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 ------------------------------------------------------------------------------
 --                                                                          --
 --                         GNAT COMPILER COMPONENTS                         --
 --                                                                          --
 --                         I N T E R F A C E S . C                          --
 --                                                                          --
 --                                 B o d y                                  --
 --                                                                          --
 --                            $Revision: 1.15 $
 --                                                                          --
 --          Copyright (C) 1992-2001 Free Software Foundation, Inc.          --
 --                                                                          --
 -- GNAT is free software;  you can  redistribute it  and/or modify it under --
 -- terms of the  GNU General Public License as published  by the Free Soft- --
 -- ware  Foundation;  either version 2,  or (at your option) any later ver- --
 -- sion.  GNAT is distributed in the hope that it will be useful, but WITH- --
 -- OUT 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  distributed with GNAT;  see file COPYING.  If not, write --
 -- to  the Free Software Foundation,  59 Temple Place - Suite 330,  Boston, --
 -- MA 02111-1307, USA.                                                      --
 --                                                                          --
 -- As a special exception,  if other files  instantiate  generics from this --
 -- unit, or you link  this unit with other files  to produce an executable, --
 -- this  unit  does not  by itself cause  the resulting  executable  to  be --
 -- covered  by the  GNU  General  Public  License.  This exception does not --
 -- however invalidate  any other reasons why  the executable file  might be --
 -- covered by the  GNU Public License.                                      --
 --                                                                          --
 -- GNAT was originally developed  by the GNAT team at  New York University. --
 -- It is now maintained by Ada Core Technologies Inc (http://www.gnat.com). --
 --                                                                          --
 ------------------------------------------------------------------------------

 package body Interfaces.C is

    -----------------------
    -- Is_Nul_Terminated --
    -----------------------

    --  Case of char_array

    function Is_Nul_Terminated (Item : char_array) return Boolean is
    begin
       for J in Item'Range loop
          if Item (J) = nul then
             return True;
          end if;
       end loop;

       return False;
    end Is_Nul_Terminated;

    --  Case of wchar_array

    function Is_Nul_Terminated (Item : wchar_array) return Boolean is
    begin
       for J in Item'Range loop
          if Item (J) = wide_nul then
             return True;
          end if;
       end loop;

       return False;
    end Is_Nul_Terminated;

    ------------
    -- To_Ada --
    ------------

    --  Convert char to Character

    function To_Ada (Item : char) return Character is
    begin
       return Character'Val (char'Pos (Item));
    end To_Ada;

    --  Convert char_array to String (function form)

    function To_Ada
      (Item     : char_array;
       Trim_Nul : Boolean := True)
       return     String
    is
       Count : Natural;
       From  : size_t;

    begin
       if Trim_Nul then
          From := Item'First;

          loop
             if From > Item'Last then
                raise Terminator_Error;
             elsif Item (From) = nul then
                exit;
             else
                From := From + 1;
             end if;
          end loop;

          Count := Natural (From - Item'First);

       else
          Count := Item'Length;
       end if;

       declare
          R : String (1 .. Count);

       begin
          for J in R'Range loop
             R (J) := To_Ada (Item (size_t (J) + (Item'First - 1)));
          end loop;

          return R;
       end;
    end To_Ada;

    --  Convert char_array to String (procedure form)

    procedure To_Ada
      (Item       : char_array;
       Target     : out String;
       Count      : out Natural;
       Trim_Nul   : Boolean := True)
    is
       From : size_t;
       To   : Positive;

    begin
       if Trim_Nul then
          From := Item'First;
          loop
             if From > Item'Last then
                raise Terminator_Error;
             elsif Item (From) = nul then
                exit;
             else
                From := From + 1;
             end if;
          end loop;

          Count := Natural (From - Item'First);

       else
          Count := Item'Length;
       end if;

       if Count > Target'Length then
          raise Constraint_Error;

       else
          From := Item'First;
          To   := Target'First;

          for J in 1 .. Count loop
             Target (To) := Character (Item (From));
             From := From + 1;
             To   := To + 1;
          end loop;
       end if;

    end To_Ada;

