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------------------------------------------------------------------------------
--                                                                          --
--                         GNAT RUN-TIME COMPONENTS                         --
--                                                                          --
--                        SYSTEM.GENERIC_REAL_LAPACK                        --
--                                                                          --
--                                 B o d y                                  --
--                                                                          --
--            Copyright (C) 2009, 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 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.                                     --
--                                                                          --
-- As a special exception under Section 7 of GPL version 3, you are granted --
-- additional permissions described in the GCC Runtime Library Exception,   --
-- version 3.1, as published by the Free Software Foundation.               --
--                                                                          --
-- You should have received a copy of the GNU General Public License and    --
-- a copy of the GCC Runtime Library Exception along with this program;     --
-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
-- <http://www.gnu.org/licenses/>.                                          --
--                                                                          --
-- GNAT was originally developed  by the GNAT team at  New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
--                                                                          --
------------------------------------------------------------------------------
 
with Ada.Unchecked_Conversion;        use Ada;
with Interfaces;                      use Interfaces;
with Interfaces.Fortran;              use Interfaces.Fortran;
with Interfaces.Fortran.BLAS;         use Interfaces.Fortran.BLAS;
with Interfaces.Fortran.LAPACK;       use Interfaces.Fortran.LAPACK;
with System.Generic_Array_Operations; use System.Generic_Array_Operations;
 
package body System.Generic_Real_LAPACK is
 
   Is_Real : constant Boolean :=
               Real'Machine_Mantissa = Fortran.Real'Machine_Mantissa
                and then Fortran.Real (Real'First) = Fortran.Real'First
                and then Fortran.Real (Real'Last) = Fortran.Real'Last;
 
   Is_Double_Precision : constant Boolean :=
                           Real'Machine_Mantissa =
                                            Double_Precision'Machine_Mantissa
                            and then
                              Double_Precision (Real'First) =
                                            Double_Precision'First
                            and then
                              Double_Precision (Real'Last) =
                                            Double_Precision'Last;
 
   --  Local subprograms
 
   function To_Double_Precision (X : Real) return Double_Precision;
   pragma Inline_Always (To_Double_Precision);
 
   function To_Real (X : Double_Precision) return Real;
   pragma Inline_Always (To_Real);
 
   --  Instantiations
 
   function To_Double_Precision is new
     Vector_Elementwise_Operation
       (X_Scalar      => Real,
        Result_Scalar => Double_Precision,
        X_Vector      => Real_Vector,
        Result_Vector => Double_Precision_Vector,
        Operation     => To_Double_Precision);
 
   function To_Real is new
     Vector_Elementwise_Operation
       (X_Scalar      => Double_Precision,
        Result_Scalar => Real,
        X_Vector      => Double_Precision_Vector,
        Result_Vector => Real_Vector,
        Operation     => To_Real);
 
   function To_Double_Precision is new
     Matrix_Elementwise_Operation
       (X_Scalar      => Real,
        Result_Scalar => Double_Precision,
        X_Matrix      => Real_Matrix,
        Result_Matrix => Double_Precision_Matrix,
        Operation     => To_Double_Precision);
 
   function To_Real is new
     Matrix_Elementwise_Operation
       (X_Scalar      => Double_Precision,
        Result_Scalar => Real,
        X_Matrix      => Double_Precision_Matrix,
        Result_Matrix => Real_Matrix,
        Operation     => To_Real);
 
   function To_Double_Precision (X : Real) return Double_Precision is
   begin
      return Double_Precision (X);
   end To_Double_Precision;
 
   function To_Real (X : Double_Precision) return Real is
   begin
      return Real (X);
   end To_Real;
 
   -----------
   -- getrf --
   -----------
 
   procedure getrf
     (M     : Natural;
      N     : Natural;
      A     : in out Real_Matrix;
      Ld_A  : Positive;
      I_Piv : out Integer_Vector;
      Info  : access Integer)
   is
   begin
      if Is_Real then
         declare
            type A_Ptr is
               access all BLAS.Real_Matrix (A'Range (1), A'Range (2));
            function Conv_A is new Unchecked_Conversion (Address, A_Ptr);
         begin
            sgetrf (M, N, Conv_A (A'Address).all, Ld_A,
                    LAPACK.Integer_Vector (I_Piv), Info);
         end;
 
      elsif Is_Double_Precision then
         declare
            type A_Ptr is
               access all Double_Precision_Matrix (A'Range (1), A'Range (2));
            function Conv_A is new Unchecked_Conversion (Address, A_Ptr);
         begin
            dgetrf (M, N, Conv_A (A'Address).all, Ld_A,
                    LAPACK.Integer_Vector (I_Piv), Info);
         end;
 
      else
         declare
            DP_A : Double_Precision_Matrix (A'Range (1), A'Range (2));
         begin
            DP_A := To_Double_Precision (A);
            dgetrf (M, N, DP_A, Ld_A, LAPACK.Integer_Vector (I_Piv), Info);
            A := To_Real (DP_A);
         end;
      end if;
   end getrf;
 
