I have the following code that totally works 100% fine, no errors, compile or runtime. But it's damn ugly because I have to cast and use an extraneous variable when I'm sure there's a way to do without either.

structMSGB ***init_bstack(int Blk_Size,int Blks_N)
  structMSGB **Mp=calloc(Blk_Size,Blks_N);
  void *M=(void*)Mp+sizeof(structMSGB*)+sizeof(structMSGB*)*Blks_N;

  structMSGB ***startStack=(structMSGB***)Mp++;

  for(int i=0;i<Blks_N;i++)

  *startStack=(structMSGB **)Mp;
  return startStack;

Specifically, it's the startStack variable that is pissing me off. I feel there should be a way of doing without it altogether. The return value is the address of a ptr to a ptr to a struct, i.e. It needs to return a ptr to a ptr to a ptr to a struct.

The result returned is the starting address of a memory block that is Blk_Size bytes in size and is composed of the following in order:

**ptr variable

table of ptrs of Blk_N length

sequential blocks of size Blk_Size - sizeof(ptr) except for the first block which is sizeof(ptr) smaller.

It's done this way to ensure that the entire memory allocation is used, no more and no less.

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    This is wrong void *M=(void*)Mp+sizeof(structMSGB*)+sizeof(structMSGB*)*Blks_N; you can't increment a void * pointer, you mean void *M=(void *) ((char *) Mp + sizeof(structMSGB*) + sizeof(structMSGB *) * Blks_N);? – Iharob Al Asimi May 2 '15 at 16:33
  • Yeah you right I should have used char instead of void but in any case it works fine as is. It's the startStack variable with the associated casting that is really bugging me. – poby May 2 '15 at 16:36
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    Enable compiler warnings, they should help you fix things like this. And why are you using a *** pointer, they are very rare to be useful. – Iharob Al Asimi May 2 '15 at 16:37
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    This ALL looks wrong. If it produces the expected behavior then that's probably because code that depends on it is also wrong, but in a way that compensates. – John Bollinger May 2 '15 at 16:41
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    This is certainly wrong: structMSGB ***startStack=(structMSGB***)Mp++;. – John Bollinger May 2 '15 at 16:44

Your code invokes undefined behavior when it performs arithmetic on an expression of type void *. Some compilers will treat that as if void * were char *, and if your code in fact works then that's what's happening, but it's still wrong. And probably unnecessary, to boot.

Allow me to introduce you to pointer arithmetic. Given a pointer p of type some_type * and an integer value x, the expression p + x is equivalent to (some_type *) (((char *) p) + (x * sizeof(some_type)). By no coincidence whatever, that's also equivalent to &p[x]. That is, pointer arithmetic is defined in terms of the size of the pointed-to object.

The code you present performs a lot of casting and arithmetic with explicit object sizes that could be eliminated by relying on ordinary pointer arithmetic. For example, this ...

void *M = (void*) Mp + sizeof(structMSGB*) + sizeof(structMSGB*) * Blks_N;

... would be better written

structMSGB **M = Mp + 1 + Blks_N;

Similar applies elsewhere in your code.

More generally, good code rarely requires sizeof other than for memory allocation, and requires very few casts. Any time you find yourself writing a cast, you should ask yourself why, and be sure you have a good answer.


As for getting rid of variable startStack, it looks like you could do so at the cost of some additional arithmetic. You initialize it to the original value of variable Mp. You then increment Mp at total of Blks_N + 1 times. At the only points where you use startStack, then, its value is equal to Mp - (Blks_N + 1). You could use that expression instead of a variable. I certainly would not make such a change, though.

  • There's actually only 2 casts and I agree casts are horrible and I would love to get rid of them. Both involve the startStack variable which I am hoping to do without. I'm using sizeof mainly as sizeof(blahblah*) as a reminder as to how the code works. It reminds me of the structure of memory area I am trying to achieve. Like I said it works fine but I will take your suggestions on board as I am currently trying to simplify it. – poby May 2 '15 at 17:07
  • You have casts largely because you are lying to the compiler about data types. Given that you are storing a heterogeneous data structure in the memory you are allocating, the only possibilities for a consistent return type would be a pointer to an appropriate struct type, or a void *. – John Bollinger May 2 '15 at 17:12
  • @poby, answer updated with a way to get rid of variable startStack, as you asked. My advice to you is to not go that route, though. – John Bollinger May 2 '15 at 17:20
  • You have given me some ideas and reminded me of stuff I needed reminding of. Will recode and see if I can do it better. – poby May 2 '15 at 17:26

This is the greatly improved version that solves my problem (with help from @John Bollinger):

void *init_bstack(int Blk_Size,int Blks_N)
  structMSGB **Mp=calloc(Blk_Size,Blks_N);
  for(int i=1;i<Blks_N;i++)
  return Mp;

I use the return value thusly:

structMSGB ***MBp=init_bstack(4096,10);

I can then use *MBp to allocate chunks of memory using:

structMSGB *xb=*(--*Mp); 

And when I'm done I can return the chunk with:


MBp also contains a value I can later use to free the memory - free(MBp)

I think MBp needs to be a *** type as it contains the address of the calloc'd block, the first 8 bytes of which contains a ptr into a table of ptrs. This address is passed to allocate and free functions, so that the ptr at this address can be incremented or decremented accordingly, and also provide the chunk of memory requested.

The question now becomes, can the code be improved further? I'm casting with a void * when I really don't like to cast but in this case, I don't see any alternative. e.g. If I replace *Mp=(void*)(Mp+Blks_N+1); with *Mp=(Mp+Blks_N+1);, it works but gcc throws up a " assignment from incompatible pointer type" warning. Is there a better alternative to using (void*)?

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