Type Parameters:: R - The record type associated with this table

All Superinterfaces:: Fields, Named, Qualified, QueryPart, RecordQualifier<R>, Serializable, TableLike<R>

All Known Subinterfaces:: CommonTableExpression<R>, JSONTableColumnPathStep, JSONTableColumnsStep, TableOnConditionStep<R>, TableOptionalOnStep<R>, XMLTableColumnPathStep, XMLTableColumnsStep

All Known Implementing Classes:: CustomTable, TableImpl

public interface Table<R extends Record> extends TableLike<R>, RecordQualifier<R>

A table.

Like Field, a Table is a basic building block of any Query, as they all operate on at least one table. There are many different types of tables, including:

Generated table references
Plain SQL tables created with DSL.table(String)
Table references created with DSL.table(Name)
Derived tables created with DSL.table(Select)
Join expressions created e.g. with join(TableLike)
Common table expressions (CommonTableExpression)
Unnested arrays referenced through DSL.unnest(Field) and overloads
Table valued functions as provided by the code generator
Etc.

Example:

 // Assuming import static org.jooq.impl.DSL.*;

 using(configuration)
    .select(ACTOR.FIRST_NAME, ACTOR.LAST_NAME)
    .from(ACTOR) // Table reference
    .fetch();

Instances can be created using DSL.table(Name) and overloads.

Author:: Lukas Eder

Method Summary

Modifier and Type

Method

Description

@NotNull Table<R>

as(String alias)

Create an alias for this table.

@NotNull Table<R>

as(String alias, String... fieldAliases)

Create an alias for this table and its fields.

@NotNull Table<R>

as(String alias, BiFunction<? super Field<?>,? super Integer,? extends String> aliasFunction)

Deprecated, for removal: This API element is subject to removal in a future version.
- 3.14.0 - [#10156] - These methods will be removed without replacement from a future jOOQ.

@NotNull Table<R>

as(String alias, Function<? super Field<?>,? extends String> aliasFunction)

Deprecated, for removal: This API element is subject to removal in a future version.
- 3.14.0 - [#10156] - These methods will be removed without replacement from a future jOOQ.

@NotNull Table<R>

as(Name alias)

Create an alias for this table.

@NotNull Table<R>

as(Name alias, BiFunction<? super Field<?>,? super Integer,? extends Name> aliasFunction)

Deprecated, for removal: This API element is subject to removal in a future version.
- 3.14.0 - [#10156] - These methods will be removed without replacement from a future jOOQ.

@NotNull Table<R>

as(Name alias, Function<? super Field<?>,? extends Name> aliasFunction)

Deprecated, for removal: This API element is subject to removal in a future version.
- 3.14.0 - [#10156] - These methods will be removed without replacement from a future jOOQ.

@NotNull Table<R>

as(Name alias, Name... fieldAliases)

Create an alias for this table and its fields.

@NotNull Table<R>

as(Table<?> otherTable)

Create an alias for this table based on another table's name.

@NotNull Table<R>

as(Table<?> otherTable, BiFunction<? super Field<?>,? super Integer,? extends Field<?>> aliasFunction)

Deprecated, for removal: This API element is subject to removal in a future version.
- 3.14.0 - [#10156] - These methods will be removed without replacement from a future jOOQ.

@NotNull Table<R>

as(Table<?> otherTable, Function<? super Field<?>,? extends Field<?>> aliasFunction)

Deprecated, for removal: This API element is subject to removal in a future version.
- 3.14.0 - [#10156] - These methods will be removed without replacement from a future jOOQ.

@NotNull Table<R>

as(Table<?> otherTable, Field<?>... otherFields)

Create an alias for this table based on another table's name.

@NotNull Table<R>

asOfScn(Number scn)

Create an SQLDialect.ORACLE flashback query clause from this table.

@NotNull Table<R>

asOfScn(Field<? extends Number> scn)

Create an SQLDialect.ORACLE flashback query clause from this table.

@NotNull Table<R>

asOfTimestamp(Timestamp timestamp)

Create an SQLDialect.ORACLE flashback query clause from this table.

@NotNull Table<R>

asOfTimestamp(Field<Timestamp> timestamp)

Create an SQLDialect.ORACLE flashback query clause from this table.

@NotNull QualifiedAsterisk

asterisk()

Create a qualified asterisk expression from this table (table.*) for use with SELECT.

@NotNull Table<R>

at(String link)

A table reference of this table at a given Link.

@NotNull Table<R>

at(Link link)

A table reference of this table at a given Link.

@NotNull Table<R>

at(Name link)

A table reference of this table at a given Link.

@NotNull Table<Record>

crossApply(String sql)

CROSS APPLY a table to this table.

@NotNull Table<Record>

crossApply(String sql, Object... bindings)

CROSS APPLY a table to this table.

@NotNull Table<Record>

crossApply(String sql, QueryPart... parts)

CROSS APPLY a table to this table.

@NotNull Table<Record>

crossApply(Name name)

CROSS APPLY a table to this table.

@NotNull Table<Record>

crossApply(SQL sql)

CROSS APPLY a table to this table.

@NotNull Table<Record>

crossApply(TableLike<?> table)

CROSS APPLY a table to this table.

@NotNull Table<Record>

crossJoin(String sql)

CROSS JOIN a table to this table.

@NotNull Table<Record>

crossJoin(String sql, Object... bindings)

CROSS JOIN a table to this table.

@NotNull Table<Record>

crossJoin(String sql, QueryPart... parts)

CROSS JOIN a table to this table.

@NotNull Table<Record>

crossJoin(Name name)

CROSS JOIN a table to this table.

@NotNull Table<Record>

crossJoin(SQL sql)

CROSS JOIN a table to this table.

@NotNull Table<Record>

crossJoin(TableLike<?> table)

CROSS JOIN a table to this table.

@NotNull DivideByOnStep

divideBy(Table<?> divisor)

Create a new TABLE reference from this table, applying relational division.

@NotNull Condition

eq(Table<R> table)

Create a predicate comparing records from self-joined tables.

@NotNull Condition

equal(Table<R> table)

Create a predicate comparing records from self-joined tables.

boolean

equals(Object other)

Check whether this QueryPart can be considered equal to another QueryPart.

@NotNull Table<R>

for_(PeriodSpecification periodSpecification)

Create a reference to a temporal table with a PeriodSpecification for usage in Select.

@NotNull Table<R>

forceIndex(String... indexes)

Specify a MySQL style table hint for query optimisation.

@NotNull Table<R>

forceIndexForGroupBy(String... indexes)

Specify a MySQL style table hint for query optimisation.

@NotNull Table<R>

forceIndexForJoin(String... indexes)

Specify a MySQL style table hint for query optimisation.

@NotNull Table<R>

forceIndexForOrderBy(String... indexes)

Specify a MySQL style table hint for query optimisation.

@NotNull Table<R>

forPortionOf(PeriodSpecification periodSpecification)

Create a reference to a temporal table with a PeriodSpecification for usage in Update and Delete.

R

from(Record record)

The inverse operation of Record.into(Table).

@NotNull TableOnStep<Record>

fullJoin(String sql)

FULL OUTER JOIN a table to this table.

@NotNull TableOnStep<Record>

fullJoin(String sql, Object... bindings)

FULL OUTER JOIN a table to this table.

@NotNull TableOnStep<Record>

fullJoin(String sql, QueryPart... parts)

FULL OUTER JOIN a table to this table.

@NotNull TableOnStep<Record>

fullJoin(Name name)

FULL OUTER JOIN a table to this table.

@NotNull TableOnStep<Record>

fullJoin(SQL sql)

FULL OUTER JOIN a table to this table.

@NotNull TableOnStep<Record>

fullJoin(TableLike<?> table)

FULL OUTER JOIN a table to this table.

@NotNull TableOnStep<Record>

fullOuterJoin(String sql)

FULL OUTER JOIN a table to this table.

@NotNull TableOnStep<Record>

fullOuterJoin(String sql, Object... bindings)

FULL OUTER JOIN a table to this table.

@NotNull TableOnStep<Record>

fullOuterJoin(String sql, QueryPart... parts)

FULL OUTER JOIN a table to this table.

@NotNull TableOnStep<Record>

fullOuterJoin(Name name)

FULL OUTER JOIN a table to this table.

@NotNull TableOnStep<Record>

fullOuterJoin(SQL sql)

FULL OUTER JOIN a table to this table.

@NotNull TableOnStep<Record>

fullOuterJoin(TableLike<?> table)

FULL OUTER JOIN a table to this table.

@NotNull List<Check<R>>

getChecks()

Get a list of CHECK constraints of this table.

@Nullable Identity<R,?>

getIdentity()

Retrieve the table's IDENTITY information, if available.

@NotNull List<Index>

getIndexes()

Retrieve all of the table's indexes.

@NotNull List<UniqueKey<R>>

getKeys()

Retrieve all of the table's primary and unique keys.

@NotNull TableOptions

getOptions()

Get the table options.

@Nullable UniqueKey<R>

getPrimaryKey()

Retrieve the table's primary key

@Nullable TableField<R,?>

getRecordTimestamp()

A "timestamp" field holding record timestamp information used for optimistic locking

@Nullable TableField<R,?>

getRecordVersion()

A "version" field holding record version information used for optimistic locking

@NotNull List<ForeignKey<R,?>>

getReferences()

Get the list of FOREIGN KEY's of this table

<O extends Record> @NotNull List<ForeignKey<O,R>>

getReferencesFrom(Table<O> other)

Get a list of FOREIGN KEY's of a specific table, referencing a this table.

<O extends Record> @NotNull List<ForeignKey<R,O>>

getReferencesTo(Table<O> other)

Get a list of FOREIGN KEY's of this table, referencing a specific table.

@NotNull TableOptions.TableType

getType()

Get the table type.

@NotNull List<UniqueKey<R>>

getUniqueKeys()

Retrieve all of the table's unique keys.

@NotNull Table<R>

ignoreIndex(String... indexes)

Specify a MySQL style table hint for query optimisation.

@NotNull Table<R>

ignoreIndexForGroupBy(String... indexes)

Specify a MySQL style table hint for query optimisation.

@NotNull Table<R>

ignoreIndexForJoin(String... indexes)

Specify a MySQL style table hint for query optimisation.

@NotNull Table<R>

ignoreIndexForOrderBy(String... indexes)

Specify a MySQL style table hint for query optimisation.

@NotNull TableOnStep<Record>

innerJoin(String sql)

INNER JOIN a table to this table.

@NotNull TableOnStep<Record>

innerJoin(String sql, Object... bindings)

INNER JOIN a table to this table.

@NotNull TableOnStep<Record>

innerJoin(String sql, QueryPart... parts)

INNER JOIN a table to this table.

