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See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_svx.hxx" #include #include #include #include #include #include #include #include #include #include #include "svx/svdstr.hrc" #include "svx/svdglob.hxx" #include #include "gradtrns.hxx" #include #include #include #include // #105678# #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include //////////////////////////////////////////////////////////////////////////////////////////////////// // #i15222# // Due to the ressource problems in Win95/98 with bitmap ressources i // will change this handle bitmap provinging class. Old version was splitting // and preparing all small handle bitmaps in device bitmap format, now this will // be done on the fly. Thus, tehre is only the one big bitmap remembered. With // three source bitmaps, this will be 3 system bitmap ressources instead of hundreds. // The price for that needs to be evaluated. Maybe we will need another change here // if this is too expensive. class SdrHdlBitmapSet { // the bitmap holding all infos BitmapEx maMarkersBitmap; // the cropped Bitmaps for reusage ::std::vector< BitmapEx > maRealMarkers; // elpers BitmapEx& impGetOrCreateTargetBitmap(sal_uInt16 nIndex, const Rectangle& rRectangle); public: SdrHdlBitmapSet(sal_uInt16 nResId); ~SdrHdlBitmapSet(); const BitmapEx& GetBitmapEx(BitmapMarkerKind eKindOfMarker, sal_uInt16 nInd=0); }; //////////////////////////////////////////////////////////////////////////////////////////////////// #define KIND_COUNT (14) #define INDEX_COUNT (6) #define INDIVIDUAL_COUNT (4) SdrHdlBitmapSet::SdrHdlBitmapSet(sal_uInt16 nResId) : maMarkersBitmap(ResId(nResId, *ImpGetResMgr())), // just use ressource with alpha channel // 14 kinds (BitmapMarkerKind) use index [0..5], 4 extra maRealMarkers((KIND_COUNT * INDEX_COUNT) + INDIVIDUAL_COUNT) { } SdrHdlBitmapSet::~SdrHdlBitmapSet() { } BitmapEx& SdrHdlBitmapSet::impGetOrCreateTargetBitmap(sal_uInt16 nIndex, const Rectangle& rRectangle) { BitmapEx& rTargetBitmap = maRealMarkers[nIndex]; if(rTargetBitmap.IsEmpty()) { rTargetBitmap = maMarkersBitmap; rTargetBitmap.Crop(rRectangle); } return rTargetBitmap; } // change getting of bitmap to use the big ressource bitmap const BitmapEx& SdrHdlBitmapSet::GetBitmapEx(BitmapMarkerKind eKindOfMarker, sal_uInt16 nInd) { // fill in size and source position in maMarkersBitmap const sal_uInt16 nYPos(nInd * 11); switch(eKindOfMarker) { default: { DBG_ERROR( "unknown kind of marker" ); // no break here, return Rect_7x7 as default } case Rect_7x7: { return impGetOrCreateTargetBitmap((0 * INDEX_COUNT) + nInd, Rectangle(Point(0, nYPos), Size(7, 7))); } case Rect_9x9: { return impGetOrCreateTargetBitmap((1 * INDEX_COUNT) + nInd, Rectangle(Point(7, nYPos), Size(9, 9))); } case Rect_11x11: { return impGetOrCreateTargetBitmap((2 * INDEX_COUNT) + nInd, Rectangle(Point(16, nYPos), Size(11, 11))); } case Rect_13x13: { const sal_uInt16 nIndex((3 * INDEX_COUNT) + nInd); switch(nInd) { case 0: { return impGetOrCreateTargetBitmap(nIndex, Rectangle(Point(72, 66), Size(13, 13))); } case 1: { return impGetOrCreateTargetBitmap(nIndex, Rectangle(Point(85, 66), Size(13, 13))); } case 2: { return impGetOrCreateTargetBitmap(nIndex, Rectangle(Point(72, 79), Size(13, 13))); } case 3: { return impGetOrCreateTargetBitmap(nIndex, Rectangle(Point(85, 79), Size(13, 13))); } case 4: { return impGetOrCreateTargetBitmap(nIndex, Rectangle(Point(98, 79), Size(13, 13))); } default: // case 5: { return impGetOrCreateTargetBitmap(nIndex, Rectangle(Point(98, 66), Size(13, 13))); } } } case Circ_7x7: case Customshape_7x7: { return impGetOrCreateTargetBitmap((4 * INDEX_COUNT) + nInd, Rectangle(Point(27, nYPos), Size(7, 7))); } case Circ_9x9: case Customshape_9x9: { return impGetOrCreateTargetBitmap((5 * INDEX_COUNT) + nInd, Rectangle(Point(34, nYPos), Size(9, 9))); } case Circ_11x11: case Customshape_11x11: { return impGetOrCreateTargetBitmap((6 * INDEX_COUNT) + nInd, Rectangle(Point(43, nYPos), Size(11, 11))); } case Elli_7x9: { return impGetOrCreateTargetBitmap((7 * INDEX_COUNT) + nInd, Rectangle(Point(54, nYPos), Size(7, 9))); } case Elli_9x11: { return impGetOrCreateTargetBitmap((8 * INDEX_COUNT) + nInd, Rectangle(Point(61, nYPos), Size(9, 11))); } case Elli_9x7: { return impGetOrCreateTargetBitmap((9 * INDEX_COUNT) + nInd, Rectangle(Point(70, nYPos), Size(9, 7))); } case Elli_11x9: { return impGetOrCreateTargetBitmap((10 * INDEX_COUNT) + nInd, Rectangle(Point(79, nYPos), Size(11, 9))); } case RectPlus_7x7: { return impGetOrCreateTargetBitmap((11 * INDEX_COUNT) + nInd, Rectangle(Point(90, nYPos), Size(7, 7))); } case RectPlus_9x9: { return impGetOrCreateTargetBitmap((12 * INDEX_COUNT) + nInd, Rectangle(Point(97, nYPos), Size(9, 9))); } case RectPlus_11x11: { return impGetOrCreateTargetBitmap((13 * INDEX_COUNT) + nInd, Rectangle(Point(106, nYPos), Size(11, 11))); } case Crosshair: { return impGetOrCreateTargetBitmap((KIND_COUNT * INDEX_COUNT) + 0, Rectangle(Point(0, 68), Size(15, 15))); } case Glue: { return impGetOrCreateTargetBitmap((KIND_COUNT * INDEX_COUNT) + 1, Rectangle(Point(15, 74), Size(9, 9))); } case Anchor: // #101688# AnchorTR for SW case AnchorTR: { return impGetOrCreateTargetBitmap((KIND_COUNT * INDEX_COUNT) + 2, Rectangle(Point(24, 68), Size(24, 24))); } // #98388# add AnchorPressed to be able to aninate anchor control case AnchorPressed: case AnchorPressedTR: { return impGetOrCreateTargetBitmap((KIND_COUNT * INDEX_COUNT) + 3, Rectangle(Point(48, 68), Size(24, 24))); } } // cannot happen since all pathes return something; return Rect_7x7 as default (see switch) return maRealMarkers[0]; } //////////////////////////////////////////////////////////////////////////////////////////////////// SdrHdlBitmapSet& getSimpleSet() { static vcl::DeleteOnDeinit< SdrHdlBitmapSet > aSimpleSet(new SdrHdlBitmapSet(SIP_SA_MARKERS)); return *aSimpleSet.get(); } SdrHdlBitmapSet& getModernSet() { static vcl::DeleteOnDeinit< SdrHdlBitmapSet > aModernSet(new SdrHdlBitmapSet(SIP_SA_FINE_MARKERS)); return *aModernSet.get(); } SdrHdlBitmapSet& getHighContrastSet() { static vcl::DeleteOnDeinit< SdrHdlBitmapSet > aHighContrastSet(new SdrHdlBitmapSet(SIP_SA_ACCESSIBILITY_MARKERS)); return *aHighContrastSet.get(); } //////////////////////////////////////////////////////////////////////////////////////////////////// SdrHdl::SdrHdl(): pObj(NULL), pPV(NULL), pHdlList(NULL), eKind(HDL_MOVE), nDrehWink(0), nObjHdlNum(0), nPolyNum(0), nPPntNum(0), nSourceHdlNum(0), bSelect(sal_False), b1PixMore(sal_False), bPlusHdl(sal_False), mbMoveOutside(false), mbMouseOver(false) { } SdrHdl::SdrHdl(const Point& rPnt, SdrHdlKind eNewKind): pObj(NULL), pPV(NULL), pHdlList(NULL), aPos(rPnt), eKind(eNewKind), nDrehWink(0), nObjHdlNum(0), nPolyNum(0), nPPntNum(0), nSourceHdlNum(0), bSelect(sal_False), b1PixMore(sal_False), bPlusHdl(sal_False), mbMoveOutside(false), mbMouseOver(false) { } SdrHdl::~SdrHdl() { GetRidOfIAObject(); } void SdrHdl::Set1PixMore(sal_Bool bJa) { if(b1PixMore != bJa) { b1PixMore = bJa; // create new display Touch(); } } void SdrHdl::SetMoveOutside( bool bMoveOutside ) { if(mbMoveOutside != bMoveOutside) { mbMoveOutside = bMoveOutside; // create new display Touch(); } } void SdrHdl::SetDrehWink(long n) { if(nDrehWink != n) { nDrehWink = n; // create new display Touch(); } } void SdrHdl::SetPos(const Point& rPnt) { if(aPos != rPnt) { // remember new position aPos = rPnt; // create new display Touch(); } } void SdrHdl::SetSelected(sal_Bool bJa) { if(bSelect != bJa) { // remember new value bSelect = bJa; // create new display Touch(); } } void SdrHdl::SetHdlList(SdrHdlList* pList) { if(pHdlList != pList) { // rememver list pHdlList = pList; // now its possible to create graphic representation Touch(); } } void SdrHdl::SetObj(SdrObject* pNewObj) { if(pObj != pNewObj) { // remember new object pObj = pNewObj; // graphic representation may have changed Touch(); } } void SdrHdl::Touch() { // force update of graphic representation CreateB2dIAObject(); } void SdrHdl::GetRidOfIAObject() { //OLMaIAOGroup.Delete(); // OVERLAYMANAGER maOverlayGroup.clear(); } void SdrHdl::CreateB2dIAObject() { // first throw away old one GetRidOfIAObject(); if(pHdlList && pHdlList->GetView() && !pHdlList->GetView()->areMarkHandlesHidden()) { BitmapColorIndex eColIndex = LightGreen; BitmapMarkerKind eKindOfMarker = Rect_7x7; sal_Bool bRot = pHdlList->IsRotateShear(); if(pObj) eColIndex = (bSelect) ? Cyan : LightCyan; if(bRot) { // Drehhandles in Rot if(pObj && bSelect) eColIndex = Red; else eColIndex = LightRed; } switch(eKind) { case HDL_MOVE: { eKindOfMarker = (b1PixMore) ? Rect_9x9 : Rect_7x7; break; } case HDL_UPLFT: case HDL_UPRGT: case HDL_LWLFT: case HDL_LWRGT: { // corner handles if(bRot) { eKindOfMarker = Circ_7x7; } else { eKindOfMarker = Rect_7x7; } break; } case HDL_UPPER: case HDL_LOWER: { // Upper/Lower handles if(bRot) { eKindOfMarker = Elli_9x7; } else { eKindOfMarker = Rect_7x7; } break; } case HDL_LEFT: case HDL_RIGHT: { // Left/Right handles if(bRot) { eKindOfMarker = Elli_7x9; } else { eKindOfMarker = Rect_7x7; } break; } case HDL_POLY: { if(bRot) { eKindOfMarker = (b1PixMore) ? Circ_9x9 : Circ_7x7; } else { eKindOfMarker = (b1PixMore) ? Rect_9x9 : Rect_7x7; } break; } case HDL_BWGT: // weight at poly { eKindOfMarker = Circ_7x7; break; } case HDL_CIRC: { eKindOfMarker = Rect_11x11; break; } case HDL_REF1: case HDL_REF2: { eKindOfMarker = Crosshair; break; } case HDL_GLUE: { eKindOfMarker = Glue; break; } case HDL_ANCHOR: { eKindOfMarker = Anchor; break; } case HDL_USER: { break; } // #101688# top right anchor for SW case HDL_ANCHOR_TR: { eKindOfMarker = AnchorTR; break; } // for SJ and the CustomShapeHandles: case HDL_CUSTOMSHAPE1: { eKindOfMarker = (b1PixMore) ? Customshape_9x9 : Customshape_7x7; eColIndex = Yellow; break; } default: break; } SdrMarkView* pView = pHdlList->GetView(); SdrPageView* pPageView = pView->GetSdrPageView(); if(pPageView) { for(sal_uInt32 b(0L); b < pPageView->PageWindowCount(); b++) { // const SdrPageViewWinRec& rPageViewWinRec = rPageViewWinList[b]; const SdrPageWindow& rPageWindow = *pPageView->GetPageWindow(b); if(rPageWindow.GetPaintWindow().OutputToWindow()) { Point aMoveOutsideOffset(0, 0); // add offset if necessary if(pHdlList->IsMoveOutside() || mbMoveOutside) { OutputDevice& rOutDev = rPageWindow.GetPaintWindow().GetOutputDevice(); Size aOffset = rOutDev.PixelToLogic(Size(4, 4)); if(eKind == HDL_UPLFT || eKind == HDL_UPPER || eKind == HDL_UPRGT) aMoveOutsideOffset.Y() -= aOffset.Width(); if(eKind == HDL_LWLFT || eKind == HDL_LOWER || eKind == HDL_LWRGT) aMoveOutsideOffset.Y() += aOffset.Height(); if(eKind == HDL_UPLFT || eKind == HDL_LEFT || eKind == HDL_LWLFT) aMoveOutsideOffset.X() -= aOffset.Width(); if(eKind == HDL_UPRGT || eKind == HDL_RIGHT || eKind == HDL_LWRGT) aMoveOutsideOffset.X() += aOffset.Height(); } if(rPageWindow.GetOverlayManager()) { basegfx::B2DPoint aPosition(aPos.X(), aPos.Y()); ::sdr::overlay::OverlayObject* pNewOverlayObject = CreateOverlayObject( aPosition, eColIndex, eKindOfMarker, aMoveOutsideOffset); // OVERLAYMANAGER if(pNewOverlayObject) { rPageWindow.GetOverlayManager()->add(*pNewOverlayObject); maOverlayGroup.append(*pNewOverlayObject); } } } } } } } BitmapMarkerKind SdrHdl::GetNextBigger(BitmapMarkerKind eKnd) const { BitmapMarkerKind eRetval(eKnd); switch(eKnd) { case Rect_7x7: eRetval = Rect_9x9; break; case Rect_9x9: eRetval = Rect_11x11; break; case Rect_11x11: eRetval = Rect_13x13; break; //case Rect_13x13: eRetval = ; break; case Circ_7x7: eRetval = Circ_9x9; break; case Circ_9x9: eRetval = Circ_11x11; break; //case Circ_11x11: eRetval = ; break; case Customshape_7x7: eRetval = Customshape_9x9; break; case Customshape_9x9: eRetval = Customshape_11x11; break; //case Customshape_11x11: eRetval = ; break; case Elli_7x9: eRetval = Elli_9x11; break; //case Elli_9x11: eRetval = ; break; case Elli_9x7: eRetval = Elli_11x9; break; //case Elli_11x9: eRetval = ; break; case RectPlus_7x7: eRetval = RectPlus_9x9; break; case RectPlus_9x9: eRetval = RectPlus_11x11; break; //case RectPlus_11x11: eRetval = ; break; //case Crosshair: eRetval = ; break; //case Glue: eRetval = ; break; // #98388# let anchor blink with it's pressed state case Anchor: eRetval = AnchorPressed; break; // #101688# same for AnchorTR case AnchorTR: eRetval = AnchorPressedTR; break; default: break; } return eRetval; } // #101928# BitmapEx SdrHdl::ImpGetBitmapEx(BitmapMarkerKind eKindOfMarker, sal_uInt16 nInd, sal_Bool bFine, sal_Bool bIsHighContrast) { if(bIsHighContrast) { return getHighContrastSet().GetBitmapEx(eKindOfMarker, nInd); } else { if(bFine) { return getModernSet().GetBitmapEx(eKindOfMarker, nInd); } else { return getSimpleSet().GetBitmapEx(eKindOfMarker, nInd); } } } ::sdr::overlay::OverlayObject* SdrHdl::CreateOverlayObject( const basegfx::B2DPoint& rPos, BitmapColorIndex eColIndex, BitmapMarkerKind eKindOfMarker, Point aMoveOutsideOffset) { ::sdr::overlay::OverlayObject* pRetval = 0L; sal_Bool bIsFineHdl(pHdlList->IsFineHdl()); const StyleSettings& rStyleSettings = Application::GetSettings().GetStyleSettings(); sal_Bool bIsHighContrast(rStyleSettings.GetHighContrastMode()); // support bigger sizes sal_Bool bForceBiggerSize(sal_False); if(pHdlList->GetHdlSize() > 3) { switch(eKindOfMarker) { case Anchor: case AnchorPressed: case AnchorTR: case AnchorPressedTR: { // #121463# For anchor, do not simply make bigger because of HdlSize, // do it dependent of IsSelected() which Writer can set in drag mode if(IsSelected()) { bForceBiggerSize = sal_True; } break; } default: { bForceBiggerSize = sal_True; break; } } } // #101928# ...for high contrast, too. if(!bForceBiggerSize && bIsHighContrast) { // #107925# // ...but not for anchors, else they will not blink when activated if(Anchor != eKindOfMarker && AnchorTR != eKindOfMarker) { bForceBiggerSize = sal_True; } } if(bForceBiggerSize) { eKindOfMarker = GetNextBigger(eKindOfMarker); } // #97016# II This handle has the focus, visualize it if(IsFocusHdl() && pHdlList && pHdlList->GetFocusHdl() == this) { // create animated handle BitmapMarkerKind eNextBigger = GetNextBigger(eKindOfMarker); if(eNextBigger == eKindOfMarker) { // this may happen for the not supported getting-bigger types. // Choose an alternative here switch(eKindOfMarker) { case Rect_13x13: eNextBigger = Rect_11x11; break; case