llvm-gcc-4.2/gcc/testsuite/ada/acats/tests/c3/c393001.a - llvm-archive - Git at Google

 -- C393001.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 an abstract type can be declared, and in turn concrete
 --      types can be derived from it.  Check that the definition of
 --      actual subprograms associated with the derived types dispatch
 --      correctly.
 --
 -- TEST DESCRIPTION:
 --      This test declares an abstract type Breaker in a package, and
 --      then derives from it.  The type Basic_Breaker defines the least
 --      possible in order to not be abstract.  The type Ground_Fault is
 --      defined to inherit as much as possible, whereas type Special_Breaker
 --      overrides everything it can.  The type Special_Breaker also includes
 --      an embedded Basic_Breaker object.  The main program then utilizes
 --      each of the three types of breaker, and to ascertain that the
 --      overloading and tagging resolution are correct, each "Create"
 --      procedure is called with a unique value.  The diagram below
 --      illustrates the relationships.  This test is derived from C3A2001.
 --
 --              Abstract type:           Breaker
 --                                           |
 --                                    Basic_Breaker (Short)
 --                                    /           \
 --                     (Sharp) Ground_Fault    Special_Breaker (Shock)
 --
 --      Test structure is an array of class-wide objects, modeling a circuit
 --      as a list of components.  The test then creates some values, and
 --      traverses the list to determine correct operation.
 --
 --
 -- CHANGE HISTORY:
 --      06 Dec 94   SAIC    ACVC 2.0
 --      13 Nov 95   SAIC    Revised for 2.0.1
 --
 --!

 ----------------------------------------------------------------- C393001_1

 with Report;
 package C393001_1 is

   type Breaker is abstract tagged private;
   type Status  is ( Power_Off, Power_On, Tripped, Failed );

   procedure Flip ( The_Breaker : in out Breaker ) is abstract;
   procedure Trip ( The_Breaker : in out Breaker ) is abstract;
   procedure Reset( The_Breaker : in out Breaker ) is abstract;
   procedure Fail ( The_Breaker : in out Breaker );

   procedure Set ( The_Breaker : in out Breaker'Class; To_State : Status );

   function  Status_Of( The_Breaker : Breaker ) return Status;

 private
   type Breaker is abstract tagged record
     State : Status := Power_Off;
   end record;
 end C393001_1;

 with TCTouch;
 package body C393001_1 is
   procedure Fail( The_Breaker : in out Breaker ) is ------------------- a
   begin
     TCTouch.Touch( 'a' );
     The_Breaker.State := Failed;
   end Fail;

   procedure Set( The_Breaker : in out Breaker'Class; To_State : Status ) is
   begin
     The_Breaker.State := To_State;
   end Set;

   function  Status_Of( The_Breaker : Breaker ) return Status is ------- b
   begin
     TCTouch.Touch( 'b' );
     return The_Breaker.State;
   end Status_Of;
 end C393001_1;

 ----------------------------------------------------------------- C393001_2

 with C393001_1;
 package C393001_2 is

   type Basic_Breaker is new C393001_1.Breaker with private;

   type Voltages is ( V12, V110, V220, V440 );
   type Amps     is ( A1, A5, A10, A25, A100 );

   function Construct( Voltage : Voltages; Amperage : Amps )
     return Basic_Breaker;

   procedure Flip ( The_Breaker : in out Basic_Breaker );
   procedure Trip ( The_Breaker : in out Basic_Breaker );
   procedure Reset( The_Breaker : in out Basic_Breaker );
 private
   type Basic_Breaker is new C393001_1.Breaker with record
     Voltage_Level : Voltages := V110;
     Amperage      : Amps;
   end record;
 end C393001_2;

 with TCTouch;
 package body C393001_2 is
   function Construct( Voltage : Voltages; Amperage : Amps ) ----------- c
     return Basic_Breaker is
     It : Basic_Breaker;
   begin
     TCTouch.Touch( 'c' );
     It.Amperage := Amperage;
     It.Voltage_Level := Voltage;
     C393001_1.Set( It, C393001_1.Power_Off );
     return It;
   end Construct;