   -----------
   -- getri --
   -----------
 
   procedure getri
     (N      : Natural;
      A      : in out Real_Matrix;
      Ld_A   : Positive;
      I_Piv  : Integer_Vector;
      Work   : in out Real_Vector;
      L_Work : Integer;
      Info   : access Integer)
   is
   begin
      if Is_Real then
         declare
            type A_Ptr is
               access all BLAS.Real_Matrix (A'Range (1), A'Range (2));
            type Work_Ptr is
               access all BLAS.Real_Vector (Work'Range);
            function Conv_A is new Unchecked_Conversion (Address, A_Ptr);
            function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);
         begin
            sgetri (N, Conv_A (A'Address).all, Ld_A,
                    LAPACK.Integer_Vector (I_Piv),
                    Conv_Work (Work'Address).all, L_Work,
                    Info);
         end;
 
      elsif Is_Double_Precision then
         declare
            type A_Ptr is
               access all Double_Precision_Matrix (A'Range (1), A'Range (2));
            type Work_Ptr is
               access all Double_Precision_Vector (Work'Range);
            function Conv_A is new Unchecked_Conversion (Address, A_Ptr);
            function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);
         begin
            dgetri (N, Conv_A (A'Address).all, Ld_A,
                    LAPACK.Integer_Vector (I_Piv),
                    Conv_Work (Work'Address).all, L_Work,
                    Info);
         end;
 
      else
         declare
            DP_A : Double_Precision_Matrix (A'Range (1), A'Range (2));
            DP_Work : Double_Precision_Vector (Work'Range);
         begin
            DP_A := To_Double_Precision (A);
            dgetri (N, DP_A, Ld_A, LAPACK.Integer_Vector (I_Piv),
                    DP_Work, L_Work, Info);
            A := To_Real (DP_A);
            Work (1) := To_Real (DP_Work (1));
         end;
      end if;
   end getri;
 
   -----------
   -- getrs --
   -----------
 
   procedure getrs
     (Trans  : access constant Character;
      N      : Natural;
      N_Rhs  : Natural;
      A      : Real_Matrix;
      Ld_A   : Positive;
      I_Piv  : Integer_Vector;
      B      : in out Real_Matrix;
      Ld_B   : Positive;
      Info   : access Integer)
   is
   begin
      if Is_Real then
         declare
            subtype A_Type is BLAS.Real_Matrix (A'Range (1), A'Range (2));
            type B_Ptr is
               access all BLAS.Real_Matrix (B'Range (1), B'Range (2));
            function Conv_A is new Unchecked_Conversion (Real_Matrix, A_Type);
            function Conv_B is new Unchecked_Conversion (Address, B_Ptr);
         begin
            sgetrs (Trans, N, N_Rhs,
                    Conv_A (A), Ld_A,
                    LAPACK.Integer_Vector (I_Piv),
                    Conv_B (B'Address).all, Ld_B,
                    Info);
         end;
 
      elsif Is_Double_Precision then
         declare
            subtype A_Type is
               Double_Precision_Matrix (A'Range (1), A'Range (2));
            type B_Ptr is
               access all Double_Precision_Matrix (B'Range (1), B'Range (2));
            function Conv_A is new Unchecked_Conversion (Real_Matrix, A_Type);
            function Conv_B is new Unchecked_Conversion (Address, B_Ptr);
         begin
            dgetrs (Trans, N, N_Rhs,
                    Conv_A (A), Ld_A,
                    LAPACK.Integer_Vector (I_Piv),
                    Conv_B (B'Address).all, Ld_B,
                    Info);
         end;
 
      else
         declare
            DP_A : Double_Precision_Matrix (A'Range (1), A'Range (2));
            DP_B : Double_Precision_Matrix (B'Range (1), B'Range (2));
         begin
            DP_A := To_Double_Precision (A);
            DP_B := To_Double_Precision (B);
            dgetrs (Trans, N, N_Rhs,
                    DP_A, Ld_A,
                    LAPACK.Integer_Vector (I_Piv),
                    DP_B, Ld_B,
                    Info);
            B := To_Real (DP_B);
         end;
      end if;
   end getrs;
 
   -----------
   -- orgtr --
   -----------
 
   procedure orgtr
     (Uplo   : access constant Character;
      N      : Natural;
      A      : in out Real_Matrix;
      Ld_A   : Positive;
      Tau    : Real_Vector;
      Work   : out Real_Vector;
      L_Work : Integer;
      Info   : access Integer)
   is
   begin
      if Is_Real then
         declare
            type A_Ptr is
               access all BLAS.Real_Matrix (A'Range (1), A'Range (2));
            subtype Tau_Type is BLAS.Real_Vector (Tau'Range);
            type Work_Ptr is
               access all BLAS.Real_Vector (Work'Range);
            function Conv_A is new Unchecked_Conversion (Address, A_Ptr);
            function Conv_Tau is
               new Unchecked_Conversion (Real_Vector, Tau_Type);
            function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);
         begin
            sorgtr (Uplo, N,
                    Conv_A (A'Address).all, Ld_A,
                    Conv_Tau (Tau),
                    Conv_Work (Work'Address).all, L_Work,
                    Info);
         end;
 
      elsif Is_Double_Precision then
         declare
            type A_Ptr is
               access all Double_Precision_Matrix (A'Range (1), A'Range (2));
            subtype Tau_Type is Double_Precision_Vector (Tau'Range);
            type Work_Ptr is
               access all Double_Precision_Vector (Work'Range);
            function Conv_A is new Unchecked_Conversion (Address, A_Ptr);
            function Conv_Tau is
               new Unchecked_Conversion (Real_Vector, Tau_Type);
            function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);
         begin
            dorgtr (Uplo, N,
                    Conv_A (A'Address).all, Ld_A,
                    Conv_Tau (Tau),
                    Conv_Work (Work'Address).all, L_Work,
                    Info);
         end;
 
      else
         declare
            DP_A : Double_Precision_Matrix (A'Range (1), A'Range (2));
            DP_Work : Double_Precision_Vector (Work'Range);
            DP_Tau  : Double_Precision_Vector (Tau'Range);
         begin
            DP_A := To_Double_Precision (A);
            DP_Tau := To_Double_Precision (Tau);
            dorgtr (Uplo, N, DP_A, Ld_A, DP_Tau, DP_Work, L_Work, Info);
            A := To_Real (DP_A);
            Work (1) := To_Real (DP_Work (1));
         end;
      end if;
   end orgtr;
 
