scouter.javassist.bytecode.Bytecode Maven / Gradle / Ivy
/*
* Javassist, a Java-bytecode translator toolkit.
* Copyright (C) 1999- Shigeru Chiba. All Rights Reserved.
*
* 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. Alternatively, the contents of this file may be used under
* the terms of the GNU Lesser General Public License Version 2.1 or later,
* or the Apache License Version 2.0.
*
* 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.
*/
package scouter.javassist.bytecode;
import scouter.javassist.CtClass;
import scouter.javassist.CtPrimitiveType;
import scouter.javassist.bytecode.CodeAttribute;
import scouter.javassist.bytecode.ConstPool;
import scouter.javassist.bytecode.Descriptor;
import scouter.javassist.bytecode.ExceptionTable;
import scouter.javassist.bytecode.Opcode;
class ByteVector implements Cloneable {
private byte[] buffer;
private int size;
public ByteVector() {
buffer = new byte[64];
size = 0;
}
public Object clone() throws CloneNotSupportedException {
ByteVector bv = (ByteVector)super.clone();
bv.buffer = (byte[])buffer.clone();
return bv;
}
public final int getSize() { return size; }
public final byte[] copy() {
byte[] b = new byte[size];
System.arraycopy(buffer, 0, b, 0, size);
return b;
}
public int read(int offset) {
if (offset < 0 || size <= offset)
throw new ArrayIndexOutOfBoundsException(offset);
return buffer[offset];
}
public void write(int offset, int value) {
if (offset < 0 || size <= offset)
throw new ArrayIndexOutOfBoundsException(offset);
buffer[offset] = (byte)value;
}
public void add(int code) {
addGap(1);
buffer[size - 1] = (byte)code;
}
public void add(int b1, int b2) {
addGap(2);
buffer[size - 2] = (byte)b1;
buffer[size - 1] = (byte)b2;
}
public void add(int b1, int b2, int b3, int b4) {
addGap(4);
buffer[size - 4] = (byte)b1;
buffer[size - 3] = (byte)b2;
buffer[size - 2] = (byte)b3;
buffer[size - 1] = (byte)b4;
}
public void addGap(int length) {
if (size + length > buffer.length) {
int newSize = size << 1;
if (newSize < size + length)
newSize = size + length;
byte[] newBuf = new byte[newSize];
System.arraycopy(buffer, 0, newBuf, 0, size);
buffer = newBuf;
}
size += length;
}
}
/**
* A utility class for producing a bytecode sequence.
*
* A Bytecode
object is an unbounded array
* containing bytecode. For example,
*
*
* ConstPool cp = ...; // constant pool table
* Bytecode b = new Bytecode(cp, 1, 0);
* b.addIconst(3);
* b.addReturn(CtClass.intType);
* CodeAttribute ca = b.toCodeAttribute();
*
* This program produces a Code attribute including a bytecode
* sequence:
*
*
* iconst_3
* ireturn
*
* @see ConstPool
* @see CodeAttribute
*/
public class Bytecode extends ByteVector implements Cloneable, Opcode {
/**
* Represents the CtClass
file using the
* constant pool table given to this Bytecode
object.
*/
public static final CtClass THIS = ConstPool.THIS;
ConstPool constPool;
int maxStack, maxLocals;
ExceptionTable tryblocks;
private int stackDepth;
/**
* Constructs a Bytecode
object with an empty bytecode
* sequence.
*
* The parameters stacksize
and localvars
* specify initial values
* of max_stack
and max_locals
.
* They can be changed later.
*
* @param cp constant pool table.
* @param stacksize max_stack
.
* @param localvars max_locals
.
*/
public Bytecode(ConstPool cp, int stacksize, int localvars) {
constPool = cp;
maxStack = stacksize;
maxLocals = localvars;
tryblocks = new ExceptionTable(cp);
stackDepth = 0;
}
/**
* Constructs a Bytecode
object with an empty bytecode
* sequence. The initial values of max_stack
and
* max_locals
are zero.
*
* @param cp constant pool table.
* @see Bytecode#setMaxStack(int)
* @see Bytecode#setMaxLocals(int)
*/
public Bytecode(ConstPool cp) {
this(cp, 0, 0);
}
/**
* Creates and returns a copy of this object.
* The constant pool object is shared between this object
* and the cloned object.
*/
public Object clone() {
try {
Bytecode bc = (Bytecode)super.clone();
bc.tryblocks = (ExceptionTable)tryblocks.clone();
return bc;
}
catch (CloneNotSupportedException cnse) {
throw new RuntimeException(cnse);
}
}
/**
* Gets a constant pool table.
