------------------------------------------------------------------------------
-- Copyright (c) 2014-2015, Natacha Porté --
-- --
-- Permission to use, copy, modify, and distribute this software for any --
-- purpose with or without fee is hereby granted, provided that the above --
-- copyright notice and this permission notice appear in all copies. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES --
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF --
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR --
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES --
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN --
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF --
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. --
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-- IMPLEMENTATION NOTE: --
-- In case of synchronized callbacks (same Origin and Period), there is a --
-- collision on the internal map key. Since it is not expected to happen --
-- often, a simple but not-so-efficient solution is used: --
-- When a collision is encountered, the callback is replaced by an --
-- Event_List callback seeded with the existing callback and the new one. --
-- When removing a callback, if it's not found directly, and second linear --
-- is performed, looking for Event_List objects and removing it from them. --
------------------------------------------------------------------------------
package body Natools.Cron is
function Create_Event_List
(Ref_1, Ref_2 : Callback_Refs.Reference)
return Callback_Refs.Reference;
-- Create an Event_List object containing Ref_1 and Ref_2,
-- and return a reference to it.
------------------------
-- Helper Subprograms --
------------------------
function "<" (Left, Right : Periodic_Time) return Boolean is
use type Ada.Calendar.Time;
begin
return Left.Origin < Right.Origin
or else (Left.Origin = Right.Origin
and then Left.Period < Right.Period);
end "<";
function Create_Event_List
(Ref_1, Ref_2 : Callback_Refs.Reference)
return Callback_Refs.Reference
is
function Create return Callback'Class;
function Create return Callback'Class is
Result : Event_List;
begin
Result.Append (Ref_1);
Result.Append (Ref_2);
return Result;
end Create;
begin
return Callback_Refs.Create (Create'Access);
end Create_Event_List;
----------------------
-- Public Interface --
----------------------
function Create
(Time : in Periodic_Time;
Callback : in Cron.Callback'Class)
return Cron_Entry is
begin
return Result : Cron_Entry do
Result.Set (Time, Callback);
end return;
end Create;
function Create
(Period : in Duration;
Callback : in Cron.Callback'Class)
return Cron_Entry is
begin
return Result : Cron_Entry do
Result.Set (Period, Callback);
end return;
end Create;
procedure Set
(Self : in out Cron_Entry;
Time : in Periodic_Time;
Callback : in Cron.Callback'Class)
is
function Create return Cron.Callback'Class;
function Create return Cron.Callback'Class is
begin
return Callback;
end Create;
begin
Self.Reset;
Self.Callback.Replace (Create'Access);
Database.Insert (Time, Self.Callback);
end Set;
procedure Set
(Self : in out Cron_Entry;
Period : in Duration;
Callback : in Cron.Callback'Class) is
begin
Set (Self, (Ada.Calendar.Clock, Period), Callback);
end Set;
overriding procedure Finalize (Object : in out Cron_Entry) is
begin
if not Object.Callback.Is_Empty then
Object.Reset;
end if;
end Finalize;
procedure Reset (Self : in out Cron_Entry) is
begin
if not Self.Callback.Is_Empty then
Database.Remove (Self.Callback);
Self.Callback.Reset;
end if;
end Reset;
------------------------
-- Protected Database --
------------------------
protected body Database is
procedure Insert
(Time : in Periodic_Time;
Callback : in Callback_Refs.Reference)
is
use type Ada.Calendar.Time;
Now : constant Ada.Calendar.Time := Ada.Calendar.Clock;
Actual_Time : Periodic_Time := Time;
begin
if Actual_Time.Period > 0.0 then
while Actual_Time.Origin < Now loop
Actual_Time.Origin := Actual_Time.Origin + Actual_Time.Period;
