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/*
 * 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.compiler;

import scouter.javassist.CannotCompileException;
import scouter.javassist.CtBehavior;
import scouter.javassist.CtClass;
import scouter.javassist.CtConstructor;
import scouter.javassist.CtField;
import scouter.javassist.CtMember;
import scouter.javassist.CtMethod;
import scouter.javassist.CtPrimitiveType;
import scouter.javassist.Modifier;
import scouter.javassist.NotFoundException;
import scouter.javassist.bytecode.BadBytecode;
import scouter.javassist.bytecode.Bytecode;
import scouter.javassist.bytecode.CodeAttribute;
import scouter.javassist.bytecode.LocalVariableAttribute;
import scouter.javassist.bytecode.Opcode;
import scouter.javassist.compiler.ast.ASTList;
import scouter.javassist.compiler.ast.ASTree;
import scouter.javassist.compiler.ast.CallExpr;
import scouter.javassist.compiler.ast.Declarator;
import scouter.javassist.compiler.ast.Expr;
import scouter.javassist.compiler.ast.FieldDecl;
import scouter.javassist.compiler.ast.Member;
import scouter.javassist.compiler.ast.MethodDecl;
import scouter.javassist.compiler.ast.Stmnt;
import scouter.javassist.compiler.ast.Symbol;

public class Javac {
    JvstCodeGen gen;
    SymbolTable stable;
    private Bytecode bytecode;

    public static final String param0Name = "$0";
    public static final String resultVarName = "$_";
    public static final String proceedName = "$proceed";

    /**
     * Constructs a compiler.
     *
     * @param thisClass         the class that a compiled method/field
     *                          belongs to.
     */
    public Javac(CtClass thisClass) {
        this(new Bytecode(thisClass.getClassFile2().getConstPool(), 0, 0),
             thisClass);
    }

    /**
     * Constructs a compiler.
     * The produced bytecode is stored in the Bytecode object
     * specified by b.
     *
     * @param thisClass         the class that a compiled method/field
     *                          belongs to.
     */
    public Javac(Bytecode b, CtClass thisClass) {
        gen = new JvstCodeGen(b, thisClass, thisClass.getClassPool());
        stable = new SymbolTable();
        bytecode = b;
    }

    /**
     * Returns the produced bytecode.
     */
    public Bytecode getBytecode() { return bytecode; }

    /**
     * Compiles a method, constructor, or field declaration
     * to a class.
     * A field declaration can declare only one field.
     *
     * 

