Examples of org.apache.bcel.generic.ILOAD

• org.apache.bcel.generic.ILOAD
  ILOAD - Load int from local variable onto stack

  Stack: ... -> ..., result

  @version $Id: ILOAD.java 386056 2006-03-15 11:31:56Z tcurdt $ @author M. Dahm

    public String getClassName() {
  return(RUNTIME_NODE_CLASS);
    }

    public Instruction LOAD(int slot) {
  return new ILOAD(slot);
    }

        String method_name, String class_name,
        InstructionList il, ConstantPoolGen cp) {
  super(access_flags, return_type, arg_types, arg_names, method_name,
        class_name, il, cp);

  _iloadCurrent = new ILOAD(CURRENT_INDEX);
  _istoreCurrent = new ISTORE(CURRENT_INDEX);
    }

  final InstructionList il = methodGen.getInstructionList();
  final int git = cpg.addInterfaceMethodref(DOM_INTF,
              GET_CHILDREN,
              GET_CHILDREN_SIG);
  il.append(methodGen.loadDOM());
  il.append(new ILOAD(node));
  il.append(new INVOKEINTERFACE(git, 2));
    }

                applyTemplatesSig);
  il.append(classGen.loadTranslet());
  il.append(methodGen.loadDOM());

  il.append(methodGen.loadDOM());
  il.append(new ILOAD(_currentIndex));
  il.append(new INVOKEINTERFACE(git, 2));
  il.append(methodGen.loadHandler());
  il.append(new INVOKEVIRTUAL(applyTemplates));
  il.append(new GOTO_W(next));
  return il;

  final int chars = cpg.addInterfaceMethodref(DOM_INTF,
                CHARACTERS,
                CHARACTERS_SIG);
  il.append(methodGen.loadDOM());
  il.append(new ILOAD(_currentIndex));
  il.append(methodGen.loadHandler());
  il.append(new INVOKEINTERFACE(chars, 3));
  il.append(new GOTO_W(next));
  return il;
    }

      // Append first code in applyTemplates() - get type of current node
      final int getNS = cpg.addInterfaceMethodref(DOM_INTF,
              "getNamespaceType",
              "(I)I");
      il.append(methodGen.loadDOM());
      il.append(new ILOAD(_currentIndex));
      il.append(new INVOKEINTERFACE(getNS, 2));
      il.append(new SWITCH(types, targets, defaultTarget));
      return(il);
  }
  else {

  // Append first code in applyTemplates() - get type of current node
  final int getType = cpg.addInterfaceMethodref(DOM_INTF,
                  "getExpandedTypeID",
                                                      "(I)I");
  body.append(methodGen.loadDOM());
  body.append(new ILOAD(_currentIndex));
  body.append(new INVOKEINTERFACE(getType, 2));

  // Append switch() statement - main dispatch loop in applyTemplates()
  InstructionHandle disp = body.append(new SWITCH(types, targets, ihLoop));

  current = methodGen.addLocalVariable2("current",
                org.apache.bcel.generic.Type.INT,
                null);
  _currentIndex = current.getIndex();

    mainIL.append(new ILOAD(methodGen.getLocalIndex(NODE_PNAME)));
    current.setStart(mainIL.append(new ISTORE(_currentIndex)));

  // Create the "body" instruction list that will eventually hold the
  // code for the entire method (other ILs will be appended).
  final InstructionList body = new InstructionList();
  body.append(NOP);

  // Create an instruction list that contains the default next-node
  // iteration
  final InstructionList ilLoop = new InstructionList();
    ilLoop.append(RETURN);
  final InstructionHandle ihLoop = ilLoop.getStart();

  // Compile default handling of elements (traverse children)
  InstructionList ilRecurse =
      compileDefaultRecursion(classGen, methodGen, ihLoop);
  InstructionHandle ihRecurse = ilRecurse.getStart();

  // Compile default handling of text/attribute nodes (output text)
  InstructionList ilText =
      compileDefaultText(classGen, methodGen, ihLoop);
  InstructionHandle ihText = ilText.getStart();

