DataContextImpl(OptiqConnectionImpl connection, List<Object> parameterValues) { this.queryProvider = connection; this.typeFactory = connection.getTypeFactory(); this.rootSchema = connection.rootSchema; // Store the time at which the query started executing. The SQL // standard says that functions such as CURRENT_TIMESTAMP return the // same value throughout the query. final long time = System.currentTimeMillis(); final TimeZone timeZone = connection.getTimeZone(); final long localOffset = timeZone.getOffset(time); final long currentOffset = localOffset; ImmutableMap.Builder<Object, Object> builder = ImmutableMap.builder(); builder .put("utcTimestamp", time) .put("currentTimestamp", time + currentOffset) .put("localTimestamp", time + localOffset) .put("timeZone", timeZone); for (Ord<Object> value : Ord.zip(parameterValues)) { Object e = value.e; if (e == null) { e = AvaticaParameter.DUMMY_VALUE; } builder.put("?" + value.i, e); } map = builder.build(); }
private ImmutableMap<String, JdbcTable> computeTables() { Connection connection = null; ResultSet resultSet = null; try { connection = dataSource.getConnection(); DatabaseMetaData metaData = connection.getMetaData(); resultSet = metaData.getTables(catalog, schema, null, null); final ImmutableMap.Builder<String, JdbcTable> builder = ImmutableMap.builder(); while (resultSet.next()) { final String tableName = resultSet.getString(3); final String catalogName = resultSet.getString(1); final String schemaName = resultSet.getString(2); final String tableTypeName = resultSet.getString(4); // Clean up table type. In particular, this ensures that 'SYSTEM TABLE', // returned by Phoenix among others, maps to TableType.SYSTEM_TABLE. // We know enum constants are upper-case without spaces, so we can't // make things worse. final String tableTypeName2 = tableTypeName.toUpperCase().replace(' ', '_'); final TableType tableType = Util.enumVal(TableType.class, tableTypeName2); final JdbcTable table = new JdbcTable(this, catalogName, schemaName, tableName, tableType); builder.put(tableName, table); } return builder.build(); } catch (SQLException e) { throw new RuntimeException("Exception while reading tables", e); } finally { close(connection, null, resultSet); } }
private ImmutableMap<ColumnIdent, IndexReferenceInfo> createIndexDefinitions() { ImmutableMap.Builder<ColumnIdent, IndexReferenceInfo> builder = ImmutableMap.builder(); for (Map.Entry<ColumnIdent, IndexReferenceInfo.Builder> entry : indicesBuilder.entrySet()) { builder.put(entry.getKey(), entry.getValue().build()); } indices = builder.build(); return indices; }
public DocIndexMetaData build() { partitionedBy = getPartitionedBy(); columnPolicy = getColumnPolicy(); createColumnDefinitions(); indices = createIndexDefinitions(); columns = ImmutableList.copyOf(columnsBuilder.build()); partitionedByColumns = partitionedByColumnsBuilder.build(); for (Tuple<ColumnIdent, ReferenceInfo> sysColumn : DocSysColumns.forTable(ident)) { referencesBuilder.put(sysColumn.v1(), sysColumn.v2()); } references = referencesBuilder.build(); primaryKey = getPrimaryKey(); routingCol = getRoutingCol(); return this; }
private ImmutableMap<ColumnIdent, String> getAnalyzers( ColumnIdent columnIdent, Map<String, Object> propertiesMap) { ImmutableMap.Builder<ColumnIdent, String> builder = ImmutableMap.builder(); for (Map.Entry<String, Object> columnEntry : propertiesMap.entrySet()) { Map<String, Object> columnProperties = (Map) columnEntry.getValue(); DataType columnDataType = getColumnDataType(columnProperties); ColumnIdent newIdent = childIdent(columnIdent, columnEntry.getKey()); columnProperties = furtherColumnProperties(columnProperties); if (columnDataType == DataTypes.OBJECT || (columnDataType.id() == ArrayType.ID && ((ArrayType) columnDataType).innerType() == DataTypes.OBJECT)) { if (columnProperties.get("properties") != null) { builder.putAll( getAnalyzers(newIdent, (Map<String, Object>) columnProperties.get("properties"))); } } String analyzer = (String) columnProperties.get("analyzer"); if (analyzer != null) { builder.put(newIdent, analyzer); } } return builder.build(); }
private void init( PName name, PTableType type, long timeStamp, long sequenceNumber, String pkName, List<PColumn> columns, PTableStats stats) { this.name = name; this.type = type; this.timeStamp = timeStamp; this.sequenceNumber = sequenceNumber; this.columnsByName = ArrayListMultimap.create(columns.size(), 1); this.pkName = pkName; List<PColumn> pkColumns = Lists.newArrayListWithExpectedSize(columns.size() - 1); PColumn[] allColumns = new PColumn[columns.size()]; RowKeySchemaBuilder builder = new RowKeySchemaBuilder(); for (int i = 0; i < allColumns.length; i++) { PColumn column = columns.get(i); allColumns[column.getPosition()] = column; PName familyName = column.getFamilyName(); if (familyName == null) { pkColumns.add(column); builder.addField(column); } columnsByName.put(column.getName().getString(), column); } this.pkColumns = ImmutableList.copyOf(pkColumns); this.rowKeySchema = builder.setMinNullable(pkColumns.size()).build(); this.allColumns = ImmutableList.copyOf(allColumns); // Two pass so that column order in column families matches overall column order // and to ensure that column family order is constant int maxExpectedSize = allColumns.length - pkColumns.size(); // Maintain iteration order so that