*/
public ConstPool getConstPool() { return constPool; }
/**
* Returns exception_table
.
*/
public ExceptionTable getExceptionTable() { return tryblocks; }
/**
* Converts to a CodeAttribute
.
*/
public CodeAttribute toCodeAttribute() {
return new CodeAttribute(constPool, maxStack, maxLocals,
get(), tryblocks);
}
/**
* Returns the length of the bytecode sequence.
*/
public int length() {
return getSize();
}
/**
* Returns the produced bytecode sequence.
*/
public byte[] get() {
return copy();
}
/**
* Gets max_stack
.
*/
public int getMaxStack() { return maxStack; }
/**
* Sets max_stack
.
*
*
This value may be automatically updated when an instruction
* is appended. A Bytecode
object maintains the current
* stack depth whenever an instruction is added
* by addOpcode()
. For example, if DUP is appended,
* the current stack depth is increased by one. If the new stack
* depth is more than max_stack
, then it is assigned
* to max_stack
. However, if branch instructions are
* appended, the current stack depth may not be correctly maintained.
*
* @see #addOpcode(int)
*/
public void setMaxStack(int size) {
maxStack = size;
}
/**
* Gets max_locals
.
*/
public int getMaxLocals() { return maxLocals; }
/**
* Sets max_locals
.
*/
public void setMaxLocals(int size) {
maxLocals = size;
}
/**
* Sets max_locals
.
*
*
This computes the number of local variables
* used to pass method parameters and sets max_locals
* to that number plus locals
.
*
* @param isStatic true if params
must be
* interpreted as parameters to a static method.
* @param params parameter types.
* @param locals the number of local variables excluding
* ones used to pass parameters.
*/
public void setMaxLocals(boolean isStatic, CtClass[] params,
int locals) {
if (!isStatic)
++locals;
if (params != null) {
CtClass doubleType = CtClass.doubleType;
CtClass longType = CtClass.longType;
int n = params.length;
for (int i = 0; i < n; ++i) {
CtClass type = params[i];
if (type == doubleType || type == longType)
locals += 2;
else
++locals;
}
}
maxLocals = locals;
}
/**
* Increments max_locals
.
*/
public void incMaxLocals(int diff) {
maxLocals += diff;
}
/**
* Adds a new entry of exception_table
.
*/
public void addExceptionHandler(int start, int end,
int handler, CtClass type) {
addExceptionHandler(start, end, handler,
constPool.addClassInfo(type));
}
/**
* Adds a new entry of exception_table
.
*
* @param type the fully-qualified name of a throwable class.
*/
public void addExceptionHandler(int start, int end,
int handler, String type) {
addExceptionHandler(start, end, handler,
constPool.addClassInfo(type));
}
/**
* Adds a new entry of exception_table
.
*/
public void addExceptionHandler(int start, int end,
int handler, int type) {
tryblocks.add(start, end, handler, type);
}
/**
* Returns the length of bytecode sequence
* that have been added so far.
*/
public int currentPc() {
return getSize();
}
/**
* Reads a signed 8bit value at the offset from the beginning of the
* bytecode sequence.
*
* @throws ArrayIndexOutOfBoundsException if offset is invalid.
*/
public int read(int offset) {
return super.read(offset);
}
/**
* Reads a signed 16bit value at the offset from the beginning of the
* bytecode sequence.
*/
public int read16bit(int offset) {
int v1 = read(offset);
int v2 = read(offset + 1);
return (v1 << 8) + (v2 & 0xff);
}
/**
* Reads a signed 32bit value at the offset from the beginning of the
* bytecode sequence.
*/
public int read32bit(int offset) {
int v1 = read16bit(offset);
int v2 = read16bit(offset + 2);
return (v1 << 16) + (v2 & 0xffff);
}
/**
* Writes an 8bit value at the offset from the beginning of the
* bytecode sequence.
*
* @throws ArrayIndexOutOfBoundsException if offset is invalid.
*/
public void write(int offset, int value) {
super.write(offset, value);
}
/**
* Writes an 16bit value at the offset from the beginning of the
* bytecode sequence.
*/
public void write16bit(int offset, int value) {
write(offset, value >> 8);
write(offset + 1, value);
}
/**
* Writes an 32bit value at the offset from the beginning of the
* bytecode sequence.
*/
public void write32bit(int offset, int value) {
write16bit(offset, value >> 16);
write16bit(offset + 2, value);
}
/**
* Appends an 8bit value to the end of the bytecode sequence.
