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I'm wondering if it's safe to cast a double (*)(double) to double(*)(...), this is going to be used to generalize a code which may have pointers to multiple functions.

so far I've stored every thing that is going to be passed to the function in a vector, and I'm wondering if there is a way to call a function (while passing the correct number of arguments) in a generalized code? I mean something this:

//while initializing
mFunction = sin;
//later in code
double (*generalized)(...) = mFunction;


if there is not a valid way to do it using c++ is it possible to saftly call the function using assembly?

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well, it's not! I'm trying to cast from a "pointer to function" to "pointer to function with some other signiture", while he trying to cast "void*" to a "function pointer" –  Ali.S Dec 25 '11 at 13:46
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3 Answers

up vote 3 down vote accepted

You cannot directly assign a double(*)(double) to double(*)(...), but you could reinterpret_cast it. The cast is explicitly allowed by §5.2.10[expr.reinterpret.cast]/6, but calling the casted function pointer will cause undefined behavior:

A function pointer can be explicitly converted to a function pointer of a different type.

The effect of calling a function through a pointer to a function type that is not the same as the type used in the definition of the function is undefined.

Except that converting a prvalue of type “pointer to T1” to the type “pointer to T2” (where T1 and T2 are function types) and back to its original type yields the original pointer value, the result of such a pointer conversion is unspecified.

It is easy to see why it leads to UB — what if we call generalized(1.0, 2.0, 3.0)? This will likely corrupt the call stack. But it is fine if you cast the generalized back to a double(*)(double) before you call it.

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since it's a private member, I don't need worry about possible programmer mistakes. so if I've converted sin(double) to generalize(double, ...), I will only call generalize(1.0) or if it's hypot(double,double) I can make sure to only call generalize(1.0,2.0) –  Ali.S Dec 25 '11 at 17:52
@Gajet: It's still better to cast back to the original type if possible to avoid error. The ... may change the calling convention (e.g. if you pass a float to a ... argument, it will be converted to a double before calling the function.) –  KennyTM Dec 25 '11 at 17:57
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Yes, the casting itself is allowed. To call it with a wrong signature is not, though. Note that if you want a generic function pointer, better use void (*)(), it's like void* for function pointers (no implicit conversion to it, though).

Or even better, since you apperently provide specific arguments, use std::function and std::bind (if your compiler supports C++11 libraries), or their Boost equivalents.

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"Note that if you want a generic function pointer, better use void (*)()" I would rather use a pointer that cannot be called, like void (*)(boost::noncopyable). –  curiousguy Dec 25 '11 at 14:08
is there an equivalent assembly code that does the trick for me? –  Ali.S Dec 25 '11 at 17:54
@Gajet: As I'm sure you know, assembly is highly unportable. It would be possible though. I implemented my own delegate class for fun with it, because the calling code becomes basically a few assembly lines. Note however, that it's very buggy and likely to cause problems. –  Xeo Dec 25 '11 at 20:48
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Making generalized volatile will require the compiler to follow the ABI specification. Due to a desire to support non-declared C functions this is safe on most ABIs (including x86 and x86-32) if one does not call a function that excepts a variable number of arguments though a pointer to function with a fixed number of arguments.

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