Beispiel #1
0
 /**
  * Generates code to return a Java type, after calling a Java method that returns the same type.
  * Generates the appropriate RETURN bytecode.
  */
 private static void generatePopResult(ClassFileWriter cfw, Class<?> retType) {
   if (retType.isPrimitive()) {
     String typeName = retType.getName();
     switch (typeName.charAt(0)) {
       case 'b':
       case 'c':
       case 's':
       case 'i':
       case 'z':
         cfw.add(ByteCode.IRETURN);
         break;
       case 'l':
         cfw.add(ByteCode.LRETURN);
         break;
       case 'f':
         cfw.add(ByteCode.FRETURN);
         break;
       case 'd':
         cfw.add(ByteCode.DRETURN);
         break;
     }
   } else {
     cfw.add(ByteCode.ARETURN);
   }
 }
Beispiel #2
0
  /**
   * Generates a method called "super$methodName()" which can be called from JavaScript that is
   * equivalent to calling "super.methodName()" from Java. Eventually, this may be supported
   * directly in JavaScript.
   */
  private static void generateSuper(
      ClassFileWriter cfw,
      String genName,
      String superName,
      String methodName,
      String methodSignature,
      Class<?>[] parms,
      Class<?> returnType) {
    cfw.startMethod("super$" + methodName, methodSignature, ClassFileWriter.ACC_PUBLIC);

    // push "this"
    cfw.add(ByteCode.ALOAD, 0);

    // push the rest of the parameters.
    int paramOffset = 1;
    for (Class<?> parm : parms) {
      paramOffset += generatePushParam(cfw, paramOffset, parm);
    }

    // call the superclass implementation of the method.
    cfw.addInvoke(ByteCode.INVOKESPECIAL, superName, methodName, methodSignature);

    // now, handle the return type appropriately.
    Class<?> retType = returnType;
    if (!retType.equals(Void.TYPE)) {
      generatePopResult(cfw, retType);
    } else {
      cfw.add(ByteCode.RETURN);
    }
    cfw.stopMethod((short) (paramOffset + 1));
  }
Beispiel #3
0
 /**
  * Generates code to push typed parameters onto the operand stack prior to a direct Java method
  * call.
  */
 private static int generatePushParam(ClassFileWriter cfw, int paramOffset, Class<?> paramType) {
   if (!paramType.isPrimitive()) {
     cfw.addALoad(paramOffset);
     return 1;
   }
   String typeName = paramType.getName();
   switch (typeName.charAt(0)) {
     case 'z':
     case 'b':
     case 'c':
     case 's':
     case 'i':
       // load an int value, convert to double.
       cfw.addILoad(paramOffset);
       return 1;
     case 'l':
       // load a long, convert to double.
       cfw.addLLoad(paramOffset);
       return 2;
     case 'f':
       // load a float, convert to double.
       cfw.addFLoad(paramOffset);
       return 1;
     case 'd':
       cfw.addDLoad(paramOffset);
       return 2;
   }
   throw Kit.codeBug();
 }
Beispiel #4
0
 /**
  * Generates code to wrap Java arguments into Object[]. Non-primitive Java types are left as-is
  * pending conversion in the helper method. Leaves the array object on the top of the stack.
  */
 static void generatePushWrappedArgs(ClassFileWriter cfw, Class<?>[] argTypes, int arrayLength) {
   // push arguments
   cfw.addPush(arrayLength);
   cfw.add(ByteCode.ANEWARRAY, "java/lang/Object");
   int paramOffset = 1;
   for (int i = 0; i != argTypes.length; ++i) {
     cfw.add(ByteCode.DUP); // duplicate array reference
     cfw.addPush(i);
     paramOffset += generateWrapArg(cfw, paramOffset, argTypes[i]);
     cfw.add(ByteCode.AASTORE);
   }
 }
Beispiel #5
0
  public static void main(String[] args) {
    ArrayList<Modifier> modifiers = new ArrayList<Modifier>();
    modifiers.add(Modifier.ACC_PUBLIC);

