------------------------------------------------------------------------------ ------------------------------------------------------------------------------ -- Cheddar is a GNU GPL real-time scheduling analysis tool. -- This program provides services to automatically check schedulability and -- other performance criteria of real-time architecture models. -- -- Copyright (C) 2002-2023, Frank Singhoff, Alain Plantec, Jerome Legrand, -- Hai Nam Tran, Stephane Rubini -- -- The Cheddar project was started in 2002 by -- Frank Singhoff, Lab-STICC UMR 6285, Université de Bretagne Occidentale -- -- Cheddar has been published in the "Agence de Protection des Programmes/France" in 2008. -- Since 2008, Ellidiss technologies also contributes to the development of -- Cheddar and provides industrial support. -- -- The full list of contributors and sponsors can be found in README.md -- -- 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 -- ------------------------------------------------------------------------------ -- Last update : -- $Rev$ -- $Date$ -- $Author: singhoff $ ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ with Ada.Exceptions; use Ada.Exceptions; with translate; use translate; with Objects; use Objects; with Objects.extended; use Objects.extended; with unbounded_strings; use unbounded_strings; with initialize_framework; use initialize_framework; with debug; use debug; package body battery_set is procedure add_battery (my_batteries : in out batteries_set; name : in Unbounded_String; cpu_name : in Unbounded_String; capacity : in Integer; e_max : in Integer; e_min : in Integer; initial_energy : in Integer; rechargeable_power : in Integer) is dummy : battery_ptr; begin add_battery (my_batteries, dummy, name, cpu_name, capacity, e_max, e_min, initial_energy, rechargeable_power); end add_battery; procedure check_battery (my_batteries : in batteries_set; name : in Unbounded_String; cpu_name : in Unbounded_String; capacity : in Integer; e_max : in Integer; e_min : in Integer; initial_energy : in Integer; rechargeable_power : in Integer) is begin if (name = "") then Raise_Exception (invalid_parameter'Identity, To_String (lb_battery_name (Current_Language) & lb_mandatory (Current_Language))); end if; if not is_a_valid_identifier (name) then Raise_Exception (invalid_parameter'Identity, To_String (lb_battery (Current_Language) & " " & name & " : " & lb_battery_name (Current_Language) & lb_colon & lb_invalid_identifier (Current_Language))); end if; if (cpu_name = "") then Raise_Exception (invalid_parameter'Identity, To_String (lb_battery (Current_Language) & " " & name & " : " & lb_processor_name (Current_Language) & lb_mandatory (Current_Language))); end if; if not is_a_valid_identifier (cpu_name) then Raise_Exception (invalid_parameter'Identity, To_String (lb_battery (Current_Language) & name & " : " & lb_processor_name (Current_Language) & lb_colon & lb_invalid_identifier (Current_Language))); end if; if (rechargeable_power <= 0) then Raise_Exception (invalid_parameter'Identity, To_String (lb_battery (Current_Language) & " " & name & " : " & lb_rechargeable_power (Current_Language) & lb_must_be (Current_Language) & lb_greater_than (Current_Language) & "0")); end if; if (initial_energy < 0) then Raise_Exception (invalid_parameter'Identity, To_String (lb_battery (Current_Language) & " " & name & " : initial_energy " & lb_must_be (Current_Language) & lb_greater_or_equal_than (Current_Language) & "0")); end if; if (e_max < 0) then Raise_Exception (invalid_parameter'Identity, To_String (lb_battery (Current_Language) & " " & name & " : e_max " & lb_must_be (Current_Language) & lb_greater_or_equal_than (Current_Language) & "0")); end if; if (e_min < 0) then Raise_Exception (invalid_parameter'Identity, To_String (lb_battery (Current_Language) & " " & name & " : e_min " & lb_must_be (Current_Language) & lb_greater_or_equal_than (Current_Language) & "0")); end if; if (capacity <= 0) then Raise_Exception (invalid_parameter'Identity, To_String (lb_battery (Current_Language) & " " & name & " : " & lb_capacity (Current_Language) & lb_must_be (Current_Language) & lb_greater_than (Current_Language) & "0")); end if; end check_battery; procedure add_battery (my_batteries : in out batteries_set; a_battery : in out battery_ptr; name : in Unbounded_String; cpu_name : in Unbounded_String; capacity : in Integer; e_max : in Integer; e_min : in Integer; initial_energy : in Integer; rechargeable_power : in Integer) is my_iterator : iterator; begin check_initialize; check_battery (my_batteries, name, cpu_name, capacity, e_max, e_min, initial_energy, rechargeable_power); if (get_number_of_elements (my_batteries) > 0) then reset_iterator (my_batteries, my_iterator); loop current_element (my_batteries, a_battery, my_iterator); if (name = a_battery.name) then Raise_Exception (invalid_parameter'Identity, To_String (lb_battery (Current_Language) & " " & name & " : " & lb_battery_name (Current_Language) & lb_already_defined (Current_Language))); end if; exit when is_last_element (my_batteries, my_iterator); next_element (my_batteries, my_iterator); end loop; end if; a_battery := new battery; a_battery.name := name; a_battery.cpu_name := cpu_name; a_battery.capacity := capacity; a_battery.e_max := e_max; a_battery.e_min := e_min; a_battery.initial_energy := initial_energy; a_battery.rechargeable_power := rechargeable_power; add (my_batteries, a_battery); exception when full_set => Raise_Exception (invalid_parameter'Identity, To_String (lb_can_not_define_more_batteries (Current_Language))); end add_battery; function search_battery (my_batteries : in batteries_set; name : in Unbounded_String) return battery_ptr is my_iterator : batteries_iterator; a_battery : battery_ptr; result : battery_ptr; found : Boolean := False; begin if not is_empty (my_batteries) then reset_iterator (my_batteries, my_iterator); loop current_element (my_batteries, a_battery, my_iterator); if (a_battery.name = name) then found := True; result := a_battery; end if; exit when is_last_element (my_batteries, my_iterator); next_element (my_batteries, my_iterator); end loop; end if; if not found then Raise_Exception (battery_not_found'Identity, To_String (lb_battery_name (Current_Language) & "=" & name)); end if; return result; end search_battery; end battery_set;