{%MainUnit qtint.pp} { $Id$ } {****************************************************************************** All QT Winapi implementations. This are the implementations of the overrides of the QT Interface for the methods defined in the lcl/include/winapi.inc !! Keep alphabetical !! ****************************************************************************** Implementation ****************************************************************************** ***************************************************************************** * * * This file is part of the Lazarus Component Library (LCL) * * * * See the file COPYING.modifiedLGPL.txt, included in this distribution, * * for details about the copyright. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * * * ***************************************************************************** } //##apiwiz##sps## // Do not remove, no wizard declaration before this line {------------------------------------------------------------------------------ Function: Arc Params: DC: HDC; Left,Top,Right,Bottom,angle1,angle2 : Integer Returns: Boolean ------------------------------------------------------------------------------} function TQtWidgetSet.Arc(DC: HDC; Left,Top,Right,Bottom,angle1,angle2 : Integer): Boolean; var R: TRect; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI Arc] DC: ', dbghex(DC)); {$endif} Result := IsValidDC(DC); if Result then begin R := Rect(Left, Top, Right, Bottom); QPainter_drawArc(TQtDeviceContext(DC).Widget, @R, Angle1, Angle2); end; end; {------------------------------------------------------------------------------ Function: AngleChord Params: DC: HDC; x1, y1, x2, y2, angle1, angle2: Integer Returns: Boolean ------------------------------------------------------------------------------} function TQtWidgetSet.AngleChord(DC: HDC; x1, y1, x2, y2, angle1, angle2: Integer): Boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI AngleChord] DC: ', dbghex(DC)); {$endif} Result := IsValidDC(DC); if Result then QPainter_drawChord(TQtDeviceContext(DC).Widget, x1, y1, x2, y2, Angle1, Angle2); end; {------------------------------------------------------------------------------ Function: BeginPaint Params: Returns: This function is Called: - Once on every OnPaint event ------------------------------------------------------------------------------} function TQtWidgetSet.BeginPaint(Handle: hWnd; Var PS : TPaintStruct): hdc; var Widget: TQtWidget; DC: TQtDeviceContext; begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:> [WinAPI BeginPaint] Handle=', dbghex(Handle)); {$endif} Widget := TQtWidget(Handle); if Widget <> nil then DC := TQtDeviceContext.Create(Widget.PaintData.PaintWidget, True) else DC := TQtDeviceContext.Create(nil, True); PS.hdc := HDC(DC); if Handle<>0 then begin // if current handle has paintdata information, // setup hdc with it //DC.DebugClipRect('BeginPaint: Before'); if Widget.PaintData.ClipRegion <> nil then begin //Write('>>> Setting Paint ClipRegion: '); //DebugRegion('PaintData.ClipRegion: ', Widget.PaintData.ClipRegion); DC.setClipRegion(Widget.PaintData.ClipRegion); DC.setClipping(True); end; if Widget.PaintData.ClipRect <> nil then begin New(DC.vClipRect); DC.vClipRect^ := Widget.PaintData.ClipRect^; end; end; Result := PS.hdc; {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI BeginPaint] Result=', dbghex(Result)); {$endif} end; function TQtWidgetSet.BitBlt(DestDC: HDC; X, Y, Width, Height: Integer; SrcDC: HDC; XSrc, YSrc: Integer; Rop: DWORD): Boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:> [TQtWidgetSet.BitBlt]'); {$endif} Result := StretchBlt(DestDC, X, Y, Width, Height, SrcDC, XSrc, YSrc, Width, Height, ROP); {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [TQtWidgetSet.BitBlt]'); {$endif} end; function TQtWidgetSet.CallNextHookEx(hHk: HHOOK; ncode : Integer; wParam: WParam; lParam : LParam) : Integer; begin {$ifdef VerboseQtWinAPI_MISSING_IMPLEMENTATION} WriteLn('***** [WinAPI TQtWidgetSet.CallNextHookEx] missing implementation '); {$endif} Result := 0; end; function TQtWidgetSet.CallWindowProc(lpPrevWndFunc : TFarProc; Handle : HWND; Msg : UINT; wParam: WParam; lParam : lParam) : Integer; begin {$ifdef VerboseQtWinAPI_MISSING_IMPLEMENTATION} WriteLn('***** [WinAPI TQtWidgetSet.CallWindowProc] missing implementation '); {$endif} Result := -1; end; {------------------------------------------------------------------------------ Method: ClientToScreen Params: Handle - Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.ClientToScreen(Handle: HWND; var P: TPoint) : Boolean; var APoint: TQtPoint; begin Result := Handle <> 0; if Result then begin APoint := QtPoint(P.X, P.Y); QWidget_mapToGlobal(TQtWidget(Handle).GetContainerWidget, @APoint, @APoint); P := Point(APoint.x, APoint.y); end; end; function TQtWidgetSet.ClipboardFormatToMimeType(FormatID: TClipboardFormat): string; begin Result := Clipboard.FormatToMimeType(FormatID); end; function TQtWidgetSet.ClipboardGetData(ClipboardType: TClipboardType; FormatID: TClipboardFormat; Stream: TStream): boolean; begin Result := Clipboard.Getdata(ClipboardType, FormatID, Stream); end; function TQtWidgetSet.ClipboardGetFormats(ClipboardType: TClipboardType; var Count: integer; var List: PClipboardFormat): boolean; begin Result := Clipboard.GetFormats(ClipboardType, Count, List); end; function TQtWidgetSet.ClipboardGetOwnerShip(ClipboardType: TClipboardType; OnRequestProc: TClipboardRequestEvent; FormatCount: integer; Formats: PClipboardFormat): boolean; begin Result := Clipboard.GetOwnerShip(ClipboardType, OnRequestProc, FormatCount, Formats); end; function TQtWidgetSet.ClipboardRegisterFormat(const AMimeType: string): TClipboardFormat; begin Result := Clipboard.RegisterFormat(AMimeType); end; {------------------------------------------------------------------------------ Function: CombineRgn Params: Dest, Src1, Src2, fnCombineMode Returns: longint Combine the 2 Source Regions into the Destination Region using the specified Combine Mode. The Destination must already be initialized. The Return value is the Destination's Region type, or ERROR. The Combine Mode can be one of the following: RGN_AND : Gets a region of all points which are in both source regions RGN_COPY : Gets an exact copy of the first source region RGN_DIFF : Gets a region of all points which are in the first source region but not in the second.(Source1 - Source2) RGN_OR : Gets a region of all points which are in either the first source region or in the second.(Source1 + Source2) RGN_XOR : Gets all points which are in either the first Source Region or in the second, but not in both. The result can be one of the following constants Error NullRegion SimpleRegion ComplexRegion ------------------------------------------------------------------------------} function TQtWidgetSet.CombineRgn(Dest, Src1, Src2: HRGN; fnCombineMode: Longint): Longint; var RDest,RSrc1,RSrc2: QRegionH; begin result:=ERROR; if not IsValidGDIObject(Dest) or not IsValidGDIObject(Src1) then exit else begin RDest := TQtRegion(Dest).Widget; RSrc1 := TQtRegion(Src1).Widget; end; if (fnCombineMode<>RGN_COPY) and not IsValidGDIObject(Src2) then exit else RSrc2 := TQtRegion(Src2).Widget; case fnCombineMode of RGN_AND: QRegion_Intersect(RSrc1, RDest, RSrc2); RGN_COPY: begin // union of Src1 with a null region RSrc2 := QRegion_Create; QRegion_unite(RSrc1, RDest, RSrc2); QRegion_Destroy(RSrc2); end; RGN_DIFF: QRegion_Subtract(RSrc1, RDest, RSrc2); RGN_OR: QRegion_Unite(RSrc1, RDest, RSrc2); RGN_XOR: QRegion_eor(RSrc1, RDest, RSrc2); end; if QRegion_isEmpty(RDest) then Result := NULLREGION else begin if TQtRegion(Dest).IsPolyRegion or (TQtRegion(Dest).numRects > 0) then Result := COMPLEXREGION else Result := SIMPLEREGION; end; end; {------------------------------------------------------------------------------ Method: TQtWidgetSet.CreateCompatibleBitmap Params: HDC, Width & Height Returns: HBITMAP ------------------------------------------------------------------------------} function TQtWidgetSet.CreateCompatibleBitmap(DC: HDC; Width, Height: Integer): HBITMAP; var QtDC: TQtDeviceContext; Format: QImageFormat = QImageFormat_ARGB32; ADevice: QPaintDeviceH = nil; ADesktop: QDesktopWidgetH = nil; begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:> [WinAPI CreateCompatibleBitmap]', ' DC:', dbghex(DC), ' Width:', dbgs(Width), ' Height:', dbgs(Height)); {$endif} Result := 0; if IsValidDC(DC) then begin QtDC := TQtDeviceContext(DC); case QtDC.getDepth of 1: Format := QImageFormat_Mono; 15, 16: Format := QImageFormat_RGB16; 24: Format := QImageFormat_RGB32; 32: Format := QImageFormat_ARGB32; end; end else begin ADesktop := QApplication_desktop(); if ADesktop <> nil then ADevice := QWidget_to_QPaintDevice(ADesktop); if ADevice <> nil then begin case QPaintDevice_depth(ADevice) of 1: Format := QImageFormat_Mono; 15, 16: Format := QImageFormat_RGB16; 24: Format := QImageFormat_RGB32; 32: Format := QImageFormat_ARGB32; end; end; end; Result := HBitmap(TQtImage.Create(nil, Width, Height, Format)); {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI CreateCompatibleBitmap] Bitmap:', dbghex(Result)); {$endif} end; {------------------------------------------------------------------------------ Method: TQtWidgetSet.CreateBitmap Params: Returns: This functions is for TBitmap support. Specifically it´s utilized on when a handle for a bitmap is needed ------------------------------------------------------------------------------} function TQtWidgetSet.CreateBitmap(Width, Height: Integer; Planes, BitCount: Longint; BitmapBits: Pointer): HBITMAP; var Format: QImageFormat; NewBits: PByte; NewBitsSize: PtrUInt; ARowStride, RSS: Integer; begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:> [WinAPI CreateBitmap]', ' Width:', dbgs(Width), ' Height:', dbgs(Height), ' Planes:', dbgs(Planes), ' BitCount:', dbgs(BitCount), ' BitmapBits: ', dbgs(BitmapBits)); {$endif} // for win32 data is aligned to WORD // for qt we must realign data to DWORD case BitCount of 1: Format := QImageFormat_Mono; 15, 16: Format := QImageFormat_RGB16; 24: Format := QImageFormat_RGB32; 32: Format := QImageFormat_ARGB32; else Format := QImageFormat_ARGB32; end; RSS := GetBytesPerLine(Width, BitCount, rileWordBoundary); if BitmapBits <> nil then begin ARowStride := GetBytesPerLine(Width, BitCount, rileDWordBoundary); if not CopyImageData(Width, Height, RSS, BitCount, BitmapBits, Rect(0, 0, Width, Height), riloBottomToTop, riloBottomToTop, rileDWordBoundary, NewBits, NewBitsSize) then begin // this was never tested ARowStride := RSS; NewBits := AllocMem(RSS * Height); Move(BitmapBits^, NewBits^, RSS * Height); end; Result := HBitmap(TQtImage.Create(NewBits, Width, Height, ARowStride, Format, True)); end else Result := HBitmap(TQtImage.Create(nil, Width, Height, Format)); {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI CreateBitmap] Bitmap:', dbghex(Result)); {$endif} end; {------------------------------------------------------------------------------ Function: CreateBrushIndirect Params: none Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.CreateBrushIndirect(const LogBrush: TLogBrush): HBRUSH; var QtBrush: TQtBrush; Color: TQColor; begin {$ifdef VerboseQtWinAPI} WriteLn(Format('Trace:> [WinAPI CreateBrushIndirect] Style: %d, Color: %8x (%s)', [LogBrush.lbStyle, LogBrush.lbColor, ColorToString(LogBrush.lbColor)])); {$endif} Result := 0; QtBrush := TQtBrush.Create(True); try case LogBrush.lbStyle of // BS_HOLLOW, // Hollow brush. BS_NULL: // Same as BS_HOLLOW. begin QtBrush.setStyle(QtNoBrush); end; BS_SOLID: // Solid brush. begin QtBrush.setStyle(QtSolidPattern); end; BS_HATCHED: // Hatched brush. begin case LogBrush.lbHatch of HS_BDIAGONAL: QtBrush.setStyle(QtBDiagPattern); HS_CROSS: QtBrush.setStyle(QtCrossPattern); HS_DIAGCROSS: QtBrush.setStyle(QtDiagCrossPattern); HS_FDIAGONAL: QtBrush.setStyle(QtFDiagPattern); HS_HORIZONTAL: QtBrush.setStyle(QtHorPattern); HS_VERTICAL: QtBrush.setStyle(QtVerPattern); else QtBrush.setStyle(QtSolidPattern); end; end; BS_DIBPATTERN, // A pattern brush defined by a device-independent // bitmap (DIB) specification. If lbStyle is BS_DIBPATTERN, the // lbHatch member contains a handle to a packed DIB.Windows 95: // Creating brushes from bitmaps or DIBs larger than 8x8 pixels // is not supported. If a larger bitmap is given, only a portion // of the bitmap is used. BS_DIBPATTERN8X8, // Same as BS_DIBPATTERN. BS_DIBPATTERNPT, // A pattern brush defined by a device-independent // bitmap (DIB) specification. If lbStyle is BS_DIBPATTERNPT, the // lbHatch member contains a pointer to a packed DIB. BS_PATTERN, // Pattern brush defined by a memory bitmap. BS_PATTERN8X8: // Same as BS_PATTERN. begin QtBrush.setTextureImage(TQtImage(LogBrush.lbHatch).Handle); end; else DebugLn(Format('Unsupported Style %d',[LogBrush.lbStyle])); end; { Other non-utilized Qt brushes: QtDense1Pattern, QtDense2Pattern, QtDense3Pattern, QtDense4Pattern, QtDense5Pattern, QtDense6Pattern, QtDense7Pattern, QtLinearGradientPattern, QtRadialGradientPattern, QtConicalGradientPattern } // set brush color Color := QBrush_Color(QtBrush.Widget)^; ColorRefToTQColor(ColorToRGB(logBrush.lbColor), Color); QBrush_setColor(QtBrush.Widget, @Color); except {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI CreateBrushIndirect] Failed'); {$endif} end; Result := HBRUSH(QtBrush); //WriteLn('Created brush ', Result); {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI CreateBrushIndirect] Result: ', dbghex(Result)); {$endif} end; function TQtWidgetSet.CreateCaret(Handle: HWND; Bitmap: hBitmap; Width, Height: Integer): Boolean; begin Result := (Handle <> 0) and QtCaret.CreateCaret(TQtWidget(Handle), Bitmap, Width, Height); end; {------------------------------------------------------------------------------ Function: CreateCompatibleDC Params: DC - handle to memory device context Returns: handle to a memory device context Creates a memory device context (DC) compatible with the specified device. ------------------------------------------------------------------------------} function TQtWidgetSet.CreateCompatibleDC(DC: HDC): HDC; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI CreateCompatibleDC] DC: ', dbghex(DC)); {$endif} Result := HDC(TQtDeviceContext.Create(nil, True)); end; {------------------------------------------------------------------------------ Function: CreateEllipticRgn Params: p1 - X position of the top-left corner p2 - Y position of the top-left corner p3 - X position of the bottom-right corner p4 - Y position of the bottom-right corner Returns: HRGN ------------------------------------------------------------------------------} function TQtWidgetSet.CreateEllipticRgn(p1, p2, p3, p4: Integer): HRGN; var QtRegion: TQtRegion; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI CreateEllipticRgn] '); {$endif} QtRegion := TQtRegion.Create(True, p1, p2, p3, p4, QRegionEllipse); Result := HRGN(QtRegion); end; {------------------------------------------------------------------------------ Function: CreateFontIndirect Params: const LogFont: TLogFont Returns: HFONT Creates a font GDIObject. ------------------------------------------------------------------------------} function TQtWidgetSet.CreateFontIndirect(const LogFont: TLogFont): HFONT; begin Result := CreateFontIndirectEx(LogFont, ''); end; {------------------------------------------------------------------------------ Function: CreateFontIndirectEx Params: const LogFont: TLogFont Returns: HFONT Creates a font GDIObject. ------------------------------------------------------------------------------} function TQtWidgetSet.CreateFontIndirectEx(const LogFont: TLogFont; const LongFontName: string): HFONT; var QtFont: TQtFont; FamilyName: string; const QStyleStategy: array [DEFAULT_QUALITY..CLEARTYPE_NATURAL_QUALITY] of QFontStyleStrategy = ( { DEFAULT_QUALITY } QFontPreferDefault, { DRAFT_QUALITY } QFontPreferMatch, { PROOF_QUALITY } QFontPreferQuality, { NONANTIALIASED_QUALITY } QFontNoAntialias, { ANTIALIASED_QUALITY } QFontPreferAntialias, { CLEARTYPE_QUALITY } QFontPreferAntialias, { CLEARTYPE_NATURAL_QUALITY } QFontPreferAntialias ); begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI CreateFontIndirectEx] FontName: ' + LongFontName); {$endif} Result := 0; QtFont := TQtFont.Create(True); try // -1 has different meaning - it means that font height was set using setPointSize if LogFont.lfHeight <> -1 then QtFont.setPixelSize(Abs(LogFont.lfHeight)); // Some values at available on Qt documentation at a table // Others are guesses. The best would be to test different values for those // See: http://doc.trolltech.com/4.1/qfont.html#Weight-enum case LogFont.lfWeight of FW_THIN : QtFont.setWeight(10); FW_EXTRALIGHT : QtFont.setWeight(15); FW_LIGHT : QtFont.setWeight(25); FW_NORMAL : QtFont.setWeight(50); FW_MEDIUM : QtFont.setWeight(55); FW_SEMIBOLD : QtFont.setWeight(63); FW_BOLD : QtFont.setWeight(75); FW_EXTRABOLD : QtFont.setWeight(80); FW_HEAVY : QtFont.setWeight(87); end; QtFont.Angle := LogFont.lfEscapement; //LogFont.lfOrientation; QtFont.setItalic(LogFont.lfItalic = High(Byte)); QtFont.setUnderline(LogFont.lfUnderline = High(Byte)); QtFont.setStrikeOut(LogFont.lfStrikeOut = High(Byte)); FamilyName := StrPas(LogFont.lfFaceName); if (CompareText(FamilyName, 'default') <> 0) then begin QtFont.setFamily(FamilyName); end; if (LogFont.lfQuality >= Low(QStyleStategy)) and (LogFont.lfQuality <= High(QStyleStategy)) then QtFont.setStyleStrategy(QStyleStategy[LogFont.lfQuality]); finally Result := HFONT(QtFont); end; end; function TQtWidgetSet.CreateIconIndirect(IconInfo: PIconInfo): HICON; var AIcon: TQtIcon; APixmap, ATemp: QPixmapH; AMask: QBitmapH; begin Result := 0; if IsValidGDIObject(IconInfo^.hbmColor) then begin APixmap := QPixmap_create(); QPixmap_fromImage(APixmap, TQtImage(IconInfo^.hbmColor).Handle); if IconInfo^.hbmMask <> 0 then begin ATemp := QPixmap_create(); QPixmap_fromImage(ATemp, TQtImage(IconInfo^.hbmMask).Handle); AMask := QBitmap_create(ATemp); QPixmap_setMask(APixmap, AMask); QPixmap_destroy(ATemp); QBitmap_destroy(AMask); end; if IconInfo^.fIcon then begin AIcon := TQtIcon.Create; AIcon.addPixmap(APixmap); Result := HICON(AIcon); end else begin Result := HCURSOR(TQtCursor.Create(APixmap, IconInfo^.xHotspot, IconInfo^.yHotspot)); end; QPixmap_destroy(APixmap); end; end; {------------------------------------------------------------------------------ Function: CreatePatternBrush Params: HBITMAP Returns: HBRUSH ------------------------------------------------------------------------------} function TQtWidgetSet.CreatePatternBrush(ABitmap: HBITMAP): HBRUSH; var Image: QImageH; QtBrush: TQtBrush; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI CreatePatternBrush]',' Bitmap=', dbghex(ABitmap)); {$endif} Result := 0; if ABitmap = 0 then exit; QtBrush := TQtBrush.Create(True); Image := QImage_create(TQtImage(ABitmap).Handle); try QtBrush.setTextureImage(Image); finally QImage_destroy(Image); end; Result := HBRUSH(QtBrush); end; {------------------------------------------------------------------------------ Function: CreatePenIndirect Params: none Returns: HPEN ------------------------------------------------------------------------------} function TQtWidgetSet.CreatePenIndirect(const LogPen: TLogPen): HPEN; var QtPen: TQtPen; color: TQColor; begin Result := 0; QtPen := TQtPen.Create(True); with LogPen do begin case lopnStyle and PS_STYLE_MASK of PS_SOLID: QtPen.setStyle(QtSolidLine); PS_DASH: QtPen.setStyle(QtDashLine); PS_DOT: QtPen.setStyle(QtDotLine); PS_DASHDOT: QtPen.setStyle(QtDashDotLine); PS_DASHDOTDOT: QtPen.setStyle(QtDashDotDotLine); PS_NULL: QtPen.setStyle(QtNoPen); else QtPen.setStyle(QtSolidLine); end; if lopnWidth.X <= 0 then QtPen.setCosmetic(True) else begin QtPen.setCosmetic(False); QtPen.setWidth(lopnWidth.X); end; QPen_Color(QtPen.Widget, @Color); ColorRefToTQColor(ColorToRGB(lopnColor), Color); QPen_setColor(QtPen.Widget, @Color); end; Result := HPEN(QtPen); end; {------------------------------------------------------------------------------ Function: CreatePolygonRgn Params: none Returns: HRGN ------------------------------------------------------------------------------} function TQtWidgetSet.CreatePolygonRgn(Points: PPoint; NumPts: Integer; FillMode: integer): HRGN; var QtRegion: TQtRegion; pts: Array of TQtPoint; i: Integer; p: PPoint; Poly: QPolygonH; begin {$ifdef VerboseQtWinAPI} WriteLn('Trace: [WinAPI CreatePolygonRgn] '); {$endif} SetLength(pts, NumPts); p := PPoint(@Points); for i := 0 to NumPts - 1 do begin pts[i].X := p^.X; pts[i].Y := p^.Y; Inc(p); end; Poly := QPolygon_create(NumPts, @pts[0]); try {fillmode can be ALTERNATE or WINDING as msdn says} if FillMode = ALTERNATE then QtRegion := TQtRegion.Create(True, Poly, QtOddEvenFill) else QtRegion := TQtRegion.Create(True, Poly, QtWindingFill); Result := HRGN(QtRegion); finally QPolygon_destroy(Poly); end; end; {------------------------------------------------------------------------------ Function: CreateRectRgn Params: none Returns: HRGN ------------------------------------------------------------------------------} function TQtWidgetSet.CreateRectRgn(X1,Y1,X2,Y2 : Integer): HRGN; var QtRegion: TQtRegion; begin QtRegion := TQtRegion.Create(True, X1,Y1,X2,Y2); Result := HRGN(QtRegion); {$ifdef VerboseQtWinAPI} WriteLn('Trace: [WinAPI CreateRectRgn] Result: ', dbghex(Result), ' QRegionH: ', dbghex(PtrInt(QtRegion.Widget))); {$endif} end; {------------------------------------------------------------------------------ Procedure: DeleteCriticalSection Params: var CritSection: TCriticalSection Returns: Nothing ------------------------------------------------------------------------------} procedure TQtWidgetSet.DeleteCriticalSection(var CritSection: TCriticalSection); var ACritSec: System.PRTLCriticalSection; begin ACritSec:=System.PRTLCriticalSection(CritSection); System.DoneCriticalsection(ACritSec^); Dispose(ACritSec); CritSection:=0; end; {------------------------------------------------------------------------------ Function: DeleteDC Params: none Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.DeleteDC(hDC: HDC): Boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI DeleteDC] Handle: ', dbghex(hDC)); {$endif} Result := False; if not IsValidDC(hDC) then exit; TQtDeviceContext(hDC).Free; end; {------------------------------------------------------------------------------ Function: DeleteObject Params: none Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.DeleteObject(GDIObject: HGDIOBJ): Boolean; var aObject: TObject; APaintEngine: QPaintEngineH; APainter: QPainterH; {$ifdef VerboseQtWinAPI} ObjType: string; {$endif} begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:> [WinAPI DeleteObject] GDIObject: ', dbghex(GDIObject)); ObjType := 'Unidentifyed'; {$endif} Result := False; if GDIObject = 0 then Exit(True); if not IsValidGDIObject(GDIObject) then Exit; aObject := TObject(GDIObject); if (aObject is TQtResource) and TQtResource(aObject).FShared then Exit(True); {------------------------------------------------------------------------------ Font ------------------------------------------------------------------------------} if aObject is TQtFont then begin {$ifdef VerboseQtWinAPI} ObjType := 'Font'; {$endif} end {------------------------------------------------------------------------------ Brush ------------------------------------------------------------------------------} else if aObject is TQtBrush then begin {$ifdef VerboseQtWinAPI} ObjType := 'Brush'; {$endif} end {------------------------------------------------------------------------------ Image ------------------------------------------------------------------------------} else if aObject is TQtImage then begin {$ifdef VerboseQtWinAPI} ObjType := 'Image'; {$endif} // we must stop paintdevice before destroying APaintEngine := QImage_paintEngine(TQtImage(AObject).Handle); if (APaintEngine <> nil) and QPaintEngine_isActive(APaintEngine) then begin APainter := QPaintEngine_painter(APaintEngine); if APainter <> nil then QPainter_end(APainter); end; end {------------------------------------------------------------------------------ Region ------------------------------------------------------------------------------} else if aObject is TQtRegion then begin {$ifdef VerboseQtWinAPI} ObjType := 'Region'; {$endif} end {------------------------------------------------------------------------------ Pen ------------------------------------------------------------------------------} else if aObject is TQtPen then begin {$ifdef VerboseQtWinAPI} ObjType := 'Pen'; {$endif} end; if AObject is TQtResource then if TQtResource(AObject).Owner <> nil then begin // this is an owned (default) resource, let owner free it DebugLn('WARNING: Trying to Free a default resource'); AObject := nil; end; if AObject <> nil then begin //WriteLn('Delete object: ', PtrUInt(AObject)); AObject.Free; end; Result := True; {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI DeleteObject] Result=', dbgs(Result), ' ObjectType=', ObjType); {$endif} end; function TQtWidgetSet.DestroyCaret(Handle: HWND): Boolean; begin Result := (Handle <> 0) and QtCaret.DestroyCaret; end; {------------------------------------------------------------------------------ Method: DestroyIcon Params: Handle Returns: Result of destroying ------------------------------------------------------------------------------} function TQtWidgetSet.DestroyIcon(Handle: HICON): Boolean; begin Result := (Handle <> 0) and ( (TObject(Handle) is TQtIcon) or (TObject(Handle) is TQtCursor) ); if Result then TObject(Handle).Free; end; {------------------------------------------------------------------------------ Method: DrawFocusRect Params: DC: HDC; const Rect: TRect Returns: Boolean ------------------------------------------------------------------------------} function TQtWidgetSet.DrawFocusRect(DC: HDC; const Rect: TRect): boolean; var StyleOption: QStyleOptionFocusRectH; QtDC: TQtDeviceContext; begin {$ifdef VerboseQtWinAPI} WriteLn('[TQtWidgetSet.DrawFocusRect] Handle: ', dbghex(DC)); {$endif} Result := False; if not IsValidDC(DC) then exit; QtDC := TQtDeviceContext(DC); StyleOption := QStyleOptionFocusRect_create; QtDC.save; try QStyleOption_setRect(StyleOption, @Rect); if not QtDC.getClipping then QtDC.setClipRect(Rect); QStyle_drawPrimitive(QApplication_style, QStylePE_FrameFocusRect, StyleOption, QtDC.Widget, QtDC.Parent); Result := True; finally QStyleOptionFocusRect_destroy(StyleOption); QtDC.restore; end; end; {------------------------------------------------------------------------------ Method: DrawEdge Params: DC: HDC; var Rect: TRect; edge: Cardinal; grfFlags: Cardinal Returns: Boolean ------------------------------------------------------------------------------} function TQtWidgetSet.DrawEdge(DC: HDC; var Rect: TRect; edge: Cardinal; grfFlags: Cardinal): Boolean; var Brush: HBRUSH; ColorDark, ColorLight: TColor; ClientRect: TRect; QtDC: TQtDeviceContext; procedure InternalDrawEdge(Outer: Boolean; const R: TRect); var X1, Y1, X2, Y2: Integer; ColorLeftTop, ColorRightBottom: TColor; EdgeQtColor: TQColor; APen, OldPen: TQtPen; begin X1 := R.Left; Y1 := R.Top; X2 := R.Right; Y2 := R.Bottom; ColorLeftTop := clNone; ColorRightBottom := clNone; if Outer then begin if Edge and BDR_RAISEDOUTER <> 0 then begin ColorLeftTop := ColorLight; ColorRightBottom := ColorDark; end else if Edge and BDR_SUNKENOUTER <> 0 then begin ColorLeftTop := ColorDark; ColorRightBottom := ColorLight; end; end else begin if Edge and BDR_RAISEDINNER <> 0 then begin ColorLeftTop := ColorLight; ColorRightBottom := ColorDark; end else if Edge and BDR_SUNKENINNER <> 0 then begin ColorLeftTop := ColorDark; ColorRightBottom := ColorLight; end; end; if grfFlags and BF_DIAGONAL = 0 then begin APen := TQtPen.Create(True); ColorRefToTQColor(ColorLeftTop, EdgeQtColor); APen.setColor(EdgeQtColor); OldPen := QtDC.setPen(APen); if grfFlags and BF_LEFT <> 0 then QtDC.DrawLine(X1, Y1, X1, Y2); if grfFlags and BF_TOP <> 0 then QtDC.DrawLine(X1, Y1, X2, Y1); QtDC.setPen(OldPen); APen.Free; APen := TQtPen.Create(True); ColorRefToTQColor(ColorRightBottom, EdgeQtColor); APen.setColor(EdgeQtColor); OldPen := QtDC.SetPen(APen); if grfFlags and BF_RIGHT <> 0 then QtDC.DrawLine(X2, Y1, X2, Y2); if grfFlags and BF_BOTTOM <> 0 then QtDC.DrawLine(X1, Y2, X2, Y2); QtDC.SetPen(OldPen); APen.Free; end else begin APen := TQtPen.Create(True); ColorRefToTQColor(ColorLeftTop, EdgeQtColor); APen.setColor(EdgeQtColor); OldPen := QtDC.setPen(APen); if (grfFlags and BF_DIAGONAL_ENDTOPLEFT = BF_DIAGONAL_ENDTOPLEFT) or (grfFlags and BF_DIAGONAL_ENDBOTTOMRIGHT = BF_DIAGONAL_ENDBOTTOMRIGHT) then QtDC.DrawLine(X1, Y1, X2, Y2) else QtDC.DrawLine(X1, Y2, X2, Y1); QtDC.setPen(OldPen); APen.Free; end; end; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI DrawEdge] '); {$endif} Result := False; if not IsValidDC(DC) or IsRectEmpty(Rect) then exit; QtDC := TQtDeviceContext(DC); ClientRect := Rect; Dec(ClientRect.Right, 1); Dec(ClientRect.Bottom, 1); QtDC.save; try ColorDark := ColorToRGB(cl3DDkShadow); ColorLight := ColorToRGB(cl3DLight); if grfFlags and BF_FLAT <> 0 then ColorLight := clSilver; if grfFlags and BF_MONO <> 0 then begin ColorDark := clBlack; ColorLight := clWhite; end; try if Edge and (BDR_SUNKENOUTER or BDR_RAISEDOUTER) <> 0 then InternalDrawEdge(True, ClientRect); InflateRect(ClientRect, -1, -1); if grfFlags and BF_MONO = 0 then begin ColorLight := ColorToRGB(clBtnHiLight); ColorDark := ColorToRGB(clBtnShadow); end; if Edge and (BDR_SUNKENINNER or BDR_RAISEDINNER) <> 0 then begin InternalDrawEdge(False, ClientRect); InflateRect(ClientRect, -1, -1); end; finally end; inc(ClientRect.Right); inc(ClientRect.Bottom); if grfFlags and BF_MIDDLE <> 0 then begin Brush := CreateSolidBrush(clBtnFace); try FillRect(DC, ClientRect, Brush); finally DeleteObject(Brush); end; end; if grfFlags and BF_ADJUST <> 0 then Rect := ClientRect; Result := True; finally QtDC.Restore; end; end; {------------------------------------------------------------------------------ Method: DPtoLP Params: DC: HDC; var Points; Count: Integer Returns: Boolean ------------------------------------------------------------------------------} function TQtWidgetSet.DPtoLP(DC: HDC; var Points; Count: Integer): BOOL; var P: PPoint; QtPoint: TQtPoint; Matrix: QTransformH; MatrixInv: QTransformH; QtDC: TQtDeviceContext; Inverted: Boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI DPtoLP] '); {$endif} Result := False; if not IsValidDC(DC) then Exit; QtDC := TQtDeviceContext(DC); Matrix := QTransform_create; MatrixInv := QTransform_create; QPainter_combinedTransform(QtDC.Widget, Matrix); P := @Points; try while Count > 0 do begin Dec(Count); Inverted := QTransform_isInvertible(Matrix); QTransform_inverted(Matrix, MatrixInv, @Inverted); QtPoint.X := P^.X; QtPoint.Y := P^.Y; QTransform_map(MatrixInv, PQtPoint(@QtPoint), PQtPoint(@QtPoint)); P^.X := QtPoint.X; P^.Y := QtPoint.Y; Inc(P); end; Result := True; finally QTransform_destroy(MatrixInv); QTransform_destroy(Matrix); end; end; {------------------------------------------------------------------------------ Method: DrawText Params: DC, Str, Count, Rect, Flags Returns: If the string was drawn, or CalcRect run if DT_CALCRECT is one of the Flags passed to this function, then: * DrawText should not draw the text, but determine the size that would be required to write it. * If there are multiple lines of text, this function will keep Rect.Width fixed and expand Rect.Height to fit the text. * If there is one line of text, Rect is reduced or expanded to fit it. * The result will the height of the text. ------------------------------------------------------------------------------} function TQtWidgetSet.DrawText(DC: HDC; Str: PChar; Count: Integer; var ARect: TRect; Flags: Cardinal): Integer; var WideStr: WideString; R: TRect; QtDC: TQtDeviceContext; F: Integer; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI DrawText] DC: ', dbghex(DC), ' Str: ', string(Str), ' CalcRect: ', dbgs((Flags and DT_CALCRECT) = DT_CALCRECT)); {$endif} Result := 0; if not IsValidDC(DC) then Exit; QtDC :=TQtDeviceContext(DC); if Count >= 0 then WideStr := GetUtf8String(Copy(Str, 1, Count)) else WideStr := GetUtf8String(Str); F := DTFlagsToQtFlags(Flags); QtDC.font.Metrics.BoundingRect(@R, @ARect, F, @WideStr); //TODO: result should be different when DT_VCENTER or DT_BOTTOM is set Result := R.Bottom - R.Top; if (Flags and DT_CALCRECT) = DT_CALCRECT then begin ARect.Right := ARect.Left + R.Right - R.Left; ARect.Bottom := ARect.Top + R.Bottom - R.Top; {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI DrawText] Rect=', dbgs(ARect)); {$endif} Exit; end; with ARect do QtDC.DrawText(left, Top, Right-Left, Bottom-Top, F, @WideStr); end; {------------------------------------------------------------------------------ Method: Ellipse Params: X1, Y1, X2, Y2 Returns: Nothing Use Ellipse to draw a filled circle or ellipse. ------------------------------------------------------------------------------} function TQtWidgetSet.Ellipse(DC: HDC; X1, Y1, X2, Y2: Integer): Boolean; var R: TRect; begin if not IsValidDC(DC) then Exit(False); R := NormalizeRect(Rect(X1, Y1, X2, Y2)); if IsRectEmpty(R) then Exit(True); TQtDeviceContext(DC).drawEllipse(R.Left, R.Top, R.Right - R.Left - 1, R.Bottom - R.Top - 1); Result := True; end; function TQtWidgetSet.EnableScrollBar(Wnd: HWND; wSBflags, wArrows: Cardinal): Boolean; begin {maybe we can put creating of scrollbar here instead of SetScrollInfo() } Result := False; {$ifdef VerboseQtWinAPI_MISSING_IMPLEMENTATION} WriteLn('***** [WinAPI TQtWidgetSet.EnableScrollbar] missing implementation '); {$endif} end; function TQtWidgetSet.EnableWindow(hWnd: HWND; bEnable: Boolean): Boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI EnableWindow] '); {$endif} Result := TQtWidget(hwnd).getEnabled; TQtWidget(hWnd).setEnabled(bEnable); end; {------------------------------------------------------------------------------ Function: EndPaint Params: Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.EndPaint(Handle: hwnd; var PS: TPaintStruct): Integer; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI EndPaint] Handle: ', dbghex(Handle), ' PS.HDC: ', dbghex(PS.HDC)); {$endif} Result := 1; if IsValidDC(PS.HDC) and (TObject(PS.HDC) is TQtDeviceContext) then begin {$ifdef VerboseQtWinAPI} WriteLn('Freeing resources'); {$endif} TQtDeviceContext(PS.HDC).Free; end; end; {------------------------------------------------------------------------------ Procedure: EnterCriticalSection Params: var CritSection: TCriticalSection Returns: Nothing ------------------------------------------------------------------------------} procedure TQtWidgetSet.EnterCriticalSection(var CritSection: TCriticalSection); var ACritSec: System.PRTLCriticalSection; begin ACritSec:=System.PRTLCriticalSection(CritSection); System.EnterCriticalsection(ACritSec^); end; function TQtWidgetSet.EnumDisplayMonitors(hdc: HDC; lprcClip: PRect; lpfnEnum: MonitorEnumProc; dwData: LPARAM): LongBool; var i: integer; Desktop: QDesktopWidgetH; begin Desktop := QApplication_desktop(); Result := True; for i := 0 to QDesktopWidget_numScreens(Desktop) - 1 do begin Result := Result and lpfnEnum(i + 1, 0, nil, dwData); if not Result then break; end; end; {------------------------------------------------------------------------------ Function: EnumFontFamiliesEx Params: hdc [in] Handle to the device context. lpLogfont [in] Pointer to a LOGFONT structure that contains information about the fonts to enumerate. The function examines the following members. Member Description lfCharset If set to DEFAULT_CHARSET, the function enumerates all fonts in all character sets. If set to a valid character set value, the function enumerates only fonts in the specified character set. lfFaceName If set to an empty string, the function enumerates one font in each available typeface name. If set to a valid typeface name, the function enumerates all fonts with the specified name. lfPitchAndFamily Must be set to zero for all language versions of the operating system. lpEnumFontFamExProc [in] Pointer to the application definedcallback function. For more information, see the EnumFontFamExProc function. lParam [in] Specifies an applicationdefined value. The function passes this value to the callback function along with font information. dwFlags This parameter is not used and must be zero. Returns: The return