   -----------
   -- steqr --
   -----------
 
   procedure steqr
     (Comp_Z : access constant Character;
      N      : Natural;
      D      : in out Real_Vector;
      E      : in out Real_Vector;
      Z      : in out Real_Matrix;
      Ld_Z   : Positive;
      Work   : out Real_Vector;
      Info   : access Integer)
   is
   begin
      if Is_Real then
         declare
            type D_Ptr is access all BLAS.Real_Vector (D'Range);
            type E_Ptr is access all BLAS.Real_Vector (E'Range);
            type Z_Ptr is
               access all BLAS.Real_Matrix (Z'Range (1), Z'Range (2));
            type Work_Ptr is
               access all BLAS.Real_Vector (Work'Range);
            function Conv_D is new Unchecked_Conversion (Address, D_Ptr);
            function Conv_E is new Unchecked_Conversion (Address, E_Ptr);
            function Conv_Z is new Unchecked_Conversion (Address, Z_Ptr);
            function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);
         begin
            ssteqr (Comp_Z, N,
                    Conv_D (D'Address).all,
                    Conv_E (E'Address).all,
                    Conv_Z (Z'Address).all,
                    Ld_Z,
                    Conv_Work (Work'Address).all,
                    Info);
         end;
 
      elsif Is_Double_Precision then
         declare
            type D_Ptr is access all Double_Precision_Vector (D'Range);
            type E_Ptr is access all Double_Precision_Vector (E'Range);
            type Z_Ptr is
               access all Double_Precision_Matrix (Z'Range (1), Z'Range (2));
            type Work_Ptr is
               access all Double_Precision_Vector (Work'Range);
            function Conv_D is new Unchecked_Conversion (Address, D_Ptr);
            function Conv_E is new Unchecked_Conversion (Address, E_Ptr);
            function Conv_Z is new Unchecked_Conversion (Address, Z_Ptr);
            function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);
         begin
            dsteqr (Comp_Z, N,
                    Conv_D (D'Address).all,
                    Conv_E (E'Address).all,
                    Conv_Z (Z'Address).all,
                    Ld_Z,
                    Conv_Work (Work'Address).all,
                    Info);
         end;
 
      else
         declare
            DP_D    : Double_Precision_Vector (D'Range);
            DP_E    : Double_Precision_Vector (E'Range);
            DP_Z    : Double_Precision_Matrix (Z'Range (1), Z'Range (2));
            DP_Work : Double_Precision_Vector (Work'Range);
         begin
            DP_D := To_Double_Precision (D);
            DP_E := To_Double_Precision (E);
 
            if Comp_Z.all = 'V' then
               DP_Z := To_Double_Precision (Z);
            end if;
 
            dsteqr (Comp_Z, N, DP_D, DP_E, DP_Z, Ld_Z, DP_Work, Info);
 
            D := To_Real (DP_D);
            E := To_Real (DP_E);
            Z := To_Real (DP_Z);
         end;
      end if;
   end steqr;
 
   -----------
   -- sterf --
   -----------
 
   procedure sterf
     (N    : Natural;
      D    : in out Real_Vector;
      E    : in out Real_Vector;
      Info : access Integer)
   is
   begin
      if Is_Real then
         declare
            type D_Ptr is access all BLAS.Real_Vector (D'Range);
            type E_Ptr is access all BLAS.Real_Vector (E'Range);
            function Conv_D is new Unchecked_Conversion (Address, D_Ptr);
            function Conv_E is new Unchecked_Conversion (Address, E_Ptr);
         begin
            ssterf (N, Conv_D (D'Address).all, Conv_E (E'Address).all, Info);
         end;
 
      elsif Is_Double_Precision then
         declare
            type D_Ptr is access all Double_Precision_Vector (D'Range);
            type E_Ptr is access all Double_Precision_Vector (E'Range);
            function Conv_D is new Unchecked_Conversion (Address, D_Ptr);
            function Conv_E is new Unchecked_Conversion (Address, E_Ptr);
         begin
            dsterf (N, Conv_D (D'Address).all, Conv_E (E'Address).all, Info);
         end;
 
      else
         declare
            DP_D    : Double_Precision_Vector (D'Range);
            DP_E    : Double_Precision_Vector (E'Range);
 
         begin
            DP_D := To_Double_Precision (D);
            DP_E := To_Double_Precision (E);
 
            dsterf (N, DP_D, DP_E, Info);
 
            D := To_Real (DP_D);
            E := To_Real (DP_E);
         end;
      end if;
   end sterf;
 
