/* -*- 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 . */ #ifndef INCLUDED_FILTER_MSFILTER_ESCHEREX_HXX #define INCLUDED_FILTER_MSFILTER_ESCHEREX_HXX #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /*Record Name FBT-Value Instance Contents Wrd Exl PPt Ver*/ // In the Microsoft documentation the naming scheme is msofbt... instead of ESCHER_... #define ESCHER_DggContainer 0xF000u /* per-document data X X X */ #define ESCHER_Dgg 0xF006u /* an FDGG and several FIDCLs X X X 0 */ #define ESCHER_OPT 0xF00Bu /* count of properties the document-wide default shape properties X X X 3 */ #define ESCHER_SplitMenuColors 0xF11Eu /* count of colors the colors in the top-level split menus X X X 0 */ #define ESCHER_BstoreContainer 0xF001u /* count of BLIPs all images in the document (JPEGs, metafiles, etc.) X X X */ #define ESCHER_BSE 0xF007u /* BLIP type an FBSE (one per BLIP) X X X 2 */ #define ESCHER_BlipFirst 0xF018u /* range of fbts reserved for various kinds of BLIPs X X X */ #define ESCHER_DgContainer 0xF002u /* per-sheet/page/slide data X X X */ #define ESCHER_Dg 0xF008u /* drawing ID an FDG X X X 0 */ #define ESCHER_SpgrContainer 0xF003u /* several SpContainers, the first of which is the group shape itself X X X */ #define ESCHER_SpContainer 0xF004u /* a shape X X X */ #define ESCHER_Spgr 0xF009u /* an FSPGR; only present if the shape is a group shape X X X 1 */ #define ESCHER_Sp 0xF00Au /* shape type an FSP X X X 2 */ //#define ESCHER_OPT 0xF00Bu /* count of properties a shape property table X X X 3 */ #define ESCHER_ClientTextbox 0xF00Du /* host-defined the text in the textbox, in host-defined format X X X */ #define ESCHER_ChildAnchor 0xF00Fu /* a RECT, in units relative to the parent group X X X 0 */ #define ESCHER_ClientAnchor 0xF010u /* host-defined the location of the shape, in a host-defined format X X X */ #define ESCHER_ClientData 0xF011u /* host-defined host-specific data X X X */ #define ESCHER_SolverContainer 0xF005u /* count of rules the rules governing shapes X X X */ #define ESCHER_ConnectorRule 0xF012u /* an FConnectorRule X X 1 */ #define ESCHER_UDefProp 0xF122u #define SHAPEFLAG_OLESHAPE 0x010 /* The shape is an OLE object */ #define SHAPEFLAG_FLIPH 0x040 /* Shape is flipped horizontally */ #define SHAPEFLAG_FLIPV 0x080 /* Shape is flipped vertically */ #define SHAPEFLAG_CONNECTOR 0x100 /* Connector type of shape */ #define SHAPEFLAG_HAVEANCHOR 0x200 /* Shape has an anchor of some kind */ #define SHAPEFLAG_HAVESPT 0x800 /* Shape has a shape type property */ #define ESCHER_ShpInst_Min 0 #define ESCHER_ShpInst_NotPrimitive ESCHER_ShpInst_Min #define ESCHER_ShpInst_Rectangle 1 #define ESCHER_ShpInst_RoundRectangle 2 #define ESCHER_ShpInst_Ellipse 3 #define ESCHER_ShpInst_Arc 19 #define ESCHER_ShpInst_Line 20 #define ESCHER_ShpInst_StraightConnector1 32 #define ESCHER_ShpInst_BentConnector2 33 #define ESCHER_ShpInst_BentConnector3 34 #define ESCHER_ShpInst_CurvedConnector3 38 #define ESCHER_ShpInst_PictureFrame 75 #define ESCHER_ShpInst_TextPlainText 136 #define ESCHER_ShpInst_TextDeflateInflateDeflate 167 #define ESCHER_ShpInst_TextSlantUp 172 #define ESCHER_ShpInst_HostControl 201 #define ESCHER_ShpInst_TextBox 202 #define ESCHER_ShpInst_COUNT 203 #define ESCHER_ShpInst_Max 0x0FFF #define ESCHER_ShpInst_Nil ESCHER_ShpInst_Max enum ESCHER_BlibType { // GEL provided types... ERROR = 0, // An error occurred during loading UNKNOWN, // An unknown blip type EMF, // Windows Enhanced Metafile WMF, // Windows Metafile PICT, // Macintosh PICT PEG, // JFIF PNG, // PNG DIB, // Windows DIB FirstClient = 32, // First client defined blip type LastClient = 255 // Last client defined blip type }; enum ESCHER_FillStyle { ESCHER_FillSolid, // Fill with a solid color ESCHER_FillPattern, // Fill with a pattern (bitmap) ESCHER_FillTexture, // A texture (pattern with its own color map) ESCHER_FillPicture, // Center a picture in the shape ESCHER_FillShade, // Shade from start to end points ESCHER_FillShadeCenter, // Shade from bounding rectangle to end point ESCHER_FillShadeShape, // Shade from shape outline to end point ESCHER_FillShadeScale, ESCHER_FillShadeTitle, ESCHER_FillBackground }; enum ESCHER_wMode { ESCHER_wColor, // only used for predefined shades ESCHER_wAutomatic, // depends on object type ESCHER_wGrayScale, // shades of gray only ESCHER_wLightGrayScale, // shades of light gray only ESCHER_wInverseGray, // dark gray mapped to light gray, etc. ESCHER_wGrayOutline, // pure gray and white ESCHER_wBlackTextLine, // black text and lines, all