    // ================================================================================
    // Create an empty class file
    // ================================================================================
    ClassFile cf =
        new ClassFile(
            49, // Java 1.5 or later
            new JvmType.Clazz("", "HelloWorld"), // class is HelloWorld
            JvmTypes.JAVA_LANG_OBJECT, // superclass is Object
            Collections.EMPTY_LIST, // implements no interfaces
            modifiers); // which is public

    // ================================================================================
    // Create a static void main(String[]) method
    // ================================================================================
    modifiers = new ArrayList<Modifier>(modifiers);
    modifiers.add(Modifier.ACC_STATIC);
    ClassFile.Method method =
        new ClassFile.Method(
            "main", // main method
            new JvmType.Function( // is function
                JvmTypes.T_VOID, // from void
                new JvmType.Array(JvmTypes.JAVA_LANG_STRING) // to array of String
                ),
            modifiers // which is static public
            );

    cf.methods().add(method);

    // ================================================================================
    // Add bytecodes for printing hello world to method
    // ================================================================================
    ArrayList<Bytecode> bytecodes = new ArrayList<Bytecode>();

    bytecodes.add(
        new Bytecode.GetField(
            JAVA_LANG_SYSTEM, "out", JAVA_IO_PRINTSTREAM, Bytecode.FieldMode.STATIC));

    bytecodes.add(new Bytecode.LoadConst("Hello World"));

    bytecodes.add(
        new Bytecode.Invoke(
            JAVA_IO_PRINTSTREAM,
            "println",
            new JvmType.Function(JvmTypes.T_VOID, JvmTypes.JAVA_LANG_STRING),
            Bytecode.InvokeMode.VIRTUAL));

    bytecodes.add(new Bytecode.Return(null));

    method.attributes().add(new Code(bytecodes, Collections.EMPTY_LIST, method));

    // ================================================================================
    // Finally, write the class file to disk
    // ================================================================================
    try {
      FileOutputStream fos = new FileOutputStream("HelloWorld.class");
      ClassFileWriter cfw = new ClassFileWriter(fos);
      cfw.write(cf);
    } catch (IOException e) {
      System.out.println("I/O error --- " + e.getMessage());
    }
  }
Beispiel #6
0
  private static void generateMethod(
      ClassFileWriter cfw,
      String genName,
      String methodName,
      Class<?>[] parms,
      Class<?> returnType,
      boolean convertResult) {
    StringBuilder sb = new StringBuilder();
    int paramsEnd = appendMethodSignature(parms, returnType, sb);
    String methodSignature = sb.toString();
    cfw.startMethod(methodName, methodSignature, ClassFileWriter.ACC_PUBLIC);

    // Prepare stack to call method

    // push factory
    cfw.add(ByteCode.ALOAD_0);
    cfw.add(ByteCode.GETFIELD, genName, "factory", "Laurora/javascript/ContextFactory;");

    // push self
    cfw.add(ByteCode.ALOAD_0);
    cfw.add(ByteCode.GETFIELD, genName, "self", "Laurora/javascript/Scriptable;");

    // push function
    cfw.add(ByteCode.ALOAD_0);
    cfw.add(ByteCode.GETFIELD, genName, "delegee", "Laurora/javascript/Scriptable;");
    cfw.addPush(methodName);
    cfw.addInvoke(
        ByteCode.INVOKESTATIC,
        "aurora/javascript/JavaAdapter",
        "getFunction",
        "(Laurora/javascript/Scriptable;" + "Ljava/lang/String;" + ")Laurora/javascript/Function;");

    // push arguments
    generatePushWrappedArgs(cfw, parms, parms.length);

