This is a question from the most recent version of Stroustrup's "The C++ Programming Language".

I've been mulling this over in my head for the past couple days.

The only thing I can come up with, (and this is probably incorrect) is something like this:

int* f(int n) {
  int* a = &a - n * sizeof(int*);
  return a;

My intent is to get the address of something higher up on the stack. Does this make any sense? Does anyone else have any other answers? Remember, this is in Chapter 5 (pointers, arrays, and structures) so the answer shouldn't involve something later on in the book.

  • 2
    What makes you think it should ever make sense? :p – jalf Jul 25 '09 at 0:45
  • Well, as a portable code, yours is U.B. I guess it means that it doesn't make sense :) – Pavel Minaev Jul 25 '09 at 0:49
  • To be more specific: "stack" is an implementation detail; there isn't such a thing in C++ standard. It only has "automatic storage", without specifying how it's implemented. Furthermore, pointer arithmetic that results in pointer to first element of an array (single variable can be treated as 1-element array for this purpose) decremented is U.B. – Pavel Minaev Jul 25 '09 at 0:53
  • I wonder whether you are allowed to use malloc, too? – Johannes Schaub - litb Jul 25 '09 at 1:02
  • Jalf, I don't think Stroustrup would have asked the question in his book if he didn't think there would be some answer to it. – Rob Kennedy Jul 25 '09 at 6:51

The only (barely) reasonable case I know of is when you want to pass a pointer to the object itself to its constructor. For example, say you have a cyclic linked list node:

class Node
    Node(Node* next): next(next) {}
    Node* next;

and you want to create a single-element cyclic list on the stack. You can do this:

Node n(&n);

A few other examples that aren't really practical (i.e. I don't see why you'd need that sort of thing), but otherwise valid:

int n = sizeof(n);
void* p = &p;
  • "Node(Node* next): next(next) {}" line is very subtle, i like that solution :) – Johannes Schaub - litb Jul 25 '09 at 1:05
  • Although slightly reminiscent of the "spam" sketch :-) – Steve Jessop Jul 25 '09 at 11:34
  • The first example doesn't seem right to me. next and next in that ctor-initialiser are not the same name; they each refer to distinct objects. – Lightness Races in Orbit Nov 4 '12 at 17:07
  • The point of the first example is not about the ctor-initializer, it's about declaring the variable n. Two names in the initializer are different, yes, but it's irrelevant. – Pavel Minaev Nov 7 '12 at 23:10

An example I use very often in C code is:

C *c = (C*) malloc(sizeof *c);

It involves pointers and structures. Surely, new frees you from having to use that idiom by saying new C instead in C++.

  • Makes most sense of everything posted here so far! – Pavel Minaev Jul 25 '09 at 1:43
  • 2
    No, because if you change the type of c, you'll need to change it in two places, and might accidentially miss the one inside sizeof (and it won't be a compile-time error). This way you only have to change type in one place. – Pavel Minaev Jul 25 '09 at 6:00

I think it is a correct way. Just you need to take care of many things :)

First, you don't need sizeof because n will be multiplied by the size of a. Basically you have to choose the right type of the pointer to get the address you want on the stack.

int*  a = &a - n; // so if n==1 => a = &a - (1*4)
char* b = &b - n; // so if n==1 => b = &b - (1*1)

Second, you have to take care of endianess.

Also, I am not sure if I forgot something :)

  • you forgot one thing: It's undefined behavior. You're not allowed to do pointer arithmetics beyond the bounds of the original array (where non-array types are considered arrays of a single element) :) – jalf Jul 25 '09 at 0:50
  • well thats true, I agree with you it is useful only for a learner and useless after that :) – AraK Jul 25 '09 at 0:55

First off, there is no guarantee about which direction the stack grows. Your code assumes it grows down, but it could also grow up (that is, to lower addresses). Also, there are things that get put on the stack that you may not be aware of (return address, stack frame, registers, etc.) and not "jumping" past when trying to grab things higher up on the stack.

What are you ultimately trying to do?

  • 1
    I'm trying to find a reason for using a name in its own initializer. The example I gave was an attempt at such. – Joe Snikeris Jul 25 '09 at 3:39

Consider an array of integral type that should hold its size in the first element:

// clang++ --std=c++11 initializer.cpp -o initializer

#include <iostream>

using namespace std;

void Print(int* array) {
    cout << "array has " << *array << " elements" << endl;
    for(int count {*array}; count; --count) {
        cout << *++array << endl;

int main(int, char* []) {
        int elements[] {sizeof(*elements), 1, 2, 3};
        *elements = sizeof(elements) / *elements - 1;
    cout << "---" << endl;
        int elements[] {sizeof(*elements)};
        *elements = sizeof(elements) / *elements - 1;
    return 0;


array has 3 elements
array has 0 elements

P.S. Example in GitHub: Chapter 8: Exercise 9.3

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