{*****************************************************************************} { } { Tnt Delphi Unicode Controls } { http://www.tntware.com/delphicontrols/unicode/ } { Version: 2.3.0 } { } { Copyright (c) 2002-2007, Troy Wolbrink (troy.wolbrink@tntware.com) } { } {*****************************************************************************} unit TntClasses; {$INCLUDE TntCompilers.inc} interface { TODO: Consider: TTntRegIniFile, TTntMemIniFile (consider if UTF8 fits into this solution). } {***********************************************} { WideChar-streaming implemented by Maël Hörz } {***********************************************} uses Classes, SysUtils, Windows, {$IFNDEF COMPILER_10_UP} TntWideStrings, {$ELSE} WideStrings, {$ENDIF} ActiveX, Contnrs; // ......... introduced ......... type TTntStreamCharSet = (csAnsi, csUnicode, csUnicodeSwapped, csUtf8); function AutoDetectCharacterSet(Stream: TStream): TTntStreamCharSet; //--------------------------------------------------------------------------------------------- // Tnt - Classes //--------------------------------------------------------------------------------------------- {TNT-WARN ExtractStrings} {TNT-WARN LineStart} {TNT-WARN TStringStream} // TODO: Implement a TWideStringStream // A potential implementation of TWideStringStream can be found at: // http://kdsxml.cvs.sourceforge.net/kdsxml/Global/KDSClasses.pas?revision=1.10&view=markup procedure TntPersistent_AfterInherited_DefineProperties(Filer: TFiler; Instance: TPersistent); type {TNT-WARN TFileStream} TTntFileStream = class(THandleStream) public constructor Create(const FileName: WideString; Mode: Word); destructor Destroy; override; end; {TNT-WARN TMemoryStream} TTntMemoryStream = class(TMemoryStream{TNT-ALLOW TMemoryStream}) public procedure LoadFromFile(const FileName: WideString); procedure SaveToFile(const FileName: WideString); end; {TNT-WARN TResourceStream} TTntResourceStream = class(TCustomMemoryStream) private HResInfo: HRSRC; HGlobal: THandle; procedure Initialize(Instance: THandle; Name, ResType: PWideChar); public constructor Create(Instance: THandle; const ResName: WideString; ResType: PWideChar); constructor CreateFromID(Instance: THandle; ResID: Word; ResType: PWideChar); destructor Destroy; override; function Write(const Buffer; Count: Longint): Longint; override; procedure SaveToFile(const FileName: WideString); end; TTntStrings = class; {TNT-WARN TAnsiStrings} TAnsiStrings{TNT-ALLOW TAnsiStrings} = class(TStrings{TNT-ALLOW TStrings}) public procedure LoadFromFile(const FileName: WideString); reintroduce; procedure SaveToFile(const FileName: WideString); reintroduce; procedure LoadFromFileEx(const FileName: WideString; CodePage: Cardinal); procedure SaveToFileEx(const FileName: WideString; CodePage: Cardinal); procedure LoadFromStreamEx(Stream: TStream; CodePage: Cardinal); virtual; abstract; procedure SaveToStreamEx(Stream: TStream; CodePage: Cardinal); virtual; abstract; end; TAnsiStringsForWideStringsAdapter = class(TAnsiStrings{TNT-ALLOW TAnsiStrings}) private FWideStrings: TTntStrings; FAdapterCodePage: Cardinal; protected function Get(Index: Integer): AnsiString; override; procedure Put(Index: Integer; const S: AnsiString); override; function GetCount: Integer; override; function GetObject(Index: Integer): TObject; override; procedure PutObject(Index: Integer; AObject: TObject); override; procedure SetUpdateState(Updating: Boolean); override; function AdapterCodePage: Cardinal; dynamic; public constructor Create(AWideStrings: TTntStrings; _AdapterCodePage: Cardinal = 0); procedure Clear; override; procedure Delete(Index: Integer); override; procedure Insert(Index: Integer; const S: AnsiString); override; procedure LoadFromStreamEx(Stream: TStream; CodePage: Cardinal); override; procedure SaveToStreamEx(Stream: TStream; CodePage: Cardinal); override; end; {TNT-WARN TStrings} TTntStrings = class(TWideStrings) private FLastFileCharSet: TTntStreamCharSet; FAnsiStrings: TAnsiStrings{TNT-ALLOW TAnsiStrings}; procedure SetAnsiStrings(const Value: TAnsiStrings{TNT-ALLOW TAnsiStrings}); procedure ReadData(Reader: TReader); procedure ReadDataUTF7(Reader: TReader); procedure ReadDataUTF8(Reader: TReader); procedure WriteDataUTF7(Writer: TWriter); protected procedure DefineProperties(Filer: TFiler); override; public constructor Create; destructor Destroy; override; procedure LoadFromFile(const FileName: WideString); override; procedure LoadFromStream(Stream: TStream); override; procedure LoadFromStream_BOM(Stream: TStream; WithBOM: Boolean); virtual; procedure SaveToFile(const FileName: WideString); override; procedure SaveToStream(Stream: TStream); override; procedure SaveToStream_BOM(Stream: TStream; WithBOM: Boolean); virtual; property LastFileCharSet: TTntStreamCharSet read FLastFileCharSet; published property AnsiStrings: TAnsiStrings{TNT-ALLOW TAnsiStrings} read FAnsiStrings write SetAnsiStrings stored False; end; { TTntStringList class } TTntStringList = class; TWideStringListSortCompare = function(List: TTntStringList; Index1, Index2: Integer): Integer; {TNT-WARN TStringList} TTntStringList = class(TTntStrings) private FUpdating: Boolean; FList: PWideStringItemList; FCount: Integer; FCapacity: Integer; FSorted: Boolean; FDuplicates: TDuplicates; FCaseSensitive: Boolean; FOnChange: TNotifyEvent; FOnChanging: TNotifyEvent; procedure ExchangeItems(Index1, Index2: Integer); procedure Grow; procedure QuickSort(L, R: Integer; SCompare: TWideStringListSortCompare); procedure SetSorted(Value: Boolean); procedure SetCaseSensitive(const Value: Boolean); protected procedure Changed; virtual; procedure Changing; virtual; function Get(Index: Integer): WideString; override; function GetCapacity: Integer; override; function GetCount: Integer; override; function GetObject(Index: Integer): TObject; override; procedure Put(Index: Integer; const S: WideString); override; procedure PutObject(Index: Integer; AObject: TObject); override; procedure SetCapacity(NewCapacity: Integer); override; procedure SetUpdateState(Updating: Boolean); override; function CompareStrings(const S1, S2: WideString): Integer; override; procedure InsertItem(Index: Integer; const S: WideString; AObject: TObject); virtual; public destructor Destroy; override; function Add(const S: WideString): Integer; override; function AddObject(const S: WideString; AObject: TObject): Integer; override; procedure Clear; override; procedure Delete(Index: Integer); override; procedure Exchange(Index1, Index2: Integer); override; function Find(const S: WideString; var Index: Integer): Boolean; virtual; function IndexOf(const S: WideString): Integer; override; function IndexOfName(const Name: WideString): Integer; override; procedure Insert(Index: Integer; const S: WideString); override; procedure InsertObject(Index: Integer; const S: WideString; AObject: TObject); override; procedure Sort; virtual; procedure CustomSort(Compare: TWideStringListSortCompare); virtual; property Duplicates: TDuplicates read FDuplicates write FDuplicates; property Sorted: Boolean read FSorted write SetSorted; property CaseSensitive: Boolean read FCaseSensitive write SetCaseSensitive; property OnChange: TNotifyEvent read FOnChange write FOnChange; property OnChanging: TNotifyEvent read FOnChanging write FOnChanging; end; // ......... introduced ......... type TListTargetCompare = function (Item, Target: Pointer): Integer; function FindSortedListByTarget(List: TList; TargetCompare: TListTargetCompare; Target: Pointer; var Index: Integer): Boolean; function ClassIsRegistered(const clsid: TCLSID): Boolean; var RuntimeUTFStreaming: Boolean; type TBufferedAnsiString = class(TObject) private FStringBuffer: AnsiString; LastWriteIndex: Integer; public procedure Clear; procedure AddChar(const wc: AnsiChar); procedure AddString(const s: AnsiString); procedure AddBuffer(Buff: PAnsiChar; Chars: Integer); function Value: AnsiString; function BuffPtr: PAnsiChar; end; TBufferedWideString = class(TObject) private FStringBuffer: WideString; LastWriteIndex: Integer; public procedure Clear; procedure AddChar(const wc: WideChar); procedure AddString(const s: WideString); procedure AddBuffer(Buff: PWideChar; Chars: Integer); function Value: WideString; function BuffPtr: PWideChar; end; TBufferedStreamReader = class(TStream) private FStream: TStream; FStreamSize: Integer; FBuffer: array of Byte; FBufferSize: Integer; FBufferStartPosition: Integer; FVirtualPosition: Integer; procedure UpdateBufferFromPosition(StartPos: Integer); public constructor Create(Stream: TStream; BufferSize: Integer = 1024); function Read(var Buffer; Count: Longint): Longint; override; function Write(const Buffer; Count: Longint): Longint; override; function Seek(Offset: Longint; Origin: Word): Longint; override; end; // "synced" wide string type TSetAnsiStrEvent = procedure(const Value: AnsiString) of object; function GetSyncedWideString(var WideStr: WideString; const AnsiStr: AnsiString): WideString; procedure SetSyncedWideString(const Value: WideString; var WideStr: WideString; const AnsiStr: AnsiString; SetAnsiStr: TSetAnsiStrEvent); type TWideComponentHelper = class(TComponent) private FComponent: TComponent; protected procedure Notification(AComponent: TComponent; Operation: TOperation); override; public constructor Create(AOwner: TComponent); override; constructor CreateHelper(AOwner: TComponent; ComponentHelperList: TComponentList); end; function FindWideComponentHelper(ComponentHelperList: TComponentList; Component: TComponent): TWideComponentHelper; implementation uses RTLConsts, ComObj, Math, Registry, TypInfo, TntSystem, TntSysUtils; { TntPersistent } //=========================================================================== // The Delphi 5 Classes.pas never supported the streaming of WideStrings. // The Delphi 6 Classes.pas supports WideString streaming. But it's too bad that // the Delphi 6 IDE doesn't use the updated Classes.pas. Switching between Form/Text // mode corrupts extended characters in WideStrings even under Delphi 6. // Delphi 7 seems to finally get right. But let's keep the UTF7 support at design time // to enable sharing source code with previous versions of Delphi. // // The purpose of this solution is to store WideString properties which contain // non-ASCII chars in the form of UTF7 under the old property name + '_UTF7'. // // Special thanks go to Francisco Leong for helping to develop this solution. // { TTntWideStringPropertyFiler } type TTntWideStringPropertyFiler = class private FInstance: TPersistent; FPropInfo: PPropInfo; procedure ReadDataUTF8(Reader: TReader); procedure ReadDataUTF7(Reader: TReader); procedure WriteDataUTF7(Writer: TWriter); public procedure DefineProperties(Filer: TFiler; Instance: TPersistent; PropName: AnsiString); end; function ReaderNeedsUtfHelp(Reader: TReader): Boolean; begin if Reader.Owner = nil then Result := False { designtime - visual form inheritance ancestor } else if csDesigning in Reader.Owner.ComponentState then {$IFDEF COMPILER_7_UP} Result := False { Delphi 7+: designtime - doesn't need UTF help. } {$ELSE} Result := True { Delphi 6: designtime - always needs UTF help. } {$ENDIF} else Result := RuntimeUTFStreaming; { runtime } end; procedure TTntWideStringPropertyFiler.ReadDataUTF8(Reader: TReader); begin if ReaderNeedsUtfHelp(Reader) then SetWideStrProp(FInstance, FPropInfo, UTF8ToWideString(Reader.ReadString)) else Reader.ReadString; { do nothing with Result } end; procedure TTntWideStringPropertyFiler.ReadDataUTF7(Reader: TReader); begin if ReaderNeedsUtfHelp(Reader) then SetWideStrProp(FInstance, FPropInfo, UTF7ToWideString(Reader.ReadString)) else Reader.ReadString; { do nothing with Result } end; procedure