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 --                                                                          --
 --                         GNAT COMPILER COMPONENTS                         --
 --                                                                          --
 --                   I N T E R F A C E S . F O R T R A N                    --
 --                                                                          --
 --                                 S p e c                                  --
 --                                                                          --
 -- This specification is derived from the Ada Reference Manual for use with --
 -- GNAT.  In accordance with the copyright of that document, you can freely --
 -- copy and modify this specification,  provided that if you redistribute a --
 -- modified version,  any changes that you have made are clearly indicated. --
 --                                                                          --
 ------------------------------------------------------------------------------

 with Ada.Numerics.Generic_Complex_Types;
 pragma Elaborate_All (Ada.Numerics.Generic_Complex_Types);

 package Interfaces.Fortran is
    pragma Pure;

    type Fortran_Integer  is new Integer;
    type Real             is new Float;
    type Double_Precision is new Long_Float;

    type Logical is new Boolean;
    for Logical'Size use Integer'Size;
    pragma Convention (Fortran, Logical);
    --  As required by Fortran standard, logical allocates same space as
    --  an integer. The convention is important, since in Fortran, Booleans
    --  are implemented with zero/non-zero semantics for False/True, and the
    --  pragma Convention (Fortran) activates the special handling required
    --  in this case.

    package Single_Precision_Complex_Types is
       new Ada.Numerics.Generic_Complex_Types (Real);

    package Double_Precision_Complex_Types is
       new Ada.Numerics.Generic_Complex_Types (Double_Precision);

    type Complex is new Single_Precision_Complex_Types.Complex;

    type Double_Complex is new Double_Precision_Complex_Types.Complex;

    subtype Imaginary is Single_Precision_Complex_Types.Imaginary;
    i : Imaginary renames Single_Precision_Complex_Types.i;
    j : Imaginary renames Single_Precision_Complex_Types.j;

    type Character_Set is new Character;

    type Fortran_Character is array (Positive range <>) of Character_Set;

    --  Additional declarations as permitted by Ada 2012, p.608, paragraph 21.
    --  Interoperability with Fortran 77's vendor extension using star
    --  notation and Fortran 90's intrinsic types with kind=n parameter.
    --  The following assumes that `n' matches the byte size, which
    --  most Fortran compiler, including GCC's follow.

    type Integer_Star_1  is new Integer_8;
    type Integer_Kind_1  is new Integer_8;
    type Integer_Star_2  is new Integer_16;
    type Integer_Kind_2  is new Integer_16;
    type Integer_Star_4  is new Integer_32;
    type Integer_Kind_4  is new Integer_32;
    type Integer_Star_8  is new Integer_64;
    type Integer_Kind_8  is new Integer_64;

    type Logical_Star_1  is new Boolean with Convention => Fortran, Size =>  8;
    type Logical_Star_2  is new Boolean with Convention => Fortran, Size => 16;
    type Logical_Star_4  is new Boolean with Convention => Fortran, Size => 32;
    type Logical_Star_8  is new Boolean with Convention => Fortran, Size => 64;
    type Logical_Kind_1  is new Boolean with Convention => Fortran, Size =>  8;
    type Logical_Kind_2  is new Boolean with Convention => Fortran, Size => 16;
    type Logical_Kind_4  is new Boolean with Convention => Fortran, Size => 32;
    type Logical_Kind_8  is new Boolean with Convention => Fortran, Size => 64;

    type Real_Star_4  is new Float;
    type Real_Kind_4  is new Float;
    type Real_Star_8  is new Long_Float;
    type Real_Kind_8  is new Long_Float;
    --  In the kind syntax, n is the same as the associated real kind

    type Complex_Star_8  is new Complex;
    type Complex_Kind_4  is new Complex;
    type Complex_Star_16 is new Double_Complex;
    type Complex_Kind_8  is new Double_Complex;
    --  In the star syntax, n is twice as large (real+imaginary size)

    type Character_Kind_n is new Fortran_Character;

    function To_Fortran (Item : Character)     return Character_Set;
    function To_Ada     (Item : Character_Set) return Character;

    function To_Fortran (Item : String)            return Fortran_Character;
    function To_Ada     (Item : Fortran_Character) return String;

    procedure To_Fortran
      (Item   : String;
       Target : out Fortran_Character;
       Last   : out Natural);

    procedure To_Ada
      (Item   : Fortran_Character;
       Target : out String;
       Last   : out Natural);

