public abstract class CustomTable<R extends TableRecord<R>> extends TableImpl<R>
Table
implementations in client code.
Client code may provide proper Table
implementations extending this
useful base class. All necessary parts of the Table
interface are
already implemented. Only this method needs further implementation:
Use this base class when providing custom tables to any of the following methods:
parameters
Modifier | Constructor and Description |
---|---|
protected |
CustomTable(String name) |
protected |
CustomTable(String name,
Schema schema) |
Modifier and Type | Method and Description |
---|---|
Table<R> |
asOfScn(Field<? extends Number> scn)
Create an
SQLDialect.ORACLE flashback query clause from this
table. |
Table<R> |
asOfScn(Number scn)
Create an
SQLDialect.ORACLE flashback query clause from this
table. |
Table<R> |
asOfTimestamp(Field<Timestamp> timestamp)
Create an
SQLDialect.ORACLE flashback query clause from this
table. |
Table<R> |
asOfTimestamp(Timestamp timestamp)
Create an
SQLDialect.ORACLE flashback query clause from this
table. |
Table<R> |
asTable()
The underlying table representation of this object
This method is useful for things like
SELECT * FROM (SELECT * FROM x WHERE x.a = '1') WHERE ... |
Table<R> |
asTable(String alias)
The underlying aliased table representation of this object
|
Table<R> |
asTable(String alias,
String... fieldAliases)
The underlying aliased table representation of this object
|
protected DSLContext |
create()
Internal convenience method
|
protected DSLContext |
create(BindContext ctx)
Internal convenience method
|
protected DSLContext |
create(Configuration configuration)
Internal convenience method
|
protected DSLContext |
create(RenderContext ctx)
Internal convenience method
|
protected static <R extends Record,T> |
createField(String name,
DataType<T> type,
Table<R> table)
Subclasses may call this method to create
TableField objects that
are linked to this table. |
protected static <R extends Record,T> |
createField(String name,
DataType<T> type,
Table<R> table,
String comment)
Subclasses may call this method to create
TableField objects that
are linked to this table. |
Table<Record> |
crossApply(String sql)
CROSS APPLY a table to this table. |
Table<Record> |
crossApply(String sql,
Object... bindings)
CROSS APPLY a table to this table. |
Table<Record> |
crossApply(String sql,
QueryPart... parts)
CROSS APPLY a table to this table. |
Table<Record> |
crossApply(TableLike<?> table)
CROSS APPLY a table to this table. |
Table<Record> |
crossJoin(String sql)
CROSS JOIN a table to this table. |
Table<Record> |
crossJoin(String sql,
Object... bindings)
CROSS JOIN a table to this table. |
Table<Record> |
crossJoin(String sql,
QueryPart... parts)
CROSS JOIN a table to this table. |
Table<Record> |
crossJoin(TableLike<?> table)
CROSS JOIN a table to this table. |
boolean |
declaresFields()
Subclasses may override this
|
boolean |
declaresTables()
Subclasses may override this
|
boolean |
declaresWindows()
Subclasses may override this
|
DivideByOnStep |
divideBy(Table<?> divisor)
Create a new
TABLE reference from this table, applying
relational division. |
<T> Field<T> |
field(Field<T> field)
Get a specific field from this Record.
|
Field<?> |
field(int index)
Get a specific field from this Record.
|
Field<?> |
field(String string)
Get a specific field from this Record.
|
Field<?>[] |
fields()
Get all fields from this Record.
|
Row |
fieldsRow()
Get this table's fields as a
Row |
TableOnStep |
fullOuterJoin(String sql)
FULL OUTER JOIN a table to this table. |
TableOnStep |
fullOuterJoin(String sql,
Object... bindings)
FULL OUTER JOIN a table to this table. |
TableOnStep |
fullOuterJoin(String sql,
QueryPart... parts)
FULL OUTER JOIN a table to this table. |
TableOnStep |
fullOuterJoin(TableLike<?> table)
FULL OUTER JOIN a table to this table. |
String |
getComment()
The comment given to the table.