@NotNull TableOnStep<Record>

innerJoin(Name name)

INNER JOIN a table to this table.

@NotNull TableOnStep<Record>

innerJoin(SQL sql)

INNER JOIN a table to this table.

@NotNull TableOnStep<Record>

innerJoin(TableLike<?> table)

INNER JOIN a table to this table.

@NotNull TableOnStep<Record>

join(String sql)

INNER JOIN a table to this table.

@NotNull TableOnStep<Record>

join(String sql, Object... bindings)

INNER JOIN a table to this table.

@NotNull TableOnStep<Record>

join(String sql, QueryPart... parts)

INNER JOIN a table to this table.

@NotNull TableOnStep<Record>

join(Name name)

INNER JOIN a table to this table.

@NotNull TableOnStep<Record>

join(SQL sql)

INNER JOIN a table to this table.

@NotNull TableOnStep<Record>

join(TableLike<?> table)

INNER JOIN a table to this table.

@NotNull TableOptionalOnStep<Record>

join(TableLike<?> table, JoinType type)

Join a table to this table using a JoinType

@NotNull TableOnStep<R>

leftAntiJoin(TableLike<?> table)

A synthetic LEFT ANTI JOIN clause that translates to an equivalent NOT EXISTS predicate.

@NotNull TablePartitionByStep<Record>

leftJoin(String sql)

LEFT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

leftJoin(String sql, Object... bindings)

LEFT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

leftJoin(String sql, QueryPart... parts)

LEFT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

leftJoin(Name name)

LEFT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

leftJoin(SQL sql)

LEFT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

leftJoin(TableLike<?> table)

LEFT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

leftOuterJoin(String sql)

LEFT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

leftOuterJoin(String sql, Object... bindings)

LEFT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

leftOuterJoin(String sql, QueryPart... parts)

LEFT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

leftOuterJoin(Name name)

LEFT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

leftOuterJoin(SQL sql)

LEFT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

leftOuterJoin(TableLike<?> table)

LEFT OUTER JOIN a table to this table.

@NotNull TableOnStep<R>

leftSemiJoin(TableLike<?> table)

A synthetic LEFT SEMI JOIN clause that translates to an equivalent EXISTS predicate.

@NotNull Table<Record>

naturalFullOuterJoin(String sql)

NATURAL FULL OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalFullOuterJoin(String sql, Object... bindings)

NATURAL FULL OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalFullOuterJoin(String sql, QueryPart... parts)

NATURAL FULL OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalFullOuterJoin(Name name)

NATURAL FULL OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalFullOuterJoin(SQL sql)

NATURAL FULL OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalFullOuterJoin(TableLike<?> table)

NATURAL FULL OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalJoin(String sql)

NATURAL JOIN a table to this table.

@NotNull Table<Record>

naturalJoin(String sql, Object... bindings)

NATURAL JOIN a table to this table.

@NotNull Table<Record>

naturalJoin(String sql, QueryPart... parts)

NATURAL JOIN a table to this table.

@NotNull Table<Record>

naturalJoin(Name name)

NATURAL JOIN a table to this table.

@NotNull Table<Record>

naturalJoin(SQL sql)

NATURAL JOIN a table to this table.

@NotNull Table<Record>

naturalJoin(TableLike<?> table)

NATURAL JOIN a table to this table.

@NotNull Table<Record>

naturalLeftOuterJoin(String sql)

NATURAL LEFT OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalLeftOuterJoin(String sql, Object... bindings)

NATURAL LEFT OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalLeftOuterJoin(String sql, QueryPart... parts)

NATURAL LEFT OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalLeftOuterJoin(Name name)

NATURAL LEFT OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalLeftOuterJoin(SQL sql)

NATURAL LEFT OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalLeftOuterJoin(TableLike<?> table)

NATURAL LEFT OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalRightOuterJoin(String sql)

NATURAL RIGHT OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalRightOuterJoin(String sql, Object... bindings)

NATURAL RIGHT OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalRightOuterJoin(String sql, QueryPart... parts)

NATURAL RIGHT OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalRightOuterJoin(Name name)

NATURAL RIGHT OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalRightOuterJoin(SQL sql)

NATURAL RIGHT OUTER JOIN a table to this table.

@NotNull Table<Record>

naturalRightOuterJoin(TableLike<?> table)

NATURAL RIGHT OUTER JOIN a table to this table.

@NotNull Condition

ne(Table<R> table)

Create a predicate comparing records from self-non-equi-joined tables.

@NotNull Condition

notEqual(Table<R> table)

Create a predicate comparing records from self-non-equi-joined tables.

@NotNull Table<Record>

outerApply(String sql)

OUTER APPLY a table to this table.

@NotNull Table<Record>

outerApply(String sql, Object... bindings)

OUTER APPLY a table to this table.

@NotNull Table<Record>

outerApply(String sql, QueryPart... parts)

OUTER APPLY a table to this table.

@NotNull Table<Record>

outerApply(Name name)

OUTER APPLY a table to this table.

@NotNull Table<Record>

outerApply(SQL sql)

OUTER APPLY a table to this table.

@NotNull Table<Record>

outerApply(TableLike<?> table)

OUTER APPLY a table to this table.

@NotNull TableOuterJoinStep<Record>

partitionBy(Collection<? extends Field<?>> fields)

Add a PARTITION BY clause to the left hand side of the OUTER JOIN keywords

@NotNull TableOuterJoinStep<Record>

partitionBy(Field<?>... fields)

Add a PARTITION BY clause to the left hand side of the OUTER JOIN keywords

@NotNull PivotForStep

pivot(Collection<? extends Field<?>> aggregateFunctions)

Create a new TABLE reference from this table, pivoting it into another form.

@NotNull PivotForStep

pivot(Field<?> aggregateFunction)

Create a new TABLE reference from this table, pivoting it into another form.

@NotNull PivotForStep

pivot(Field<?>... aggregateFunctions)

Create a new TABLE reference from this table, pivoting it into another form.

@NotNull RecordType<R>

recordType()

The record type produced by this table.

@NotNull TablePartitionByStep<Record>

rightJoin(String sql)

RIGHT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

rightJoin(String sql, Object... bindings)

RIGHT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

rightJoin(String sql, QueryPart... parts)

RIGHT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

rightJoin(Name name)

RIGHT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

rightJoin(SQL sql)

RIGHT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

rightJoin(TableLike<?> table)

RIGHT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

rightOuterJoin(String sql)

RIGHT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

rightOuterJoin(String sql, Object... bindings)

RIGHT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

rightOuterJoin(String sql, QueryPart... parts)

RIGHT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

rightOuterJoin(Name name)

RIGHT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

rightOuterJoin(SQL sql)

RIGHT OUTER JOIN a table to this table.

@NotNull TablePartitionByStep<Record>

rightOuterJoin(TableLike<?> table)

RIGHT OUTER JOIN a table to this table.

@NotNull Field<RowId>

rowid()

Get a table.rowid reference from this table.

@NotNull TableOnStep<Record>

straightJoin(String sql)

STRAIGHT_JOIN a table to this table.

@NotNull TableOnStep<Record>

straightJoin(String sql, Object... bindings)

STRAIGHT_JOIN a table to this table.

@NotNull TableOnStep<Record>

straightJoin(String sql, QueryPart... parts)

STRAIGHT_JOIN a table to this table.

@NotNull TableOnStep<Record>

straightJoin(Name name)

STRAIGHT_JOIN a table to this table.

@NotNull TableOnStep<Record>

straightJoin(SQL sql)

STRAIGHT_JOIN a table to this table.

@NotNull TableOnStep<Record>

straightJoin(TableLike<?> table)

STRAIGHT_JOIN a table to this table.

@NotNull Table<R>

useIndex(String... indexes)

Specify a MySQL style table hint for query optimisation.

@NotNull Table<R>

useIndexForGroupBy(String... indexes)

Specify a MySQL style table hint for query optimisation.

@NotNull Table<R>

useIndexForJoin(String... indexes)

Specify a MySQL style table hint for query optimisation.

@NotNull Table<R>

useIndexForOrderBy(String... indexes)

Specify a MySQL style table hint for query optimisation.

@NotNull VersionsBetweenAndStep<R,Number>

versionsBetweenScn(Number scn)

Create an SQLDialect.ORACLE flashback versions query clause from this table.

@NotNull VersionsBetweenAndStep<R,Number>

versionsBetweenScn(Field<? extends Number> scn)

Create an SQLDialect.ORACLE flashback versions query clause from this table.

@NotNull VersionsBetweenAndStep<R,Number>

versionsBetweenScnMinvalue()

Create an SQLDialect.ORACLE flashback versions query clause from this table.

@NotNull VersionsBetweenAndStep<R,Timestamp>

versionsBetweenTimestamp(Timestamp timestamp)

Create an SQLDialect.ORACLE flashback versions query clause from this table.

@NotNull VersionsBetweenAndStep<R,Timestamp>

versionsBetweenTimestamp(Field<Timestamp> timestamp)

Create an SQLDialect.ORACLE flashback versions query clause from this table.

@NotNull VersionsBetweenAndStep<R,Timestamp>

versionsBetweenTimestampMinvalue()

Create an SQLDialect.ORACLE flashback versions query clause from this table.

@NotNull Table<R>

where(String sql)

Add a WHERE clause to the table.

@NotNull Table<R>

where(String sql, Object... bindings)

Add a WHERE clause to the table.

@NotNull Table<R>

where(String sql, QueryPart... parts)

Add a WHERE clause to the table.

@NotNull Table<R>

where(Collection<? extends Condition> conditions)

Add a WHERE clause to the table, connecting them with each other with Operator.AND.

@NotNull Table<R>

where(Condition condition)

Add a WHERE clause to the table, connecting them with each other with Operator.AND.

@NotNull Table<R>

where(Condition... conditions)

Add a WHERE clause to the table, connecting them with each other with Operator.AND.

@NotNull Table<R>

where(Field<Boolean> field)

Add a WHERE clause to the table.

@NotNull Table<R>

where(SQL sql)

Add a WHERE clause to the table.

@NotNull Table<R>

whereExists(Select<?> select)

Add a WHERE EXISTS clause to the table.

@NotNull Table<R>

whereNotExists(Select<?> select)

Add a WHERE NOT EXISTS clause to the table.

@NotNull Table<R>

with(String hint)

Specify a SQL Server style table hint for query optimisation.

@NotNull Table<R>

with(String hint, Object... binds)

Specify a SQL Server style table hint for query optimisation.

@NotNull Table<R>

with(String hint, QueryPart... parts)

Specify a SQL Server style table hint for query optimisation.

@NotNull Table<R>

with(SQL hint)

Specify a SQL Server style table hint for query optimisation.

