Difference between revisions of "thread event test project 1"
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=== TEventThread example: matrix multiplication === | === TEventThread example: matrix multiplication === | ||
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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. | ||
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==== GUI unit ==== | ==== GUI unit ==== | ||
− | + | <syntaxhighlight lang=pascal>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 | |
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− | + | /////////////////////////////////////////// | |
− | + | // 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.</syntaxhighlight> | |
==== worker unit ==== | ==== worker unit ==== | ||
− | + | ||
− | + | <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) | ||
+ | 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.</syntaxhighlight> | ||
==== TEventThread dummy unit ==== | ==== TEventThread dummy unit ==== | ||
− | + | ||
− | + | <syntaxhighlight lang=pascal>unit eventthread_1; | |
− | + | ||
+ | interface | ||
+ | |||
+ | type | ||
+ | TEventThread = class(TObject) | ||
+ | end; | ||
− | + | TMainEventThread = class(TObject) | |
− | + | end; | |
− | |||
− | |||
− | |||
− | |||
− | + | implementation | |
− | + | ||
− | + | end.</syntaxhighlight> | |
+ | |||
− | + | [[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.