    --  Convert wchar_t to Wide_Character

    function To_Ada (Item : wchar_t) return Wide_Character is
    begin
       return Wide_Character (Item);
    end To_Ada;

    --  Convert wchar_array to Wide_String (function form)

    function To_Ada
      (Item     : wchar_array;
       Trim_Nul : Boolean := True)
       return     Wide_String
    is
       Count : Natural;
       From  : size_t;

    begin
       if Trim_Nul then
          From := Item'First;

          loop
             if From > Item'Last then
                raise Terminator_Error;
             elsif Item (From) = wide_nul then
                exit;
             else
                From := From + 1;
             end if;
          end loop;

          Count := Natural (From - Item'First);

       else
          Count := Item'Length;
       end if;

       declare
          R : Wide_String (1 .. Count);

       begin
          for J in R'Range loop
             R (J) := To_Ada (Item (size_t (J) + (Item'First - 1)));
          end loop;

          return R;
       end;
    end To_Ada;

    --  Convert wchar_array to Wide_String (procedure form)

    procedure To_Ada
      (Item       : wchar_array;
       Target     : out Wide_String;
       Count      : out Natural;
       Trim_Nul   : Boolean := True)
    is
       From   : size_t;
       To     : Positive;

    begin
       if Trim_Nul then
          From := Item'First;
          loop
             if From > Item'Last then
                raise Terminator_Error;
             elsif Item (From) = wide_nul then
                exit;
             else
                From := From + 1;
             end if;
          end loop;

          Count := Natural (From - Item'First);

       else
          Count := Item'Length;
       end if;

       if Count > Target'Length then
          raise Constraint_Error;

       else
          From := Item'First;
          To   := Target'First;

          for J in 1 .. Count loop
             Target (To) := To_Ada (Item (From));
             From := From + 1;
             To   := To + 1;
          end loop;
       end if;

    end To_Ada;

    ----------
    -- To_C --
    ----------

    --  Convert Character to char

    function To_C (Item : Character) return char is
    begin
       return char'Val (Character'Pos (Item));
    end To_C;

    --  Convert String to char_array (function form)

    function To_C
      (Item       : String;
       Append_Nul : Boolean := True)
       return       char_array
    is
    begin
       if Append_Nul then
          declare
             R : char_array (0 .. Item'Length);

          begin
             for J in Item'Range loop
                R (size_t (J - Item'First)) := To_C (Item (J));
             end loop;

             R (R'Last) := nul;
             return R;
          end;

       else -- Append_Nul is False

          --  A nasty case, if the string is null, we must return
          --  a null char_array. The lower bound of this array is
          --  required to be zero (RM B.3(50)) but that is of course
          --  impossible given that size_t is unsigned. This needs
          --  ARG resolution, but for now GNAT returns bounds 1 .. 0

          if Item'Length = 0 then
             declare
                R : char_array (1 .. 0);

             begin
                return R;
             end;

          else
             declare
                R : char_array (0 .. Item'Length - 1);

             begin
                for J in Item'Range loop
                   R (size_t (J - Item'First)) := To_C (Item (J));
                end loop;

                return R;
             end;
          end if;
       end if;
    end To_C;

    --  Convert String to char_array (procedure form)

    procedure To_C
      (Item       : String;
       Target     : out char_array;
       Count      : out size_t;
       Append_Nul : Boolean := True)
    is
       To : size_t;

    begin
       if Target'Length < Item'Length then
          raise Constraint_Error;

       else
          To := Target'First;
          for From in Item'Range loop
             Target (To) := char (Item (From));
             To := To + 1;
          end loop;

          if Append_Nul then
             if To > Target'Last then
                raise Constraint_Error;
             else
                Target (To) := nul;
                Count := Item'Length + 1;
             end if;

          else
             Count := Item'Length;
          end if;
       end if;
    end To_C;

