/*
* 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 org.googlecode.perftrace.javassist.compiler;
import org.googlecode.perftrace.javassist.*;
import org.googlecode.perftrace.javassist.bytecode.*;
import org.googlecode.perftrace.javassist.compiler.ast.*;
/* Code generator accepting extended Java syntax for Javassist.
*/
public class JvstCodeGen extends MemberCodeGen {
String paramArrayName = null;
String paramListName = null;
CtClass[] paramTypeList = null;
private int paramVarBase = 0; // variable index for $0 or $1.
private boolean useParam0 = false; // true if $0 is used.
private String param0Type = null; // JVM name
public static final String sigName = "$sig";
public static final String dollarTypeName = "$type";
public static final String clazzName = "$class";
private CtClass dollarType = null;
CtClass returnType = null;
String returnCastName = null;
private String returnVarName = null; // null if $_ is not used.
public static final String wrapperCastName = "$w";
String proceedName = null;
public static final String cflowName = "$cflow";
ProceedHandler procHandler = null; // null if not used.
public JvstCodeGen(Bytecode b, CtClass cc, ClassPool cp) {
super(b, cc, cp);
setTypeChecker(new JvstTypeChecker(cc, cp, this));
}
/* Index of $1.
*/
private int indexOfParam1() {
return paramVarBase + (useParam0 ? 1 : 0);
}
/* Records a ProceedHandler obejct.
*
* @param name the name of the special method call.
* it is usually $proceed.
*/
public void setProceedHandler(ProceedHandler h, String name) {
proceedName = name;
procHandler = h;
}
/* If the type of the expression compiled last is void,
* add ACONST_NULL and change exprType, arrayDim, className.
*/
public void addNullIfVoid() {
if (exprType == VOID) {
bytecode.addOpcode(ACONST_NULL);
exprType = CLASS;
arrayDim = 0;
className = jvmJavaLangObject;
}
}
/* To support $args, $sig, and $type.
* $args is an array of parameter list.
*/
public void atMember(Member mem) throws CompileError {
String name = mem.get();
if (name.equals(paramArrayName)) {
compileParameterList(bytecode, paramTypeList, indexOfParam1());
exprType = CLASS;
arrayDim = 1;
className = jvmJavaLangObject;
}
else if (name.equals(sigName)) {
bytecode.addLdc(Descriptor.ofMethod(returnType, paramTypeList));
bytecode.addInvokestatic("javassist/runtime/Desc", "getParams",
"(Ljava/lang/String;)[Ljava/lang/Class;");
exprType = CLASS;
arrayDim = 1;
className = "java/lang/Class";
}
else if (name.equals(dollarTypeName)) {
if (dollarType == null)
throw new CompileError(dollarTypeName + " is not available");
bytecode.addLdc(Descriptor.of(dollarType));
callGetType("getType");
}
else if (name.equals(clazzName)) {
if (param0Type == null)
throw new CompileError(clazzName + " is not available");
bytecode.addLdc(param0Type);
callGetType("getClazz");
}
else
super.atMember(mem);
}
private void callGetType(String method) {
bytecode.addInvokestatic("javassist/runtime/Desc", method,
"(Ljava/lang/String;)Ljava/lang/Class;");
exprType = CLASS;
arrayDim = 0;
className = "java/lang/Class";
}
protected void atFieldAssign(Expr expr, int op, ASTree left,
ASTree right, boolean doDup) throws CompileError
{
if (left instanceof Member
&& ((Member)left).get().equals(paramArrayName)) {
if (op != '=')
throw new CompileError("bad operator for " + paramArrayName);
right.accept(this);
if (arrayDim != 1 || exprType != CLASS)
throw new CompileError("invalid type for " + paramArrayName);
atAssignParamList(paramTypeList, bytecode);
if (!doDup)
bytecode.addOpcode(POP);
}
else
super.atFieldAssign(expr, op, left, right, doDup);
}
protected void atAssignParamList(CtClass[] params, Bytecode code)
throws CompileError
{
if (params == null)
return;
int varNo = indexOfParam1();
int n = params.length;
for (int i = 0; i < n; ++i) {
code.addOpcode(DUP);
code.addIconst(i);
code.addOpcode(AALOAD);
compileUnwrapValue(params[i], code);
code.addStore(varNo, params[i]);
varNo += is2word(exprType, arrayDim) ? 2 : 1;
}
}
public void atCastExpr(CastExpr expr) throws CompileError {
ASTList classname = expr.getClassName();
if (classname != null && expr.getArrayDim() == 0) {
ASTree p = classname.head();
if (p instanceof Symbol && classname.tail() == null) {
String typename = ((Symbol)p).get();
if (typename.equals(returnCastName)) {
atCastToRtype(expr);
return;
}
else if (typename.equals(wrapperCastName)) {
atCastToWrapper(expr);
return;
}
}
}
super.atCastExpr(expr);
}
/**
* Inserts a cast operator to the return type.