In a method or constructor body, $0, $1, ... and $_ * are not available. * * @return a CtMethod, CtConstructor, * or CtField object. * @see #recordProceed(String,String) */ public CtMember compile(String src) throws CompileError { Parser p = new Parser(new Lex(src)); ASTList mem = p.parseMember1(stable); try { if (mem instanceof FieldDecl) return compileField((FieldDecl)mem); else { CtBehavior cb = compileMethod(p, (MethodDecl)mem); CtClass decl = cb.getDeclaringClass(); cb.getMethodInfo2() .rebuildStackMapIf6(decl.getClassPool(), decl.getClassFile2()); return cb; } } catch (BadBytecode bb) { throw new CompileError(bb.getMessage()); } catch (CannotCompileException e) { throw new CompileError(e.getMessage()); } } public static class CtFieldWithInit extends CtField { private ASTree init; CtFieldWithInit(CtClass type, String name, CtClass declaring) throws CannotCompileException { super(type, name, declaring); init = null; } protected void setInit(ASTree i) { init = i; } protected ASTree getInitAST() { return init; } } private CtField compileField(FieldDecl fd) throws CompileError, CannotCompileException { CtFieldWithInit f; Declarator d = fd.getDeclarator(); f = new CtFieldWithInit(gen.resolver.lookupClass(d), d.getVariable().get(), gen.getThisClass()); f.setModifiers(MemberResolver.getModifiers(fd.getModifiers())); if (fd.getInit() != null) f.setInit(fd.getInit()); return f; } private CtBehavior compileMethod(Parser p, MethodDecl md) throws CompileError { int mod = MemberResolver.getModifiers(md.getModifiers()); CtClass[] plist = gen.makeParamList(md); CtClass[] tlist = gen.makeThrowsList(md); recordParams(plist, Modifier.isStatic(mod)); md = p.parseMethod2(stable, md); try { if (md.isConstructor()) { CtConstructor cons = new CtConstructor(plist, gen.getThisClass()); cons.setModifiers(mod); md.accept(gen); cons.getMethodInfo().setCodeAttribute( bytecode.toCodeAttribute()); cons.setExceptionTypes(tlist); return cons; } else { Declarator r = md.getReturn(); CtClass rtype = gen.resolver.lookupClass(r); recordReturnType(rtype, false); CtMethod method = new CtMethod(rtype, r.getVariable().get(), plist, gen.getThisClass()); method.setModifiers(mod); gen.setThisMethod(method); md.accept(gen); if (md.getBody() != null) method.getMethodInfo().setCodeAttribute( bytecode.toCodeAttribute()); else method.setModifiers(mod | Modifier.ABSTRACT); method.setExceptionTypes(tlist); return method; } } catch (NotFoundException e) { throw new CompileError(e.toString()); } } /** * Compiles a method (or constructor) body. * * @param src a single statement or a block. * If null, this method produces a body returning zero or null. */ public Bytecode compileBody(CtBehavior method, String src) throws CompileError { try { int mod = method.getModifiers(); recordParams(method.getParameterTypes(), Modifier.isStatic(mod)); CtClass rtype; if (method instanceof CtMethod) { gen.setThisMethod((CtMethod)method); rtype = ((CtMethod)method).getReturnType(); } else rtype = CtClass.voidType; recordReturnType(rtype, false); boolean isVoid = rtype == CtClass.voidType; if (src == null) makeDefaultBody(bytecode, rtype); else { Parser p = new Parser(new Lex(src)); SymbolTable stb = new SymbolTable(stable); Stmnt s = p.parseStatement(stb); if (p.hasMore()) throw new CompileError( "the method/constructor body must be surrounded by {}"); boolean callSuper = false; if (method instanceof CtConstructor) callSuper = !((CtConstructor)method).isClassInitializer(); gen.atMethodBody(s, callSuper, isVoid); } return bytecode; } catch (NotFoundException e) { throw new CompileError(e.toString()); } } private static void makeDefaultBody(Bytecode b, CtClass type) { int op; int value; if (type instanceof CtPrimitiveType) { CtPrimitiveType pt = (CtPrimitiveType)type; op = pt.getReturnOp(); if (op == Opcode.DRETURN) value = Opcode.DCONST_0; else if (op == Opcode.FRETURN) value = Opcode.FCONST_0; else if (op == Opcode.LRETURN) value = Opcode.LCONST_0; else if (op == Opcode.RETURN) value = Opcode.NOP; else value = Opcode.ICONST_0; } else { op = Opcode.ARETURN; value = Opcode.ACONST_NULL; } if (value != Opcode.NOP) b.addOpcode(value); b.addOpcode(op); } /** * Records local variables available at the specified program counter. * If the LocalVariableAttribute is not available, this method does not * record any local variable. It only returns false. * * @param pc program counter (>= 0) * @return false if the CodeAttribute does not include a * LocalVariableAttribute. */ public boolean recordLocalVariables(CodeAttribute ca, int pc) throws CompileError { LocalVariableAttribute va = (LocalVariableAttribute) ca.getAttribute(LocalVariableAttribute.tag); if (va == null) return false; int n = va.tableLength(); for (int i = 0; i < n; ++i) { int start = va.startPc(i); int len = va.codeLength(i); if (start <= pc && pc < start + len) gen.recordVariable(va.descriptor(i), va.variableName(i), va.index(i), stable); } return true; } /** * Records parameter names if the LocalVariableAttribute is available. * It returns false unless the LocalVariableAttribute is available. * * @param numOfLocalVars the number of local variables used * for storing the parameters. * @return false if the CodeAttribute does not include a * LocalVariableAttribute. */ public boolean recordParamNames(CodeAttribute ca, int numOfLocalVars) throws CompileError { LocalVariableAttribute va = (LocalVariableAttribute) ca.getAttribute(LocalVariableAttribute.tag); if (va == null) return false; int n = va.tableLength(); for (int i = 0; i < n; ++i) { int index = va.index(i); if (index < numOfLocalVars) gen.recordVariable(va.descriptor(i), va.variableName(i), index, stable); } return true; } /** * Makes variables $0 (this), $1, $2, ..., and $args represent method * parameters. $args represents an array of all the parameters. * It also makes $$ available as a parameter list of method call. * *