   -----------
   -- sytrd --
   -----------
 
   procedure sytrd
     (Uplo   : access constant Character;
      N      : Natural;
      A      : in out Real_Matrix;
      Ld_A   : Positive;
      D      : out Real_Vector;
      E      : out Real_Vector;
      Tau    : out Real_Vector;
      Work   : out Real_Vector;
      L_Work : Integer;
      Info   : access Integer)
   is
   begin
      if Is_Real then
         declare
            type A_Ptr is
               access all BLAS.Real_Matrix (A'Range (1), A'Range (2));
            type D_Ptr is access all BLAS.Real_Vector (D'Range);
            type E_Ptr is access all BLAS.Real_Vector (E'Range);
            type Tau_Ptr is access all BLAS.Real_Vector (Tau'Range);
            type Work_Ptr is
               access all BLAS.Real_Vector (Work'Range);
            function Conv_A is new Unchecked_Conversion (Address, A_Ptr);
            function Conv_D is new Unchecked_Conversion (Address, D_Ptr);
            function Conv_E is new Unchecked_Conversion (Address, E_Ptr);
            function Conv_Tau is new Unchecked_Conversion (Address, Tau_Ptr);
            function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);
         begin
            ssytrd (Uplo, N,
                    Conv_A (A'Address).all, Ld_A,
                    Conv_D (D'Address).all,
                    Conv_E (E'Address).all,
                    Conv_Tau (Tau'Address).all,
                    Conv_Work (Work'Address).all,
                    L_Work,
                    Info);
         end;
 
      elsif Is_Double_Precision then
         declare
            type A_Ptr is
               access all Double_Precision_Matrix (A'Range (1), A'Range (2));
            type D_Ptr is access all Double_Precision_Vector (D'Range);
            type E_Ptr is access all Double_Precision_Vector (E'Range);
            type Tau_Ptr is access all Double_Precision_Vector (Tau'Range);
            type Work_Ptr is
               access all Double_Precision_Vector (Work'Range);
            function Conv_A is new Unchecked_Conversion (Address, A_Ptr);
            function Conv_D is new Unchecked_Conversion (Address, D_Ptr);
            function Conv_E is new Unchecked_Conversion (Address, E_Ptr);
            function Conv_Tau is new Unchecked_Conversion (Address, Tau_Ptr);
            function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);
         begin
            dsytrd (Uplo, N,
                    Conv_A (A'Address).all, Ld_A,
                    Conv_D (D'Address).all,
                    Conv_E (E'Address).all,
                    Conv_Tau (Tau'Address).all,
                    Conv_Work (Work'Address).all,
                    L_Work,
                    Info);
         end;
 
      else
         declare
            DP_A    : Double_Precision_Matrix (A'Range (1), A'Range (2));
            DP_D    : Double_Precision_Vector (D'Range);
            DP_E    : Double_Precision_Vector (E'Range);
            DP_Tau  : Double_Precision_Vector (Tau'Range);
            DP_Work : Double_Precision_Vector (Work'Range);
         begin
            DP_A := To_Double_Precision (A);
 
            dsytrd (Uplo, N, DP_A, Ld_A, DP_D, DP_E, DP_Tau,
                    DP_Work, L_Work, Info);
 
            if L_Work /= -1 then
               A := To_Real (DP_A);
               D := To_Real (DP_D);
               E := To_Real (DP_E);
               Tau := To_Real (DP_Tau);
            end if;
 
            Work (1) := To_Real (DP_Work (1));
         end;
      end if;
   end sytrd;
 
end System.Generic_Real_LAPACK;

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Subversion Repositories openrisc_me

[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.5.1/] [gcc/] [ada/] [s-gerela.adb] - Blame information for rev 281

