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I've compiled the below code and run the program. What I got from the output is *(pa-1)=5, yet I've no idea why so. Could anybody give me an explaination? Thanks in advance.


using namespace std;

int main(){

    int a[5]={1,2,3,4,5};
    int *pa=(int *)(&a+1);


share|improve this question
pretty sure its undefined behavior since you're casting a pointer to an int array to a pointer to an int – Dan F Jul 30 '12 at 15:11
@DanF: As long as T is standard-layout, (T*)[N] is convertible to T* and gives the address of the first element. – Kerrek SB Jul 30 '12 at 15:12
up vote 11 down vote accepted

&a is the address of the array, and it has type "pointer-to-int[5]". Thus &a + 1 advances by an entire array-of-five and points just past the array.

pa is a type-punned pointer* that now treats the same address as an address inside an array of integers (not arrays!). It is thus identical to the one-past-the-end pointer a + 5. Decrementing by one gives a pointer to the last element in the array, which is 5.

*) This sort of type punning is acceptable and does what you expect as long as the underlying type of the array is standard-layout, which int is.

share|improve this answer
Array's are special: a is it's own address, and &a == a - though with different types. Great write up. – Richard Sitze Jul 30 '12 at 15:13
@RichardSitze: Yeah, lots of things have the same address. It's the pair of type and value that designate unique objects. You can easily make a long list of descending subobjects which all have the same address, too. – Kerrek SB Jul 30 '12 at 15:26
@RichardSitze, the C standard does not forbid one from obtaining a pointer to array with the address-of operator and it results into a pointer of type type (*)[N]. The answer is correct. – Hristo Iliev Jul 30 '12 at 15:29
@HristoIliev: I don't think Richard was complaining. He was just pointing out that arrays are unique in the sense that the variable name itself can act as an address of the same value as the object's address, albeit differently typed. He should probably have said (void*)(a) == (void*)(&a), though :-) – Kerrek SB Jul 30 '12 at 15:30
@RichardSitze Not according to anything I've seen (including the standard). The type of a is int[5]. The type of &a is int (*)[5]. – James Kanze Jul 30 '12 at 15:32

What else would you expect? &a has type int (*)[5], so &a + 1 points to the next int[5] after a; it is the classical "end" iterator for iterating over int[5] elements. You then reinterpret_cast it to an int*, and access that. Formally, I think your code has undefined behavior, since about the only thing you can legally do with the results of a reinterpret_cast are to cast it back to the original type. (There are exceptions where pointers to character types are involved.) In practice, various requirements spread out throughout the standard mean that you will get the address of the last int in a.

share|improve this answer
&a has type (int*)[5]! – Kerrek SB Jul 30 '12 at 15:26
(int*)[5] isn't a legal type expression. The type of &a is int (*)[5], a pointer to an array of 5 int. – James Kanze Jul 30 '12 at 15:37
The type is int (*)[5]. See §6.7.6 of the C99 standard for the syntax. – Hristo Iliev Jul 30 '12 at 15:37
Yeah, that's what I meant! :-S Your post still has the error then... – Kerrek SB Jul 30 '12 at 16:04
@KerrekSB Fixed it:-). (I think I must have accidentally mis-edited something before posting. Maybe along the lines of a has type int [5], so &a has type int (*)[5].) – James Kanze Jul 30 '12 at 16:30

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