llvm-gcc-4.0/gcc/testsuite/ada/acats/tests/ca/ca15003.a - llvm-archive - Git at Google

 -- CA15003.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 the requirements of 10.1.5(4) and the modified 10.1.5(5)
 --     from Technical Corrigendum 1. (Originally discussed as AI95-00136.)
 --     Specifically:
 --     Check that program unit pragma for a generic package are accepted
 --     when given at the beginning of the package specification.
 --     Check that a program unit pragma can be given for a generic
 --     instantiation by placing the pragma immediately after the instantation.
 --
 -- TEST DESCRIPTION
 --     This test checks the cases that are *not* forbidden by the RM,
 --     and makes sure such legal cases actually work.
 --
 -- CHANGE HISTORY:
 --      29 JUN 1999   RAD   Initial Version
 --      08 JUL 1999   RLB   Cleaned up and added to test suite.
 --      27 AUG 1999   RLB   Repaired errors introduced by me.
 --
 --!

 with System;
 package CA15003A is
     pragma Pure;

     type Big_Int is range -System.Max_Int .. System.Max_Int;
     type Big_Positive is new Big_Int range 1..Big_Int'Last;
 end CA15003A;

 generic
     type Int is new Big_Int;
 package CA15003A.Pure is
     pragma Pure;
     function F(X: access Int) return Int;
 end CA15003A.Pure;

 with CA15003A.Pure;
 package CA15003A.Pure_Instance is new CA15003A.Pure(Int => Big_Positive);
     pragma Pure(CA15003A.Pure_Instance);

 package body CA15003A.Pure is
     function F(X: access Int) return Int is
     begin
         X.all := X.all + 1;
         return X.all;
     end F;
 end CA15003A.Pure;

 generic
 package CA15003A.Pure.Preelaborate is
     pragma Preelaborate;
     One: Int := 1;
     function F(X: access Int) return Int;
 end CA15003A.Pure.Preelaborate;

 package body CA15003A.Pure.Preelaborate is
     function F(X: access Int) return Int is
     begin
         X.all := X.all + One;
         return X.all;
     end F;
 end CA15003A.Pure.Preelaborate;

 with CA15003A.Pure_Instance;
 with CA15003A.Pure.Preelaborate;
 package CA15003A.Pure_Preelaborate_Instance is
     new CA15003A.Pure_Instance.Preelaborate;
         pragma Preelaborate(CA15003A.Pure_Preelaborate_Instance);

 package CA15003A.Empty_Pure is
     pragma Pure;
     pragma Elaborate_Body;
 end CA15003A.Empty_Pure;

 package body CA15003A.Empty_Pure is
 end CA15003A.Empty_Pure;

 package CA15003A.Empty_Preelaborate is
     pragma Preelaborate;
     pragma Elaborate_Body;
     One: Big_Int := 1;
 end CA15003A.Empty_Preelaborate;

 package body CA15003A.Empty_Preelaborate is
     function F(X: access Big_Int) return Big_Int is
     begin
         X.all := X.all + One;
         return X.all;
     end F;
 end CA15003A.Empty_Preelaborate;

 package CA15003A.Empty_Elaborate_Body is
     pragma Elaborate_Body;
     Three: aliased Big_Positive := 1;
     Two, Tres: Big_Positive'Base := 0;
 end CA15003A.Empty_Elaborate_Body;

 with Report; use Report; pragma Elaborate_All(Report);
 with CA15003A.Pure_Instance;
 with CA15003A.Pure_Preelaborate_Instance;
 use CA15003A;
 package body CA15003A.Empty_Elaborate_Body is
 begin
     if Two /= Big_Positive'Base(Ident_Int(0)) then
 	Failed ("Two should be zero now");
     end if;
     if Tres /= Big_Positive'Base(Ident_Int(0)) then
 	Failed ("Tres should be zero now");
     end if;
     if Two /= Tres then
 	Failed ("Tres should be zero now");
     end if;
     Two := Pure_Instance.F(Three'Access);
     Tres := Pure_Preelaborate_Instance.F(Three'Access);
     if Two /= Big_Positive(Ident_Int(2)) then
 	Failed ("Two should be 2 now");
     end if;
     if Tres /= Big_Positive(Ident_Int(3)) then
 	Failed ("Tres should be 3 now");
     end if;
 end CA15003A.Empty_Elaborate_Body;