Line No.	Rev	Author	Line
1	281	jeremybenn	`------------------------------------------------------------------------------`
2			`-- --`
3			`-- GNAT RUN-TIME COMPONENTS --`
4			`-- --`
5			`-- SYSTEM.GENERIC_REAL_LAPACK --`
6			`-- --`
7			`-- B o d y --`
8			`-- --`
9			`-- Copyright (C) 2009, Free Software Foundation, Inc. --`
10			`-- --`
11			`-- GNAT is free software; you can redistribute it and/or modify it under --`
12			`-- terms of the GNU General Public License as published by the Free Soft- --`
13			`-- ware Foundation; either version 3, or (at your option) any later ver- --`
14			`-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --`
15			`-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --`
16			`-- or FITNESS FOR A PARTICULAR PURPOSE. --`
17			`-- --`
18			`-- As a special exception under Section 7 of GPL version 3, you are granted --`
19			`-- additional permissions described in the GCC Runtime Library Exception, --`
20			`-- version 3.1, as published by the Free Software Foundation. --`
21			`-- --`
22			`-- You should have received a copy of the GNU General Public License and --`
23			`-- a copy of the GCC Runtime Library Exception along with this program; --`
24			`-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --`
25			`-- <http://www.gnu.org/licenses/>. --`
26			`-- --`
27			`-- GNAT was originally developed by the GNAT team at New York University. --`
28			`-- Extensive contributions were provided by Ada Core Technologies Inc. --`
29			`-- --`
30			`------------------------------------------------------------------------------`
31
32			`with Ada.Unchecked_Conversion; use Ada;`
33			`with Interfaces; use Interfaces;`
34			`with Interfaces.Fortran; use Interfaces.Fortran;`
35			`with Interfaces.Fortran.BLAS; use Interfaces.Fortran.BLAS;`
36			`with Interfaces.Fortran.LAPACK; use Interfaces.Fortran.LAPACK;`
37			`with System.Generic_Array_Operations; use System.Generic_Array_Operations;`
38
39			`package body System.Generic_Real_LAPACK is`
40
41			`Is_Real : constant Boolean :=`
42			`Real'Machine_Mantissa = Fortran.Real'Machine_Mantissa`
43			`and then Fortran.Real (Real'First) = Fortran.Real'First`
44			`and then Fortran.Real (Real'Last) = Fortran.Real'Last;`
45
46			`Is_Double_Precision : constant Boolean :=`
47			`Real'Machine_Mantissa =`
48			`Double_Precision'Machine_Mantissa`
49			`and then`
50			`Double_Precision (Real'First) =`
51			`Double_Precision'First`
52			`and then`
53			`Double_Precision (Real'Last) =`
54			`Double_Precision'Last;`
55
56			`-- Local subprograms`
57
58			`function To_Double_Precision (X : Real) return Double_Precision;`
59			`pragma Inline_Always (To_Double_Precision);`
60
61			`function To_Real (X : Double_Precision) return Real;`
62			`pragma Inline_Always (To_Real);`
63
64			`-- Instantiations`
65
66			`function To_Double_Precision is new`
67			`Vector_Elementwise_Operation`
68			`(X_Scalar => Real,`
69			`Result_Scalar => Double_Precision,`
70			`X_Vector => Real_Vector,`
71			`Result_Vector => Double_Precision_Vector,`
72			`Operation => To_Double_Precision);`
73
74			`function To_Real is new`
75			`Vector_Elementwise_Operation`
76			`(X_Scalar => Double_Precision,`
77			`Result_Scalar => Real,`
78			`X_Vector => Double_Precision_Vector,`
79			`Result_Vector => Real_Vector,`
80			`Operation => To_Real);`
81
82			`function To_Double_Precision is new`
83			`Matrix_Elementwise_Operation`
84			`(X_Scalar => Real,`
85			`Result_Scalar => Double_Precision,`
86			`X_Matrix => Real_Matrix,`
87			`Result_Matrix => Double_Precision_Matrix,`
88			`Operation => To_Double_Precision);`
89
90			`function To_Real is new`
91			`Matrix_Elementwise_Operation`
92			`(X_Scalar => Double_Precision,`
93			`Result_Scalar => Real,`
94			`X_Matrix => Double_Precision_Matrix,`
95			`Result_Matrix => Real_Matrix,`
96			`Operation => To_Real);`
97
98			`function To_Double_Precision (X : Real) return Double_Precision is`
99			`begin`
100			`return Double_Precision (X);`
101			`end To_Double_Precision;`
102
103			`function To_Real (X : Double_Precision) return Real is`
104			`begin`
105			`return Real (X);`
106			`end To_Real;`
107
108			`-----------`
109			`-- getrf --`
110			`-----------`
111
112			`procedure getrf`
113			`(M : Natural;`
114			`N : Natural;`
115			`A : in out Real_Matrix;`
116			`Ld_A : Positive;`
117			`I_Piv : out Integer_Vector;`
118			`Info : access Integer)`
119			`is`
120			`begin`
121			`if Is_Real then`
122			`declare`
123			`type A_Ptr is`
124			`access all BLAS.Real_Matrix (A'Range (1), A'Range (2));`
125			`function Conv_A is new Unchecked_Conversion (Address, A_Ptr);`
126			`begin`
127			`sgetrf (M, N, Conv_A (A'Address).all, Ld_A,`
