-- CC70001.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 the template for a generic formal package may be a child -- package, and that a child instance which is an instance of the -- template may be passed as an actual to the formal package. Check that -- the visible part of the generic formal package includes the first list -- of basic declarative items of the package specification. -- -- TEST DESCRIPTION: -- Declare a list abstraction in a generic package which manages lists of -- elements of any nonlimited type. Declare a generic child package of -- this package which defines additional list operations. Declare a -- generic subprogram which operates on lists of elements of discrete -- types. Provide the generic subprogram with three formal parameters: -- (1) a formal discrete type which represents a list element type, (2) -- a generic formal package with the parent list generic as template, and -- (3) a generic formal package with the child list generic as template. -- Use the formal discrete type as the generic formal actual part for the -- parent formal package. In the main program, declare an instance of -- parent, then declare an instance of the child which is itself a child -- the parent's instance. Pass these instances as actuals to the generic -- subprogram instance. -- -- -- CHANGE HISTORY: -- 06 Dec 94 SAIC ACVC 2.0 -- 05 Nov 95 SAIC ACVC 2.0.1 fixes: Corrected syntax of formal -- package declaration. -- 27 Feb 97 PWB.CTA Added an elaboration pragma. --! generic type Element_Type is private; -- List elems may be of any nonlimited type. package CC70001_0 is -- List abstraction. type List_Type is limited private; -- Return true if current element is last in the list. function End_Of_List (L : List_Type) return Boolean; -- Set "current" pointer to first list element. procedure Reset (L : in out List_Type); private type Node_Type; type Node_Pointer is access Node_Type; type Node_Type is record Item : Element_Type; Next : Node_Pointer; end record; type List_Type is record First : Node_Pointer; Current : Node_Pointer; Last : Node_Pointer; end record; end CC70001_0; --==================================================================-- package body CC70001_0 is function End_Of_List (L : List_Type) return Boolean is begin return (L.Current = null); end End_Of_List; procedure Reset (L : in out List_Type) is begin L.Current := L.First; -- Set "current" pointer to first end Reset; -- list element. end CC70001_0; --==================================================================-- -- Child must be generic since parent is generic. A formal parameter for -- "element type" can not be provided here, because then the type of list -- element assumed by these new operations would be different from that -- defined by the list type declared in the parent. generic package CC70001_0.CC70001_1 is -- Additional list operations. -- Read from current element and advance "current" pointer. procedure Read_Element (L : in out List_Type; E : out Element_Type); -- Write to current element and advance "current" pointer. procedure Write_Element (L : in out List_Type; E : in Element_Type); -- Add element to end of list. procedure Add_Element (L : in out List_Type; E : in Element_Type); end CC70001_0.CC70001_1; --==================================================================-- package body CC70001_0.CC70001_1 is procedure Read_Element (L : in out List_Type; E : out Element_Type) is begin -- ... Error-checking code omitted for brevity. E := L.Current.Item; -- Retrieve current element. L.Current := L.Current.Next; -- Advance "current" pointer. end Read_Element; procedure Write_Element (L : in out List_Type; E : in Element_Type) is begin -- ... Error-checking code omitted for brevity. L.Current.Item := E; -- Write to current element. L.Current := L.Current.Next; -- Advance "current" pointer. end Write_Element; procedure Add_Element (L : in out List_Type; E : in Element_Type) is New_Node : Node_Pointer := new Node_Type'(E, null); begin if L.First = null then -- No elements in list, so add new L.First := New_Node; -- element at beginning of list. else L.Last.Next := New_Node; -- Add new element at end of list. end if; L.Last := New_Node; -- Set last-in-list pointer. end Add_Element; end CC70001_0.CC70001_1; --==================================================================-- with CC70001_0.CC70001_1; -- Generic list abstraction + additional operations. generic -- Import the list abstraction defined in CC70001_0, as well as the -- additional operations defined in CC70001_0.CC70001_1. Declare a formal -- discrete type. Restrict this generic procedure to operate only on lists -- of discrete elements by passing the formal discrete type as an actual -- parameter to the formal (parent) package. type Elem_Type is (<>); -- Discrete types only. with package List_Mgr is new CC70001_0 (Elem_Type); with package List_Ops is new List_Mgr.CC70001_1 (<>); procedure CC70001_2 (L : in out List_Mgr.List_Type); --==================================================================-- procedure CC70001_2 (L : in out List_Mgr.List_Type) is begin List_Mgr.Reset (L); while not List_Mgr.End_Of_List (L) loop List_Ops.Write_Element (L, Elem_Type'First); end loop; end CC70001_2; --==================================================================-- package CC70001_3 is type Points is range 0 .. 10; -- ... Various other types used by the application. end CC70001_3; -- No body for CC70001_3; --==================================================================-- -- Declare instances of the generic list packages for the discrete type. -- In order to establish that the type passed as an actual to the parent -- generic (CC70001_0) is the one utilized by the child generic (CC70001_1), -- the instance of the child must itself be declared as a child of the -- instance of the parent. Since only library units may have or be children, -- both instances must be library units. with CC70001_0; -- Generic list abstraction. with CC70001_3; -- Package containing discrete type declaration. pragma Elaborate (CC70001_0); package CC70001_4 is new CC70001_0 (CC70001_3.Points); with CC70001_0.CC70001_1; -- Generic extension to list abstraction. with CC70001_4; package CC70001_4.CC70001_5 is new CC70001_4.CC70001_1; --==================================================================-- with CC70001_2; -- Generic "zeroing" op for lists of discrete types. with CC70001_3; -- Types for application. with CC70001_4.CC70001_5; -- Discrete list abstraction + additional ops. with Report; procedure CC70001 is package Lists_Of_Scores renames CC70001_4; package Score_Ops renames CC70001_4.CC70001_5; Scores : Lists_Of_Scores.List_Type; -- List of points. procedure Reset_All_Scores is new CC70001_2 -- Operation on lists of (Elem_Type => CC70001_3.Points, -- points. List_Mgr => Lists_Of_Scores, List_Ops => Score_Ops); -- Begin test code declarations: ----------------------- type TC_Score_Array is array (1 .. 3) of CC70001_3.Points; TC_Initial_Values : constant TC_Score_Array := (2, 4, 6); TC_Final_Values : constant TC_Score_Array := (0, 0, 0); TC_Correct_Initial_Values : Boolean := False; TC_Correct_Final_Values : Boolean := False; procedure TC_Initialize_List (L : in out Lists_of_Scores.List_Type) is begin -- Initial list contains 3 scores for I in TC_Score_Array'Range loop -- with the values 2, 4, and 6. Score_Ops.Add_Element (L, TC_Initial_Values(I)); end loop; end TC_Initialize_List; procedure TC_Verify_List (L : in out Lists_of_Scores.List_Type; Expected : in TC_Score_Array; OK : out Boolean) is Actual : TC_Score_Array; begin -- Verify that all scores have been Lists_of_Scores.Reset (L); -- set to zero. for I in TC_Score_Array'Range loop Score_Ops.Read_Element (L, Actual(I)); end loop; OK := (Actual = Expected); end TC_Verify_List; -- End test code declarations. ------------------------- begin Report.Test ("CC70001", "Check that the template for a generic formal " & "package may be a child package, and that a child instance " & "which is an instance of the template may be passed as an " & "actual to the formal package. Check that the visible part " & "of the generic formal package includes the first list of " & "basic declarative items of the package specification"); TC_Initialize_List (Scores); TC_Verify_List (Scores, TC_Initial_Values, TC_Correct_Initial_Values); if not TC_Correct_Initial_Values then Report.Failed ("List contains incorrect initial values"); end if; Reset_All_Scores (Scores); TC_Verify_List (Scores, TC_Final_Values, TC_Correct_Final_Values); if not TC_Correct_Final_Values then Report.Failed ("List contains incorrect final values"); end if; Report.Result; end CC70001;