addToCodeBuffer(theOpCode);
itsStackTop = (short)newStack;
if (newStack > itsMaxStack) itsMaxStack = (short)newStack;
if (DEBUGSTACK) {
System.out.println("After "+bytecodeStr(theOpCode)
+" stack = "+itsStackTop);
}
}
/**
* Add a single-operand opcode to the current method.
*
* @param theOpCode the opcode of the bytecode
* @param theOperand the operand of the bytecode
*/
public void add(int theOpCode, int theOperand) {
if (DEBUGCODE) {
System.out.println("Add "+bytecodeStr(theOpCode)
+", "+Integer.toHexString(theOperand));
}
int newStack = itsStackTop + stackChange(theOpCode);
if (newStack < 0 || Short.MAX_VALUE < newStack) badStack(newStack);
switch (theOpCode) {
case ByteCode.GOTO :
// fallthru...
case ByteCode.IFEQ :
case ByteCode.IFNE :
case ByteCode.IFLT :
case ByteCode.IFGE :
case ByteCode.IFGT :
case ByteCode.IFLE :
case ByteCode.IF_ICMPEQ :
case ByteCode.IF_ICMPNE :
case ByteCode.IF_ICMPLT :
case ByteCode.IF_ICMPGE :
case ByteCode.IF_ICMPGT :
case ByteCode.IF_ICMPLE :
case ByteCode.IF_ACMPEQ :
case ByteCode.IF_ACMPNE :
case ByteCode.JSR :
case ByteCode.IFNULL :
case ByteCode.IFNONNULL : {
if ((theOperand & 0x80000000) != 0x80000000) {
if ((theOperand < 0) || (theOperand > 65535))
throw new IllegalArgumentException(
"Bad label for branch");
}
int branchPC = itsCodeBufferTop;
addToCodeBuffer(theOpCode);
if ((theOperand & 0x80000000) != 0x80000000) {
// hard displacement
addToCodeInt16(theOperand);
}
else { // a label
int targetPC = getLabelPC(theOperand);
if (DEBUGLABELS) {
int theLabel = theOperand & 0x7FFFFFFF;
System.out.println("Fixing branch to " +
theLabel + " at " + targetPC +
" from " + branchPC);
}
if (targetPC != -1) {
int offset = targetPC - branchPC;
addToCodeInt16(offset);
}
else {
addLabelFixup(theOperand, branchPC + 1);
addToCodeInt16(0);
}
}
}
break;
case ByteCode.BIPUSH :
if ((byte)theOperand != theOperand)
throw new IllegalArgumentException("out of range byte");
addToCodeBuffer(theOpCode);
addToCodeBuffer((byte)theOperand);
break;
case ByteCode.SIPUSH :
if ((short)theOperand != theOperand)
throw new IllegalArgumentException("out of range short");
addToCodeBuffer(theOpCode);
addToCodeInt16(theOperand);
break;
case ByteCode.NEWARRAY :
if (!(0 <= theOperand && theOperand < 256))
throw new IllegalArgumentException("out of range index");
addToCodeBuffer(theOpCode);
addToCodeBuffer(theOperand);
break;
case ByteCode.GETFIELD :
case ByteCode.PUTFIELD :
if (!(0 <= theOperand && theOperand < 65536))
throw new IllegalArgumentException("out of range field");
addToCodeBuffer(theOpCode);
addToCodeInt16(theOperand);
break;
case ByteCode.LDC :
case ByteCode.LDC_W :
case ByteCode.LDC2_W :
if (!(0 <= theOperand && theOperand < 65536))
throw new IllegalArgumentException("out of range index");
if (theOperand >= 256
|| theOpCode == ByteCode.LDC_W
|| theOpCode == ByteCode.LDC2_W)
{
if (theOpCode == ByteCode.LDC) {
addToCodeBuffer(ByteCode.LDC_W);
} else {
addToCodeBuffer(theOpCode);
}
addToCodeInt16(theOperand);
} else {
addToCodeBuffer(theOpCode);
addToCodeBuffer(theOperand);
}
break;
case ByteCode.RET :
case ByteCode.ILOAD :
case ByteCode.LLOAD :
case ByteCode.FLOAD :
case ByteCode.DLOAD :
case ByteCode.ALOAD :
case ByteCode.ISTORE :
case ByteCode.LSTORE :
case ByteCode.FSTORE :
case ByteCode.DSTORE :
case ByteCode.ASTORE :
if (!(0 <= theOperand && theOperand < 65536))
throw new ClassFileFormatException("out of range variable");
if (theOperand >= 256) {
addToCodeBuffer(ByteCode.WIDE);
addToCodeBuffer(theOpCode);
addToCodeInt16(theOperand);
}
else {
addToCodeBuffer(theOpCode);
addToCodeBuffer(theOperand);
}
break;
default :
throw new IllegalArgumentException(
"Unexpected opcode for 1 operand");
}
itsStackTop = (short)newStack;
if (newStack > itsMaxStack) itsMaxStack = (short)newStack;
if (DEBUGSTACK) {
System.out.println("After "+bytecodeStr(theOpCode)
+" stack = "+itsStackTop);
}
}
/**
* Generate the load constant bytecode for the given integer.
*
* @param k the constant
*/
public void addLoadConstant(int k) {
switch (k) {
case 0: add(ByteCode.ICONST_0); break;
case 1: add(ByteCode.ICONST_1); break;
case 2: add(ByteCode.ICONST_2); break;
case 3: add(ByteCode.ICONST_3); break;
case 4: add(ByteCode.ICONST_4); break;
case 5: add(ByteCode.ICONST_5); break;
default:
add(ByteCode.LDC, itsConstantPool.addConstant(k));
break;
}
}
/**
* Generate the load constant bytecode for the given long.
*
* @param k the constant
*/
public void addLoadConstant(long k) {
add(ByteCode.LDC2_W, itsConstantPool.addConstant(k));
}
/**
* Generate the load constant bytecode for the given float.
*
* @param k the constant
*/
public void addLoadConstant(float k) {
add(ByteCode.LDC, itsConstantPool.addConstant(k));
}
/**
* Generate the load constant bytecode for the given double.
*
* @param k the constant
*/
public void addLoadConstant(double k) {
add(ByteCode.LDC2_W, itsConstantPool.addConstant(k));
}
/**
* Generate the load constant bytecode for the given string.
*
* @param k the constant
*/
public void addLoadConstant(String k) {
add(ByteCode.LDC, itsConstantPool.addConstant(k));
}
/**
* Add the given two-operand bytecode to the current method.
*
* @param theOpCode the opcode of the bytecode
* @param theOperand1 the first operand of the bytecode
* @param theOperand2 the second operand of the bytecode
*/
public void add(int theOpCode, int theOperand1, int theOperand2) {
if (DEBUGCODE) {
System.out.println("Add "+bytecodeStr(theOpCode)
+", "+Integer.toHexString(theOperand1)
+", "+Integer.toHexString(theOperand2));
}
int newStack = itsStackTop + stackChange(theOpCode);
if (newStack < 0 || Short.MAX_VALUE < newStack) badStack(newStack);
if (theOpCode == ByteCode.IINC) {
if (!(0 <= theOperand1 && theOperand1 < 65536))
throw new ClassFileFormatException("out of range variable");
if (!(0 <= theOperand2 && theOperand2 < 65536))
throw new ClassFileFormatException("out of range increment");
if (theOperand1 > 255 || theOperand2 < -128 || theOperand2 > 127) {
addToCodeBuffer(ByteCode.WIDE);
addToCodeBuffer(ByteCode.IINC);
addToCodeInt16(theOperand1);
addToCodeInt16(theOperand2);
}
else {
addToCodeBuffer(ByteCode.WIDE);
addToCodeBuffer(ByteCode.IINC);
addToCodeBuffer(theOperand1);
addToCodeBuffer(theOperand2);
}
}
else if (theOpCode == ByteCode.MULTIANEWARRAY) {
if (!(0 <= theOperand1 && theOperand1 < 65536))
throw new IllegalArgumentException("out of range index");
if (!(0 <= theOperand2 && theOperand2 < 256))
throw new IllegalArgumentException("out of range dimensions");
addToCodeBuffer(ByteCode.MULTIANEWARRAY);
addToCodeInt16(theOperand1);
addToCodeBuffer(theOperand2);
}
else {
throw new IllegalArgumentException(
"Unexpected opcode for 2 operands");
}
itsStackTop = (short)newStack;
if (newStack > itsMaxStack) itsMaxStack = (short)newStack;
if (DEBUGSTACK) {
System.out.println("After "+bytecodeStr(theOpCode)
+" stack = "+itsStackTop);
}
}
public void add(int theOpCode, String className) {
if (DEBUGCODE) {
System.out.println("Add "+bytecodeStr(theOpCode)
+", "+className);
}
int newStack = itsStackTop + stackChange(theOpCode);
if (newStack < 0 || Short.MAX_VALUE < newStack) badStack(newStack);
switch (theOpCode) {
case ByteCode.NEW :
case ByteCode.ANEWARRAY :
case ByteCode.CHECKCAST :
case ByteCode.INSTANCEOF : {
short classIndex = itsConstantPool.addClass(className);
addToCodeBuffer(theOpCode);
addToCodeInt16(classIndex);
}
break;
default :
throw new IllegalArgumentException(
"bad opcode for class reference");
}
itsStackTop = (short)newStack;
if (newStack > itsMaxStack) itsMaxStack = (short)newStack;
if (DEBUGSTACK) {
System.out.println("After "+bytecodeStr(theOpCode)
+" stack = "+itsStackTop);
}
}
public void add(int theOpCode, String className, String fieldName,
String fieldType)
{
if (DEBUGCODE) {
System.out.println("Add "+bytecodeStr(theOpCode)
+", "+className+", "+fieldName+", "+fieldType);
}
int newStack = itsStackTop + stackChange(theOpCode);
char fieldTypeChar = fieldType.charAt(0);
int fieldSize = (fieldTypeChar == 'J' || fieldTypeChar == 'D')
? 2 : 1;
switch (theOpCode) {
case ByteCode.GETFIELD :
case ByteCode.GETSTATIC :
newStack += fieldSize;
break;
case ByteCode.PUTSTATIC :
case ByteCode.PUTFIELD :
newStack -= fieldSize;
break;
default :
throw new IllegalArgumentException(
"bad opcode for field reference");
}
if (newStack < 0 || Short.MAX_VALUE < newStack) badStack(newStack);
short fieldRefIndex = itsConstantPool.addFieldRef(className,
fieldName, fieldType);
addToCodeBuffer(theOpCode);
addToCodeInt16(fieldRefIndex);
itsStackTop = (short)newStack;
if (newStack > itsMaxStack) itsMaxStack = (short)newStack;
if (DEBUGSTACK) {
System.out.println("After "+bytecodeStr(theOpCode)
+" stack = "+itsStackTop);
}
}
public void addInvoke(int theOpCode, String className, String methodName,
String methodType)
{
if (DEBUGCODE) {
System.out.println("Add "+bytecodeStr(theOpCode)
+", "+className+", "+methodName+", "
+methodType);
}
int parameterInfo = sizeOfParameters(methodType);
int parameterCount = parameterInfo >>> 16;
int stackDiff = (short)parameterInfo;
int newStack = itsStackTop + stackDiff;
newStack += stackChange(theOpCode); // adjusts for 'this'
if (newStack < 0 || Short.MAX_VALUE < newStack) badStack(newStack);
switch (theOpCode) {
case ByteCode.INVOKEVIRTUAL :
case ByteCode.INVOKESPECIAL :
case ByteCode.INVOKESTATIC :
case ByteCode.INVOKEINTERFACE : {
addToCodeBuffer(theOpCode);
if (theOpCode == ByteCode.INVOKEINTERFACE) {
short ifMethodRefIndex
= itsConstantPool.addInterfaceMethodRef(
className, methodName,
methodType);
addToCodeInt16(ifMethodRefIndex);
addToCodeBuffer(parameterCount + 1);
addToCodeBuffer(0);
}
else {
short methodRefIndex = itsConstantPool.addMethodRef(
className, methodName,
methodType);
addToCodeInt16(methodRefIndex);
}
}
break;
default :
throw new IllegalArgumentException(
"bad opcode for method reference");
}
itsStackTop = (short)newStack;
if (newStack > itsMaxStack) itsMaxStack = (short)newStack;
if (DEBUGSTACK) {
System.out.println("After "+bytecodeStr(theOpCode)
+" stack = "+itsStackTop);
}
}
/**
* Generate code to load the given integer on stack.
