What's the difference between the following two character arrays: one with a null character and one without a null character?

char name1[] = {'j','o','h','n'};
char name2[] = {'j','o','h','n','\0'};

If there is a difference between name1 and name2 how does strlen work on name1 since it has no null character?

What would the result be for

printf("%d", name1[5] == '\0'); 

I expected it to be 0 but got 1

  • In both cases you define an array of char. If you want the nul terminator to be added by the compiler, you need to define the value with a string literal, for example char name1[] = "john"; Commented Oct 9, 2016 at 18:37
  • Hm, a bit of lecture on strlen would probably have shown that strlen does not work on strings that aren't null-terminated. Commented Nov 5, 2016 at 12:33

4 Answers 4


how does strlen work on name1 since it has no null character.

It doesn't. This would invoke undefined behaviour.

I expected it to be 0 but got 1

Your code snippet tries to access name1[5]. Given that name is a char array of size 4, you are accessing memory that has nothing to do with that array. Possibly at the time of execution that memory happened to contain a null character, leading to this result. This cannot be predicted however, and so the behaviour is undefined.


name1 doesn't define a C-string, but name2 does.

A C-string is a sequence of chars with the last one being the NUL char. C-string is not a type, you don't have string type in C; but the standard defines the concept of C-string. strlen should be used on C-string.

You defined arrays of chars. That is a type in C: a sequence of chars. Then some arrays of chars contains C-string, some others does not. strlen should not be used on arrays of chars that do not contain C-string.

name1[5] doesn't exists, that array contains only 5 chars (0 to 4).


the differences between the first and second arrays?

1) the first array is 4 characters while the second array is 5 characters

2) cannot use functions like strlen(),strcpy(),strcmp()` on the first array, but can use those functions on the second array


size of name1 is not the size of name2
size of name1 is 4
size of name2 is 5
It knows from array Someone forgot to count from 0 not 1 when addressing an array. That is always annoying. name1[5] points to a forbidden memory address. This is what is called a buffer overflow.

  • 1
    Indeed both name1[5] and name2[5] are indexing out of range. Commented Oct 9, 2016 at 18:39

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