   procedure Flip ( The_Breaker : in out Basic_Breaker ) is ------------ d
   begin
     TCTouch.Touch( 'd' );
     case Status_Of( The_Breaker ) is
       when C393001_1.Power_Off =>
         C393001_1.Set( The_Breaker, C393001_1.Power_On );
       when C393001_1.Power_On =>
         C393001_1.Set( The_Breaker, C393001_1.Power_Off );
       when C393001_1.Tripped | C393001_1.Failed  => null;
     end case;
   end Flip;

   procedure Trip ( The_Breaker : in out Basic_Breaker ) is ------------ e
   begin
     TCTouch.Touch( 'e' );
     C393001_1.Set( The_Breaker, C393001_1.Tripped );
   end Trip;

   procedure Reset( The_Breaker : in out Basic_Breaker ) is ------------ f
   begin
     TCTouch.Touch( 'f' );
     case Status_Of( The_Breaker ) is
       when C393001_1.Power_Off | C393001_1.Tripped =>
         C393001_1.Set( The_Breaker, C393001_1.Power_On );
       when C393001_1.Power_On  | C393001_1.Failed  => null;
     end case;
   end Reset;

 end C393001_2;

 with C393001_1,C393001_2;
 package C393001_3 is

   type Ground_Fault is new C393001_2.Basic_Breaker with private;

   function Construct( Voltage : C393001_2.Voltages; Amperage : C393001_2.Amps
 )
     return Ground_Fault;

   procedure Set_Trip( The_Breaker : in out Ground_Fault;
                       Capacitance : in     Integer );

 private
   type Ground_Fault is new C393001_2.Basic_Breaker with record
     Capacitance : Integer;
   end record;
 end C393001_3;

 ----------------------------------------------------------------- C393001_3

 with TCTouch;
 package body C393001_3 is

   function Construct( Voltage  : C393001_2.Voltages; ------------------ g
                       Amperage : C393001_2.Amps )
     return Ground_Fault is

     It : Ground_Fault;

     procedure Set_Root( It: in out C393001_2.Basic_Breaker ) is
     begin
       It := C393001_2.Construct( Voltage, Amperage );
     end Set_Root;

   begin
     TCTouch.Touch( 'g' );
     Set_Root( C393001_2.Basic_Breaker( It ) );
     It.Capacitance := 0;
     return It;
   end Construct;

   procedure Set_Trip( The_Breaker : in out Ground_Fault; -------------- h
                       Capacitance : in     Integer ) is
   begin
     TCTouch.Touch( 'h' );
     The_Breaker.Capacitance := Capacitance;
   end Set_Trip;

 end C393001_3;

 ----------------------------------------------------------------- C393001_4

 with C393001_1, C393001_2;
 package C393001_4 is

   type Special_Breaker is new C393001_2.Basic_Breaker with private;

   function Construct( Voltage     : C393001_2.Voltages;
                       Amperage    : C393001_2.Amps )
     return Special_Breaker;

   procedure Flip ( The_Breaker : in out Special_Breaker );
   procedure Trip ( The_Breaker : in out Special_Breaker );
   procedure Reset( The_Breaker : in out Special_Breaker );
   procedure Fail ( The_Breaker : in out Special_Breaker );

   function Status_Of( The_Breaker : Special_Breaker ) return C393001_1.Status;
   function On_Backup( The_Breaker : Special_Breaker ) return Boolean;

 private
   type Special_Breaker is new C393001_2.Basic_Breaker with record
     Backup : C393001_2.Basic_Breaker;
   end record;
 end C393001_4;

