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9.5 Intertask Communication
1
{intertask communication}
{critical section: See intertask communication}
The primary means for intertask communication is provided
by calls on entries and protected subprograms. Calls on protected subprograms
allow coordinated access to shared data objects. Entry calls allow for blocking
the caller until a given condition is satisfied (namely, that the corresponding
entry is open -- see
9.5.3), and then communicating
data or control information directly with another task or indirectly via a shared
protected object.
Static Semantics
2
{target
object (of a call on an entry or a protected subprogram)}
Any call on an entry or on a protected subprogram
identifies a
target object for the operation, which is either
a task (for an entry call) or a protected object (for an entry call or
a protected subprogram call). The target object is considered an implicit
parameter to the operation, and is determined by the operation
name
(or
prefix) used in the call on
the operation, as follows:
3
- If it is a direct_name
or expanded name that denotes the declaration (or body) of the operation,
then the target object is implicitly specified to be the current instance
of the task or protected unit immediately enclosing the operation; {internal
call} such a call is defined to be an
internal call;
4
- If it is a selected_component
that is not an expanded name, then the target object is explicitly specified
to be the task or protected object denoted by the prefix
of the name; {external
call} such a call is defined to be an
external call;
4.a
Discussion: For example:
4.b
protected type Pt is
procedure Op1;
procedure Op2;
end Pt;
4.c
PO : Pt;
Other_Object : Some_Other_Protected_Type;
4.d
protected body Pt is
procedure Op1 is begin ... end Op1;
4.e
procedure Op2 is
begin
Op1; -- An internal call.
Pt.Op1; -- Another internal call.
PO.Op1; -- An external call. It the current instance is PO, then
-- this is a bounded error (see 9.5.1).
Other_Object.Some_Op; -- An external call.
end Op2;
end Pt;
5
- If the name or prefix
is a dereference (implicit or explicit) of an access-to-protected-subprogram
value, then the target object is determined by the prefix
of the Access attribute_reference
that produced the access value originally, and the call is defined to
be an external call;
6
- If the name or prefix
denotes a subprogram_renaming_declaration,
then the target object is as determined by the name
of the renamed entity.
7
{target object (of a requeue_statement)}
{internal requeue} {external
requeue} A corresponding definition of target
object applies to a
requeue_statement (see
9.5.4), with a corresponding distinction between
an
internal requeue and an
external requeue.
Dynamic Semantics
8
Within the body of a protected operation,
the current instance (see
8.6) of the immediately
enclosing protected unit is determined by the target object specified (implicitly
or explicitly) in the call (or requeue) on the protected operation.
8.a
To be honest: The current
instance is defined in the same way within the body of a subprogram declared
immediately within a protected_body.
9
Any call on a protected procedure or entry of
a target protected object is defined to be an update to the object, as
is a requeue on such an entry.
9.a
Reason: Read/write access
to the components of a protected object is granted while inside the body
of a protected procedure or entry. Also, any protected entry call can
change the value of the Count attribute, which represents an update.
Any protected procedure call can result in servicing the entries, which
again might change the value of a Count attribute.
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