*/
public void add(int code) {
super.add(code);
}
/**
* Appends a 32bit value to the end of the bytecode sequence.
*/
public void add32bit(int value) {
add(value >> 24, value >> 16, value >> 8, value);
}
/**
* Appends the length-byte gap to the end of the bytecode sequence.
*
* @param length the gap length in byte.
*/
public void addGap(int length) {
super.addGap(length);
}
/**
* Appends an 8bit opcode to the end of the bytecode sequence.
* The current stack depth is updated.
* max_stack
is updated if the current stack depth
* is the deepest so far.
*
*
Note: some instructions such as INVOKEVIRTUAL does not
* update the current stack depth since the increment depends
* on the method signature.
* growStack()
must be explicitly called.
*/
public void addOpcode(int code) {
add(code);
growStack(STACK_GROW[code]);
}
/**
* Increases the current stack depth.
* It also updates max_stack
if the current stack depth
* is the deepest so far.
*
* @param diff the number added to the current stack depth.
*/
public void growStack(int diff) {
setStackDepth(stackDepth + diff);
}
/**
* Returns the current stack depth.
*/
public int getStackDepth() { return stackDepth; }
/**
* Sets the current stack depth.
* It also updates max_stack
if the current stack depth
* is the deepest so far.
*
* @param depth new value.
*/
public void setStackDepth(int depth) {
stackDepth = depth;
if (stackDepth > maxStack)
maxStack = stackDepth;
}
/**
* Appends a 16bit value to the end of the bytecode sequence.
* It never changes the current stack depth.
*/
public void addIndex(int index) {
add(index >> 8, index);
}
/**
* Appends ALOAD or (WIDE) ALOAD_<n>
*
* @param n an index into the local variable array.
*/
public void addAload(int n) {
if (n < 4)
addOpcode(42 + n); // aload_
else if (n < 0x100) {
addOpcode(ALOAD); // aload
add(n);
}
else {
addOpcode(WIDE);
addOpcode(ALOAD);
addIndex(n);
}
}
/**
* Appends ASTORE or (WIDE) ASTORE_<n>
*
* @param n an index into the local variable array.
*/
public void addAstore(int n) {
if (n < 4)
addOpcode(75 + n); // astore_
else if (n < 0x100) {
addOpcode(ASTORE); // astore
add(n);
}
else {
addOpcode(WIDE);
addOpcode(ASTORE);
addIndex(n);
}
}
/**
* Appends ICONST or ICONST_<n>
*
* @param n the pushed integer constant.
*/
public void addIconst(int n) {
if (n < 6 && -2 < n)
addOpcode(3 + n); // iconst_ -1..5
else if (n <= 127 && -128 <= n) {
addOpcode(16); // bipush
add(n);
}
else if (n <= 32767 && -32768 <= n) {
addOpcode(17); // sipush
add(n >> 8);
add(n);
}
else
addLdc(constPool.addIntegerInfo(n));
}
/**
* Appends an instruction for pushing zero or null on the stack.
* If the type is void, this method does not append any instruction.
*
* @param type the type of the zero value (or null).
*/
public void addConstZero(CtClass type) {
if (type.isPrimitive()) {
if (type == CtClass.longType)
addOpcode(LCONST_0);
else if (type == CtClass.floatType)
addOpcode(FCONST_0);
else if (type == CtClass.doubleType)
addOpcode(DCONST_0);
else if (type == CtClass.voidType)
throw new RuntimeException("void type?");
else
addOpcode(ICONST_0);
}
else
addOpcode(ACONST_NULL);
}
/**
* Appends ILOAD or (WIDE) ILOAD_<n>
*
* @param n an index into the local variable array.
*/
public void addIload(int n) {
if (n < 4)
addOpcode(26 + n); // iload_
else if (n < 0x100) {
addOpcode(ILOAD); // iload
add(n);
}
else {
addOpcode(WIDE);
addOpcode(ILOAD);
addIndex(n);
}
}
/**
* Appends ISTORE or (WIDE) ISTORE_<n>
*
* @param n an index into the local variable array.
*/
public void addIstore(int n) {
if (n < 4)
addOpcode(59 + n); // istore_
else if (n < 0x100) {
addOpcode(ISTORE); // istore
add(n);
}
else {
addOpcode(WIDE);
addOpcode(ISTORE);
addIndex(n);
}
}
/**
* Appends LCONST or LCONST_<n>
*
* @param n the pushed long integer constant.
