private static StatementContext compileStatement(
      String query, Scan scan, List<Object> binds, Integer limit, Set<Expression> extractedNodes)
      throws SQLException {
    SQLParser parser = new SQLParser(query);
    SelectStatement statement = parser.parseQuery();
    statement = RHSLiteralStatementRewriter.normalizeWhereClause(statement);
    PhoenixConnection pconn =
        DriverManager.getConnection(getUrl(), TEST_PROPERTIES).unwrap(PhoenixConnection.class);
    ColumnResolver resolver = FromCompiler.getResolver(statement, pconn);
    StatementContext context =
        new StatementContext(pconn, resolver, binds, statement.getBindCount(), scan);

    Integer actualLimit = LimitCompiler.getLimit(context, statement.getLimit());
    assertEquals(limit, actualLimit);
    GroupBy groupBy = GroupByCompiler.getGroupBy(statement, context);
    statement = HavingCompiler.moveToWhereClause(statement, context, groupBy);
    WhereCompiler.compileWhereClause(
        context, statement.getWhere(), extractedNodes, statement.getHint());
    return context;
  }
示例#2
0
  /**
   * Builds the projection for the scan
   *
   * @param context query context kept between compilation of different query clauses
   * @param statement TODO
   * @param groupBy compiled GROUP BY clause
   * @param targetColumns list of columns, parallel to aliasedNodes, that are being set for an
   *     UPSERT SELECT statement. Used to coerce expression types to the expected target type.
   * @return projector used to access row values during scan
   * @throws SQLException
   */
  public static RowProjector compile(
      StatementContext context,
      SelectStatement statement,
      GroupBy groupBy,
      List<? extends PDatum> targetColumns)
      throws SQLException {
    List<AliasedNode> aliasedNodes = statement.getSelect();
    // Setup projected columns in Scan
    SelectClauseVisitor selectVisitor = new SelectClauseVisitor(context, groupBy);
    List<ExpressionProjector> projectedColumns = new ArrayList<ExpressionProjector>();
    TableRef tableRef = context.getResolver().getTables().get(0);
    PTable table = tableRef.getTable();
    boolean isWildcard = false;
    Scan scan = context.getScan();
    int index = 0;
    List<Expression> projectedExpressions = Lists.newArrayListWithExpectedSize(aliasedNodes.size());
    List<byte[]> projectedFamilies = Lists.newArrayListWithExpectedSize(aliasedNodes.size());
    for (AliasedNode aliasedNode : aliasedNodes) {
      ParseNode node = aliasedNode.getNode();
      // TODO: visitor?
      if (node instanceof WildcardParseNode) {
        if (statement.isAggregate()) {
          ExpressionCompiler.throwNonAggExpressionInAggException(node.toString());
        }
        isWildcard = true;
        if (tableRef.getTable().getType() == PTableType.INDEX
            && ((WildcardParseNode) node).isRewrite()) {
          projectAllIndexColumns(context, tableRef, projectedExpressions, projectedColumns);
        } else {
          projectAllTableColumns(context, tableRef, projectedExpressions, projectedColumns);
        }
      } else if (node instanceof FamilyWildcardParseNode) {
        // Project everything for SELECT cf.*
