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I'm having a bit of a problem with a try-catch situation, here goes the code (it's pretty simple):

struct Something
{
  int A, B, C;
  Something()
  {
    A = B = C = 0;
  }
  ~Something()
  {
    cout << "Destructor " << endl;
  }
};

int main()
{
  Something * s = new Something;

  //Something * s = new Something[5];

  try
  {
    delete[] s;
  }
  catch(exception& e)
  {
    delete s;
  }
  return 0;
}

What I intend to do is to first try to delete the pointer as an array, if it fails, make a simple delete.

So, when I first try it with an array of 'Something's (as in the commented line), itr worked perfectly. But when I try it as it is now, I get a horrible error.

Any ideas?

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why are you trying to delete it as an array first? that likely could cause undefined behavior. –  Daniel A. White Sep 30 '11 at 0:54
    
it would help to switch the order? –  juliomalegria Sep 30 '11 at 1:01
    
no, it will just cause the same problems. what you are attempting to do is a bad idea. –  Daniel A. White Sep 30 '11 at 1:02

4 Answers 4

What your trying to do is neither legal C++ nor does it make sense.

An allocation with new must be followed by a deletion with delete, and an allocation with new[] by delete[]; this must happen precisely like that, and everything else is undefined behaviour.

You cannot "try and see if you wrote correct code". Exceptions signal exceptional runtime behaviour, but your error is a static, compile-time error that cannot be handled, but must be fixed.

However, there should never be a point in your code where you don't know what a given pointer means! Since the language is statically types, you should in principle always have knowledge of the involved types. And if you want to pass objects around (possibly polymorphically), then anything that requires dynamic allocation should be wrapped in its own manager class (like shared_ptr or unique_ptr).

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Needs more plusses! –  Nicol Bolas Sep 30 '11 at 1:16
    
This code is actually just a small part I extract from a SmartPointer class (with templates) I'm implementing. So the idea is: I get a address memory (T *) and when is out of scope, I delete it. But, I really dont know if that address was created with a new or a new[], so there goes the 'guessing' part. (and *please* dont tell to use RAII) –  juliomalegria Sep 30 '11 at 1:17
1  
@julio.alegria: Take a look at how unique_ptr is implemented. The key is to have a suitable deleter, which you may abstract, and which is determined at instantiation time. But no matter how you skin this cat, you cannot get around knowing what sort of pointer you have. There's no such thing as a "random pointer" in C++ whose semantics you have to guess. –  Kerrek SB Sep 30 '11 at 1:31
    
@julio.alegria: Use RAII. Sorry, but it is the only way to write a correct program in C++ without painful levels of code duplication. What smart pointer behaviour are you looking for that isn't already available in the standard library? –  Mankarse Sep 30 '11 at 4:20
    
@julio.alegria, that's what reference counters are for. Use a pointer to int or a pointer to another class that contains an int, and increment, decrement as needed. Check out More Effective C++ by Meyers. –  Chance Feb 13 '12 at 22:47

Deleting a pointer as an array (or vica versa) is incorrect and undefined. It won't throw an exception.

You should consider RAII. For example, create a class which contains the pointer as a member. The constructor allocates the memory, and the destructor deletes it.

Then you've got a few options:

(1) Have two constructors, one for a single item and one for an array. Place a boolean in the class that holds whether the pointer points to one item or an array, and check this on destruction and call the appropriate delete function.

(2) Make your class a template class that takes a boolean template parameter and resolve this choice at compile time.

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there have to be a solution without using libraries. Its not always good to be a library dependent –  juliomalegria Sep 30 '11 at 1:03
1  
@julio.alegria: "library dependent?" There's no reason to avoid using a library so long as it is supported on your platform of interest and does the expected job. And worst-comes-to-worst, if you can't use the C++ standard library or Boost, you can just write a smart pointer yourself. –  Nicol Bolas Sep 30 '11 at 1:15
    
@julio.alegria: You don't need a library to implement RAII. –  Clinton Sep 30 '11 at 1:17
    
I meant that something is better to learn how to do something (even if its hard) before just using it. Otherwise why dont we just learn to use STL instead of learning all those hard data structures. Am I right? –  juliomalegria Sep 30 '11 at 1:22
    
@julio.alegria: See edited answer. –  Clinton Sep 30 '11 at 1:34

So my c++ skills are rusty but delete[] is called where you've called new[]. You haven't called new[] in your example.

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thats why I'm using try-catch –  juliomalegria Sep 30 '11 at 0:57
    
I see what you are doing, but the rule is that you free what you malloc you delete what you new and you delete[] what you new[]. I think it will depend on the implementation as to what results when you deviate from the rules. –  itsmatt Sep 30 '11 at 1:02

You completely misunderstand the semantics of try/catch. They don't catch errors, they catch exceptions. You can only rely on an exception being created if you throw it yourself or do something that's guaranteed to throw an exception. Calling delete on a pointer allocated with new[] is not guaranteed to throw an exception, in fact, it's not guaranteed to do anything specific.

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