    // push bits to indicate which parameters should be wrapped
    if (parms.length > 64) {
      // If it will be an issue, then passing a static boolean array
      // can be an option, but for now using simple bitmask
      throw Context.reportRuntimeError0(
          "JavaAdapter can not subclass methods with more then" + " 64 arguments.");
    }
    long convertionMask = 0;
    for (int i = 0; i != parms.length; ++i) {
      if (!parms[i].isPrimitive()) {
        convertionMask |= (1 << i);
      }
    }
    cfw.addPush(convertionMask);

    // go through utility method, which creates a Context to run the
    // method in.
    cfw.addInvoke(
        ByteCode.INVOKESTATIC,
        "aurora/javascript/JavaAdapter",
        "callMethod",
        "(Laurora/javascript/ContextFactory;"
            + "Laurora/javascript/Scriptable;"
            + "Laurora/javascript/Function;"
            + "[Ljava/lang/Object;"
            + "J"
            + ")Ljava/lang/Object;");

    generateReturnResult(cfw, returnType, convertResult);

    cfw.stopMethod((short) paramsEnd);
  }
Beispiel #7
0
  /**
   * Generates code to convert a wrapped value type to a primitive type. Handles unwrapping
   * java.lang.Boolean, and java.lang.Number types. Generates the appropriate RETURN bytecode.
   */
  static void generateReturnResult(
      ClassFileWriter cfw, Class<?> retType, boolean callConvertResult) {
    // wrap boolean values with java.lang.Boolean, convert all other
    // primitive values to java.lang.Double.
    if (retType == Void.TYPE) {
      cfw.add(ByteCode.POP);
      cfw.add(ByteCode.RETURN);

    } else if (retType == Boolean.TYPE) {
      cfw.addInvoke(
          ByteCode.INVOKESTATIC, "aurora/javascript/Context", "toBoolean", "(Ljava/lang/Object;)Z");
      cfw.add(ByteCode.IRETURN);

    } else if (retType == Character.TYPE) {
      // characters are represented as strings in JavaScript.
      // return the first character.
      // first convert the value to a string if possible.
      cfw.addInvoke(
          ByteCode.INVOKESTATIC,
          "aurora/javascript/Context",
          "toString",
          "(Ljava/lang/Object;)Ljava/lang/String;");
      cfw.add(ByteCode.ICONST_0);
      cfw.addInvoke(ByteCode.INVOKEVIRTUAL, "java/lang/String", "charAt", "(I)C");
      cfw.add(ByteCode.IRETURN);

    } else if (retType.isPrimitive()) {
      cfw.addInvoke(
          ByteCode.INVOKESTATIC, "aurora/javascript/Context", "toNumber", "(Ljava/lang/Object;)D");
      String typeName = retType.getName();
      switch (typeName.charAt(0)) {
        case 'b':
        case 's':
        case 'i':
          cfw.add(ByteCode.D2I);
          cfw.add(ByteCode.IRETURN);
          break;
        case 'l':
          cfw.add(ByteCode.D2L);
          cfw.add(ByteCode.LRETURN);
          break;
        case 'f':
          cfw.add(ByteCode.D2F);
          cfw.add(ByteCode.FRETURN);
          break;
        case 'd':
          cfw.add(ByteCode.DRETURN);
          break;
        default:
          throw new RuntimeException("Unexpected return type " + retType.toString());
      }

    } else {
      String retTypeStr = retType.getName();
      if (callConvertResult) {
        cfw.addLoadConstant(retTypeStr);
        cfw.addInvoke(
            ByteCode.INVOKESTATIC,
            "java/lang/Class",
            "forName",
            "(Ljava/lang/String;)Ljava/lang/Class;");

        cfw.addInvoke(
            ByteCode.INVOKESTATIC,
            "aurora/javascript/JavaAdapter",
            "convertResult",
            "(Ljava/lang/Object;" + "Ljava/lang/Class;" + ")Ljava/lang/Object;");
      }
      // Now cast to return type
      cfw.add(ByteCode.CHECKCAST, retTypeStr);
      cfw.add(ByteCode.ARETURN);
    }
  }
Beispiel #8
0
  /**
   * Generates code to wrap Java argument into Object. Non-primitive Java types are left unconverted
   * pending conversion in the helper method. Leaves the wrapper object on the top of the stack.
   */
  private static int generateWrapArg(ClassFileWriter cfw, int paramOffset, Class<?> argType) {
    int size = 1;
    if (!argType.isPrimitive()) {
      cfw.add(ByteCode.ALOAD, paramOffset);