  // Distinguish attribute/element/namespace tests for further processing
  final int[] types = new int[DTM.NTYPES + names.size()];
  for (int i = 0; i < types.length; i++) {
      types[i] = i;
  }

  final boolean[] isAttribute = new boolean[types.length];
  final boolean[] isNamespace = new boolean[types.length];
  for (int i = 0; i < names.size(); i++) {
      final String name = (String)names.elementAt(i);
      isAttribute[i+DTM.NTYPES] = isAttributeName(name);
      isNamespace[i+DTM.NTYPES] = isNamespaceName(name);
  }

  // Compile all templates - regardless of pattern type
  compileTemplateCalls(classGen, methodGen, ihLoop, min, max);

  // Handle template with explicit "*" pattern
  final TestSeq elemTest = _testSeq[DTM.ELEMENT_NODE];
  InstructionHandle ihElem = ihRecurse;
  if (elemTest != null) {
      ihElem = elemTest.compile(classGen, methodGen, ihLoop);
  }

  // Handle template with explicit "@*" pattern
  final TestSeq attrTest = _testSeq[DTM.ATTRIBUTE_NODE];
  InstructionHandle ihAttr = ihLoop;
  if (attrTest != null) {
      ihAttr = attrTest.compile(classGen, methodGen, ihAttr);
  }

  // Do tests for id() and key() patterns first
  InstructionList ilKey = null;
  if (_idxTestSeq != null) {
      ilKey = _idxTestSeq.getInstructionList();
  }

  // If there is a match on node() we need to replace ihElem
  // and ihText if the priority of node() is higher
  if (_childNodeTestSeq != null) {
      // Compare priorities of node() and "*"
      double nodePrio = _childNodeTestSeq.getPriority();
      int    nodePos  = _childNodeTestSeq.getPosition();
      double elemPrio = (0 - Double.MAX_VALUE);
      int    elemPos  = Integer.MIN_VALUE;

      if (elemTest != null) {
    elemPrio = elemTest.getPriority();
    elemPos  = elemTest.getPosition();
      }

      if (elemPrio == Double.NaN || elemPrio < nodePrio ||
    (elemPrio == nodePrio && elemPos < nodePos))
      {
    ihElem = _childNodeTestSeq.compile(classGen, methodGen, ihLoop);
      }

      // Compare priorities of node() and text()
      final TestSeq textTest = _testSeq[DTM.TEXT_NODE];
      double textPrio = (0 - Double.MAX_VALUE);
      int    textPos  = Integer.MIN_VALUE;

      if (textTest != null) {
    textPrio = textTest.getPriority();
    textPos  = textTest.getPosition();
      }

      if (textPrio == Double.NaN || textPrio < nodePrio ||
          (textPrio == nodePrio && textPos < nodePos))
      {
    ihText = _childNodeTestSeq.compile(classGen, methodGen, ihLoop);
    _testSeq[DTM.TEXT_NODE] = _childNodeTestSeq;
      }
  }

  // Handle templates with "ns:*" pattern
  InstructionHandle elemNamespaceHandle = ihElem;
  InstructionList nsElem = compileNamespaces(classGen, methodGen,
               isNamespace, isAttribute,
               false, ihElem);
  if (nsElem != null) elemNamespaceHandle = nsElem.getStart();

  // Handle templates with "ns:@*" pattern
  InstructionList nsAttr = compileNamespaces(classGen, methodGen,
               isNamespace, isAttribute,
               true, ihAttr);
  InstructionHandle attrNamespaceHandle = ihAttr;
  if (nsAttr != null) attrNamespaceHandle = nsAttr.getStart();

  // Handle templates with "ns:elem" or "ns:@attr" pattern
  final InstructionHandle[] targets = new InstructionHandle[types.length];
  for (int i = DTM.NTYPES; i < targets.length; i++) {
      final TestSeq testSeq = _testSeq[i];
      // Jump straight to namespace tests ?
      if (isNamespace[i]) {
    if (isAttribute[i])
        targets[i] = attrNamespaceHandle;
    else
        targets[i] = elemNamespaceHandle;
      }
      // Test first, then jump to namespace tests
      else if (testSeq != null) {
    if (isAttribute[i])
        targets[i] = testSeq.compile(classGen, methodGen,
             attrNamespaceHandle);
    else
        targets[i] = testSeq.compile(classGen, methodGen,
             elemNamespaceHandle);
      }
      else {
    targets[i] = ihLoop;
      }
  }