Methods inherited from interface org.jooq.Fields
dataType, dataType, dataType, dataTypes, field, field, field, field, field, field, field, field, field, field, fields, fields, fields, fields, fields, fieldsRow, fieldStream, indexOf, indexOf, indexOf, type, type, type, types

Methods inherited from interface org.jooq.Named
getComment, getCommentPart, getName, getQualifiedName, getUnqualifiedName

Methods inherited from interface org.jooq.Qualified
getCatalog, getSchema

Methods inherited from interface org.jooq.QueryPart
hashCode, toString

Methods inherited from interface org.jooq.RecordQualifier
getDataType, getPackage, getRecordType, newRecord

Methods inherited from interface org.jooq.TableLike
asTable, asTable, asTable, asTable, asTable, asTable, asTable, asTable, asTable

Method Details
- getType
  
  @NotNull @NotNull TableOptions.TableType getType()
  
  Get the table type.
- getOptions
  
  @NotNull @NotNull TableOptions getOptions()
  
  Get the table options.
- recordType
  
  @NotNull @NotNull RecordType<R> recordType()
  
  The record type produced by this table.
- getIdentity
  
  @Nullable @Nullable Identity<R,?> getIdentity()
  
  Retrieve the table's IDENTITY information, if available.
  With SQL:2003, the concept of IDENTITY columns was introduced in most RDBMS. These are special kinds of columns that have auto-increment functionality when INSERT statements are performed.
  An IDENTITY column is usually part of the PRIMARY KEY or of a UNIQUE KEY in the table, although in some RDBMS, this is not required. There can only be at most one IDENTITY column.
  Note: Unfortunately, this is not supported in the Oracle dialect, where identities emulated by triggers cannot be formally detected.
  
  Returns:
  
  The table's IDENTITY information, or null, if no such information is available.
- getPrimaryKey
  
  @Nullable @Nullable UniqueKey<R> getPrimaryKey()
  
  Retrieve the table's primary key
  
  Returns:
  
  The primary key. This is never null for an updatable table.
- getRecordVersion
  
  @Nullable @Nullable TableField<R,?> getRecordVersion()
  
  A "version" field holding record version information used for optimistic locking
  jOOQ supports optimistic locking in UpdatableRecord.store() and UpdatableRecord.delete() if Settings.isExecuteWithOptimisticLocking() is enabled. Optimistic locking is performed in a single UPDATE or DELETE statement if tables provide a "version" or "timestamp" field, or in two steps using an additional SELECT .. FOR UPDATE statement otherwise.
  This method is overridden in generated subclasses if their corresponding tables have been configured accordingly. A table may have both a "version" and a "timestamp" field.
  
  Returns:
  
  The "version" field, or null, if this table has no "version" field.
  
  See Also:
  
  getRecordTimestamp(), UpdatableRecord.store(), UpdatableRecord.delete(), Settings.isExecuteWithOptimisticLocking()
- getRecordTimestamp
  
  @Nullable @Nullable TableField<R,?> getRecordTimestamp()
  
  A "timestamp" field holding record timestamp information used for optimistic locking
  jOOQ supports optimistic locking in UpdatableRecord.store() and UpdatableRecord.delete() if Settings.isExecuteWithOptimisticLocking() is enabled. Optimistic locking is performed in a single UPDATE or DELETE statement if tables provide a "version" or "timestamp" field, or in two steps using an additional SELECT .. FOR UPDATE statement otherwise.
  This method is overridden in generated subclasses if their corresponding tables have been configured accordingly. A table may have both a "version" and a "timestamp" field.
  
  Returns:
  
  The "timestamp" field, or null, if this table has no "timestamp" field.
  
  See Also:
  
  getRecordVersion(), UpdatableRecord.store(), UpdatableRecord.delete(), Settings.isExecuteWithOptimisticLocking()
- getIndexes
  
  @NotNull @NotNull List<Index> getIndexes()
  
  Retrieve all of the table's indexes.
  
  Returns:
  
  All indexes. This is never null.
- getKeys
  
  @NotNull @NotNull List<UniqueKey<R>> getKeys()
  
  Retrieve all of the table's primary and unique keys.
  
  Returns:
  
  All keys. This is never null. This is never empty for a Table with a getPrimaryKey().
- getUniqueKeys
  
  @NotNull @NotNull List<UniqueKey<R>> getUniqueKeys()
  
  Retrieve all of the table's unique keys.
  
  Returns:
  
  All keys. This is never null.
- getReferencesFrom
  
  @NotNull <O extends Record> @NotNull List<ForeignKey<O,R>> getReferencesFrom(Table<O> other)
  
  Get a list of FOREIGN KEY's of a specific table, referencing a this table.
  This will recurse into joined tables.
  
  Type Parameters:
  
  O - The other table's record type
  
  Parameters:
  
  other - The other table of the foreign key relationship
  
  Returns:
  
  Some other table's FOREIGN KEY's towards an this table. This is never null.
- getReferences
  
  @NotNull @NotNull List<ForeignKey<R,?>> getReferences()
  
  Get the list of FOREIGN KEY's of this table
  
  Returns:
  
  This table's FOREIGN KEY's. This is never null.
- getReferencesTo
  
  @NotNull <O extends Record> @NotNull List<ForeignKey<R,O>> getReferencesTo(Table<O> other)
  
  Get a list of FOREIGN KEY's of this table, referencing a specific table.
  This will recurse into joined tables.
  
  Type Parameters:
  
  O - The other table's record type
  
  Parameters:
  
  other - The other table of the foreign key relationship
  
  Returns:
  
  This table's FOREIGN KEY's towards an other table. This is never null.
- getChecks
  
  @NotNull @NotNull List<Check<R>> getChecks()
  
  Get a list of CHECK constraints of this table.
- at
  
  @NotNull @Support(ORACLE) @Pro @NotNull Table<R> at(String link)
  
  A table reference of this table at a given Link.
  
  See Also:
  
  DSL.link(String)
- at
  
  @NotNull @Support(ORACLE) @Pro @NotNull Table<R> at(Name link)
  
  A table reference of this table at a given Link.
  
  See Also:
  
  DSL.link(Name)
- at
  
  @NotNull @Support(ORACLE) @Pro @NotNull Table<R> at(Link link)
  
  A table reference of this table at a given Link.
- asterisk
  
  @NotNull @Support @NotNull QualifiedAsterisk asterisk()
  
  Create a qualified asterisk expression from this table (table.*) for use with SELECT.
  When using an asterisk, jOOQ will let the database server define the order of columns, as well as which columns are included in the result set. If using jOOQ with generated code, this may conflict with the column set and its ordering as defined at code generation time, meaning columns may be in a different order, there may be fewer or more columns than expected. It is usually better to list columns explicitly.
  
  See Also:
  
  DSL.asterisk()
- rowid
  
  @NotNull @Support({DB2,EXASOL,H2,INFORMIX,ORACLE,POSTGRES,SQLITE,SQLSERVER}) @NotNull Field<RowId> rowid()
  Get a table.rowid reference from this table.
  A rowid value describes the physical location of a row on the disk, which can be used as a replacement for a primary key in some situations - especially within a query, e.g. to self-join a table:
  
  -- Emulating this MySQL statement... DELETE FROM x ORDER BY x.y LIMIT 1 -- ... in other databases DELETE FROM x WHERE x.rowid IN ( SELECT x.rowid FROM x ORDER BY x.a LIMIT 1 )
  
  It is not recommended to use rowid values in client applications as actual row identifiers as the database system may move a row to a different physical location at any time, thus changing the rowid value. In general, use primary keys, instead.
- as
  
  @NotNull @Support @NotNull Table<R> as(String alias)
  
  Create an alias for this table.
  Note that the case-sensitivity of the returned table depends on Settings.getRenderQuotedNames(). By default, table aliases are quoted, and thus case-sensitive in many SQL dialects!
  
  Parameters:
  
  alias - The alias name
  
  Returns:
  
  The table alias
- as
  
  @NotNull @Support @NotNull Table<R> as(String alias, String... fieldAliases)
  Create an alias for this table and its fields.
  Note that the case-sensitivity of the returned table and columns depends on Settings.getRenderQuotedNames(). By default, table aliases are quoted, and thus case-sensitive in many SQL dialects!
  
  Derived column lists for table references
  
  Note, not all databases support derived column lists for their table aliases. On the other hand, some databases do support derived column lists, but only for derived tables. jOOQ will try to turn table references into derived tables to make this syntax work. In other words, the following statements are equivalent:
  -- Using derived column lists to rename columns (e.g. Postgres) SELECT t.a, t.b FROM my_table t(a, b) -- Nesting table references within derived tables (e.g. SQL Server) SELECT t.a, t.b FROM ( SELECT * FROM my_table ) t(a, b)
  
  Derived column lists for derived tables
  
  Other databases may not support derived column lists at all, but they do support common table expressions. The following statements are equivalent:
  -- Using derived column lists to rename columns (e.g. Postgres) SELECT t.a, t.b FROM ( SELECT 1, 2 ) AS t(a, b) -- Using UNION ALL to produce column names (e.g. MySQL) SELECT t.a, t.b FROM ( SELECT null a, null b FROM DUAL WHERE 1 = 0 UNION ALL SELECT 1, 2 FROM DUAL ) t
  Parameters:
  
  alias - The alias name
  
  fieldAliases - The field aliases. Excess aliases are ignored, missing aliases will be substituted by this table's field names.
  
  Returns:
  
  The table alias
- as
  
  @Deprecated(forRemoval=true, since="3.14") @NotNull @Support @NotNull Table<R> as(String alias, Function<? super Field<?>,? extends String> aliasFunction)
  
  Deprecated, for removal: This API element is subject to removal in a future version.
  - 3.14.0 - [#10156] - These methods will be removed without replacement from a future jOOQ. They offer convenience that is unidiomatic for jOOQ's DSL, without offering functionality that would not be possible otherwise - yet they add complexity in jOOQ's internals.
  Create an alias for this table and its fields.
  This works like as(String, String...), except that field aliases are provided by a function. This is useful, for instance, to prefix all columns with a common prefix:
  
  MY_TABLE.as("t1", f ->"prefix_" + f.getName());
  Parameters:
  
  alias - The alias name
  
  aliasFunction - The function providing field aliases.
  
  Returns:
  
  The table alias
- as
  
  @Deprecated(forRemoval=true, since="3.14") @NotNull @Support @NotNull Table<R> as(String alias, BiFunction<? super Field<?>,? super Integer,? extends String> aliasFunction)
  
  Deprecated, for removal: This API element is subject to removal in a future version.
  - 3.14.0 - [#10156] - These methods will be removed without replacement from a future jOOQ. They offer convenience that is unidiomatic for jOOQ's DSL, without offering functionality that would not be possible otherwise - yet they add complexity in jOOQ's internals.
  Create an alias for this table and its fields.
  This works like as(String, String...), except that field aliases are provided by a function. This is useful, for instance, to prefix all columns with a common prefix:
  
  MY_TABLE.as("t1", (f, i) ->"column" + i);
  Parameters:
  
  alias - The alias name
  
  aliasFunction - The function providing field aliases.
  
