# char array to a string inside a struct

I have an array of 4 characters say

``````char char_array[10];

char_arr[0] = 'a';
char_arr[1] = 'b';
char_arr[2] = 'c';
char_arr[3] = 'd';
char_arr[4] = '\0';
``````

and i have a structure

``````typedef struct{
int my_int;
char *my_string;
} my_struct_t;

my_struct_t my_struct;

my_struct.my_string = malloc(10);
``````

I want to assign the char array to the string my_struct.my_string How to i do this? I tried the following

method:1

``````my_struct.my_string = malloc(10)
my_struct.my_string[0] = char_arr[2];
my_struct.my_string[1] = char_arr[2];
my_struct.my_string[2] = '\0';
``````

method:2

``````strcpy(my_struct.my_string, char_arr);
``````

both fails i.e the destination is empty (compilation succeeds). Some pls tell me why the above fails and how can i do this?

I have both the struct and the char array in stack since i donot want these once i exit my function. I have allocated memory to my_struct.my_string before assigning it.

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How do you allocate `char_arr`? –  Vlad Mar 23 '12 at 19:29
@Vijay What exactly do you mean by fails ? Post the exact compiler error message. –  Mahesh Mar 23 '12 at 19:37
could you please look in the debugger, what is the value of `my_struct.my_string[0]` after `my_struct.my_string = malloc(10); my_struct.my_string[0] = char_arr[2];`? this code seems to be correct. –  Vlad Mar 23 '12 at 20:12

You can do it two ways:

## Assign the pointer to the character array

Once the function exits the char_array[10] which the pointer points to will become invalid. The compiler will produce no error, but eventually the program will likely crash because you will overwrite data for another function, or read the wrong data because another function overwrote it with something else. You should google about how the stack works on your computer architecture.

``````    char                  char_array[10];
my_struct_t           var;

var.my_string = &array[0];

var.my_string[3] = 'a';

if (var.my_string[0] == char_array[0])
printf("See, changes using the pointer effect char_array.\n");
else
printf("This will never happen.\n");
``````

## Allocate memory and copy the character array

I used for loops to help make it easier to understand exactly how it works. Once the current function exits the pointer will still point to valid memory if you happen to keep it around somehow.

``````    char                  char_array[10];
my_struct_t           var;
int                   l;

char_array[0] = 'a';
char_array[1] = 0;

// l = strlen(&char_array[0])
for (l = 0; char_array[l] != 0; ++l);

var.my_string = (char*)malloc(sizeof(char) * l);

// strcpy(var.my_string, &char_array[0]);
for (l = 0; char_array[l] != 0; ++l)
var.my_string[l] = char_array[l];

var.my_string[0] = 'a';

if (var.my_string[0] != char_array[0])
printf("See, changes using the pointer DO NOT effect char_array.\n");
else
printf("This will never happen.\n");
``````
-

If `char_arr` is of `char[N]` type, then `malloc` array of `sizeof(char_arr)/sizeof(char_arr[0])` to `my_struct.my_string`. And then copy value at each index using `strcpy`. Finally `free` when done.

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Ok, Im sorry i didnt post exactly what i wanted earlier i thought a simpler view would help. What i what is to copy a part of the array into a char*. so here i could calculate the space exactly as u mentioned but i hard coded it to a value 10 and did the rest. But still the destination contained nothing when i print it. –  maver1k Mar 23 '12 at 19:54
I am not sure what exactly you are doing. It works fine for me. ideone.com/fYF6K –  Mahesh Mar 23 '12 at 20:11

I assume, you allocate your `char_arr` on stack, therefore the 1st approach fails. The 2nd approach fails if you don't allocate the memory for the destination. Some of the correct ways are:

1. allocate `char_arr` on heap and use `my_struct.my_string = char_arr`, or
2. allocate `my_string` on heap and use `strcpy(my_struct.my_string, char_arr)`
3. use `strdup`, if your compiler supports it.

Longer explanation:
You should understand the basics of C memory management. In C, string is just a pointer to a memory chunk. Copying that pointer won't prevent the stack-allocated string to disappear. So, you have to allocate the memory anyway in heap. In order to do this, you either allocate `char_arr` there (which makes the 1st method valid), or you let the `char_arr` live on stack, but then you cannot keep the reference to its data (it's going to be destroyed after your current function exits), you need to copy the data to a heap-allocated string. This can be done either manually (with `malloc`), or using `strdup`.

-

You need to allocate memory for my_string before storing char_arr into it.

If you have allocated memory, it should work. This is same as your code (without typedef) and it works fine:

struct my{ int my_int; char *my_string; }p;

``````int main()
{
char char_arr[5];
strcpy(char_arr, "abcd");
p.my_string = (char*) malloc(5);
strcpy(p.my_string, char_arr);
print_string(); //
return 0;
}

print_string()
{
printf("%s",p.my_string);
}
``````
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I have allocated memory to it. I forgot to put that first, edited it now –  maver1k Mar 23 '12 at 19:59
edited my post now. –  Blue Moon Mar 23 '12 at 20:12