unit uCEFv8Value; {$IFDEF FPC} {$MODE OBJFPC}{$H+} {$ENDIF} {$I cef.inc} {$IFNDEF TARGET_64BITS}{$ALIGN ON}{$ENDIF} {$MINENUMSIZE 4} interface uses {$IFDEF DELPHI16_UP} System.Classes, System.SysUtils, {$ELSE} Classes, SysUtils, {$ENDIF} uCEFBaseRefCounted, uCEFInterfaces, uCEFTypes; type TCefv8ValueRef = class(TCefBaseRefCountedRef, ICefv8Value) protected function IsValid: Boolean; function IsUndefined: Boolean; function IsNull: Boolean; function IsBool: Boolean; function IsInt: Boolean; function IsUInt: Boolean; function IsDouble: Boolean; function IsDate: Boolean; function IsString: Boolean; function IsObject: Boolean; function IsArray: Boolean; function IsArrayBuffer: Boolean; function IsFunction: Boolean; function IsPromise: Boolean; function IsSame(const that: ICefv8Value): Boolean; function GetBoolValue: Boolean; function GetIntValue: Integer; function GetUIntValue: Cardinal; function GetDoubleValue: Double; function GetDateValue: TDateTime; function GetStringValue: ustring; function IsUserCreated: Boolean; function HasException: Boolean; function GetException: ICefV8Exception; function ClearException: Boolean; function WillRethrowExceptions: Boolean; function SetRethrowExceptions(rethrow: Boolean): Boolean; function HasValueByKey(const key: ustring): Boolean; function HasValueByIndex(index: Integer): Boolean; function DeleteValueByKey(const key: ustring): Boolean; function DeleteValueByIndex(index: Integer): Boolean; function GetValueByKey(const key: ustring): ICefv8Value; function GetValueByIndex(index: Integer): ICefv8Value; function SetValueByKey(const key: ustring; const value: ICefv8Value; attribute: TCefV8PropertyAttributes): Boolean; function SetValueByIndex(index: Integer; const value: ICefv8Value): Boolean; function SetValueByAccessor(const key: ustring; settings: TCefV8AccessControls; attribute: TCefV8PropertyAttributes): Boolean; function GetKeys(const keys: TStrings): Integer; function SetUserData(const data: ICefv8Value): Boolean; function GetUserData: ICefv8Value; function GetExternallyAllocatedMemory: Integer; function AdjustExternallyAllocatedMemory(changeInBytes: Integer): Integer; function GetArrayLength: Integer; function GetArrayBufferReleaseCallback : ICefv8ArrayBufferReleaseCallback; function NeuterArrayBuffer: boolean; function GetArrayBufferByteLength: NativeUInt; function GetArrayBufferData: Pointer; function GetFunctionName: ustring; function GetFunctionHandler: ICefv8Handler; function ExecuteFunction(const obj: ICefv8Value; const arguments: TCefv8ValueArray): ICefv8Value; function ExecuteFunctionWithContext(const context: ICefv8Context; const obj: ICefv8Value; const arguments: TCefv8ValueArray): ICefv8Value; function ResolvePromise(const arg: ICefv8Value): boolean; function RejectPromise(const errorMsg: ustring): boolean; public /// /// Returns a ICefv8Value instance using a PCefv8Value data pointer. /// class function UnWrap(data: Pointer): ICefv8Value; /// /// Create a new ICefv8Value object of type undefined. /// class function NewUndefined: ICefv8Value; /// /// Create a new ICefv8Value object of type null. /// class function NewNull: ICefv8Value; /// /// Create a new ICefv8Value object of type bool. /// class function NewBool(value: Boolean): ICefv8Value; /// /// Create a new ICefv8Value object of type int. /// class function NewInt(value: Integer): ICefv8Value; /// /// Create a new ICefv8Value object of type unsigned int. /// class function NewUInt(value: Cardinal): ICefv8Value; /// /// Create a new ICefv8Value object of type double. /// class function NewDouble(value: Double): ICefv8Value; /// /// Create a new ICefv8Value object of type Date. This function should only be /// called from within the scope of a ICefRenderProcessHandler, /// ICefv8Handler or ICefv8Accessor callback, or in combination with calling /// enter() and exit() on a stored ICefv8Context reference. /// class function