value is the last value returned by the callback function. This value depends on which font families are available for the specified device. ------------------------------------------------------------------------------} function TQtWidgetSet.EnumFontFamiliesEx(DC: HDC; lpLogFont: PLogFont; Callback: FontEnumExProc; Lparam: LParam; Flags: dword): longint; var EnumLogFont: TEnumLogFontEx; Metric: TNewTextMetricEx; FontList: TStringList; FontType: Integer; i: Integer; function QtGetFontFamilies(var List:TStringList):integer; var FontDB: QFontDatabaseH; StrLst: QStringlistH; Str: WideString; j: integer; begin Result := -1; FontDB := QFontDatabase_create(); StrLst := QStringList_create; try QFontDatabase_families(FontDB, StrLst); Result := QStringList_size(StrLst); for j := 0 to Result - 1 do begin QStringList_at(StrLst, @Str, j); List.Add(UTF16ToUTF8(Str)); end; finally QFontDatabase_destroy(FontDB); QStringList_destroy(StrLst); end; end; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI EnumFontFamiliesEx]'); {$endif} Result := 0; if (lpLogFont^.lfCharSet = DEFAULT_CHARSET) and (lpLogFont^.lfFaceName= '') and (lpLogFont^.lfPitchAndFamily = 0) then begin FontType := 0; FontList := TStringList.create; try if QtGetFontFamilies(FontList) > 0 then begin for i := 0 to FontList.Count - 1 do begin EnumLogFont.elfLogFont.lfFaceName := FontList[i]; Result := Callback(EnumLogFont, Metric, FontType, LParam); end; end; finally FontList.free; end; end else begin {$note implement EnumFontFamiliesEx for other than default} Result := 0; end; end; {------------------------------------------------------------------------------ Function: ExcludeClipRect Params: none Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.ExcludeClipRect(dc: hdc; Left, Top, Right, Bottom : Integer) : Integer; var Region: QRegionH; ExRegion: QRegionH; QtDC: TQtDeviceContext absolute dc; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI ExcludeClipRect]'); {$endif} Result := ERROR; if not IsValidDC(DC) then Exit; ExRegion := QRegion_create(Left, Top, Right - Left, Bottom - Top, QRegionRectangle); Region := QRegion_create; try QPainter_clipRegion(QtDC.Widget, Region); QRegion_subtract(Region, Region, ExRegion); QtDC.setClipRegion(Region); QtDC.setClipping(True); if QRegion_isEmpty(Region) then Result := NULLREGION else if QRegion_numRects(Region) = 1 then Result := SIMPLEREGION else Result := COMPLEXREGION; finally QRegion_destroy(Region); QRegion_destroy(ExRegion); end; end; function TQtWidgetSet.ExtCreatePen(dwPenStyle, dwWidth: DWord; const lplb: TLogBrush; dwStyleCount: DWord; lpStyle: PDWord): HPEN; var QtPen: TQtPen; color: TQColor; begin Result := 0; QtPen := TQtPen.Create(True); QtPen.IsExtPen := True; case dwPenStyle and PS_STYLE_MASK of PS_SOLID: QtPen.setStyle(QtSolidLine); PS_DASH: QtPen.setStyle(QtDashLine); PS_DOT: QtPen.setStyle(QtDotLine); PS_DASHDOT: QtPen.setStyle(QtDashDotLine); PS_DASHDOTDOT: QtPen.setStyle(QtDashDotDotLine); PS_USERSTYLE: QtPen.setStyle(QtCustomDashLine); PS_NULL: QtPen.setStyle(QtNoPen); end; QtPen.setCosmetic((dwPenStyle and PS_TYPE_MASK) = PS_COSMETIC); if (dwPenStyle and PS_TYPE_MASK) = PS_GEOMETRIC then begin QtPen.setWidth(dwWidth); case dwPenStyle and PS_JOIN_MASK of PS_JOIN_ROUND: QtPen.setJoinStyle(QtRoundJoin); PS_JOIN_BEVEL: QtPen.setJoinStyle(QtBevelJoin); PS_JOIN_MITER: QtPen.setJoinStyle(QtMiterJoin); end; case dwPenStyle and PS_ENDCAP_MASK of PS_ENDCAP_ROUND: QtPen.setCapStyle(QtRoundCap); PS_ENDCAP_SQUARE: QtPen.setCapStyle(QtSquareCap); PS_ENDCAP_FLAT: QtPen.setCapStyle(QtFlatCap); end; end; if (dwPenStyle and PS_STYLE_MASK) = PS_USERSTYLE then QtPen.setDashPattern(lpStyle, dwStyleCount); QPen_Color(QtPen.Widget, @Color); ColorRefToTQColor(ColorToRGB(lplb.lbColor), Color); QPen_setColor(QtPen.Widget, @Color); Result := HPEN(QtPen); end; function TQtWidgetSet.ExtSelectClipRGN(dc: hdc; rgn : hrgn; Mode : Longint) : Integer; var Clip: HRGN = 0; Tmp : hRGN; DCOrigin: TPoint; QtWidget: TQtWidget = nil; QtDC: TQtDeviceContext; QtRgn: TQtRegion; R: TRect; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI TQtWidgetSet.ExtSelectClipRGN]'); {$endif} if not IsValidDC(DC) then begin Result := ERROR; exit; end else Result := SIMPLEREGION; QtDC := TQtDeviceContext(DC); if Assigned(QtDC.Parent) then QtWidget := QtObjectFromWidgetH(QtDC.Parent); if Assigned(QtWidget) or (not Assigned(QtWidget) and Assigned(QtDC.vImage)) then begin // there is no clipping region in the DC Case Mode of RGN_COPY: Result := SelectClipRGN(DC, RGN); RGN_OR, RGN_XOR, RGN_AND, RGN_DIFF: begin // as MSDN says only RGN_COPY allows NULL RGN param. if not IsValidGDIObject(RGN) then begin Result := ERROR; exit; end; // get existing clip QtRgn := QtDC.getClipRegion; if (QtRgn = nil) or (QtRgn.GetRegionType = NULLREGION) then begin Result := SelectClipRGN(DC, RGN); exit; end else begin // get transformation GetWindowOrgEx(DC, @DCOrigin); R := QtRgn.getBoundingRect; Clip := CreateRectRGN(0, 0, R.Right - R.Left, R.Bottom - R.Top); TQtRegion(Clip).translate(DCOrigin.X, DCOrigin.Y); end; // create target clip Tmp := CreateEmptyRegion; // combine Result := CombineRGN(Tmp, Clip, RGN, Mode); // commit SelectClipRGN(DC, Tmp); // clean up DeleteObject(Clip); DeleteObject(Tmp); end; end; end else Result := inherited ExtSelectClipRGN(DC, RGN, Mode); end; {------------------------------------------------------------------------------ Function: ExtTextOut Params: none Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.ExtTextOut(DC: HDC; X, Y: Integer; Options: Longint; Rect: PRect; Str: PChar; Count: Longint; Dx: PInteger): Boolean; var WideStr: WideString; QtDC: TQtDeviceContext absolute DC; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI ExtTextOut]'); {$endif} Result := False; if ((Options and (ETO_OPAQUE + ETO_CLIPPED)) <> 0) and (Rect = nil) then exit; if not IsValidDC(DC) then Exit; if ((Options and ETO_OPAQUE) <> 0) then QtDC.fillRect(Rect^.Left, Rect^.Top, Rect^.Right - Rect^.Left, Rect^.Bottom - Rect^.Top); if Str <> nil then begin if Count >= 0 then WideStr := GetUtf8String(Copy(Str, 1, Count)) else WideStr := GetUtf8String(Str); QtDC.drawText(X, Y, @WideStr); end; Result := True; end; {------------------------------------------------------------------------------ Function: FillRect Params: none Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.FillRect(DC: HDC; const Rect: TRect; Brush: HBRUSH): Boolean; begin Result := False; {$ifdef VerboseQtWinAPI} DebugLn('[WinAPI FillRect Rect=', dbgs(Rect),' Brush=', dbghex(Brush)); {$endif} if not IsValidDC(DC) then exit; if not IsValidGdiObject(Brush) then exit; TQtDeviceContext(DC).fillRect(@Rect, TQtBrush(Brush).Widget); Result := True; end; {------------------------------------------------------------------------------ Function: FillRgn Params: DC: HDC; RegionHnd: HRGN; hbr: HBRUSH Returns: Boolean ------------------------------------------------------------------------------} function TQtWidgetSet.FillRgn(DC: HDC; RegionHnd: HRGN; hbr: HBRUSH): Bool; var OldRgn: TQtRegion; R: TRect; hasClipping: Boolean; QtDC: TQtDeviceContext; begin {$ifdef VerboseQtWinAPI} DebugLn('[WinAPI FillRgn Rgn=', dbgs(RegionHnd),' Brush=', dbghex(hbr)); {$endif} Result := False; if not IsValidDC(DC) then exit; QtDC := TQtDeviceContext(DC); QtDC.save; OldRgn := TQtRegion.Create(True); try hasClipping := QtDC.getClipping; if hasClipping then QPainter_clipRegion(QtDC.Widget, OldRgn.Widget); if SelectClipRgn(DC, RegionHnd) <> ERROR then begin R := TQtRegion(RegionHnd).getBoundingRect; QtDC.fillRect(@R, TQtBrush(hbr).Widget); if hasClipping then SelectClipRgn(DC, HRGN(OldRgn)); Result := True; end; finally OldRgn.Free; QtDC.restore; end; end; {------------------------------------------------------------------------------ Function: Frame Params: none Returns: Nothing Draws the border of a rectangle. ------------------------------------------------------------------------------} function TQtWidgetSet.Frame(DC: HDC; const ARect: TRect): Integer; begin Result := 0; if not IsValidDC(DC) then Exit; TQtDeviceContext(DC).drawRect(ARect.Left, ARect.Top, ARect.Right - ARect.Left, ARect.Bottom - ARect.Top); Result := 1; end; {------------------------------------------------------------------------------ Function: Frame3D Params: none Returns: Nothing Draws a 3d border in Qt native style. ------------------------------------------------------------------------------} function TQtWidgetSet.Frame3d(DC : HDC; var ARect : TRect; const FrameWidth : integer; const Style : TBevelCut) : boolean; var QtDC: TQtDeviceContext; begin {$ifdef VerboseQtWinAPI} DebugLn('[TQtWidgetSet.Frame3d Rect=', dbgs(ARect)); {$endif} Result := False; if not IsValidDC(DC) then exit; QtDC := TQtDeviceContext(DC); case Style of bvNone: ; bvLowered: QtDC.qDrawWinPanel(ARect.Left, ARect.Top, ARect.Right - ARect.Left, ARect.Bottom - ARect.Top, nil, True, FrameWidth); bvRaised: QtDC.qDrawWinPanel(ARect.Left, ARect.Top, ARect.Right - ARect.Left, ARect.Bottom - ARect.Top, nil, False, FrameWidth); bvSpace: QtDC.qDrawPlainRect(ARect.Left, ARect.Top, ARect.Right - ARect.Left, ARect.Bottom - ARect.Top, nil, FrameWidth); end; InflateRect(ARect, -FrameWidth, -FrameWidth); Result := True; end; {------------------------------------------------------------------------------ Function: FrameRect Params: none Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.FrameRect(DC: HDC; const ARect: TRect; hBr: HBRUSH): Integer; begin Result := 0; if not IsValidDC(DC) then Exit; TQtDeviceContext(DC).qDrawPLainRect(ARect.Left, ARect.Top, ARect.Right - ARect.Left, ARect.Bottom - ARect.Top); Result := 1; end; function TQtWidgetSet.GetActiveWindow: HWND; var Widget: QWidgetH; W: TQtWidget; SubW: TQtWidget; Area: QMdiAreaH; begin Widget := QApplication_activeWindow; if Widget <> nil then begin W := QtObjectFromWidgetH(Widget); if W <> nil then begin if TQtMainWindow(W).MDIAreaHandle <> nil then begin Area := TQtMainWindow(W).MDIAreaHandle; SubW := QtObjectFromWidgetH(QMdiArea_activeSubWindow(Area)); if SubW <> nil then Result := HWND(SubW) else Result := HWND(W); end else Result := HWND(W); end; end else Result := 0; end; {------------------------------------------------------------------------------ Method: TQtWidgetSet.GetBitmapBits Params: none Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.GetBitmapBits(Bitmap: HBITMAP; Count: Longint; Bits: Pointer): Longint; var Image: QImageH; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI GetBitmapBits]',' Bitmap=', dbghex(Bitmap),' Count=',Count); {$endif} Result := 0; if (Bitmap = 0) or (Count <= 0) then Exit; Image := QImage_create(TQtImage(Bitmap).Handle); try Result := (QImage_width(Image) * QImage_height(Image) * QImage_depth(Image) + 7) div 8; if Count < Result then Result := Count; if Result > 0 then Move(QImage_bits(Image)^, Bits^, Result); finally QImage_destroy(Image); end; end; function TQtWidgetSet.GetCapture: HWND; var w: QWidgetH; Widget: TQtWidget; {$IFDEF MSWINDOWS} AWin: HWND; {$ENDIF} begin {$IFDEF MSWINDOWS} AWin := Windows.GetCapture; if AWin <> 0 then w := QWidget_find(AWin) else w := nil; if (w = nil) and (QApplication_mouseButtons() > 0) then w := QApplication_focusWidget(); {$ELSE} w := QWidget_mouseGrabber(); {$ENDIF} if w <> nil then begin // Capture widget can be child of complex control. In any case we should return TQtWidget as result. // So we will look for parent while not found apropriate LCL handle. Widget := GetFirstQtObjectFromWidgetH(w); Result := HWND(Widget); end else Result := 0; {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI GetCapture] Capture = ', Result); {$endif} end; function TQtWidgetSet.GetCaretPos(var lpPoint: TPoint): Boolean; begin Result := QtCaret.GetCaretPos(lpPoint); end; function TQtWidgetSet.GetCaretRespondToFocus(handle: HWND; var ShowHideOnFocus: boolean): Boolean; begin ShowHideOnFocus := QtCaret.GetQtCaretRespondToFocus; Result := True; end; {------------------------------------------------------------------------------ Function: GetClientBounds Params: handle: Result: Returns: true on success Returns the client bounds of a control. The client bounds is the rectangle of the inner area of a control, where the child controls are visible. The coordinates are relative to the control's left and top. ------------------------------------------------------------------------------} function TQtWidgetSet.GetClientBounds(handle : HWND; var ARect : TRect) : Boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI GetClientBounds]'); {$endif} ARect := TQtWidget(handle).getClientBounds; Result := True; end; {------------------------------------------------------------------------------ Function: GetClientRect Params: handle: Result: Returns: true on success Returns the client bounds of a control. The client bounds is the rectangle of the inner area of a control, where the child controls are visible. The coordinates are relative to the control's left and top. ------------------------------------------------------------------------------} function TQtWidgetSet.GetClientRect(handle : HWND; var ARect : TRect) : Boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI GetClientRect]'); {$endif} GetClientBounds(Handle, ARect); OffsetRect(ARect, -ARect.Left, -ARect.Top); Result := True; end; {------------------------------------------------------------------------------ Function: GetClipBox Params: dc, lprect Returns: Integer Returns the smallest rectangle which includes the entire current Clipping Region, or if no Clipping Region is set, the current dimensions of the Drawable. The result can be one of the following constants Error NullRegion SimpleRegion ComplexRegion ------------------------------------------------------------------------------} function TQtWidgetSet.GetClipBox(DC: hDC; lpRect: PRect): Longint; var ARegion: QRegionH; begin Result := SIMPLEREGION; if lpRect <> nil then lpRect^ := Rect(0,0,0,0); if not IsValidDC(DC) then Result := ERROR; if Result <> ERROR then with TQtDeviceContext(DC) do begin {$ifdef VerboseQtWinAPI} Write('TQtWidgetSet.GetClipBox FastClip=', ((vClipRect <> nil) and not vClipRectDirty) ); {$endif} // the most correct way to get a clipbox if through // region.boundingrect, but it's slower. // TODO: remove "and false" below when vClipRectDirty is implemented // it should be "true" when user set a custom clip rect // and "false" on beginpaint if (vClipRect<>nil) and not vClipRectDirty and false then lpRect^ := vClipRect^ else if getClipping then begin ARegion := QRegion_Create; try QPainter_ClipRegion(Widget, ARegion); QRegion_boundingRect(ARegion, lpRect); finally QRegion_destroy(ARegion); end; end else if vImage <> nil then lpRect^ := Rect(0, 0, vImage.width, vImage.height); {$ifdef VerboseQtWinAPI} WriteLn(' Rect=', dbgs(lprect^)); {$endif} end; end; {------------------------------------------------------------------------------ Function: GetClipRGN Params: dc, rgn Returns: Integer Returns a copy of the current Clipping Region. The result can be one of the following constants 0 = no clipping set 1 = ok -1 = error ------------------------------------------------------------------------------} function TQtWidgetSet.GetClipRGN(DC : hDC; RGN : hRGN): Longint; begin {$ifdef VerboseQtWinAPI} Write('Trace: [WinAPI GetClipRgn]', ' DC: ', dbghex(DC), ' RGN: ', dbghex(Rgn)); if RGN<>0 then WriteLn(' QRegionH=', PtrInt(TQtRegion(Rgn).Widget)) else WriteLn(' Rgn=0'); {$endif} // it assumes that clipregion object has been created some other place Result := -1; if not IsValidDC(DC) then exit; if rgn=0 then exit; if not TQtDeviceContext(DC).getClipping then Result := 0 else begin QPainter_ClipRegion(TQtDeviceContext(DC).Widget, TQtRegion(Rgn).Widget); Result := 1; end; end; {------------------------------------------------------------------------------ Function: GetCursorPos Params: lpPoint: The cursorposition Returns: True if succesful ------------------------------------------------------------------------------} function TQtWidgetSet.GetCursorPos(var lpPoint: TPoint ): Boolean; var vPoint: TQtPoint; begin QCursor_pos(@vPoint); lpPoint.x := vPoint.x; lpPoint.y := vPoint.y; Result := True; end; {------------------------------------------------------------------------------ Function: GetDC Params: hWnd is any widget. Returns: Nothing This function is Called: - Once on app startup with hWnd = 0 - Twice for every TLabel on the TCustomLabel.CalcSize function ------------------------------------------------------------------------------} function TQtWidgetSet.GetDC(hWnd: HWND): HDC; var Widget: TQtWidget; begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:> [WinAPI GetDC] hWnd: ', dbghex(hWnd)); {$endif} Widget := TQtWidget(hWnd); if Widget <> nil then begin Result := Widget.Context; if Result = 0 then Result := HDC(QtDefaultContext); end else begin Result := HDC(QtScreenContext); end; {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI GetDC] Result: ', dbghex(Result)); {$endif} end; function TQtWidgetSet.GetDCOriginRelativeToWindow(PaintDC: HDC; WindowHandle: HWND; var OriginDiff: TPoint): boolean; var QtDC: TQtDeviceContext absolute PaintDC; Matrix: QTransformH; P: TPoint; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI GetDCOriginRelativeToWindow] PaintDC ' + dbghex(PaintDC)); {$endif} Result := IsValidDC(PaintDC); if not Result then exit; Matrix := QPainter_transform(QtDC.Widget); OriginDiff := Point(0, 0); P := Point(0, 0); if WindowHandle <> 0 then P := TQtWidget(WindowHandle).getClientOffset; if Matrix <> nil then begin OriginDiff.X := Round(QTransform_Dx(Matrix)) - P.X; OriginDiff.Y := Round(QTransform_Dy(Matrix)) - P.Y; end; end; {------------------------------------------------------------------------------ Function: GetDeviceCaps Params: DC: HDC; Index: Integer Returns: Integer ------------------------------------------------------------------------------} function TQtWidgetSet.GetDeviceCaps(DC: HDC; Index: Integer): Integer; var QtDC: TQtDeviceContext; PaintDevice: QPaintDeviceH; w: QWidgetH; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI GetDeviceCaps] DC ' + dbghex(DC)); {$endif} Result := 0; if not IsValidDC(DC) then exit; QtDC := TQtDeviceContext(DC); if QtDC.Parent <> nil then w := QtDC.Parent else w := QApplication_desktop; PaintDevice := QWidget_to_QPaintDevice(w); case Index of HORZSIZE: Result := QPaintDevice_widthMM(PaintDevice); VERTSIZE: Result := QPaintDevice_heightMM(PaintDevice); HORZRES: Result := QPaintDevice_width(PaintDevice); BITSPIXEL: Result := QPaintDevice_depth(PaintDevice); PLANES: Result := 1; SIZEPALETTE: Result := QPaintDevice_numColors(PaintDevice); LOGPIXELSX: Result := QPaintDevice_logicalDpiX(PaintDevice); LOGPIXELSY: Result := QPaintDevice_logicalDpiY(PaintDevice); VERTRES: Result := QPaintDevice_height(PaintDevice); NUMRESERVED: Result := 0; else Result := 0; end; end; function TQtWidgetSet.GetDIBits(DC: HDC; Bitmap: HBitmap; StartScan, NumScans: UINT; Bits: Pointer; var BitInfo: BitmapInfo; Usage: UINT): Integer; begin Result := 0; {$ifdef VerboseQtWinAPI_MISSING_IMPLEMENTATION} WriteLn('***** [WinAPI TQtWidgetSet.GetDIBits] missing implementation '); {$endif} end; {------------------------------------------------------------------------------ Function: GetDoubleClickTime Params: none Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.GetDoubleClickTime: UINT; begin Result := QApplication_doubleClickInterval; end; {------------------------------------------------------------------------------ Function: GetFocus Params: None Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.GetFocus: HWND; var WidgetH: QWidgetH; Obj: TQtWidget; begin result:=0; WidgetH:=QApplication_FocusWidget(); if WidgetH<>nil then begin Obj := QtObjectFromWidgetH(WidgetH); if Obj<>nil then result:=Hwnd(Obj); {$ifdef VerboseFocus} Write('TQtWidgetSet.GetFocus: WidgetH=',dbghex(ptrint(WidgetH)), ' QtWidget=', dbgsname(Obj)); if Obj<>nil then WriteLn(' LclObject=', dbgsname(Obj.LCLObject)) else WriteLn; {$endif} end; end; function TQtWidgetSet.GetKeyState(nVirtKey: Integer): Smallint; const StateDown = SmallInt($FF80); StateToggled = SmallInt($0001); begin Result := 0; case nVirtKey of VK_LSHIFT: nVirtKey := VK_SHIFT; VK_LCONTROL: nVirtKey := VK_CONTROL; VK_LMENU: nVirtKey := VK_MENU; end; // where to track toggle state? case nVirtKey of VK_LBUTTON: if (QApplication_mouseButtons and QtLeftButton) > 0 then Result := Result or StateDown; VK_RBUTTON: if (QApplication_mouseButtons and QtRightButton) > 0 then Result := Result or StateDown; VK_MBUTTON: if (QApplication_mouseButtons and QtMidButton) > 0 then Result := Result or StateDown; VK_XBUTTON1: if (QApplication_mouseButtons and QtXButton1) > 0 then Result := Result or StateDown; VK_XBUTTON2: if (QApplication_mouseButtons and QtXButton2) > 0 then Result := Result or StateDown; VK_MENU: if (QApplication_keyboardModifiers and QtAltModifier) > 0 then Result := Result or StateDown; VK_SHIFT: if (QApplication_keyboardModifiers and QtShiftModifier) > 0 then Result := Result or StateDown; VK_CONTROL: if (QApplication_keyboardModifiers and QtControlModifier) > 0 then Result := Result or StateDown; VK_LWIN, VK_RWIN: if (QApplication_keyboardModifiers and QtMetaModifier) > 0 then Result := Result or StateDown; {$ifdef VerboseQtWinAPI} else DebugLn('TQtWidgetSet.GetKeyState TODO ', DbgSVKCode(Word(nVirtkey))); {$endif} end; end; function TQtWidgetSet.GetMapMode(DC: HDC): Integer; begin if IsValidDC(DC) then Result := TQtDeviceContext(DC).vMapMode else Result := 0; end; function TQtWidgetSet.GetMonitorInfo(Monitor: HMONITOR; lpmi: PMonitorInfo): Boolean; var Desktop: QDesktopWidgetH; begin Result := (lpmi <> nil) and (lpmi^.cbSize >= SizeOf(TMonitorInfo)) or (Monitor = 0); if not Result then Exit; Desktop := QApplication_desktop(); Dec(Monitor); Result := (Monitor >= 0) and (Monitor < QDesktopWidget_numScreens(Desktop)); if not Result then Exit; QDesktopWidget_screenGeometry(Desktop, @lpmi^.rcMonitor, Monitor); QDesktopWidget_availableGeometry(Desktop, @lpmi^.rcWork, Monitor); if QDesktopWidget_primaryScreen(Desktop) = Monitor then lpmi^.dwFlags := MONITORINFOF_PRIMARY else lpmi^.dwFlags := 0; end; {------------------------------------------------------------------------------ Method: TQtWidgetSet.GetDeviceSize Params: none Returns: True if successful Return the size of a device ------------------------------------------------------------------------------} function TQtWidgetSet.GetDeviceSize(DC: HDC; var P: TPoint): Boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI GetDeviceSize]'); {$endif} Result := False; P.X := 0; P.Y := 0; if not IsValidDC(DC) then Exit; if (TObject(DC) is TQtDeviceContext) then P := TQtDeviceContext(DC).getDeviceSize; Result := True; end; {------------------------------------------------------------------------------ Method: TQtWidgetSet.GetObject Params: none Returns: The size written to the buffer Necessary for TBitmap support ------------------------------------------------------------------------------} function TQtWidgetSet.GetObject(GDIObj: HGDIOBJ; BufSize: Integer; Buf: Pointer): Integer; const QtPenStyleToWinStyleMap: array[QtPenStyle] of UINT = ( { QtNoPen } PS_NULL, { QtSolidLine } PS_SOLID, { QtDashLine } PS_DASH, { QtDotLine } PS_DOT, { QtDashDotLine } PS_DASHDOT, { QtDashDotDotLine } PS_DASHDOTDOT, { QtCustomDashLine } PS_USERSTYLE ); var aObject: TObject; AFont: TQtFont absolute aObject; APen: TQtPen absolute aObject; BitmapSection : TDIBSECTION; ALogFont: PLogFont absolute Buf; ALogPen: PLogPen absolute Buf; AExtLogPen: PExtLogPen absolute Buf; Dashes: TQRealArray; i: integer; {$ifdef VerboseQtWinAPI} ObjType: string; {$endif} begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:> [WinAPI GetObject] GDIObj: ' + dbghex(GDIObj)); ObjType := ''; {$endif} Result := 0; if not IsValidGDIObject(GDIObj) then begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI GetObject] Invalid GDI Object'); {$endif} Exit; end; aObject := TObject(GDIObj); {------------------------------------------------------------------------------ Font ------------------------------------------------------------------------------} if aObject is TQtFont then begin if Buf = nil then Result := SizeOf(TLogFont) else if BufSize >= SizeOf(TLogFont) then begin Result := SizeOf(TLogFont); FillChar(ALogFont^, SizeOf(ALogFont^), 0); ALogFont^.lfHeight := AFont.getPixelSize; ALogFont^.lfEscapement := AFont.Angle; case AFont.getWeight of 10: ALogFont^.lfWeight := FW_THIN; 15: ALogFont^.lfWeight := FW_EXTRALIGHT; 25: ALogFont^.lfWeight := FW_LIGHT; 50: ALogFont^.lfWeight := FW_NORMAL; 55: ALogFont^.lfWeight := FW_MEDIUM; 63: ALogFont^.lfWeight := FW_SEMIBOLD; 75: ALogFont^.lfWeight := FW_BOLD; 80: ALogFont^.lfWeight := FW_EXTRABOLD; 87: ALogFont^.lfWeight := FW_HEAVY; end; ALogFont^.lfItalic := Ord(AFont.getItalic) * High(Byte); ALogFont^.lfUnderline := Ord(AFont.getUnderline) * High(Byte); ALogFont^.lfStrikeOut := Ord(AFont.getStrikeOut) * High(Byte); ALogFont^.lfCharSet := DEFAULT_CHARSET; case AFont.getStyleStategy of QFontPreferMatch: ALogFont^.lfQuality := DRAFT_QUALITY; QFontPreferQuality: ALogFont^.lfQuality := PROOF_QUALITY; QFontNoAntialias: ALogFont^.lfQuality := NONANTIALIASED_QUALITY; QFontPreferAntialias: ALogFont^.lfQuality := ANTIALIASED_QUALITY; else ALogFont^.lfQuality := DEFAULT_QUALITY; end; ALogFont^.lfFaceName := UTF16ToUTF8(AFont.getFamily); end; end {------------------------------------------------------------------------------ Pen ------------------------------------------------------------------------------} else if aObject is TQtPen then begin if not APen.IsExtPen then begin if Buf = nil then Result := SizeOf(TLogPen) else if BufSize >= SizeOf(TLogPen) then begin Result := SizeOf(TLogPen); TQColorToColorRef(APen.getColor, ALogPen^.lopnColor); if APen.getCosmetic then ALogPen^.lopnWidth := Point(1, 0) else ALogPen^.lopnWidth := Point(APen.getWidth, 0); ALogPen^.lopnStyle := QtPenStyleToWinStyleMap[APen.getStyle]; end; end else begin i := SizeOf(TExtLogPen); if APen.getStyle = QtCustomDashLine then begin Dashes := APen.getDashPattern; inc(i, (Length(Dashes) - 1) * SizeOf(DWord)); end else Dashes := nil; if Buf = nil then Result := i else if BufSize >= i then begin Result := i; AExtLogPen^.elpPenStyle := QtPenStyleToWinStyleMap[APen.getStyle]; if not APen.getCosmetic then begin AExtLogPen^.elpPenStyle := AExtLogPen^.elpPenStyle or PS_GEOMETRIC; case APen.getJoinStyle of QtMiterJoin: AExtLogPen^.elpPenStyle := AExtLogPen^.elpPenStyle or PS_JOIN_MITER; QtBevelJoin: AExtLogPen^.elpPenStyle := AExtLogPen^.elpPenStyle or PS_JOIN_BEVEL; QtRoundJoin: AExtLogPen^.elpPenStyle := AExtLogPen^.elpPenStyle or PS_JOIN_ROUND; end; case APen.getCapStyle of QtFlatCap: AExtLogPen^.elpPenStyle := AExtLogPen^.elpPenStyle or PS_ENDCAP_FLAT; QtSquareCap: AExtLogPen^.elpPenStyle := AExtLogPen^.elpPenStyle or PS_ENDCAP_SQUARE; QtRoundCap: AExtLogPen^.elpPenStyle := AExtLogPen^.elpPenStyle or PS_ENDCAP_ROUND; end; AExtLogPen^.elpWidth := APen.getWidth; end else AExtLogPen^.elpWidth := 1; AExtLogPen^.elpBrushStyle := BS_SOLID; TQColorToColorRef(APen.getColor, AExtLogPen^.elpColor); AExtLogPen^.elpHatch := 0; AExtLogPen^.elpNumEntries := Length(Dashes); if AExtLogPen^.elpNumEntries > 0 then begin for i := 0 to AExtLogPen^.elpNumEntries - 1 do PDword(@AExtLogPen^.elpStyleEntry)[i] := Trunc(Dashes[i]); end else AExtLogPen^.elpStyleEntry[0] := 0; end; end; end {------------------------------------------------------------------------------ Brush ------------------------------------------------------------------------------} else if aObject is TQtBrush then begin {$ifdef VerboseQtWinAPI} ObjType := 'Brush'; {$endif} end {------------------------------------------------------------------------------ Image ------------------------------------------------------------------------------} else if aObject is TQtImage then begin {$ifdef VerboseQtWinAPI} ObjType := 'Image'; {$endif} if Buf = nil then Result := SizeOf(TDIBSECTION) else begin FillChar(BitmapSection, SizeOf(TDIBSECTION), 0); with TQtImage(aObject) do begin {dsBM - BITMAP} BitmapSection.dsBm.bmType := $4D42; BitmapSection.dsBm.bmWidth := width; BitmapSection.dsBm.bmHeight := height; BitmapSection.dsBm.bmWidthBytes := bytesPerLine; BitmapSection.dsBm.bmPlanes := 1;//Does Bitmap Format support more? BitmapSection.dsBm.bmBitsPixel := depth; BitmapSection.dsBm.bmBits := bits; {dsBmih - BITMAPINFOHEADER} BitmapSection.dsBmih.biSize := 40; BitmapSection.dsBmih.biWidth := BitmapSection.dsBm.bmWidth; BitmapSection.dsBmih.biHeight := BitmapSection.dsBm.bmHeight; BitmapSection.dsBmih.biPlanes := BitmapSection.dsBm.bmPlanes; BitmapSection.dsBmih.biBitCount := BitmapSection.dsBm.bmBitsPixel; BitmapSection.dsBmih.biCompression := 0; BitmapSection.dsBmih.biSizeImage := numBytes; BitmapSection.dsBmih.biXPelsPerMeter := dotsPerMeterX; BitmapSection.dsBmih.biYPelsPerMeter := dotsPerMeterY; BitmapSection.dsBmih.biClrUsed := 0; BitmapSection.dsBmih.biClrImportant := 0; end; if BufSize >= SizeOf(BitmapSection) then begin PDIBSECTION(Buf)^ := BitmapSection; Result := SizeOf(TDIBSECTION); end else if BufSize > 0 then begin Move(BitmapSection, Buf^, BufSize); Result := BufSize; end; end; end; {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI GetObject] Result=', dbgs(Result), ' ObjectType=', ObjType); {$endif} end; function TQtWidgetSet.GetParent(Handle : HWND): HWND; var QtWidget: TQtWidget; begin {$ifdef VerboseQtWinAPI} writeln('Trace:> [WinAPI GetParent] Handle: ' + dbghex(Handle)); {$endif} Result := 0; if Handle = 0 then exit; QtWidget := TQtWidget(Handle); Result := HWND(QtObjectFromWidgetH(QtWidget.getParent)); {$ifdef VerboseQtWinAPI} writeln('Trace:< [WinAPI GetParent] : ' + dbghex(Result)); {$endif} end; function TQtWidgetSet.GetProp(Handle: hwnd; Str: PChar): Pointer; begin if Handle<>0 then result := TQtWidget(Handle).Props[str] else result := nil; end; function TQtWidgetSet.GetRgnBox(RGN : HRGN; lpRect : PRect) : Longint; var R: TRect; begin {$ifdef VerboseQtWinAPI} writeln('Trace:> [WinAPI GetRgnBox] Handle: ' + dbghex(RGN)); {$endif} Result := SIMPLEREGION; if lpRect <> nil then lpRect^ := Rect(0,0,0,0); if not IsValidGDIObject(RGN) then Result := ERROR else begin Result := TQtRegion(RGN).GetRegionType; if not (Result in [ERROR, NULLREGION]) and (lpRect <> nil) then begin R := TQtRegion(RGN).getBoundingRect; with lpRect^ do begin Left := R.Left; Top := R.Top; Right := R.Left + R.Right; Bottom := R.Top + R.Bottom; end; end; end; end; function TQtWidgetSet.GetROP2(DC: HDC): Integer; var QtDC: TQtDeviceContext absolute DC; begin {$ifdef VerboseQtWinAPI} writeln('> TQtWidgetSet.GetROP2() DC ',dbghex(DC)); {$endif} Result := R2_COPYPEN; if not IsValidDC(DC) then exit; Result := QtDC.Rop2; {$ifdef VerboseQtWinAPI} writeln('< TQtWidgetSet.GetROP2() DC ',dbghex(DC),' Result ',Result); {$endif} end; function TQtWidgetSet.GetScrollBarSize(Handle: HWND; BarKind: Integer): integer; var w: TQtWidget; ScrollBar: TQtScrollBar; begin {$ifdef VerboseQtWinAPI} writeln('Trace:> [WinAPI GetScrollBarSize] Handle: ' + dbghex(Handle),' BarKind: ',BarKind); {$endif} Result := 0; if Handle = 0 then exit; w := TQtWidget(Handle); {TODO: find out what to do with TCustomForm descendants } if w is TQtAbstractScrollArea then begin if BarKind in [SM_CXVSCROLL, SM_CYVSCROLL] then ScrollBar := TQtAbstractScrollArea(w).verticalScrollBar else ScrollBar := TQtAbstractScrollArea(w).horizontalScrollBar; end else if w is TQtScrollBar then ScrollBar := TQtScrollBar(w) else ScrollBar := nil; if ScrollBar <> nil then begin if BarKind in [SM_CXHSCROLL, SM_CYVSCROLL] then Result := ScrollBar.getWidth else Result := ScrollBar.getHeight; end; end; function TQtWidgetSet.GetScrollbarVisible(Handle: HWND; SBStyle: Integer): boolean; var w: TQtWidget; ScrollBar: TQtScrollBar; begin {$ifdef VerboseQtWinAPI} writeln('Trace:> [WinAPI GetScrollBarVisible] Handle: ' + dbghex(Handle),' SBStyle: ',SBStyle); {$endif} Result := False; if Handle = 0 then exit; w := TQtWidget(Handle); {TODO: find out what to do with TCustomForm descendants } if w is TQtAbstractScrollArea then begin if SBStyle = SB_VERT then ScrollBar := TQtAbstractScrollArea(w).verticalScrollBar else ScrollBar := TQtAbstractScrollArea(w).horizontalScrollBar; end else if w is TQtScrollBar then ScrollBar := TQtScrollBar(w) else ScrollBar := nil; if ScrollBar <> nil then Result := ScrollBar.getVisible; end; {------------------------------------------------------------------------------ Function: GetScrollInfo Params: BarFlag SB_CTL Retrieves the parameters for a scroll bar control. The hwnd parameter must be the handle to the scroll bar control. SB_HORZ Retrieves the parameters for the window's standard horizontal scroll bar. SB_VERT Retrieves the parameters for the window's standard vertical scroll bar. ScrollInfo returns TScrollInfo structure. Returns: boolean ------------------------------------------------------------------------------} function TQtWidgetSet.GetScrollInfo(Handle: HWND; BarFlag: Integer; Var ScrollInfo: TScrollInfo): Boolean; var QtScrollBar: TQtScrollBar; begin Result := False; if Handle = 0 then exit; if (csDestroying in TQtWidget(Handle).LCLObject.ComponentState) or (csFreeNotification in TQtWidget(Handle).LCLObject.ComponentState) then exit; QtScrollBar := nil; if not TQtWidget(Handle).LCLObject.InheritsFrom(TCustomScrollBar) then begin if (TQtWidget(Handle) is TQtAbstractScrollArea) then begin case BarFlag of SB_HORZ: QtScrollBar := TQtAbstractScrollArea(Handle).horizontalScrollBar; SB_VERT: QtScrollBar := TQtAbstractScrollArea(Handle).verticalScrollBar; end; end else Result := False; end else QtScrollBar := TQtScrollBar(TScrollBar(TQtWidget(Handle).LCLObject).Handle); if Assigned(QtScrollBar) then begin // POS if (ScrollInfo.fMask and SIF_POS) <> 0 then ScrollInfo.nPos := QtScrollBar.getValue; // RANGE if (ScrollInfo.fMask and SIF_RANGE) <> 0 then begin ScrollInfo.nMin:= QtScrollBar.getMin; ScrollInfo.nMax:= QtScrollBar.getMax; end; // PAGE if (ScrollInfo.fMask and SIF_PAGE) <> 0 then ScrollInfo.nPage := QtScrollBar.getPageStep; // TRACKPOS if (ScrollInfo.fMask and SIF_TRACKPOS) <> 0 then ScrollInfo.nTrackPos := QtScrollBar.getSliderPosition; Result := True; end; end; function TQtWidgetSet.GetStockObject(Value: Integer): THandle; begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:> [WinAPI GetStockObject] Value: ', Value); {$endif} Result := 0; case Value of BLACK_BRUSH: // Black brush. Result := FStockBlackBrush; DKGRAY_BRUSH: // Dark gray brush. Result := FStockDKGrayBrush; GRAY_BRUSH: // Gray brush. Result := FStockGrayBrush; LTGRAY_BRUSH: // Light gray brush. Result := FStockLtGrayBrush; NULL_BRUSH: // Null brush (equivalent to HOLLOW_BRUSH). Result := FStockNullBrush; WHITE_BRUSH: // White brush. Result := FStockWhiteBrush; BLACK_PEN: // Black pen. Result := FStockBlackPen; NULL_PEN: // Null pen. Result := FStockNullPen; WHITE_PEN: // White pen. Result := FStockWhitePen; {System font. By default, Windows uses the system font to draw menus, dialog box controls, and text. In Windows versions 3.0 and later, the system font is a proportionally spaced font; earlier versions of Windows used a monospace system font.