*/
public void addLconst(long n) {
if (n == 0 || n == 1)
addOpcode(9 + (int)n); // lconst_
else
addLdc2w(n);
}
/**
* Appends LLOAD or (WIDE) LLOAD_<n>
*
* @param n an index into the local variable array.
*/
public void addLload(int n) {
if (n < 4)
addOpcode(30 + n); // lload_
else if (n < 0x100) {
addOpcode(LLOAD); // lload
add(n);
}
else {
addOpcode(WIDE);
addOpcode(LLOAD);
addIndex(n);
}
}
/**
* Appends LSTORE or LSTORE_<n>
*
* @param n an index into the local variable array.
*/
public void addLstore(int n) {
if (n < 4)
addOpcode(63 + n); // lstore_
else if (n < 0x100) {
addOpcode(LSTORE); // lstore
add(n);
}
else {
addOpcode(WIDE);
addOpcode(LSTORE);
addIndex(n);
}
}
/**
* Appends DCONST or DCONST_<n>
*
* @param d the pushed double constant.
*/
public void addDconst(double d) {
if (d == 0.0 || d == 1.0)
addOpcode(14 + (int)d); // dconst_
else
addLdc2w(d);
}
/**
* Appends DLOAD or (WIDE) DLOAD_<n>
*
* @param n an index into the local variable array.
*/
public void addDload(int n) {
if (n < 4)
addOpcode(38 + n); // dload_
else if (n < 0x100) {
addOpcode(DLOAD); // dload
add(n);
}
else {
addOpcode(WIDE);
addOpcode(DLOAD);
addIndex(n);
}
}
/**
* Appends DSTORE or (WIDE) DSTORE_<n>
*
* @param n an index into the local variable array.
*/
public void addDstore(int n) {
if (n < 4)
addOpcode(71 + n); // dstore_
else if (n < 0x100) {
addOpcode(DSTORE); // dstore
add(n);
}
else {
addOpcode(WIDE);
addOpcode(DSTORE);
addIndex(n);
}
}
/**
* Appends FCONST or FCONST_<n>
*
* @param f the pushed float constant.
*/
public void addFconst(float f) {
if (f == 0.0f || f == 1.0f || f == 2.0f)
addOpcode(11 + (int)f); // fconst_
else
addLdc(constPool.addFloatInfo(f));
}
/**
* Appends FLOAD or (WIDE) FLOAD_<n>
*
* @param n an index into the local variable array.
*/
public void addFload(int n) {
if (n < 4)
addOpcode(34 + n); // fload_
else if (n < 0x100) {
addOpcode(FLOAD); // fload
add(n);
}
else {
addOpcode(WIDE);
addOpcode(FLOAD);
addIndex(n);
}
}
/**
* Appends FSTORE or FSTORE_<n>
*
* @param n an index into the local variable array.
*/
public void addFstore(int n) {
if (n < 4)
addOpcode(67 + n); // fstore_
else if (n < 0x100) {
addOpcode(FSTORE); // fstore
add(n);
}
else {
addOpcode(WIDE);
addOpcode(FSTORE);
addIndex(n);
}
}
/**
* Appends an instruction for loading a value from the
* local variable at the index n
.
*
* @param n the index.
* @param type the type of the loaded value.
* @return the size of the value (1 or 2 word).
*/
public int addLoad(int n, CtClass type) {
if (type.isPrimitive()) {
if (type == CtClass.booleanType || type == CtClass.charType
|| type == CtClass.byteType || type == CtClass.shortType
|| type == CtClass.intType)
addIload(n);
else if (type == CtClass.longType) {
addLload(n);
return 2;
}
else if(type == CtClass.floatType)
addFload(n);
else if(type == CtClass.doubleType) {
addDload(n);
return 2;
}
else
throw new RuntimeException("void type?");
}
else
addAload(n);
return 1;
}
/**
* Appends an instruction for storing a value into the
* local variable at the index n
.
*
* @param n the index.
* @param type the type of the stored value.
* @return 2 if the type is long or double. Otherwise 1.
*/
public int addStore(int n, CtClass type) {
if (type.isPrimitive()) {
if (type == CtClass.booleanType || type == CtClass.charType
|| type == CtClass.byteType || type == CtClass.shortType
|| type == CtClass.intType)
addIstore(n);
else if (type == CtClass.longType) {
addLstore(n);
return 2;
}
else if (type == CtClass.floatType)
addFstore(n);
else if (type == CtClass.doubleType) {
addDstore(n);
return 2;
}
else
throw new RuntimeException("void type?");
}
else
addAstore(n);
return 1;
}
/**
* Appends instructions for loading all the parameters onto the
* operand stack.