        // TODO: support cf.* expressions for multiple tables the same way with *.
        String cfName = ((FamilyWildcardParseNode) node).getName();
        // Delay projecting to scan, as when any other column in the column family gets
        // added to the scan, it overwrites that we want to project the entire column
        // family. Instead, we do the projection at the end.
        // TODO: consider having a ScanUtil.addColumn and ScanUtil.addFamily to work
        // around this, as this code depends on this function being the last place where
        // columns are projected (which is currently true, but could change).
        projectedFamilies.add(Bytes.toBytes(cfName));
        if (tableRef.getTable().getType() == PTableType.INDEX
            && ((FamilyWildcardParseNode) node).isRewrite()) {
          projectIndexColumnFamily(
              context, cfName, tableRef, projectedExpressions, projectedColumns);
        } else {
          projectTableColumnFamily(
              context, cfName, tableRef, projectedExpressions, projectedColumns);
        }
      } else {
        Expression expression = node.accept(selectVisitor);
        projectedExpressions.add(expression);
        if (index < targetColumns.size()) {
          PDatum targetColumn = targetColumns.get(index);
          if (targetColumn.getDataType() != expression.getDataType()) {
            PDataType targetType = targetColumn.getDataType();
            // Check if coerce allowed using more relaxed isCastableTo check, since we promote
            // INTEGER to LONG
            // during expression evaluation and then convert back to INTEGER on UPSERT SELECT (and
            // we don't have
            // (an actual value we can specifically check against).
            if (expression.getDataType() != null
                && !expression.getDataType().isCastableTo(targetType)) {
              throw new ArgumentTypeMismatchException(
                  targetType, expression.getDataType(), "column: " + targetColumn);
            }
            expression = CoerceExpression.create(expression, targetType);
          }
        }
        if (node instanceof BindParseNode) {
          context.getBindManager().addParamMetaData((BindParseNode) node, expression);
        }
        if (!node.isStateless()) {
          if (!selectVisitor.isAggregate() && statement.isAggregate()) {
            ExpressionCompiler.throwNonAggExpressionInAggException(expression.toString());
          }
        }
        String columnAlias =
            aliasedNode.getAlias() != null
                ? aliasedNode.getAlias()
                : SchemaUtil.normalizeIdentifier(aliasedNode.getNode().getAlias());
        boolean isCaseSensitive =
            (columnAlias != null
                    && (aliasedNode.isCaseSensitve() || SchemaUtil.isCaseSensitive(columnAlias)))
                || selectVisitor.isCaseSensitive;
        String name = columnAlias == null ? expression.toString() : columnAlias;
        projectedColumns.add(
            new ExpressionProjector(
                name, table.getName().getString(), expression, isCaseSensitive));
      }
      selectVisitor.reset();
      index++;
    }

