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-- C760001.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 Initialize is called for objects and components of
--      a controlled type when the objects and components are not
--      assigned explicit initial values.  Check this for "simple" controlled
--      objects, controlled record components and arrays with controlled
--      components.
--
--      Check that if an explicit initial value is assigned to an object
--      or component of a controlled type then Initialize is not called.
--
-- TEST DESCRIPTION:
--      This test derives a type for Ada.Finalization.Controlled, and
--      overrides the Initialize and Adjust operations for the type.  The
--      intent of the type is that it should carry incremental values
--      indicating the ordering of events with respect to these (and default
--      initialization) operations.  The body of the test uses these values
--      to determine that the implicit calls to these subprograms happen
--      (or don't) at the appropriate times.
--
--      The test further derives types from this "root" type, which are the
--      actual types used in the test.  One of the types is "simply" derived
--      from the "root" type, the other contains a component of the first
--      type, thus nesting a controlled object as a record component in
--      controlled objects.
--
--      The main program declares objects of these types and checks the
--      values of the components to ascertain that they have been touched
--      as expected.
--
--      Note that Finalization procedures are provided.  This test does not
--      test that the calls to Finalization are made correctly.  The
--      Finalization procedures are provided to catch an implementation that
--      calls Finalization at an incorrect time.
--
--
-- CHANGE HISTORY:
--      06 Dec 94   SAIC    ACVC 2.0
--      10 Oct 95   SAIC    Update and repair for ACVC 2.0.1
--
--!

---------------------------------------------------------------- C760001_0

with Ada.Finalization;
package C760001_0 is
  subtype Unique_ID is Natural;
  function Unique_Value return Unique_ID;
  -- increments each time it's called

  function Most_Recent_Unique_Value return Unique_ID;
  -- returns the same value as the most recent call to Unique_Value

  type Root_Controlled is new Ada.Finalization.Controlled with record
    My_ID      : Unique_ID := Unique_Value;
    My_Init_ID : Unique_ID := Unique_ID'First;
    My_Adj_ID  : Unique_ID := Unique_ID'First;
  end record;

  procedure Initialize( R: in out Root_Controlled );
  procedure Adjust    ( R: in out Root_Controlled );

  TC_Initialize_Calls_Is_Failing : Boolean := False;

end C760001_0;

-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --

with Report;
package body C760001_0 is

  Global_Unique_Counter : Unique_ID := 0;
  
  function Unique_Value return Unique_ID is
  begin
    Global_Unique_Counter := Global_Unique_Counter +1;
    return Global_Unique_Counter;
  end Unique_Value;
  
  function Most_Recent_Unique_Value return Unique_ID is
  begin
    return Global_Unique_Counter;
  end Most_Recent_Unique_Value;
  
  procedure Initialize( R: in out Root_Controlled ) is
  begin
    if TC_Initialize_Calls_Is_Failing then
      Report.Failed("Initialized incorrectly called");
    end if;
    R.My_Init_ID := Unique_Value;
  end Initialize;

  procedure Adjust( R: in out Root_Controlled ) is
  begin
    R.My_Adj_ID := Unique_Value;
  end Adjust;

end C760001_0;

---------------------------------------------------------------- C760001_1

with Ada.Finalization;
with C760001_0;
package C760001_1 is

  type Proc_ID is (None, Init, Adj, Fin);

  type Test_Controlled is new C760001_0.Root_Controlled with record
    Last_Proc_Called: Proc_ID := None;
  end record;

  procedure Initialize( TC: in out Test_Controlled );
  procedure Adjust    ( TC: in out Test_Controlled );
  procedure Finalize  ( TC: in out Test_Controlled );

  type Nested_Controlled is new C760001_0.Root_Controlled with record
    Nested : C760001_0.Root_Controlled;
    Last_Proc_Called: Proc_ID := None;
  end record;

  procedure Initialize( TC: in out Nested_Controlled );
  procedure Adjust    ( TC: in out Nested_Controlled );
  procedure Finalize  ( TC: in out Nested_Controlled );

end C760001_1;

