gcc/ada/aa_util.adb - gcc - Git at Google

 ------------------------------------------------------------------------------
 --                                                                          --
 --                        GNAAMP COMPILER COMPONENTS                        --
 --                                                                          --
 --                              A A _ U T I L                               --
 --                                                                          --
 --                                 B o d y                                  --
 --                                                                          --
 --                     Copyright (C) 2001-2012, AdaCore                     --
 --                                                                          --
 -- 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 3,  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 COPYING3.  If not, go to --
 -- http://www.gnu.org/licenses for a complete copy of the license.          --
 --                                                                          --
 ------------------------------------------------------------------------------

 with Sem_Aux; use Sem_Aux;
 with Sinput;  use Sinput;
 with Stand;   use Stand;
 with Stringt; use Stringt;

 with GNAT.Case_Util;  use GNAT.Case_Util;

 package body AA_Util is

    ----------------------
    -- Is_Global_Entity --
    ----------------------

    function Is_Global_Entity (E : Entity_Id) return Boolean is
    begin
       return Enclosing_Dynamic_Scope (E) = Standard_Standard;
    end Is_Global_Entity;

    -----------------
    -- New_Name_Id --
    -----------------

    function New_Name_Id (Name : String) return Name_Id is
    begin
       for J in 1 .. Name'Length loop
          Name_Buffer (J) := Name (Name'First + (J - 1));
       end loop;

       Name_Len := Name'Length;
       return Name_Find;
    end New_Name_Id;

    -----------------
    -- Name_String --
    -----------------

    function Name_String (Name : Name_Id) return String is
    begin
       pragma Assert (Name /= No_Name);
       return Get_Name_String (Name);
    end Name_String;

    -------------------
    -- New_String_Id --
    -------------------

    function New_String_Id (S : String) return String_Id is
    begin
       for J in 1 .. S'Length loop
          Name_Buffer (J) := S (S'First + (J - 1));
       end loop;

       Name_Len := S'Length;
       return String_From_Name_Buffer;
    end New_String_Id;

    ------------------
    -- String_Value --
    ------------------

    function String_Value (Str_Id : String_Id) return String is
    begin
       --  ??? pragma Assert (Str_Id /= No_String);

       if Str_Id = No_String then
          return "";
       end if;

       String_To_Name_Buffer (Str_Id);

       return Name_Buffer (1 .. Name_Len);
    end String_Value;

    ---------------
    -- Next_Name --
    ---------------

    function Next_Name
      (Name_Seq    : not null access Name_Sequencer;
       Name_Prefix : String) return Name_Id
    is
    begin
       Name_Seq.Sequence_Number := Name_Seq.Sequence_Number + 1;

       declare
          Number_Image : constant String := Name_Seq.Sequence_Number'Img;
       begin
          return New_Name_Id
                   (Name_Prefix & "__" & Number_Image (2 .. Number_Image'Last));
       end;
    end Next_Name;

    --------------------
    -- Elab_Spec_Name --
    --------------------

    function Elab_Spec_Name (Module_Name : Name_Id) return Name_Id is
    begin
       return New_Name_Id (Name_String (Module_Name) & "___elabs");
    end Elab_Spec_Name;

    --------------------
    -- Elab_Spec_Name --
    --------------------

    function Elab_Body_Name (Module_Name : Name_Id) return Name_Id is
    begin
       return New_Name_Id (Name_String (Module_Name) & "___elabb");
    end Elab_Body_Name;

    --------------------------------
    -- Source_Name_Without_Suffix --
    --------------------------------

    function File_Name_Without_Suffix (File_Name : String) return String is
       Name_Index : Natural := File_Name'Last;

    begin
       pragma Assert (File_Name'Length > 0);

       --  We loop in reverse to ensure that file names that follow nonstandard
       --  naming conventions that include additional dots are handled properly,
       --  preserving dots in front of the main file suffix (for example,
       --  main.2.ada => main.2).

       while Name_Index >= File_Name'First
         and then File_Name (Name_Index) /= '.'
       loop
          Name_Index := Name_Index - 1;
       end loop;

       --  Return the part of the file name up to but not including the last dot
       --  in the name, or return the whole name as is if no dot character was
       --  found.

       if Name_Index >= File_Name'First then
          return File_Name (File_Name'First .. Name_Index - 1);

       else
          return File_Name;
       end if;
    end File_Name_Without_Suffix;

