Examples of InstructionContext

• org.apache.bcel.verifier.structurals.InstructionContext
  An InstructionContext offers convenient access to information like control flow successors and such. @version $Id: InstructionContext.java 382272 2006-03-02 03:31:46Z tcurdt $ @author Enver Haase
• org.aspectj.apache.bcel.verifier.structurals.InstructionContext
  u-berlin.de/~ehaase"/>Enver Haase

Examples of org.apache.bcel.verifier.structurals.InstructionContext

        icv.setMethodGen(method);

        Vector ics = new Vector(); // Type: InstructionContext
        Vector ecs = new Vector(); // Type: ArrayList (of InstructionContext)

        InstructionContext start = cfg.contextOf(method.getInstructionList().getStart());

        start.execute(vanillaFrame, new ArrayList(), icv, ev);
        // new ArrayList() <=>  no Instruction was executed before
        //                  => Top-Level routine (no jsr call before)
        ics.add(start);
        ecs.add(new ArrayList());

        while (!ics.isEmpty()) {
            InstructionContext u = (InstructionContext)ics.remove(0);
            ArrayList ec = (ArrayList)ecs.remove(0);

            ArrayList oldchain = (ArrayList)(ec.clone());
            ArrayList newchain = (ArrayList)(ec.clone());
            newchain.add(u);

            if ((u.getInstruction().getInstruction()) instanceof RET) {
                // We can only follow _one_ successor, the one after the
                // JSR that was recently executed.
                RET ret = (RET)u.getInstruction().getInstruction();
                ReturnaddressType t = (ReturnaddressType)u.getOutFrame(oldchain).getLocals().get(ret.getIndex());
                InstructionContext theSuccessor = cfg.contextOf(t.getTarget());

                if (theSuccessor.execute(u.getOutFrame(oldchain), newchain, icv, ev)) {
                    ics.add(theSuccessor);
                    ecs.add(newchain.clone());
                }
            } else { // "not a ret"
                // Normal successors. Add them to the queue of successors.
                InstructionContext[] succs = u.getSuccessors();
                for (int s = 0; s < succs.length; s++) {
                    InstructionContext v = succs[s];
                    if (v.execute(u.getOutFrame(oldchain), newchain, icv, ev)) {
                        ics.add(v);
                        ecs.add(newchain.clone());
                    }
                }
            }
            // Exception Handlers. Add them to the queue of successors.
            ExceptionHandler[] exc_hds = u.getExceptionHandlers();
            for (int s = 0; s < exc_hds.length; s++) {
                InstructionContext v = cfg.contextOf(exc_hds[s].getHandlerStart());
                // TODO: the "oldchain" and "newchain" is used to determine the subroutine
                // we're in (by searching for the last JSR) by the InstructionContext
                // implementation. Therefore, we should not use this chain mechanism
                // when dealing with exception handlers.

                LocalVariables newLocals = u.getOutFrame(oldchain).getLocals();
                OperandStack newStack = new OperandStack(
                        u.getOutFrame(oldchain).getStack().maxStack(),
                        (exc_hds[s].getExceptionType() == null
                        ? Type.THROWABLE
                        : exc_hds[s].getExceptionType()));
                Frame newFrame = new Frame(newLocals, newStack);

                if (v.execute(newFrame, new ArrayList(), icv, ev)) {
                    ics.add(v);
                    ecs.add(new ArrayList());
                }
            }
        }

Examples of org.apache.bcel.verifier.structurals.InstructionContext

        InstructionList restorer = new InstructionList();
        while (ins != null) {
            InstructionHandle next = ins.getNext();

            // if not traversed by the analyser, then don't rewrite
            InstructionContext context = null;
            Frame frame = null;
            try {
                context = cfg.contextOf(ins);
                frame = context.getOutFrame(new ArrayList());
            } catch (AssertionViolatedException ave) {
                // empty
            }
            if (frame != null) {
                if (rewriteable(method, ins)) {
                    // Add frame saver and restorer for the current breakpoint

