示例#1
0
  private int repeatInternal(
      @NotNull PseudocodeImpl originalPseudocode,
      @Nullable Label startLabel,
      @Nullable Label finishLabel,
      int labelCount) {
    Integer startIndex =
        startLabel != null
            ? ((PseudocodeLabel) startLabel).getTargetInstructionIndex()
            : Integer.valueOf(0);
    assert startIndex != null;
    Integer finishIndex =
        finishLabel != null
            ? ((PseudocodeLabel) finishLabel).getTargetInstructionIndex()
            : Integer.valueOf(originalPseudocode.mutableInstructionList.size());
    assert finishIndex != null;

    Map<Label, Label> originalToCopy = Maps.newLinkedHashMap();
    Multimap<Instruction, Label> originalLabelsForInstruction = HashMultimap.create();
    for (PseudocodeLabel label : originalPseudocode.labels) {
      Integer index = label.getTargetInstructionIndex();
      if (index == null) continue; // label is not bounded yet
      if (label == startLabel || label == finishLabel) continue;

      if (startIndex <= index && index <= finishIndex) {
        originalToCopy.put(label, label.copy(labelCount++));
        originalLabelsForInstruction.put(getJumpTarget(label), label);
      }
    }
    for (Label label : originalToCopy.values()) {
      labels.add((PseudocodeLabel) label);
    }
    for (int index = startIndex; index < finishIndex; index++) {
      Instruction originalInstruction = originalPseudocode.mutableInstructionList.get(index);
      repeatLabelsBindingForInstruction(
          originalInstruction, originalToCopy, originalLabelsForInstruction);
      Instruction copy = copyInstruction(originalInstruction, originalToCopy);
      addInstruction(copy);
      if (originalInstruction == originalPseudocode.errorInstruction
          && copy instanceof SubroutineExitInstruction) {
        errorInstruction = (SubroutineExitInstruction) copy;
      }
      if (originalInstruction == originalPseudocode.exitInstruction
          && copy instanceof SubroutineExitInstruction) {
        exitInstruction = (SubroutineExitInstruction) copy;
      }
      if (originalInstruction == originalPseudocode.sinkInstruction
          && copy instanceof SubroutineSinkInstruction) {
        sinkInstruction = (SubroutineSinkInstruction) copy;
      }
    }
    if (finishIndex < mutableInstructionList.size()) {
      repeatLabelsBindingForInstruction(
          originalPseudocode.mutableInstructionList.get(finishIndex),
          originalToCopy,
          originalLabelsForInstruction);
    }
    return labelCount;
  }
示例#2
0
 @Override
 public synchronized void commit() {
   Preconditions.checkArgument(isOpen(), "The transaction has already been closed");
   try {
     if (hasModifications()) {
       graph.save(addedRelations.getAll(), deletedRelations.values(), this);
     }
     txHandle.commit();
   } catch (Exception e) {
     try {
       txHandle.rollback();
     } catch (StorageException e1) {
       throw new TitanException("Could not rollback after a failed commit", e);
     }
     throw new TitanException(
         "Could not commit transaction due to exception during persistence", e);
   } finally {
     close();
   }
 }
示例#3
0
  public MutationState createTable(CreateTableStatement statement, byte[][] splits)
      throws SQLException {
    PTableType tableType = statement.getTableType();
    boolean isView = tableType == PTableType.VIEW;
    if (isView && !statement.getProps().isEmpty()) {
      throw new SQLExceptionInfo.Builder(SQLExceptionCode.VIEW_WITH_TABLE_CONFIG)
          .build()
          .buildException();
    }
    connection.rollback();
    boolean wasAutoCommit = connection.getAutoCommit();
    try {
      connection.setAutoCommit(false);
      TableName tableNameNode = statement.getTableName();
      String schemaName = tableNameNode.getSchemaName();
      String tableName = tableNameNode.getTableName();

