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int main()
    printf("%s\n", "Hello");
    printf("%s\n", &"Hello");
    return 0;

Output : 

Can anyone explain to me why "Hello" and &"Hello" produce the same result?

share|improve this question
There are no references in C. The unary & is the address-of operator. –  us2012 Oct 1 '13 at 14:45
@alkis You didn't edit the title? –  devnull Oct 1 '13 at 14:48
Which compiler do you use, BTW? –  devnull Oct 1 '13 at 14:49
@devnull I'm using dev-c++ as my ide on windows (just for testing) and it uses Mingw which is a port of GCC –  alkis Oct 1 '13 at 14:51
@alkis So the compiler doesn't have any option to enable any warnings? –  devnull Oct 1 '13 at 14:52

4 Answers 4

up vote 3 down vote accepted

It is because the string literal is treated as a const char array. The code is equivalent to writing this:

char array [] = "Hello";
printf("%s\n", array);
printf("%s\n", &array);
  • When you pass the array name to a function expecting a pointer, the array "decays" into a pointer.
  • When you pass the address of the array, you get an array pointer... which also points at the very same address.

This is quite confusing and I think the C FAQ explains it well. That whole chapter about arrays and pointers should be mandatory reading for all C programmers.

Another thing worth of note: optimizers use something call "string pooling", which means that if the compiler encounters the same string literal twice in the souce code, it will store it at the same address. So your code actually just prints the contents of the same memory location twice. To see if string pooling is used, simply run this code:

printf("%p\n", "Hello");
printf("%p\n", "Hello");

It should print the same address twice, as long as the strings are identical. Change one of the strings, and you will get different addresses.

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This is an awsome answer. Thank you. –  alkis Oct 1 '13 at 15:01
@alkis Just make sure to read that link I posted, if you haven't already :) It is very good reading for beginners and veterans all alike. –  Lundin Oct 1 '13 at 15:02
I most certainly will. Thank you sir for your help. –  alkis Oct 1 '13 at 15:03

Applying & to "Hello" yields a pointer to that array (yes, it is an array and it doesn't decay to a pointer in this context).

It still points to the same location, but it has a different type (it has char (*)[6], i.e. a pointer to an array of 6 chars). printf ignores the real type of the pointer and treats it as a char * so it "works".

Technically using the "wrong" object type for a printf specifier is undefined behavior. Turning on the warnings should point this out in modern compilers.

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Thank you. You really helped. –  alkis Oct 1 '13 at 14:55
As in, the literal "Hello" decays into a pointer char*, but &"Hello" doesn't decay, it is an array pointer of the type char(*)[6]. –  Lundin Oct 1 '13 at 15:00
@Lundin What I meant is that in the context of applying &, "Hello" does not decay into a pointer. –  cnicutar Oct 1 '13 at 15:01

"Hello" and &"Hello" both return the base address of the char array(string).

and you are using the %s, which is use for the print of string variable

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This is in context with printf 's %s

The base address for following are same:

&"Hello" ==> &"Hello"[0] ==> "Hello"+0 ==> "Hello"

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Try: printf("%s\n", "Hello"+2); and see what I meant –  P0W Oct 1 '13 at 14:55
I didn't downvote but I disagree with your answer. &"Hello" has type char (*)[6] while &"Hello"[0] has type char *. Your ==> seems to imply they are equivalent. –  cnicutar Oct 1 '13 at 14:59
@cnicutar I know, the intention was to tell any "String"+i behavior with printf's %s (the base addresses) –  P0W Oct 1 '13 at 15:04

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