------------------------------------------------------------------------------ ------------------------------------------------------------------------------ -- 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) 2002-2016, Frank Singhoff, Alain Plantec, Jerome Legrand -- -- The Cheddar project was started in 2002 by -- Frank Singhoff, Lab-STICC UMR 6285 laboratory, 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 AUTHORS.txt and SPONSORS.txt -- -- 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: 1249 $ -- $Date: 2014-08-28 07:02:15 +0200 (Fri, 28 Aug 2014) $ -- $Author: singhoff $ ------------------------------------------------------------------------------ ------------------------------------------------------------------------------ with Ada.text_IO; use Ada.text_IO; with Pipe_Commands; use Pipe_Commands; with Ada.Strings.Unbounded; use Ada.Strings.Unbounded; with unbounded_strings; use unbounded_strings; with Ada.Strings; use Ada.Strings; with Ada.Text_IO.Unbounded_IO; use Ada.Text_IO.Unbounded_IO; with Ada.Directories; use Ada.Directories; with task_clustering_rules; use task_clustering_rules; package body Hypervolume_computation is procedure Normalize_Archive (arc : in arc_type) is obj1_norm, obj2_norm : float; F : Ada.Text_IO.File_Type; Data,line : unbounded_string; begin Z1_ideal := arc(1).obj(1); Z2_ideal := arc(1).obj(2); for i in 2 .. arclength loop --if arc(i).obj(1) > Znad1 then -- Znad1 := arc(i).obj(1); --end if; if arc(i).obj(1) < Z1_ideal then Z1_ideal := arc(i).obj(1); end if; --if arc(i).obj(2) > Znad2 then -- Znad2 := arc(i).obj(2); --end if; if arc(i).obj(2) < Z2_ideal then Z2_ideal := arc(i).obj(2); end if; end loop; for i in 1 .. arclength loop obj1_norm := (arc(i).obj(1) - Z1_ideal) / (Z1_anti_ideal - Z1_ideal); obj2_norm := (arc(i).obj(2) - Z2_ideal) / (Z2_anti_ideal - Z2_ideal); Append (Data, obj1_norm'img & " " & obj2_norm'img & ASCII.LF); end loop; Create(F,Ada.Text_IO.Out_File,"Normalized_Archive_"); Unbounded_IO.Put_Line(F, Data); Close(F); end Normalize_Archive; function Call_hv return float is FileStream : stream; command : constant string := "./../../../../../../required_packages/hypervolume/hv " & "-r ""1.0 1.0""" & " Normalized_Archive_ -s Hypervolume.txt"; F1 : Ada.Text_IO.File_Type; line : unbounded_String; Buffer : unbounded_String; begin FileStream := execute(command, read_file); loop begin Buffer := read_next(FileStream); exception when Pipe_Commands.End_of_file => exit; end; end loop; close(FileStream); Open(F1, Ada.Text_IO.In_File,"Normalized_Archive_Hypervolume.txt"); line := To_Unbounded_String(get_line(F1)); Put_Line ("The hypervolume =" & To_string(line)); return float'Value(To_string(line)); end Call_hv; end Hypervolume_computation;