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{

 * This Source Code Form is subject to the terms of the Mozilla Public License,

 * v. 2.0. If a copy of the MPL was not distributed with this file, You can

 * obtain one at http://mozilla.org/MPL/2.0/

 *

 * Copyright (C) 2013, Peter Johnson (www.delphidabbler.com).

 *

 * $Rev$

 * $Date$

 *

 * Implements a class that manages the lifetime of a group of thread objects.

}





unit UThreadGroup;





interface





uses

  // Delphi

  Classes, Generics.Collections;





type

  ///  <summary>Class that manages the lifetime of a group of thread objects.

  ///  </summary>

  ///  <remarks>

  ///  <para>There may be no more than $80 threads in a group.</para>

  ///  <para>Threads should be created suspended (not enforced).</para>

  ///  <para>Threads must not automatically free themselves on termination. Each

  ///  thread's FreeOnTerminate property will be set False when it is added to

  ///  the group.</para>

  ///  </remarks>

  TThreadGroup = class(TObject)

  public

    const

      ///  <summary>Maximum number of threads in group.</summary>

      MaxCount = $80;

  strict private

    var

      ///  <summary>List if threads.</summary>

      fThreads: TList<TThread>;

    ///  <summary>Read accessor for Threads[] property.</summary>

    function GetThread(Idx: Integer): TThread;

  public

    ///  <summary>Constructs a new empty thread group object.</summary>

    constructor Create;

    ///  <summary>Destroys object instance.</summary>

    destructor Destroy; override;

    ///  <summary>Adds the given thread to the group.</summary>

    ///  <remarks>

    ///  <para>Must not be called if the group is already full.</para>

    ///  <para>The thread's FreeOnTerminate property is set True.</para>

    ///  </remarks>

    procedure Add(AThread: TThread); overload;

    ///  <summary>Adds each thread in the given array to the group.</summary>

    ///  <remarks>

    ///  <para>Must not be called if the number of threads in the array would

    ///  cause the group's capacity to be exceeded.</para>

    ///  <para>Each thread's FreeOnTerminate property is set True.</para>

    ///  </remarks>

    procedure Add(const AThreads: array of TThread); overload;

    ///  <summary>Notifies all threads to terminate.</summary>

    ///  <remarks>Simply sets each thread's Terminate property True.</remarks>

    procedure Terminate;

    ///  <summary>Starts all threads.</summary>

    ///  <remarks>Threads are started in the order they were added.</remarks>

    procedure Start;

    ///  <summary>Sets priority of all threads in group to the given value.

    ///  </summary>

    procedure SetPriorities(const Priority: TThreadPriority);

    ///  <summary>Waits for each thread to terminate, subject to a timeout.

    ///  </summary>

    ///  <param name="Timeout">Cardinal [in] Timeout in ms.</param>

    ///  <returns>Cardinal. Values are the same as for the Windows API

    ///  WaitForMultipleObjects function. In summary, values $00..$79 represent

    ///  success while values >= $80 are errors.</returns>

    ///  <remarks>WaitFor must not be called when the group is empty.</remarks>

    function WaitFor(Timeout: Cardinal): Cardinal;

    ///  <summary>Signals each thread to terminate and then waits for them to

    ///  complete, subject to a timeout.</summary>

    ///  <param name="Timeout">Cardinal [in] Timeout in ms.</param>

    ///  <returns>Cardinal. Values are the same as for the Windows API

    ///  WaitForMultipleObjects function. In summary, values $00..$79 represent

    ///  success while values >= $80 are errors.</returns>

    ///  <remarks>Kill must not be called when the group is empty.</remarks>

    function Kill(Timeout: Cardinal): Cardinal;

    ///  <summary>Checks if the group is empty, i.e. contains no threads.

    ///  </summary>

    function IsEmpty: Boolean;

    ///  <summary>Checks if the group is full and cannot accept any more

    ///  threads.</summary>

    function IsFull: Boolean;

    ///  <summary>Returns the number of threads in the group.</summary>

    function Count: Integer;

    ///  <summary>Indexed array of threads in the group.</summary>

    property Threads[Idx: Integer]: TThread read GetThread; default;

  end;





implementation





uses

  // Delphi

  Windows;





{ TThreadGroup }



procedure TThreadGroup.Add(AThread: TThread);

begin

  Assert(not IsFull, ClassName + '.Add: Group is full');

  AThread.FreeOnTerminate := False;

  fThreads.Add(AThread);

end;



procedure TThreadGroup.Add(const AThreads: array of TThread);

var

  Thread: TThread;

begin

  Assert(Count + Length(AThreads) <= MaxCount,

    ClassName + '.Add: Number of threads exceed group capacity.');

  for Thread in AThreads do

    Thread.FreeOnTerminate := False;

  fThreads.AddRange(AThreads);

end;



function TThreadGroup.Count: Integer;

begin

  Result := fThreads.Count;

end;



constructor TThreadGroup.Create;

begin

  inherited;

  fThreads := TList<TThread>.Create;

end;



destructor TThreadGroup.Destroy;

var

  Thread: TThread;

begin

  for Thread in fThreads do

    Thread.Free;  // terminates thread cleanly

  fThreads.Free;

  inherited;

end;



function TThreadGroup.GetThread(Idx: Integer): TThread;

begin

  Result := fThreads[Idx];

end;



function TThreadGroup.IsEmpty: Boolean;

begin

  Result := fThreads.Count = 0;

end;



function TThreadGroup.IsFull: Boolean;

begin

  Result := Count = MaxCount;

end;



function TThreadGroup.Kill(Timeout: Cardinal): Cardinal;

begin

  Assert(not IsEmpty, ClassName + '.Kill: Thread list empty');

  Terminate;

  Result := WaitFor(Timeout);

end;



procedure TThreadGroup.SetPriorities(const Priority: TThreadPriority);

var

  Thread: TThread;

begin

  for Thread in fThreads do

    Thread.Priority := Priority;

end;



procedure TThreadGroup.Start;

var

  Thread: TThread;

begin

  for Thread in fThreads do

    Thread.Start;

end;



procedure TThreadGroup.Terminate;

var

  Thread: TThread;

begin

  for Thread in fThreads do

    Thread.Terminate;

end;



function TThreadGroup.WaitFor(Timeout: Cardinal): Cardinal;

var

  I: Integer;

  Handles: TArray<THandle>;

begin

  Assert(not IsEmpty, ClassName + '.WaitFor: Thread list empty');

  SetLength(Handles, fThreads.Count);

  for I := 0 to Pred(fThreads.Count) do

    Handles[I] := fThreads[I].Handle;

  Result := WaitForMultipleObjects(

    Length(Handles), @Handles[0], True, Timeout

  );

end;



end.
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