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Out of curiosity...what happens when we call a method that returns some value but we don't handle/use it? And we also expect that sometimes this returned value could be really big. Where that value goes? Is it even created? If it is, are there any performance issues or other problems that can occur? (what is the best practice in this kind of situation?)

Let's say we have method that does some database operations (insert, update) and returns some data in DataTable object. And I also know that this DataTable object could be really big sometimes:

public static Datatable InsertIntoDB(...) 
      // executing db command, getting values, creating & returning Datatable object...
      return myDataTable;

And then when this method is used it is called like these:

DataTable myDataTable = InsertIntoDB(...);
// this Datatable object is handled in some way

But sometimes simply like this:

// returned value not handled; Problem???

On my first thought it think the system is smart enough to see the returned value is ignored and does not cause any problems (it is simply released) but I want to be sure and hear more detailed explanation of it from someone who is more experienced in this area than me.

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up vote 85 down vote accepted

The returned value (or reference, if it's a reference type) is pushed onto the stack and then popped off again.

No biggy.

If the return value isn't relevant, you can safely do this.

But be sure that it isn't relevant, just in case.

Here's some code:

    static string GetSomething()
        return "Hello";

    static void Method1()
        string result = GetSomething();

    static void Method2()

If we look at the IL:


.locals init ([0] string result)
IL_0000:  nop
IL_0001:  call       string ConsoleApplication3.Program::GetSomething()
IL_0006:  stloc.0
IL_0007:  ret


IL_0000:  nop
IL_0001:  call       string ConsoleApplication3.Program::GetSomething()
IL_0006:  pop
IL_0007:  ret

Exactly the same number of instructions. In Method1, the value is stored in the local string result (stloc.0), which is deleted when it goes out of scope. In Method2, the pop operation simply removes it from the stack.

In your case of returning something 'really big', that data has already been created and the method returns a reference to it; not the data itself. In Method1(), the reference is assigned to the local variable and the garbage collector will tidy it up after the variable has gone out of scope (the end of the method in this case). In Method2(), the garbage collector can get to work, any time after the reference has been popped from the stack.

By ignoring the return value, if it really isn't needed, the garbage collector can potentially get to work sooner and release any memory that's been assigned. But there's very little in it (certainly in this case), but with a long running method, hanging onto that data could be an issue.

But far-and-away the most important thing is to be sure that the return value that you're ignoring isn't something that you should be acting on.

share|improve this answer
Thanks for a really nice answer I was hoping for! – Janez Jul 29 '11 at 15:43
minor nit: In Method1, assuming a debugger isn't involved, the reference will be eligible for collection at the same point as in Method2, assuming that result isn't used by the remaining part of the method (however long running it may be) – Damien_The_Unbeliever Jul 29 '11 at 17:34
As the main overhead is in the creation of the superfluous data you don't need then I'd look creating a different Insert method that didn't return a large DataTable. – Dan Diplo Jul 30 '11 at 9:37
+1: a good example of "something you should be acting on" is anything that returns something that implements IDispose. – Binary Worrier Aug 3 '11 at 13:07

EDIT: Softened the language very slightly, and clarified.

It's rarely a good idea to ignore the return value, in my experience - at least in cases where the return values are there to convey new information instead of simply being for convenience.

One example where I've seen it be okay:

int foo;
int.TryParse(someText, out foo);

// Keep going

Here foo will be 0 if either someText contained "0", or it couldn't be parsed. We may not care which was the case in which case the return value of the method is irrelevant to us.

Another example is in a dictionary - suppose you're trying to count the number of occurrences of each string. You can use:

int count;
dictionary.TryGetValue(word, out count);
dictionary[word] = count + 1;

If the word wasn't in the dictionary to start with, that's equivalent to there being a count of 0 - which is what will already happen as a result of calling TryGetValue.

As a counter-example, ignoring the value returned by Stream.Read (and assuming that it's managed to read all the data you asked for) is a common mistake.

If you don't need the return value and it will have taken a lot of effort to compute, it may be worth looking for something which will achieve the same desired side-effects without the extra computation - but there's no extra performance implication. I'd be more worried about the correctness of ignoring a return value than the performance.

EDIT: Other examples where it's okay to ignore the return value:

  • Some fluent interfaces, including StringBuilder; while StringBuilder.Append(x).Append(y); uses the first return value for the second call, very often the return value of a call will be ignored, e.g. when appending in a loop
  • Some collection calls can give return values which are sometimes ignored - e.g. HashSet<T>.Add which indicates whether the value was actually added, or was already present. Sometimes you just don't care.