                    // determine type of object for the method invocation
                    InvokeInstruction invoke = (InvokeInstruction)ins.getInstruction();
                    Type[] arguments = invoke.getArgumentTypes(method.getConstantPool());
                    ObjectType objecttype = null;
                    if (!(invoke instanceof INVOKESTATIC)) {
                        objecttype = (ObjectType)context.getInFrame().getStack().peek(arguments.length);
                    }
                    InstructionList rList = restoreFrame(method, ins, insFactory, frame, objecttype);
                    insList.append(ins, saveFrame(method, ins, count++, insFactory, frame));
                    invokeIns.addElement(rList.getStart());
                    restorer.append(rList);
                }
                // remove all new's
                if (ins.getInstruction().getOpcode() == Constants.NEW) {
                    try {
                        // remove additional dup's
                        while (next != null && next.getInstruction().getOpcode() == Constants.DUP) {
                            context = cfg.contextOf(next);
                            frame = context.getOutFrame(new ArrayList());
                            InstructionHandle newnext = next.getNext();
                            insList.delete(next);
                            next = newnext;
                        }
                        InstructionTargeter[] targeter = ins.getTargeters();
                        if (targeter != null) {
                            InstructionHandle newnext = ins.getNext();
                            for (int i = 0; i < targeter.length; i++) {
                                targeter[i].updateTarget(ins, newnext);
                            }
                        }
                        insList.delete(ins);
                    } catch (TargetLostException tle) {
                        throw new ClassNotFoundException(tle.getMessage(), tle);
                    }
                } else if (ins.getInstruction().getOpcode() == Constants.INVOKESPECIAL) {
                    // duplicate stack before invokespecial to insert uninitialized object
                    frame = context.getInFrame();
                    InvokeInstruction invoke = (InvokeInstruction)ins.getInstruction();
                    Type[] arguments = invoke.getArgumentTypes(method.getConstantPool());

                    OperandStack os = frame.getStack();
                    Type type = os.peek(arguments.length);

Examples of org.apache.bcel.verifier.structurals.InstructionContext

        // => Top-Level routine (no jsr call before)
        icq.add(start, new ArrayList());

        // LOOP!
        while (!icq.isEmpty()) {
            InstructionContext u;
            ArrayList ec;
            if (!DEBUG) {
                int r = random.nextInt(icq.size());
                u = icq.getIC(r);
                ec = icq.getEC(r);
                icq.remove(r);
            } else {
                u = icq.getIC(0);
                ec = icq.getEC(0);
                icq.remove(0);
            }

            ArrayList oldchain = (ArrayList) ec.clone();
            ArrayList newchain = (ArrayList) ec.clone();
            newchain.add(u);

            if (u.getInstruction().getInstruction() instanceof RET) {
                // System.err.println(u);
                // We can only follow _one_ successor, the one after the
                // JSR that was recently executed.
                RET ret = (RET) u.getInstruction().getInstruction();
                ReturnaddressType t = (ReturnaddressType) u.getOutFrame(oldchain)
                        .getLocals()
                        .get(ret.getIndex());
                InstructionContext theSuccessor = cfg.contextOf(t.getTarget());

