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What is wrong with this statement?

return Encoding.ASCII.GetString(memoryStream.GetBuffer(), 0, memoryStream.Length)

I know about the Dispose pattern, have checked out the underlying memoryStream and seen that there is nothing really happening in the dispose. So why shouldn't I allow one of my developers to do this.

The memoryStream becomes out of scope after the return.

The aim is to make the code succinct and not create references that are not required, Hopefully getting the Garbage Collector to kick in soon as.

Its just niggling me, I feel that the memoryStream lets the party down, when compared to what the other streams do and why they implement the IDispose.

Can someone please give me a good reason not to allow the code above. I got a gut feeing about the code not being right but need some back up. :)

*WeNeedAnswers* :edit please note the code has changed due to Jon Skeets input, but this questions main core is still relevant.

My original and error prone code was:

return new ASCIIEncoding().GetString(memoryStream.ToArray());
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@Downvoter: Why a downvote? +1 to balance the downvote! –  KMån Mar 26 '10 at 13:05
Thank you kind people. Looking at my responses and what people have said, I think I have come to the decision to play with the GC more fairly. If something is marked IDisposable, I should trust the contractual agreement. It hasn't let me down this far so lets all give the GC a big cheer and play fair with it. –  WeNeedAnswers Mar 26 '10 at 14:20
One last comment. On my readings of discovery, the GC will promote the memoryStream to a higher generation just because it requires finalization no matter what. I suppose it expects the memoryStream to be around a long time. Not my most favourite discovery :( –  WeNeedAnswers Mar 26 '10 at 19:41
@WeNeedAnswers: Um, are you sure MemoryStream even has a finalizer? –  Jon Skeet Mar 26 '10 at 19:56
@Jon I really hope not, make my day say it hasn't :) –  WeNeedAnswers Mar 26 '10 at 22:58

4 Answers 4

up vote 5 down vote accepted

Personally I'd use:

string text;
memoryStream.Position = 0;
using (TextReader reader = new StreamReader(memoryStream, Encoding.ASCII))
    text = reader.ReadToEnd();

as a more general way of doing it - but your code should at least work. If you're aiming not to create more objects than you need, you should use Encoding.ASCII instead of creating a new instance. If you're really paranoid about copying, you could use:

string text = Encoding.ASCII.GetString(memoryStream.GetBuffer(),
                                       0, memoryStream.Length);

This would avoid creating a copy of the data.

You seem to be concerned about memory usage - do you have any reason for this? Have you performed profiling and found that garbage collection is a bottleneck? If not, don't worry about it until you do find it to be a problem. It usually isn't.

share|improve this answer
More about style of programming. I like code to look small. –  WeNeedAnswers Mar 26 '10 at 11:44
So you wouldn't wrap the memoryStream in a using as the decorator does that for you? –  WeNeedAnswers Mar 26 '10 at 11:45
@WeNeedAnswers: I prefer code to be correct and robust. It's easy to put this in a separate method, and then it can work on any stream, without you having to worry about whether it's okay not to dispose of the stream or not. As for disposal - disposing of the StreamReader disposes of the underlying stream for you. Having said which, I'd normally have a using statement around the code creating the stream in the first place. You haven't shown that. –  Jon Skeet Mar 26 '10 at 11:46
more code more problems. Whats not robust about the above (there are some checks before the outgoing return)? –  WeNeedAnswers Mar 26 '10 at 11:50
@WeNeedAnswers: Calling ToArray() will copy the data. GetBuffer doesn't. However, I would strongly advise against making everything "as terse as possible". Sometimes that's the right way to go, sometimes it's not. Concentrate on making it as readable as possible, while still being correct. –  Jon Skeet Mar 26 '10 at 13:37

"Hopefully getting the Garbage Collector to kick in soon as."

I'm going to give a short and over-simplified GC primer, because you don't seem to appreciate how it works...

First off, the GC isn't deterministic. It doesn't kick in "soon as"; it generally kicks in when there's memory pressure. So regardless of what you do in your method, you can't guarantee that it'll run at the end of your method, or at any other specific time. Typically, a GC will run when there's not enough space in GC Generation 0 to allocate a new object.

Secondly, if you don't call Dispose on your MemoryStream (either manually or with a using block) your GC won't release that memory, even if it runs. When you call a typical Dispose, two things happen: first, the object is tidied up, and second a call is made to GC.SuppressFinalize. The latter call is important: it tells the GC that you've already done cleanup for the object.

If haven't called Dispose on your object, then the GC will put your object on a "Finalizer queue." This is a queue of objects waiting to be tidied up. If your object ends up on this queue, it can't be released, because the queue is keeping it alive. That means your object gets pushed into GC generation 1 and won't get cleared up for a lot longer. GC generation 1 won't get collected until generation 0 has been collected and the objects that can't be released don't fit in Gen 1. For most apps the ratio is approximately 10 GC gen-0 collects for one GC gen-1 collect, so you're prolonging the life of your object by a factor of 10 by not calling Dispose.

Moral of the story: if a type implements IDisposable, and you're worried about memory use (or even just about good programming practise), call the Dispose method. It's there for a reason.