*
* @param offset the index of the first parameter. It is 0
* if the method is static. Otherwise, it is 1.
*/
public int addLoadParameters(CtClass[] params, int offset) {
int stacksize = 0;
if (params != null) {
int n = params.length;
for (int i = 0; i < n; ++i)
stacksize += addLoad(stacksize + offset, params[i]);
}
return stacksize;
}
/**
* Appends CHECKCAST.
*
* @param c the type.
*/
public void addCheckcast(CtClass c) {
addOpcode(CHECKCAST);
addIndex(constPool.addClassInfo(c));
}
/**
* Appends CHECKCAST.
*
* @param classname a fully-qualified class name.
*/
public void addCheckcast(String classname) {
addOpcode(CHECKCAST);
addIndex(constPool.addClassInfo(classname));
}
/**
* Appends INSTANCEOF.
*
* @param classname the class name.
*/
public void addInstanceof(String classname) {
addOpcode(INSTANCEOF);
addIndex(constPool.addClassInfo(classname));
}
/**
* Appends GETFIELD.
*
* @param c the class.
* @param name the field name.
* @param type the descriptor of the field type.
*
* @see Descriptor#of(CtClass)
*/
public void addGetfield(CtClass c, String name, String type) {
add(GETFIELD);
int ci = constPool.addClassInfo(c);
addIndex(constPool.addFieldrefInfo(ci, name, type));
growStack(Descriptor.dataSize(type) - 1);
}
/**
* Appends GETFIELD.
*
* @param c the fully-qualified class name.
* @param name the field name.
* @param type the descriptor of the field type.
*
* @see Descriptor#of(CtClass)
*/
public void addGetfield(String c, String name, String type) {
add(GETFIELD);
int ci = constPool.addClassInfo(c);
addIndex(constPool.addFieldrefInfo(ci, name, type));
growStack(Descriptor.dataSize(type) - 1);
}
/**
* Appends GETSTATIC.
*
* @param c the class
* @param name the field name
* @param type the descriptor of the field type.
*
* @see Descriptor#of(CtClass)
*/
public void addGetstatic(CtClass c, String name, String type) {
add(GETSTATIC);
int ci = constPool.addClassInfo(c);
addIndex(constPool.addFieldrefInfo(ci, name, type));
growStack(Descriptor.dataSize(type));
}
/**
* Appends GETSTATIC.
*
* @param c the fully-qualified class name
* @param name the field name
* @param type the descriptor of the field type.
*
* @see Descriptor#of(CtClass)
*/
public void addGetstatic(String c, String name, String type) {
add(GETSTATIC);
int ci = constPool.addClassInfo(c);
addIndex(constPool.addFieldrefInfo(ci, name, type));
growStack(Descriptor.dataSize(type));
}
/**
* Appends INVOKESPECIAL.
*
* @param clazz the target class.
* @param name the method name.
* @param returnType the return type.
* @param paramTypes the parameter types.
*/
public void addInvokespecial(CtClass clazz, String name,
CtClass returnType, CtClass[] paramTypes) {
String desc = Descriptor.ofMethod(returnType, paramTypes);
addInvokespecial(clazz, name, desc);
}
/**
* Appends INVOKESPECIAL.
*
* @param clazz the target class.
* @param name the method name
* @param desc the descriptor of the method signature.
*
* @see Descriptor#ofMethod(CtClass,CtClass[])
* @see Descriptor#ofConstructor(CtClass[])
*/
public void addInvokespecial(CtClass clazz, String name, String desc) {
boolean isInterface = clazz == null ? false : clazz.isInterface();
addInvokespecial(isInterface,
constPool.addClassInfo(clazz), name, desc);
}
/**
* Appends INVOKESPECIAL. The invoked method must not be a default
* method declared in an interface.
*
* @param clazz the fully-qualified class name.
* @param name the method name
* @param desc the descriptor of the method signature.
*
* @see Descriptor#ofMethod(CtClass,CtClass[])
* @see Descriptor#ofConstructor(CtClass[])
*/
public void addInvokespecial(String clazz, String name, String desc) {
addInvokespecial(false, constPool.addClassInfo(clazz), name, desc);
}
/**
* Appends INVOKESPECIAL. The invoked method must not be a default
* method declared in an interface.
*
* @param clazz the index of CONSTANT_Class_info
* structure.
