1

in this program i am accessing a global char array through a function pointer,changing string values with address by address in char pointer makes difference in global char array , but when changing the string as whole string it does't make any difference in the global array

#include <stdio.h>
#include <string.h>

void function(char *string);

char str[20] = "Hello"; // global char array

int main()
{
    function(str);
    return 0;
}

void function(char *string)
{   
    int i;

    printf("%s\n",string);
    printf("%s\n", str);

    for(i = 0;i < strlen(string);i++)
        string[i] = 'a';    

    printf("%s\n",string);
    printf("%s\n", str);

    string = "jhony";

    printf("%s\n",string);
    printf("%s\n",str);        // here is the doubt 
}

output

Hello
Hello
aaaaa
aaaaa
jhony
aaaaa //how this supposed to print aaaaa even after we changed string into jhony 
3
  • 1
    Your question is the classic example one might use to illustrate pointers. Indeed, this is the expected behavior and your expectation is wrong. In order to overwrite the data you must use something like strcpy.
    – Brian Cain
    Aug 16, 2014 at 3:14
  • To avoid such problems, use e.g. std::string to handle strings. Aug 16, 2014 at 3:17
  • @Alf, the c++ was likely included in error here. All signs point to this being exclusively C.
    – Brian Cain
    Aug 16, 2014 at 3:18

4 Answers 4

2
string = "jhony";

does not copy "jhony" to the memory pointed by string. Instead, it assigns address of "jhony" to string.

So after that, string points at "jhony" while str stays unchanged.


As @BrianCain commented, to copy "jhonny" to the memory addressed by string you may use

strcpy(string, "jhonny");
3
  • why is that happening? Aug 16, 2014 at 3:16
  • More generally, raw arrays in C++ only support assignment in the context of being members of structs, where assignment of the struct performs a nested array assignment. It's not very logical. It just is that way. Aug 16, 2014 at 3:16
  • @siva This is just how C/C++ define it. Of course, if you use std::string instead of raw char*, the behavior will be different.
    – AlexD
    Aug 16, 2014 at 3:22
1

string and str are both different pointers pointing to the same thing. Using the array notation is the same as dereferencing so you were actually manipulating the underlying data and because they were pointing to the same thing the change was noted in both places.

When you set the pointer equal to the literal, there wasn't any dereferencing or array notation. This changed what the pointer pointed to but the underlying data was not touched. And so the change was not noted by the other pointer.

Setting a pointer equal to something changes its value in the sense that the value of a pointer is an address. That address is a reference to whatever the pointer points to but now the pointer points to a new address. In your case, the string literal.

1

This is because string is a local variable. When you set string = jhony you aren't changing str. You are simply changing what string is pointing too. After this there are two string constants defined, "aaaaa" and "jhony", the aaaaa string is not overwritten. Str is also still "aaaaa" since it was not overwritten by the assignment of johnny to string.

0
string = "jhony";

this statement has changed the string's value which means the variable string not points to global array any more, it now points to the new const string "johny" which stored in the function's stack

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