Thirdly: Even if you call Dispose sensibly, the memory release still isn't deterministic, because all you do ensure that the next GC will release the memory.

Finally: Don't be tempted to call GC.Collect yourself. This is almost always a bad thing, and will typically result in your application having a higher memory footprint, not a lower one.

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To extend my answer a little and quote your post back at you: you said "not create references that are not required." By not calling Dispose, you force the GC to keep an extra reference to your object on the Finalizer queue. –  Dan Puzey Mar 26 '10 at 13:35
Your talking about Heap space, with modern Pc's the heap should be ok and I trust the GC more than myself to free up objects. I was referring to stack space. You make a lot of assumptions about me. As I said, Hopefully. Calling IDispose on a MemoryStream won't realistically make a difference apart from setting some flags. –  WeNeedAnswers Mar 26 '10 at 13:56
You been reading "CLR via C#" by Jeffrey Richter by any chance ;) –  WeNeedAnswers Mar 26 '10 at 14:07
Actually no, but it's always been on my list :-) –  Dan Puzey Mar 26 '10 at 14:11
I'm afraid to say that there are some incorrectness in your text. The presence of the Dispose() function does not affect how the GC works, it's the presence of the Finalizer that does that. Failure to call Dispose does not result in the GC won't release the memory. The memory will be released when the GC run (but if there is a Finalizer, it may not be released until after the second garbage collection, if you didn't call SuppressFinalize). The Dispose() and Finalizer is not used to release memory, but unmanaged resources, such as file locks, TCP sockets, etc. –  Pete Mar 26 '10 at 14:12

The MemoryStream implements IDisposable because it inherits from the more general Stream class. But there is really no need to call Dispose() on this.

The point with the Dispose() function is to tell the class to clean up any unmanaged resources that it might have acquired. For a FileStream that would be file handles and file locks. But the MemoryStream only allocates memory, and therefore it is not necessary to dispose it. When your memory stream is out of scope, it is ready for garbage collection, no matter if you call Dispose() or not.

But normally, you should always call Dispose() on objects that implements IDisposable, and allowing exceptions may create confusion among developers who do not have a thorough understanding of what is going on.

I think some of your concerns come from a poor understanding of the .NET memory and garbage collection model. I learned from the book Applied Microsoft .NET Framework Programming. It is an ancient book, targeting .NET 1.0, but the section on memory management and garbage collection is really worth the read.

share|improve this answer
I perfectly understand the garbage collector. But I always think that scoping is relevant no matter what the Garbage Collector may or may not do with my lovely heap space. I trust it. If you know that something is going out of scope, you can bet your bottom dollar that the reference will disappear. If something is not referenced, then I would hope that somewhere along the line, the GC will say, "yup not being referenced" and do something about it WHEN IT DECIDES. The relationship should be one of trust. And yes I do always dispose of objects that NEED disposing that use UNMANAGED resources. –  WeNeedAnswers Mar 26 '10 at 14:17
When you say, 'I would hope that somewhere along the line, the GC will say, "yup not being referenced" and do something about it WHEN IT DECIDES', you are mostly correct. The GC does not say "not being referenced" (unless the object has a finalizer). The object is just no longer on the list of referenced objects, and when the GC repacks the current objects, your non-referenced object will probably be overwritten. Only if your object has a finalizer, will the GC actually do anything active with the object, namely call the finalizer. –  Pete Mar 26 '10 at 16:34
Hmmm - by just reading your comments on the other answer I can see that you already have a good understanding of what's going on ;) (F-reachable queues, and such). I just don't understand what it is that you are worried about then ;) –  Pete Mar 26 '10 at 16:41
Cross purpose conversation. I just think that the code was wrong (in the question). I think my gut feeling is to continue using the USING statement wrapped around the memoryStream. It feels better. –  WeNeedAnswers Mar 26 '10 at 19:33

You are going to end up with two copies of the bytes in the stream in memory. Also, who says the implementation of the dispose won't change? Also also, now you have a bigass string.

If your concern is the GC, why are you raping it with two copies of the same bytes and a huge ass string?

share|improve this answer
nice language. Never thought of doing that kind of thing to the GC and wouldn't dream of it. Strings are immutable. How would you do the above? We need the encoding. –  WeNeedAnswers Mar 26 '10 at 11:41
@weneed You're making two copies of the data (the memory stream and the ToArray copy) plus creating a huge string that will be interned. Do you really "need" the encoding? How about, if you have memory pressure issues, NOT doing this and just passing the original stream around? –  Will Mar 26 '10 at 11:53
passing the data out as text, going over http eventually after some other code messing with it. –  WeNeedAnswers Mar 26 '10 at 11:57
As I said, memory is a benefit, but style and minimum code is the preference. I also said "hopefully" the GC would kick in. –  WeNeedAnswers Mar 26 '10 at 11:59
@weneed just because something is going out over http doesn't mean you have to preemptively textify it. Disregard your assumptions and check your design. You might be surprised. –  Will Mar 26 '10 at 12:08

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