*
* @param k the constant
*/
public void addPush(int k)
{
if ((byte)k == k) {
if (k == -1) {
add(ByteCode.ICONST_M1);
} else if (0 <= k && k <= 5) {
add((byte)(ByteCode.ICONST_0 + k));
} else {
add(ByteCode.BIPUSH, (byte)k);
}
} else if ((short)k == k) {
add(ByteCode.SIPUSH, (short)k);
} else {
addLoadConstant(k);
}
}
public void addPush(boolean k)
{
add(k ? ByteCode.ICONST_1 : ByteCode.ICONST_0);
}
/**
* Generate code to load the given long on stack.
*
* @param k the constant
*/
public void addPush(long k)
{
int ik = (int)k;
if (ik == k) {
addPush(ik);
add(ByteCode.I2L);
} else {
addLoadConstant(k);
}
}
/**
* Generate code to load the given double on stack.
*
* @param k the constant
*/
public void addPush(double k)
{
if (k == 0.0) {
// zero
add(ByteCode.DCONST_0);
if (1.0 / k < 0) {
// Negative zero
add(ByteCode.DNEG);
}
} else if (k == 1.0 || k == -1.0) {
add(ByteCode.DCONST_1);
if (k < 0) {
add(ByteCode.DNEG);
}
} else {
addLoadConstant(k);
}
}
/**
* Generate the code to leave on stack the given string even if the
* string encoding exeeds the class file limit for single string constant
*
* @param k the constant
*/
public void addPush(String k) {
int length = k.length();
int limit = itsConstantPool.getUtfEncodingLimit(k, 0, length);
if (limit == length) {
addLoadConstant(k);
return;
}
// Split string into picies fitting the UTF limit and generate code for
// StringBuffer sb = new StringBuffer(length);
// sb.append(loadConstant(piece_1));
// ...
// sb.append(loadConstant(piece_N));
// sb.toString();
final String SB = "java/lang/StringBuffer";
add(ByteCode.NEW, SB);
add(ByteCode.DUP);
addPush(length);
addInvoke(ByteCode.INVOKESPECIAL, SB, "", "(I)V");
int cursor = 0;
for (;;) {
add(ByteCode.DUP);
String s = k.substring(cursor, limit);
addLoadConstant(s);
addInvoke(ByteCode.INVOKEVIRTUAL, SB, "append",
"(Ljava/lang/String;)Ljava/lang/StringBuffer;");
add(ByteCode.POP);
if (limit == length) {
break;
}
cursor = limit;
limit = itsConstantPool.getUtfEncodingLimit(k, limit, length);
}
addInvoke(ByteCode.INVOKEVIRTUAL, SB, "toString",
"()Ljava/lang/String;");
}
/**
* Check if k fits limit on string constant size imposed by class file
* format.
*
* @param k the string constant
*/
public boolean isUnderStringSizeLimit(String k)
{
return itsConstantPool.isUnderUtfEncodingLimit(k);
}
/**
* Store integer from stack top into the given local.
*
* @param local number of local register
*/
public void addIStore(int local)
{
xop(ByteCode.ISTORE_0, ByteCode.ISTORE, local);
}
/**
* Store long from stack top into the given local.
*
* @param local number of local register
*/
public void addLStore(int local)
{
xop(ByteCode.LSTORE_0, ByteCode.LSTORE, local);
}
/**
* Store float from stack top into the given local.
*
* @param local number of local register
*/
public void addFStore(int local)
{
xop(ByteCode.FSTORE_0, ByteCode.FSTORE, local);
}
/**
* Store double from stack top into the given local.
*
* @param local number of local register
*/
public void addDStore(int local)
{
xop(ByteCode.DSTORE_0, ByteCode.DSTORE, local);
}
/**
* Store object from stack top into the given local.
*
* @param local number of local register
*/
public void addAStore(int local)
{
xop(ByteCode.ASTORE_0, ByteCode.ASTORE, local);
}
/**
* Load integer from the given local into stack.
*
* @param local number of local register
*/
public void addILoad(int local)
{
xop(ByteCode.ILOAD_0, ByteCode.ILOAD, local);
}
/**
* Load long from the given local into stack.
*
* @param local number of local register
*/
public void addLLoad(int local)
{
xop(ByteCode.LLOAD_0, ByteCode.LLOAD, local);
}
/**
* Load float from the given local into stack.
*
* @param local number of local register
*/
public void addFLoad(int local)
{
xop(ByteCode.FLOAD_0, ByteCode.FLOAD, local);
}
/**
* Load double from the given local into stack.
*
* @param local number of local register
*/
public void addDLoad(int local)
{
xop(ByteCode.DLOAD_0, ByteCode.DLOAD, local);
}
/**
* Load object from the given local into stack.
*
* @param local number of local register
*/
public void addALoad(int local)
{
xop(ByteCode.ALOAD_0, ByteCode.ALOAD, local);
}
/**
* Load "this" into stack.
*/
public void addLoadThis()
{
add(ByteCode.ALOAD_0);
}
private void xop(int shortOp, int op, int local)
{
switch (local) {
case 0:
add(shortOp);
break;
case 1:
add(shortOp + 1);
break;
case 2:
add(shortOp + 2);
break;
case 3:
add(shortOp + 3);
break;
default:
add(op, local);
}
}
public int addTableSwitch(int low, int high)
{
if (DEBUGCODE) {
System.out.println("Add "+bytecodeStr(ByteCode.TABLESWITCH)
+" "+low+" "+high);
}
if (low > high)
throw new ClassFileFormatException("Bad bounds: "+low+' '+ high);
int newStack = itsStackTop + stackChange(ByteCode.TABLESWITCH);
if (newStack < 0 || Short.MAX_VALUE < newStack) badStack(newStack);
int entryCount = high - low + 1;
int padSize = 3 & ~itsCodeBufferTop; // == 3 - itsCodeBufferTop % 4
int N = addReservedCodeSpace(1 + padSize + 4 * (1 + 2 + entryCount));
int switchStart = N;
itsCodeBuffer[N++] = (byte)ByteCode.TABLESWITCH;
while (padSize != 0) {
itsCodeBuffer[N++] = 0;
--padSize;
}
N += 4; // skip default offset
N = putInt32(low, itsCodeBuffer, N);
putInt32(high, itsCodeBuffer, N);
itsStackTop = (short)newStack;
if (newStack > itsMaxStack) itsMaxStack = (short)newStack;
if (DEBUGSTACK) {
System.out.println("After "+bytecodeStr(ByteCode.TABLESWITCH)
+" stack = "+itsStackTop);
}
return switchStart;
}
public final void markTableSwitchDefault(int switchStart)
{
setTableSwitchJump(switchStart, -1, itsCodeBufferTop);
}
public final void markTableSwitchCase(int switchStart, int caseIndex)
{
setTableSwitchJump(switchStart, caseIndex, itsCodeBufferTop);
}
public final void markTableSwitchCase(int switchStart, int caseIndex,
int stackTop)
{
if (!(0 <= stackTop && stackTop <= itsMaxStack))
throw new IllegalArgumentException("Bad stack index: "+stackTop);
itsStackTop = (short)stackTop;
setTableSwitchJump(switchStart, caseIndex, itsCodeBufferTop);
}
public void setTableSwitchJump(int switchStart, int caseIndex,
int jumpTarget)
{
if (!(0 <= jumpTarget && jumpTarget <= itsCodeBufferTop))
throw new IllegalArgumentException("Bad jump target: "+jumpTarget);
if (!(caseIndex >= -1))
throw new IllegalArgumentException("Bad case index: "+caseIndex);
int padSize = 3 & ~switchStart; // == 3 - switchStart % 4
int caseOffset;
if (caseIndex < 0) {
// default label
caseOffset = switchStart + 1 + padSize;
} else {
caseOffset = switchStart + 1 + padSize + 4 * (3 + caseIndex);
}
if (!(0 <= switchStart
&& switchStart <= itsCodeBufferTop - 4 * 4 - padSize - 1))
{
throw new IllegalArgumentException(
switchStart+" is outside a possible range of tableswitch"
+" in already generated code");
}
if ((0xFF & itsCodeBuffer[switchStart]) != ByteCode.TABLESWITCH) {
throw new IllegalArgumentException(
switchStart+" is not offset of tableswitch statement");
}
if (!(0 <= caseOffset && caseOffset + 4 <= itsCodeBufferTop)) {
// caseIndex >= -1 does not guarantee that caseOffset >= 0 due
// to a possible overflow.
