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Java has the finalize block which allows to execute some statements after a block is left (executed even if an exception is raised). Example:

try {
  ...
} catch (Exception e) {
  ...
} finally {
  ... // any code here
}

Ada has the controlled objects which allows to implement a Finalize operation but there is no finalize block equivalent as in java. This is useful for logging, closing files, transactions and so on (without having to create a specific tagged type for each possible block).

  1. How would you implement such finalize block in Ada 2005 (while keeping the code readable)?
  2. Are there plans in Ada 2012 to allow executing any finalization code easily?
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1  
the Finalize method of controlled object is more like a destructor. it has no resemblance at all with a finalize block. –  Adrien Plisson Jan 26 '11 at 11:49
    
Yes, but you can "simulate" somehow this behavior but it's heavy. –  ciceron Jan 26 '11 at 12:17
    
It's a finally block, which has nothing to do with calling finalize methods. –  Gabe Jan 26 '11 at 15:31

5 Answers 5

up vote 2 down vote accepted

I believe this code will do what you ask; it successfully prints out 42 with the present raise or with return. It's an implementation of T.E.D's suggestion.

Tested with GCC 4.5.0 on Mac OS X, Darwin 10.6.0.

with Ada.Finalization;
package Finally is

   --  Calls Callee on deletion.
   type Caller (Callee : not null access procedure)
      is new Ada.Finalization.Limited_Controlled with private;

private

   type Caller (Callee : not null access procedure)
      is new Ada.Finalization.Limited_Controlled with null record;

   procedure Finalize (Object : in out Caller);

end Finally;


package body Finally is

   procedure Finalize (Object : in out Caller)
   is
   begin
      Object.Callee.all;
   end Finalize;

end Finally;


with Ada.Text_IO; use Ada.Text_IO;
with Finally;
procedure Finally_Demo is
begin

   declare

      X : Integer := 21;

      --  The cleanup procedure, to be executed when this block is left
      procedure F
      is
      begin
         Put_Line ("X is " & Integer'Image (X));
      end F;

      --  The controlled object, whose deletion will execute F
      F_Caller : Finally.Caller (F'Access);

   begin

      X := 42;

      raise Constraint_Error;

   end;

end Finally_Demo;
share|improve this answer
    
It may look like a lot of code, but to be fair it does return the answer to the ultimate question of Life, The Universe, and everything. –  T.E.D. Jan 26 '11 at 22:57
    
It's a Program_Error to raise an exception during a Finalize, maybe there should be something to handle this. On the other hand, it really is a program error, maybe better to crash and burn! I wonder what the semantics of a Java finally block is? –  Simon Wright Jan 27 '11 at 15:00
    
Java allows you to raise an exception in the finally block. The current exception (if any) is lost. In several cases, you end up with another try/catch block to ignore these exception. –  ciceron Jan 27 '11 at 22:01

As Adrien mentions in the comment, Finalize is more analogous to a destructor.

To get something approximating an exception/final sequence you can do something along these lines (WARNING, not compiled, just typed--we'll work out any errors together :-) See also the Exceptions section of the Ada RM.

with Ada.Exceptions;  use Ada.Exceptions;

procedure Do_Something is

   -- Variables and what-not...

   -- In case you have an exception and want to reraise it after you've done
   -- the 'final' processing.
   Exception_Caught : Exception_Occurrence := Null_Occurrence;

begin
   -- You can have some statements, like initializations, here that will not
   -- raise exceptions.  But you don't have to, it can all just go in the
   -- following block. However you want to do it...

   declare
      -- If you need to declare some entities local to a block, put those here.
      -- If not, just omit this declare section.  Be aware, though, that if
      -- you initialize something in here and it raises an exception, the
      -- block's exception handler will not catch it. Such an exception will
      -- propagate out of the whole procedure (unless it has an outermost
      -- exception handler) because you're _not_ in the block's scope yet.

   begin
      -- Main processing that might raise an exception

      ...

   exception
      when E : others =>
         -- Handle any exception that's raised.  If there are specific
         -- exceptions that can be raised, they should be explicitly
         -- handled prior to this catch-all 'others' one.