    --  Convert Wide_Character to wchar_t

    function To_C (Item : Wide_Character) return wchar_t is
    begin
       return wchar_t (Item);
    end To_C;

    --  Convert Wide_String to wchar_array (function form)

    function To_C
      (Item       : Wide_String;
       Append_Nul : Boolean := True)
       return       wchar_array
    is
    begin
       if Append_Nul then
          declare
             R : wchar_array (0 .. Item'Length);

          begin
             for J in Item'Range loop
                R (size_t (J - Item'First)) := To_C (Item (J));
             end loop;

             R (R'Last) := wide_nul;
             return R;
          end;

       else
          --  A nasty case, if the string is null, we must return
          --  a null char_array. The lower bound of this array is
          --  required to be zero (RM B.3(50)) but that is of course
          --  impossible given that size_t is unsigned. This needs
          --  ARG resolution, but for now GNAT returns bounds 1 .. 0

          if Item'Length = 0 then
             declare
                R : wchar_array (1 .. 0);

             begin
                return R;
             end;

          else
             declare
                R : wchar_array (0 .. Item'Length - 1);

             begin
                for J in size_t range 0 .. Item'Length - 1 loop
                   R (J) := To_C (Item (Integer (J) + Item'First));
                end loop;

                return R;
             end;
          end if;
       end if;
    end To_C;

    --  Convert Wide_String to wchar_array (procedure form)

    procedure To_C
      (Item       : Wide_String;
       Target     : out wchar_array;
       Count      : out size_t;
       Append_Nul : Boolean := True)
    is
       To : size_t;

    begin
       if Target'Length < Item'Length then
          raise Constraint_Error;

       else
          To := Target'First;
          for From in Item'Range loop
             Target (To) := To_C (Item (From));
             To := To + 1;
          end loop;

          if Append_Nul then
             if To > Target'Last then
                raise Constraint_Error;
             else
                Target (To) := wide_nul;
                Count := Item'Length + 1;
             end if;

          else
             Count := Item'Length;
          end if;
       end if;
    end To_C;

 end Interfaces.C;
	------------------------------------------------------------------------------
	-- --
	-- GNAT COMPILER COMPONENTS --
	-- --
	-- I N T E R F A C E S . C --
	-- --
	-- B o d y --
	-- --
	-- $Revision: 1.15 $
	-- --
	-- Copyright (C) 1992-2001 Free Software Foundation, Inc. --
	-- --
	-- GNAT is free software; you can redistribute it and/or modify it under --
	-- terms of the GNU General Public License as published by the Free Soft- --
	-- ware Foundation; either version 2, or (at your option) any later ver- --
	-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
	-- OUT 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 distributed with GNAT; see file COPYING. If not, write --
	-- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
	-- MA 02111-1307, USA. --
	-- --
	-- As a special exception, if other files instantiate generics from this --
	-- unit, or you link this unit with other files to produce an executable, --
	-- this unit does not by itself cause the resulting executable to be --
	-- covered by the GNU General Public License. This exception does not --
	-- however invalidate any other reasons why the executable file might be --
	-- covered by the GNU Public License. --
	-- --
	-- GNAT was originally developed by the GNAT team at New York University. --
	-- It is now maintained by Ada Core Technologies Inc (http://www.gnat.com). --
	-- --
	------------------------------------------------------------------------------

	package body Interfaces.C is

	-----------------------
	-- Is_Nul_Terminated --
	-----------------------

	-- Case of char_array

	function Is_Nul_Terminated (Item : char_array) return Boolean is
	begin
	for J in Item'Range loop
	if Item (J) = nul then
	return True;
	end if;
	end loop;

	return False;
	end Is_Nul_Terminated;