throw new ClassFileFormatException(
"Too big case index: "+caseIndex);
}
// ALERT: perhaps check against case bounds?
putInt32(jumpTarget - switchStart, itsCodeBuffer, caseOffset);
}
public int acquireLabel()
{
int top = itsLabelTableTop;
if (itsLabelTable == null || top == itsLabelTable.length) {
if (itsLabelTable == null) {
itsLabelTable = new int[MIN_LABEL_TABLE_SIZE];
}else {
int[] tmp = new int[itsLabelTable.length * 2];
System.arraycopy(itsLabelTable, 0, tmp, 0, top);
itsLabelTable = tmp;
}
}
itsLabelTableTop = top + 1;
itsLabelTable[top] = -1;
return top | 0x80000000;
}
public void markLabel(int label)
{
if (!(label < 0))
throw new IllegalArgumentException("Bad label, no biscuit");
label &= 0x7FFFFFFF;
if (label > itsLabelTableTop)
throw new IllegalArgumentException("Bad label");
if (itsLabelTable[label] != -1) {
throw new IllegalStateException("Can only mark label once");
}
itsLabelTable[label] = itsCodeBufferTop;
}
public void markLabel(int label, short stackTop)
{
markLabel(label);
itsStackTop = stackTop;
}
public void markHandler(int theLabel) {
itsStackTop = 1;
markLabel(theLabel);
}
private int getLabelPC(int label)
{
if (!(label < 0))
throw new IllegalArgumentException("Bad label, no biscuit");
label &= 0x7FFFFFFF;
if (!(label < itsLabelTableTop))
throw new IllegalArgumentException("Bad label");
return itsLabelTable[label];
}
private void addLabelFixup(int label, int fixupSite)
{
if (!(label < 0))
throw new IllegalArgumentException("Bad label, no biscuit");
label &= 0x7FFFFFFF;
if (!(label < itsLabelTableTop))
throw new IllegalArgumentException("Bad label");
int top = itsFixupTableTop;
if (itsFixupTable == null || top == itsFixupTable.length) {
if (itsFixupTable == null) {
itsFixupTable = new long[MIN_FIXUP_TABLE_SIZE];
}else {
long[] tmp = new long[itsFixupTable.length * 2];
System.arraycopy(itsFixupTable, 0, tmp, 0, top);
itsFixupTable = tmp;
}
}
itsFixupTableTop = top + 1;
itsFixupTable[top] = ((long)label << 32) | fixupSite;
}
private void fixLabelGotos()
{
byte[] codeBuffer = itsCodeBuffer;
for (int i = 0; i < itsFixupTableTop; i++) {
long fixup = itsFixupTable[i];
int label = (int)(fixup >> 32);
int fixupSite = (int)fixup;
int pc = itsLabelTable[label];
if (pc == -1) {
// Unlocated label
throw new RuntimeException();
}
// -1 to get delta from instruction start
int offset = pc - (fixupSite - 1);
if ((short)offset != offset) {
throw new ClassFileFormatException
("Program too complex: too big jump offset");
}
codeBuffer[fixupSite] = (byte)(offset >> 8);
codeBuffer[fixupSite + 1] = (byte)offset;
}
itsFixupTableTop = 0;
}
/**
* Get the current offset into the code of the current method.
*
* @return an integer representing the offset
*/
public int getCurrentCodeOffset() {
return itsCodeBufferTop;
}
public short getStackTop() {
return itsStackTop;
}
public void setStackTop(short n) {
itsStackTop = n;
}
public void adjustStackTop(int delta) {
int newStack = itsStackTop + delta;
if (newStack < 0 || Short.MAX_VALUE < newStack) badStack(newStack);
itsStackTop = (short)newStack;
if (newStack > itsMaxStack) itsMaxStack = (short)newStack;
if (DEBUGSTACK) {
System.out.println("After "+"adjustStackTop("+delta+")"
+" stack = "+itsStackTop);
}
}
private void addToCodeBuffer(int b)
{
int N = addReservedCodeSpace(1);
itsCodeBuffer[N] = (byte)b;
}
private void addToCodeInt16(int value)
{
int N = addReservedCodeSpace(2);
putInt16(value, itsCodeBuffer, N);
}
private int addReservedCodeSpace(int size)
{
if (itsCurrentMethod == null)
throw new IllegalArgumentException("No method to add to");
int oldTop = itsCodeBufferTop;
int newTop = oldTop + size;
if (newTop > itsCodeBuffer.length) {
int newSize = itsCodeBuffer.length * 2;
if (newTop > newSize) { newSize = newTop; }
byte[] tmp = new byte[newSize];
System.arraycopy(itsCodeBuffer, 0, tmp, 0, oldTop);
itsCodeBuffer = tmp;
}
itsCodeBufferTop = newTop;
return oldTop;
}
public void addExceptionHandler(int startLabel, int endLabel,
int handlerLabel, String catchClassName)
{
if ((startLabel & 0x80000000) != 0x80000000)
throw new IllegalArgumentException("Bad startLabel");
if ((endLabel & 0x80000000) != 0x80000000)
throw new IllegalArgumentException("Bad endLabel");
if ((handlerLabel & 0x80000000) != 0x80000000)
throw new IllegalArgumentException("Bad handlerLabel");
/*
* If catchClassName is null, use 0 for the catch_type_index; which
* means catch everything. (Even when the verifier has let you throw
* something other than a Throwable.)
*/
short catch_type_index = (catchClassName == null)
? 0
: itsConstantPool.addClass(catchClassName);
ExceptionTableEntry newEntry = new ExceptionTableEntry(
startLabel,
endLabel,
handlerLabel,
catch_type_index);
int N = itsExceptionTableTop;
if (N == 0) {
itsExceptionTable = new ExceptionTableEntry[ExceptionTableSize];
} else if (N == itsExceptionTable.length) {
ExceptionTableEntry[] tmp = new ExceptionTableEntry[N * 2];
System.arraycopy(itsExceptionTable, 0, tmp, 0, N);
itsExceptionTable = tmp;
}
itsExceptionTable[N] = newEntry;
itsExceptionTableTop = N + 1;
}
public void addLineNumberEntry(short lineNumber) {
if (itsCurrentMethod == null)
throw new IllegalArgumentException("No method to stop");
int N = itsLineNumberTableTop;
if (N == 0) {
itsLineNumberTable = new int[LineNumberTableSize];
} else if (N == itsLineNumberTable.length) {
int[] tmp = new int[N * 2];
System.arraycopy(itsLineNumberTable, 0, tmp, 0, N);
itsLineNumberTable = tmp;
}
itsLineNumberTable[N] = (itsCodeBufferTop << 16) + lineNumber;
itsLineNumberTableTop = N + 1;
}
/**
* Write the class file to the OutputStream.
*
* @param oStream the stream to write to
* @throws IOException if writing to the stream produces an exception
*/
public void write(OutputStream oStream)
throws IOException
{
byte[] array = toByteArray();
oStream.write(array);
}
private int getWriteSize()
{
int size = 0;
if (itsSourceFileNameIndex != 0) {
itsConstantPool.addUtf8("SourceFile");
}
size += 8; //writeLong(FileHeaderConstant);
size += itsConstantPool.getWriteSize();
size += 2; //writeShort(itsFlags);
size += 2; //writeShort(itsThisClassIndex);
size += 2; //writeShort(itsSuperClassIndex);
size += 2; //writeShort(itsInterfaces.size());
size += 2 * itsInterfaces.size();
size += 2; //writeShort(itsFields.size());
for (int i = 0; i < itsFields.size(); i++) {
size += ((ClassFileField)(itsFields.get(i))).getWriteSize();
}
size += 2; //writeShort(itsMethods.size());
for (int i = 0; i < itsMethods.size(); i++) {
size += ((ClassFileMethod)(itsMethods.get(i))).getWriteSize();
}
if (itsSourceFileNameIndex != 0) {
size += 2; //writeShort(1); attributes count
size += 2; //writeShort(sourceFileAttributeNameIndex);
size += 4; //writeInt(2);
size += 2; //writeShort(itsSourceFileNameIndex);
}else {
size += 2; //out.writeShort(0); no attributes
}
return size;
}
/**
* Get the class file as array of bytesto the OutputStream.
*/
public byte[] toByteArray()
{
int dataSize = getWriteSize();
byte[] data = new byte[dataSize];
int offset = 0;
short sourceFileAttributeNameIndex = 0;
if (itsSourceFileNameIndex != 0) {
sourceFileAttributeNameIndex = itsConstantPool.addUtf8(
"SourceFile");
}
offset = putInt64(FileHeaderConstant, data, offset);
offset = itsConstantPool.write(data, offset);
offset = putInt16(itsFlags, data, offset);
offset = putInt16(itsThisClassIndex, data, offset);
offset = putInt16(itsSuperClassIndex, data, offset);
offset = putInt16(itsInterfaces.size(), data, offset);
for (int i = 0; i < itsInterfaces.size(); i++) {
int interfaceIndex = ((Short)(itsInterfaces.get(i))).shortValue();
offset = putInt16(interfaceIndex, data, offset);
}
offset = putInt16(itsFields.size(), data, offset);
for (int i = 0; i < itsFields.size(); i++) {
ClassFileField field = (ClassFileField)itsFields.get(i);
offset = field.write(data, offset);
}
offset = putInt16(itsMethods.size(), data, offset);
for (int i = 0; i < itsMethods.size(); i++) {
ClassFileMethod method = (ClassFileMethod)itsMethods.get(i);
offset = method.write(data, offset);
}
if (itsSourceFileNameIndex != 0) {
offset = putInt16(1, data, offset); // attributes count
offset = putInt16(sourceFileAttributeNameIndex, data, offset);
offset = putInt32(2, data, offset);
offset = putInt16(itsSourceFileNameIndex, data, offset);
} else {
offset = putInt16(0, data, offset); // no attributes
}
if (offset != dataSize) {
// Check getWriteSize is consistent with write!
throw new RuntimeException();
}
return data;
}
static int putInt64(long value, byte[] array, int offset)
{
offset = putInt32((int)(value >>> 32), array, offset);
return putInt32((int)value, array, offset);
}
private static void badStack(int value)
{
String s;
if (value < 0) { s = "Stack underflow: "+value; }
else { s = "Too big stack: "+value; }
throw new IllegalStateException(s);
}
/*
Really weird. Returns an int with # parameters in hi 16 bits, and
stack difference removal of parameters from stack and pushing the
result (it does not take into account removal of this in case of
non-static methods).
