/////////////////////////////////////////////////////////////////////////////// // Copyright (C) 2002-2019, Open Design Alliance (the "Alliance"). // All rights reserved. // // This software and its documentation and related materials are owned by // the Alliance. The software may only be incorporated into application // programs owned by members of the Alliance, subject to a signed // Membership Agreement and Supplemental Software License Agreement with the // Alliance. The structure and organization of this software are the valuable // trade secrets of the Alliance and its suppliers. The software is also // protected by copyright law and international treaty provisions. Application // programs incorporating this software must include the following statement // with their copyright notices: // // This application incorporates Open Design Alliance software pursuant to a license // agreement with Open Design Alliance. // Open Design Alliance Copyright (C) 2002-2019 by Open Design Alliance. // All rights reserved. // // By use of this software, its documentation or related materials, you // acknowledge and accept the above terms. /////////////////////////////////////////////////////////////////////////////// // Rendition branching interface #ifndef ODTRVISRENDITIONBRANCHING #define ODTRVISRENDITIONBRANCHING #include "TD_PackPush.h" #include "TrVisRendition.h" #define STL_USING_MAP #include "OdaSTL.h" /** \details */ class OdTrVisRenditionBranching : public OdTrVisRendition { protected: OdTrVisRenditionPtr m_pRenditionA, m_pRenditionB, m_pRenditionC; mutable struct IdRegistratorBranching : public IdRegistrator { IdRegistrator *m_pIdRegA, *m_pIdRegB; IdRegistratorBranching() : m_pIdRegA(NULL), m_pIdRegB(NULL) { } void setIdRegA(IdRegistrator *pReg) { m_pIdRegA = pReg; } IdRegistrator *getIdRegA() { return m_pIdRegA; } const IdRegistrator *getIdRegA() const { return m_pIdRegA; } bool hasIdRegA() const { return (m_pIdRegA != NULL); } void setIdRegB(IdRegistrator *pReg) { m_pIdRegB = pReg; } IdRegistrator *getIdRegB() { return m_pIdRegB; } const IdRegistrator *getIdRegB() const { return m_pIdRegB; } bool hasIdRegB() const { return (m_pIdRegB != NULL); } void setIdRegs(IdRegistrator *pRegA, IdRegistrator *pRegB) { setIdRegA(pRegA); setIdRegB(pRegB); } bool hasIdReg() const { return hasIdRegA() || hasIdRegB(); } bool hasIdRegs() const { return hasIdRegA() && hasIdRegB(); } virtual void reg(DataType type, OdTrVisId id, OdDbStub *pPersId) { if (hasIdRegA()) getIdRegA()->reg(type, id, pPersId); if (hasIdRegB()) getIdRegB()->reg(type, id, pPersId); } virtual void reg(DataType type, OdTrVisId id, const OdGiDrawable *pTransId) { if (hasIdRegA()) getIdRegA()->reg(type, id, pTransId); if (hasIdRegB()) getIdRegB()->reg(type, id, pTransId); } virtual void reg(DataType type, OdTrVisId id, const OdTrVisUniqueID &uId) { if (hasIdRegA()) getIdRegA()->reg(type, id, uId); if (hasIdRegB()) getIdRegB()->reg(type, id, uId); } virtual void kill(DataType type, OdTrVisId id) { if (hasIdRegA()) getIdRegA()->kill(type, id); if (hasIdRegB()) getIdRegB()->kill(type, id); } virtual OdTrVisUniqueID *get(DataType type, OdTrVisId id, bool bKill = false) const { if (hasIdRegA()) return getIdRegA()->get(type, id, bKill); if (hasIdRegB()) return getIdRegB()->get(type, id, bKill); return NULL; } } m_idRegsBranching; static const MtHandlerType g_mtHandlerPriority[6][6]; protected: struct DisplayIdMapping { // Map between metafileId and first displayId. typedef std::map MetafileRegMap; MetafileRegMap m_metafileIdMap; // Map between first displayId and second displayId. typedef std::map DisplayIdsMap; DisplayIdsMap m_displayIdMap; // Temporary displayId's array for second displayId's. mutable OdVector > m_temporaryDisplayIds; // Check does mapping exist. bool hasMapping() const { return !m_metafileIdMap.empty(); } // Insert mapping. void regMapping(OdTrVisMetafileId mfId, OdTrVisDisplayId ds1, OdTrVisDisplayId ds2) { m_metafileIdMap[mfId] = ds1; m_displayIdMap[ds1] = ds2; } // Remove mapping. void unregMapping(OdTrVisMetafileId mfId) { if (hasMapping()) { MetafileRegMap::iterator it = m_metafileIdMap.find(mfId); if (it != m_metafileIdMap.end()) { m_displayIdMap.erase(it->second); m_metafileIdMap.erase(it); } } } // Clear mapping by request. void clearMapping() { if (hasMapping()) { m_metafileIdMap.clear(); m_displayIdMap.clear(); m_temporaryDisplayIds.setPhysicalLength(0); } } // Make temporary displayId's mapping. OdTrVisDisplayId remap(OdTrVisDisplayId id) const { if (hasMapping()) { DisplayIdsMap::const_iterator it = m_displayIdMap.find(id); if (it != m_displayIdMap.end()) return it->second; } return id; } const OdTrVisDisplayId *remap(const OdTrVisDisplayId *pIdsList, OdUInt32 nData) const { if (!nData || !hasMapping()) { return pIdsList; } m_temporaryDisplayIds.resize(nData); OdTrVisDisplayId *pOutIds = m_temporaryDisplayIds.asArrayPtr(); for (OdUInt32 nId = 0; nId < nData; nId++) { DisplayIdsMap::const_iterator it = m_displayIdMap.find(pIdsList[nId]); if (it != m_displayIdMap.end()) pOutIds[nId] = it->second; else pOutIds[nId] = pIdsList[nId]; } return pOutIds; } } m_displayIdMapping; protected: void updateIdRegA() { m_idRegsBranching.setIdRegA((hasRenditionA()) ? getRenditionA()->idRegistrator() : NULL); } void updateIdRegB() { m_idRegsBranching.setIdRegB((hasRenditionB()) ? getRenditionB()->idRegistrator() : NULL); } public: OdTrVisRenditionBranching() { } void setRenditionA(OdTrVisRendition *pRendition) { m_pRenditionA = pRendition; updateIdRegA(); } OdTrVisRendition *getRenditionA() { return m_pRenditionA; } const OdTrVisRendition *getRenditionA() const { return m_pRenditionA; } bool hasRenditionA() const { return !m_pRenditionA.isNull(); } void setRenditionB(OdTrVisRendition *pRendition) { if (pRendition != m_pRenditionB) { m_displayIdMapping.clearMapping(); } m_pRenditionB = pRendition; updateIdRegB(); } OdTrVisRendition *getRenditionB() { return m_pRenditionB; } const OdTrVisRendition *getRenditionB() const { return m_pRenditionB; } bool hasRenditionB() const { return !m_pRenditionB.isNull(); } void setRenditions(OdTrVisRendition *pRenditionA, OdTrVisRendition *pRenditionB) { setRenditionA(pRenditionA); setRenditionB(pRenditionB); } bool hasRendition() const { return hasRenditionA() || hasRenditionB(); } bool hasRenditions() const { return hasRenditionA() && hasRenditionB(); } void setClientSettingsRendition(bool bRenditionA = true, bool bRenditionB = false) { if (bRenditionA) { if (bRenditionB) m_pRenditionC = NULL; else m_pRenditionC = m_pRenditionA; } else if (bRenditionB) m_pRenditionC = m_pRenditionB; else m_pRenditionC = NULL; } OdTrVisRendition *getClientSettingsRendition() { return m_pRenditionC; } const OdTrVisRendition *getClientSettingsRendition() const { return m_pRenditionC; } bool hasClientSettingsRendition() const { return !m_pRenditionC.isNull(); } // High-level callbacks // Called on starting vectorizer update. virtual void onDeviceUpdateBegin(OdTrVisRenderClient *pDevice) { if (hasRenditionA()) getRenditionA()->onDeviceUpdateBegin(pDevice), updateIdRegA(); if (hasRenditionB()) getRenditionB()->onDeviceUpdateBegin(pDevice), updateIdRegB(); } // Called on ending vectorizer update. virtual void onDeviceUpdateEnd(OdTrVisRenderClient *pDevice) { if (hasRenditionA()) getRenditionA()->onDeviceUpdateEnd(pDevice); if (hasRenditionB()) getRenditionB()->onDeviceUpdateEnd(pDevice); } // Called by underlying application to store frame changing information. virtual void onFrameSwitchInfo(OdUInt32 nInterval) { if (hasRenditionA()) getRenditionA()->onFrameSwitchInfo(nInterval); if (hasRenditionB()) getRenditionB()->onFrameSwitchInfo(nInterval); } // Returns set of bit flags which indicate rendition capabilities/settings virtual OdUInt32 queryRenditionCaps(OdUInt32 requestFor = 0xFFFFFFFF) const { if (hasRenditions()) return getRenditionA()->queryRenditionCaps(requestFor) & getRenditionB()->queryRenditionCaps(requestFor); if (hasRenditionA()) return getRenditionA()->queryRenditionCaps(requestFor); if (hasRenditionB()) return getRenditionB()->queryRenditionCaps(requestFor); return 0; } // Partial update support for local renditions: // Called to setup invalid rectangles and overlays on partial update. virtual void onPartialUpdateInvalidRects(OdTrVisOverlayId overlayId, const OdGsDCRectArray &invalidRects, bool bOverlayInvalid = false) { if (hasRenditionA()) getRenditionA()->onPartialUpdateInvalidRects(overlayId, invalidRects, bOverlayInvalid); if (hasRenditionB()) getRenditionB()->onPartialUpdateInvalidRects(overlayId, invalidRects, bOverlayInvalid); } // Called on partial update query to set entire actual visibilities list. virtual void onPartialUpdateList(OdTrVisViewportId viewportId, OdTrVisOverlayId overlayId, const OdTrVisDisplayId *pList, OdUInt32 nEntries) { if (hasRenditionA()) getRenditionA()->onPartialUpdateList(viewportId, overlayId, pList, nEntries); if (hasRenditionB()) getRenditionB()->onPartialUpdateList(viewportId, overlayId, m_displayIdMapping.remap(pList, nEntries), nEntries); } protected: class RemapABInvocation : public OdTrVisDirectRenderPartialUpdateInvocation, protected OdTrVisRenderDataInvokeRedirect { OdTrVisDirectRenderPartialUpdateInvocationPtr m_pInvocationA; OdTrVisDirectRenderPartialUpdateInvocationPtr m_pInvocationB; typedef std::map DisplayIdsMap; const DisplayIdsMap *m_pDisplayIdMap; virtual bool incomeMetafile(OdTrVisDisplayId mfId) { if (m_pDisplayIdMap) { DisplayIdsMap::const_iterator it = m_pDisplayIdMap->find(mfId); if (it != m_pDisplayIdMap->end()) mfId = it->second; } return OdTrVisRenderDataInvokeRedirect::incomeMetafile(mfId); } public: TD_USING(OdTrVisDirectRenderPartialUpdateInvocation::setup); void setup(OdTrVisDirectRenderPartialUpdateInvocation *pInvocationA, OdTrVisDirectRenderPartialUpdateInvocation *pInvocationB, const DisplayIdsMap *pIdMap) { m_pInvocationA = pInvocationA; m_pInvocationB = pInvocationB; m_pDisplayIdMap = pIdMap; } virtual OdTrVisRenderDataInvoke *wrapInvoke(OdTrVisRenderDataInvokeHid *pInvoke) const { RemapABInvocation *pRemap = const_cast(this); pRemap->setRedirection(OdTrVisDirectRenderPartialUpdateInvocation::wrapInvoke(pInvoke)); return pRemap; } virtual const OdTrVisDirectRenderPartialUpdateInvocation *basicInvocation() const { return m_pInvocationA; } }; public: // Can be called by client side to check that rendition supports direct rendering ability. virtual bool queryPartialUpdateDirectInvocation(OdTrVisViewportId viewportId, OdTrVisOverlayId overlayId, OdTrVisDirectRenderPartialUpdateInvocationPtr &pInvocationPtr) { const bool bHasA = hasRenditionA() ? getRenditionA()->queryPartialUpdateDirectInvocation(viewportId, overlayId, pInvocationPtr) : false; if (!hasRenditionB()) return bHasA; OdTrVisDirectRenderPartialUpdateInvocationPtr pInvocationA = pInvocationPtr; const bool bHasB = hasRenditionB() ? getRenditionB()->queryPartialUpdateDirectInvocation(viewportId, overlayId, pInvocationPtr) : false; if (bHasB) { OdSmartPtr rabInvocation = OdRxObjectImpl::createObject(); rabInvocation->setup(pInvocationPtr); rabInvocation->setup(pInvocationA, pInvocationPtr, (m_displayIdMapping.hasMapping()) ? &m_displayIdMapping.m_displayIdMap : NULL); pInvocationPtr = rabInvocation; } return bHasA || bHasB; } // Can be called by client side to setup direct invocation interface for partial update instead of partial update list usage. virtual void onPartialUpdateDirectInvocation(const OdTrVisDirectRenderPartialUpdateInvocation *pInvocation, OdTrVisRenderDataDirectAccessor *pAccessor) { if (hasRenditionA()) getRenditionA()->onPartialUpdateDirectInvocation(pInvocation->basicInvocation(), pAccessor); if (hasRenditionB()) getRenditionB()->onPartialUpdateDirectInvocation(pInvocation, pAccessor); } // Query snapshot virtual void querySnapshot(OdUInt8 *pScanlines, long minX, long minY, long nWidth, long nHeight) { if (hasRenditionA()) getRenditionA()->querySnapshot(pScanlines, minX, minY, nWidth, nHeight); if (hasRenditionB()) getRenditionB()->querySnapshot(pScanlines, minX, minY, nWidth, nHeight); } // Allocate new resource sharing provider compatible with rendition virtual OdTrVisSharingProviderClientPtr createSharingProvider() { // @@@TODO: probably we need branching of sharing providers? if (hasRenditionA()) return getRenditionA()->createSharingProvider(); if (hasRenditionB()) return getRenditionB()->createSharingProvider(); return OdTrVisSharingProviderClientPtr(); } // Multithread processing flags virtual MtHandlerType mtDataTypeProcessing(DataType &type) const { // Each rendition must be protected by own Mt handler, but we still can sort handler types by priority. if (hasRenditions()) { const MtHandlerType typeA = getRenditionA()->mtDataTypeProcessing(type), typeB = getRenditionB()->mtDataTypeProcessing(type); const MtHandlerType rv = g_mtHandlerPriority[MtComplex::decode(typeA)][MtComplex::decode(typeB)]; if (rv == kMtComplex) { if (MtComplex::decode(typeA) == kMtComplex) return typeA; return typeB; } return rv; } if (hasRenditionA()) return getRenditionA()->mtDataTypeProcessing(type); if (hasRenditionB()) return getRenditionB()->mtDataTypeProcessing(type); return kMtSkip; } // Returns Id registrator, or NULL if no registration supported virtual IdRegistrator *idRegistrator() const { if (m_idRegsBranching.hasIdRegs()) return &m_idRegsBranching; if (m_idRegsBranching.hasIdRegA()) return m_idRegsBranching.getIdRegA(); if (m_idRegsBranching.hasIdRegB()) return m_idRegsBranching.getIdRegB(); return NULL; } // Returns true if metafile streams accessible directly, returns stream by Id virtual bool queryMetafileStream(OdTrVisDisplayId displayId, const OdTrVisFlatMetafileContainer **pStream) const { if (hasRenditionA() && getRenditionA()->queryMetafileStream(displayId, pStream)) return true; if (hasRenditionB()) return getRenditionB()->queryMetafileStream(m_displayIdMapping.remap(displayId), pStream); return false; } // Returns non-kTrVisNegativeId in case if vectorizer supports ProgramID's embedded into metafile stream virtual OdTrVisProgramId queryProgramId(OdGsView::RenderMode mode, OdTrVisVisualStyleId vsId = kTrVisNegativeId, OdTrVisGeomType geomType = OdTrVisGeomType_Default, OdUInt32 shadingFlags = 0) const { if (hasRenditionA()) { const OdTrVisProgramId prgId = getRenditionA()->queryProgramId(mode, vsId, geomType, shadingFlags); if (prgId != kTrVisNegativeId) return true; } if (hasRenditionB()) return getRenditionB()->queryProgramId(mode, vsId, geomType, shadingFlags); return kTrVisNegativeId; } // GsFiler support virtual bool saveRenditionState(OdGsFiler *pFiler) const { if (hasRenditionA() && !getRenditionA()->saveRenditionState(pFiler)) return false; if (hasRenditionB()) return getRenditionB()->saveRenditionState(pFiler); return false; } virtual bool loadRenditionState(OdGsFiler *pFiler, OdTrVisIdMap *pIdMap) { if (hasRenditionA() && !getRenditionA()->loadRenditionState(pFiler, pIdMap)) return false; if (hasRenditionB()) return getRenditionB()->loadRenditionState(pFiler, pIdMap); return false; } // Mid-level callbacks // Client information virtual void obtainClientSettings(ClientSettings &clientSets); // Surface virtual void onSurfaceChanged(const OdTrVisSurfaceDef &pDef) { if (hasRenditionA()) getRenditionA()->onSurfaceChanged(pDef); if (hasRenditionB()) getRenditionB()->onSurfaceChanged(pDef); } // Overlays // Called when new overlay added into device. virtual void onOverlayAdded(OdTrVisOverlayId overlayId, const OdTrVisOverlayDef &pDef) { if (hasRenditionA()) getRenditionA()->onOverlayAdded(overlayId, pDef); if (hasRenditionB()) getRenditionB()->onOverlayAdded(overlayId, pDef); } // Called when exist overlay removed from device. virtual void onOverlayDeleted(OdTrVisOverlayId overlayId) { if (hasRenditionA()) getRenditionA()->onOverlayDeleted(overlayId); if (hasRenditionB()) getRenditionB()->onOverlayDeleted(overlayId); } // Called when overlay visibility changed. virtual void onOverlayVisibilityChanged(OdTrVisOverlayId overlayId, bool bVisibility) { if (hasRenditionA()) getRenditionA()->onOverlayVisibilityChanged(overlayId, bVisibility); if (hasRenditionB()) getRenditionB()->onOverlayVisibilityChanged(overlayId, bVisibility); } // Called when overlay rendering order changed. virtual void onOverlayRenderOrderChanged(OdTrVisOverlayId overlayId, OdInt16 nRenderOrder) { if (hasRenditionA()) getRenditionA()->onOverlayRenderOrderChanged(overlayId, nRenderOrder); if (hasRenditionB()) getRenditionB()->onOverlayRenderOrderChanged(overlayId, nRenderOrder); } // Viewports // Called when new viewport added into device. virtual void onViewportAdded(OdTrVisViewportId viewportId, const OdTrVisViewportDef &pDef) { if (hasRenditionA()) getRenditionA()->onViewportAdded(viewportId, pDef); if (hasRenditionB()) getRenditionB()->onViewportAdded(viewportId, pDef); } // Called when viewport inserted in list with some index. virtual void onViewportInserted(OdTrVisViewportId viewportId, int nIndex, const OdTrVisViewportDef &pDef) { if (hasRenditionA()) getRenditionA()->onViewportInserted(viewportId, nIndex, pDef); if (hasRenditionB()) getRenditionB()->onViewportInserted(viewportId, nIndex, pDef); } // Called when viewport removed from device. virtual void onViewportDeleted(OdTrVisViewportId viewportId) { if (hasRenditionA()) getRenditionA()->onViewportDeleted(viewportId); if (hasRenditionB()) getRenditionB()->onViewportDeleted(viewportId); } // Called when viewport visibility changed. virtual void onViewportVisibilityChanged(OdTrVisViewportId viewportId, bool bVisibility) { if (hasRenditionA()) getRenditionA()->onViewportVisibilityChanged(viewportId, bVisibility); if (hasRenditionB()) getRenditionB()->onViewportVisibilityChanged(viewportId, bVisibility); } // Primary viewports configuration // Called when viewport view parameters is modified. virtual void onViewportViewParamsModified(OdTrVisViewportId viewportId, const OdTrVisViewParamsDef &pDef) { if (hasRenditionA()) getRenditionA()->onViewportViewParamsModified(viewportId, pDef); if (hasRenditionB()) getRenditionB()->onViewportViewParamsModified(viewportId, pDef); } // Called when viewport linestyle settings is modified. virtual void onViewportLineStylesModified(OdTrVisViewportId viewportId, const OdTrVisViewportLineStyleDef &pDef) { if (hasRenditionA()) getRenditionA()->onViewportLineStylesModified(viewportId, pDef); if (hasRenditionB()) getRenditionB()->onViewportLineStylesModified(viewportId, pDef); } // Called when viewport fading settings is modified. virtual void onViewportFadingModified(OdTrVisViewportId viewportId, const OdTrVisViewportFadingDef &pDef) { if (hasRenditionA()) getRenditionA()->onViewportFadingModified(viewportId, pDef); if (hasRenditionB()) getRenditionB()->onViewportFadingModified(viewportId, pDef); } // Called when viewport lineweight settings is modified. virtual void onViewportLineweightsModified(OdTrVisViewportId viewportId, const OdTrVisViewportLineweightsDef &pDef) { if (hasRenditionA()) getRenditionA()->onViewportLineweightsModified(viewportId, pDef); if (hasRenditionB()) getRenditionB()->onViewportLineweightsModified(viewportId, pDef); } // Called when viewport rendering mode is modified. virtual void onViewportShadingModified(OdTrVisViewportId viewportId, const OdTrVisViewportShadingDef &pDef) { if (hasRenditionA()) getRenditionA()->onViewportShadingModified(viewportId, pDef); if (hasRenditionB()) getRenditionB()->onViewportShadingModified(viewportId, pDef); } // Called when viewport clipping region is modified. virtual void onViewportClipModified(OdTrVisViewportId viewportId, const OdTrVisViewportClipDef &pDef, bool bNrcClipModified = true, bool bBorderModified = true) { if (hasRenditionA()) getRenditionA()->onViewportClipModified(viewportId, pDef, bNrcClipModified, bBorderModified); if (hasRenditionB()) getRenditionB()->onViewportClipModified(viewportId, pDef, bNrcClipModified, bBorderModified); } // Extended viewports configuration // Called when lights list in viewport is changed. virtual void onViewportLightsListChanged(OdTrVisViewportId viewportId, float ambientLight[4], bool bDefaultLightsOn, const OdTrVisLightDef *pList, OdUInt32 nEntries) { if (hasRenditionA()) getRenditionA()->onViewportLightsListChanged(viewportId, ambientLight, bDefaultLightsOn, pList, nEntries); if (hasRenditionB()) getRenditionB()->onViewportLightsListChanged(viewportId, ambientLight, bDefaultLightsOn, pList, nEntries); } // Called when background stream in viewport is changed. virtual void onViewportBackgroundChanged(OdTrVisViewportId viewportId, OdTrVisFlatMetafileContainerPtr pStream, OdTrVisProgramId baseProgramId = kTrVisNegativeId) { if (hasRenditionA()) getRenditionA()->onViewportBackgroundChanged(viewportId, pStream, baseProgramId); if (hasRenditionB()) getRenditionB()->onViewportBackgroundChanged(viewportId, pStream, baseProgramId); } // Called when viewport fog changed. virtual void onViewportFogChanged(OdTrVisViewportId viewportId, const OdTrVisFogDef &pDef = OdTrVisFogDef()) { if (hasRenditionA()) getRenditionA()->onViewportFogChanged(viewportId, pDef); if (hasRenditionB()) getRenditionB()->onViewportFogChanged(viewportId, pDef); } // Called when viewport sectioning modified. virtual void onViewportSectioningChanged(OdTrVisViewportId viewportId, const OdTrVisSectionDef &pDef = OdTrVisSectionDef()) { if (hasRenditionA()) getRenditionA()->onViewportSectioningChanged(viewportId, pDef); if (hasRenditionB()) getRenditionB()->onViewportSectioningChanged(viewportId, pDef); } // Per-overlay viewport overrides // Called when viewport needs override view parameters for specific overlay. virtual void onOverlayViewParamsOverride(OdTrVisViewportId viewportId, OdTrVisOverlayId overlayId, bool bOverride, const OdTrVisViewParamsDef &pDef = OdTrVisViewParamsDef()) { if (hasRenditionA()) getRenditionA()->onOverlayViewParamsOverride(viewportId, overlayId, bOverride, pDef); if (hasRenditionB()) getRenditionB()->onOverlayViewParamsOverride(viewportId, overlayId, bOverride, pDef); } // Called when viewport extents changed. virtual void onOverlayExtentsOverride(OdTrVisViewportId viewportId, OdTrVisOverlayId overlayId, const OdTrVisExtentsDef &pDef) { if (hasRenditionA()) getRenditionA()->onOverlayExtentsOverride(viewportId, overlayId, pDef); if (hasRenditionB()) getRenditionB()->onOverlayExtentsOverride(viewportId, overlayId, pDef); } // Viewports ordering lists // Called when order of metafiles in viewport is changed. virtual void onMetafileOrderChanged(OdTrVisViewportId viewportId, OdTrVisOverlayId overlayId, const OdTrVisDisplayId *pList, OdUInt32 nEntries) { if (hasRenditionA()) getRenditionA()->onMetafileOrderChanged(viewportId, overlayId, pList, nEntries); if (hasRenditionB()) getRenditionB()->onMetafileOrderChanged(viewportId, overlayId, m_displayIdMapping.remap(pList, nEntries), nEntries); } // Called when order of metafiles in viewport is changed (for obtain modified part of list by renderer). virtual void onMetafileOrderChanged(OdTrVisViewportId viewportId, OdTrVisOverlayId overlayId, OdUInt32 nInvalidFrom, OdUInt32 nInvalidLen, const OdTrVisDisplayId *pValidFrom, OdUInt32 nValidLen) { if (hasRenditionA()) getRenditionA()->onMetafileOrderChanged(viewportId, overlayId, nInvalidFrom, nInvalidLen, pValidFrom, nValidLen); if (hasRenditionB()) getRenditionB()->onMetafileOrderChanged(viewportId, overlayId, nInvalidFrom, nInvalidLen, m_displayIdMapping.remap(pValidFrom, nValidLen), nValidLen); } // Called when order of metafiles can be inherit from other source. virtual void onMetafileOrderInheritance( OdTrVisViewportId viewportId1, OdTrVisOverlayId overlayId1, OdTrVisViewportId viewportId2 ) { if (hasRenditionA()) getRenditionA()->onMetafileOrderInheritance(viewportId1, overlayId1, viewportId2); if (hasRenditionB()) getRenditionB()->onMetafileOrderInheritance(viewportId1, overlayId1, viewportId2); } // Metafiles // Called when new metafile added (returns visualId, equal to metafileId by default). virtual OdTrVisDisplayId onMetafileAdded(OdTrVisMetafileId metafileId, const OdTrVisMetafileDef &pDef) { OdTrVisDisplayId id1, id2; if (hasRenditionA()) { id1 = getRenditionA()->onMetafileAdded(metafileId, pDef); if (!hasRenditionB()) id2 = id1; } if (hasRenditionB()) { id2 = getRenditionB()->onMetafileAdded(metafileId, pDef); if (!hasRenditionA()) id1 = id2; } if (id1 != id2) m_displayIdMapping.regMapping(metafileId, id1, id2); return id1; } // Called when exist metafile deleted. virtual void onMetafileDeleted(OdTrVisMetafileId metafileId) { if (hasRenditionA()) getRenditionA()->onMetafileDeleted(metafileId); if (hasRenditionB()) getRenditionB()->onMetafileDeleted(metafileId); m_displayIdMapping.unregMapping(metafileId); } // Called