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I'm new on C++ and I'm trying to make some testing with C++ and SDL and in SDL we have a function:

SDL_TimerID SDL_AddTimer(Uint32 interval, SDL_NewTimerCallback callback, void *param);

which I can pass a callback for the timer created. But apparently it converts my instance this to *void so I can't retrieve it again on the update method which is static, and it's interesting but the the SDL_AddTime doesn't work on a non static callback function.

Well, so my problem is that when trying to call the public method render through the void* param argument It complains about not being a pointer-to-object-type...

Is there any way I can get the Character instance again inside the update method since I don't have control over the SDL_AddTime function and I have to pass the required parameters?


#include "Character.h"

  timer = SDL_AddTimer(33, update, this);
  this->render(); // is called without problem

//static method
Uint32 Character::update(Uint32 interval,void* param)
  param->render(); // yields: 'void*' is not a pointer-to-object type;

  SDL_Event event;

  event.type = SDL_USEREVENT;
  event.user.code = 1020;
  event.user.data1 = param;


  return interval;

void Character::render(void)
  printf("rendering character \n");
share|improve this question
The reason for this is easily made apparent. Type's define what operations you can perform on data. void* indicates a pointer to an unknown type. What operations can we perform on an unknown type? – GManNickG Jan 2 '10 at 21:29
Hi GMan, so you're saying that the principle for this *void parameter is to not be used, could you please help me saying if this approach would be correct or maybe use another way? Thanks a lot :) – zanona Jan 2 '10 at 22:24
FWIW, you can't use a pointer to non-static method because those have a different type in C++, and your API (the SDL_AddTimer function) isn't expecting that type. – Roger Pate Jan 3 '10 at 1:24
up vote 5 down vote accepted

You don't need a reinterpret_cast - a static_cast should be OK:

Character * cp = static_cast <Character *>( param );

You should avoid reinterpret_cast - it is almost always implementation specific, and may hide problems - just like old-style C casts.

share|improve this answer
But isn't static_cast made with no type checks or anything, making it just like the C-style casts? – LiraNuna Jan 2 '10 at 21:38
No, it isn't - the rules are a bit complicated, but it does what STATIC (i.e. compile-time) checking it can. Otherwise, it would be identical with reinterpret_cast. – anon Jan 2 '10 at 21:40
Ironically, Lira, that's what reinterpret_cast does. reinterpret_cast says "treat X as Y" and the compiler goes "Ok!". static_cast says "Treat X as Y, but make sure this conversion is defined and use that method." and the compiler either goes "Ok, I see how" or "Nope.". For pointers, you can implicitly cast from T* to void*, and static_cast the other way. – GManNickG Jan 2 '10 at 21:44
This is one of the situation where I would absolutely use reinterpret_cast<>(). The static_cast<>() does not give you any more safety (because all the checks are compile time) and by using reinterpret_cast<>() you are explicitly documenting that you are doing something that is dangerous. – Loki Astari Jan 3 '10 at 0:50
Martin: Though for null pointers that have different (non-zero) representations for different types (not that I know of any such real systems myself.. but I believe it's allowed by the standard), won't reinterpret_cast do the wrong thing and static_cast work correctly? – Roger Pate Jan 3 '10 at 1:22

Cast your param pointer to a Character:

Character * charPtr = reinterpret_cast<Character *>(param);
share|improve this answer

The reason is that C++ is a strong typed language. To change one type to another, you need to cast it first:

Uint32 Character::update(Uint32 interval, void* param)
    reinterpret_cast<Character* >(param)->render();

    /* ... */
share|improve this answer

Just for reference, if you were to call a lot of stuff in a function, to save all the nasty reinterpret_cast stuff everywhere you can do

Character * myCharacter = reinterpret_cast<Character* >(param);

Which then lets you do 'myCharacter->render();' or whathaveyou...

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