    table = context.getCurrentTable().getTable(); // switch to current table for scan projection
    // TODO make estimatedByteSize more accurate by counting the joined columns.
    int estimatedKeySize = table.getRowKeySchema().getEstimatedValueLength();
    int estimatedByteSize = 0;
    for (Map.Entry<byte[], NavigableSet<byte[]>> entry : scan.getFamilyMap().entrySet()) {
      PColumnFamily family = table.getColumnFamily(entry.getKey());
      if (entry.getValue() == null) {
        for (PColumn column : family.getColumns()) {
          Integer byteSize = column.getByteSize();
          estimatedByteSize +=
              SizedUtil.KEY_VALUE_SIZE
                  + estimatedKeySize
                  + (byteSize == null ? RowKeySchema.ESTIMATED_VARIABLE_LENGTH_SIZE : byteSize);
        }
      } else {
        for (byte[] cq : entry.getValue()) {
          PColumn column = family.getColumn(cq);
          Integer byteSize = column.getByteSize();
          estimatedByteSize +=
              SizedUtil.KEY_VALUE_SIZE
                  + estimatedKeySize
                  + (byteSize == null ? RowKeySchema.ESTIMATED_VARIABLE_LENGTH_SIZE : byteSize);
        }
      }
    }

    selectVisitor.compile();
    // Since we don't have the empty key value in read-only tables,
    // we must project everything.
    boolean isProjectEmptyKeyValue =
        table.getType() != PTableType.VIEW && table.getViewType() != ViewType.MAPPED && !isWildcard;
    if (isProjectEmptyKeyValue) {
      for (byte[] family : projectedFamilies) {
        projectColumnFamily(table, scan, family);
      }
    } else {
      /*
       * TODO: this could be optimized by detecting:
       * - if a column is projected that's not in the where clause
       * - if a column is grouped by that's not in the where clause
       * - if we're not using IS NULL or CASE WHEN expressions
       */
      projectAllColumnFamilies(table, scan);
    }
    return new RowProjector(projectedColumns, estimatedByteSize, isProjectEmptyKeyValue);
  }
  public MutationPlan compile(UpsertStatement upsert, List<Object> binds) throws SQLException {
    final PhoenixConnection connection = statement.getConnection();
    ConnectionQueryServices services = connection.getQueryServices();
    final int maxSize =
        services
            .getProps()
            .getInt(
                QueryServices.MAX_MUTATION_SIZE_ATTRIB,
                QueryServicesOptions.DEFAULT_MAX_MUTATION_SIZE);
    final ColumnResolver resolver = FromCompiler.getResolver(upsert, connection);
    final TableRef tableRef = resolver.getTables().get(0);
    PTable table = tableRef.getTable();
    if (table.getType() == PTableType.VIEW) {
      throw new ReadOnlyTableException("Mutations not allowed for a view (" + tableRef + ")");
    }
    Scan scan = new Scan();
    final StatementContext context =
        new StatementContext(connection, resolver, binds, upsert.getBindCount(), scan);
    // Setup array of column indexes parallel to values that are going to be set
    List<ColumnName> columnNodes = upsert.getColumns();
    List<PColumn> allColumns = table.getColumns();

    int[] columnIndexesToBe;
    int[] pkSlotIndexesToBe;
    PColumn[] targetColumns;
    // Allow full row upsert if no columns or only dynamic one are specified and values count match
    if (columnNodes.isEmpty()
        || columnNodes.size() == upsert.getTable().getDynamicColumns().size()) {
      columnIndexesToBe = new int[allColumns.size()];
      pkSlotIndexesToBe = new int[columnIndexesToBe.length];
      targetColumns = new PColumn[columnIndexesToBe.length];
      int j = table.getBucketNum() == null ? 0 : 1; // Skip over the salting byte.
      for (int i = 0; i < allColumns.size(); i++) {
        columnIndexesToBe[i] = i;
        targetColumns[i] = allColumns.get(i);
        if (SchemaUtil.isPKColumn(allColumns.get(i))) {
          pkSlotIndexesToBe[i] = j++;
        }
      }
    } else {
      columnIndexesToBe = new int[columnNodes.size()];
      pkSlotIndexesToBe = new int[columnIndexesToBe.length];
      targetColumns = new PColumn[columnIndexesToBe.length];
      Arrays.fill(
          columnIndexesToBe,
          -1); // TODO: necessary? So we'll get an AIOB exception if it's not replaced
      Arrays.fill(
          pkSlotIndexesToBe,
          -1); // TODO: necessary? So we'll get an AIOB exception if it's not replaced
      BitSet pkColumnsSet = new BitSet(table.getPKColumns().size());
      for (int i = 0; i < columnNodes.size(); i++) {
        ColumnName colName = columnNodes.get(i);
        ColumnRef ref =
            resolver.resolveColumn(null, colName.getFamilyName(), colName.getColumnName());
        columnIndexesToBe[i] = ref.getColumnPosition();
        targetColumns[i] = ref.getColumn();
        if (SchemaUtil.isPKColumn(ref.getColumn())) {
          pkColumnsSet.set(pkSlotIndexesToBe[i] = ref.getPKSlotPosition());
        }
      }
      int i = table.getBucketNum() == null ? 0 : 1;
      for (; i < table.getPKColumns().size(); i++) {
        PColumn pkCol = table.getPKColumns().get(i);
        if (!pkColumnsSet.get(i)) {
          if (!pkCol.isNullable()) {
            throw new ConstraintViolationException(
                table.getName().getString()
                    + "."
                    + pkCol.getName().getString()
                    + " may not be null");
          }
        }
      }
    }