* If the return type is void, this does nothing.
*/
protected void atCastToRtype(CastExpr expr) throws CompileError {
expr.getOprand().accept(this);
if (exprType == VOID || isRefType(exprType) || arrayDim > 0)
compileUnwrapValue(returnType, bytecode);
else if (returnType instanceof CtPrimitiveType) {
CtPrimitiveType pt = (CtPrimitiveType)returnType;
int destType = MemberResolver.descToType(pt.getDescriptor());
atNumCastExpr(exprType, destType);
exprType = destType;
arrayDim = 0;
className = null;
}
else
throw new CompileError("invalid cast");
}
protected void atCastToWrapper(CastExpr expr) throws CompileError {
expr.getOprand().accept(this);
if (isRefType(exprType) || arrayDim > 0)
return; // Object type. do nothing.
CtClass clazz = resolver.lookupClass(exprType, arrayDim, className);
if (clazz instanceof CtPrimitiveType) {
CtPrimitiveType pt = (CtPrimitiveType)clazz;
String wrapper = pt.getWrapperName();
bytecode.addNew(wrapper); // new <wrapper>
bytecode.addOpcode(DUP); // dup
if (pt.getDataSize() > 1)
bytecode.addOpcode(DUP2_X2); // dup2_x2
else
bytecode.addOpcode(DUP2_X1); // dup2_x1
bytecode.addOpcode(POP2); // pop2
bytecode.addInvokespecial(wrapper, "<init>",
"(" + pt.getDescriptor() + ")V");
// invokespecial
exprType = CLASS;
arrayDim = 0;
className = jvmJavaLangObject;
}
}
/* Delegates to a ProcHandler object if the method call is
* $proceed(). It may process $cflow().
*/
public void atCallExpr(CallExpr expr) throws CompileError {
ASTree method = expr.oprand1();
if (method instanceof Member) {
String name = ((Member)method).get();
if (procHandler != null && name.equals(proceedName)) {
procHandler.doit(this, bytecode, (ASTList)expr.oprand2());
return;
}
else if (name.equals(cflowName)) {
atCflow((ASTList)expr.oprand2());
return;
}
}
super.atCallExpr(expr);
}
/* To support $cflow().
