Пример #1
0
 @Override
 public int addConstant(ConstantPoolGen cpg) {
   MethodRef method = getValue();
   if (isInterfaceMethod()) {
     return cpg.addInterfaceMethodref(
         method.getClassName(), method.getName(), method.getDescriptor().toString());
   }
   return cpg.addMethodref(
       method.getClassName(), method.getName(), method.getDescriptor().toString());
 }
 public void translate(ClassGenerator classGen, MethodGenerator methodGen) {
   final ConstantPoolGen cpg = classGen.getConstantPool();
   final InstructionList il = methodGen.getInstructionList();
   // Push the this pointer on the stack...
   il.append(methodGen.loadDOM());
   // ...then the entity name...
   _entity.translate(classGen, methodGen);
   // ...to get the URI from the DOM object.
   il.append(
       new INVOKEINTERFACE(
           cpg.addInterfaceMethodref(
               DOM_INTF, GET_UNPARSED_ENTITY_URI, GET_UNPARSED_ENTITY_URI_SIG),
           2));
 }
  /**
   * Compiles code that instantiates a SortingIterator object. This object's constructor needs
   * referencdes to the current iterator and a node sort record producing objects as its parameters.
   */
  public static void translateSortIterator(
      ClassGenerator classGen, MethodGenerator methodGen, Expression nodeSet, Vector sortObjects) {
    final ConstantPoolGen cpg = classGen.getConstantPool();
    final InstructionList il = methodGen.getInstructionList();

    // SortingIterator.SortingIterator(NodeIterator,NodeSortRecordFactory);
    final int init =
        cpg.addMethodref(
            SORT_ITERATOR, "<init>", "(" + NODE_ITERATOR_SIG + NODE_SORT_FACTORY_SIG + ")V");

    // Backwards branches are prohibited if an uninitialized object is
    // on the stack by section 4.9.4 of the JVM Specification, 2nd Ed.
    // We don't know whether this code might contain backwards branches
    // so we mustn't create the new object until after we've created
    // the suspect arguments to its constructor.  Instead we calculate
    // the values of the arguments to the constructor first, store them
    // in temporary variables, create the object and reload the
    // arguments from the temporaries to avoid the problem.

    LocalVariableGen nodesTemp =
        methodGen.addLocalVariable("sort_tmp1", Util.getJCRefType(NODE_ITERATOR_SIG), null, null);

    LocalVariableGen sortRecordFactoryTemp =
        methodGen.addLocalVariable(
            "sort_tmp2", Util.getJCRefType(NODE_SORT_FACTORY_SIG), null, null);

    // Get the current node iterator
    if (nodeSet == null) { // apply-templates default
      final int children =
          cpg.addInterfaceMethodref(DOM_INTF, "getAxisIterator", "(I)" + NODE_ITERATOR_SIG);
      il.append(methodGen.loadDOM());
      il.append(new PUSH(cpg, Axis.CHILD));
      il.append(new INVOKEINTERFACE(children, 2));
    } else {
      nodeSet.translate(classGen, methodGen);
    }

    nodesTemp.setStart(il.append(new ASTORE(nodesTemp.getIndex())));

    // Compile the code for the NodeSortRecord producing class and pass
    // that as the last argument to the SortingIterator constructor.
    compileSortRecordFactory(sortObjects, classGen, methodGen);
    sortRecordFactoryTemp.setStart(il.append(new ASTORE(sortRecordFactoryTemp.getIndex())));

    il.append(new NEW(cpg.addClass(SORT_ITERATOR)));
    il.append(DUP);
    nodesTemp.setEnd(il.append(new ALOAD(nodesTemp.getIndex())));
    sortRecordFactoryTemp.setEnd(il.append(new ALOAD(sortRecordFactoryTemp.getIndex())));
    il.append(new INVOKESPECIAL(init));
  }
  public void translate(ClassGenerator classGen, MethodGenerator methodGen) {
    final InstructionList il = methodGen.getInstructionList();

    if (methodGen instanceof CompareGenerator) {
      il.append(((CompareGenerator) methodGen).loadLastNode());
    } else if (methodGen instanceof TestGenerator) {
      il.append(new ILOAD(LAST_INDEX));
    } else {
      final ConstantPoolGen cpg = classGen.getConstantPool();
      final int getLast = cpg.addInterfaceMethodref(NODE_ITERATOR, "getLast", "()I");
      il.append(methodGen.loadIterator());
      il.append(new INVOKEINTERFACE(getLast, 1));
    }
  }
Пример #5
0
  public void insertPart(
      InstructionList patch, MethodGen methodGen, ConstantPoolGen constantPoolGen) {
    for (int i = 0; i < eventArguments.length; i++) {
      eventArguments[i].insertArgument(patch, methodGen, constantPoolGen);
    }

    try {
      if (Class.forName(methodClassType).isInterface()) {
        // nargs must be eventArgs+1 to account for the class being invoked upon
        int method =
            constantPoolGen.addInterfaceMethodref(methodClassType, methodName, methodSignature);
        patch.append(new INVOKEINTERFACE(method, (eventArguments.length + 1)));
      } else {
        int method = constantPoolGen.addMethodref(methodClassType, methodName, methodSignature);
        patch.append(new INVOKEVIRTUAL(method));
      }
    } catch (Exception e) {
      System.err.println("Could not load class: " + methodClassType);
      System.err.println("Exception: e");
      e.printStackTrace();
    }
  }
  /**
   * Translate a function call. The compiled code will leave the function's return value on the
   * JVM's stack.
   */
  public void translate(ClassGenerator classGen, MethodGenerator methodGen) {
    final int n = argumentCount();
    final ConstantPoolGen cpg = classGen.getConstantPool();
    final InstructionList il = methodGen.getInstructionList();
    final boolean isSecureProcessing = classGen.getParser().getXSLTC().isSecureProcessing();
    int index;