This must be called before calling compileStmnt() and * compileExpr(). The correct value of * isStatic must be recorded before compilation. * maxLocals is updated to include $0,... */ public int recordParams(CtClass[] params, boolean isStatic) throws CompileError { return gen.recordParams(params, isStatic, "$", "$args", "$$", stable); } /** * Makes variables $0, $1, $2, ..., and $args represent method * parameters. $args represents an array of all the parameters. * It also makes $$ available as a parameter list of method call. * $0 can represent a local variable other than THIS (variable 0). * $class is also made available. * *

This must be called before calling compileStmnt() and * compileExpr(). The correct value of * isStatic must be recorded before compilation. * maxLocals is updated to include $0,... * * @param use0 true if $0 is used. * @param varNo the register number of $0 (use0 is true) * or $1 (otherwise). * @param target the type of $0 (it can be null if use0 is false). * It is used as the name of the type represented * by $class. * @param isStatic true if the method in which the compiled bytecode * is embedded is static. */ public int recordParams(String target, CtClass[] params, boolean use0, int varNo, boolean isStatic) throws CompileError { return gen.recordParams(params, isStatic, "$", "$args", "$$", use0, varNo, target, stable); } /** * Sets maxLocals to max. * This method tells the compiler the local variables that have been * allocated for the rest of the code. When the compiler needs * new local variables, the local variables at the index max, * max + 1, ... are assigned. * *

This method is indirectly called by recordParams. */ public void setMaxLocals(int max) { gen.setMaxLocals(max); } /** * Prepares to use cast $r, $w, $_, and $type. * $type is made to represent the specified return type. * It also enables to write a return statement with a return value * for void method. * *