|
Identity<R,? extends Number> |
getIdentity()
Retrieve the table's
IDENTITY information, if available. |
List<UniqueKey<R>> |
getKeys()
Retrieve all of the table's unique keys.
|
String |
getName()
The name of this table.
|
UniqueKey<R> |
getPrimaryKey()
Retrieve the table's primary key
|
TableField<R,? extends Date> |
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. |
abstract Class<? extends R> |
getRecordType()
Subclasses must implement this method
Subclasses must override this method if they use the generic type parameter Record
The record type produced by this table. |
TableField<R,? extends Number> |
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. |
List<ForeignKey<R,?>> |
getReferences()
Get the list of
FOREIGN KEY 's of this table |
<O extends Record> |
getReferencesFrom(Table<O> other)
Get a list of
FOREIGN KEY 's of a specific table, referencing
a this table. |
<O extends Record> |
getReferencesTo(Table<O> other)
Get a list of
FOREIGN KEY 's of this table, referencing a
specific table. |
Schema |
getSchema()
Get the table schema.
|
int |
hashCode()
Generate a hash code from this
QueryPart . |
TableOnStep |
join(String sql)
INNER JOIN a table to this table. |
TableOnStep |
join(String sql,
Object... bindings)
INNER JOIN a table to this table. |
TableOnStep |
join(String sql,
QueryPart... parts)
INNER JOIN a table to this table. |
TableOnStep |
join(TableLike<?> table)
INNER JOIN a table to this table. |
TableOptionalOnStep |
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. |
TablePartitionByStep |
leftOuterJoin(String sql)
LEFT OUTER JOIN a table to this table. |
TablePartitionByStep |
leftOuterJoin(String sql,
Object... bindings)
LEFT OUTER JOIN a table to this table. |
TablePartitionByStep |
leftOuterJoin(String sql,
QueryPart... parts)
LEFT OUTER JOIN a table to this table. |
TablePartitionByStep |
leftOuterJoin(TableLike<?> table)
LEFT OUTER JOIN a table to this table. |
Table<Record> |
naturalJoin(String sql)
NATURAL JOIN a table to this table. |
Table<Record> |
naturalJoin(String sql,
Object... bindings)
NATURAL JOIN a table to this table. |
Table<Record> |
naturalJoin(String sql,
QueryPart... parts)
NATURAL JOIN a table to this table. |
Table<Record> |
naturalJoin(TableLike<?> table)
NATURAL JOIN a table to this table. |
Table<Record> |
naturalLeftOuterJoin(String sql)
NATURAL LEFT OUTER JOIN a table to this table. |
Table<Record> |
naturalLeftOuterJoin(String sql,
Object... bindings)
NATURAL LEFT OUTER JOIN a table to this table. |
Table<Record> |
naturalLeftOuterJoin(String sql,
QueryPart... parts)
NATURAL LEFT OUTER JOIN a table to this table. |
Table<Record> |
naturalLeftOuterJoin(TableLike<?> table)
NATURAL LEFT OUTER JOIN a table to this table. |
Table<Record> |
naturalRightOuterJoin(String sql)
NATURAL RIGHT OUTER JOIN a table to this table. |
Table<Record> |
naturalRightOuterJoin(String sql,
Object... bindings)
NATURAL RIGHT OUTER JOIN a table to this table. |
Table<Record> |
naturalRightOuterJoin(String sql,
QueryPart... parts)
NATURAL RIGHT OUTER JOIN a table to this table. |
Table<Record> |
naturalRightOuterJoin(TableLike<?> table)
NATURAL RIGHT OUTER JOIN a table to this table. |
Table<Record> |
outerApply(String sql)
OUTER APPLY a table to this table. |
Table<Record> |
outerApply(String sql,
Object... bindings)
OUTER APPLY a table to this table. |
Table<Record> |
outerApply(String sql,
QueryPart... parts)
OUTER APPLY a table to this table. |
Table<Record> |
outerApply(TableLike<?> table)
OUTER APPLY a table to this table. |
PivotForStep |
pivot(Collection<? extends Field<?>> aggregateFunctions)
Create a new
TABLE reference from this table, pivoting it
into another form
For more details, see Table.pivot(Field...) |
PivotForStep |
pivot(Field<?>... aggregateFunctions)
Create a new
TABLE reference from this table, pivoting it
into another form
This has been observed to work with
SQLDialect.ORACLE11G upwards
SQLDialect.SQLSERVER (not yet officially supported)
Other dialects by using some means of simulation (not yet officially
supported)
|
RecordType<R> |
recordType()
The record type produced by this table.