         -- Save the exception occurrence, i.e. make a copy of it that can
         -- be reraised in the 'Final' section if needed.  (If you want to
         -- reraise for a specific exception, do this in those handlers as
         -- well.
         Save_Occurrence(Exception_Caught, E);

   end;

   -- Final processing. Everything from here to the end of the procedure is
   -- executed regardless of whether an exception was raised in the above
   -- block.  By it including an others handler, it ensured that no exception
   -- will propagate out of this procedure without hitting this 'Final' code.

   -- If an exception was raised and needs to be propagated:
   if Exception_Caught /= Null_Occurrence then
      Reraise_Exception(Exception_Caught);
   end if;

end Do_Something;
share|improve this answer
    
the above piece of code is the standard way of handling exceptions in Ada, however it does not quite simulate a finalize block: you cannot re-raise an exception in the exception block or the 'finalization' code will not execute. and if you take care of executing the 'finalization' code, then you lost the exception that was thrown, which prevents catching that exception at an outer level... –  Adrien Plisson Jan 26 '11 at 14:07
    
Good point. Updated the code to show how to retain that exception and subsequently reraise it if so desired. –  Marc C Jan 26 '11 at 14:31
1  
Also should be noted that the return statement could jump you right out of there without running the finalization code. Still, I think this is about the best that can be done this way. –  T.E.D. Jan 26 '11 at 15:30

Assuming you have understood the difference between ada.finalization and a finalize block in java, i would do something similar to the following, which should have the same effect.

procedure x is 
begin

  -- some code
  begin
    -- more code (your try)
  exception 
    -- handle exception if necessary (caught exception)
  end;
  -- yet more code which is executed regardless of any exception handling.

end x;
share|improve this answer
    
Just saw Marc Cs answer - similar to mine :) –  NWS Jan 27 '11 at 13:49
    
Yup. Same comment applies here too - A return statement jumps you right out of x without running your "finalize" code, but that's probably the best that can be done without resorting to controlled types. –  T.E.D. Jan 27 '11 at 14:34
    
More important, if an exception is raised, it will not be propagated. Marc's solution handles that. Simon's proposition is probably the best one as it also takes care of the return statement issue (but it is quite heavy). –  ciceron Jan 28 '11 at 12:18
    
Looks like the choice comes down to whether or not you want to retain the ability to use an explicit return (Simon's solution); or you don't need it or are willing to code around the need for one (my solution). Or, whether you should be trying to mimic try/catch/finally at all :-) –  Marc C Jan 28 '11 at 14:22

Marc C has the right approach for trying to emulate that in straight-line procedural code.

However, IMHO that structure is mostly a way to hack around Java's OO system, for those who want one of the structural benifits of OO in old-fashioned procedural programming. Even in Java you are almost always better off creating a proper class instead.

So I don't think it is too much of a stretch to say that the proper way to get that functionality in Ada would be to make a proper object, and make your object a child of Ada.Finalization.Controlled.

If you don't want to bother with creating an actual object, you could just create a dummy one, put your finalization code in it, and declare it on the stack at the top of the block you want it run for. The drawback to that is that controlled types themselves (as least the last time I used them) have to be declared at package-level scope. When that's the case, you'd be unable to put direct references to lower-declared objects in them. They claimed they were going to fix that in future language revision, but I haven't tried it recently to see if they did.

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Just thought of another answer. Its a bit heavy (and perhaps more trouble than it is worth). But it would give you something that looks a bit like your old finalize block

The idea would be to put your "finalizable" code in a task. You cannot leave the scope a task is declared in until the task terminates. So you could put your work code in the task and your "finally" code just outside of the scope the task is defined in. The parent task would sit there and wait for the work task to end (one way or another), and then it would run the "finally" code no matter how it ended. The drawback is that if the task throws an exception, it will stop at the task. So you still don't quite get the behavior that you can throw an exception and it will propagate out automatically while the "finalize" code gets run. You could maybe get that behavior back by adding a rendezvous and a second task (that's the problem with tasks. They are like potato chips...you always need one more).

procedure Finalized is
begin
    declare
        task Worker is end Worker;
        task body Worker is begin
            --// Working code in here. Can throw exceptions or whatever. 
            --// Does not matter.
        end Worker;
    begin
    end;

    --// If we get here, we know the task finished somehow (for good or ill)
    --// so the finalization code goes here.

end Finalized;

It seems to me there might be a way to do something like this with protected objects too. I'll leave that one for others to figure out.

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