*/
protected void atCflow(ASTList cname) throws CompileError {
StringBuffer sbuf = new StringBuffer();
if (cname == null || cname.tail() != null)
throw new CompileError("bad " + cflowName);
makeCflowName(sbuf, cname.head());
String name = sbuf.toString();
Object[] names = resolver.getClassPool().lookupCflow(name);
if (names == null)
throw new CompileError("no such " + cflowName + ": " + name);
bytecode.addGetstatic((String)names[0], (String)names[1],
"Ljavassist/runtime/Cflow;");
bytecode.addInvokevirtual("javassist.runtime.Cflow",
"value", "()I");
exprType = INT;
arrayDim = 0;
className = null;
}
/* Syntax:
*
* <cflow> : $cflow '(' <cflow name> ')'
* <cflow name> : <identifier> ('.' <identifier>)*
*/
private static void makeCflowName(StringBuffer sbuf, ASTree name)
throws CompileError
{
if (name instanceof Symbol) {
sbuf.append(((Symbol)name).get());
return;
}
else if (name instanceof Expr) {
Expr expr = (Expr)name;
if (expr.getOperator() == '.') {
makeCflowName(sbuf, expr.oprand1());
sbuf.append('.');
makeCflowName(sbuf, expr.oprand2());
return;
}
}
throw new CompileError("bad " + cflowName);
}
/* To support $$. ($$) is equivalent to ($1, ..., $n).
* It can be used only as a parameter list of method call.
*/
public boolean isParamListName(ASTList args) {
if (paramTypeList != null
&& args != null && args.tail() == null) {
ASTree left = args.head();
return (left instanceof Member
&& ((Member)left).get().equals(paramListName));
}
else
return false;
}
/*
public int getMethodArgsLength(ASTList args) {
if (!isParamListName(args))
return super.getMethodArgsLength(args);
return paramTypeList.length;
}
*/
public int getMethodArgsLength(ASTList args) {
String pname = paramListName;
int n = 0;
while (args != null) {
ASTree a = args.head();
if (a instanceof Member && ((Member)a).get().equals(pname)) {
if (paramTypeList != null)
n += paramTypeList.length;
}
else
++n;
args = args.tail();
}
return n;
}
public void atMethodArgs(ASTList args, int[] types, int[] dims,
String[] cnames) throws CompileError {
CtClass[] params = paramTypeList;
String pname = paramListName;
int i = 0;
while (args != null) {
ASTree a = args.head();
if (a instanceof Member && ((Member)a).get().equals(pname)) {
if (params != null) {
int n = params.length;
int regno = indexOfParam1();
for (int k = 0; k < n; ++k) {
CtClass p = params[k];
regno += bytecode.addLoad(regno, p);
setType(p);
types[i] = exprType;
dims[i] = arrayDim;
cnames[i] = className;
++i;
}
}
}
else {
a.accept(this);
types[i] = exprType;
dims[i] = arrayDim;
cnames[i] = className;
++i;
}
args = args.tail();
}
}
/*
public void atMethodArgs(ASTList args, int[] types, int[] dims,
String[] cnames) throws CompileError {
if (!isParamListName(args)) {
super.atMethodArgs(args, types, dims, cnames);
return;
}
CtClass[] params = paramTypeList;
if (params == null)
return;
int n = params.length;
int regno = indexOfParam1();
for (int i = 0; i < n; ++i) {
CtClass p = params[i];
regno += bytecode.addLoad(regno, p);
setType(p);
types[i] = exprType;
dims[i] = arrayDim;
cnames[i] = className;
}
}
*/
/* called by Javac#recordSpecialProceed().
*/
void compileInvokeSpecial(ASTree target, String classname,
String methodname, String descriptor,
ASTList args)
throws CompileError
{
target.accept(this);
int nargs = getMethodArgsLength(args);
atMethodArgs(args, new int[nargs], new int[nargs],
new String[nargs]);
bytecode.addInvokespecial(classname, methodname, descriptor);
setReturnType(descriptor, false, false);
addNullIfVoid();
}
/*
* Makes it valid to write "return <expr>;" for a void method.
*/
protected void atReturnStmnt(Stmnt st) throws CompileError {
ASTree result = st.getLeft();
if (result != null && returnType == CtClass.voidType) {
compileExpr(result);
if (is2word(exprType, arrayDim))
bytecode.addOpcode(POP2);
else if (exprType != VOID)
bytecode.addOpcode(POP);
result = null;
}
atReturnStmnt2(result);
}
/**
* Makes a cast to the return type ($r) available.