|
TablePartitionByStep |
rightOuterJoin(String sql)
RIGHT OUTER JOIN a table to this table. |
TablePartitionByStep |
rightOuterJoin(String sql,
Object... bindings)
RIGHT OUTER JOIN a table to this table. |
TablePartitionByStep |
rightOuterJoin(String sql,
QueryPart... parts)
RIGHT OUTER JOIN a table to this table. |
TablePartitionByStep |
rightOuterJoin(TableLike<?> table)
RIGHT OUTER JOIN a table to this table. |
String |
toString()
Render a SQL string of this
QueryPart
For improved debugging, this renders a SQL string of this
QueryPart with inlined bind variables. |
protected DataAccessException |
translate(String sql,
SQLException e)
Internal convenience method
|
VersionsBetweenAndStep<R,Number> |
versionsBetweenScn(Field<? extends Number> scn)
Create an
SQLDialect.ORACLE flashback versions query clause from
this table. |
VersionsBetweenAndStep<R,Number> |
versionsBetweenScn(Number scn)
Create an
SQLDialect.ORACLE flashback versions query clause from
this table. |
VersionsBetweenAndStep<R,Number> |
versionsBetweenScnMinvalue()
Create an
SQLDialect.ORACLE flashback versions query clause from
this table. |
VersionsBetweenAndStep<R,Timestamp> |
versionsBetweenTimestamp(Field<Timestamp> timestamp)
Create an
SQLDialect.ORACLE flashback versions query clause from
this table. |
VersionsBetweenAndStep<R,Timestamp> |
versionsBetweenTimestamp(Timestamp timestamp)
Create an
SQLDialect.ORACLE flashback versions query clause from
this table. |
VersionsBetweenAndStep<R,Timestamp> |
versionsBetweenTimestampMinvalue()
Create an
SQLDialect.ORACLE flashback versions query clause from
this table. |
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.
|
protected CustomTable(String name)
public abstract Class<? extends R> getRecordType()
Record
The record type produced by this table.
getRecordType
in interface Table<R extends TableRecord<R>>
getRecordType
in class TableImpl<R extends TableRecord<R>>
public Identity<R,? extends Number> getIdentity()
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 simulated by triggers cannot be formally detected.
Subclasses should override this method
getIdentity
in interface Table<R extends TableRecord<R>>
IDENTITY
information, or
null
, if no such information is available.public UniqueKey<R> getPrimaryKey()
Subclasses may override this method
getPrimaryKey
in interface Table<R extends TableRecord<R>>
null
for an updatable
table.public List<UniqueKey<R>> getKeys()
Subclasses should override this method
getKeys
in interface Table<R extends TableRecord<R>>
null
. This is never empty
for a Table
with a Table.getPrimaryKey()
. This
method returns an unmodifiable list.public List<ForeignKey<R,?>> getReferences()
FOREIGN KEY
's of this table
Subclasses should override this method
getReferences
in interface Table<R extends TableRecord<R>>
FOREIGN KEY
's. This is never
null
.public final boolean declaresFields()
declaresFields
in interface QueryPartInternal
public final boolean declaresTables()
declaresTables
in interface QueryPartInternal
declaresTables
in class TableImpl<R extends TableRecord<R>>
public final RecordType<R> recordType()
Table
recordType
in interface Table<R extends Record>
public final Row fieldsRow()
TableLike
Row
public final <T> Field<T> field(Field<T> field)
TableLike
field
in interface TableLike<R extends Record>
Row.field(Field)
public final Field<?> field(String string)
TableLike
field
in interface TableLike<R extends Record>
Row.field(String)
public final Field<?> field(int index)
TableLike
field
in interface TableLike<R extends Record>
Row.field(int)
public final Field<?>[] fields()
TableLike
fields
in interface TableLike<R extends Record>
Row.fields()
public final Table<R> asTable()
TableLike
This method is useful for things like
SELECT * FROM (SELECT * FROM x WHERE x.a = '1') WHERE ...
