/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace com::sun::star; void SdrTextObj::NbcSetSnapRect(const Rectangle& rRect) { if (aGeo.nRotationAngle!=0 || aGeo.nShearAngle!=0) { // Either the rotation or shear angle exists. Rectangle aSR0(GetSnapRect()); long nWdt0=aSR0.Right()-aSR0.Left(); long nHgt0=aSR0.Bottom()-aSR0.Top(); long nWdt1=rRect.Right()-rRect.Left(); long nHgt1=rRect.Bottom()-rRect.Top(); SdrTextObj::NbcResize(maSnapRect.TopLeft(),Fraction(nWdt1,nWdt0),Fraction(nHgt1,nHgt0)); SdrTextObj::NbcMove(Size(rRect.Left()-aSR0.Left(),rRect.Top()-aSR0.Top())); } else { // No rotation or shear. maRect = rRect; ImpJustifyRect(maRect); // #115391# AdaptTextMinSize(); ImpCheckShear(); SetRectsDirty(); } } const Rectangle& SdrTextObj::GetLogicRect() const { return maRect; } void SdrTextObj::NbcSetLogicRect(const Rectangle& rRect) { long nHDist=GetTextLeftDistance()+GetTextRightDistance(); long nVDist=GetTextUpperDistance()+GetTextLowerDistance(); long nTWdt0=maRect.GetWidth ()-1-nHDist; if (nTWdt0<0) nTWdt0=0; long nTHgt0=maRect.GetHeight()-1-nVDist; if (nTHgt0<0) nTHgt0=0; long nTWdt1=rRect.GetWidth ()-1-nHDist; if (nTWdt1<0) nTWdt1=0; long nTHgt1=rRect.GetHeight()-1-nVDist; if (nTHgt1<0) nTHgt1=0; maRect = rRect; ImpJustifyRect(maRect); // #115391# AdaptTextMinSize(); SetRectsDirty(); } long SdrTextObj::GetRotateAngle() const { return aGeo.nRotationAngle; } long SdrTextObj::GetShearAngle(bool /*bVertical*/) const { return aGeo.nShearAngle; } void SdrTextObj::NbcMove(const Size& rSiz) { MoveRect(maRect,rSiz); MoveRect(aOutRect,rSiz); MoveRect(maSnapRect,rSiz); SetRectsDirty(true); } void SdrTextObj::NbcResize(const Point& rRef, const Fraction& xFact, const Fraction& yFact) { bool bNoShearMerk=aGeo.nShearAngle==0; bool bRota90Merk=bNoShearMerk && aGeo.nRotationAngle % 9000 ==0; long nHDist=GetTextLeftDistance()+GetTextRightDistance(); long nVDist=GetTextUpperDistance()+GetTextLowerDistance(); long nTWdt0=maRect.GetWidth ()-1-nHDist; if (nTWdt0<0) nTWdt0=0; long nTHgt0=maRect.GetHeight()-1-nVDist; if (nTHgt0<0) nTHgt0=0; bool bXMirr=(xFact.GetNumerator()<0) != (xFact.GetDenominator()<0); bool bYMirr=(yFact.GetNumerator()<0) != (yFact.GetDenominator()<0); if (bXMirr || bYMirr) { Point aRef1(GetSnapRect().Center()); if (bXMirr) { Point aRef2(aRef1); aRef2.Y()++; NbcMirrorGluePoints(aRef1,aRef2); } if (bYMirr) { Point aRef2(aRef1); aRef2.X()++; NbcMirrorGluePoints(aRef1,aRef2); } } if (aGeo.nRotationAngle==0 && aGeo.nShearAngle==0) { ResizeRect(maRect,rRef,xFact,yFact); if (bYMirr) { maRect.Justify(); maRect.Move(maRect.Right()-maRect.Left(),maRect.Bottom()-maRect.Top()); aGeo.nRotationAngle=18000; aGeo.RecalcSinCos(); } } else { Polygon aPol(Rect2Poly(maRect,aGeo)); for(sal_uInt16 a(0); a < aPol.GetSize(); a++) { ResizePoint(aPol[a], rRef, xFact, yFact); } if(bXMirr != bYMirr) { // turn polygon and move it a little Polygon