else grayscale ESCHER_wHighContrast, // pure black and white mode (no grays) ESCHER_wBlack, // solid black msobwWhite, // solid white ESCHER_wDontShow, // object not drawn ESCHER_wNumModes // number of Black and white modes }; enum ESCHER_ShapePath { ESCHER_ShapeLines, // A line of straight segments ESCHER_ShapeLinesClosed, // A closed polygonal object ESCHER_ShapeCurves, // A line of Bezier curve segments ESCHER_ShapeCurvesClosed, // A closed shape with curved edges ESCHER_ShapeComplex // pSegmentInfo must be non-empty }; enum ESCHER_WrapMode { ESCHER_WrapSquare, ESCHER_WrapByPoints, ESCHER_WrapNone, ESCHER_WrapTopBottom, ESCHER_WrapThrough }; enum ESCHER_bwMode { ESCHER_bwColor, // only used for predefined shades ESCHER_bwAutomatic, // depends on object type ESCHER_bwGrayScale, // shades of gray only ESCHER_bwLightGrayScale, // shades of light gray only ESCHER_bwInverseGray, // dark gray mapped to light gray, etc. ESCHER_bwGrayOutline, // pure gray and white ESCHER_bwBlackTextLine, // black text and lines, all else grayscale ESCHER_bwHighContrast, // pure black and white mode (no grays) ESCHER_bwBlack, // solid black ESCHER_bwWhite, // solid white ESCHER_bwDontShow, // object not drawn ESCHER_bwNumModes // number of Black and white modes }; enum ESCHER_AnchorText { ESCHER_AnchorTop, ESCHER_AnchorMiddle, ESCHER_AnchorBottom, ESCHER_AnchorTopCentered, ESCHER_AnchorMiddleCentered, ESCHER_AnchorBottomCentered, ESCHER_AnchorTopBaseline, ESCHER_AnchorBottomBaseline, ESCHER_AnchorTopCenteredBaseline, ESCHER_AnchorBottomCenteredBaseline }; enum ESCHER_cDir { ESCHER_cDir0, // Right ESCHER_cDir90, // Down ESCHER_cDir180, // Left ESCHER_cDir270 // Up }; // connector style enum ESCHER_cxSTYLE { ESCHER_cxstyleStraight = 0, ESCHER_cxstyleBent, ESCHER_cxstyleCurved, ESCHER_cxstyleNone }; // text flow enum ESCHER_txfl { ESCHER_txflHorzN, // Horizontal non-@ ESCHER_txflTtoBA, // Top to Bottom @-font ESCHER_txflBtoT, // Bottom to Top non-@ ESCHER_txflTtoBN, // Top to Bottom non-@ ESCHER_txflHorzA, // Horizontal @-font ESCHER_txflVertN // Vertical, non-@ }; // text direction (needed for Bi-Di support) enum ESCHER_txDir { ESCHER_txdirLTR, // left-to-right text direction ESCHER_txdirRTL, // right-to-left text direction ESCHER_txdirContext // context text direction }; // Callout Type enum ESCHER_spcot { ESCHER_spcotRightAngle = 1, ESCHER_spcotOneSegment = 2, ESCHER_spcotTwoSegment = 3, ESCHER_spcotThreeSegment= 4 }; // Callout Angle enum ESCHER_spcoa { ESCHER_spcoaAny, ESCHER_spcoa30, ESCHER_spcoa45, ESCHER_spcoa60, ESCHER_spcoa90, ESCHER_spcoa0 }; // Callout Drop enum ESCHER_spcod { ESCHER_spcodTop, ESCHER_spcodCenter, ESCHER_spcodBottom, ESCHER_spcodSpecified }; // FontWork alignment enum ESCHER_GeoTextAlign { ESCHER_AlignTextStretch, // Stretch each line of text to fit width. ESCHER_AlignTextCenter, // Center text on width. ESCHER_AlignTextLeft, // Left justify. ESCHER_AlignTextRight, // Right justify. ESCHER_AlignTextLetterJust, // Spread letters out to fit width. ESCHER_AlignTextWordJust, // Spread words out to fit width. ESCHER_AlignTextInvalid // Invalid }; // flags for pictures enum ESCHER_BlipFlags { ESCHER_BlipFlagDefault = 0, ESCHER_BlipFlagComment = 0, // Blip name is a comment ESCHER_BlipFlagFile, // Blip name is a file name ESCHER_BlipFlagURL, // Blip name is a full URL ESCHER_BlipFlagType = 3, // Mask to extract type /* Or the following flags with any of the above. */ ESCHER_BlipFlagDoNotSave = 4, ESCHER_BlipFlagLinkToFile = 8 }; enum ESCHER_3DRenderMode { ESCHER_FullRender, // Generate a full rendering ESCHER_Wireframe, // Generate a wireframe ESCHER_BoundingCube // Generate a bounding cube }; enum ESCHER_xFormType { ESCHER_xFormAbsolute, // Apply transform in absolute space centered on shape ESCHER_xFormShape, // Apply transform to shape geometry ESCHER_xFormDrawing // Apply transform in drawing space }; enum ESCHER_ShadowType { ESCHER_ShadowOffset, // N pixel offset shadow ESCHER_ShadowDouble, // Use second offset too ESCHER_ShadowRich, // Rich perspective shadow (cast relative to shape) ESCHER_ShadowShape, // Rich perspective shadow (cast in shape space) ESCHER_ShadowDrawing, // Perspective shadow cast in drawing space ESCHER_ShadowEmbossOrEngrave }; // - the type of a (length) measurement enum ESCHER_dzType { ESCHER_dzTypeMin = 0, ESCHER_dzTypeDefault = 0, // Default size, ignore the values ESCHER_dzTypeA = 1, // Values are in EMUs ESCHER_dzTypeV = 2, // Values are in pixels ESCHER_dzTypeShape = 3, // Values are 16.16 fractions of shape size