  Returns:
  
  The table alias
- as
  
  @NotNull @Support @NotNull Table<R> as(Name alias)
  
  Create an alias for this table.
  Note that the case-sensitivity of the returned table depends on Settings.getRenderQuotedNames() and the Name. By default, table aliases are quoted, and thus case-sensitive in many SQL dialects - use DSL.unquotedName(String...) for case-insensitive aliases.
  If the argument Name.getName() is qualified, then the Name.last() part will be used.
  
  Parameters:
  
  alias - The alias name
  
  Returns:
  
  The table alias
- as
  
  @NotNull @Support @NotNull Table<R> as(Name alias, Name... fieldAliases)
  Create an alias for this table and its fields.
  Note that the case-sensitivity of the returned table depends on Settings.getRenderQuotedNames() and the Name. By default, table aliases are quoted, and thus case-sensitive in many SQL dialects - use DSL.unquotedName(String...) for case-insensitive aliases.
  If the argument Name.getName() is qualified, then the Name.last() part will be used.
  
  Derived column lists for table references
  
  Note, not all databases support derived column lists for their table aliases. On the other hand, some databases do support derived column lists, but only for derived tables. jOOQ will try to turn table references into derived tables to make this syntax work. In other words, the following statements are equivalent:
  -- Using derived column lists to rename columns (e.g. Postgres) SELECT t.a, t.b FROM my_table t(a, b) -- Nesting table references within derived tables (e.g. SQL Server) SELECT t.a, t.b FROM ( SELECT * FROM my_table ) t(a, b)
  
  Derived column lists for derived tables
  
  Other databases may not support derived column lists at all, but they do support common table expressions. The following statements are equivalent:
  -- Using derived column lists to rename columns (e.g. Postgres) SELECT t.a, t.b FROM ( SELECT 1, 2 ) AS t(a, b) -- Using UNION ALL to produce column names (e.g. MySQL) SELECT t.a, t.b FROM ( SELECT null a, null b FROM DUAL WHERE 1 = 0 UNION ALL SELECT 1, 2 FROM DUAL ) t
  Parameters:
  
  alias - The alias name
  
  fieldAliases - The field aliases. Excess aliases are ignored, missing aliases will be substituted by this table's field names.
  
  Returns:
  
  The table alias
- as
  
  @Deprecated(forRemoval=true, since="3.14") @NotNull @Support @NotNull Table<R> as(Name alias, Function<? super Field<?>,? extends Name> aliasFunction)
  
  Deprecated, for removal: This API element is subject to removal in a future version.
  - 3.14.0 - [#10156] - These methods will be removed without replacement from a future jOOQ. They offer convenience that is unidiomatic for jOOQ's DSL, without offering functionality that would not be possible otherwise - yet they add complexity in jOOQ's internals.
  Create an alias for this table and its fields.
  This works like as(Name, Name...), except that field aliases are provided by a function. This is useful, for instance, to prefix all columns with a common prefix:
  
  MY_TABLE.as("t1", f ->"prefix_" + f.getName());
  Parameters:
  
  alias - The alias name
  
  aliasFunction - The function providing field aliases.
  
  Returns:
  
  The table alias
- as
  
  @Deprecated(forRemoval=true, since="3.14") @NotNull @Support @NotNull Table<R> as(Name alias, BiFunction<? super Field<?>,? super Integer,? extends Name> aliasFunction)
  
  Deprecated, for removal: This API element is subject to removal in a future version.
  - 3.14.0 - [#10156] - These methods will be removed without replacement from a future jOOQ. They offer convenience that is unidiomatic for jOOQ's DSL, without offering functionality that would not be possible otherwise - yet they add complexity in jOOQ's internals.
  Create an alias for this table and its fields.
  This works like as(Name, Name...), except that field aliases are provided by a function. This is useful, for instance, to prefix all columns with a common prefix:
  
  MY_TABLE.as("t1", (f, i) ->"column" + i);
  Parameters:
  
  alias - The alias name
  
  aliasFunction - The function providing field aliases.
  
  Returns:
  
  The table alias
- as
  
  @NotNull @Support @NotNull Table<R> as(Table<?> otherTable)
  
  Create an alias for this table based on another table's name.
  
  Parameters:
  
  otherTable - The other table whose name this table is aliased with.
  
  Returns:
  
  The table alias.
- as
  
  @NotNull @Support @NotNull Table<R> as(Table<?> otherTable, Field<?>... otherFields)
  
  Create an alias for this table based on another table's name.
  
  Parameters:
  
  otherTable - The other table whose name this table is aliased with.
  
  otherFields - The other fields whose field name this table's fields are aliased with.
  
  Returns:
  
  The table alias.
- as
  
  @Deprecated(forRemoval=true, since="3.14") @NotNull @Support @NotNull Table<R> as(Table<?> otherTable, Function<? super Field<?>,? extends Field<?>> aliasFunction)
  
  Deprecated, for removal: This API element is subject to removal in a future version.
  - 3.14.0 - [#10156] - These methods will be removed without replacement from a future jOOQ. They offer convenience that is unidiomatic for jOOQ's DSL, without offering functionality that would not be possible otherwise - yet they add complexity in jOOQ's internals.
  Create an alias for this table and its fields.
  This works like as(Table, Field...), except that field aliases are provided by a function. This is useful, for instance, to prefix all columns with a common prefix:
  
  MY_TABLE.as(MY_OTHER_TABLE, f ->MY_OTHER_TABLE.field(f));
  Parameters:
  
  otherTable - The other table whose name is used as alias name
  
  aliasFunction - The function providing field aliases.
  
  Returns:
  
  The table alias
- as
  
  @Deprecated(forRemoval=true, since="3.14") @NotNull @Support @NotNull Table<R> as(Table<?> otherTable, BiFunction<? super Field<?>,? super Integer,? extends Field<?>> aliasFunction)
  
  Deprecated, for removal: This API element is subject to removal in a future version.
  - 3.14.0 - [#10156] - These methods will be removed without replacement from a future jOOQ. They offer convenience that is unidiomatic for jOOQ's DSL, without offering functionality that would not be possible otherwise - yet they add complexity in jOOQ's internals.
  Create an alias for this table and its fields.
  This works like as(Table, Field...), except that field aliases are provided by a function. This is useful, for instance, to prefix all columns with a common prefix:
  
  MY_TABLE.as("t1", (f, i) ->"column" + i);
  Parameters:
  
  otherTable - The other table whose name is used as alias name
  
  aliasFunction - The function providing field aliases.
  
  Returns:
  
  The table alias
- where
  
  @NotNull @Support @NotNull Table<R> where(Condition condition)
  
  Add a WHERE clause to the table, connecting them with each other with Operator.AND.
  The resulting table acts like a derived table that projects all of this table's columns and filters by the argument Condition. If syntactically reasonable, the derived table may be inlined to the query that selects from the resulting table.
- where
  
  @NotNull @Support @NotNull Table<R> where(Condition... conditions)
  
  Add a WHERE clause to the table, connecting them with each other with Operator.AND.
  The resulting table acts like a derived table that projects all of this table's columns and filters by the argument Condition. If syntactically reasonable, the derived table may be inlined to the query that selects from the resulting table.
- where
  
  @NotNull @Support @NotNull Table<R> where(Collection<? extends Condition> conditions)
  
  Add a WHERE clause to the table, connecting them with each other with Operator.AND.
  The resulting table acts like a derived table that projects all of this table's columns and filters by the argument Condition. If syntactically reasonable, the derived table may be inlined to the query that selects from the resulting table.
- where
  
  @NotNull @Support @NotNull Table<R> where(Field<Boolean> field)
  
  Add a WHERE clause to the table.
  The resulting table acts like a derived table that projects all of this table's columns and filters by the argument Condition. If syntactically reasonable, the derived table may be inlined to the query that selects from the resulting table.
- where
  
  @NotNull @Support @PlainSQL @NotNull Table<R> where(SQL sql)
  
  Add a WHERE clause to the table.
  The resulting table acts like a derived table that projects all of this table's columns and filters by the argument Condition. If syntactically reasonable, the derived table may be inlined to the query that selects from the resulting table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.condition(SQL), SQL
- where
  
  @NotNull @Support @PlainSQL @NotNull Table<R> where(String sql)
  
  Add a WHERE clause to the table.
  The resulting table acts like a derived table that projects all of this table's columns and filters by the argument Condition. If syntactically reasonable, the derived table may be inlined to the query that selects from the resulting table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.condition(String), SQL
- where
  
  @NotNull @Support @PlainSQL @NotNull Table<R> where(String sql, Object... bindings)
  
  Add a WHERE clause to the table.
  The resulting table acts like a derived table that projects all of this table's columns and filters by the argument Condition. If syntactically reasonable, the derived table may be inlined to the query that selects from the resulting table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.condition(String, Object...), DSL.sql(String, Object...), SQL
- where
  
  @NotNull @Support @PlainSQL @NotNull Table<R> where(String sql, QueryPart... parts)
  
  Add a WHERE clause to the table.
  The resulting table acts like a derived table that projects all of this table's columns and filters by the argument Condition. If syntactically reasonable, the derived table may be inlined to the query that selects from the resulting table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.condition(String, QueryPart...), DSL.sql(String, QueryPart...), SQL
- whereExists
  
  @NotNull @Support @NotNull Table<R> whereExists(Select<?> select)
  
  Add a WHERE EXISTS clause to the table.
  The resulting table acts like a derived table that projects all of this table's columns and filters by the argument Condition. If syntactically reasonable, the derived table may be inlined to the query that selects from the resulting table.
- whereNotExists
  
  @NotNull @Support @NotNull Table<R> whereNotExists(Select<?> select)
  
  Add a WHERE NOT EXISTS clause to the table.
  The resulting table acts like a derived table that projects all of this table's columns and filters by the argument Condition. If syntactically reasonable, the derived table may be inlined to the query that selects from the resulting table.
- join
  
  @NotNull @Support @NotNull TableOptionalOnStep<Record> join(TableLike<?> table, JoinType type)
  
  Join a table to this table using a JoinType
  Depending on the JoinType, a subsequent TableOnStep.on(Condition) or TableOnStep.using(Field...) clause is required. If it is required but omitted, a DSL.trueCondition(), i.e. 1 = 1 condition will be rendered
- join
  
  @NotNull @Support @NotNull TableOnStep<Record> join(TableLike<?> table)
  
  INNER JOIN a table to this table.
  A synonym for innerJoin(TableLike).
  