If Java really supported references we wouldn't have to be this
perverted.
*/
private static int sizeOfParameters(String pString)
{
int length = pString.length();
int rightParenthesis = pString.lastIndexOf(')');
if (3 <= length /* minimal signature takes at least 3 chars: ()V */
&& pString.charAt(0) == '('
&& 1 <= rightParenthesis && rightParenthesis + 1 < length)
{
boolean ok = true;
int index = 1;
int stackDiff = 0;
int count = 0;
stringLoop:
while (index != rightParenthesis) {
switch (pString.charAt(index)) {
default:
ok = false;
break stringLoop;
case 'J' :
case 'D' :
--stackDiff;
// fall thru
case 'B' :
case 'S' :
case 'C' :
case 'I' :
case 'Z' :
case 'F' :
--stackDiff;
++count;
++index;
continue;
case '[' :
++index;
int c = pString.charAt(index);
while (c == '[') {
++index;
c = pString.charAt(index);
}
switch (c) {
default:
ok = false;
break stringLoop;
case 'J' :
case 'D' :
case 'B' :
case 'S' :
case 'C' :
case 'I' :
case 'Z' :
case 'F' :
--stackDiff;
++count;
++index;
continue;
case 'L':
// fall thru
}
// fall thru
case 'L' : {
--stackDiff;
++count;
++index;
int semicolon = pString.indexOf(';', index);
if (!(index + 1 <= semicolon
&& semicolon < rightParenthesis))
{
ok = false;
break stringLoop;
}
index = semicolon + 1;
continue;
}
}
}
if (ok) {
switch (pString.charAt(rightParenthesis + 1)) {
default:
ok = false;
break;
case 'J' :
case 'D' :
++stackDiff;
// fall thru
case 'B' :
case 'S' :
case 'C' :
case 'I' :
case 'Z' :
case 'F' :
case 'L' :
case '[' :
++stackDiff;
// fall thru
case 'V' :
break;
}
if (ok) {
return ((count << 16) | (0xFFFF & stackDiff));
}
}
}
throw new IllegalArgumentException(
"Bad parameter signature: "+pString);
}
static int putInt16(int value, byte[] array, int offset)
{
array[offset + 0] = (byte)(value >>> 8);
array[offset + 1] = (byte)value;
return offset + 2;
}
static int putInt32(int value, byte[] array, int offset)
{
array[offset + 0] = (byte)(value >>> 24);
array[offset + 1] = (byte)(value >>> 16);
array[offset + 2] = (byte)(value >>> 8);
array[offset + 3] = (byte)value;
return offset + 4;
}
/**
* Number of operands accompanying the opcode.
*/
static int opcodeCount(int opcode)
{
switch (opcode) {
case ByteCode.AALOAD:
case ByteCode.AASTORE:
case ByteCode.ACONST_NULL:
case ByteCode.ALOAD_0:
case ByteCode.ALOAD_1:
case ByteCode.ALOAD_2:
case ByteCode.ALOAD_3:
case ByteCode.ARETURN:
case ByteCode.ARRAYLENGTH:
case ByteCode.ASTORE_0:
case ByteCode.ASTORE_1:
case ByteCode.ASTORE_2:
case ByteCode.ASTORE_3:
case ByteCode.ATHROW:
case ByteCode.BALOAD:
case ByteCode.BASTORE:
case ByteCode.BREAKPOINT:
case ByteCode.CALOAD:
case ByteCode.CASTORE:
case ByteCode.D2F:
case ByteCode.D2I:
case ByteCode.D2L:
case ByteCode.DADD:
case ByteCode.DALOAD:
case ByteCode.DASTORE:
case ByteCode.DCMPG:
case ByteCode.DCMPL:
case ByteCode.DCONST_0:
case ByteCode.DCONST_1:
case ByteCode.DDIV:
case ByteCode.DLOAD_0:
case ByteCode.DLOAD_1:
case ByteCode.DLOAD_2:
case ByteCode.DLOAD_3:
case ByteCode.DMUL:
case ByteCode.DNEG:
case ByteCode.DREM:
case ByteCode.DRETURN:
case ByteCode.DSTORE_0:
case ByteCode.DSTORE_1:
case ByteCode.DSTORE_2:
case ByteCode.DSTORE_3:
case ByteCode.DSUB:
case ByteCode.DUP:
case ByteCode.DUP2:
case ByteCode.DUP2_X1:
case ByteCode.DUP2_X2:
case ByteCode.DUP_X1:
case ByteCode.DUP_X2:
case ByteCode.F2D:
case ByteCode.F2I:
case ByteCode.F2L:
case ByteCode.FADD:
case ByteCode.FALOAD:
case ByteCode.FASTORE:
case ByteCode.FCMPG:
case ByteCode.FCMPL:
case ByteCode.FCONST_0:
case ByteCode.FCONST_1:
case ByteCode.FCONST_2:
case ByteCode.FDIV:
case ByteCode.FLOAD_0:
case ByteCode.FLOAD_1:
case ByteCode.FLOAD_2:
case ByteCode.FLOAD_3:
case ByteCode.FMUL:
case ByteCode.FNEG:
case ByteCode.FREM:
case ByteCode.FRETURN:
case ByteCode.FSTORE_0:
case ByteCode.FSTORE_1:
case ByteCode.FSTORE_2:
case ByteCode.FSTORE_3:
case ByteCode.FSUB:
case ByteCode.I2B:
case ByteCode.I2C:
case ByteCode.I2D:
case ByteCode.I2F:
case ByteCode.I2L:
case ByteCode.I2S:
case ByteCode.IADD:
case ByteCode.IALOAD:
case ByteCode.IAND:
case ByteCode.IASTORE:
case ByteCode.ICONST_0:
case ByteCode.ICONST_1:
case ByteCode.ICONST_2:
case ByteCode.ICONST_3:
case ByteCode.ICONST_4:
case ByteCode.ICONST_5:
case ByteCode.ICONST_M1:
case ByteCode.IDIV:
case ByteCode.ILOAD_0:
case ByteCode.ILOAD_1:
case ByteCode.ILOAD_2:
case ByteCode.ILOAD_3:
case ByteCode.IMPDEP1:
case ByteCode.IMPDEP2:
case ByteCode.IMUL:
case ByteCode.INEG:
case ByteCode.IOR:
case ByteCode.IREM:
case ByteCode.IRETURN:
case ByteCode.ISHL:
case ByteCode.ISHR:
case ByteCode.ISTORE_0:
case ByteCode.ISTORE_1:
case ByteCode.ISTORE_2:
case ByteCode.ISTORE_3:
case ByteCode.ISUB:
case ByteCode.IUSHR:
case ByteCode.IXOR:
case ByteCode.L2D:
case ByteCode.L2F:
case ByteCode.L2I:
case ByteCode.LADD:
case ByteCode.LALOAD:
case ByteCode.LAND:
case ByteCode.LASTORE:
case ByteCode.LCMP:
case ByteCode.LCONST_0:
case ByteCode.LCONST_1:
case ByteCode.LDIV:
case ByteCode.LLOAD_0:
case ByteCode.LLOAD_1:
case ByteCode.LLOAD_2:
case ByteCode.LLOAD_3:
case ByteCode.LMUL:
case ByteCode.LNEG:
case ByteCode.LOR:
case ByteCode.LREM:
case ByteCode.LRETURN:
case ByteCode.LSHL:
case ByteCode.LSHR:
case ByteCode.LSTORE_0:
case ByteCode.LSTORE_1:
case ByteCode.LSTORE_2:
case ByteCode.LSTORE_3:
case ByteCode.LSUB:
case ByteCode.LUSHR:
case ByteCode.LXOR:
case ByteCode.MONITORENTER:
case ByteCode.MONITOREXIT:
case ByteCode.NOP:
case ByteCode.POP:
case ByteCode.POP2:
case ByteCode.RETURN:
case ByteCode.SALOAD:
case ByteCode.SASTORE:
case ByteCode.SWAP:
case ByteCode.WIDE:
return 0;
case ByteCode.ALOAD:
case ByteCode.ANEWARRAY:
case ByteCode.ASTORE:
case ByteCode.BIPUSH:
case ByteCode.CHECKCAST:
case ByteCode.DLOAD:
case ByteCode.DSTORE:
case ByteCode.FLOAD:
case ByteCode.FSTORE:
case ByteCode.GETFIELD:
case ByteCode.GETSTATIC:
case ByteCode.GOTO:
case ByteCode.GOTO_W:
case ByteCode.IFEQ:
case ByteCode.IFGE:
case ByteCode.IFGT:
case ByteCode.IFLE:
case ByteCode.IFLT:
case ByteCode.IFNE:
case ByteCode.IFNONNULL:
case ByteCode.IFNULL:
case ByteCode.IF_ACMPEQ:
case ByteCode.IF_ACMPNE:
case ByteCode.IF_ICMPEQ:
case ByteCode.IF_ICMPGE:
case ByteCode.IF_ICMPGT:
case ByteCode.IF_ICMPLE:
case ByteCode.IF_ICMPLT:
case ByteCode.IF_ICMPNE:
case ByteCode.ILOAD:
case ByteCode.INSTANCEOF:
case ByteCode.INVOKEINTERFACE:
case ByteCode.INVOKESPECIAL:
case ByteCode.INVOKESTATIC:
case ByteCode.INVOKEVIRTUAL:
case ByteCode.ISTORE:
case ByteCode.JSR:
case ByteCode.JSR_W:
case ByteCode.LDC:
case ByteCode.LDC2_W:
case ByteCode.LDC_W:
case ByteCode.LLOAD:
case ByteCode.LSTORE:
case ByteCode.NEW:
case ByteCode.NEWARRAY:
case ByteCode.PUTFIELD:
case ByteCode.PUTSTATIC:
case ByteCode.RET:
case ByteCode.SIPUSH:
return 1;
case ByteCode.IINC:
case ByteCode.MULTIANEWARRAY:
return 2;
case ByteCode.LOOKUPSWITCH:
case ByteCode.TABLESWITCH:
return -1;
}
throw new IllegalArgumentException("Bad opcode: "+opcode);
}
/**
* The effect on the operand stack of a given opcode.