    } else if (argType == Boolean.TYPE) {
      // wrap boolean values with java.lang.Boolean.
      cfw.add(ByteCode.NEW, "java/lang/Boolean");
      cfw.add(ByteCode.DUP);
      cfw.add(ByteCode.ILOAD, paramOffset);
      cfw.addInvoke(ByteCode.INVOKESPECIAL, "java/lang/Boolean", "<init>", "(Z)V");

    } else if (argType == Character.TYPE) {
      // Create a string of length 1 using the character parameter.
      cfw.add(ByteCode.ILOAD, paramOffset);
      cfw.addInvoke(ByteCode.INVOKESTATIC, "java/lang/String", "valueOf", "(C)Ljava/lang/String;");

    } else {
      // convert all numeric values to java.lang.Double.
      cfw.add(ByteCode.NEW, "java/lang/Double");
      cfw.add(ByteCode.DUP);
      String typeName = argType.getName();
      switch (typeName.charAt(0)) {
        case 'b':
        case 's':
        case 'i':
          // load an int value, convert to double.
          cfw.add(ByteCode.ILOAD, paramOffset);
          cfw.add(ByteCode.I2D);
          break;
        case 'l':
          // load a long, convert to double.
          cfw.add(ByteCode.LLOAD, paramOffset);
          cfw.add(ByteCode.L2D);
          size = 2;
          break;
        case 'f':
          // load a float, convert to double.
          cfw.add(ByteCode.FLOAD, paramOffset);
          cfw.add(ByteCode.F2D);
          break;
        case 'd':
          cfw.add(ByteCode.DLOAD, paramOffset);
          size = 2;
          break;
      }
      cfw.addInvoke(ByteCode.INVOKESPECIAL, "java/lang/Double", "<init>", "(D)V");
    }
    return size;
  }
Beispiel #9
0
  private static void generateEmptyCtor(
      ClassFileWriter cfw, String adapterName, String superName, String scriptClassName) {
    cfw.startMethod("<init>", "()V", ClassFileWriter.ACC_PUBLIC);

    // Invoke base class constructor
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.addInvoke(ByteCode.INVOKESPECIAL, superName, "<init>", "()V");

    // Set factory to null to use current global when necessary
    cfw.add(ByteCode.ALOAD_0);
    cfw.add(ByteCode.ACONST_NULL);
    cfw.add(ByteCode.PUTFIELD, adapterName, "factory", "Laurora/javascript/ContextFactory;");

    // Load script class
    cfw.add(ByteCode.NEW, scriptClassName);
    cfw.add(ByteCode.DUP);
    cfw.addInvoke(ByteCode.INVOKESPECIAL, scriptClassName, "<init>", "()V");

    // Run script and save resulting scope
    cfw.addInvoke(
        ByteCode.INVOKESTATIC,
        "aurora/javascript/JavaAdapter",
        "runScript",
        "(Laurora/javascript/Script;" + ")Laurora/javascript/Scriptable;");
    cfw.add(ByteCode.ASTORE_1);

