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-- C761010.A
--
-- Grant of Unlimited Rights
--
-- The Ada Conformity Assessment Authority (ACAA) holds unlimited
-- rights in the software and documentation contained herein. Unlimited
-- rights are the same as those granted by the U.S. Government for older
-- parts of the Ada Conformity Assessment Test Suite, and are defined
-- in DFAR 252.227-7013(a)(19). By making this public release, the ACAA
-- intends to confer upon all recipients unlimited rights equal to those
-- held by the ACAA. 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 the requirements of the new 7.6(17.1/1) from Technical
-- Corrigendum 1 (originally discussed as AI95-00083).
-- This new paragraph requires that the initialization of an object with
-- an aggregate does not involve calls to Adjust.
--
-- TEST DESCRIPTION
-- We include several cases of initialization:
-- - Explicit initialization of an object declared by an
-- object declaration.
-- - Explicit initialization of a heap object.
-- - Default initialization of a record component.
-- - Initialization of a formal parameter during a call.
-- - Initialization of a formal parameter during a call with
-- a defaulted parameter.
-- - Lots of nested records, arrays, and pointers.
-- In this test, Initialize should never be called, because we
-- never declare a default-initialized controlled object (although
-- we do declare default-initialized records containing controlled
-- objects, with default expressions for the components).
-- Adjust should never be called, because every initialization
-- is via an aggregate. Finalize is called, because the objects
-- themselves need to be finalized.
-- Thus, Initialize and Adjust call Failed.
-- In some of the cases, these procedures will not yet be elaborated,
-- anyway.
--
-- CHANGE HISTORY:
-- 29 JUN 1999 RAD Initial Version
-- 23 SEP 1999 RLB Improved comments, renamed, issued.
-- 10 APR 2000 RLB Corrected errors in comments and text, fixed
-- discriminant error. Fixed so that Report.Test
-- is called before any Report.Failed call. Added
-- a marker so that the failed subtest can be
-- determined.
-- 26 APR 2000 RAD Try to defeat optimizations.
-- 04 AUG 2000 RLB Corrected error in Check_Equal.
-- 18 AUG 2000 RLB Removed dubious main subprogram renames (see AI-172).
-- 19 JUL 2002 RLB Fixed to avoid calling comment after Report.Result.
--
--!
with Ada; use Ada;
with Report; use Report; pragma Elaborate_All(Report);
with Ada.Finalization;
package C761010_1 is
pragma Elaborate_Body;
function Square(X: Integer) return Integer;
private
type TC_Control is new Ada.Finalization.Limited_Controlled with null record;
procedure Initialize (Object : in out TC_Control);
procedure Finalize (Object : in out TC_Control);
TC_Finalize_Called : Boolean := False;
end C761010_1;
package body C761010_1 is
function Square(X: Integer) return Integer is
begin
return X**2;
end Square;
procedure Initialize (Object : in out TC_Control) is
begin
Test("C761010_1",
"Check that Adjust is not called"
& " when aggregates are used to initialize objects");
end Initialize;
procedure Finalize (Object : in out TC_Control) is
begin
if not TC_Finalize_Called then
Failed("Var_Strings Finalize never called");
end if;
Result;
end Finalize;
TC_Test : TC_Control; -- Starts test; finalization ends test.
end C761010_1;
with Ada.Finalization;
package C761010_1.Var_Strings is
type Var_String(<>) is private;
Some_String: constant Var_String;
function "=" (X, Y: Var_String) return Boolean;
procedure Check_Equal(X, Y: Var_String);
-- Calls to this are used to defeat optimizations
-- that might otherwise defeat the purpose of the
-- test. I'm talking about the optimization of removing
-- unused controlled objects.
