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To keep this simple, I have a struct along the lines of

typedef struct foo 
 void *data;
 size_t sz;
 /* various other crap */
} foo_t;

but I'm finding about 90% of the time it really just needs to store a byte or at most a short (but, sometimes, it needs to be a big section of memory). Am I asking for a headache to wrap gets and sets with functions that do some sort of size checking and just store and read the small data directly in data rather than using it as a pointer? The logic seems pretty simple, e.g.

if (f->sz <= sizeof(void*) && f->sz == sizeof(char)) 
 return (char) f->data; 

The advisability of this from a maintenance perspective aside (on the one hand, it makes freeing 90% of the structs much easier and doesn't allocate tons of single chars God knows where on the heap; on the other hand, it means every read and write now has multiple code paths it might take, meaning I'll hate this at some point in the future), is there any particular reason I can't just store a char (or anything else not larger than sizeof(void*)) in a pointer and read it back later? Am I going to hit endian problems or whatever on weird platforms? I remember way back a CS prof saying "it's wrong to say 'pointers are integers'; integers are one way of implementing pointers" but I don't know if he was just making a conceptual point, or if there are real problems with storing non-address data in a spot the compiler has been told is a pointer.

(I mean, obviously if I then mistakenly use one of those as a pointer, that's going to cause pain, but I'm too smart to ever do that... right?...)

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union { void *ptr; char byte; short sh; } data; –  user529758 Dec 6 '13 at 19:19
Fair enough. But then at write-time I don't know how big a pointer is going to be at compile-time (but this solves 90% of my 90% of the issue... I'll give it a try). –  Bandrami Dec 6 '13 at 19:23
@userXXX huh... what? –  user529758 Dec 6 '13 at 19:25
@user3075658, why wouldn't you know? That would still be just sizeof(data) –  Jens Gustedt Dec 6 '13 at 19:26
The answer is "you will have to decide for yourself". I can address one point though: "Am I going to hit endian problems" No, you're not. It doesn't matter how the pointers are stored, as long as you do the proper casting when storing and retrieving, it doesn't matter what it looks like. –  Mr Lister Dec 6 '13 at 19:26

3 Answers 3

If you want to be able to access it transparently as a data pointer use

union overlay {
  void* point;
  unsigned char array[sizeof(void*)];

and have some code like

void* get_data_pointer(struct foo* f) {
  return (f->sz > sizeof(void*)) ? f->data.point : f->data.array;

Edit: There is no deal with data layout for your small types with such an approach. Your other code sees a void* in any case and stores data to the corresponding object as it pleases (and retrieves it the same way afterwards). As nos pointed out, the only possible issue could be with alignment requirements for the data that you want to store. Generally data types that are smaller than void* would have less restrictive alignment requirements than void*. I don't know of any platform where that could be a problem.

BTW, type names with ending _t are reserved by POSIX, you shouldn't define them in your code. There would be nothing wrong by using the same name for the type identifier as for the struct tag.

typedef struct foo foo;
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I like that, though it changes the struct. I'll give that a try too; though it means I have to handle my own endian-ness there. Thanks. –  Bandrami Dec 6 '13 at 19:35
@user3075658 Why is endianess any issue here ? Are you going to store this struct externally somehow ? –  nos Dec 6 '13 at 19:48
@nos I learned C in the 80s (and haven't thought about it much since) when endianness was a headache everybody had, and old habits die hard. I'd like my program to not depend on the platform it's being executed on; I could imagine a platform where pointers were stored with an endianness different from an int of the equivalent size, but apparently with casts the compiler takes care of that for me... –  Bandrami Dec 6 '13 at 19:52
@user3075658 There's anyway no issue with that here. You store whatever you need in the unsigned char array and retreive it from that array, or you store a pointer in the void*. If there would be any issue here, it's if the alignment requirement of whatever you store in the array is greater than that of a void*. Assuming you'd want to store a char, short, int or float there, I havn't seen such a platform though. –  nos Dec 6 '13 at 19:54
The structs are on the heap anyways; if I'm going to add a 4-char array to all of them I might as well just malloc() the single byte and point data to it (since it will end up hogging a whole word of memory most of the time). I'd rather have fewer malloc() and free() calls if possible... –  Bandrami Dec 6 '13 at 19:59

What you should use is a union, for example:

union foo {
  void *data;
  size_t sz;
  /* various other crap */

Here is a nice tutorial on using unions in C.

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You should probably explain what a union is. –  Phonon Dec 6 '13 at 19:22
size_t is not the right type for this, but uintptr_t is. –  Jens Gustedt Dec 6 '13 at 19:24
I know what a union is, Phonon; I also know that before compile-time I don't know how big a pointer is on any hypothetical platform this is being compiled on, so this may only solve part of my problem. –  Bandrami Dec 6 '13 at 19:25
@JensGustedt It doesn't matter if it's inside a union. –  user529758 Dec 6 '13 at 19:25
@H2CO3, sure it matters, size_t could be too big, and blow up the structure. But I admit that this is unlikely. –  Jens Gustedt Dec 6 '13 at 19:28

size_t is unsigned int. Declare implicitly and the size of pointer void also is equal to the size of int on specific compiler. There is a concept called packing and in gcc by default it is 4. e.g struct s { char c; int a; } so the size of s is 8 bytes not 5 bytes because the three bytes will not use this concept is related to operating system concept. if (f->sz <= sizeof(void*) && f->sz == sizeof(char)) { return (char) f->data; } here what you try to do. f->sz will return the value what ever you stored in sz variable and sizeof(void*) will return 4. Now return (char) f->data this will return the address and how cast an address to char it is always an integer. Here you are only returning the least significant byte. Suppose f->data=0xaabbccdd; So the data stored at last least significant byte is 0xdd and hence by typecasting with char you are return only this value. If you have confusion then print printf("%p",f->data) and after returning its where will you receive this value again print that value. Here %p will print the value in hex format. May be here I confuse just check to net how to print in hex format. I think this may be helpful for you thanks asif aftab

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If you have any problem related with little and big endian then please ask I will give you answer. –  asifaftab87 Dec 6 '13 at 19:44

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