    -----------------
    -- Source_Name --
    -----------------

    function Source_Name (Sloc : Source_Ptr) return File_Name_Type is
    begin
       if Sloc = No_Location or Sloc = Standard_Location then
          return No_File;
       else
          return File_Name (Get_Source_File_Index (Sloc));
       end if;
    end Source_Name;

    --------------------------------
    -- Source_Name_Without_Suffix --
    --------------------------------

    function Source_Name_Without_Suffix (Sloc : Source_Ptr) return String is
       Src_Name  : constant String :=
         Name_String (Name_Id (Source_Name (Sloc)));
       Src_Index : Natural         := Src_Name'Last;

    begin
       pragma Assert (Src_Name'Length > 0);

       --  Treat the presence of a ".dg" suffix specially, stripping it off
       --  in addition to any suffix preceding it.

       if Src_Name'Length >= 4
         and then Src_Name (Src_Name'Last - 2 .. Src_Name'Last) = ".dg"
       then
          Src_Index := Src_Index - 3;
       end if;

       return File_Name_Without_Suffix (Src_Name (Src_Name'First .. Src_Index));
    end Source_Name_Without_Suffix;

    ----------------------
    -- Source_Id_String --
    ----------------------

    function Source_Id_String (Unit_Name : Name_Id) return String is
       Unit_String : String   := Name_String (Unit_Name);
       Name_Last   : Positive := Unit_String'Last;
       Name_Index  : Positive := Unit_String'First;

    begin
       To_Mixed (Unit_String);

       --  Replace any embedded sequences of two or more '_' characters
       --  with a single '.' character. Note that this will leave any
       --  leading or trailing single '_' characters untouched, but those
       --  should normally not occur in compilation unit names (and if
       --  they do then it's better to leave them as is).

       while Name_Index <= Name_Last loop
          if Unit_String (Name_Index) = '_'
            and then Name_Index /= Name_Last
            and then Unit_String (Name_Index + 1) = '_'
          then
             Unit_String (Name_Index) := '.';
             Name_Index := Name_Index + 1;

             while Unit_String (Name_Index) = '_'
               and then Name_Index <= Name_Last
             loop
                Unit_String (Name_Index .. Name_Last - 1)
                  := Unit_String (Name_Index + 1 .. Name_Last);
                Name_Last := Name_Last - 1;
             end loop;

          else
             Name_Index := Name_Index + 1;
          end if;
       end loop;

       return Unit_String (Unit_String'First .. Name_Last);
    end Source_Id_String;

    --  This version of Source_Id_String is obsolescent and is being
    --  replaced with the above function.

    function Source_Id_String (Sloc : Source_Ptr) return String is
       File_Index : Source_File_Index;

    begin
       --  Use an arbitrary artificial 22-character value for package Standard,
       --  since Standard doesn't have an associated source file.

       if Sloc <= Standard_Location then
          return "20010101010101standard";

       --  Return the concatentation of the source file's timestamp and
       --  its 8-digit hex checksum.

       else
          File_Index := Get_Source_File_Index (Sloc);

          return String (Time_Stamp (File_Index))
                   & Get_Hex_String (Source_Checksum (File_Index));
       end if;
    end Source_Id_String;

    ---------------
    -- Source_Id --
    ---------------

    function Source_Id (Unit_Name : Name_Id) return String_Id is
    begin
       return New_String_Id (Source_Id_String (Unit_Name));
    end Source_Id;

    --  This version of Source_Id is obsolescent and is being
    --  replaced with the above function.

    function Source_Id (Sloc : Source_Ptr) return String_Id is
    begin
       return New_String_Id (Source_Id_String (Sloc));
    end Source_Id;

    -----------
    -- Image --
    -----------

    function Image (I : Int) return String is
       Image_String : constant String := Pos'Image (I);
    begin
       if Image_String (1) = ' ' then
          return Image_String (2 .. Image_String'Last);
       else
          return Image_String;
       end if;
    end Image;

    --------------
    -- UI_Image --
    --------------

    function UI_Image (I : Uint; Format : Integer_Image_Format) return String is
    begin
       if Format = Decimal then
          UI_Image (I, Format => Decimal);
          return UI_Image_Buffer (1 .. UI_Image_Length);

       elsif Format = Ada_Hex then
          UI_Image (I, Format => Hex);
          return UI_Image_Buffer (1 .. UI_Image_Length);

       else
          pragma Assert (I >= Uint_0);

          UI_Image (I, Format => Hex);

          pragma Assert (UI_Image_Buffer (1 .. 3) = "16#"
                          and then UI_Image_Buffer (UI_Image_Length) = '#');

          --  Declare a string where we will copy the digits from the UI_Image,
          --  interspersing '_' characters as 4-digit group separators. The
          --  underscores in UI_Image's result are not always at the places
          --  where we want them, which is why we do the following copy
          --  (e.g., we map "16#ABCD_EF#" to "^AB_CDEF^").

          declare
             Hex_String     : String (1 .. UI_Image_Max);
             Last_Index     : Natural;
             Digit_Count    : Natural := 0;
             UI_Image_Index : Natural := 4; -- Skip past the "16#" bracket
             Sep_Count      : Natural := 0;

          begin
             --  Count up the number of non-underscore characters in the
             --  literal value portion of the UI_Image string.

             while UI_Image_Buffer (UI_Image_Index) /= '#' loop
                if UI_Image_Buffer (UI_Image_Index) /= '_' then
                   Digit_Count := Digit_Count + 1;
                end if;

                UI_Image_Index := UI_Image_Index + 1;
             end loop;

             UI_Image_Index := 4; -- Reset the index past the "16#" bracket

             Last_Index := 1;

             Hex_String (Last_Index) := '^';
             Last_Index := Last_Index + 1;

             --  Copy digits from UI_Image_Buffer to Hex_String, adding
             --  underscore separators as appropriate. The initial value
             --  of Sep_Count accounts for the leading '^' and being one
             --  character ahead after inserting a digit.

             Sep_Count := 2;

             while UI_Image_Buffer (UI_Image_Index) /= '#' loop
                if UI_Image_Buffer (UI_Image_Index) /= '_' then
                   Hex_String (Last_Index) := UI_Image_Buffer (UI_Image_Index);

                   Last_Index := Last_Index + 1;

                   --  Add '_' characters to separate groups of four hex
                   --  digits for readability (grouping from right to left).

                   if (Digit_Count - (Last_Index - Sep_Count)) mod 4 = 0 then
                      Hex_String (Last_Index) := '_';
                      Last_Index := Last_Index + 1;
                      Sep_Count := Sep_Count + 1;
                   end if;
                end if;

                UI_Image_Index := UI_Image_Index + 1;
             end loop;

             --  Back up before any trailing underscore

             if Hex_String (Last_Index - 1) = '_' then
                Last_Index := Last_Index - 1;
             end if;

             Hex_String (Last_Index) := '^';

             return Hex_String (1 .. Last_Index);
          end;
       end if;
    end UI_Image;

    --------------
    -- UR_Image --
    --------------

    --  Shouldn't this be added to Urealp???

    function UR_Image (R : Ureal) return String is

       --  The algorithm used here for conversion of Ureal values
       --  is taken from the JGNAT back end.

       Num    : Long_Long_Float := 0.0;
       Den    : Long_Long_Float := 0.0;
       Sign   : Long_Long_Float := 1.0;
       Result : Long_Long_Float;
       Tmp    : Uint;
       Index  : Integer;

    begin
       if UR_Is_Negative (R) then
          Sign := -1.0;
       end if;

       --  In the following calculus, we consider numbers modulo 2 ** 31,
       --  so that we don't have problems with signed Int...

       Tmp := abs (Numerator (R));
       Index := 0;
       while Tmp > 0 loop
          Num := Num
            + Long_Long_Float (UI_To_Int (Tmp mod (Uint_2 ** 31)))
            * (2.0 ** Index);
          Tmp := Tmp / Uint_2 ** 31;
          Index := Index + 31;
       end loop;

       Tmp := abs (Denominator (R));
       if Rbase (R) /= 0 then
          Tmp := Rbase (R) ** Tmp;
       end if;

       Index := 0;
       while Tmp > 0 loop
          Den := Den
            + Long_Long_Float (UI_To_Int (Tmp mod (Uint_2 ** 31)))
            * (2.0 ** Index);
          Tmp := Tmp / Uint_2 ** 31;
          Index := Index + 31;
       end loop;

       --  If the denominator denotes a negative power of Rbase,
       --  then multiply by the denominator.

       if Rbase (R) /= 0 and then Denominator (R) < 0 then
          Result := Sign * Num * Den;

       --  Otherwise compute the quotient

       else
          Result := Sign * Num / Den;
       end if;

       return Long_Long_Float'Image (Result);
    end UR_Image;

 end AA_Util;
	------------------------------------------------------------------------------
	-- --
	-- GNAAMP COMPILER COMPONENTS --
	-- --
	-- A A _ U T I L --
	-- --
	-- B o d y --
	-- --
	-- Copyright (C) 2001-2012, AdaCore --
	-- --
	-- 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 3, 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 COPYING3. If not, go to --
	-- http://www.gnu.org/licenses for a complete copy of the license. --
	-- --
	------------------------------------------------------------------------------

	with Sem_Aux; use Sem_Aux;
	with Sinput; use Sinput;
	with Stand; use Stand;
	with Stringt; use Stringt;

	with GNAT.Case_Util; use GNAT.Case_Util;

	package body AA_Util is

	----------------------
	-- Is_Global_Entity --
	----------------------

	function Is_Global_Entity (E : Entity_Id) return Boolean is
	begin
	return Enclosing_Dynamic_Scope (E) = Standard_Standard;
	end Is_Global_Entity;

	-----------------
	-- New_Name_Id --
	-----------------

	function New_Name_Id (Name : String) return Name_Id is
	begin
	for J in 1 .. Name'Length loop
	Name_Buffer (J) := Name (Name'First + (J - 1));
	end loop;

	Name_Len := Name'Length;
	return Name_Find;
	end New_Name_Id;

	-----------------
	-- Name_String --
	-----------------

	function Name_String (Name : Name_Id) return String is
	begin
	pragma Assert (Name /= No_Name);
	return Get_Name_String (Name);
	end Name_String;

	-------------------
	-- New_String_Id --
	-------------------

	function New_String_Id (S : String) return String_Id is
	begin
	for J in 1 .. S'Length loop
	Name_Buffer (J) := S (S'First + (J - 1));
	end loop;

	Name_Len := S'Length;
	return String_From_Name_Buffer;
	end New_String_Id;

	------------------
	-- String_Value --
	------------------

	function String_Value (Str_Id : String_Id) return String is
	begin
	-- ??? pragma Assert (Str_Id /= No_String);

	if Str_Id = No_String then
	return "";
	end if;

	String_To_Name_Buffer (Str_Id);

	return Name_Buffer (1 .. Name_Len);
	end String_Value;

	---------------
	-- Next_Name --
	---------------

	function Next_Name
	(Name_Seq : not null access Name_Sequencer;
	Name_Prefix : String) return Name_Id
	is
	begin
	Name_Seq.Sequence_Number := Name_Seq.Sequence_Number + 1;

	declare
	Number_Image : constant String := Name_Seq.Sequence_Number'Img;
	begin
	return New_Name_Id
	(Name_Prefix & "__" & Number_Image (2 .. Number_Image'Last));
	end;
	end Next_Name;

	--------------------
	-- Elab_Spec_Name --
	--------------------

	function Elab_Spec_Name (Module_Name : Name_Id) return Name_Id is
	begin
	return New_Name_Id (Name_String (Module_Name) & "___elabs");
	end Elab_Spec_Name;

	--------------------
	-- Elab_Spec_Name --
	--------------------

	function Elab_Body_Name (Module_Name : Name_Id) return Name_Id is
	begin
	return New_Name_Id (Name_String (Module_Name) & "___elabb");
	end Elab_Body_Name;

	--------------------------------
	-- Source_Name_Without_Suffix --
	--------------------------------

	function File_Name_Without_Suffix (File_Name : String) return String is
	Name_Index : Natural := File_Name'Last;

	begin
	pragma Assert (File_Name'Length > 0);

	-- We loop in reverse to ensure that file names that follow nonstandard
	-- naming conventions that include additional dots are handled properly,
	-- preserving dots in front of the main file suffix (for example,
	-- main.2.ada => main.2).

	while Name_Index >= File_Name'First
	and then File_Name (Name_Index) /= '.'
	loop
	Name_Index := Name_Index - 1;
	end loop;

	-- Return the part of the file name up to but not including the last dot
	-- in the name, or return the whole name as is if no dot character was
	-- found.

	if Name_Index >= File_Name'First then
	return File_Name (File_Name'First .. Name_Index - 1);

	else
	return File_Name;
	end if;
	end File_Name_Without_Suffix;

	-----------------
	-- Source_Name --
	-----------------

	function Source_Name (Sloc : Source_Ptr) return File_Name_Type is
	begin
	if Sloc = No_Location or Sloc = Standard_Location then
	return No_File;
	else
	return File_Name (Get_Source_File_Index (Sloc));
	end if;
	end Source_Name;

	--------------------------------
	-- Source_Name_Without_Suffix --
	--------------------------------

	function Source_Name_Without_Suffix (Sloc : Source_Ptr) return String is
	Src_Name : constant String :=
	Name_String (Name_Id (Source_Name (Sloc)));
	Src_Index : Natural := Src_Name'Last;

	begin
	pragma Assert (Src_Name'Length > 0);

	-- Treat the presence of a ".dg" suffix specially, stripping it off
	-- in addition to any suffix preceding it.

	if Src_Name'Length >= 4
	and then Src_Name (Src_Name'Last - 2 .. Src_Name'Last) = ".dg"
	then
	Src_Index := Src_Index - 3;
	end if;

	return File_Name_Without_Suffix (Src_Name (Src_Name'First .. Src_Index));
	end Source_Name_Without_Suffix;

	----------------------
	-- Source_Id_String --
	----------------------

	function Source_Id_String (Unit_Name : Name_Id) return String is
	Unit_String : String := Name_String (Unit_Name);
	Name_Last : Positive := Unit_String'Last;
	Name_Index : Positive := Unit_String'First;

	begin
	To_Mixed (Unit_String);

	-- Replace any embedded sequences of two or more '_' characters
	-- with a single '.' character. Note that this will leave any
	-- leading or trailing single '_' characters untouched, but those
	-- should normally not occur in compilation unit names (and if
	-- they do then it's better to leave them as is).

	while Name_Index <= Name_Last loop
	if Unit_String (Name_Index) = '_'
	and then Name_Index /= Name_Last
	and then Unit_String (Name_Index + 1) = '_'
	then
	Unit_String (Name_Index) := '.';
	Name_Index := Name_Index + 1;

	while Unit_String (Name_Index) = '_'
	and then Name_Index <= Name_Last
	loop
	Unit_String (Name_Index .. Name_Last - 1)
	:= Unit_String (Name_Index + 1 .. Name_Last);
	Name_Last := Name_Last - 1;
	end loop;

	else
	Name_Index := Name_Index + 1;
	end if;
	end loop;

	return Unit_String (Unit_String'First .. Name_Last);
	end Source_Id_String;

	-- This version of Source_Id_String is obsolescent and is being
	-- replaced with the above function.

	function Source_Id_String (Sloc : Source_Ptr) return String is
	File_Index : Source_File_Index;

	begin
	-- Use an arbitrary artificial 22-character value for package Standard,
	-- since Standard doesn't have an associated source file.

	if Sloc <= Standard_Location then
	return "20010101010101standard";

	-- Return the concatentation of the source file's timestamp and
	-- its 8-digit hex checksum.

	else
	File_Index := Get_Source_File_Index (Sloc);

	return String (Time_Stamp (File_Index))
	& Get_Hex_String (Source_Checksum (File_Index));
	end if;
	end Source_Id_String;

	---------------
	-- Source_Id --
	---------------

	function Source_Id (Unit_Name : Name_Id) return String_Id is
	begin
	return New_String_Id (Source_Id_String (Unit_Name));
	end Source_Id;

	-- This version of Source_Id is obsolescent and is being
	-- replaced with the above function.

	function Source_Id (Sloc : Source_Ptr) return String_Id is
	begin
	return New_String_Id (Source_Id_String (Sloc));
	end Source_Id;

	-----------
	-- Image --
	-----------

	function Image (I : Int) return String is
	Image_String : constant String := Pos'Image (I);
	begin
	if Image_String (1) = ' ' then
	return Image_String (2 .. Image_String'Last);
	else
	return Image_String;
	end if;
	end Image;

	--------------
	-- UI_Image --
	--------------

	function UI_Image (I : Uint; Format : Integer_Image_Format) return String is
	begin
	if Format = Decimal then
	UI_Image (I, Format => Decimal);
	return UI_Image_Buffer (1 .. UI_Image_Length);

	elsif Format = Ada_Hex then
	UI_Image (I, Format => Hex);
	return UI_Image_Buffer (1 .. UI_Image_Length);

	else
	pragma Assert (I >= Uint_0);

	UI_Image (I, Format => Hex);

	pragma Assert (UI_Image_Buffer (1 .. 3) = "16#"
	and then UI_Image_Buffer (UI_Image_Length) = '#');

	-- Declare a string where we will copy the digits from the UI_Image,
	-- interspersing '_' characters as 4-digit group separators. The
	-- underscores in UI_Image's result are not always at the places
	-- where we want them, which is why we do the following copy
	-- (e.g., we map "16#ABCD_EF#" to "^AB_CDEF^").

	declare
	Hex_String : String (1 .. UI_Image_Max);
	Last_Index : Natural;
	Digit_Count : Natural := 0;
	UI_Image_Index : Natural := 4; -- Skip past the "16#" bracket
	Sep_Count : Natural := 0;

	begin
	-- Count up the number of non-underscore characters in the
	-- literal value portion of the UI_Image string.

	while UI_Image_Buffer (UI_Image_Index) /= '#' loop
	if UI_Image_Buffer (UI_Image_Index) /= '_' then
	Digit_Count := Digit_Count + 1;
	end if;

	UI_Image_Index := UI_Image_Index + 1;
	end loop;

	UI_Image_Index := 4; -- Reset the index past the "16#" bracket

	Last_Index := 1;

	Hex_String (Last_Index) := '^';
	Last_Index := Last_Index + 1;

	-- Copy digits from UI_Image_Buffer to Hex_String, adding
	-- underscore separators as appropriate. The initial value
	-- of Sep_Count accounts for the leading '^' and being one
	-- character ahead after inserting a digit.

	Sep_Count := 2;

	while UI_Image_Buffer (UI_Image_Index) /= '#' loop
	if UI_Image_Buffer (UI_Image_Index) /= '_' then
	Hex_String (Last_Index) := UI_Image_Buffer (UI_Image_Index);

	Last_Index := Last_Index + 1;

	-- Add '_' characters to separate groups of four hex
	-- digits for readability (grouping from right to left).

	if (Digit_Count - (Last_Index - Sep_Count)) mod 4 = 0 then
	Hex_String (Last_Index) := '_';
	Last_Index := Last_Index + 1;
	Sep_Count := Sep_Count + 1;
	end if;
	end if;

	UI_Image_Index := UI_Image_Index + 1;
	end loop;

	-- Back up before any trailing underscore

	if Hex_String (Last_Index - 1) = '_' then
	Last_Index := Last_Index - 1;
	end if;

	Hex_String (Last_Index) := '^';

	return Hex_String (1 .. Last_Index);
	end;
	end if;
	end UI_Image;

	--------------
	-- UR_Image --
	--------------

	-- Shouldn't this be added to Urealp???

	function UR_Image (R : Ureal) return String is

	-- The algorithm used here for conversion of Ureal values
	-- is taken from the JGNAT back end.

	Num : Long_Long_Float := 0.0;
	Den : Long_Long_Float := 0.0;
	Sign : Long_Long_Float := 1.0;
	Result : Long_Long_Float;
	Tmp : Uint;
	Index : Integer;

	begin
	if UR_Is_Negative (R) then
	Sign := -1.0;
	end if;

	-- In the following calculus, we consider numbers modulo 2 ** 31,
	-- so that we don't have problems with signed Int...

	Tmp := abs (Numerator (R));
	Index := 0;
	while Tmp > 0 loop
	Num := Num
	+ Long_Long_Float (UI_To_Int (Tmp mod (Uint_2 ** 31)))
	* (2.0 ** Index);
	Tmp := Tmp / Uint_2 ** 31;
	Index := Index + 31;
	end loop;

	Tmp := abs (Denominator (R));
	if Rbase (R) /= 0 then
	Tmp := Rbase (R) ** Tmp;
	end if;

	Index := 0;
	while Tmp > 0 loop
	Den := Den
	+ Long_Long_Float (UI_To_Int (Tmp mod (Uint_2 ** 31)))
	* (2.0 ** Index);
	Tmp := Tmp / Uint_2 ** 31;
	Index := Index + 31;
	end loop;

	-- If the denominator denotes a negative power of Rbase,
	-- then multiply by the denominator.

	if Rbase (R) /= 0 and then Denominator (R) < 0 then
	Result := Sign * Num * Den;

	-- Otherwise compute the quotient

	else
	Result := Sign * Num / Den;
	end if;

	return Long_Long_Float'Image (Result);
	end UR_Image;

	end AA_Util;