If the return type is void, ($r) does nothing. * The type of $_ is java.lang.Object. * * @param type the return type. * @param useResultVar true if $_ is used. * @return -1 or the variable index assigned to $_. * @see #recordType(CtClass) */ public int recordReturnType(CtClass type, boolean useResultVar) throws CompileError { gen.recordType(type); return gen.recordReturnType(type, "$r", (useResultVar ? resultVarName : null), stable); } /** * Prepares to use $type. Note that recordReturnType() overwrites * the value of $type. * * @param t the type represented by $type. */ public void recordType(CtClass t) { gen.recordType(t); } /** * Makes the given variable available. * * @param type variable type * @param name variable name */ public int recordVariable(CtClass type, String name) throws CompileError { return gen.recordVariable(type, name, stable); } /** * Prepares to use $proceed(). * If the return type of $proceed() is void, null is pushed on the * stack. * * @param target an expression specifying the target object. * if null, "this" is the target. * @param method the method name. */ public void recordProceed(String target, String method) throws CompileError { Parser p = new Parser(new Lex(target)); final ASTree texpr = p.parseExpression(stable); final String m = method; ProceedHandler h = new ProceedHandler() { public void doit(JvstCodeGen gen, Bytecode b, ASTList args) throws CompileError { ASTree expr = new Member(m); if (texpr != null) expr = Expr.make('.', texpr, expr); expr = CallExpr.makeCall(expr, args); gen.compileExpr(expr); gen.addNullIfVoid(); } public void setReturnType(JvstTypeChecker check, ASTList args) throws CompileError { ASTree expr = new Member(m); if (texpr != null) expr = Expr.make('.', texpr, expr); expr = CallExpr.makeCall(expr, args); expr.accept(check); check.addNullIfVoid(); } }; gen.setProceedHandler(h, proceedName); } /** * Prepares to use $proceed() representing a static method. * If the return type of $proceed() is void, null is pushed on the * stack. * * @param targetClass the fully-qualified dot-separated name * of the class declaring the method. * @param method the method name. */ public void recordStaticProceed(String targetClass, String method) throws CompileError { final String c = targetClass; final String m = method; ProceedHandler h = new ProceedHandler() { public void doit(JvstCodeGen gen, Bytecode b, ASTList args) throws CompileError { Expr expr = Expr.make(TokenId.MEMBER, new Symbol(c), new Member(m)); expr = CallExpr.makeCall(expr, args); gen.compileExpr(expr); gen.addNullIfVoid(); } public void setReturnType(JvstTypeChecker check, ASTList args) throws CompileError { Expr expr = Expr.make(TokenId.MEMBER, new Symbol(c), new Member(m)); expr = CallExpr.makeCall(expr, args); expr.accept(check); check.addNullIfVoid(); } }; gen.setProceedHandler(h, proceedName); } /** * Prepares to use $proceed() representing a private/super's method. * If the return type of $proceed() is void, null is pushed on the * stack. This method is for methods invoked by INVOKESPECIAL. * * @param target an expression specifying the target object. * if null, "this" is the target. * @param classname the class name declaring the method. * @param methodname the method name. * @param descriptor the method descriptor. */ public void recordSpecialProceed(String target, final String classname, final String methodname, final String descriptor, final int methodIndex) throws CompileError { Parser p = new Parser(new Lex(target)); final ASTree texpr = p.parseExpression(stable); ProceedHandler h = new ProceedHandler() { public void doit(JvstCodeGen gen, Bytecode b, ASTList args) throws CompileError { gen.compileInvokeSpecial(texpr, methodIndex, descriptor, args); } public void setReturnType(JvstTypeChecker c, ASTList args) throws CompileError { c.compileInvokeSpecial(texpr, classname, methodname, descriptor, args); } }; gen.setProceedHandler(h, proceedName); } /** * Prepares to use $proceed(). */ public void recordProceed(ProceedHandler h) { gen.setProceedHandler(h, proceedName); } /** * Compiles a statement (or a block). * recordParams() must be called before invoking * this method. * *

Local variables that are not declared * in the compiled source text might not be accessible within that * source text. Fields and method parameters ($0, $1, ..) are available. */ public void compileStmnt(String src) throws CompileError { Parser p = new Parser(new Lex(src)); SymbolTable stb = new SymbolTable(stable); while (p.hasMore()) { Stmnt s = p.parseStatement(stb); if (s != null) s.accept(gen); } } /** * Compiles an exression. recordParams() must be * called before invoking this method. * *

Local variables are not accessible * within the compiled source text. Fields and method parameters * ($0, $1, ..) are available if recordParams() * have been invoked. */ public void compileExpr(String src) throws CompileError { ASTree e = parseExpr(src, stable); compileExpr(e); } /** * Parsers an expression. */ public static ASTree parseExpr(String src, SymbolTable st) throws CompileError { Parser p = new Parser(new Lex(src)); return p.parseExpression(st); } /** * Compiles an exression. recordParams() must be * called before invoking this method. * *

Local variables are not accessible * within the compiled source text. Fields and method parameters * ($0, $1, ..) are available if recordParams() * have been invoked. */ public void compileExpr(ASTree e) throws CompileError { if (e != null) gen.compileExpr(e); } }





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