It's difficult for me to say not to use Sleep
since I myself use it all the time, but Application.ProcessMessages
is in fact a dangerous solution, especially when used in a loop. I'm not sure what information you're displaying (since I don't recognize the language) but it looks like you're doing some conversions from Float to String. Although these conversions are performed in a split second, add them all together and you could come up with a lengthy operation. And suppose you decide to add another value to be updated, which requires some calculation (such as bytes per second in a file transfer). This conversion will add a bit more time onto this operation, and before you know it, you could wind up with a UI update which takes half a second (which doesn't seem long, but when it comes to processor usage, this is quite a load).
Therefore, I would suggest using a Thread to perform all of these conversions, calculations, etc. and trigger events as needed whenever that information has changed. Now a thread will definitely be a little more complex than the other suggested solutions here, no doubt. But using a thread can mean a great deal of benefits too. All your heavy work can be done in the background while your application is still responding perfectly. Keep in mind that using a thread can be very tricky, specifically when it comes to UI updates.
There's a few ways to make a thread, but I'll try to make this simple...
type
TMyThread = class;
TMyThreadEvent = procedure(Sender: TObject; const Val1, Val2: String) of object;
TMyThread = class(TThread)
private
FValue1: Integer;
FValue2: Integer;
FString1: String;
FString2: String;
FOnChange: TMyThreadEvent;
procedure SYNC_OnChange;
protected
procedure Execute; override;
public
constructor Create;
property Value1: Integer read FValue1 write FValue1;
property Value2: Integer read FValue2 write FValue1;
property String1: String read FString1;
property String2: String read FString2;
property OnChange: TMyThreadEvent read FOnChange write FOnChange;
end;
...
constructor TMyThread.Create;
begin
inherited Create(False);
FValue1 := '0';
FValue2 := '0';
end;
procedure TMyThread.Execute;
var
S1, S2: String;
DoChange: Bool;
begin
DoChange:= False;
FValue2:= DoSomeBigCalculation(FValue1); //Some random big calculation
S1:= FormatFloat('#,##0.#', FValue1);
S2:= FormatFloat('#,##0.#', FValue2);
if (S1 <> FString1) then begin
FString1:= S1;
DoChange:= True;
end;
if (S2 <> FString2) then begin
FString2:= S2;
DoChange:= True;
end;
if DoChange then
Synchronize(SYNC_OnChange);
end;
procedure TMyThread.SYNC_OnChange;
begin
if assigned(FOnChange) then
FOnChange(Self, FString1, FString2);
end;
Now to use this, you would set the Integer
properties as needed. Make sure you set the OnChange
event to a procedure with the parameters of the above TMyThreadEvent
type. Whenever any value differs from its original (or old) value, it will trigger this event. I would also highly recommend that whatever processing code you might have which produces these values in the first place be put inside of a thread. The possibilities of multi-threading is vast and prove a great advantage in applications which have a lot going on in them.
Please note that my above code is just a sample typed directly into this website, and is not tested. It's just to give you an idea of how to implement a thread to do your updating.
Sleep(X);
while X = some huge number like 60,000, then the application will be frozen for 1 minute (60,000 milliseconds). Uninterruptable roughly translates to "Not able to tell the application to STOP theSleep
command"