/* * Javassist, a Java-bytecode translator toolkit. * Copyright (C) 1999-2003 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. * * 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 javassist.expr; import javassist.*; import javassist.bytecode.*; import javassist.compiler.*; /** * Method invocation (caller-side expression). */ public class MethodCall extends Expr { /** * Undocumented constructor. Do not use; internal-use only. */ MethodCall(int pos, CodeIterator i, CtClass declaring, MethodInfo m) { super(pos, i, declaring, m); } private int getNameAndType(ConstPool cp) { String cname; int pos = currentPos; int c = iterator.byteAt(pos); int index = iterator.u16bitAt(pos + 1); if (c == INVOKEINTERFACE) return cp.getInterfaceMethodrefNameAndType(index); else return cp.getMethodrefNameAndType(index); } /** * Returns the method or constructor containing the method-call * expression represented by this object. */ public CtBehavior where() { return super.where(); } /** * Returns the line number of the source line containing the * method call. * * @return -1 if this information is not available. */ public int getLineNumber() { return super.getLineNumber(); } /** * Returns the source file containing the method call. * * @return null if this information is not available. */ public String getFileName() { return super.getFileName(); } /** * Returns the class of the target object, * which the method is called on. */ private CtClass getCtClass() throws NotFoundException { return thisClass.getClassPool().get(getClassName()); } /** * Returns the class name of the target object, * which the method is called on. */ public String getClassName() { String cname; ConstPool cp = getConstPool(); int pos = currentPos; int c = iterator.byteAt(pos); int index = iterator.u16bitAt(pos + 1); if (c == INVOKEINTERFACE) cname = cp.getInterfaceMethodrefClassName(index); else cname = cp.getMethodrefClassName(index); return cname; } /** * Returns the name of the called method. */ public String getMethodName() { ConstPool cp = getConstPool(); int nt = getNameAndType(cp); return cp.getUtf8Info(cp.getNameAndTypeName(nt)); } /** * Returns the called method. */ public CtMethod getMethod() throws NotFoundException { return getCtClass().getMethod(getMethodName(), getMethodDesc()); } private String getMethodDesc() { ConstPool cp = getConstPool(); int nt = getNameAndType(cp); return cp.getUtf8Info(cp.getNameAndTypeDescriptor(nt)); } /** * Returns the list of exceptions that the expression may throw. * This list includes both the exceptions that the try-catch statements * including the expression can catch and the exceptions that * the throws declaration allows the method to throw. */ public CtClass[] mayThrow() { return super.mayThrow(); } /* * Returns the parameter types of the called method. public CtClass[] getParameterTypes() throws NotFoundException { return Descriptor.getParameterTypes(getMethodDesc(), thisClass.getClassPool()); } */ /* * Returns the return type of the called method. public CtClass getReturnType() throws NotFoundException { return Descriptor.getReturnType(getMethodDesc(), thisClass.getClassPool()); } */ /** * Replaces the method call with the bytecode derived from * the given source text. * *

$0 is available even if the called method is static. * * @param statement a Java statement. */ public void replace(String statement) throws CannotCompileException { ConstPool constPool = getConstPool(); int pos = currentPos; int index = iterator.u16bitAt(pos + 1); String classname, methodname, signature; int opcodeSize; int c = iterator.byteAt(pos); if (c == INVOKEINTERFACE) { opcodeSize = 5; classname = constPool.getInterfaceMethodrefClassName(index); methodname = constPool.getInterfaceMethodrefName(index); signature = constPool.getInterfaceMethodrefType(index); } else if (c == INVOKESTATIC || c == INVOKESPECIAL || c == INVOKEVIRTUAL) { opcodeSize = 3; classname = constPool.getMethodrefClassName(index); methodname = constPool.getMethodrefName(index); signature = constPool.getMethodrefType(index); } else throw new CannotCompileException("not method invocation"); Javac jc = new Javac(thisClass); ClassPool cp = thisClass.getClassPool(); CodeAttribute ca = iterator.get(); try { CtClass[] params = Descriptor.getParameterTypes(signature, cp); CtClass retType = Descriptor.getReturnType(signature, cp); int paramVar = ca.getMaxLocals(); jc.recordParams(classname, params, true, paramVar, withinStatic()); int retVar = jc.recordReturnType(retType, true); jc.recordProceed(Javac.param0Name, methodname); /* Is $_ included in the source code? */ checkResultValue(retType, statement); Bytecode bytecode = jc.getBytecode(); storeStack(params, c == INVOKESTATIC, paramVar, bytecode); jc.compileStmnt(statement); if (retType != CtClass.voidType) bytecode.addLoad(retVar, retType); replace0(pos, bytecode, opcodeSize); } catch (CompileError e) { throw new CannotCompileException(e); } catch (NotFoundException e) { throw new CannotCompileException(e); } catch (BadBytecode e) { throw new CannotCompileException("broken method"); } } }