      PrimaryKeyConstraint pkConstraint = statement.getPrimaryKeyConstraint();
      String pkName = null;
      Set<String> pkColumns = Collections.<String>emptySet();
      Iterator<String> pkColumnsIterator = Iterators.emptyIterator();
      if (pkConstraint != null) {
        pkColumns = pkConstraint.getColumnNames();
        pkColumnsIterator = pkColumns.iterator();
        pkName = pkConstraint.getName();
      }

      List<ColumnDef> colDefs = statement.getColumnDefs();
      List<PColumn> columns = Lists.newArrayListWithExpectedSize(colDefs.size());
      PreparedStatement colUpsert = connection.prepareStatement(INSERT_COLUMN);
      int columnOrdinal = 0;
      Map<String, PName> familyNames = Maps.newLinkedHashMap();
      boolean isPK = false;
      for (ColumnDef colDef : colDefs) {
        if (colDef.isPK()) {
          if (isPK) {
            throw new SQLExceptionInfo.Builder(SQLExceptionCode.PRIMARY_KEY_ALREADY_EXISTS)
                .setColumnName(colDef.getColumnDefName().getColumnName().getName())
                .build()
                .buildException();
          }
          isPK = true;
        }
        PColumn column = newColumn(columnOrdinal++, colDef, pkConstraint);
        if (SchemaUtil.isPKColumn(column)) {
          // TODO: remove this constraint?
          if (!pkColumns.isEmpty()
              && !column.getName().getString().equals(pkColumnsIterator.next())) {
            throw new SQLExceptionInfo.Builder(SQLExceptionCode.PRIMARY_KEY_OUT_OF_ORDER)
                .setSchemaName(schemaName)
                .setTableName(tableName)
                .setColumnName(column.getName().getString())
                .build()
                .buildException();
          }
        }
        columns.add(column);
        if (colDef.getDataType() == PDataType.BINARY && colDefs.size() > 1) {
          throw new SQLExceptionInfo.Builder(SQLExceptionCode.BINARY_IN_ROW_KEY)
              .setSchemaName(schemaName)
              .setTableName(tableName)
              .setColumnName(column.getName().getString())
              .build()
              .buildException();
        }
        if (column.getFamilyName() != null) {
          familyNames.put(column.getFamilyName().getString(), column.getFamilyName());
        }
      }
      if (!isPK && pkColumns.isEmpty()) {
        throw new SQLExceptionInfo.Builder(SQLExceptionCode.PRIMARY_KEY_MISSING)
            .setSchemaName(schemaName)
            .setTableName(tableName)
            .build()
            .buildException();
      }

      List<Pair<byte[], Map<String, Object>>> familyPropList =
          Lists.newArrayListWithExpectedSize(familyNames.size());
      Map<String, Object> commonFamilyProps = Collections.emptyMap();
      Map<String, Object> tableProps = Collections.emptyMap();
      if (!statement.getProps().isEmpty()) {
        if (statement.isView()) {
          throw new SQLExceptionInfo.Builder(SQLExceptionCode.VIEW_WITH_PROPERTIES)
              .build()
              .buildException();
        }
        for (String familyName : statement.getProps().keySet()) {
          if (!familyName.equals(QueryConstants.ALL_FAMILY_PROPERTIES_KEY)) {
            if (familyNames.get(familyName) == null) {
              throw new SQLExceptionInfo.Builder(SQLExceptionCode.PROPERTIES_FOR_FAMILY)
                  .setFamilyName(familyName)
                  .build()
                  .buildException();
            }
          }
        }
        commonFamilyProps = Maps.newHashMapWithExpectedSize(statement.getProps().size());
        tableProps = Maps.newHashMapWithExpectedSize(statement.getProps().size());