	-- Case of wchar_array

	function Is_Nul_Terminated (Item : wchar_array) return Boolean is
	begin
	for J in Item'Range loop
	if Item (J) = wide_nul then
	return True;
	end if;
	end loop;

	return False;
	end Is_Nul_Terminated;

	------------
	-- To_Ada --
	------------

	-- Convert char to Character

	function To_Ada (Item : char) return Character is
	begin
	return Character'Val (char'Pos (Item));
	end To_Ada;

	-- Convert char_array to String (function form)

	function To_Ada
	(Item : char_array;
	Trim_Nul : Boolean := True)
	return String
	is
	Count : Natural;
	From : size_t;

	begin
	if Trim_Nul then
	From := Item'First;

	loop
	if From > Item'Last then
	raise Terminator_Error;
	elsif Item (From) = nul then
	exit;
	else
	From := From + 1;
	end if;
	end loop;

	Count := Natural (From - Item'First);

	else
	Count := Item'Length;
	end if;

	declare
	R : String (1 .. Count);

	begin
	for J in R'Range loop
	R (J) := To_Ada (Item (size_t (J) + (Item'First - 1)));
	end loop;

	return R;
	end;
	end To_Ada;

	-- Convert char_array to String (procedure form)

	procedure To_Ada
	(Item : char_array;
	Target : out String;
	Count : out Natural;
	Trim_Nul : Boolean := True)
	is
	From : size_t;
	To : Positive;

	begin
	if Trim_Nul then
	From := Item'First;
	loop
	if From > Item'Last then
	raise Terminator_Error;
	elsif Item (From) = nul then
	exit;
	else
	From := From + 1;
	end if;
	end loop;

	Count := Natural (From - Item'First);

	else
	Count := Item'Length;
	end if;

	if Count > Target'Length then
	raise Constraint_Error;

	else
	From := Item'First;
	To := Target'First;

	for J in 1 .. Count loop
	Target (To) := Character (Item (From));
	From := From + 1;
	To := To + 1;
	end loop;
	end if;

	end To_Ada;

	-- Convert wchar_t to Wide_Character

	function To_Ada (Item : wchar_t) return Wide_Character is
	begin
	return Wide_Character (Item);
	end To_Ada;

	-- Convert wchar_array to Wide_String (function form)

	function To_Ada
	(Item : wchar_array;
	Trim_Nul : Boolean := True)
	return Wide_String
	is
	Count : Natural;
	From : size_t;

	begin
	if Trim_Nul then
	From := Item'First;

	loop
	if From > Item'Last then
	raise Terminator_Error;
	elsif Item (From) = wide_nul then
	exit;
	else
	From := From + 1;
	end if;
	end loop;

	Count := Natural (From - Item'First);

	else
	Count := Item'Length;
	end if;

	declare
	R : Wide_String (1 .. Count);

	begin
	for J in R'Range loop
	R (J) := To_Ada (Item (size_t (J) + (Item'First - 1)));
	end loop;

	return R;
	end;
	end To_Ada;

	-- Convert wchar_array to Wide_String (procedure form)

	procedure To_Ada
	(Item : wchar_array;
	Target : out Wide_String;
	Count : out Natural;
	Trim_Nul : Boolean := True)
	is
	From : size_t;
	To : Positive;

	begin
	if Trim_Nul then
	From := Item'First;
	loop
	if From > Item'Last then
	raise Terminator_Error;
	elsif Item (From) = wide_nul then
	exit;
	else
	From := From + 1;
	end if;
	end loop;

	Count := Natural (From - Item'First);

	else
	Count := Item'Length;
	end if;

	if Count > Target'Length then
	raise Constraint_Error;

	else
	From := Item'First;
	To := Target'First;

	for J in 1 .. Count loop
	Target (To) := To_Ada (Item (From));
	From := From + 1;
	To := To + 1;
	end loop;
	end if;

	end To_Ada;

	----------
	-- To_C --
	----------

	-- Convert Character to char

	function To_C (Item : Character) return char is
	begin
	return char'Val (Character'Pos (Item));
	end To_C;

