// The list tree function runs through all objects in the ASDK_DICT dictionary, // follows their ownership trees, and lists out information // on all objects in the tree. // void listTree() { AcDbDictionary *pNamedobj; AcDbDictionary *pDict; acdbHostApplicationServices()->workingDatabase() ->getNamedObjectsDictionary(pNamedobj, AcDb::kForWrite); // Get a pointer to the ASDK_DICT dictionary. // if (pNamedobj->getAt(_T("ASDK_DICT"), (AcDbObject*&) pDict, AcDb::kForRead) == Acad::eKeyNotFound) { pNamedobj->close(); return ; } pNamedobj->close(); // Run through the entries and list their backpointers. // AcDbDictionaryIterator *pDictItr = pDict->newIterator(); for (; !pDictItr->done(); pDictItr->next()) { printOut(pDictItr->objectId()); } delete pDictItr; pDict->close(); }
void ArxDictTool2::getAllEntries( AcDbObjectIdArray& objIds ) { AcDbDictionary* pDict = GetDictObject( m_dictId ); if( pDict == 0 ) return; AcDbDictionaryIterator* pIter = pDict->newIterator(); for ( ; !pIter->done(); pIter->next() ) { objIds.append( pIter->objectId() ); } delete pIter; pDict->close(); }
void ArxDictTool2::getAllKeys( AcStringArray& keys ) { AcDbDictionary* pDict = GetDictObject( m_dictId ); if( pDict == 0 ) return; AcDbDictionaryIterator* pIter = pDict->newIterator(); for ( ; !pIter->done(); pIter->next() ) { keys.append( pIter->name() ); } delete pIter; pDict->close(); }
// AsdkNODEdReactor is derived from AcEditorReactor // void AsdkNODEdReactor::beginDeepCloneXlation( AcDbIdMapping& idMap, Acad::ErrorStatus* pRetStat) { Acad::ErrorStatus es; AcDbObjectId dictId; if ( idMap.deepCloneContext() != AcDb::kDcWblock && idMap.deepCloneContext() != AcDb::kDcInsert) return; // Get the "from" and "to" databases. // AcDbDatabase *pFrom, *pTo; idMap.origDb(pFrom); idMap.destDb(pTo); // See if the "from" database has our dictionary, and // open it. If it doesn't have one, we are done. // AcDbDictionary *pSrcNamedObjDict; pFrom->getNamedObjectsDictionary(pSrcNamedObjDict, AcDb::kForRead); es = pSrcNamedObjDict->getAt(kpDictionary, dictId); pSrcNamedObjDict->close(); if (es == Acad::eKeyNotFound) return; AcDbDictionary *pSrcDict; acdbOpenObject(pSrcDict, dictId, AcDb::kForRead); AcDbObject *pClone; switch (idMap.deepCloneContext()) { case AcDb::kDcWblock: // WBLOCK clones all, or part of a drawing into a // newly created drawing. This means that the // NamedObject Dictionary is always cloned, and // its AcDbObjectIds are in flux. Therefore, you // cannot use getAt() or setAt() on the dictionary // in the new database. This is because the // cloned dictionary references all refer to the // original objects. During Deep Clone translation, // all cloned entries will be translated to the // new objects, and entries not cloned will be // "removed" by getting "translated" to NULL. // // The cloning of entries in our own dictionary are // not handled here. If all are to be cloned, then // call setTreatElementsAsHard(Adesk::kTrue) on the // dictionary. Otherwise, only those entries which // are refered to by hard references in other // wblocked objects, will have been cloned via // those references. // In this example, we will always write out all of // the records. Since TreatElementsAsHard is not // currently persistent, we reset it here each time. // pSrcDict->upgradeOpen(); pSrcDict->setTreatElementsAsHard(Adesk::kTrue); pClone = NULL; pSrcDict->wblockClone(pTo, pClone, idMap, Adesk::kFalse); if (pClone != NULL) pClone->close(); break; case AcDb::kDcInsert: // In INSERT, an entire drawing is cloned, and // "merged" into a pre-existing drawing. This // means that the destination drawing may already // have our dictionary - in which case we have to // merge our entries into the destination // dictionary. So, first we must find out if // the destination NamedObjects dictionary has // our dictionary. // AcDbDictionary *pDestNamedDict; pTo->getNamedObjectsDictionary(pDestNamedDict, AcDb::kForWrite); // Since INSERT does not clone the destination // NamedObjects dictionary, we can use getAt() // on it. // es = pDestNamedDict->getAt(kpDictionary, dictId); // If our dictionary does not yet exist in the // NamedObjects dictionary, which is not itself // cloned, we have to both clone and add our // dictionary to it. Since dictionary entries are // ownership references, all of our entries will // also be cloned at this point, so we are done. // if (es == Acad::eKeyNotFound) { pClone = NULL; pSrcDict->deepClone(pDestNamedDict, pClone, idMap); // Unless we have overridden the deepClone // of our dictionary, we should expect it to // always be cloned here. // if (pClone == NULL) { *pRetStat = Acad::eNullObjectId; break; } pDestNamedDict->setAt(kpDictionary, pClone, dictId); pDestNamedDict->close(); pClone->close(); break; } pDestNamedDict->close(); // Our dictionary already exists in the destination // database, so now we must "merge" the entries // into it. Since we have not cloned our // destination dictionary, its objectIds are not in // flux, and we can use getAt() and setAt() on it. // AcDbDictionary *pDestDict; acdbOpenObject(pDestDict, dictId, AcDb::kForWrite); AcDbObject *pObj, *pObjClone; AcDbDictionaryIterator* pIter; pIter = pSrcDict->newIterator(); for (; !pIter->done(); pIter->next()) { const char *pName = pIter->name(); pIter->getObject(pObj, AcDb::kForRead); // If the dictionary contains any references // and/or other objects have references to it, // you must either use deepClone() or put the // idPairs into the idMap here, so that they // will be in the map for translation. // pObjClone = NULL; pObj->deepClone(pDestDict, pObjClone, idMap); // INSERT usually uses a method of cloning // called CheapClone, where it "moves" objects // into the destination database instead of // actually cloning them. When this happens, // pObj and pObjClone are pointers to the // same object. We only want to close pObj // here if it really is a different object. // if (pObj != pObjClone) pObj->close(); if (pObjClone == NULL) continue; // If the name already exists in our // destination dictionary, it must be changed // to something unique. In this example, the // name is changed to an annonymous entry. // The setAt() method will automatically append // a unique identifier to each name beginning // with "*". It will become something like, // "*S04". // if ( pDestDict->getAt(pName, dictId) == Acad::eKeyNotFound) pDestDict->setAt(pName, pObjClone, dictId); else pDestDict->setAt("*S", pObjClone, dictId); pObjClone->close(); } delete pIter; pDestDict->close(); break; default: break; } pSrcDict->close(); }