Circ_11x11: eNextBigger = Elli_11x9; break; case Elli_9x11: eNextBigger = Elli_11x9; break; case Elli_11x9: eNextBigger = Elli_9x11; break; case RectPlus_11x11: eNextBigger = Rect_13x13; break; case Crosshair: eNextBigger = Glue; break; case Glue: eNextBigger = Crosshair; break; default: break; } } // create animated hdl // #101928# use ImpGetBitmapEx(...) now BitmapEx aBmpEx1 = ImpGetBitmapEx(eKindOfMarker, (sal_uInt16)eColIndex, bIsFineHdl, bIsHighContrast); BitmapEx aBmpEx2 = ImpGetBitmapEx(eNextBigger, (sal_uInt16)eColIndex, bIsFineHdl, bIsHighContrast); // #i53216# Use system cursor blink time. Use the unsigned value. const sal_uInt32 nBlinkTime((sal_uInt32)Application::GetSettings().GetStyleSettings().GetCursorBlinkTime()); if(eKindOfMarker == Anchor || eKindOfMarker == AnchorPressed) { // #98388# when anchor is used take upper left as reference point inside the handle pRetval = new ::sdr::overlay::OverlayAnimatedBitmapEx(rPos, aBmpEx1, aBmpEx2, nBlinkTime); } else if(eKindOfMarker == AnchorTR || eKindOfMarker == AnchorPressedTR) { // #101688# AnchorTR for SW, take top right as (0,0) pRetval = new ::sdr::overlay::OverlayAnimatedBitmapEx(rPos, aBmpEx1, aBmpEx2, nBlinkTime, (sal_uInt16)(aBmpEx1.GetSizePixel().Width() - 1), 0, (sal_uInt16)(aBmpEx2.GetSizePixel().Width() - 1), 0); } else { // create centered handle as default pRetval = new ::sdr::overlay::OverlayAnimatedBitmapEx(rPos, aBmpEx1, aBmpEx2, nBlinkTime, (sal_uInt16)(aBmpEx1.GetSizePixel().Width() - 1) >> 1, (sal_uInt16)(aBmpEx1.GetSizePixel().Height() - 1) >> 1, (sal_uInt16)(aBmpEx2.GetSizePixel().Width() - 1) >> 1, (sal_uInt16)(aBmpEx2.GetSizePixel().Height() - 1) >> 1); } } else { // create normal handle // #101928# use ImpGetBitmapEx(...) now BitmapEx aBmpEx = ImpGetBitmapEx(eKindOfMarker, (sal_uInt16)eColIndex, bIsFineHdl, bIsHighContrast); if(eKindOfMarker == Anchor || eKindOfMarker == AnchorPressed) { // #98388# upper left as reference point inside the handle for AnchorPressed, too pRetval = new ::sdr::overlay::OverlayBitmapEx(rPos, aBmpEx); } else if(eKindOfMarker == AnchorTR || eKindOfMarker == AnchorPressedTR) { // #101688# AnchorTR for SW, take top right as (0,0) pRetval = new ::sdr::overlay::OverlayBitmapEx(rPos, aBmpEx, (sal_uInt16)(aBmpEx.GetSizePixel().Width() - 1), 0); } else { sal_uInt16 nCenX((sal_uInt16)(aBmpEx.GetSizePixel().Width() - 1L) >> 1); sal_uInt16 nCenY((sal_uInt16)(aBmpEx.GetSizePixel().Height() - 1L) >> 1); if(aMoveOutsideOffset.X() > 0) { nCenX = 0; } else if(aMoveOutsideOffset.X() < 0) { nCenX = (sal_uInt16)(aBmpEx.GetSizePixel().Width() - 1); } if(aMoveOutsideOffset.Y() > 0) { nCenY = 0; } else if(aMoveOutsideOffset.Y() < 0) { nCenY = (sal_uInt16)(aBmpEx.GetSizePixel().Height() - 1); } // create centered handle as default pRetval = new ::sdr::overlay::OverlayBitmapEx(rPos, aBmpEx, nCenX, nCenY); } } return pRetval; } bool SdrHdl::IsHdlHit(const Point& rPnt) const { // OVERLAYMANAGER basegfx::B2DPoint aPosition(rPnt.X(), rPnt.Y()); return maOverlayGroup.isHitLogic(aPosition); } Pointer SdrHdl::GetPointer() const { PointerStyle ePtr=POINTER_MOVE; const sal_Bool bSize=eKind>=HDL_UPLFT && eKind<=HDL_LWRGT; const sal_Bool bRot=pHdlList!=NULL && pHdlList->IsRotateShear(); const sal_Bool bDis=pHdlList!=NULL && pHdlList->IsDistortShear(); if (bSize && pHdlList!=NULL && (bRot || bDis)) { switch (eKind) { case HDL_UPLFT: case HDL_UPRGT: case HDL_LWLFT: case HDL_LWRGT: ePtr=bRot ? POINTER_ROTATE : POINTER_REFHAND; break; case HDL_LEFT : case HDL_RIGHT: ePtr=POINTER_VSHEAR; break; case HDL_UPPER: case HDL_LOWER: ePtr=POINTER_HSHEAR; break; default: break; } } else { // Fuer Resize von gedrehten Rechtecken die Mauszeiger etwas mitdrehen if (bSize && nDrehWink!=0) { long nHdlWink=0; switch (eKind) { case HDL_LWRGT: nHdlWink=31500; break; case HDL_LOWER: nHdlWink=27000; break; case HDL_LWLFT: nHdlWink=22500; break; case HDL_LEFT : nHdlWink=18000; break; case HDL_UPLFT: nHdlWink=13500; break; case HDL_UPPER: nHdlWink=9000; break; case HDL_UPRGT: nHdlWink=4500; break; case HDL_RIGHT: nHdlWink=0; break; default: break; } nHdlWink+=nDrehWink+2249; // und etwas drauf (zum runden) while (nHdlWink<0) nHdlWink+=36000; while (nHdlWink>=36000) nHdlWink-=36000; nHdlWink/=4500; switch ((sal_uInt8)nHdlWink) { case 0: ePtr=POINTER_ESIZE; break; case 1: ePtr=POINTER_NESIZE; break; case 2: ePtr=POINTER_NSIZE; break; case 3: ePtr=POINTER_NWSIZE; break; case 4: ePtr=POINTER_WSIZE; break; case 5: ePtr=POINTER_SWSIZE; break; case 6: ePtr=POINTER_SSIZE; break; case 7: ePtr=POINTER_SESIZE; break; } // switch } else { switch (eKind) { case HDL_UPLFT: ePtr=POINTER_NWSIZE; break; case HDL_UPPER: ePtr=POINTER_NSIZE; break; case HDL_UPRGT: ePtr=POINTER_NESIZE; break; case HDL_LEFT : ePtr=POINTER_WSIZE; break; case HDL_RIGHT: ePtr=POINTER_ESIZE; break; case HDL_LWLFT: ePtr=POINTER_SWSIZE; break; case HDL_LOWER: ePtr=POINTER_SSIZE; break; case HDL_LWRGT: ePtr=POINTER_SESIZE; break; case HDL_POLY : ePtr=POINTER_MOVEPOINT; break; case HDL_CIRC : ePtr=POINTER_HAND; break; case HDL_REF1 : ePtr=POINTER_REFHAND; break; case HDL_REF2 : ePtr=POINTER_REFHAND; break; case HDL_BWGT : ePtr=POINTER_MOVEBEZIERWEIGHT; break; case HDL_GLUE : ePtr=POINTER_MOVEPOINT; break; case HDL_CUSTOMSHAPE1 : ePtr=POINTER_HAND; break; default: break; } } } return Pointer(ePtr); } // #97016# II sal_Bool SdrHdl::IsFocusHdl() const { switch(eKind) { case HDL_UPLFT: // Oben links case HDL_UPPER: // Oben case HDL_UPRGT: // Oben rechts case HDL_LEFT: // Links case HDL_RIGHT: // Rechts case HDL_LWLFT: // Unten links case HDL_LOWER: // Unten case HDL_LWRGT: // Unten rechts { // if it's a activated TextEdit, it's moved to extended points if(pHdlList && pHdlList->IsMoveOutside()) return sal_False; else return sal_True; } case HDL_MOVE: // Handle zum Verschieben des Objekts case HDL_POLY: // Punktselektion an Polygon oder Bezierkurve case HDL_BWGT: // Gewicht an einer Bezierkurve case HDL_CIRC: // Winkel an Kreissegmenten, Eckenradius am Rect case HDL_REF1: // Referenzpunkt 1, z.B. Rotationsmitte case HDL_REF2: // Referenzpunkt 2, z.B. Endpunkt der Spiegelachse //case HDL_MIRX: // Die Spiegelachse selbst case HDL_GLUE: // GluePoint // #98388# do NOT activate here, let SW implement their own SdrHdl and // overload IsFocusHdl() there to make the anchor accessible //case HDL_ANCHOR: // anchor symbol (SD, SW) // #101688# same for AnchorTR //case HDL_ANCHOR_TR: // anchor symbol (SD, SW) //case HDL_TRNS: // interactive transparence //case HDL_GRAD: // interactive gradient //case HDL_COLR: // interactive color // for SJ and the CustomShapeHandles: case HDL_CUSTOMSHAPE1: case HDL_USER: { return sal_True; } default: { return sal_False; } } } void SdrHdl::onMouseEnter(const MouseEvent& /*rMEvt*/) { } void SdrHdl::onMouseLeave() { } bool SdrHdl::isMouseOver() const { return mbMouseOver; } //////////////////////////////////////////////////////////////////////////////////////////////////// // class SdrHdlColor SdrHdlColor::SdrHdlColor(const Point& rRef, Color aCol, const Size& rSize, sal_Bool bLum) : SdrHdl(rRef, HDL_COLR), aMarkerSize(rSize), bUseLuminance(bLum) { if(IsUseLuminance()) aCol = GetLuminance(aCol); // remember color aMarkerColor = aCol; } SdrHdlColor::~SdrHdlColor() { } void SdrHdlColor::CreateB2dIAObject() { // first throw away old one GetRidOfIAObject(); if(pHdlList) { SdrMarkView* pView = pHdlList->GetView(); if(pView && !pView->areMarkHandlesHidden()) { SdrPageView* pPageView = pView->GetSdrPageView(); if(pPageView) { for(sal_uInt32 b(0L); b < pPageView->PageWindowCount(); b++) { // const SdrPageViewWinRec& rPageViewWinRec = rPageViewWinList[b]; const SdrPageWindow& rPageWindow = *pPageView->GetPageWindow(b); if(rPageWindow.GetPaintWindow().OutputToWindow()) { if(rPageWindow.GetOverlayManager()) { Bitmap aBmpCol(CreateColorDropper(aMarkerColor)); basegfx::B2DPoint aPosition(aPos.X(), aPos.Y()); ::sdr::overlay::OverlayObject* pNewOverlayObject = new ::sdr::overlay::OverlayBitmapEx( aPosition, BitmapEx(aBmpCol), (sal_uInt16)(aBmpCol.GetSizePixel().Width() - 1) >> 1, (sal_uInt16)(aBmpCol.GetSizePixel().Height() - 1) >> 1 ); DBG_ASSERT(pNewOverlayObject, "Got NO new IAO!"); // OVERLAYMANAGER if(pNewOverlayObject) { rPageWindow.GetOverlayManager()->add(*pNewOverlayObject); maOverlayGroup.append(*pNewOverlayObject); } } } } } } } } Bitmap SdrHdlColor::CreateColorDropper(Color aCol) { // get the Bitmap Bitmap aRetval(aMarkerSize, 24); aRetval.Erase(aCol); // get write access BitmapWriteAccess* pWrite = aRetval.AcquireWriteAccess(); DBG_ASSERT(pWrite, "Got NO write access to a new Bitmap !!!"); if(pWrite) { // draw outer border sal_Int32 nWidth = aMarkerSize.Width(); sal_Int32 nHeight = aMarkerSize.Height(); pWrite->SetLineColor(Color(COL_LIGHTGRAY)); pWrite->DrawLine(Point(0, 0), Point(0, nHeight - 1)); pWrite->DrawLine(Point(1, 0), Point(nWidth - 1, 0)); pWrite->SetLineColor(Color(COL_GRAY)); pWrite->DrawLine(Point(1, nHeight - 1), Point(nWidth - 1, nHeight - 1)); pWrite->DrawLine(Point(nWidth - 1, 1), Point(nWidth - 1, nHeight - 2)); // draw lighter UpperLeft const Color aLightColor( (sal_uInt8)(::std::min((sal_Int16)((sal_Int16)aCol.GetRed() + (sal_Int16)0x0040), (sal_Int16)0x00ff)), (sal_uInt8)(::std::min((sal_Int16)((sal_Int16)aCol.GetGreen() + (sal_Int16)0x0040), (sal_Int16)0x00ff)), (sal_uInt8)(::std::min((sal_Int16)((sal_Int16)aCol.GetBlue() + (sal_Int16)0x0040), (sal_Int16)0x00ff))); pWrite->SetLineColor(aLightColor); pWrite->DrawLine(Point(1, 1), Point(1, nHeight - 2)); pWrite->DrawLine(Point(2, 1), Point(nWidth - 2, 1)); // draw darker LowerRight const Color aDarkColor( (sal_uInt8)(::std::max((sal_Int16)((sal_Int16)aCol.GetRed() - (sal_Int16)0x0040), (sal_Int16)0x0000)), (sal_uInt8)(::std::max((sal_Int16)((sal_Int16)aCol.GetGreen() - (sal_Int16)0x0040), (sal_Int16)0x0000)), (sal_uInt8)(::std::max((sal_Int16)((sal_Int16)aCol.GetBlue() - (sal_Int16)0x0040), (sal_Int16)0x0000))); pWrite->SetLineColor(aDarkColor); pWrite->DrawLine(Point(2, nHeight - 2), Point(nWidth - 2, nHeight - 2)); pWrite->DrawLine(Point(nWidth - 2, 2), Point(nWidth - 2, nHeight - 3)); // get rid of write access delete pWrite; } return aRetval; } Color SdrHdlColor::GetLuminance(const Color& rCol) { sal_uInt8 aLum = rCol.GetLuminance(); Color aRetval(aLum, aLum, aLum); return aRetval; } void SdrHdlColor::CallColorChangeLink() { aColorChangeHdl.Call(this); } void SdrHdlColor::SetColor(Color aNew, sal_Bool bCallLink) { if(IsUseLuminance()) aNew = GetLuminance(aNew); if(aMarkerColor != aNew) { // remember new color aMarkerColor = aNew; // create new display Touch(); // tell about change if(bCallLink) CallColorChangeLink(); } } void SdrHdlColor::SetSize(const Size& rNew) { if(rNew != aMarkerSize) { // remember new size aMarkerSize = rNew; // create new display Touch(); } } //////////////////////////////////////////////////////////////////////////////////////////////////// // class SdrHdlGradient SdrHdlGradient::SdrHdlGradient(const Point& rRef1, const Point& rRef2, sal_Bool bGrad) : SdrHdl(rRef1, bGrad ? HDL_GRAD : HDL_TRNS), pColHdl1(NULL), pColHdl2(NULL), a2ndPos(rRef2), bGradient(bGrad) { } SdrHdlGradient::~SdrHdlGradient() { } void SdrHdlGradient::Set2ndPos(const Point& rPnt) { if(a2ndPos != rPnt) { // remember new position a2ndPos = rPnt; // create new display Touch(); } } void SdrHdlGradient::CreateB2dIAObject() { // first throw away old one GetRidOfIAObject(); if(pHdlList) { SdrMarkView* pView = pHdlList->GetView(); if(pView && !pView->areMarkHandlesHidden()) { SdrPageView* pPageView = pView->GetSdrPageView(); if(pPageView) { for(sal_uInt32 b(0L); b < pPageView->PageWindowCount(); b++) { const SdrPageWindow& rPageWindow = *pPageView->GetPageWindow(b); if(rPageWindow.GetPaintWindow().OutputToWindow()) { if(rPageWindow.GetOverlayManager()) { // striped line in between basegfx::B2DVector aVec(a2ndPos.X() - aPos.X(), a2ndPos.Y() - aPos.Y()); double fVecLen = aVec.getLength(); double fLongPercentArrow = (1.0 - 0.05) * fVecLen; double fHalfArrowWidth = (0.05 * 0.5) * fVecLen; aVec.normalize(); basegfx::B2DVector aPerpend(-aVec.getY(), aVec.getX()); sal_Int32 nMidX = (sal_Int32)(aPos.X() + aVec.getX() * fLongPercentArrow); sal_Int32 nMidY = (sal_Int32)(aPos.Y() + aVec.getY() * fLongPercentArrow); Point aMidPoint(nMidX, nMidY); basegfx::B2DPoint aPosition(aPos.X(), aPos.Y()); basegfx::B2DPoint aMidPos(aMidPoint.X(), aMidPoint.Y()); ::sdr::overlay::OverlayObject* pNewOverlayObject = new ::sdr::overlay::OverlayLineStriped( aPosition, aMidPos ); DBG_ASSERT(pNewOverlayObject, "Got NO new IAO!"); pNewOverlayObject->setBaseColor(IsGradient() ? Color(COL_BLACK) : Color(COL_BLUE)); rPageWindow.GetOverlayManager()->add(*pNewOverlayObject); maOverlayGroup.append(*pNewOverlayObject); // arrowhead Point aLeft(aMidPoint.X() + (sal_Int32)(aPerpend.getX() * fHalfArrowWidth), aMidPoint.Y() + (sal_Int32)(aPerpend.getY() * fHalfArrowWidth)); Point aRight(aMidPoint.X() - (sal_Int32)(aPerpend.getX() * fHalfArrowWidth), aMidPoint.Y() - (sal_Int32)(aPerpend.getY() * fHalfArrowWidth)); basegfx::B2DPoint aPositionLeft(aLeft.X(), aLeft.Y()); basegfx::B2DPoint aPositionRight(aRight.X(), aRight.Y()); basegfx::B2DPoint aPosition2(a2ndPos.X(), a2ndPos.Y()); pNewOverlayObject = new ::sdr::overlay::OverlayTriangle( aPositionLeft, aPosition2, aPositionRight, IsGradient() ? Color(COL_BLACK) : Color(COL_BLUE) ); DBG_ASSERT(pNewOverlayObject, "Got NO new IAO!"); rPageWindow.GetOverlayManager()->add(*pNewOverlayObject); maOverlayGroup.append(*pNewOverlayObject); } } } } } } } IMPL_LINK(SdrHdlGradient, ColorChangeHdl, SdrHdl*, /*pHdl*/) { if(GetObj()) FromIAOToItem(GetObj(), sal_True, sal_True); return 0; } void SdrHdlGradient::FromIAOToItem(SdrObject* _pObj, sal_Bool bSetItemOnObject, sal_Bool bUndo) { // from IAO positions and colors to gradient const SfxItemSet& rSet = _pObj->GetMergedItemSet(); GradTransformer aGradTransformer; GradTransGradient aOldGradTransGradient; GradTransGradient aGradTransGradient; GradTransVector aGradTransVector; String aString; aGradTransVector.maPositionA = basegfx::B2DPoint(GetPos().X(), GetPos().Y()); aGradTransVector.maPositionB = basegfx::B2DPoint(Get2ndPos().X(), Get2ndPos().Y()); if(pColHdl1) aGradTransVector.aCol1 = pColHdl1->GetColor(); if(pColHdl2) aGradTransVector.aCol2 = pColHdl2->GetColor(); if(IsGradient()) aOldGradTransGradient.aGradient = ((XFillGradientItem&)rSet.Get(XATTR_FILLGRADIENT)).GetGradientValue(); else