 with TCTouch;
 package body C393001_4 is

   function Construct( Voltage     : C393001_2.Voltages; --------------- i
                       Amperage    : C393001_2.Amps )
     return Special_Breaker is
     It: Special_Breaker;
     procedure Set_Root( It: in out C393001_2.Basic_Breaker ) is
     begin
       It := C393001_2.Construct( Voltage, Amperage );
     end Set_Root;
   begin
     TCTouch.Touch( 'i' );
     Set_Root( C393001_2.Basic_Breaker( It ) );
     Set_Root( It.Backup );
     return It;
   end Construct;

   function Status_Of( It: C393001_1.Breaker ) return C393001_1.Status
     renames C393001_1.Status_Of;

   procedure Flip ( The_Breaker : in out Special_Breaker ) is ---------- j
   begin
     TCTouch.Touch( 'j' );
     case Status_Of( C393001_1.Breaker( The_Breaker )) is
       when C393001_1.Power_Off | C393001_1.Power_On =>
         C393001_2.Flip( C393001_2.Basic_Breaker( The_Breaker ) );
       when others =>
         C393001_2.Flip( The_Breaker.Backup );
     end case;
   end Flip;

   procedure Trip ( The_Breaker : in out Special_Breaker ) is ---------- k
   begin
     TCTouch.Touch( 'k' );
     case Status_Of( C393001_1.Breaker( The_Breaker )) is
       when C393001_1.Power_Off => null;
       when C393001_1.Power_On  =>
         C393001_2.Reset( The_Breaker.Backup );
         C393001_2.Trip( C393001_2.Basic_Breaker( The_Breaker ) );
       when others =>
         C393001_2.Trip( The_Breaker.Backup );
     end case;
   end Trip;

   procedure Reset( The_Breaker : in out Special_Breaker ) is ---------- l
   begin
     TCTouch.Touch( 'l' );
     case Status_Of( C393001_1.Breaker( The_Breaker )) is
       when C393001_1.Tripped  =>
         C393001_2.Reset( C393001_2.Basic_Breaker( The_Breaker ));
       when C393001_1.Failed  =>
         C393001_2.Reset( The_Breaker.Backup );
       when C393001_1.Power_On | C393001_1.Power_Off =>
         null;
     end case;
   end Reset;

   procedure Fail ( The_Breaker : in out Special_Breaker ) is ---------- m
   begin
     TCTouch.Touch( 'm' );
     case Status_Of( C393001_1.Breaker( The_Breaker )) is
       when C393001_1.Failed  =>
         C393001_2.Fail( The_Breaker.Backup );
       when others =>
         C393001_2.Fail( C393001_2.Basic_Breaker( The_Breaker ));
         C393001_2.Reset( The_Breaker.Backup );
     end case;
   end Fail;

   function Status_Of( The_Breaker : Special_Breaker ) ----------------- n
     return C393001_1.Status is
   begin
     TCTouch.Touch( 'n' );
     case Status_Of( C393001_1.Breaker( The_Breaker )) is
       when C393001_1.Power_On  => return C393001_1.Power_On;
       when C393001_1.Power_Off => return C393001_1.Power_Off;
       when others =>
         return C393001_2.Status_Of( The_Breaker.Backup );
     end case;
   end Status_Of;

   function On_Backup( The_Breaker : Special_Breaker ) return Boolean is
     use C393001_2;
     use type C393001_1.Status;
   begin
     return Status_Of(Basic_Breaker(The_Breaker)) = C393001_1.Tripped
         or Status_Of(Basic_Breaker(The_Breaker)) = C393001_1.Failed;
   end On_Backup;

 end C393001_4;

 ------------------------------------------------------------------- C393001

 with Report, TCTouch;
 with C393001_1, C393001_2, C393001_3, C393001_4;
 procedure C393001 is

   procedure Flipper( The_Circuit : in out C393001_1.Breaker'Class ) is
   begin
       C393001_1.Flip( The_Circuit );
   end Flipper;

   procedure Tripper( The_Circuit : in out C393001_1.Breaker'Class ) is
   begin
       C393001_1.Trip( The_Circuit );
   end Tripper;

   procedure Restore( The_Circuit : in out C393001_1.Breaker'Class ) is
   begin
       C393001_1.Reset( The_Circuit );
   end Restore;

   procedure Failure( The_Circuit : in out C393001_1.Breaker'Class ) is
   begin
       C393001_1.Fail( The_Circuit );
   end Failure;