aPol0(aPol); aPol[0] = aPol0[1]; aPol[1] = aPol0[0]; aPol[2] = aPol0[3]; aPol[3] = aPol0[2]; aPol[4] = aPol0[1]; } Poly2Rect(aPol, maRect, aGeo); } if (bRota90Merk) { bool bRota90=aGeo.nRotationAngle % 9000 ==0; if (!bRota90) { // there's seems to be a rounding error occurring: correct it long a=NormAngle360(aGeo.nRotationAngle); if (a<4500) a=0; else if (a<13500) a=9000; else if (a<22500) a=18000; else if (a<31500) a=27000; else a=0; aGeo.nRotationAngle=a; aGeo.RecalcSinCos(); } if (bNoShearMerk!=(aGeo.nShearAngle==0)) { // correct a rounding error occurring with Shear aGeo.nShearAngle=0; aGeo.RecalcTan(); } } ImpJustifyRect(maRect); long nTWdt1=maRect.GetWidth ()-1-nHDist; if (nTWdt1<0) nTWdt1=0; long nTHgt1=maRect.GetHeight()-1-nVDist; if (nTHgt1<0) nTHgt1=0; // #115391# AdaptTextMinSize(); if(bTextFrame && (!pModel || !pModel->IsPasteResize())) { NbcAdjustTextFrameWidthAndHeight(); } ImpCheckShear(); SetRectsDirty(); } void SdrTextObj::NbcRotate(const Point& rRef, long nAngle, double sn, double cs) { SetGlueReallyAbsolute(true); long dx=maRect.Right()-maRect.Left(); long dy=maRect.Bottom()-maRect.Top(); Point aP(maRect.TopLeft()); RotatePoint(aP,rRef,sn,cs); maRect.Left()=aP.X(); maRect.Top()=aP.Y(); maRect.Right()=maRect.Left()+dx; maRect.Bottom()=maRect.Top()+dy; if (aGeo.nRotationAngle==0) { aGeo.nRotationAngle=NormAngle360(nAngle); aGeo.nSin=sn; aGeo.nCos=cs; } else { aGeo.nRotationAngle=NormAngle360(aGeo.nRotationAngle+nAngle); aGeo.RecalcSinCos(); } SetRectsDirty(); NbcRotateGluePoints(rRef,nAngle,sn,cs); SetGlueReallyAbsolute(false); } void SdrTextObj::NbcShear(const Point& rRef, long nAngle, double tn, bool bVShear) { SetGlueReallyAbsolute(true); // when this is a SdrPathObj, aRect may be uninitialized Polygon aPol(Rect2Poly(maRect.IsEmpty() ? GetSnapRect() : maRect, aGeo)); sal_uInt16 nPointCount=aPol.GetSize(); for (sal_uInt16 i=0; iGetSubList(); // process results for(sal_uInt32 a(0); a < nResultCount; a++) { const drawinglayer::processor2d::TextAsPolygonDataNode& rCandidate = rResult[a]; basegfx::B2DPolyPolygon aPolyPolygon(rCandidate.getB2DPolyPolygon()); if(aPolyPolygon.count()) { // take care of wanted polygon type if(bToPoly) { if(aPolyPolygon.areControlPointsUsed()) { aPolyPolygon = basegfx::tools::adaptiveSubdivideByAngle(aPolyPolygon); } } else { if(!aPolyPolygon.areControlPointsUsed()) { aPolyPolygon = basegfx::tools::expandToCurve(aPolyPolygon); } } // create ItemSet with object attributes SfxItemSet aAttributeSet(GetObjectItemSet()); SdrPathObj* pPathObj = 0; // always clear objectshadow; this is included in the extraction aAttributeSet.Put(makeSdrShadowItem(false)); if(rCandidate.getIsFilled()) { // set needed items aAttributeSet.Put(XFillColorItem(OUString(), Color(rCandidate.getBColor()))); aAttributeSet.Put(XLineStyleItem(drawing::LineStyle_NONE)); aAttributeSet.Put(XFillStyleItem(drawing::FillStyle_SOLID)); // create filled SdrPathObj pPathObj = new