  See Also:
  
  innerJoin(TableLike)
- join
  
  @NotNull @Support @PlainSQL @NotNull TableOnStep<Record> join(SQL sql)
  
  INNER JOIN a table to this table.
  A synonym for innerJoin(String).
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), innerJoin(SQL), SQL
- join
  
  @NotNull @Support @PlainSQL @NotNull TableOnStep<Record> join(String sql)
  
  INNER JOIN a table to this table.
  A synonym for innerJoin(String).
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), innerJoin(String), SQL
- join
  
  @NotNull @Support @PlainSQL @NotNull TableOnStep<Record> join(String sql, Object... bindings)
  
  INNER JOIN a table to this table.
  A synonym for innerJoin(String, Object...).
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), innerJoin(String, Object...), SQL
- join
  
  @NotNull @Support @PlainSQL @NotNull TableOnStep<Record> join(String sql, QueryPart... parts)
  
  INNER JOIN a table to this table.
  A synonym for innerJoin(String, QueryPart...).
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), innerJoin(String, QueryPart...), SQL
- join
  
  @NotNull @Support @PlainSQL @NotNull TableOnStep<Record> join(Name name)
  
  INNER JOIN a table to this table.
  A synonym for innerJoin(Name).
  
  See Also:
  
  DSL.table(Name), innerJoin(Name)
- innerJoin
  
  @NotNull @Support @NotNull TableOnStep<Record> innerJoin(TableLike<?> table)
  
  INNER JOIN a table to this table.
- innerJoin
  
  @NotNull @Support @PlainSQL @NotNull TableOnStep<Record> innerJoin(SQL sql)
  
  INNER JOIN a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), SQL
- innerJoin
  
  @NotNull @Support @PlainSQL @NotNull TableOnStep<Record> innerJoin(String sql)
  
  INNER JOIN a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), SQL
- innerJoin
  
  @NotNull @Support @PlainSQL @NotNull TableOnStep<Record> innerJoin(String sql, Object... bindings)
  
  INNER JOIN a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), SQL
- innerJoin
  
  @NotNull @Support @PlainSQL @NotNull TableOnStep<Record> innerJoin(String sql, QueryPart... parts)
  
  INNER JOIN a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), SQL
- innerJoin
  
  @NotNull @Support @NotNull TableOnStep<Record> innerJoin(Name name)
  
  INNER JOIN a table to this table.
  
  See Also:
  
  DSL.table(Name)
- partitionBy
  
  @NotNull @Support(ORACLE) @Pro @NotNull TableOuterJoinStep<Record> partitionBy(Field<?>... fields)
  
  Add a PARTITION BY clause to the left hand side of the OUTER JOIN keywords
- partitionBy
  
  @NotNull @Support(ORACLE) @Pro @NotNull TableOuterJoinStep<Record> partitionBy(Collection<? extends Field<?>> fields)
  
  Add a PARTITION BY clause to the left hand side of the OUTER JOIN keywords
- leftJoin
  
  @NotNull @Support @NotNull TablePartitionByStep<Record> leftJoin(TableLike<?> table)
  
  LEFT OUTER JOIN a table to this table.
  A synonym for leftOuterJoin(TableLike).
  
  See Also:
  
  leftOuterJoin(TableLike)
- leftJoin
  
  @NotNull @Support @PlainSQL @NotNull TablePartitionByStep<Record> leftJoin(SQL sql)
  
  LEFT OUTER JOIN a table to this table.
  A synonym for leftOuterJoin(String).
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), leftOuterJoin(SQL), SQL
- leftJoin
  
  @NotNull @Support @PlainSQL @NotNull TablePartitionByStep<Record> leftJoin(String sql)
  
  LEFT OUTER JOIN a table to this table.
  A synonym for leftOuterJoin(String).
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), leftOuterJoin(String), SQL
- leftJoin
  
  @NotNull @Support @PlainSQL @NotNull TablePartitionByStep<Record> leftJoin(String sql, Object... bindings)
  
  LEFT OUTER JOIN a table to this table.
  A synonym for leftOuterJoin(String, Object...).
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), leftOuterJoin(String, Object...), SQL
- leftJoin
  
  @NotNull @Support @PlainSQL @NotNull TablePartitionByStep<Record> leftJoin(String sql, QueryPart... parts)
  
  LEFT OUTER JOIN a table to this table.
  A synonym for leftOuterJoin(String, QueryPart...).
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), leftOuterJoin(String, QueryPart...), SQL
- leftJoin
  
  @NotNull @Support @NotNull TablePartitionByStep<Record> leftJoin(Name name)
  
  LEFT OUTER JOIN a table to this table.
  A synonym for leftOuterJoin(Name).
  
  See Also:
  
  DSL.table(Name), leftOuterJoin(Name)
- leftOuterJoin
  
  @NotNull @Support @NotNull TablePartitionByStep<Record> leftOuterJoin(TableLike<?> table)
  
  LEFT OUTER JOIN a table to this table.
- leftOuterJoin
  
  @NotNull @Support @PlainSQL @NotNull TablePartitionByStep<Record> leftOuterJoin(SQL sql)
  
  LEFT OUTER JOIN a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), SQL
- leftOuterJoin
  
  @NotNull @Support @PlainSQL @NotNull TablePartitionByStep<Record> leftOuterJoin(String sql)
  
  LEFT OUTER JOIN a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), SQL
- leftOuterJoin
  
  @NotNull @Support @PlainSQL @NotNull TablePartitionByStep<Record> leftOuterJoin(String sql, Object... bindings)
  
  LEFT OUTER JOIN a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), SQL
- leftOuterJoin
  
  @NotNull @Support @PlainSQL @NotNull TablePartitionByStep<Record> leftOuterJoin(String sql, QueryPart... parts)
  
  LEFT OUTER JOIN a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), SQL
- leftOuterJoin
  
  @NotNull @Support @NotNull TablePartitionByStep<Record> leftOuterJoin(Name name)
  
  LEFT OUTER JOIN a table to this table.
  
  See Also:
  
  DSL.table(Name), SQL
- rightJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull TablePartitionByStep<Record> rightJoin(TableLike<?> table)
  
  RIGHT OUTER JOIN a table to this table.
  A synonym for rightOuterJoin(TableLike).
  This is only possible where the underlying RDBMS supports it.
  
  See Also:
  
  rightOuterJoin(TableLike)
- rightJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TablePartitionByStep<Record> rightJoin(SQL sql)
  
  RIGHT OUTER JOIN a table to this table.
  A synonym for rightOuterJoin(String).
  This is only possible where the underlying RDBMS supports it.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), rightOuterJoin(SQL), SQL
- rightJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TablePartitionByStep<Record> rightJoin(String sql)
  
  RIGHT OUTER JOIN a table to this table.
  A synonym for rightOuterJoin(String).
  This is only possible where the underlying RDBMS supports it.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), rightOuterJoin(String), SQL
- rightJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TablePartitionByStep<Record> rightJoin(String sql, Object... bindings)
  
  RIGHT OUTER JOIN a table to this table.
  A synonym for rightOuterJoin(String, Object...).
  This is only possible where the underlying RDBMS supports it.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), rightOuterJoin(String, Object...), SQL
- rightJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TablePartitionByStep<Record> rightJoin(String sql, QueryPart... parts)
  
  RIGHT OUTER JOIN a table to this table.
  A synonym for rightOuterJoin(String, QueryPart...).
  This is only possible where the underlying RDBMS supports it
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), rightOuterJoin(String, QueryPart...), SQL
- rightJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull TablePartitionByStep<Record> rightJoin(Name name)
  
  RIGHT OUTER JOIN a table to this table.
  A synonym for rightOuterJoin(Name).
  This is only possible where the underlying RDBMS supports it
  
  See Also:
  
  DSL.table(Name), rightOuterJoin(Name)
- rightOuterJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull TablePartitionByStep<Record> rightOuterJoin(TableLike<?> table)
  
  RIGHT OUTER JOIN a table to this table.
  This is only possible where the underlying RDBMS supports it
- rightOuterJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TablePartitionByStep<Record> rightOuterJoin(SQL sql)
  
  RIGHT OUTER JOIN a table to this table.
  This is only possible where the underlying RDBMS supports it
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), SQL
- rightOuterJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TablePartitionByStep<Record> rightOuterJoin(String sql)
  
  RIGHT OUTER JOIN a table to this table.
  This is only possible where the underlying RDBMS supports it
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), SQL
- rightOuterJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TablePartitionByStep<Record> rightOuterJoin(String sql, Object... bindings)
  
  RIGHT OUTER JOIN a table to this table.
  This is only possible where the underlying RDBMS supports it
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), SQL
- rightOuterJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TablePartitionByStep<Record> rightOuterJoin(String sql, QueryPart... parts)
  
  RIGHT OUTER JOIN a table to this table.
  This is only possible where the underlying RDBMS supports it
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), SQL
- rightOuterJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull TablePartitionByStep<Record> rightOuterJoin(Name name)
  
  RIGHT OUTER JOIN a table to this table.
  This is only possible where the underlying RDBMS supports it
  
  See Also:
  
  DSL.table(Name)
- fullJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull TableOnStep<Record> fullJoin(TableLike<?> table)
  
  FULL OUTER JOIN a table to this table.
  A synonym for fullOuterJoin(TableLike).
- fullJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TableOnStep<Record> fullJoin(SQL sql)
  
  FULL OUTER JOIN a table to this table.
  A synonym for fullOuterJoin(SQL).
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
- fullJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TableOnStep<Record> fullJoin(String sql)
  
  FULL OUTER JOIN a table to this table.
  A synonym for fullOuterJoin(String).
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
- fullJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TableOnStep<Record> fullJoin(String sql, Object... bindings)
  
  FULL OUTER JOIN a table to this table.
  A synonym for fullOuterJoin(String, Object...).
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
- fullJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TableOnStep<Record> fullJoin(String sql, QueryPart... parts)
  
  FULL OUTER JOIN a table to this table.
  A synonym for fullOuterJoin(String, QueryPart...).
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
- fullJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull TableOnStep<Record> fullJoin(Name name)
  
  FULL OUTER JOIN a table to this table.
  A synonym for fullOuterJoin(Name).
- fullOuterJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull TableOnStep<Record> fullOuterJoin(TableLike<?> table)
  
  FULL OUTER JOIN a table to this table.
  This is only possible where the underlying RDBMS supports it
- fullOuterJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TableOnStep<Record> fullOuterJoin(SQL sql)
  
