@Generated(value="This class was generated using jOOQtools") public interface Row2<T1,T2> extends Row
2
.
Note: Not all databases support row value expressions, but many row value expression operations can be emulated on all databases. See relevant row value expression method Javadocs for details.
Modifier and Type  Method and Description 

BetweenAndStep2<T1,T2> 
between(Field<T1> minValue1,
Field<T2> minValue2)
Check if this row value expression is within a range of two other row
value expressions.

BetweenAndStep2<T1,T2> 
between(Record2<T1,T2> minValue)
Check if this row value expression is within a range of two records.

Condition 
between(Record2<T1,T2> minValue,
Record2<T1,T2> maxValue)
Check if this row value expression is within a range of two records.

BetweenAndStep2<T1,T2> 
between(Row2<T1,T2> minValue)
Check if this row value expression is within a range of two other row
value expressions.

Condition 
between(Row2<T1,T2> minValue,
Row2<T1,T2> maxValue)
Check if this row value expression is within a range of two other row
value expressions.

BetweenAndStep2<T1,T2> 
between(T1 minValue1,
T2 minValue2)
Check if this row value expression is within a range of two other row
value expressions.

BetweenAndStep2<T1,T2> 
betweenSymmetric(Field<T1> minValue1,
Field<T2> minValue2)
Check if this row value expression is within a symmetric range of two
other row value expressions.

BetweenAndStep2<T1,T2> 
betweenSymmetric(Record2<T1,T2> minValue)
Check if this row value expression is within a symmetric range of two
records.

Condition 
betweenSymmetric(Record2<T1,T2> minValue,
Record2<T1,T2> maxValue)
Check if this row value expression is within a symmetric range of two
records.

BetweenAndStep2<T1,T2> 
betweenSymmetric(Row2<T1,T2> minValue)
Check if this row value expression is within a symmetric range of two
other row value expressions.

Condition 
betweenSymmetric(Row2<T1,T2> minValue,
Row2<T1,T2> maxValue)
Check if this row value expression is within a symmetric range of two
other row value expressions.

BetweenAndStep2<T1,T2> 
betweenSymmetric(T1 minValue1,
T2 minValue2)
Check if this row value expression is within a symmetric range of two
other row value expressions.

Condition 
compare(Comparator comparator,
Field<T1> t1,
Field<T2> t2)
Compare this row value expression with another row value expression
using a dynamic comparator.

Condition 
compare(Comparator comparator,
QuantifiedSelect<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect
using a dynamic comparator.

Condition 
compare(Comparator comparator,
Record2<T1,T2> record)
Compare this row value expression with a record
using a dynamic comparator.

Condition 
compare(Comparator comparator,
Row2<T1,T2> row)
Compare this row value expression with another row value expression
using a dynamic comparator.

Condition 
compare(Comparator comparator,
Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect
using a dynamic comparator.

Condition 
compare(Comparator comparator,
T1 t1,
T2 t2)
Compare this row value expression with another row value expression
using a dynamic comparator.

Condition 
eq(Field<T1> t1,
Field<T2> t2)
Compare this row value expression with another row value expression for
equality.

Condition 
eq(QuantifiedSelect<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for equality.

Condition 
eq(Record2<T1,T2> record)
Compare this row value expression with a record for equality.

Condition 
eq(Row2<T1,T2> row)
Compare this row value expression with another row value expression for
equality.

Condition 
eq(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for equality.

Condition 
eq(T1 t1,
T2 t2)
Compare this row value expression with another row value expression for
equality.

Condition 
equal(Field<T1> t1,
Field<T2> t2)
Compare this row value expression with another row value expression for
equality.

Condition 
equal(QuantifiedSelect<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for equality.

Condition 
equal(Record2<T1,T2> record)
Compare this row value expression with a record for equality.

Condition 
equal(Row2<T1,T2> row)
Compare this row value expression with another row value expression for
equality.

Condition 
equal(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for equality.

Condition 
equal(T1 t1,
T2 t2)
Compare this row value expression with another row value expression for
equality.

Field<T1> 
field1()
Get the first field.

Field<T2> 
field2()
Get the second field.

