private void ProcessCurrentNode(YieldExceptionHandlerInfo handlerInfo, Queue <ILogicalConstruct> bfsQueue, ILogicalConstruct currentNode)
 {
     if (currentNode as CFGBlockLogicalConstruct == null)
     {
         if (currentNode as TryFinallyLogicalConstruct != null && this.createdConstructsToIntervalMap.TryGetValue(currentNode as TryFinallyLogicalConstruct, out V_10) && V_10.get_TryStates().IsProperSupersetOf(handlerInfo.get_TryStates()))
         {
             throw new Exception("This try/finally construct cannot be nested in the current construct");
         }
     }
     else
     {
         V_0 = currentNode as CFGBlockLogicalConstruct;
         V_1 = 0;
         while (V_1 < V_0.get_LogicalConstructExpressions().get_Count())
         {
             V_2 = V_0.get_LogicalConstructExpressions().get_Item(V_1);
             if (!this.TryGetStateAssignValue(V_2, out V_3))
             {
                 if (handlerInfo.get_HandlerType() == YieldExceptionHandlerType.Method && V_2.get_CodeNodeType() == 19 && (object)(V_2 as MethodInvocationExpression).get_MethodExpression().get_MethodDefinition() == (object)handlerInfo.get_FinallyMethodDefinition())
                 {
                     if (V_0.get_LogicalConstructExpressions().get_Count() == 1)
                     {
                         if (this.newFinallyBody == null)
                         {
                             this.newFinallyBody = V_0;
                         }
                         dummyVar0 = this.finallyBlocks.Add(this.newFinallyBody);
                         dummyVar1 = this.orderedCFGNodes.Remove(V_0);
                         return;
                     }
                     if (V_1 != 0)
                     {
                         if (V_1 >= V_0.get_LogicalConstructExpressions().get_Count() - 1)
                         {
                             V_8       = LogicalFlowUtilities.SplitCFGBlockAt(this.logicalContext, V_0, V_1);
                             dummyVar3 = this.newTryBody.Add(V_8.get_Key());
                             V_4       = V_8.get_Value();
                             dummyVar4 = this.orderedCFGNodes.Remove(V_0);
                         }
                         else
                         {
                             V_6       = LogicalFlowUtilities.SplitCFGBlockAt(this.logicalContext, V_0, V_1);
                             dummyVar2 = this.newTryBody.Add(V_6.get_Key());
                             V_7       = LogicalFlowUtilities.SplitCFGBlockAt(this.logicalContext, V_6.get_Value(), 1);
                             V_4       = V_7.get_Key();
                             this.orderedCFGNodes.set_Item(this.orderedCFGNodes.IndexOf(V_0), V_7.get_Value());
                         }
                     }
                     else
                     {
                         V_5 = LogicalFlowUtilities.SplitCFGBlockAt(this.logicalContext, V_0, V_1 + 1);
                         V_4 = V_5.get_Key();
                         this.orderedCFGNodes.set_Item(this.orderedCFGNodes.IndexOf(V_0), V_5.get_Value());
                     }
                     if (this.newFinallyBody == null)
                     {
                         this.newFinallyBody = V_4;
                     }
                     dummyVar5 = this.finallyBlocks.Add(V_4);
                     return;
                 }
             }
             else
             {
                 if (!handlerInfo.get_TryStates().Contains(V_3))
                 {
                     if (handlerInfo.get_HandlerType() == YieldExceptionHandlerType.Method || !this.TryProcessConditionalDisposeHandler(handlerInfo, V_0))
                     {
                         throw new Exception("Invalid state value");
                     }
                     return;
                 }
             }
             V_1 = V_1 + 1;
         }
     }
     dummyVar6 = this.newTryBody.Add(currentNode);
     V_11      = currentNode.get_SameParentSuccessors().GetEnumerator();
     try
     {
         while (V_11.MoveNext())
         {
             V_12 = (ILogicalConstruct)V_11.get_Current();
             bfsQueue.Enqueue(V_12);
         }
     }
     finally
     {
         ((IDisposable)V_11).Dispose();
     }
     return;
 }