* It also enables $_.
*
* <p>If the return type is void, ($r) does nothing.
* The type of $_ is java.lang.Object.
*
* @param resultName null if $_ is not used.
* @return -1 or the variable index assigned to $_.
*/
public int recordReturnType(CtClass type, String castName,
String resultName, SymbolTable tbl) throws CompileError
{
returnType = type;
returnCastName = castName;
returnVarName = resultName;
if (resultName == null)
return -1;
else {
int varNo = getMaxLocals();
int locals = varNo + recordVar(type, resultName, varNo, tbl);
setMaxLocals(locals);
return varNo;
}
}
/**
* Makes $type available.
*/
public void recordType(CtClass t) {
dollarType = t;
}
/**
* Makes method parameters $0, $1, ..., $args, $$, and $class available.
* $0 is equivalent to THIS if the method is not static. Otherwise,
* if the method is static, then $0 is not available.
*/
public int recordParams(CtClass[] params, boolean isStatic,
String prefix, String paramVarName,
String paramsName, SymbolTable tbl)
throws CompileError
{
return recordParams(params, isStatic, prefix, paramVarName,
paramsName, !isStatic, 0, getThisName(), tbl);
}
/**
* Makes method parameters $0, $1, ..., $args, $$, and $class available.
* $0 is available only if use0 is true. It might not be equivalent
* to THIS.
*
* @param params the parameter types (the types of $1, $2, ..)
* @param prefix it must be "$" (the first letter of $0, $1, ...)
* @param paramVarName it must be "$args"
* @param paramsName it must be "$$"
* @param use0 true if $0 is used.
* @param paramBase the register number of $0 (use0 is true)
* or $1 (otherwise).
* @param target the class of $0. If use0 is false, target
* can be null. The value of "target" is also used
* as the name of the type represented by $class.
* @param isStatic true if the method in which the compiled bytecode
* is embedded is static.
*/
public int recordParams(CtClass[] params, boolean isStatic,
String prefix, String paramVarName,
String paramsName, boolean use0,
int paramBase, String target,
SymbolTable tbl)
throws CompileError
{
int varNo;
paramTypeList = params;
paramArrayName = paramVarName;
paramListName = paramsName;
paramVarBase = paramBase;
useParam0 = use0;
if (target != null)
param0Type = MemberResolver.jvmToJavaName(target);
inStaticMethod = isStatic;
varNo = paramBase;
if (use0) {
String varName = prefix + "0";
Declarator decl
= new Declarator(CLASS, MemberResolver.javaToJvmName(target),
0, varNo++, new Symbol(varName));
tbl.append(varName, decl);
}
for (int i = 0; i < params.length; ++i)
varNo += recordVar(params[i], prefix + (i + 1), varNo, tbl);
if (getMaxLocals() < varNo)
setMaxLocals(varNo);
return varNo;
}
/**
* Makes the given variable name available.
*
* @param type variable type
* @param varName variable name
*/
public int recordVariable(CtClass type, String varName, SymbolTable tbl)
throws CompileError
{
if (varName == null)
return -1;
else {
int varNo = getMaxLocals();
int locals = varNo + recordVar(type, varName, varNo, tbl);
setMaxLocals(locals);
return varNo;
}
}
private int recordVar(CtClass cc, String varName, int varNo,
SymbolTable tbl) throws CompileError
{
if (cc == CtClass.voidType) {
exprType = CLASS;
arrayDim = 0;
className = jvmJavaLangObject;
}
else
setType(cc);
Declarator decl
= new Declarator(exprType, className, arrayDim,
varNo, new Symbol(varName));
tbl.append(varName, decl);
return is2word(exprType, arrayDim) ? 2 : 1;
}
/**
* Makes the given variable name available.