128			`LAPACK.Integer_Vector (I_Piv), Info);`
129			`end;`
130
131			`elsif Is_Double_Precision then`
132			`declare`
133			`type A_Ptr is`
134			`access all Double_Precision_Matrix (A'Range (1), A'Range (2));`
135			`function Conv_A is new Unchecked_Conversion (Address, A_Ptr);`
136			`begin`
137			`dgetrf (M, N, Conv_A (A'Address).all, Ld_A,`
138			`LAPACK.Integer_Vector (I_Piv), Info);`
139			`end;`
140
141			`else`
142			`declare`
143			`DP_A : Double_Precision_Matrix (A'Range (1), A'Range (2));`
144			`begin`
145			`DP_A := To_Double_Precision (A);`
146			`dgetrf (M, N, DP_A, Ld_A, LAPACK.Integer_Vector (I_Piv), Info);`
147			`A := To_Real (DP_A);`
148			`end;`
149			`end if;`
150			`end getrf;`
151
152			`-----------`
153			`-- getri --`
154			`-----------`
155
156			`procedure getri`
157			`(N : Natural;`
158			`A : in out Real_Matrix;`
159			`Ld_A : Positive;`
160			`I_Piv : Integer_Vector;`
161			`Work : in out Real_Vector;`
162			`L_Work : Integer;`
163			`Info : access Integer)`
164			`is`
165			`begin`
166			`if Is_Real then`
167			`declare`
168			`type A_Ptr is`
169			`access all BLAS.Real_Matrix (A'Range (1), A'Range (2));`
170			`type Work_Ptr is`
171			`access all BLAS.Real_Vector (Work'Range);`
172			`function Conv_A is new Unchecked_Conversion (Address, A_Ptr);`
173			`function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);`
174			`begin`
175			`sgetri (N, Conv_A (A'Address).all, Ld_A,`
176			`LAPACK.Integer_Vector (I_Piv),`
177			`Conv_Work (Work'Address).all, L_Work,`
178			`Info);`
179			`end;`
180
181			`elsif Is_Double_Precision then`
182			`declare`
183			`type A_Ptr is`
184			`access all Double_Precision_Matrix (A'Range (1), A'Range (2));`
185			`type Work_Ptr is`
186			`access all Double_Precision_Vector (Work'Range);`
187			`function Conv_A is new Unchecked_Conversion (Address, A_Ptr);`
188			`function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);`
189			`begin`
190			`dgetri (N, Conv_A (A'Address).all, Ld_A,`
191			`LAPACK.Integer_Vector (I_Piv),`
192			`Conv_Work (Work'Address).all, L_Work,`
193			`Info);`
194			`end;`
195
196			`else`
197			`declare`
198			`DP_A : Double_Precision_Matrix (A'Range (1), A'Range (2));`
199			`DP_Work : Double_Precision_Vector (Work'Range);`
200			`begin`
201			`DP_A := To_Double_Precision (A);`
202			`dgetri (N, DP_A, Ld_A, LAPACK.Integer_Vector (I_Piv),`
203			`DP_Work, L_Work, Info);`
204			`A := To_Real (DP_A);`
205			`Work (1) := To_Real (DP_Work (1));`
206			`end;`
207			`end if;`
208			`end getri;`
209
210			`-----------`
211			`-- getrs --`
212			`-----------`
213
214			`procedure getrs`
215			`(Trans : access constant Character;`
216			`N : Natural;`
217			`N_Rhs : Natural;`
218			`A : Real_Matrix;`
219			`Ld_A : Positive;`
220			`I_Piv : Integer_Vector;`
221			`B : in out Real_Matrix;`
222			`Ld_B : Positive;`
223			`Info : access Integer)`
224			`is`
225			`begin`
226			`if Is_Real then`
227			`declare`
228			`subtype A_Type is BLAS.Real_Matrix (A'Range (1), A'Range (2));`
229			`type B_Ptr is`
230			`access all BLAS.Real_Matrix (B'Range (1), B'Range (2));`
231			`function Conv_A is new Unchecked_Conversion (Real_Matrix, A_Type);`
232			`function Conv_B is new Unchecked_Conversion (Address, B_Ptr);`
233			`begin`
234			`sgetrs (Trans, N, N_Rhs,`
235			`Conv_A (A), Ld_A,`
236			`LAPACK.Integer_Vector (I_Piv),`
237			`Conv_B (B'Address).all, Ld_B,`
238			`Info);`
239			`end;`
240
241			`elsif Is_Double_Precision then`
242			`declare`
243			`subtype A_Type is`
244			`Double_Precision_Matrix (A'Range (1), A'Range (2));`
245			`type B_Ptr is`
246			`access all Double_Precision_Matrix (B'Range (1), B'Range (2));`
247			`function Conv_A is new Unchecked_Conversion (Real_Matrix, A_Type);`
248			`function Conv_B is new Unchecked_Conversion (Address, B_Ptr);`
249			`begin`
250			`dgetrs (Trans, N, N_Rhs,`
251			`Conv_A (A), Ld_A,`
252			`LAPACK.Integer_Vector (I_Piv),`
253			`Conv_B (B'Address).all, Ld_B,`
254			`Info);`
255			`end;`
256
257			`else`
258			`declare`
259			`DP_A : Double_Precision_Matrix (A'Range (1), A'Range (2));`
260			`DP_B : Double_Precision_Matrix (B'Range (1), B'Range (2));`
261			`begin`
262			`DP_A := To_Double_Precision (A);`
263			`DP_B := To_Double_Precision (B);`
264			`dgetrs (Trans, N, N_Rhs,`
265			`DP_A, Ld_A,`
266			`LAPACK.Integer_Vector (I_Piv),`
267			`DP_B, Ld_B,`
268			`Info);`
269			`B := To_Real (DP_B);`
270			`end;`
271			`end if;`
272			`end getrs;`
273
274			`-----------`
275			`-- orgtr --`
276			`-----------`
277
278			`procedure orgtr`
279			`(Uplo : access constant Character;`
280			`N : Natural;`
281			`A : in out Real_Matrix;`
282			`Ld_A : Positive;`
283			`Tau : Real_Vector;`
