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Lets say we have an array of char pointers

char* array[] = { "abc", "def" };

Now what should be put in the end ?

char* array[] = { "abc", "def", '\0' };


char* array[] = { "abc", "def", "\0" };

Though, both works. We only have to put the condition to check the end accordingly


array[ index ] != '\0';


array[ index ] != "\0";

My question is which one is the better way? Which is used by most programmers?


Most answers say that NULL is better than '\0' and "\0". But I always thought that

NULL is same as '\0' which is same as 0x0 or 0

Is it wrong?

share|improve this question
Regarding the edit, In C NULL is a pointer (usually defined (void*)0. '\0' is a character constant. So when using a character constant where a pointer is expected, and implicit conversion occurs. As it happens conversion of any integer zero results in a NULL pointer, but it does not make it clear that you intended a pointer. It is better simply to use a literal constant integer zero IMO. As it happens in C++ this is the preferred approach in any case, but in C++ the NULL macro is defined that way also (take a look in your compiler's standard header files). – Clifford Sep 27 '09 at 19:49
up vote 18 down vote accepted

I would end it with NULL. Why? Because you can't do either of these:

array[index] == '\0'
array[index] == "\0"

The first one is comparing a char * to a char, which is not what you want. You would have to do this:

array[index][0] == '\0'

The second one doesn't even work. You're comparing a char * to a char *, yes, but this comparison is meaningless. It passes if the two pointers point to the same piece of memory. You can't use == to compare two strings, you have to use the strcmp() function, because C has no built-in support for strings outside of a few (and I mean few) syntactic niceties. Whereas the following:

array[index] == NULL

Works just fine and conveys your point.

share|improve this answer
Actually, the char* comparison probably worked for the OP, since the compiler unified the two identical string literals. I agree that the comparison is meaningless, in principle. – Martin v. Löwis Sep 27 '09 at 10:13
Is NULL not same as '\0'? What I understand is that NULL == '\0' == 0x0. Is is incorrect? – Andrew-Dufresne Sep 27 '09 at 10:36
Usually NULL is ((void*)0)... though the values are equal, the types are different. – fortran Sep 27 '09 at 11:07
Nitpick - the first comparison is actually OK - '\0' is an integer value of zero, and in this context is evaluated as a null pointer constant. It's not a good idea though, because it conveys a sense of confusion on the part of the author. If you mean NULL, say NULL. – caf Sep 27 '09 at 11:12
@caf exactly what i just wanted to write, +1. @Chris, and note that in C, character literals actually have type int not char (but this wouldn't change its ability to be a null pointer constant - char is an integer type too). Fix it and i will +1 u too xD – Johannes Schaub - litb Sep 27 '09 at 14:18

Of these two, the first one is a type mistake: '\0' is a character, not a pointer. The compiler still accepts it because it can convert it to a pointer.

The second one "works" only by coincidence. "\0" is a string literal of two characters. If those occur in multiple places in the source file, the compiler may, but need not, make them identical.

So the proper way to write the first one is

char* array[] = { "abc", "def", NULL };

and you test for array[index]==NULL. The proper way to test for the second one is array[index][0]=='\0'; you may also drop the '\0' in the string (i.e. spell it as "") since that will already include a null byte.

share|improve this answer
I do find it interesting that this problem has two answers that work, but neither is technically correct, and neither works for the reason the OP thinks they do. – Chris Lutz Sep 27 '09 at 10:19

According to the C99 spec,

  • NULL expands to a null pointer constant, which is not required to be, but typically is of type void *
  • '\0' is a character constant; character constants are of type int, so it's equivalen to plain 0
  • "\0" is a null-terminated string literal and equivalent to the compound literal (char [2]){ 0, 0 }

NULL, '\0' and 0 are all null pointer constants, so they'll all yield null pointers on conversion, whereas "\0" yields a non-null char * (which should be treated as const as modification is undefined); as this pointer may be different for each occurence of the literal, it can't be used as sentinel value.

Although you may use any integer constant expression of value 0 as a null pointer constant (eg '\0' or sizeof foo - sizeof foo + (int)0.0), you should use NULL to make your intentions clear.

share|improve this answer
Although to be really nit picking, NULL is expanded to a null pointer only in case it's defined as (void*)0 (in which case it's both that and a null pointer constant) :) If it happens to be 0 or similar, then it's only a null pointer constant, which yet has to be converted to a null pointer :) – Johannes Schaub - litb Sep 27 '09 at 14:27
@litb: actually, '\0' might not be a valid null pointer constant as it's a character constant (C99 and not an integer constant (C99; character constants are sometimes called integer character constants, but does that make them an "integer constant expression" as required by C99 – Christoph Sep 27 '09 at 14:55
@Christop 6.6/6 :) – Johannes Schaub - litb Sep 27 '09 at 14:59
@litb: thx - don't know why I did not search for the term myself – Christoph Sep 27 '09 at 15:02

The termination of an array of characters with a null character is just a convention that is specifically for strings in C. You are dealing with something completely different -- an array of character pointers -- so it really has no relation to the convention for C strings. Sure, you could choose to terminate it with a null pointer; that perhaps could be your convention for arrays of pointers. There are other ways to do it. You can't ask people how it "should" work, because you're assuming some convention that isn't there.

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The convention is there for variable-length arrays: use NULL as sentinel value. – u0b34a0f6ae Sep 27 '09 at 11:12

Well, technically '\0' is a character while "\0" is a string, so if you're checking for the null termination character the former is correct. However, as Chris Lutz points out in his answer, your comparison won't work in it's current form.

share|improve this answer
Using '\0' is comparing a char * to a char which is like comparing apples to oranges. Neither is correct, really. – Chris Lutz Sep 27 '09 at 10:17
@Chris: <nitpick>using '\0' is comparing a char * to an int</nitpick> – Christoph Sep 27 '09 at 14:13
@Christoph - that's what Chris Lutz pointed out. Rather than update my answer I pointed my answer at his – ChrisF Sep 27 '09 at 14:37

Null termination is a bad design pattern best left in the history books. There's still plenty of inertia behind c-strings, so it can't be avoided there. But there's no reason to use it in the OP's example.

Don't use any terminator, and use sizeof(array) / sizeof(array[0]) to get the number of elements.

share|improve this answer
+1 for sizeof array/sizeof array[ 0 ]. But do you think it is good enough reason for not using terminator? – Andrew-Dufresne Sep 28 '09 at 3:13
this only works if the array is declared in-scope -- if it's passed by pointer then you cannot do sizeof(array) and you can only get the length by passing the size via a parameter, or searching for the null terminator. – Carson Myers Sep 28 '09 at 6:20
I should have been more clear. Pass the number of elements around along-side your array. Safer and more clear than using a terminator. – Alan Sep 29 '09 at 1:34

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