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B.5 Interfacing with Fortran
1
{interface to Fortran}
{Fortran interface}
The facilities relevant to interfacing with the Fortran
language are the package Interfaces.Fortran and support for the Import,
Export and Convention pragmas with
convention_
identifier
Fortran.
2
The package Interfaces.Fortran defines Ada types
whose representations are identical to the default representations of
the Fortran intrinsic types Integer, Real, Double Precision, Complex,
Logical, and Character in a supported Fortran implementation. These Ada
types can therefore be used to pass objects between Ada and Fortran programs.
Static Semantics
3
The library package
Interfaces.Fortran has the following declaration:
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with Ada.Numerics.Generic_Complex_Types; -- see G.1.1
pragma Elaborate_All(Ada.Numerics.Generic_Complex_Types);
package Interfaces.Fortran is
pragma Pure(Fortran);
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type Fortran_Integer is range implementation-defined;
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type Real is digits implementation-defined;
type Double_Precision is digits implementation-defined;
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type Logical is new Boolean;
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package Single_Precision_Complex_Types is
new Ada.Numerics.Generic_Complex_Types (Real);
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type Complex is new Single_Precision_Complex_Types.Complex;
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subtype Imaginary is Single_Precision_Complex_Types.Imaginary;
i : Imaginary renames Single_Precision_Complex_Types.i;
j : Imaginary renames Single_Precision_Complex_Types.j;
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type Character_Set is implementation-defined character type;
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type Fortran_Character is array (Positive range <>) of Character_Set;
pragma Pack (Fortran_Character);
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function To_Fortran (Item : in Character) return Character_Set;
function To_Ada (Item : in Character_Set) return Character;
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function To_Fortran (Item : in String) return Fortran_Character;
function To_Ada (Item : in Fortran_Character) return String;
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procedure To_Fortran (Item : in String;
Target : out Fortran_Character;
Last : out Natural);
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procedure To_Ada (Item : in Fortran_Character;
Target : out String;
Last : out Natural);
17
end Interfaces.Fortran;
17.a.1/1
Implementation defined: The
types Fortran_Integer, Real, Double_Precision, and Character_Set in Interfaces.Fortran.
17.a
Ramification: The means
by which the Complex type is provided in Interfaces.Fortran creates a
dependence of Interfaces.Fortran on Numerics.Generic_Complex_Types (see
G.1.1). This dependence is intentional and
unavoidable, if the Fortran-compatible Complex type is to be useful in
Ada code without duplicating facilities defined elsewhere.
18
The types Fortran_Integer, Real, Double_Precision,
Logical, Complex, and Fortran_Character are Fortran-compatible.
19
The To_Fortran and To_Ada functions map between
the Ada type Character and the Fortran type Character_Set, and also between
the Ada type String and the Fortran type Fortran_Character. The To_Fortran
and To_Ada procedures have analogous effects to the string conversion
subprograms found in Interfaces.COBOL.
Implementation Requirements
20
An implementation shall support
pragma
Convention with a Fortran
convention_
identifier
for a Fortran-eligible type (see
B.1).
Implementation Permissions
21
An implementation may add additional declarations
to the Fortran interface packages. For example, the Fortran interface
package for an implementation of Fortran 77 (ANSI X3.9-1978) that defines
types like Integer*n, Real*n, Logical*n, and Complex*n
may contain the declarations of types named Integer_Star_n, Real_Star_n,
Logical_Star_n, and Complex_Star_n. (This convention should
not apply to Character*n, for which the Ada analog is the constrained
array subtype Fortran_Character (1..n).) Similarly, the Fortran
interface package for an implementation of Fortran 90 that provides multiple
kinds of intrinsic types, e.g. Integer (Kind=n), Real (Kind=n),
Logical (Kind=n), Complex (Kind=n), and Character (Kind=n),
may contain the declarations of types with the recommended names Integer_Kind_n,
Real_Kind_n, Logical_Kind_n, Complex_Kind_n, and
Character_Kind_n.
21.a
Discussion: Implementations
may add auxiliary declarations as needed to assist in the declarations
of additional Fortran-compatible types. For example, if a double precision
complex type is defined, then Numerics.Generic_Complex_Types may be instantiated
for the double precision type. Similarly, if a wide character type is
defined to match a Fortran 90 wide character type (accessible in Fortran
90 with the Kind modifier), then an auxiliary character set may be declared
to serve as its component type.
Implementation Advice
22
An Ada implementation
should support the following interface correspondences between Ada and
Fortran:
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- An Ada procedure corresponds to a
Fortran subroutine.
24
- An Ada function corresponds to a Fortran
function.
25
- An Ada parameter of an elementary,
array, or record type T is passed as a TF
argument to a Fortran procedure, where TF
is the Fortran type corresponding to the Ada type T, and where the INTENT
attribute of the corresponding dummy argument matches the Ada formal
parameter mode; the Fortran implementation's parameter passing conventions
are used. For elementary types, a local copy is used if necessary to
ensure by-copy semantics.
26
- An Ada parameter of an access-to-subprogram
type is passed as a reference to a Fortran procedure whose interface
corresponds to the designated subprogram's specification.
27
17 An object of a Fortran-compatible
record type, declared in a library package or subprogram, can correspond
to a Fortran common block; the type also corresponds to a Fortran ``derived
type''.
Examples
28
Example of Interfaces.Fortran:
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with Interfaces.Fortran;
use Interfaces.Fortran;
procedure Ada_Application is
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type Fortran_Matrix is array (Integer range <>,
Integer range <>) of Double_Precision;
pragma Convention (Fortran, Fortran_Matrix); -- stored in Fortran's
-- column-major order
procedure Invert (Rank : in Fortran_Integer; X : in out Fortran_Matrix);
pragma Import (Fortran, Invert); -- a Fortran subroutine
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Rank : constant Fortran_Integer := 100;
My_Matrix : Fortran_Matrix (1 .. Rank, 1 .. Rank);
32
begin
33
...
My_Matrix := ...;
...
Invert (Rank, My_Matrix);
...
34
end Ada_Application;
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