*/
static int stackChange(int opcode)
{
// For INVOKE... accounts only for popping this (unless static),
// ignoring parameters and return type
switch (opcode) {
case ByteCode.DASTORE:
case ByteCode.LASTORE:
return -4;
case ByteCode.AASTORE:
case ByteCode.BASTORE:
case ByteCode.CASTORE:
case ByteCode.DCMPG:
case ByteCode.DCMPL:
case ByteCode.FASTORE:
case ByteCode.IASTORE:
case ByteCode.LCMP:
case ByteCode.SASTORE:
return -3;
case ByteCode.DADD:
case ByteCode.DDIV:
case ByteCode.DMUL:
case ByteCode.DREM:
case ByteCode.DRETURN:
case ByteCode.DSTORE:
case ByteCode.DSTORE_0:
case ByteCode.DSTORE_1:
case ByteCode.DSTORE_2:
case ByteCode.DSTORE_3:
case ByteCode.DSUB:
case ByteCode.IF_ACMPEQ:
case ByteCode.IF_ACMPNE:
case ByteCode.IF_ICMPEQ:
case ByteCode.IF_ICMPGE:
case ByteCode.IF_ICMPGT:
case ByteCode.IF_ICMPLE:
case ByteCode.IF_ICMPLT:
case ByteCode.IF_ICMPNE:
case ByteCode.LADD:
case ByteCode.LAND:
case ByteCode.LDIV:
case ByteCode.LMUL:
case ByteCode.LOR:
case ByteCode.LREM:
case ByteCode.LRETURN:
case ByteCode.LSTORE:
case ByteCode.LSTORE_0:
case ByteCode.LSTORE_1:
case ByteCode.LSTORE_2:
case ByteCode.LSTORE_3:
case ByteCode.LSUB:
case ByteCode.LXOR:
case ByteCode.POP2:
return -2;
case ByteCode.AALOAD:
case ByteCode.ARETURN:
case ByteCode.ASTORE:
case ByteCode.ASTORE_0:
case ByteCode.ASTORE_1:
case ByteCode.ASTORE_2:
case ByteCode.ASTORE_3:
case ByteCode.ATHROW:
case ByteCode.BALOAD:
case ByteCode.CALOAD:
case ByteCode.D2F:
case ByteCode.D2I:
case ByteCode.FADD:
case ByteCode.FALOAD:
case ByteCode.FCMPG:
case ByteCode.FCMPL:
case ByteCode.FDIV:
case ByteCode.FMUL:
case ByteCode.FREM:
case ByteCode.FRETURN:
case ByteCode.FSTORE:
case ByteCode.FSTORE_0:
case ByteCode.FSTORE_1:
case ByteCode.FSTORE_2:
case ByteCode.FSTORE_3:
case ByteCode.FSUB:
case ByteCode.GETFIELD:
case ByteCode.IADD:
case ByteCode.IALOAD:
case ByteCode.IAND:
case ByteCode.IDIV:
case ByteCode.IFEQ:
case ByteCode.IFGE:
case ByteCode.IFGT:
case ByteCode.IFLE:
case ByteCode.IFLT:
case ByteCode.IFNE:
case ByteCode.IFNONNULL:
case ByteCode.IFNULL:
case ByteCode.IMUL:
case ByteCode.INVOKEINTERFACE: //
case ByteCode.INVOKESPECIAL: // but needs to account for
case ByteCode.INVOKEVIRTUAL: // pops 'this' (unless static)
case ByteCode.IOR:
case ByteCode.IREM:
case ByteCode.IRETURN:
case ByteCode.ISHL:
case ByteCode.ISHR:
case ByteCode.ISTORE:
case ByteCode.ISTORE_0:
case ByteCode.ISTORE_1:
case ByteCode.ISTORE_2:
case ByteCode.ISTORE_3:
case ByteCode.ISUB:
case ByteCode.IUSHR:
case ByteCode.IXOR:
case ByteCode.L2F:
case ByteCode.L2I:
case ByteCode.LOOKUPSWITCH:
case ByteCode.LSHL:
case ByteCode.LSHR:
case ByteCode.LUSHR:
case ByteCode.MONITORENTER:
case ByteCode.MONITOREXIT:
case ByteCode.POP:
case ByteCode.PUTFIELD:
case ByteCode.SALOAD:
case ByteCode.TABLESWITCH:
return -1;
case ByteCode.ANEWARRAY:
case ByteCode.ARRAYLENGTH:
case ByteCode.BREAKPOINT:
case ByteCode.CHECKCAST:
case ByteCode.D2L:
case ByteCode.DALOAD:
case ByteCode.DNEG:
case ByteCode.F2I:
case ByteCode.FNEG:
case ByteCode.GETSTATIC:
case ByteCode.GOTO:
case ByteCode.GOTO_W:
case ByteCode.I2B:
case ByteCode.I2C:
case ByteCode.I2F:
case ByteCode.I2S:
case ByteCode.IINC:
case ByteCode.IMPDEP1:
case ByteCode.IMPDEP2:
case ByteCode.INEG:
case ByteCode.INSTANCEOF:
case ByteCode.INVOKESTATIC:
case ByteCode.L2D:
case ByteCode.LALOAD:
case ByteCode.LNEG:
case ByteCode.NEWARRAY:
case ByteCode.NOP:
case ByteCode.PUTSTATIC:
case ByteCode.RET:
case ByteCode.RETURN:
case ByteCode.SWAP:
case ByteCode.WIDE:
return 0;
case ByteCode.ACONST_NULL:
case ByteCode.ALOAD:
case ByteCode.ALOAD_0:
case ByteCode.ALOAD_1:
case ByteCode.ALOAD_2:
case ByteCode.ALOAD_3:
case ByteCode.BIPUSH:
case ByteCode.DUP:
case ByteCode.DUP_X1:
case ByteCode.DUP_X2:
case ByteCode.F2D:
case ByteCode.F2L:
case ByteCode.FCONST_0:
case ByteCode.FCONST_1:
case ByteCode.FCONST_2:
case ByteCode.FLOAD:
case ByteCode.FLOAD_0:
case ByteCode.FLOAD_1:
case ByteCode.FLOAD_2:
case ByteCode.FLOAD_3:
case ByteCode.I2D:
case ByteCode.I2L:
case ByteCode.ICONST_0:
case ByteCode.ICONST_1:
case ByteCode.ICONST_2:
case ByteCode.ICONST_3:
case ByteCode.ICONST_4:
case ByteCode.ICONST_5:
case ByteCode.ICONST_M1:
case ByteCode.ILOAD:
case ByteCode.ILOAD_0:
case ByteCode.ILOAD_1:
case ByteCode.ILOAD_2:
case ByteCode.ILOAD_3:
case ByteCode.JSR:
case ByteCode.JSR_W:
case ByteCode.LDC:
case ByteCode.LDC_W:
case ByteCode.MULTIANEWARRAY:
case ByteCode.NEW:
case ByteCode.SIPUSH:
return 1;
case ByteCode.DCONST_0:
case ByteCode.DCONST_1:
case ByteCode.DLOAD:
case ByteCode.DLOAD_0:
case ByteCode.DLOAD_1:
case ByteCode.DLOAD_2:
case ByteCode.DLOAD_3:
case ByteCode.DUP2:
case ByteCode.DUP2_X1:
case ByteCode.DUP2_X2:
case ByteCode.LCONST_0:
case ByteCode.LCONST_1:
case ByteCode.LDC2_W:
case ByteCode.LLOAD:
case ByteCode.LLOAD_0:
case ByteCode.LLOAD_1:
case ByteCode.LLOAD_2:
case ByteCode.LLOAD_3:
return 2;
}
throw new IllegalArgumentException("Bad opcode: "+opcode);
}
/*
* Number of bytes of operands generated after the opcode.
* Not in use currently.
