// TODO: cache? public static LiteralExpression newConstant( Object value, PDataType type, Integer maxLength, Integer scale, SortOrder sortOrder, Determinism determinism, boolean rowKeyOrderOptimizable) throws SQLException { if (value == null) { return (type == null) ? getNullLiteralExpression(determinism) : getTypedNullLiteralExpression(type, determinism); } else if (value instanceof Boolean) { return getBooleanLiteralExpression((Boolean) value, determinism); } PDataType actualType = PDataType.fromLiteral(value); // For array we should check individual element in it? // It would be costly though!!!!! // UpsertStatement can try to cast varchar to date type but PVarchar can't CoercibleTo Date or // Timestamp // otherwise TO_NUMBER like functions will fail if (!actualType.isCoercibleTo(type, value) && (!actualType.equals(PVarchar.INSTANCE) || !(type.equals(PDate.INSTANCE) || type.equals(PTimestamp.INSTANCE) || type.equals(PTime.INSTANCE)))) { throw TypeMismatchException.newException(type, actualType, value.toString()); } value = type.toObject(value, actualType); byte[] b = type.isArrayType() ? ((PArrayDataType) type) .toBytes( value, PArrayDataType.arrayBaseType(type), sortOrder, rowKeyOrderOptimizable) : type.toBytes(value, sortOrder); if (type == PVarchar.INSTANCE || type == PChar.INSTANCE) { if (type == PChar.INSTANCE && maxLength != null && b.length < maxLength) { if (rowKeyOrderOptimizable) { b = type.pad(b, maxLength, sortOrder); } else { b = StringUtil.padChar(b, maxLength); } } else if (value != null) { maxLength = ((String) value).length(); } } else if (type.isArrayType()) { maxLength = ((PhoenixArray) value).getMaxLength(); } if (b.length == 0) { return getTypedNullLiteralExpression(type, determinism); } if (maxLength == null) { maxLength = type == null || !type.isFixedWidth() ? null : type.getMaxLength(value); } return new LiteralExpression(value, type, b, maxLength, scale, sortOrder, determinism); }
public void addParam(BindParseNode bind, PDatum datum) throws SQLException { PDatum bindDatum = params[bind.getIndex()]; if (bindDatum != null && bindDatum.getDataType() != null && !datum.getDataType().isCoercibleTo(bindDatum.getDataType())) { throw TypeMismatchException.newException(datum.getDataType(), bindDatum.getDataType()); } params[bind.getIndex()] = datum; }
public LiteralParseNode literal(String value, String sqlTypeName) throws SQLException { PDataType expectedType = sqlTypeName == null ? null : PDataType.fromSqlTypeName(SchemaUtil.normalizeIdentifier(sqlTypeName)); if (expectedType == null || !expectedType.isCoercibleTo(PTimestamp.INSTANCE)) { throw TypeMismatchException.newException(expectedType, PTimestamp.INSTANCE); } Object typedValue = expectedType.toObject(value); return new LiteralParseNode(typedValue); }
public static Expression convertToRoundExpressionIfNeeded( PDataType fromDataType, PDataType targetDataType, List<Expression> expressions) throws SQLException { Expression firstChildExpr = expressions.get(0); if (fromDataType == targetDataType) { return firstChildExpr; } else if (fromDataType == PDataType.DECIMAL && targetDataType.isCoercibleTo(PDataType.LONG)) { return new RoundDecimalExpression(expressions); } else if ((fromDataType == PDataType.TIMESTAMP || fromDataType == PDataType.UNSIGNED_TIMESTAMP) && targetDataType.isCoercibleTo(PDataType.DATE)) { return RoundTimestampExpression.create(expressions); } else if (!fromDataType.isCoercibleTo(targetDataType)) { throw TypeMismatchException.newException( fromDataType, targetDataType, firstChildExpr.toString()); } return firstChildExpr; }
