/** * Given "INTEGER", returns BasicSqlType(INTEGER). Given "VARCHAR(10)", returns * BasicSqlType(VARCHAR, 10). Given "NUMERIC(10, 2)", returns BasicSqlType(NUMERIC, 10, 2). */ private RelDataType parseTypeString(RelDataTypeFactory typeFactory, String typeString) { int precision = -1; int scale = -1; int open = typeString.indexOf("("); if (open >= 0) { int close = typeString.indexOf(")", open); if (close >= 0) { String rest = typeString.substring(open + 1, close); typeString = typeString.substring(0, open); int comma = rest.indexOf(","); if (comma >= 0) { precision = Integer.parseInt(rest.substring(0, comma)); scale = Integer.parseInt(rest.substring(comma)); } else { precision = Integer.parseInt(rest); } } } try { final SqlTypeName typeName = SqlTypeName.valueOf(typeString); return typeName.allowsPrecScale(true, true) ? typeFactory.createSqlType(typeName, precision, scale) : typeName.allowsPrecScale(true, false) ? typeFactory.createSqlType(typeName, precision) : typeFactory.createSqlType(typeName); } catch (IllegalArgumentException e) { return typeFactory.createSqlType(SqlTypeName.ANY); } }
private RelDataType sqlType( RelDataTypeFactory typeFactory, int dataType, int precision, int scale, String typeString) { SqlTypeName sqlTypeName = SqlTypeName.getNameForJdbcType(dataType); switch (sqlTypeName) { case ARRAY: RelDataType component = null; if (typeString != null && typeString.endsWith(" ARRAY")) { // E.g. hsqldb gives "INTEGER ARRAY", so we deduce the component type // "INTEGER". final String remaining = typeString.substring(0, typeString.length() - " ARRAY".length()); component = parseTypeString(typeFactory, remaining); } if (component == null) { component = typeFactory.createSqlType(SqlTypeName.ANY); } return typeFactory.createArrayType(component, -1); } if (precision >= 0 && scale >= 0 && sqlTypeName.allowsPrecScale(true, true)) { return typeFactory.createSqlType(sqlTypeName, precision, scale); } else if (precision >= 0 && sqlTypeName.allowsPrecNoScale()) { return typeFactory.createSqlType(sqlTypeName, precision); } else { assert sqlTypeName.allowsNoPrecNoScale(); return typeFactory.createSqlType(sqlTypeName); } }
public RelDataType inferReturnType(SqlOperatorBinding opBinding) { assert opBinding.getOperandCount() == 1; final RelDataType multisetType = opBinding.getOperandType(0); RelDataType componentType = multisetType.getComponentType(); assert componentType != null : "expected a multiset type: " + multisetType; final RelDataTypeFactory typeFactory = opBinding.getTypeFactory(); final RelDataType type = typeFactory.builder().add(SqlUtil.deriveAliasFromOrdinal(0), componentType).build(); return typeFactory.createMultisetType(type, -1); }
public Boolean areColumnsUnique(ProjectRelBase rel, BitSet columns, boolean ignoreNulls) { // ProjectRel maps a set of rows to a different set; // Without knowledge of the mapping function(whether it // preserves uniqueness), it is only safe to derive uniqueness // info from the child of a project when the mapping is f(a) => a. // // Also need to map the input column set to the corresponding child // references List<RexNode> projExprs = rel.getProjects(); BitSet childColumns = new BitSet(); for (int bit : BitSets.toIter(columns)) { RexNode projExpr = projExprs.get(bit); if (projExpr instanceof RexInputRef) { childColumns.set(((RexInputRef) projExpr).getIndex()); } else if (projExpr instanceof RexCall && ignoreNulls) { // If the expression is a cast such that the types are the same // except for the nullability, then if we're ignoring nulls, // it doesn't matter whether the underlying column reference // is nullable. Check that the types are the same by making a // nullable copy of both types and then comparing them. RexCall call = (RexCall) projExpr; if (call.getOperator() != SqlStdOperatorTable.CAST) { continue; } RexNode castOperand = call.getOperands().get(0); if (!(castOperand instanceof RexInputRef)) { continue; } RelDataTypeFactory typeFactory = rel.getCluster().getTypeFactory(); RelDataType castType = typeFactory.createTypeWithNullability(projExpr.getType(), true); RelDataType origType = typeFactory.createTypeWithNullability(castOperand.getType(), true); if (castType.equals(origType)) { childColumns.set(((RexInputRef) castOperand).getIndex()); } } else { // If the expression will not influence uniqueness of the // projection, then skip it. continue; } } // If no columns can affect uniqueness, then return unknown if (childColumns.cardinality() == 0) { return null; } return RelMetadataQuery.areColumnsUnique(rel.getChild(), childColumns, ignoreNulls); }
