Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

Why can't I pass a void* by reference? The compiler allows me to declare a function with the following signature:

static inline void FreeAndNull(void*& item)

But when I try to call it, I get the following error:

Error   1   error C2664: 'FreeAndNull' : cannot convert parameter 1 from 'uint8_t *' to 'void *&'

Casting it to void* doesn't work either

Also, are there any workarounds?

share|improve this question
The existence of this function in your code means your code could be improved. You shouldn't be deleting things manually, and you shouldn't care what the value of the pointer is afterward. Use a smart pointer instead. – GManNickG Feb 16 '11 at 0:31
@GMan: Good advice, but the situation was simplified for the purposes of this question – Casebash Feb 16 '11 at 0:39
up vote 6 down vote accepted

If you take a void * by reference, you have to pass an actual void *, not an uint8_t *.

Try this instead:

template<typename T> inline void FreeAndNull(T * & V) { free(V); V = 0; }

EDIT: Modified sample to better reflect the OP's function name, and to address @6502's entirely correct comment.

share|improve this answer
+1, cool! But now I'm curious: Why doesn't the cast work in the OP's example? – Cameron Feb 16 '11 at 0:21
This seems to me a risky implementation. I suppose that the OP didn't allocate a single uint8_t element, so using delete instead of delete[] is undefined behavior. – 6502 Feb 16 '11 at 0:25
@Cameron- See my answer below for why the cast doesn't work. The technical version is that it produces an rvalue where an lvalue is needed, but the intuitive reason is that it's unsafe. – templatetypedef Feb 16 '11 at 0:27
@template - that's right, but your answer doesn't even mention lvalue/rvalue. – Crazy Eddie Feb 16 '11 at 0:43

The answer is yes, you can pass a void* by reference, and the error you're getting is unrelated to that. The problem is that if you have a function that takes void* by reference, then you can only pass in variables that actually are void*s as a parameter. There's a good reason for this. For example, suppose you have this function:

void MyFunction(void*& ptr) {
    ptr = malloc(137); // Get a block of raw memory

int* myIntArray;
MyFunction(myIntArray); // Error- this isn't legal!

The above code is illegal because of the indicated call, and for good reason. If we could pass in myIntArray into MyFunction, it would get reassigned to point to a buffer of type void* that isn't an int array. Consequently, on return from the function your int* would be pointing at an array of type void*, subverting the type system. This isn't to say that C++ has a strong type system - it doesn't - but if you're going to subvert it you have to explicitly put some casts in.

You similarly can't do this:

void MyFunction(void*& ptr) {
    ptr = malloc(137); // Get a block of raw memory

int* myIntArray;
MyFunction((void*)myIntArray); // Error- this isn't legal!

As a good reference as to why you can't do this, think about this code:

void OtherFunction(int& myInt) {
    myInt = 137;

double myDouble;
OtherFunction((int)myDouble); // Also error!

This isn't legal because if you tried passing in a double into a function that took an int&, then since int and double have fundamentally different binary representations, you'd end up clobbering the bits of the double with meaningless data. If this cast were to be legal, it would be possible to do Bad Things like this.

So in short, yes, you can take in a void* &, but if you do you have to pass in real void*s. As Erik pointed out above, if you want to free and zero a pointer templates are the way to go.

If you really do want to pass in a uint_8* into this your function, you could do so like this:

uint_8* uPtr = /* ... */
void* ptr = uPtr;
uPtr = (uint_8*) ptr;

This requires explicit casting to tell the compiler "Yes, I know this may be unsafe, but I'm going to do it anyway."

Hope this helps!

share|improve this answer
+1, this makes perfect sense now. lvalues rule and rvalues drool! – Cameron Feb 16 '11 at 0:35
This is cool and all, but isn't why. – Crazy Eddie Feb 16 '11 at 0:37
@Cameron, templatetypedef: btw, casting it with (void*&) would've "worked" (as in it would have compiled, i'm not sure if using it afterwards is UB) – etarion Feb 16 '11 at 0:46
@Crazy Eddie- (I assume you downvoted this; ignore this if you didn't) Can you explain what's wrong with this answer? I want this to be useful, so anything I can do to clarify would be most appreciated. – templatetypedef Feb 16 '11 at 1:06
See my answer and my comment to your comment. – Crazy Eddie Feb 16 '11 at 3:31

Casting to void* doesn't work for a reason much simpler than what is being explained elsewhere: casting creates rvalues unless you explicitly specify a reference. You can't pass an rvalue off as a non-const reference.

Prove it? Try this:

void fun(void * &) {}
int main() { int * x; void * x2 = x; fun(x); }

If it's appropriate for you use, try this:

void fun(void * const&);

Now not only does casting work, its implicit.

Casting to reference can be dangerous. It does actually cause your code to compile but I won't speak to its behavior:

void fun(void *&){}
int main() { int * x; fun((void*&)x); }

My bet is that this will do very-bad-things(tm) since you're actually doing a reinterpret_cast here rather than a static cast.

share|improve this answer
"casting creates rvalues" is not neccessarily right. (void*&)x produces an lvalue. – etarion Feb 16 '11 at 0:48
It would appear passing as a const-ref is definitely not what the OP wants. – Fred Nurk Feb 16 '11 at 0:49
@etarion - good point. – Crazy Eddie Feb 16 '11 at 0:55
@Fred - since appearances can be deceiving, I don't see your point. – Crazy Eddie Feb 16 '11 at 1:03

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.