NewDate(value: TDateTime): ICefv8Value; /// /// Create a new ICefv8Value object of type string. /// class function NewString(const str: ustring): ICefv8Value; /// /// Create a new ICefv8Value object of type object with optional accessor /// and/or interceptor. This function should only be called from within the /// scope of a ICefRenderProcessHandler, ICefv8Handler or ICefv8Accessor /// callback, or in combination with calling enter() and exit() on a stored /// ICefv8Context reference. /// class function NewObject(const Accessor: ICefV8Accessor; const Interceptor: ICefV8Interceptor): ICefv8Value; /// /// Create a new ICefv8Value object of type object with optional accessor /// and/or interceptor. This function should only be called from within the /// scope of a ICefRenderProcessHandler, ICefv8Handler or ICefv8Accessor /// callback, or in combination with calling enter() and exit() on a stored /// ICefv8Context reference. /// class function NewObjectProc(const getter : TCefV8AccessorGetterProc; const setter : TCefV8AccessorSetterProc; const getterbyname : TCefV8InterceptorGetterByNameProc; const setterbyname : TCefV8InterceptorSetterByNameProc; const getterbyindex : TCefV8InterceptorGetterByIndexProc; const setterbyindex : TCefV8InterceptorSetterByIndexProc): ICefv8Value; /// /// Create a new ICefv8Value object of type array with the specified |length|. /// If |length| is negative the returned array will have length 0. This function /// should only be called from within the scope of a /// ICefRenderProcessHandler, ICefv8Handler or ICefv8Accessor callback, /// or in combination with calling enter() and exit() on a stored /// ICefv8Context reference. /// class function NewArray(len: Integer): ICefv8Value; /// /// Create a new ICefv8Value object of type ArrayBuffer which wraps the /// provided |buffer| of size |length| bytes. The ArrayBuffer is externalized, /// meaning that it does not own |buffer|. The caller is responsible for freeing /// |buffer| when requested via a call to /// ICefv8ArrayBufferReleaseCallback.ReleaseBuffer. This function should /// only be called from within the scope of a ICefRenderProcessHandler, /// ICefv8Handler or ICefv8Accessor callback, or in combination with calling /// enter() and exit() on a stored ICefv8Context reference. /// class function NewArrayBuffer(buffer: Pointer; length: NativeUInt; const callback : ICefv8ArrayBufferReleaseCallback): ICefv8Value; /// /// Create a new ICefv8Value object of type function. This function should /// only be called from within the scope of a ICefRenderProcessHandler, /// ICefv8Handler or ICefv8Accessor callback, or in combination with calling /// enter() and exit() on a stored ICefv8Context reference. /// class function NewFunction(const name: ustring; const handler: ICefv8Handler): ICefv8Value; /// /// Create a new ICefv8Value object of type Promise. This function should only /// be called from within the scope of a ICefRenderProcessHandler, /// ICefv8Handler or ICefv8Accessor callback, or in combination with calling /// enter() and exit() on a stored ICefv8Context reference. /// class function NewPromise: ICefv8Value; end; implementation uses uCEFMiscFunctions, uCEFLibFunctions, uCEFv8Accessor, uCEFv8Handler, uCEFv8Exception, uCEFv8Interceptor, uCEFStringList, uCEFv8ArrayBufferReleaseCallback; function TCefv8ValueRef.AdjustExternallyAllocatedMemory(changeInBytes: Integer): Integer; begin Result := PCefV8Value(FData)^.adjust_externally_allocated_memory(PCefV8Value(FData), changeInBytes); end; class function TCefv8ValueRef.NewArray(len: Integer): ICefv8Value; begin Result := UnWrap(cef_v8value_create_array(len)); end; class function TCefv8ValueRef.NewArrayBuffer( buffer : Pointer; length : NativeUInt; const callback : ICefv8ArrayBufferReleaseCallback): ICefv8Value; begin Result := UnWrap(cef_v8value_create_array_buffer(buffer, length, CefGetData(callback))); end; class