Examples of com.sun.org.apache.bcel.internal.generic.InstructionHandle

• com.sun.org.apache.bcel.internal.generic.InstructionHandle
  Instances of this class give users a handle to the instructions contained in an InstructionList. Instruction objects may be used more than once within a list, this is useful because it saves memory and may be much faster. Within an InstructionList an InstructionHandle object is wrapped around all instructions, i.e., it implements a cell in a doubly-linked list. From the outside only the next and the previous instruction (handle) are accessible. One can traverse the list via an Enumeration returned by InstructionList.elements(). @version $Id: InstructionHandle.java,v 1.1.2.1 2005/07/31 23:45:01 jeffsuttor Exp $ @author M. Dahm @see Instruction @see BranchHandle @see InstructionList

        }
        return _right.typeCheck(stable);
    }

    public void translate(ClassGenerator classGen, MethodGenerator methodGen) {
        InstructionHandle parent;
        final ConstantPoolGen cpg = classGen.getConstantPool();
        final InstructionList il = methodGen.getInstructionList();

        /*
         * The scope of this local var must be the entire method since

            _trueList.append(exp._trueList);
            _falseList.append(exp._falseList);
        }

        // Backpatch true list and restore current iterator/node
        InstructionHandle restore;
        restore = il.append(methodGen.storeCurrentNode());
        backPatchTrueList(restore);
        BranchHandle skipFalse = il.append(new GOTO(null));

        // Backpatch false list and restore current iterator/node

        Predicate pred = (Predicate) _predicates.elementAt(0);
        Expression exp = pred.getExpr();
        exp.translateDesynthesized(classGen, methodGen);

        // Backpatch true list and restore current iterator/node
        InstructionHandle restore = il.append(methodGen.storeIterator());
        il.append(methodGen.storeCurrentNode());
        exp.backPatchTrueList(restore);
        BranchHandle skipFalse = il.append(new GOTO(null));

        // Backpatch false list and restore current iterator/node

            il.append(classGen.loadTranslet());
        }

        // Compile the step created at type checking time
        _step.translate(classGen, methodGen);
        InstructionHandle iterStore = il.append(new ASTORE(iter.getIndex()));

        // If in the main class update the field too
        if (!classGen.isExternal()) {
            il.append(new ALOAD(iter.getIndex()));
            il.append(new PUTFIELD(iteratorIndex));
            ifBlock.setTarget(il.append(NOP));
        } else {
            // If class is not external, start of range for iter variable was
            // set above
            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));

        // The body of this code can get very large - large than can be handled
        // by a single IFNE(body.getStart()) instruction - need workaround:
        final BranchHandle ifeq = ilLoop.append(new IFLT(null));
        final BranchHandle loop = ilLoop.append(new GOTO_W(null));
        ifeq.setTarget(ilLoop.append(RETURN));  // applyTemplates() ends here!
        final InstructionHandle ihLoop = ilLoop.getStart();

        current.setStart(mainIL.append(new GOTO_W(ihLoop)));

        // Live range of "current" ends at end of loop
        current.setEnd(loop);

        // 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;
        }

        // Initialize isAttribute[] and isNamespace[] arrays
        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
        compileTemplates(classGen, methodGen, ihLoop);

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

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

        // Do tests for id() and key() patterns first
        InstructionList ilKey = null;
        if (_idxTestSeq != null) {
            loop.setTarget(_idxTestSeq.compile(classGen, methodGen, body.getStart()));
            ilKey = _idxTestSeq.getInstructionList();
        }
        else {
            loop.setTarget(body.getStart());
        }

        // 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
        InstructionHandle attrNamespaceHandle = ihAttr;
        InstructionList nsAttr = compileNamespaces(classGen, methodGen,
                                                   isNamespace, isAttribute,
                                                   true, 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;

        // Handle any pattern with match on text nodes - default: output text
        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: process next node
        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));

        // Append all the "case:" statements
        appendTestSequences(body);
        // Append the actual template code
        appendTemplateCode(body);

        // 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));

        // Append all the "case:" statements
        appendTestSequences(body);
        // Append the actual template code
        appendTemplateCode(body);

      * Peephole optimization.
      */
    private void peepHoleOptimization(MethodGenerator methodGen) {
        InstructionList il = methodGen.getInstructionList();
        InstructionFinder find = new InstructionFinder(il);
        InstructionHandle ih;
        String pattern;

        // LoadInstruction, POP => (removed)
        // pattern = "LoadInstruction POP";
        // changed to lower case - changing to all lower case although only the instruction with capital I

    public void translate(ClassGenerator classGen, MethodGenerator methodGen) {
        final InstructionList il = methodGen.getInstructionList();

        _left.translate(classGen, methodGen);
        final InstructionHandle gotot = il.append(new GOTO(null));
        il.append(methodGen.loadContextNode());
        _right.translate(classGen, methodGen);

        _left._trueList.backPatch(gotot);
        _left._falseList.backPatch(gotot.getNext());

        _trueList.append(_right._trueList.add(gotot));
        _falseList.append(_right._falseList);
    }

        {
            _left.translate(classGen, methodGen);
        }
        else {
            il.append(DUP);
            InstructionHandle storeInst = il.append(storeLocal);

            if (local.getStart() == null) {
                local.setStart(storeInst);
            }

        if (count == 0) {
            return (_start = getTemplateHandle(_default));
        }

        // Init handle to jump when all patterns failed
        InstructionHandle fail = (_default == null) ? continuation
            : getTemplateHandle(_default);

        // Compile all patterns in reverse order
        for (int n = count - 1; n >= 0; n--) {
            final LocationPathPattern pattern = getPattern(n);
            final Template template = pattern.getTemplate();
            final InstructionList il = new InstructionList();

            // Patterns expect current node on top of stack
            il.append(methodGen.loadCurrentNode());

            // Apply the test-code compiled for the pattern
            InstructionList ilist = methodGen.getInstructionList(pattern);
            if (ilist == null) {
                ilist = pattern.compile(classGen, methodGen);
                methodGen.addInstructionList(pattern, ilist);
            }

            // Make a copy of the instruction list for backpatching
            InstructionList copyOfilist = ilist.copy();

            FlowList trueList = pattern.getTrueList();
            if (trueList != null) {
                trueList = trueList.copyAndRedirect(ilist, copyOfilist);
            }
            FlowList falseList = pattern.getFalseList();
            if (falseList != null) {
                falseList = falseList.copyAndRedirect(ilist, copyOfilist);
            }

            il.append(copyOfilist);

            // On success branch to the template code
            final InstructionHandle gtmpl = getTemplateHandle(template);
            final InstructionHandle success = il.append(new GOTO_W(gtmpl));

            if (trueList != null) {
                trueList.backPatch(success);
            }
            if (falseList != null) {