end loop;
end if;
if Map.Is_Empty then
if Global_Worker /= null and then Global_Worker.all'Terminated then
Unchecked_Free (Global_Worker);
end if;
if Global_Worker = null then
Global_Worker := new Worker;
end if;
else
if Actual_Time < Map.First_Key then
First_Changed := True;
end if;
end if;
declare
Position : Entry_Maps.Cursor;
Inserted : Boolean;
Previous : Callback_Refs.Reference;
begin
Map.Insert (Actual_Time, Callback, Position, Inserted);
if not Inserted then
Previous := Entry_Maps.Element (Position);
if Previous.Update.Data.all in Event_List then
Append
(Event_List (Previous.Update.Data.all),
Callback);
else
Map.Replace_Element
(Position,
Create_Event_List (Previous, Callback));
end if;
end if;
end;
end Insert;
procedure Remove (Callback : in Callback_Refs.Reference) is
use type Callback_Refs.Reference;
Cursor : Entry_Maps.Cursor := Map.First;
Is_First : Boolean := True;
begin
while Entry_Maps.Has_Element (Cursor) loop
if Entry_Maps.Element (Cursor) = Callback then
Map.Delete (Cursor);
if Is_First then
First_Changed := True;
end if;
return;
end if;
Entry_Maps.Next (Cursor);
Is_First := False;
end loop;
Is_First := True;
Cursor := Map.First;
while Entry_Maps.Has_Element (Cursor) loop
if Entry_Maps.Element (Cursor).Update.Data.all in Event_List then
declare
Mutator : constant Callback_Refs.Mutator
:= Entry_Maps.Element (Cursor).Update;
List : Event_List renames Event_List (Mutator.Data.all);
Removed : Boolean;
begin
List.Remove (Callback, Removed);
if Removed then
if List.Is_Empty then
Map.Delete (Cursor);
if Is_First then
First_Changed := True;
end if;
end if;
return;
end if;
end;
end if;
Entry_Maps.Next (Cursor);
Is_First := False;
end loop;
end Remove;
procedure Update (Callback : in Callback_Refs.Reference) is
use type Callback_Refs.Reference;
Cursor : Entry_Maps.Cursor := Map.First;
begin
Search :
while Entry_Maps.Has_Element (Cursor) loop
if Entry_Maps.Element (Cursor) = Callback then
declare
Old_Time : constant Periodic_Time := Entry_Maps.Key (Cursor);
begin
Map.Delete (Cursor);
if Old_Time.Period > 0.0 then
Insert (Old_Time, Callback);
end if;
end;
exit Search;
end if;
Entry_Maps.Next (Cursor);
end loop Search;
end Update;
procedure Get_First
(Time : out Periodic_Time;
Callback : out Callback_Refs.Reference)
is
Cursor : constant Entry_Maps.Cursor := Map.First;
begin
if Entry_Maps.Has_Element (Cursor) then
Time := Entry_Maps.Key (Cursor);
Callback := Entry_Maps.Element (Cursor);
else
Callback := Callback_Refs.Null_Reference;
end if;
First_Changed := False;
end Get_First;
entry Update_Notification when First_Changed is
begin
null;
end Update_Notification;
end Database;
-----------------
-- Worker Task --
-----------------
task body Worker is
Time : Periodic_Time;
Callback : Callback_Refs.Reference;
Waiting : Boolean;
begin
Main :
loop
Waiting := True;
Wait_Loop :
while Waiting loop
Database.Get_First (Time, Callback);
exit Main when Callback.Is_Empty;
select
Database.Update_Notification;
or
delay until Time.Origin;
Waiting := False;
end select;
end loop Wait_Loop;
Callback.Update.Data.Run;
Database.Update (Callback);
end loop Main;
end Worker;
----------------
-- Event List --
----------------
overriding procedure Run (Self : in out Event_List) is
begin
for Ref of Self.List loop
Ref.Update.Data.Run;
end loop;
end Run;
procedure Append
(Self : in out Event_List;
Ref : in Callback_Refs.Reference) is
begin
Self.List.Append (Ref);
end Append;
procedure Remove
(Self : in out Event_List;
Ref : in Callback_Refs.Reference;
Removed : out Boolean)
is
use type Callback_Refs.Reference;
Cursor : Event_Lists.Cursor := Self.List.First;
begin
Removed := False;
while Event_Lists.Has_Element (Cursor) loop
if Event_Lists.Element (Cursor) = Ref then
Self.List.Delete (Cursor);
Removed := True;
return;
end if;
Event_Lists.Next (Cursor);
end loop;
end Remove;
function Is_Empty (Self : Event_List) return Boolean is
begin
return Self.List.Is_Empty;
end Is_Empty;
end Natools.Cron;