    // Save the Scriptable in instance variable "delegee"
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.add(ByteCode.ALOAD_1); // the Scriptable
    cfw.add(ByteCode.PUTFIELD, adapterName, "delegee", "Laurora/javascript/Scriptable;");

    cfw.add(ByteCode.ALOAD_0); // this for the following PUTFIELD for self
    // create a wrapper object to be used as "this" in method calls
    cfw.add(ByteCode.ALOAD_1); // the Scriptable
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.addInvoke(
        ByteCode.INVOKESTATIC,
        "aurora/javascript/JavaAdapter",
        "createAdapterWrapper",
        "(Laurora/javascript/Scriptable;"
            + "Ljava/lang/Object;"
            + ")Laurora/javascript/Scriptable;");
    cfw.add(ByteCode.PUTFIELD, adapterName, "self", "Laurora/javascript/Scriptable;");

    cfw.add(ByteCode.RETURN);
    cfw.stopMethod((short) 2); // this + delegee
  }
Beispiel #10
0
  private static void generateSerialCtor(
      ClassFileWriter cfw, String adapterName, String superName) {
    cfw.startMethod(
        "<init>",
        "(Laurora/javascript/ContextFactory;"
            + "Laurora/javascript/Scriptable;"
            + "Laurora/javascript/Scriptable;"
            + ")V",
        ClassFileWriter.ACC_PUBLIC);

    // Invoke base class constructor
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.addInvoke(ByteCode.INVOKESPECIAL, superName, "<init>", "()V");

    // Save parameter in instance variable "factory"
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.add(ByteCode.ALOAD_1); // first arg: ContextFactory instance
    cfw.add(ByteCode.PUTFIELD, adapterName, "factory", "Laurora/javascript/ContextFactory;");

    // Save parameter in instance variable "delegee"
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.add(ByteCode.ALOAD_2); // second arg: Scriptable delegee
    cfw.add(ByteCode.PUTFIELD, adapterName, "delegee", "Laurora/javascript/Scriptable;");
    // save self
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.add(ByteCode.ALOAD_3); // third arg: Scriptable self
    cfw.add(ByteCode.PUTFIELD, adapterName, "self", "Laurora/javascript/Scriptable;");

    cfw.add(ByteCode.RETURN);
    cfw.stopMethod((short) 4); // 4: this + factory + delegee + self
  }
Beispiel #11
0
  private static void generateCtor(
      ClassFileWriter cfw, String adapterName, String superName, Constructor<?> superCtor) {
    short locals = 3; // this + factory + delegee
    Class<?>[] parameters = superCtor.getParameterTypes();

    // Note that we swapped arguments in app-facing constructors to avoid
    // conflicting signatures with serial constructor defined below.
    if (parameters.length == 0) {
      cfw.startMethod(
          "<init>",
          "(Laurora/javascript/Scriptable;" + "Laurora/javascript/ContextFactory;)V",
          ClassFileWriter.ACC_PUBLIC);

      // Invoke base class constructor
      cfw.add(ByteCode.ALOAD_0); // this
      cfw.addInvoke(ByteCode.INVOKESPECIAL, superName, "<init>", "()V");
    } else {
      StringBuilder sig =
          new StringBuilder(
              "(Laurora/javascript/Scriptable;" + "Laurora/javascript/ContextFactory;");
      int marker = sig.length(); // lets us reuse buffer for super signature
      for (Class<?> c : parameters) {
        appendTypeString(sig, c);
      }
      sig.append(")V");
      cfw.startMethod("<init>", sig.toString(), ClassFileWriter.ACC_PUBLIC);

      // Invoke base class constructor
      cfw.add(ByteCode.ALOAD_0); // this
      short paramOffset = 3;
      for (Class<?> parameter : parameters) {
        paramOffset += generatePushParam(cfw, paramOffset, parameter);
      }
      locals = paramOffset;
      sig.delete(1, marker);
      cfw.addInvoke(ByteCode.INVOKESPECIAL, superName, "<init>", sig.toString());
    }

    // Save parameter in instance variable "delegee"
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.add(ByteCode.ALOAD_1); // first arg: Scriptable delegee
    cfw.add(ByteCode.PUTFIELD, adapterName, "delegee", "Laurora/javascript/Scriptable;");

