public ICFCrmMemoObj readMemoByUDescrIdx(
     long TenantId, long ContactId, String Description, boolean forceRead) {
   if (indexByUDescrIdx == null) {
     indexByUDescrIdx = new HashMap<CFCrmMemoByUDescrIdxKey, ICFCrmMemoObj>();
   }
   CFCrmMemoByUDescrIdxKey key =
       ((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newUDescrIdxKey();
   key.setRequiredTenantId(TenantId);
   key.setRequiredContactId(ContactId);
   key.setRequiredDescription(Description);
   ICFCrmMemoObj obj = null;
   if ((!forceRead) && indexByUDescrIdx.containsKey(key)) {
     obj = indexByUDescrIdx.get(key);
   } else {
     CFCrmMemoBuff buff =
         ((ICFAccSchema) schema.getBackingStore())
             .getTableMemo()
             .readDerivedByUDescrIdx(schema.getAuthorization(), TenantId, ContactId, Description);
     if (buff != null) {
       obj = schema.getMemoTableObj().newInstance();
       obj.setPKey(((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newPKey());
       obj.setBuff(buff);
       obj = (ICFCrmMemoObj) obj.realize();
     } else if (schema.getCacheMisses()) {
       indexByUDescrIdx.put(key, null);
     }
   }
   return (obj);
 }
 public List<ICFCrmMemoObj> readAllMemo(boolean forceRead) {
   final String S_ProcName = "readAllMemo";
   if ((allMemo == null) || forceRead) {
     Map<CFCrmMemoPKey, ICFCrmMemoObj> map = new HashMap<CFCrmMemoPKey, ICFCrmMemoObj>();
     allMemo = map;
     CFCrmMemoBuff[] buffList =
         ((ICFAccSchema) schema.getBackingStore())
             .getTableMemo()
             .readAllDerived(schema.getAuthorization());
     CFCrmMemoBuff buff;
     ICFCrmMemoObj obj;
     for (int idx = 0; idx < buffList.length; idx++) {
       buff = buffList[idx];
       obj = newInstance();
       obj.setPKey(((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newPKey());
       obj.setBuff(buff);
       ICFCrmMemoObj realized = (ICFCrmMemoObj) obj.realize();
     }
   }
   Comparator<ICFCrmMemoObj> cmp =
       new Comparator<ICFCrmMemoObj>() {
         public int compare(ICFCrmMemoObj lhs, ICFCrmMemoObj rhs) {
           if (lhs == null) {
             if (rhs == null) {
               return (0);
             } else {
               return (-1);
             }
           } else if (rhs == null) {
             return (1);
           } else {
             CFCrmMemoPKey lhsPKey = lhs.getPKey();
             CFCrmMemoPKey rhsPKey = rhs.getPKey();
             int ret = lhsPKey.compareTo(rhsPKey);
             return (ret);
           }
         }
       };
   int len = allMemo.size();
   ICFCrmMemoObj arr[] = new ICFCrmMemoObj[len];
   Iterator<ICFCrmMemoObj> valIter = allMemo.values().iterator();
   int idx = 0;
   while ((idx < len) && valIter.hasNext()) {
     arr[idx++] = valIter.next();
   }
   if (idx < len) {
     throw CFLib.getDefaultExceptionFactory()
         .newArgumentUnderflowException(getClass(), S_ProcName, 0, "idx", idx, len);
   } else if (valIter.hasNext()) {
     throw CFLib.getDefaultExceptionFactory()
         .newArgumentOverflowException(getClass(), S_ProcName, 0, "idx", idx, len);
   }
   Arrays.sort(arr, cmp);
   ArrayList<ICFCrmMemoObj> arrayList = new ArrayList<ICFCrmMemoObj>(len);
   for (idx = 0; idx < len; idx++) {
     arrayList.add(arr[idx]);
   }
   List<ICFCrmMemoObj> sortedList = arrayList;
   return (sortedList);
 }
 public ICFCrmMemoObj updateMemo(ICFCrmMemoObj Obj) {
   ICFCrmMemoObj obj = Obj;
   ((ICFAccSchema) schema.getBackingStore())
       .getTableMemo()
       .updateMemo(schema.getAuthorization(), Obj.getMemoBuff());
   obj = (ICFCrmMemoObj) Obj.realize();
   return (obj);
 }
 public ICFCrmMemoObj createMemo(ICFCrmMemoObj Obj) {
   ICFCrmMemoObj obj = Obj;
   CFCrmMemoBuff buff = obj.getMemoBuff();
   ((ICFAccSchema) schema.getBackingStore())
       .getTableMemo()
       .createMemo(schema.getAuthorization(), buff);
   obj.copyBuffToPKey();
   obj = obj.realize();
   return (obj);
 }
 public ICFCrmMemoObj lockMemo(CFCrmMemoPKey pkey) {
   ICFCrmMemoObj locked = null;
   CFCrmMemoBuff lockBuff =
       ((ICFAccSchema) schema.getBackingStore())
