Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

The "using" construct looks incredibly handy for situations that require both beginning and separated end parts.

Quick example to illustrate:

using (new Tag("body")) {
// ...
class Tag : IDisposable {
    String name;
    public Tag(String name) { = name;
        Trace.WriteLine("<" + + ">");
    public void Dispose() {
        Trace.WriteLine("</" + + ">")

The beginning part is defined as the constructor, the end part is the Dispose method.

However despite of being attractive this construct has a serious caveat that comes from the fact that the Dispose method is called from within a finally block. So there are 2 problems:

  1. You should avoid throwing exceptions from the finally block because they will override the original exception that was supposed to be caught.

  2. There is no way of knowing inside of the Dispose method if an exception was thrown earlier between "beginning" and "end" and thus there is no way of handling the "end" part accordingly.

These 2 things make using of this construct impractical which is a very sad fact. Now, my questions are:

  1. Is my understanding of the problems right? Is this how "using" actually works?

  2. If so, is there any way to overcome these problems and make practical use of the "using" construct other than what it was originally designed for (releasing resources and cleaning up)

  3. In case there is no practical way for "using" to be used this way. What are the alternative approaches (to enforce the context over some code with the beginning and end parts)?

share|improve this question
See here:… for more on the same thing – Eric Dahlvang Jun 28 '12 at 15:28
up vote 2 down vote accepted

The intent of the using statement and of the IDisposable interface is for the user to dispose of unmanaged resources. These resources are usually expensive and precious, so they must be disposed of no matter what (that's why it's on the finally). Code in finally blocks can't even be aborted, and it can hang a whole app domain shutdown.

Now, it's very tempting to abuse using for the purposes you're describing, and I've done that in the past. Most of the time there's no danger there. But if an unexpected exception happens, the whole state of the processing is compromised, you wouldn't necessarily want to run the end operation; so in general, don't do this.

An alternative is to use a lambda, something like this:

public interface IScopable { 
  void EndScope();

public class Tag : IScopable {
  private string name;
  public Tag(string name) { = name;
    Trace.WriteLine("<" + + ">");
  public void EndScope() {
    Trace.WriteLine("</" + + ">");

public static class Scoping {
  public static void Scope<T>(this T scopable, Action<T> action) 
    where T : IScopable {

Use it like this:

new Tag("body").Scope(_ => 

You can also create other implementations that run certain actions based on whether exceptions were raised of not.

In Nemerle, the language can be extended with new syntax to support this.

share|improve this answer
yes, it seems like using a wrapped anonymous function is the only working alternative for this, although I don't like this idea because it doesn't look elegant plus it drags in all caveats with using closures – Aleksey Bykov Jul 4 '12 at 16:29
I ended up using lambdas. It's not the most efficient way, but very intuitive and does what it needs to just right. So your answer won. – Aleksey Bykov Oct 13 '12 at 13:54

Your rule #1 applies with or without using, so the rule #2 is the real decider: opt for a try/catch if you must distinguish between situations when an exception has been thrown and the normal program completion.

For example, if your persistence layer may discover issues in the process of using a database connection, your connection needs to close regardless of the fact that there was an exception. In this case, the using construct is a perfect choice.

In some cases you can set up using specifically to detect normal completion vs. an exceptional completion. Ambient transactions provide a perfect example:

using(TransactionScope scope = new TransactionScope()) {
    // Do something that may throw an exception

If scope's Dispose is called before Complete has been called, TransactionScope knows that an exception has been thrown, and aborts the transaction.

share|improve this answer
not a very good example with having to call scope.Complete explicitly, because it makes the whole idea of "using" useless. You have to remember doing it everywhere, which is not much different from plain calling scope.Begin() and scope.End() around your code. – Aleksey Bykov Jun 28 '12 at 15:25
But that's precisely the idea behind TransactionScope! Regardless of the path that leads to not calling Complete the scope knows that something went wrong (incidentally, "going wrong" includes "forgetting to call Complete during the coding phase"). And the scope is there to detect situations when something went wrong: your call of Complete is your vote that this part of the transaction went fine. – dasblinkenlight Jun 28 '12 at 15:30
the whole using block is half-baked. you can find gazillion of cases where it would fail because of different issues. I wish I'd get an explanation from .net engineers one day how they really expected/expecting people to use it and when it is not a good practice. In this particular case, msdn states that anyone who uses TransactionScope must call its Complete() method when he finishes using it.. – YavgenyP Jun 28 '12 at 15:30
@YavgenyP If your code detects a situation when a transaction should not be committed, it is allowed to leave the using block without calling Complete. The using block is no more "half-baked" than, say, an if statement is :) It is a fully defined feature of the language. When used correctly, it helps you greatly to reduce the clutter. – dasblinkenlight Jun 28 '12 at 15:36
@dasblinkenlight, well whole purpose of using to be syntactic sugar that was supposed to make my life easier by making me type less and by leaving me no room for forgetting to execute the "end" part. which isn't the case here, thus it's still sugar but with a good hint of bitterness – Aleksey Bykov Jun 28 '12 at 15:48

I dont know if this was the original intention of IDisposable, but Microsoft certanly ARE using it the way you describe (separating begin and end parts). A good example for it is the MVCForm class, provided by the mvc infrastracture. It implements IDisposable and writes the end tag for the form, while i cant see its implementation releasing ant resources (the writer used there to ouput the html seems to stay alive even after the form is disposed).
Alot has been written about the using block and how it "swallows" exceptions (a wcf client is a good sample, you can also find such discussions here, on SO). Personally i also feel alot of times that as much as it is convinient to use the using block, its not really 100% clear when it should and when it should not be used.