ESCHER_dzTypeFixedAspect = 4, // Aspect ratio is fixed ESCHER_dzTypeAFixed = 5, // EMUs, fixed aspect ratio ESCHER_dzTypeVFixed = 6, // Pixels, fixed aspect ratio ESCHER_dzTypeShapeFixed = 7, // Proportion of shape, fixed aspect ratio ESCHER_dzTypeFixedAspectEnlarge= 8, // Aspect ratio is fixed, favor larger size ESCHER_dzTypeAFixedBig = 9, // EMUs, fixed aspect ratio ESCHER_dzTypeVFixedBig = 10, // Pixels, fixed aspect ratio ESCHER_dzTypeShapeFixedBig= 11, // Proportion of shape, fixed aspect ratio ESCHER_dzTypeMax = 11 }; // how to interpret the colors in a shaded fill. enum ESCHER_ShadeType { ESCHER_ShadeNone = 0, // Interpolate without correction between RGBs ESCHER_ShadeGamma = 1, // Apply gamma correction to colors ESCHER_ShadeSigma = 2, // Apply a sigma transfer function to position ESCHER_ShadeBand = 4, // Add a flat band at the start of the shade ESCHER_ShadeOneColor = 8, // This is a one color shade /* A parameter for the band or sigma function can be stored in the top 16 bits of the value - this is a proportion of *each* band of the shade to make flat (or the approximate equal value for a sigma function). NOTE: the parameter is not used for the sigma function, instead a built in value is used. This value should not be changed from the default! */ ESCHER_ShadeParameterShift = 16, ESCHER_ShadeParameterMask = 0xffff0000, ESCHER_ShadeDefault = (ESCHER_ShadeGamma|ESCHER_ShadeSigma| (16384< mXConnector; ::com::sun::star::awt::Point maPointA; ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > mXConnectToA; ::com::sun::star::awt::Point maPointB; ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > mXConnectToB; sal_uInt32 GetConnectorRule( bool bFirst ); EscherConnectorListEntry( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rC, const ::com::sun::star::awt::Point& rPA, ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rSA , const ::com::sun::star::awt::Point& rPB, ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rSB ) : mXConnector ( rC ), maPointA ( rPA ), mXConnectToA( rSA ), maPointB ( rPB ), mXConnectToB( rSB ) {} sal_uInt32 GetClosestPoint( const Polygon& rPoly, const ::com::sun::star::awt::Point& rP ); }; struct MSFILTER_DLLPUBLIC EscherExContainer { sal_uInt32 nContPos; SvStream& rStrm; EscherExContainer( SvStream& rSt, const sal_uInt16 nRecType, const sal_uInt16 nInstance = 0 ); ~EscherExContainer(); }; struct MSFILTER_DLLPUBLIC EscherExAtom { sal_uInt32 nContPos; SvStream& rStrm; EscherExAtom( SvStream& rSt, const sal_uInt16 nRecType, const sal_uInt16 nInstance = 0, const sal_uInt8 nVersion = 0 ); ~EscherExAtom(); }; struct EscherPropertyValueHelper { static bool GetPropertyValue( ::com::sun::star::uno::Any& rAny, const ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > &, const OUString& rPropertyName, bool bTestPropertyAvailability = false ); static ::com::sun::star::beans::PropertyState GetPropertyState( const ::com::sun::star::uno::Reference < ::com::sun::star::beans::XPropertySet > &, const OUString& rPropertyName ); }; struct EscherPersistEntry { sal_uInt32 mnID; sal_uInt32 mnOffset; EscherPersistEntry( sal_uInt32 nId, sal_uInt32 nOffset ) { mnID = nId; mnOffset = nOffset; }; }; class EscherBlibEntry { friend class EscherGraphicProvider; friend class EscherEx; protected: sal_uInt32 mnIdentifier[ 4 ]; sal_uInt32 mnPictureOffset; // offset to the graphic im PictureStreams sal_uInt32 mnSize; // size of real graphic sal_uInt32 mnRefCount; // !! reference count sal_uInt32 mnSizeExtra; // !! size of preceding header ESCHER_BlibType meBlibType; Size maPrefSize; MapMode maPrefMapMode; bool mbIsEmpty; bool mbIsNativeGraphicPossible; public: EscherBlibEntry( sal_uInt32 nPictureOffset, const GraphicObject& rObj, const OString& rId, const GraphicAttr* pAttr = NULL ); ~EscherBlibEntry(); void WriteBlibEntry( SvStream& rSt, bool bWritePictureOffset, sal_uInt32 nResize = 0 ); bool IsEmpty() const { return mbIsEmpty; }; bool operator==( const EscherBlibEntry& ) const; }; #define _E_GRAPH_PROV_USE_INSTANCES 1 #define _E_GRAPH_PROV_DO_NOT_ROTATE_METAFILES 2 class MSFILTER_DLLPUBLIC EscherGraphicProvider { sal_uInt32 mnFlags; EscherBlibEntry** mpBlibEntrys; sal_uInt32 mnBlibBufSize; sal_uInt32 mnBlibEntrys; OUString maBaseURI; protected: sal_uInt32 ImplInsertBlib( EscherBlibEntry* p_EscherBlibEntry ); public: sal_uInt32 GetBlibStoreContainerSize( SvStream* pMergePicStreamBSE = NULL ) const; void WriteBlibStoreContainer( SvStream& rStrm, SvStream* pMergePicStreamBSE = NULL ); bool WriteBlibStoreEntry(SvStream& rStrm, sal_uInt32 