function TCefv8ValueRef.NewBool(value: Boolean): ICefv8Value; begin Result := UnWrap(cef_v8value_create_bool(Ord(value))); end; class function TCefv8ValueRef.NewDate(value: TDateTime): ICefv8Value; var TempValue : TCefBaseTime; begin TempValue := DateTimeToCefBaseTime(value); Result := UnWrap(cef_v8value_create_date(TempValue)); end; class function TCefv8ValueRef.NewDouble(value: Double): ICefv8Value; begin Result := UnWrap(cef_v8value_create_double(value)); end; class function TCefv8ValueRef.NewFunction(const name: ustring; const handler: ICefv8Handler): ICefv8Value; var TempName : TCefString; begin TempName := CefString(name); Result := UnWrap(cef_v8value_create_function(@TempName, CefGetData(handler))); end; class function TCefv8ValueRef.NewPromise: ICefv8Value; begin Result := UnWrap(cef_v8value_create_promise()); end; class function TCefv8ValueRef.NewInt(value: Integer): ICefv8Value; begin Result := UnWrap(cef_v8value_create_int(value)); end; class function TCefv8ValueRef.NewUInt(value: Cardinal): ICefv8Value; begin Result := UnWrap(cef_v8value_create_uint(value)); end; class function TCefv8ValueRef.NewNull: ICefv8Value; begin Result := UnWrap(cef_v8value_create_null()); end; class function TCefv8ValueRef.NewObject(const Accessor: ICefV8Accessor; const Interceptor: ICefV8Interceptor): ICefv8Value; begin Result := UnWrap(cef_v8value_create_object(CefGetData(Accessor), CefGetData(Interceptor))); end; class function TCefv8ValueRef.NewObjectProc(const getter : TCefV8AccessorGetterProc; const setter : TCefV8AccessorSetterProc; const getterbyname : TCefV8InterceptorGetterByNameProc; const setterbyname : TCefV8InterceptorSetterByNameProc; const getterbyindex : TCefV8InterceptorGetterByIndexProc; const setterbyindex : TCefV8InterceptorSetterByIndexProc): ICefv8Value; begin Result := NewObject(TCefFastV8Accessor.Create(getter, setter) as ICefV8Accessor, TCefFastV8Interceptor.Create(getterbyname, setterbyname, getterbyindex, setterbyindex) as ICefV8Interceptor); end; class function TCefv8ValueRef.NewString(const str: ustring): ICefv8Value; var TempString : TCefString; begin TempString := CefString(str); Result := UnWrap(cef_v8value_create_string(@TempString)); end; class function TCefv8ValueRef.NewUndefined: ICefv8Value; begin Result := UnWrap(cef_v8value_create_undefined()); end; function TCefv8ValueRef.DeleteValueByIndex(index: Integer): Boolean; begin Result := PCefV8Value(FData)^.delete_value_byindex(PCefV8Value(FData), index) <> 0; end; function TCefv8ValueRef.DeleteValueByKey(const key: ustring): Boolean; var TempKey : TCefString; begin TempKey := CefString(key); Result := PCefV8Value(FData)^.delete_value_bykey(PCefV8Value(FData), @TempKey) <> 0; end; function TCefv8ValueRef.ExecuteFunction(const obj: ICefv8Value; const arguments: TCefv8ValueArray): ICefv8Value; var args : PPCefV8Value; i, j : NativeUInt; begin Result := nil; args := nil; try try if (arguments <> nil) then begin i := 0; j := Length(arguments); GetMem(args, SizeOf(PCefV8Value) * j); while (i < j) do begin args^[i] := CefGetData(arguments[i]); inc(i); end; end else j := 0; Result := TCefv8ValueRef.UnWrap(PCefV8Value(FData)^.execute_function(PCefV8Value(FData), CefGetData(obj), j, args)); except on e : exception do if CustomExceptionHandler('TCefv8ValueRef.ExecuteFunction', e) then raise; end; finally if (args <> nil) then FreeMem(args); end; end; function TCefv8ValueRef.ExecuteFunctionWithContext(const context : ICefv8Context; const obj : ICefv8Value; const arguments : TCefv8ValueArray): ICefv8Value; var args : PPCefV8Value; i, j : NativeUInt; begin Result := nil; args := nil; try try if (arguments <> nil) then begin i := 0; j := Length(arguments); GetMem(args, SizeOf(PCefV8Value) * j); while (i < j) do begin args^[i] := CefGetData(arguments[i]); inc(i); end; end else j := 0; Result := TCefv8ValueRef.UnWrap(PCefV8Value(FData)^.execute_function_with_context(PCefV8Value(FData), CefGetData(context), CefGetData(obj), j, args)); except on e : exception do if CustomExceptionHandler('TCefv8ValueRef.ExecuteFunctionWithContext', e) then raise; end; finally if (args <> nil) then FreeMem(args); end; end; function TCefv8ValueRef.ResolvePromise(const arg: ICefv8Value): boolean; begin Result := PCefV8Value(FData)^.resolve_promise(PCefV8Value(FData), CefGetData(arg)) <> 0; end; function TCefv8ValueRef.RejectPromise(const errorMsg: ustring): boolean; var TempErrorMsg : TCefString; begin TempErrorMsg := CefString(errorMsg); Result := PCefV8Value(FData)^.reject_promise(PCefV8Value(FData), @TempErrorMsg) <> 0; end; function TCefv8ValueRef.GetArrayLength: Integer; begin Result := PCefV8Value(FData)^.get_array_length(PCefV8Value(FData)); end; function TCefv8ValueRef.GetArrayBufferReleaseCallback : ICefv8ArrayBufferReleaseCallback; begin Result := TCefv8ArrayBufferReleaseCallbackRef.UnWrap(PCefV8Value(FData)^.get_array_buffer_release_callback(PCefV8Value(FData))); end; function TCefv8ValueRef.NeuterArrayBuffer : boolean; begin Result := PCefV8Value(FData)^.neuter_array_buffer(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.GetArrayBufferByteLength: NativeUInt; begin Result := PCefV8Value(FData)^.get_array_buffer_byte_length(PCefV8Value(FData)); end; function TCefv8ValueRef.GetArrayBufferData: Pointer; begin Result := PCefV8Value(FData)^.get_array_buffer_data(PCefV8Value(FData)); end; function TCefv8ValueRef.GetBoolValue: Boolean; begin Result := PCefV8Value(FData)^.get_bool_value(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.GetDateValue: TDateTime; begin Result := CefBaseTimeToDateTime(PCefV8Value(FData)^.get_date_value(PCefV8Value(FData))); end; function TCefv8ValueRef.GetDoubleValue: Double; begin Result := PCefV8Value(FData)^.get_double_value(PCefV8Value(FData)); end; function TCefv8ValueRef.GetExternallyAllocatedMemory: Integer; begin Result := PCefV8Value(FData)^.get_externally_allocated_memory(PCefV8Value(FData)); end; function TCefv8ValueRef.GetFunctionHandler: ICefv8Handler; begin Result := TCefv8HandlerRef.UnWrap(PCefV8Value(FData)^.get_function_handler(PCefV8Value(FData))); end; function TCefv8ValueRef.GetFunctionName: ustring; begin Result := CefStringFreeAndGet(PCefV8Value(FData)^.get_function_name(PCefV8Value(FData))) end; function TCefv8ValueRef.GetIntValue: Integer; begin Result := PCefV8Value(FData)^.get_int_value(PCefV8Value(FData)) end; function TCefv8ValueRef.GetUIntValue: Cardinal; begin Result := PCefV8Value(FData)^.get_uint_value(PCefV8Value(FData)) end; function TCefv8ValueRef.GetKeys(const keys: TStrings): Integer; var TempSL : ICefStringList; begin Result := 0; TempSL := TCefStringListOwn.Create; if (PCefV8Value(FData)^.get_keys(PCefV8Value(FData), TempSL.Handle) <> 0) then begin TempSL.CopyToStrings(keys); Result := keys.Count; end; end; function TCefv8ValueRef.SetUserData(const data: ICefv8Value): Boolean; begin Result := PCefV8Value(FData)^.set_user_data(PCefV8Value(FData), CefGetData(data)) <> 0; end; function TCefv8ValueRef.GetStringValue: ustring; begin Result := CefStringFreeAndGet(PCefV8Value(FData)^.get_string_value(PCefV8Value(FData))); end; function TCefv8ValueRef.IsUserCreated: Boolean; begin Result := PCefV8Value(FData)^.is_user_created(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.IsValid: Boolean; begin Result := PCefV8Value(FData)^.is_valid(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.HasException: Boolean; begin Result := PCefV8Value(FData)^.has_exception(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.GetException: ICefV8Exception; begin Result := TCefV8ExceptionRef.UnWrap(PCefV8Value(FData)^.get_exception(PCefV8Value(FData))); end; function TCefv8ValueRef.ClearException: Boolean; begin Result := PCefV8Value(FData)^.clear_exception(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.WillRethrowExceptions: Boolean; begin Result := PCefV8Value(FData)^.will_rethrow_exceptions(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.SetRethrowExceptions(rethrow: Boolean): Boolean; begin Result := PCefV8Value(FData)^.set_rethrow_exceptions(PCefV8Value(FData), Ord(rethrow)) <> 0; end; function TCefv8ValueRef.GetUserData: ICefv8Value; begin Result := TCefv8ValueRef.UnWrap(PCefV8Value(FData)^.get_user_data(PCefV8Value(FData))); end; function TCefv8ValueRef.GetValueByIndex(index: Integer): ICefv8Value; begin Result := TCefv8ValueRef.UnWrap(PCefV8Value(FData)^.get_value_byindex(PCefV8Value(FData), index)); end; function TCefv8ValueRef.GetValueByKey(const key: ustring): ICefv8Value; var TempKey : TCefString; begin TempKey := CefString(key); Result := TCefv8ValueRef.UnWrap(PCefV8Value(FData)^.get_value_bykey(PCefV8Value(FData), @TempKey)); end; function TCefv8ValueRef.HasValueByIndex(index: Integer): Boolean; begin Result := PCefV8Value(FData)^.has_value_byindex(PCefV8Value(FData), index) <> 0; end; function TCefv8ValueRef.HasValueByKey(const key: ustring): Boolean; var TempKey : TCefString; begin TempKey := CefString(key); Result := PCefV8Value(FData)^.has_value_bykey(PCefV8Value(FData), @TempKey) <> 0; end; function TCefv8ValueRef.IsArray: Boolean; begin Result := PCefV8Value(FData)^.is_array(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.IsArrayBuffer: Boolean; begin Result := PCefV8Value(FData)^.is_array_buffer(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.IsBool: Boolean; begin Result := PCefV8Value(FData)^.is_bool(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.IsDate: Boolean; begin Result := PCefV8Value(FData)^.is_date(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.IsDouble: Boolean; begin Result := PCefV8Value(FData)^.is_double(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.IsFunction: Boolean; begin Result := PCefV8Value(FData)^.is_function(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.IsPromise: Boolean; begin Result := PCefV8Value(FData)^.is_promise(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.IsInt: Boolean; begin Result := PCefV8Value(FData)^.is_int(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.IsUInt: Boolean; begin Result := PCefV8Value(FData)^.is_uint(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.IsNull: Boolean; begin Result := PCefV8Value(FData)^.is_null(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.IsObject: Boolean; begin Result := PCefV8Value(FData)^.is_object(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.IsSame(const that: ICefv8Value): Boolean; begin Result := PCefV8Value(FData)^.is_same(PCefV8Value(FData), CefGetData(that)) <> 0; end; function TCefv8ValueRef.IsString: Boolean; begin Result := PCefV8Value(FData)^.is_string(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.IsUndefined: Boolean; begin Result := PCefV8Value(FData)^.is_undefined(PCefV8Value(FData)) <> 0; end; function TCefv8ValueRef.SetValueByAccessor(const key: ustring; settings: TCefV8AccessControls; attribute: TCefV8PropertyAttributes): Boolean; var TempKey : TCefString; begin TempKey := CefString(key); Result := PCefV8Value(FData)^.set_value_byaccessor(PCefV8Value(FData), @TempKey, PByte(@settings)^, PByte(@attribute)^) <> 0; end; function TCefv8ValueRef.SetValueByIndex(index: Integer; const value: ICefv8Value): Boolean; begin Result:= PCefV8Value(FData)^.set_value_byindex(PCefV8Value(FData), index, CefGetData(value)) <> 0; end; function TCefv8ValueRef.SetValueByKey(const key: ustring; const value: ICefv8Value; attribute: TCefV8PropertyAttributes): Boolean; var TempKey : TCefString; begin TempKey := CefString(key); Result := PCefV8Value(FData)^.set_value_bykey(PCefV8Value(FData), @TempKey, CefGetData(value), PByte(@attribute)^) <> 0; end; class function TCefv8ValueRef.UnWrap(data: Pointer): ICefv8Value; begin if (data <> nil) then Result := Create(data) as ICefv8Value else Result := nil; end; end.