Trying to understand pointer.

Below, I just want to prove to myself the below

address of str ( &str) = address of where str2 is pointed to(str2) actual memory of address for str2 is something different(&str2)

However, when I compile below I get seg fault saying "morePointers.c:6:56: warning: format specifies type 'int' but the argument has type 'char *' [-Wformat]"

How can I correct this while proving this in the code?

int main(int argc, char** argv) {
    char str = "goodbye";
    char *str2 = str;

    printf("%d %d %s %d %d\n", &str2, str2, str2, str, &str);
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    Use %p to print pointers. And if you really want some proof consider using frama-c.com – Basile Starynkevitch Feb 27 at 14:03
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    Is this you actual code? Don't you have #includes? Yes, they matter. – Jabberwocky Feb 27 at 14:06
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    char str = "goodbye" Is this a typo? must be char *str or char str[] – Ingo Leonhardt Feb 27 at 14:07
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    Save time. "when I compile" certainly lacked enabling all warnings. Turn them all on, faster feedback the stack overflow. – chux - Reinstate Monica Feb 27 at 14:25

In this declaration

char str = "goodbye";

you are trying to initialize an object of the type char with a string literal that in the initialization expression has the type char *.

You have to write

char *str = "goodbye"; 

Instead of this declaration

char *str2 = str;

it seems you mean

char **str2 = &str;

that is you are creating a pointer that points to the pointer str.

Thus dereferencing the pointer str2 you will get the value stored in the pointer str that is the address of the first character of the string literal "goodbye".

Here is a demonstrative program

#include <stdio.h>

int main(void) 
    char *str = "goodbye";
    char **str2 = &str;

    printf( "str = %p is the same as *str2 = %p\n", ( void * )str, ( void * )*str2 );
    printf( "str2 = %p contains the address of str (&str) = %p\n", ( void *)str2, ( void *)&str );

    printf( "The string literal pointed to by str = %s\n"
            "is the same as pointed to by *str2 = %s\n",
            str, *str2 );

    return 0;

The program output might look like

str = 0x561655562008 is the same as *str2 = 0x561655562008
str2 = 0x7ffdb7fc57a8 contains the address of str (&str) = 0x7ffdb7fc57a8
The string literal pointed to by str = goodbye
is the same as pointed to by *str2 = goodbye

Pay attention to that using the conversion specifier %d with pointers results in undefined behavior.

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  • I am going over this.. btw, what is %p ? where can I look up documentation on this? – user3502374 Feb 27 at 17:32
  • @user3502374 It is a conversion specifier designated to output pointers. – Vlad from Moscow Feb 27 at 17:33

This would be the correct code:

#include <stdio.h>

int main(int argc, char** argv) {
  char *str = "goodbye";  // a '*' was missing in your code
  char* str2 = str;

  // you need to use %p for pointer values
  // and for each argument for a %p you need to cast to (void*)

  printf("%p %p %s %p %p\n", (void*)&str2, (void*)str2, str2, (void*)str, (void*)&str);

Typical possible output for this code on a 32 bit system

00FFF710 00996B30 goodbye 00996B30 00FFF71C

Typical possible output for this code on a 64 bit system

0x7ffc8f58ada0 0x555ba93f6004 goodbye 0x555ba93f6004 0x7ffc8f58ad98
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  • "for each argument for a %p you need to cast to (void*)" - Why? printf("%p %p %s %p %p\n", &str2, str2, str2, str, &str); works too with -Wall and -Werror flag enabled. – RobertS supports Monica Cellio Feb 27 at 15:15
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    @RobertSsupportsMonicaCellio Because %p expects a void * argument and anything else is undefined behavior (C11 7.1.4): "If an argument to a function has [...] a type (after promotion) not expected by a function with variable number of arguments, the behavior is undefined." and (C11 The fprintf function): "p The argument shall be a pointer to void. The value of the pointer is converted to a sequence of printing characters, in an implementation-defined manner." – S.S. Anne Feb 27 at 15:19
  • @RobertSsupportsMonicaCellio usually it works without the (void*) cast, but the standard says it needs to be void*, see this: stackoverflow.com/a/24867850/898348. But to be honest I don't really understand why passing a pointer without the cast could cause UB. – Jabberwocky Feb 27 at 15:23
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    @S.S.Anne that's OK – Jabberwocky Feb 27 at 15:27
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    @RobertSsupportsMonicaCellio Yeah. I hope the C committee changes that in C20. – S.S. Anne Feb 27 at 15:32

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