Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

From my understanding C assumes all parameters are int's and it returns ints. I'd like to pass around this object but i have no idea how and AFAIK its the same size of int but it breaks. Here is the Reproducible code.

In testc.c. Note: this MUST be in a C file.

int test_c1() {
    return test_c3(test_c2());

In testcpp.cpp

#include <iostream>
using namespace std;
struct MyType{
    int a, b;

template <class T>
struct WrappedPointer {
    T* lhs;
    void LHS(T*v) { lhs=v; }
    T*   LHS() { return lhs; }
    WrappedPointer(T*value) : lhs(value){}
    WrappedPointer(const WrappedPointer&v) : lhs(v.lhs){}
    T* operator->() const { return lhs; }
    T* operator*() const { return lhs; }
typedef WrappedPointer<MyType> ObjPtr;
static_assert(sizeof(ObjPtr) == sizeof(int), "");
static_assert(sizeof(ObjPtr) == sizeof(void*),"");

extern "C" {
    ObjPtr test_c1();
    ObjPtr test_c2() {
        //ObjPtr s=0;
        ObjPtr s;
        cout <<"c2 " << s.LHS() << endl;
        return s; 
    ObjPtr test_c3(ObjPtr v) { 
        cout <<"c3 " << v.LHS() << endl;
        return v; 

int main() {
    auto v = test_c1();
    cout <<"main " << v.LHS() << endl;

gcc compile flags

gcc -Wall -c testc.c
testc.c: In function 'test_c1':
testc.c:2:2: warning: implicit declaration of function 'test_c3' [-Wimplicit-function-declaration]
testc.c:2:2: warning: implicit declaration of function 'test_c2' [-Wimplicit-function-declaration]
g++ -std=c++0x -Wall -c testcpp.cpp
g++ testc.o testcpp.o

It should crash and as you can see the only warning i ever got was the function is implicit :(. Why does a crash? especially when i asserted that ObjPtr is indeed the same size as int. How do i fix this so that i can pass around ObjPtr? I CAN NOT modify the C library so testc.c is off limits.

-edit- instead of crashing in VS 2010 i get this printout which shows the passed object is incorrect. I don't understand where "B" comes from at the end. This happens in debug mode. Release crashes with access violation.

c2 00000000
c3 0046F8B0
Press any key to continue . . .

If your curious, if you comment out the constructors (and change nothing else) this will work in gcc. If you change class into struct so no member is private it will work in msvc2010. This fix is nonsense but it appears its consider POD when i do this and magically the code works. Which is weird since the definition in C hasn't changed (as there is no definition). And the constructors aren't doing anything different.

share|improve this question
Are you just trying to pass a C++ object into a C function? Have you tried declaring your test_c() functions to accept and return void *? –  Seth Mar 9 '12 at 19:44
@Seth: I don't see how that would help nor how i should do it. Are you saying add yet another indirection or cast it to void* –  acidzombie24 Mar 9 '12 at 19:50

3 Answers 3

From my understanding C assumes all parameters are int's and it returns ints.

Not quite.

Prior to the 1999 ISO C standard, calling a function without a visible declaration would cause the compiler to assume that it returns a result of type int. This does not apply to parameters; they're assumed to be of the (promoted) type(s) of the argument(s), if any.

C99 dropped the "implicit int" rule; calling a function without a visible declaration is a constraint violation, which basically means that it's illegal. It's not a good idea even in pre-1999 C.

If you're going to call C++ from C, any functions you call should have parameter and return types that are compatible with both languages. C doesn't have classes or templates, so having a C program call a C++ function that returns a WrappedPointer<MyType> is at least questionable.

Assuming that pointers are the same size as int makes your code extremely non-portable. Even if they're the same size, they're not interchangeable; int and pointer function results might be returned using different mechanisms (different CPU registers, for example).

