// ************************************************************************ // ***************************** CEF4Delphi ******************************* // ************************************************************************ // // CEF4Delphi is based on DCEF3 which uses CEF 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 © 2020 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 * 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 uCEFBaseRefCounted; {$IFDEF FPC} {$MODE OBJFPC}{$H+} {$ENDIF} {$IFNDEF CPUX64}{$ALIGN ON}{$ENDIF} {$MINENUMSIZE 4} {$I cef.inc} interface uses {$IFDEF DELPHI16_UP} System.SysUtils, {$ELSE} SysUtils, {$ENDIF} uCEFInterfaces; type TLoggingInterfacedObject = class(TInterfacedObject) protected function _AddRef: Integer; reintroduce; stdcall; function _Release: Integer; reintroduce; stdcall; public class function NewInstance: TObject; override; end; TCefBaseRefCountedOwn = class({$IFDEF INTFLOG}TLoggingInterfacedObject{$ELSE}TInterfacedObject{$ENDIF}, ICefBaseRefCounted) protected FData: Pointer; function HasOneRef : boolean; function HasAtLeastOneRef : boolean; public constructor CreateData(size: Cardinal; owned : boolean = False); virtual; destructor Destroy; override; function SameAs(aData : Pointer) : boolean; overload; function SameAs(const aBaseRefCounted : ICefBaseRefCounted) : boolean; overload; procedure DestroyOtherRefs; function Wrap: Pointer; end; TCefBaseRefCountedRef = class(TInterfacedObject, ICefBaseRefCounted) protected FData: Pointer; function HasOneRef : boolean; function HasAtLeastOneRef : boolean; public constructor Create(data: Pointer); virtual; destructor Destroy; override; function SameAs(aData : Pointer) : boolean; overload; function SameAs(const aBaseRefCounted : ICefBaseRefCounted) : boolean; overload; procedure DestroyOtherRefs; function Wrap: Pointer; class function UnWrap(data: Pointer): ICefBaseRefCounted; end; implementation uses uCEFTypes, uCEFMiscFunctions; // *********************************************** // ************ TCefBaseRefCountedOwn ************ // *********************************************** procedure cef_base_add_ref(self: PCefBaseRefCounted); stdcall; var TempObject : TObject; begin TempObject := CefGetObject(self); if (TempObject <> nil) and (TempObject is TCefBaseRefCountedOwn) then TCefBaseRefCountedOwn(TempObject)._AddRef; end; function cef_base_release_ref(self: PCefBaseRefCounted): Integer; stdcall; var TempObject : TObject; begin TempObject := CefGetObject(self); if (TempObject <> nil) and (TempObject is TCefBaseRefCountedOwn) then Result := TCefBaseRefCountedOwn(TempObject)._Release else Result := 0; end; function cef_base_has_one_ref(self: PCefBaseRefCounted): Integer; stdcall; var TempObject : TObject; begin TempObject := CefGetObject(self); if (TempObject <> nil) and (TempObject is TCefBaseRefCountedOwn) then Result := Ord(TCefBaseRefCountedOwn(TempObject).FRefCount = 1) else Result := Ord(False); end; function cef_base_has_at_least_one_ref(self: PCefBaseRefCounted): Integer; stdcall; var TempObject : TObject; begin TempObject := CefGetObject(self); if (TempObject <> nil) and (TempObject is TCefBaseRefCountedOwn) then Result := Ord(TCefBaseRefCountedOwn(TempObject).FRefCount >= 1) else Result := Ord(False); end; procedure cef_base_add_ref_owned(self: PCefBaseRefCounted); stdcall; begin // end; function cef_base_release_owned(self: PCefBaseRefCounted): Integer; stdcall; begin Result := 1; end; function cef_base_has_one_ref_owned(self: PCefBaseRefCounted): Integer; stdcall; begin Result := 1; end; function cef_base_has_at_least_one_ref_owned(self: PCefBaseRefCounted): Integer; stdcall; begin Result := 1; end; constructor TCefBaseRefCountedOwn.CreateData(size: Cardinal; owned : boolean); begin GetMem(FData, size + SizeOf(Pointer)); PPointer(FData)^ := Self; Inc(PByte(FData), SizeOf(Pointer)); FillChar(FData^, size, 0); PCefBaseRefCounted(FData)^.size := size; if owned then begin PCefBaseRefCounted(FData)^.add_ref := {$IFDEF FPC}@{$ENDIF}cef_base_add_ref_owned; PCefBaseRefCounted(FData)^.release := {$IFDEF FPC}@{$ENDIF}cef_base_release_owned; PCefBaseRefCounted(FData)^.has_one_ref := {$IFDEF FPC}@{$ENDIF}cef_base_has_one_ref_owned; PCefBaseRefCounted(FData)^.has_at_least_one_ref := {$IFDEF FPC}@{$ENDIF}cef_base_has_at_least_one_ref_owned; end else begin PCefBaseRefCounted(FData)^.add_ref := {$IFDEF FPC}@{$ENDIF}cef_base_add_ref; PCefBaseRefCounted(FData)^.release := {$IFDEF FPC}@{$ENDIF}cef_base_release_ref; PCefBaseRefCounted(FData)^.has_one_ref := {$IFDEF