* @param name the method name
* @param desc the descriptor of the method signature.
*
* @see Descriptor#ofMethod(CtClass,CtClass[])
* @see Descriptor#ofConstructor(CtClass[])
*/
public void addInvokespecial(int clazz, String name, String desc) {
addInvokespecial(false, clazz, name, desc);
}
/**
* Appends INVOKESPECIAL.
*
* @param isInterface true if the invoked method is a default method
* declared in an interface.
* @param clazz the index of CONSTANT_Class_info
* structure.
* @param name the method name
* @param desc the descriptor of the method signature.
*
* @see Descriptor#ofMethod(CtClass,CtClass[])
* @see Descriptor#ofConstructor(CtClass[])
*/
public void addInvokespecial(boolean isInterface, int clazz, String name, String desc) {
add(INVOKESPECIAL);
int index;
if (isInterface)
index = constPool.addInterfaceMethodrefInfo(clazz, name, desc);
else
index = constPool.addMethodrefInfo(clazz, name, desc);
addIndex(index);
growStack(Descriptor.dataSize(desc) - 1);
}
/**
* Appends INVOKESTATIC.
*
* @param clazz the target class.
* @param name the method name
* @param returnType the return type.
* @param paramTypes the parameter types.
*/
public void addInvokestatic(CtClass clazz, String name,
CtClass returnType, CtClass[] paramTypes) {
String desc = Descriptor.ofMethod(returnType, paramTypes);
addInvokestatic(clazz, name, desc);
}
/**
* Appends INVOKESTATIC.
*
* @param clazz the target class.
* @param name the method name
* @param desc the descriptor of the method signature.
*
* @see Descriptor#ofMethod(CtClass,CtClass[])
*/
public void addInvokestatic(CtClass clazz, String name, String desc) {
addInvokestatic(constPool.addClassInfo(clazz), name, desc);
}
/**
* Appends INVOKESTATIC.
*
* @param classname the fully-qualified class name.
* @param name the method name
* @param desc the descriptor of the method signature.
*
* @see Descriptor#ofMethod(CtClass,CtClass[])
*/
public void addInvokestatic(String classname, String name, String desc) {
addInvokestatic(constPool.addClassInfo(classname), name, desc);
}
/**
* Appends INVOKESTATIC.
*
* @param clazz the index of CONSTANT_Class_info
* structure.
* @param name the method name
* @param desc the descriptor of the method signature.
*
* @see Descriptor#ofMethod(CtClass,CtClass[])
*/
public void addInvokestatic(int clazz, String name, String desc) {
add(INVOKESTATIC);
addIndex(constPool.addMethodrefInfo(clazz, name, desc));
growStack(Descriptor.dataSize(desc));
}
/**
* Appends INVOKEVIRTUAL.
*
* The specified method must not be an inherited method.
* It must be directly declared in the class specified
* in clazz
.
*
* @param clazz the target class.
* @param name the method name
* @param returnType the return type.
* @param paramTypes the parameter types.
*/
public void addInvokevirtual(CtClass clazz, String name,
CtClass returnType, CtClass[] paramTypes) {
String desc = Descriptor.ofMethod(returnType, paramTypes);
addInvokevirtual(clazz, name, desc);
}
/**
* Appends INVOKEVIRTUAL.
*
*
The specified method must not be an inherited method.
* It must be directly declared in the class specified
* in clazz
.
*
* @param clazz the target class.
* @param name the method name
* @param desc the descriptor of the method signature.
*
* @see Descriptor#ofMethod(CtClass,CtClass[])
*/
public void addInvokevirtual(CtClass clazz, String name, String desc) {
addInvokevirtual(constPool.addClassInfo(clazz), name, desc);
}
/**
* Appends INVOKEVIRTUAL.
*
*
The specified method must not be an inherited method.
* It must be directly declared in the class specified
* in classname
.
*
* @param classname the fully-qualified class name.
* @param name the method name
* @param desc the descriptor of the method signature.
*
* @see Descriptor#ofMethod(CtClass,CtClass[])
*/
public void addInvokevirtual(String classname, String name, String desc) {
addInvokevirtual(constPool.addClassInfo(classname), name, desc);
}
/**
* Appends INVOKEVIRTUAL.
*
*
The specified method must not be an inherited method.
* It must be directly declared in the class specified
* by clazz
.
*
* @param clazz the index of CONSTANT_Class_info
* structure.
* @param name the method name
* @param desc the descriptor of the method signature.