aOldGradTransGradient.aGradient = ((XFillFloatTransparenceItem&)rSet.Get(XATTR_FILLFLOATTRANSPARENCE)).GetGradientValue(); // transform vector data to gradient aGradTransformer.VecToGrad(aGradTransVector, aGradTransGradient, aOldGradTransGradient, _pObj, bMoveSingleHandle, bMoveFirstHandle); if(bSetItemOnObject) { SdrModel* pModel = _pObj->GetModel(); SfxItemSet aNewSet(pModel->GetItemPool()); if(IsGradient()) { aString = String(); XFillGradientItem aNewGradItem(aString, aGradTransGradient.aGradient); aNewSet.Put(aNewGradItem); } else { aString = String(); XFillFloatTransparenceItem aNewTransItem(aString, aGradTransGradient.aGradient); aNewSet.Put(aNewTransItem); } if(bUndo && pModel->IsUndoEnabled()) { pModel->BegUndo(SVX_RESSTR(IsGradient() ? SIP_XA_FILLGRADIENT : SIP_XA_FILLTRANSPARENCE)); pModel->AddUndo(pModel->GetSdrUndoFactory().CreateUndoAttrObject(*_pObj)); pModel->EndUndo(); } pObj->SetMergedItemSetAndBroadcast(aNewSet); } // back transformation, set values on pIAOHandle aGradTransformer.GradToVec(aGradTransGradient, aGradTransVector, _pObj); SetPos(Point(FRound(aGradTransVector.maPositionA.getX()), FRound(aGradTransVector.maPositionA.getY()))); Set2ndPos(Point(FRound(aGradTransVector.maPositionB.getX()), FRound(aGradTransVector.maPositionB.getY()))); if(pColHdl1) { pColHdl1->SetPos(Point(FRound(aGradTransVector.maPositionA.getX()), FRound(aGradTransVector.maPositionA.getY()))); pColHdl1->SetColor(aGradTransVector.aCol1); } if(pColHdl2) { pColHdl2->SetPos(Point(FRound(aGradTransVector.maPositionB.getX()), FRound(aGradTransVector.maPositionB.getY()))); pColHdl2->SetColor(aGradTransVector.aCol2); } } //////////////////////////////////////////////////////////////////////////////////////////////////// SdrHdlLine::~SdrHdlLine() {} void SdrHdlLine::CreateB2dIAObject() { // first throw away old one GetRidOfIAObject(); if(pHdlList) { SdrMarkView* pView = pHdlList->GetView(); if(pView && !pView->areMarkHandlesHidden() && pHdl1 && pHdl2) { SdrPageView* pPageView = pView->GetSdrPageView(); if(pPageView) { for(sal_uInt32 b(0L); b < pPageView->PageWindowCount(); b++) { const SdrPageWindow& rPageWindow = *pPageView->GetPageWindow(b); if(rPageWindow.GetPaintWindow().OutputToWindow()) { if(rPageWindow.GetOverlayManager()) { basegfx::B2DPoint aPosition1(pHdl1->GetPos().X(), pHdl1->GetPos().Y()); basegfx::B2DPoint aPosition2(pHdl2->GetPos().X(), pHdl2->GetPos().Y()); ::sdr::overlay::OverlayObject* pNewOverlayObject = new ::sdr::overlay::OverlayLineStriped( aPosition1, aPosition2 ); DBG_ASSERT(pNewOverlayObject, "Got NO new IAO!"); // OVERLAYMANAGER if(pNewOverlayObject) { // color(?) pNewOverlayObject->setBaseColor(Color(COL_LIGHTRED)); rPageWindow.GetOverlayManager()->add(*pNewOverlayObject); maOverlayGroup.append(*pNewOverlayObject); } } } } } } } } Pointer SdrHdlLine::GetPointer() const { return Pointer(POINTER_REFHAND); } //////////////////////////////////////////////////////////////////////////////////////////////////// SdrHdlBezWgt::~SdrHdlBezWgt() {} void SdrHdlBezWgt::CreateB2dIAObject() { // call parent SdrHdl::CreateB2dIAObject(); // create lines if(pHdlList) { SdrMarkView* pView = pHdlList->GetView(); if(pView && !pView->areMarkHandlesHidden()) { SdrPageView* pPageView = pView->GetSdrPageView(); if(pPageView) { for(sal_uInt32 b(0L); b < pPageView->PageWindowCount(); b++) { const SdrPageWindow& rPageWindow = *pPageView->GetPageWindow(b); if(rPageWindow.GetPaintWindow().OutputToWindow()) { if(rPageWindow.GetOverlayManager()) { basegfx::B2DPoint aPosition1(pHdl1->GetPos().X(), pHdl1->GetPos().Y()); basegfx::B2DPoint aPosition2(aPos.X(), aPos.Y()); if(!aPosition1.equal(aPosition2)) { ::sdr::overlay::OverlayObject* pNewOverlayObject = new ::sdr::overlay::OverlayLineStriped( aPosition1, aPosition2 ); DBG_ASSERT(pNewOverlayObject, "Got NO new IAO!"); // OVERLAYMANAGER if(pNewOverlayObject) { // line part is not hittable pNewOverlayObject->setHittable(sal_False); // color(?) pNewOverlayObject->setBaseColor(Color(COL_LIGHTBLUE)); rPageWindow.GetOverlayManager()->add(*pNewOverlayObject); maOverlayGroup.append(*pNewOverlayObject); } } } } } } } } } //////////////////////////////////////////////////////////////////////////////////////////////////// E3dVolumeMarker::E3dVolumeMarker(const basegfx::B2DPolyPolygon& rWireframePoly) { aWireframePoly = rWireframePoly; } void E3dVolumeMarker::CreateB2dIAObject() { // create lines if(pHdlList) { SdrMarkView* pView = pHdlList->GetView(); if(pView && !pView->areMarkHandlesHidden()) { SdrPageView* pPageView = pView->GetSdrPageView(); if(pPageView) { for(sal_uInt32 b(0L); b < pPageView->PageWindowCount(); b++) { const SdrPageWindow& rPageWindow = *pPageView->GetPageWindow(b); if(rPageWindow.GetPaintWindow().OutputToWindow()) { if(rPageWindow.GetOverlayManager() && aWireframePoly.count()) { ::sdr::overlay::OverlayObject* pNewOverlayObject = new ::sdr::overlay::OverlayPolyPolygonStripedAndFilled( aWireframePoly); DBG_ASSERT(pNewOverlayObject, "Got NO new IAO!"); // OVERLAYMANAGER if(pNewOverlayObject) { pNewOverlayObject->setBaseColor(Color(COL_BLACK)); rPageWindow.GetOverlayManager()->add(*pNewOverlayObject); maOverlayGroup.append(*pNewOverlayObject); } } } } } } } } //////////////////////////////////////////////////////////////////////////////////////////////////// ImpEdgeHdl::~ImpEdgeHdl() { } void ImpEdgeHdl::CreateB2dIAObject() { if(nObjHdlNum <= 1 && pObj) { // first throw away old one GetRidOfIAObject(); BitmapColorIndex eColIndex = LightCyan; BitmapMarkerKind eKindOfMarker = Rect_7x7; if(pHdlList) { SdrMarkView* pView = pHdlList->GetView(); if(pView && !pView->areMarkHandlesHidden()) { const SdrEdgeObj* pEdge = (SdrEdgeObj*)pObj; if(pEdge->GetConnectedNode(nObjHdlNum == 0) != NULL) eColIndex = LightRed; if(nPPntNum < 2) { // Handle with plus sign inside eKindOfMarker = Circ_7x7; } SdrPageView* pPageView = pView->GetSdrPageView(); if(pPageView) { for(sal_uInt32 b(0); b < pPageView->PageWindowCount(); b++) { const SdrPageWindow& rPageWindow = *pPageView->GetPageWindow(b); if(rPageWindow.GetPaintWindow().OutputToWindow()) { if(rPageWindow.GetOverlayManager()) { basegfx::B2DPoint aPosition(aPos.X(), aPos.Y()); ::sdr::overlay::OverlayObject* pNewOverlayObject = CreateOverlayObject( aPosition, eColIndex, eKindOfMarker); // OVERLAYMANAGER if(pNewOverlayObject) { rPageWindow.GetOverlayManager()->add(*pNewOverlayObject); maOverlayGroup.append(*pNewOverlayObject); } } } } } } } } else { // call parent SdrHdl::CreateB2dIAObject(); } } void ImpEdgeHdl::SetLineCode(SdrEdgeLineCode eCode) { if(eLineCode != eCode) { // remember new value eLineCode = eCode; // create new display Touch(); } } Pointer ImpEdgeHdl::GetPointer() const { SdrEdgeObj* pEdge=PTR_CAST(SdrEdgeObj,pObj); if (pEdge==NULL) return SdrHdl::GetPointer(); if (nObjHdlNum<=1) return Pointer(POINTER_MOVEPOINT); //Pointer(POINTER_DRAW_CONNECT); if (IsHorzDrag()) return Pointer(POINTER_ESIZE); else return Pointer(POINTER_SSIZE); } sal_Bool ImpEdgeHdl::IsHorzDrag() const { SdrEdgeObj* pEdge=PTR_CAST(SdrEdgeObj,pObj); if (pEdge==NULL) return sal_False; if (nObjHdlNum<=1) return sal_False; SdrEdgeKind eEdgeKind = ((SdrEdgeKindItem&)(pEdge->GetObjectItem(SDRATTR_EDGEKIND))).GetValue(); const SdrEdgeInfoRec& rInfo=pEdge->aEdgeInfo; if (eEdgeKind==SDREDGE_ORTHOLINES || eEdgeKind==SDREDGE_BEZIER) { return !rInfo.ImpIsHorzLine(eLineCode,*pEdge->pEdgeTrack); } else if (eEdgeKind==SDREDGE_THREELINES) { long nWink=nObjHdlNum==2 ? rInfo.nAngle1 : rInfo.nAngle2; if (nWink==0 || nWink==18000) return sal_True; else return sal_False; } return sal_False; } //////////////////////////////////////////////////////////////////////////////////////////////////// ImpMeasureHdl::~ImpMeasureHdl() { } void ImpMeasureHdl::CreateB2dIAObject() { // first throw away old one GetRidOfIAObject(); if(pHdlList) { SdrMarkView* pView = pHdlList->GetView(); if(pView && !pView->areMarkHandlesHidden()) { BitmapColorIndex eColIndex = LightCyan; BitmapMarkerKind eKindOfMarker = Rect_9x9; if(nObjHdlNum > 1) { eKindOfMarker = Rect_7x7; } if(bSelect) { eColIndex = Cyan; } SdrPageView* pPageView = pView->GetSdrPageView(); if(pPageView) { for(sal_uInt32 b(0L); b < pPageView->PageWindowCount(); b++) { const SdrPageWindow& rPageWindow = *pPageView->GetPageWindow(b); if(rPageWindow.GetPaintWindow().OutputToWindow()) { if(rPageWindow.GetOverlayManager()) { basegfx::B2DPoint aPosition(aPos.X(), aPos.Y()); ::sdr::overlay::OverlayObject* pNewOverlayObject = CreateOverlayObject( aPosition, eColIndex, eKindOfMarker); // OVERLAYMANAGER if(pNewOverlayObject) { rPageWindow.GetOverlayManager()->add(*pNewOverlayObject); maOverlayGroup.append(*pNewOverlayObject); } } } } } } } } Pointer ImpMeasureHdl::GetPointer() const { switch (nObjHdlNum) { case 0: case 1: return Pointer(POINTER_HAND); case 2: case 3: return Pointer(POINTER_MOVEPOINT); case 4: case 5: return SdrHdl::GetPointer(); // wird dann entsprechend gedreht } // switch return Pointer(POINTER_NOTALLOWED); } //////////////////////////////////////////////////////////////////////////////////////////////////// ImpTextframeHdl::ImpTextframeHdl(const Rectangle& rRect) : SdrHdl(rRect.TopLeft(),HDL_MOVE), maRect(rRect) { } void ImpTextframeHdl::CreateB2dIAObject() { // first throw away old one GetRidOfIAObject(); if(pHdlList) { SdrMarkView* pView = pHdlList->GetView(); if(pView && !pView->areMarkHandlesHidden()) { SdrPageView* pPageView = pView->GetSdrPageView(); if(pPageView) { for(sal_uInt32 b(0L); b < pPageView->PageWindowCount(); b++) { const SdrPageWindow& rPageWindow = *pPageView->GetPageWindow(b); if(rPageWindow.GetPaintWindow().OutputToWindow()) { if(rPageWindow.GetOverlayManager()) { const basegfx::B2DPoint aTopLeft(maRect.Left(), maRect.Top()); const basegfx::B2DPoint aBottomRight(maRect.Right(), maRect.Bottom()); const SvtOptionsDrawinglayer aSvtOptionsDrawinglayer; const Color aHilightColor(aSvtOptionsDrawinglayer.getHilightColor()); const double fTransparence(aSvtOptionsDrawinglayer.GetTransparentSelectionPercent() * 0.01); ::sdr::overlay::OverlayRectangle* pNewOverlayObject = new ::sdr::overlay::OverlayRectangle( aTopLeft, aBottomRight, aHilightColor, fTransparence, 3.0, 3.0, nDrehWink * -F_PI18000, 500, true); // allow animation; the Handle is not shown at text edit time pNewOverlayObject->setHittable(false); // OVERLAYMANAGER if(pNewOverlayObject) { rPageWindow.GetOverlayManager()->add(*pNewOverlayObject); maOverlayGroup.append(*pNewOverlayObject); } } } } } } } } //////////////////////////////////////////////////////////////////////////////////////////////////// class ImpSdrHdlListSorter: public ContainerSorter { public: ImpSdrHdlListSorter(Container& rNewCont): ContainerSorter(rNewCont) {} virtual int Compare(const void* pElem1, const void* pElem2) const; }; int ImpSdrHdlListSorter::Compare(const void* pElem1, const void* pElem2) const { SdrHdlKind eKind1=((SdrHdl*)pElem1)->GetKind(); SdrHdlKind eKind2=((SdrHdl*)pElem2)->GetKind(); // Level 1: Erst normale Handles, dann Glue, dann User, dann Plushandles, dann Retpunkt-Handles unsigned n1=1; unsigned n2=1; if (eKind1!=eKind2) { if (eKind1==HDL_REF1 || eKind1==HDL_REF2 || eKind1==HDL_MIRX) n1=5; else if (eKind1==HDL_GLUE) n1=2; else if (eKind1==HDL_USER) n1=3; else if (eKind1==HDL_SMARTTAG) n1=0; if (eKind2==HDL_REF1 || eKind2==HDL_REF2 || eKind2==HDL_MIRX) n2=5; else if (eKind2==HDL_GLUE) n2=2; else if (eKind2==HDL_USER) n2=3; else if (eKind2==HDL_SMARTTAG) n2=0; } if (((SdrHdl*)pElem1)->IsPlusHdl()) n1=4; if (((SdrHdl*)pElem2)->IsPlusHdl()) n2=4; if (n1==n2) { // Level 2: PageView (Pointer) SdrPageView* pPV1=((SdrHdl*)pElem1)->GetPageView(); SdrPageView* pPV2=((SdrHdl*)pElem2)->GetPageView(); if (pPV1==pPV2) { // Level 3: Position (x+y) SdrObject* pObj1=((SdrHdl*)pElem1)->GetObj(); SdrObject* pObj2=((SdrHdl*)pElem2)->GetObj(); if (pObj1==pObj2) { sal_uInt32 nNum1=((SdrHdl*)pElem1)->GetObjHdlNum(); sal_uInt32 nNum2=((SdrHdl*)pElem2)->GetObjHdlNum(); if (nNum1==nNum2) { // #48763# if (eKind1==eKind2) return (long)pElem1<(long)pElem2 ? -1 : 1; // Notloesung, um immer die gleiche Sortierung zu haben return (sal_uInt16)eKind1<(sal_uInt16)eKind2 ? -1 : 1; } else return nNum1mpHdl->GetObj() == p2->mpHdl->GetObj()) { if(p1->mpHdl->GetObj() && p1->mpHdl->GetObj()->ISA(SdrPathObj)) { // same object and a path object if((p1->mpHdl->GetKind() == HDL_POLY || p1->mpHdl->GetKind() == HDL_BWGT) && (p2->mpHdl->GetKind() == HDL_POLY || p2->mpHdl->GetKind() == HDL_BWGT)) { // both handles are point or control handles if(p1->mpHdl->GetPolyNum() == p2->mpHdl->GetPolyNum()) { if(p1->mpHdl->GetPointNum() < p2->mpHdl->GetPointNum()) { return -1; } else { return 1; } } else if(p1->mpHdl->GetPolyNum() < p2->mpHdl->GetPolyNum()) { return -1; } else { return 1; } } } } else { if(!p1->mpHdl->GetObj()) { return -1; } else if(!p2->mpHdl->GetObj()) { return 1; } else { // different objects, use OrdNum for sort const sal_uInt32 nOrdNum1 = p1->mpHdl->GetObj()->GetOrdNum(); const sal_uInt32 nOrdNum2 = p2->mpHdl->GetObj()->GetOrdNum(); if(nOrdNum1 < nOrdNum2) { return -1; } else { return 1; } } } // fallback to indices if(p1->mnIndex < p2->mnIndex) { return -1; } else { return 1; } } //////////////////////////////////////////////////////////////////////////////////////////////////// // #97016# II void SdrHdlList::TravelFocusHdl(sal_Bool bForward) { // security correction if(mnFocusIndex != CONTAINER_ENTRY_NOTFOUND && mnFocusIndex >= GetHdlCount()) mnFocusIndex = CONTAINER_ENTRY_NOTFOUND; if(aList.Count()) { // take care of old handle const sal_uIntPtr nOldHdlNum(mnFocusIndex); SdrHdl* pOld = GetHdl(nOldHdlNum); //SDOsal_Bool bRefresh(sal_False); if(pOld) { // switch off old handle mnFocusIndex = CONTAINER_ENTRY_NOTFOUND; pOld->Touch(); //SDObRefresh = sal_True; } // #105678# Alloc pointer array for sorted handle list ImplHdlAndIndex* pHdlAndIndex = new ImplHdlAndIndex[aList.Count()]; // #105678# build sorted handle list sal_uInt32 a; for( a = 0; a < aList.Count(); a++) { pHdlAndIndex[a].mpHdl = (SdrHdl*)aList.GetObject(a); pHdlAndIndex[a].mnIndex = a; } // #105678# qsort all entries qsort(pHdlAndIndex, aList.Count(), sizeof(ImplHdlAndIndex), ImplSortHdlFunc); // #105678# look for old num in sorted array sal_uIntPtr nOldHdl(nOldHdlNum); if(nOldHdlNum != CONTAINER_ENTRY_NOTFOUND) { for(a = 0; a < aList.Count(); a++) { if(pHdlAndIndex[a].mpHdl == pOld) { nOldHdl = a; break; } } } // #105678# build new HdlNum sal_uIntPtr nNewHdl(nOldHdl); // #105678# do the focus travel if(bForward) { if(nOldHdl != CONTAINER_ENTRY_NOTFOUND) { if(nOldHdl == aList.Count() - 1) { // end forward run nNewHdl = CONTAINER_ENTRY_NOTFOUND; } else { // simply the next handle nNewHdl++; } } else { // start forward run at first entry nNewHdl = 0; } } else { if(nOldHdl == CONTAINER_ENTRY_NOTFOUND) { // start backward run at last entry nNewHdl = aList.Count() - 1; } else { if(nOldHdl == 0) { // end backward run nNewHdl = CONTAINER_ENTRY_NOTFOUND; } else { // simply the previous handle nNewHdl--; } } } // #105678# build new HdlNum sal_uInt32 nNewHdlNum(nNewHdl); // look for old num in sorted array if(nNewHdl != CONTAINER_ENTRY_NOTFOUND) { SdrHdl* pNew = pHdlAndIndex[nNewHdl].mpHdl; for(a = 0; a < aList.Count(); a++) { if((SdrHdl*)aList.GetObject(a) == pNew) { nNewHdlNum = a; break; } } } // take care of next handle if(nOldHdlNum != nNewHdlNum) { mnFocusIndex = nNewHdlNum; SdrHdl* pNew = GetHdl(mnFocusIndex); if(pNew) { pNew->Touch(); //SDObRefresh = sal_True; } } // #105678# free mem again delete [] pHdlAndIndex; } } SdrHdl* SdrHdlList::GetFocusHdl() const { if(mnFocusIndex != CONTAINER_ENTRY_NOTFOUND && mnFocusIndex < GetHdlCount()) return GetHdl(mnFocusIndex); else return 0L; } void SdrHdlList::SetFocusHdl(SdrHdl* pNew) { if(pNew) { SdrHdl* pActual = GetFocusHdl(); if(!pActual || pActual != pNew) { sal_uIntPtr nNewHdlNum = GetHdlNum(pNew); if(nNewHdlNum != CONTAINER_ENTRY_NOTFOUND) { //SDOsal_Bool bRefresh(sal_False); mnFocusIndex = nNewHdlNum; if(pActual) { pActual->Touch(); //SDObRefresh = sal_True; } if(pNew) { pNew->Touch(); //SDObRefresh = sal_True; } //OLMif(bRefresh) //OLM{ //OLM if(pView) //OLM pView->RefreshAllIAOManagers(); //OLM} } } } } void SdrHdlList::ResetFocusHdl() { SdrHdl* pHdl = GetFocusHdl(); mnFocusIndex = CONTAINER_ENTRY_NOTFOUND; if(pHdl) { pHdl->Touch(); } } //////////////////////////////////////////////////////////////////////////////////////////////////// SdrHdlList::SdrHdlList(SdrMarkView* pV) : mnFocusIndex(CONTAINER_ENTRY_NOTFOUND), pView(pV), aList(1024,32,32) { nHdlSize = 3; bRotateShear = sal_False; bMoveOutside = sal_False; bDistortShear = sal_False; bFineHandles = sal_True; // new default: Handles are fine handles } SdrHdlList::~SdrHdlList() { Clear(); } void SdrHdlList::SetHdlSize(sal_uInt16 nSiz) { if(nHdlSize != nSiz) { // remember new value nHdlSize = nSiz; // propagate change to IAOs for(sal_uInt32 i=0; iTouch(); } } } void SdrHdlList::SetMoveOutside(sal_Bool bOn) { if(bMoveOutside != bOn) { // remember new value bMoveOutside = bOn; // propagate change to IAOs for(sal_uInt32 i=0; iTouch(); } } } void SdrHdlList::SetRotateShear(sal_Bool bOn) { bRotateShear = bOn; } void SdrHdlList::SetDistortShear(sal_Bool bOn) { bDistortShear = bOn; } void SdrHdlList::SetFineHdl(sal_Bool bOn) { if(bFineHandles != bOn) { // remember new state bFineHandles = bOn; // propagate change to IAOs for(sal_uInt32 i=0; iTouch(); } } } SdrHdl* SdrHdlList::RemoveHdl(sal_uIntPtr nNum) { SdrHdl* pRetval = (SdrHdl*)aList.Remove(nNum); return pRetval; } void SdrHdlList::Clear() { for (sal_uIntPtr i=0; iTouch(); //SDObRefresh = sal_True; } if(pNow) { pNow->Touch(); //SDObRefresh = sal_True; } } } sal_uIntPtr SdrHdlList::GetHdlNum(const SdrHdl* pHdl) const { if (pHdl==NULL) return CONTAINER_ENTRY_NOTFOUND; sal_uIntPtr nPos=aList.GetPos(pHdl); return nPos; } void SdrHdlList::AddHdl(SdrHdl* pHdl, sal_Bool bAtBegin) { if (pHdl!=NULL) { if (bAtBegin) { aList.Insert(pHdl,sal_uIntPtr(0)); } else { aList.Insert(pHdl,CONTAINER_APPEND); } pHdl->SetHdlList(this); } } SdrHdl* SdrHdlList::IsHdlListHit(const Point& rPnt, sal_Bool bBack, sal_Bool bNext, SdrHdl* pHdl0) const { SdrHdl* pRet=NULL; sal_uIntPtr nAnz=GetHdlCount(); sal_uIntPtr nNum=bBack ? 0 : nAnz; while ((bBack ? nNum0) && pRet==NULL) { if (!bBack) nNum--; SdrHdl* pHdl=GetHdl(nNum); if (bNext) { if (pHdl==pHdl0) bNext=sal_False; } else { if (pHdl->IsHdlHit(rPnt)) pRet=pHdl; } if (bBack) nNum++; } return pRet; } SdrHdl* SdrHdlList::GetHdl(SdrHdlKind eKind1) const { SdrHdl* pRet=NULL; for (sal_uIntPtr i=0; iGetKind()==eKind1) pRet=pHdl; } return pRet; } // -------------------------------------------------------------------- // SdrCropHdl // -------------------------------------------------------------------- SdrCropHdl::SdrCropHdl( const Point& rPnt, SdrHdlKind eNewKind, double fShearX, double fRotation) : SdrHdl(rPnt, eNewKind), mfShearX(fShearX), mfRotation(fRotation) { } // -------------------------------------------------------------------- BitmapEx SdrCropHdl::GetHandlesBitmap( bool bIsFineHdl, bool bIsHighContrast ) { if( bIsHighContrast ) { static BitmapEx* pHighContrastBitmap = 0; if( pHighContrastBitmap == 0 ) pHighContrastBitmap = new BitmapEx(ResId(SIP_SA_ACCESSIBILITY_CROP_MARKERS, *ImpGetResMgr())); return *pHighContrastBitmap; } else if( bIsFineHdl ) { static BitmapEx* pModernBitmap = 0; if( pModernBitmap == 0 ) pModernBitmap = new BitmapEx(ResId(SIP_SA_CROP_FINE_MARKERS, *ImpGetResMgr())); return *pModernBitmap; } else { static BitmapEx* pSimpleBitmap = 0; if( pSimpleBitmap == 0 ) pSimpleBitmap = new BitmapEx(ResId(SIP_SA_CROP_MARKERS, *ImpGetResMgr())); return *pSimpleBitmap; } } // -------------------------------------------------------------------- BitmapEx SdrCropHdl::GetBitmapForHandle( const BitmapEx& rBitmap, int nSize ) { int nPixelSize = 0, nX = 0, nY = 0, nOffset = 0; if( nSize <= 3 ) { nPixelSize = 13; nOffset = 0; } else if( nSize <=4 ) { nPixelSize = 17; nOffset = 36; } else { nPixelSize = 21; nOffset = 84; } switch( eKind ) { case HDL_UPLFT: nX = 0; nY = 0; break; case HDL_UPPER: nX = 1; nY = 0; break; case HDL_UPRGT: nX = 2; nY = 0; break; case HDL_LEFT: nX = 0; nY = 1; break; case HDL_RIGHT: nX = 2; nY = 1; break; case HDL_LWLFT: nX = 0; nY = 2; break; case HDL_LOWER: nX = 1; nY = 2; break; case HDL_LWRGT: nX = 2; nY = 2; break; default: break; } Rectangle aSourceRect( Point( nX * (nPixelSize-1) + nOffset, nY * (nPixelSize-1)), Size(nPixelSize, nPixelSize) ); BitmapEx aRetval(rBitmap); aRetval.Crop(aSourceRect); return aRetval; } // -------------------------------------------------------------------- void SdrCropHdl::CreateB2dIAObject() { // first throw away old one GetRidOfIAObject(); SdrMarkView* pView = pHdlList ? pHdlList->GetView() : 0; SdrPageView* pPageView = pView ? pView->GetSdrPageView() : 0; if( pPageView && !pView->areMarkHandlesHidden() ) { sal_Bool bIsFineHdl(pHdlList->IsFineHdl()); const StyleSettings& rStyleSettings = Application::GetSettings().GetStyleSettings(); sal_Bool bIsHighContrast(rStyleSettings.GetHighContrastMode()); int nHdlSize = pHdlList->GetHdlSize(); if( bIsHighContrast ) nHdlSize = 4; const BitmapEx aHandlesBitmap( GetHandlesBitmap( bIsFineHdl, bIsHighContrast ) ); BitmapEx aBmpEx1( GetBitmapForHandle( aHandlesBitmap, nHdlSize ) ); for(sal_uInt32 b(0L); b < pPageView->PageWindowCount(); b++) { // const SdrPageViewWinRec& rPageViewWinRec = rPageViewWinList[b]; const SdrPageWindow& rPageWindow = *pPageView->GetPageWindow(b); if(rPageWindow.GetPaintWindow().OutputToWindow()) { if(rPageWindow.GetOverlayManager()) { basegfx::B2DPoint