Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a structure as below

typedef struct Mystruct{
char *name;
int telno;
struct Mystruct *nextp;

Now I malloc the structure

data *addnode;
addnode = malloc (sizeof(data));

Now I would add data to the char *name.

addnode->name = malloc (sizeof(MAX));

Question:Why is it required to malloc again?

I was under the assumption that malloc-ing the addnode will even allocate the memory for addnode->name but it is not so.

share|improve this question
The first malloc just allocate the memory to store pointer of char *name .. –  Adeel Ahmed Dec 10 '12 at 11:35
Supposing your assumption was correct, and malloc allocated space for name to point to, how would it know that MAX is the size you need? It doesn't know, so it cannot possibly do what you want. –  Steve Jessop Dec 10 '12 at 11:38
If you know the length of the name beforehand (or at least a maximum possible length) you could use char name[MAX] insteat of char* name. Then you do not need to malloc again. –  Wutz Dec 10 '12 at 11:38

3 Answers 3

up vote 2 down vote accepted

Allocating memory for Mystruct provides enough memory for a pointer to name. At this point we have no idea how many characters will be in a name so can't possibly allocate the memory for it.

If you want to fully allocate the structure in a single allocation, you could decide on a max size for name and change the structure definition to

#define MAX_NAME (10) /* change this as required */
typedef struct Mystruct{
    char name[MAX_NAME];
    int telno;
    struct Mystruct *nextp;

Or, if you know the name when you allocate the struct, you could hide the need for two allocations from the caller by providing a constructor function

struct Mystruct* Mystruct_create(const char* name)
    Mystruct* ms = malloc(sizeof(*ms));
    ms->name = strdup(name);
    return ms;
share|improve this answer

malloc is not deep and doesn't do recursion. So it won't allocate memory for any of the pointers inside the structure you pass.

If you think about this a bit more, you can see that must be so. You don't pass in any information about the structure you are allocating. You just pass a size for the memory block. Now, malloc doesn't even know what type of data you are allocating. It doesn't know that the block itself contains a pointer.

As for why this design choice was made, how can the library tell who owns the memory that your pointer refers to? Perhaps it's owned by that structure. Or perhaps you want to use that pointer to refer to some memory allocated elsewhere. Only you can know that which is why the responsibility falls to you. In fact your structure is a fine example of this. Probably the name member is owned by the structure, and the nextp member is not.

share|improve this answer
Thanks for a great explanation :) –  Shash Dec 10 '12 at 11:50

No. first malloc() allocates memory to whole structure including memory for holding pointer to name. i.e 4 bytes in 32 bit OS.

You need to allocate memory separately for holding data in it. by default that pointer will be pointing to some garbage location, if not initialized.

same case for free() too. i.e you have to free the inner blocks first, then free the memory for whole structure. There is no recursion kind of things in malloc() and free().

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.