                // Sanity check
                InstructionContext lastJSR = null;
                int skip_jsr = 0;
                for (int ss = oldchain.size() - 1; ss >= 0; ss--) {
                    if (skip_jsr < 0) {
                        throw new AssertionViolatedException("More RET than JSR in execution chain?!");
                    }
                    // System.err.println("+"+oldchain.get(ss));
                    if (((InstructionContext) oldchain.get(ss)).getInstruction()
                            .getInstruction() instanceof JsrInstruction)
                    {
                        if (skip_jsr == 0) {
                            lastJSR = (InstructionContext) oldchain.get(ss);
                            break;
                        } else {
                            skip_jsr--;
                        }
                    }
                    if (((InstructionContext) oldchain.get(ss)).getInstruction()
                            .getInstruction() instanceof RET)
                    {
                        skip_jsr++;
                    }
                }
                if (lastJSR == null) {
                    throw new AssertionViolatedException("RET without a JSR before in ExecutionChain?! EC: '"
                            + oldchain + "'.");
                }
                JsrInstruction jsr = (JsrInstruction) lastJSR.getInstruction()
                        .getInstruction();
                if (theSuccessor != cfg.contextOf(jsr.physicalSuccessor())) {
                    throw new AssertionViolatedException("RET '"
                            + u.getInstruction()
                            + "' info inconsistent: jump back to '"
                            + theSuccessor + "' or '"
                            + cfg.contextOf(jsr.physicalSuccessor()) + "'?");
                }

                if (theSuccessor.execute(u.getOutFrame(oldchain),
                        newchain,
                        icv,
                        ev))
                {
                    icq.add(theSuccessor, (ArrayList) newchain.clone());
                }
            } else {// "not a ret"

                // Normal successors. Add them to the queue of successors.
                InstructionContext[] succs = u.getSuccessors();
                for (int s = 0; s < succs.length; s++) {
                    InstructionContext v = succs[s];
                    if (v.execute(u.getOutFrame(oldchain), newchain, icv, ev)) {
                        icq.add(v, (ArrayList) newchain.clone());
                    }
                }
            }// end "not a ret"

            // Exception Handlers. Add them to the queue of successors.
            // [subroutines are never protected; mandated by JustIce]
            ExceptionHandler[] exc_hds = u.getExceptionHandlers();
            for (int s = 0; s < exc_hds.length; s++) {
                InstructionContext v = cfg.contextOf(exc_hds[s].getHandlerStart());
                // TODO: the "oldchain" and "newchain" is used to determine the
                // subroutine
                // we're in (by searching for the last JSR) by the
                // InstructionContext
                // implementation. Therefore, we should not use this chain
                // mechanism
                // when dealing with exception handlers.
                // Example: a JSR with an exception handler as its successor
                // does not
                // mean we're in a subroutine if we go to the exception handler.
                // We should address this problem later; by now we simply "cut"
                // the chain
                // by using an empty chain for the exception handlers.
                // if (v.execute(new Frame(u.getOutFrame(oldchain).getLocals(),
                // new OperandStack (u.getOutFrame().getStack().maxStack(),
                // (exc_hds[s].getExceptionType()==null? Type.THROWABLE :
                // exc_hds[s].getExceptionType())) ), newchain), icv, ev){
                // icq.add(v, (ArrayList) newchain.clone());
                if (v.execute(new Frame(u.getOutFrame(oldchain).getLocals(),
                        new OperandStack(u.getOutFrame(oldchain)
                                .getStack()
                                .maxStack(),
                                (exc_hds[s].getExceptionType() == null
                                        ? Type.THROWABLE

Examples of org.apache.bcel.verifier.structurals.InstructionContext

        icv.setMethodGen(method);

        Vector ics = new Vector(); // Type: InstructionContext
        Vector ecs = new Vector(); // Type: ArrayList (of InstructionContext)

        InstructionContext start = cfg.contextOf(method.getInstructionList().getStart());

        start.execute(vanillaFrame, new ArrayList(), icv, ev);
        // new ArrayList() <=>  no Instruction was executed before
        //                  => Top-Level routine (no jsr call before)
        ics.add(start);
        ecs.add(new ArrayList());

        while (!ics.isEmpty()) {
            InstructionContext u = (InstructionContext)ics.remove(0);
            ArrayList ec = (ArrayList)ecs.remove(0);

