Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

Working on a project and the coder does this a lot in his checks. First he checks if the nullable int has a value, and then he checks if its greater than 0. Why? Why make two checks if one check - if it is greater than 0 - should be sufficient? Because nulls are not greater than 0 so ...Is that redundant?

Wasn't sure if this was something I'd ask here but I wouldn't know how to word it in a google search so maybe I don't know something that this programmer does.

share|improve this question
Can you post a code sample so we can see exactly what you mean? – Oded Apr 18 '12 at 15:17
Oded: I guess int? foo; if (foo.HasValue && foo > 0) ... – Joey Apr 18 '12 at 15:19
In fact if your coworker is writing if (i.HasValue && i.Value > 0) then he is doing three checks. First to see if i has a value. Second, i.Value checks again to see if i has a value, because if it does not then it must throw an exception. And then finally the value is compared to zero. This is unlikely to be a performance bottleneck in your code, but still, it is good to know exactly what the code you are writing is doing. – Eric Lippert Apr 18 '12 at 16:22
What I'm getting at here is that you could in fact simply write if (i.GetValueOrDefault() > 0) -- work out the cases. If i is null then the default is zero, which is not greater than zero, so this will be false. if i is not null then we compare the value to zero. Now, I am not suggesting that you do this; writing if (i>0) is considerably more clear, and the performance difference will be measured in nanoseconds. I'm just saying that it is smart to know precisely what your tools do. – Eric Lippert Apr 18 '12 at 16:25
thanks everyone :) – egucciar Apr 30 '12 at 15:24

5 Answers 5

up vote 11 down vote accepted

The code is probably redundant.

If i is int? then:

if (i.HasValue && i.Value > 0)

is equivalent to:

if (i > 0)

From MSDN:

When you perform comparisons with nullable types, if the value of one of the nullable types is null and the other is not, all comparisons evaluate to false except for != (not equal). It is important not to assume that because a particular comparison returns false, the opposite case returns true. In the following example, 10 is not greater than, less than, nor equal to null. Only num1 != num2 evaluates to true.

share|improve this answer
Thanks. i was curious. He got upset with me when he saw I wasn't doing that redundant check. I don't know what to say to him now. (I'm an intern) – egucciar Apr 18 '12 at 15:22
@user1274649: If he's complaining that your code isn't correct then he's wrong and you can show him the MSDN page to prove it. If he's complaining that it isn't aesthetic/readable/maintable then it's a matter of taste. If he's the boss you may have to respect his decision. Either way, if he's the sort of person to get upset over such things, it might be a good idea to be tactful. – Mark Byers Apr 18 '12 at 15:24
not my boss, but I have found that not being tactful and treating him the way he treats me is effective because it actually makes me seem like I know and care what I talk about. I'll just write the code my way and watch it work just as well. haha. – egucciar Apr 18 '12 at 15:40
Normally, the opposite of i > 0 would be i <= 0. For an int? that's not true (both expressions will return false). Explicitly checking for i.HasValue points that out. Also, i != 0 will return true, even though i doesn't actually have a value. – comecme Apr 18 '12 at 15:44
yeah, but we are only checking whether or not that value is greater than 0. We don't need nor care to know if it is null or not. As long as it is greater than 0, it is obviously not null, we don't need to make that check. I can understand from a syntax point of view why writing it the way he did makes it easier for someone else to take that into consideration. But Mark Byers hit the nail on the head with answering my question. – egucciar Apr 18 '12 at 15:50

It might be that the value for the variable has different meanings in that context.

int? someNumber = null; //might mean "there is no value"
int? someOtherNumber = 0; //might mean "the user has selected: 0"
share|improve this answer

The following:

class Program {
    static void Main(string[] args) {
        int? i = null;
        if (i > 0) { Console.WriteLine(">0");
        } else {     Console.WriteLine("not >0");
        if (i < 0) { Console.WriteLine("<0");
        } else {     Console.WriteLine("not <0");
        if (i == 0) {Console.WriteLine("==0");
        } else {     Console.WriteLine("not ==0");

will output

not >0
not <0
not ==0

without throwing an exception. So the null/HasValue check in this case is redundant. There is one small difference. The following:

(i.HasValue && (i.Value == 0))

is about twice as fast as

(i == 0)

when i is null although both are so fast it's not an important difference. When i has a value, the two comparisons take about the same amount of time.

share|improve this answer
oh thanks for that second piece of information. That was useful to know. – egucciar Apr 18 '12 at 15:51

Null checking is generally done to prevent exceptions, or to set default values (prior to .NET 4). Checking for zero would be more of a business logic choice, depending on the circumstances.

share|improve this answer
we do it mostly for Ids. Ids for certain things can be null, but they cant be 0 either. So when we check to see if something exists, we check for its ID. OR if we are trying to find something, we need to search by ID so we put that check in before we do the search. I've been writing it my way whenever the check needs to be made, but I see the id.HasValue && id > 0 check everywhere. – egucciar Apr 18 '12 at 15:45
If by "ID" you mean an auto-incrementing row identity value generated inside a SQL database, then I must caution you that 0 is a perfectly valid identity value; it's just uncommon. You can seed an identity column to start incrementing from -2, insert three records, and watch 0 become a perfectly valid identity that breaks all your code which assumes 0 is invalid! Moral: Don't use null and 0 to represent the same meaning. If they're different meanings then by all means, go nuts, but make sure you're consistent in your interpretations. – James Dunne Apr 19 '12 at 1:07
we used 0 sometimes but its not an ID of anything – egucciar Jul 14 '12 at 6:16

You might find that the programmer is used to the following type of checking on reference types before dereferencing them. Given that the the Nullable HasValue is similar in concept to the null check, I guess the pattern 'stuck', even though it is redundant with nullable types.

if ((myObject != null)  && (myObject.SomeValue > 0))


share|improve this answer
that is a good theory, but it's not what is being done. checks are being done on int?, not on object then on one of the objects values. :) That makes sense though, I will keep that in mind when checking an Object's value. – egucciar Apr 18 '12 at 15:46

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.