public final Table<R> asTable(String alias)
TableLike
asTable
in interface TableLike<R extends Record>
Table.as(String)
public final Table<R> asTable(String alias, String... fieldAliases)
TableLike
asTable
in interface TableLike<R extends Record>
Table.as(String, String...)
public final Schema getSchema()
Table
public final String getName()
Table
public final String getComment()
Table
If this Table
is a generated table from your database, it
may provide its DDL comment through this method. All other table
expressions return the empty string ""
here, never
null
.
getComment
in interface Table<R extends Record>
public TableField<R,? extends Number> getRecordVersion()
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.
Subclasses may override this method
getRecordVersion
in interface Table<R extends Record>
null
, if this table has no
"version" field.Table.getRecordTimestamp()
,
UpdatableRecord.store()
,
UpdatableRecord.delete()
,
Settings.isExecuteWithOptimisticLocking()
public TableField<R,? extends Date> getRecordTimestamp()
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.
Subclasses may override this method
getRecordTimestamp
in interface Table<R extends Record>
null
, if this table has no
"timestamp" field.Table.getRecordVersion()
,
UpdatableRecord.store()
,
UpdatableRecord.delete()
,
Settings.isExecuteWithOptimisticLocking()
public final <O extends Record> List<ForeignKey<O,R>> getReferencesFrom(Table<O> other)
FOREIGN KEY
's of a specific table, referencing
a this table.getReferencesFrom
in interface Table<R extends Record>
O
- The other table's record typeother
- The other table of the foreign key relationshipFOREIGN KEY
's towards an this
table. This is never null
. This method returns an
unmodifiable list.public final <O extends Record> List<ForeignKey<R,O>> getReferencesTo(Table<O> other)
FOREIGN KEY
's of this table, referencing a
specific table.getReferencesTo
in interface Table<R extends Record>
O
- The other table's record typeother
- The other table of the foreign key relationshipFOREIGN KEY
's towards an other table.
This is never null
.protected static final <R extends Record,T> TableField<R,T> createField(String name, DataType<T> type, Table<R> table)
TableField
objects that
are linked to this table.name
- The name of the field (case-sensitive!)type
- The data type of the fieldprotected static final <R extends Record,T> TableField<R,T> createField(String name, DataType<T> type, Table<R> table, String comment)
TableField
objects that
are linked to this table.name
- The name of the field (case-sensitive!)type
- The data type of the fieldpublic final Table<R> with(String hint)
Table
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)
with
in interface Table<R extends Record>
SelectFromStep.hint(String)
,
SelectQuery.addHint(String)
public final PivotForStep pivot(Field<?>... aggregateFunctions)
Table
TABLE
reference from this table, pivoting it
into another form
This has been observed to work with
SQLDialect.ORACLE11G
upwardsSQLDialect.SQLSERVER
(not yet officially supported)public final PivotForStep pivot(Collection<? extends Field<?>> aggregateFunctions)
Table
TABLE
reference from this table, pivoting it
into another form
For more details, see Table.pivot(Field...)
pivot
in interface Table<R extends Record>
aggregateFunctions
- The aggregate functions used for pivoting.PIVOT
expressionTable.pivot(Field...)
