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another linked question is segmentation fault while doing strcpy()

I have a structure:

struct thread_data{    
    char *incall[10];
    int syscall arg_no;    
    int client_socket;

How do I initialize a pointer to a structure of type above as well as initialize the pointer to the 10 strings (incall[]) inside the structure.

Do I first initialize the strings and then the structure.


An edit: I guess I used the wrong word and should have said allocate. Actually I am passing this structure as an argument to threads. No. of threads is not fixed and the data structure sent as argument must be unique for each thread and "thread safe" i.e cannot be changed by other threads.

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Those are ten pointers to strings, not a pointer to 10 strings. It looks like you're getting a bit ahead of yourself… – Potatoswatter Jun 9 '11 at 17:38
Initialize or allocate? – John Bode Jun 9 '11 at 18:23
up vote 1 down vote accepted

Here's the answer to the question I think you're asking:

 * Allocate the struct.
struct thread_data *td = malloc(sizeof *td);

 * Compute the number of elements in td->incall (assuming you don't
 * want to just hardcode 10 in the following loop)
size_t elements = sizeof td->incall / sizeof td->incall[0];

 * Allocate each member of the incall array
for (i = 0; i < elements; i++)
  td->incall[i] = malloc(HOWEVER_BIG_THIS_NEEDS_TO_BE);

Now you can assign strings to td->incall like so:

strcpy(td->incall[0], "First string");
strcpy(td->incall[1], "Second string");

Ideally, you want to check the result of each malloc to make sure it was successful before moving on to the next thing.

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Have given an edit. I probably used the word "initialize" in an incorrect manner . It should have been "allocate" as you said – Lipika Deka Jun 10 '11 at 5:41

The corresponding struct initialiser can look like this:

struct thread_data a = {
  .incall = {"a", "b", "c", "d", "e"},
  .arg_no = 5,
  .client_socket = 3

Then you can assign the address of this to a pointer:

struct thread_data *b = &a;
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If this is done inside of a function the *b would end pointing somewhere on the stack once the function returns? – Alan Mar 26 '15 at 12:50
Yes, but it is always the responsibility of the programmer to ensure that no pointers remain pointing to memory from the stack frame once the function exits. – Blagovest Buyukliev Mar 26 '15 at 12:55

It depends if you need your variable to be temporary or not:

struct thread_data data; // allocated on the stack
// initialize your data.* field by field.

struct thread_data* data = malloc(sizeof (struct thread_data)); // allocated on the heap
// initialize your data->* field by field.

In both cases, you have to allocate your structure first to be able to access its fields.

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You can write something just like this:

#define ARRAY_DIMENSION(a) (sizeof(a)/sizeof((a)[0]))

void init_func(void)
    struct thread_data arg_to_thread;
    int i;
    char buffer[100];

    buffer[0] = '\0';

    for ( i = 0; i < ARRAY_DIMENSION(arg_to_thread.incall); i ++ )
         /* Do something to properly fill in 'buffer' */

         arg_to_thread.incall[i] = strdup(buffer);
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i think malloc(sizeof(struct thread_data)); should work, does it not?

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This is a case where you might prefer calloc to get the zero intializing behavior because it sets the pointers safely to NULL. It helps even more if you can make the zero-valued syscall number and sokcket something safe as well. – dmckee Jun 9 '11 at 17:42
This is really a comment, not an answer to the question. Please use "add comment" to leave feedback for the author. – Kartik Aug 9 '12 at 12:12

Here is another possibility. It is unclear to me what you want the values initialized to, so this just grabs a number out of the air, which is almost certainly wrong.

struct thread_data *td;
int i;
// allocate memory for the structure
td = malloc( sizeof( struct thread_data ));
// then allocate/initialize the char* pointers.  It isn't clear
// what you want in them ... pointers to existing data?  Pre-allocated
// buffer?  This just allocates a fixed size buffer,
for ( i = 0; i < sizeof( td->incall ) / sizeof( td->incall[0] ); i++ )
   td->incall[i] = malloc( 42 );
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