/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /************************************************************************* * * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * Copyright 2000, 2010 Oracle and/or its affiliates. * * OpenOffice.org - a multi-platform office productivity suite * * This file is part of OpenOffice.org. * * OpenOffice.org is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License version 3 * only, as published by the Free Software Foundation. * * OpenOffice.org 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. See the * GNU Lesser General Public License version 3 for more details * (a copy is included in the LICENSE file that accompanied this code). * * You should have received a copy of the GNU Lesser General Public License * version 3 along with OpenOffice.org. If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ #include "precompiled_svx.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include ////////////////////////////////////////////////////////////////////////////// using namespace com::sun::star; ////////////////////////////////////////////////////////////////////////////// namespace drawinglayer { namespace primitive2d { Primitive2DReference createPolyPolygonFillPrimitive( const basegfx::B2DPolyPolygon& rUnitPolyPolygon, const basegfx::B2DHomMatrix& rObjectTransform, const attribute::SdrFillAttribute& rFill, const attribute::FillGradientAttribute& rFillGradient) { // prepare fully scaled polygon basegfx::B2DPolyPolygon aScaledPolyPolygon(rUnitPolyPolygon); aScaledPolyPolygon.transform(rObjectTransform); BasePrimitive2D* pNewFillPrimitive = 0; if(!rFill.getGradient().isDefault()) { pNewFillPrimitive = new PolyPolygonGradientPrimitive2D(aScaledPolyPolygon, rFill.getGradient()); } else if(!rFill.getHatch().isDefault()) { pNewFillPrimitive = new PolyPolygonHatchPrimitive2D(aScaledPolyPolygon, rFill.getColor(), rFill.getHatch()); } else if(!rFill.getBitmap().isDefault()) { const basegfx::B2DRange aRange(basegfx::tools::getRange(aScaledPolyPolygon)); pNewFillPrimitive = new PolyPolygonBitmapPrimitive2D(aScaledPolyPolygon, rFill.getBitmap().getFillBitmapAttribute(aRange)); } else { pNewFillPrimitive = new PolyPolygonColorPrimitive2D(aScaledPolyPolygon, rFill.getColor()); } if(0.0 != rFill.getTransparence()) { // create simpleTransparencePrimitive, add created fill primitive const Primitive2DReference xRefA(pNewFillPrimitive); const Primitive2DSequence aContent(&xRefA, 1L); return Primitive2DReference(new UnifiedTransparencePrimitive2D(aContent, rFill.getTransparence())); } else if(!rFillGradient.isDefault()) { // create sequence with created fill primitive const Primitive2DReference xRefA(pNewFillPrimitive); const Primitive2DSequence aContent(&xRefA, 1L); // create FillGradientPrimitive2D for transparence and add to new sequence // fillGradientPrimitive is enough here (compared to PolyPolygonGradientPrimitive2D) since float transparence will be masked anyways const basegfx::B2DRange aRange(basegfx::tools::getRange(aScaledPolyPolygon)); const Primitive2DReference xRefB(new FillGradientPrimitive2D(aRange, rFillGradient)); const Primitive2DSequence aAlpha(&xRefB, 1L); // create TransparencePrimitive2D using alpha and content return Primitive2DReference(new TransparencePrimitive2D(aContent, aAlpha)); } else { // add to decomposition return Primitive2DReference(pNewFillPrimitive); } } Primitive2DReference createPolygonLinePrimitive( const basegfx::B2DPolygon& rUnitPolygon, const basegfx::B2DHomMatrix& rObjectTransform, const attribute::SdrLineAttribute& rLine, const attribute::SdrLineStartEndAttribute& rStroke) { // prepare fully scaled polygon basegfx::B2DPolygon aScaledPolygon(rUnitPolygon); aScaledPolygon.transform(rObjectTransform); // create line and stroke attribute const attribute::LineAttribute