  // Handle pattern with match on root node - default: traverse children
  targets[DTM.ROOT_NODE] = _rootPattern != null
      ? getTemplateInstructionHandle(_rootPattern.getTemplate())
      : ihRecurse;
  // Handle pattern with match on root node - default: traverse children
  targets[DTM.DOCUMENT_NODE] = _rootPattern != null
      ? getTemplateInstructionHandle(_rootPattern.getTemplate())
      : ihRecurse;    // %HZ%:  Was ihLoop in XSLTC_DTM branch

  // Handle any pattern with match on text nodes - default: loop
  targets[DTM.TEXT_NODE] = _testSeq[DTM.TEXT_NODE] != null
      ? _testSeq[DTM.TEXT_NODE].compile(classGen, methodGen, ihText)
      : ihText;

  // This DOM-type is not in use - default: process next node
  targets[DTM.NAMESPACE_NODE] = ihLoop;

  // Match unknown element in DOM - default: check for namespace match
  targets[DTM.ELEMENT_NODE] = elemNamespaceHandle;

  // Match unknown attribute in DOM - default: check for namespace match
  targets[DTM.ATTRIBUTE_NODE] = attrNamespaceHandle;

  // Match on processing instruction - default: loop
  InstructionHandle ihPI = ihLoop;
  if (_childNodeTestSeq != null) ihPI = ihElem;
  if (_testSeq[DTM.PROCESSING_INSTRUCTION_NODE] != null) {
      targets[DTM.PROCESSING_INSTRUCTION_NODE] =
    _testSeq[DTM.PROCESSING_INSTRUCTION_NODE].
    compile(classGen, methodGen, ihPI);
  }
  else {
      targets[DTM.PROCESSING_INSTRUCTION_NODE] = ihPI;
  }

  // Match on comments - default: process next node
  InstructionHandle ihComment = ihLoop;
  if (_childNodeTestSeq != null) ihComment = ihElem;
  targets[DTM.COMMENT_NODE] = _testSeq[DTM.COMMENT_NODE] != null
      ? _testSeq[DTM.COMMENT_NODE].compile(classGen, methodGen, ihComment)
      : ihComment;

          // This DOM-type is not in use - default: process next node
  targets[DTM.CDATA_SECTION_NODE] = ihLoop;

  // This DOM-type is not in use - default: process next node
  targets[DTM.DOCUMENT_FRAGMENT_NODE] = ihLoop;

  // This DOM-type is not in use - default: process next node
  targets[DTM.DOCUMENT_TYPE_NODE] = ihLoop;

  // This DOM-type is not in use - default: process next node
  targets[DTM.ENTITY_NODE] = ihLoop;

  // This DOM-type is not in use - default: process next node
  targets[DTM.ENTITY_REFERENCE_NODE] = ihLoop;

  // This DOM-type is not in use - default: process next node
  targets[DTM.NOTATION_NODE] = ihLoop;



  // Now compile test sequences for various match patterns:
  for (int i = DTM.NTYPES; i < targets.length; i++) {
      final TestSeq testSeq = _testSeq[i];
      // Jump straight to namespace tests ?
      if ((testSeq == null) || (isNamespace[i])) {
    if (isAttribute[i])
        targets[i] = attrNamespaceHandle;
    else
        targets[i] = elemNamespaceHandle;
      }
      // Match on node type
      else {
    if (isAttribute[i])
        targets[i] = testSeq.compile(classGen, methodGen,
             attrNamespaceHandle);
    else
        targets[i] = testSeq.compile(classGen, methodGen,
             elemNamespaceHandle);
      }
  }

  if (ilKey != null) body.insert(ilKey);