*/
/*
int extra(int opcode)
{
switch (opcode) {
case ByteCode.AALOAD:
case ByteCode.AASTORE:
case ByteCode.ACONST_NULL:
case ByteCode.ALOAD_0:
case ByteCode.ALOAD_1:
case ByteCode.ALOAD_2:
case ByteCode.ALOAD_3:
case ByteCode.ARETURN:
case ByteCode.ARRAYLENGTH:
case ByteCode.ASTORE_0:
case ByteCode.ASTORE_1:
case ByteCode.ASTORE_2:
case ByteCode.ASTORE_3:
case ByteCode.ATHROW:
case ByteCode.BALOAD:
case ByteCode.BASTORE:
case ByteCode.BREAKPOINT:
case ByteCode.CALOAD:
case ByteCode.CASTORE:
case ByteCode.D2F:
case ByteCode.D2I:
case ByteCode.D2L:
case ByteCode.DADD:
case ByteCode.DALOAD:
case ByteCode.DASTORE:
case ByteCode.DCMPG:
case ByteCode.DCMPL:
case ByteCode.DCONST_0:
case ByteCode.DCONST_1:
case ByteCode.DDIV:
case ByteCode.DLOAD_0:
case ByteCode.DLOAD_1:
case ByteCode.DLOAD_2:
case ByteCode.DLOAD_3:
case ByteCode.DMUL:
case ByteCode.DNEG:
case ByteCode.DREM:
case ByteCode.DRETURN:
case ByteCode.DSTORE_0:
case ByteCode.DSTORE_1:
case ByteCode.DSTORE_2:
case ByteCode.DSTORE_3:
case ByteCode.DSUB:
case ByteCode.DUP2:
case ByteCode.DUP2_X1:
case ByteCode.DUP2_X2:
case ByteCode.DUP:
case ByteCode.DUP_X1:
case ByteCode.DUP_X2:
case ByteCode.F2D:
case ByteCode.F2I:
case ByteCode.F2L:
case ByteCode.FADD:
case ByteCode.FALOAD:
case ByteCode.FASTORE:
case ByteCode.FCMPG:
case ByteCode.FCMPL:
case ByteCode.FCONST_0:
case ByteCode.FCONST_1:
case ByteCode.FCONST_2:
case ByteCode.FDIV:
case ByteCode.FLOAD_0:
case ByteCode.FLOAD_1:
case ByteCode.FLOAD_2:
case ByteCode.FLOAD_3:
case ByteCode.FMUL:
case ByteCode.FNEG:
case ByteCode.FREM:
case ByteCode.FRETURN:
case ByteCode.FSTORE_0:
case ByteCode.FSTORE_1:
case ByteCode.FSTORE_2:
case ByteCode.FSTORE_3:
case ByteCode.FSUB:
case ByteCode.I2B:
case ByteCode.I2C:
case ByteCode.I2D:
case ByteCode.I2F:
case ByteCode.I2L:
case ByteCode.I2S:
case ByteCode.IADD:
case ByteCode.IALOAD:
case ByteCode.IAND:
case ByteCode.IASTORE:
case ByteCode.ICONST_0:
case ByteCode.ICONST_1:
case ByteCode.ICONST_2:
case ByteCode.ICONST_3:
case ByteCode.ICONST_4:
case ByteCode.ICONST_5:
case ByteCode.ICONST_M1:
case ByteCode.IDIV:
case ByteCode.ILOAD_0:
case ByteCode.ILOAD_1:
case ByteCode.ILOAD_2:
case ByteCode.ILOAD_3:
case ByteCode.IMPDEP1:
case ByteCode.IMPDEP2:
case ByteCode.IMUL:
case ByteCode.INEG:
case ByteCode.IOR:
case ByteCode.IREM:
case ByteCode.IRETURN:
case ByteCode.ISHL:
case ByteCode.ISHR:
case ByteCode.ISTORE_0:
case ByteCode.ISTORE_1:
case ByteCode.ISTORE_2:
case ByteCode.ISTORE_3:
case ByteCode.ISUB:
case ByteCode.IUSHR:
case ByteCode.IXOR:
case ByteCode.L2D:
case ByteCode.L2F:
case ByteCode.L2I:
case ByteCode.LADD:
case ByteCode.LALOAD:
case ByteCode.LAND:
case ByteCode.LASTORE:
case ByteCode.LCMP:
case ByteCode.LCONST_0:
case ByteCode.LCONST_1:
case ByteCode.LDIV:
case ByteCode.LLOAD_0:
case ByteCode.LLOAD_1:
case ByteCode.LLOAD_2:
case ByteCode.LLOAD_3:
case ByteCode.LMUL:
case ByteCode.LNEG:
case ByteCode.LOR:
case ByteCode.LREM:
case ByteCode.LRETURN:
case ByteCode.LSHL:
case ByteCode.LSHR:
case ByteCode.LSTORE_0:
case ByteCode.LSTORE_1:
case ByteCode.LSTORE_2:
case ByteCode.LSTORE_3:
case ByteCode.LSUB:
case ByteCode.LUSHR:
case ByteCode.LXOR:
case ByteCode.MONITORENTER:
case ByteCode.MONITOREXIT:
case ByteCode.NOP:
case ByteCode.POP2:
case ByteCode.POP:
case ByteCode.RETURN:
case ByteCode.SALOAD:
case ByteCode.SASTORE:
case ByteCode.SWAP:
case ByteCode.WIDE:
return 0;
case ByteCode.ALOAD:
case ByteCode.ASTORE:
case ByteCode.BIPUSH:
case ByteCode.DLOAD:
case ByteCode.DSTORE:
case ByteCode.FLOAD:
case ByteCode.FSTORE:
case ByteCode.ILOAD:
case ByteCode.ISTORE:
case ByteCode.LDC:
case ByteCode.LLOAD:
case ByteCode.LSTORE:
case ByteCode.NEWARRAY:
case ByteCode.RET:
return 1;
case ByteCode.ANEWARRAY:
case ByteCode.CHECKCAST:
case ByteCode.GETFIELD:
case ByteCode.GETSTATIC:
case ByteCode.GOTO:
case ByteCode.IFEQ:
case ByteCode.IFGE:
case ByteCode.IFGT:
case ByteCode.IFLE:
case ByteCode.IFLT:
case ByteCode.IFNE:
case ByteCode.IFNONNULL:
case ByteCode.IFNULL:
case ByteCode.IF_ACMPEQ:
case ByteCode.IF_ACMPNE:
case ByteCode.IF_ICMPEQ:
case ByteCode.IF_ICMPGE:
case ByteCode.IF_ICMPGT:
case ByteCode.IF_ICMPLE:
case ByteCode.IF_ICMPLT:
case ByteCode.IF_ICMPNE:
case ByteCode.IINC:
case ByteCode.INSTANCEOF:
case ByteCode.INVOKEINTERFACE:
case ByteCode.INVOKESPECIAL:
case ByteCode.INVOKESTATIC:
case ByteCode.INVOKEVIRTUAL:
case ByteCode.JSR:
case ByteCode.LDC2_W:
case ByteCode.LDC_W:
case ByteCode.NEW:
case ByteCode.PUTFIELD:
case ByteCode.PUTSTATIC:
case ByteCode.SIPUSH:
return 2;
case ByteCode.MULTIANEWARRAY:
return 3;
case ByteCode.GOTO_W:
case ByteCode.JSR_W:
return 4;
case ByteCode.LOOKUPSWITCH: // depends on alignment
case ByteCode.TABLESWITCH: // depends on alignment
return -1;
}
throw new IllegalArgumentException("Bad opcode: "+opcode);
}
*/
private static String bytecodeStr(int code)
{
if (DEBUGSTACK || DEBUGCODE) {
switch (code) {
case ByteCode.NOP: return "nop";
case ByteCode.ACONST_NULL: return "aconst_null";
case ByteCode.ICONST_M1: return "iconst_m1";
case ByteCode.ICONST_0: return "iconst_0";
case ByteCode.ICONST_1: return "iconst_1";
case ByteCode.ICONST_2: return "iconst_2";
case ByteCode.ICONST_3: return "iconst_3";
case ByteCode.ICONST_4: return "iconst_4";
case ByteCode.ICONST_5: return "iconst_5";
case ByteCode.LCONST_0: return "lconst_0";
case ByteCode.LCONST_1: return "lconst_1";
case ByteCode.FCONST_0: return "fconst_0";
case ByteCode.FCONST_1: return "fconst_1";
case ByteCode.FCONST_2: return "fconst_2";
case ByteCode.DCONST_0: return "dconst_0";
case ByteCode.DCONST_1: return "dconst_1";
case ByteCode.BIPUSH: return "bipush";
case ByteCode.SIPUSH: return "sipush";
case ByteCode.LDC: return "ldc";
case ByteCode.LDC_W: return "ldc_w";
case ByteCode.LDC2_W: return "ldc2_w";
case ByteCode.ILOAD: return "iload";
case ByteCode.LLOAD: return "lload";
case ByteCode.FLOAD: return "fload";
case ByteCode.DLOAD: return "dload";
case ByteCode.ALOAD: return "aload";
case ByteCode.ILOAD_0: return "iload_0";
case ByteCode.ILOAD_1: return "iload_1";
case ByteCode.ILOAD_2: return "iload_2";
case ByteCode.ILOAD_3: return "iload_3";
case ByteCode.LLOAD_0: return "lload_0";
case ByteCode.LLOAD_1: return "lload_1";
case ByteCode.LLOAD_2: return "lload_2";
case ByteCode.LLOAD_3: return "lload_3";
case ByteCode.FLOAD_0: return "fload_0";
case ByteCode.FLOAD_1: return "fload_1";
case ByteCode.FLOAD_2: return "fload_2";
case ByteCode.FLOAD_3: return "fload_3";
case ByteCode.DLOAD_0: return "dload_0";
case ByteCode.DLOAD_1: return "dload_1";
case ByteCode.DLOAD_2: return "dload_2";
case ByteCode.DLOAD_3: return "dload_3";
case ByteCode.ALOAD_0: return "aload_0";
case ByteCode.ALOAD_1: return "aload_1";
case ByteCode.ALOAD_2: return "aload_2";
case ByteCode.ALOAD_3: return "aload_3";
case ByteCode.IALOAD: return "iaload";
case ByteCode.LALOAD: return "laload";
case ByteCode.FALOAD: return "faload";
case ByteCode.DALOAD: return "daload";
case ByteCode.AALOAD: return "aaload";
case ByteCode.BALOAD: return "baload";
case ByteCode.CALOAD: return "caload";
case ByteCode.SALOAD: return "saload";
case ByteCode.ISTORE: return "istore";
case ByteCode.LSTORE: return "lstore";
case ByteCode.FSTORE: return "fstore";
case ByteCode.DSTORE: return "dstore";
case ByteCode.ASTORE: return "astore";
case ByteCode.ISTORE_0: return "istore_0";
case ByteCode.ISTORE_1: return "istore_1";
case ByteCode.ISTORE_2: return "istore_2";
case ByteCode.ISTORE_3: return "istore_3";
case ByteCode.LSTORE_0: return "lstore_0";
case ByteCode.LSTORE_1: return "lstore_1";
case ByteCode.LSTORE_2: return "lstore_2";
case ByteCode.LSTORE_3: return "lstore_3";
case ByteCode.FSTORE_0: return "fstore_0";
case ByteCode.FSTORE_1: return "fstore_1";
case ByteCode.FSTORE_2: return "fstore_2";
case ByteCode.FSTORE_3: return "fstore_3";
case ByteCode.DSTORE_0: return "dstore_0";
case ByteCode.DSTORE_1: return "dstore_1";
case ByteCode.DSTORE_2: return "dstore_2";
case ByteCode.DSTORE_3: return "dstore_3";
case ByteCode.ASTORE_0: return "astore_0";
case ByteCode.ASTORE_1: return "astore_1";
case ByteCode.ASTORE_2: return "astore_2";
case ByteCode.ASTORE_3: return "astore_3";
case ByteCode.IASTORE: return "iastore";
case ByteCode.LASTORE: return "lastore";
case ByteCode.FASTORE: return "fastore";
case ByteCode.DASTORE: return "dastore";