I suggest having test_c1() and test_c2() return void*, which can point to an object of any type. And your C source needs to have visible declarations (preferably prototypes) for any functions it calls.

share|improve this answer
I -cant- change the C source so does this mean no matter what i do this will be illegal and not portable? –  acidzombie24 Mar 9 '12 at 19:49
Yes. Why can't you change the C source? Can someone else change it? –  Keith Thompson Mar 9 '12 at 19:51
Its a 3rd party library. –  acidzombie24 Mar 9 '12 at 19:58
It's likely that you could get it to work (but not portably) without changing the C source, but it would be an ugly hack. If ObjPtr, int, and void* are all the same size, you might be able to get away with treating them as if they were interchangeable. It would be an ugly hack. I haven't (yet) looked past the undefined behavior to figure out what your code is trying to do. See if you can work out a way to do it right before you resort to a kludge that's incorrect but happens to "work". –  Keith Thompson Mar 9 '12 at 20:02
Actually for the reproducible i can't imagine how to define the struct in C. I tried typedef struct { void*lhs; } ObjPtr; and changing ints to ObjPtr and defining the classes. Still no go. However as my edit mentioned if i comment out the constructors it works. –  acidzombie24 Mar 9 '12 at 20:04

The function test_c2() creates ObjPtr s on the stack and then returns it. But s goes out of scope (and its memory is deallocated) when test_c2() returns.

share|improve this answer
Why does that happen to cause a crash? (Note that it's returning s by value; there's no destructor; and the copy-constructor just shallowly copies the only field.) –  ruakh Mar 9 '12 at 19:43
I disagree. There is no memory to deallocate and s is COPIED across the stack. Since s is 4bytes it should be copied entirely and the ptr should still be intact (still be null) –  acidzombie24 Mar 9 '12 at 19:45
test_c2() returns (a copy of) the value of s, not its address. It's no more a problem than int func() { int x = 42; return x; }. Returning the address of a local variable does cause the kind of problem you're thinking of; for example, int* bad() { int x = 42; return &x; } has undefined behavior. –  Keith Thompson Mar 9 '12 at 19:59
@acidzombie24: I think we need more information about this third party library. Your test_c1() function doesn't look like library code. –  Keith Thompson Mar 9 '12 at 20:03
@acidzombie24: Ok, so the callbacks need to return int. Who says that int has to be the result of type-punning a pointer or ObjPtr object? Make it an index into a table that you create and maintain in C++. –  Keith Thompson Mar 9 '12 at 20:20

If you read here, you can see that calling conventions varying significantly between platforms and compilers, and the differences can be subtle: http://www.angelcode.com/dev/callconv/callconv.html

I think what's happening here is that the calling convention in use will always return ints in registers, but has more stringent criteria to determine if an object can be returned in a register, as you've noticed when you make changes to the class. When the compiler decides that the object doesn't meet those criteria, it decides that the object should be returned in memory instead of via a register. This results in disaster. The C++ code ends up trying to read more arguments from the stack than the C code actually pushed, and misinterprets part of the stack as a pointer to memory that it thinks it can write an ObjPtr into. Depending on the compiler and platform you might get "lucky" and crash immediately, or "unlucky" and write the ObjPtr somewhere unexpected and then crash later or do something weird.

I couldn't recommend this, but you will probably have the most chance of making this work if you make sure the function declarations in the C++ match the C - i.e. that they use ints. Then do whatever reinterpret_casts you need in the C++, cross your fingers and say a prayer. At least that way you know that you won't be tripped up by call signature mismatches, which is what's hitting you right now.

Okay, so you want to know why non-POD types are treated differently by the calling convention. Consider what the presence of a copy-constructor means. Whenever you return an ObjPtr by value, that copy-constructor must be called with a reference to the copied object and a this pointer for the target object. The only way to be able to do that is if the caller has passed in a hidden pointer to the memory it has already allocated to store the return value. The compiler doesn't look inside the copy-constructor to see that it doesn't do anything fancy. It just sees that you've defined one and notes that the class is non-trivial and will never be returned in a register.

See also here for great information about aggregates and PODs. I especially like the answer about what has changed in C++11. What are Aggregates and PODs and how/why are they special?

share|improve this answer
Do you have any suggestions for calling conventions? I think all of the C code uses cdecl. There should be a attribute i can set. ATM making it POD does the job (at least MSVC no longer claims its not compatible). hmmmm... Maybe POD is the only solution but i still dont understand why POD VS not POD affects this. –  acidzombie24 Mar 10 '12 at 1:56

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.