    // Save parameter in instance variable "factory"
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.add(ByteCode.ALOAD_2); // second arg: ContextFactory instance
    cfw.add(ByteCode.PUTFIELD, adapterName, "factory", "Laurora/javascript/ContextFactory;");

    cfw.add(ByteCode.ALOAD_0); // this for the following PUTFIELD for self
    // create a wrapper object to be used as "this" in method calls
    cfw.add(ByteCode.ALOAD_1); // the Scriptable delegee
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.addInvoke(
        ByteCode.INVOKESTATIC,
        "aurora/javascript/JavaAdapter",
        "createAdapterWrapper",
        "(Laurora/javascript/Scriptable;"
            + "Ljava/lang/Object;"
            + ")Laurora/javascript/Scriptable;");
    cfw.add(ByteCode.PUTFIELD, adapterName, "self", "Laurora/javascript/Scriptable;");

    cfw.add(ByteCode.RETURN);
    cfw.stopMethod(locals);
  }
Beispiel #12
0
  public static byte[] createAdapterCode(
      ObjToIntMap functionNames,
      String adapterName,
      Class<?> superClass,
      Class<?>[] interfaces,
      String scriptClassName) {
    ClassFileWriter cfw = new ClassFileWriter(adapterName, superClass.getName(), "<adapter>");
    cfw.addField(
        "factory",
        "Laurora/javascript/ContextFactory;",
        (short) (ClassFileWriter.ACC_PUBLIC | ClassFileWriter.ACC_FINAL));
    cfw.addField(
        "delegee",
        "Laurora/javascript/Scriptable;",
        (short) (ClassFileWriter.ACC_PUBLIC | ClassFileWriter.ACC_FINAL));
    cfw.addField(
        "self",
        "Laurora/javascript/Scriptable;",
        (short) (ClassFileWriter.ACC_PUBLIC | ClassFileWriter.ACC_FINAL));
    int interfacesCount = interfaces == null ? 0 : interfaces.length;
    for (int i = 0; i < interfacesCount; i++) {
      if (interfaces[i] != null) cfw.addInterface(interfaces[i].getName());
    }

    String superName = superClass.getName().replace('.', '/');
    Constructor<?>[] ctors = superClass.getConstructors();
    for (Constructor<?> ctor : ctors) {
      generateCtor(cfw, adapterName, superName, ctor);
    }
    generateSerialCtor(cfw, adapterName, superName);
    if (scriptClassName != null) {
      generateEmptyCtor(cfw, adapterName, superName, scriptClassName);
    }

    ObjToIntMap generatedOverrides = new ObjToIntMap();
    ObjToIntMap generatedMethods = new ObjToIntMap();

    // generate methods to satisfy all specified interfaces.
    for (int i = 0; i < interfacesCount; i++) {
      Method[] methods = interfaces[i].getMethods();
      for (int j = 0; j < methods.length; j++) {
        Method method = methods[j];
        int mods = method.getModifiers();
        if (Modifier.isStatic(mods) || Modifier.isFinal(mods)) {
          continue;
        }
        String methodName = method.getName();
        Class<?>[] argTypes = method.getParameterTypes();
        if (!functionNames.has(methodName)) {
          try {
            superClass.getMethod(methodName, argTypes);
            // The class we're extending implements this method and
            // the JavaScript object doesn't have an override. See
            // bug 61226.
            continue;
          } catch (NoSuchMethodException e) {
            // Not implemented by superclass; fall through
          }
        }
        // make sure to generate only one instance of a particular
        // method/signature.
        String methodSignature = getMethodSignature(method, argTypes);
        String methodKey = methodName + methodSignature;
        if (!generatedOverrides.has(methodKey)) {
          generateMethod(cfw, adapterName, methodName, argTypes, method.getReturnType(), true);
          generatedOverrides.put(methodKey, 0);
          generatedMethods.put(methodName, 0);
        }
      }
    }

    // Now, go through the superclass's methods, checking for abstract
    // methods or additional methods to override.