  // Append first code in applyTemplates() - get type of current node
  final int getType = cpg.addInterfaceMethodref(DOM_INTF,
                  "getExpandedTypeID",
                                                      "(I)I");
  body.append(methodGen.loadDOM());
  body.append(new ILOAD(_currentIndex));
  body.append(new INVOKEINTERFACE(getType, 2));

  // Append switch() statement - main dispatch loop in applyTemplates()
  InstructionHandle disp = body.append(new SWITCH(types,targets,ihLoop));

             null, null);
  match.setStart(il.append(new ISTORE(match.getIndex())));

  // If pattern not reduced then check kernel
  if (!_isEpsilon) {
      il.append(new ILOAD(match.getIndex()));
       translateKernel(classGen, methodGen);
  }

  // Push current iterator and current node on the stack
  il.append(methodGen.loadCurrentNode());
  il.append(methodGen.loadIterator());

  // Create a new matching iterator using the matching node
  index = cpg.addMethodref(MATCHING_ITERATOR, "<init>",
         "(I" + NODE_ITERATOR_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.

  _step.translate(classGen, methodGen);
        LocalVariableGen stepIteratorTemp =
                methodGen.addLocalVariable("step_pattern_tmp2",
                                           Util.getJCRefType(NODE_ITERATOR_SIG),
                                           null, null);
        stepIteratorTemp.setStart(
                il.append(new ASTORE(stepIteratorTemp.getIndex())));

  il.append(new NEW(cpg.addClass(MATCHING_ITERATOR)));
  il.append(DUP);
  il.append(new ILOAD(match.getIndex()));
        stepIteratorTemp.setEnd(
                il.append(new ALOAD(stepIteratorTemp.getIndex())));
  il.append(new INVOKESPECIAL(index));

  // Get the parent of the matching node
  il.append(methodGen.loadDOM());
  il.append(new ILOAD(match.getIndex()));
  index = cpg.addInterfaceMethodref(DOM_INTF, GET_PARENT, GET_PARENT_SIG);
  il.append(new INVOKEINTERFACE(index, 2));

  // Start the iterator with the parent
  il.append(methodGen.setStartNode());

  // Overwrite current iterator and current node
  il.append(methodGen.storeIterator());
  match.setEnd(il.append(new ILOAD(match.getIndex())));
  il.append(methodGen.storeCurrentNode());

  // Translate the expression of the predicate
  Predicate pred = (Predicate) _predicates.elementAt(0);
  Expression exp = pred.getExpr();

            iter.setStart(iterStore);
        }

  // Get the parent of the node on the stack
  il.append(methodGen.loadDOM());
  il.append(new ILOAD(node.getIndex()));
  int index = cpg.addInterfaceMethodref(DOM_INTF,
                GET_PARENT, GET_PARENT_SIG);
  il.append(new INVOKEINTERFACE(index, 2));

  // Initialize the iterator with the parent
  il.append(new ALOAD(iter.getIndex()));
  il.append(SWAP);
  il.append(methodGen.setStartNode());

  /*
   * Inline loop:
   *
   * int node2;
   * while ((node2 = iter.next()) != NodeIterator.END
   *      && node2 < node);
   * return node2 == node;
   */
  BranchHandle skipNext;
  InstructionHandle begin, next;
  node2 = methodGen.addLocalVariable("step_pattern_tmp3",
             Util.getJCRefType(NODE_SIG),
             null, null);

  skipNext = il.append(new GOTO(null));
  next = il.append(new ALOAD(iter.getIndex()));
        node2.setStart(next);
  begin = il.append(methodGen.nextNode());
  il.append(DUP);
  il.append(new ISTORE(node2.getIndex()));
  _falseList.add(il.append(new IFLT(null)));  // NodeIterator.END

  il.append(new ILOAD(node2.getIndex()));
  il.append(new ILOAD(node.getIndex()));
  iter.setEnd(il.append(new IF_ICMPLT(next)));

  node2.setEnd(il.append(new ILOAD(node2.getIndex())));
  node.setEnd(il.append(new ILOAD(node.getIndex())));
  _falseList.add(il.append(new IF_ICMPNE(null)));

  skipNext.setTarget(begin);
    }