 with Report; use Report;
 with CA15003A.Empty_Pure;
 with CA15003A.Empty_Preelaborate;
 with CA15003A.Empty_Elaborate_Body; use CA15003A.Empty_Elaborate_Body;
 use type CA15003A.Big_Positive'Base;
 procedure CA15003 is
 begin
     Test("CA15003", "Placement of Program Unit Pragmas in Generic Packages");
     if Two /= 2 then
 	Failed ("Two should be 2 now");
     end if;
     if Tres /= 3 then
 	Failed ("Tres should be 3 now");
     end if;
     Result;
 end CA15003;
	-- CA15003.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 the requirements of 10.1.5(4) and the modified 10.1.5(5)
	-- from Technical Corrigendum 1. (Originally discussed as AI95-00136.)
	-- Specifically:
	-- Check that program unit pragma for a generic package are accepted
	-- when given at the beginning of the package specification.
	-- Check that a program unit pragma can be given for a generic
	-- instantiation by placing the pragma immediately after the instantation.
	--
	-- TEST DESCRIPTION
	-- This test checks the cases that are not forbidden by the RM,
	-- and makes sure such legal cases actually work.
	--
	-- CHANGE HISTORY:
	-- 29 JUN 1999 RAD Initial Version
	-- 08 JUL 1999 RLB Cleaned up and added to test suite.
	-- 27 AUG 1999 RLB Repaired errors introduced by me.
	--
	--!

	with System;
	package CA15003A is
	pragma Pure;

	type Big_Int is range -System.Max_Int .. System.Max_Int;
	type Big_Positive is new Big_Int range 1..Big_Int'Last;
	end CA15003A;

	generic
	type Int is new Big_Int;
	package CA15003A.Pure is
	pragma Pure;
	function F(X: access Int) return Int;
	end CA15003A.Pure;

	with CA15003A.Pure;
	package CA15003A.Pure_Instance is new CA15003A.Pure(Int => Big_Positive);
	pragma Pure(CA15003A.Pure_Instance);

	package body CA15003A.Pure is
	function F(X: access Int) return Int is
	begin
	X.all := X.all + 1;
	return X.all;
	end F;
	end CA15003A.Pure;

	generic
	package CA15003A.Pure.Preelaborate is
	pragma Preelaborate;
	One: Int := 1;
	function F(X: access Int) return Int;
	end CA15003A.Pure.Preelaborate;

	package body CA15003A.Pure.Preelaborate is
	function F(X: access Int) return Int is
	begin
	X.all := X.all + One;
	return X.all;
	end F;
	end CA15003A.Pure.Preelaborate;

	with CA15003A.Pure_Instance;
	with CA15003A.Pure.Preelaborate;
	package CA15003A.Pure_Preelaborate_Instance is
	new CA15003A.Pure_Instance.Preelaborate;
	pragma Preelaborate(CA15003A.Pure_Preelaborate_Instance);

	package CA15003A.Empty_Pure is
	pragma Pure;
	pragma Elaborate_Body;
	end CA15003A.Empty_Pure;

	package body CA15003A.Empty_Pure is
	end CA15003A.Empty_Pure;

	package CA15003A.Empty_Preelaborate is
	pragma Preelaborate;
	pragma Elaborate_Body;
	One: Big_Int := 1;
	end CA15003A.Empty_Preelaborate;

	package body CA15003A.Empty_Preelaborate is
	function F(X: access Big_Int) return Big_Int is
	begin
	X.all := X.all + One;
	return X.all;
	end F;
	end CA15003A.Empty_Preelaborate;

	package CA15003A.Empty_Elaborate_Body is
	pragma Elaborate_Body;
	Three: aliased Big_Positive := 1;
	Two, Tres: Big_Positive'Base := 0;
	end CA15003A.Empty_Elaborate_Body;

	with Report; use Report; pragma Elaborate_All(Report);
	with CA15003A.Pure_Instance;
	with CA15003A.Pure_Preelaborate_Instance;
	use CA15003A;
	package body CA15003A.Empty_Elaborate_Body is
	begin
	if Two /= Big_Positive'Base(Ident_Int(0)) then
	Failed ("Two should be zero now");
	end if;
	if Tres /= Big_Positive'Base(Ident_Int(0)) then
	Failed ("Tres should be zero now");
	end if;
	if Two /= Tres then
	Failed ("Tres should be zero now");
	end if;
	Two := Pure_Instance.F(Three'Access);
	Tres := Pure_Preelaborate_Instance.F(Three'Access);
	if Two /= Big_Positive(Ident_Int(2)) then
	Failed ("Two should be 2 now");
	end if;
	if Tres /= Big_Positive(Ident_Int(3)) then
	Failed ("Tres should be 3 now");
	end if;
	end CA15003A.Empty_Elaborate_Body;

	with Report; use Report;
	with CA15003A.Empty_Pure;
	with CA15003A.Empty_Preelaborate;
	with CA15003A.Empty_Elaborate_Body; use CA15003A.Empty_Elaborate_Body;
	use type CA15003A.Big_Positive'Base;
	procedure CA15003 is
	begin
	Test("CA15003", "Placement of Program Unit Pragmas in Generic Packages");
	if Two /= 2 then
	Failed ("Two should be 2 now");
	end if;
	if Tres /= 3 then
	Failed ("Tres should be 3 now");
	end if;
	Result;
	end CA15003;