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jeremybenn |
-- CC51003.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 if the ancestor type of a formal derived type is a composite
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-- type that is not an array type, the formal type inherits components,
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-- including discriminants, from the ancestor type.
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--
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-- Check for the case where the ancestor type is a record type, and the
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-- formal derived type is declared in a generic subprogram.
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--
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-- TEST DESCRIPTION:
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-- Define a discriminated record type in a package. Declare a
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-- library-level generic subprogram with a formal derived type using the
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-- record type as ancestor. Give the generic subprogram an in out
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-- parameter of the formal derived type. Inside the generic, use the
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-- discriminant component and modify the remaining components of the
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-- record parameter. In the main program, declare record objects with two
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-- different discriminant values. Derive an indefinite type from the
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-- record type with a new discriminant part. Instantiate the generic
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-- subprogram for the root record subtype and the derived subtype. Call
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-- the root subtype instance with actual parameters having the two
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-- discriminant values. Also call the derived subtype instance with
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-- an appropriate actual.
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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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-- 03 Jan 95 SAIC Removed unknown discriminant part from formal
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-- derived type.
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-- 05 Nov 95 SAIC ACVC 2.0.1 fixes: Removed constrained subtype
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-- instantiation and associated declarations.
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-- Modified commentary.
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--
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--!
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-- Simulate a fragment of a matrix manipulation application.
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package CC51003_0 is -- Matrix types.
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type Matrix is array (Natural range <>, Natural range <>) of Integer;
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type Square (Side : Natural) is record
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Mat : Matrix (1 .. Side, 1 .. Side);
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end record;
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type Double_Square (Number : Natural) is record
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Left : Square (Number);
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Right : Square (Number);
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end record;
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end CC51003_0;
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-- No body for CC51003_0;
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--==================================================================--
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with CC51003_0; -- Matrix types.
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generic -- Generic double-matrix "clear" operation.
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type Dbl_Square is new CC51003_0.Double_Square; -- Indefinite
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procedure CC51003_1 (Dbl : in out Dbl_Square); -- formal.
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--==================================================================--
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procedure CC51003_1 (Dbl : in out Dbl_Square) is
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begin
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for I in 1 .. Dbl.Number loop -- Discriminants inherited from ancestor
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for J in 1 .. Dbl.Number loop -- type (should work even for derived type
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-- declaring new discriminant part).
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Dbl.Left.Mat (I, J) := 0; -- Other components inherited from
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Dbl.Right.Mat (I, J) := 0; -- ancestor type.
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end loop;
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end loop;
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end CC51003_1;
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--==================================================================--
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with CC51003_0; -- Matrix types.
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with CC51003_1; -- Generic double-matrix "clear" operation.
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with Report;
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procedure CC51003 is
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use CC51003_0; -- "/=" operator directly visible for Double_Square.
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-- Matrices of root type:
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Mat_2x2 : Square(Side => 2) := (Side => 2,
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Mat => ( (1, 2), (3, 4) ));
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Dbl_Mat_2x2 : Double_Square(Number => 2) := (2, Mat_2x2, Mat_2x2);
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Zero_2x2 : constant Square(2) := (2, Mat => ( (0, 0), (0, 0) ));
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Expected_2x2 : constant Double_Square(2) := (Number => 2,
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others => Zero_2x2);
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Mat_3x3 : Square(Side => 3) := (Side => 3,
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Mat => (1 => (1, 4, 9),
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others => (1 => 5,
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others => 7)));
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Dbl_Mat_3x3 : Double_Square(3) := (Number => 3, others => Mat_3x3);
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Zero_3x3 : constant Square(3) := (3, Mat => (others => (0,0,0)));
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Expected_3x3 : constant Double_Square(Number => 3) :=
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(3, Zero_3x3, Zero_3x3);
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-- Derived type with new discriminant part (which constrains parent):
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type New_Dbl_Sq (Num : Natural) is new Double_Square(Num);
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New_Dbl_2x2 : New_Dbl_Sq (Num => 2) := (2, Mat_2x2, Mat_2x2);
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Expected_New_2x2 : constant New_Dbl_Sq := (Num => 2, others => Zero_2x2);
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-- Instantiations:
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procedure Clr_Dbl is new CC51003_1 (Double_Square);
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procedure Clr_New_Dbl is new CC51003_1 (New_Dbl_Sq);
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begin
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Report.Test ("CC51003", "Check that a formal derived record type " &
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"inherits components, including discriminants, " &
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"from its ancestor type");
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-- Simulate use of matrix manipulation operations.
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Clr_Dbl (Dbl_Mat_2x2);
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if (Dbl_Mat_2x2 /= Expected_2x2) then
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Report.Failed ("Wrong result for root type (2x2 matrix)");
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end if;
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Clr_Dbl (Dbl_Mat_3x3);
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if (Dbl_Mat_3x3 /= Expected_3x3) then
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Report.Failed ("Wrong result for root type (3x3 matrix)");
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end if;
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Clr_New_Dbl (New_Dbl_2x2);
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if (New_Dbl_2x2 /= Expected_New_2x2) then
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Report.Failed ("Wrong result for derived type (2x2 matrix)");
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end if;
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Report.Result;
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end CC51003;
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