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1 294 jeremybenn
-- CC70A01.A
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--
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--                             Grant of Unlimited Rights
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--
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--     Under contracts F33600-87-D-0337, F33600-84-D-0280, MDA903-79-C-0687,
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--     F08630-91-C-0015, and DCA100-97-D-0025, the U.S. Government obtained
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--     unlimited rights in the software and documentation contained herein.
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--     Unlimited rights are defined in DFAR 252.227-7013(a)(19).  By making
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--     this public release, the Government intends to confer upon all
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--     recipients unlimited rights  equal to those held by the Government.
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--     These rights include rights to use, duplicate, release or disclose the
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--     released technical data and computer software in whole or in part, in
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--     any manner and for any purpose whatsoever, and to have or permit others
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--     to do so.
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--
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--                                    DISCLAIMER
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--
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--     ALL MATERIALS OR INFORMATION HEREIN RELEASED, MADE AVAILABLE OR
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--     DISCLOSED ARE AS IS.  THE GOVERNMENT MAKES NO EXPRESS OR IMPLIED
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--     WARRANTY AS TO ANY MATTER WHATSOEVER, INCLUDING THE CONDITIONS OF THE
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--     SOFTWARE, DOCUMENTATION OR OTHER INFORMATION RELEASED, MADE AVAILABLE
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--     OR DISCLOSED, OR THE OWNERSHIP, MERCHANTABILITY, OR FITNESS FOR A
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--     PARTICULAR PURPOSE OF SAID MATERIAL.
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--*
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--
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-- OBJECTIVE:
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--      Check that the visible part of a generic formal package includes the
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--      first list of basic declarative items of the package specification.
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--      Check for a generic package which declares a formal package with (<>)
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--      as its actual part.
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--
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-- TEST DESCRIPTION:
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--      The "first list of basic declarative items" of a package specification
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--      is the visible part of the package. Thus, the declarations in the
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--      visible part of the actual instance corresponding to a formal
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--      package are available in the generic which declares the formal package.
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--
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--      Declare a generic package which simulates a complex integer abstraction
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--      (foundation code).
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--
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--      Declare a second, library-level generic package which utilizes the
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--      first generic package as a generic formal package (with a (<>)
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--      actual_part). In the second generic package, declare objects, types,
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--      and operations in terms of the objects, types, and operations declared
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--      in the first generic package.
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--
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--      In the main program, instantiate the first generic package, then
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--      instantiate the second generic package and pass the first instance
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--      to it as a generic actual parameter. Check that the operations in
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--      the second instance perform as expected.
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--
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--
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-- CHANGE HISTORY:
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--      06 Dec 94   SAIC    ACVC 2.0
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--
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--!
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with FC70A00;         -- Generic complex integer operations.
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generic               -- Generic complex matrix operations.
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   with package Complex_Package is new FC70A00 (<>);
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package CC70A01_0 is
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   type Complex_Matrix_Type is                        -- 1st index is matrix
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      array (Positive range <>, Positive range <>)    -- row, 2nd is column.
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        of Complex_Package.Complex_Type;
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   Dimension_Mismatch : exception;
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   function Identity_Matrix (Size : Positive)         -- Create identity matrix
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     return Complex_Matrix_Type;                      -- of specified size.
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   function "*" (Left  : Complex_Matrix_Type;         -- Multiply two complex
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                 Right : Complex_Matrix_Type)         -- matrices.
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     return Complex_Matrix_Type;
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end CC70A01_0;
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     --==================================================================--
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package body CC70A01_0 is  -- Generic complex matrix operations.
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   use Complex_Package;
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               --==============================================--
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   function Inner_Product (Left, Right : Complex_Matrix_Type;
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                           Row, Column : Positive)    -- Compute inner product
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     return Complex_Package.Complex_Type is           -- for matrix-multiply.
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      Result : Complex_Type := Zero;
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      subtype Vector_Size is Positive range Left'Range(2);
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   begin  -- Inner_Product.