   Short : C393001_1.Breaker'Class -- Basic_Breaker
           := C393001_2.Construct( C393001_2.V440, C393001_2.A5 );
   Sharp : C393001_1.Breaker'Class -- Ground_Fault
           := C393001_3.Construct( C393001_2.V110, C393001_2.A1 );
   Shock : C393001_1.Breaker'Class -- Special_Breaker
           := C393001_4.Construct( C393001_2.V12,  C393001_2.A100 );

 begin  -- Main test procedure.

   Report.Test ("C393001", "Check that an abstract type can be declared " &
                "and used.  Check actual subprograms dispatch correctly" );

   TCTouch.Validate( "cgcicc", "Declaration" );

   Flipper( Short );
   TCTouch.Validate( "db", "Flipping Short" );
   Flipper( Sharp );
   TCTouch.Validate( "db", "Flipping Sharp" );
   Flipper( Shock );
   TCTouch.Validate( "jbdb", "Flipping Shock" );

   Tripper( Short );
   TCTouch.Validate( "e", "Tripping Short" );
   Tripper( Sharp );
   TCTouch.Validate( "e", "Tripping Sharp" );
   Tripper( Shock );
   TCTouch.Validate( "kbfbe", "Tripping Shock" );

   Restore( Short );
   TCTouch.Validate( "fb", "Restoring Short" );
   Restore( Sharp );
   TCTouch.Validate( "fb", "Restoring Sharp" );
   Restore( Shock );
   TCTouch.Validate( "lbfb", "Restoring Shock" );

   Failure( Short );
   TCTouch.Validate( "a", "Shock Failing" );
   Failure( Sharp );
   TCTouch.Validate( "a", "Shock Failing" );
   Failure( Shock );
   TCTouch.Validate( "mbafb", "Shock Failing" );

   Report.Result;

 end C393001;
	-- C393001.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 an abstract type can be declared, and in turn concrete
	-- types can be derived from it. Check that the definition of
	-- actual subprograms associated with the derived types dispatch
	-- correctly.
	--
	-- TEST DESCRIPTION:
	-- This test declares an abstract type Breaker in a package, and
	-- then derives from it. The type Basic_Breaker defines the least
	-- possible in order to not be abstract. The type Ground_Fault is
	-- defined to inherit as much as possible, whereas type Special_Breaker
	-- overrides everything it can. The type Special_Breaker also includes
	-- an embedded Basic_Breaker object. The main program then utilizes
	-- each of the three types of breaker, and to ascertain that the
	-- overloading and tagging resolution are correct, each "Create"
	-- procedure is called with a unique value. The diagram below
	-- illustrates the relationships. This test is derived from C3A2001.
	--
	-- Abstract type: Breaker
	-- \|
	-- Basic_Breaker (Short)
	-- / \
	-- (Sharp) Ground_Fault Special_Breaker (Shock)
	--
	-- Test structure is an array of class-wide objects, modeling a circuit
	-- as a list of components. The test then creates some values, and
	-- traverses the list to determine correct operation.
	--
	--
	-- CHANGE HISTORY:
	-- 06 Dec 94 SAIC ACVC 2.0
	-- 13 Nov 95 SAIC Revised for 2.0.1
	--
	--!