284			`Work : out Real_Vector;`
285			`L_Work : Integer;`
286			`Info : access Integer)`
287			`is`
288			`begin`
289			`if Is_Real then`
290			`declare`
291			`type A_Ptr is`
292			`access all BLAS.Real_Matrix (A'Range (1), A'Range (2));`
293			`subtype Tau_Type is BLAS.Real_Vector (Tau'Range);`
294			`type Work_Ptr is`
295			`access all BLAS.Real_Vector (Work'Range);`
296			`function Conv_A is new Unchecked_Conversion (Address, A_Ptr);`
297			`function Conv_Tau is`
298			`new Unchecked_Conversion (Real_Vector, Tau_Type);`
299			`function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);`
300			`begin`
301			`sorgtr (Uplo, N,`
302			`Conv_A (A'Address).all, Ld_A,`
303			`Conv_Tau (Tau),`
304			`Conv_Work (Work'Address).all, L_Work,`
305			`Info);`
306			`end;`
307
308			`elsif Is_Double_Precision then`
309			`declare`
310			`type A_Ptr is`
311			`access all Double_Precision_Matrix (A'Range (1), A'Range (2));`
312			`subtype Tau_Type is Double_Precision_Vector (Tau'Range);`
313			`type Work_Ptr is`
314			`access all Double_Precision_Vector (Work'Range);`
315			`function Conv_A is new Unchecked_Conversion (Address, A_Ptr);`
316			`function Conv_Tau is`
317			`new Unchecked_Conversion (Real_Vector, Tau_Type);`
318			`function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);`
319			`begin`
320			`dorgtr (Uplo, N,`
321			`Conv_A (A'Address).all, Ld_A,`
322			`Conv_Tau (Tau),`
323			`Conv_Work (Work'Address).all, L_Work,`
324			`Info);`
325			`end;`
326
327			`else`
328			`declare`
329			`DP_A : Double_Precision_Matrix (A'Range (1), A'Range (2));`
330			`DP_Work : Double_Precision_Vector (Work'Range);`
331			`DP_Tau : Double_Precision_Vector (Tau'Range);`
332			`begin`
333			`DP_A := To_Double_Precision (A);`
334			`DP_Tau := To_Double_Precision (Tau);`
335			`dorgtr (Uplo, N, DP_A, Ld_A, DP_Tau, DP_Work, L_Work, Info);`
336			`A := To_Real (DP_A);`
337			`Work (1) := To_Real (DP_Work (1));`
338			`end;`
339			`end if;`
340			`end orgtr;`
341
342			`-----------`
343			`-- steqr --`
344			`-----------`
345
346			`procedure steqr`
347			`(Comp_Z : access constant Character;`
348			`N : Natural;`
349			`D : in out Real_Vector;`
350			`E : in out Real_Vector;`
351			`Z : in out Real_Matrix;`
352			`Ld_Z : Positive;`
353			`Work : out Real_Vector;`
354			`Info : access Integer)`
355			`is`
356			`begin`
357			`if Is_Real then`
358			`declare`
359			`type D_Ptr is access all BLAS.Real_Vector (D'Range);`
360			`type E_Ptr is access all BLAS.Real_Vector (E'Range);`
361			`type Z_Ptr is`
362			`access all BLAS.Real_Matrix (Z'Range (1), Z'Range (2));`
363			`type Work_Ptr is`
364			`access all BLAS.Real_Vector (Work'Range);`
365			`function Conv_D is new Unchecked_Conversion (Address, D_Ptr);`
366			`function Conv_E is new Unchecked_Conversion (Address, E_Ptr);`
367			`function Conv_Z is new Unchecked_Conversion (Address, Z_Ptr);`
368			`function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);`
369			`begin`
370			`ssteqr (Comp_Z, N,`
371			`Conv_D (D'Address).all,`
372			`Conv_E (E'Address).all,`
373			`Conv_Z (Z'Address).all,`
374			`Ld_Z,`
375			`Conv_Work (Work'Address).all,`
376			`Info);`
377			`end;`
378
379			`elsif Is_Double_Precision then`
380			`declare`
381			`type D_Ptr is access all Double_Precision_Vector (D'Range);`
382			`type E_Ptr is access all Double_Precision_Vector (E'Range);`
383			`type Z_Ptr is`
384			`access all Double_Precision_Matrix (Z'Range (1), Z'Range (2));`
385			`type Work_Ptr is`
386			`access all Double_Precision_Vector (Work'Range);`
387			`function Conv_D is new Unchecked_Conversion (Address, D_Ptr);`
388			`function Conv_E is new Unchecked_Conversion (Address, E_Ptr);`
389			`function Conv_Z is new Unchecked_Conversion (Address, Z_Ptr);`
390			`function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);`
391			`begin`
392			`dsteqr (Comp_Z, N,`
393			`Conv_D (D'Address).all,`
394			`Conv_E (E'Address).all,`
395			`Conv_Z (Z'Address).all,`
396			`Ld_Z,`
397			`Conv_Work (Work'Address).all,`
398			`Info);`
399			`end;`
400
401			`else`
402			`declare`
403			`DP_D : Double_Precision_Vector (D'Range);`
404			`DP_E : Double_Precision_Vector (E'Range);`
405			`DP_Z : Double_Precision_Matrix (Z'Range (1), Z'Range (2));`
406			`DP_Work : Double_Precision_Vector (Work'Range);`
407			`begin`
408			`DP_D := To_Double_Precision (D);`
409			`DP_E := To_Double_Precision (E);`
410
411			`if Comp_Z.all = 'V' then`
412			`DP_Z := To_Double_Precision (Z);`
413			`end if;`
414
415			`dsteqr (Comp_Z, N, DP_D, DP_E, DP_Z, Ld_Z, DP_Work, Info);`
416
417			`D := To_Real (DP_D);`
418			`E := To_Real (DP_E);`
419			`Z := To_Real (DP_Z);`
420			`end;`
421			`end if;`
422			`end steqr;`
423
424			`-----------`
425			`-- sterf --`
426			`-----------`
427
428			`procedure sterf`
429			`(N : Natural;`
430			`D : in out Real_Vector;`
431			`E : in out Real_Vector;`
432			`Info : access Integer)`
433			`is`
434			`begin`
435			`if Is_Real then`
436			`declare`
437			`type D_Ptr is access all BLAS.Real_Vector (D'Range);`
438			`type E_Ptr is access all BLAS.Real_Vector (E'Range);`
439			`function Conv_D is new Unchecked_Conversion (Address, D_Ptr);`
440			`function Conv_E is new Unchecked_Conversion (Address, E_Ptr);`
441			`begin`
442			`ssterf (N, Conv_D (D'Address).all, Conv_E (E'Address).all, Info);`
443			`end;`
444
445			`elsif Is_Double_Precision then`
446			`declare`
447			`type D_Ptr is access all Double_Precision_Vector (D'Range);`
448			`type E_Ptr is access all Double_Precision_Vector (E'Range);`
449			`function Conv_D is new Unchecked_Conversion (Address, D_Ptr);`
450			`function Conv_E is new Unchecked_Conversion (Address, E_Ptr);`
451			`begin`
452			`dsterf (N, Conv_D (D'Address).all, Conv_E (E'Address).all, Info);`
453			`end;`
454
455			`else`
456			`declare`
457			`DP_D : Double_Precision_Vector (D'Range);`
458			`DP_E : Double_Precision_Vector (E'Range);`
459
460			`begin`
461			`DP_D := To_Double_Precision (D);`
462			`DP_E := To_Double_Precision (E);`
463
464			`dsterf (N, DP_D, DP_E, Info);`
465
466			`D := To_Real (DP_D);`
467			`E := To_Real (DP_E);`
468			`end;`
469			`end if;`
470			`end sterf;`
471
472			`-----------`
473			`-- sytrd --`
474			`-----------`
475
476			`procedure sytrd`
477			`(Uplo : access constant Character;`
478			`N : Natural;`
479			`A : in out Real_Matrix;`
480			`Ld_A : Positive;`
481			`D : out Real_Vector;`
482			`E : out Real_Vector;`
483			`Tau : out Real_Vector;`
484			`Work : out Real_Vector;`
485			`L_Work : Integer;`
486			`Info : access Integer)`
487			`is`
488			`begin`
489			`if Is_Real then`
490			`declare`
491			`type A_Ptr is`
492			`access all BLAS.Real_Matrix (A'Range (1), A'Range (2));`
493			`type D_Ptr is access all BLAS.Real_Vector (D'Range);`
494			`type E_Ptr is access all BLAS.Real_Vector (E'Range);`
495			`type Tau_Ptr is access all BLAS.Real_Vector (Tau'Range);`
496			`type Work_Ptr is`
497			`access all BLAS.Real_Vector (Work'Range);`
498			`function Conv_A is new Unchecked_Conversion (Address, A_Ptr);`
499			`function Conv_D is new Unchecked_Conversion (Address, D_Ptr);`
500			`function Conv_E is new Unchecked_Conversion (Address, E_Ptr);`
501			`function Conv_Tau is new Unchecked_Conversion (Address, Tau_Ptr);`
502			`function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);`
503			`begin`
504			`ssytrd (Uplo, N,`
505			`Conv_A (A'Address).all, Ld_A,`
506			`Conv_D (D'Address).all,`
507			`Conv_E (E'Address).all,`
508			`Conv_Tau (Tau'Address).all,`
509			`Conv_Work (Work'Address).all,`
510			`L_Work,`
511			`Info);`
512			`end;`
513
514			`elsif Is_Double_Precision then`
515			`declare`
516			`type A_Ptr is`
517			`access all Double_Precision_Matrix (A'Range (1), A'Range (2));`
518			`type D_Ptr is access all Double_Precision_Vector (D'Range);`
519			`type E_Ptr is access all Double_Precision_Vector (E'Range);`
520			`type Tau_Ptr is access all Double_Precision_Vector (Tau'Range);`
521			`type Work_Ptr is`
522			`access all Double_Precision_Vector (Work'Range);`
523			`function Conv_A is new Unchecked_Conversion (Address, A_Ptr);`
524			`function Conv_D is new Unchecked_Conversion (Address, D_Ptr);`
525			`function Conv_E is new Unchecked_Conversion (Address, E_Ptr);`
526			`function Conv_Tau is new Unchecked_Conversion (Address, Tau_Ptr);`
527			`function Conv_Work is new Unchecked_Conversion (Address, Work_Ptr);`
528			`begin`
529			`dsytrd (Uplo, N,`
530			`Conv_A (A'Address).all, Ld_A,`
531			`Conv_D (D'Address).all,`
532			`Conv_E (E'Address).all,`
533			`Conv_Tau (Tau'Address).all,`
534			`Conv_Work (Work'Address).all,`
535			`L_Work,`
536			`Info);`
537			`end;`
538
539			`else`
540			`declare`
541			`DP_A : Double_Precision_Matrix (A'Range (1), A'Range (2));`
542			`DP_D : Double_Precision_Vector (D'Range);`
543			`DP_E : Double_Precision_Vector (E'Range);`
544			`DP_Tau : Double_Precision_Vector (Tau'Range);`
545			`DP_Work : Double_Precision_Vector (Work'Range);`
546			`begin`
547			`DP_A := To_Double_Precision (A);`
548
549			`dsytrd (Uplo, N, DP_A, Ld_A, DP_D, DP_E, DP_Tau,`
550			`DP_Work, L_Work, Info);`
551
552			`if L_Work /= -1 then`
553			`A := To_Real (DP_A);`
554			`D := To_Real (DP_D);`
555			`E := To_Real (DP_E);`
556			`Tau := To_Real (DP_Tau);`
557			`end if;`
558
559			`Work (1) := To_Real (DP_Work (1));`
560			`end;`
561			`end if;`
562			`end sytrd;`
563
564			`end System.Generic_Real_LAPACK;`