case ByteCode.AASTORE: return "aastore";
case ByteCode.BASTORE: return "bastore";
case ByteCode.CASTORE: return "castore";
case ByteCode.SASTORE: return "sastore";
case ByteCode.POP: return "pop";
case ByteCode.POP2: return "pop2";
case ByteCode.DUP: return "dup";
case ByteCode.DUP_X1: return "dup_x1";
case ByteCode.DUP_X2: return "dup_x2";
case ByteCode.DUP2: return "dup2";
case ByteCode.DUP2_X1: return "dup2_x1";
case ByteCode.DUP2_X2: return "dup2_x2";
case ByteCode.SWAP: return "swap";
case ByteCode.IADD: return "iadd";
case ByteCode.LADD: return "ladd";
case ByteCode.FADD: return "fadd";
case ByteCode.DADD: return "dadd";
case ByteCode.ISUB: return "isub";
case ByteCode.LSUB: return "lsub";
case ByteCode.FSUB: return "fsub";
case ByteCode.DSUB: return "dsub";
case ByteCode.IMUL: return "imul";
case ByteCode.LMUL: return "lmul";
case ByteCode.FMUL: return "fmul";
case ByteCode.DMUL: return "dmul";
case ByteCode.IDIV: return "idiv";
case ByteCode.LDIV: return "ldiv";
case ByteCode.FDIV: return "fdiv";
case ByteCode.DDIV: return "ddiv";
case ByteCode.IREM: return "irem";
case ByteCode.LREM: return "lrem";
case ByteCode.FREM: return "frem";
case ByteCode.DREM: return "drem";
case ByteCode.INEG: return "ineg";
case ByteCode.LNEG: return "lneg";
case ByteCode.FNEG: return "fneg";
case ByteCode.DNEG: return "dneg";
case ByteCode.ISHL: return "ishl";
case ByteCode.LSHL: return "lshl";
case ByteCode.ISHR: return "ishr";
case ByteCode.LSHR: return "lshr";
case ByteCode.IUSHR: return "iushr";
case ByteCode.LUSHR: return "lushr";
case ByteCode.IAND: return "iand";
case ByteCode.LAND: return "land";
case ByteCode.IOR: return "ior";
case ByteCode.LOR: return "lor";
case ByteCode.IXOR: return "ixor";
case ByteCode.LXOR: return "lxor";
case ByteCode.IINC: return "iinc";
case ByteCode.I2L: return "i2l";
case ByteCode.I2F: return "i2f";
case ByteCode.I2D: return "i2d";
case ByteCode.L2I: return "l2i";
case ByteCode.L2F: return "l2f";
case ByteCode.L2D: return "l2d";
case ByteCode.F2I: return "f2i";
case ByteCode.F2L: return "f2l";
case ByteCode.F2D: return "f2d";
case ByteCode.D2I: return "d2i";
case ByteCode.D2L: return "d2l";
case ByteCode.D2F: return "d2f";
case ByteCode.I2B: return "i2b";
case ByteCode.I2C: return "i2c";
case ByteCode.I2S: return "i2s";
case ByteCode.LCMP: return "lcmp";
case ByteCode.FCMPL: return "fcmpl";
case ByteCode.FCMPG: return "fcmpg";
case ByteCode.DCMPL: return "dcmpl";
case ByteCode.DCMPG: return "dcmpg";
case ByteCode.IFEQ: return "ifeq";
case ByteCode.IFNE: return "ifne";
case ByteCode.IFLT: return "iflt";
case ByteCode.IFGE: return "ifge";
case ByteCode.IFGT: return "ifgt";
case ByteCode.IFLE: return "ifle";
case ByteCode.IF_ICMPEQ: return "if_icmpeq";
case ByteCode.IF_ICMPNE: return "if_icmpne";
case ByteCode.IF_ICMPLT: return "if_icmplt";
case ByteCode.IF_ICMPGE: return "if_icmpge";
case ByteCode.IF_ICMPGT: return "if_icmpgt";
case ByteCode.IF_ICMPLE: return "if_icmple";
case ByteCode.IF_ACMPEQ: return "if_acmpeq";
case ByteCode.IF_ACMPNE: return "if_acmpne";
case ByteCode.GOTO: return "goto";
case ByteCode.JSR: return "jsr";
case ByteCode.RET: return "ret";
case ByteCode.TABLESWITCH: return "tableswitch";
case ByteCode.LOOKUPSWITCH: return "lookupswitch";
case ByteCode.IRETURN: return "ireturn";
case ByteCode.LRETURN: return "lreturn";
case ByteCode.FRETURN: return "freturn";
case ByteCode.DRETURN: return "dreturn";
case ByteCode.ARETURN: return "areturn";
case ByteCode.RETURN: return "return";
case ByteCode.GETSTATIC: return "getstatic";
case ByteCode.PUTSTATIC: return "putstatic";
case ByteCode.GETFIELD: return "getfield";
case ByteCode.PUTFIELD: return "putfield";
case ByteCode.INVOKEVIRTUAL: return "invokevirtual";
case ByteCode.INVOKESPECIAL: return "invokespecial";
case ByteCode.INVOKESTATIC: return "invokestatic";
case ByteCode.INVOKEINTERFACE: return "invokeinterface";
case ByteCode.NEW: return "new";
case ByteCode.NEWARRAY: return "newarray";
case ByteCode.ANEWARRAY: return "anewarray";
case ByteCode.ARRAYLENGTH: return "arraylength";
case ByteCode.ATHROW: return "athrow";
case ByteCode.CHECKCAST: return "checkcast";
case ByteCode.INSTANCEOF: return "instanceof";
case ByteCode.MONITORENTER: return "monitorenter";
case ByteCode.MONITOREXIT: return "monitorexit";
case ByteCode.WIDE: return "wide";
case ByteCode.MULTIANEWARRAY: return "multianewarray";
case ByteCode.IFNULL: return "ifnull";
case ByteCode.IFNONNULL: return "ifnonnull";
case ByteCode.GOTO_W: return "goto_w";
case ByteCode.JSR_W: return "jsr_w";
case ByteCode.BREAKPOINT: return "breakpoint";
case ByteCode.IMPDEP1: return "impdep1";
case ByteCode.IMPDEP2: return "impdep2";
}
}
return "";
}
final char[] getCharBuffer(int minimalSize)
{
if (minimalSize > tmpCharBuffer.length) {
int newSize = tmpCharBuffer.length * 2;
if (minimalSize > newSize) { newSize = minimalSize; }
tmpCharBuffer = new char[newSize];
}
return tmpCharBuffer;
}
private static final int LineNumberTableSize = 16;
private static final int ExceptionTableSize = 4;
private final static long FileHeaderConstant = 0xCAFEBABE0003002DL;
// Set DEBUG flags to true to get better checking and progress info.
private static final boolean DEBUGSTACK = false;
private static final boolean DEBUGLABELS = false;
private static final boolean DEBUGCODE = false;
private String generatedClassName;
private ExceptionTableEntry itsExceptionTable[];
private int itsExceptionTableTop;
private int itsLineNumberTable[]; // pack start_pc & line_number together
private int itsLineNumberTableTop;
private byte[] itsCodeBuffer = new byte[256];
private int itsCodeBufferTop;
private ConstantPool itsConstantPool;
private ClassFileMethod itsCurrentMethod;
private short itsStackTop;
private short itsMaxStack;
private short itsMaxLocals;
private ObjArray itsMethods = new ObjArray();
private ObjArray itsFields = new ObjArray();
private ObjArray itsInterfaces = new ObjArray();
private short itsFlags;
private short itsThisClassIndex;
private short itsSuperClassIndex;
private short itsSourceFileNameIndex;
private static final int MIN_LABEL_TABLE_SIZE = 32;
private int[] itsLabelTable;
private int itsLabelTableTop;
// itsFixupTable[i] = (label_index << 32) | fixup_site
private static final int MIN_FIXUP_TABLE_SIZE = 40;
private long[] itsFixupTable;
private int itsFixupTableTop;
private ObjArray itsVarDescriptors;
private char[] tmpCharBuffer = new char[64];
}
final class ExceptionTableEntry
{
ExceptionTableEntry(int startLabel, int endLabel,
int handlerLabel, short catchType)
{
itsStartLabel = startLabel;
itsEndLabel = endLabel;
itsHandlerLabel = handlerLabel;
itsCatchType = catchType;
}
int itsStartLabel;
int itsEndLabel;
int itsHandlerLabel;
short itsCatchType;
}
final class ClassFileField
{
ClassFileField(short nameIndex, short typeIndex, short flags)
{
itsNameIndex = nameIndex;
itsTypeIndex = typeIndex;
itsFlags = flags;
itsHasAttributes = false;
}
void setAttributes(short attr1, short attr2, short attr3, int index)
{
itsHasAttributes = true;
itsAttr1 = attr1;
itsAttr2 = attr2;
itsAttr3 = attr3;
itsIndex = index;
}
int write(byte[] data, int offset)
{
offset = ClassFileWriter.putInt16(itsFlags, data, offset);
offset = ClassFileWriter.putInt16(itsNameIndex, data, offset);
offset = ClassFileWriter.putInt16(itsTypeIndex, data, offset);
if (!itsHasAttributes) {
// write 0 attributes
offset = ClassFileWriter.putInt16(0, data, offset);
} else {
offset = ClassFileWriter.putInt16(1, data, offset);
offset = ClassFileWriter.putInt16(itsAttr1, data, offset);
offset = ClassFileWriter.putInt16(itsAttr2, data, offset);
offset = ClassFileWriter.putInt16(itsAttr3, data, offset);
offset = ClassFileWriter.putInt16(itsIndex, data, offset);
}
return offset;
}
int getWriteSize()
{
int size = 2 * 3;
if (!itsHasAttributes) {
size += 2;
} else {
size += 2 + 2 * 4;
}
return size;
}
private short itsNameIndex;
private short itsTypeIndex;
private short itsFlags;
private boolean itsHasAttributes;
private short itsAttr1, itsAttr2, itsAttr3;
private int itsIndex;
}
final class ClassFileMethod
{
ClassFileMethod(short nameIndex, short typeIndex, short flags)
{
itsNameIndex = nameIndex;
itsTypeIndex = typeIndex;
itsFlags = flags;
}
void setCodeAttribute(byte codeAttribute[])
{
itsCodeAttribute = codeAttribute;
}
int write(byte[] data, int offset)
{