	----------------------------------------------------------------- C393001_1

	with Report;
	package C393001_1 is

	type Breaker is abstract tagged private;
	type Status is ( Power_Off, Power_On, Tripped, Failed );

	procedure Flip ( The_Breaker : in out Breaker ) is abstract;
	procedure Trip ( The_Breaker : in out Breaker ) is abstract;
	procedure Reset( The_Breaker : in out Breaker ) is abstract;
	procedure Fail ( The_Breaker : in out Breaker );

	procedure Set ( The_Breaker : in out Breaker'Class; To_State : Status );

	function Status_Of( The_Breaker : Breaker ) return Status;

	private
	type Breaker is abstract tagged record
	State : Status := Power_Off;
	end record;
	end C393001_1;

	with TCTouch;
	package body C393001_1 is
	procedure Fail( The_Breaker : in out Breaker ) is ------------------- a
	begin
	TCTouch.Touch( 'a' );
	The_Breaker.State := Failed;
	end Fail;

	procedure Set( The_Breaker : in out Breaker'Class; To_State : Status ) is
	begin
	The_Breaker.State := To_State;
	end Set;

	function Status_Of( The_Breaker : Breaker ) return Status is ------- b
	begin
	TCTouch.Touch( 'b' );
	return The_Breaker.State;
	end Status_Of;
	end C393001_1;

	----------------------------------------------------------------- C393001_2

	with C393001_1;
	package C393001_2 is

	type Basic_Breaker is new C393001_1.Breaker with private;

	type Voltages is ( V12, V110, V220, V440 );
	type Amps is ( A1, A5, A10, A25, A100 );

	function Construct( Voltage : Voltages; Amperage : Amps )
	return Basic_Breaker;

	procedure Flip ( The_Breaker : in out Basic_Breaker );
	procedure Trip ( The_Breaker : in out Basic_Breaker );
	procedure Reset( The_Breaker : in out Basic_Breaker );
	private
	type Basic_Breaker is new C393001_1.Breaker with record
	Voltage_Level : Voltages := V110;
	Amperage : Amps;
	end record;
	end C393001_2;

	with TCTouch;
	package body C393001_2 is
	function Construct( Voltage : Voltages; Amperage : Amps ) ----------- c
	return Basic_Breaker is
	It : Basic_Breaker;
	begin
	TCTouch.Touch( 'c' );
	It.Amperage := Amperage;
	It.Voltage_Level := Voltage;
	C393001_1.Set( It, C393001_1.Power_Off );
	return It;
	end Construct;

	procedure Flip ( The_Breaker : in out Basic_Breaker ) is ------------ d
	begin
	TCTouch.Touch( 'd' );
	case Status_Of( The_Breaker ) is
	when C393001_1.Power_Off =>
	C393001_1.Set( The_Breaker, C393001_1.Power_On );
	when C393001_1.Power_On =>
	C393001_1.Set( The_Breaker, C393001_1.Power_Off );
	when C393001_1.Tripped \| C393001_1.Failed => null;
	end case;
	end Flip;

	procedure Trip ( The_Breaker : in out Basic_Breaker ) is ------------ e
	begin
	TCTouch.Touch( 'e' );
	C393001_1.Set( The_Breaker, C393001_1.Tripped );
	end Trip;

	procedure Reset( The_Breaker : in out Basic_Breaker ) is ------------ f
	begin
	TCTouch.Touch( 'f' );
	case Status_Of( The_Breaker ) is
	when C393001_1.Power_Off \| C393001_1.Tripped =>
	C393001_1.Set( The_Breaker, C393001_1.Power_On );
	when C393001_1.Power_On \| C393001_1.Failed => null;
	end case;
	end Reset;

	end C393001_2;

	with C393001_1,C393001_2;
	package C393001_3 is

	type Ground_Fault is new C393001_2.Basic_Breaker with private;

	function Construct( Voltage : C393001_2.Voltages; Amperage : C393001_2.Amps
	)
	return Ground_Fault;

	procedure Set_Trip( The_Breaker : in out Ground_Fault;
	Capacitance : in Integer );

	private
	type Ground_Fault is new C393001_2.Basic_Breaker with record
	Capacitance : Integer;
	end record;
	end C393001_3;

	----------------------------------------------------------------- C393001_3

	with TCTouch;
	package body C393001_3 is

	function Construct( Voltage : C393001_2.Voltages; ------------------ g
	Amperage : C393001_2.Amps )
	return Ground_Fault is

