1

I wanted to call Test1() Method Within WaitAndCallFunc() Function.

Code:

typedef void (*func)();

void StartTimer(void* pFuncAddr);
void WaitAndCallFunc(void* pPtr);

void WaitAndCallFunc(void* pPtr)
{
    int i = 0;
    int nWaitTime = 3;

    while(1)
    {
        Sleep(1000);
    //  I want pPtr to call Test1 Function;
        if(i == nWaitTime)
            break;
    }

    _endthread();
}
void StartTimer(void* pFuncAddr)
{
    _beginthread(WaitAndCallFunc, 0, pFuncAddr);
}
void Test1();
int main(int argc, char* argv[])
{

    StartTimer(Test1);

    Sleep(5000);

    return 0;
}

void Test1()
{
    cout << "Testing Thread\n";
}

4 Answers 4

5

I'm not sure I understand what your question is exactly, but try this:

((func)pPtr)();
0
3

Cast and call:

typedef void (*func)();

void WaitAndCallFunc(void* pPtr)
{
    int i = 0;
    int nWaitTime = 3;

    while(1)
    {
        Sleep(1000);

        func f=(func)pPtr;   // cast to correct pointer to function type
        f();                 // and call!

        if(i == nWaitTime)
                break;
    }

    _endthread();
}
4
  • Not crucial since this is clarifying another point, but you probably want to increment i at some point ;) Jul 8, 2009 at 12:27
  • Dave, Quick Impressive answer :) Very Happy. But small error i got error C2064: term does not evaluate to a function. I am using VS 2005 VC++. Please help :) Thanks Jul 8, 2009 at 12:28
  • Strictly speaking this is the C short-form. There's a more accurate version whereby you pass in &Test1, and we call (*f)(). Jul 8, 2009 at 12:33
  • he's incorrectly cast it to a pointer to a function pointer. Greg's answer is correct. Jul 8, 2009 at 12:35
3

Strictly in C you're not supposed to convert between function pointers and other types of pointers. It's not guaranteed to work how you expect.

So a more pedantically correct version would look something like:

struct hook {
    void (*func)();
};

void StartTimer(void* pFuncAddr);
void WaitAndCallFunc(void* pPtr);

void WaitAndCallFunc(void* pPtr)
{
    struct hook *hook_ptr = pPtr;

    hook_ptr->func();

    _endthread();
}

void StartTimer(void* pFuncAddr)
{
    _beginthread(WaitAndCallFunc, 0, pFuncAddr);
}

void Test1();

int main(int argc, char* argv[])
{
    struct hook hook_test1 = { &Test1 };

    StartTimer(&hook_test1);

    Sleep(5000);

    return 0;
}

Note that in this it's the struct pointer that's cast to and from void *, not the function pointer itself. This also has the advantage that you can stuff some more values into the struct, if you need them to be passed down to Test1().

2
  • +1 nice trick :) I like how it avoids any casting - I suppose you could use a union too union { void* pv; void (*fp)(); } to go back and forth too? All of this is undefined behavior - so we can do anything that actually ends up working on your compiler - heh. Jul 8, 2009 at 14:04
  • I'm pretty sure my example is all defined - except for the thread stuff (from the OP) of course! That brings up another point I should mention - if the OP uses the method I've shown, they will need to ensure that the "hook_test1" object lives for long enough for the second thread to use it - it may be better to make it global, but that's all down to the particulars of the platform.
    – caf
    Jul 8, 2009 at 23:42
2

Actually, converting a function pointer to a void* or a void* to a function pointer is not directly allowed in current C or C++ - even though most compilers compile it.

There are two ways to convert back and forth (using C syntax) on compilers that don't compile the direct cast:

Method 1 (convert first to an integral intermediary)

((func) (intptr_t) pPtr)();  // call the void*

StartTimer( (void*) (intptr_t) &Test1); // pass function pointer to void*

Method 2 (use void**)

func f = 0;
*((void**)&f) = pPtr;
f();  

StartTimer( *((void**) &Test1)); // pass function pointer to void*

You can refer to the following thread for more of an explanation: Function pointers casting in C++

6
  • I find that GCC warns for the *(void**) line. A way to make it quiet is to cast to void* first. The line looks like this then: *((void**)(void*)&f) = pPtr;. Of course, functionally this is the same... Jul 8, 2009 at 13:48
  • 1
    You shouldn't need the cast to void* - both C and C++ allow the use of explicit casts to convert from any one object pointer to another - weird why GCC warns here - since clearly you're in undefined territory eitherway. Jul 8, 2009 at 14:05
  • 1
    It seems to warn about the de-reference. It records that f is a function pointer, and *(void**) is an lvalue of type void*: It thus gives an aliasing warning that this type-pun may violate some rules (3.10/15). The cast to void* in between makes it "forget" about the original type of the object, i suspect. Of course the cast does not change anything functionally (UB stays UB). Jul 8, 2009 at 15:21
  • 1
    what happens if you write: *((void**) &Test1) - does it still warn? Jul 8, 2009 at 16:56
  • 1
    Yeah, although there is no value accessed this time. It seems to do it on suspicion. Here is how it does: codepad.org/wbtFji75 :) Jul 9, 2009 at 0:58

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