CEF4Delphi/source/uCEFWorkSchedulerThread.pas
Salvador Díaz Fau 769aa4f384 Fixed IME support in OSR mode
- Added lots of conditional compiler directives to build CEF4DElphi in Linux using Lazarus/FPC
- Updated copyright year
2019-01-08 19:15:25 +01:00

225 lines
5.4 KiB
ObjectPascal

// ************************************************************************
// ***************************** CEF4Delphi *******************************
// ************************************************************************
//
// CEF4Delphi is based on DCEF3 which uses CEF3 to embed a chromium-based
// browser in Delphi applications.
//
// The original license of DCEF3 still applies to CEF4Delphi.
//
// For more information about CEF4Delphi visit :
// https://www.briskbard.com/index.php?lang=en&pageid=cef
//
// Copyright © 2019 Salvador Diaz Fau. All rights reserved.
//
// ************************************************************************
// ************ vvvv Original license and comments below vvvv *************
// ************************************************************************
(*
* Delphi Chromium Embedded 3
*
* Usage allowed under the restrictions of the Lesser GNU General Public License
* or alternatively the restrictions of the Mozilla Public License 1.1
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for
* the specific language governing rights and limitations under the License.
*
* Unit owner : Henri Gourvest <hgourvest@gmail.com>
* Web site : http://www.progdigy.com
* Repository : http://code.google.com/p/delphichromiumembedded/
* Group : http://groups.google.com/group/delphichromiumembedded
*
* Embarcadero Technologies, Inc is not permitted to use or redistribute
* this source code without explicit permission.
*
*)
unit uCEFWorkSchedulerThread;
{$IFDEF FPC}
{$MODE OBJFPC}{$H+}
{$ENDIF}
{$IFNDEF CPUX64}{$ALIGN ON}{$ENDIF}
{$MINENUMSIZE 4}
{$I cef.inc}
interface
uses
{$IFDEF DELPHI16_UP}
System.Classes, System.SyncObjs,
{$ELSE}
Classes, SyncObjs,
{$ENDIF}
uCEFConstants;
type
TCEFWorkSchedulerThread = class(TThread)
protected
FCritSect : TCriticalSection;
FInterval : integer;
FEvent : TEvent;
FOnPulse : TNotifyEvent;
FPulsing : boolean;
FMustReset : boolean;
FDefaultInterval : integer;
function Lock : boolean;
procedure Unlock;
function CanPulse(var aInterval : integer) : boolean;
procedure DoOnPulseEvent;
procedure EventTimeOut;
procedure SignaledEvent;
procedure Execute; override;
public
constructor Create;
destructor Destroy; override;
procedure AfterConstruction; override;
procedure NextPulse(aInterval : integer);
property DefaultInterval : integer read FDefaultInterval write FDefaultInterval default CEF_TIMER_MAXDELAY;
property OnPulse : TNotifyEvent read FOnPulse write FOnPulse;
end;
implementation
uses
{$IFDEF DELPHI16_UP}
System.SysUtils, System.Math,
{$ELSE}
SysUtils, Math,
{$ENDIF}
uCEFApplication;
constructor TCEFWorkSchedulerThread.Create;
begin
FOnPulse := nil;
FCritSect := nil;
FPulsing := False;
FEvent := nil;
FDefaultInterval := CEF_TIMER_MAXDELAY;
FInterval := FDefaultInterval;
FMustReset := False;
inherited Create(True);
FreeOnTerminate := False;
end;
destructor TCEFWorkSchedulerThread.Destroy;
begin
if (FEvent <> nil) then FreeAndNil(FEvent);
if (FCritSect <> nil) then FreeAndNil(FCritSect);
inherited Destroy;
end;
procedure TCEFWorkSchedulerThread.AfterConstruction;
begin
inherited AfterConstruction;
FEvent := TEvent.Create(nil, False, False, '');
FCritSect := TCriticalSection.Create;
end;
procedure TCEFWorkSchedulerThread.DoOnPulseEvent;
begin
if assigned(FOnPulse) then FOnPulse(self);
end;
function TCEFWorkSchedulerThread.Lock : boolean;
begin
if not(Terminated) and (FCritSect <> nil) then
begin
FCritSect.Acquire;
Result := True;
end
else
Result := False;
end;
procedure TCEFWorkSchedulerThread.Unlock;
begin
if (FCritSect <> nil) then FCritSect.Release;
end;
procedure TCEFWorkSchedulerThread.NextPulse(aInterval : integer);
begin
if Lock then
try
FInterval := min(aInterval, CEF_TIMER_MAXDELAY);
FMustReset := True;
if FPulsing then
begin
FPulsing := False;
FEvent.SetEvent;
end;
finally
Unlock;
end;
end;
procedure TCEFWorkSchedulerThread.EventTimeOut;
begin
if Lock then
try
if FMustReset then
begin
FInterval := FDefaultInterval;
FMustReset := False;
end;
FPulsing := False;
finally
Unlock;
if not(Terminated) then Synchronize({$IFDEF FPC}self, @{$ENDIF}DoOnPulseEvent);
end;
end;
procedure TCEFWorkSchedulerThread.SignaledEvent;
begin
if Lock then
try
FPulsing := False;
finally
Unlock;
end;
end;
function TCEFWorkSchedulerThread.CanPulse(var aInterval : integer) : boolean;
begin
Result := False;
if Lock then
try
aInterval := FInterval;
if (aInterval > 0) then
begin
Result := True;
FPulsing := True;
FEvent.ResetEvent;
end;
finally
Unlock;
end;
end;
procedure TCEFWorkSchedulerThread.Execute;
var
TempInterval : integer;
begin
while CanPulse(TempInterval) do
if (FEvent.WaitFor(TempInterval) = wrTimeout) then
EventTimeOut
else
SignaledEvent;
end;
end.