Mercurial > hg > CbC > CbC_gcc
view gcc/testsuite/ada/acats/tests/c7/c731001.a @ 111:04ced10e8804
gcc 7
| author | kono |
|---|---|
| date | Fri, 27 Oct 2017 22:46:09 +0900 |
| parents | |
| children |
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-- C731001.A -- -- Grant of Unlimited Rights -- -- Under contracts F33600-87-D-0337, F33600-84-D-0280, MDA903-79-C-0687 and -- F08630-91-C-0015, 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 WHATSOVER, 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 inherited operations can be overridden, even when they are -- inherited in a body. -- The test cases here are inspired by the AARM examples given in -- the discussion of AARM-7.3.1(7.a-7.v). -- This discussion was confirmed by AI95-00035. -- -- TEST DESCRIPTION -- See AARM-7.3.1. -- -- CHANGE HISTORY: -- 29 JUN 1999 RAD Initial Version -- 23 SEP 1999 RLB Improved comments, renamed, issued. -- 20 AUG 2001 RLB Corrected 'verbose' flag. -- --! with Report; use Report; pragma Elaborate_All(Report); package C731001_1 is pragma Elaborate_Body; private procedure Check_String(X, Y: String); function Check_String(X, Y: String) return String; -- This one is a function, so we can call it in package specs. end C731001_1; package body C731001_1 is Verbose: Boolean := False; procedure Check_String(X, Y: String) is begin if Verbose then Comment("""" & X & """ = """ & Y & """?"); end if; if X /= Y then Failed("""" & X & """ should be """ & Y & """"); end if; end Check_String; function Check_String(X, Y: String) return String is begin Check_String(X, Y); return X; end Check_String; end C731001_1; private package C731001_1.Parent is procedure Call_Main; type Root is tagged null record; subtype Renames_Root is Root; subtype Root_Class is Renames_Root'Class; function Make return Root; function Op1(X: Root) return String; function Call_Op2(X: Root'Class) return String; private function Op2(X: Root) return String; end C731001_1.Parent; procedure C731001_1.Parent.Main; with C731001_1.Parent.Main; package body C731001_1.Parent is procedure Call_Main is begin Main; end Call_Main; function Make return Root is Result: Root; begin return Result; end Make; function Op1(X: Root) return String is begin return "Parent.Op1 body"; end Op1; function Op2(X: Root) return String is begin return "Parent.Op2 body"; end Op2; function Call_Op2(X: Root'Class) return String is begin return Op2(X); end Call_Op2; begin Check_String(Op1(Root'(Make)), "Parent.Op1 body"); Check_String(Op1(Root_Class(Root'(Make))), "Parent.Op1 body"); Check_String(Op2(Root'(Make)), "Parent.Op2 body"); Check_String(Op2(Root_Class(Root'(Make))), "Parent.Op2 body"); end C731001_1.Parent; with C731001_1.Parent; use C731001_1.Parent; private package C731001_1.Unrelated is type T2 is new Root with null record; subtype T2_Class is T2'Class; function Make return T2; function Op2(X: T2) return String; end C731001_1.Unrelated; with C731001_1.Parent; use C731001_1.Parent; pragma Elaborate(C731001_1.Parent); package body C731001_1.Unrelated is function Make return T2 is Result: T2; begin return Result; end Make; function Op2(X: T2) return String is begin return "Unrelated.Op2 body"; end Op2; begin Check_String(Op1(T2'(Make)), "Parent.Op1 body"); Check_String(Op1(T2_Class(T2'(Make))), "Parent.Op1 body"); Check_String(Op1(Root_Class(T2'(Make))), "Parent.Op1 body"); Check_String(Op2(T2'(Make)), "Unrelated.Op2 body"); Check_String(Op2(T2_Class(T2'(Make))), "Unrelated.Op2 body"); Check_String(Call_Op2(T2'(Make)), "Parent.Op2 body"); Check_String(Call_Op2(T2_Class(T2'(Make))), "Parent.Op2 body"); Check_String(Call_Op2(Root_Class(T2'(Make))), "Parent.Op2 body"); end C731001_1.Unrelated; package C731001_1.Parent.Child is pragma Elaborate_Body; type