*
* @see Descriptor#ofMethod(CtClass,CtClass[])
*/
public void addInvokevirtual(int clazz, String name, String desc) {
add(INVOKEVIRTUAL);
addIndex(constPool.addMethodrefInfo(clazz, name, desc));
growStack(Descriptor.dataSize(desc) - 1);
}
/**
* Appends INVOKEINTERFACE.
*
* @param clazz the target class.
* @param name the method name
* @param returnType the return type.
* @param paramTypes the parameter types.
* @param count the count operand of the instruction.
*/
public void addInvokeinterface(CtClass clazz, String name,
CtClass returnType, CtClass[] paramTypes,
int count) {
String desc = Descriptor.ofMethod(returnType, paramTypes);
addInvokeinterface(clazz, name, desc, count);
}
/**
* Appends INVOKEINTERFACE.
*
* @param clazz the target class.
* @param name the method name
* @param desc the descriptor of the method signature.
* @param count the count operand of the instruction.
*
* @see Descriptor#ofMethod(CtClass,CtClass[])
*/
public void addInvokeinterface(CtClass clazz, String name,
String desc, int count) {
addInvokeinterface(constPool.addClassInfo(clazz), name, desc,
count);
}
/**
* Appends INVOKEINTERFACE.
*
* @param classname the fully-qualified class name.
* @param name the method name
* @param desc the descriptor of the method signature.
* @param count the count operand of the instruction.
*
* @see Descriptor#ofMethod(CtClass,CtClass[])
*/
public void addInvokeinterface(String classname, String name,
String desc, int count) {
addInvokeinterface(constPool.addClassInfo(classname), name, desc,
count);
}
/**
* Appends INVOKEINTERFACE.
*
* @param clazz the index of CONSTANT_Class_info
* structure.
* @param name the method name
* @param desc the descriptor of the method signature.
* @param count the count operand of the instruction.
*
* @see Descriptor#ofMethod(CtClass,CtClass[])
*/
public void addInvokeinterface(int clazz, String name,
String desc, int count) {
add(INVOKEINTERFACE);
addIndex(constPool.addInterfaceMethodrefInfo(clazz, name, desc));
add(count);
add(0);
growStack(Descriptor.dataSize(desc) - 1);
}
/**
* Appends INVOKEDYNAMIC.
*
* @param bootstrap an index into the bootstrap_methods
array
* of the bootstrap method table.
* @param name the method name.
* @param desc the method descriptor.
* @see Descriptor#ofMethod(CtClass,CtClass[])
* @since 3.17
*/
public void addInvokedynamic(int bootstrap, String name, String desc) {
int nt = constPool.addNameAndTypeInfo(name, desc);
int dyn = constPool.addInvokeDynamicInfo(bootstrap, nt);
add(INVOKEDYNAMIC);
addIndex(dyn);
add(0, 0);
growStack(Descriptor.dataSize(desc)); // assume ConstPool#REF_invokeStatic
}
/**
* Appends LDC or LDC_W. The pushed item is a String
* object.
*
* @param s the character string pushed by LDC or LDC_W.
*/
public void addLdc(String s) {
addLdc(constPool.addStringInfo(s));
}
/**
* Appends LDC or LDC_W.
*
* @param i index into the constant pool.
*/
public void addLdc(int i) {
if (i > 0xFF) {
addOpcode(LDC_W);
addIndex(i);
}
else {
addOpcode(LDC);
add(i);
}
}
/**
* Appends LDC2_W. The pushed item is a long value.
*/
public void addLdc2w(long l) {
addOpcode(LDC2_W);
addIndex(constPool.addLongInfo(l));
}
/**
* Appends LDC2_W. The pushed item is a double value.
*/
public void addLdc2w(double d) {
addOpcode(LDC2_W);
addIndex(constPool.addDoubleInfo(d));
}
/**
* Appends NEW.
*
* @param clazz the class of the created instance.
*/
public void addNew(CtClass clazz) {
addOpcode(NEW);
addIndex(constPool.addClassInfo(clazz));
}
/**
* Appends NEW.
*
* @param classname the fully-qualified class name.
*/
public void addNew(String classname) {
addOpcode(NEW);
addIndex(constPool.addClassInfo(classname));
}
/**
* Appends ANEWARRAY.
*
* @param classname the qualified class name of the element type.
*/
public void addAnewarray(String classname) {
addOpcode(ANEWARRAY);
addIndex(constPool.addClassInfo(classname));
}
/**
* Appends ICONST and ANEWARRAY.
*
* @param clazz the elememnt type.
* @param length the array length.
