------------------------------------------------------------------------------ ------------------------------------------------------------------------------ -- This Ada package was automatically generated by the software engineering tool 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) 2002-2009 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 Parameters is function XML_String(obj : in Parameter_Type; level : in natural := 0) return Unbounded_String is begin return to_unbounded_string(Parameter_Type'image (obj) ); end XML_String; function XML_Ref_String (obj : in Parameter_Type; level : in natural := 0) return Unbounded_String is begin raise xml_ref_string_error; return to_unbounded_string(""); end XML_Ref_String; procedure Initialize (obj : out Parameter_Ptr) is begin obj := NULL; end Initialize; procedure Put(obj : in Parameter_Ptr) is begin if (obj /= NULL) then put("name: "); put(obj.name); put ( "; " ); put("discriminant: "); put(obj.discriminant); put ( "; " ); put ( "value: " ); case obj.discriminant is when boolean_parameter => put("boolean_value: "); standards_io.boolean_io.put(obj.boolean_value); put ( "; " ); when integer_parameter => put("integer_value: "); standards_io.natural_io.put(obj.integer_value); put ( "; " ); when double_parameter => put("double_value: "); standards_io.double_io.put(obj.double_value); put ( "; " ); when string_parameter => put("string_value: "); put(obj.string_value); put ( "; " ); end case; end if; New_Line; end Put; function Copy ( obj : in Parameter ) return Parameter_Ptr is New_Parameter : Parameter_Ptr; begin New_Parameter := new Parameter'(obj); return (New_Parameter); end Copy; function Copy ( obj : in Parameter_Ptr ) return Parameter_Ptr is begin return copy(obj.all); end Copy; function XML_String(obj : in Parameter; level : in natural := 0) return Unbounded_String is result : Unbounded_String; begin result := "" & Unbounded_Lf; if (XML_String(obj.discriminant, level + 1) /= Empty_String) then result := result & unbounded_ht(level + 1) & "" & XML_String(obj.discriminant, level + 1) & "" & Unbounded_Lf; end if; case obj.discriminant is when boolean_parameter => if (XML_String(obj.boolean_value, level + 1) /= Empty_String) then result := result & unbounded_ht(level + 1) & "" & XML_String(obj.boolean_value, level + 1) & "" & Unbounded_Lf; end if; when integer_parameter => if (XML_String(obj.integer_value, level + 1) /= Empty_String) then result := result & unbounded_ht(level + 1) & "" & XML_String(obj.integer_value, level + 1) & "" & Unbounded_Lf; end if; when double_parameter => if (XML_String(obj.double_value, level + 1) /= Empty_String) then result := result & unbounded_ht(level + 1) & "" & XML_String(obj.double_value, level + 1) & "" & Unbounded_Lf; end if; when string_parameter => if (XML_String(obj.string_value, level + 1) /= Empty_String) then result := result & unbounded_ht(level + 1) & "" & XML_String(obj.string_value, level + 1) & "" & Unbounded_Lf; end if; end case; result := result & "" & Unbounded_Lf; return (result); end XML_String; function XML_String(obj : in Parameter_Ptr; level : in natural := 0) return Unbounded_String is begin return XML_String(obj.all); end XML_String; function XML_Ref_String(obj : in Parameter; level : in natural := 0) return Unbounded_String is result : Unbounded_String; begin raise xml_ref_string_error; return to_unbounded_string(""); end XML_Ref_String; function XML_Ref_String(obj : in Parameter_Ptr; level : in natural := 0) return Unbounded_String is begin return XML_Ref_String(obj.all); end XML_Ref_String; End Parameters;