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7.6.1 Completion and Finalization

1
This subclause defines completion and leaving of the execution of constructs and entities. A master is the execution of a construct that includes finalization of local objects after it is complete (and after waiting for any local tasks — see 9.3), but before leaving. Other constructs and entities are left immediately upon completion.

Dynamic Semantics

2/2
The execution of a construct or entity is complete when the end of that execution has been reached, or when a transfer of control (see 5.1) causes it to be abandoned. Completion due to reaching the end of execution, or due to the transfer of control of an exit_statement, return statement, goto_statement, or requeue_statement or of the selection of a terminate_alternative is normal completion. Completion is abnormal otherwise — when control is transferred out of a construct due to abort or the raising of an exception. 
3/2
After execution of a construct or entity is complete, it is left, meaning that execution continues with the next action, as defined for the execution that is taking place. Leaving an execution happens immediately after its completion, except in the case of a master: the execution of a body other than a package_body; the execution of a statement; or the evaluation of an expression, function_call, or range that is not part of an enclosing expression, function_call, range, or simple_statement other than a simple_return_statement. A master is finalized after it is complete, and before it is left.
4
For the finalization of a master, dependent tasks are first awaited, as explained in 9.3. Then each object whose accessibility level is the same as that of the master is finalized if the object was successfully initialized and still exists. These actions are performed whether the master is left by reaching the last statement or via a transfer of control. When a transfer of control causes completion of an execution, each included master is finalized in order, from innermost outward. 
5
For the finalization of an object: 
6/3
If the full type of the object is an elementary type, finalization has no effect; 
7/3
If the full type of the object is a tagged type, and the tag of the object identifies a controlled type, the Finalize procedure of that controlled type is called;
8/3
If the full type of the object is a protected type, or if the full type of the object is a tagged type and the tag of the object identifies a protected type, the actions defined in 9.4 are performed;
9/3
If the full type of the object is a composite type, then after performing the above actions, if any, every component of the object is finalized in an arbitrary order, except as follows: if the object has a component with an access discriminant constrained by a per-object expression, this component is finalized before any components that do not have such discriminants; for an object with several components with such a discriminant, they are finalized in the reverse of the order of their component_declarations;
9.1/2
If the object has coextensions (see 3.10.2), each coextension is finalized after the object whose access discriminant designates it.
10
Immediately before an instance of Unchecked_Deallocation reclaims the storage of an object, the object is finalized. If an instance of Unchecked_Deallocation is never applied to an object created by an allocator, the object will still exist when the corresponding master completes, and it will be finalized then.
11/3
 The finalization of a master performs finalization of objects created by declarations in the master in the reverse order of their creation. After the finalization of a master is complete, the objects finalized as part of its finalization cease to exist, as do any types and subtypes defined and created within the master.
11.1/3
   Each nonderived access type T has an associated collection, which is the set of objects created by allocators of T, or of types derived from T. Unchecked_Deallocation removes an object from its collection. Finalization of a collection consists of finalization of each object in the collection, in an arbitrary order. The collection of an access type is an object implicitly declared at the following place:
11.2/3
For a named access type, the first freezing point (see 13.14) of the type.
11.3/3
For the type of an access parameter, the call that contains the allocator.
11.4/3
For the type of an access result, within the master of the call (see 3.10.2). 
11.5/3
For any other anonymous access type, the first freezing point of the innermost enclosing declaration. 
12/2
 The target of an assignment_statement is finalized before copying in the new value, as explained in 7.6.
13/3
 The master of an object is the master enclosing its creation whose accessibility level (see 3.10.2) is equal to that of the object, except in the case of an anonymous object representing the result of an aggregate or function call. If such an anonymous object is part of the result of evaluating the actual parameter expression for an explicitly aliased parameter of a function call, the master of the object is the innermost master enclosing the evaluation of the aggregate or function call, excluding the aggregate or function call itself. Otherwise, the master of such an anonymous object is the innermost master enclosing the evaluation of the aggregate or function call, which may be the aggregate or function call itself. 
13.1/3
   In the case of an expression that is a master, finalization of any (anonymous) objects occurs after completing evaluation of the expression and all use of the objects, prior to starting the execution of any subsequent construct.

Bounded (Run-Time) Errors

14/1
 It is a bounded error for a call on Finalize or Adjust that occurs as part of object finalization or assignment to propagate an exception. The possible consequences depend on what action invoked the Finalize or Adjust operation:
15
For a Finalize invoked as part of an assignment_statement, Program_Error is raised at that point.
16/2
For an Adjust invoked as part of assignment operations other than those invoked as part of an assignment_statement, other adjustments due to be performed might or might not be performed, and then Program_Error is raised. During its propagation, finalization might or might not be applied to objects whose Adjust failed. For an Adjust invoked as part of an assignment_statement, any other adjustments due to be performed are performed, and then Program_Error is raised. 
17
For a Finalize invoked as part of a call on an instance of Unchecked_Deallocation, any other finalizations due to be performed are performed, and then Program_Error is raised.
17.1/3
This paragraph was deleted.
17.2/1
For a Finalize invoked due to reaching the end of the execution of a master, any other finalizations associated with the master are performed, and Program_Error is raised immediately after leaving the master.
18/2
For a Finalize invoked by the transfer of control of an exit_statement, return statement, goto_statement, or requeue_statement, Program_Error is raised no earlier than after the finalization of the master being finalized when the exception occurred, and no later than the point where normal execution would have continued. Any other finalizations due to be performed up to that point are performed before raising Program_Error.
19
For a Finalize invoked by a transfer of control that is due to raising an exception, any other finalizations due to be performed for the same master are performed; Program_Error is raised immediately after leaving the master. 
20
For a Finalize invoked by a transfer of control due to an abort or selection of a terminate alternative, the exception is ignored; any other finalizations due to be performed are performed.

Implementation Permissions

20.1/3
   If the execution of an allocator propagates an exception, any parts of the allocated object that were successfully initialized may be finalized as part of the finalization of the innermost master enclosing the allocator.
20.2/3
   The implementation may finalize objects created by allocators for an access type whose storage pool supports subpools (see 13.11.4) as if the objects were created (in an arbitrary order) at the point where the storage pool was elaborated instead of at the first freezing point of the access type.
NOTES
21/3
18  The rules of Clause 10 imply that immediately prior to partition termination, Finalize operations are applied to library-level controlled objects (including those created by allocators of library-level access types, except those already finalized). This occurs after waiting for library-level tasks to terminate. 
22
19  A constant is only constant between its initialization and finalization. Both initialization and finalization are allowed to change the value of a constant.
23
20  Abort is deferred during certain operations related to controlled types, as explained in 9.8. Those rules prevent an abort from causing a controlled object to be left in an ill-defined state.
24
21  The Finalize procedure is called upon finalization of a controlled object, even if Finalize was called earlier, either explicitly or as part of an assignment; hence, if a controlled type is visibly controlled (implying that its Finalize primitive is directly callable), or is nonlimited (implying that assignment is allowed), its Finalize procedure should be designed to have no ill effect if it is applied a second time to the same object. 

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