*
* @param typeDesc the type descriptor of the variable
* @param varName variable name
* @param varNo an index into the local variable array
*/
public void recordVariable(String typeDesc, String varName, int varNo,
SymbolTable tbl) throws CompileError
{
char c;
int dim = 0;
while ((c = typeDesc.charAt(dim)) == '[')
++dim;
int type = MemberResolver.descToType(c);
String cname = null;
if (type == CLASS) {
if (dim == 0)
cname = typeDesc.substring(1, typeDesc.length() - 1);
else
cname = typeDesc.substring(dim + 1, typeDesc.length() - 1);
}
Declarator decl
= new Declarator(type, cname, dim, varNo, new Symbol(varName));
tbl.append(varName, decl);
}
/* compileParameterList() returns the stack size used
* by the produced code.
*
* This method correctly computes the max_stack value.
*
* @param regno the index of the local variable in which
* the first argument is received.
* (0: static method, 1: regular method.)
*/
public static int compileParameterList(Bytecode code,
CtClass[] params, int regno) {
if (params == null) {
code.addIconst(0); // iconst_0
code.addAnewarray(javaLangObject); // anewarray Object
return 1;
}
else {
CtClass[] args = new CtClass[1];
int n = params.length;
code.addIconst(n); // iconst_<n>
code.addAnewarray(javaLangObject); // anewarray Object
for (int i = 0; i < n; ++i) {
code.addOpcode(Bytecode.DUP); // dup
code.addIconst(i); // iconst_<i>
if (params[i].isPrimitive()) {
CtPrimitiveType pt = (CtPrimitiveType)params[i];
String wrapper = pt.getWrapperName();
code.addNew(wrapper); // new <wrapper>
code.addOpcode(Bytecode.DUP); // dup
int s = code.addLoad(regno, pt); // ?load <regno>
regno += s;
args[0] = pt;
code.addInvokespecial(wrapper, "<init>",
Descriptor.ofMethod(CtClass.voidType, args));
// invokespecial
}
else {
code.addAload(regno); // aload <regno>
++regno;
}
code.addOpcode(Bytecode.AASTORE); // aastore
}
return 8;
}
}
protected void compileUnwrapValue(CtClass type, Bytecode code)
throws CompileError
{
if (type == CtClass.voidType) {
addNullIfVoid();
return;
}
if (exprType == VOID)
throw new CompileError("invalid type for " + returnCastName);
if (type instanceof CtPrimitiveType) {
CtPrimitiveType pt = (CtPrimitiveType)type;
// pt is not voidType.
String wrapper = pt.getWrapperName();
code.addCheckcast(wrapper);
code.addInvokevirtual(wrapper, pt.getGetMethodName(),
pt.getGetMethodDescriptor());
setType(type);
}
else {
code.addCheckcast(type);
setType(type);
}
}
/* Sets exprType, arrayDim, and className;
* If type is void, then this method does nothing.
*/
public void setType(CtClass type) throws CompileError {
setType(type, 0);
}
private void setType(CtClass type, int dim) throws CompileError {
if (type.isPrimitive()) {
CtPrimitiveType pt = (CtPrimitiveType)type;
exprType = MemberResolver.descToType(pt.getDescriptor());
arrayDim = dim;
className = null;
}
else if (type.isArray())
try {
setType(type.getComponentType(), dim + 1);
}
catch (NotFoundException e) {
throw new CompileError("undefined type: " + type.getName());
}
else {
exprType = CLASS;
arrayDim = dim;
className = MemberResolver.javaToJvmName(type.getName());
}
}
/* Performs implicit coercion from exprType to type.
*/
public void doNumCast(CtClass type) throws CompileError {
if (arrayDim == 0 && !isRefType(exprType))
if (type instanceof CtPrimitiveType) {
CtPrimitiveType pt = (CtPrimitiveType)type;
atNumCastExpr(exprType,
MemberResolver.descToType(pt.getDescriptor()));
}
else
throw new CompileError("type mismatch");
}
}