public final VersionsBetweenAndStep<R,Number> versionsBetweenScn(Number scn)
Table
SQLDialect.ORACLE
flashback versions query clause from
this table.versionsBetweenScn
in interface Table<R extends Record>
public final VersionsBetweenAndStep<R,Number> versionsBetweenScn(Field<? extends Number> scn)
Table
SQLDialect.ORACLE
flashback versions query clause from
this table.versionsBetweenScn
in interface Table<R extends Record>
public final VersionsBetweenAndStep<R,Number> versionsBetweenScnMinvalue()
Table
SQLDialect.ORACLE
flashback versions query clause from
this table.versionsBetweenScnMinvalue
in interface Table<R extends Record>
public final VersionsBetweenAndStep<R,Timestamp> versionsBetweenTimestamp(Timestamp timestamp)
Table
SQLDialect.ORACLE
flashback versions query clause from
this table.versionsBetweenTimestamp
in interface Table<R extends Record>
public final VersionsBetweenAndStep<R,Timestamp> versionsBetweenTimestamp(Field<Timestamp> timestamp)
Table
SQLDialect.ORACLE
flashback versions query clause from
this table.versionsBetweenTimestamp
in interface Table<R extends Record>
public final VersionsBetweenAndStep<R,Timestamp> versionsBetweenTimestampMinvalue()
Table
SQLDialect.ORACLE
flashback versions query clause from
this table.versionsBetweenTimestampMinvalue
in interface Table<R extends Record>
public final Table<R> asOfScn(Number scn)
Table
SQLDialect.ORACLE
flashback query clause from this
table.public final Table<R> asOfScn(Field<? extends Number> scn)
Table
SQLDialect.ORACLE
flashback query clause from this
table.public final Table<R> asOfTimestamp(Timestamp timestamp)
Table
SQLDialect.ORACLE
flashback query clause from this
table.asOfTimestamp
in interface Table<R extends Record>
public final Table<R> asOfTimestamp(Field<Timestamp> timestamp)
Table
SQLDialect.ORACLE
flashback query clause from this
table.asOfTimestamp
in interface Table<R extends Record>
public final DivideByOnStep divideBy(Table<?> divisor)
Table
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
This has been observed to work with all dialects
public final TableOptionalOnStep join(TableLike<?> table, JoinType type)
Table
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
public final TableOnStep join(TableLike<?> table)
Table
INNER JOIN
a table to this table.public final TableOnStep join(String sql)
Table
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!
join
in interface Table<R extends Record>
DSL.table(String)
public final TableOnStep join(String sql, Object... bindings)
Table
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!
join
in interface Table<R extends Record>
DSL.table(String, Object...)
public final TableOnStep join(String sql, QueryPart... parts)
Table
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!
join
in interface Table<R extends Record>
DSL.table(String, QueryPart...)
public final TablePartitionByStep leftOuterJoin(TableLike<?> table)
Table
LEFT OUTER JOIN
a table to this table.leftOuterJoin
in interface Table<R extends Record>
public final TablePartitionByStep leftOuterJoin(String sql)
Table
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!
leftOuterJoin
in interface Table<R extends Record>
DSL.table(String)
public final TablePartitionByStep leftOuterJoin(String sql, Object... bindings)
Table
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!
leftOuterJoin
in interface Table<R extends Record>
DSL.table(String, Object...)
public final TablePartitionByStep leftOuterJoin(String sql, QueryPart... parts)
Table
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!
leftOuterJoin
in interface Table<R extends Record>
DSL.table(String, QueryPart...)
public final TablePartitionByStep rightOuterJoin(TableLike<?> table)
Table
RIGHT OUTER JOIN
a table to this table.