        Collection<Pair<String, Object>> props =
            statement.getProps().get(QueryConstants.ALL_FAMILY_PROPERTIES_KEY);
        // Somewhat hacky way of determining if property is for HColumnDescriptor or
        // HTableDescriptor
        HColumnDescriptor defaultDescriptor =
            new HColumnDescriptor(QueryConstants.DEFAULT_COLUMN_FAMILY_BYTES);
        for (Pair<String, Object> prop : props) {
          if (defaultDescriptor.getValue(prop.getFirst()) != null) {
            commonFamilyProps.put(prop.getFirst(), prop.getSecond());
          } else {
            tableProps.put(prop.getFirst(), prop.getSecond());
          }
        }
      }

      for (PName familyName : familyNames.values()) {
        Collection<Pair<String, Object>> props = statement.getProps().get(familyName.getString());
        if (props.isEmpty()) {
          familyPropList.add(
              new Pair<byte[], Map<String, Object>>(familyName.getBytes(), commonFamilyProps));
        } else {
          Map<String, Object> combinedFamilyProps =
              Maps.newHashMapWithExpectedSize(props.size() + commonFamilyProps.size());
          combinedFamilyProps.putAll(commonFamilyProps);
          for (Pair<String, Object> prop : props) {
            combinedFamilyProps.put(prop.getFirst(), prop.getSecond());
          }
          familyPropList.add(
              new Pair<byte[], Map<String, Object>>(familyName.getBytes(), combinedFamilyProps));
        }
      }

      // Bootstrapping for our SYSTEM.TABLE that creates itself before it exists
      if (tableType == PTableType.SYSTEM) {
        PTable table =
            new PTableImpl(
                new PNameImpl(tableName),
                tableType,
                MetaDataProtocol.MIN_TABLE_TIMESTAMP,
                0,
                QueryConstants.SYSTEM_TABLE_PK_NAME,
                null,
                columns);
        connection.addTable(schemaName, table);
      }

      for (PColumn column : columns) {
        addColumnMutation(schemaName, tableName, column, colUpsert);
      }

      Integer saltBucketNum = (Integer) tableProps.remove(PhoenixDatabaseMetaData.SALT_BUCKETS);
      if (saltBucketNum != null
          && (saltBucketNum <= 0 || saltBucketNum > SaltingUtil.MAX_BUCKET_NUM)) {
        throw new SQLExceptionInfo.Builder(SQLExceptionCode.INVALID_BUCKET_NUM)
            .build()
            .buildException();
      }

      PreparedStatement tableUpsert = connection.prepareStatement(CREATE_TABLE);
      tableUpsert.setString(1, schemaName);
      tableUpsert.setString(2, tableName);
      tableUpsert.setString(3, tableType.getSerializedValue());
      tableUpsert.setInt(4, 0);
      tableUpsert.setInt(5, columnOrdinal);
      if (saltBucketNum != null) {
        tableUpsert.setInt(6, saltBucketNum);
      } else {
        tableUpsert.setNull(6, Types.INTEGER);
      }
      tableUpsert.setString(7, pkName);
      tableUpsert.execute();

      final List<Mutation> tableMetaData = connection.getMutationState().toMutations();
      connection.rollback();