    // generate any additional overrides that the object might contain.
    Method[] methods = getOverridableMethods(superClass);
    for (int j = 0; j < methods.length; j++) {
      Method method = methods[j];
      int mods = method.getModifiers();
      // if a method is marked abstract, must implement it or the
      // resulting class won't be instantiable. otherwise, if the object
      // has a property of the same name, then an override is intended.
      boolean isAbstractMethod = Modifier.isAbstract(mods);
      String methodName = method.getName();
      if (isAbstractMethod || functionNames.has(methodName)) {
        // make sure to generate only one instance of a particular
        // method/signature.
        Class<?>[] argTypes = method.getParameterTypes();
        String methodSignature = getMethodSignature(method, argTypes);
        String methodKey = methodName + methodSignature;
        if (!generatedOverrides.has(methodKey)) {
          generateMethod(cfw, adapterName, methodName, argTypes, method.getReturnType(), true);
          generatedOverrides.put(methodKey, 0);
          generatedMethods.put(methodName, 0);

          // if a method was overridden, generate a "super$method"
          // which lets the delegate call the superclass' version.
          if (!isAbstractMethod) {
            generateSuper(
                cfw,
                adapterName,
                superName,
                methodName,
                methodSignature,
                argTypes,
                method.getReturnType());
          }
        }
      }
    }

    // Generate Java methods for remaining properties that are not
    // overrides.
    ObjToIntMap.Iterator iter = new ObjToIntMap.Iterator(functionNames);
    for (iter.start(); !iter.done(); iter.next()) {
      String functionName = (String) iter.getKey();
      if (generatedMethods.has(functionName)) continue;
      int length = iter.getValue();
      Class<?>[] parms = new Class[length];
      for (int k = 0; k < length; k++) parms[k] = ScriptRuntime.ObjectClass;
      generateMethod(cfw, adapterName, functionName, parms, ScriptRuntime.ObjectClass, false);
    }
    return cfw.toByteArray();
  }
Beispiel #13
0
  private static void generateCtor(ClassFileWriter cfw, String adapterName, String superName) {
    cfw.startMethod(
        "<init>",
        "(Lorg/mozilla/javascript/ContextFactory;" + "Lorg/mozilla/javascript/Scriptable;)V",
        ClassFileWriter.ACC_PUBLIC);

    // Invoke base class constructor
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.addInvoke(ByteCode.INVOKESPECIAL, superName, "<init>", "()V");

    // Save parameter in instance variable "factory"
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.add(ByteCode.ALOAD_1); // first arg: ContextFactory instance
    cfw.add(ByteCode.PUTFIELD, adapterName, "factory", "Lorg/mozilla/javascript/ContextFactory;");

    // Save parameter in instance variable "delegee"
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.add(ByteCode.ALOAD_2); // second arg: Scriptable delegee
    cfw.add(ByteCode.PUTFIELD, adapterName, "delegee", "Lorg/mozilla/javascript/Scriptable;");

    cfw.add(ByteCode.ALOAD_0); // this for the following PUTFIELD for self
    // create a wrapper object to be used as "this" in method calls
    cfw.add(ByteCode.ALOAD_2); // the Scriptable delegee
    cfw.add(ByteCode.ALOAD_0); // this
    cfw.addInvoke(
        ByteCode.INVOKESTATIC,
        "org/mozilla/javascript/JavaAdapter",
        "createAdapterWrapper",
        "(Lorg/mozilla/javascript/Scriptable;"
            + "Ljava/lang/Object;"
            + ")Lorg/mozilla/javascript/Scriptable;");
    cfw.add(ByteCode.PUTFIELD, adapterName, "self", "Lorg/mozilla/javascript/Scriptable;");

    cfw.add(ByteCode.RETURN);
    cfw.stopMethod((short) 3); // 3: this + factory + delegee
  }