Condition 
ge(Field<T1> t1,
Field<T2> t2)
Compare this row value expression with another row value expression for
order.

Condition 
ge(QuantifiedSelect<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
ge(Record2<T1,T2> record)
Compare this row value expression with a record for order.

Condition 
ge(Row2<T1,T2> row)
Compare this row value expression with another row value expression for
order.

Condition 
ge(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
ge(T1 t1,
T2 t2)
Compare this row value expression with another row value expression for
order.

Condition 
greaterOrEqual(Field<T1> t1,
Field<T2> t2)
Compare this row value expression with another row value expression for
order.

Condition 
greaterOrEqual(QuantifiedSelect<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
greaterOrEqual(Record2<T1,T2> record)
Compare this row value expression with a record for order.

Condition 
greaterOrEqual(Row2<T1,T2> row)
Compare this row value expression with another row value expression for
order.

Condition 
greaterOrEqual(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
greaterOrEqual(T1 t1,
T2 t2)
Compare this row value expression with another row value expression for
order.

Condition 
greaterThan(Field<T1> t1,
Field<T2> t2)
Compare this row value expression with another row value expression for
order.

Condition 
greaterThan(QuantifiedSelect<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
greaterThan(Record2<T1,T2> record)
Compare this row value expression with a record for order.

Condition 
greaterThan(Row2<T1,T2> row)
Compare this row value expression with another row value expression for
order.

Condition 
greaterThan(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
greaterThan(T1 t1,
T2 t2)
Compare this row value expression with another row value expression for
order.

Condition 
gt(Field<T1> t1,
Field<T2> t2)
Compare this row value expression with another row value expression for
order.

Condition 
gt(QuantifiedSelect<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
gt(Record2<T1,T2> record)
Compare this row value expression with a record for order.

Condition 
gt(Row2<T1,T2> row)
Compare this row value expression with another row value expression for
order.

Condition 
gt(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
gt(T1 t1,
T2 t2)
Compare this row value expression with another row value expression for
order.

Condition 
in(Collection<? extends Row2<T1,T2>> rows)
Compare this row value expression with a set of row value expressions for
equality.

Condition 
in(Record2<T1,T2>... record)
Compare this row value expression with a set of records for equality.

Condition 
in(Result<? extends Record2<T1,T2>> result)
Compare this row value expression with a set of records for
equality.

Condition 
in(Row2<T1,T2>... rows)
Compare this row value expression with a set of row value expressions for
equality.

Condition 
in(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for equality.

Condition 
le(Field<T1> t1,
Field<T2> t2)
Compare this row value expression with another row value expression for
order.

Condition 
le(QuantifiedSelect<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
le(Record2<T1,T2> record)
Compare this row value expression with a record for order.

Condition 
le(Row2<T1,T2> row)
Compare this row value expression with another row value expression for
order.

Condition 
le(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
le(T1 t1,
T2 t2)
Compare this row value expression with another row value expression for
order.

Condition 
lessOrEqual(Field<T1> t1,
Field<T2> t2)
Compare this row value expression with another row value expression for
order.

Condition 
lessOrEqual(QuantifiedSelect<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
lessOrEqual(Record2<T1,T2> record)
Compare this row value expression with a record for order.

Condition 
lessOrEqual(Row2<T1,T2> row)
Compare this row value expression with another row value expression for
order.

Condition 
lessOrEqual(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
lessOrEqual(T1 t1,
T2 t2)
Compare this row value expression with another row value expression for
order.

Condition 
lessThan(Field<T1> t1,
Field<T2> t2)
Compare this row value expression with another row value expression for
order.

Condition 
lessThan(QuantifiedSelect<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
lessThan(Record2<T1,T2> record)
Compare this row value expression with a record for order.

Condition 
lessThan(Row2<T1,T2> row)
Compare this row value expression with another row value expression for
order.

Condition 
lessThan(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
lessThan(T1 t1,
T2 t2)
Compare this row value expression with another row value expression for
order.

Condition 
lt(Field<T1> t1,
Field<T2> t2)
Compare this row value expression with another row value expression for
order.

Condition 
lt(QuantifiedSelect<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
lt(Record2<T1,T2> record)
Compare this row value expression with a record for order.

