42

I'm using an API that accepts void* in certain functions. I frequently accidentally pass the wrong pointer type to the function, and of course it compiles fine, but doesn't work at runtime.

Is there a way to disable implicit conversion to void* for pointers to a certain class?

12
  • 30
    "Is there any way to disable implicit cast to void* for pointers to a certain class?" - No, there is not. All pointers are implicitly convertible to void*, that is a core feature of the C++ language. I would probably wrap the API function in question and make the wrapper only accept pointers of the correct type, and then pass them along to the API as needed. Aug 5 at 21:02
  • 5
    @SamR that question is about casting void* to other pointer types. That is the opposite of this question Aug 5 at 21:04
  • 9
    This question is about an implicit conversion. There is no such thing as an implicit cast. A cast is something you write in your source code to tell the compiler to do a conversion. Aug 5 at 21:06
  • 11
    One thing you can do is wrap the API with your own functions that make passing an invalid pointer impossible. Aug 5 at 21:07
  • 3
    As always, example code would remove all misunderstandings. Aug 7 at 10:26
39

Is there any way to disable implicit conversion to void* for pointers to a certain class?

No, you can't prevent the implicit conversion, but you could wrap the API function(s) in proxy functions that checks types at compile time and approve/disapprove them there.

Example:

#include <iostream>
#include <string>
#include <type_traits>

void api(void* p) { // your original API
    std::cout << "void* " << p << '\n';
}

template<class T>
void api_wrapper(T* p) { // your wrapper
    // let constness fail in the original api instead of in the static_assert:
    using type = std::remove_const_t<T>*;

    static_assert(
        // add your approved types here
        std::is_convertible_v<type, std::ostream*> ||
        std::is_convertible_v<type, std::string*>,
        "Not an approved type"
    );
    api(p);
}

int main() {
    std::string foo;
    api_wrapper(&std::cout);
    api_wrapper(&foo);
    //api_wrapper(&std::cin); // compile time error "Not an approved type"
}

If the set of pointer types that you would like to disapprove is very small, then instead of listing all the approved types in the static_assert, just list the disapproved types and adjust the boolean logic:

    static_assert(
        // add your disapproved types here
        not std::is_convertible_v<type, std::ostream*> &&
        not std::is_convertible_v<type, std::string*>,
        "Not an approved type"
    );
8
  • 2
    Caution: a pointer whose conversion to (here) std::string * requires an adjustment will pass your static_assert, but be converted to void * without the adjustment, which will certainly fail down the line.
    – Quentin
    Aug 6 at 7:21
  • @Quentin I don't like the sound of that, but I don't fully understand what you are saying. Would you mind using this example to illustrate it?
    – Ted Lyngmo
    Aug 6 at 7:35
  • I think that says if you can do something with type Y (std::string *) that you cannot do with type X (yourtype), and you can convert X to Y, but the api converts type X to type Z (void *), you do not get the functionality of type Y.
    – Sumurai8
    Aug 6 at 7:44
  • 1
    @TedLyngmo sure, here you go.
    – Quentin
    Aug 6 at 7:49
  • 4
    To be fair the question is somewhat underspecified, in particular I don't see how the API itself could distinguish different types even if it expects them. I suspect each of the API's functions actually expects a single known type.
    – Quentin
    Aug 6 at 8:04
35

You can add a deleted overload for the API function:

// API function
void api(void* p) {
    // ... 
}

// Special case for nullptr
inline void api(std::nullptr_t) {
    api((void*)nullptr);
}

// Everything else is disabled
template <class ...T>
void api(T&&... t) = delete;

int main() {
    int i = 0;
    void* p = &i;
    api(p); // Compiles
    // api(&i); // Doesn't compile
}
4
  • 2
    With this addition, all calls will probably look like api(static_cast<void*>(&i)); instead of api(&i);.and if OP accidentally pass an object of the wrong type to the function, how will this help?
    – Ted Lyngmo
    Aug 6 at 8:19
  • 5
    @TedLyngmo as I understand, OP wants to only pass void* and disable all other types. I don't think OP has a set of approved types. I might be wrong though. Aug 6 at 8:25
  • 3
    I see what you mean, and if you are correct, this answer should be spot on!
    – Ted Lyngmo
    Aug 6 at 9:06
  • 5
    This and @TedLyngmo's answers are both very good. Marking this as correct though because I found it the most enlightening. As it happens there was only really one type I ever wanted to pass to the API and only one another that I was accidentally passing. So I could do a non-template version of this to just block the wrong type from being passed. However, I discovered that the API, although not in my control, will respond to a macro definition to allow me to choose a specific type rather than void* as the parameter to these funcs. So I'm doing that instead. Very interesting answers though!
    – AILien
    Aug 6 at 15:12
21

From the standard, expr.conv.ptr:

A prvalue of type “pointer to cv T”, where T is an object type, can be converted to a prvalue of type “pointer to cv void”. The pointer value (basic.compound) is unchanged by this conversion.

You cannot disallow this conversion.

5

If the argument is meant to be opaque to the client, you might expose it as a handle type that does not implicitly convert, e.g.

#include <cstdint>

using api_handle = std::uintptr_t;

inline api_handle make_api_handle(const char* p)
{
  return (api_handle)(const void*)p;
}

inline api_handle make_api_handle(const int* p)
{
  return (api_handle)(const void*)p;
}

The two-stage conversion is because the language standard technically only says that round-trip conversions between any object pointer and void* are safe, and that round-trip conversions between void* and uintptr_t or intptr_t are safe. Within your library, you can do the conversion the opposite way to retrieve the original pointer.

That somewhat-contrived example lets you convert specific types of pointers to handles explicitly, but pointers do not convert to handles implicitly. (Although, now, integral values will implicitly convert to handles, and give you undefined behavior.) In the real world, the helper functions should be optimized out.

If this kind of approach works for your API, another solution would be to wrap your void* in a minimal struct and pass those around. Modern compilers should be able to pass them around in registers, just like pointers. You might also add a field storing type or other information. Another option might be to keep a vector of valid objects and pass around indices to that, like file handles in Unix.

For constructors, you can use the explicit keyword to disable all implicit conversion on the arguments.

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