} DEFAULT_GUI_FONT, SYSTEM_FONT: begin If FStockSystemFont <> 0 then begin DeleteObject(FStockSystemFont); FStockSystemFont := 0; end; If FStockSystemFont = 0 then FStockSystemFont := CreateDefaultFont; Result := FStockSystemFont; end; {$ifdef VerboseQtWinAPI} else WriteLn('[WinAPI GetStockObject] UNHANDLED Value: ', Value); {$endif} end; {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI GetStockObject] Value: ', Value); {$endif} end; {------------------------------------------------------------------------------ Function: TQtWidgetSet.GetSysColor Params: index to the syscolors array Returns: RGB value ------------------------------------------------------------------------------} function TQtWidgetSet.GetSysColor(nIndex: Integer): DWORD; function GetColor(Group: QPaletteColorGroup; Role: QPaletteColorRole; ClassName: PAnsiChar = nil): TColor; var Handle: QPaletteH; QColor: PQColor; QC: QColorH; begin Handle := QPalette_create; if ClassName = nil then QApplication_palette(Handle) else QApplication_palette(Handle, ClassName); QColor := QPalette_color(Handle, Group, Role); QC := QColor_create(QColor); try Result := (QColor_red(QC) and $00FF) or ((QColor_green(QC) and $00FF) shl 8) or ((QColor_blue(QC) and $00FF) shl 16); finally QColor_destroy(QC); end; QPalette_destroy(Handle); end; begin if (nIndex < 0) or (nIndex > MAX_SYS_COLORS) then begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:Unknown lcl system color: [TQtWidgetSet.GetSysColor]'); {$endif} Result := 0; Exit; end; if FCachedColors[nIndex] = nil then begin case nIndex of COLOR_SCROLLBAR : Result:=GetColor(QPaletteActive, QPaletteButton); COLOR_BACKGROUND : Result:=GetColor(QPaletteActive, QPaletteWindow); COLOR_WINDOW : Result:=GetColor(QPaletteInActive, QPaletteBase); COLOR_WINDOWFRAME : Result:=GetColor(QPaletteActive, QPaletteShadow); COLOR_WINDOWTEXT : Result:=GetColor(QPaletteActive, QPaletteWindowText); COLOR_ACTIVEBORDER : Result:=GetColor(QPaletteActive, QPaletteWindow); COLOR_INACTIVEBORDER : Result:=GetColor(QPaletteInactive, QPaletteWindow); COLOR_APPWORKSPACE : Result:=GetColor(QPaletteActive, QPaletteWindow); COLOR_HIGHLIGHT : Result:=GetColor(QPaletteActive, QPaletteHighlight); COLOR_HIGHLIGHTTEXT : Result:=GetColor(QPaletteActive, QPaletteHighlightedText); COLOR_BTNFACE : Result:=GetColor(QPaletteActive, QPaletteButton); COLOR_BTNSHADOW : Result:=GetColor(QPaletteActive, QPaletteDark); COLOR_GRAYTEXT : Result:=GetColor(QPaletteActive, QPaletteText); COLOR_BTNTEXT : Result:=GetColor(QPaletteActive, QPaletteButtonText); COLOR_BTNHIGHLIGHT : Result:=GetColor(QPaletteActive, QPaletteLight); COLOR_3DDKSHADOW : Result:=GetColor(QPaletteActive, QPaletteShadow); COLOR_3DLIGHT : Result:=GetColor(QPaletteActive, QPaletteMidlight); COLOR_INFOTEXT : Result:=GetColor(QPaletteInActive, QPaletteToolTipText); COLOR_INFOBK : Result:=GetColor(QPaletteInActive, QPaletteToolTipBase); COLOR_HOTLIGHT : Result:=GetColor(QPaletteActive, QPaletteLight); // qt does not provide any methods to retrieve titlebar colors {$IFNDEF MSWINDOWS} COLOR_ACTIVECAPTION : Result:=GetColor(QPaletteActive, QPaletteHighlight); COLOR_INACTIVECAPTION : Result:=GetColor(QPaletteInActive, QPaletteHighlight); COLOR_CAPTIONTEXT : Result:=GetColor(QPaletteActive, QPaletteHighlightedText); COLOR_INACTIVECAPTIONTEXT : Result:=GetColor(QPaletteInactive, QPaletteHighlightedText); COLOR_GRADIENTACTIVECAPTION : Result:=GetColor(QPaletteActive, QPaletteBase); COLOR_GRADIENTINACTIVECAPTION : Result:=GetColor(QPaletteInactive, QPaletteBase); {$ELSE} COLOR_ACTIVECAPTION : Result:=Windows.GetSysColor(COLOR_ACTIVECAPTION); COLOR_INACTIVECAPTION : Result:=Windows.GetSysColor(COLOR_INACTIVECAPTION); COLOR_CAPTIONTEXT : Result:=Windows.GetSysColor(COLOR_CAPTIONTEXT); COLOR_INACTIVECAPTIONTEXT : Result:=Windows.GetSysColor(COLOR_INACTIVECAPTIONTEXT); COLOR_GRADIENTACTIVECAPTION : Result:=Windows.GetSysColor(COLOR_GRADIENTACTIVECAPTION); COLOR_GRADIENTINACTIVECAPTION : Result:=Windows.GetSysColor(COLOR_GRADIENTINACTIVECAPTION); {$ENDIF} COLOR_MENU : Result:=GetColor(QPaletteActive, QPaletteButton, 'QMenu'); COLOR_MENUTEXT : Result:=GetColor(QPaletteActive, QPaletteButtonText, 'QMenu'); COLOR_MENUHILIGHT : Result:=GetColor(QPaletteDisabled, QPaletteHighlight, 'QMenu'); COLOR_MENUBAR : Result:=GetColor(QPaletteActive, QPaletteButton, 'QMenu'); COLOR_FORM : Result:=GetColor(QPaletteActive, QPaletteWindow); else Result:=0; end; FCachedColors[nIndex] := getMem(SizeOf(LongWord)); FCachedColors[nIndex]^ := Result; end else Result := FCachedColors[nIndex]^; end; function TQtWidgetSet.GetSysColorBrush(nIndex: Integer): HBrush; function GetBrush(Group: QPaletteColorGroup; Role: QPaletteColorRole; ClassName: PAnsiChar = nil): HBrush; var Handle: QPaletteH; begin Handle := QPalette_create; if ClassName = nil then QApplication_palette(Handle) else QApplication_palette(Handle, ClassName); if FSysColorBrushes[nIndex] = 0 then Result := HBrush(TQtBrush.Create(False)) else Result := FSysColorBrushes[nIndex]; TQtBrush(Result).Widget := QBrush_create(QPalette_brush(Handle, Group, Role)); TQtBrush(Result).FShared := True; QPalette_destroy(Handle); end; function GetSolidBrush(AColor: TColor): HBrush; var Color: TQColor; begin if FSysColorBrushes[nIndex] = 0 then Result := HBrush(TQtBrush.Create(True)) else Result := FSysColorBrushes[nIndex]; Color := QBrush_Color(TQtBrush(Result).Widget)^; ColorRefToTQColor(ColorToRGB(AColor), Color); QBrush_setColor(TQtBrush(Result).Widget, @Color); TQtBrush(Result).FShared := True; end; begin if (nIndex < 0) or (nIndex > MAX_SYS_COLORS) then begin Result := 0; Exit; end; if (FSysColorBrushes[nIndex] = 0) or ( (FSysColorBrushes[nIndex] <> 0) and (TQtBrush(FSysColorBrushes[nIndex]).Widget = nil) ) then begin case nIndex of COLOR_SCROLLBAR : Result:=GetBrush(QPaletteActive, QPaletteButton); COLOR_BACKGROUND : Result:=GetBrush(QPaletteActive, QPaletteWindow); COLOR_WINDOW : Result:=GetBrush(QPaletteInActive, QPaletteBase); COLOR_WINDOWFRAME : Result:=GetBrush(QPaletteActive, QPaletteShadow); COLOR_WINDOWTEXT : Result:=GetBrush(QPaletteActive, QPaletteWindowText); COLOR_ACTIVEBORDER : Result:=GetBrush(QPaletteActive, QPaletteWindow); COLOR_INACTIVEBORDER : Result:=GetBrush(QPaletteInactive, QPaletteWindow); COLOR_APPWORKSPACE : Result:=GetBrush(QPaletteActive, QPaletteWindow); COLOR_HIGHLIGHT : Result:=GetBrush(QPaletteActive, QPaletteHighlight); COLOR_HIGHLIGHTTEXT : Result:=GetBrush(QPaletteActive, QPaletteHighlightedText); COLOR_BTNFACE : Result:=GetBrush(QPaletteActive, QPaletteButton); COLOR_BTNSHADOW : Result:=GetBrush(QPaletteActive, QPaletteDark); COLOR_GRAYTEXT : Result:=GetBrush(QPaletteActive, QPaletteText); COLOR_BTNTEXT : Result:=GetBrush(QPaletteActive, QPaletteButtonText); COLOR_BTNHIGHLIGHT : Result:=GetBrush(QPaletteActive, QPaletteLight); COLOR_3DDKSHADOW : Result:=GetBrush(QPaletteActive, QPaletteShadow); COLOR_3DLIGHT : Result:=GetBrush(QPaletteActive, QPaletteMidlight); COLOR_INFOTEXT : Result:=GetBrush(QPaletteInActive, QPaletteToolTipText); COLOR_INFOBK : Result:=GetBrush(QPaletteInActive, QPaletteToolTipBase); COLOR_HOTLIGHT : Result:=GetBrush(QPaletteActive, QPaletteLight); // qt does not provide any methods to retrieve titlebar colors {$IFNDEF MSWINDOWS} COLOR_ACTIVECAPTION : Result:=GetBrush(QPaletteActive, QPaletteHighlight); COLOR_INACTIVECAPTION : Result:=GetBrush(QPaletteInActive, QPaletteHighlight); COLOR_CAPTIONTEXT : Result:=GetBrush(QPaletteActive, QPaletteHighlightedText); COLOR_INACTIVECAPTIONTEXT : Result:=GetBrush(QPaletteInactive, QPaletteHighlightedText); COLOR_GRADIENTACTIVECAPTION : Result:=GetBrush(QPaletteActive, QPaletteBase); COLOR_GRADIENTINACTIVECAPTION : Result:=GetBrush(QPaletteInactive, QPaletteBase); {$ELSE} COLOR_ACTIVECAPTION : Result:=GetSolidBrush(Windows.GetSysColor(COLOR_ACTIVECAPTION)); COLOR_INACTIVECAPTION : Result:=GetSolidBrush(Windows.GetSysColor(COLOR_INACTIVECAPTION)); COLOR_CAPTIONTEXT : Result:=GetSolidBrush(Windows.GetSysColor(COLOR_CAPTIONTEXT)); COLOR_INACTIVECAPTIONTEXT : Result:=GetSolidBrush(Windows.GetSysColor(COLOR_INACTIVECAPTIONTEXT)); COLOR_GRADIENTACTIVECAPTION : Result:=GetSolidBrush(Windows.GetSysColor(COLOR_GRADIENTACTIVECAPTION)); COLOR_GRADIENTINACTIVECAPTION : Result:=GetSolidBrush(Windows.GetSysColor(COLOR_GRADIENTINACTIVECAPTION)); {$ENDIF} COLOR_MENU : Result:=GetBrush(QPaletteActive, QPaletteButton, 'QMenu'); COLOR_MENUTEXT : Result:=GetBrush(QPaletteActive, QPaletteButtonText, 'QMenu'); COLOR_MENUHILIGHT : Result:=GetBrush(QPaletteDisabled, QPaletteHighlight, 'QMenu'); COLOR_MENUBAR : Result:=GetBrush(QPaletteActive, QPaletteButton, 'QMenu'); COLOR_FORM : Result:=GetBrush(QPaletteActive, QPaletteWindow); else Result:=0; end; FSysColorBrushes[nIndex] := Result; end else Result := FSysColorBrushes[nIndex]; end; {------------------------------------------------------------------------------ Function: GetSystemMetrics Params: Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.GetSystemMetrics(nIndex: Integer): Integer; var R: TRect; begin {$ifdef VerboseQtWinAPI} WriteLn(Format('Trace:> [TQtWidgetSet.GetSystemMetrics] %d', [nIndex])); {$endif} Result := 0; case nIndex of SM_ARRANGE: begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_ARRANGE '); {$endif} end; SM_CLEANBOOT: begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CLEANBOOT '); {$endif} end; SM_CMONITORS: Result := QDesktopWidget_numScreens(QApplication_desktop()); SM_CMOUSEBUTTONS: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CMOUSEBUTTONS '); end; SM_CXBORDER: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXBORDER '); end; SM_CYBORDER: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYBORDER '); end; SM_CXCURSOR: begin Result := 32; // recomended in docs end; SM_CYCURSOR: begin Result := 32; // recomended in docs end; SM_CXDOUBLECLK: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXDOUBLECLK '); end; SM_CYDOUBLECLK: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYDOUBLECLK '); end; SM_CXDRAG: begin Result := 2; end; SM_CYDRAG: begin Result := 2; end; SM_CXEDGE: begin Result := 2; end; SM_CYEDGE: begin Result := 2; end; SM_CXFIXEDFRAME: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXFIXEDFRAME '); end; SM_CYFIXEDFRAME: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYFIXEDFRAME '); end; SM_CXFULLSCREEN: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXFULLSCREEN '); end; SM_CYFULLSCREEN: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYFULLSCREEN '); end; SM_CXHTHUMB: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXHTHUMB '); end; SM_CXICON, SM_CYICON: begin Result := 32; end; SM_CXICONSPACING: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXICONSPACING '); end; SM_CYICONSPACING: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYICONSPACING '); end; SM_CXMAXIMIZED: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXMAXIMIZED '); end; SM_CYMAXIMIZED: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYMAXIMIZED '); end; SM_CXMAXTRACK: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXMAXTRACK '); end; SM_CYMAXTRACK: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYMAXTRACK '); end; SM_CXMENUCHECK: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXMENUCHECK '); end; SM_CYMENUCHECK: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYMENUCHECK '); end; SM_CXMENUSIZE: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXMENUSIZE '); end; SM_CYMENUSIZE: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYMENUSIZE '); end; SM_CXMIN: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXMIN '); end; SM_CYMIN: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYMIN '); end; SM_CXMINIMIZED: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXMINIMIZED '); end; SM_CYMINIMIZED: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYMINIMIZED '); end; SM_CXMINSPACING: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXMINSPACING '); end; SM_CYMINSPACING: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYMINSPACING '); end; SM_CXMINTRACK: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXMINTRACK '); end; SM_CYMINTRACK: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYMINTRACK '); end; SM_CXSCREEN: begin QDesktopWidget_screenGeometry(QApplication_desktop(), @R, QDesktopWidget_primaryScreen(QApplication_desktop())); Result := R.Right - R.Left; end; SM_CYSCREEN: begin QDesktopWidget_screenGeometry(QApplication_desktop(), @R, QDesktopWidget_primaryScreen(QApplication_desktop())); Result := R.Bottom - R.Top; end; SM_CXSIZE: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXSIZE '); end; SM_CYSIZE: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYSIZE '); end; SM_CXSIZEFRAME, SM_CYSIZEFRAME: begin Result := QStyle_pixelMetric(QApplication_style(), QStylePM_MDIFrameWidth, nil, nil); end; SM_CXSMICON, SM_CYSMICON: begin Result := 16 end; SM_CXSMSIZE: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CXSMSIZE '); end; SM_CYSMSIZE: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYSMSIZE '); end; SM_CXVIRTUALSCREEN: begin Result := QWidget_width(QApplication_desktop); end; SM_CYVIRTUALSCREEN: begin Result := QWidget_height(QApplication_desktop); end; SM_CXVSCROLL, SM_CYVSCROLL, SM_CXHSCROLL, SM_CYHSCROLL: begin Result := QStyle_pixelMetric(QApplication_Style, QStylePM_ScrollBarExtent, nil, nil); end; SM_CYCAPTION: begin Result := QStyle_pixelMetric(QApplication_Style, QStylePM_TitleBarHeight, nil, nil); end; SM_CYKANJIWINDOW: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYKANJIWINDOW '); end; SM_CYMENU: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYMENU '); end; SM_CYSMCAPTION: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYSMCAPTION '); end; SM_CYVTHUMB: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_CYVTHUMB '); end; SM_DBCSENABLED: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_DBCSENABLED '); end; SM_DEBUG: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_DEBUG '); end; SM_MENUDROPALIGNMENT: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_MENUDROPALIGNMENT'); end; SM_MIDEASTENABLED: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_MIDEASTENABLED '); end; SM_MOUSEPRESENT: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_MOUSEPRESENT '); end; SM_MOUSEWHEELPRESENT: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_MOUSEWHEELPRESENT'); end; SM_NETWORK: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_NETWORK '); end; SM_PENWINDOWS: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_PENWINDOWS '); end; SM_SECURE: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_SECURE '); end; SM_SHOWSOUNDS: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_SHOWSOUNDS '); end; SM_SLOWMACHINE: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_SLOWMACHINE '); end; SM_SWAPBUTTON: begin Assert(False, 'Trace:TODO: [TQtWidgetSet.GetSystemMetrics] --> SM_SWAPBUTTON '); end; end; end; {------------------------------------------------------------------------------ Function: GetTextColor Params: DC - A device context Returns: TColorRef Gets the Font Color currently assigned to the Device Context ------------------------------------------------------------------------------} function TQtWidgetSet.GetTextColor(DC: HDC) : TColorRef; var Color: TQColor; QtDC: TQtDeviceContext; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI GetTextColor]'); {$endif} Result := 0; if IsValidDC(DC) then begin QtDC := TQtDeviceContext(DC); ColorRefToTQColor(QtDC.vTextColor, Color); TQColorToColorRef(Color, Result); end; end; {------------------------------------------------------------------------------ Function: GetTextExtentPoint Params: none Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.GetTextExtentPoint(DC: HDC; Str: PChar; Count: Integer; var Size: TSize): Boolean; var WideStr: WideString; QtDC: TQtDeviceContext absolute DC; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI GetTextExtentPoint]'); {$endif} Result := False; if not IsValidDC(DC) then Exit; WideStr := GetUtf8String(Str); Size.cx := QtDC.font.Metrics.width(@WideStr, Count); Size.cy := QtDC.font.Metrics.height; Result := True; end; {------------------------------------------------------------------------------ Function: GetTextMetrics Params: DC - A device context with a font selected TM - The structure to receive the font information Returns: If successfull ------------------------------------------------------------------------------} function TQtWidgetSet.GetTextMetrics(DC: HDC; var TM: TTextMetric): Boolean; var QtFontMetrics: TQtFontMetrics; FontFamily: WideString; QtDC: TQtDeviceContext absolute DC; FontWeight: Integer; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI GetTextMetrics]'); {$endif} Result := IsValidDC(DC); if Result then begin QtFontMetrics := QtDC.font.Metrics; TM.tmHeight := QtFontMetrics.height; TM.tmAscent := QtFontMetrics.ascent; TM.tmDescent := QtFontMetrics.descent; TM.tmInternalLeading := 0; TM.tmExternalLeading := QtFontMetrics.leading; {this is due qt bug in fontmetrics::averageCharWidth() under Mac http://trolltech.com/developer/task-tracker/index_html?method=entry&id=169440 } {$IFDEF DARWIN} TM.tmAveCharWidth := QtFontMetrics.charWidth('x',0); {$ELSE} TM.tmAveCharWidth := QtFontMetrics.averageCharWidth; {$ENDIF} TM.tmMaxCharWidth := QtFontMetrics.maxWidth; FontWeight := QtDC.font.getWeight; case FontWeight of 25: TM.tmWeight := FW_LIGHT; 50: TM.tmWeight := FW_NORMAL; 63: TM.tmWeight := FW_SEMIBOLD; 75: TM.tmWeight := FW_BOLD; 87: TM.tmWeight := FW_HEAVY; else TM.tmWeight := Round(FontWeight * 9.5); end; TM.tmOverhang := 0; TM.tmDigitizedAspectX := 0; TM.tmDigitizedAspectY := 0; TM.tmFirstChar := 'a'; TM.tmLastChar := 'z'; TM.tmDefaultChar := 'x'; TM.tmBreakChar := '?'; TM.tmItalic := Ord(QtDC.Font.getItalic); TM.tmUnderlined := Ord(QtDC.Font.getUnderline); TM.tmStruckOut := Ord(QtDC.Font.getStrikeOut); QtDC.font.family(@FontFamily); { Defaults to a TrueType font. Note that the meaning of the FIXED_PITCH constant is the opposite of the name implies, according to MSDN docs. Just a small inconsistency on Windows API that we have to mimic. } if QtDC.font.fixedPitch then TM.tmPitchAndFamily := TRUETYPE_FONTTYPE else TM.tmPitchAndFamily := FIXED_PITCH or TRUETYPE_FONTTYPE; TM.tmCharSet := DEFAULT_CHARSET; end; end; function TQtWidgetSet.GetViewPortExtEx(DC: HDC; Size: PSize): Integer; var R: TRect; begin if IsValidDC(DC) and (Size <> nil) then begin QPainter_ViewPort(TQtDeviceContext(DC).Widget, @R); Size^.cx := R.Right - R.Left; Size^.cy := R.Bottom - R.Top; Result := Integer(True); end else Result := Integer(False); end; function TQtWidgetSet.GetViewPortOrgEx(DC: HDC; P: PPoint): Integer; var R: TRect; begin if IsValidDC(DC) and (P <> nil) then begin QPainter_ViewPort(TQtDeviceContext(DC).Widget, @R); P^ := R.TopLeft; Result := Integer(True); end else Result := Integer(False); end; function TQtWidgetSet.GetWindowExtEx(DC: HDC; Size: PSize): Integer; var R: TRect; begin if IsValidDC(DC) and (Size <> nil) then begin QPainter_Window(TQtDeviceContext(DC).Widget, @R); Size^.cx := R.Right - R.Left; Size^.cy := R.Bottom - R.Top; Result := Integer(True); end else Result := Integer(False); end; function TQtWidgetSet.GetWindowLong(Handle : hwnd; int: Integer): PtrInt; begin Result := 0; {$ifdef VerboseQtWinAPI_MISSING_IMPLEMENTATION} WriteLn('***** [WinAPI TQtWidgetSet.GetWindowLong] missing implementation '); {$endif} end; {------------------------------------------------------------------------------ Method: GetWindowOrgEx Params: DC - Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.GetWindowOrgEx(dc: hdc; P: PPoint): Integer; var Matrix: QTransformH; begin {$ifdef VerboseQtWinAPI} WriteLn('Trace: > [WinAPI GetWindowOrgEx]'); {$endif} Result := 0; if not IsValidDC(DC) and (P<>nil) then begin {$ifdef VerboseQtWinAPI} WriteLn('Trace: < [WinAPI GetWindowOrgEx] No valid DC or P is nil'); {$endif} exit; end; Matrix := QPainter_transform(TQtDeviceContext(DC).Widget); if Matrix <> nil then begin P^.X := -Trunc(QTransform_Dx(Matrix)); P^.Y := -Trunc(QTransform_Dy(Matrix)); result := 1; end; {$ifdef VerboseQtWinAPI} WriteLn('Trace: < [WinAPI GetWindowOrgEx] Result=', dbgs(p^)); {$endif} end; {------------------------------------------------------------------------------ Method: GetWindowRect Params: Handle - handle of window Rect - record for window coordinates Returns: if the function succeeds, the return value is nonzero; if the function fails, the return value is zero Retrieves the dimensions of the bounding rectangle of the specified window. ------------------------------------------------------------------------------} function TQtWidgetSet.GetWindowRect(Handle: HWND; var ARect: TRect): Integer; var APos: TQtPoint; AParent: QWidgetH; R1: TRect; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI GetWindowRect]'); {$endif} Result := 0; { // this code doesnot work sometimes - why? Maybe qt bug? // to test bug one can create 4 pannels with 0 sizes and aligned to differnt sides // then aligned to left and to right panel will return same value APos.x := 0; APos.y := 0; QWidget_mapToGlobal(TQtWidget(Handle).Widget, @APos, @APos); } APos := TQtWidget(Handle).getPos; AParent := TQtWidget(Handle).getParent; if AParent <> nil then QWidget_mapToGlobal(AParent, @APos, @APos); R1 := TQtWidget(Handle).getFrameGeometry; ARect.Left := APos.x; ARect.Top := APos.y; with R1 do begin ARect.Right := ARect.Left + (Right - Left); ARect.Bottom := ARect.Top + (Bottom - Top); end; Result := -1; end; {------------------------------------------------------------------------------ Function: GetWindowRelativePosition Params: Handle : HWND; Returns: true on success returns the current widget Left, Top, relative to the client origin of its parent ------------------------------------------------------------------------------} function TQtWidgetSet.GetWindowRelativePosition(Handle: HWND; var Left, Top: integer): boolean; var R: TRect; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI GetWindowRelativePosition]'); {$endif} R := TQtWidget(Handle).getFrameGeometry; Left := R.Left; Top := R.Top; Result := True; end; {------------------------------------------------------------------------------ Function: GetWindowSize Params: Handle : hwnd; Returns: true on success Returns the current widget Width and Height ------------------------------------------------------------------------------} function TQtWidgetSet.GetWindowSize(Handle: hwnd; var Width, Height: integer): boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI GetWindowSize]'); {$endif} with TQtWidget(Handle).getSize do begin Height := cy; Width := cx; end; Result := True; // Here we should convert top level lcl window coordinaties to qt coord // Due to borders and etc // ? end; {------------------------------------------------------------------------------ Function: GradientFill Params: DC - DeviceContext to perform on Vertices - array of Points W/Color & Alpha NumVertices - Number of Vertices Meshes - array of Triangle or Rectangle Meshes, each mesh representing one Gradient Fill NumMeshes - Number of Meshes Mode - Gradient Type, either Triangle, Vertical Rect, Horizontal Rect Returns: true on success Performs multiple Gradient Fills, either a Three way Triangle Gradient, or a two way Rectangle Gradient, each Vertex point also supports optional Alpha/Transparency for more advanced Gradients. ------------------------------------------------------------------------------} function TQtWidgetSet.GradientFill(DC: HDC; Vertices: PTriVertex; NumVertices : Longint; Meshes: Pointer; NumMeshes : Longint; Mode : Longint): boolean; function DoFillTriangle : Boolean; begin Result := (Mode and GRADIENT_FILL_TRIANGLE) = GRADIENT_FILL_TRIANGLE; end; function DoFillVRect : Boolean; begin Result := (Mode and GRADIENT_FILL_RECT_V) = GRADIENT_FILL_RECT_V; end; procedure GetGradientBrush(BeginColor, EndColor : TColorRef; Position, TotalSteps : Longint; var GradientBrush : hBrush); var R1, G1, B1 : Integer; R2, G2, B2 : Integer; NewBrush : TLogBrush; begin GetRGBIntValues(BeginColor,R1,G1,B1); GetRGBIntValues(EndColor,R2,G2,B2); R1 := R1 + (Position*(R2 - R1) div TotalSteps); G1 := G1 + (Position*(G2 - G1) div TotalSteps); B1 := B1 + (Position*(B2 - B1) div TotalSteps); with NewBrush do begin lbStyle := BS_SOLID; lbColor := RGB(R1,G1,B1); end; if GradientBrush <> 0 then LCLIntf.DeleteObject(GradientBrush); GradientBrush := LCLIntf.CreateBrushIndirect(NewBrush); end; function FillTriMesh(Mesh : tagGradientTriangle) : Boolean; {var V1, V2, V3 : tagTRIVERTEX; C1, C2, C3 : TColorRef; begin With Mesh do begin Result := (Vertex1 < NumVertices) and (Vertex2 >= 0) and (Vertex2 < NumVertices) and (Vertex2 >= 0) and (Vertex3 < NumVertices) and (Vertex3 >= 0); If (Vertex1 = Vertex2) or (Vertex1 = Vertex3) or (Vertex2 = Vertex3) or not Result then exit; V1 := Vertices[Vertex1]; V2 := Vertices[Vertex2]; V3 := Vertices[Vertex3]; //Check to make sure they are in reasonable positions.. //then what?? end;} begin Result := False; end; function FillRectMesh(Mesh : tagGradientRect) : boolean; var TL,BR : tagTRIVERTEX; StartColor, EndColor : TColorRef; I, Swap : Longint; SwapColors : Boolean; UseBrush : hBrush; Steps, MaxSteps: Int64; begin with Mesh do begin Result := (UpperLeft < NumVertices) and (UpperLeft >= 0) and (LowerRight < NumVertices) and (LowerRight >= 0); if (LowerRight = UpperLeft) or not Result then exit; TL := Vertices[UpperLeft]; BR := Vertices[LowerRight]; SwapColors := (BR.Y < TL.Y) and (BR.X < TL.X); if BR.X < TL.X then begin Swap := BR.X; BR.X := TL.X; TL.X := Swap; end; if BR.Y < TL.Y then begin Swap := BR.Y; BR.Y := TL.Y; TL.Y := Swap; end; StartColor := RGB(TL.Red shr 8, TL.Green shr 8, TL.Blue shr 8); EndColor := RGB(BR.Red shr 8, BR.Green shr 8, BR.Blue shr 8); if SwapColors then begin Swap := StartColor; StartColor := EndColor; EndColor := Swap; end; UseBrush := 0; MaxSteps := GetDeviceCaps(DC, BITSPIXEL); if MaxSteps >= 32 then MaxSteps := $FFFFFFFF else if MaxSteps >= 4 then MaxSteps := 1 shl MaxSteps else MaxSteps := 256; if DoFillVRect then begin Steps := Min(BR.Y - TL.Y, MaxSteps); for I := 0 to Steps - 1 do begin GetGradientBrush(StartColor, EndColor, I, Steps, UseBrush); LCLIntf.FillRect(DC, Rect(TL.X, TL.Y + I, BR.X, TL.Y + I + 1), UseBrush); end; end else begin Steps := Min(BR.X - TL.X, MaxSteps); for i := 0 to Steps - 1 do begin GetGradientBrush(StartColor, EndColor, I, Steps, UseBrush); LCLIntf.FillRect(DC, Rect(TL.X + I, TL.Y, TL.X + I + 1, BR.Y), UseBrush); end; end; If UseBrush <> 0 then LCLIntf.DeleteObject(UseBrush); end; end; const MeshSize: Array[Boolean] of Integer = ( SizeOf(tagGradientRect), SizeOf(tagGradientTriangle)); var i : Integer; begin {$ifdef VerboseQtWinAPI} WriteLn('***** [WinAPI TQtWidgetSet.GradientFill] '); {$endif} //Currently Alpha blending is ignored... Ideas anyone? Result := (Meshes <> nil) and (NumMeshes >= 1) and (NumVertices >= 2) and (Vertices <> nil); if Result and DoFillTriangle then Result := NumVertices >= 3; if Result then begin Result := False; //Sanity Checks For Vertices Size vs. Count if MemSize(Vertices) < PtrUInt(SizeOf(tagTRIVERTEX)*NumVertices) then exit; //Sanity Checks For Meshes Size vs. Count if MemSize(Meshes) < PtrUInt(MeshSize[DoFillTriangle]*NumMeshes) then exit; for I := 0 to NumMeshes - 1 do begin if DoFillTriangle then begin If Not FillTriMesh(PGradientTriangle(Meshes)[I]) then exit; end else begin if not FillRectMesh(PGradientRect(Meshes)[I]) then exit; end; end; Result := True; end; end; function TQtWidgetSet.HideCaret(hWnd: HWND): Boolean; begin Result := (hWnd <> 0) and QtCaret.HideCaret(TQtWidget(hWnd)); end; {------------------------------------------------------------------------------ Procedure: InitializeCriticalSection Params: var CritSection: TCriticalSection Returns: ------------------------------------------------------------------------------} procedure TQtWidgetSet.InitializeCriticalSection(var CritSection: TCriticalSection); var ACritSec: System.PRTLCriticalSection; begin New(ACritSec); System.InitCriticalSection(ACritSec^); CritSection:=TCriticalSection(ACritSec); end; function TQtWidgetSet.IntersectClipRect(dc: hdc; Left, Top, Right, Bottom: Integer): Integer; var QtDC: TQtDeviceContext absolute dc; IntersectRgn, Rgn: QRegionH; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI TQtWidgetSet.IntersectClipRect] '); {$endif} Result := ERROR; if not IsValidDC(DC) then exit; IntersectRgn := QRegion_create(Left, Top, Right - Left, Bottom - Top); Rgn := QRegion_create; try if QtDC.getClipping then begin QPainter_clipRegion(QtDC.Widget, Rgn); if QRegion_isEmpty(Rgn) then QtDC.setClipRegion(IntersectRgn) else QtDC.setClipRegion(IntersectRgn, QtIntersectClip); end else begin QtDC.setClipRegion(InterSectRgn); QPainter_clipRegion(QtDC.Widget, Rgn); end; QtDC.setClipping(True); Result := QtDC.GetRegionType(Rgn); finally QRegion_destroy(IntersectRgn); QRegion_destroy(Rgn); end; end; function TQtWidgetSet.IsIconic(Handle: HWND): boolean; begin Result := TQtWidget(Handle).isMinimized; end; function TQtWidgetSet.IsWindow(handle: HWND): boolean; begin Result := IsValidHandle(Handle); end; function TQtWidgetSet.IsWindowEnabled(Handle: HWND): boolean; begin Result := TQtWidget(Handle).getEnabled; end; function TQtWidgetSet.IsWindowVisible(Handle: HWND): boolean; begin Result := TQtWidget(Handle).getVisible; end; function TQtWidgetSet.IsZoomed(Handle: HWND): boolean; begin Result := TQtWidget(Handle).isMaximized; end; {------------------------------------------------------------------------------ Function: InvalidateRect Params: aHandle: Rect: bErase: Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.InvalidateRect(aHandle: HWND; Rect: pRect; bErase: Boolean): Boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI Invalidate Rect]'); {$endif} if Rect <> nil then begin with TQtWidget(aHandle).getClientOffset do OffsetRect(Rect^, x, y); // no need to handle bErase. Qt automatically erase rect on paint event according to docs TQtWidget(aHandle).Update(Rect); end else TQtWidget(aHandle).Update; Result := True; end; {------------------------------------------------------------------------------ Procedure: LeaveCriticalSection Params: var CritSection: TCriticalSection Returns: Nothing ------------------------------------------------------------------------------} procedure TQtWidgetSet.LeaveCriticalSection(var CritSection: TCriticalSection); var ACritSec: System.PRTLCriticalSection; begin ACritSec:=System.PRTLCriticalSection(CritSection); System.LeaveCriticalsection(ACritSec^); end; {------------------------------------------------------------------------------ Function: LineTo Params: none Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.LineTo(DC: HDC; X, Y: Integer): Boolean; var PenPos, LastPos: TPoint; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI LineTo]'); {$endif} Result := False; if not IsValidDC(DC) then Exit; TQtDeviceContext(DC).getPenPos(@PenPos); LastPos := Point(X, Y); if TQtDeviceContext(DC).pen.getCosmetic then LastPos := TQtDeviceContext(DC).GetLineLastPixelPos(PenPos, LastPos); TQtDeviceContext(DC).drawLine(PenPos.X, PenPos.Y, LastPos.X, LastPos.Y); MoveToEx(DC, X, Y, nil); Result := True; end; function TQtWidgetSet.LPtoDP(DC: HDC; var Points; Count: Integer): BOOL; var P: PPoint; QtPoint: TQtPoint; Matrix: QTransformH; QtDC: TQtDeviceContext; Inverted: Boolean; begin Result := False; if not IsValidDC(DC) then Exit; QtDC := TQtDeviceContext(DC); Matrix := QPainter_transform(QtDC.Widget); P := @Points; while Count > 0 do begin Dec(Count); QtPoint.X := P^.X; QtPoint.Y := P^.Y; QTransform_map(Matrix, PQtPoint(@QtPoint), PQtPoint(@QtPoint)); P^.X := QtPoint.X; P^.Y := QtPoint.Y; Inc(P); end; Result := True; end; function TQtWidgetSet.MessageBox(hWnd: HWND; lpText, lpCaption: PChar; uType: Cardinal): integer; var Str: WideString; TitleStr: WideString; OkStr: WideString; begin Str := GetUtf8String('TQtWidgetSet.MessageBox - not implemented'); TitleStr := GetUtf8String(lpCaption); OkStr := GetUtf8String('Ok'); Result := QMessageBox_information(TQtWidget(hWnd).Widget, @Str, @TitleStr, @OkStr); end; {------------------------------------------------------------------------------ Function: MoveToEx Params: none Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.MoveToEx(DC: HDC; X, Y: Integer; OldPoint: PPoint): Boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI MoveToEx]', ' DC:', dbghex(DC), ' X:', dbgs(X), ' Y:', dbgs(Y)); {$endif} Result := False; if not IsValidDC(DC) then Exit; if (OldPoint <> nil) then TQtDeviceContext(DC).getPenPos(OldPoint); TQtDeviceContext(DC).setPenPos(X, Y); Result := True; end; function TQtWidgetSet.PeekMessage(var lpMsg : TMsg; Handle : HWND; wMsgFilterMin, wMsgFilterMax,wRemoveMsg : UINT): Boolean; begin Result := False; {$ifdef VerboseQtWinAPI_MISSING_IMPLEMENTATION} WriteLn('***** [WinAPI TQtWidgetSet.PeekMessage] missing implementation '); {$endif} end; {------------------------------------------------------------------------------ Function: PolyBezier Params: DC: HDC; Points: PPoint; NumPts: Integer; Filled: Boolean; Continuous: Boolean Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.PolyBezier(DC: HDC; Points: PPoint; NumPts: Integer; Filled, Continuous: Boolean): Boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI PolyBezier] DC: ', dbghex(DC)); {$endif} Result := inherited PolyBezier(DC, Points, NumPts, Filled, Continuous); end; {------------------------------------------------------------------------------ Function: Polygon Params: DC: HDC; Points: PPoint; NumPts: Integer; Winding: Boolean Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.Polygon(DC: HDC; Points: PPoint; NumPts: Integer; Winding: Boolean): boolean; var QtPoints: PQtPoint; i: integer; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI Polygon] DC: ', dbghex(DC)); {$endif} Result := IsValidDC(DC); if Result then begin GetMem(QtPoints, NumPts * SizeOf(TQtPoint)); for i := 0 to NumPts - 1 do QtPoints[i] := QtPoint(Points[i].x, Points[i].y); if Winding then QPainter_drawPolygon(TQtDeviceContext(DC).Widget, QtPoints, NumPts, QtWindingFill) else QPainter_drawPolygon(TQtDeviceContext(DC).Widget, QtPoints, NumPts, QtOddEvenFill); FreeMem(QtPoints); end; end; {------------------------------------------------------------------------------ Function: Polyline Params: DC: HDC; Points: PPoint; NumPts: Integer Returns: Nothing ------------------------------------------------------------------------------} function TQtWidgetSet.Polyline(DC: HDC; Points: PPoint; NumPts: Integer): boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI Polyline] DC: ', dbghex(DC)); {$endif} Result := IsValidDC(DC) and (NumPts > 0); if Result then TQtDeviceContext(DC).DrawPolyLine(Points, NumPts); end; function TQtWidgetSet.PostMessage(Handle: HWND; Msg: Cardinal; wParam: WParam; lParam: LParam): Boolean; var Widget: TQtWidget absolute Handle; Event: QLCLMessageEventH; begin Result := False; if Handle <> 0 then begin Event := QLCLMessageEvent_create(QEventLCLMessage, Msg, wParam, lParam, 0); QCoreApplication_postEvent(Widget.Widget, Event, 1 {high priority}); Result := True; end; end; function TQtWidgetSet.PtInRegion(RGN: HRGN; X, Y: Integer): Boolean; begin Result := False; if not IsValidGDIObject(RGN) then exit; Result := TQtRegion(RGN).containsPoint(X, Y); end; {------------------------------------------------------------------------------ Function: Rectangle Params: DC: HDC; X1, Y1, X2, Y2: Integer Returns: Nothing The Rectangle function draws a rectangle. The rectangle is outlined by using the current pen and filled by using the current brush. ------------------------------------------------------------------------------} function TQtWidgetSet.Rectangle(DC: HDC; X1, Y1, X2, Y2: Integer): Boolean; var R: TRect; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI Rectangle] DC: ', dbghex(DC)); {$endif} if not IsValidDC(DC) then Exit(False); R := NormalizeRect(Rect(X1, Y1, X2, Y2)); if IsRectEmpty(R) then Exit(True); TQtDeviceContext(DC).drawRect(R.Left, R.Top, R.Right - R.Left - 1, R.Bottom - R.Top - 1); Result := True; end; function TQtWidgetSet.RectVisible(dc : hdc; const ARect: TRect) : Boolean; var QtDC: TQtDeviceContext; begin {$ifdef VerboseQtWinAPI} writeln('[WinAPI RectVisible] '); {$endif} Result := False; if not IsValidDC(DC) then Exit; QtDC := TQtDeviceContext(DC); // as MSDN says only clipping region can play here if QtDC.getClipping then Result := QtDC.getClipRegion.containsRect(ARect); end; {------------------------------------------------------------------------------ Function: RedrawWindow Params: Wnd: lprcUpdate: hrgnUpdate: flags: Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.RedrawWindow(Wnd: HWND; lprcUpdate: PRECT; hrgnUpdate: HRGN; flags: UINT): Boolean; var QtWidget: TQtWidget absolute Wnd; Region: TQtRegion absolute hrgnUpdate; begin if (lprcUpdate = nil) and (hrgnUpdate = 0) then begin if Wnd = 0 then begin // redraw desktop Exit(False); end; QWidget_update(QtWidget.Widget); Exit(True); end; if Region = nil then Result := InvalidateRect(Wnd, lprcUpdate, False) else begin QWidget_update(QtWidget.Widget, Region.Widget); Result := True; end; end; function TQtWidgetSet.ReleaseCapture: Boolean; var w: TQtWidget; begin w := TQtWidget(GetCapture); Result := w <> nil; if Result then begin {$IFDEF MSWINDOWS} windows.ReleaseCapture; {$ELSE} w.releaseMouse(); {$ENDIF} end; {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI ReleaseCapture] Capture = ', THandle(w)); {$endif} end; {------------------------------------------------------------------------------ Function: ReleaseDC Params: hWnd: Handle to the window whose DC is to be released. hDC: Handle to the DC to be released. Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.ReleaseDC(hWnd: HWND; DC: HDC): Integer; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI ReleaseDC]', ' hWnd: ', dbghex(hWnd), ' DC: ', dbghex(DC)); {$endif} Result := 0; if IsValidDC(DC) then Exit; Result := 1; end; {------------------------------------------------------------------------------ Function: RestoreDC: Restore a previously saved DC state Params: DC: Handle to a DeviceContext SavedDC: Index of saved state that needs to be restored Returns: True if state was successfuly restored. -------------------------------------------------------------------------------} function TQtWidgetSet.RestoreDC(DC: HDC; SavedDC: Integer): Boolean; var DCData: PQtDCData; begin {$ifdef VerboseQTWinAPI} WriteLn('Trace:> [WinAPI RestoreDC] DC=', dbghex(DC),' SavedDC=',SavedDC); {$Endif} // if SavedDC is positive, it represents the wished saved dc instance // if SavedDC is negative, it's a relative number from last pushed state Result := False; if SavedDCList=nil then begin {$ifdef VerboseQTWinAPI} WriteLn('Trace:< [WinAPI RestoreDC] there is no List yet, result=', result); {$Endif} exit; end; if SavedDC < 0 then SavedDC := SavedDC + SavedDCList.Count; // check index Result := (SavedDC > 0) and (SavedDC < SavedDCList.Count); if Result then begin Result := true; while SavedDC > 0 do begin DCData := PQtDcData(SavedDCList[SavedDC]); SavedDCList.Delete(SavedDC); Result := TQtDeviceContext(DC).RestoreDCData(DCData); Dec(SavedDC); end; end; {$ifdef VerboseQTWinAPI} WriteLn('Trace:< [WinAPI RestoreDC]'); {$Endif} end; function TQtWidgetSet.RoundRect(DC: hDC; X1, Y1, X2, Y2: Integer; RX,RY : Integer): Boolean; var R: TRect; begin Result := False; if not IsValidDC(DC) then begin {$ifdef VerboseQTWinAPI} WriteLn('Trace:< [WinAPI RoundRect] DC Invalid, result=', result); {$Endif} Exit; end; R := NormalizeRect(Rect(X1, Y1, X2, Y2)); if IsRectEmpty(R) then Exit(True); TQtDeviceContext(Dc).drawRoundRect(R.Left, R.Top, R.Right - R.Left - 1, R.Bottom - R.Top - 1, RX, RY); Result := True; end; {------------------------------------------------------------------------------ Function: SaveDC: save DC state information to a stack Params: DC Returns: The index assigned to the or 0 if DC is not valid -------------------------------------------------------------------------------} function TQtWidgetSet.SaveDC(DC: HDC): Integer; var DCData: PQtDCData; begin {$ifdef VerboseQTWinAPI} WriteLn('Trace:> [WinAPI SaveDC] DC=', dbghex(DC)); {$Endif} result:=0; if not IsValidDC(DC) then begin {$ifdef VerboseQTWinAPI} WriteLn('Trace:< [WinAPI SaveDC] DC Invalid, result=', result); {$Endif} exit; end; if SavedDCList=nil then begin SavedDCList := TFPList.Create; SavedDCList.Add(nil); // start at index 1, 0 is an invalid saved state end; DCData := TQtDeviceContext(DC).CreateDCData; Result := 1; SavedDCList.Insert(Result, DCData); {$ifdef VerboseQTWinAPI} WriteLn('Trace:< [WinAPI SaveDC] result=', Result); {$Endif} end; {------------------------------------------------------------------------------ Function: ScreenToClient Params: Handle: HWND; var P: TPoint Returns: -------------------------------------------------------------------------------} function TQtWidgetSet.ScreenToClient(Handle : HWND; var P : TPoint) : Integer; var APoint: TQtPoint; begin Result := 0; if Handle <> 0 then begin APoint := QtPoint(P.X, P.Y); QWidget_mapFromGlobal(TQtWidget(Handle).GetContainerWidget, @APoint, @APoint); P := Point(APoint.x, APoint.y); Result := 1; end; end; {------------------------------------------------------------------------------ Method: ScrollWindowEx Params: HWnd - handle of window to scroll DX - horizontal amount to scroll DY - vertical amount to scroll PRcScroll - pointer to scroll rectangle PRcClip - pointer to clip rectangle HRgnUpdate - handle of update region PRcUpdate - pointer to update rectangle Flags - scrolling flags Returns: True if succesfull The ScrollWindowEx function scrolls the content of the specified window's client area ------------------------------------------------------------------------------} function TQtWidgetSet.ScrollWindowEx(HWnd: HWND; DX, DY: Integer; PRcScroll, PRcClip: PRect; HRgnUpdate: HRGN; PRcUpdate: PRect; Flags: UINT): Boolean; var R: TRect; W: TQtWidget; begin Result := False; if (HWND = 0) then exit; W := TQtWidget(HWND); if ((Flags and SW_SCROLLCHILDREN) <> 0) or (PRcScroll = nil) then W.scroll(dx, dy, nil) else W.scroll(dx, dy, @PRcScroll); if ((Flags and SW_INVALIDATE) <> 0) then begin if IsValidGDIObject(HRgnUpdate) then begin R := TQtRegion(HRgnUpdate).getBoundingRect; PRcUpdate := @R; W.Update(@R); end else if PRcClip <> nil then begin PRcUpdate := PRcClip; W.Update(PrcClip); end; end; Result := True; end; {------------------------------------------------------------------------------ Function: SelectClipRGN Params: DC, RGN Returns: longint Sets the DeviceContext's ClipRegion. The Return value is the new clip regions type, or ERROR. The result can be one of the following constants Error NullRegion SimpleRegion ComplexRegion ------------------------------------------------------------------------------} function TQtWidgetSet.SelectClipRGN(DC: hDC; RGN: HRGN): Longint; var QtDC: TQtDeviceContext; EmptyRegion: QRegionH; P: TPoint; begin Result := ERROR; if IsValidDC(DC) then begin QtDC := TQtDeviceContext(DC); if IsValidGDIObject(RGN) then begin Result := TQtRegion(Rgn).GetRegionType; // RGN is in Device coordinates. Qt expects logical coordinates // so we need to convert RGN coords, // but only if our painter clips already, otherwise we have a mess ! if QtDC.getClipping then begin GetWindowOrgEx(DC, @P); TQtRegion(Rgn).translate(P.X, P.Y); end; QtDC.setClipRegion(TQtRegion(Rgn).Widget); end else begin EmptyRegion := QRegion_create; try QtDC.setClipRegion(EmptyRegion, QtNoClip); finally QRegion_destroy(EmptyRegion); end; Result := NULLREGION; end; end; end; {------------------------------------------------------------------------------ Function: SelectObject Params: none Returns: The GDI object of the same type previously associated with the DC Changes one of the GDI objects (Font, Brush, etc) of a Device Context; ------------------------------------------------------------------------------} function TQtWidgetSet.SelectObject(DC: HDC; GDIObj: HGDIOBJ): HGDIOBJ; var aObject: TObject; {$ifdef VerboseQtWinAPI} ObjType: string; {$endif} begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:> [WinAPI SelectObject]', ' DC=', dbghex(DC), ' GDIObj=', dbghex(GDIObj)); {$endif} Result := 0; if not IsValidDC(DC) then begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI SelectObject] Invalid DC'); {$endif} Exit; end; if not IsValidGDIObject(GDIObj) then begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI SelectObject] Invalid GDI Object'); {$endif} Exit; end; aObject := TObject(GDIObj); if aObject is TQtFont then begin {$ifdef VerboseQtWinAPI} ObjType := 'Font'; {$endif} Result := HGDIOBJ(TQtDeviceContext(DC).font); TQtDeviceContext(DC).setFont(TQtFont(aObject)); end else if aObject is TQtPen then begin {$ifdef VerboseQtWinAPI} ObjType := 'Pen' ; {$endif} result := HGDIOBJ(TQtDeviceContext(DC).pen); TQtDeviceContext(DC).setPen(TQtPen(aObject)); end else if aObject is TQtBrush then begin {$ifdef VerboseQtWinAPI} ObjType := 'Brush'; {$endif} Result := HGDIOBJ(TQtDeviceContext(DC).brush); TQtDeviceContext(DC).setBrush(TQtBrush(aObject)); end else if aObject is TQtImage then begin {$ifdef VerboseQtWinAPI} ObjType := 'Image'; {$endif} Result := HGDIOBJ(TQtDeviceContext(DC).vImage); // TODO: is this also saved in qpainter_save? TQtDeviceContext(DC).setImage(TQtImage(aObject)); end; {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI SelectObject] Result=', dbghex(Result), ' ObjectType=', ObjType); {$endif} end; function TQtWidgetSet.SendMessage(HandleWnd: HWND; Msg: Cardinal; WParam: WParam; LParam: LParam): LResult; var Widget: TQtWidget absolute HandleWnd; Event: QLCLMessageEventH; begin Result := 0; if HandleWnd <> 0 then begin Event := QLCLMessageEvent_create(QEventLCLMessage, Msg, wParam, lParam, 0); try QCoreApplication_sendEvent(Widget.Widget, Event); Result := QLCLMessageEvent_getMsgResult(Event); finally QLCLMessageEvent_destroy(Event); end; end; end; function TQtWidgetSet.SetActiveWindow(Handle: HWND): HWND; begin Result := GetActiveWindow; if Handle <> 0 then TQtWidget(Handle).Activate else Result := 0; // error end; {------------------------------------------------------------------------------ Function: SetBKColor Params: X: Y: Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.SetBKColor(DC: HDC; Color: TColorRef): TColorRef; begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:> [WinAPI SetBkColor]', ' DC: ', dbghex(DC), ' Color: ', dbgs(Color)); {$endif} Result := 0; if not IsValidDC(DC) then begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI SetBkColor] Invalid DC'); {$endif} Exit; end; result := TQtDeviceContext(DC).SetBkColor(Color); end; {------------------------------------------------------------------------------ Method: SetBkMode Params: DC - Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.SetBkMode(DC: HDC; bkMode: Integer): Integer; begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:> [WinAPI SetBkMode] DC=', dbghex(DC), ' BkMode=', dbgs(bkMode)); {$endif} Result := 0; if not IsValidDC(DC) then begin {$ifdef VerboseQtWinAPI} WriteLn('Trace:< [WinAPI SetBkMode] Invalid DC'); {$endif} Exit; end; result := TQtDeviceContext(DC).SetBkMode(bkMode); end; function TQtWidgetSet.SetCapture(AHandle: HWND): HWND; var Message: TLMessage; begin Result := GetCapture; if Result <> AHandle then begin if Result <> 0 then ReleaseCapture; if AHandle <> 0 then {$IFDEF MSWINDOWS} Windows.SetCapture(AHandle); {$ELSE} TQtWidget(AHandle).grabMouse(); {$ENDIF} {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI SetCapture] Capture = ', Result, ' New capture = ', AHandle); {$endif} if Result <> 0 then begin FillChar(Message, SizeOf(Message), 0); Message.msg := LM_CAPTURECHANGED; Message.wParam := 0; Message.lParam := Result; LCLMessageGlue.DeliverMessage(TQtWidget(AHandle).LCLObject, Message); end; end; end; function TQtWidgetSet.SetCaretPos(X, Y: Integer): Boolean; begin Result := QtCaret.SetCaretPos(X, Y); end; function TQtWidgetSet.SetCaretPosEx(Handle: HWnd; X, Y: Integer): Boolean; begin Result := QtCaret.SetCaretPos(X, Y); end; function TQtWidgetSet.SetCaretRespondToFocus(handle: HWND; ShowHideOnFocus: boolean): Boolean; begin Result := True; QtCaret.SetQtCaretRespondToFocus(ShowHideOnFocus); end; {------------------------------------------------------------------------------ Function: SetCursor Params: ACursor - HCursor (TQtCursor) Returns: previous global cursor ------------------------------------------------------------------------------} function TQtWidgetSet.SetCursor(ACursor: HCURSOR): HCURSOR; begin Result := HCURSOR(OverrideCursor); if Result = ACursor then Exit; if Screen.Cursors[crDefault] = ACursor then OverrideCursor := nil else OverrideCursor := TQtCursor(ACursor); end; {------------------------------------------------------------------------------ Function: SetCursorPos Params: X: Y: Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.SetCursorPos(X, Y: Integer): Boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI SetCursorPos]'); {$endif} QCursor_setPos(X, Y); Result := True; end; {------------------------------------------------------------------------------ Function: SetFocus Params: hWnd - Window handle to be focused Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.SetFocus(hWnd: HWND): HWND; var QtEdit: IQtEdit; begin if hwnd<>0 then begin {$ifdef VerboseFocus} WriteLn('********* TQtWidgetSet.SetFocus INIT focusing ', TQtWidget(hwnd).lclobject.name); {$endif} result := GetFocus; if (Result <> 0) and (Result <> hWnd) and not ((TQtWidget(Hwnd) is TQtMainWindow) or (TQtWidget(Result) is TQtMainWindow)) and Supports(TQtWidget(Result), IQtEdit, QtEdit) then QWidget_clearFocus(TQtWidget(Result).Widget); TQtWidget(hWnd).setFocus; {$ifdef VerboseFocus} DebugLn('********* TQtWidgetSet.SetFocus END was %x now is %x',[result,hwnd]); {$endif} end; end; function TQtWidgetSet.SetForegroundWindow(HWnd: HWND): boolean; begin TQtWidget(HWnd).Activate; Result := True; end; function TQtWidgetSet.SetMenu(AWindowHandle: HWND; AMenuHandle: HMENU): Boolean; var AWidget, AMenuWidget: TQtWidget; QtMainWindow: TQtMainWindow absolute AWidget; QtMenuBar: TQtMenuBar absolute AMenuWidget; R, R1: TRect; begin AWidget := TQtWidget(AWindowHandle); Result := AWidget is TQtMainWindow; if Result then begin AMenuWidget := TQtWidget(AMenuHandle); if AMenuWidget is TQtMenuBar then begin R := AWidget.LCLObject.ClientRect; R1 := QtMainWindow.MenuBar.getGeometry; R1.Right := R.Right; QtMenuBar.setGeometry(R1); QtMainWindow.setMenuBar(QMenuBarH(QtMenuBar.Widget)); end else QtMainWindow.setMenuBar(QMenuBarH(QtMainWindow.MenuBar.Widget)); end; end; function TQtWidgetSet.SetParent(hWndChild: HWND; hWndParent: HWND): HWND; var OldVisible: Boolean; begin Result := GetParent(hWndChild); OldVisible := TQtWidget(hWndChild).getVisible; TQtWidget(hWndChild).setParent(TQtWidget(hWndParent).GetContainerWidget); TQtWidget(hWndChild).setVisible(OldVisible); end; function TQtWidgetSet.SetMapMode(DC: HDC; fnMapMode : Integer): Integer; var AWindowExt: TPoint; R: TRect; begin if IsValidDC(DC) then begin if fnMapMode <> TQtDeviceContext(DC).vMapMode then begin case fnMapMode of MM_ANISOTROPIC:; // user's choice MM_ISOTROPIC:; // adjusted after each SetViewPortExtEx call (see MSDN for details) MM_HIENGLISH: AWindowExt := Point(1000, -1000); MM_HIMETRIC: AWindowExt := Point(2540, -2540); MM_LOENGLISH: AWindowExt := Point(100, -100); MM_LOMETRIC: AWindowExt := Point(254, -254); MM_TWIPS: AWindowExt := Point(1440, -1440); else fnMapMode := MM_TEXT; end; TQtDeviceContext(DC).vMapMode := fnMapMode; QPainter_setViewTransformEnabled(TQtDeviceContext(DC).Widget, fnMapMode <> MM_TEXT); if not (fnMapMode in [MM_TEXT, MM_ANISOTROPIC, MM_ISOTROPIC]) then begin QPainter_Window(TQtDeviceContext(DC).Widget, @R); R.BottomRight := AWindowExt; QPainter_setWindow(TQtDeviceContext(DC).Widget, @R); QPainter_ViewPort(TQtDeviceContext(DC).Widget, @R); R.Right := QtWidgetSet.GetDeviceCaps(DC, LOGPIXELSX); R.Bottom := QtWidgetSet.GetDeviceCaps(DC, LOGPIXELSX); QPainter_setViewPort(TQtDeviceContext(DC).Widget, @R); end; end; Result := Integer(True); end else Result := Integer(False); end; function TQtWidgetSet.SetViewPortExtEx(DC: HDC; XExtent, YExtent : Integer; OldSize: PSize): Boolean; var R, RW: TRect; Ratio: Single; begin Result := False; if IsValidDC(DC) then begin QPainter_ViewPort(TQtDeviceContext(DC).Widget, @R); if OldSize <> nil then begin OldSize^.cx := R.Right - R.Left; OldSize^.cy := R.Bottom - R.Top; end; if (XExtent <> R.Right) or (YExtent <> R.Bottom) then begin case TQtDeviceContext(DC).vMapMode of MM_ANISOTROPIC, MM_ISOTROPIC: begin if TQtDeviceContext(DC).vMapMode = MM_ISOTROPIC then begin // TK: Is here also an adjustment on Windows if DPIX and DPIY are different? QPainter_Window(TQtDeviceContext(DC).Widget, @RW); Ratio := RW.Right / RW.Bottom; // no check, programmer cannot put nonsense if YExtent * Ratio > XExtent then YExtent := RoundToInt(XExtent / Ratio) else if YExtent * Ratio < XExtent then XExtent := RoundToInt(YExtent * Ratio) end; QPainter_setViewPort(TQtDeviceContext(DC).Widget, R.Left, R.Top, XExtent, YExtent); Result := True; end; end; end; end; end; function TQtWidgetSet.SetViewPortOrgEx(DC: HDC; NewX, NewY: Integer; OldPoint: PPoint): Boolean; var R: TRect; begin Result := False; if IsValidDC(DC) then begin QPainter_ViewPort(TQtDeviceContext(DC).Widget, @R); if OldPoint <> nil then OldPoint^ := R.TopLeft; if (TQtDeviceContext(DC).vMapMode <> MM_TEXT) and (NewX <> R.Left) or (NewY <> R.Top) then begin QPainter_setViewPort(TQtDeviceContext(DC).Widget, NewX, NewY, R.Right - R.Left, R.Bottom - R.Top); Result := True; end; end; end; function TQtWidgetSet.SetWindowExtEx(DC: HDC; XExtent, YExtent: Integer; OldSize: PSize): Boolean; var R: TRect; begin Result := False; if IsValidDC(DC) then begin QPainter_Window(TQtDeviceContext(DC).Widget, @R); if OldSize <> nil then begin OldSize^.cx := R.Right - R.Left; OldSize^.cy := R.Bottom - R.Top; end; if (XExtent <> R.Right) or (YExtent <> R.Bottom) then begin case TQtDeviceContext(DC).vMapMode of MM_ANISOTROPIC, MM_ISOTROPIC: begin QPainter_setWindow(TQtDeviceContext(DC).Widget, R.Left, R.Top, XExtent, YExtent); Result := True; end; end; end; end; end; {------------------------------------------------------------------------------ Method: SetWindowOrgEx Params: DC - handle of device context NewX - new x-coordinate of window origin NewY - new y-coordinate of window origin Point - record receiving original origin Returns: Whether the call was successful Sets the window origin of the device context by using the specified coordinates. ------------------------------------------------------------------------------} function TQtWidgetSet.SetWindowOrgEx(DC : HDC; NewX, NewY : Integer; OldPoint: PPoint) : Boolean; var P: TPoint; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI SetWindowOrgEx] DC: ', dbghex(DC), ' NewX: ', dbgs(NewX), ' NewY: ', dbgs(NewY)); {$endif} Result := False; if IsValidDC(DC) then begin GetWindowOrgEx(DC, @P); // restore 0, 0 if (P.X <> 0) or (P.Y <> 0) then TQtDeviceContext(DC).translate(P.X, P.Y); if OldPoint <> nil then OldPoint^ := P; TQtDeviceContext(DC).translate(-NewX, -NewY); Result := True; end; end; {------------------------------------------------------------------------------ Method: SetWindowPos Params: HWnd - handle of window HWndInsertAfter - placement-order handle X - horizontal position Y - vertical position CX - width CY - height UFlags - window-positioning flags Returns: If the function succeeds Changes the size, position, and Z order of a child, pop-up, or top-level window. ------------------------------------------------------------------------------} function TQtWidgetSet.SetWindowPos(hWnd: HWND; hWndInsertAfter: HWND; X, Y, cx, cy: Integer; uFlags: UINT): Boolean; var DisableUpdates: boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI SetWindowPos] Handle: ', dbghex(hWnd), ' hWndInsertAfter: ',dbghex(hWnd)); {$endif} Result := hWnd <> 0; if not Result then exit; DisableUpdates := (SWP_NOREDRAW and uFlags) <> 0; if DisableUpdates then TQtWidget(Hwnd).setUpdatesEnabled(False); try if (SWP_NOMOVE and uFlags) = 0 then TQtWidget(Hwnd).move(X, Y); if (SWP_NOSIZE and uFlags) = 0 then TQtWidget(Hwnd).resize(CX, CY); if (SWP_NOZORDER and uFlags) = 0 then begin case hWndInsertAfter of HWND_TOP: begin TQtWidget(hWnd).raiseWidget; if (SWP_NOACTIVATE and uFlags) = 0 then TQtWidget(hWnd).Activate; end; HWND_BOTTOM: TQtWidget(hWnd).lowerWidget; {TODO: HWND_TOPMOST ,HWND_NOTOPMOST} end; end; finally if DisableUpdates then TQtWidget(Hwnd).setUpdatesEnabled(True); end; end; {------------------------------------------------------------------------------ Method: SetWindowRgn Params: hWnd - handle of the widget hRgn - handle of the region bRedraw - ? Returns: 0 if the call failed, any other value if it was successful Makes the region specifyed in hRgn be the only part of the window which is visible. ------------------------------------------------------------------------------} function TQtWidgetSet.SetWindowRgn(hWnd: HWND; hRgn: HRGN; bRedraw: Boolean):longint; var w: TQtWidget; r: TQtRegion; begin Result := 0; {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI SetWindowRgn] Handle: ', dbghex(hWnd)); {$endif} // Basic checks if (hWnd = 0) or (hRgn = 0) then Exit; w := TQtWidget(hWnd); r := TQtRegion(hRgn); // Now set the mask in the widget w.setMask(r.Widget); Result := 1; end; function TQtWidgetSet.ShowCaret(hWnd: HWND): Boolean; begin Result := (hWnd <> 0) and (QtCaret.ShowCaret(TQtWidget(hWnd))); end; {------------------------------------------------------------------------------ Method: SetProp Params: Handle - Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.SetProp(Handle: hwnd; Str: PChar; Data: Pointer): Boolean; begin if Handle<>0 then begin TQtWidget(Handle).Props[str] := Data; result:=(TQtWidget(Handle).Props[str]=Data); {$ifdef VerboseQT} DebugLn('[WinAPI SetProp win=%s str=%s data=%x',[dbgsname(TQtWidget(Handle)), str, ptrint(data)]); {$endif} end else result:=False; end; {------------------------------------------------------------------------------ Function: SetROP2 Params: HDC, Raster OP mode Returns: Old Raster OP mode Please note that the bitwise raster operation modes, denoted with a RasterOp prefix, are only natively supported in the X11 and raster paint engines. This means that the only way to utilize these modes on the Mac is via a QImage. The RasterOp denoted blend modes are not supported for pens and brushes with alpha components. Also, turning on the QPainter::Antialiasing render hint will effectively disable the RasterOp modes. ------------------------------------------------------------------------------} function TQtWidgetSet.SetROP2(DC: HDC; Mode: Integer): Integer; var QtDC: TQtDeviceContext absolute DC; begin {$ifdef VerboseQtWinAPI} writeln('TQtWidgetSet.SetROP2() DC ',dbghex(DC),' Mode ',Mode); {$endif} Result := R2_COPYPEN; if not IsValidDC(DC) then exit; Result := QtDC.Rop2; QtDC.Rop2 := Mode; end; {------------------------------------------------------------------------------ Function: SetScrollInfo Params: none Returns: The new position value ------------------------------------------------------------------------------} function TQtWidgetSet.SetScrollInfo(Handle : HWND; SBStyle : Integer; ScrollInfo: TScrollInfo; bRedraw : Boolean): Integer; var Control: TWinControl; ScrollBar: TQtScrollBar; function UpdateScrollInfo: Integer; var iReCountMax: Integer; SBUpdatesCount: Integer; begin Result := 0; SBUpdatesCount := 0; if (ScrollInfo.FMask and SIF_RANGE) <> 0 then begin inc(SBUpdatesCount); ScrollBar.setMinimum(ScrollInfo.nMin); // we must recount ScrollBar.Max since invalid value raises AV iRecountMax := ScrollInfo.nMax - ScrollInfo.nPage; if iRecountMax < ScrollInfo.nMin then iRecountMax := ScrollInfo.nMin; ScrollBar.setMaximum(iRecountMax); end; if (ScrollInfo.FMask and SIF_PAGE) <> 0 then begin // segfaults if we don't check Enabled property if ScrollBar.getEnabled then begin inc(SBUpdatesCount); ScrollBar.setPageStep(ScrollInfo.nPage); ScrollBar.setSingleStep((ScrollBar.getPageStep div 6) + 1); end; end; if (ScrollInfo.FMask and SIF_POS) <> 0 then begin inc(SBUpdatesCount); if SBUpdatesCount = 1 then ScrollBar.BeginUpdate; try if (ScrollInfo.FMask and SIF_UPDATEPOLICY) = 0 then begin {do not setValue() if values are equal, since it calls signalValueChanged() which sends unneeded LM_SCROLL msgs } if ScrollBar.getValue = ScrollInfo.nPos then SBUpdatesCount := 0; if (ScrollInfo.nPos < ScrollBar.getMin) then ScrollInfo.nPos := ScrollBar.getMin else if (ScrollInfo.nPos > ScrollBar.getMax) then ScrollInfo.nPos := ScrollBar.getMax; if SBUpdatesCount > 0 then ScrollBar.setValue(ScrollInfo.nPos); end; finally if SBUpdatesCount = 1 then ScrollBar.EndUpdate; end; end; if (ScrollInfo.FMask and SIF_UPDATEPOLICY) <> 0 then ScrollBar.setTracking(ScrollInfo.nTrackPos <> SB_POLICY_DISCONTINUOUS); if (ScrollInfo.FMask and SIF_TRACKPOS) <> 0 then begin // from MSDN: the SetScrollInfo function ignores this member // ScrollBar.setSliderPosition(ScrollInfo.nTrackPos); end; Result := ScrollBar.getValue; end; begin // bRedraw is useles with qt Result := 0; if (Handle = 0) then exit; ScrollBar := nil; case SBStyle of SB_BOTH: begin {TODO: SB_BOTH fixme } //writeln('TODO: ############## SB_BOTH CALLED HERE .... #################'); end; {SB_BOTH} SB_CTL: begin {HWND is always TScrollBar, but seem that Create ScrollBar should be called here } if (csReading in TQtWidget(Handle).LCLObject.ComponentState) or (csDestroying in TQtWidget(Handle).LCLObject.ComponentState) then exit; ScrollBar := TQtScrollBar(Handle); if not Assigned(ScrollBar) then exit; end; {SB_CTL} SB_HORZ: begin if (csReading in TQtWidget(Handle).LCLObject.ComponentState) or (csDestroying in TQtWidget(Handle).LCLObject.ComponentState) then exit; if TQtWidget(Handle) is TQtAbstractScrollArea then begin ScrollBar := TQtAbstractScrollArea(Handle).horizontalScrollBar; end else begin {do not localize !} Control := TWinControl(TQtWidget(Handle).LCLObject.FindChildControl(TQtWidget(Handle).LCLObject.Name+'_HSCROLLBAR')); if (Control <> nil) and (Control.HandleAllocated) then ScrollBar := TQtScrollBar(Control.Handle) end; end; {SB_HORZ} SB_VERT: begin if (csReading in TQtWidget(Handle).LCLObject.ComponentState) or (csDestroying in TQtWidget(Handle).LCLObject.ComponentState) then exit; if TQtWidget(Handle) is TQtAbstractScrollArea then begin ScrollBar := TQtAbstractScrollArea(Handle).verticalScrollBar; end else begin {do not localize !} Control := TWinControl(TQtWidget(Handle).LCLObject.FindChildControl(TQtWidget(Handle).LCLObject.Name+'_VSCROLLBAR')); if (Control <> nil) and (Control.HandleAllocated) then ScrollBar := TQtScrollBar(Control.Handle) end; end; {SB_VERT} end; if Assigned(ScrollBar) then Result := UpdateScrollInfo; end; {------------------------------------------------------------------------------ Method: SetTextColor Params: Handle - Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.SetTextColor(DC: HDC; Color: TColorRef): TColorRef; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI SetTextColor] DC: ', dbghex(DC)); {$endif} result := CLR_INVALID; if not IsValidDC(DC) then begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI SetTextColor] Invalid DC'); {$endif} exit; end; result := TQtDeviceContext(DC).vTextColor; TQtDeviceContext(DC).vTextColor := ColorToRGB(Color); // be sure we get TColorRef end; {------------------------------------------------------------------------------ function ShowScrollBar(Handle: HWND; wBar: Integer; bShow: Boolean): Boolean; Params Handle: HWND; wBar: Integer; bShow: Boolean Result ------------------------------------------------------------------------------} function TQtWidgetSet.ShowScrollBar(Handle: HWND; wBar: Integer; bShow: Boolean): Boolean; var w: TQtWidget; ScrollArea: TQtAbstractScrollArea; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI ShowScrollBar] Handle: ', dbghex(Handle),' wBar: ',wBar); {$endif} Result := (Handle <> 0); if not Result then exit; w := TQtWidget(Handle); if w is TQtAbstractScrollArea then begin ScrollArea := TQtAbstractScrollArea(w); case wBar of SB_BOTH: begin if bShow then ScrollArea.setScrollStyle(ssBoth) else ScrollArea.setScrollStyle(ssNone); end; SB_HORZ: begin if bShow then ScrollArea.setScrollStyle(ssHorizontal) else QAbstractScrollArea_setHorizontalScrollBarPolicy(QAbstractScrollAreaH(ScrollArea.Widget), QtScrollBarAlwaysOff); end; SB_VERT: begin if bShow then ScrollArea.setScrollStyle(ssVertical) else QAbstractScrollArea_setVerticalScrollBarPolicy(QAbstractScrollAreaH(ScrollArea.Widget), QtScrollBarAlwaysOff); end; SB_CTL: begin if bShow then ScrollArea.Show else ScrollArea.Hide; end; end; end else Result := False; end; {------------------------------------------------------------------------------ function ShowWindow(hWnd: HWND; nCmdShow: Integer): Boolean; nCmdShow: SW_SHOWNORMAL, SW_MINIMIZE, SW_SHOWMAXIMIZED ------------------------------------------------------------------------------} function TQtWidgetSet.ShowWindow(hWnd: HWND; nCmdShow: Integer): Boolean; var Widget: TQtWidget; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI ShowWindow]'); {$endif} Result := False; Widget := TQtWidget(hWnd); if Widget <> nil then begin case nCmdShow of SW_SHOW: Widget.setVisible(True); SW_SHOWNORMAL: Widget.ShowNormal; SW_MINIMIZE: Widget.setWindowState(QtWindowMinimized); SW_SHOWMINIMIZED: Widget.ShowMinimized; SW_SHOWMAXIMIZED: Widget.ShowMaximized; SW_HIDE: Widget.setVisible(False); end; Result := True; end; end; {------------------------------------------------------------------------------ Function: StretchBlt Params: DestDC: The destination devicecontext X, Y: The left/top corner of the destination rectangle Width, Height: The size of the destination rectangle SrcDC: The source devicecontext XSrc, YSrc: The left/top corner of the source rectangle SrcWidth, SrcHeight: The size of the source rectangle ROp: The raster operation to be performed Returns: True if succesful The StretchBlt function copies a bitmap from a source rectangle into a destination rectangle using the specified raster operation. If needed it resizes the bitmap to fit the dimensions of the destination rectangle. Sizing is done according to the stretching mode currently set in the destination device context. If SrcDC contains a mask the pixmap will be copied with this transparency. ------------------------------------------------------------------------------} function TQtWidgetSet.StretchBlt(DestDC: HDC; X, Y, Width, Height: Integer; SrcDC: HDC; XSrc, YSrc, SrcWidth, SrcHeight: Integer; ROp: Cardinal): Boolean; begin Result := StretchMaskBlt(DestDC,X,Y,Width,Height, SrcDC,XSrc,YSrc,SrcWidth,SrcHeight, 0,0,0, ROp); end; {------------------------------------------------------------------------------ Function: StretchMaskBlt Params: DestDC: The destination devicecontext X, Y: The left/top corner of the destination rectangle Width, Height: The size of the destination rectangle SrcDC: The source devicecontext XSrc, YSrc: The left/top corner of the source rectangle SrcWidth, SrcHeight: The size of the source rectangle Mask: The handle of a monochrome bitmap XMask, YMask: The left/top corner of the mask rectangle ROp: The raster operation to be performed Returns: True if succesful The StretchMaskBlt function copies a bitmap from a source rectangle into a destination rectangle using the specified mask and raster operation. If needed it resizes the bitmap to fit the dimensions of the destination rectangle. Sizing is done according to the stretching mode currently set in the destination device context. ------------------------------------------------------------------------------} function TQtWidgetSet.StretchMaskBlt(DestDC: HDC; X, Y, Width, Height: Integer; SrcDC: HDC; XSrc, YSrc, SrcWidth, SrcHeight: Integer; Mask: HBITMAP; XMask, YMask: Integer; Rop: DWORD): Boolean; var SrcQDC: TQtDeviceContext absolute SrcDC; DstQDC: TQtDeviceContext absolute DestDC; SrcRect, DstRect, MaskRect: TRect; SrcWidthOrig, SrcHeightOrig: Integer; Image, TmpImage, QMask, TmpMask: QImageH; TmpPixmap: QPixmapH; SrcMatrix: QTransformH; dx, dy: integer; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI StretchMaskBlt]', ' DestDC:', dbghex(DestDC), ' SrcDC:', dbghex(SrcDC), ' Image:', dbghex(PtrInt(Image)), ' X:', dbgs(X), ' Y:', dbgs(Y), ' W:', dbgs(Width), ' H:', dbgs(Height), ' XSrc:', dbgs(XSrc), ' YSrc:', dbgs(YSrc), ' WSrc:', dbgs(SrcWidth), ' HSrc:', dbgs(SrcHeight)); {$endif} Result := False; SrcMatrix := QPainter_transform(SrcQDC.Widget); if SrcQDC.vImage = nil then begin if SrcQDC.Parent <> nil then begin with SrcQDC.getDeviceSize do TmpPixmap := QPixmap_create(x, y); QPixmap_grabWindow(TmpPixmap, QWidget_winId(SrcQDC.Parent), 0, 0); Image := QImage_create(); QPixmap_toImage(TmpPixmap, Image); QPixmap_destroy(TmpPixmap); end else Exit; end else Image := SrcQDC.vImage.Handle; SrcWidthOrig := QImage_width(Image); SrcHeightOrig := QImage_height(Image); QTransform_map(SrcMatrix, XSrc, YSrc, @XSrc, @YSrc); // our map can have some transformations if XSrc < 0 then // we cannot draw from negative coord, so we will draw from zero with shift begin dx := -XSrc; XSrc := 0; end else dx := 0; if YSrc < 0 then begin dy := -YSrc; YSrc := 0; end else dy := 0; // if passed source Width/Height is more than original then // qt skip that, so for that case we should transform size here // // stretch_factor := Width / SrcWidth; // Width := stretch_factor * (SrcWidthOrig - XSrc); if (SrcWidthOrig - XSrc < SrcWidth) then Width := Width * (SrcWidthOrig - XSrc) div SrcWidth; if (SrcHeightOrig - YSrc < SrcHeight) then Height := Height * (SrcHeightOrig - YSrc) div SrcHeight; if dx <> 0 then // apply shifts begin inc(X, dx); // shift destination dec(Width, dx); // substract width dec(SrcWidth, dx); // and dont forget about SrcWidth or we will get unneeded stretching end; if dy <> 0 then begin inc(Y, dy); dec(Height, dy); dec(SrcHeight, dy); end; DstRect := Bounds(X, Y, Width, Height); SrcRect := Bounds(XSrc, YSrc, SrcWidth, SrcHeight); MaskRect := Bounds(XMask, YMask, SrcWidth, SrcHeight); // #0011187 - makes painting wrong //DstQDC.CorrectCoordinates(DstRect); //DstQDC.CorrectCoordinates(SrcRect); //DstQDC.CorrectCoordinates(MaskRect); if Mask <> 0 then QMask := TQtImage(Mask).Handle else QMask := nil; if (DstRect.Right < DstRect.Left) or (DstRect.Bottom < DstRect.Top) then begin // Right < Left mean horizontal flip, Bottom < Top - vertical TmpImage := QImage_create(); QImage_mirrored(Image, TmpImage, DstRect.Right < DstRect.Left, DstRect.Bottom < DstRect.Top); if QMask <> nil then begin TmpMask := QImage_create(); QImage_mirrored(QMask, TmpMask, DstRect.Right < DstRect.Left, DstRect.Bottom < DstRect.Top); end else TmpMask := QMask; DstRect := NormalizeRect(DstRect); MaskRect := NormalizeRect(MaskRect); DstQDC.drawImage(@DstRect, TmpImage, @SrcRect, TmpMask, @MaskRect); QImage_destroy(TmpImage); if TmpMask <> nil then QImage_destroy(TmpMask); end else DstQDC.drawImage(@DstRect, Image, @SrcRect, QMask, @MaskRect); if SrcQDC.vImage = nil then QImage_destroy(Image); Result := True; end; {------------------------------------------------------------------------------ Function: SystemParametersInfo Params: uiAction: System-wide parameter to be retrieved or set uiParam: Depends on the system parameter being queried or set pvParam: Depends on the system parameter being queried or set fWinIni: Returns: True if the function succeeds retrieves or sets the value of one of the system-wide parameters ------------------------------------------------------------------------------} function TQtWidgetSet.SystemParametersInfo(uiAction: DWord; uiParam: DWord; pvParam: Pointer; fWinIni: DWord): LongBool; begin case uiAction of SPI_GETWHEELSCROLLLINES: PDword(pvPAram)^ := QApplication_wheelScrollLines; else Result := False; end end; {------------------------------------------------------------------------------ Function: TextOut Params: DC: X: Y: Str: Count: Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.TextOut(DC: HDC; X,Y : Integer; Str : PChar; Count: Integer) : Boolean; var WideStr: WideString; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI TextOut]'); {$endif} Result := False; if not IsValidDC(DC) then Exit; if Count >= 0 then WideStr := GetUtf8String(Copy(Str, 1, Count)) else WideStr := GetUtf8String(Str); TQtDeviceContext(DC).drawText(X, Y, @WideStr); Result := True; end; {------------------------------------------------------------------------------ Method: UpdateWindow Params: Handle Returns: ------------------------------------------------------------------------------} function TQtWidgetSet.UpdateWindow(Handle: HWND): Boolean; begin {$ifdef VerboseQtWinAPI} WriteLn('[WinAPI UpdateWindow]'); {$endif} TQtWidget(Handle).Update; Result := True; end; {------------------------------------------------------------------------------ Method: WindowFromPoint Params: TPoint Returns: The return value is a handle to the window that contains the param point. If no window exists at the given point, the return value is 0. If the point is over a static text control, the return value is a handle to the window under the static text control. ------------------------------------------------------------------------------} function TQtWidgetSet.WindowFromPoint(Point: TPoint): HWND; var Widget: QWidgetH; AForm: TCustomForm; begin Widget := QApplication_widgetAt(Point.x, Point.y); if Widget <> nil then begin Result := HWND(QtObjectFromWidgetH(Widget)); if (Result <> 0) and not (TQtWidget(Result) is TQtMainWindow) and (TQtWidget(Result).LCLObject <> nil) then begin AForm := GetParentForm(TQtWidget(Result).LCLObject); if AForm <> nil then Result := AForm.Handle; end else begin Widget := QApplication_topLevelAt(Point.x, Point.y); if Widget <> nil then Result := HWND(QtObjectFromWidgetH(Widget)) else Result := 0; end; end else begin Widget := QApplication_topLevelAt(Point.x, Point.y); if Widget <> nil then Result := HWND(QtObjectFromWidgetH(Widget)) else Result := 0; end; end; //##apiwiz##eps## // Do not remove, no wizard declaration after this line