nBlipId, bool bWritePictureOffset, sal_uInt32 nResize = 0); sal_uInt32 GetBlibID( SvStream& rPicOutStream, const OString& rGraphicId, const Rectangle& rBoundRect, const com::sun::star::awt::Rectangle* pVisArea = NULL, const GraphicAttr* pGrafikAttr = NULL, const bool ooxmlExport = false ); bool HasGraphics() const { return mnBlibEntrys != 0; }; void SetNewBlipStreamOffset( sal_Int32 nOffset ); bool GetPrefSize( const sal_uInt32 nBlibId, Size& rSize, MapMode& rMapMode ); void SetBaseURI( const OUString& rBaseURI ) { maBaseURI = rBaseURI; }; const OUString& GetBaseURI() { return maBaseURI; }; EscherGraphicProvider( sal_uInt32 nFlags = _E_GRAPH_PROV_DO_NOT_ROTATE_METAFILES ); virtual ~EscherGraphicProvider(); }; struct EscherShapeListEntry; typedef ::std::vector< EscherShapeListEntry* > EscherShapeList_impl; typedef ::std::vector< EscherConnectorListEntry* > EscherConnectorList_impl; class MSFILTER_DLLPUBLIC EscherSolverContainer { EscherShapeList_impl maShapeList; EscherConnectorList_impl maConnectorList; public: sal_uInt32 GetShapeId( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rShape ) const; void AddShape( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > &, sal_uInt32 nId ); void AddConnector( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > &, const ::com::sun::star::awt::Point& rA, ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > &, const ::com::sun::star::awt::Point& rB, ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rConB ); void WriteSolver( SvStream& ); EscherSolverContainer(){}; ~EscherSolverContainer(); }; #define ESCHER_CREATEPOLYGON_LINE 1 #define ESCHER_CREATEPOLYGON_POLYLINE 2 #define ESCHER_CREATEPOLYGON_POLYPOLYGON 4 class GraphicAttr; class SdrObjCustomShape; struct EscherPropSortStruct { sal_uInt8* pBuf; sal_uInt32 nPropSize; sal_uInt32 nPropValue; sal_uInt16 nPropId; }; typedef std::vector< EscherPropSortStruct > EscherProperties; class MSFILTER_DLLPUBLIC EscherPropertyContainer { EscherGraphicProvider* pGraphicProvider; SvStream* pPicOutStrm; Rectangle* pShapeBoundRect; EscherPropSortStruct* pSortStruct; sal_uInt32 nSortCount; sal_uInt32 nSortBufSize; sal_uInt32 nCountCount; sal_uInt32 nCountSize; bool bHasComplexData; sal_uInt32 ImplGetColor( const sal_uInt32 rColor, bool bSwap = true ); void ImplCreateGraphicAttributes( const ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > & rXPropSet, sal_uInt32 nBlibId, bool bCreateCroppingAttributes ); bool ImplCreateEmbeddedBmp( const OString& rUniqueId ); void ImplInit(); public: EscherPropertyContainer(); EscherPropertyContainer( EscherGraphicProvider& rGraphicProvider, // the PropertyContainer needs to know SvStream* pPicOutStrm, // the GraphicProvider to be able to write Rectangle& rShapeBoundRect // FillBitmaps or GraphicObjects. ); // under some circumstances the ShapeBoundRect // is adjusted this will happen when rotated // GraphicObjects are saved to PowerPoint ~EscherPropertyContainer(); void AddOpt( sal_uInt16 nPropertyID, const OUString& rString ); void AddOpt( sal_uInt16 nPropertyID, sal_uInt32 nPropValue, bool bBlib = false ); void AddOpt( sal_uInt16 nPropertyID, bool bBlib, sal_uInt32 nPropValue, sal_uInt8* pProp, sal_uInt32 nPropSize ); bool GetOpt( sal_uInt16 nPropertyID, sal_uInt32& rPropValue ) const; bool GetOpt( sal_uInt16 nPropertyID, EscherPropSortStruct& rPropValue ) const; EscherProperties GetOpts() const; void Commit( SvStream& rSt, sal_uInt16 nVersion = 3, sal_uInt16 nRecType = ESCHER_OPT ); bool CreateShapeProperties( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rXShape ); bool CreateOLEGraphicProperties( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rXOleObject ); bool CreateGraphicProperties( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rXShape, const GraphicObject& rGraphicObj ); bool CreateMediaGraphicProperties( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rXMediaObject ); /** Creates a complex ESCHER_Prop_fillBlip containing the BLIP directly (for Excel charts). */ bool CreateEmbeddedBitmapProperties( const OUString& rBitmapUrl, ::com::sun::star::drawing::BitmapMode eBitmapMode ); /** Creates a complex ESCHER_Prop_fillBlip containing a hatch style (for Excel charts). */ bool CreateEmbeddedHatchProperties( const ::com::sun::star::drawing::Hatch& rHatch, const Color& rBackColor, bool bFillBackground ); // the GraphicProperties will only be created if a GraphicProvider and PicOutStrm is known // DR: #99897# if no GraphicProvider is present, a complex ESCHER_Prop_fillBlip // will be created, containing