            ArrayList oldchain = (ArrayList)(ec.clone());
            ArrayList newchain = (ArrayList)(ec.clone());
            newchain.add(u);

            if ((u.getInstruction().getInstruction()) instanceof RET) {
                // We can only follow _one_ successor, the one after the
                // JSR that was recently executed.
                RET ret = (RET)u.getInstruction().getInstruction();
                ReturnaddressType t = (ReturnaddressType)u.getOutFrame(oldchain).getLocals().get(ret.getIndex());
                InstructionContext theSuccessor = cfg.contextOf(t.getTarget());

                if (theSuccessor.execute(u.getOutFrame(oldchain), newchain, icv, ev)) {
                    ics.add(theSuccessor);
                    ecs.add(newchain.clone());
                }
            } else { // "not a ret"
                // Normal successors. Add them to the queue of successors.
                InstructionContext[] succs = u.getSuccessors();
                for (int s = 0; s < succs.length; s++) {
                    InstructionContext v = succs[s];
                    if (v.execute(u.getOutFrame(oldchain), newchain, icv, ev)) {
                        ics.add(v);
                        ecs.add(newchain.clone());
                    }
                }
            }
            // Exception Handlers. Add them to the queue of successors.
            ExceptionHandler[] exc_hds = u.getExceptionHandlers();
            for (int s = 0; s < exc_hds.length; s++) {
                InstructionContext v = cfg.contextOf(exc_hds[s].getHandlerStart());
                // TODO: the "oldchain" and "newchain" is used to determine the subroutine
                // we're in (by searching for the last JSR) by the InstructionContext
                // implementation. Therefore, we should not use this chain mechanism
                // when dealing with exception handlers.

                LocalVariables newLocals = u.getOutFrame(oldchain).getLocals();
                OperandStack newStack = new OperandStack(
                        u.getOutFrame(oldchain).getStack().maxStack(),
                        (exc_hds[s].getExceptionType() == null
                        ? Type.THROWABLE
                        : exc_hds[s].getExceptionType()));
                Frame newFrame = new Frame(newLocals, newStack);

                if (v.execute(newFrame, new ArrayList(), icv, ev)) {
                    ics.add(v);
                    ecs.add(new ArrayList());
                }
            }
        }

Examples of org.apache.bcel.verifier.structurals.InstructionContext

        InstructionList restorer = new InstructionList();
        while (ins != null) {
            InstructionHandle next = ins.getNext();

            // if not traversed by the analyser, then don't rewrite
            InstructionContext context = null;
            Frame frame = null;
            try {
                context = cfg.contextOf(ins);
                frame = context.getOutFrame(new ArrayList());
            } catch (AssertionViolatedException ave) {
                // empty
            }
            if (frame != null) {
                if (rewriteable(method, ins)) {
                    // Add frame saver and restorer for the current breakpoint

                    // determine type of object for the method invocation
                    InvokeInstruction invoke = (InvokeInstruction)ins.getInstruction();
                    Type[] arguments = invoke.getArgumentTypes(method.getConstantPool());
                    ObjectType objecttype = null;
                    if (!(invoke instanceof INVOKESTATIC)) {
                        objecttype = (ObjectType)context.getInFrame().getStack().peek(arguments.length);
                    }
                    InstructionList rList = restoreFrame(method, ins, insFactory, frame, objecttype);
                    insList.append(ins, saveFrame(method, ins, count++, insFactory, frame));
                    invokeIns.addElement(rList.getStart());
                    restorer.append(rList);
                }
                // remove all new's
                if (ins.getInstruction().getOpcode() == Constants.NEW) {
                    try {
                        // remove additional dup's
                        while (next != null && next.getInstruction().getOpcode() == Constants.DUP) {
                            context = cfg.contextOf(next);
                            frame = context.getOutFrame(new ArrayList());
                            InstructionHandle newnext = next.getNext();
                            insList.delete(next);
                            next = newnext;
                        }
                        InstructionTargeter[] targeter = ins.getTargeters();
                        if (targeter != null) {
                            InstructionHandle newnext = ins.getNext();
                            for (int i = 0; i < targeter.length; i++) {
                                targeter[i].updateTarget(ins, newnext);
                            }
                        }
                        insList.delete(ins);
                    } catch (TargetLostException tle) {
                        throw new ClassNotFoundException(tle.getMessage(), tle);
                    }
                } else if (ins.getInstruction().getOpcode() == Constants.INVOKESPECIAL) {
                    // duplicate stack before invokespecial to insert uninitialized object
                    frame = context.getInFrame();
                    InvokeInstruction invoke = (InvokeInstruction)ins.getInstruction();
                    Type[] arguments = invoke.getArgumentTypes(method.getConstantPool());