RelProtoDataType getRelDataType( DatabaseMetaData metaData, String catalogName, String schemaName, String tableName) throws SQLException { final ResultSet resultSet = metaData.getColumns(catalogName, schemaName, tableName, null); // Temporary type factory, just for the duration of this method. Allowable // because we're creating a proto-type, not a type; before being used, the // proto-type will be copied into a real type factory. final RelDataTypeFactory typeFactory = new SqlTypeFactoryImpl(); final RelDataTypeFactory.FieldInfoBuilder fieldInfo = typeFactory.builder(); while (resultSet.next()) { final String columnName = resultSet.getString(4); final int dataType = resultSet.getInt(5); final String typeString = resultSet.getString(6); final int size = resultSet.getInt(7); final int scale = resultSet.getInt(9); RelDataType sqlType = sqlType(typeFactory, dataType, size, scale, typeString); boolean nullable = resultSet.getBoolean(11); fieldInfo.add(columnName, sqlType).nullable(nullable); } resultSet.close(); return RelDataTypeImpl.proto(fieldInfo.build()); }
private void reduceCasts(RexCall outerCast) { RexNode[] operands = outerCast.getOperands(); if (operands.length != 1) { return; } RelDataType outerCastType = outerCast.getType(); RelDataType operandType = operands[0].getType(); if (operandType.equals(outerCastType)) { removableCasts.add(outerCast); return; } // See if the reduction // CAST((CAST x AS type) AS type NOT NULL) // -> CAST(x AS type NOT NULL) // applies. TODO jvs 15-Dec-2008: consider // similar cases for precision changes. if (!(operands[0] instanceof RexCall)) { return; } RexCall innerCast = (RexCall) operands[0]; if (innerCast.getOperator() != SqlStdOperatorTable.castFunc) { return; } if (innerCast.getOperands().length != 1) { return; } RelDataTypeFactory typeFactory = preparingStmt.getFarragoTypeFactory(); RelDataType outerTypeNullable = typeFactory.createTypeWithNullability(outerCastType, true); RelDataType innerTypeNullable = typeFactory.createTypeWithNullability(operandType, true); if (outerTypeNullable != innerTypeNullable) { return; } if (operandType.isNullable()) { removableCasts.add(innerCast); } }
public static RelDataType createTypeFromProjection( RelDataType type, List<String> columnNameList, RelDataTypeFactory typeFactory, boolean caseSensitive) { // If the names in columnNameList and type have case-sensitive differences, // the resulting type will use those from type. These are presumably more // canonical. final List<RelDataTypeField> fields = new ArrayList<RelDataTypeField>(columnNameList.size()); for (String name : columnNameList) { RelDataTypeField field = type.getField(name, caseSensitive); fields.add(type.getFieldList().get(field.getIndex())); } return typeFactory.createStructType(fields); }
/** * Creates a record type with specified field names. * * <p>The array of field names may be null, or any of the names within it can be null. We * recommend using explicit names where possible, because it makes it much easier to figure out * the intent of fields when looking at planner output. * * @param typeFactory Type factory * @param exprs Expressions * @param names Field names, may be null, or elements may be null * @return Record type */ public static RelDataType createStructType( RelDataTypeFactory typeFactory, final RexNode[] exprs, final String[] names) { return typeFactory.createStructType( new RelDataTypeFactory.FieldInfo() { public int getFieldCount() { return exprs.length; } public String getFieldName(int index) { if (names == null) { return "$f" + index; } final String name = names[index]; if (name == null) { return "$f" + index; } return name; } public RelDataType getFieldType(int index) { return exprs[index].getType(); } }); }