This is only possible where the underlying RDBMS supports it
rightOuterJoin
in interface Table<R extends Record>
public final TablePartitionByStep rightOuterJoin(String sql)
Table
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!
rightOuterJoin
in interface Table<R extends Record>
DSL.table(String)
public final TablePartitionByStep rightOuterJoin(String sql, Object... bindings)
Table
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!
rightOuterJoin
in interface Table<R extends Record>
DSL.table(String, Object...)
public final TablePartitionByStep rightOuterJoin(String sql, QueryPart... parts)
Table
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!
rightOuterJoin
in interface Table<R extends Record>
DSL.table(String, QueryPart...)
public final TableOnStep fullOuterJoin(TableLike<?> table)
Table
FULL OUTER JOIN
a table to this table.
This is only possible where the underlying RDBMS supports it
fullOuterJoin
in interface Table<R extends Record>
public final TableOnStep fullOuterJoin(String sql)
Table
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!
fullOuterJoin
in interface Table<R extends Record>
DSL.table(String)
public final TableOnStep fullOuterJoin(String sql, Object... bindings)
Table
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!
fullOuterJoin
in interface Table<R extends Record>
DSL.table(String, Object...)
public final TableOnStep fullOuterJoin(String sql, QueryPart... parts)
Table
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!
fullOuterJoin
in interface Table<R extends Record>
DSL.table(String, QueryPart...)
public final Table<Record> crossJoin(TableLike<?> table)
Table
CROSS JOIN
a table to this table.
If this syntax is unavailable, it is simulated with a regular
INNER JOIN
. The following two constructs are equivalent:
A cross join B
A join B on 1 = 1
public final Table<Record> crossJoin(String sql)
Table
CROSS JOIN
a table to this table.
If this syntax is unavailable, it is simulated 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!
crossJoin
in interface Table<R extends Record>
DSL.table(String)
public final Table<Record> crossJoin(String sql, Object... bindings)
Table
CROSS JOIN
a table to this table.
If this syntax is unavailable, it is simulated 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!
crossJoin
in interface Table<R extends Record>
DSL.table(String, Object...)
public final Table<Record> crossJoin(String sql, QueryPart... parts)
Table
CROSS JOIN
a table to this table.
If this syntax is unavailable, it is simulated 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!
crossJoin
in interface Table<R extends Record>
DSL.table(String, QueryPart...)
public final Table<Record> naturalJoin(TableLike<?> table)
Table
NATURAL JOIN
a table to this table.
If this is not supported by your RDBMS, then jOOQ will try to simulate this behaviour using the information provided in this query.
naturalJoin
in interface Table<R extends Record>
public final Table<Record> naturalJoin(String sql)
Table
NATURAL JOIN
a table to this table.
If this is not supported by your RDBMS, then jOOQ will try to simulate 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!
naturalJoin
in interface Table<R extends Record>
DSL.table(String)
public final Table<Record> naturalJoin(String sql, Object... bindings)
Table
NATURAL JOIN
a table to this table.
If this is not supported by your RDBMS, then jOOQ will try to simulate 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!
naturalJoin
in interface Table<R extends Record>
DSL.table(String, Object...)
public final Table<Record> naturalJoin(String sql, QueryPart... parts)
Table
NATURAL JOIN
a table to this table.
If this is not supported by your RDBMS, then jOOQ will try to simulate 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!
naturalJoin
in interface Table<R extends Record>
DSL.table(String, QueryPart...)
public final Table<Record> naturalLeftOuterJoin(TableLike<?> table)
Table
NATURAL LEFT OUTER JOIN
a table to this table.
If this is not supported by your RDBMS, then jOOQ will try to simulate this behaviour using the information provided in this query.
naturalLeftOuterJoin
in interface Table<R extends Record>
public final Table<Record> naturalLeftOuterJoin(String sql)
Table
NATURAL LEFT OUTER JOIN
a table to this table.
If this is not supported by your RDBMS, then jOOQ will try to simulate 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!
naturalLeftOuterJoin
in interface Table<R extends Record>
DSL.table(String)
public final Table<Record> naturalLeftOuterJoin(String sql, Object... bindings)
Table
NATURAL LEFT OUTER JOIN
a table to this table.
