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9.5.3 Entry Calls

1
An entry_call_statement (an entry call) can appear in various contexts. A simple entry call is a stand-alone statement that represents an unconditional call on an entry of a target task or a protected object. Entry calls can also appear as part of select_statements (see 9.7). 

Syntax

2
entry_call_statement ::= entry_name [actual_parameter_part];

Name Resolution Rules

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The entry_name given in an entry_call_statement shall resolve to denote an entry. The rules for parameter associations are the same as for subprogram calls (see 6.4 and 6.4.1). 

Static Semantics

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The entry_name of an entry_call_statement specifies (explicitly or implicitly) the target object of the call, the entry or entry family, and the entry index, if any (see 9.5).

Dynamic Semantics

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Under certain circumstances (detailed below), an entry of a task or protected object is checked to see whether it is open or closed:
6/3
An entry of a task is open if the task is blocked on an accept_statement that corresponds to the entry (see 9.5.2), or on a selective_accept (see 9.7.1) with an open accept_alternative that corresponds to the entry; otherwise, it is closed.
7/3
An entry of a protected object is open if the condition of the entry_barrier of the corresponding entry_body evaluates to True; otherwise, it is closed. If the evaluation of the condition propagates an exception, the exception Program_Error is propagated to all current callers of all entries of the protected object. 
8
For the execution of an entry_call_statement, evaluation of the name and of the parameter associations is as for a subprogram call (see 6.4). The entry call is then issued: For a call on an entry of a protected object, a new protected action is started on the object (see 9.5.1). The named entry is checked to see if it is open; if open, the entry call is said to be selected immediately, and the execution of the call proceeds as follows: 
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For a call on an open entry of a task, the accepting task becomes ready and continues the execution of the corresponding accept_statement (see 9.5.2).
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For a call on an open entry of a protected object, the corresponding entry_body is executed (see 9.5.2) as part of the protected action. 
11
If the accept_statement or entry_body completes other than by a requeue (see 9.5.4), return is made to the caller (after servicing the entry queues — see below); any necessary assigning back of formal to actual parameters occurs, as for a subprogram call (see 6.4.1); such assignments take place outside of any protected action. 
12
If the named entry is closed, the entry call is added to an entry queue (as part of the protected action, for a call on a protected entry), and the call remains queued until it is selected or cancelled; there is a separate (logical) entry queue for each entry of a given task or protected object (including each entry of an entry family).
13
When a queued call is selected, it is removed from its entry queue. Selecting a queued call from a particular entry queue is called servicing the entry queue. An entry with queued calls can be serviced under the following circumstances: 
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When the associated task reaches a corresponding accept_statement, or a selective_accept with a corresponding open accept_alternative;
15/4
If after performing, as part of a protected action on the associated protected object, an exclusive protected operation on the object, the entry is checked and found to be open. 
16
If there is at least one call on a queue corresponding to an open entry, then one such call is selected according to the entry queuing policy in effect (see below), and the corresponding accept_statement or entry_body is executed as above for an entry call that is selected immediately.
17
The entry queuing policy controls selection among queued calls both for task and protected entry queues. The default entry queuing policy is to select calls on a given entry queue in order of arrival. If calls from two or more queues are simultaneously eligible for selection, the default entry queuing policy does not specify which queue is serviced first. Other entry queuing policies can be specified by pragmas (see D.4).
18
For a protected object, the above servicing of entry queues continues until there are no open entries with queued calls, at which point the protected action completes. 
19
For an entry call that is added to a queue, and that is not the triggering_statement of an asynchronous_select (see 9.7.4), the calling task is blocked until the call is cancelled, or the call is selected and a corresponding accept_statement or entry_body completes without requeuing. In addition, the calling task is blocked during a rendezvous.
20
An attempt can be made to cancel an entry call upon an abort (see 9.8) and as part of certain forms of select_statement (see 9.7.2, 9.7.3, and 9.7.4). The cancellation does not take place until a point (if any) when the call is on some entry queue, and not protected from cancellation as part of a requeue (see 9.5.4); at such a point, the call is removed from the entry queue and the call completes due to the cancellation. The cancellation of a call on an entry of a protected object is a protected action, and as such cannot take place while any other protected action is occurring on the protected object. Like any protected action, it includes servicing of the entry queues (in case some entry barrier depends on a Count attribute). 
21
A call on an entry of a task that has already completed its execution raises the exception Tasking_Error at the point of the call; similarly, this exception is raised at the point of the call if the called task completes its execution or becomes abnormal before accepting the call or completing the rendezvous (see 9.8). This applies equally to a simple entry call and to an entry call as part of a select_statement.

Implementation Permissions

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An implementation may perform the sequence of steps of a protected action using any thread of control; it need not be that of the task that started the protected action. If an entry_body completes without requeuing, then the corresponding calling task may be made ready without waiting for the entire protected action to complete.
23/4
 When the entry of a protected object is checked to see whether it is open, the implementation need not reevaluate the condition of the corresponding entry_barrier if no variable or attribute referenced by the condition (directly or indirectly) has been altered by the execution (or cancellation) of a call to an exclusive protected operation of the object since the condition was last evaluated. 
24
An implementation may evaluate the conditions of all entry_barriers of a given protected object any time any entry of the object is checked to see if it is open. 
25
When an attempt is made to cancel an entry call, the implementation need not make the attempt using the thread of control of the task (or interrupt) that initiated the cancellation; in particular, it may use the thread of control of the caller itself to attempt the cancellation, even if this might allow the entry call to be selected in the interim. 
NOTES
26
28  If an exception is raised during the execution of an entry_body, it is propagated to the corresponding caller (see 11.4).
27
29  For a call on a protected entry, the entry is checked to see if it is open prior to queuing the call, and again thereafter if its Count attribute (see 9.9) is referenced in some entry barrier. 
28
30  In addition to simple entry calls, the language permits timed, conditional, and asynchronous entry calls (see 9.7.2, 9.7.3, and see 9.7.4). 
29
31  The condition of an entry_barrier is allowed to be evaluated by an implementation more often than strictly necessary, even if the evaluation might have side effects. On the other hand, an implementation need not reevaluate the condition if nothing it references was updated by an intervening protected action on the protected object, even if the condition references some global variable that might have been updated by an action performed from outside of a protected action. 

Examples

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Examples of entry calls: 
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Agent.Shut_Down;                      --  see 9.1
Parser.Next_Lexeme(E);                --  see 9.1
Pool(5).Read(Next_Char);              --  see 9.1
Controller.Request(Low)(Some_Item);   --  see 9.1
Flags(3).Seize;                       --  see 9.4

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