                    OperandStack os = frame.getStack();
                    Type type = os.peek(arguments.length);

Examples of org.apache.bcel.verifier.structurals.InstructionContext

        icv.setMethodGen(method);

        Vector ics = new Vector(); // Type: InstructionContext
        Vector ecs = new Vector(); // Type: ArrayList (of InstructionContext)

        InstructionContext start = cfg.contextOf(method.getInstructionList().getStart());

        start.execute(vanillaFrame, new ArrayList(), icv, ev);
        // new ArrayList() <=>  no Instruction was executed before
        //                  => Top-Level routine (no jsr call before)
        ics.add(start);
        ecs.add(new ArrayList());

        while (!ics.isEmpty()) {
            InstructionContext u = (InstructionContext)ics.remove(0);
            ArrayList ec = (ArrayList)ecs.remove(0);

            ArrayList oldchain = (ArrayList)(ec.clone());
            ArrayList newchain = (ArrayList)(ec.clone());
            newchain.add(u);

            if ((u.getInstruction().getInstruction()) instanceof RET) {
                // We can only follow _one_ successor, the one after the
                // JSR that was recently executed.
                RET ret = (RET)u.getInstruction().getInstruction();
                ReturnaddressType t = (ReturnaddressType)u.getOutFrame(oldchain).getLocals().get(ret.getIndex());
                InstructionContext theSuccessor = cfg.contextOf(t.getTarget());

                if (theSuccessor.execute(u.getOutFrame(oldchain), newchain, icv, ev)) {
                    ics.add(theSuccessor);
                    ecs.add(newchain.clone());
                }
            } else { // "not a ret"
                // Normal successors. Add them to the queue of successors.
                InstructionContext[] succs = u.getSuccessors();
                for (int s = 0; s < succs.length; s++) {
                    InstructionContext v = succs[s];
                    if (v.execute(u.getOutFrame(oldchain), newchain, icv, ev)) {
                        ics.add(v);
                        ecs.add(newchain.clone());
                    }
                }
            }
            // Exception Handlers. Add them to the queue of successors.
            ExceptionHandler[] exc_hds = u.getExceptionHandlers();
            for (int s = 0; s < exc_hds.length; s++) {
                InstructionContext v = cfg.contextOf(exc_hds[s].getHandlerStart());
                // TODO: the "oldchain" and "newchain" is used to determine the subroutine
                // we're in (by searching for the last JSR) by the InstructionContext
                // implementation. Therefore, we should not use this chain mechanism
                // when dealing with exception handlers.

                LocalVariables newLocals = u.getOutFrame(oldchain).getLocals();
                OperandStack newStack = new OperandStack(
                        u.getOutFrame(oldchain).getStack().maxStack(),
                        (exc_hds[s].getExceptionType() == null
                        ? Type.THROWABLE
                        : exc_hds[s].getExceptionType()));
                Frame newFrame = new Frame(newLocals, newStack);

                if (v.execute(newFrame, new ArrayList(), icv, ev)) {
                    ics.add(v);
                    ecs.add(new ArrayList());
                }
            }
        }

Examples of org.apache.bcel.verifier.structurals.InstructionContext

        InstructionList restorer = new InstructionList();
        while (ins != null) {
            InstructionHandle next = ins.getNext();