public MutationPlan compile(UpsertStatement upsert) 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.getResolverForMutation(upsert, connection); final TableRef tableRef = resolver.getTables().get(0); final PTable table = tableRef.getTable(); if (table.getType() == PTableType.VIEW) { if (table.getViewType().isReadOnly()) { throw new ReadOnlyTableException( table.getSchemaName().getString(), table.getTableName().getString()); } } boolean isSalted = table.getBucketNum() != null; final boolean isTenantSpecific = table.isMultiTenant() && connection.getTenantId() != null; final boolean isSharedViewIndex = table.getViewIndexId() != null; String tenantId = isTenantSpecific ? connection.getTenantId().getString() : null; int posOffset = isSalted ? 1 : 0; // Setup array of column indexes parallel to values that are going to be set List<ColumnName> columnNodes = upsert.getColumns(); final List<PColumn> allColumns = table.getColumns(); Set<PColumn> addViewColumnsToBe = Collections.emptySet(); Set<PColumn> overlapViewColumnsToBe = Collections.emptySet(); int[] columnIndexesToBe; int nColumnsToSet = 0; int[] pkSlotIndexesToBe; List<PColumn> targetColumns; if (table.getViewType() == ViewType.UPDATABLE) { addViewColumnsToBe = Sets.newLinkedHashSetWithExpectedSize(allColumns.size()); for (PColumn column : allColumns) { if (column.getViewConstant() != null) { addViewColumnsToBe.add(column); } } } ImmutableBytesWritable ptr = new ImmutableBytesWritable(); // Allow full row upsert if no columns or only dynamic ones are specified and values count match if (columnNodes.isEmpty() || columnNodes.size() == upsert.getTable().getDynamicColumns().size()) { nColumnsToSet = allColumns.size() - posOffset; columnIndexesToBe = new int[nColumnsToSet]; pkSlotIndexesToBe = new int[columnIndexesToBe.length]; targetColumns = Lists.newArrayListWithExpectedSize(columnIndexesToBe.length); targetColumns.addAll(Collections.<PColumn>nCopies(columnIndexesToBe.length, null)); int minPKPos = 0; if (isTenantSpecific) { PColumn tenantColumn = table.getPKColumns().get(minPKPos); columnIndexesToBe[minPKPos] = tenantColumn.getPosition(); targetColumns.set(minPKPos, tenantColumn); minPKPos++; } if (isSharedViewIndex) { PColumn indexIdColumn = table.getPKColumns().get(minPKPos); columnIndexesToBe[minPKPos] = indexIdColumn.getPosition(); targetColumns.set(minPKPos, indexIdColumn); minPKPos++; } for (int i = posOffset, j = 0; i < allColumns.size(); i++) { PColumn column = allColumns.get(i); if (SchemaUtil.isPKColumn(column)) { pkSlotIndexesToBe[i - posOffset] = j + posOffset; if (j++ < minPKPos) { // Skip, as it's already been set above continue; } minPKPos = 0; } columnIndexesToBe[i - posOffset + minPKPos] = i; targetColumns.set(i - posOffset + minPKPos, column); } if (!addViewColumnsToBe.isEmpty()) { // All view columns overlap in this case overlapViewColumnsToBe = addViewColumnsToBe; addViewColumnsToBe = Collections.emptySet(); } } else { // Size for worse case int numColsInUpsert = columnNodes.size(); nColumnsToSet = numColsInUpsert + addViewColumnsToBe.size() + (isTenantSpecific ? 1 : 0) + +(isSharedViewIndex ? 1 : 0); columnIndexesToBe = new int[nColumnsToSet]; pkSlotIndexesToBe = new int[columnIndexesToBe.length]; targetColumns = Lists.newArrayListWithExpectedSize(columnIndexesToBe.length); targetColumns.addAll(Collections.<PColumn>nCopies(columnIndexesToBe.length, null)); 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()); int i = 0; // Add tenant column directly, as we don't want to resolve it as this will fail if (isTenantSpecific) { PColumn tenantColumn = table.getPKColumns().get(i + posOffset); columnIndexesToBe[i] = tenantColumn.getPosition(); pkColumnsSet.set(pkSlotIndexesToBe[i] = i + posOffset); targetColumns.set(i, tenantColumn); i++; } if (isSharedViewIndex) { PColumn indexIdColumn = table.getPKColumns().get(i + posOffset); columnIndexesToBe[i] = indexIdColumn.getPosition(); pkColumnsSet.set(pkSlotIndexesToBe[i] = i + posOffset); targetColumns.set(i, indexIdColumn); i++; } for (ColumnName colName : columnNodes) { ColumnRef ref = resolver.resolveColumn(null, colName.getFamilyName(), colName.getColumnName()); PColumn column = ref.getColumn(); if (IndexUtil.getViewConstantValue(column, ptr)) { if (overlapViewColumnsToBe.isEmpty()) { overlapViewColumnsToBe = Sets.newHashSetWithExpectedSize(addViewColumnsToBe.size()); } nColumnsToSet--; overlapViewColumnsToBe.add(column); addViewColumnsToBe.remove(column); } columnIndexesToBe[i] = ref.getColumnPosition(); targetColumns.set(i, column); if (SchemaUtil.isPKColumn(column)) { pkColumnsSet.set(pkSlotIndexesToBe[i] = ref.getPKSlotPosition()); } i++; } for (PColumn column : addViewColumnsToBe) { columnIndexesToBe[i] = column.getPosition(); targetColumns.set(i, column); if (SchemaUtil.isPKColumn(column)) { pkColumnsSet.set(pkSlotIndexesToBe[i] = SchemaUtil.getPKPosition(table, column)); } i++; } for (i = posOffset; 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 rowProjectorToBe = null; final int nValuesToSet; boolean sameTable = false; boolean runOnServer = false; UpsertingParallelIteratorFactory upsertParallelIteratorFactoryToBe = null; final boolean isAutoCommit = connection.getAutoCommit(); if (valueNodes == null) { SelectStatement select = upsert.getSelect(); assert (select != null); select = SubselectRewriter.flatten(select, connection); ColumnResolver selectResolver = FromCompiler.getResolverForQuery(select, connection); select = StatementNormalizer.normalize(select, selectResolver); select = prependTenantAndViewConstants(table, select, tenantId, addViewColumnsToBe); sameTable = select.getFrom().size() == 1 && tableRef.equals(selectResolver.getTables().get(0)); /* We can run the upsert in a coprocessor if: * 1) from has only 1 table and the into table matches from table * 2) the select query isn't doing aggregation * 3) autoCommit is on * 4) the table is not immutable, as the client is the one that figures out the additional * puts for index tables. * 5) no limit clause * Otherwise, run the query to pull the data from the server * and populate the MutationState (upto a limit). */ runOnServer = sameTable && isAutoCommit && !table.isImmutableRows() && !select.isAggregate() && !select.isDistinct() && select.getLimit() == null && table.getBucketNum() == null; ParallelIteratorFactory parallelIteratorFactory; if (select.isAggregate() || select.isDistinct() || select.getLimit() != null) { parallelIteratorFactory = null; } else { // We can pipeline the upsert select instead of spooling everything to disk first, // if we don't have any post processing that's required. parallelIteratorFactory = upsertParallelIteratorFactoryToBe = new UpsertingParallelIteratorFactory(connection, tableRef); } // If we may be able to run on the server, add a hint that favors using the data table // if all else is equal. // TODO: it'd be nice if we could figure out in advance if the PK is potentially changing, // as this would disallow running on the server. We currently use the row projector we // get back to figure this out. HintNode hint = upsert.getHint(); if (!upsert.getHint().hasHint(Hint.USE_INDEX_OVER_DATA_TABLE)) { hint = HintNode.create(hint, Hint.USE_DATA_OVER_INDEX_TABLE); } select = SelectStatement.create(select, hint); // Pass scan through if same table in upsert and select so that projection is computed // correctly // Use optimizer to choose the best plan plan = new QueryOptimizer(services) .optimize(statement, select, selectResolver, targetColumns, parallelIteratorFactory); runOnServer &= plan.getTableRef().equals(tableRef); rowProjectorToBe = plan.getProjector(); nValuesToSet = rowProjectorToBe.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 } else { nValuesToSet = valueNodes.size() + addViewColumnsToBe.size() + (isTenantSpecific ? 1 : 0) + (isSharedViewIndex ? 1 : 0); } final RowProjector projector = rowProjectorToBe; final UpsertingParallelIteratorFactory upsertParallelIteratorFactory = upsertParallelIteratorFactoryToBe; final QueryPlan queryPlan = plan; // Resize down to allow a subset of columns to be specifiable if (columnNodes.isEmpty() && columnIndexesToBe.length >= nValuesToSet) { nColumnsToSet = nValuesToSet; columnIndexesToBe = Arrays.copyOf(columnIndexesToBe, nValuesToSet); pkSlotIndexesToBe = Arrays.copyOf(pkSlotIndexesToBe, nValuesToSet); } if (nValuesToSet != nColumnsToSet) { throw new SQLExceptionInfo.Builder(SQLExceptionCode.UPSERT_COLUMN_NUMBERS_MISMATCH) .setMessage( "Numbers of columns: " + nColumnsToSet + ". Number of values: " + nValuesToSet) .build() .buildException(); } final int[] columnIndexes = columnIndexesToBe; final int[] pkSlotIndexes = pkSlotIndexesToBe; final Set<PColumn> addViewColumns = addViewColumnsToBe; final Set<PColumn> overlapViewColumns = overlapViewColumnsToBe; // TODO: break this up into multiple functions //////////////////////////////////////////////////////////////////// // UPSERT SELECT ///////////////////////////////////////////////////////////////////// if (valueNodes == null) { // Before we re-order, check that for updatable view columns // the projected expression either matches the column name or // is a constant with the same required value. throwIfNotUpdatable(tableRef, overlapViewColumnsToBe, targetColumns, projector, sameTable); //////////////////////////////////////////////////////////////////// // 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(), true); 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, projectedColumns); SelectStatement select = SelectStatement.create(SelectStatement.COUNT_ONE, upsert.getHint()); final RowProjector aggProjector = ProjectionCompiler.compile(queryPlan.getContext(), select, GroupBy.EMPTY_GROUP_BY); /* * 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 */ final StatementContext context = queryPlan.getContext(); final Scan scan = context.getScan(); scan.setAttribute( BaseScannerRegionObserver.UPSERT_SELECT_TABLE, UngroupedAggregateRegionObserver.serialize(projectedTable)); scan.setAttribute( BaseScannerRegionObserver.UPSERT_SELECT_EXPRS, UngroupedAggregateRegionObserver.serialize(projectedExpressions)); // Ignore order by - it has no impact final QueryPlan aggPlan = new AggregatePlan( context, select, tableRef, aggProjector, null, OrderBy.EMPTY_ORDER_BY, null, GroupBy.EMPTY_GROUP_BY, null); return new MutationPlan() { @Override public PhoenixConnection getConnection() { return connection; } @Override public ParameterMetaData getParameterMetaData() { return queryPlan.getContext().getBindManager().getParameterMetaData(); } @Override public StatementContext getContext() { return queryPlan.getContext(); } @Override public MutationState execute() throws SQLException { ImmutableBytesWritable ptr = context.getTempPtr(); tableRef.getTable().getIndexMaintainers(ptr); ServerCache cache = null; try { if (ptr.getLength() > 0) { IndexMetaDataCacheClient client = new IndexMetaDataCacheClient(connection, tableRef); cache = client.addIndexMetadataCache(context.getScanRanges(), ptr); byte[] uuidValue = cache.getId(); scan.setAttribute(PhoenixIndexCodec.INDEX_UUID, uuidValue); } ResultIterator iterator = aggPlan.iterator(); try { Tuple row = iterator.next(); 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(); } } finally { if (cache != null) { cache.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 ///////////////////////////////////////////////////////////////////// return new MutationPlan() { @Override public PhoenixConnection getConnection() { return connection; } @Override public ParameterMetaData getParameterMetaData() { return queryPlan.getContext().getBindManager().getParameterMetaData(); } @Override public StatementContext getContext() { return queryPlan.getContext(); } @Override public MutationState execute() throws SQLException { ResultIterator iterator = queryPlan.iterator(); if (upsertParallelIteratorFactory == null) { return upsertSelect( statement, tableRef, projector, iterator, columnIndexes, pkSlotIndexes); } upsertParallelIteratorFactory.setRowProjector(projector); upsertParallelIteratorFactory.setColumnIndexes(columnIndexes); upsertParallelIteratorFactory.setPkSlotIndexes(pkSlotIndexes); Tuple tuple; long totalRowCount = 0; while ((tuple = iterator.next()) != null) { // Runs query Cell kv = tuple.getValue(0); totalRowCount += PDataType.LONG .getCodec() .decodeLong(kv.getValueArray(), kv.getValueOffset(), SortOrder.getDefault()); } // Return total number of rows that have been updated. In the case of auto commit being // off // the mutations will all be in the mutation state of the current connection. return new MutationState(maxSize, statement.getConnection(), totalRowCount); } @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; // initialze values with constant byte values first final byte[][] values = new byte[nValuesToSet][]; if (isTenantSpecific) { values[nodeIndex++] = connection.getTenantId().getBytes(); } if (isSharedViewIndex) { values[nodeIndex++] = MetaDataUtil.getViewIndexIdDataType().toBytes(table.getViewIndexId()); } final int nodeIndexOffset = nodeIndex; // Allocate array based on size of all columns in table, // since some values may not be set (if they're nullable). final StatementContext context = new StatementContext(statement, resolver, new Scan()); UpsertValuesCompiler expressionBuilder = new UpsertValuesCompiler(context); final List<Expression> constantExpressions = Lists.newArrayListWithExpectedSize(valueNodes.size()); // First build all the expressions, as with sequences we want to collect them all first // and initialize them in one batch for (ParseNode valueNode : valueNodes) { if (!valueNode.isStateless()) { throw new SQLExceptionInfo.Builder(SQLExceptionCode.VALUE_IN_UPSERT_NOT_CONSTANT) .build() .buildException(); } PColumn column = allColumns.get(columnIndexes[nodeIndex]); expressionBuilder.setColumn(column); Expression expression = valueNode.accept(expressionBuilder); if (expression.getDataType() != null && !expression.getDataType().isCastableTo(column.getDataType())) { throw TypeMismatchException.newException( expression.getDataType(), column.getDataType(), "expression: " + expression.toString() + " in column " + column); } constantExpressions.add(expression); nodeIndex++; } return new MutationPlan() { @Override public PhoenixConnection getConnection() { return connection; } @Override public ParameterMetaData getParameterMetaData() { return context.getBindManager().getParameterMetaData(); } @Override public StatementContext getContext() { return context; } @Override public MutationState execute() throws SQLException { ImmutableBytesWritable ptr = context.getTempPtr(); final SequenceManager sequenceManager = context.getSequenceManager(); // Next evaluate all the expressions int nodeIndex = nodeIndexOffset; Tuple tuple = sequenceManager.getSequenceCount() == 0 ? null : sequenceManager.newSequenceTuple(null); for (Expression constantExpression : constantExpressions) { PColumn column = allColumns.get(columnIndexes[nodeIndex]); constantExpression.evaluate(tuple, ptr); Object value = null; if (constantExpression.getDataType() != null) { value = constantExpression .getDataType() .toObject( ptr, constantExpression.getSortOrder(), constantExpression.getMaxLength(), constantExpression.getScale()); if (!constantExpression.getDataType().isCoercibleTo(column.getDataType(), value)) { throw TypeMismatchException.newException( constantExpression.getDataType(), column.getDataType(), "expression: " + constantExpression.toString() + " in column " + column); } if (!column .getDataType() .isSizeCompatible( ptr, value, constantExpression.getDataType(), constantExpression.getMaxLength(), constantExpression.getScale(), column.getMaxLength(), column.getScale())) { throw new SQLExceptionInfo.Builder(SQLExceptionCode.DATA_EXCEEDS_MAX_CAPACITY) .setColumnName(column.getName().getString()) .setMessage("value=" + constantExpression.toString()) .build() .buildException(); } } column .getDataType() .coerceBytes( ptr, value, constantExpression.getDataType(), constantExpression.getMaxLength(), constantExpression.getScale(), constantExpression.getSortOrder(), column.getMaxLength(), column.getScale(), column.getSortOrder()); if (overlapViewColumns.contains(column) && Bytes.compareTo( ptr.get(), ptr.getOffset(), ptr.getLength(), column.getViewConstant(), 0, column.getViewConstant().length - 1) != 0) { throw new SQLExceptionInfo.Builder(SQLExceptionCode.CANNOT_UPDATE_VIEW_COLUMN) .setColumnName(column.getName().getString()) .setMessage("value=" + constantExpression.toString()) .build() .buildException(); } values[nodeIndex] = ByteUtil.copyKeyBytesIfNecessary(ptr); nodeIndex++; } // Add columns based on view for (PColumn column : addViewColumns) { if (IndexUtil.getViewConstantValue(column, ptr)) { values[nodeIndex++] = ByteUtil.copyKeyBytesIfNecessary(ptr); } else { throw new IllegalStateException(); } } 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 { List<String> planSteps = Lists.newArrayListWithExpectedSize(2); if (context.getSequenceManager().getSequenceCount() > 0) { planSteps.add( "CLIENT RESERVE " + context.getSequenceManager().getSequenceCount() + " SEQUENCES"); } planSteps.add("PUT SINGLE ROW"); return new ExplainPlan(planSteps); } }; }
private void checkTypeMatch(PDataType expectedType, PDataType actualType) throws SQLException { if (!expectedType.isCoercibleTo(actualType)) { throw TypeMismatchException.newException(expectedType, actualType); } }