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c++ - Dereferencing a 50% out of bound pointer (array of array)

This is a new question in my "I don't understand pointers in C and C++" collection.

If I mix the bits of two pointers with equal values (pointing to the same memory address), that happen to have exactly the same bit representation, when one is dereferenceable and one is one past the end, what does the standard say should happen?

#include <stdio.h>
#include <string.h>
#include <assert.h>

// required: a == b
// returns a copy of both a and b into dest 
// (half of the bytes of either pointers)
int *copy2to1 (int *a, int *b) {
    // check input: 
    // not only the pointers must be equal
    assert (a == b);
    // also the representation must match exactly
    int *dest;
    size_t s = sizeof(dest);
    assert(memcmp(&a, &b, s) == 0); 

    // copy a and b into dest:
    // on "exotic" architectures, size does't have to be dividable by 2
    size_t half = s/2; // = floor(s/2), 
    char *pa = (char*)&a, *pb = (char*)&b, *pd = (char*)&dest;

    // copy half of a into dest:
    memcpy (pd, pa, half);
    // copy half of b into dest:
    memcpy (pd+half, pb+half, s-half); // s-half = ceil(s/2)

    //printf ("a:%p b:%p dest:%p 
", a, b, dest);    

    // check result
    assert(memcmp(&dest, &a, s) == 0);
    assert(memcmp(&dest, &b, s) == 0);

    return dest;
}

#define S 1 // size of inner array

int main(void) {
    int a[2][S] = {{1},{2}};
    int *past = a[0] + S, // one past the end of inner array a[0]
        *val = &a[1][0], // valid dereferenceable pointer
        *mix = copy2to1 (past, val);
    #define PRINT(x) printf ("%s=%p, *%s=%d
",#x,x,#x,*x)
    PRINT(past);
    PRINT(mix);
    PRINT(val);
    return 0;
}

What I really want to understand is: what does "p points to object x" mean?

SEE ALSO

This question is a better version of my previous questions about array of arrays:

and other related questions about pointer validity:

See Question&Answers more detail:os

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1 Answer

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In [basic.compound]:

If an object of type T is located at an address A, a pointer of type cv T* whose value is the address A is said to point to that object, regardless of how the value was obtained.

past and val have the same address, so they point to the same object. It doesn't matter that one is "one past the end" of the first row and the second is the first element of the second row. There is a valid object at that address, so everything here is perfectly reasonable.


In C++17, as of P0137, this changes a lot. Now, [basic.compound] defines pointers as:

Every value of pointer type is one of the following:
— a pointer to an object or function (the pointer is said to point to the object or function), or
a pointer past the end of an object (5.7), or
— the null pointer value (4.11) for that type, or
— an invalid pointer value.

So now, past is a value of the 2nd type (a pointer past the end of), but val is a value of the 1st type (a pointer to). Those are different categories of values and are not comparable:

A value of a pointer type that is a pointer to or past the end of an object represents the address of the first byte in memory (1.7) occupied by the object or the first byte in memory after the end of the storage occupied by the object, respectively. [ Note: A pointer past the end of an object (5.7) is not considered to point to an unrelated object of the object’s type that might be located at that address. A pointer value becomes invalid when the storage it denotes reaches the end of its storage duration; see 3.7. —end note ]

past doesn't point to something, so viewing its contents as if it were the same as val is no longer meaningful.


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