private
type String_Ptr is access constant String;
type Var_String(Length: Natural) is new Finalization.Controlled with
record
Comp_1: String_Ptr := new String'(2..Square(Length)-1 => 'x');
Comp_2: String_Ptr(1..Length) := null;
Comp_3: String(Length..Length) := (others => '.');
TC_Lab: Character := '1';
end record;
procedure Initialize(X: in out Var_String);
procedure Adjust(X: in out Var_String);
procedure Finalize(X: in out Var_String);
Some_String: constant Var_String
:= (Finalization.Controlled with Length => 1,
Comp_1 => null,
Comp_2 => null,
Comp_3 => "x",
TC_Lab => 'A');
Another_String: constant Var_String
:= (Finalization.Controlled with Length => 10,
Comp_1 => Some_String.Comp_2,
Comp_2 => new String'("1234567890"),
Comp_3 => "x",
TC_Lab => 'B');
end C761010_1.Var_Strings;
package C761010_1.Var_Strings.Types is
type Ptr is access all Var_String;
Ptr_Const: constant Ptr;
type Ptr_Arr is array(Positive range <>) of Ptr;
Ptr_Arr_Const: constant Ptr_Arr;
type Ptr_Rec(N_Strings: Natural) is
record
Ptrs: Ptr_Arr(1..N_Strings);
end record;
Ptr_Rec_Const: constant Ptr_Rec;
private
Ptr_Const: constant Ptr := new Var_String'
(Finalization.Controlled with
Length => 1,
Comp_1 => null,
Comp_2 => null,
Comp_3 => (others => ' '),
TC_Lab => 'C');
Ptr_Arr_Const: constant Ptr_Arr :=
(1 => new Var_String'
(Finalization.Controlled with
Length => 1,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'D'));
Ptr_Rec_Var: Ptr_Rec :=
(3,
(1..2 => null,
3 => new Var_String'
(Finalization.Controlled with
Length => 2,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'E')));
Ptr_Rec_Const: constant Ptr_Rec :=
(3,
(1..2 => null,
3 => new Var_String'
(Finalization.Controlled with
Length => 2,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'F')));
type Arr is array(Positive range <>) of Var_String(Length => 2);
Arr_Var: Arr :=
(1 => (Finalization.Controlled with
Length => 2,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'G'));
type Rec(N_Strings: Natural) is
record
Ptrs: Ptr_Rec(N_Strings);
Strings: Arr(1..N_Strings) :=
(others =>
(Finalization.Controlled with
Length => 2,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'H'));
end record;
Default_Init_Rec_Var: Rec(N_Strings => 10);
Empty_Default_Init_Rec_Var: Rec(N_Strings => 0);
Rec_Var: Rec(N_Strings => 2) :=
(N_Strings => 2,
Ptrs =>
(2,
(1..1 => null,
2 => new Var_String'
(Finalization.Controlled with
Length => 2,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'J'))),
Strings =>
(1 =>
(Finalization.Controlled with
Length => 2,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'K'),
others =>
(Finalization.Controlled with
Length => 2,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'L')));
procedure Check_Equal(X, Y: Rec);
end C761010_1.Var_Strings.Types;
package body C761010_1.Var_Strings.Types is
-- Check that parameter passing doesn't create new objects,
-- and therefore doesn't need extra Adjusts or Finalizes.
procedure Check_Equal(X, Y: Rec) is
-- We assume that the arguments should be equal.
-- But we cannot assume that pointer values are the same.