If this is not supported by your RDBMS, then jOOQ will try to simulate 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!
naturalLeftOuterJoin
in interface Table<R extends Record>
DSL.table(String, Object...)
public final Table<Record> naturalLeftOuterJoin(String sql, QueryPart... parts)
Table
NATURAL LEFT OUTER JOIN
a table to this table.
If this is not supported by your RDBMS, then jOOQ will try to simulate 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!
naturalLeftOuterJoin
in interface Table<R extends Record>
DSL.table(String, QueryPart...)
public final Table<Record> naturalRightOuterJoin(TableLike<?> table)
Table
NATURAL RIGHT OUTER JOIN
a table to this table.
If this is not supported by your RDBMS, then jOOQ will try to simulate this behaviour using the information provided in this query.
naturalRightOuterJoin
in interface Table<R extends Record>
public final Table<Record> naturalRightOuterJoin(String sql)
Table
NATURAL RIGHT OUTER JOIN
a table to this table.
If this is not supported by your RDBMS, then jOOQ will try to simulate 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!
naturalRightOuterJoin
in interface Table<R extends Record>
DSL.table(String)
public final Table<Record> naturalRightOuterJoin(String sql, Object... bindings)
Table
NATURAL RIGHT OUTER JOIN
a table to this table.
If this is not supported by your RDBMS, then jOOQ will try to simulate 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!
naturalRightOuterJoin
in interface Table<R extends Record>
DSL.table(String, Object...)
public final Table<Record> naturalRightOuterJoin(String sql, QueryPart... parts)
Table
NATURAL RIGHT OUTER JOIN
a table to this table.
If this is not supported by your RDBMS, then jOOQ will try to simulate 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!
naturalRightOuterJoin
in interface Table<R extends Record>
DSL.table(String, QueryPart...)
public final Table<Record> crossApply(TableLike<?> table)
Table
CROSS APPLY
a table to this table.crossApply
in interface Table<R extends Record>
public final Table<Record> crossApply(String sql)
Table
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!
crossApply
in interface Table<R extends Record>
DSL.table(String)
public final Table<Record> crossApply(String sql, Object... bindings)
Table
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!
crossApply
in interface Table<R extends Record>
DSL.table(String, Object...)
public final Table<Record> crossApply(String sql, QueryPart... parts)
Table
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!
crossApply
in interface Table<R extends Record>
DSL.table(String, QueryPart...)
public final Table<Record> outerApply(TableLike<?> table)
Table
OUTER APPLY
a table to this table.outerApply
in interface Table<R extends Record>
public final Table<Record> outerApply(String sql)
Table
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!
outerApply
in interface Table<R extends Record>
DSL.table(String)
public final Table<Record> outerApply(String sql, Object... bindings)
Table
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!
outerApply
in interface Table<R extends Record>
DSL.table(String, Object...)
public final Table<Record> outerApply(String sql, QueryPart... parts)
Table
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!
outerApply
in interface Table<R extends Record>
DSL.table(String, QueryPart...)
public int hashCode()
QueryPart
QueryPart
.
In general, QueryPart
hash codes are the same as the hash
codes generated from QueryPart.toString()
. This guarantees consistent
behaviour with QueryPart.equals(Object)
Some QueryPart
implementations may choose to override this
behaviour for improved performance, as QueryPart.toString()
is an
expensive operation, if called many times.
public boolean declaresWindows()
declaresWindows
in interface QueryPartInternal
public String toString()
QueryPart
QueryPart
For improved debugging, this renders a SQL string of this
QueryPart
with inlined bind variables. If you wish to gain
more control over the concrete SQL rendering of this
QueryPart
, use DSLContext.renderContext()
to obtain a
configurable render context for SQL rendering.
protected final DSLContext create()
protected final DSLContext create(Configuration configuration)
protected final DSLContext create(RenderContext ctx)
protected final DSLContext create(BindContext ctx)
protected final DataAccessException translate(String sql, SQLException e)
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