aLineAttribute(rLine.getColor(), rLine.getWidth(), rLine.getJoin()); const attribute::StrokeAttribute aStrokeAttribute(rLine.getDotDashArray(), rLine.getFullDotDashLen()); BasePrimitive2D* pNewLinePrimitive = 0L; if(!rUnitPolygon.isClosed() && !rStroke.isDefault()) { attribute::LineStartEndAttribute aStart(rStroke.getStartWidth(), rStroke.getStartPolyPolygon(), rStroke.isStartCentered()); attribute::LineStartEndAttribute aEnd(rStroke.getEndWidth(), rStroke.getEndPolyPolygon(), rStroke.isEndCentered()); // create data pNewLinePrimitive = new PolygonStrokeArrowPrimitive2D(aScaledPolygon, aLineAttribute, aStrokeAttribute, aStart, aEnd); } else { // create data pNewLinePrimitive = new PolygonStrokePrimitive2D(aScaledPolygon, aLineAttribute, aStrokeAttribute); } if(0.0 != rLine.getTransparence()) { // create simpleTransparencePrimitive, add created fill primitive const Primitive2DReference xRefA(pNewLinePrimitive); const Primitive2DSequence aContent(&xRefA, 1L); return Primitive2DReference(new UnifiedTransparencePrimitive2D(aContent, rLine.getTransparence())); } else { // add to decomposition return Primitive2DReference(pNewLinePrimitive); } } Primitive2DReference createTextPrimitive( const basegfx::B2DPolyPolygon& rUnitPolyPolygon, const basegfx::B2DHomMatrix& rObjectTransform, const attribute::SdrTextAttribute& rText, const attribute::SdrLineAttribute& rStroke, bool bCellText, bool bWordWrap, bool bClipOnBounds) { basegfx::B2DHomMatrix aAnchorTransform(rObjectTransform); SdrTextPrimitive2D* pNew = 0; if(rText.isContour()) { // contour text if(!rStroke.isDefault() && 0.0 != rStroke.getWidth()) { // take line width into account and shrink contour polygon accordingly // decompose to get scale basegfx::B2DVector aScale, aTranslate; double fRotate, fShearX; rObjectTransform.decompose(aScale, aTranslate, fRotate, fShearX); // scale outline to object's size to allow growing with value relative to that size // and also to keep aspect ratio basegfx::B2DPolyPolygon aScaledUnitPolyPolygon(rUnitPolyPolygon); aScaledUnitPolyPolygon.transform(basegfx::tools::createScaleB2DHomMatrix( fabs(aScale.getX()), fabs(aScale.getY()))); // grow the polygon. To shrink, use negative value (half width) aScaledUnitPolyPolygon = basegfx::tools::growInNormalDirection(aScaledUnitPolyPolygon, -(rStroke.getWidth() * 0.5)); // scale back to unit polygon aScaledUnitPolyPolygon.transform(basegfx::tools::createScaleB2DHomMatrix( 0.0 != aScale.getX() ? 1.0 / aScale.getX() : 1.0, 0.0 != aScale.getY() ? 1.0 / aScale.getY() : 1.0)); // create with unit polygon pNew = new SdrContourTextPrimitive2D( &rText.getSdrText(), rText.getOutlinerParaObject(), aScaledUnitPolyPolygon, rObjectTransform); } else { // create with unit polygon pNew = new SdrContourTextPrimitive2D( &rText.getSdrText(), rText.getOutlinerParaObject(), rUnitPolyPolygon, rObjectTransform); } } else if(!rText.getSdrFormTextAttribute().isDefault()) { // text on path, use scaled polygon basegfx::B2DPolyPolygon aScaledPolyPolygon(rUnitPolyPolygon); aScaledPolyPolygon.transform(rObjectTransform); pNew = new SdrPathTextPrimitive2D( &rText.getSdrText(), rText.getOutlinerParaObject(), aScaledPolyPolygon, rText.getSdrFormTextAttribute()); } else { // rObjectTransform is the whole SdrObject transformation from unit rectangle // to it's size and position. Decompose to allow working with single values. basegfx::B2DVector aScale, aTranslate; double fRotate, fShearX; rObjectTransform.decompose(aScale, aTranslate, fRotate, fShearX); // extract mirroring const bool bMirrorX(basegfx::fTools::less(aScale.getX(), 0.0)); const bool bMirrorY(basegfx::fTools::less(aScale.getY(), 0.0)); aScale = basegfx::absolute(aScale); // Get the real size, since polygon ountline and scale // from the object transformation may vary (e.g. ellipse segments) basegfx::B2DHomMatrix aJustScaleTransform; aJustScaleTransform.set(0, 0, aScale.getX()); aJustScaleTransform.set(1, 1, aScale.getY()); basegfx::B2DPolyPolygon aScaledUnitPolyPolygon(rUnitPolyPolygon); aScaledUnitPolyPolygon.transform(aJustScaleTransform); const basegfx::B2DRange aSnapRange(basegfx::tools::getRange(aScaledUnitPolyPolygon)); // create a range describing the wanted text position and size (aTextAnchorRange). This // means to use the text distance values here const basegfx::B2DPoint aTopLeft(aSnapRange.getMinX() + rText.getTextLeftDistance(), aSnapRange.getMinY() + rText.getTextUpperDistance()); const basegfx::B2DPoint aBottomRight(aSnapRange.getMaxX() - rText.getTextRightDistance(), aSnapRange.getMaxY() - rText.getTextLowerDistance()); basegfx::B2DRange aTextAnchorRange; aTextAnchorRange.expand(aTopLeft); aTextAnchorRange.expand(aBottomRight); // now create a transformation from this basic range (aTextAnchorRange) aAnchorTransform = basegfx::tools::createScaleTranslateB2DHomMatrix( aTextAnchorRange.getWidth(), aTextAnchorRange.getHeight(), aTextAnchorRange.getMinX(), aTextAnchorRange.getMinY()); // apply mirroring aAnchorTransform.scale(bMirrorX ? -1.0 : 1.0, bMirrorY ? -1.0 : 1.0); // apply object's other transforms aAnchorTransform = basegfx::tools::createShearXRotateTranslateB2DHomMatrix(fShearX, fRotate, aTranslate) * aAnchorTransform; if(rText.isFitToSize()) { // streched text in range pNew = new SdrStretchTextPrimitive2D( &rText.getSdrText(), rText.getOutlinerParaObject(), aAnchorTransform, rText.isFixedCellHeight()); } else if(rText.isAutoFit()) { // isotrophically scaled text in range pNew = new SdrAutoFitTextPrimitive2D(&rText.getSdrText(), rText.getOutlinerParaObject(), aAnchorTransform, bWordWrap); } else // text in range { // build new primitive pNew = new SdrBlockTextPrimitive2D( &rText.getSdrText(), rText.getOutlinerParaObject(), aAnchorTransform, rText.getSdrTextHorzAdjust(), rText.getSdrTextVertAdjust(), rText.isFixedCellHeight(), rText.isScroll(), bCellText, bWordWrap, bClipOnBounds); } } OSL_ENSURE(pNew != 0, "createTextPrimitive: no text primitive created (!)"); if(rText.isBlink()) { // prepare animation and primitive list drawinglayer::animation::AnimationEntryList aAnimationList; rText.getBlinkTextTiming(aAnimationList); if(0.0 != aAnimationList.getDuration()) { // create content sequence const Primitive2DReference xRefA(pNew); const Primitive2DSequence aContent(&xRefA, 1L); // create and add animated switch primitive return Primitive2DReference(new AnimatedBlinkPrimitive2D(aAnimationList, aContent, true)); } else { // add to decomposition return Primitive2DReference(pNew); } } if(rText.isScroll()) { // suppress scroll when FontWork if(rText.getSdrFormTextAttribute().isDefault()) { // get scroll direction const SdrTextAniDirection eDirection(rText.getSdrText().GetObject().GetTextAniDirection()); const bool bHorizontal(SDRTEXTANI_LEFT == eDirection || SDRTEXTANI_RIGHT == eDirection); // decompose to get separated values for the scroll box basegfx::B2DVector aScale, aTranslate; double fRotate, fShearX; aAnchorTransform.decompose(aScale, aTranslate, fRotate, fShearX); // build transform from scaled only to full AnchorTransform and inverse const basegfx::B2DHomMatrix aSRT(basegfx::tools::createShearXRotateTranslateB2DHomMatrix( fShearX, fRotate, aTranslate)); basegfx::B2DHomMatrix aISRT(aSRT); aISRT.invert(); // bring the primitive back to scaled only and get scaled range, create new clone for this SdrTextPrimitive2D* pNew2 = pNew->createTransformedClone(aISRT); OSL_ENSURE(pNew2, "createTextPrimitive: Could not create transformed clone of text primitive (!)"); delete pNew; pNew = pNew2; // create neutral geometry::ViewInformation2D for local range and decompose calls. This is okay // since the decompose is view-independent const uno::Sequence< beans::PropertyValue > xViewParameters; geometry::ViewInformation2D