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9.4 Protected Units and Protected Objects
1
A
protected object provides coordinated access to shared data, through
calls on its visible
protected operations, which can be
protected
subprograms or
protected entries.
A
protected unit is declared by a
protected declaration,
which has a corresponding
protected_body.
A protected declaration may be a
protected_type_declaration,
in which case it declares a named protected type; alternatively, it may
be a
single_protected_declaration,
in which case it defines an anonymous protected type, as well as declaring
a named protected object of that type.
Syntax
2
protected_type_declaration
::=
protected type defining_identifier [
known_discriminant_part]
is protected_definition;
3
single_protected_declaration
::=
protected defining_identifier is protected_definition;
4
protected_definition
::=
{
protected_operation_declaration }
[
private
{
protected_element_declaration } ]
end [
protected_identifier]
5/1
protected_operation_declaration
::= subprogram_declaration
|
entry_declaration
|
aspect_clause
6
protected_element_declaration
::= protected_operation_declaration
|
component_declaration
7
protected_body
::=
protected body defining_identifier is
{
protected_operation_item }
end [
protected_identifier];
8/1
protected_operation_item
::= subprogram_declaration
|
subprogram_body
|
entry_body
|
aspect_clause
9
If a protected_identifier
appears at the end of a protected_definition
or protected_body, it shall repeat
the defining_identifier.
Legality Rules
10
A protected declaration requires
a completion, which shall be a
protected_body,
and every
protected_body shall be
the completion of some protected declaration.
Static Semantics
11
A
protected_definition
defines a protected type and its first subtype.
The
list of
protected_operation_declarations
of a
protected_definition, together
with the
known_discriminant_part,
if any, is called the visible part of the protected unit.
The
optional list of
protected_element_declarations
after the reserved word
private is called the private part of
the protected unit.
Dynamic Semantics
12
The elaboration of a protected
declaration elaborates the
protected_definition.
The elaboration of a
single_protected_declaration
also creates an object of an (anonymous) protected type.
13
The elaboration of a
protected_definition
creates the protected type and its first subtype; it also includes the
elaboration of the
component_declarations
and
protected_operation_declarations
in the given order.
14
As part of the initialization
of a protected object, any per-object constraints (see
3.8)
are elaborated.
15
The elaboration of a
protected_body
has no other effect than to establish that protected operations of the
type can from then on be called without failing the Elaboration_Check.
16
The content of
an object of a given protected type includes:
17
- The values of the components of the
protected object, including (implicitly) an entry queue for each entry
declared for the protected object;
18
- A representation
of the state of the execution resource associated with the protected
object (one such resource is associated with each protected object).
19
The execution resource associated with a protected
object has to be acquired to read or update any components of the protected
object; it can be acquired (as part of a protected action -- see
9.5.1)
either for concurrent read-only access, or for exclusive read-write access.
20
As the
first step of the
finalization of a protected object, each call
remaining on any entry queue of the object is removed from its queue
and Program_Error is raised at the place of the corresponding
entry_call_statement.
21
13 Within the declaration
or body of a protected unit, the name of the protected unit denotes the
current instance of the unit (see 8.6), rather
than the first subtype of the corresponding protected type (and thus
the name cannot be used as a subtype_mark).
22
14 A selected_component
can be used to denote a discriminant of a protected object (see 4.1.3).
Within a protected unit, the name of a discriminant of the protected
type denotes the corresponding discriminant of the current instance of
the unit.
23
15 A protected type is
a limited type (see 7.5), and hence has neither
an assignment operation nor predefined equality operators.
24
16 The bodies of the protected
operations given in the protected_body
define the actions that take place upon calls to the protected operations.
25
17 The declarations in
the private part are only visible within the private part and the body
of the protected unit.
Examples
26
Example of declaration
of protected type and corresponding body:
27
protected type Resource is
entry Seize;
procedure Release;
private
Busy : Boolean := False;
end Resource;
28
protected body Resource is
entry Seize when not Busy is
begin
Busy := True;
end Seize;
29
procedure Release is
begin
Busy := False;
end Release;
end Resource;
30
Example of a single
protected declaration and corresponding body:
31
protected Shared_Array is
-- Index, Item, and Item_Array are global types
function Component (N : in Index) return Item;
procedure Set_Component(N : in Index; E : in Item);
private
Table : Item_Array(Index) := (others => Null_Item);
end Shared_Array;
32
protected body Shared_Array is
function Component(N : in Index) return Item is
begin
return Table(N);
end Component;
33
procedure Set_Component(N : in Index; E : in Item) is
begin
Table(N) := E;
end Set_Component;
end Shared_Array;
34
Examples of protected
objects:
35
Control : Resource;
Flags : array(1 .. 100) of Resource;
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