            // if not traversed by the analyser, then don't rewrite
            InstructionContext context = null;
            Frame frame = null;
            try {
                context = cfg.contextOf(ins);
                frame = context.getOutFrame(new ArrayList());
            } catch (AssertionViolatedException ave) {
                // empty
            }
            if (frame != null) {
                if (rewriteable(method, ins)) {
                    // Add frame saver and restorer for the current breakpoint

                    // determine type of object for the method invocation
                    InvokeInstruction invoke = (InvokeInstruction)ins.getInstruction();
                    Type[] arguments = invoke.getArgumentTypes(method.getConstantPool());
                    ObjectType objecttype = null;
                    if (!(invoke instanceof INVOKESTATIC)) {
                        objecttype = (ObjectType)context.getInFrame().getStack().peek(arguments.length);
                    }
                    InstructionList rList = restoreFrame(method, ins, insFactory, frame, objecttype);
                    insList.append(ins, saveFrame(method, ins, count++, insFactory, frame));
                    invokeIns.addElement(rList.getStart());
                    restorer.append(rList);
                }
                // remove all new's
                if (ins.getInstruction().getOpcode() == Constants.NEW) {
                    try {
                        // remove additional dup's
                        while (next != null && next.getInstruction().getOpcode() == Constants.DUP) {
                            context = cfg.contextOf(next);
                            frame = context.getOutFrame(new ArrayList());
                            InstructionHandle newnext = next.getNext();
                            insList.delete(next);
                            next = newnext;
                        }
                        InstructionTargeter[] targeter = ins.getTargeters();
                        if (targeter != null) {
                            InstructionHandle newnext = ins.getNext();
                            for (int i = 0; i < targeter.length; i++) {
                                targeter[i].updateTarget(ins, newnext);
                            }
                        }
                        insList.delete(ins);
                    } catch (TargetLostException tle) {
                        throw new ClassNotFoundException(tle.getMessage(), tle);
                    }
                } else if (ins.getInstruction().getOpcode() == Constants.INVOKESPECIAL) {
                    // duplicate stack before invokespecial to insert uninitialized object
                    frame = context.getInFrame();
                    InvokeInstruction invoke = (InvokeInstruction)ins.getInstruction();
                    Type[] arguments = invoke.getArgumentTypes(method.getConstantPool());

                    OperandStack os = frame.getStack();
                    Type type = os.peek(arguments.length);

Examples of org.aspectj.apache.bcel.verifier.structurals.InstructionContext

        // => Top-Level routine (no jsr call before)
        icq.add(start, new ArrayList<InstructionContext>());

        // LOOP!
        while (!icq.isEmpty()) {
            InstructionContext u;
            ArrayList<InstructionContext> ec;
            if (!DEBUG) {
                int r = random.nextInt(icq.size());
                u = icq.getIC(r);
                ec = icq.getEC(r);
                icq.remove(r);
            } else {
                u = icq.getIC(0);
                ec = icq.getEC(0);
                icq.remove(0);
            }

            ArrayList<InstructionContext> oldchain = new ArrayList<InstructionContext>(ec);
            ArrayList<InstructionContext> newchain = new ArrayList<InstructionContext>(ec);
            newchain.add(u);

            if (u.getInstruction().getInstruction() instanceof RET) {
                // System.err.println(u);
                // We can only follow _one_ successor, the one after the
                // JSR that was recently executed.
                RET ret = (RET) u.getInstruction().getInstruction();
                ReturnaddressType t = (ReturnaddressType) u.getOutFrame(oldchain)
                        .getLocals()
                        .get(ret.getIndex());
                InstructionContext theSuccessor = cfg.contextOf(t.getTarget());

