I've found C code that prints from 1 to 1000 without loops or conditionals : But I don't understand how it works. Can anyone go through the code and explain each line?

#include <stdio.h>
#include <stdlib.h>

void main(int j) {
  printf("%d\n", j);
  (&main + (&exit - &main)*(j/1000))(j+1);
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    Are you compiling as C or as C++? What errors do you see? You cannot call main in C++. – ninjalj Oct 29 '11 at 10:05
  • @ninjalj I have created a C++ project and copy/past the code the error are : illegal, left operand has type 'void (__cdecl *)(int)' and expression must be a pointer to a complete object type – ob_dev Oct 29 '11 at 10:15
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    @ninjalj These code is working on ideone.org but not in visual studio ideone.com/MtJ1M – ob_dev Oct 29 '11 at 10:27
  • @oussama Similar, but slightly more difficult to understand: ideone.com/2ItXm You're welcome. :) – Mark Oct 29 '11 at 12:30
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    i have removed all '&' characters from these line (&main + (&exit - &main)*(j/1000))(j+1); and this code still works. – ob_dev Oct 30 '11 at 16:57

Don't ever write code like that.

For j<1000, j/1000 is zero (integer division). So:

(&main + (&exit - &main)*(j/1000))(j+1);

is equivalent to:

(&main + (&exit - &main)*0)(j+1);

Which is:


Which calls main with j+1.

If j == 1000, then the same lines comes out as:

(&main + (&exit - &main)*1)(j+1);

Which boils down to


Which is exit(j+1) and leaves the program.

(&exit)(j+1) and exit(j+1) are essentially the same thing - quoting C99 §

A function designator is an expression that has function type. Except when it is the operand of the sizeof operator or the unary & operator, a function designator with type "function returning type" is converted to an expression that has type "pointer to function returning type".

exit is a function designator. Even without the unary & address-of operator, it is treated as a pointer to function. (The & just makes it explicit.)

And function calls are described in § and following:

The expression that denotes the called function shall have type pointer to function returning void or returning an object type other than an array type.

So exit(j+1) works because of the automatic conversion of the function type to a pointer-to-function type, and (&exit)(j+1) works as well with an explicit conversion to a pointer-to-function type.

That being said, the above code is not conforming (main takes either two arguments or none at all), and &exit - &main is, I believe, undefined according to §6.5.6/9:

When two pointers are subtracted, both shall point to elements of the same array object, or one past the last element of the array object; ...

The addition (&main + ...) would be valid in itself, and could be used, if the quantity added was zero, since §6.5.6/7 says:

For the purposes of these operators, a pointer to an object that is not an element of an array behaves the same as a pointer to the first element of an array of length one with the type of the object as its element type.

So adding zero to &main would be ok (but not much use).

| improve this answer | |
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    foo(arg) and (&foo)(arg) are equivalent, they call foo with argument arg. newty.de/fpt/fpt.html is an interesting page about function pointers. – Mat Oct 29 '11 at 8:57
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    @Krishnabhadra: in the first case, foo is a pointer, &foo is the address of that pointer. In the second case, foo is an array, and &foo is equivalent to foo. – Mat Oct 29 '11 at 10:20
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    Unnecessarily complex, at least for C99: ((void(*[])()){main, exit})[j / 1000](j + 1); – Per Johansson Oct 29 '11 at 10:22
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    &foo is not the same as foo when it comes to an array. &foo is a pointer to the array, foo is a pointer to the first element. They do have the same value though. For functions, fun and &fun are both pointers to the function. – Per Johansson Oct 29 '11 at 10:31
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    FYI, if you look at the relevant answer to the other question cited above, you'll see there's a variation that is in fact comformant C99. Scary, but true. – Daniel Pryden Oct 30 '11 at 6:01

It uses recursion, pointer arithmetic, and exploits the rounding behavior of integer division.

The j/1000 term rounds down to 0 for all j < 1000; once j reaches 1000, it evaluates to 1.

Now if you have a + (b - a) * n, where n is either 0 or 1, you end up with a if n == 0, and b if n == 1. Using &main (the address of main()) and &exit for a and b, the term (&main + (&exit - &main) * (j/1000)) returns &main when j is below 1000, &exit otherwise. The resulting function pointer is then fed the argument j+1.

This whole construct results in recursive behavior: while j is below 1000, main calls itself recursively; when j reaches 1000, it calls exit instead, making the program exit with exit code 1001 (which is kind of dirty, but works).

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    Good answer, but one doubt..How main exit with exit code 1001? Main is not returning anything..Any default return value? – Krishnabhadra Oct 29 '11 at 9:30
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    When j reaches 1000, main doesn't recurse into itself anymore; instead, it calls the libc function exit, which takes the exit code as its argument and, well, exits the current process. At that point, j is 1000, so j+1 equals 1001, which becomes the exit code. – tdammers Oct 29 '11 at 9:33

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