    List<ParseNode> valueNodes = upsert.getValues();
    QueryPlan plan = null;
    RowProjector projector = null;
    int nValuesToSet;
    boolean runOnServer = false;
    if (valueNodes == null) {
      SelectStatement select = upsert.getSelect();
      assert (select != null);
      TableRef selectTableRef = FromCompiler.getResolver(select, connection).getTables().get(0);
      boolean sameTable = tableRef.equals(selectTableRef);
      // Pass scan through if same table in upsert and select so that projection is computed
      // correctly
      QueryCompiler compiler =
          new QueryCompiler(connection, 0, sameTable ? scan : new Scan(), targetColumns);
      plan = compiler.compile(select, binds);
      projector = plan.getProjector();
      nValuesToSet = projector.getColumnCount();
      // Cannot auto commit if doing aggregation or topN or salted
      // Salted causes problems because the row may end up living on a different region
      runOnServer =
          plan.getGroupBy() == null
              && sameTable
              && select.getOrderBy().isEmpty()
              && table.getBucketNum() == null;
    } else {
      nValuesToSet = valueNodes.size();
    }
    final QueryPlan queryPlan = plan;
    // Resize down to allow a subset of columns to be specifiable
    if (columnNodes.isEmpty()) {
      columnIndexesToBe = Arrays.copyOf(columnIndexesToBe, nValuesToSet);
      pkSlotIndexesToBe = Arrays.copyOf(pkSlotIndexesToBe, nValuesToSet);
    }

    if (nValuesToSet != columnIndexesToBe.length) {
      throw new SQLExceptionInfo.Builder(SQLExceptionCode.UPSERT_COLUMN_NUMBERS_MISMATCH)
          .setMessage(
              "Numbers of columns: "
                  + columnIndexesToBe.length
                  + ". Number of values: "
                  + nValuesToSet)
          .build()
          .buildException();
    }

    final int[] columnIndexes = columnIndexesToBe;
    final int[] pkSlotIndexes = pkSlotIndexesToBe;

    // TODO: break this up into multiple functions
    ////////////////////////////////////////////////////////////////////
    // UPSERT SELECT
    /////////////////////////////////////////////////////////////////////
    if (valueNodes == null) {
      /* We can run the upsert in a coprocessor if:
       * 1) the into table matches from table
       * 2) the select query isn't doing aggregation
       * 3) autoCommit is on
       * 4) not topN
       * Otherwise, run the query to pull the data from the server
       * and populate the MutationState (upto a limit).
       */
      final boolean isAutoCommit = connection.getAutoCommit();
      runOnServer &= isAutoCommit;

      ////////////////////////////////////////////////////////////////////
      // UPSERT SELECT run server-side (maybe)
      /////////////////////////////////////////////////////////////////////
      if (runOnServer) {
        // At most this array will grow bigger by the number of PK columns
        int[] allColumnsIndexes = Arrays.copyOf(columnIndexes, columnIndexes.length + nValuesToSet);
        int[] reverseColumnIndexes = new int[table.getColumns().size()];
        List<Expression> projectedExpressions =
            Lists.newArrayListWithExpectedSize(reverseColumnIndexes.length);
        Arrays.fill(reverseColumnIndexes, -1);
        for (int i = 0; i < nValuesToSet; i++) {
          projectedExpressions.add(projector.getColumnProjector(i).getExpression());
          reverseColumnIndexes[columnIndexes[i]] = i;
        }
        /*
         * Order projected columns and projected expressions with PK columns
         * leading order by slot position
         */
        int offset = table.getBucketNum() == null ? 0 : 1;
        for (int i = 0; i < table.getPKColumns().size() - offset; i++) {
          PColumn column = table.getPKColumns().get(i + offset);
          int pos = reverseColumnIndexes[column.getPosition()];
          if (pos == -1) {
            // Last PK column may be fixed width and nullable
            // We don't want to insert a null expression b/c
            // it's not valid to set a fixed width type to null.
            if (column.getDataType().isFixedWidth()) {
              continue;
            }
            // Add literal null for missing PK columns
            pos = projectedExpressions.size();
            Expression literalNull = LiteralExpression.newConstant(null, column.getDataType());
            projectedExpressions.add(literalNull);
            allColumnsIndexes[pos] = column.getPosition();
          }
          // Swap select expression at pos with i
          Collections.swap(projectedExpressions, i, pos);
          // Swap column indexes and reverse column indexes too
          int tempPos = allColumnsIndexes[i];
          allColumnsIndexes[i] = allColumnsIndexes[pos];
          allColumnsIndexes[pos] = tempPos;
          reverseColumnIndexes[tempPos] = reverseColumnIndexes[i];
          reverseColumnIndexes[i] = i;
        }
        // If any pk slots are changing, be conservative and don't run this server side.
        // If the row ends up living in a different region, we'll get an error otherwise.
        for (int i = 0; i < table.getPKColumns().size(); i++) {
          PColumn column = table.getPKColumns().get(i);
          Expression source = projectedExpressions.get(i);
          if (source == null
              || !source.equals(
                  new ColumnRef(tableRef, column.getPosition()).newColumnExpression())) {
            // TODO: we could check the region boundaries to see if the pk will still be in it.
            runOnServer = false; // bail on running server side, since PK may be changing
            break;
          }
        }