	-- Convert String to char_array (function form)

	function To_C
	(Item : String;
	Append_Nul : Boolean := True)
	return char_array
	is
	begin
	if Append_Nul then
	declare
	R : char_array (0 .. Item'Length);

	begin
	for J in Item'Range loop
	R (size_t (J - Item'First)) := To_C (Item (J));
	end loop;

	R (R'Last) := nul;
	return R;
	end;

	else -- Append_Nul is False

	-- A nasty case, if the string is null, we must return
	-- a null char_array. The lower bound of this array is
	-- required to be zero (RM B.3(50)) but that is of course
	-- impossible given that size_t is unsigned. This needs
	-- ARG resolution, but for now GNAT returns bounds 1 .. 0

	if Item'Length = 0 then
	declare
	R : char_array (1 .. 0);

	begin
	return R;
	end;

	else
	declare
	R : char_array (0 .. Item'Length - 1);

	begin
	for J in Item'Range loop
	R (size_t (J - Item'First)) := To_C (Item (J));
	end loop;

	return R;
	end;
	end if;
	end if;
	end To_C;

	-- Convert String to char_array (procedure form)

	procedure To_C
	(Item : String;
	Target : out char_array;
	Count : out size_t;
	Append_Nul : Boolean := True)
	is
	To : size_t;

	begin
	if Target'Length < Item'Length then
	raise Constraint_Error;

	else
	To := Target'First;
	for From in Item'Range loop
	Target (To) := char (Item (From));
	To := To + 1;
	end loop;

	if Append_Nul then
	if To > Target'Last then
	raise Constraint_Error;
	else
	Target (To) := nul;
	Count := Item'Length + 1;
	end if;

	else
	Count := Item'Length;
	end if;
	end if;
	end To_C;

	-- Convert Wide_Character to wchar_t

	function To_C (Item : Wide_Character) return wchar_t is
	begin
	return wchar_t (Item);
	end To_C;

	-- Convert Wide_String to wchar_array (function form)

	function To_C
	(Item : Wide_String;
	Append_Nul : Boolean := True)
	return wchar_array
	is
	begin
	if Append_Nul then
	declare
	R : wchar_array (0 .. Item'Length);

	begin
	for J in Item'Range loop
	R (size_t (J - Item'First)) := To_C (Item (J));
	end loop;

	R (R'Last) := wide_nul;
	return R;
	end;

	else
	-- A nasty case, if the string is null, we must return
	-- a null char_array. The lower bound of this array is
	-- required to be zero (RM B.3(50)) but that is of course
	-- impossible given that size_t is unsigned. This needs
	-- ARG resolution, but for now GNAT returns bounds 1 .. 0

	if Item'Length = 0 then
	declare
	R : wchar_array (1 .. 0);

	begin
	return R;
	end;

	else
	declare
	R : wchar_array (0 .. Item'Length - 1);

	begin
	for J in size_t range 0 .. Item'Length - 1 loop
	R (J) := To_C (Item (Integer (J) + Item'First));
	end loop;

	return R;
	end;
	end if;
	end if;
	end To_C;

	-- Convert Wide_String to wchar_array (procedure form)

	procedure To_C
	(Item : Wide_String;
	Target : out wchar_array;
	Count : out size_t;
	Append_Nul : Boolean := True)
	is
	To : size_t;

	begin
	if Target'Length < Item'Length then
	raise Constraint_Error;

	else
	To := Target'First;
	for From in Item'Range loop
	Target (To) := To_C (Item (From));
	To := To + 1;
	end loop;

	if Append_Nul then
	if To > Target'Last then
	raise Constraint_Error;
	else
	Target (To) := wide_nul;
	Count := Item'Length + 1;
	end if;

	else
	Count := Item'Length;
	end if;
	end if;
	end To_C;

	end Interfaces.C;