Condition 
lt(Row2<T1,T2> row)
Compare this row value expression with another row value expression for
order.

Condition 
lt(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for order.

Condition 
lt(T1 t1,
T2 t2)
Compare this row value expression with another row value expression for
order.

Condition 
ne(Field<T1> t1,
Field<T2> t2)
Compare this row value expression with another row value expression for
nonequality.

Condition 
ne(QuantifiedSelect<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for nonequality.

Condition 
ne(Record2<T1,T2> record)
Compare this row value expression with a record for nonequality.

Condition 
ne(Row2<T1,T2> row)
Compare this row value expression with another row value expression for
nonequality.

Condition 
ne(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for nonequality.

Condition 
ne(T1 t1,
T2 t2)
Compare this row value expression with another row value expression for
nonequality.

BetweenAndStep2<T1,T2> 
notBetween(Field<T1> minValue1,
Field<T2> minValue2)
Check if this row value expression is not within a range of two other
row value expressions.

BetweenAndStep2<T1,T2> 
notBetween(Record2<T1,T2> minValue)
Check if this row value expression is within a range of two records.

Condition 
notBetween(Record2<T1,T2> minValue,
Record2<T1,T2> maxValue)
Check if this row value expression is within a range of two records.

BetweenAndStep2<T1,T2> 
notBetween(Row2<T1,T2> minValue)
Check if this row value expression is not within a range of two other
row value expressions.

Condition 
notBetween(Row2<T1,T2> minValue,
Row2<T1,T2> maxValue)
Check if this row value expression is not within a range of two other
row value expressions.

BetweenAndStep2<T1,T2> 
notBetween(T1 minValue1,
T2 minValue2)
Check if this row value expression is not within a range of two other
row value expressions.

BetweenAndStep2<T1,T2> 
notBetweenSymmetric(Field<T1> minValue1,
Field<T2> minValue2)
Check if this row value expression is not within a symmetric range of two
other row value expressions.

BetweenAndStep2<T1,T2> 
notBetweenSymmetric(Record2<T1,T2> minValue)
Check if this row value expression is not within a symmetric range of two
records.

Condition 
notBetweenSymmetric(Record2<T1,T2> minValue,
Record2<T1,T2> maxValue)
Check if this row value expression is not within a symmetric range of two
records.

BetweenAndStep2<T1,T2> 
notBetweenSymmetric(Row2<T1,T2> minValue)
Check if this row value expression is not within a symmetric range of two
other row value expressions.

Condition 
notBetweenSymmetric(Row2<T1,T2> minValue,
Row2<T1,T2> maxValue)
Check if this row value expression is not within a symmetric range of two
other row value expressions.

BetweenAndStep2<T1,T2> 
notBetweenSymmetric(T1 minValue1,
T2 minValue2)
Check if this row value expression is not within a symmetric range of two
other row value expressions.

Condition 
notEqual(Field<T1> t1,
Field<T2> t2)
Compare this row value expression with another row value expression for
nonequality.

Condition 
notEqual(QuantifiedSelect<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for nonequality.

Condition 
notEqual(Record2<T1,T2> record)
Compare this row value expression with a record for nonequality

Condition 
notEqual(Row2<T1,T2> row)
Compare this row value expression with another row value expression for
nonequality.

Condition 
notEqual(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for nonequality.

Condition 
notEqual(T1 t1,
T2 t2)
Compare this row value expression with another row value expression for.

Condition 
notIn(Collection<? extends Row2<T1,T2>> rows)
Compare this row value expression with a set of row value expressions for
equality.

Condition 
notIn(Record2<T1,T2>... record)
Compare this row value expression with a set of records for nonequality.

Condition 
notIn(Result<? extends Record2<T1,T2>> result)
Compare this row value expression with a set of records for
equality.

Condition 
notIn(Row2<T1,T2>... rows)
Compare this row value expression with a set of row value expressions for
equality.

Condition 
notIn(Select<? extends Record2<T1,T2>> select)
Compare this row value expression with a subselect for nonequality.

Condition 
overlaps(Field<T1> t1,
Field<T2> t2)
Check if this row value expression overlaps another row value expression.

