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I have following code written in C:

#include <stdio.h>
void fortune(char msg[]){
  printf("Message reads: %s\n", msg);
  printf("msg occupies %ld bytes.\n", sizeof(msg));

int main(){
  char quote[]= "Cookies make you fat";
  printf("The quote string is at %p\n", quote); //ONE
  printf("The quote string is at %p\n", &quote); //TWO

I know int variables if we want to get address of it we must write:

printf("a is located at %p\n", &a);  not   printf("a is located at %p\n", a);

But I want to know the difference between the first and the second version (see the lines named ONE and TWO in the snippet)?

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%p is printf format for pointer value. & is used to get the memory address of a variable (i.e. a pointer). –  RageD Jan 19 '14 at 18:03
I know... I want to know wha the diference between these two lines is: printf("The quote string is at %p\n", quote); printf("The quote string is at %p\n", &quote); –  MortezaLSC Jan 19 '14 at 18:05
C or C++? Pick one... –  Lightness Races in Orbit Jan 19 '14 at 18:10
Besides all, your code provokes undefined behaviour, as "%p" is defined to print void * only. It shall be printf("The quote string is at %p\n", (void *) quote); ... –  alk Jan 19 '14 at 18:32

3 Answers 3

up vote 4 down vote accepted

The address printed in both ONE and TWO will be the same. quote is an array, and at ONE the name is converted to a pointer to its first element, and at TWO &quote will have a different data type than quote, but it will still be a pointer to the start to the array quote.

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In this case there is no difference between the two forms. Why? Simply because you are printing a memory address using %p; being quote basically a pointer to the first element (which is C), you are already passing printf a memory address. There is no need to use the & operator, even though it can make the syntax clearer.

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Consider the following:

const char *pStr = "Hello";

printf("pStr   = %p\n", pStr);
printf("&pStr  = %p\n", &pStr);
printf("pStr   = %s\n", pStr);
printf("*&pStr = %s\n", *&pStr);

On my machine I get the following results:

pStr   = 0x100403030
&pStr  = 0x22aac8
pStr   = Hello
*&pStr = Hello

What this means is the following:

  1. pStr is the address of the first character in the string, 'H' in this example.
  2. &pStr is the address of the pointer that holds the address of the first character in the string.

Visualize it like this:

Identifier   pStr
Value      | 2000 | ... | 'H'  || 'e'  || 'l'  || 'l'  || 'o'  || '\0' |
Address      1000         2000    2001    2002    2003    2004    2005

In the above example, pStr has a value of 2000, which is the address of the first character of the string, "Hello". &pStr is the address of the pointer itself, which is 1000.

Now, consider the following:

const char pStr[] = "Goodbye";

printf("pStr     = %p\n", pStr);
printf("&pStr    = %p\n", &pStr);
printf("&pStr[0] = %p\n", &pStr[0]);
printf("pStr     = %s\n", pStr);
printf("*&pStr   = %s\n", *&pStr);
printf("&pStr[0] = %s\n", &pStr[0]);

return 0;

After executing this, I get the following output on my machine:

pStr     = 0x22aac0
&pStr    = 0x22aac0
&pStr[0] = 0x22aac0
pStr     = Goodbye
*&pStr   = Goodbye
&pStr[0] = Goodbye

As you can see, pStr, &pStr, and &pStr[0] all result in the same address. This shows you that, though many times an array can be thought of as a pointer to memory, it is fundamentally different.

You can think of pStr, &pStr, and &pStr[0] as all being aliases for the same thing, the address of the first character of the string "Goodbye", 'G' in this example.

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Why then both address are coming the same? –  Sumeet Jan 19 '14 at 18:17
This is a nice answer, but not to the question that was asked. Here pStr is a pointer and not an array. Arrays are not pointers, and work differently. With your code, you will get different behavior than in the OP's code. –  Thomas Padron-McCarthy Jan 19 '14 at 18:19
Agreed with @ThomasPadron-McCarthy. The behavior of your code is different from that of OP. –  haccks Jan 19 '14 at 18:22
@Fidding Bits thank you very much –  MortezaLSC Jan 19 '14 at 18:43
Casting is always explicitly and should not be mixed up with "conversion" which could happen "implicitly". It shall be printf("pSt = %p\n", (void *) pStr); –  alk Jan 19 '14 at 18:55

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