------------------------------------------------------------
--------------------
------------------------------------------------------------------------------
-- Cheddar is a GNU GPL real time scheduling analysis tool.
-- This program provides services to automatically check performances
-- of real time architectures.
--
-- Copyright (C) 2002-2010, by Frank Singhoff, Alain Plantec, Jerome Legrand
--
-- The Cheddar project was started in 2002 by
-- the LISyC Team, University of Western Britanny.
--
-- Since 2008, Ellidiss technologies also contributes to the development of
-- Cheddar and provides industrial support.
--
-- 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: 523 $
-- $Date: 2012-09-26 15:09:39 +0200 (Wed, 26 Sep 2012) $
-- $Author: fotsing $
------------------------------------------------------------------------------
------------------------------------------------------------------------------
with unbounded_strings; use unbounded_strings;
package body Xml_Tag is
function Get_Dtd return Unbounded_String is
S : Unbounded_String;
begin
S := S & "" & unbounded_lf;
S := S & ""
&
unbounded_lf;
S := S &
"" &
unbounded_lf;
S := S &
"" &
unbounded_lf;
S := S & "" & unbounded_lf;
S := S & "" & unbounded_lf;
S := S &
"" &
unbounded_lf;
S := S & "" & unbounded_lf;
S := S &
"" &
unbounded_lf;
S := S &
""
&
unbounded_lf;
S := S & "" & unbounded_lf;
S := S & "" & unbounded_lf;
S := S & "" & unbounded_lf;
S := S & "" & unbounded_lf;
S := S & "" & unbounded_lf;
S := S & "" & unbounded_lf;
S := S & "" & unbounded_lf;
S := S & "" & unbounded_lf;
S := S & "" & unbounded_lf;
S := S & "]>" & unbounded_lf;
return S;
end Get_Dtd;
procedure Set_Tag is
begin
Start_Result := To_Unbounded_String ("");
End_Result := To_Unbounded_String ("");
Start_Line := To_Unbounded_String ("");
End_Line := To_Unbounded_String ("");
Start_Sched_Feas :=
To_Unbounded_String ("");
End_Sched_Feas :=
To_Unbounded_String ("");
End_Sched_Sim :=
To_Unbounded_String ("");
Start_Sched_Sim :=
To_Unbounded_String ("");
Start_Probability := To_Unbounded_String ("");
End_Probability := To_Unbounded_String ("");
Start_Response_Time_Density :=
To_Unbounded_String ("");
End_Response_Time_Density :=
To_Unbounded_String ("");
Start_Task := To_Unbounded_String ("");
End_Task := To_Unbounded_String ("");
Start_Block := To_Unbounded_String ("");
End_Block := To_Unbounded_String ("");
Start_Buf_Bound := To_Unbounded_String ("");
End_Buf_Bound := To_Unbounded_String ("");
Start_Response_Time := To_Unbounded_String ("");
End_Response_Time := To_Unbounded_String ("");
Start_Title := To_Unbounded_String ("");
End_Title := To_Unbounded_String ("");
Start_Set_Prio := To_Unbounded_String ("");
End_Set_Prio :=
To_Unbounded_String ("");
Start_End_To_End :=
To_Unbounded_String ("");
End_End_To_End :=
To_Unbounded_String ("");
Start_Proc := To_Unbounded_String ("");
End_Proc := To_Unbounded_String ("");
Start_Num_Of_Preemp :=
To_Unbounded_String ("");
End_Num_Of_Preemp :=
To_Unbounded_String ("");
Start_Num_Of_Context_Switch :=
To_Unbounded_String ("");
End_Num_Of_Context_Switch :=
To_Unbounded_String ("");
Start_Unit := To_Unbounded_String ("");
End_Unit := To_Unbounded_String ("");
Start_Ref := To_Unbounded_String ("");
End_Ref := To_Unbounded_String ("");
Start_Fact_Bound := To_Unbounded_String ("");
End_Fact_Bound := To_Unbounded_String ("");
Start_Bas_Per := To_Unbounded_String ("");
End_Bas_Per := To_Unbounded_String ("");
Start_Per_Fact := To_Unbounded_String ("");
End_Per_Fact := To_Unbounded_String ("");
Start_Deadl_Fact :=
To_Unbounded_String ("");
End_Deadl_Fact :=
To_Unbounded_String ("");
Start_Jit := To_Unbounded_String ("");
End_Jit := To_Unbounded_String ("");
end Set_Tag;
procedure Set_Empty is
begin
Start_Result := empty_string;
End_Result := empty_string;
Start_Title := empty_string;
End_Title := empty_string;
Start_Line := empty_string;
End_Line := empty_string;
Start_Sched_Feas := empty_string;
End_Sched_Feas := empty_string;
End_Sched_Sim := empty_string;
Start_Sched_Sim := empty_string;
Start_Task := empty_string;
End_Task := empty_string;
Start_Block := empty_string;
End_Block := empty_string;
Start_Buf_Bound := empty_string;
End_Buf_Bound := empty_string;
Start_Title := empty_string;
End_Title := empty_string;
Start_Set_Prio := empty_string;
End_Set_Prio := empty_string;
Start_End_To_End := empty_string;
End_End_To_End := empty_string;
Start_Proc := empty_string;
End_Proc := empty_string;
Start_Num_Of_Preemp := empty_string;
End_Num_Of_Preemp := empty_string;
Start_Unit := empty_string;
End_Unit := empty_string;
Start_Ref := empty_string;
End_Ref := empty_string;
Start_Fact_Bound := empty_string;
End_Fact_Bound := empty_string;
Start_Bas_Per := empty_string;
End_Bas_Per := empty_string;
Start_Per_Fact := empty_string;
End_Per_Fact := empty_string;
Start_Deadl_Fact := empty_string;
End_Deadl_Fact := empty_string;
Start_Jit := empty_string;
End_Jit := empty_string;
Start_Probability := empty_string;
End_Probability := empty_string;
Start_Response_Time_Density := empty_string;
End_Response_Time_Density := empty_string;
Start_Response_Time := empty_string;
End_Response_Time := empty_string;
end Set_Empty;
end Xml_Tag;