Condition 
overlaps(Row2<T1,T2> row)
Check if this row value expression overlaps another row value expression.

Condition 
overlaps(T1 t1,
T2 t2)
Check if this row value expression overlaps another row value expression.

@Support Condition compare(Comparator comparator, Row2<T1,T2> row)
See the explicit comparison methods for details. Note, not all
Comparator
types are supported
@Support Condition compare(Comparator comparator, Record2<T1,T2> record)
See the explicit comparison methods for details. Note, not all
Comparator
types are supported
@Support Condition compare(Comparator comparator, T1 t1, T2 t2)
See the explicit comparison methods for details. Note, not all
Comparator
types are supported
@Support Condition compare(Comparator comparator, Field<T1> t1, Field<T2> t2)
See the explicit comparison methods for details. Note, not all
Comparator
types are supported
@Support Condition compare(Comparator comparator, Select<? extends Record2<T1,T2>> select)
See the explicit comparison methods for details. Note, not all
Comparator
types are supported
@Support Condition compare(Comparator comparator, QuantifiedSelect<? extends Record2<T1,T2>> select)
See the explicit comparison methods for details. Note, not all
Comparator
types are supported
@Support Condition equal(Row2<T1,T2> row)
Row equality comparison predicates can be emulated in those databases
that do not support such predicates natively:
(A, B) = (1, 2)
is equivalent to
A = 1 AND B = 2
@Support Condition equal(Record2<T1,T2> record)
equal(Row2)
@Support Condition equal(T1 t1, T2 t2)
equal(Row2)
@Support Condition equal(Field<T1> t1, Field<T2> t2)
equal(Row2)
@Support Condition equal(Select<? extends Record2<T1,T2>> select)
equal(Row2)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) Condition equal(QuantifiedSelect<? extends Record2<T1,T2>> select)
@Support Condition eq(Row2<T1,T2> row)
equal(Row2)
@Support Condition eq(Record2<T1,T2> record)
equal(Row2)
@Support Condition eq(T1 t1, T2 t2)
equal(Row2)
@Support Condition eq(Field<T1> t1, Field<T2> t2)
equal(Row2)
@Support Condition eq(Select<? extends Record2<T1,T2>> select)
equal(Row2)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) Condition eq(QuantifiedSelect<? extends Record2<T1,T2>> select)
@Support Condition notEqual(Row2<T1,T2> row)
Row nonequality comparison predicates can be emulated in those
databases that do not support such predicates natively:
(A, B) <> (1, 2)
is equivalent to
NOT(A = 1 AND B = 2)
@Support Condition notEqual(Record2<T1,T2> record)
notEqual(Row2)
@Support Condition notEqual(T1 t1, T2 t2)
notEqual(Row2)
@Support Condition notEqual(Field<T1> t1, Field<T2> t2)
notEqual(Row2)
@Support Condition notEqual(Select<? extends Record2<T1,T2>> select)
notEqual(Row2)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) Condition notEqual(QuantifiedSelect<? extends Record2<T1,T2>> select)
@Support Condition ne(Row2<T1,T2> row)
notEqual(Row2)
@Support Condition ne(Record2<T1,T2> record)
notEqual(Row2)
@Support Condition ne(T1 t1, T2 t2)
notEqual(Row2)
@Support Condition ne(Field<T1> t1, Field<T2> t2)
notEqual(Row2)
@Support Condition ne(Select<? extends Record2<T1,T2>> select)
notEqual(Row2)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) Condition ne(QuantifiedSelect<? extends Record2<T1,T2>> select)
@Support Condition lessThan(Row2<T1,T2> row)
Row order comparison predicates can be emulated in those
databases that do not support such predicates natively:
(A, B, C) < (1, 2, 3)
is equivalent to
A < 1 OR (A = 1 AND B < 2) OR (A = 1 AND B = 2 AND C < 3)