      MetaDataMutationResult result =
          connection
              .getQueryServices()
              .createTable(tableMetaData, isView, tableProps, familyPropList, splits);
      MutationCode code = result.getMutationCode();
      switch (code) {
        case TABLE_ALREADY_EXISTS:
          connection.addTable(schemaName, result.getTable());
          if (!statement.ifNotExists()) {
            throw new TableAlreadyExistsException(schemaName, tableName);
          }
          break;
        case NEWER_TABLE_FOUND:
          // TODO: add table if in result?
          throw new NewerTableAlreadyExistsException(schemaName, tableName);
        case UNALLOWED_TABLE_MUTATION:
          throw new SQLExceptionInfo.Builder(SQLExceptionCode.CANNOT_MUTATE_TABLE)
              .setSchemaName(schemaName)
              .setTableName(tableName)
              .build()
              .buildException();
        default:
          PTable table =
              new PTableImpl(
                  new PNameImpl(tableName),
                  tableType,
                  result.getMutationTime(),
                  0,
                  pkName,
                  saltBucketNum,
                  columns);
          connection.addTable(schemaName, table);
          if (tableType == PTableType.USER) {
            connection.setAutoCommit(true);
            // Delete everything in the column. You'll still be able to do queries at earlier
            // timestamps
            Long scn = connection.getSCN();
            long ts = (scn == null ? result.getMutationTime() : scn);
            PSchema schema =
                new PSchemaImpl(
                    schemaName,
                    ImmutableMap.<String, PTable>of(table.getName().getString(), table));
            TableRef tableRef = new TableRef(null, table, schema, ts);
            byte[] emptyCF = SchemaUtil.getEmptyColumnFamily(table.getColumnFamilies());
            MutationPlan plan =
                new PostDDLCompiler(connection).compile(tableRef, emptyCF, null, ts);
            return connection.getQueryServices().updateData(plan);
          }
          break;
      }
      return new MutationState(0, connection);
    } finally {
      connection.setAutoCommit(wasAutoCommit);
    }
  }
示例#4
0
 /**
  * @return collection of the metadata about all tables registered in the system (system and
  *     non-system)
  */
 public Collection<KSMetaData> getTableDefinitions() {
   return tables.values();
 }
示例#5
0
        @Override
        public Iterator<TitanElement> getNew(final StandardElementQuery query) {
          Preconditions.checkArgument(
              query.getType() == StandardElementQuery.Type.VERTEX
                  || query.getType() == StandardElementQuery.Type.EDGE);
          if (query.getType() == StandardElementQuery.Type.VERTEX && hasModifications()) {
            // Collect all keys from the query - ASSUMPTION: query is an AND of KeyAtom
            final Set<TitanKey> keys = Sets.newHashSet();
            KeyAtom<TitanKey> standardIndexKey = null;
            for (KeyCondition<TitanKey> cond : query.getCondition().getChildren()) {
              KeyAtom<TitanKey> atom = (KeyAtom<TitanKey>) cond;
              if (atom.getRelation() == Cmp.EQUAL && isVertexIndexProperty(atom.getKey()))
                standardIndexKey = atom;
              keys.add(atom.getKey());
            }
            Iterator<TitanVertex> vertices;
            if (standardIndexKey == null) {
              Set<TitanVertex> vertexSet = Sets.newHashSet();
              for (TitanRelation r :
                  addedRelations.getView(
                      new Predicate<InternalRelation>() {
                        @Override
                        public boolean apply(@Nullable InternalRelation relation) {
                          return keys.contains(relation.getType());
                        }
                      })) {
                vertexSet.add(((TitanProperty) r).getVertex());
              }
              for (TitanRelation r : deletedRelations.values()) {
                if (keys.contains(r.getType())) {
                  TitanVertex v = ((TitanProperty) r).getVertex();
                  if (!v.isRemoved()) vertexSet.add(v);
                }
              }
              vertices = vertexSet.iterator();
            } else {
              vertices =
                  Iterators.transform(
                      newVertexIndexEntries
                          .get(standardIndexKey.getCondition(), standardIndexKey.getKey())
                          .iterator(),
                      new Function<TitanProperty, TitanVertex>() {
                        @Nullable
                        @Override
                        public TitanVertex apply(@Nullable TitanProperty o) {
                          return o.getVertex();
                        }
                      });
            }

            return (Iterator)
                Iterators.filter(
                    vertices,
                    new Predicate<TitanVertex>() {
                      @Override
                      public boolean apply(@Nullable TitanVertex vertex) {
                        return query.matches(vertex);
                      }
                    });
          } else if (query.getType() == StandardElementQuery.Type.EDGE
              && !addedRelations.isEmpty()) {
            return (Iterator)
                addedRelations
                    .getView(
                        new Predicate<InternalRelation>() {
                          @Override
                          public boolean apply(@Nullable InternalRelation relation) {
                            return (relation instanceof TitanEdge)
                                && !relation.isHidden()
                                && query.matches(relation);
                          }
                        })
                    .iterator();
          } else throw new IllegalArgumentException("Unexpected type: " + query.getType());
        }
示例#6
0
 @Override
 public UnmodifiableIterator<DocumentMapper> iterator() {
   return Iterators.unmodifiableIterator(mappers.values().iterator());
 }
示例#7
0
 public void close() {
   for (DocumentMapper documentMapper : mappers.values()) {
     documentMapper.close();
   }
 }