  FULL OUTER JOIN a table to this table.
  This is only possible where the underlying RDBMS supports it
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), SQL
- fullOuterJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TableOnStep<Record> fullOuterJoin(String sql)
  
  FULL OUTER JOIN a table to this table.
  This is only possible where the underlying RDBMS supports it
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), SQL
- fullOuterJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TableOnStep<Record> fullOuterJoin(String sql, Object... bindings)
  
  FULL OUTER JOIN a table to this table.
  This is only possible where the underlying RDBMS supports it
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), SQL
- fullOuterJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull TableOnStep<Record> fullOuterJoin(String sql, QueryPart... parts)
  
  FULL OUTER JOIN a table to this table.
  This is only possible where the underlying RDBMS supports it
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), SQL
- fullOuterJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull TableOnStep<Record> fullOuterJoin(Name name)
  
  FULL OUTER JOIN a table to this table.
  This is only possible where the underlying RDBMS supports it
  
  See Also:
  
  DSL.table(Name)
- crossJoin
  
  @NotNull @Support({ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,REDSHIFT,SNOWFLAKE,SQLDATAWAREHOUSE,SQLITE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull Table<Record> crossJoin(TableLike<?> table)
  CROSS JOIN a table to this table.
  If this syntax is unavailable, it is emulated with a regular INNER JOIN. The following two constructs are equivalent:
  A cross join B A join B on 1 = 1
- crossJoin
  
  @NotNull @Support({ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,REDSHIFT,SNOWFLAKE,SQLDATAWAREHOUSE,SQLITE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull Table<Record> crossJoin(SQL sql)
  CROSS JOIN a table to this table.
  If this syntax is unavailable, it is emulated with a regular INNER JOIN. The following two constructs are equivalent:
  A cross join B A join B on 1 = 1
  
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  See Also:
  
  DSL.table(SQL), SQL
- crossJoin
  
  @NotNull @Support({ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,REDSHIFT,SNOWFLAKE,SQLDATAWAREHOUSE,SQLITE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull Table<Record> crossJoin(String sql)
  CROSS JOIN a table to this table.
  If this syntax is unavailable, it is emulated with a regular INNER JOIN. The following two constructs are equivalent:
  A cross join B A join B on 1 = 1
  
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  See Also:
  
  DSL.table(String), SQL
- crossJoin
  
  @NotNull @Support({ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,REDSHIFT,SNOWFLAKE,SQLDATAWAREHOUSE,SQLITE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull Table<Record> crossJoin(String sql, Object... bindings)
  CROSS JOIN a table to this table.
  If this syntax is unavailable, it is emulated with a regular INNER JOIN. The following two constructs are equivalent:
  A cross join B A join B on 1 = 1
  
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), SQL
- crossJoin
  
  @NotNull @Support({ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,REDSHIFT,SNOWFLAKE,SQLDATAWAREHOUSE,SQLITE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull Table<Record> crossJoin(String sql, QueryPart... parts)
  CROSS JOIN a table to this table.
  If this syntax is unavailable, it is emulated with a regular INNER JOIN. The following two constructs are equivalent:
  A cross join B A join B on 1 = 1
  
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), SQL
- crossJoin
  
  @NotNull @Support({ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,IGNITE,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,REDSHIFT,SNOWFLAKE,SQLDATAWAREHOUSE,SQLITE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull Table<Record> crossJoin(Name name)
  CROSS JOIN a table to this table.
  If this syntax is unavailable, it is emulated with a regular INNER JOIN. The following two constructs are equivalent:
  A cross join B A join B on 1 = 1
  See Also:
  
  DSL.table(Name)
- naturalJoin
  
  @NotNull @Support @NotNull Table<Record> naturalJoin(TableLike<?> table)
  
  NATURAL JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
- naturalJoin
  
  @NotNull @Support @PlainSQL @NotNull Table<Record> naturalJoin(SQL sql)
  
  NATURAL JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), SQL
- naturalJoin
  
  @NotNull @Support @PlainSQL @NotNull Table<Record> naturalJoin(String sql)
  
  NATURAL JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), SQL
- naturalJoin
  
  @NotNull @Support @PlainSQL @NotNull Table<Record> naturalJoin(String sql, Object... bindings)
  
  NATURAL JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), SQL
- naturalJoin
  
  @NotNull @Support @NotNull Table<Record> naturalJoin(Name name)
  
  NATURAL JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  
  See Also:
  
  DSL.table(Name)
- naturalJoin
  
  @NotNull @Support @PlainSQL @NotNull Table<Record> naturalJoin(String sql, QueryPart... parts)
  
  NATURAL JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), SQL
- naturalLeftOuterJoin
  
  @NotNull @Support @NotNull Table<Record> naturalLeftOuterJoin(TableLike<?> table)
  
  NATURAL LEFT OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
- naturalLeftOuterJoin
  
  @NotNull @Support @PlainSQL @NotNull Table<Record> naturalLeftOuterJoin(SQL sql)
  
  NATURAL LEFT OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), SQL
- naturalLeftOuterJoin
  
  @NotNull @Support @PlainSQL @NotNull Table<Record> naturalLeftOuterJoin(String sql)
  
  NATURAL LEFT OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), SQL
- naturalLeftOuterJoin
  
  @NotNull @Support @PlainSQL @NotNull Table<Record> naturalLeftOuterJoin(String sql, Object... bindings)
  
  NATURAL LEFT OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), SQL
- naturalLeftOuterJoin
  
  @NotNull @Support @PlainSQL @NotNull Table<Record> naturalLeftOuterJoin(String sql, QueryPart... parts)
  
  NATURAL LEFT OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), SQL
- naturalLeftOuterJoin
  
  @NotNull @Support @PlainSQL @NotNull Table<Record> naturalLeftOuterJoin(Name name)
  
  NATURAL LEFT OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  
  See Also:
  
  DSL.table(Name)
- naturalRightOuterJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull Table<Record> naturalRightOuterJoin(TableLike<?> table)
  
  NATURAL RIGHT OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
- naturalRightOuterJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull Table<Record> naturalRightOuterJoin(SQL sql)
  
  NATURAL RIGHT OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), SQL
- naturalRightOuterJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull Table<Record> naturalRightOuterJoin(String sql)
  
  NATURAL RIGHT OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), SQL
- naturalRightOuterJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull Table<Record> naturalRightOuterJoin(String sql, Object... bindings)
  
  NATURAL RIGHT OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), SQL
- naturalRightOuterJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull Table<Record> naturalRightOuterJoin(String sql, QueryPart... parts)
  
  NATURAL RIGHT OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), SQL
- naturalRightOuterJoin
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,BIGQUERY,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MEMSQL,MYSQL,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull Table<Record> naturalRightOuterJoin(Name name)
  
  NATURAL RIGHT OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  
  See Also:
  
  DSL.table(Name)
- naturalFullOuterJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull Table<Record> naturalFullOuterJoin(TableLike<?> table)
  
  NATURAL FULL OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
- naturalFullOuterJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull Table<Record> naturalFullOuterJoin(SQL sql)
  
  NATURAL FULL OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), SQL
- naturalFullOuterJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull Table<Record> naturalFullOuterJoin(String sql)
  
  NATURAL FULL OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), SQL
- naturalFullOuterJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull Table<Record> naturalFullOuterJoin(String sql, Object... bindings)
  
  NATURAL FULL OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), SQL
- naturalFullOuterJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @PlainSQL @NotNull Table<Record> naturalFullOuterJoin(String sql, QueryPart... parts)
  
  NATURAL FULL OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), SQL
- naturalFullOuterJoin
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,COCKROACHDB,DB2,EXASOL,FIREBIRD,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull Table<Record> naturalFullOuterJoin(Name name)
  
  NATURAL FULL OUTER JOIN a table to this table.
  If this is not supported by your RDBMS, then jOOQ will try to emulate this behaviour using the information provided in this query.
  
  See Also:
  
  DSL.table(Name)
- crossApply
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,DB2,ORACLE12C,POSTGRES_9_3,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE}) @NotNull Table<Record> crossApply(TableLike<?> table)
  
  CROSS APPLY a table to this table.
- crossApply
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,DB2,ORACLE12C,POSTGRES_9_3,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE}) @PlainSQL @NotNull Table<Record> crossApply(SQL sql)
  
  CROSS APPLY a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), SQL
- crossApply
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,DB2,ORACLE12C,POSTGRES_9_3,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE}) @PlainSQL @NotNull Table<Record> crossApply(String sql)
  
  CROSS APPLY a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), SQL
- crossApply
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,DB2,ORACLE12C,POSTGRES_9_3,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE}) @PlainSQL @NotNull Table<Record> crossApply(String sql, Object... bindings)
  
  CROSS APPLY a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), SQL
- crossApply
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,DB2,ORACLE12C,POSTGRES_9_3,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE}) @PlainSQL @NotNull Table<Record> crossApply(String sql, QueryPart... parts)
  
  CROSS APPLY a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), SQL
- crossApply
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,DB2,ORACLE12C,POSTGRES_9_3,SNOWFLAKE,SQLDATAWAREHOUSE,SQLSERVER,SYBASE}) @NotNull Table<Record> crossApply(Name name)
  
  CROSS APPLY a table to this table.
  
  See Also:
  
  DSL.table(Name)
- outerApply
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,DB2,ORACLE12C,POSTGRES_9_3,SQLDATAWAREHOUSE,SQLSERVER,SYBASE}) @NotNull Table<Record> outerApply(TableLike<?> table)
  
  OUTER APPLY a table to this table.
- outerApply
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,DB2,ORACLE12C,POSTGRES_9_3,SQLDATAWAREHOUSE,SQLSERVER,SYBASE}) @PlainSQL @NotNull Table<Record> outerApply(SQL sql)
  
  OUTER APPLY a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), SQL
- outerApply
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,DB2,ORACLE12C,POSTGRES_9_3,SQLDATAWAREHOUSE,SQLSERVER,SYBASE}) @PlainSQL @NotNull Table<Record> outerApply(String sql)
  
  OUTER APPLY a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), SQL
- outerApply
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,DB2,ORACLE12C,POSTGRES_9_3,SQLDATAWAREHOUSE,SQLSERVER,SYBASE}) @PlainSQL @NotNull Table<Record> outerApply(String sql, Object... bindings)
  
  OUTER APPLY a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), SQL
- outerApply
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,DB2,ORACLE12C,POSTGRES_9_3,SQLDATAWAREHOUSE,SQLSERVER,SYBASE}) @PlainSQL @NotNull Table<Record> outerApply(String sql, QueryPart... parts)
  
  OUTER APPLY a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), SQL
- outerApply
  
  @NotNull @Support({AURORA_POSTGRES,BIGQUERY,DB2,ORACLE12C,POSTGRES_9_3,SQLDATAWAREHOUSE,SQLSERVER,SYBASE}) @NotNull Table<Record> outerApply(Name name)
  
  OUTER APPLY a table to this table.
  