public RexNode getIObject() { if (object == null) { RelDataTypeFactory typeFactory = getCluster().getTypeFactory(); RexBuilder b = getBuilder(); final SqlFunction GET_IOBJECT = new SqlUserDefinedFunction( new SqlIdentifier("GET_IOBJECT", SqlParserPos.ZERO), ReturnTypes.explicit( typeFactory.createTypeWithNullability( typeFactory.createJavaType(IObject.class), false)), null, OperandTypes.ANY_ANY, ImmutableList.of( typeFactory.createTypeWithNullability( typeFactory.createJavaType(ISnapshot.class), false), typeFactory.createJavaType(int.class)), ScalarFunctionImpl.create(ISnapshotMethods.class, "getIObject")); object = b.makeCall(GET_IOBJECT, getSnapshot(), getIObjectId()); } return object; }
/** Initializes this catalog reader. */ protected void init() { final RelDataType intType = typeFactory.createSqlType(SqlTypeName.INTEGER); final RelDataType varchar10Type = typeFactory.createSqlType(SqlTypeName.VARCHAR, 10); final RelDataType varchar20Type = typeFactory.createSqlType(SqlTypeName.VARCHAR, 20); final RelDataType timestampType = typeFactory.createSqlType(SqlTypeName.TIMESTAMP); final RelDataType booleanType = typeFactory.createSqlType(SqlTypeName.BOOLEAN); final RelDataType rectilinearCoordType = typeFactory.createStructType(new RelDataType[] {intType, intType}, new String[] {"X", "Y"}); // TODO jvs 12-Feb-2005: register this canonical instance with type // factory addressType = new ObjectSqlType( SqlTypeName.STRUCTURED, new SqlIdentifier("ADDRESS", SqlParserPos.ZERO), false, Arrays.asList( new RelDataTypeFieldImpl("STREET", 0, varchar20Type), new RelDataTypeFieldImpl("CITY", 1, varchar20Type), new RelDataTypeFieldImpl("ZIP", 1, intType), new RelDataTypeFieldImpl("STATE", 1, varchar20Type)), RelDataTypeComparability.None); // Register "SALES" schema. MockSchema salesSchema = new MockSchema("SALES"); registerSchema(salesSchema); // Register "EMP" table. MockTable empTable = new MockTable(this, salesSchema, "EMP"); empTable.addColumn("EMPNO", intType); empTable.addColumn("ENAME", varchar20Type); empTable.addColumn("JOB", varchar10Type); empTable.addColumn("MGR", intType); empTable.addColumn("HIREDATE", timestampType); empTable.addColumn("SAL", intType); empTable.addColumn("COMM", intType); empTable.addColumn("DEPTNO", intType); empTable.addColumn("SLACKER", booleanType); registerTable(empTable); // Register "DEPT" table. MockTable deptTable = new MockTable(this, salesSchema, "DEPT"); deptTable.addColumn("DEPTNO", intType); deptTable.addColumn("NAME", varchar10Type); registerTable(deptTable); // Register "BONUS" table. MockTable bonusTable = new MockTable(this, salesSchema, "BONUS"); bonusTable.addColumn("ENAME", varchar20Type); bonusTable.addColumn("JOB", varchar10Type); bonusTable.addColumn("SAL", intType); bonusTable.addColumn("COMM", intType); registerTable(bonusTable); // Register "SALGRADE" table. MockTable salgradeTable = new MockTable(this, salesSchema, "SALGRADE"); salgradeTable.addColumn("GRADE", intType); salgradeTable.addColumn("LOSAL", intType); salgradeTable.addColumn("HISAL", intType); registerTable(salgradeTable); // Register "EMP_ADDRESS" table MockTable contactAddressTable = new MockTable(this, salesSchema, "EMP_ADDRESS"); contactAddressTable.addColumn("EMPNO", intType); contactAddressTable.addColumn("HOME_ADDRESS", addressType); contactAddressTable.addColumn("MAILING_ADDRESS", addressType); registerTable(contactAddressTable); // Register "CUSTOMER" schema. MockSchema customerSchema = new MockSchema("CUSTOMER"); registerSchema(customerSchema); // Register "CONTACT" table. MockTable contactTable = new MockTable(this, customerSchema, "CONTACT"); contactTable.addColumn("CONTACTNO", intType); contactTable.addColumn("FNAME", varchar10Type); contactTable.addColumn("LNAME", varchar10Type); contactTable.addColumn("EMAIL", varchar20Type); contactTable.addColumn("COORD", rectilinearCoordType); registerTable(contactTable); // Register "ACCOUNT" table. MockTable accountTable = new MockTable(this, customerSchema, "ACCOUNT"); accountTable.addColumn("ACCTNO", intType); accountTable.addColumn("TYPE", varchar20Type); accountTable.addColumn("BALANCE", intType); registerTable(accountTable); }