@Support Condition lessThan(Record2<T1,T2> record)
lessThan(Row2)
@Support Condition lessThan(T1 t1, T2 t2)
lessThan(Row2)
@Support Condition lessThan(Field<T1> t1, Field<T2> t2)
lessThan(Row2)
@Support Condition lessThan(Select<? extends Record2<T1,T2>> select)
lessThan(Row2)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE}) Condition lessThan(QuantifiedSelect<? extends Record2<T1,T2>> select)
@Support Condition lt(Row2<T1,T2> row)
lessThan(Row2)
@Support Condition lt(Record2<T1,T2> record)
lessThan(Row2)
@Support Condition lt(T1 t1, T2 t2)
lessThan(Row2)
@Support Condition lt(Field<T1> t1, Field<T2> t2)
lessThan(Row2)
@Support Condition lt(Select<? extends Record2<T1,T2>> select)
lessThan(Row2)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE}) Condition lt(QuantifiedSelect<? extends Record2<T1,T2>> select)
@Support Condition lessOrEqual(Row2<T1,T2> row)
Row order comparison predicates can be emulated in those
databases that do not support such predicates natively:
(A, B) <= (1, 2)
is equivalent to
A < 1 OR (A = 1 AND B < 2) OR (A = 1 AND B = 2)
@Support Condition lessOrEqual(Record2<T1,T2> record)
lessOrEqual(Row2)
@Support Condition lessOrEqual(T1 t1, T2 t2)
lessOrEqual(Row2)
@Support Condition lessOrEqual(Field<T1> t1, Field<T2> t2)
lessOrEqual(Row2)
@Support Condition lessOrEqual(Select<? extends Record2<T1,T2>> select)
lessOrEqual(Row2)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE}) Condition lessOrEqual(QuantifiedSelect<? extends Record2<T1,T2>> select)
@Support Condition le(Row2<T1,T2> row)
lessOrEqual(Row2)
@Support Condition le(Record2<T1,T2> record)
lessOrEqual(Row2)
@Support Condition le(T1 t1, T2 t2)
lessOrEqual(Row2)
@Support Condition le(Field<T1> t1, Field<T2> t2)
lessOrEqual(Row2)
@Support Condition le(Select<? extends Record2<T1,T2>> select)
lessOrEqual(Row2)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE}) Condition le(QuantifiedSelect<? extends Record2<T1,T2>> select)
@Support Condition greaterThan(Row2<T1,T2> row)
Row order comparison predicates can be emulated in those
databases that do not support such predicates natively:
(A, B, C) > (1, 2, 3)
is equivalent to
A > 1 OR (A = 1 AND B > 2) OR (A = 1 AND B = 2 AND C > 3)
@Support Condition greaterThan(Record2<T1,T2> record)
greaterThan(Row2)
@Support Condition greaterThan(T1 t1, T2 t2)
greaterThan(Row2)
@Support Condition greaterThan(Field<T1> t1, Field<T2> t2)
greaterThan(Row2)
@Support Condition greaterThan(Select<? extends Record2<T1,T2>> select)
greaterThan(Row2)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE}) Condition greaterThan(QuantifiedSelect<? extends Record2<T1,T2>> select)
@Support Condition gt(Row2<T1,T2> row)
greaterThan(Row2)
@Support Condition gt(Record2<T1,T2> record)
greaterThan(Row2)
@Support Condition gt(T1 t1, T2 t2)
greaterThan(Row2)
@Support Condition gt(Field<T1> t1, Field<T2> t2)
greaterThan(Row2)
@Support Condition gt(Select<? extends Record2<T1,T2>> select)
greaterThan(Row2)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE}) Condition gt(QuantifiedSelect<? extends Record2<T1,T2>> select)
@Support Condition greaterOrEqual(Row2<T1,T2> row)
Row order comparison predicates can be emulated in those
databases that do not support such predicates natively:
(A, B) >= (1, 2)
is equivalent to
A > 1 OR (A = 1 AND B > 2) OR (A = 1 AND B = 2)
@Support Condition greaterOrEqual(Record2<T1,T2> record)
greaterOrEqual(Row2)
@Support Condition greaterOrEqual(T1 t1, T2 t2)
greaterOrEqual(Row2)
@Support Condition greaterOrEqual(Field<T1> t1, Field<T2> t2)
greaterOrEqual(Row2)