when exist metafile changed. //virtual void onMetafileModified(OdTrVisMetafileId metafileId, const OdTrVisMetafileDef &pDef) //{ // if (hasRenditionA()) // getRenditionA()->onMetafileModified(metafileId, pDef); // if (hasRenditionB()) // getRenditionB()->onMetafileModified(metafileId, pDef); //} // Called when exist metafile visibility changed. virtual void onMetafileVisibilityChanged(OdTrVisMetafileId metafileId, bool bVisibility) { if (hasRenditionA()) getRenditionA()->onMetafileVisibilityChanged(metafileId, bVisibility); if (hasRenditionB()) getRenditionB()->onMetafileVisibilityChanged(metafileId, bVisibility); } // Called when exist metafile highlighting changed. virtual void onMetafileHighlightingChanged(OdTrVisMetafileId metafileId, bool bHighlight) { if (hasRenditionA()) getRenditionA()->onMetafileHighlightingChanged(metafileId, bHighlight); if (hasRenditionB()) getRenditionB()->onMetafileHighlightingChanged(metafileId, bHighlight); } // Called when exist metafile fading changed. virtual void onMetafileFadingChanged(OdTrVisMetafileId metafileId, bool bFade) { if (hasRenditionA()) getRenditionA()->onMetafileFadingChanged(metafileId, bFade); if (hasRenditionB()) getRenditionB()->onMetafileFadingChanged(metafileId, bFade); } // Highlighting // Called when new highlighting branch added. virtual void onHlBranchAdded(OdTrVisHlBranchId hlBranchId, const OdTrVisHlBranchDef &pDef) { if (hasRenditionA()) getRenditionA()->onHlBranchAdded(hlBranchId, pDef); if (hasRenditionB()) getRenditionB()->onHlBranchAdded(hlBranchId, pDef); } // Called when exist highlighting branch modified. virtual void onHlBranchModified(OdTrVisHlBranchId hlBranchId, const OdTrVisHlBranchDef &pDef, bool bChildsModified, bool bMarkersModified) { if (hasRenditionA()) getRenditionA()->onHlBranchModified(hlBranchId, pDef, bChildsModified, bMarkersModified); if (hasRenditionB()) getRenditionB()->onHlBranchModified(hlBranchId, pDef, bChildsModified, bMarkersModified); } // Called when exist highlighting branch deleted. virtual void onHlBranchDeleted(OdTrVisHlBranchId hlBranchId) { if (hasRenditionA()) getRenditionA()->onHlBranchDeleted(hlBranchId); if (hasRenditionB()) getRenditionB()->onHlBranchDeleted(hlBranchId); } // Textures // Called when new texture added. virtual void onTextureAdded(OdTrVisTextureId textureId, const OdTrVisTextureDef &pDef) { if (hasRenditionA()) getRenditionA()->onTextureAdded(textureId, pDef); if (hasRenditionB()) getRenditionB()->onTextureAdded(textureId, pDef); } // Called when exist texture deleted. virtual void onTextureDeleted(OdTrVisTextureId textureId) { if (hasRenditionA()) getRenditionA()->onTextureDeleted(textureId); if (hasRenditionB()) getRenditionB()->onTextureDeleted(textureId); } // Materials // Called when new material added. virtual void onMaterialAdded(OdTrVisMaterialId materialId, const OdTrVisMaterialDef &pDef) { if (hasRenditionA()) getRenditionA()->onMaterialAdded(materialId, pDef); if (hasRenditionB()) getRenditionB()->onMaterialAdded(materialId, pDef); } // Called when exist material deleted. virtual void onMaterialDeleted(OdTrVisMaterialId materialId) { if (hasRenditionA()) getRenditionA()->onMaterialDeleted(materialId); if (hasRenditionB()) getRenditionB()->onMaterialDeleted(materialId); } // Visual Styles // Called when new visual style added. virtual void onVisualStyleAdded(OdTrVisVisualStyleId visualStyleId, const OdTrVisVisualStyle &pDef) { if (hasRenditionA()) getRenditionA()->onVisualStyleAdded(visualStyleId, pDef); if (hasRenditionB()) getRenditionB()->onVisualStyleAdded(visualStyleId, pDef); } // Called when exist visual style modified. virtual void onVisualStyleModified(OdTrVisVisualStyleId visualStyleId, const OdTrVisVisualStyle &pDef) { if (hasRenditionA()) getRenditionA()->onVisualStyleModified(visualStyleId, pDef); if (hasRenditionB()) getRenditionB()->onVisualStyleModified(visualStyleId, pDef); } // Called when exist visual style deleted. virtual void onVisualStyleDeleted(OdTrVisVisualStyleId visualStyleId) { if (hasRenditionA()) getRenditionA()->onVisualStyleDeleted(visualStyleId); if (hasRenditionB()) getRenditionB()->onVisualStyleDeleted(visualStyleId); } // Layers // Called when new layer added. virtual void onLayerAdded(OdTrVisLayerId layerId, const OdTrVisLayerDef &pDef) { if (hasRenditionA()) getRenditionA()->onLayerAdded(layerId, pDef); if (hasRenditionB()) getRenditionB()->onLayerAdded(layerId, pDef); } // Called when exist layer modified. //virtual void onLayerModified(OdTrVisLayerId layerId, const OdTrVisLayerDef &pDef) //{ // if (hasRenditionA()) // getRenditionA()->onLayerModified(layerId, pDef); // if (hasRenditionB()) // getRenditionB()->onLayerModified(layerId, pDef); //} // Called when exist layer deleted. virtual void onLayerDeleted(OdTrVisLayerId layerId) { if (hasRenditionA()) getRenditionA()->onLayerDeleted(layerId); if (hasRenditionB()) getRenditionB()->onLayerDeleted(layerId); } // Called when exist layer visibility changed. virtual void onLayerVisibilityChanged(OdTrVisLayerId layerId, bool bVisibility) { if (hasRenditionA()) getRenditionA()->onLayerVisibilityChanged(layerId, bVisibility); if (hasRenditionB()) getRenditionB()->onLayerVisibilityChanged(layerId, bVisibility); } // Called when exist layer fading changed. virtual void onLayerFadingChanged(OdTrVisLayerId layerId, bool bFade) { if (hasRenditionA()) getRenditionA()->onLayerFadingChanged(layerId, bFade); if (hasRenditionB()) getRenditionB()->onLayerFadingChanged(layerId, bFade); } // Called when layer viewport-dependent properties changed. virtual void onLayerVpDepPropsOverride(OdTrVisLayerId layerId, OdTrVisViewportId viewportId, bool bOverride, const OdTrVisLayerProps &pProps = OdTrVisLayerProps()) { if (hasRenditionA()) getRenditionA()->onLayerVpDepPropsOverride(layerId, viewportId, bOverride, pProps); if (hasRenditionB()) getRenditionB()->onLayerVpDepPropsOverride(layerId, viewportId, bOverride, pProps); } // Groups // Called when new group added. virtual void onGroupAdded(OdTrVisGroupId groupId) { if (hasRenditionA()) getRenditionA()->onGroupAdded(groupId); if (hasRenditionB()) getRenditionB()->onGroupAdded(groupId); } // Called when exist group deleted. virtual void onGroupDeleted(OdTrVisGroupId groupId) { if (hasRenditionA()) getRenditionA()->onGroupDeleted(groupId); if (hasRenditionB()) getRenditionB()->onGroupDeleted(groupId); } // Called to attach metafiles to group. virtual void onGroupMetafilesAttached(OdTrVisGroupId groupId, const OdTrVisMetafileId *pMetafilesList, OdUInt32 nMetafiles) { if (hasRenditionA()) getRenditionA()->onGroupMetafilesAttached(groupId, pMetafilesList, nMetafiles); if (hasRenditionB()) getRenditionB()->onGroupMetafilesAttached(groupId, pMetafilesList, nMetafiles); } // Called to detach metafiles from group (if no metafiles specified - clear entire list of groupped metafiles). virtual void onGroupMetafilesDetached(OdTrVisGroupId groupId, const OdTrVisMetafileId *pMetafilesList, OdUInt32 nMetafiles) { if (hasRenditionA()) getRenditionA()->onGroupMetafilesDetached(groupId, pMetafilesList, nMetafiles); if (hasRenditionB()) getRenditionB()->onGroupMetafilesDetached(groupId, pMetafilesList, nMetafiles); } // Called to delete all groupped metafiles from graphics scene. //virtual void onGroupMetafilesDeleted(OdTrVisGroupId groupId) //{ // if (hasRenditionA()) // getRenditionA()->onGroupMetafilesDeleted(groupId); // if (hasRenditionB()) // getRenditionB()->onGroupMetafilesDeleted(groupId); //} // Called to change visibility state for all groupped metafiles. virtual void onGroupMetafilesVisibilityChanged(OdTrVisGroupId groupId, bool bVisibility) { if (hasRenditionA()) getRenditionA()->onGroupMetafilesVisibilityChanged(groupId, bVisibility); if (hasRenditionB()) getRenditionB()->onGroupMetafilesVisibilityChanged(groupId, bVisibility); } // Called to change highlighting state for all groupped metafiles. virtual void onGroupMetafilesHighlightingChanged(OdTrVisGroupId groupId, bool bHighlight) { if (hasRenditionA()) getRenditionA()->onGroupMetafilesHighlightingChanged(groupId, bHighlight); if (hasRenditionB()) getRenditionB()->onGroupMetafilesHighlightingChanged(groupId, bHighlight); } // Called to change fading state for all groupped metafiles. virtual void onGroupMetafilesFadingChanged(OdTrVisGroupId groupId, bool bFade) { if (hasRenditionA()) getRenditionA()->onGroupMetafilesFadingChanged(groupId, bFade); if (hasRenditionB()) getRenditionB()->onGroupMetafilesFadingChanged(groupId, bFade); } // Properties // Metafile-related properties. // Called to attach property to metafile. virtual void onMetafilePropertyAttached(OdTrVisMetafileId metafileId, const OdTrVisPropertyDef &propDef) { if (hasRenditionA()) getRenditionA()->onMetafilePropertyAttached(metafileId, propDef); if (hasRenditionB()) getRenditionB()->onMetafilePropertyAttached(metafileId, propDef); } // Called to detach property from metafile. virtual void onMetafilePropertyDetached(OdTrVisMetafileId metafileId, OdTrVisPropertyDef::PropertyType propType) { if (hasRenditionA()) getRenditionA()->onMetafilePropertyDetached(metafileId, propType); if (hasRenditionB()) getRenditionB()->onMetafilePropertyDetached(metafileId, propType); } // Group-related properties. // Called to attach property to group. virtual void onGroupPropertyAttached(OdTrVisGroupId groupId, const OdTrVisPropertyDef &propDef) { if (hasRenditionA()) getRenditionA()->onGroupPropertyAttached(groupId, propDef); if (hasRenditionB()) getRenditionB()->onGroupPropertyAttached(groupId, propDef); } // Called to detach property from group. virtual void onGroupPropertyDetached(OdTrVisGroupId groupId, OdTrVisPropertyDef::PropertyType propType) { if (hasRenditionA()) getRenditionA()->onGroupPropertyDetached(groupId, propType); if (hasRenditionB()) getRenditionB()->onGroupPropertyDetached(groupId, propType); } // Layer-related