FPC}@{$ENDIF}cef_base_has_one_ref; PCefBaseRefCounted(FData)^.has_at_least_one_ref := {$IFDEF FPC}@{$ENDIF}cef_base_has_at_least_one_ref; end; end; destructor TCefBaseRefCountedOwn.Destroy; var TempPointer : pointer; begin try if (FData <> nil) then begin TempPointer := FData; Dec(PByte(TempPointer), SizeOf(Pointer)); FillChar(TempPointer^, SizeOf(Pointer) + SizeOf(TCefBaseRefCounted), 0); FreeMem(TempPointer); end; finally FData := nil; inherited Destroy; end; end; function TCefBaseRefCountedOwn.SameAs(aData : Pointer) : boolean; begin Result := (FData = aData); end; function TCefBaseRefCountedOwn.SameAs(const aBaseRefCounted : ICefBaseRefCounted) : boolean; var TempData : Pointer; begin Result := False; if (aBaseRefCounted <> nil) then begin TempData := aBaseRefCounted.Wrap; if (TempData <> nil) then begin Result := SameAs(TempData); if assigned(PCefBaseRefCounted(TempData)^.release) then PCefBaseRefCounted(TempData)^.release(PCefBaseRefCounted(TempData)); end; end; end; procedure TCefBaseRefCountedOwn.DestroyOtherRefs; begin while HasAtLeastOneRef and not(HasOneRef) do _Release; end; function TCefBaseRefCountedOwn.Wrap: Pointer; begin Result := FData; if (FData <> nil) and Assigned(PCefBaseRefCounted(FData)^.add_ref) then PCefBaseRefCounted(FData)^.add_ref(PCefBaseRefCounted(FData)); end; function TCefBaseRefCountedOwn.HasOneRef : boolean; begin if (FData <> nil) and Assigned(PCefBaseRefCounted(FData)^.has_one_ref) then Result := PCefBaseRefCounted(FData)^.has_one_ref(PCefBaseRefCounted(FData)) <> 0 else Result := False; end; function TCefBaseRefCountedOwn.HasAtLeastOneRef : boolean; begin if (FData <> nil) and Assigned(PCefBaseRefCounted(FData)^.has_at_least_one_ref) then Result := PCefBaseRefCounted(FData)^.has_at_least_one_ref(PCefBaseRefCounted(FData)) <> 0 else Result := False; end; // *********************************************** // ************ TCefBaseRefCountedRef ************ // *********************************************** constructor TCefBaseRefCountedRef.Create(data: Pointer); begin Assert(data <> nil); FData := data; end; destructor TCefBaseRefCountedRef.Destroy; begin try if (FData <> nil) and assigned(PCefBaseRefCounted(FData)^.release) then begin {$IFDEF INTFLOG} CefDebugLog(ClassName + '.Destroy -> FRefCount = ' + IntToStr(PCefBaseRefCounted(FData)^.release(PCefBaseRefCounted(FData)))); {$ELSE} PCefBaseRefCounted(FData)^.release(PCefBaseRefCounted(FData)); {$ENDIF} end; finally FData := nil; inherited Destroy; end; end; function TCefBaseRefCountedRef.SameAs(aData : Pointer) : boolean; begin Result := (FData = aData); end; function TCefBaseRefCountedRef.SameAs(const aBaseRefCounted : ICefBaseRefCounted) : boolean; var TempData : Pointer; begin Result := False; if (aBaseRefCounted <> nil) then begin TempData := aBaseRefCounted.Wrap; if (TempData <> nil) then begin Result := SameAs(TempData); if assigned(PCefBaseRefCounted(TempData)^.release) then PCefBaseRefCounted(TempData)^.release(PCefBaseRefCounted(TempData)); end; end; end; class function TCefBaseRefCountedRef.UnWrap(data: Pointer): ICefBaseRefCounted; begin if (data <> nil) then Result := Create(data) as ICefBaseRefCounted else Result := nil; end; function TCefBaseRefCountedRef.Wrap: Pointer; begin Result := FData; if (FData <> nil) and Assigned(PCefBaseRefCounted(FData)^.add_ref) then begin PCefBaseRefCounted(FData)^.add_ref(PCefBaseRefCounted(FData)); {$IFDEF INTFLOG} CefDebugLog(ClassName + '.Wrap'); {$ENDIF} end; end; function TCefBaseRefCountedRef.HasOneRef : boolean; begin Result := (PCefBaseRefCounted(FData)^.has_one_ref(PCefBaseRefCounted(FData)) <> 0); end; function TCefBaseRefCountedRef.HasAtLeastOneRef : boolean; begin Result := (PCefBaseRefCounted(FData)^.has_at_least_one_ref(PCefBaseRefCounted(FData)) <> 0); end; procedure TCefBaseRefCountedRef.DestroyOtherRefs; begin // end; // ************************************************ // *********** TLoggingInterfacedObject *********** // ************************************************ function TLoggingInterfacedObject._AddRef: Integer; stdcall; begin Result := inherited _AddRef; CefDebugLog(ClassName + '._AddRef -> FRefCount = ' + IntToStr(Result)); end; function TLoggingInterfacedObject._Release: Integer; stdcall; begin CefDebugLog(ClassName + '._Release -> FRefCount = ' + IntToStr(pred(RefCount))); Result := inherited _Release; end; class function TLoggingInterfacedObject.NewInstance: TObject; begin Result := inherited NewInstance; CefDebugLog(ClassName + '.NewInstance -> FRefCount = ' + IntToStr(TInterfacedObject(Result).RefCount)); end; end.