T3 is new Root with null record; subtype T3_Class is T3'Class; function Make return T3; T3_Obj: T3; T3_Class_Obj: T3_Class := T3_Obj; T3_Root_Class_Obj: Root_Class := T3_Obj; X3: constant String := Check_String(Op1(T3_Obj), "Parent.Op1 body") & Check_String(Op1(T3_Class_Obj), "Parent.Op1 body") & Check_String(Op1(T3_Root_Class_Obj), "Parent.Op1 body") & Check_String(Call_Op2(T3_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T3_Class_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T3_Root_Class_Obj), "Parent.Op2 body"); package Nested is type T4 is new Root with null record; subtype T4_Class is T4'Class; function Make return T4; T4_Obj: T4; T4_Class_Obj: T4_Class := T4_Obj; T4_Root_Class_Obj: Root_Class := T4_Obj; X4: constant String := Check_String(Op1(T4_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Class_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Root_Class_Obj), "Parent.Op1 body") & Check_String(Call_Op2(T4_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Class_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Root_Class_Obj), "Parent.Op2 body"); private XX4: constant String := Check_String(Op1(T4_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Class_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Root_Class_Obj), "Parent.Op1 body") & Check_String(Call_Op2(T4_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Class_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Root_Class_Obj), "Parent.Op2 body"); end Nested; use Nested; XXX4: constant String := Check_String(Op1(T4_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Class_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Root_Class_Obj), "Parent.Op1 body") & Check_String(Call_Op2(T4_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Class_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Root_Class_Obj), "Parent.Op2 body"); private XX3: constant String := Check_String(Op1(T3_Obj), "Parent.Op1 body") & Check_String(Op1(T3_Class_Obj), "Parent.Op1 body") & Check_String(Op1(T3_Root_Class_Obj), "Parent.Op1 body") & Check_String(Call_Op2(T3_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T3_Class_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T3_Root_Class_Obj), "Parent.Op2 body") & Check_String(Op2(T3_Obj), "Parent.Op2 body") & Check_String(Op2(T3_Class_Obj), "Parent.Op2 body") & Check_String(Op2(T3_Root_Class_Obj), "Parent.Op2 body"); XXXX4: constant String := Check_String(Op1(T4_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Class_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Root_Class_Obj), "Parent.Op1 body") & Check_String(Call_Op2(T4_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Class_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Root_Class_Obj), "Parent.Op2 body") & Check_String(Op2(T4_Root_Class_Obj), "Parent.Op2 body"); end C731001_1.Parent.Child; with C731001_1.Unrelated; use C731001_1.Unrelated; pragma Elaborate(C731001_1.Unrelated); package body C731001_1.Parent.Child is XXX3: constant String := Check_String(Op1(T3_Obj), "Parent.Op1 body") & Check_String(Op1(T3_Class_Obj), "Parent.Op1 body") & Check_String(Op1(T3_Root_Class_Obj), "Parent.Op1 body") & Check_String(Call_Op2(T3_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T3_Class_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T3_Root_Class_Obj), "Parent.Op2 body") & Check_String(Op2(T3_Obj), "Parent.Op2 body") & Check_String(Op2(T3_Class_Obj), "Parent.Op2 body") & Check_String(Op2(T3_Root_Class_Obj), "Parent.Op2 body"); XXXXX4: constant String := Check_String(Op1(T4_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Class_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Root_Class_Obj), "Parent.Op1 