properties. // Called to attach property to layer. virtual void onLayerPropertyAttached(OdTrVisLayerId layerId, const OdTrVisPropertyDef &propDef) { if (hasRenditionA()) getRenditionA()->onLayerPropertyAttached(layerId, propDef); if (hasRenditionB()) getRenditionB()->onLayerPropertyAttached(layerId, propDef); } // Called to detach property from layer. virtual void onLayerPropertyDetached(OdTrVisLayerId layerId, OdTrVisPropertyDef::PropertyType propType) { if (hasRenditionA()) getRenditionA()->onLayerPropertyDetached(layerId, propType); if (hasRenditionB()) getRenditionB()->onLayerPropertyDetached(layerId, propType); } // VisualStyle-related properties. // Called to attach property to visual style. virtual void onVisualStylePropertyAttached(OdTrVisVisualStyleId visualStyleId, const OdTrVisPropertyDef &propDef) { if (hasRenditionA()) getRenditionA()->onVisualStylePropertyAttached(visualStyleId, propDef); if (hasRenditionB()) getRenditionB()->onVisualStylePropertyAttached(visualStyleId, propDef); } // Called to detach property from visual style. virtual void onVisualStylePropertyDetached(OdTrVisVisualStyleId visualStyleId, OdTrVisPropertyDef::PropertyType propType) { if (hasRenditionA()) getRenditionA()->onVisualStylePropertyDetached(visualStyleId, propType); if (hasRenditionB()) getRenditionB()->onVisualStylePropertyDetached(visualStyleId, propType); } // Material-related properties. // Called to attach property to material. virtual void onMaterialPropertyAttached(OdTrVisMaterialId materialId, const OdTrVisPropertyDef &propDef) { if (hasRenditionA()) getRenditionA()->onMaterialPropertyAttached(materialId, propDef); if (hasRenditionB()) getRenditionB()->onMaterialPropertyAttached(materialId, propDef); } // Called to detach property from material. virtual void onMaterialPropertyDetached(OdTrVisMaterialId materialId, OdTrVisPropertyDef::PropertyType propType) { if (hasRenditionA()) getRenditionA()->onMaterialPropertyDetached(materialId, propType); if (hasRenditionB()) getRenditionB()->onMaterialPropertyDetached(materialId, propType); } // Texture-related properties. // Called to attach property to texture. virtual void onTexturePropertyAttached(OdTrVisTextureId textureId, const OdTrVisPropertyDef &propDef) { if (hasRenditionA()) getRenditionA()->onTexturePropertyAttached(textureId, propDef); if (hasRenditionB()) getRenditionB()->onTexturePropertyAttached(textureId, propDef); } // Called to detach property from texture. virtual void onTexturePropertyDetached(OdTrVisTextureId textureId, OdTrVisPropertyDef::PropertyType propType) { if (hasRenditionA()) getRenditionA()->onTexturePropertyDetached(textureId, propType); if (hasRenditionB()) getRenditionB()->onTexturePropertyDetached(textureId, propType); } // HlBranch-related properties. // Called to attach property to highlighting branch. virtual void onHlBranchPropertyAttached(OdTrVisHlBranchId hlBranchId, const OdTrVisPropertyDef &propDef) { if (hasRenditionA()) getRenditionA()->onHlBranchPropertyAttached(hlBranchId, propDef); if (hasRenditionB()) getRenditionB()->onHlBranchPropertyAttached(hlBranchId, propDef); } // Called to detach property from highlighting branch. virtual void onHlBranchPropertyDetached(OdTrVisHlBranchId hlBranchId, OdTrVisPropertyDef::PropertyType propType) { if (hasRenditionA()) getRenditionA()->onHlBranchPropertyDetached(hlBranchId, propType); if (hasRenditionB()) getRenditionB()->onHlBranchPropertyDetached(hlBranchId, propType); } // Viewport-related properties. // Called to attach property to viewport. virtual void onViewportPropertyAttached(OdTrVisViewportId viewportId, const OdTrVisPropertyDef &propDef) { if (hasRenditionA()) getRenditionA()->onViewportPropertyAttached(viewportId, propDef); if (hasRenditionB()) getRenditionB()->onViewportPropertyAttached(viewportId, propDef); } // Called to detach property from viewport. virtual void onViewportPropertyDetached(OdTrVisViewportId viewportId, OdTrVisPropertyDef::PropertyType propType) { if (hasRenditionA()) getRenditionA()->onViewportPropertyDetached(viewportId, propType); if (hasRenditionB()) getRenditionB()->onViewportPropertyDetached(viewportId, propType); } // Overlay-related properties. // Called to attach property to overlay. virtual void onOverlayPropertyAttached(OdTrVisOverlayId overlayId, const OdTrVisPropertyDef &propDef) { if (hasRenditionA()) getRenditionA()->onOverlayPropertyAttached(overlayId, propDef); if (hasRenditionB()) getRenditionB()->onOverlayPropertyAttached(overlayId, propDef); } // Called to detach property from overlay. virtual void onOverlayPropertyDetached(OdTrVisOverlayId overlayId, OdTrVisPropertyDef::PropertyType propType) { if (hasRenditionA()) getRenditionA()->onOverlayPropertyDetached(overlayId, propType); if (hasRenditionB()) getRenditionB()->onOverlayPropertyDetached(overlayId, propType); } }; #include "TD_PackPop.h" #endif // ODTRVISRENDITIONBRANCHING