-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --

with Report;
package body C760001_1 is

  procedure Initialize( TC: in out Test_Controlled ) is
  begin
    if TC.Last_Proc_Called /= None then
      Report.Failed("Initialize for Test_Controlled");
    end if;
    TC.Last_Proc_Called := Init;
    C760001_0.Initialize(C760001_0.Root_Controlled(TC));
  end Initialize;

  procedure Adjust    ( TC: in out Test_Controlled ) is
  begin
    TC.Last_Proc_Called := Adj;
    C760001_0.Adjust(C760001_0.Root_Controlled(TC));
  end Adjust;

  procedure Finalize  ( TC: in out Test_Controlled ) is
  begin
    TC.Last_Proc_Called := Fin;
  end Finalize;

  procedure Initialize( TC: in out Nested_Controlled ) is
  begin
    if TC.Last_Proc_Called /= None then
      Report.Failed("Initialize for Nested_Controlled");
    end if;
    TC.Last_Proc_Called := Init;
    C760001_0.Initialize(C760001_0.Root_Controlled(TC));
  end Initialize;

  procedure Adjust    ( TC: in out Nested_Controlled ) is
  begin
    TC.Last_Proc_Called := Adj;
    C760001_0.Adjust(C760001_0.Root_Controlled(TC));
  end Adjust;

  procedure Finalize  ( TC: in out Nested_Controlled ) is
  begin
    TC.Last_Proc_Called := Fin;
  end Finalize;

end C760001_1;

---------------------------------------------------------------- C760001

with Report;
with TCTouch;
with C760001_0;
with C760001_1;
with Ada.Finalization;
procedure C760001 is

  use type C760001_1.Proc_ID;

  -- in the first test, test the simple case.  Check that a controlled object
  -- causes a call to the procedure Initialize.
  -- Also check that assignment causes a call to Adjust.

  procedure Check_Simple_Objects is
    S,T : C760001_1.Test_Controlled;
  begin
    TCTouch.Assert(S.My_ID < S.My_Init_ID,"Default before dispatch");
    TCTouch.Assert((S.Last_Proc_Called = C760001_1.Init) and
                                        (T.Last_Proc_Called = C760001_1.Init),
                   "Initialize for simple object");
    S := T;
    TCTouch.Assert((S.Last_Proc_Called = C760001_1.Adj),
                   "Adjust for simple object");
    TCTouch.Assert((S.My_ID = T.My_ID),
                   "Simple object My_ID's don't match");
    TCTouch.Assert((S.My_Init_ID = T.My_Init_ID),
                   "Simple object My_Init_ID's don't match");
    TCTouch.Assert((S.My_Adj_ID > T.My_Adj_ID),
                   "Simple object My_Adj_ID's in wrong order");
  end Check_Simple_Objects;

  -- in the second test, test a more complex case, check that a controlled
  -- component of a controlled object gets processed correctly

  procedure Check_Nested_Objects is
    NO1 : C760001_1.Nested_Controlled;
  begin
    TCTouch.Assert((NO1.My_ID < NO1.My_Init_Id),
                   "Default value order incorrect");
    TCTouch.Assert((NO1.My_Init_Id > NO1.Nested.My_Init_ID),
                   "Initialization call order incorrect");
  end Check_Nested_Objects;

  -- check that objects assigned an initial value at declaration are Adjusted
  -- and NOT Initialized

  procedure Check_Objects_With_Initial_Values is

    TC_Now : constant C760001_0.Unique_ID := C760001_0.Unique_Value;

    A: C760001_1.Test_Controlled := 
      ( Ada.Finalization.Controlled
        with TC_Now,
             TC_Now,
             TC_Now,
             C760001_1.None);

    B: C760001_1.Nested_Controlled := 
      ( Ada.Finalization.Controlled
        with TC_Now,
             TC_Now,
             TC_Now,
             C760001_0.Root_Controlled(A),
             C760001_1.None);

  begin
    -- the implementation may or may not call Adjust for the values
    -- assigned into A and B,
    -- but should NOT call Initialize.
    -- if the value used in the aggregate is overwritten by Initialize,
    -- this indicates failure
    TCTouch.Assert(A.My_Init_Id = TC_Now,
                   "Initialize was called for A with initial value");
    TCTouch.Assert(B.My_Init_Id = TC_Now,
                   "Initialize was called for B with initial value");
    TCTouch.Assert(B.Nested.My_Init_ID = TC_Now,
                   "Initialize was called for B.Nested initial value");
  end Check_Objects_With_Initial_Values;

  procedure Check_Array_Case is
    type Array_Simple is array(1..4) of C760001_1.Test_Controlled;
    type Array_Nested is array(1..4) of C760001_1.Nested_Controlled;

    Simple_Array_Default : Array_Simple;

    Nested_Array_Default : Array_Nested;

    TC_A_Bit_Later : C760001_0.Unique_ID;

  begin
    TC_A_Bit_Later := C760001_0.Unique_Value;
    for N in 1..4 loop
      TCTouch.Assert(Simple_Array_Default(N).Last_Proc_Called
                     = C760001_1.Init,
                     "Initialize for array initial value");

      TCTouch.Assert( (Simple_Array_Default(N).My_Init_ID
                       > C760001_0.Unique_ID'First)
                      and (Simple_Array_Default(N).My_Init_ID
                       < TC_A_Bit_Later),
                     "Initialize timing for simple array");

      TCTouch.Assert( (Nested_Array_Default(N).My_Init_ID
                       > C760001_0.Unique_ID'First)
                      and (Nested_Array_Default(N).My_Init_ID
                       < TC_A_Bit_Later),
                     "Initialize timing for container array");

      TCTouch.Assert(Nested_Array_Default(N).Last_Proc_Called
                     = C760001_1.Init,
                     "Initialize for nested array (outer) initial value");

      TCTouch.Assert( (Nested_Array_Default(N).Nested.My_Init_ID
                       > C760001_0.Unique_ID'First)
                      and (Nested_Array_Default(N).Nested.My_Init_ID
                       < Nested_Array_Default(N).My_Init_ID),
                     "Initialize timing for array content");
    end loop;
  end Check_Array_Case;

  procedure Check_Array_Case_With_Initial_Values is

    TC_Now : constant C760001_0.Unique_ID := C760001_0.Unique_Value;

    type Array_Simple is array(1..4) of C760001_1.Test_Controlled;
    type Array_Nested is array(1..4) of C760001_1.Nested_Controlled;

    Simple_Array_Explicit : Array_Simple := ( 1..4 => (
        Ada.Finalization.Controlled
        with TC_Now,
             TC_Now,
             TC_Now,
             C760001_1.None                 )         );

    A : constant C760001_0.Root_Controlled := 
      ( Ada.Finalization.Controlled
        with others => TC_Now);

    Nested_Array_Explicit : Array_Nested := ( 1..4 => (
        Ada.Finalization.Controlled
        with TC_Now,
             TC_Now,
             TC_Now,
             A,
             C760001_1.None                 )         );

  begin
    -- the implementation may or may not call Adjust for the values
    -- assigned into Simple_Array_Explicit and Nested_Array_Explicit,
    -- but should NOT call Initialize.
    -- if the value used in the aggregate is overwritten by Initialize,
    -- this indicates failure
    for N in 1..4 loop
      TCTouch.Assert(Simple_Array_Explicit(N).My_Init_ID
                     = TC_Now,
                     "Initialize was called for array with initial value");
      TCTouch.Assert(Nested_Array_Explicit(N).My_Init_ID
                     = TC_Now,
        "Initialize was called for nested array (outer) with initial value");
      TCTouch.Assert(Nested_Array_Explicit(N).Nested.My_Init_ID = TC_Now,
        "Initialize was called for nested array (inner) with initial value");
    end loop;
  end Check_Array_Case_With_Initial_Values;

-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --

begin  -- Main test procedure.

  Report.Test ("C760001", "Check that Initialize is called for objects " &
                          "and components of a controlled type when the " &
                          "objects and components are not assigned " &
                          "explicit initial values.  Check that if an " &
                          "explicit initial value is assigned to an " &
                          "object or component of a controlled type " &
                          "then Initialize is not called" );

  Check_Simple_Objects;

  Check_Nested_Objects;

  Check_Array_Case;

  C760001_0.TC_Initialize_Calls_Is_Failing := True;

  Check_Objects_With_Initial_Values;

  Check_Array_Case_With_Initial_Values;

  Report.Result;

end C760001;

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