@Support Condition greaterOrEqual(Select<? extends Record2<T1,T2>> select)
greaterOrEqual(Row2)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE}) Condition greaterOrEqual(QuantifiedSelect<? extends Record2<T1,T2>> select)
@Support Condition ge(Row2<T1,T2> row)
greaterOrEqual(Row2)
@Support Condition ge(Record2<T1,T2> record)
greaterOrEqual(Row2)
@Support Condition ge(T1 t1, T2 t2)
greaterOrEqual(Row2)
@Support Condition ge(Field<T1> t1, Field<T2> t2)
greaterOrEqual(Row2)
@Support Condition ge(Select<? extends Record2<T1,T2>> select)
greaterOrEqual(Row2)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE}) Condition ge(QuantifiedSelect<? extends Record2<T1,T2>> select)
@Support BetweenAndStep2<T1,T2> between(T1 minValue1, T2 minValue2)
between(Row2, Row2)
@Support BetweenAndStep2<T1,T2> between(Field<T1> minValue1, Field<T2> minValue2)
between(Row2, Row2)
@Support BetweenAndStep2<T1,T2> between(Row2<T1,T2> minValue)
between(Row2, Row2)
@Support BetweenAndStep2<T1,T2> between(Record2<T1,T2> minValue)
between(Row2, Row2)
@Support Condition between(Row2<T1,T2> minValue, Row2<T1,T2> maxValue)
This is the same as calling between(minValue).and(maxValue)
The expression A BETWEEN B AND C
is equivalent to the
expression A >= B AND A <= C
for those SQL dialects that do
not properly support the BETWEEN
predicate for row value
expressions
@Support Condition between(Record2<T1,T2> minValue, Record2<T1,T2> maxValue)
This is the same as calling between(minValue).and(maxValue)
between(Row2, Row2)
@Support BetweenAndStep2<T1,T2> betweenSymmetric(T1 minValue1, T2 minValue2)
betweenSymmetric(Row2, Row2)
@Support BetweenAndStep2<T1,T2> betweenSymmetric(Field<T1> minValue1, Field<T2> minValue2)
betweenSymmetric(Row2, Row2)
@Support BetweenAndStep2<T1,T2> betweenSymmetric(Row2<T1,T2> minValue)
betweenSymmetric(Row2, Row2)
@Support BetweenAndStep2<T1,T2> betweenSymmetric(Record2<T1,T2> minValue)
betweenSymmetric(Row2, Row2)
@Support Condition betweenSymmetric(Row2<T1,T2> minValue, Row2<T1,T2> maxValue)
This is the same as calling betweenSymmetric(minValue).and(maxValue)
The expression A BETWEEN SYMMETRIC B AND C
is equivalent to
the expression (A >= B AND A <= C) OR (A >= C AND A <= B)
for those SQL dialects that do not properly support the
BETWEEN
predicate for row value expressions
@Support Condition betweenSymmetric(Record2<T1,T2> minValue, Record2<T1,T2> maxValue)
This is the same as calling betweenSymmetric(minValue).and(maxValue)
betweenSymmetric(Row2, Row2)
@Support BetweenAndStep2<T1,T2> notBetween(T1 minValue1, T2 minValue2)
between(Row2, Row2)
@Support BetweenAndStep2<T1,T2> notBetween(Field<T1> minValue1, Field<T2> minValue2)
notBetween(Row2, Row2)
@Support BetweenAndStep2<T1,T2> notBetween(Row2<T1,T2> minValue)
notBetween(Row2, Row2)
@Support BetweenAndStep2<T1,T2> notBetween(Record2<T1,T2> minValue)
notBetween(Row2, Row2)
@Support Condition notBetween(Row2<T1,T2> minValue, Row2<T1,T2> maxValue)
This is the same as calling notBetween(minValue).and(maxValue)
The expression A NOT BETWEEN B AND C
is equivalent to the
expression A < B OR A > C
for those SQL dialects that do
not properly support the BETWEEN
predicate for row value
expressions
@Support Condition notBetween(Record2<T1,T2> minValue, Record2<T1,T2> maxValue)
This is the same as calling notBetween(minValue).and(maxValue)
notBetween(Row2, Row2)
@Support BetweenAndStep2<T1,T2> notBetweenSymmetric(T1 minValue1, T2 minValue2)
notBetweenSymmetric(Row2, Row2)
@Support BetweenAndStep2<T1,T2> notBetweenSymmetric(Field<T1> minValue1, Field<T2> minValue2)
notBetweenSymmetric(Row2, Row2)