                // Sanity check
                InstructionContext lastJSR = null;
                int skip_jsr = 0;
                for (int ss = oldchain.size() - 1; ss >= 0; ss--) {
                    if (skip_jsr < 0) {
                        throw new AssertionViolatedException("More RET than JSR in execution chain?!");
                    }
                    // System.err.println("+"+oldchain.get(ss));
                    if (oldchain.get(ss).getInstruction()
                            .getInstruction() instanceof JsrInstruction)
                    {
                        if (skip_jsr == 0) {
                            lastJSR = oldchain.get(ss);
                            break;
                        } else {
                            skip_jsr--;
                        }
                    }
                    if (oldchain.get(ss).getInstruction()
                            .getInstruction() instanceof RET)
                    {
                        skip_jsr++;
                    }
                }
                if (lastJSR == null) {
                    throw new AssertionViolatedException("RET without a JSR before in ExecutionChain?! EC: '"
                            + oldchain + "'.");
                }
                JsrInstruction jsr = (JsrInstruction) lastJSR.getInstruction()
                        .getInstruction();
                if (theSuccessor != cfg.contextOf(jsr.physicalSuccessor())) {
                    throw new AssertionViolatedException("RET '"
                            + u.getInstruction()
                            + "' info inconsistent: jump back to '"
                            + theSuccessor + "' or '"
                            + cfg.contextOf(jsr.physicalSuccessor()) + "'?");
                }

                if (theSuccessor.execute(u.getOutFrame(oldchain),
                        newchain,
                        icv,
                        ev))
                {
                    icq.add(theSuccessor, new ArrayList<InstructionContext>(newchain));
                }
            } else {// "not a ret"

                // Normal successors. Add them to the queue of successors.
                InstructionContext[] succs = u.getSuccessors();
                for (int s = 0; s < succs.length; s++) {
                    InstructionContext v = succs[s];
                    if (v.execute(u.getOutFrame(oldchain), newchain, icv, ev)) {
                        icq.add(v, new ArrayList<InstructionContext>(newchain));
                    }
                }
            }// end "not a ret"

            // Exception Handlers. Add them to the queue of successors.
            // [subroutines are never protected; mandated by JustIce]
            ExceptionHandler[] exc_hds = u.getExceptionHandlers();
            for (int s = 0; s < exc_hds.length; s++) {
                InstructionContext v = cfg.contextOf(exc_hds[s].getHandlerStart());
                // TODO: the "oldchain" and "newchain" is used to determine the
                // subroutine
                // we're in (by searching for the last JSR) by the
                // InstructionContext
                // implementation. Therefore, we should not use this chain
                // mechanism
                // when dealing with exception handlers.
                // Example: a JSR with an exception handler as its successor
                // does not
                // mean we're in a subroutine if we go to the exception handler.
                // We should address this problem later; by now we simply "cut"
                // the chain
                // by using an empty chain for the exception handlers.
                // if (v.execute(new Frame(u.getOutFrame(oldchain).getLocals(),
                // new OperandStack (u.getOutFrame().getStack().maxStack(),
                // (exc_hds[s].getExceptionType()==null? Type.THROWABLE :
                // exc_hds[s].getExceptionType())) ), newchain), icv, ev){
                // icq.add(v, (ArrayList) newchain.clone());
                if (v.execute(new Frame(u.getOutFrame(oldchain).getLocals(),
                        new OperandStack(u.getOutFrame(oldchain)
                                .getStack()
                                .maxStack(),
                                (exc_hds[s].getExceptionType() == null
                                        ? Type.THROWABLE

Examples of org.aspectj.apache.bcel.verifier.structurals.InstructionContext

        // => Top-Level routine (no jsr call before)
        icq.add(start, new ArrayList());

        // LOOP!
        while (!icq.isEmpty()) {
            InstructionContext u;
            ArrayList ec;
            if (!DEBUG) {
                int r = random.nextInt(icq.size());
                u = icq.getIC(r);
                ec = icq.getEC(r);
                icq.remove(r);
            } else {
                u = icq.getIC(0);
                ec = icq.getEC(0);
                icq.remove(0);
            }