        ////////////////////////////////////////////////////////////////////
        // UPSERT SELECT run server-side
        /////////////////////////////////////////////////////////////////////
        if (runOnServer) {
          // Iterate through columns being projected
          List<PColumn> projectedColumns =
              Lists.newArrayListWithExpectedSize(projectedExpressions.size());
          for (int i = 0; i < projectedExpressions.size(); i++) {
            // Must make new column if position has changed
            PColumn column = allColumns.get(allColumnsIndexes[i]);
            projectedColumns.add(column.getPosition() == i ? column : new PColumnImpl(column, i));
          }
          // Build table from projectedColumns
          PTable projectedTable =
              PTableImpl.makePTable(
                  table.getName(),
                  table.getType(),
                  table.getTimeStamp(),
                  table.getSequenceNumber(),
                  table.getPKName(),
                  table.getBucketNum(),
                  projectedColumns);

          // Remove projection of empty column, since it can lead to problems when building another
          // projection
          // using this same scan. TODO: move projection code to a later stage, like
          // QueryPlan.newScanner to
          // prevent having to do this.
          ScanUtil.removeEmptyColumnFamily(context.getScan(), table);
          List<AliasedNode> select =
              Collections.<AliasedNode>singletonList(
                  NODE_FACTORY.aliasedNode(
                      null,
                      NODE_FACTORY.function(
                          CountAggregateFunction.NORMALIZED_NAME, LiteralParseNode.STAR)));
          // Ignore order by - it has no impact
          final RowProjector aggProjector =
              ProjectionCompiler.getRowProjector(
                  context, select, false, GroupBy.EMPTY_GROUP_BY, OrderBy.EMPTY_ORDER_BY, null);
          /*
           * Transfer over PTable representing subset of columns selected, but all PK columns.
           * Move columns setting PK first in pkSlot order, adding LiteralExpression of null for any missing ones.
           * Transfer over List<Expression> for projection.
           * In region scan, evaluate expressions in order, collecting first n columns for PK and collection non PK in mutation Map
           * Create the PRow and get the mutations, adding them to the batch
           */
          scan.setAttribute(
              UngroupedAggregateRegionObserver.UPSERT_SELECT_TABLE,
              UngroupedAggregateRegionObserver.serialize(projectedTable));
          scan.setAttribute(
              UngroupedAggregateRegionObserver.UPSERT_SELECT_EXPRS,
              UngroupedAggregateRegionObserver.serialize(projectedExpressions));
          final QueryPlan aggPlan =
              new AggregatePlan(
                  context,
                  tableRef,
                  projector,
                  null,
                  GroupBy.EMPTY_GROUP_BY,
                  false,
                  null,
                  OrderBy.EMPTY_ORDER_BY);
          return new MutationPlan() {

            @Override
            public PhoenixConnection getConnection() {
              return connection;
            }

            @Override
            public ParameterMetaData getParameterMetaData() {
              return context.getBindManager().getParameterMetaData();
            }