begin
if X.N_Strings /= Y.N_Strings then
Failed("Records should be equal (1)");
else
for I in 1 .. X.N_Strings loop
if X.Ptrs.Ptrs(I) /= Y.Ptrs.Ptrs(I) then
if X.Ptrs.Ptrs(I) = null or else
Y.Ptrs.Ptrs(I) = null or else
X.Ptrs.Ptrs(I).all /= Y.Ptrs.Ptrs(I).all then
Failed("Records should be equal (2)");
end if;
end if;
if X.Strings(I) /= Y.Strings(I) then
Failed("Records should be equal (3)");
end if;
end loop;
end if;
end Check_Equal;
procedure My_Check_Equal
(X: Rec := Rec_Var;
Y: Rec :=
(N_Strings => 2,
Ptrs =>
(2,
(1..1 => null,
2 => new Var_String'
(Finalization.Controlled with
Length => 2,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'M'))),
Strings =>
(1 =>
(Finalization.Controlled with
Length => 2,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'N'),
others =>
(Finalization.Controlled with
Length => 2,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'O'))))
renames Check_Equal;
begin
My_Check_Equal;
Check_Equal(Rec_Var,
(N_Strings => 2,
Ptrs =>
(2,
(1..1 => null,
2 => new Var_String'
(Finalization.Controlled with
Length => 2,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'P'))),
Strings =>
(1 =>
(Finalization.Controlled with
Length => 2,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'Q'),
others =>
(Finalization.Controlled with
Length => 2,
Comp_1 => new String'("abcdefghij"),
Comp_2 => null,
Comp_3 => (2..2 => ' '),
TC_Lab => 'R'))));
-- Use the objects to avoid optimizations.
Check_Equal(Ptr_Const.all, Ptr_Const.all);
Check_Equal(Ptr_Arr_Const(1).all, Ptr_Arr_Const(1).all);
Check_Equal(Ptr_Rec_Const.Ptrs(Ptr_Rec_Const.N_Strings).all,
Ptr_Rec_Const.Ptrs(Ptr_Rec_Const.N_Strings).all);
Check_Equal(Ptr_Rec_Var.Ptrs(Ptr_Rec_Var.N_Strings).all,
Ptr_Rec_Var.Ptrs(Ptr_Rec_Var.N_Strings).all);
if Report.Equal (3, 2) then
-- Can't get here.
Check_Equal (Arr_Var(1), Default_Init_Rec_Var.Strings(1));
Check_Equal (Arr_Var(1), Empty_Default_Init_Rec_Var.Strings(1));
end if;
end C761010_1.Var_Strings.Types;
with C761010_1.Var_Strings;
with C761010_1.Var_Strings.Types;
procedure C761010_1.Main is
begin
-- Report.Test is called by the elaboration of C761010_1, and
-- Report.Result is called by the finalization of C761010_1.
-- This will happen before any objects are created, and after any
-- are finalized.
null;
end C761010_1.Main;
with C761010_1.Main;
procedure C761010 is
begin
C761010_1.Main;
end C761010;
package body C761010_1.Var_Strings is
Some_Error: exception;
procedure Initialize(X: in out Var_String) is
begin
Failed("Initialize should never be called");
raise Some_Error;
end Initialize;
procedure Adjust(X: in out Var_String) is
begin
Failed("Adjust should never be called - case " & X.TC_Lab);
raise Some_Error;
end Adjust;
procedure Finalize(X: in out Var_String) is
begin
Comment("Finalize called - case " & X.TC_Lab);
C761010_1.TC_Finalize_Called := True;
end Finalize;
function "=" (X, Y: Var_String) return Boolean is
-- Don't check the TC_Lab component, but do check the contents of the
-- access values.
begin
if X.Length /= Y.Length then
return False;
end if;
if X.Comp_3 /= Y.Comp_3 then
return False;
end if;
if X.Comp_1 /= Y.Comp_1 then
-- Still OK if the values are the same.
if X.Comp_1 = null or else
Y.Comp_1 = null or else
X.Comp_1.all /= Y.Comp_1.all then
return False;
--else OK.
end if;
end if;
if X.Comp_2 /= Y.Comp_2 then
-- Still OK if the values are the same.
if X.Comp_2 = null or else
Y.Comp_2 = null or else
X.Comp_2.all /= Y.Comp_2.all then
return False;
end if;
end if;
return True;
end "=";
procedure Check_Equal(X, Y: Var_String) is
begin
if X /= Y then
Failed("Check_Equal of Var_String");
end if;
end Check_Equal;
begin
Check_Equal(Another_String, Another_String);
end C761010_1.Var_Strings;