aPosition(aPos.X(), aPos.Y()); ::sdr::overlay::OverlayObject* pOverlayObject = 0L; // animate focused handles if(IsFocusHdl() && (pHdlList->GetFocusHdl() == this)) { if( nHdlSize >= 2 ) nHdlSize = 1; BitmapEx aBmpEx2( GetBitmapForHandle( aHandlesBitmap, nHdlSize + 1 ) ); const sal_uInt32 nBlinkTime = sal::static_int_cast(rStyleSettings.GetCursorBlinkTime()); pOverlayObject = new ::sdr::overlay::OverlayAnimatedBitmapEx( aPosition, aBmpEx1, aBmpEx2, nBlinkTime, (sal_uInt16)(aBmpEx1.GetSizePixel().Width() - 1) >> 1, (sal_uInt16)(aBmpEx1.GetSizePixel().Height() - 1) >> 1, (sal_uInt16)(aBmpEx2.GetSizePixel().Width() - 1) >> 1, (sal_uInt16)(aBmpEx2.GetSizePixel().Height() - 1) >> 1, mfShearX, mfRotation); } else { // create centered handle as default pOverlayObject = new ::sdr::overlay::OverlayBitmapEx( aPosition, aBmpEx1, (sal_uInt16)(aBmpEx1.GetSizePixel().Width() - 1) >> 1, (sal_uInt16)(aBmpEx1.GetSizePixel().Height() - 1) >> 1, 0.0, mfShearX, mfRotation); } // OVERLAYMANAGER if(pOverlayObject) { rPageWindow.GetOverlayManager()->add(*pOverlayObject); maOverlayGroup.append(*pOverlayObject); } } } } } } //////////////////////////////////////////////////////////////////////////////////////////////////// // with the correction of crop handling I could get rid of the extra mirroring flag, adapted stuff // accordingly SdrCropViewHdl::SdrCropViewHdl( const basegfx::B2DHomMatrix& rObjectTransform, const Graphic& rGraphic, double fCropLeft, double fCropTop, double fCropRight, double fCropBottom) : SdrHdl(Point(), HDL_USER), maObjectTransform(rObjectTransform), maGraphic(rGraphic), mfCropLeft(fCropLeft), mfCropTop(fCropTop), mfCropRight(fCropRight), mfCropBottom(fCropBottom) { } void SdrCropViewHdl::CreateB2dIAObject() { GetRidOfIAObject(); SdrMarkView* pView = pHdlList ? pHdlList->GetView() : 0; SdrPageView* pPageView = pView ? pView->GetSdrPageView() : 0; if(pPageView && pView->areMarkHandlesHidden()) { return; } // decompose to have current translate and scale basegfx::B2DVector aScale, aTranslate; double fRotate, fShearX; maObjectTransform.decompose(aScale, aTranslate, fRotate, fShearX); if(aScale.equalZero()) { return; } // detect 180 degree rotation, this is the same as mirrored in X and Y, // thus change to mirroring. Prefer mirroring here. Use the equal call // with getSmallValue here, the original which uses rtl::math::approxEqual // is too correct here. Maybe this changes with enhanced precision in aw080 // to the better so that this can be reduced to the more precise call again if(basegfx::fTools::equal(fabs(fRotate), F_PI, 0.000000001)) { aScale.setX(aScale.getX() * -1.0); aScale.setY(aScale.getY() * -1.0); fRotate = 0.0; } // remember mirroring, reset at Scale and adapt crop values for usage; // mirroring can stay in the object transformation, so do not have to // cope with it here (except later for the CroppedImage transformation, // see below) const bool bMirroredX(aScale.getX() < 0.0); const bool bMirroredY(aScale.getY() < 0.0); double fCropLeft(mfCropLeft); double fCropTop(mfCropTop); double fCropRight(mfCropRight); double fCropBottom(mfCropBottom); if(bMirroredX) { aScale.setX(-aScale.getX()); } if(bMirroredY) { aScale.setY(-aScale.getY()); } // create target translate and scale const basegfx::B2DVector aTargetScale( aScale.getX() + fCropRight + fCropLeft, aScale.getY() + fCropBottom + fCropTop); const basegfx::B2DVector aTargetTranslate( aTranslate.getX() - fCropLeft, aTranslate.getY() - fCropTop); // create ranges to make comparisons const basegfx::B2DRange aCurrentForCompare( aTranslate.getX(), aTranslate.getY(), aTranslate.getX() + aScale.getX(), aTranslate.getY() + aScale.getY()); basegfx::B2DRange aCropped( aTargetTranslate.getX(), aTargetTranslate.getY(), aTargetTranslate.getX() + aTargetScale.getX(), aTargetTranslate.getY() + aTargetScale.getY()); if(aCropped.isEmpty()) { // nothing to return since cropped content is completely empty return; } if(aCurrentForCompare.equal(aCropped)) { // no crop at all return; } // back-transform to have values in unit coordinates basegfx::B2DHomMatrix aBackToUnit; aBackToUnit.translate(-aTranslate.getX(), -aTranslate.getY()); aBackToUnit.scale( basegfx::fTools::equalZero(aScale.getX()) ? 1.0 : 1.0 / aScale.getX(), basegfx::fTools::equalZero(aScale.getY()) ? 1.0 : 1.0 / aScale.getY()); // transform cropped back to unit coordinates aCropped.transform(aBackToUnit); // prepare crop PolyPolygon basegfx::B2DPolygon aGraphicOutlinePolygon( basegfx::tools::createPolygonFromRect( aCropped)); basegfx::B2DPolyPolygon aCropPolyPolygon(aGraphicOutlinePolygon); // current range is unit range basegfx::B2DRange aOverlap(0.0, 0.0, 1.0, 1.0); aOverlap.intersect(aCropped); if(!aOverlap.isEmpty()) { aCropPolyPolygon.append( basegfx::tools::createPolygonFromRect( aOverlap)); } // transform to object coordinates to prepare for clip aCropPolyPolygon.transform(maObjectTransform); aGraphicOutlinePolygon.transform(maObjectTransform); // create cropped transformation basegfx::B2DHomMatrix aCroppedTransform; const bool bCombinedMirrorX(bMirroredX); aCroppedTransform.scale( aCropped.getWidth(), aCropped.getHeight()); aCroppedTransform.translate( aCropped.getMinX(), aCropped.getMinY()); aCroppedTransform = maObjectTransform * aCroppedTransform; // prepare graphic primitive (tranformed) const drawinglayer::primitive2d::Primitive2DReference aGraphic( new drawinglayer::primitive2d::GraphicPrimitive2D( aCroppedTransform, maGraphic)); // prepare outline polygon for whole graphic const SvtOptionsDrawinglayer aSvtOptionsDrawinglayer; const basegfx::BColor aHilightColor(aSvtOptionsDrawinglayer.getHilightColor().getBColor()); const drawinglayer::primitive2d::Primitive2DReference aGraphicOutline( new drawinglayer::primitive2d::PolygonHairlinePrimitive2D( aGraphicOutlinePolygon, aHilightColor)); // combine these drawinglayer::primitive2d::Primitive2DSequence aCombination(2); aCombination[0] = aGraphic; aCombination[1] = aGraphicOutline; // embed to MaskPrimitive2D const drawinglayer::primitive2d::Primitive2DReference aMaskedGraphic( new drawinglayer::primitive2d::MaskPrimitive2D( aCropPolyPolygon, aCombination)); // embed to UnifiedTransparencePrimitive2D const drawinglayer::primitive2d::Primitive2DReference aTransparenceMaskedGraphic( new drawinglayer::primitive2d::UnifiedTransparencePrimitive2D( drawinglayer::primitive2d::Primitive2DSequence(&aMaskedGraphic, 1), 0.8)); const drawinglayer::primitive2d::Primitive2DSequence aSequence(&aTransparenceMaskedGraphic, 1); for(sal_uInt32 b(0L); b < pPageView->PageWindowCount(); b++) { // const SdrPageViewWinRec& rPageViewWinRec = rPageViewWinList[b]; const SdrPageWindow& rPageWindow = *pPageView->GetPageWindow(b); if(rPageWindow.GetPaintWindow().OutputToWindow()) { if(rPageWindow.GetOverlayManager()) { ::sdr::overlay::OverlayObject* pNew = new sdr::overlay::OverlayPrimitive2DSequenceObject(aSequence); DBG_ASSERT(pNew, "Got NO new IAO!"); if(pNew) { // only informative object, no hit pNew->setHittable(false); rPageWindow.GetOverlayManager()->add(*pNew); maOverlayGroup.append(*pNew); } } } } } //////////////////////////////////////////////////////////////////////////////////////////////////// // eof