Here is my code:

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

typedef char BUF[8];

typedef struct
    BUF b[23];
} S;

S s;

int main()
    int n;

    memcpy(&s, "1234567812345678", 17);

    n = strlen((char *)&s.b) / sizeof(BUF);
    printf("%d\n", n);

    n = strlen((char *)&s) / sizeof(BUF);
    printf("%d\n", n);

Using gcc 8.3.0 or 8.2.1 with any optimization level except -O0, this outputs 0 2 when I was expecting 2 2. The compiler decided that the strlen is bounded to b[0] and therefore can never equal or exceed the value being divided by.

Is this a bug in my code or a bug in the compiler?

This isn't spelled out in the standard clearly, but I thought the mainstream interpretation of pointer provenance was that for any object X, the code (char *)&X should generate a pointer that can iterate over the whole of X -- this concept should hold even if X happens to have sub-arrays as internal structure.

(Bonus question, is there a gcc flag to turn off this specific optimization?)

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