body") & Check_String(Call_Op2(T4_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Class_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Root_Class_Obj), "Parent.Op2 body") & Check_String(Op2(T4_Root_Class_Obj), "Parent.Op2 body"); function Make return T3 is Result: T3; begin return Result; end Make; package body Nested is function Make return T4 is Result: T4; begin return Result; end Make; XXXXXX4: constant String := Check_String(Op1(T4_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Class_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Root_Class_Obj), "Parent.Op1 body") & Check_String(Call_Op2(T4_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Class_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Root_Class_Obj), "Parent.Op2 body") & Check_String(Op2(T4_Obj), "Parent.Op2 body") & Check_String(Op2(T4_Class_Obj), "Parent.Op2 body") & Check_String(Op2(T4_Root_Class_Obj), "Parent.Op2 body"); end Nested; type T5 is new T2 with null record; subtype T5_Class is T5'Class; function Make return T5; function Make return T5 is Result: T5; begin return Result; end Make; XXXXXXX4: constant String := Check_String(Op1(T4_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Class_Obj), "Parent.Op1 body") & Check_String(Op1(T4_Root_Class_Obj), "Parent.Op1 body") & Check_String(Call_Op2(T4_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Class_Obj), "Parent.Op2 body") & Check_String(Call_Op2(T4_Root_Class_Obj), "Parent.Op2 body") & Check_String(Op2(T4_Root_Class_Obj), "Parent.Op2 body"); end C731001_1.Parent.Child; procedure C731001_1.Main; with C731001_1.Parent; procedure C731001_1.Main is begin C731001_1.Parent.Call_Main; end C731001_1.Main; with C731001_1.Parent.Child; use C731001_1.Parent; use C731001_1.Parent.Child; use C731001_1.Parent.Child.Nested; with C731001_1.Unrelated; use C731001_1.Unrelated; procedure C731001_1.Parent.Main is Root_Obj: Root := Make; Root_Class_Obj: Root_Class := Root'(Make); T2_Obj: T2 := Make; T2_Class_Obj: T2_Class := T2_Obj; T2_Root_Class_Obj: Root_Class := T2_Class_Obj; T3_Obj: T3 := Make; T3_Class_Obj: T3_Class := T3_Obj; T3_Root_Class_Obj: Root_Class := T3_Obj; T4_Obj: T4 := Make; T4_Class_Obj: T4_Class := T4_Obj; T4_Root_Class_Obj: Root_Class := T4_Obj; begin Test("C731001_1", "Check that inherited operations can be overridden, even" & " when they are inherited in a body"); Check_String(Op1(Root_Obj), "Parent.Op1 body"); Check_String(Op1(Root_Class_Obj), "Parent.Op1 body"); Check_String(Call_Op2(Root_Obj), "Parent.Op2 body"); Check_String(Call_Op2(Root_Class_Obj), "Parent.Op2 body"); Check_String(Op1(T2_Obj), "Parent.Op1 body"); Check_String(Op1(T2_Class_Obj), "Parent.Op1 body"); Check_String(Op1(T2_Root_Class_Obj), "Parent.Op1 body"); Check_String(Op2(T2_Obj), "Unrelated.Op2 body"); Check_String(Op2(T2_Class_Obj), "Unrelated.Op2 body"); Check_String(Call_Op2(T2_Obj), "Parent.Op2 body"); Check_String(Call_Op2(T2_Class_Obj), "Parent.Op2 body"); Check_String(Call_Op2(T2_Root_Class_Obj), "Parent.Op2 body"); Check_String(Op1(T3_Obj), "Parent.Op1 body"); Check_String(Op1(T3_Class_Obj), "Parent.Op1 body"); Check_String(Op1(T3_Root_Class_Obj), "Parent.Op1 body"); Check_String(Call_Op2(T3_Obj), "Parent.Op2 body"); Check_String(Call_Op2(T3_Class_Obj), "Parent.Op2 body"); Check_String(Call_Op2(T3_Root_Class_Obj), "Parent.Op2 body"); Check_String(Op1(T4_Obj), "Parent.Op1 body"); Check_String(Op1(T4_Class_Obj), "Parent.Op1 body"); Check_String(Op1(T4_Root_Class_Obj), "Parent.Op1 body"); Check_String(Call_Op2(T4_Obj), "Parent.Op2 body"); Check_String(Call_Op2(T4_Class_Obj), "Parent.Op2 body"); Check_String(Call_Op2(T4_Root_Class_Obj), "Parent.Op2 body"); Result; end C731001_1.Parent.Main; with C731001_1.Main; procedure C731001 is begin C731001_1.Main; end C731001;