  See Also:
  
  DSL.table(Name)
- straightJoin
  
  @NotNull @Support({AURORA_MYSQL,MARIADB,MEMSQL,MYSQL}) @NotNull TableOnStep<Record> straightJoin(TableLike<?> table)
  
  STRAIGHT_JOIN a table to this table.
- straightJoin
  
  @NotNull @Support({AURORA_MYSQL,MARIADB,MEMSQL,MYSQL}) @PlainSQL @NotNull TableOnStep<Record> straightJoin(SQL sql)
  
  STRAIGHT_JOIN a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(SQL), SQL
- straightJoin
  
  @NotNull @Support({AURORA_MYSQL,MARIADB,MEMSQL,MYSQL}) @PlainSQL @NotNull TableOnStep<Record> straightJoin(String sql)
  
  STRAIGHT_JOIN a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String), SQL
- straightJoin
  
  @NotNull @Support({AURORA_MYSQL,MARIADB,MEMSQL,MYSQL}) @PlainSQL @NotNull TableOnStep<Record> straightJoin(String sql, Object... bindings)
  
  STRAIGHT_JOIN a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, Object...), DSL.sql(String, Object...), SQL
- straightJoin
  
  @NotNull @Support({AURORA_MYSQL,MARIADB,MEMSQL,MYSQL}) @PlainSQL @NotNull TableOnStep<Record> straightJoin(String sql, QueryPart... parts)
  
  STRAIGHT_JOIN a table to this table.
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  
  See Also:
  
  DSL.table(String, QueryPart...), DSL.sql(String, QueryPart...), SQL
- straightJoin
  
  @NotNull @Support({AURORA_MYSQL,MARIADB,MEMSQL,MYSQL}) @PlainSQL @NotNull TableOnStep<Record> straightJoin(Name name)
  
  STRAIGHT_JOIN a table to this table.
  
  See Also:
  
  DSL.table(Name)
- eq
  
  @NotNull @Support @NotNull Condition eq(Table<R> table)
  Create a predicate comparing records from self-joined tables.
  This is a convenience method for self-joins, comparing complete records between tables.
  For example:
  MyTable a = MY_TABLE.as("a"); MyTable b = MY_TABLE.as("b"); DSL.using(configuration) .select() .from(a) .join(b).on(a.eq(b));
  See Also:
  
  equal(Table)
- equal
  
  @NotNull @Support @NotNull Condition equal(Table<R> table)
  Create a predicate comparing records from self-joined tables.
  This is a convenience method for self-joins, comparing complete records between tables.
  For example:
  MyTable a = MY_TABLE.as("a"); MyTable b = MY_TABLE.as("b"); DSL.using(configuration) .select() .from(a) .join(b).on(a.equal(b));
- equals
  
  boolean equals(Object other)
  
  Check whether this QueryPart can be considered equal to another QueryPart.
  In general, QueryPart equality is defined in terms of QueryPart.toString() equality. In other words, two query parts are considered equal if their rendered SQL (with inlined bind variables) is equal. This means that the two query parts do not necessarily have to be of the same type.
  Some QueryPart implementations may choose to override this behaviour for improved performance, as QueryPart.toString() is an expensive operation, if called many times.
  Watch out! This is Object.equals(Object), not a jOOQ DSL feature!
  
  Specified by:
  
  equals in interface QueryPart
  
  Overrides:
  
  equals in class Object
  
  Parameters:
  
  other - The other QueryPart
  
  Returns:
  
  Whether the two query parts are equal
- ne
  
  @NotNull @Support @NotNull Condition ne(Table<R> table)
  Create a predicate comparing records from self-non-equi-joined tables. This is a convenience method for self-joins, comparing complete records between tables.
  For example:
  MyTable a = MY_TABLE.as("a"); MyTable b = MY_TABLE.as("b"); DSL.using(configuration) .select() .from(a) .join(b).on(a.ne(b));
  See Also:
  
  notEqual(Table)
- notEqual
  
  @NotNull @Support @NotNull Condition notEqual(Table<R> table)
  Create a predicate comparing records from self-non-equi-joined tables.
  This is a convenience method for self-joins, comparing complete records between tables.
  For example:
  MyTable a = MY_TABLE.as("a"); MyTable b = MY_TABLE.as("b"); DSL.using(configuration) .select() .from(a) .join(b).on(a.notEqual(b));
- useIndex
  
  @NotNull @Support({MARIADB,MYSQL}) @NotNull Table<R> useIndex(String... indexes)
  Specify a MySQL style table hint for query optimisation.
  Example:
  
  create.select() .from(BOOK.as("b").useIndex("MY_INDEX") .fetch();
  See Also:
  
  http://dev.mysql.com/doc/refman/5.7/en/index-hints.html
- useIndexForJoin
  
  @NotNull @Support({MARIADB,MYSQL}) @NotNull Table<R> useIndexForJoin(String... indexes)
  Specify a MySQL style table hint for query optimisation.
  Example:
  
  create.select() .from(BOOK.as("b").useIndexForJoin("MY_INDEX") .fetch();
  See Also:
  
  http://dev.mysql.com/doc/refman/5.7/en/index-hints.html
- useIndexForOrderBy
  
  @NotNull @Support({MARIADB,MYSQL}) @NotNull Table<R> useIndexForOrderBy(String... indexes)
  Specify a MySQL style table hint for query optimisation.
  Example:
  
  create.select() .from(BOOK.as("b").useIndexForOrderBy("MY_INDEX") .fetch();
  See Also:
  
  http://dev.mysql.com/doc/refman/5.7/en/index-hints.html
- useIndexForGroupBy
  
  @NotNull @Support({MARIADB,MYSQL}) @NotNull Table<R> useIndexForGroupBy(String... indexes)
  Specify a MySQL style table hint for query optimisation.
  Example:
  
  create.select() .from(BOOK.as("b").useIndexForGroupBy("MY_INDEX") .fetch();
  See Also:
  
  http://dev.mysql.com/doc/refman/5.7/en/index-hints.html
- ignoreIndex
  
  @NotNull @Support({MARIADB,MYSQL}) @NotNull Table<R> ignoreIndex(String... indexes)
  Specify a MySQL style table hint for query optimisation.
  Example:
  
  create.select() .from(BOOK.as("b").useIndex("MY_INDEX") .fetch();
  See Also:
  
  http://dev.mysql.com/doc/refman/5.7/en/index-hints.html
- ignoreIndexForJoin
  
  @NotNull @Support({MARIADB,MYSQL}) @NotNull Table<R> ignoreIndexForJoin(String... indexes)
  Specify a MySQL style table hint for query optimisation.
  Example:
  
  create.select() .from(BOOK.as("b").useIndexForJoin("MY_INDEX") .fetch();
  See Also:
  
  http://dev.mysql.com/doc/refman/5.7/en/index-hints.html
- ignoreIndexForOrderBy
  
  @NotNull @Support({MARIADB,MYSQL}) @NotNull Table<R> ignoreIndexForOrderBy(String... indexes)
  Specify a MySQL style table hint for query optimisation.
  Example:
  
  create.select() .from(BOOK.as("b").useIndexForOrderBy("MY_INDEX") .fetch();
  See Also:
  
  http://dev.mysql.com/doc/refman/5.7/en/index-hints.html
- ignoreIndexForGroupBy
  
  @NotNull @Support({MARIADB,MYSQL}) @NotNull Table<R> ignoreIndexForGroupBy(String... indexes)
  Specify a MySQL style table hint for query optimisation.
  Example:
  
  create.select() .from(BOOK.as("b").useIndexForGroupBy("MY_INDEX") .fetch();
  See Also:
  
  http://dev.mysql.com/doc/refman/5.7/en/index-hints.html
- forceIndex
  
  @NotNull @Support({MARIADB,MYSQL}) @NotNull Table<R> forceIndex(String... indexes)
  Specify a MySQL style table hint for query optimisation.
  Example:
  
  create.select() .from(BOOK.as("b").useIndex("MY_INDEX") .fetch();
  See Also:
  
  http://dev.mysql.com/doc/refman/5.7/en/index-hints.html
- forceIndexForJoin
  
  @NotNull @Support({MARIADB,MYSQL}) @NotNull Table<R> forceIndexForJoin(String... indexes)
  Specify a MySQL style table hint for query optimisation.
  Example:
  
  create.select() .from(BOOK.as("b").useIndexForJoin("MY_INDEX") .fetch();
  See Also:
  
  http://dev.mysql.com/doc/refman/5.7/en/index-hints.html
- forceIndexForOrderBy
  
  @NotNull @Support({MARIADB,MYSQL}) @NotNull Table<R> forceIndexForOrderBy(String... indexes)
  Specify a MySQL style table hint for query optimisation.
  Example:
  
  create.select() .from(BOOK.as("b").useIndexForOrderBy("MY_INDEX") .fetch();
  See Also:
  
  http://dev.mysql.com/doc/refman/5.7/en/index-hints.html
- forceIndexForGroupBy
  
  @NotNull @Support({MARIADB,MYSQL}) @NotNull Table<R> forceIndexForGroupBy(String... indexes)
  Specify a MySQL style table hint for query optimisation.
  Example:
  
  create.select() .from(BOOK.as("b").useIndexForGroupBy("MY_INDEX") .fetch();
  See Also:
  
  http://dev.mysql.com/doc/refman/5.7/en/index-hints.html
- with
  
  @NotNull @Support({SQLSERVER,SYBASE}) @PlainSQL @Pro @NotNull Table<R> with(String hint)
  Specify a SQL Server style table hint for query optimisation.
  This makes sense only on an actual database table or view, not on other composed table sources.
  Example:
  
  create.select() .from(BOOK.as("b").with("READUNCOMMITTED") .fetch();
  
  For SQLDialect.ORACLE style hints, see SelectFromStep.hint(String) and SelectQuery.addHint(String)
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  See Also:
  
  http://msdn.microsoft.com/en-us/library/ms187373.aspx, SelectFromStep.hint(String), SelectQuery.addHint(String)
- with
  
  @NotNull @Support({SQLSERVER,SYBASE}) @PlainSQL @Pro @NotNull Table<R> with(String hint, Object... binds)
  Specify a SQL Server style table hint for query optimisation.
  This makes sense only on an actual database table or view, not on other composed table sources.
  Example:
  
  create.select() .from(BOOK.as("b").with("READUNCOMMITTED") .fetch();
  
