13

I would like to know if this looks correct :

while((next !=NULL) && (strcmp(next->name, some_string) < 0) {
    //some process
}

I mean, if next is NULL, then the second part of the expression won't be ever tested by the compiler? I have heard that in C++ it's the case (but I'm not even sure of it).

Can someone confirm me that I won't get strange errors on some compilers with that?

  • 5
    @Sean: Testing doesn't necessarily equal "guaranteed by the standard". – Oliver Charlesworth Oct 18 '10 at 12:02
  • 4
    Incidentally this not always true in C++. The expression: (next != NULL) may use an overloaded != operator on whatever type next is. That operator may return another type on which && is overloaded. And for overloaded && there is no built-in short-circuiting, so the expression on the RHS will be evaluated regardless of the LHS. – Daniel Earwicker Oct 18 '10 at 12:08
  • 2
    This is not lazy evaluation – pmg Oct 18 '10 at 12:26
  • 1
    @pmg: Why is this not lazy evaluation? – codymanix Oct 18 '10 at 12:32
  • 4
    @codymanix: Lazy evaluation is about delaying computation until the point that the results are required. This is short-circuiting, to avoid undefined behaviour (like deferencing a null pointer). – Oliver Charlesworth Oct 18 '10 at 12:58
15

Yes && is short circuited and you are using it correctly.
If next is NULL string compare will never happen.

8

Yes, in C++ short circuit and and or operators are available.

Here's a question answered in the C-faq on the subject.

7

It's definitely the case in both C and C++.

  • 1
    Correction: It's definitely true in C, so it should be true in C++. – ruslik Oct 18 '10 at 12:01
  • 1
    @ruslik - that's no correction. C++ and C are covered by standards, and this answer is correct about what both standards say (for built-in types in C++) – Daniel Earwicker Oct 18 '10 at 12:05
2

This will work with lazy evaluation (the second statement not evaluated if the first one is evaluated to "false") unless your compiler is so non-standard compliant it can't even be named a C compiler. Millions lines of code in the field rely on this behavior, so you can think that this behavior is just guaranted.

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