unit uCEFv8Accessor; {$IFDEF FPC} {$MODE OBJFPC}{$H+} {$ENDIF} {$I cef.inc} {$IFNDEF TARGET_64BITS}{$ALIGN ON}{$ENDIF} {$MINENUMSIZE 4} interface uses uCEFBaseRefCounted, uCEFInterfaces, uCEFTypes; type TCefV8AccessorOwn = class(TCefBaseRefCountedOwn, ICefV8Accessor) protected function Get(const name: ustring; const object_: ICefv8Value; var retval: ICefv8Value; var exception: ustring): Boolean; virtual; function Set_(const name: ustring; const object_, value: ICefv8Value; var exception: ustring): Boolean; virtual; public constructor Create; virtual; end; TCefFastV8Accessor = class(TCefV8AccessorOwn) protected FGetter: TCefV8AccessorGetterProc; FSetter: TCefV8AccessorSetterProc; function Get(const name: ustring; const object_: ICefv8Value; var retval: ICefv8Value; var exception: ustring): Boolean; override; function Set_(const name: ustring; const object_, value: ICefv8Value; var exception: ustring): Boolean; override; public constructor Create(const getter: TCefV8AccessorGetterProc; const setter: TCefV8AccessorSetterProc); reintroduce; end; implementation uses uCEFMiscFunctions, uCEFLibFunctions, uCEFv8Value; function cef_v8_accessor_get( self : PCefV8Accessor; const name : PCefString; object_ : PCefv8Value; out retval : PCefv8Value; exception : PCefString): Integer; stdcall; var TempObject : TObject; TempException : ustring; TempReturnValue : ICefv8Value; TempRecObject : ICefv8Value; begin Result := Ord(False); TempObject := CefGetObject(self); if (TempObject <> nil) and (TempObject is TCefV8AccessorOwn) then try TempRecObject := TCefv8ValueRef.UnWrap(object_); TempException := ''; TempReturnValue := nil; Result := Ord(TCefV8AccessorOwn(TempObject).Get(CefString(name), TempRecObject, TempReturnValue, TempException)); retval := CefGetData(TempReturnValue); if (exception <> nil) then begin CefStringFree(exception); exception^ := CefStringAlloc(TempException); end; finally TempRecObject := nil; TempReturnValue := nil; end; end; function cef_v8_accessor_set( self : PCefV8Accessor; const name : PCefString; object_ : PCefv8Value; value : PCefv8Value; exception : PCefString): Integer; stdcall; var TempObject : TObject; TempException : ustring; TempValue : ICefv8Value; TempRecObject : ICefv8Value; begin Result := Ord(False); TempObject := CefGetObject(self); if (TempObject <> nil) and (TempObject is TCefV8AccessorOwn) then try TempRecObject := TCefv8ValueRef.UnWrap(object_); TempValue := TCefv8ValueRef.UnWrap(value); TempException := ''; Result := Ord(TCefV8AccessorOwn(TempObject).Set_(CefString(name), TempRecObject, TempValue, TempException)); if (exception <> nil) then begin CefStringFree(exception); exception^ := CefStringAlloc(TempException); end; finally TempRecObject := nil; TempValue := nil; end; end; // TCefV8AccessorOwn constructor TCefV8AccessorOwn.Create; begin inherited CreateData(SizeOf(TCefV8Accessor)); with PCefV8Accessor(FData)^ do begin get := {$IFDEF FPC}@{$ENDIF}cef_v8_accessor_get; set_ := {$IFDEF FPC}@{$ENDIF}cef_v8_accessor_set; end; end; function TCefV8AccessorOwn.Get(const name: ustring; const object_: ICefv8Value; var retval: ICefv8Value; var exception: ustring): Boolean; begin Result := False; end; function TCefV8AccessorOwn.Set_(const name: ustring; const object_, value: ICefv8Value; var exception: ustring): Boolean; begin Result := False; end; // TCefFastV8Accessor constructor TCefFastV8Accessor.Create(const getter: TCefV8AccessorGetterProc; const setter: TCefV8AccessorSetterProc); begin FGetter := getter; FSetter := setter; end; function TCefFastV8Accessor.Get(const name: ustring; const object_: ICefv8Value; var retval: ICefv8Value; var exception: ustring): Boolean; begin if Assigned(FGetter) then Result := FGetter(name, object_, retval, exception) else Result := False; end; function TCefFastV8Accessor.Set_(const name: ustring; const object_, value: ICefv8Value; var exception: ustring): Boolean; begin if Assigned(FSetter) then Result := FSetter(name, object_, value, exception) else Result := False; end; end.