TTntWideStringPropertyFiler.WriteDataUTF7(Writer: TWriter); begin Writer.WriteString(WideStringToUTF7(GetWideStrProp(FInstance, FPropInfo))); end; procedure TTntWideStringPropertyFiler.DefineProperties(Filer: TFiler; Instance: TPersistent; PropName: AnsiString); {$IFNDEF COMPILER_7_UP} function HasData: Boolean; var CurrPropValue: WideString; begin // must be stored Result := IsStoredProp(Instance, FPropInfo); if Result and (Filer.Ancestor <> nil) and (GetPropInfo(Filer.Ancestor, PropName, [tkWString]) <> nil) then begin // must be different than ancestor CurrPropValue := GetWideStrProp(Instance, FPropInfo); Result := CurrPropValue <> GetWideStrProp(Filer.Ancestor, GetPropInfo(Filer.Ancestor, PropName)); end; if Result then begin // must be non-blank and different than UTF8 (implies all ASCII <= 127) CurrPropValue := GetWideStrProp(Instance, FPropInfo); Result := (CurrPropValue <> '') and (WideStringToUTF8(CurrPropValue) <> CurrPropValue); end; end; {$ENDIF} begin FInstance := Instance; FPropInfo := GetPropInfo(Instance, PropName, [tkWString]); if FPropInfo <> nil then begin // must be published (and of type WideString) Filer.DefineProperty(PropName + 'W', ReadDataUTF8, nil, False); {$IFDEF COMPILER_7_UP} Filer.DefineProperty(PropName + '_UTF7', ReadDataUTF7, WriteDataUTF7, False); {$ELSE} Filer.DefineProperty(PropName + '_UTF7', ReadDataUTF7, WriteDataUTF7, HasData); {$ENDIF} end; FInstance := nil; FPropInfo := nil; end; { TTntWideCharPropertyFiler } type TTntWideCharPropertyFiler = class private FInstance: TPersistent; FPropInfo: PPropInfo; {$IFNDEF COMPILER_9_UP} FWriter: TWriter; procedure GetLookupInfo(var Ancestor: TPersistent; var Root, LookupRoot, RootAncestor: TComponent); {$ENDIF} procedure ReadData_W(Reader: TReader); procedure ReadDataUTF7(Reader: TReader); procedure WriteData_W(Writer: TWriter); function ReadChar(Reader: TReader): WideChar; public procedure DefineProperties(Filer: TFiler; Instance: TPersistent; PropName: AnsiString); end; {$IFNDEF COMPILER_9_UP} type TGetLookupInfoEvent = procedure(var Ancestor: TPersistent; var Root, LookupRoot, RootAncestor: TComponent) of object; function AncestorIsValid(Ancestor: TPersistent; Root, RootAncestor: TComponent): Boolean; begin Result := (Ancestor <> nil) and (RootAncestor <> nil) and Root.InheritsFrom(RootAncestor.ClassType); end; function IsDefaultOrdPropertyValue(Instance: TObject; PropInfo: PPropInfo; OnGetLookupInfo: TGetLookupInfoEvent): Boolean; var Ancestor: TPersistent; LookupRoot: TComponent; RootAncestor: TComponent; Root: TComponent; AncestorValid: Boolean; Value: Longint; Default: LongInt; begin Ancestor := nil; Root := nil; LookupRoot := nil; RootAncestor := nil; if Assigned(OnGetLookupInfo) then OnGetLookupInfo(Ancestor, Root, LookupRoot, RootAncestor); AncestorValid := AncestorIsValid(Ancestor, Root, RootAncestor); Result := True; if (PropInfo^.GetProc <> nil) and (PropInfo^.SetProc <> nil) then begin Value := GetOrdProp(Instance, PropInfo); if AncestorValid then Result := Value = GetOrdProp(Ancestor, PropInfo) else begin Default := PPropInfo(PropInfo)^.Default; Result := (Default <> LongInt($80000000)) and (Value = Default); end; end; end; procedure TTntWideCharPropertyFiler.GetLookupInfo(var Ancestor: TPersistent; var Root, LookupRoot, RootAncestor: TComponent); begin Ancestor := FWriter.Ancestor; Root := FWriter.Root; LookupRoot := FWriter.LookupRoot; RootAncestor := FWriter.RootAncestor; end; {$ENDIF} function TTntWideCharPropertyFiler.ReadChar(Reader: TReader): WideChar; var Temp: WideString; begin case Reader.NextValue of vaWString: Temp := Reader.ReadWideString; vaString: Temp := Reader.ReadString; else raise EReadError.Create(SInvalidPropertyValue); end; if Length(Temp) > 1 then raise EReadError.Create(SInvalidPropertyValue); Result := Temp[1]; end; procedure TTntWideCharPropertyFiler.ReadData_W(Reader: TReader); begin SetOrdProp(FInstance, FPropInfo, Ord(ReadChar(Reader))); end; procedure TTntWideCharPropertyFiler.ReadDataUTF7(Reader: TReader); var S: WideString; begin S := UTF7ToWideString(Reader.ReadString); if S = '' then SetOrdProp(FInstance, FPropInfo, 0) else SetOrdProp(FInstance, FPropInfo, Ord(S[1])) end; type TAccessWriter = class(TWriter); procedure TTntWideCharPropertyFiler.WriteData_W(Writer: TWriter); var L: Integer; Temp: WideString; begin Temp := WideChar(GetOrdProp(FInstance, FPropInfo)); TAccessWriter(Writer).WriteValue(vaWString); L := Length(Temp); Writer.Write(L, SizeOf(Integer)); Writer.Write(Pointer(@Temp[1])^, L * 2); end; procedure TTntWideCharPropertyFiler.DefineProperties(Filer: TFiler; Instance: TPersistent; PropName: AnsiString); {$IFNDEF COMPILER_9_UP} function HasData: Boolean; var CurrPropValue: Integer; begin // must be stored Result := IsStoredProp(Instance, FPropInfo); if Result and (Filer.Ancestor <> nil) and (GetPropInfo(Filer.Ancestor, PropName, [tkWChar]) <> nil) then begin // must be different than ancestor CurrPropValue := GetOrdProp(Instance, FPropInfo); Result := CurrPropValue <> GetOrdProp(Filer.Ancestor, GetPropInfo(Filer.Ancestor, PropName)); end; if Result and (Filer is TWriter) then begin FWriter := TWriter(Filer); Result := not IsDefaultOrdPropertyValue(Instance, FPropInfo, GetLookupInfo); end; end; {$ENDIF} begin FInstance := Instance; FPropInfo := GetPropInfo(Instance, PropName, [tkWChar]); if FPropInfo <> nil then begin // must be published (and of type WideChar) {$IFDEF COMPILER_9_UP} Filer.DefineProperty(PropName + 'W', ReadData_W, WriteData_W, False); {$ELSE} Filer.DefineProperty(PropName + 'W', ReadData_W, WriteData_W, HasData); {$ENDIF} Filer.DefineProperty(PropName + '_UTF7', ReadDataUTF7, nil, False); end; FInstance := nil; FPropInfo := nil; end; procedure TntPersistent_AfterInherited_DefineProperties(Filer: TFiler; Instance: TPersistent); var I, Count: Integer; PropInfo: PPropInfo; PropList: PPropList; WideStringFiler: TTntWideStringPropertyFiler; WideCharFiler: TTntWideCharPropertyFiler; begin Count := GetTypeData(Instance.ClassInfo)^.PropCount; if Count > 0 then begin WideStringFiler := TTntWideStringPropertyFiler.Create; try WideCharFiler := TTntWideCharPropertyFiler.Create; try GetMem(PropList, Count * SizeOf(Pointer)); try GetPropInfos(Instance.ClassInfo, PropList); for I := 0 to Count - 1 do begin PropInfo := PropList^[I]; if (PropInfo = nil) then break; if (PropInfo.PropType^.Kind = tkWString) then WideStringFiler.DefineProperties(Filer, Instance, PropInfo.Name) else if (PropInfo.PropType^.Kind = tkWChar) then WideCharFiler.DefineProperties(Filer, Instance, PropInfo.Name) end; finally FreeMem(PropList, Count * SizeOf(Pointer)); end; finally WideCharFiler.Free; end; finally WideStringFiler.Free; end; end; end; { TTntFileStream } constructor TTntFileStream.Create(const FileName: WideString; Mode: Word); var CreateHandle: Integer; {$IFDEF DELPHI_7_UP} ErrorMessage: WideString; {$ENDIF} begin if Mode = fmCreate then begin CreateHandle := WideFileCreate(FileName); if CreateHandle < 0 then begin {$IFDEF DELPHI_7_UP} ErrorMessage := WideSysErrorMessage(GetLastError); raise EFCreateError.CreateFmt(SFCreateErrorEx, [WideExpandFileName(FileName), ErrorMessage]); {$ELSE} raise EFCreateError.CreateFmt(SFCreateError, [WideExpandFileName(FileName)]); {$ENDIF} end; end else begin CreateHandle := WideFileOpen(FileName, Mode); if CreateHandle < 0 then begin {$IFDEF DELPHI_7_UP} ErrorMessage := WideSysErrorMessage(GetLastError); raise EFOpenError.CreateFmt(SFOpenErrorEx, [WideExpandFileName(FileName), ErrorMessage]); {$ELSE} raise EFOpenError.CreateFmt(SFOpenError, [WideExpandFileName(FileName)]); {$ENDIF} end; end; inherited Create(CreateHandle); end; destructor TTntFileStream.Destroy; begin if Handle >= 0 then FileClose(Handle); end; { TTntMemoryStream } procedure TTntMemoryStream.LoadFromFile(const FileName: WideString); var Stream: TStream; begin Stream := TTntFileStream.Create(FileName, fmOpenRead or fmShareDenyWrite); try LoadFromStream(Stream); finally Stream.Free; end; end; procedure TTntMemoryStream.SaveToFile(const FileName: WideString); var Stream: TStream; begin Stream := TTntFileStream.Create(FileName, fmCreate); try SaveToStream(Stream); finally Stream.Free; end; end; { TTntResourceStream } constructor TTntResourceStream.Create(Instance: THandle; const ResName: WideString; ResType: PWideChar); begin inherited Create; Initialize(Instance, PWideChar(ResName), ResType); end; constructor TTntResourceStream.CreateFromID(Instance: THandle; ResID: Word; ResType: PWideChar); begin inherited Create; Initialize(Instance, PWideChar(ResID), ResType); end; procedure TTntResourceStream.Initialize(Instance: THandle; Name, ResType: PWideChar); procedure Error; begin raise EResNotFound.CreateFmt(SResNotFound, [Name]); end; begin HResInfo := FindResourceW(Instance, Name, ResType); if HResInfo = 0 then Error; HGlobal := LoadResource(Instance, HResInfo); if HGlobal = 0 then Error; SetPointer(LockResource(HGlobal), SizeOfResource(Instance, HResInfo)); end; destructor TTntResourceStream.Destroy; begin UnlockResource(HGlobal); FreeResource(HGlobal); { Technically this is not necessary (MS KB #193678) } inherited Destroy; end; function TTntResourceStream.Write(const Buffer; Count: Longint): Longint; begin raise EStreamError.CreateRes(PResStringRec(@SCantWriteResourceStreamError)); end; procedure TTntResourceStream.SaveToFile(const FileName: WideString); var Stream: TStream; begin Stream := TTntFileStream.Create(FileName, fmCreate); try SaveToStream(Stream); finally Stream.Free; end; end; { TAnsiStrings } procedure TAnsiStrings{TNT-ALLOW TAnsiStrings}.LoadFromFile(const FileName: WideString); var Stream: TStream; begin Stream := TTntFileStream.Create(FileName, fmOpenRead or fmShareDenyWrite); try LoadFromStream(Stream); finally Stream.Free; end; end; procedure TAnsiStrings{TNT-ALLOW TAnsiStrings}.SaveToFile(const FileName: WideString); var Stream: TStream; begin Stream := TTntFileStream.Create(FileName, fmCreate); try SaveToStream(Stream); finally Stream.Free; end; end; procedure TAnsiStrings{TNT-ALLOW TAnsiStrings}.LoadFromFileEx(const FileName: WideString; CodePage: Cardinal); var Stream: TStream; begin Stream := TTntFileStream.Create(FileName, fmOpenRead or fmShareDenyWrite); try LoadFromStreamEx(Stream, CodePage); finally Stream.Free; end; end; procedure TAnsiStrings{TNT-ALLOW TAnsiStrings}.SaveToFileEx(const FileName: WideString; CodePage: Cardinal); var Stream: TStream; begin Stream := TTntFileStream.Create(FileName, fmCreate); try if (CodePage = CP_UTF8) then Stream.WriteBuffer(PAnsiChar(UTF8_BOM)^, Length(UTF8_BOM)); SaveToStreamEx(Stream, CodePage); finally Stream.Free; end; end; { TAnsiStringsForWideStringsAdapter } constructor TAnsiStringsForWideStringsAdapter.Create(AWideStrings: TTntStrings; _AdapterCodePage: Cardinal); begin inherited Create; FWideStrings := AWideStrings; FAdapterCodePage := _AdapterCodePage; end; function TAnsiStringsForWideStringsAdapter.AdapterCodePage: Cardinal; begin if FAdapterCodePage = 0 then Result := TntSystem.DefaultSystemCodePage else Result := FAdapterCodePage; end; procedure TAnsiStringsForWideStringsAdapter.Clear; begin FWideStrings.Clear; end; procedure TAnsiStringsForWideStringsAdapter.Delete(Index: Integer); begin FWideStrings.Delete(Index); end; function TAnsiStringsForWideStringsAdapter.Get(Index: Integer): AnsiString; begin Result := WideStringToStringEx(FWideStrings.Get(Index), AdapterCodePage); end; procedure TAnsiStringsForWideStringsAdapter.Put(Index: Integer; const S: AnsiString); begin FWideStrings.Put(Index, StringToWideStringEx(S, AdapterCodePage)); end; function TAnsiStringsForWideStringsAdapter.GetCount: Integer; begin Result := FWideStrings.GetCount; end; procedure TAnsiStringsForWideStringsAdapter.Insert(Index: Integer; const S: AnsiString); begin FWideStrings.Insert(Index, StringToWideStringEx(S, AdapterCodePage)); end; function TAnsiStringsForWideStringsAdapter.GetObject(Index: Integer): TObject; begin Result := FWideStrings.GetObject(Index); end; procedure TAnsiStringsForWideStringsAdapter.PutObject(Index: Integer; AObject: TObject); begin FWideStrings.PutObject(Index, AObject); end; procedure TAnsiStringsForWideStringsAdapter.SetUpdateState(Updating: Boolean); begin FWideStrings.SetUpdateState(Updating); end; procedure TAnsiStringsForWideStringsAdapter.LoadFromStreamEx(Stream: TStream; CodePage: Cardinal); var Size: Integer; S: AnsiString; begin BeginUpdate; try Size := Stream.Size - Stream.Position; SetString(S, nil, Size); Stream.Read(Pointer(S)^, Size); FWideStrings.SetTextStr(StringToWideStringEx(S, CodePage)); finally EndUpdate; end; end; procedure TAnsiStringsForWideStringsAdapter.SaveToStreamEx(Stream: TStream; CodePage: Cardinal); var S: AnsiString; begin S := WideStringToStringEx(FWideStrings.GetTextStr, CodePage); Stream.WriteBuffer(Pointer(S)^, Length(S)); end; { TTntStrings } constructor TTntStrings.Create; begin inherited; FAnsiStrings := TAnsiStringsForWideStringsAdapter.Create(Self); FLastFileCharSet := csUnicode; end; destructor TTntStrings.Destroy; begin FreeAndNil(FAnsiStrings); inherited; end; procedure TTntStrings.SetAnsiStrings(const Value: TAnsiStrings{TNT-ALLOW TAnsiStrings}); begin FAnsiStrings.Assign(Value); end; procedure TTntStrings.DefineProperties(Filer: TFiler); {$IFNDEF COMPILER_7_UP} function DoWrite: Boolean; begin if Filer.Ancestor <> nil then begin Result := True; if Filer.Ancestor is TWideStrings then Result := not Equals(TWideStrings(Filer.Ancestor)) end else Result := Count > 0; end; function DoWriteAsUTF7: Boolean; var i: integer; begin Result := False; for i := 0 to Count - 1 do begin if (Strings[i] <> '') and (WideStringToUTF8(Strings[i]) <> Strings[i]) then begin Result := True; break; { found a string with non-ASCII chars (> 127) } end; end; end; {$ENDIF} begin inherited DefineProperties(Filer); { Handles main 'Strings' property.' } Filer.DefineProperty('WideStrings', ReadData, nil, False); Filer.DefineProperty('WideStringsW', ReadDataUTF8, nil, False); {$IFDEF COMPILER_7_UP} Filer.DefineProperty('WideStrings_UTF7', ReadDataUTF7, WriteDataUTF7, False); {$ELSE} Filer.DefineProperty('WideStrings_UTF7', ReadDataUTF7, WriteDataUTF7, DoWrite and DoWriteAsUTF7); {$ENDIF} end; procedure TTntStrings.LoadFromFile(const FileName: WideString); var Stream: TStream; begin Stream := TTntFileStream.Create(FileName, fmOpenRead or fmShareDenyWrite); try FLastFileCharSet := AutoDetectCharacterSet(Stream); Stream.Position := 0; LoadFromStream(Stream); finally Stream.Free; end; end; procedure TTntStrings.LoadFromStream(Stream: TStream); begin LoadFromStream_BOM(Stream, True); end; procedure TTntStrings.LoadFromStream_BOM(Stream: TStream; WithBOM: Boolean); var DataLeft: Integer; StreamCharSet: TTntStreamCharSet; SW: WideString; SA: AnsiString; begin BeginUpdate; try if WithBOM then StreamCharSet := AutoDetectCharacterSet(Stream) else StreamCharSet := csUnicode; DataLeft := Stream.Size - Stream.Position; if (StreamCharSet in [csUnicode, csUnicodeSwapped]) then begin // BOM indicates Unicode text stream if DataLeft < SizeOf(WideChar) then SW := '' else begin SetLength(SW, DataLeft div SizeOf(WideChar)); Stream.Read(PWideChar(SW)^, DataLeft); if StreamCharSet = csUnicodeSwapped then StrSwapByteOrder(PWideChar(SW)); end; SetTextStr(SW); end else if StreamCharSet = csUtf8 then begin // BOM indicates UTF-8 text stream SetLength(SA, DataLeft div SizeOf(AnsiChar)); Stream.Read(PAnsiChar(SA)^, DataLeft); SetTextStr(UTF8ToWideString(SA)); end else begin // without byte order mark it is assumed that we are loading ANSI text SetLength(SA, DataLeft div SizeOf(AnsiChar)); Stream.Read(PAnsiChar(SA)^, DataLeft); SetTextStr(SA); end; finally EndUpdate; end; end; procedure TTntStrings.ReadData(Reader: TReader); begin if Reader.NextValue in [vaString, vaLString] then SetTextStr(Reader.ReadString) {JCL compatiblity} else if Reader.NextValue = vaWString then SetTextStr(Reader.ReadWideString) {JCL compatiblity} else begin BeginUpdate; try Clear; Reader.ReadListBegin; while not Reader.EndOfList do if Reader.NextValue in [vaString, vaLString] then Add(Reader.ReadString) {TStrings compatiblity} else Add(Reader.ReadWideString); Reader.ReadListEnd; finally EndUpdate; end; end; end; procedure TTntStrings.ReadDataUTF7(Reader: TReader); begin Reader.ReadListBegin; if ReaderNeedsUtfHelp(Reader) then begin BeginUpdate; try Clear; while not Reader.EndOfList do Add(UTF7ToWideString(Reader.ReadString)) finally EndUpdate; end; end else begin while not Reader.EndOfList do Reader.ReadString; { do nothing with Result } end; Reader.ReadListEnd; end; procedure TTntStrings.ReadDataUTF8(Reader: TReader); begin Reader.ReadListBegin; if ReaderNeedsUtfHelp(Reader) or (Count = 0){ Legacy support where 'WideStrings' was never written in lieu of WideStringsW } then begin BeginUpdate; try Clear; while not Reader.EndOfList do Add(UTF8ToWideString(Reader.ReadString)) finally EndUpdate; end; end else begin while not Reader.EndOfList do Reader.ReadString; { do nothing with Result } end; Reader.ReadListEnd; end; procedure TTntStrings.SaveToFile(const FileName: WideString); var Stream: TStream; begin Stream := TTntFileStream.Create(FileName, fmCreate); try SaveToStream(Stream); finally Stream.Free; end; end; procedure TTntStrings.SaveToStream(Stream: TStream); begin SaveToStream_BOM(Stream, True); end; procedure TTntStrings.SaveToStream_BOM(Stream: TStream; WithBOM: Boolean); // Saves the currently loaded text into the given stream. // WithBOM determines whether to write a byte order mark or not. var SW: WideString; BOM: WideChar; begin if WithBOM then begin BOM := UNICODE_BOM; Stream.WriteBuffer(BOM, SizeOf(WideChar)); end; SW := GetTextStr; Stream.WriteBuffer(PWideChar(SW)^, Length(SW) * SizeOf(WideChar)); end; procedure TTntStrings.WriteDataUTF7(Writer: TWriter); var I: Integer; begin Writer.WriteListBegin; for I := 0 to Count-1 do Writer.WriteString(WideStringToUTF7(Get(I))); Writer.WriteListEnd; end; { TTntStringList } destructor TTntStringList.Destroy; begin FOnChange := nil; FOnChanging := nil; inherited Destroy; if FCount <> 0 then Finalize(FList^[0], FCount); FCount := 0; SetCapacity(0); end; function TTntStringList.Add(const S: WideString): Integer; begin Result := AddObject(S, nil); end; function TTntStringList.AddObject(const S: WideString; AObject: TObject): Integer; begin if not Sorted then Result := FCount else if Find(S, Result) then case Duplicates of dupIgnore: Exit; dupError: Error(PResStringRec(@SDuplicateString), 0); end; InsertItem(Result, S, AObject); end; procedure TTntStringList.Changed; begin if (not FUpdating) and Assigned(FOnChange) then FOnChange(Self); end; procedure TTntStringList.Changing; begin if (not FUpdating) and Assigned(FOnChanging) then FOnChanging(Self); end; procedure TTntStringList.Clear; begin if FCount <> 0 then begin Changing; Finalize(FList^[0], FCount); FCount := 0; SetCapacity(0); Changed; end; end; procedure TTntStringList.Delete(Index: Integer); begin if (Index < 0) or (Index >= FCount) then Error(PResStringRec(@SListIndexError), Index); Changing; Finalize(FList^[Index]); Dec(FCount); if Index < FCount then System.Move(FList^[Index + 1], FList^[Index], (FCount - Index) * SizeOf(TWideStringItem)); Changed; end; procedure TTntStringList.Exchange(Index1, Index2: Integer); begin if (Index1 < 0) or (Index1 >= FCount) then Error(PResStringRec(@SListIndexError), Index1); if (Index2 < 0) or (Index2 >= FCount) then Error(PResStringRec(@SListIndexError), Index2); Changing; ExchangeItems(Index1, Index2); Changed; end; procedure TTntStringList.ExchangeItems(Index1, Index2: Integer); var Temp: Integer; Item1, Item2: PWideStringItem; begin Item1 := @FList^[Index1]; Item2 := @FList^[Index2]; Temp := Integer(Item1^.FString); Integer(Item1^.FString) := Integer(Item2^.FString); Integer(Item2^.FString) := Temp; Temp := Integer(Item1^.FObject); Integer(Item1^.FObject) := Integer(Item2^.FObject); Integer(Item2^.FObject) := Temp; end; function TTntStringList.Find(const S: WideString; var Index: Integer): Boolean; var L, H, I, C: Integer; begin Result := False; L := 0; H := FCount - 1; while L <= H do begin I := (L + H) shr 1; C := CompareStrings(FList^[I].FString, S); if C < 0 then L := I + 1 else begin H := I - 1; if C = 0 then begin Result := True; if Duplicates <> dupAccept then L := I; end; end; end; Index := L; end; function TTntStringList.Get(Index: Integer): WideString; begin if (Index < 0) or (Index >= FCount) then Error(PResStringRec(@SListIndexError), Index); Result := FList^[Index].FString; end; function TTntStringList.GetCapacity: Integer; begin Result := FCapacity; end; function TTntStringList.GetCount: Integer; begin Result := FCount; end; function TTntStringList.GetObject(Index: Integer): TObject; begin if (Index < 0) or (Index >= FCount) then Error(PResStringRec(@SListIndexError), Index); Result := FList^[Index].FObject; end; procedure TTntStringList.Grow; var Delta: Integer; begin if FCapacity > 64 then Delta := FCapacity div 4 else if FCapacity > 8 then Delta := 16 else Delta := 4; SetCapacity(FCapacity + Delta); end; function TTntStringList.IndexOf(const S: WideString): Integer; begin if not Sorted then Result := inherited IndexOf(S) else if not Find(S, Result) then Result := -1; end; function TTntStringList.IndexOfName(const Name: WideString): Integer; var NameKey: WideString; begin if not Sorted then Result := inherited IndexOfName(Name) else begin // use sort to find index more quickly NameKey := Name + NameValueSeparator; Find(NameKey, Result); if (Result < 0) or (Result > Count - 1) then Result := -1 else if CompareStrings(NameKey, Copy(Strings[Result], 1, Length(NameKey))) <> 0 then Result := -1 end; end; procedure TTntStringList.Insert(Index: Integer; const S: WideString); begin InsertObject(Index, S, nil); end; procedure TTntStringList.InsertObject(Index: Integer; const S: WideString; AObject: TObject); begin if Sorted then Error(PResStringRec(@SSortedListError), 0); if (Index < 0) or (Index > FCount) then Error(PResStringRec(@SListIndexError), Index); InsertItem(Index, S, AObject); end; procedure TTntStringList.InsertItem(Index: Integer; const S: WideString; AObject: TObject); begin Changing; if FCount = FCapacity then Grow; if Index < FCount then System.Move(FList^[Index], FList^[Index + 1], (FCount - Index) * SizeOf(TWideStringItem)); with FList^[Index] do begin Pointer(FString) := nil; FObject := AObject; FString := S; end; Inc(FCount); Changed; end; procedure TTntStringList.Put(Index: Integer; const S: WideString); begin if Sorted then Error(PResStringRec(@SSortedListError), 0); if (Index < 0) or (Index >= FCount) then Error(PResStringRec(@SListIndexError), Index); Changing; FList^[Index].FString := S; Changed; end; procedure TTntStringList.PutObject(Index: Integer; AObject: TObject); begin if (Index < 0) or (Index >= FCount) then Error(PResStringRec(@SListIndexError), Index); Changing; FList^[Index].FObject := AObject; Changed; end; procedure TTntStringList.QuickSort(L, R: Integer; SCompare: TWideStringListSortCompare); var I, J, P: Integer; begin repeat I := L; J := R; P := (L + R) shr 1; repeat while SCompare(Self, I, P) < 0 do Inc(I); while SCompare(Self, J, P) > 0 do Dec(J); if I <= J then begin ExchangeItems(I, J); if P = I then P := J else if P = J then P := I; Inc(I); Dec(J); end; until I > J; if L < J then QuickSort(L, J, SCompare); L := I; until I >= R; end; procedure TTntStringList.SetCapacity(NewCapacity: Integer); begin ReallocMem(FList, NewCapacity * SizeOf(TWideStringItem)); FCapacity := NewCapacity; end; procedure TTntStringList.SetSorted(Value: Boolean); begin if FSorted <> Value then begin if Value then Sort; FSorted := Value; end; end; procedure TTntStringList.SetUpdateState(Updating: Boolean); begin FUpdating := Updating; if Updating then Changing else Changed; end; function WideStringListCompareStrings(List: TTntStringList; Index1, Index2: Integer): Integer; begin Result := List.CompareStrings(List.FList^[Index1].FString, List.FList^[Index2].FString); end; procedure TTntStringList.Sort; begin CustomSort(WideStringListCompareStrings); end; procedure TTntStringList.CustomSort(Compare: TWideStringListSortCompare); begin if not Sorted and (FCount > 1) then begin Changing; QuickSort(0, FCount - 1, Compare); Changed; end; end; function TTntStringList.CompareStrings(const S1, S2: WideString): Integer; begin if CaseSensitive then Result := WideCompareStr(S1, S2) else Result := WideCompareText(S1, S2); end; procedure TTntStringList.SetCaseSensitive(const Value: Boolean); begin if Value <> FCaseSensitive then begin FCaseSensitive := Value; if Sorted then Sort; end; end; //------------------------- TntClasses introduced procs ---------------------------------- function AutoDetectCharacterSet(Stream: TStream): TTntStreamCharSet; var ByteOrderMark: WideChar; BytesRead: Integer; Utf8Test: array[0..2] of AnsiChar; begin // Byte Order Mark ByteOrderMark := #0; if (Stream.Size - Stream.Position) >= SizeOf(ByteOrderMark) then begin BytesRead := Stream.Read(ByteOrderMark, SizeOf(ByteOrderMark)); if (ByteOrderMark <> UNICODE_BOM) and (ByteOrderMark <> UNICODE_BOM_SWAPPED) then begin ByteOrderMark := #0; Stream.Seek(-BytesRead, soFromCurrent); if (Stream.Size - Stream.Position) >= Length(Utf8Test) * SizeOf(AnsiChar) then begin BytesRead := Stream.Read(Utf8Test[0], Length(Utf8Test) * SizeOf(AnsiChar)); if Utf8Test <> UTF8_BOM then Stream.Seek(-BytesRead, soFromCurrent); end; end; end; // Test Byte Order Mark if ByteOrderMark = UNICODE_BOM then Result := csUnicode else if ByteOrderMark = UNICODE_BOM_SWAPPED then Result := csUnicodeSwapped else if Utf8Test = UTF8_BOM then Result := csUtf8 else Result := csAnsi; end; function FindSortedListByTarget(List: TList; TargetCompare: TListTargetCompare; Target: Pointer; var Index: Integer): Boolean; var L, H, I, C: Integer; begin Result := False; L := 0; H := List.Count - 1; while L <= H do begin I := (L + H) shr 1; C := TargetCompare(List[i], Target); if C < 0 then L := I + 1 else begin H := I - 1; if C = 0 then begin Result := True; L := I; end; end; end; Index := L; end; function ClassIsRegistered(const clsid: TCLSID): Boolean; var OleStr: POleStr; Reg: TRegIniFile; Key, Filename: WideString; begin // First, check to see if there is a ProgID. This will tell if the // control is registered on the machine. No ProgID, control won't run Result := ProgIDFromCLSID(clsid, OleStr) = S_OK; if not Result then Exit; //Bail as soon as anything goes wrong. // Next, make sure that the file is actually there by rooting it out // of the registry Key := WideFormat('\SOFTWARE\Classes\CLSID\%s', [GUIDToString(clsid)]); Reg := TRegIniFile.Create; try Reg.RootKey := HKEY_LOCAL_MACHINE; Result := Reg.OpenKeyReadOnly(Key); if not Result then Exit; // Bail as soon as anything goes wrong. FileName := Reg.ReadString('InProcServer32', '', EmptyStr); if (Filename = EmptyStr) then // try another key for the file name begin FileName := Reg.ReadString('InProcServer', '', EmptyStr); end; Result := Filename <> EmptyStr; if not Result then Exit; Result := WideFileExists(Filename); finally Reg.Free; end; end; { TBufferedAnsiString } procedure TBufferedAnsiString.Clear; begin LastWriteIndex := 0; if Length(FStringBuffer) > 0 then FillChar(FStringBuffer[1], Length(FStringBuffer) * SizeOf(AnsiChar), 0); end; procedure TBufferedAnsiString.AddChar(const wc: AnsiChar); const MIN_GROW_SIZE = 32; MAX_GROW_SIZE = 256; var GrowSize: Integer; begin Inc(LastWriteIndex); if LastWriteIndex > Length(FStringBuffer) then begin GrowSize := Max(MIN_GROW_SIZE, Length(FStringBuffer)); GrowSize := Min(GrowSize, MAX_GROW_SIZE); SetLength(FStringBuffer, Length(FStringBuffer) + GrowSize); FillChar(FStringBuffer[LastWriteIndex], GrowSize * SizeOf(AnsiChar), 0); end; FStringBuffer[LastWriteIndex] := wc; end; procedure TBufferedAnsiString.AddString(const s: AnsiString); var LenS: Integer; BlockSize: Integer; AllocSize: Integer; begin LenS := Length(s); if LenS > 0 then begin Inc(LastWriteIndex); if LastWriteIndex + LenS - 1 > Length(FStringBuffer) then begin // determine optimum new allocation size BlockSize := Length(FStringBuffer) div 2; if BlockSize < 8 then BlockSize := 8; AllocSize := ((LenS div BlockSize) + 1) * BlockSize; // realloc buffer SetLength(FStringBuffer, Length(FStringBuffer) + AllocSize); FillChar(FStringBuffer[Length(FStringBuffer) - AllocSize + 1], AllocSize * SizeOf(AnsiChar), 0); end; CopyMemory(@FStringBuffer[LastWriteIndex], @s[1], LenS * SizeOf(AnsiChar)); Inc(LastWriteIndex, LenS - 1); end; end; procedure TBufferedAnsiString.AddBuffer(Buff: PAnsiChar; Chars: Integer); var i: integer; begin for i := 1 to Chars do begin if Buff^ = #0 then break; AddChar(Buff^); Inc(Buff); end; end; function TBufferedAnsiString.Value: AnsiString; begin Result := PAnsiChar(FStringBuffer); end; function TBufferedAnsiString.BuffPtr: PAnsiChar; begin Result := PAnsiChar(FStringBuffer); end; { TBufferedWideString } procedure TBufferedWideString.Clear; begin LastWriteIndex := 0; if Length(FStringBuffer) > 0 then FillChar(FStringBuffer[1], Length(FStringBuffer) * SizeOf(WideChar), 0); end; procedure TBufferedWideString.AddChar(const wc: WideChar); const MIN_GROW_SIZE = 32; MAX_GROW_SIZE = 256; var GrowSize: Integer; begin Inc(LastWriteIndex); if LastWriteIndex > Length(FStringBuffer) then begin GrowSize := Max(MIN_GROW_SIZE, Length(FStringBuffer)); GrowSize := Min(GrowSize, MAX_GROW_SIZE); SetLength(FStringBuffer, Length(FStringBuffer) + GrowSize); FillChar(FStringBuffer[LastWriteIndex], GrowSize * SizeOf(WideChar), 0); end; FStringBuffer[LastWriteIndex] := wc; end; procedure TBufferedWideString.AddString(const s: WideString); var i: integer; begin for i := 1 to Length(s) do AddChar(s[i]); end; procedure TBufferedWideString.AddBuffer(Buff: PWideChar; Chars: Integer); var i: integer; begin for i := 1 to Chars do begin if Buff^ = #0 then break; AddChar(Buff^); Inc(Buff); end; end; function TBufferedWideString.Value: WideString; begin Result := PWideChar(FStringBuffer); end; function TBufferedWideString.BuffPtr: PWideChar; begin Result := PWideChar(FStringBuffer); end; { TBufferedStreamReader } constructor TBufferedStreamReader.Create(Stream: TStream; BufferSize: Integer = 1024); begin // init stream FStream := Stream; FStreamSize := Stream.Size; // init buffer FBufferSize := BufferSize; SetLength(FBuffer, BufferSize); FBufferStartPosition := -FBufferSize; { out of any useful range } // init virtual position FVirtualPosition := 0; end; function TBufferedStreamReader.Seek(Offset: Integer; Origin: Word): Longint; begin case Origin of soFromBeginning: FVirtualPosition := Offset; soFromCurrent: Inc(FVirtualPosition, Offset); soFromEnd: FVirtualPosition := FStreamSize + Offset; end; Result := FVirtualPosition; end; procedure TBufferedStreamReader.UpdateBufferFromPosition(StartPos: Integer); begin try FStream.Position := StartPos; FStream.Read(FBuffer[0], FBufferSize); FBufferStartPosition := StartPos; except FBufferStartPosition := -FBufferSize; { out of any useful range } raise; end; end; function TBufferedStreamReader.Read(var Buffer; Count: Integer): Longint; var BytesLeft: Integer; FirstBufferRead: Integer; StreamDirectRead: Integer; Buf: PAnsiChar; begin if (FVirtualPosition >= 0) and (Count >= 0) then begin Result := FStreamSize - FVirtualPosition; if Result > 0 then begin if Result > Count then Result := Count; Buf := @Buffer; BytesLeft := Result; // try to read what is left in buffer FirstBufferRead := FBufferStartPosition + FBufferSize - FVirtualPosition; if (FirstBufferRead < 0) or (FirstBufferRead > FBufferSize) then FirstBufferRead := 0; FirstBufferRead := Min(FirstBufferRead, Result); if FirstBufferRead > 0 then begin Move(FBuffer[FVirtualPosition - FBufferStartPosition], Buf[0], FirstBufferRead); Dec(BytesLeft, FirstBufferRead); end; if BytesLeft > 0 then begin // The first read in buffer was not enough StreamDirectRead := (BytesLeft div FBufferSize) * FBufferSize; FStream.Position := FVirtualPosition + FirstBufferRead; FStream.Read(Buf[FirstBufferRead], StreamDirectRead); Dec(BytesLeft, StreamDirectRead); if BytesLeft > 0 then begin // update buffer, and read what is left UpdateBufferFromPosition(FStream.Position); Move(FBuffer[0], Buf[FirstBufferRead + StreamDirectRead], BytesLeft); end; end; Inc(FVirtualPosition, Result); Exit; end; end; Result := 0; end; function TBufferedStreamReader.Write(const Buffer; Count: Integer): Longint; begin raise ETntInternalError.Create('Internal Error: class can not write.'); Result := 0; end; //-------- synced wide string ----------------- function GetSyncedWideString(var WideStr: WideString; const AnsiStr: AnsiString): WideString; begin if AnsiString(WideStr) <> (AnsiStr) then begin WideStr := AnsiStr; {AnsiStr changed. Keep WideStr in sync.} end; Result := WideStr; end; procedure SetSyncedWideString(const Value: WideString; var WideStr: WideString; const AnsiStr: AnsiString; SetAnsiStr: TSetAnsiStrEvent); begin if Value <> GetSyncedWideString(WideStr, AnsiStr) then begin if (not WideSameStr(Value, AnsiString(Value))) {unicode chars lost in conversion} and (AnsiStr = AnsiString(Value)) {AnsiStr is not going to change} then begin SetAnsiStr(''); {force the change} end; WideStr := Value; SetAnsiStr(Value); end; end; { TWideComponentHelper } function CompareComponentHelperToTarget(Item, Target: Pointer): Integer; begin if Integer(TWideComponentHelper(Item).FComponent) < Integer(Target) then Result := -1 else if Integer(TWideComponentHelper(Item).FComponent) > Integer(Target) then Result := 1 else Result := 0; end; function FindWideComponentHelperIndex(ComponentHelperList: TComponentList; Component: TComponent; var Index: Integer): Boolean; begin // find Component in sorted wide caption list (list is sorted by TWideComponentHelper.FComponent) Result := FindSortedListByTarget(ComponentHelperList, CompareComponentHelperToTarget, Component, Index); end; constructor TWideComponentHelper.Create(AOwner: TComponent); begin raise ETntInternalError.Create('TNT Internal Error: TWideComponentHelper.Create should never be encountered.'); end; constructor TWideComponentHelper.CreateHelper(AOwner: TComponent; ComponentHelperList: TComponentList); var Index: Integer; begin // don't use direct ownership for memory management inherited Create(nil); FComponent := AOwner; FComponent.FreeNotification(Self); // insert into list according to sort FindWideComponentHelperIndex(ComponentHelperList, FComponent, Index); ComponentHelperList.Insert(Index, Self); end; procedure TWideComponentHelper.Notification(AComponent: TComponent; Operation: TOperation); begin inherited; if (AComponent = FComponent) and (Operation = opRemove) then begin FComponent := nil; Free; end; end; function FindWideComponentHelper(ComponentHelperList: TComponentList; Component: TComponent): TWideComponentHelper; var Index: integer; begin if FindWideComponentHelperIndex(ComponentHelperList, Component, Index) then begin Result := TWideComponentHelper(ComponentHelperList[Index]); Assert(Result.FComponent = Component, 'TNT Internal Error: FindWideComponentHelperIndex failed.'); end else Result := nil; end; initialization RuntimeUTFStreaming := False; { Delphi 6 and higher don't need UTF help at runtime. } end.