column families are ordered as they are listed Map<PName, List<PColumn>> familyMap = Maps.newLinkedHashMap(); for (PColumn column : allColumns) { PName familyName = column.getFamilyName(); if (familyName != null) { List<PColumn> columnsInFamily = familyMap.get(familyName); if (columnsInFamily == null) { columnsInFamily = Lists.newArrayListWithExpectedSize(maxExpectedSize); familyMap.put(familyName, columnsInFamily); } columnsInFamily.add(column); } } Iterator<Map.Entry<PName, List<PColumn>>> iterator = familyMap.entrySet().iterator(); PColumnFamily[] families = new PColumnFamily[familyMap.size()]; ImmutableMap.Builder<String, PColumnFamily> familyByString = ImmutableMap.builder(); ImmutableSortedMap.Builder<byte[], PColumnFamily> familyByBytes = ImmutableSortedMap.orderedBy(Bytes.BYTES_COMPARATOR); for (int i = 0; i < families.length; i++) { Map.Entry<PName, List<PColumn>> entry = iterator.next(); PColumnFamily family = new PColumnFamilyImpl(entry.getKey(), entry.getValue()); families[i] = family; familyByString.put(family.getName().getString(), family); familyByBytes.put(family.getName().getBytes(), family); } this.families = ImmutableList.copyOf(families); this.familyByBytes = familyByBytes.build(); this.familyByString = familyByString.build(); this.stats = stats; }
/** * Parse the given array of arguments. * * <p>Empty arguments are removed from the list of arguments. * * @param args an array with arguments * @param expectedValueFlags a set containing all value flags (pass null to disable value flag * parsing) * @param allowHangingFlag true if hanging flags are allowed * @param namespace the locals, null to create empty one * @throws CommandException thrown on a parsing error */ public CommandContext( String[] args, Set<Character> expectedValueFlags, boolean allowHangingFlag, Namespace namespace) throws CommandException { if (expectedValueFlags == null) { expectedValueFlags = Collections.emptySet(); } originalArgs = args; command = args[0]; this.namespace = namespace != null ? namespace : new Namespace(); boolean isHanging = false; SuggestionContext suggestionContext = SuggestionContext.hangingValue(); // Eliminate empty args and combine multiword args first List<Integer> argIndexList = new ArrayList<Integer>(args.length); List<String> argList = new ArrayList<String>(args.length); for (int i = 1; i < args.length; ++i) { isHanging = false; String arg = args[i]; if (arg.isEmpty()) { isHanging = true; continue; } argIndexList.add(i); switch (arg.charAt(0)) { case '\'': case '"': final StringBuilder build = new StringBuilder(); final char quotedChar = arg.charAt(0); int endIndex; for (endIndex = i; endIndex < args.length; ++endIndex) { final String arg2 = args[endIndex]; if (arg2.charAt(arg2.length() - 1) == quotedChar && arg2.length() > 1) { if (endIndex != i) build.append(' '); build.append(arg2.substring(endIndex == i ? 1 : 0, arg2.length() - 1)); break; } else if (endIndex == i) { build.append(arg2.substring(1)); } else { build.append(' ').append(arg2); } } if (endIndex < args.length) { arg = build.toString(); i = endIndex; } // In case there is an empty quoted string if (arg.isEmpty()) { continue; } // else raise exception about hanging quotes? } argList.add(arg); } // Then flags List<Integer> originalArgIndices = Lists.newArrayListWithCapacity(argIndexList.size()); List<String> parsedArgs = Lists.newArrayListWithCapacity(argList.size()); Map<Character, String> valueFlags = Maps.newHashMap(); List<Character> booleanFlags = Lists.newArrayList(); for (int nextArg = 0; nextArg < argList.size(); ) { // Fetch argument String arg = argList.get(nextArg++); suggestionContext = SuggestionContext.hangingValue(); // Not a flag? if (arg.charAt(0) != '-' || arg.length() == 1 || !arg.matches("^-[a-zA-Z\\?]+$")) { if (!isHanging) { suggestionContext = SuggestionContext.lastValue(); } originalArgIndices.add(argIndexList.get(nextArg - 1)); parsedArgs.add(arg); continue; } // Handle flag parsing terminator -- if (arg.equals("--")) { while (nextArg < argList.size()) { originalArgIndices.add(argIndexList.get(nextArg)); parsedArgs.add(argList.get(nextArg++)); } break; } // Go through the flag characters for (int i = 1; i < arg.length(); ++i) { char flagName = arg.charAt(i); if (expectedValueFlags.contains(flagName)) { if (valueFlags.containsKey(flagName)) { throw new CommandException("Value flag '" + flagName + "' already given"); } if (nextArg >= argList.size()) { if (allowHangingFlag) { suggestionContext = SuggestionContext.flag(flagName); break; } else { throw new CommandException("No value specified for the '-" + flagName + "' flag."); } } // If it is a value flag, read another argument and add it valueFlags.put(flagName, argList.get(nextArg++)); if (!isHanging) { suggestionContext = SuggestionContext.flag(flagName); } } else { booleanFlags.add(flagName); } } } ImmutableMap.Builder<Character, String> allFlagsBuilder = new ImmutableMap.Builder<Character, String>().putAll(valueFlags); for (Character flag : booleanFlags) { allFlagsBuilder.put(flag, "true"); } this.parsedArgs = ImmutableList.copyOf(parsedArgs); this.originalArgIndices = ImmutableList.copyOf(originalArgIndices); this.booleanFlags = ImmutableSet.copyOf(booleanFlags); this.valueFlags = ImmutableMap.copyOf(valueFlags); this.allFlags = allFlagsBuilder.build(); this.suggestionContext = suggestionContext; }