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In C#, are there any good reasons (other than a better error message) for adding parameter null checks to every function where null is not a valid value? Obviously, the code that uses s will throw an exception anyway. And such checks make code slower and harder to maintain.

void f(SomeType s)
{
  if (s == null)
  {
    throw new ArgumentNullException("s cannot be null.");
  }

  // Use s
}
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9  
I seriously doubt that a simple null check will slow down your code by a significant (or even measurable) amount. –  Heinzi Sep 28 '11 at 15:23
    
Well, it depends what "Use s" does. If all it does is "return s.SomeField" then the extra check will probably slow down the method by an order of magnitude. –  kaalus Sep 28 '11 at 15:26
7  
@kaalus: Probably? Probably doesn't cut it in my book. Where is your test data? And how likely is it that such a change would be the bottleneck of your application in the first place? –  Jon Skeet Sep 28 '11 at 15:28
    
@Jon: you're right I don't have hard data here. If you develop for Windows Phone or Xbox where JIT inlining will be affected by this extra "if", and where branching is very expensive, you may get quite paranoid. –  kaalus Sep 28 '11 at 16:12
2  
@kaalus: So adjust your code style in those very specific cases after proving that it makes a significant difference or use Debug.Assert (again, only in those situations, see Eric's answer) so that the checks are only on in certain builds. –  Jon Skeet Sep 28 '11 at 16:14

6 Answers 6

up vote 90 down vote accepted

Yes, there are good reasons:

  • It identifies exactly what is null, which may not be obvious from a NullReferenceException
  • It makes the code fail on invalid input even if some other condition means that the value isn't dereferenced
  • It makes the exception occur before the method could have any other side-effects you might reach before the first dereference
  • It means you can be confident that if you pass the parameter into something else, you're not violating their contract
  • It documents your method's requirements (using Code Contracts is even better for that of course)

Now as for your objections:

  • It's slower: Have you found this to actually be the bottleneck in your code, or are you guessing? Nullity checks are very quick, and in the vast majority of cases they're not going to be the bottleneck
  • It makes the code harder to maintain: I think the opposite. I think it's easier to use code where it's made crystal clear whether or not a parameter can be null, and where you're confident that that condition is enforced.

And for your assertion:

Obviously, the code that uses s will throw an exception anyway.

Really? Consider:

void f(SomeType s)
{
  // Use s
  Console.WriteLine("I've got a message of {0}", s);
}

That uses s, but it doesn't throw an exception. If it's invalid for s to be null, and that indicates that something's wrong, an exception is the most appropriate behaviour here.

Now where you put those argument validation checks is a different matter. You may decide to trust all the code within your own class, so not bother on private methods. You may decide to trust the rest of your assembly, so not bother on internal methods. You should almost certainly validate the arguments for public methods.

A side note: the single-parameter constructor overload of ArgumentNullException should just be the parameter name, so your test should be:

if (s == null)
{
  throw new ArgumentNullException("s");
}

Alternatively you can create an extension method, allowing the somewhat terser:

s.ThrowIfNull("s");

In my version of the (generic) extension method, I make it return the original value if it's non null, allowing you to write things like:

this.name = name.ThrowIfNull("name");

You can also have an overload which doesn't take the parameter name, if you're not too bothered about that.

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3  
+1 for the extension method. I've done the exact same thing, including other validation such as ThrowIfEmpty on ICollection –  Davy8 Sep 28 '11 at 15:46
2  
Why I think it's harder to maintain: as with every manual mechanism that requires programmer intervention every time, this is prone to mistakes and omissions and clutters the code. Flaky safety is worse than no safety at all. –  kaalus Aug 10 '12 at 11:45
7  
@kaalus: Do you apply the same attitude to testing? "My tests won't catch all possible bugs, therefore I won't write any"? When the safety mechanisms do work, they'll make it easier to find the problem and reduce impact elsewhere (by catching the problem earlier). If that happens 9 times out of 10, that's still better than it happening 0 times out of 10... –  Jon Skeet Aug 10 '12 at 11:52
1  
@DoctorOreo: I don't use Debug.Assert. It's even more important to catch errors in production (before they screw up real data) than in development. –  Jon Skeet Jan 7 '13 at 8:40
1  
@JoshNoe: It would be the equivalent of CheckNotNull here: code.google.com/p/noda-time/source/browse/src/NodaTime/Utility/… - but as an extension method. –  Jon Skeet Jul 10 '13 at 19:35

I agree with Jon, but I would add one thing to that.

My attitude about when to add explicit null checks is based on these premises:

  • There should be a way for your unit tests to exercise every statement in a program.
  • throw statements are statements.
  • The consequence of an if is a statement.
  • Therefore, there should be a way to exercise the throw in if (x == null) throw whatever;

If there is no possible way for that statement to be executed then it cannot be tested and should be replaced with Debug.Assert(x != null);.

If there is a possible way for that statement to be executed then write the statement, and then write a unit test that exercises it.

It is particularly important that public methods of public types check their arguments in this way; you have no idea what crazy thing your users are going to do. Give them the "hey you bonehead, you're doing it wrong!" exception as soon as possible.

Private methods of private types, by contrast, are much more likely to be in the situation where you control the arguments and can have a strong guarantee that the argument is never null; use an assertion to document that invariant.

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Without an explicit if check, it can be very difficult to figure out what was null if you don't own the code.

If you get a NullReferenceException from deep inside a library without source code, you're likely to have a lot of trouble figuring out what you did wrong.

These if checks will not make your code noticeably slower.


Note that the parameter to the ArgumentNullException constructor is a parameter name, not a message.
Your code should be

if (s == null) throw new ArgumentNullException("s");

I wrote a code snippet to make this easier:

<?xml version="1.0" encoding="utf-8" ?>
<CodeSnippets  xmlns="http://schemas.microsoft.com/VisualStudio/2005/CodeSnippet">
    <CodeSnippet Format="1.0.0">
        <Header>
            <Title>Check for null arguments</Title>
            <Shortcut>tna</Shortcut>
            <Description>Code snippet for throw new ArgumentNullException</Description>
            <Author>SLaks</Author>
            <SnippetTypes>
                <SnippetType>Expansion</SnippetType>
                <SnippetType>SurroundsWith</SnippetType>
            </SnippetTypes>
        </Header>
        <Snippet>
            <Declarations>
                <Literal>
                    <ID>Parameter</ID>
                    <ToolTip>Paremeter to check for null</ToolTip>
                    <Default>value</Default>
                </Literal>
            </Declarations>
            <Code Language="csharp"><![CDATA[if ($Parameter$ == null) throw new ArgumentNullException("$Parameter$");
        $end$]]>
            </Code>
        </Snippet>
    </CodeSnippet>
</CodeSnippets>
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The main benefit is that you're being explicit with the requirements of your method right from the start. This makes it clear to other developers working on the code that it is truly an error for a caller to send a null value to your method.

The check will also halt the execution of the method before any other code executes. That means you won't have to worry about modifications being made by the method that are left unfinished.

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It saves some debugging, when you hit that exception.

The ArgumentNullException states explicitly that it was "s" that was null.

If you don't have that check and let the code blow op, you get a NullReferenceException from some unidentified line in that method. In a release build you don't get line numbers!

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You might want to take a look at Code Contracts if you need a nicer way to make sure you do not get any null objects as a parameter.

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