           .getTableMemo()
           .lockDerived(schema.getAuthorization(), pkey);
   if (lockBuff != null) {
     locked = schema.getMemoTableObj().newInstance();
     locked.setPKey(((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newPKey());
     locked.setBuff(lockBuff);
     locked = (ICFCrmMemoObj) locked.realize();
   } else {
     throw CFLib.getDefaultExceptionFactory()
         .newCollisionDetectedException(getClass(), "lockMemo", pkey);
   }
   return (locked);
 }
 public ICFCrmMemoObj readMemo(CFCrmMemoPKey pkey, boolean forceRead) {
   ICFCrmMemoObj obj = null;
   if ((!forceRead) && members.containsKey(pkey)) {
     obj = members.get(pkey);
   } else {
     CFCrmMemoBuff readBuff =
         ((ICFAccSchema) schema.getBackingStore())
             .getTableMemo()
             .readDerivedByIdIdx(
                 schema.getAuthorization(), pkey.getRequiredTenantId(), pkey.getRequiredMemoId());
     if (readBuff != null) {
       obj = schema.getMemoTableObj().newInstance();
       obj.setPKey(((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newPKey());
       obj.setBuff(readBuff);
       obj = (ICFCrmMemoObj) obj.realize();
     } else if (schema.getCacheMisses()) {
       members.put(pkey, null);
     }
   }
   return (obj);
 }
 public List<ICFCrmMemoObj> readMemoByMemoContactIdx(
     long TenantId, long ContactId, boolean forceRead) {
   final String S_ProcName = "readMemoByMemoContactIdx";
   CFCrmMemoByMemoContactIdxKey key =
       ((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newMemoContactIdxKey();
   key.setRequiredTenantId(TenantId);
   key.setRequiredContactId(ContactId);
   Map<CFCrmMemoPKey, ICFCrmMemoObj> dict;
   if (indexByMemoContactIdx == null) {
     indexByMemoContactIdx =
         new HashMap<CFCrmMemoByMemoContactIdxKey, Map<CFCrmMemoPKey, ICFCrmMemoObj>>();
   }
   if ((!forceRead) && indexByMemoContactIdx.containsKey(key)) {
     dict = indexByMemoContactIdx.get(key);
   } else {
     dict = new HashMap<CFCrmMemoPKey, ICFCrmMemoObj>();
     // Allow other threads to dirty-read while we're loading
     indexByMemoContactIdx.put(key, dict);
     ICFCrmMemoObj obj;
     CFCrmMemoBuff[] buffList =
         ((ICFAccSchema) schema.getBackingStore())
             .getTableMemo()
             .readDerivedByMemoContactIdx(schema.getAuthorization(), TenantId, ContactId);
     CFCrmMemoBuff buff;
     for (int idx = 0; idx < buffList.length; idx++) {
       buff = buffList[idx];
       obj = schema.getMemoTableObj().newInstance();
       obj.setPKey(((ICFAccSchema) schema.getBackingStore()).getFactoryMemo().newPKey());
       obj.setBuff(buff);
       ICFCrmMemoObj realized = (ICFCrmMemoObj) obj.realize();
     }
   }
   Comparator<ICFCrmMemoObj> cmp =
       new Comparator<ICFCrmMemoObj>() {
         public int compare(ICFCrmMemoObj lhs, ICFCrmMemoObj rhs) {
           if (lhs == null) {
             if (rhs == null) {
               return (0);
             } else {
               return (-1);
             }
           } else if (rhs == null) {
             return (1);
           } else {
             CFCrmMemoPKey lhsPKey = lhs.getPKey();
             CFCrmMemoPKey rhsPKey = rhs.getPKey();
             int ret = lhsPKey.compareTo(rhsPKey);
             return (ret);
           }
         }
       };
   int len = dict.size();
   ICFCrmMemoObj arr[] = new ICFCrmMemoObj[len];
   Iterator<ICFCrmMemoObj> valIter = dict.values().iterator();
   int idx = 0;
   while ((idx < len) && valIter.hasNext()) {
     arr[idx++] = valIter.next();
   }
   if (idx < len) {
     throw CFLib.getDefaultExceptionFactory()
         .newArgumentUnderflowException(getClass(), S_ProcName, 0, "idx", idx, len);
   } else if (valIter.hasNext()) {
     throw CFLib.getDefaultExceptionFactory()
         .newArgumentOverflowException(getClass(), S_ProcName, 0, "idx", idx, len);
   }
   Arrays.sort(arr, cmp);
   ArrayList<ICFCrmMemoObj> arrayList = new ArrayList<ICFCrmMemoObj>(len);
   for (idx = 0; idx < len; idx++) {
     arrayList.add(arr[idx]);
   }
   List<ICFCrmMemoObj> sortedList = arrayList;
   return (sortedList);
 }