 end Interfaces.Fortran;
	------------------------------------------------------------------------------
	-- --
	-- GNAT COMPILER COMPONENTS --
	-- --
	-- I N T E R F A C E S . F O R T R A N --
	-- --
	-- S p e c --
	-- --
	-- This specification is derived from the Ada Reference Manual for use with --
	-- GNAT. In accordance with the copyright of that document, you can freely --
	-- copy and modify this specification, provided that if you redistribute a --
	-- modified version, any changes that you have made are clearly indicated. --
	-- --
	------------------------------------------------------------------------------

	with Ada.Numerics.Generic_Complex_Types;
	pragma Elaborate_All (Ada.Numerics.Generic_Complex_Types);

	package Interfaces.Fortran is
	pragma Pure;

	type Fortran_Integer is new Integer;
	type Real is new Float;
	type Double_Precision is new Long_Float;

	type Logical is new Boolean;
	for Logical'Size use Integer'Size;
	pragma Convention (Fortran, Logical);
	-- As required by Fortran standard, logical allocates same space as
	-- an integer. The convention is important, since in Fortran, Booleans
	-- are implemented with zero/non-zero semantics for False/True, and the
	-- pragma Convention (Fortran) activates the special handling required
	-- in this case.

	package Single_Precision_Complex_Types is
	new Ada.Numerics.Generic_Complex_Types (Real);

	package Double_Precision_Complex_Types is
	new Ada.Numerics.Generic_Complex_Types (Double_Precision);

	type Complex is new Single_Precision_Complex_Types.Complex;

	type Double_Complex is new Double_Precision_Complex_Types.Complex;

	subtype Imaginary is Single_Precision_Complex_Types.Imaginary;
	i : Imaginary renames Single_Precision_Complex_Types.i;
	j : Imaginary renames Single_Precision_Complex_Types.j;

	type Character_Set is new Character;

	type Fortran_Character is array (Positive range <>) of Character_Set;

	-- Additional declarations as permitted by Ada 2012, p.608, paragraph 21.
	-- Interoperability with Fortran 77's vendor extension using star
	-- notation and Fortran 90's intrinsic types with kind=n parameter.
	-- The following assumes that `n' matches the byte size, which
	-- most Fortran compiler, including GCC's follow.

	type Integer_Star_1 is new Integer_8;
	type Integer_Kind_1 is new Integer_8;
	type Integer_Star_2 is new Integer_16;
	type Integer_Kind_2 is new Integer_16;
	type Integer_Star_4 is new Integer_32;
	type Integer_Kind_4 is new Integer_32;
	type Integer_Star_8 is new Integer_64;
	type Integer_Kind_8 is new Integer_64;

	type Logical_Star_1 is new Boolean with Convention => Fortran, Size => 8;
	type Logical_Star_2 is new Boolean with Convention => Fortran, Size => 16;
	type Logical_Star_4 is new Boolean with Convention => Fortran, Size => 32;
	type Logical_Star_8 is new Boolean with Convention => Fortran, Size => 64;
	type Logical_Kind_1 is new Boolean with Convention => Fortran, Size => 8;
	type Logical_Kind_2 is new Boolean with Convention => Fortran, Size => 16;
	type Logical_Kind_4 is new Boolean with Convention => Fortran, Size => 32;
	type Logical_Kind_8 is new Boolean with Convention => Fortran, Size => 64;

	type Real_Star_4 is new Float;
	type Real_Kind_4 is new Float;
	type Real_Star_8 is new Long_Float;
	type Real_Kind_8 is new Long_Float;
	-- In the kind syntax, n is the same as the associated real kind

	type Complex_Star_8 is new Complex;
	type Complex_Kind_4 is new Complex;
	type Complex_Star_16 is new Double_Complex;
	type Complex_Kind_8 is new Double_Complex;
	-- In the star syntax, n is twice as large (real+imaginary size)

	type Character_Kind_n is new Fortran_Character;

	function To_Fortran (Item : Character) return Character_Set;
	function To_Ada (Item : Character_Set) return Character;

	function To_Fortran (Item : String) return Fortran_Character;
	function To_Ada (Item : Fortran_Character) return String;

	procedure To_Fortran
	(Item : String;
	Target : out Fortran_Character;
	Last : out Natural);

	procedure To_Ada
	(Item : Fortran_Character;
	Target : out String;
	Last : out Natural);

	end Interfaces.Fortran;