@Support BetweenAndStep2<T1,T2> notBetweenSymmetric(Row2<T1,T2> minValue)
notBetweenSymmetric(Row2, Row2)
@Support BetweenAndStep2<T1,T2> notBetweenSymmetric(Record2<T1,T2> minValue)
notBetweenSymmetric(Row2, Row2)
@Support Condition notBetweenSymmetric(Row2<T1,T2> minValue, Row2<T1,T2> maxValue)
This is the same as calling notBetweenSymmetric(minValue).and(maxValue)
The expression A NOT BETWEEN SYMMETRIC B AND C
is equivalent
to the expression (A < B OR A > C) AND (A < C OR A > B)
for
those SQL dialects that do not properly support the BETWEEN
predicate for row value expressions
@Support Condition notBetweenSymmetric(Record2<T1,T2> minValue, Record2<T1,T2> maxValue)
This is the same as calling notBetweenSymmetric(minValue).and(maxValue)
notBetweenSymmetric(Row2, Row2)
@Support Condition in(Collection<? extends Row2<T1,T2>> rows)
Row IN predicates can be emulated in those databases that do not support
such predicates natively: (A, B) IN ((1, 2), (3, 4))
is
equivalent to ((A, B) = (1, 2)) OR ((A, B) = (3, 4))
, which
is equivalent to (A = 1 AND B = 2) OR (A = 3 AND B = 4)
Note that generating dynamic SQL with arbitrarylength
IN
predicates can cause cursor cache contention in some
databases that use unique SQL strings as a statement identifier (e.g.
SQLDialect.ORACLE
). In order to prevent such problems, you could
use Settings.isInListPadding()
to produce less distinct SQL
strings (see also
[#5600]), or you
could avoid IN
lists, and replace them with:
IN
predicates on temporary tablesIN
predicates on unnested array bind variables@Support Condition in(Result<? extends Record2<T1,T2>> result)
Row IN predicates can be emulated in those databases that do not support
such predicates natively: (A, B) IN ((1, 2), (3, 4))
is
equivalent to ((A, B) = (1, 2)) OR ((A, B) = (3, 4))
, which
is equivalent to (A = 1 AND B = 2) OR (A = 3 AND B = 4)
Note that generating dynamic SQL with arbitrarylength
IN
predicates can cause cursor cache contention in some
databases that use unique SQL strings as a statement identifier (e.g.
SQLDialect.ORACLE
). In order to prevent such problems, you could
use Settings.isInListPadding()
to produce less distinct SQL
strings (see also
[#5600]), or you
could avoid IN
lists, and replace them with:
IN
predicates on temporary tablesIN
predicates on unnested array bind variables@Support Condition in(Row2<T1,T2>... rows)
Note that generating dynamic SQL with arbitrarylength
IN
predicates can cause cursor cache contention in some
databases that use unique SQL strings as a statement identifier (e.g.
SQLDialect.ORACLE
). In order to prevent such problems, you could
use Settings.isInListPadding()
to produce less distinct SQL
strings (see also
[#5600]), or you
could avoid IN
lists, and replace them with:
IN
predicates on temporary tablesIN
predicates on unnested array bind variablesin(Collection)
@Support Condition in(Record2<T1,T2>... record)
Note that generating dynamic SQL with arbitrarylength
IN
predicates can cause cursor cache contention in some
databases that use unique SQL strings as a statement identifier (e.g.
SQLDialect.ORACLE
). In order to prevent such problems, you could
use Settings.isInListPadding()
to produce less distinct SQL
strings (see also
[#5600]), or you
could avoid IN
lists, and replace them with:
IN
predicates on temporary tablesIN
predicates on unnested array bind variablesin(Collection)
@Support Condition in(Select<? extends Record2<T1,T2>> select)
in(Collection)
@Support Condition notIn(Collection<? extends Row2<T1,T2>> rows)
Row NOT IN predicates can be emulated in those databases that do not