    // Translate calls to methods in the BasisLibrary
    if (isStandard() || isExtension()) {
      for (int i = 0; i < n; i++) {
        final Expression exp = argument(i);
        exp.translate(classGen, methodGen);
        exp.startIterator(classGen, methodGen);
      }

      // append "F" to the function's name
      final String name = _fname.toString().replace('-', '_') + "F";
      String args = Constants.EMPTYSTRING;

      // Special precautions for some method calls
      if (name.equals("sumF")) {
        args = DOM_INTF_SIG;
        il.append(methodGen.loadDOM());
      } else if (name.equals("normalize_spaceF")) {
        if (_chosenMethodType.toSignature(args).equals("()Ljava/lang/String;")) {
          args = "I" + DOM_INTF_SIG;
          il.append(methodGen.loadContextNode());
          il.append(methodGen.loadDOM());
        }
      }

      // Invoke the method in the basis library
      index = cpg.addMethodref(BASIS_LIBRARY_CLASS, name, _chosenMethodType.toSignature(args));
      il.append(new INVOKESTATIC(index));
    }
    // Add call to BasisLibrary.unresolved_externalF() to generate
    // run-time error message for unsupported external functions
    else if (unresolvedExternal) {
      index =
          cpg.addMethodref(BASIS_LIBRARY_CLASS, "unresolved_externalF", "(Ljava/lang/String;)V");
      il.append(new PUSH(cpg, _fname.toString()));
      il.append(new INVOKESTATIC(index));
    } else if (_isExtConstructor) {
      if (isSecureProcessing) translateUnallowedExtension(cpg, il);

      final String clazz = _chosenConstructor.getDeclaringClass().getName();
      Class[] paramTypes = _chosenConstructor.getParameterTypes();
      LocalVariableGen[] paramTemp = new LocalVariableGen[n];

      // Backwards branches are prohibited if an uninitialized object is
      // on the stack by section 4.9.4 of the JVM Specification, 2nd Ed.
      // We don't know whether this code might contain backwards branches
      // so we mustn't create the new object until after we've created
      // the suspect arguments to its constructor.  Instead we calculate
      // the values of the arguments to the constructor first, store them
      // in temporary variables, create the object and reload the
      // arguments from the temporaries to avoid the problem.

      for (int i = 0; i < n; i++) {
        final Expression exp = argument(i);
        Type expType = exp.getType();
        exp.translate(classGen, methodGen);
        // Convert the argument to its Java type
        exp.startIterator(classGen, methodGen);
        expType.translateTo(classGen, methodGen, paramTypes[i]);
        paramTemp[i] =
            methodGen.addLocalVariable(
                "function_call_tmp" + i, expType.toJCType(), il.getEnd(), null);
        il.append(expType.STORE(paramTemp[i].getIndex()));
      }

      il.append(new NEW(cpg.addClass(_className)));
      il.append(InstructionConstants.DUP);

      for (int i = 0; i < n; i++) {
        final Expression arg = argument(i);
        il.append(arg.getType().LOAD(paramTemp[i].getIndex()));
      }

      final StringBuffer buffer = new StringBuffer();
      buffer.append('(');
      for (int i = 0; i < paramTypes.length; i++) {
        buffer.append(getSignature(paramTypes[i]));
      }
      buffer.append(')');
      buffer.append("V");

      index = cpg.addMethodref(clazz, "<init>", buffer.toString());
      il.append(new INVOKESPECIAL(index));

      // Convert the return type back to our internal type
      (Type.Object).translateFrom(classGen, methodGen, _chosenConstructor.getDeclaringClass());

    }
    // Invoke function calls that are handled in separate classes
    else {
      if (isSecureProcessing) translateUnallowedExtension(cpg, il);

      final String clazz = _chosenMethod.getDeclaringClass().getName();
      Class[] paramTypes = _chosenMethod.getParameterTypes();

      // Push "this" if it is an instance method
      if (_thisArgument != null) {
        _thisArgument.translate(classGen, methodGen);
      }

      for (int i = 0; i < n; i++) {
        final Expression exp = argument(i);
        exp.translate(classGen, methodGen);
        // Convert the argument to its Java type
        exp.startIterator(classGen, methodGen);
        exp.getType().translateTo(classGen, methodGen, paramTypes[i]);
      }

      final StringBuffer buffer = new StringBuffer();
      buffer.append('(');
      for (int i = 0; i < paramTypes.length; i++) {
        buffer.append(getSignature(paramTypes[i]));
      }
      buffer.append(')');
      buffer.append(getSignature(_chosenMethod.getReturnType()));

      if (_thisArgument != null && _clazz.isInterface()) {
        index = cpg.addInterfaceMethodref(clazz, _fname.getLocalPart(), buffer.toString());
        il.append(new INVOKEINTERFACE(index, n + 1));
      } else {
        index = cpg.addMethodref(clazz, _fname.getLocalPart(), buffer.toString());
        il.append(
            _thisArgument != null
                ? (InvokeInstruction) new INVOKEVIRTUAL(index)
                : (InvokeInstruction) new INVOKESTATIC(index));
      }

      // Convert the return type back to our internal type
      _type.translateFrom(classGen, methodGen, _chosenMethod.getReturnType());
    }
  }