aViewInformation2D(xViewParameters); // get range const basegfx::B2DRange aScaledRange(pNew->getB2DRange(aViewInformation2D)); // create left outside and right outside transformations. Also take care // of the clip rectangle basegfx::B2DHomMatrix aLeft, aRight; basegfx::B2DPoint aClipTopLeft(0.0, 0.0); basegfx::B2DPoint aClipBottomRight(aScale.getX(), aScale.getY()); if(bHorizontal) { aClipTopLeft.setY(aScaledRange.getMinY()); aClipBottomRight.setY(aScaledRange.getMaxY()); aLeft.translate(-aScaledRange.getMaxX(), 0.0); aRight.translate(aScale.getX() - aScaledRange.getMinX(), 0.0); } else { aClipTopLeft.setX(aScaledRange.getMinX()); aClipBottomRight.setX(aScaledRange.getMaxX()); aLeft.translate(0.0, -aScaledRange.getMaxY()); aRight.translate(0.0, aScale.getY() - aScaledRange.getMinY()); } aLeft *= aSRT; aRight *= aSRT; // prepare animation list drawinglayer::animation::AnimationEntryList aAnimationList; if(bHorizontal) { rText.getScrollTextTiming(aAnimationList, aScale.getX(), aScaledRange.getWidth()); } else { rText.getScrollTextTiming(aAnimationList, aScale.getY(), aScaledRange.getHeight()); } if(0.0 != aAnimationList.getDuration()) { // create a new Primitive2DSequence containing the animated text in it's scaled only state. // use the decomposition to force to simple text primitives, those will no longer // need the outliner for formatting (alternatively it is also possible to just add // pNew to aNewPrimitiveSequence) Primitive2DSequence aAnimSequence(pNew->get2DDecomposition(aViewInformation2D)); delete pNew; // create a new animatedInterpolatePrimitive and add it std::vector< basegfx::B2DHomMatrix > aMatrixStack; aMatrixStack.push_back(aLeft); aMatrixStack.push_back(aRight); const Primitive2DReference xRefA(new AnimatedInterpolatePrimitive2D(aMatrixStack, aAnimationList, aAnimSequence, true)); const Primitive2DSequence aContent(&xRefA, 1L); // scrolling needs an encapsulating clipping primitive const basegfx::B2DRange aClipRange(aClipTopLeft, aClipBottomRight); basegfx::B2DPolygon aClipPolygon(basegfx::tools::createPolygonFromRect(aClipRange)); aClipPolygon.transform(aSRT); return Primitive2DReference(new MaskPrimitive2D(basegfx::B2DPolyPolygon(aClipPolygon), aContent)); } else { // add to decomposition return Primitive2DReference(pNew); } } } if(rText.isInEditMode()) { // #i97628# // encapsulate with TextHierarchyEditPrimitive2D to allow renderers // to suppress actively edited content if needed const Primitive2DReference xRefA(pNew); const Primitive2DSequence aContent(&xRefA, 1L); // create and add TextHierarchyEditPrimitive2D primitive return Primitive2DReference(new TextHierarchyEditPrimitive2D(aContent)); } else { // add to decomposition return Primitive2DReference(pNew); } } Primitive2DSequence createEmbeddedShadowPrimitive( const Primitive2DSequence& rContent, const attribute::SdrShadowAttribute& rShadow) { if(rContent.hasElements()) { Primitive2DSequence aRetval(2); basegfx::B2DHomMatrix aShadowOffset; // prepare shadow offset aShadowOffset.set(0, 2, rShadow.getOffset().getX()); aShadowOffset.set(1, 2, rShadow.getOffset().getY()); // create shadow primitive and add content aRetval[0] = Primitive2DReference( new ShadowPrimitive2D( aShadowOffset, rShadow.getColor(), rContent)); if(0.0 != rShadow.getTransparence()) { // create SimpleTransparencePrimitive2D const Primitive2DSequence aTempContent(&aRetval[0], 1); aRetval[0] = Primitive2DReference( new UnifiedTransparencePrimitive2D( aTempContent, rShadow.getTransparence())); } aRetval[1] = Primitive2DReference(new GroupPrimitive2D(rContent)); return aRetval; } else { return rContent; } } } // end of namespace primitive2d } // end of namespace drawinglayer ////////////////////////////////////////////////////////////////////////////// // eof /* vim:set shiftwidth=4 softtabstop=4 expandtab: */