public void onRegister(RelDataTypeFactory typeFactory) { rowType = typeFactory.createStructType(columnList); collationList = deduceMonotonicity(this); }
public RelDataType inferReturnType(SqlOperatorBinding opBinding) { RelDataTypeFactory typeFactory = opBinding.getTypeFactory(); RelDataType type1 = opBinding.getOperandType(0); RelDataType type2 = opBinding.getOperandType(1); return typeFactory.createDecimalQuotient(type1, type2); }
private RelDataType deriveType( SqlValidator validator, SqlValidatorScope scope, SqlCall call, boolean convertRowArgToColumnList) { final SqlNode[] operands = call.operands; RelDataType[] argTypes = new RelDataType[operands.length]; // Scope for operands. Usually the same as 'scope'. final SqlValidatorScope operandScope = scope.getOperandScope(call); // Indicate to the validator that we're validating a new function call validator.pushFunctionCall(); try { boolean containsRowArg = false; for (int i = 0; i < operands.length; ++i) { RelDataType nodeType; // for row arguments that should be converted to ColumnList // types, set the nodeType to a ColumnList type but defer // validating the arguments of the row constructor until we know // for sure that the row argument maps to a ColumnList type if (operands[i].getKind() == SqlKind.ROW && convertRowArgToColumnList) { containsRowArg = true; RelDataTypeFactory typeFactory = validator.getTypeFactory(); nodeType = typeFactory.createSqlType(SqlTypeName.COLUMN_LIST); } else { nodeType = validator.deriveType(operandScope, operands[i]); } validator.setValidatedNodeType(operands[i], nodeType); argTypes[i] = nodeType; } SqlFunction function = SqlUtil.lookupRoutine( validator.getOperatorTable(), getNameAsId(), argTypes, getFunctionType()); // if we have a match on function name and parameter count, but // couldn't find a function with a COLUMN_LIST type, retry, but // this time, don't convert the row argument to a COLUMN_LIST type; // if we did find a match, go back and revalidate the row operands // (corresponding to column references), now that we can set the // scope to that of the source cursor referenced by that ColumnList // type if (containsRowArg) { if ((function == null) && SqlUtil.matchRoutinesByParameterCount( validator.getOperatorTable(), getNameAsId(), argTypes, getFunctionType())) { // remove the already validated node types corresponding to // row arguments before revalidating for (SqlNode operand : operands) { if (operand.getKind() == SqlKind.ROW) { validator.removeValidatedNodeType(operand); } } return deriveType(validator, scope, call, false); } else if (function != null) { validator.validateColumnListParams(function, argTypes, operands); } } if (getFunctionType() == SqlFunctionCategory.UserDefinedConstructor) { return validator.deriveConstructorType(scope, call, this, function, argTypes); } if (function == null) { validator.handleUnresolvedFunction(call, this, argTypes); } // REVIEW jvs 25-Mar-2005: This is, in a sense, expanding // identifiers, but we ignore shouldExpandIdentifiers() // because otherwise later validation code will // choke on the unresolved function. call.setOperator(function); return function.validateOperands(validator, operandScope, call); } finally { validator.popFunctionCall(); } }
private static RelDataType makeStruct(RelDataTypeFactory typeFactory, RelDataType type) { if (type.isStruct()) { return type; } return typeFactory.createStructType(RelDataTypeFactory.FieldInfoBuilder.of("$0", type)); }