	It : Ground_Fault;

	procedure Set_Root( It: in out C393001_2.Basic_Breaker ) is
	begin
	It := C393001_2.Construct( Voltage, Amperage );
	end Set_Root;

	begin
	TCTouch.Touch( 'g' );
	Set_Root( C393001_2.Basic_Breaker( It ) );
	It.Capacitance := 0;
	return It;
	end Construct;

	procedure Set_Trip( The_Breaker : in out Ground_Fault; -------------- h
	Capacitance : in Integer ) is
	begin
	TCTouch.Touch( 'h' );
	The_Breaker.Capacitance := Capacitance;
	end Set_Trip;

	end C393001_3;

	----------------------------------------------------------------- C393001_4

	with C393001_1, C393001_2;
	package C393001_4 is

	type Special_Breaker is new C393001_2.Basic_Breaker with private;

	function Construct( Voltage : C393001_2.Voltages;
	Amperage : C393001_2.Amps )
	return Special_Breaker;

	procedure Flip ( The_Breaker : in out Special_Breaker );
	procedure Trip ( The_Breaker : in out Special_Breaker );
	procedure Reset( The_Breaker : in out Special_Breaker );
	procedure Fail ( The_Breaker : in out Special_Breaker );

	function Status_Of( The_Breaker : Special_Breaker ) return C393001_1.Status;
	function On_Backup( The_Breaker : Special_Breaker ) return Boolean;

	private
	type Special_Breaker is new C393001_2.Basic_Breaker with record
	Backup : C393001_2.Basic_Breaker;
	end record;
	end C393001_4;

	with TCTouch;
	package body C393001_4 is

	function Construct( Voltage : C393001_2.Voltages; --------------- i
	Amperage : C393001_2.Amps )
	return Special_Breaker is
	It: Special_Breaker;
	procedure Set_Root( It: in out C393001_2.Basic_Breaker ) is
	begin
	It := C393001_2.Construct( Voltage, Amperage );
	end Set_Root;
	begin
	TCTouch.Touch( 'i' );
	Set_Root( C393001_2.Basic_Breaker( It ) );
	Set_Root( It.Backup );
	return It;
	end Construct;

	function Status_Of( It: C393001_1.Breaker ) return C393001_1.Status
	renames C393001_1.Status_Of;

	procedure Flip ( The_Breaker : in out Special_Breaker ) is ---------- j
	begin
	TCTouch.Touch( 'j' );
	case Status_Of( C393001_1.Breaker( The_Breaker )) is
	when C393001_1.Power_Off \| C393001_1.Power_On =>
	C393001_2.Flip( C393001_2.Basic_Breaker( The_Breaker ) );
	when others =>
	C393001_2.Flip( The_Breaker.Backup );
	end case;
	end Flip;

	procedure Trip ( The_Breaker : in out Special_Breaker ) is ---------- k
	begin
	TCTouch.Touch( 'k' );
	case Status_Of( C393001_1.Breaker( The_Breaker )) is
	when C393001_1.Power_Off => null;
	when C393001_1.Power_On =>
	C393001_2.Reset( The_Breaker.Backup );
	C393001_2.Trip( C393001_2.Basic_Breaker( The_Breaker ) );
	when others =>
	C393001_2.Trip( The_Breaker.Backup );
	end case;
	end Trip;

	procedure Reset( The_Breaker : in out Special_Breaker ) is ---------- l
	begin
	TCTouch.Touch( 'l' );
	case Status_Of( C393001_1.Breaker( The_Breaker )) is
	when C393001_1.Tripped =>
	C393001_2.Reset( C393001_2.Basic_Breaker( The_Breaker ));
	when C393001_1.Failed =>
	C393001_2.Reset( The_Breaker.Backup );
	when C393001_1.Power_On \| C393001_1.Power_Off =>
	null;
	end case;
	end Reset;

	procedure Fail ( The_Breaker : in out Special_Breaker ) is ---------- m
	begin
	TCTouch.Touch( 'm' );
	case Status_Of( C393001_1.Breaker( The_Breaker )) is
	when C393001_1.Failed =>
	C393001_2.Fail( The_Breaker.Backup );
	when others =>
	C393001_2.Fail( C393001_2.Basic_Breaker( The_Breaker ));
	C393001_2.Reset( The_Breaker.Backup );
	end case;
	end Fail;

	function Status_Of( The_Breaker : Special_Breaker ) ----------------- n
	return C393001_1.Status is
	begin
	TCTouch.Touch( 'n' );
	case Status_Of( C393001_1.Breaker( The_Breaker )) is
	when C393001_1.Power_On => return C393001_1.Power_On;
	when C393001_1.Power_Off => return C393001_1.Power_Off;
	when others =>
	return C393001_2.Status_Of( The_Breaker.Backup );
	end case;
	end Status_Of;

	function On_Backup( The_Breaker : Special_Breaker ) return Boolean is
	use C393001_2;
	use type C393001_1.Status;
	begin
	return Status_Of(Basic_Breaker(The_Breaker)) = C393001_1.Tripped
	or Status_Of(Basic_Breaker(The_Breaker)) = C393001_1.Failed;
	end On_Backup;

	end C393001_4;

	------------------------------------------------------------------- C393001

	with Report, TCTouch;
	with C393001_1, C393001_2, C393001_3, C393001_4;
	procedure C393001 is

	procedure Flipper( The_Circuit : in out C393001_1.Breaker'Class ) is
	begin
	C393001_1.Flip( The_Circuit );
	end Flipper;

	procedure Tripper( The_Circuit : in out C393001_1.Breaker'Class ) is
	begin
	C393001_1.Trip( The_Circuit );
	end Tripper;

	procedure Restore( The_Circuit : in out C393001_1.Breaker'Class ) is
	begin
	C393001_1.Reset( The_Circuit );
	end Restore;

	procedure Failure( The_Circuit : in out C393001_1.Breaker'Class ) is
	begin
	C393001_1.Fail( The_Circuit );
	end Failure;

	Short : C393001_1.Breaker'Class -- Basic_Breaker
	:= C393001_2.Construct( C393001_2.V440, C393001_2.A5 );
	Sharp : C393001_1.Breaker'Class -- Ground_Fault
	:= C393001_3.Construct( C393001_2.V110, C393001_2.A1 );
	Shock : C393001_1.Breaker'Class -- Special_Breaker
	:= C393001_4.Construct( C393001_2.V12, C393001_2.A100 );

	begin -- Main test procedure.

	Report.Test ("C393001", "Check that an abstract type can be declared " &
	"and used. Check actual subprograms dispatch correctly" );

	TCTouch.Validate( "cgcicc", "Declaration" );

	Flipper( Short );
	TCTouch.Validate( "db", "Flipping Short" );
	Flipper( Sharp );
	TCTouch.Validate( "db", "Flipping Sharp" );
	Flipper( Shock );
	TCTouch.Validate( "jbdb", "Flipping Shock" );

	Tripper( Short );
	TCTouch.Validate( "e", "Tripping Short" );
	Tripper( Sharp );
	TCTouch.Validate( "e", "Tripping Sharp" );
	Tripper( Shock );
	TCTouch.Validate( "kbfbe", "Tripping Shock" );

	Restore( Short );
	TCTouch.Validate( "fb", "Restoring Short" );
	Restore( Sharp );
	TCTouch.Validate( "fb", "Restoring Sharp" );
	Restore( Shock );
	TCTouch.Validate( "lbfb", "Restoring Shock" );

	Failure( Short );
	TCTouch.Validate( "a", "Shock Failing" );
	Failure( Sharp );
	TCTouch.Validate( "a", "Shock Failing" );
	Failure( Shock );
	TCTouch.Validate( "mbafb", "Shock Failing" );

	Report.Result;

	end C393001;