*/
public void addAnewarray(CtClass clazz, int length) {
addIconst(length);
addOpcode(ANEWARRAY);
addIndex(constPool.addClassInfo(clazz));
}
/**
* Appends NEWARRAY for primitive types.
*
* @param atype T_BOOLEAN
, T_CHAR
, ...
* @see Opcode
*/
public void addNewarray(int atype, int length) {
addIconst(length);
addOpcode(NEWARRAY);
add(atype);
}
/**
* Appends MULTINEWARRAY.
*
* @param clazz the array type.
* @param dimensions the sizes of all dimensions.
* @return the length of dimensions
.
*/
public int addMultiNewarray(CtClass clazz, int[] dimensions) {
int len = dimensions.length;
for (int i = 0; i < len; ++i)
addIconst(dimensions[i]);
growStack(len);
return addMultiNewarray(clazz, len);
}
/**
* Appends MULTINEWARRAY. The size of every dimension must have been
* already pushed on the stack.
*
* @param clazz the array type.
* @param dim the number of the dimensions.
* @return the value of dim
.
*/
public int addMultiNewarray(CtClass clazz, int dim) {
add(MULTIANEWARRAY);
addIndex(constPool.addClassInfo(clazz));
add(dim);
growStack(1 - dim);
return dim;
}
/**
* Appends MULTINEWARRAY.
*
* @param desc the type descriptor of the created array.
* @param dim dimensions.
* @return the value of dim
.
*/
public int addMultiNewarray(String desc, int dim) {
add(MULTIANEWARRAY);
addIndex(constPool.addClassInfo(desc));
add(dim);
growStack(1 - dim);
return dim;
}
/**
* Appends PUTFIELD.
*
* @param c the target class.
* @param name the field name.
* @param desc the descriptor of the field type.
*/
public void addPutfield(CtClass c, String name, String desc) {
addPutfield0(c, null, name, desc);
}
/**
* Appends PUTFIELD.
*
* @param classname the fully-qualified name of the target class.
* @param name the field name.
* @param desc the descriptor of the field type.
*/
public void addPutfield(String classname, String name, String desc) {
// if classnaem is null, the target class is THIS.
addPutfield0(null, classname, name, desc);
}
private void addPutfield0(CtClass target, String classname,
String name, String desc) {
add(PUTFIELD);
// target is null if it represents THIS.
int ci = classname == null ? constPool.addClassInfo(target)
: constPool.addClassInfo(classname);
addIndex(constPool.addFieldrefInfo(ci, name, desc));
growStack(-1 - Descriptor.dataSize(desc));
}
/**
* Appends PUTSTATIC.
*
* @param c the target class.
* @param name the field name.
* @param desc the descriptor of the field type.
*/
public void addPutstatic(CtClass c, String name, String desc) {
addPutstatic0(c, null, name, desc);
}
/**
* Appends PUTSTATIC.
*
* @param classname the fully-qualified name of the target class.
* @param fieldName the field name.
* @param desc the descriptor of the field type.
*/
public void addPutstatic(String classname, String fieldName, String desc) {
// if classname is null, the target class is THIS.
addPutstatic0(null, classname, fieldName, desc);
}
private void addPutstatic0(CtClass target, String classname,
String fieldName, String desc) {
add(PUTSTATIC);
// target is null if it represents THIS.
int ci = classname == null ? constPool.addClassInfo(target)
: constPool.addClassInfo(classname);
addIndex(constPool.addFieldrefInfo(ci, fieldName, desc));
growStack(-Descriptor.dataSize(desc));
}
/**
* Appends ARETURN, IRETURN, .., or RETURN.
*
* @param type the return type.
*/
public void addReturn(CtClass type) {
if (type == null)
addOpcode(RETURN);
else if (type.isPrimitive()) {
CtPrimitiveType ptype = (CtPrimitiveType)type;
addOpcode(ptype.getReturnOp());
}
else
addOpcode(ARETURN);
}
/**
* Appends RET.
*
* @param var local variable
*/
public void addRet(int var) {
if (var < 0x100) {
addOpcode(RET);
add(var);
}
else {
addOpcode(WIDE);
addOpcode(RET);
addIndex(var);
}
}
/**
* Appends instructions for executing
* java.lang.System.println(message)
.
*
* @param message printed message.
*/
public void addPrintln(String message) {
addGetstatic("java.lang.System", "err", "Ljava/io/PrintStream;");
addLdc(message);
addInvokevirtual("java.io.PrintStream",
"println", "(Ljava/lang/String;)V");
}
}