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Recently i saw this piece of code. Shouldnt this line be a compile error?char arr[4]="Abc";

What happens here? Is arr a pointer? is the char* copied into an array on stack? is this legal in all version of C++ (and what about C?). I tested and seen this works in VS and code pad which i believe uses gcc

-edit- Just for fun I tried replacing "Abc" with a static const char *. It gave me an invalid initializer error.

int main()
    int j=97;
    char arr[4]="Abc";
    return 0;
share|improve this question
@Tergiver: No, it's not. It's an array. An array is not a pointer, an array is not a pointer, an array is not a pointer, an array is not a pointer, an array is not a pointer, an array is not a pointer, an array is not a pointer, an array is not a pointer. – GManNickG Oct 2 '10 at 18:45
@Tergiver: No. arr is an array, not a pointer. – Charles Bailey Oct 2 '10 at 18:46
@Tergiver: You are wrong. Yes, an array uses a contiguous chunk of memory. After that you're wrong. By your argument, all types are pointers because you couldn't access them without a pointer to their memory. int i; // this must be a pointer, otherwise we couldn't access it – GManNickG Oct 2 '10 at 18:48
@Tergiver: Sorry, but that can be said about absolutely any variable in C: you can't access it unless you have a pointer to it. Right? Wrong. You are mixing the concept of lvalue with the concept of a pointer. "Pointer" in C means a totally different thing. Array is not a pointer, it is an lvalue: an object with a location in memory, which is known to the compiler. Which is why you can access it. You don't need any "pointers" to perform the access. – AnT Oct 2 '10 at 19:13
@acid: No, I never said anything of the sort. You're the one hinging on implementation-specific things. When you say "it's allocated on the stack", that's implementation-specific. And you must have missed the part where I opened the standard and corrected my understanding. And you clearly still miss the point of that question, which Thomas and Martin both answered. You think string literals are pointers, and you're telling me I don't know what's going on? All I said is the moment you bring in implementation-details, you aren't talking about C++ the language. Assembly, for example, isn't C++. – GManNickG Oct 2 '10 at 21:00
up vote 8 down vote accepted

array = ptr is not a legal assignment (if array has an array type and ptr has the corresponding pointer type). In the code you have shown, though, the = introduces an initializer as it is part of a declaration. It is not an assignment.

It is legal to initialize an array of char with a string constant.

share|improve this answer
so this is an array on the stack? – acidzombie24 Oct 2 '10 at 19:22
@acidzombie24: Yes. – Loki Astari Oct 2 '10 at 19:24
@acidzombie24: From a language point of view array has automatic storage duration so it lives until the end of the scope in which it is declared. Colloquially, it's on the stack. – Charles Bailey Oct 2 '10 at 19:30
I didnt think of trying this but heres some code showing it is using the stack – acidzombie24 Oct 2 '10 at 22:31
@acid: The line arr[1] = 'z'; invokes undefined behavior. You cannot draw any conclusions from this program, at all. – GManNickG Oct 3 '10 at 9:17

String literal is not a pointer. String literal is an character array. So, what you have in your example is an array = array initialization, not an array = pointer as you seem to believe.

Yet in general it is indeed illegal to initialize one array with another array, in both C and C++.

However, in both C and C++ there's one exception from that rule: character arrays can be initialized with string literals. (Note: initialization is allowed; assignment won't work). Each element of the array gets initailized with the corresponding character from the literal (which also implicitly include a terminating zero character at the end). In C++ it is required that the recipient array's size has enough space for the terminating zero. In C the terminating zero is allowed to "fall off", if the recipient array is one character short.

Also, you are not required to specify the array size explicitly. You can do

char arr[] = "Abc";

and the compiler will automatically figure out that you need a 4 element array.

share|improve this answer

It is equivalent to

char arr[4] = {'A', 'b', 'c', 0};

which is in turn equivalent to:

char arr[4];
arr[0] = 'A';
arr[1] = 'b';
arr[2] = 'c';
arr[3] = 0;
share|improve this answer
No, '\0' means 0. It is the character #0, which has the numeric value of 0. – Thomas O Oct 2 '10 at 18:43
I'm convinced that @GMan is about to discover that he is wrong on this one. – Charles Bailey Oct 2 '10 at 18:57
@Charles: Ha, yup. I remember getting a scolding from someone reputable on SO a long time ago when I used 0 instead of '\0', and they said it might not be the same. I can't remember who, but they were wrong. The null-terminator does indeed have to be 0, as it should. Bah, didn't know how to check things back then. – GManNickG Oct 2 '10 at 19:00
The '\0' is actually an octal escape sequence. It is literally the octal number 0. From n1336 See Appendix A.1.5 Section ( character constants – Loki Astari Oct 2 '10 at 19:29
@GMan: Maybe because 0 is an int so there is an implicit conversion. While '\0' is a char. – Loki Astari Oct 2 '10 at 20:36

Character arrays can be initialized with string literals, it just assigns each element character by character. It's just a language feature.

And no, arr is not a pointer. It's an array. "Abc" is a string literal, which is also a character array.

share|improve this answer
Arrays are pointers, are they not? – Thomas O Oct 2 '10 at 18:44
Arrays are not pointers. Arrays are arrays. Pointers are pointers. Arrays are a collection of contiguous elements, pointers point. – GManNickG Oct 2 '10 at 18:46
@Thomas: they are not. typeid(int*) != typeid(int[10]) Arrays are convertible to pointers though. – ybungalobill Oct 2 '10 at 18:47
An array has an implicit conversion to a pointer. An int has an implicit conversion to double. Would you therefore say that an int IS a double? – Ben Voigt Oct 2 '10 at 18:49
@Thomas it was the whole point of arrays that they are not pointers which caused them to be adopted in C. If array variables were pointers, you couldn't stick arrays into structs and map them to external resources. After all, what you would map would be the 4/8 bytes of the pointer only. See for details (scroll to "Embryonic C"). – Johannes Schaub - litb Oct 2 '10 at 21:35

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