the BLIP directly (e.g. for Excel charts). bool CreateGraphicProperties( const ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > & rXPropSet, const OUString& rSource, const bool bCreateFillBitmap, const bool bCreateCroppingAttributes = false, const bool bFillBitmapModeAllowed = true, const bool bOOxmlExport = false ); bool CreateBlipPropertiesforOLEControl( const ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > & rXPropSet, const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rXShape); bool CreatePolygonProperties( const ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > & rXPropSet, sal_uInt32 nFlags, bool bBezier, ::com::sun::star::awt::Rectangle& rGeoRect, Polygon* pPolygon = NULL ); static sal_uInt32 GetGradientColor( const ::com::sun::star::awt::Gradient* pGradient, sal_uInt32 nStartColor ); void CreateGradientProperties( const ::com::sun::star::awt::Gradient & rGradient ); void CreateGradientProperties( const ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > &, bool bTransparentGradient = false ); void CreateLineProperties( const ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > &, bool bEdge ); void CreateFillProperties( const ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > &, bool bEdge, bool bTransparentGradient = false ); void CreateFillProperties( const ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > &, bool bEdge, const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rXShape ); void CreateTextProperties( const ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > &, sal_uInt32 nText, const bool bIsCustomShape = false, const bool bIsTextFrame = true ); bool CreateConnectorProperties( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rXShape, EscherSolverContainer& rSolver, ::com::sun::star::awt::Rectangle& rGeoRect, sal_uInt16& rShapeType, sal_uInt16& rShapeFlags ); // Because shadow properties depends to the line and fillstyle, the CreateShadowProperties method should be called at last. // It activ only when at least a FillStyle or LineStyle is set. bool CreateShadowProperties( const ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > & ); sal_Int32 GetValueForEnhancedCustomShapeParameter( const ::com::sun::star::drawing::EnhancedCustomShapeParameter& rParameter, const std::vector< sal_Int32 >& rEquationOrder, bool bAdjustTrans = false ); // creates all necessary CustomShape properties, this includes also Text-, Shadow-, Fill-, and LineProperties void CreateCustomShapeProperties( const MSO_SPT eShapeType, const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & ); bool IsFontWork() const; // helper functions which are also used by the escher import static tools::PolyPolygon GetPolyPolygon( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rXShape ); static tools::PolyPolygon GetPolyPolygon( const ::com::sun::star::uno::Any& rSource ); static MSO_SPT GetCustomShapeType( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rXShape, sal_uInt32& nMirrorFlags ); static MSO_SPT GetCustomShapeType( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape > & rXShape, sal_uInt32& nMirrorFlags, OUString& rShapeType, bool bOOXML = false ); // helper functions which are also used in ooxml export static bool GetLineArrow( const bool bLineStart, const ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > & rXPropSet, ESCHER_LineEnd& reLineEnd, sal_Int32& rnArrowLength, sal_Int32& rnArrowWidth ); static bool IsDefaultObject( SdrObjCustomShape* pCustoShape, const MSO_SPT eShapeType ); static void LookForPolarHandles( const MSO_SPT eShapeType, sal_Int32& nAdjustmentsWhichNeedsToBeConverted ); static bool GetAdjustmentValue( const com::sun::star::drawing::EnhancedCustomShapeAdjustmentValue & rkProp, sal_Int32 nIndex, sal_Int32 nAdjustmentsWhichNeedsToBeConverted, sal_Int32& nValue ); }; typedef ::std::vector< EscherPersistEntry* > EscherPersistTable_impl; class MSFILTER_DLLPUBLIC EscherPersistTable { public: EscherPersistTable_impl maPersistTable; bool PtIsID( sal_uInt32 nID ); void PtInsert( sal_uInt32 nID, sal_uInt32 nOfs ); sal_uInt32 PtDelete( sal_uInt32 nID ); sal_uInt32 PtGetOffsetByID( sal_uInt32 nID ); sal_uInt32 PtReplace( sal_uInt32 nID, sal_uInt32 nOfs ); sal_uInt32 PtReplaceOrInsert( sal_uInt32 nID, sal_uInt32 nOfs ); sal_uInt32 PtGetCount() const { return maPersistTable.size(); }; EscherPersistTable(); virtual ~EscherPersistTable(); }; class EscherEx; /// abstract base class for ESCHER_ClientTextbox, ESCHER_ClientData class MSFILTER_DLLPUBLIC EscherExClientRecord_Base { public: EscherExClientRecord_Base() {} virtual ~EscherExClientRecord_Base(); /// Application writes the record header /// using rEx.AddAtom(...) followed by /// record data written to rEx.GetStream() virtual void WriteData( EscherEx& rEx ) const = 0; }; /// abstract base class for ESCHER_ClientAnchor class MSFILTER_DLLPUBLIC EscherExClientAnchor_Base { public: EscherExClientAnchor_Base() {} virtual ~EscherExClientAnchor_Base(); /// Application writes the record header /// using rEx.AddAtom(...) followed by /// record data written to rEx.GetStream() virtual void WriteData( EscherEx& rEx, const Rectangle& rRect ) = 0; }; class InteractionInfo { bool mbHasInteraction; std::unique_ptr mpHyperlinkRecord; InteractionInfo(); public: InteractionInfo( SvMemoryStream* pStream, bool bInteraction ) : mbHasInteraction( bInteraction ) { mpHyperlinkRecord.reset( pStream ); } bool hasInteraction() { return mbHasInteraction; } const std::unique_ptr< SvMemoryStream >& getHyperlinkRecord() { return mpHyperlinkRecord; } }; class EscherExHostAppData { private: EscherExClientAnchor_Base* pClientAnchor; EscherExClientRecord_Base* pClientData; EscherExClientRecord_Base* pClientTextbox; InteractionInfo* pInteractionInfo; // ignore single shape if entire pages are written bool bDontWriteShape; public: EscherExHostAppData() : pClientAnchor(0), pClientData(0), pClientTextbox(0), pInteractionInfo(0), bDontWriteShape(false) {} void SetInteractionInfo( InteractionInfo* p ) { pInteractionInfo = p; } void SetClientAnchor( EscherExClientAnchor_Base* p ) { pClientAnchor = p; } void SetClientData( EscherExClientRecord_Base* p ) { pClientData = p; } void SetClientTextbox( EscherExClientRecord_Base* p ) { pClientTextbox = p; } void SetDontWriteShape( bool b ) { bDontWriteShape = b; } InteractionInfo* GetInteractionInfo() const { return pInteractionInfo; } EscherExClientAnchor_Base* GetClientAnchor() const { return pClientAnchor; } EscherExClientRecord_Base* GetClientData() const { return pClientData; } EscherExClientRecord_Base* GetClientTextbox() const { return pClientTextbox; } void WriteClientAnchor( EscherEx& rEx, const Rectangle& rRect ) { if( pClientAnchor ) pClientAnchor->WriteData( rEx, rRect ); } void WriteClientData( EscherEx& rEx ) { if( pClientData ) pClientData->WriteData( rEx ); } void WriteClientTextbox( EscherEx& rEx ) { if( pClientTextbox ) pClientTextbox->WriteData( rEx ); } bool DontWriteShape() const { return bDontWriteShape; } }; /** Instance for global DFF data, shared through various instances of EscherEx. */ class MSFILTER_DLLPUBLIC EscherExGlobal : public EscherGraphicProvider { public: explicit EscherExGlobal( sal_uInt32 nGraphicProvFlags = _E_GRAPH_PROV_DO_NOT_ROTATE_METAFILES ); virtual ~EscherExGlobal(); /** Returns a new drawing ID for a new drawing container (DGCONTAINER). */ sal_uInt32 GenerateDrawingId(); /** Creates and returns a new shape identifier, updates the internal shape counters and registers the identifier in the DGG cluster table. @param nDrawingId Drawing identifier has to be passed to be able to generate shape identifiers for multiple drawings simultaniously. */ sal_uInt32 GenerateShapeId( sal_uInt32 nDrawingId, bool bIsInSpgr ); /** Returns the number of shapes in the current drawing, based on number of calls to the GenerateShapeId() function. */ sal_uInt32 GetDrawingShapeCount( sal_uInt32 nDrawingId ) const; /** Returns the last shape identifier generated by the GenerateShapeId() function. */ sal_uInt32 GetLastShapeId( sal_uInt32 nDrawingId ) const; /** Sets the flag indicating that the DGGCONTAINER exists. */ inline void SetDggContainer() { mbHasDggCont = true; } /** Sets the flag indicating that the DGGCONTAINER exists. */ inline bool HasDggContainer() const { return mbHasDggCont; } /** Returns the total size of the DGG atom (including header). */ sal_uInt32 GetDggAtomSize() const; /** Writes the complete DGG atom to the passed stream (overwrites existing data!). */ void WriteDggAtom( SvStream& rStrm ) const; /** Called if a picture shall be written and no picture stream is set at class ImplEscherExSdr. On first invokation, this function calls the virtual member function ImplQueryPictureStream(). The return value will be cached internally for subsequent calls and for the GetPictureStream() function. */ SvStream* QueryPictureStream(); /** Returns the picture stream if existing (queried), otherwise null. */ inline SvStream* GetPictureStream() { return mpPicStrm; } private: /** Derived classes may implement to create a new stream used to store