            @Override
            public MutationState execute() throws SQLException {
              Scanner scanner = aggPlan.getScanner();
              ResultIterator iterator = scanner.iterator();
              try {
                Tuple row = iterator.next();
                ImmutableBytesWritable ptr = context.getTempPtr();
                final long mutationCount =
                    (Long) aggProjector.getColumnProjector(0).getValue(row, PDataType.LONG, ptr);
                return new MutationState(maxSize, connection) {
                  @Override
                  public long getUpdateCount() {
                    return mutationCount;
                  }
                };
              } finally {
                iterator.close();
              }
            }

            @Override
            public ExplainPlan getExplainPlan() throws SQLException {
              List<String> queryPlanSteps = aggPlan.getExplainPlan().getPlanSteps();
              List<String> planSteps =
                  Lists.newArrayListWithExpectedSize(queryPlanSteps.size() + 1);
              planSteps.add("UPSERT ROWS");
              planSteps.addAll(queryPlanSteps);
              return new ExplainPlan(planSteps);
            }
          };
        }
      }

      ////////////////////////////////////////////////////////////////////
      // UPSERT SELECT run client-side
      /////////////////////////////////////////////////////////////////////
      final int batchSize = Math.min(connection.getMutateBatchSize(), maxSize);
      return new MutationPlan() {

        @Override
        public PhoenixConnection getConnection() {
          return connection;
        }

        @Override
        public ParameterMetaData getParameterMetaData() {
          return context.getBindManager().getParameterMetaData();
        }

        @Override
        public MutationState execute() throws SQLException {
          byte[][] values = new byte[columnIndexes.length][];
          Scanner scanner = queryPlan.getScanner();
          int estSize = scanner.getEstimatedSize();
          int rowCount = 0;
          Map<ImmutableBytesPtr, Map<PColumn, byte[]>> mutation =
              Maps.newHashMapWithExpectedSize(estSize);
          ResultSet rs = new PhoenixResultSet(scanner, statement);
          PTable table = tableRef.getTable();
          PColumn column;
          while (rs.next()) {
            for (int i = 0; i < values.length; i++) {
              column = table.getColumns().get(columnIndexes[i]);
              byte[] byteValue = rs.getBytes(i + 1);
              Object value = rs.getObject(i + 1);
              int rsPrecision = rs.getMetaData().getPrecision(i + 1);
              Integer precision = rsPrecision == 0 ? null : rsPrecision;
              int rsScale = rs.getMetaData().getScale(i + 1);
              Integer scale = rsScale == 0 ? null : rsScale;
              // If ColumnModifier from expression in SELECT doesn't match the
              // column being projected into then invert the bits.
              if (column.getColumnModifier() == ColumnModifier.SORT_DESC) {
                byte[] tempByteValue = Arrays.copyOf(byteValue, byteValue.length);
                byteValue =
                    ColumnModifier.SORT_DESC.apply(byteValue, tempByteValue, 0, byteValue.length);
              }
              // We are guaranteed that the two column will have compatible types,
              // as we checked that before.
              if (!column
                  .getDataType()
                  .isSizeCompatible(
                      column.getDataType(),
                      value,
                      byteValue,
                      precision,
                      column.getMaxLength(),
                      scale,
                      column.getScale())) {
                throw new SQLExceptionInfo.Builder(SQLExceptionCode.DATA_INCOMPATIBLE_WITH_TYPE)
                    .setColumnName(column.getName().getString())
                    .build()
                    .buildException();
              }
              values[i] =
                  column
                      .getDataType()
                      .coerceBytes(
                          byteValue,
                          value,
                          column.getDataType(),
                          precision,
                          scale,
                          column.getMaxLength(),
                          column.getScale());
            }
            setValues(values, pkSlotIndexes, columnIndexes, table, mutation);
            rowCount++;
            // Commit a batch if auto commit is true and we're at our batch size
            if (isAutoCommit && rowCount % batchSize == 0) {
              MutationState state = new MutationState(tableRef, mutation, 0, maxSize, connection);
              connection.getMutationState().join(state);
              connection.commit();
              mutation.clear();
            }
          }
          // If auto commit is true, this last batch will be committed upon return
          return new MutationState(
              tableRef, mutation, rowCount / batchSize * batchSize, maxSize, connection);
        }

        @Override
        public ExplainPlan getExplainPlan() throws SQLException {
          List<String> queryPlanSteps = queryPlan.getExplainPlan().getPlanSteps();
          List<String> planSteps = Lists.newArrayListWithExpectedSize(queryPlanSteps.size() + 1);
          planSteps.add("UPSERT SELECT");
          planSteps.addAll(queryPlanSteps);
          return new ExplainPlan(planSteps);
        }
      };
    }

    ////////////////////////////////////////////////////////////////////
    // UPSERT VALUES
    /////////////////////////////////////////////////////////////////////
    int nodeIndex = 0;
    // Allocate array based on size of all columns in table,
    // since some values may not be set (if they're nullable).
    UpsertValuesCompiler expressionBuilder = new UpsertValuesCompiler(context);
    final byte[][] values = new byte[nValuesToSet][];
    for (ParseNode valueNode : valueNodes) {
      if (!valueNode.isConstant()) {
        throw new SQLExceptionInfo.Builder(SQLExceptionCode.VALUE_IN_UPSERT_NOT_CONSTANT)
            .build()
            .buildException();
      }
      PColumn column = allColumns.get(columnIndexes[nodeIndex]);
      expressionBuilder.setColumn(column);
      LiteralExpression literalExpression = (LiteralExpression) valueNode.accept(expressionBuilder);
      byte[] byteValue = literalExpression.getBytes();
      if (literalExpression.getDataType() != null) {
        // If ColumnModifier from expression in SELECT doesn't match the
        // column being projected into then invert the bits.
        if (literalExpression.getColumnModifier() != column.getColumnModifier()) {
          byte[] tempByteValue = Arrays.copyOf(byteValue, byteValue.length);
          byteValue = ColumnModifier.SORT_DESC.apply(byteValue, tempByteValue, 0, byteValue.length);
        }
        if (!literalExpression
            .getDataType()
            .isCoercibleTo(column.getDataType(), literalExpression.getValue())) {
          throw new TypeMismatchException(
              literalExpression.getDataType(),
              column.getDataType(),
              "expression: " + literalExpression.toString() + " in column " + column);
        }
        if (!column
            .getDataType()
            .isSizeCompatible(
                literalExpression.getDataType(),
                literalExpression.getValue(),
                byteValue,
                literalExpression.getMaxLength(),
                column.getMaxLength(),
                literalExpression.getScale(),
                column.getScale())) {
          throw new SQLExceptionInfo.Builder(SQLExceptionCode.DATA_INCOMPATIBLE_WITH_TYPE)
              .setColumnName(column.getName().getString())
              .setMessage("value=" + literalExpression.toString())
              .build()
              .buildException();
        }
      }
      byteValue =
          column
              .getDataType()
              .coerceBytes(
                  byteValue,
                  literalExpression.getValue(),
                  literalExpression.getDataType(),
                  literalExpression.getMaxLength(),
                  literalExpression.getScale(),
                  column.getMaxLength(),
                  column.getScale());
      values[nodeIndex] = byteValue;
      nodeIndex++;
    }
    return new MutationPlan() {

      @Override
      public PhoenixConnection getConnection() {
        return connection;
      }

      @Override
      public ParameterMetaData getParameterMetaData() {
        return context.getBindManager().getParameterMetaData();
      }

      @Override
      public MutationState execute() {
        Map<ImmutableBytesPtr, Map<PColumn, byte[]>> mutation = Maps.newHashMapWithExpectedSize(1);
        setValues(values, pkSlotIndexes, columnIndexes, tableRef.getTable(), mutation);
        return new MutationState(tableRef, mutation, 0, maxSize, connection);
      }

      @Override
      public ExplainPlan getExplainPlan() throws SQLException {
        return new ExplainPlan(Collections.singletonList("PUT SINGLE ROW"));
      }
    };
  }