SdrPathObj(OBJ_PATHFILL, aPolyPolygon); } else { // set needed items aAttributeSet.Put(XLineColorItem(OUString(), Color(rCandidate.getBColor()))); aAttributeSet.Put(XLineStyleItem(drawing::LineStyle_SOLID)); aAttributeSet.Put(XLineWidthItem(0)); aAttributeSet.Put(XFillStyleItem(drawing::FillStyle_NONE)); // create line SdrPathObj pPathObj = new SdrPathObj(OBJ_PATHLINE, aPolyPolygon); } // copy basic information from original pPathObj->ImpSetAnchorPos(GetAnchorPos()); pPathObj->NbcSetLayer(GetLayer()); if(GetModel()) { pPathObj->SetModel(GetModel()); pPathObj->NbcSetStyleSheet(GetStyleSheet(), true); } // apply prepared ItemSet and add to target pPathObj->SetMergedItemSet(aAttributeSet); pObjectList->InsertObject(pPathObj); } } // postprocess; if no result and/or only one object, simplify if(!pObjectList->GetObjCount()) { delete pGroup; } else if(1 == pObjectList->GetObjCount()) { pRetval = pObjectList->RemoveObject(0); delete pGroup; } else { pRetval = pGroup; } } } return pRetval; } SdrObject* SdrTextObj::DoConvertToPolyObj(bool bBezier, bool bAddText) const { if(bAddText) { return ImpConvertContainedTextToSdrPathObjs(!bBezier); } return 0; } bool SdrTextObj::ImpCanConvTextToCurve() const { return !IsOutlText(); } SdrObject* SdrTextObj::ImpConvertMakeObj(const basegfx::B2DPolyPolygon& rPolyPolygon, bool bClosed, bool bBezier, bool bNoSetAttr) const { SdrObjKind ePathKind = bClosed ? OBJ_PATHFILL : OBJ_PATHLINE; basegfx::B2DPolyPolygon aB2DPolyPolygon(rPolyPolygon); // #i37011# if(!bBezier) { aB2DPolyPolygon = basegfx::tools::adaptiveSubdivideByAngle(aB2DPolyPolygon); ePathKind = bClosed ? OBJ_POLY : OBJ_PLIN; } SdrPathObj* pPathObj = new SdrPathObj(ePathKind, aB2DPolyPolygon); if(bBezier) { // create bezier curves pPathObj->SetPathPoly(basegfx::tools::expandToCurve(pPathObj->GetPathPoly())); } if(pPathObj) { pPathObj->ImpSetAnchorPos(aAnchor); pPathObj->NbcSetLayer(SdrLayerID(GetLayer())); if(pModel) { pPathObj->SetModel(pModel); if(!bNoSetAttr) { sdr::properties::ItemChangeBroadcaster aC(*pPathObj); pPathObj->ClearMergedItem(); pPathObj->SetMergedItemSet(GetObjectItemSet()); pPathObj->GetProperties().BroadcastItemChange(aC); pPathObj->NbcSetStyleSheet(GetStyleSheet(), true); } } } return pPathObj; } SdrObject* SdrTextObj::ImpConvertAddText(SdrObject* pObj, bool bBezier) const { if(!ImpCanConvTextToCurve()) { return pObj; } SdrObject* pText = ImpConvertContainedTextToSdrPathObjs(!bBezier); if(!pText) { return pObj; } if(!pObj) { return pText; } if(pText->IsGroupObject()) { // is already group object, add partial shape in front SdrObjList* pOL=pText->GetSubList(); pOL->InsertObject(pObj,0); return pText; } else { // not yet a group, create one and add partial and new shapes SdrObjGroup* pGrp=new SdrObjGroup; SdrObjList* pOL=pGrp->GetSubList(); pOL->InsertObject(pObj); pOL->InsertObject(pText); return pGrp; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */