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I have the following data structure in C:

typedef struct {
    void* buffer;
} SharedMemory;

I have defined a sharedMemoryBuffer that will contain an array of SharedMemory structs:

sharedMemoryBuffer = createSharedMemory("/xxxyz", NUM_BLOCKS * sizeof(Block));

my problem is now in trying to read from the shared memory a block in a given position. I thought the following should be enough, but the C compiler is complaining:

Block* block = (Block*)sharedMemoryBuffer->buffer[readPosition];

The error is:

Invalid use of void expression.

How should I cast the last line of code such that the compiler doesn't yell at me about that line?


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Based on the lines you've provided, it sounds like void *buffer; should actually be Block *buffer; here. –  asveikau Dec 7 '10 at 3:45
Yes it should. Problem is that I designed this structure so that it could be used in other situations. Is there another way to code in C such that I can use my SharedMemory structure with several types? char*'s, int*'s, etc? Something like generics in C#? –  devoured elysium Dec 7 '10 at 3:51
Not really. This is good enough for most situations. If you had C++ you could use templates but I don't want to be the "If you had C++ you could..." guy. This is good enough for most competent C programmers. –  Chris Lutz Dec 7 '10 at 4:14

5 Answers 5

up vote 4 down vote accepted

sharedMemoryBuffer->buffer is of type void *. That means you do not know what type it points to, so you can't dereference it (with either * or []).

If it's actually the buffer you want to cast, you should look into:

Block* block = ((Block*)(sharedMemoryBuffer->buffer))[readPosition];

or, more likely:

Block* block = &(((Block*)(sharedMemoryBuffer->buffer))[readPosition]);

since you're trying to get a pointer to the desired array element.

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Hmm. I am now getting a "incompatible types when initializing type ‘struct Block *’ using type ‘Block’ error. –  devoured elysium Dec 7 '10 at 3:50
No, the OP's code is equivalent to (Block *)(sharedMemoryBuffer->buffer[readPosition]) because both -> and [] bind tigter than a cast. –  Chris Lutz Dec 7 '10 at 3:50
@devoured, that's because the act of indexing an X pointer gives you an X. If you want a pointer to the element indexed by readPosition, see my update. –  paxdiablo Dec 7 '10 at 3:53

The problem here is operator precedence: the index operator ([]) has higher precedence than the cast, so it tries to take the index of a void * and cast it to a Block * rather than casting the void * to a Block * and then indexing it. Use parenthesis:

Block *block = &((Block *)sharedMemoryBuffer->buffer)[readPosition];

or (the way I prefer with pointer arithmetic):

Block *block = (Block *)sharedMemoryBuffer->buffer + readPosition;

or, if you wanted to copy the Block to a stack variable for some reason:

Block block = ((Block *)sharedMemoryBuffer->buffer)[readPosition];

EDIT: corrected an error. My code produced a Block instead of a Block * as the OP needed.

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I thought about the paranthesis, and tried in all the possibles ways. It seems that it was in all possible ways but the one you have shown :( –  devoured elysium Dec 7 '10 at 3:45
But now that I think of it, I don't get it. Shouldn't I first try to "find" the item in the array and only after do the cast? –  devoured elysium Dec 7 '10 at 3:46
@devoured - No. You can't index a void * pointer. You have to cast it to the item type first. Is this an array of Blocks or an array of pointers to Blocks? –  Chris Lutz Dec 7 '10 at 3:48
sharedMemoryBuffer->buffer IS an array of blocks. –  devoured elysium Dec 7 '10 at 3:52
@devoured - Then you have to cast the buffer from a void * to a Block * and then index it, which is what my example does. –  Chris Lutz Dec 7 '10 at 3:54

Buffer is a void pointer. You can't index into a void pointer.

unsigned char might work better since that's defined as a single byte.

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But then he'll have to manually index by sizeof(Block). Better to cast the buffer to Block *, then index it. Also, it's always better to use void * where untyped data is called for. unsigned char * for random storage is unintuitive. –  Chris Lutz Dec 7 '10 at 3:44

lets break it down by parenthesizing it as the compiler sees it

Block* block = (Block*)(sharedMemoryBuffer->buffer[readPosition]);

You'll notice there that you are casting to Block* after using subscripts to dereference a void pointer which means you are trying to cast a void to Block*

What you probably want to do is:

Block* block = ((Block*)(sharedMemoryBuffer->buffer))+readPosition;

which will point you at the readPositionth Block in the buffer

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You can not deference a void pointer. You need to cast void pointer to char* then add readposition to it and then cast back to Block*.

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