Mercurial > hg > CbC > CbC_gcc
view gcc/testsuite/ada/acats/tests/cc/cc70002.a @ 111:04ced10e8804
gcc 7
| author | kono |
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| date | Fri, 27 Oct 2017 22:46:09 +0900 |
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-- CC70002.A -- -- Grant of Unlimited Rights -- -- Under contracts F33600-87-D-0337, F33600-84-D-0280, MDA903-79-C-0687, -- F08630-91-C-0015, and DCA100-97-D-0025, the U.S. Government obtained -- unlimited rights in the software and documentation contained herein. -- Unlimited rights are defined in DFAR 252.227-7013(a)(19). By making -- this public release, the Government intends to confer upon all -- recipients unlimited rights equal to those held by the Government. -- These rights include rights to use, duplicate, release or disclose the -- released technical data and computer software in whole or in part, in -- any manner and for any purpose whatsoever, and to have or permit others -- to do so. -- -- DISCLAIMER -- -- ALL MATERIALS OR INFORMATION HEREIN RELEASED, MADE AVAILABLE OR -- DISCLOSED ARE AS IS. THE GOVERNMENT MAKES NO EXPRESS OR IMPLIED -- WARRANTY AS TO ANY MATTER WHATSOEVER, INCLUDING THE CONDITIONS OF THE -- SOFTWARE, DOCUMENTATION OR OTHER INFORMATION RELEASED, MADE AVAILABLE -- OR DISCLOSED, OR THE OWNERSHIP, MERCHANTABILITY, OR FITNESS FOR A -- PARTICULAR PURPOSE OF SAID MATERIAL. --* -- -- OBJECTIVE: -- Check that a formal package actual part may specify actual parameters -- for a generic formal package. Check that these actual parameters may -- be formal types, formal objects, and formal subprograms. Check that -- the visible part of the generic formal package includes the first list -- of basic declarative items of the package specification, and that if -- the formal package actual part is (<>), it also includes the generic -- formal part of the template for the formal package. -- -- TEST DESCRIPTION: -- Declare a generic package which defines a "signature" for mathematical -- groups. Declare a second generic package which defines a -- two-dimensional matrix abstraction. Declare a third generic package -- which provides mathematical group operations for two-dimensional -- matrices. Provide this third generic with two formal parameters: (1) -- a generic formal package with the second generic as template and a -- (<>) actual part, and (2) a generic formal package with the first -- generic as template and an actual part that takes a formal type, -- object, and subprogram from the first formal package as actuals. -- -- -- CHANGE HISTORY: -- 06 Dec 94 SAIC ACVC 2.0 -- --! generic -- Mathematical group signature. type Group_Type is private; Identity : in Group_Type; with function Operation (Left, Right : Group_Type) return Group_Type; -- with function Inverse... (omitted for brevity). package CC70002_0 is function Power (Left : Group_Type; Right : Integer) return Group_Type; -- ... Other group operations. end CC70002_0; --==================================================================-- package body CC70002_0 is -- The implementation of Power is purely artificial; the validity of its -- implementation in the context of the abstraction is irrelevant to the -- feature being tested. function Power (Left : Group_Type; Right : Integer) return Group_Type is Result : Group_Type := Identity; begin Result := Operation (Result, Left); -- All this really does is add return Result; -- one to each matrix element. end Power; end CC70002_0; --==================================================================-- generic -- 2D matrix abstraction. type Element_Type is range <>; type Abscissa is range <>; type Ordinate is range <>; type Matrix_2D is array (Abscissa, Ordinate) of Element_Type; package CC70002_1 is Add_Ident : constant Matrix_2D := (Abscissa => (others => 1)); -- Artificial for -- testing purposes. -- ... Other identity matrices. function "+" (A, B : Matrix_2D) return Matrix_2D; -- ... Other operations. end CC70002_1; --==================================================================-- package body CC70002_1 is function "+" (A, B : Matrix_2D) return Matrix_2D is C : Matrix_2D; begin for I in Abscissa loop for J in Ordinate loop C(I,J) := A(I,J) + B(I,J); end loop; end loop; return C; end "+"; end CC70002_1; --==================================================================-- with CC70002_0; -- Mathematical group signature. with CC70002_1; -- 2D matrix abstraction. generic -- Mathematical 2D matrix addition group. with package Matrix_Ops is new CC70002_1 (<>); -- Although the restriction of the formal package below to signatures -- describing addition groups, and then only for 2D matrices, is rather -- artificial in the context of this "application," the passing of types, -- objects, and subprograms as actuals to a formal package is not. with package Math_Sig is new CC70002_0 (Group_Type => Matrix_Ops.Matrix_2D, Identity => Matrix_Ops.Add_Ident, Operation => Matrix_Ops."+"); package CC70002_2 is -- Add two matrices that are to be multiplied by coefficients: -- [ ] = CA*[ ] + CB*[ ]. function Add_Matrices_With_Coefficients (A : Matrix_Ops.Matrix_2D; CA : Integer; B : Matrix_Ops.Matrix_2D; CB : Integer) return Matrix_Ops.Matrix_2D; -- ...Other operations. end CC70002_2; --==================================================================-- package body CC70002_2 is function Add_Matrices_With_Coefficients (A : Matrix_Ops.Matrix_2D; CA : Integer; B : Matrix_Ops.Matrix_2D; CB : Integer) return Matrix_Ops.Matrix_2D is Left, Right : Matrix_Ops.Matrix_2D; begin Left := Math_Sig.Power (A, CA); -- Multiply 1st array by its coeff. Right := Math_Sig.Power (B, CB); -- Multiply 2nd array by its coeff. return (Matrix_Ops."+" (Left, Right));-- Add these two arrays. end Add_Matrices_With_Coefficients; end CC70002_2; --==================================================================-- with CC70002_0; -- Mathematical group signature. with CC70002_1; -- 2D matrix abstraction. with CC70002_2; -- Mathematical 2D matrix addition group. with Report; procedure CC70002 is subtype Cell_Type is Positive range 1 .. 3; subtype Category_Type is Positive range 1 .. 2; type Data_Points is new Natural range 0 .. 100; type Table_Type is array (Cell_Type, Category_Type) of Data_Points; package Data_Table_Support is new CC70002_1 (Data_Points, Cell_Type, Category_Type, Table_Type); package Data_Table_Addition_Group is new CC70002_0 (Group_Type => Table_Type, Identity => Data_Table_Support.Add_Ident, Operation => Data_Table_Support."+"); package Table_Add_Ops is new CC70002_2 (Data_Table_Support, Data_Table_Addition_Group); Scores_Table : Table_Type := ( ( 12, 0), ( 21, 33), ( 49, 9) ); Expected : Table_Type := ( ( 26, 2), ( 44, 68), ( 100, 20) ); begin Report.Test ("CC70002", "Check that a generic formal package actual " & "part may specify formal objects, formal subprograms, " & "and formal types"); Scores_Table := Table_Add_Ops.Add_Matrices_With_Coefficients (Scores_Table, 2, Scores_Table, 1); if (Scores_Table /= Expected) then Report.Failed ("Incorrect result for multi-dimensional array"); end if; Report.Result; end CC70002;