Of course, you actually CAN tell within the dispose method if you reached it with our without an error, by adding an extra flag to your class, and raising it within the using block, but this will work only if the person who will use your class will be aware of that flag

share|improve this answer

You are correct in observing a problem with the design of try/finally blocks, which is in turn a problem with using: there is no clean way for code in a finally block to know whether code execution will continue with the statement following the finally block, or whether there is a pending exception which will be effectively take over as soon as the finally block executes.

I would really like to see a language feature in and C# which would allow a finally block to include an Exception parameter (e.g.

  finally (Exception ex)

where the passed-in exception would be null if the try block exited normally, or would hold an exception if it did not. Along with this, I would like to see an IDisposableEx interface, which would inherit Dispose, and include a Dispose(Exception ex) method with the expectation that user code would pass in the ex from the finally block. Any exceptions which occurred during the Dispose could then wrap the passed-in exception (since both the passed-in exception, and the fact that an exception occurred in Dispose, would be relevant).

Failing that, it might be helpful to have .net provide a method which would indicate whether there was an exception pending in the current context. Unfortunately, it's not clear what the exact semantics of such a method should be in various corner cases. By contrast, the semantics of finally (Exception ex) would be perfectly clear. Note, incidentally, that a proper implementation of finally (Exception ex) would require that the language make use of exception filters, but would not require exposing the ability to create arbitrary filters.

share|improve this answer
The code in the finally clause is not supposed to care whether an exception is thrown. It should be able to, and should, do the exact same thing, regardless. If you're only doing certain stuff when an exception happens, that's what catch clauses are for. – cHao Jun 28 '12 at 20:38
@cHao: A catch block is supposed to say "Okay, I know how to put everything back to normal". Although a throw; can be used to say "...Well, maybe I don't", using a catch with an unconditional rethrow is an abuse of catch; letting a finally know how a catch exited would be minor by comparison. Actually, the Framework allows one to define fault blocks, which would perhaps be most appropriate here; they only execute if an exception is thrown, but they leave the exception pending. Unfortunately, neither C# nor supports those. can at least emulate them, though; C# can't. – supercat Jun 28 '12 at 20:53
I see no real reason they shouldn't be allowed to acquire the lock. It's not a lock's job to guarantee against corruption; it's a lock's job to lock. To guarantee exclusive access to itself. No more, no less. If the resource can't ensure its own integrity, it needs to be redesigned -- or at the very least, wrapped in something that can correct such things or signal their occurrence. – cHao Jun 28 '12 at 22:25
@cHao: A number of knowledgeable people including Eric Lippert have opined that releasing a lock on an entity which is in an unknown state is dangerous, and that it's better to leave would-be consumers blocked than to let them access a corrupt entity. If that is true, I would think it would be better yet to have would-be consumer discover that the resource is dead, than simply wait forever for something that's never going to be available. – supercat Jun 28 '12 at 22:33
The thing is in a known state. "Broken". :P The fact that it can not detect that and respond accordingly is a fundamental flaw in its design, and should be fixed there. Not by bolting some junk onto exception handlers that says "if this exception happens, do this". Especially when that's what catch already says. – cHao Jun 28 '12 at 22:59

In my opinion you are misusing the IDisposable interface. A common practice is to use the interface to release unmanaged resources. Normally, the garbage collector will clean up objects, but in some cases - When yo do NOT longer need the object - you might need to manually clean up.

However in your case, you are not cleaning up an object that is not needed anymore; you are using it to force some logic. You should use another design for that.

share|improve this answer
using similar to what the OP does is a pretty common pattern. – CodesInChaos Jun 28 '12 at 15:04
The purpose of IDisposable is to allow a class to say: "I know something that needs to be done sometime between now and the end of the universe; I have the information and impetus to do it, and it's probable nobody else does. Make sure you call my IDisposable.Dispose method once it's okay for me to do it, and before abandoning me. Thanks." Seems to me that the usage offered up here fits perfectly well within that pattern. – supercat Jun 28 '12 at 20:57
@supercat: Sorry, no. The purpose of IDisposable is rather explicitly stated in the docs for the interface itself: "Defines a method to release allocated resources". Use beyond the scope of that is really misuse, even if it's MS themselves doing it. – cHao Jun 28 '12 at 21:34
@supercat: I suppose "a resource that isn't managed" wouldn't suffice..? :) Basically, anything the CLR doesn't keep track of or automatically clean up for you. Memory generally doesn't count (although a call to GlobalAlloc/HeapAlloc/etc could conceivably get you unmanaged memory, if you were feeling masochistic), but GDI/kernel/window handles do. – cHao Jun 28 '12 at 22:09
@cHao: That would leave open the question of "what is a resource"? I would posit that a resource is any way in which any entity, anywhere in the universe, is altering its behavior on behalf of one object, to the detriment of others, and will continue to do so until further notice. The relevance of a resource to IDisposable is that something will be left in a bad state unless some particular action is taken to get it out of that state, and the object implementing IDisposable knows what that state is. For purposes of the original question, a file is in a "bad" state... – supercat Jun 28 '12 at 22:28

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.