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Suppose I have a block of memory as such:

void *block = malloc(sizeof(void *) + size);

How do I set a pointer to the beginning of the block while still being able to access the rest of the reserved space? For this reason, I do not want to simply assign 'block' to another pointer or NULL.

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A pointer will only be 2 bytes on an ancient 16 bit system (e.g. an old DOS PC). I guess you mean that you want to store a pointer at the start of the block ? –  Paul R Apr 27 '10 at 18:50

6 Answers 6

How do I set the first two bytes of the block as NULL or have it point somewhere?

This doesn't make any sense unless you're running on a 16-bit machine.

Based on the way that you're calling malloc(), you're planning to have the first N bytes be a pointer to something else (where N may be 2, 4, or 8 depending on whether you're running on a 16-, 32-, or 64-bit architecture). Is this what you really want to do?

If it is, then you can create use a pointer-to-a-pointer approach (recognizing that you can't actually use a void* to change anything, but I don't want to confuse matters by introducing a real type):

void** ptr = block;

However, it would be far more elegant to define your block with a struct (this may contain syntax errors; I haven't run it through a compiler):

typedef struct {
    void* ptr; /* replace void* with whatever your pointer type really is */
    char[1] data; } MY_STRUCT;

MY_STRUCT* block = malloc(sizeof(MY_STRUCT) + additional);
block->ptr = /* something */
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why do you care how many bytes the pointer points to? That makes no sense at all. –  KillianDS Apr 27 '10 at 18:55
@KillianDS - the OP showed a malloc that was based on the size of a pointer. As I and other people have responded, 2 bytes is not large enough for a pointer on a modern machine. –  Anon Apr 27 '10 at 18:57
Sorry, I got confused :). –  KillianDS Apr 27 '10 at 18:59
memset(block, 0, 2);

memset can be found in string.h

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Putting the first two bytes of the allocated memory block to 0 is easy. There is many ways to do it, for example:

((char*)block)[0] = 0;
((char*)block)[1] = 0;

Now, the way the question is asked show some misunderstanding.

You can put anything in the first two bytes of your allocated block, it doesn't change anything for accessing the following bytes. The only difference is that C string manipulation operator use as a convention that strings end with a 0 byte. Then if you do things like strcpy((char*)block, target) it will stop copying immediately if the first byte is a zero. But you can still do strcpy((char*)block+2, target).

Now if you want to store a pointer a the beginning of the block (and usually it's not 2 bytes). You can do the same thing as above but using void* instead of char.

((void**)block)[0] = your_pointer;

You access the rest of the block as you like, just get it's address and go on. You could do it for example with.

void * pointer_to_rest = &((void**)block)[1];

PS: I do not recommand such pointer games. They are very error prone. Your best move would probably be to follow the struct method proposed by @Anon.

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void *block = malloc(sizeof(void *) + size); // allocate block
void *ptr = NULL; // some pointer
memcpy(block, &ptr, sizeof(void *)); // copy pointer to start of block
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I have a guess at what you're trying to ask, but your wording is so confusing that I could be totally wrong. I am assuming that you want a pointer that points to the "first 2 bytes" of the block you allocated, and then another pointer that points to the rest of the block.

Pointers carry no information about the size of the memory block that they point to, so you can do this:

void *block = malloc(sizeof(void *) + size);
void *first_two_bytes = block;
void *rest_of_block = ((char*)block)+2;

Now, first_two_bytes points to the beginning of the block that you allocated, and you should just treat it as if it pointed to a memory area 2 bytes long.

And rest_of_block points to the portion of the block starting 3 bytes in, and you should treat it as if it pointed to a memory area 2 bytes smaller than what you allocated.

Note, however, that this is still only a single allocation, and you should only free the block pointer. If you free all three pointers, you will corrupt the heap, since you will be calling free more than once on the same block.

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While implementing a map interface using a hash table I faced a similar issue, where each key-value pair (both of which are not statically sized, omitting the option of defining a compile-time struct) had to be stored in block of heap memory that also included a pointer to the next element in a linked list (should the blocks be chained in the event that more than one is hashed to the same index in the hash table array). Leaving space for the pointer at the beginning of the block, I found that the solution mentioned by kriss:

((void**)block)[0] = your_pointer;

where you cast the pointer to the block as an array, and then use the bracket syntax to handle pointer arithmetic and dereferencing, was the cleanest solution for copying a new value into this pointer "field" of the block.

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