            ArrayList oldchain = (ArrayList) ec.clone();
            ArrayList newchain = (ArrayList) ec.clone();
            newchain.add(u);

            if (u.getInstruction().getInstruction() instanceof RET) {
                // System.err.println(u);
                // We can only follow _one_ successor, the one after the
                // JSR that was recently executed.
                RET ret = (RET) u.getInstruction().getInstruction();
                ReturnaddressType t = (ReturnaddressType) u.getOutFrame(oldchain)
                        .getLocals()
                        .get(ret.getIndex());
                InstructionContext theSuccessor = cfg.contextOf(t.getTarget());

                // Sanity check
                InstructionContext lastJSR = null;
                int skip_jsr = 0;
                for (int ss = oldchain.size() - 1; ss >= 0; ss--) {
                    if (skip_jsr < 0) {
                        throw new AssertionViolatedException("More RET than JSR in execution chain?!");
                    }
                    // System.err.println("+"+oldchain.get(ss));
                    if (((InstructionContext) oldchain.get(ss)).getInstruction()
                            .getInstruction() instanceof JsrInstruction)
                    {
                        if (skip_jsr == 0) {
                            lastJSR = (InstructionContext) oldchain.get(ss);
                            break;
                        } else {
                            skip_jsr--;
                        }
                    }
                    if (((InstructionContext) oldchain.get(ss)).getInstruction()
                            .getInstruction() instanceof RET)
                    {
                        skip_jsr++;
                    }
                }
                if (lastJSR == null) {
                    throw new AssertionViolatedException("RET without a JSR before in ExecutionChain?! EC: '"
                            + oldchain + "'.");
                }
                JsrInstruction jsr = (JsrInstruction) lastJSR.getInstruction()
                        .getInstruction();
                if (theSuccessor != cfg.contextOf(jsr.physicalSuccessor())) {
                    throw new AssertionViolatedException("RET '"
                            + u.getInstruction()
                            + "' info inconsistent: jump back to '"
                            + theSuccessor + "' or '"
                            + cfg.contextOf(jsr.physicalSuccessor()) + "'?");
                }

                if (theSuccessor.execute(u.getOutFrame(oldchain),
                        newchain,
                        icv,
                        ev))
                {
                    icq.add(theSuccessor, (ArrayList) newchain.clone());
                }
            } else {// "not a ret"

                // Normal successors. Add them to the queue of successors.
                InstructionContext[] succs = u.getSuccessors();
                for (int s = 0; s < succs.length; s++) {
                    InstructionContext v = succs[s];
                    if (v.execute(u.getOutFrame(oldchain), newchain, icv, ev)) {
                        icq.add(v, (ArrayList) newchain.clone());
                    }
                }
            }// end "not a ret"

            // Exception Handlers. Add them to the queue of successors.
            // [subroutines are never protected; mandated by JustIce]
            ExceptionHandler[] exc_hds = u.getExceptionHandlers();
            for (int s = 0; s < exc_hds.length; s++) {
                InstructionContext v = cfg.contextOf(exc_hds[s].getHandlerStart());
                // TODO: the "oldchain" and "newchain" is used to determine the
                // subroutine
                // we're in (by searching for the last JSR) by the
                // InstructionContext
                // implementation. Therefore, we should not use this chain
                // mechanism
                // when dealing with exception handlers.
                // Example: a JSR with an exception handler as its successor
                // does not
                // mean we're in a subroutine if we go to the exception handler.
                // We should address this problem later; by now we simply "cut"
                // the chain
                // by using an empty chain for the exception handlers.
                // if (v.execute(new Frame(u.getOutFrame(oldchain).getLocals(),
                // new OperandStack (u.getOutFrame().getStack().maxStack(),
                // (exc_hds[s].getExceptionType()==null? Type.THROWABLE :
                // exc_hds[s].getExceptionType())) ), newchain), icv, ev){
                // icq.add(v, (ArrayList) newchain.clone());
                if (v.execute(new Frame(u.getOutFrame(oldchain).getLocals(),
                        new OperandStack(u.getOutFrame(oldchain)
                                .getStack()
                                .maxStack(),
                                (exc_hds[s].getExceptionType() == null
                                        ? Type.THROWABLE