the picture data. The implementation has to take care about lifetime of the returned stream (it will not be destructed automatically). This function is called exactly once. The return value will be cached internally for repeated calls of the public QueryPictureStream() function. */ virtual SvStream* ImplQueryPictureStream(); private: struct ClusterEntry { sal_uInt32 mnDrawingId; /// Identifier of drawing this cluster belongs to (one-based index into maDrawingInfos). sal_uInt32 mnNextShapeId; /// Next free shape identifier in this cluster. inline explicit ClusterEntry( sal_uInt32 nDrawingId ) : mnDrawingId( nDrawingId ), mnNextShapeId( 0 ) {} }; typedef ::std::vector< ClusterEntry > ClusterTable; struct DrawingInfo { sal_uInt32 mnClusterId; /// Currently used cluster (one-based index into maClusterTable). sal_uInt32 mnShapeCount; /// Current number of shapes in this drawing. sal_uInt32 mnLastShapeId; /// Last shape identifier generated for this drawing. inline explicit DrawingInfo( sal_uInt32 nClusterId ) : mnClusterId( nClusterId ), mnShapeCount( 0 ), mnLastShapeId( 0 ) {} }; typedef ::std::vector< DrawingInfo > DrawingInfoVector; ClusterTable maClusterTable; /// List with cluster IDs (used object IDs in drawings). DrawingInfoVector maDrawingInfos; /// Data about all used drawings. SvStream* mpPicStrm; /// Cached result of ImplQueryPictureStream(). bool mbHasDggCont; /// True = the DGGCONTAINER has been initialized. bool mbPicStrmQueried; /// True = ImplQueryPictureStream() has been called. }; typedef ::boost::shared_ptr< EscherExGlobal > EscherExGlobalRef; class SdrObject; class SdrPage; class ImplEscherExSdr; class MSFILTER_DLLPUBLIC EscherEx : public EscherPersistTable { protected: typedef ::std::unique_ptr< ImplEscherExSdr > ImplEscherExSdrPtr; EscherExGlobalRef mxGlobal; ImplEscherExSdrPtr mpImplEscherExSdr; SvStream* mpOutStrm; bool mbOwnsStrm; sal_uInt32 mnStrmStartOfs; std::vector< sal_uInt32 > mOffsets; std::vector< sal_uInt16 > mRecTypes; sal_uInt32 mnCurrentDg; sal_uInt32 mnCountOfs; sal_uInt32 mnGroupLevel; sal_uInt16 mnHellLayerId; bool mbEscherSpgr; bool mbEscherDg; bool mbOleEmf; // OLE is EMF instead of WMF bool mbOOXML; OUString mEditAs; virtual bool DoSeek( sal_uInt32 nKey ); public: explicit EscherEx( const EscherExGlobalRef& rxGlobal, SvStream* pOutStrm, bool bOOXML = false ); virtual ~EscherEx(); /** Creates and returns a new shape identifier, updates the internal shape counters and registers the identifier in the DGG cluster table. */ inline sal_uInt32 GenerateShapeId() { return mxGlobal->GenerateShapeId( mnCurrentDg, mbEscherSpgr ); } /** Returns the graphic provider from the global object that has been passed to the constructor. */ EscherGraphicProvider& GetGraphicProvider() { return *mxGlobal; } /** Called if a picture shall be written and no picture stream is set at class ImplEscherExSdr. */ inline SvStream* QueryPictureStream() { return mxGlobal->QueryPictureStream(); } /// Inserts internal data into the EscherStream, this process /// may and has to be executed only once /// If pPicStreamMergeBSE is known, the BLIPs from this stream are being /// merged into the MsofbtBSE Records of the EscherStream like it's /// required for Excel (and maybe Word?) virtual void Flush( SvStream* pPicStreamMergeBSE = NULL ); /** Inserts the passed number of bytes at the current position of the output stream. Inserts dummy bytes and moves all following stream data, and updates all internal stream offsets stored in the PersistTable and the affected container sizes, which makes this operation very expensive. (!) @param nBytes The number of bytes to be inserted into the stream. @param bExpandEndOfAtom If set to true, an atom that currently ends exactly at the current stream position will be expanded to include the inserted data. If set to false, an atom that currently ends exactly at the current stream position will not be expanded to include the inserted data (used to insert e.g. a new atom after an existing atom). Note that containers that end exactly at the current stream position are always expanded to include the inserted data. */ void InsertAtCurrentPos( sal_uInt32 nBytes, bool bExpandEndOfAtom ); void InsertPersistOffset( sal_uInt32 nKey, sal_uInt32 nOffset ); // It is not being checked if this key is already in the PersistantTable void ReplacePersistOffset( sal_uInt32 nKey, sal_uInt32 nOffset ); sal_uInt32 GetPersistOffset( sal_uInt32 nKey ); bool SeekToPersistOffset( sal_uInt32 nKey ); virtual bool InsertAtPersistOffset( sal_uInt32 