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      for I in Vector_Size loop
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         Result := Result +                           -- Complex_Package."+".
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                   (Left(Row, I) * Right(I, Column)); -- Complex_Package."*".
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      end loop;
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      return (Result);
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   end Inner_Product;
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               --==============================================--
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   function Identity_Matrix (Size : Positive) return Complex_Matrix_Type is
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      Result : Complex_Matrix_Type (1 .. Size, 1 .. Size) :=
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               (others => (others => Zero));          -- Zeroes everywhere...
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   begin
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      for I in 1 .. Size loop
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         Result (I, I) := One;                        -- Ones on the diagonal.
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      end loop;
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      return (Result);
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   end Identity_Matrix;
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               --==============================================--
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   function "*" (Left  : Complex_Matrix_Type; Right : Complex_Matrix_Type)
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     return Complex_Matrix_Type is
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      subtype Rows    is Positive range Left'Range(1);
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      subtype Columns is Positive range Right'Range(2);
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      Result : Complex_Matrix_Type(Rows, Columns);
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   begin
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      if Left'Length(2) /= Right'Length(1) then       -- # columns of Left must
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                                                      -- match # rows of Right.
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         raise Dimension_Mismatch;
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      else
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         for I in Rows loop
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            for J in Columns loop
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                Result(I, J) := Inner_Product (Left, Right, I, J);
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            end loop;
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         end loop;
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         return (Result);
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      end if;
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   end "*";
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end CC70A01_0;
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     --==================================================================--
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with Report;
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with FC70A00;    -- Generic complex integer operations.
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with CC70A01_0;  -- Generic complex matrix operations.
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procedure CC70A01 is
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   type My_Integer is range -100 .. 100;
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   package My_Complex_Package is new FC70A00   (My_Integer);
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   package My_Matrix_Package  is new CC70A01_0 (My_Complex_Package);
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   use My_Complex_Package,                                -- All user-defined
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       My_Matrix_Package;                                 -- operators directly
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                                                          -- visible.
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   subtype Matrix_2x2 is Complex_Matrix_Type (1 .. 2, 1 .. 2);
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   subtype Matrix_2x3 is Complex_Matrix_Type (1 .. 2, 1 .. 3);
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   function C (Real, Imag : My_Integer) return Complex_Type renames Complex;
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begin  -- Main program.
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   Report.Test ("CC70A01", "Check that the visible part of a generic " &
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                "formal package includes the first list of basic " &
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                "declarative items of the package specification. Check " &
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                "for a generic package where formal package has (<>) " &
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                "actual part");
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   declare
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      Identity_2x2 : Matrix_2x2 := Identity_Matrix (Size => 2);
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      Operand_2x3  : Matrix_2x3 := ( ( C(1, 2), C(3, 6), C(5, 1) ),
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                                     ( C(0, 3), C(7, 9), C(3, 4) ) );
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      Result_2x3   : Matrix_2x3 := ( others => ( others => Zero ) );
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   begin
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      begin -- Block #1.
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         Result_2x3 := Identity_2x2 * Operand_2x3; -- Should return
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                                                   -- Operand_2x3.
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         if (Result_2x3 /= Operand_2x3) then
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            Report.Failed ("Incorrect results from matrix multiplication");
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         end if;
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      exception
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         when others =>
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            Report.Failed ("Unexpected exception raised - Block #1");
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      end;  -- Block #1.
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      begin -- Block #2.
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         Result_2x3 := Operand_2x3 * Identity_2x2;  -- Can't multiply 2x3
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                                                    -- by 2x2.
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         Report.Failed ("Exception Dimension_Mismatch not raised");
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      exception
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         when Dimension_Mismatch =>
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            null;
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         when others             =>
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            Report.Failed ("Unexpected exception raised - Block #2");
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      end;  -- Block #2.
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   end;
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   Report.Result;
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end CC70A01;

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