offset = ClassFileWriter.putInt16(itsFlags, data, offset);
offset = ClassFileWriter.putInt16(itsNameIndex, data, offset);
offset = ClassFileWriter.putInt16(itsTypeIndex, data, offset);
// Code attribute only
offset = ClassFileWriter.putInt16(1, data, offset);
System.arraycopy(itsCodeAttribute, 0, data, offset,
itsCodeAttribute.length);
offset += itsCodeAttribute.length;
return offset;
}
int getWriteSize()
{
return 2 * 4 + itsCodeAttribute.length;
}
private short itsNameIndex;
private short itsTypeIndex;
private short itsFlags;
private byte[] itsCodeAttribute;
}
final class ConstantPool
{
ConstantPool(ClassFileWriter cfw)
{
this.cfw = cfw;
itsTopIndex = 1; // the zero'th entry is reserved
itsPool = new byte[ConstantPoolSize];
itsTop = 0;
}
private static final int ConstantPoolSize = 256;
private static final byte
CONSTANT_Class = 7,
CONSTANT_Fieldref = 9,
CONSTANT_Methodref = 10,
CONSTANT_InterfaceMethodref = 11,
CONSTANT_String = 8,
CONSTANT_Integer = 3,
CONSTANT_Float = 4,
CONSTANT_Long = 5,
CONSTANT_Double = 6,
CONSTANT_NameAndType = 12,
CONSTANT_Utf8 = 1;
int write(byte[] data, int offset)
{
offset = ClassFileWriter.putInt16((short)itsTopIndex, data, offset);
System.arraycopy(itsPool, 0, data, offset, itsTop);
offset += itsTop;
return offset;
}
int getWriteSize()
{
return 2 + itsTop;
}
int addConstant(int k)
{
ensure(5);
itsPool[itsTop++] = CONSTANT_Integer;
itsTop = ClassFileWriter.putInt32(k, itsPool, itsTop);
return (short)(itsTopIndex++);
}
int addConstant(long k)
{
ensure(9);
itsPool[itsTop++] = CONSTANT_Long;
itsTop = ClassFileWriter.putInt64(k, itsPool, itsTop);
int index = itsTopIndex;
itsTopIndex += 2;
return index;
}
int addConstant(float k)
{
ensure(5);
itsPool[itsTop++] = CONSTANT_Float;
int bits = Float.floatToIntBits(k);
itsTop = ClassFileWriter.putInt32(bits, itsPool, itsTop);
return itsTopIndex++;
}
int addConstant(double k)
{
ensure(9);
itsPool[itsTop++] = CONSTANT_Double;
long bits = Double.doubleToLongBits(k);
itsTop = ClassFileWriter.putInt64(bits, itsPool, itsTop);
int index = itsTopIndex;
itsTopIndex += 2;
return index;
}
int addConstant(String k)
{
int utf8Index = 0xFFFF & addUtf8(k);
int theIndex = itsStringConstHash.getInt(utf8Index, -1);
if (theIndex == -1) {
theIndex = itsTopIndex++;
ensure(3);
itsPool[itsTop++] = CONSTANT_String;
itsTop = ClassFileWriter.putInt16(utf8Index, itsPool, itsTop);
itsStringConstHash.put(utf8Index, theIndex);
}
return theIndex;
}
boolean isUnderUtfEncodingLimit(String s)
{
int strLen = s.length();
if (strLen * 3 <= MAX_UTF_ENCODING_SIZE) {
return true;
} else if (strLen > MAX_UTF_ENCODING_SIZE) {
return false;
}
return strLen == getUtfEncodingLimit(s, 0, strLen);
}
/**
* Get maximum i such that start <= i <= end and
* s.substring(start, i) fits JVM UTF string encoding limit.
*/
int getUtfEncodingLimit(String s, int start, int end)
{
if ((end - start) * 3 <= MAX_UTF_ENCODING_SIZE) {
return end;
}
int limit = MAX_UTF_ENCODING_SIZE;
for (int i = start; i != end; i++) {
int c = s.charAt(i);
if (0 != c && c <= 0x7F) {
--limit;
} else if (c < 0x7FF) {
limit -= 2;
} else {
limit -= 3;
}
if (limit < 0) {
return i;
}
}
return end;
}
short addUtf8(String k)
{
int theIndex = itsUtf8Hash.get(k, -1);
if (theIndex == -1) {
int strLen = k.length();
boolean tooBigString;
if (strLen > MAX_UTF_ENCODING_SIZE) {
tooBigString = true;
} else {
tooBigString = false;
// Ask for worst case scenario buffer when each char takes 3
// bytes
ensure(1 + 2 + strLen * 3);
int top = itsTop;
itsPool[top++] = CONSTANT_Utf8;
top += 2; // skip length
char[] chars = cfw.getCharBuffer(strLen);
k.getChars(0, strLen, chars, 0);
for (int i = 0; i != strLen; i++) {
int c = chars[i];
if (c != 0 && c <= 0x7F) {
itsPool[top++] = (byte)c;
} else if (c > 0x7FF) {
itsPool[top++] = (byte)(0xE0 | (c >> 12));
itsPool[top++] = (byte)(0x80 | ((c >> 6) & 0x3F));
itsPool[top++] = (byte)(0x80 | (c & 0x3F));
} else {
itsPool[top++] = (byte)(0xC0 | (c >> 6));
itsPool[top++] = (byte)(0x80 | (c & 0x3F));
}
}
int utfLen = top - (itsTop + 1 + 2);
if (utfLen > MAX_UTF_ENCODING_SIZE) {
tooBigString = true;
} else {
// Write back length
itsPool[itsTop + 1] = (byte)(utfLen >>> 8);
itsPool[itsTop + 2] = (byte)utfLen;
itsTop = top;
theIndex = itsTopIndex++;
itsUtf8Hash.put(k, theIndex);
}
}
if (tooBigString) {
throw new IllegalArgumentException("Too big string");
}
}
return (short)theIndex;
}
private short addNameAndType(String name, String type)
{
short nameIndex = addUtf8(name);
short typeIndex = addUtf8(type);
ensure(5);
itsPool[itsTop++] = CONSTANT_NameAndType;
itsTop = ClassFileWriter.putInt16(nameIndex, itsPool, itsTop);
itsTop = ClassFileWriter.putInt16(typeIndex, itsPool, itsTop);
return (short)(itsTopIndex++);
}
short addClass(String className)
{
int theIndex = itsClassHash.get(className, -1);
if (theIndex == -1) {
String slashed = className;
if (className.indexOf('.') > 0) {
slashed = ClassFileWriter.getSlashedForm(className);
theIndex = itsClassHash.get(slashed, -1);
if (theIndex != -1) {
itsClassHash.put(className, theIndex);
}
}
if (theIndex == -1) {
int utf8Index = addUtf8(slashed);
ensure(3);
itsPool[itsTop++] = CONSTANT_Class;
itsTop = ClassFileWriter.putInt16(utf8Index, itsPool, itsTop);
theIndex = itsTopIndex++;
itsClassHash.put(slashed, theIndex);
if (className != slashed) {
itsClassHash.put(className, theIndex);
}
}
}
return (short)theIndex;
}
short addFieldRef(String className, String fieldName, String fieldType)
{
FieldOrMethodRef ref = new FieldOrMethodRef(className, fieldName,
fieldType);
int theIndex = itsFieldRefHash.get(ref, -1);
if (theIndex == -1) {
short ntIndex = addNameAndType(fieldName, fieldType);
short classIndex = addClass(className);
ensure(5);
itsPool[itsTop++] = CONSTANT_Fieldref;
itsTop = ClassFileWriter.putInt16(classIndex, itsPool, itsTop);
itsTop = ClassFileWriter.putInt16(ntIndex, itsPool, itsTop);
theIndex = itsTopIndex++;
itsFieldRefHash.put(ref, theIndex);
}
return (short)theIndex;
}
short addMethodRef(String className, String methodName,
String methodType)
{
FieldOrMethodRef ref = new FieldOrMethodRef(className, methodName,
methodType);
int theIndex = itsMethodRefHash.get(ref, -1);
if (theIndex == -1) {
short ntIndex = addNameAndType(methodName, methodType);
short classIndex = addClass(className);
ensure(5);
itsPool[itsTop++] = CONSTANT_Methodref;
itsTop = ClassFileWriter.putInt16(classIndex, itsPool, itsTop);
itsTop = ClassFileWriter.putInt16(ntIndex, itsPool, itsTop);
theIndex = itsTopIndex++;
itsMethodRefHash.put(ref, theIndex);
}
return (short)theIndex;
}
short addInterfaceMethodRef(String className,
String methodName, String methodType)
{
short ntIndex = addNameAndType(methodName, methodType);
short classIndex = addClass(className);
ensure(5);
itsPool[itsTop++] = CONSTANT_InterfaceMethodref;
itsTop = ClassFileWriter.putInt16(classIndex, itsPool, itsTop);
itsTop = ClassFileWriter.putInt16(ntIndex, itsPool, itsTop);
return (short)(itsTopIndex++);
}
void ensure(int howMuch)
{
if (itsTop + howMuch > itsPool.length) {
int newCapacity = itsPool.length * 2;
if (itsTop + howMuch > newCapacity) {
newCapacity = itsTop + howMuch;
}
byte[] tmp = new byte[newCapacity];
System.arraycopy(itsPool, 0, tmp, 0, itsTop);
itsPool = tmp;
}
}
private ClassFileWriter cfw;
private static final int MAX_UTF_ENCODING_SIZE = 65535;
private UintMap itsStringConstHash = new UintMap();
private ObjToIntMap itsUtf8Hash = new ObjToIntMap();
private ObjToIntMap itsFieldRefHash = new ObjToIntMap();
private ObjToIntMap itsMethodRefHash = new ObjToIntMap();
private ObjToIntMap itsClassHash = new ObjToIntMap();
private int itsTop;
private int itsTopIndex;
private byte itsPool[];
}
final class FieldOrMethodRef
{
FieldOrMethodRef(String className, String name, String type)
{
this.className = className;
this.name = name;
this.type = type;
}
public boolean equals(Object obj)
{
if (!(obj instanceof FieldOrMethodRef)) { return false; }
FieldOrMethodRef x = (FieldOrMethodRef)obj;
return className.equals(x.className)
&& name.equals(x.name)
&& type.equals(x.type);
}
public int hashCode()
{
if (hashCode == -1) {
int h1 = className.hashCode();
int h2 = name.hashCode();
int h3 = type.hashCode();
hashCode = h1 ^ h2 ^ h3;
}
return hashCode;
}
private String className;
private String name;
private String type;
private int hashCode = -1;
}