I'd use something like this:

    var
      Safe: IObjectSafe;
      cds1 : TClientDataSet;
      cds2 : TClientDataSet;
      cds3 : TClientDataSet;
      cds4 : TClientDataSet;
    begin
      Safe := ObjectSafe;
      cds1 := Safe.Guard(TClientDataSet.Create(Application)) as TClientDataSet;
      cds2 := Safe.Guard(TClientDataSet.Create(Application)) as TClientDataSet;
      cds3 := Safe.Guard(TClientDataSet.Create(Application)) as TClientDataSet;
      cds4 := Safe.Guard(TClientDataSet.Create(Application)) as TClientDataSet;
      ///////////////////////////////////////////////////////////////////////
      ///      DO WHAT NEEDS TO BE DONE
      ///////////////////////////////////////////////////////////////////////

      // if Safe goes out of scope it will be freed and in turn free all guarded objects
    end;

For the implementation of the interface see [this][1] article, but you can easily create something similar yourself.

**EDIT:**

I just noticed that in the linked article Guard() is a procedure. In my own code I have  overloaded Guard() functions that return TObject, above sample code assumes something similar. Of course with generics much better code is now possible...

**EDIT 2:**

If you wonder why try ... finally is completely removed in my code: It's impossible to remove the nested blocks without introducing the possibility of memory leaks (when destructors raise exceptions) or access violations. Therefore it's best to use a helper class, and let the reference counting of interfaces take over completely. The helper class can free all objects it guards, even if some of the destructors raise exceptions.


  [1]: http://dn.codegear.com/article/28217