But for the vast majority of the time, ignoring the return value of a method indicates that it's doing more than you need it to.

share|improve this answer
Fluent interfaces are another example of eventually ignoring the return type. – Adam Houldsworth Jul 29 '11 at 14:46
@Adam: Not sure I follow you. Note that it's the return value which we're talking about here, not the return type. – Jon Skeet Jul 29 '11 at 14:47
In a fluent coding style, a self reference is returned by the method you call so you can chain them. At some point you ignore the return value because you are finished chaining. Not teaching anyone to suck eggs, just adding it as another situation :-) – Adam Houldsworth Jul 29 '11 at 14:49
@Adam: Ah, I see what you mean. That's one example of a fluent coding style. I'd call LINQ a fluent coding style, but there you absolutely don't ignore the return value. Even in something like StringBuilder which returns "this", I would typically call ToString on the final result. I can't remember the last time I used a fluent style where I was relying on side-effects and the final method call was still one which returned a value. I'm sure they exist - I just think they're a subset of fluent interfaces. – Jon Skeet Jul 29 '11 at 14:56
@zzzBov: Firstly, C# and Java aren't dynamic languages (C# 4's dynamic keyword aside). Secondly, the title of the question limits the scope of this answer to C# and methods - it's about "the returned value of a C# method". Non-void methods in C# do have to explicitly call return (or throw an exception, in which case the return value). Yes, there are some collection methods etc where the return value is used relatively rarely. But I stand by my point that for the vast majority of C# method calls, ignoring the return value is a bad idea. – Jon Skeet Jul 30 '11 at 1:37

From a memory management point of view thats fine - if the calling function doesn't use it, it goes out of scope and gets garbage collected.

In this particular case DataTable does implement IDisposable so its not all 100% fine:

If the returned object implements IDisposable then its a good idea to dispose it, for example:

using (var retVal = InsertIntoDB(...))
    // Could leave this empty if you wanted
share|improve this answer
DataTable does implement IDisposable. I'm surprised no one's called out this example for that very reason. – Thomas G. Mayfield Aug 3 '11 at 20:59
@Thomas Touche, although to be fair you can just reverse the language "DataTable does implement IDisposable and so its not all 100%." – Justin Aug 3 '11 at 22:34
Also I can hardly believe that in answer to the question "what happens when we call a method that returns some value but we don't handle/use it" this is the only answer that even includes the text "IDisposable" - should this question be migrated to or something? – Justin Aug 3 '11 at 22:39

It depends on the returned value it self.

The compiler will generate that value in the caller method, So if the value is IDispolable or expose Close method or if it have resources that should be released, then you should not ignore it and dispose it properly, or else you may suffering from problems and memory leaks..

For instance, if the returned value is a FileStream and you did not close the stream, the file may not closed until your application is terminated, more over if your application try to open the file again, it may throw exception that indicates "The file is in used by another process". So you should be careful on that kind of returned object and never ignore it!

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It's totally fine to ignore the return value.

However. The architectural design is, IMHO, not good. An insert method should not return anything at all (other than MAYBE true or false on success or failure). If one would need to get a new, updated, dataset then one should ask for it, i.e call some other method to do so.

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How about if the insert method returns the identity field of the new record (if possible)? – Graham Jul 29 '11 at 20:19
@Graham: Good point. That would be one of the only things I'd return from an insert method. I would however try to achieve a design where identity fields can be avoided, in code. Utilizing Stored Procedures and with a healthy DB design you can almost always achieve this. – Sani Huttunen Jul 29 '11 at 23:00
How about an Update method that returns the number of entities that were updated? – Steve Morgan Jul 30 '11 at 19:16

The returned value is thrown away if not used, but it is created. It is perfectly reasonable not to use it ( although you should be ceratin that this is the right thing to be doing ), but if it takes a lot of resource to create, then this is wasted.

You may want to consider whether another method would be a better options, that doesn't create the return object at all.

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To give a different perspective on things, I think that method should be redesigned. Take a look at the Command-Query separation.

Also, it's rarely a good idea to silently ignore a return value. Readers of the code might not have the original context of the author. They might think he just forgot to use it. If the return value is not important, better be explicit about this decision:

var ignoredReturnValue = InsertIntoDB(...);

Interestingly, Nemerle actually gives you a warning if you ignore a return value. To not get the warning, you have to be explicit about your decision and write:

_ = InsertIntoDB(...);
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I'm certain that this doesn't cause any problems, otherwise C# wouldn't be a very reliable language.

I'm guessing the compiler isn't smart enough to optimize this. What most likely happens is the ordinary logic inside the function call is executed, e.g. creating the object and allocating memory for it. If a reference type is returned but not captured, garbage collection will free up the memory again.

As others have stated, from a design view ignoring the return value does indicate a problem and most likely you should be looking at the return value.

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If your function do some changes to other objects (for exemple a DB), I think it's okay to not handle the returned object if you don't need it.

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