  For SQLDialect.ORACLE style hints, see SelectFromStep.hint(String) and SelectQuery.addHint(String)
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  See Also:
  
  http://msdn.microsoft.com/en-us/library/ms187373.aspx, SelectFromStep.hint(String), SelectQuery.addHint(String)
- with
  
  @NotNull @Support({SQLSERVER,SYBASE}) @PlainSQL @Pro @NotNull Table<R> with(String hint, QueryPart... parts)
  Specify a SQL Server style table hint for query optimisation.
  This makes sense only on an actual database table or view, not on other composed table sources.
  Example:
  
  create.select() .from(BOOK.as("b").with("READUNCOMMITTED") .fetch();
  
  For SQLDialect.ORACLE style hints, see SelectFromStep.hint(String) and SelectQuery.addHint(String)
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  See Also:
  
  http://msdn.microsoft.com/en-us/library/ms187373.aspx, SelectFromStep.hint(String), SelectQuery.addHint(String)
- with
  
  @NotNull @Support({SQLSERVER,SYBASE}) @PlainSQL @Pro @NotNull Table<R> with(SQL hint)
  Specify a SQL Server style table hint for query optimisation.
  This makes sense only on an actual database table or view, not on other composed table sources.
  Example:
  
  create.select() .from(BOOK.as("b").with("READUNCOMMITTED") .fetch();
  
  For SQLDialect.ORACLE style hints, see SelectFromStep.hint(String) and SelectQuery.addHint(String)
  NOTE: When inserting plain SQL into jOOQ objects, you must guarantee syntax integrity. You may also create the possibility of malicious SQL injection. Be sure to properly use bind variables and/or escape literals when concatenated into SQL clauses!
  See Also:
  
  http://msdn.microsoft.com/en-us/library/ms187373.aspx, SelectFromStep.hint(String), SelectQuery.addHint(String)
- pivot
  
  @NotNull @Support({ORACLE11G,SNOWFLAKE,SQLSERVER}) @Pro @NotNull PivotForStep pivot(Field<?> aggregateFunction)
  
  Create a new TABLE reference from this table, pivoting it into another form.
  
  Parameters:
  
  aggregateFunction - The aggregate function used for pivoting.
  
  Returns:
  
  A DSL object to create the PIVOT expression
- pivot
  
  @NotNull @Support(ORACLE11G) @Pro @NotNull PivotForStep pivot(Field<?>... aggregateFunctions)
  
  Create a new TABLE reference from this table, pivoting it into another form.
  
  Parameters:
  
  aggregateFunctions - The aggregate functions used for pivoting.
  
  Returns:
  
  A DSL object to create the PIVOT expression
- pivot
  
  @NotNull @Support(ORACLE11G) @Pro @NotNull PivotForStep pivot(Collection<? extends Field<?>> aggregateFunctions)
  
  Create a new TABLE reference from this table, pivoting it into another form.
  
  Parameters:
  
  aggregateFunctions - The aggregate functions used for pivoting.
  
  Returns:
  
  A DSL object to create the PIVOT expression
  
  See Also:
  
  pivot(Field...)
- divideBy
  
  @NotNull @Support({ACCESS,ASE,AURORA_MYSQL,AURORA_POSTGRES,COCKROACHDB,CUBRID,DB2,DERBY,EXASOL,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLDATAWAREHOUSE,SQLITE,SQLSERVER,SYBASE,TERADATA,VERTICA}) @NotNull DivideByOnStep divideBy(Table<?> divisor)
  Create a new TABLE reference from this table, applying relational division.
  Relational division is the inverse of a cross join operation. The following is an approximate definition of a relational division:
  Assume the following cross join / cartesian product C = A × B Then it can be said that A = C ÷ B B = C ÷ A
  
  With jOOQ, you can simplify using relational divisions by using the following syntax:
  C.divideBy(B).on(C.ID.equal(B.C_ID)).returning(C.TEXT)
  
  The above roughly translates to
  SELECT DISTINCT C.TEXT FROM C "c1" WHERE NOT EXISTS ( SELECT 1 FROM B WHERE NOT EXISTS ( SELECT 1 FROM C "c2" WHERE "c2".TEXT = "c1".TEXT AND "c2".ID = B.C_ID ) )
  
  Or in plain text: Find those TEXT values in C whose ID's correspond to all ID's in B. Note that from the above SQL statement, it is immediately clear that proper indexing is of the essence. Be sure to have indexes on all columns referenced from the on(...) and returning(...) clauses.
  For more information about relational division and some nice, real-life examples, see
  
  http ://en.wikipedia.org/wiki/Relational_algebra#Division
  
  http://www.simple-talk.com/sql/t-sql-programming/divided-we-stand-the- sql-of-relational-division/
  
  This has been observed to work with all dialects
- leftSemiJoin
  
  @NotNull @Support @NotNull TableOnStep<R> leftSemiJoin(TableLike<?> table)
  A synthetic LEFT SEMI JOIN clause that translates to an equivalent EXISTS predicate.
  The following two SQL snippets are semantically equivalent:
  -- Using LEFT SEMI JOIN FROM A LEFT SEMI JOIN B ON A.ID = B.ID -- Using WHERE EXISTS FROM A WHERE EXISTS ( SELECT 1 FROM B WHERE A.ID = B.ID )
  
  Notice that according to Relational algebra's understanding of left semi join, the right hand side of the left semi join operator is not projected, i.e. it cannot be accessed from WHERE or SELECT or any other clause than ON.
- leftAntiJoin
  
  @NotNull @Support @NotNull TableOnStep<R> leftAntiJoin(TableLike<?> table)
  A synthetic LEFT ANTI JOIN clause that translates to an equivalent NOT EXISTS predicate.
  The following two SQL snippets are semantically equivalent:
  -- Using LEFT ANTI JOIN FROM A LEFT ANTI JOIN B ON A.ID = B.ID -- Using WHERE NOT EXISTS FROM A WHERE NOT EXISTS ( SELECT 1 FROM B WHERE A.ID = B.ID )
  
  Notice that according to Relational algebra's understanding of left anti join, the right hand side of the left anti join operator is not projected, i.e. it cannot be accessed from WHERE or SELECT or any other clause than ON.
- for_
  
  @NotNull @Support({DB2,HSQLDB,MARIADB_10_3,ORACLE12C,SQLSERVER2016}) @Pro @NotNull Table<R> for_(PeriodSpecification periodSpecification)
  
  Create a reference to a temporal table with a PeriodSpecification for usage in Select.
- forPortionOf
  
  @NotNull @Support({DB2,MARIADB_10_3}) @Pro @NotNull Table<R> forPortionOf(PeriodSpecification periodSpecification)
  
  Create a reference to a temporal table with a PeriodSpecification for usage in Update and Delete.
- versionsBetweenScn
  
  @NotNull @Support(ORACLE) @Pro @NotNull VersionsBetweenAndStep<R,Number> versionsBetweenScn(Number scn)
  
  Create an SQLDialect.ORACLE flashback versions query clause from this table.
- versionsBetweenScn
  
  @NotNull @Support(ORACLE) @Pro @NotNull VersionsBetweenAndStep<R,Number> versionsBetweenScn(Field<? extends Number> scn)
  
  Create an SQLDialect.ORACLE flashback versions query clause from this table.
- versionsBetweenScnMinvalue
  
  @NotNull @Support(ORACLE) @Pro @NotNull VersionsBetweenAndStep<R,Number> versionsBetweenScnMinvalue()
  
  Create an SQLDialect.ORACLE flashback versions query clause from this table.
- versionsBetweenTimestamp
  
  @NotNull @Support(ORACLE) @Pro @NotNull VersionsBetweenAndStep<R,Timestamp> versionsBetweenTimestamp(Timestamp timestamp)
  
  Create an SQLDialect.ORACLE flashback versions query clause from this table.
- versionsBetweenTimestamp
  
  @NotNull @Support(ORACLE) @Pro @NotNull VersionsBetweenAndStep<R,Timestamp> versionsBetweenTimestamp(Field<Timestamp> timestamp)
  
  Create an SQLDialect.ORACLE flashback versions query clause from this table.
- versionsBetweenTimestampMinvalue
  
  @NotNull @Support(ORACLE) @Pro @NotNull VersionsBetweenAndStep<R,Timestamp> versionsBetweenTimestampMinvalue()
  
  Create an SQLDialect.ORACLE flashback versions query clause from this table.
- asOfScn
  
  @NotNull @Support(ORACLE) @Pro @NotNull Table<R> asOfScn(Number scn)
  
  Create an SQLDialect.ORACLE flashback query clause from this table.
- asOfScn
  
  @NotNull @Support(ORACLE) @Pro @NotNull Table<R> asOfScn(Field<? extends Number> scn)
  
  Create an SQLDialect.ORACLE flashback query clause from this table.
- asOfTimestamp
  
  @NotNull @Support(ORACLE) @Pro @NotNull Table<R> asOfTimestamp(Timestamp timestamp)
  
  Create an SQLDialect.ORACLE flashback query clause from this table.
- asOfTimestamp
  
  @NotNull @Support(ORACLE) @Pro @NotNull Table<R> asOfTimestamp(Field<Timestamp> timestamp)
  
  Create an SQLDialect.ORACLE flashback query clause from this table.
- from
  
  @NotNull R from(Record record)
  The inverse operation of Record.into(Table).
  This method can be used in its method reference form conveniently on a generated table, for instance, when mapping records in a stream:
  DSL.using(configuration) .fetch("select * from t") .stream() .map(MY_TABLE::into) .forEach(System.out::println);

Interface Table<R extends Record>

Method Summary

Methods inherited from interface org.jooq.Fields

Methods inherited from interface org.jooq.Named

Methods inherited from interface org.jooq.Qualified

Methods inherited from interface org.jooq.QueryPart

Methods inherited from interface org.jooq.RecordQualifier

Methods inherited from interface org.jooq.TableLike

Method Details

getType

getOptions

recordType

getIdentity

getPrimaryKey

getRecordVersion

getRecordTimestamp

getIndexes

getKeys

getUniqueKeys

getReferencesFrom

getReferences

getReferencesTo

getChecks

at

at

at

asterisk

rowid

as

as

Derived column lists for table references

Derived column lists for derived tables

as

as

as

as

Derived column lists for table references

Derived column lists for derived tables

as

as

as

as

as

as

where

where

where

where

where

where

where

where

whereExists

whereNotExists

join

join

join

join

join

join

join

innerJoin

innerJoin

innerJoin

innerJoin

innerJoin

innerJoin

partitionBy

partitionBy

leftJoin

leftJoin

leftJoin

leftJoin

leftJoin

leftJoin

leftOuterJoin

leftOuterJoin

leftOuterJoin

leftOuterJoin

leftOuterJoin