------------------------------------------------------------------------------
------------------------------------------------------------------------------
-- This source file was automatically generated by Platypus
-- see http://dossen.univ-brest.fr/apl
--
-- Any modification of this file will be lost.
-- Please see the "platypus" directory instead : it contains the Cheddar's
-- model and its meta-model.
------------------------------------------------------------------------------
------------------------------------------------------------------------------
-- Cheddar is a free real time scheduling tool.
-- This program provides services to automatically check temporal constraints
-- of real time tasks.
--
-- Copyright (C) 2002-2014 Frank Singhoff
-- Cheddar is developed by the LAB-STICC Team, University of Brest
--
-- This program is free software; you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation; either version 2 of the License, or
-- (at your option) any later version.
--
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with this program; if not, write to the Free Software
-- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
--
--
-- Contact : cheddar@listes.univ-brest.fr
-- To post to this mailing list, you must be subscribed
-- (see http//beru.univ-brest.fr/~singhoff/cheddar for details)
--
------------------------------------------------------------------------------
------------------------------------------------------------------------------
with Text_io;
use Text_io;
with unbounded_strings;
use unbounded_strings;
with primitive_xml_strings;
use primitive_xml_strings;
Package Body Batteries is
-- --------= Battery =--------
procedure Initialize(obj : in out Battery) is
begin
initialize(Named_Object(obj));
obj.capacity := 0;
obj.rechargeable_power := 0;
obj.cpu_name := empty_string;
obj.e_max := 0;
obj.initial_energy := 0;
obj.object_type := Battery_Object_Type;
end Initialize;
function Copy ( obj : in Battery ) return Battery_Ptr is
New_Battery : Battery_Ptr;
begin
New_Battery := new Battery'(obj);
return (New_Battery);
end Copy;
function Copy ( obj : in Battery_Ptr ) return Battery_Ptr is
begin
return copy(obj.all);
end Copy;
procedure Put(obj : in Battery) is
begin
put(Named_Object(obj));
put("capacity: "); standards_io.natural_io.put(obj.capacity); put ( "; " );
put("rechargeable_power: "); standards_io.natural_io.put(obj.rechargeable_power); put ( "; " );
put("cpu_name: "); put(obj.cpu_name); put ( "; " );
put("e_max: "); standards_io.natural_io.put(obj.e_max); put ( "; " );
put("initial_energy: "); standards_io.natural_io.put(obj.initial_energy); put ( "; " );
end Put;
procedure Put(obj : in Battery_Ptr) is
begin
Put(Obj.All);
end Put;
procedure Put_Name ( obj : in Battery_Ptr) is
begin
Put ( To_String ( Obj.Name ) );
end Put_Name;
function Get_Name (obj : in Battery) return Unbounded_String is
begin
return obj.name;
end Get_Name;
function Get_Name (obj : in Battery_ptr) return Unbounded_String is
begin
return obj.name;
end Get_Name;
function type_of ( obj : in Battery ) return unbounded_string_list is
list : unbounded_string_list;
s : unbounded_string_ptr;
begin
Initialize(list);
s := new unbounded_string;
s.all := to_unbounded_string("OBJECTS.GENERIC_OBJECT");
Add (list, s);
s := new unbounded_string;
s.all := to_unbounded_string("OBJECTS.NAMED_OBJECT");
Add (list, s);
s := new unbounded_string;
s.all := to_unbounded_string("BATTERIES.BATTERY");
Add (list, s);
return list;
end type_of;
function type_of ( obj : in Battery_Ptr ) return unbounded_string_list is
begin
return type_of(obj.all);
end type_of;
procedure Build_Attributes_XML_String(obj : in Battery; result : in out Unbounded_String) is
begin
Build_Attributes_XML_String(Named_Object(obj), result);
if (XML_String(obj.capacity) /= Empty_String) then
result := result & to_unbounded_string("") & XML_String(obj.capacity) & to_unbounded_string("");
end if;
if (XML_String(obj.rechargeable_power) /= Empty_String) then
result := result & to_unbounded_string("") & XML_String(obj.rechargeable_power) & to_unbounded_string("");
end if;
if (XML_String(obj.cpu_name) /= Empty_String) then
result := result & to_unbounded_string("") & XML_String(obj.cpu_name) & to_unbounded_string("");
end if;
if (XML_String(obj.e_max) /= Empty_String) then
result := result & to_unbounded_string("") & XML_String(obj.e_max) & to_unbounded_string("");
end if;
if (XML_String(obj.initial_energy) /= Empty_String) then
result := result & to_unbounded_string("") & XML_String(obj.initial_energy) & to_unbounded_string("");
end if;
end Build_Attributes_XML_String;
function XML_String(obj : in Battery) return Unbounded_String is
result : Unbounded_String;
begin
result := to_unbounded_string("");
Build_Attributes_XML_String(obj, result);
result := result & to_unbounded_string("");
return (result);
end XML_String;
function XML_String(obj : in Battery_Ptr) return Unbounded_String is
begin
if obj /= null then
return XML_String(obj.all);
else
return Empty_String;
end if;
end XML_String;
function XML_Ref_String(obj : in Battery) return Unbounded_String is
result : Unbounded_String;
begin
result := to_unbounded_string("");
return (result);
end XML_Ref_String;
function XML_Ref_String(obj : in Battery_Ptr) return Unbounded_String is
begin
return XML_Ref_String(obj.all);
end XML_Ref_String;
End Batteries;