nKey, sal_uInt32 nValue ); // nValue is being inserted into the Stream where it's appropriate (overwrite modus), without that the // current StreamPosition changes void SetEditAs( const OUString& rEditAs ); rtl::OUString GetEditAs() { return mEditAs; } SvStream& GetStream() const { return *mpOutStrm; } sal_uLong GetStreamPos() const { return mpOutStrm->Tell(); } // features during the creation of the following Containers: // ESCHER_DggContainer: a EscherDgg Atom is automatically being created and managed // ESCHER_DgContainer: a EscherDg Atom is automatically being created and managed // ESCHER_SpgrContainer: // ESCHER_SpContainer: virtual void OpenContainer( sal_uInt16 nEscherContainer, int nRecInstance = 0 ); virtual void CloseContainer(); virtual void BeginAtom(); virtual void EndAtom( sal_uInt16 nRecType, int nRecVersion = 0, int nRecInstance = 0 ); virtual void AddAtom( sal_uInt32 nAtomSitze, sal_uInt16 nRecType, int nRecVersion = 0, int nRecInstance = 0 ); virtual void AddChildAnchor( const Rectangle& rRectangle ); virtual void AddClientAnchor( const Rectangle& rRectangle ); virtual sal_uInt32 EnterGroup( const OUString& rShapeName, const Rectangle* pBoundRect = 0 ); sal_uInt32 EnterGroup( const Rectangle* pBoundRect = NULL ); sal_uInt32 GetGroupLevel() const { return mnGroupLevel; }; virtual bool SetGroupSnapRect( sal_uInt32 nGroupLevel, const Rectangle& rRect ); virtual bool SetGroupLogicRect( sal_uInt32 nGroupLevel, const Rectangle& rRect ); virtual void LeaveGroup(); // a ESCHER_Sp is being written ( a ESCHER_DgContainer has to be opened for this purpose!) virtual void AddShape( sal_uInt32 nShpInstance, sal_uInt32 nFlagIds, sal_uInt32 nShapeID = 0 ); virtual void Commit( EscherPropertyContainer& rProps, const Rectangle& rRect); sal_uInt32 GetColor( const sal_uInt32 nColor, bool bSwap = true ); sal_uInt32 GetColor( const Color& rColor, bool bSwap = true ); // ...Sdr... implemented in eschesdo.cxx void AddSdrPage( const SdrPage& rPage ); void AddUnoShapes( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShapes >& rxShapes ); /// returns the ShapeID sal_uInt32 AddSdrObject( const SdrObject& rObj, bool ooxmlExport = false ); virtual void AddSdrObjectVMLObject( const SdrObject& /*rObj*/) { // Required for Exporting VML shape } /// If objects are written through AddSdrObject the /// SolverContainer has to be written, and maybe some /// maintenance to be done. void EndSdrObjectPage(); /// Called before a shape is written, application supplies /// ClientRecords. May set AppData::bDontWriteShape so the /// shape is ignored. virtual EscherExHostAppData* StartShape( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape >& rShape, const Rectangle* pChildAnchor ); /// Called after a shape is written to inform the application /// of the resulted shape type and ID. virtual void EndShape( sal_uInt16 nShapeType, sal_uInt32 nShapeID ); /// Called before an AdditionalText EnterGroup occurs. /// The current shape will be written in three parts: /// a group shape, the shape itself, and an extra textbox shape. /// The complete flow is: /// StartShape sets HostData1. /// EnterAdditionalTextGroup sets HostData2, App may modify /// HostData1 and keep track of the change. /// The group shape is written with HostData2. /// Another StartShape with the same (!) object sets HostData3. /// The current shape is written with HostData3. /// EndShape is called for the current shape. /// Another StartShape with the same (!) object sets HostData4. /// The textbox shape is written with HostData4. /// EndShape is called for the textbox shape. /// EndShape is called for the group shape, this provides /// the same functionality as an ordinary recursive group. virtual EscherExHostAppData* EnterAdditionalTextGroup(); /// Called if an ESCHER_Prop_lTxid shall be written virtual sal_uInt32 QueryTextID( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape >&, sal_uInt32 nShapeId ); // add an dummy rectangle shape into the escher stream sal_uInt32 AddDummyShape(); static const SdrObject* GetSdrObject( const ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XShape >& rXShape ); void SetHellLayerId( sal_uInt16 nId ) { mnHellLayerId = nId; } sal_uInt16 GetHellLayerId() const { return mnHellLayerId; } private: EscherEx( const EscherEx& ); EscherEx& operator=( const EscherEx& ); // prevent C-style cast to former base class EscherGraphicProvider operator EscherGraphicProvider&(); operator EscherGraphicProvider const&(); }; #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */