Difference between revisions of "thread event test project 1"

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Line 1: Line 1:
 
=== TEventThread example: matrix multiplication ===
 
=== TEventThread example: matrix multiplication ===
 +
 
A thread is created for each line of the Matrix
 
A thread is created for each line of the Matrix
 
For now only a dummy is used as an implementation of TEventThread. So the result is correct, but no Threads are used.
 
For now only a dummy is used as an implementation of TEventThread. So the result is correct, but no Threads are used.
Line 5: Line 6:
 
==== GUI unit ====
 
==== GUI unit ====
  
  unit eventthreadtest1;
+
<syntaxhighlight lang=pascal>unit eventthreadtest1;
 
    
 
    
  interface
+
interface
 
    
 
    
  uses
+
uses
    Windows, Messages, SysUtils, Variants, Classes, Graphics, Controls, Forms,
+
  Windows, Messages, SysUtils, Variants, Classes, Graphics, Controls, Forms,
    Dialogs, StdCtrls,
+
  Dialogs, StdCtrls,
    eventthreadtest2,
+
  eventthreadtest2,
    eventthread_1;
+
  eventthread_1;
 
    
 
    
  type
+
type
    TForm33 = class(TForm)
+
  TForm33 = class(TForm)
      Button1: TButton;
+
    Button1: TButton;
      Memo1: TMemo;
+
    Memo1: TMemo;
      procedure Button1Click(Sender: TObject);
+
    procedure Button1Click(Sender: TObject);
      private
+
  private
      public
+
  public
      { Public declarations }
+
    { Public declarations }
    end;
+
  end;
 +
 
 +
  TMatrixMultMainEventThread = class (TMainEventThread)
 +
  private
 +
    { Private declarations }
 +
    mm: TMatrixMult;
 +
    mr: TMatrix;
 +
    ThreadsRunning : Integer;
 +
    procedure doit;
 +
    procedure ThreadReady(Sender: TObject);
 +
    procedure AllThreadsReady;
 +
  end;
 +
 
 +
var
 +
  Form33: TForm33;
 +
 +
implementation
 +
 
 +
{$R *.dfm}
 +
 
 +
var
 +
  MatrixMultMainEventThread: TMatrixMultMainEventThread;
 +
 +
 
 +
procedure SetupMatrices(var mr, m1, m2: TMatrix);
 +
var
 +
  i, j: Integer;
 +
begin
 +
  SetLength(m1, 3);
 +
  SetLength(m2, 4);
 +
  SetLength(mr, 3);
 +
  for i := 0 to length(m1)-1 do begin
 +
    SetLength(m1[i], length(m2));
 +
    SetLength(mr[i], length(m1));
 +
  end;
 +
  for i := 0 to length(m2)-1 do begin
 +
    setlength(m2[i], length(m1));
 +
  end;
 +
  for i := 0 to length(m1)-1 do begin
 +
    for j := 0 to length(m2)-1 do begin
 +
      m1 [i, j] := i+j;
 +
      m2 [j, i] := 1 + 2*i + 3*j;
 +
    end;
 +
  end;
 +
end;
 
    
 
    
    TMatrixMultMainEventThread = class (TMainEventThread)
+
procedure TMatrixMultMainEventThread.doit;
      private
+
type
      { Private declarations }
+
  trtest = record ptr: pointer; self: TObject; end;
      mm: TMatrixMult;
+
var
      mr: TMatrix;
+
  m1, m2: TMatrix;
      ThreadsRunning : Integer;
+
  l: Integer;
      procedure doit;
+
      procedure ThreadReady(Sender: TObject);
+
  etest: TMultLineEvent;
      procedure AllThreadsReady;
+
  rtest: trtest;
    end;
+
  stest: string;
 
+
 
  var
+
begin
    Form33: TForm33;
+
  Form33.Memo1.Clear;
 
+
  SetupMatrices(mr, m1, m2);
  implementation
+
  mm := TMatrixMult.Create(length(m1), ThreadReady);
 
+
  ThreadsRunning := length(m1);
  {$R *.dfm}
+
  for l := 0 to length(m1)-1 do begin
 
 
  var
 
    MatrixMultMainEventThread: TMatrixMultMainEventThread;
 
 
 
 
 
  procedure SetupMatrices(var mr, m1, m2: TMatrix);
 
  var
 
    i, j: Integer;
 
  begin
 
    SetLength(m1, 3);
 
    SetLength(m2, 4);
 
    SetLength(mr, 3);
 
    for i := 0 to length(m1)-1 do begin
 
      SetLength(m1[i], length(m2));
 
      SetLength(mr[i], length(m1));
 
    end;
 
    for i := 0 to length(m2)-1 do begin
 
      setlength(m2[i], length(m1));
 
    end;
 
    for i := 0 to length(m1)-1 do begin
 
      for j := 0 to length(m2)-1 do begin
 
        m1 [i, j] := i+j;
 
        m2 [j, i] := 1 + 2*i + 3*j;
 
      end;
 
    end;
 
  end;
 
 
 
 
 
 
 
  procedure TMatrixMultMainEventThread.doit;
 
  type
 
      trtest = record ptr: pointer; self: TObject; end;
 
  var
 
    m1, m2: TMatrix;
 
    l: Integer;
 
 
 
    etest: TMultLineEvent;
 
    rtest: trtest;
 
    stest: string;
 
 
 
  begin
 
    Form33.Memo1.Clear;
 
    SetupMatrices(mr, m1, m2);
 
    mm := TMatrixMult.Create(length(m1), ThreadReady);
 
    ThreadsRunning := length(m1);
 
    for l := 0 to length(m1)-1 do begin
 
 
    
 
    
      ///////////////////////////////////////////
+
    ///////////////////////////////////////////
      // just for demonstartion //////////////////
+
    // just for demonstartion //////////////////
      //  if (mm.MultLineEvent[l] is TEventThread) then begin
+
    //  if (mm.MultLineEvent[l] is TEventThread) then begin
          etest := mm.MultLineEvent[l];
+
        etest := mm.MultLineEvent[l];
          move(etest, rtest, 8);
+
        move(etest, rtest, 8);
          if rtest.self is TEventThread then begin
+
        if rtest.self is TEventThread then begin
            stest := 'is TEventThread';
+
          stest := 'is TEventThread';
            end else begin
+
        end else begin
            stest := 'wrong type';
+
          stest := 'wrong type';
          end;
+
        end;
          Form33.Memo1.Lines.Add(stest);
+
        Form33.Memo1.Lines.Add(stest);
      ///////////////////////////////////////////
+
    ///////////////////////////////////////////
      ///////////////////////////////////////////
+
    ///////////////////////////////////////////
 
    
 
    
      mm.MultLineEvent[l](mr, m1, m2, l);
+
    mm.MultLineEvent[l](mr, m1, m2, l);
              // doing an indirect call to a "procedure..of object"
+
    // doing an indirect call to a "procedure..of object"
              // which _is_ a TThreadEvent schedulres a thread event
+
    // which _is_ a TThreadEvent schedulres a thread event
              // instead of just calling the precudure
+
    // instead of just calling the precudure
    end;
+
  end;
    // We now need to wait for all threads to be ready
+
  // We now need to wait for all threads to be ready
  end;
+
end;
 
    
 
    
  procedure TMatrixMultMainEventThread.ThreadReady(Sender: TObject);
+
procedure TMatrixMultMainEventThread.ThreadReady(Sender: TObject);
  begin      // this is a thread event calling the main thread. Tus the code
+
begin      // this is a thread event calling the main thread. Tus the code
              // is always running as the Main thread. So no danger that
+
            // is always running as the Main thread. So no danger that
              // e.g. ThreadsRunning := ThreadsRunning - 1 suffers from
+
            // e.g. ThreadsRunning := ThreadsRunning - 1 suffers from
              // multitasking ambiguity
+
            // multitasking ambiguity
    ThreadsRunning := ThreadsRunning - 1;
+
  ThreadsRunning := ThreadsRunning - 1;
    if ThreadsRunning <> 0 then exit;
+
  if ThreadsRunning <> 0 then exit;
    mm.Free;
+
  mm.Free;
    AllThreadsReady;
+
  AllThreadsReady;
  end;
+
end;
 
    
 
    
  procedure TMatrixMultMainEventThread.AllThreadsReady;
+
procedure TMatrixMultMainEventThread.AllThreadsReady;
  var
+
var
    i, j: Integer;
+
  i, j: Integer;
    s: String;
+
  s: String;
  begin
+
begin
  // calculation ready
+
  // calculation ready
    for i := 0 to length(mr)-1 do begin
+
  for i := 0 to length(mr)-1 do begin
      s := '';
+
    s := '';
      for j := 0 to length(mr[0])-1 do begin
+
    for j := 0 to length(mr[0])-1 do begin
        s := s + FloatToStr(mr[i,j]) + ' ';
+
      s := s + FloatToStr(mr[i,j]) + ' ';
      end;
+
    end;
      Form33.Memo1.Lines.Add(s);
+
    Form33.Memo1.Lines.Add(s);
    end;
+
  end;
  end;
+
end;
 
    
 
    
  procedure TForm33.Button1Click(Sender: TObject);
+
procedure TForm33.Button1Click(Sender: TObject);
  begin
+
begin
    MatrixMultMainEventThread := TMatrixMultMainEventThread.Create;
+
  MatrixMultMainEventThread := TMatrixMultMainEventThread.Create;
    MatrixMultMainEventThread.doit;
+
  MatrixMultMainEventThread.doit;
    MatrixMultMainEventThread.Free
+
  MatrixMultMainEventThread.Free;
  end;
+
end;
 
    
 
    
  end.
+
end.</syntaxhighlight>
  
 
==== worker unit ====
 
==== worker unit ====
  unit eventthreadtest2;
+
 
 
+
<syntaxhighlight lang=pascal>unit eventthreadtest2;
  interface
 
 
 
  uses Classes
 
    ,eventthread_1;  // provides a dummy impementation of TEventTrread class
 
 
 
  type
 
    TMatrixElement = extended;
 
    TVector = array of TMatrixElement;
 
    TMatrix = array of TVector;
 
 
 
    TMultLineEvent = procedure (const mr, m1, m2: TMatrix; l: Integer) of object;
 
 
    
 
    
    TMatrixMultThread = class(TEventThread)
+
interface
      private
 
      FNotifyEvent: TNotifyEvent;
 
      FAktLine: Integer;
 
      procedure NotifyReady;
 
      public
 
      procedure MultLine(const mr, m1, m2: TMatrix; l: Integer);
 
      property NotifyEvent: TNotifyEvent read FNotifyEvent write FNotifyEvent;
 
      property AktLine: Integer read FAktLine;
 
    end;
 
 
    
 
    
    TMatrixMult = Class(TObject)
+
uses Classes,
      private
+
  eventthread_1;   // provides a dummy impementation of TEventTrread class
      FMatrixMultThread : array of TMatrixMultThread;
 
      FMultLineEvent : array of TMultLineEvent;
 
      function GetMultLineEvent(i: Integer): TMultLineEvent;
 
      procedure SetMultLineEvent(i: Integer; const Value: TMultLineEvent);
 
      procedure SetEventCount(Value: Integer; ThreadReady: TNotifyEvent);
 
      public
 
      constructor Create(Count: Integer; ThreadReady: TNotifyEvent);
 
      destructor Destroy; override;
 
      property MultLineEvent[i: Integer]: TMultLineEvent
 
                read GetMultLineEvent write SetMultLineEvent;
 
    end;
 
 
    
 
    
  implementation
+
type
 +
  TMatrixElement = extended;
 +
  TVector = array of TMatrixElement;
 +
  TMatrix = array of TVector;
 
    
 
    
  { TMatrixMultThread }
+
  TMultLineEvent = procedure (const mr, m1, m2: TMatrix; l: Integer) of object;
 +
 +
  TMatrixMultThread = class(TEventThread)
 +
  private
 +
    FNotifyEvent: TNotifyEvent;
 +
    FAktLine: Integer;
 +
    procedure NotifyReady;
 +
  public
 +
    procedure MultLine(const mr, m1, m2: TMatrix; l: Integer);
 +
    property NotifyEvent: TNotifyEvent read FNotifyEvent write FNotifyEvent;
 +
    property AktLine: Integer read FAktLine;
 +
  end;
 
    
 
    
  procedure TMatrixMultThread.MultLine(const mr, m1, m2: TMatrix; l: Integer);
+
  TMatrixMult = Class(TObject)
  var
+
  private
    i, j: Integer;
+
    FMatrixMultThread : array of TMatrixMultThread;
    sum: TMatrixElement;
+
    FMultLineEvent : array of TMultLineEvent;
  begin
+
    function GetMultLineEvent(i: Integer): TMultLineEvent;
    FAktLine := l;
+
    procedure SetMultLineEvent(i: Integer; const Value: TMultLineEvent);
    for i := 0 to length(m1)-1 do begin
+
    procedure SetEventCount(Value: Integer; ThreadReady: TNotifyEvent);
      sum := 0;
+
  public
      for j := 0 to length(m2)-1 do begin
+
    constructor Create(Count: Integer; ThreadReady: TNotifyEvent);
        sum := sum + m1[l, j] * m2[j, i];
+
    destructor Destroy; override;
      end;
+
    property MultLineEvent[i: Integer]: TMultLineEvent
      mr[l, i] := sum;
+
      read GetMultLineEvent write SetMultLineEvent;
    end;
+
  end;
    NotifyReady;
+
 
  end;
+
implementation
 
    
 
    
  procedure TMatrixMultThread.NotifyReady;
+
{ TMatrixMultThread }
  begin
 
    if assigned(FNotifyEvent) then FNotifyEvent(self);
 
            // doing an indirect call to a "procedure..of object"
 
            // which _is_ a TThreadEvent schedulres a thread event
 
            // instead of just calling the procedure
 
  end;
 
 
    
 
    
  { TMatrixMult }
+
procedure TMatrixMultThread.MultLine(const mr, m1, m2: TMatrix; l: Integer);
 +
var
 +
  i, j: Integer;
 +
  sum: TMatrixElement;
 +
begin
 +
  FAktLine := l;
 +
  for i := 0 to length(m1)-1 do begin
 +
    sum := 0;
 +
    for j := 0 to length(m2)-1 do begin
 +
      sum := sum + m1[l, j] * m2[j, i];
 +
    end;
 +
    mr[l, i] := sum;
 +
  end;
 +
  NotifyReady;
 +
end;
 
    
 
    
  constructor TMatrixMult.Create(Count: Integer; ThreadReady: TNotifyEvent);
+
procedure TMatrixMultThread.NotifyReady;
  begin
+
begin
    inherited Create;
+
  if assigned(FNotifyEvent) then FNotifyEvent(self);
    SetEventCount(Count, ThreadReady);
+
        // doing an indirect call to a "procedure..of object"
  end;
+
        // which _is_ a TThreadEvent schedulres a thread event
 +
        // instead of just calling the procedure
 +
end;
 
    
 
    
  destructor TMatrixMult.Destroy;
+
{ TMatrixMult }
  var
+
 
    l: Integer;
+
constructor TMatrixMult.Create(Count: Integer; ThreadReady: TNotifyEvent);
  begin
+
begin
    for l := 0 to length(FMatrixMultThread)-1 do begin
+
  inherited Create;
      FMatrixMultThread[l].Free;
+
  SetEventCount(Count, ThreadReady);
    end;
+
end;
    inherited;
 
  end;
 
 
    
 
    
  procedure TMatrixMult.SetEventCount(Value: Integer; ThreadReady: TNotifyEvent);
+
destructor TMatrixMult.Destroy;
  var
+
var
    l: Integer;
+
  l: Integer;
  begin
+
begin
    SetLength(FMatrixMultThread, Value);
+
  for l := 0 to length(FMatrixMultThread)-1 do begin
    SetLength(FMultLineEvent, Value);
+
    FMatrixMultThread[l].Free;
    for l := 0 to Value-1 do begin
+
  end;
      FMatrixMultThread[l] := TMatrixMultThread.Create;
+
  inherited;
      FMatrixMultThread[l].NotifyEvent := ThreadReady;
+
end;
      FMultLineEvent[l] := FMatrixMultThread[l].MultLine;
 
    end;
 
  end;
 
 
    
 
    
  function TMatrixMult.GetMultLineEvent(i: Integer): TMultLineEvent;
+
procedure TMatrixMult.SetEventCount(Value: Integer; ThreadReady: TNotifyEvent);
  begin
+
var
    Result := FMultLineEvent[i];
+
  l: Integer;
  end;
+
begin
 +
  SetLength(FMatrixMultThread, Value);
 +
  SetLength(FMultLineEvent, Value);
 +
  for l := 0 to Value-1 do begin
 +
    FMatrixMultThread[l] := TMatrixMultThread.Create;
 +
    FMatrixMultThread[l].NotifyEvent := ThreadReady;
 +
    FMultLineEvent[l] := FMatrixMultThread[l].MultLine;
 +
  end;
 +
end;
 
    
 
    
  procedure TMatrixMult.SetMultLineEvent(i: Integer; const Value: TMultLineEvent);
+
function TMatrixMult.GetMultLineEvent(i: Integer): TMultLineEvent;
  begin
+
begin
    FMultLineEvent[i] := Value;
+
  Result := FMultLineEvent[i];
  end;
+
end;
 
    
 
    
  end.
+
procedure TMatrixMult.SetMultLineEvent(i: Integer; const Value: TMultLineEvent);
 +
begin
 +
  FMultLineEvent[i] := Value;
 +
end;
 +
 +
end.</syntaxhighlight>
  
 
==== TEventThread dummy unit ====
 
==== TEventThread dummy unit ====
  unit eventthread_1;
+
 
 
+
<syntaxhighlight lang=pascal>unit eventthread_1;
  interface
+
 
 +
interface
 +
 +
type
 +
  TEventThread = class(TObject)
 +
  end;
 
    
 
    
  type
+
  TMainEventThread = class(TObject)
    TEventThread = class(TObject)
+
  end;
    end;
 
 
 
    TMainEventThread = class(TObject)
 
    end;
 
 
      
 
      
  implementation
+
implementation
  end.
+
 
 
+
end.</syntaxhighlight>
 +
 
  
--[[User:Mschnell|Mschnell]] 13:29, 10 December 2007 (CET)
+
[[Category:Parallel programming]]
 +
[[Category:Multitasking]]

Latest revision as of 07:05, 1 March 2020

TEventThread example: matrix multiplication

A thread is created for each line of the Matrix For now only a dummy is used as an implementation of TEventThread. So the result is correct, but no Threads are used.

GUI unit

unit eventthreadtest1;
   
interface
   
uses
  Windows, Messages, SysUtils, Variants, Classes, Graphics, Controls, Forms,
  Dialogs, StdCtrls,
  eventthreadtest2,
  eventthread_1;
   
type
  TForm33 = class(TForm)
    Button1: TButton;
    Memo1: TMemo;
    procedure Button1Click(Sender: TObject);
   private
   public
    { Public declarations }
  end;

  TMatrixMultMainEventThread = class (TMainEventThread)
  private
    { Private declarations }
    mm: TMatrixMult;
    mr: TMatrix;
    ThreadsRunning : Integer;
    procedure doit;
    procedure ThreadReady(Sender: TObject);
    procedure AllThreadsReady;
  end;
  
var
  Form33: TForm33;
 
implementation

{$R *.dfm}

var
  MatrixMultMainEventThread: TMatrixMultMainEventThread;
 

procedure SetupMatrices(var mr, m1, m2: TMatrix);
var
  i, j: Integer;
begin
  SetLength(m1, 3);
  SetLength(m2, 4);
  SetLength(mr, 3);
  for i := 0 to length(m1)-1 do begin
    SetLength(m1[i], length(m2));
    SetLength(mr[i], length(m1));
  end;
  for i := 0 to length(m2)-1 do begin
    setlength(m2[i], length(m1));
  end;
  for i := 0 to length(m1)-1 do begin
    for j := 0 to length(m2)-1 do begin
      m1 [i, j] := i+j;
      m2 [j, i] := 1 + 2*i + 3*j;
    end;
  end;
end;
   
procedure TMatrixMultMainEventThread.doit;
type
  trtest = record ptr: pointer; self: TObject; end;
var
  m1, m2: TMatrix;
  l: Integer;
 
  etest: TMultLineEvent;
  rtest: trtest;
  stest: string;

begin
  Form33.Memo1.Clear;
  SetupMatrices(mr, m1, m2);
  mm := TMatrixMult.Create(length(m1), ThreadReady);
  ThreadsRunning := length(m1);
  for l := 0 to length(m1)-1 do begin
   
    ///////////////////////////////////////////
    // just for demonstartion //////////////////
    //  if (mm.MultLineEvent[l] is TEventThread) then begin
        etest := mm.MultLineEvent[l];
        move(etest, rtest, 8);
        if rtest.self is TEventThread then begin
          stest := 'is TEventThread';
         end else begin
          stest := 'wrong type';
        end;
        Form33.Memo1.Lines.Add(stest);
    ///////////////////////////////////////////
    ///////////////////////////////////////////
   
    mm.MultLineEvent[l](mr, m1, m2, l);
    // doing an indirect call to a "procedure..of object"
    // which _is_ a TThreadEvent schedulres a thread event
    // instead of just calling the precudure
  end;
  // We now need to wait for all threads to be ready
end;
   
procedure TMatrixMultMainEventThread.ThreadReady(Sender: TObject);
begin       // this is a thread event calling the main thread. Tus the code
            // is always running as the Main thread. So no danger that
            // e.g. ThreadsRunning := ThreadsRunning - 1 suffers from
            // multitasking ambiguity
  ThreadsRunning := ThreadsRunning - 1;
  if ThreadsRunning <> 0 then exit;
  mm.Free;
  AllThreadsReady;
end;
   
procedure TMatrixMultMainEventThread.AllThreadsReady;
var
  i, j: Integer;
  s: String;
begin
  // calculation ready
  for i := 0 to length(mr)-1 do begin
    s := '';
    for j := 0 to length(mr[0])-1 do begin
      s := s + FloatToStr(mr[i,j]) + ' ';
    end;
    Form33.Memo1.Lines.Add(s);
  end;
end;
   
procedure TForm33.Button1Click(Sender: TObject);
begin
  MatrixMultMainEventThread := TMatrixMultMainEventThread.Create;
  MatrixMultMainEventThread.doit;
  MatrixMultMainEventThread.Free;
end;
   
end.

worker unit

unit eventthreadtest2;
   
interface
   
uses Classes,
  eventthread_1;   // provides a dummy impementation of TEventTrread class
   
type
  TMatrixElement = extended;
  TVector = array of TMatrixElement;
  TMatrix = array of TVector;
   
  TMultLineEvent = procedure (const mr, m1, m2: TMatrix; l: Integer) of object;
 
  TMatrixMultThread = class(TEventThread)
  private
    FNotifyEvent: TNotifyEvent;
    FAktLine: Integer;
    procedure NotifyReady;
  public
    procedure MultLine(const mr, m1, m2: TMatrix; l: Integer);
    property NotifyEvent: TNotifyEvent read FNotifyEvent write FNotifyEvent;
    property AktLine: Integer read FAktLine;
  end;
   
  TMatrixMult = Class(TObject)
  private
    FMatrixMultThread : array of TMatrixMultThread;
    FMultLineEvent : array of TMultLineEvent;
    function GetMultLineEvent(i: Integer): TMultLineEvent;
    procedure SetMultLineEvent(i: Integer; const Value: TMultLineEvent);
    procedure SetEventCount(Value: Integer; ThreadReady: TNotifyEvent);
  public
    constructor Create(Count: Integer; ThreadReady: TNotifyEvent);
    destructor Destroy; override;
    property MultLineEvent[i: Integer]: TMultLineEvent
      read GetMultLineEvent write SetMultLineEvent;
  end;
  
implementation
   
{ TMatrixMultThread }
   
procedure TMatrixMultThread.MultLine(const mr, m1, m2: TMatrix; l: Integer);
var
  i, j: Integer;
  sum: TMatrixElement;
begin
  FAktLine := l;
  for i := 0 to length(m1)-1 do begin
    sum := 0;
    for j := 0 to length(m2)-1 do begin
      sum := sum + m1[l, j] * m2[j, i];
    end;
    mr[l, i] := sum;
  end;
  NotifyReady;
end;
   
procedure TMatrixMultThread.NotifyReady;
begin
  if assigned(FNotifyEvent) then FNotifyEvent(self);
         // doing an indirect call to a "procedure..of object"
         // which _is_ a TThreadEvent schedulres a thread event
         // instead of just calling the procedure
end;
   
{ TMatrixMult }
  
constructor TMatrixMult.Create(Count: Integer; ThreadReady: TNotifyEvent);
begin
  inherited Create;
  SetEventCount(Count, ThreadReady);
end;
   
destructor TMatrixMult.Destroy;
var
  l: Integer;
begin
  for l := 0 to length(FMatrixMultThread)-1 do begin
    FMatrixMultThread[l].Free;
  end;
  inherited;
end;
   
procedure TMatrixMult.SetEventCount(Value: Integer; ThreadReady: TNotifyEvent);
var
  l: Integer;
begin
  SetLength(FMatrixMultThread, Value);
  SetLength(FMultLineEvent, Value);
  for l := 0 to Value-1 do begin
    FMatrixMultThread[l] := TMatrixMultThread.Create;
    FMatrixMultThread[l].NotifyEvent := ThreadReady;
    FMultLineEvent[l] := FMatrixMultThread[l].MultLine;
  end;
end;
   
function TMatrixMult.GetMultLineEvent(i: Integer): TMultLineEvent;
begin
  Result := FMultLineEvent[i];
end;
   
procedure TMatrixMult.SetMultLineEvent(i: Integer; const Value: TMultLineEvent);
begin
  FMultLineEvent[i] := Value;
end;
 
end.

TEventThread dummy unit

unit eventthread_1;
  
interface
 
type
  TEventThread = class(TObject)
  end;
   
  TMainEventThread = class(TObject)
  end;
    
implementation

end.
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