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I was asked to give the output of the following code in an interview.

int a[] = {1,2,3,4,5};
int *p = &a + 1;
printf("%d, %d", *(a+1), *(p - 1));

I said I could not determine the result of the second one, so I failed the interview.

When I got back to home, and tried to compile the code, g++ will report an error, but gcc will only give a warning. The result printed is '2,5'.

Anyone knows why the C and C++ compiler behave differently on this?

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What are the error and warning reported ? –  Max Feb 20 '12 at 16:04
Is that your typo? Because p is undefined. Did you mean to say p2 - 1? –  badgerr Feb 20 '12 at 16:04
C and C++ are different languages. –  Lightness Races in Orbit Feb 20 '12 at 16:05
The question does make sense. There may be a couple of typos in it though. –  Nick Feb 20 '12 at 16:11
Oh, I thought the question was "Why do the C and C++ compilers behave differently on this?" –  Nick Feb 20 '12 at 16:52

4 Answers 4

a is an array of integers, which converts to a pointer to the first element when needed. a+1 invokes that conversion, and gives a pointer to the second element.

&a is a pointer to the array itself, not to the first element of it, so &a + 1 points beyond the end of the array (to the point where the second array would be, if it were a 2-dimensional array).

The code then converts that pointer (of type int (*)[5]) to a pointer to an integer (type int*). C++ doesn't allow such a conversion without an explicit reinterpret_cast, while C is more lenient in the pointer conversions it allows.

Finally (assuming that p and p2 are supposed to be the same thing), p - 1 points to the last element of a.

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The C compiler should've issued a warning, however. –  Per Johansson Feb 20 '12 at 17:45
@PerJohansson it issues, you just need to adjust compiler warning levels –  Mr.Anubis Feb 20 '12 at 18:36

Well, a is array of 5 ints, so &a is a pointer to array of 5 ints. in C++, you can't assign that address in a int* without cast it. gcc (in C language) gives only warning, but I think that is not valid C.

For the code:

&a+1 is the next array after a, meaning, the address of the 6th element in a, so p-1 is the address of the 5th element of a.

(I'm not sure if &a+1 is legal. it's the address of the element that is after the array, which is usually legal, but since &a is not an array, it may be illegal.)

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I think &a+1 is legal. For the purposes of pointer arithmetic, an object is treated as an array of size 1. The array a is of course an object in addition to being an array, so &a+1 is a legal pointer one-past-the-end of it. That is, one-past-the-end of an array of type int[1][5]. So as you've said, it refers to the same address as the one-past-the-end pointer a+5 but with different type. You can just as well do int i = 0; &i+1;. –  Steve Jessop Feb 20 '12 at 16:42
int a[] = {1,2,3,4,5};
int *p = &a + 1;

This is invalid C code.

The expression &a + 1 is of type int (*)[5]. You cannot assign an expression of type int (*)[5] to an int *.

Except with the generic object pointer type void *, there is no implicit conversion between object pointers. A cast is required to initialize p with &a + 1 value.

Where does C says this declaration is invalid?

int *p = &a + 1;

in the constraints of the assignment operator:

(C99, "both operands are pointers to qualified or unqualified versions of compatible types, and the type pointed to by the left has all the qualifiers of the type pointed to by the right"

And an int and an array type are not compatible types (see 6.2.7p1 for more on type compatibility).

well also, it is an initialization not an assignment, but the same constraint applies:

(C99, 6.7.8p11) "The initializer for a scalar shall be a single expression, optionally enclosed in braces. The initial value of the object is that of the expression (after conversion); the same type constraints and conversions as for simple assignment apply, taking the type of the scalar to be the unqualified version of its declared type."

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A cast is required ... to force the compiler to stay quiet even when the operation is invalid :) –  pmg Feb 20 '12 at 16:12
@WilliBurkhardt it is invalid in C89, in C99 and in C11. Long story short, it is an initialization but you have to look on the constraints of the assignment operator. –  ouah Feb 20 '12 at 16:26
@WilliBurkhardt it's not valid code but some bad implicit conversion are making this possible –  Mr.Anubis Feb 20 '12 at 16:27
@WilliBurkhardt the after conversion regards the arithmetic types as there is no implicit or automatic conversions for object pointer types as far as I remember. The conversions in, p6 and p7 are not implicit and require a cast. –  ouah Feb 20 '12 at 17:25
@WilliBurkhardt The "otherwise" part applies and this simply says that &a is a pointer to the a array. I see no relevance of this paragraph in the discussion about the invalid code. –  ouah Feb 20 '12 at 17:49

The C++ compiler gave an error because &a evaluates to int(*)[5], which is a pointer to 5 integers, and you're attempting to assign it to an int*.

If you did fix the type, this code would print the second item in the array, followed by the address of the array.

My guess is that C decays the array into a pointer, resulting in &a evaluating to int**, and allows that to be assigned to int*. However, I don't do much C, so someone else may know better.

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