support such predicates natively:
(A, B) NOT IN ((1, 2), (3, 4))
is equivalent to
NOT(((A, B) = (1, 2)) OR ((A, B) = (3, 4)))
, which is
equivalent to NOT((A = 1 AND B = 2) OR (A = 3 AND B = 4))
Note that generating dynamic SQL with arbitrarylength
NOT IN
predicates can cause cursor cache contention in some
databases that use unique SQL strings as a statement identifier (e.g.
SQLDialect.ORACLE
). In order to prevent such problems, you could
use Settings.isInListPadding()
to produce less distinct SQL
strings (see also
[#5600]), or you
could avoid IN
lists, and replace them with:
NOT IN
predicates on temporary tablesNOT IN
predicates on unnested array bind variables@Support Condition notIn(Result<? extends Record2<T1,T2>> result)
Row NOT IN predicates can be emulated in those databases that do not
support such predicates natively:
(A, B) NOT IN ((1, 2), (3, 4))
is equivalent to
NOT(((A, B) = (1, 2)) OR ((A, B) = (3, 4)))
, which is
equivalent to NOT((A = 1 AND B = 2) OR (A = 3 AND B = 4))
Note that generating dynamic SQL with arbitrarylength
NOT IN
predicates can cause cursor cache contention in some
databases that use unique SQL strings as a statement identifier (e.g.
SQLDialect.ORACLE
). In order to prevent such problems, you could
use Settings.isInListPadding()
to produce less distinct SQL
strings (see also
[#5600]), or you
could avoid IN
lists, and replace them with:
NOT IN
predicates on temporary tablesNOT IN
predicates on unnested array bind variables@Support Condition notIn(Row2<T1,T2>... rows)
Note that generating dynamic SQL with arbitrarylength
NOT IN
predicates can cause cursor cache contention in some
databases that use unique SQL strings as a statement identifier (e.g.
SQLDialect.ORACLE
). In order to prevent such problems, you could
use Settings.isInListPadding()
to produce less distinct SQL
strings (see also
[#5600]), or you
could avoid IN
lists, and replace them with:
NOT IN
predicates on temporary tablesNOT IN
predicates on unnested array bind variablesnotIn(Collection)
@Support Condition notIn(Record2<T1,T2>... record)
Note that generating dynamic SQL with arbitrarylength
NOT IN
predicates can cause cursor cache contention in some
databases that use unique SQL strings as a statement identifier (e.g.
SQLDialect.ORACLE
). In order to prevent such problems, you could
use Settings.isInListPadding()
to produce less distinct SQL
strings (see also
[#5600]), or you
could avoid IN
lists, and replace them with:
NOT IN
predicates on temporary tablesNOT IN
predicates on unnested array bind variablesnotIn(Collection)
@Support Condition notIn(Select<? extends Record2<T1,T2>> select)
notIn(Collection)
@Support Condition overlaps(T1 t1, T2 t2)
The SQL standard specifies a temporal OVERLAPS
predicate,
which comes in two flavours:
(DATE, DATE) OVERLAPS (DATE, DATE)
(DATE, INTERVAL) OVERLAPS (DATE, INTERVAL)
jOOQ also supports arbitrary 2degree row value expression comparisons,
by emulating them as such
 This predicate
(A, B) OVERLAPS (C, D)
 can be emulated as such
(C <= B) AND (A <= D)
@Support Condition overlaps(Field<T1> t1, Field<T2> t2)
The SQL standard specifies a temporal OVERLAPS
predicate,
which comes in two flavours:
(DATE, DATE) OVERLAPS (DATE, DATE)
(DATE, INTERVAL) OVERLAPS (DATE, INTERVAL)
jOOQ also supports arbitrary 2degree row value expression comparisons,
by emulating them as such
 This predicate
(A, B) OVERLAPS (C, D)
 can be emulated as such
(C <= B) AND (A <= D)
@Support Condition overlaps(Row2<T1,T2> row)
The SQL standard specifies a temporal OVERLAPS
predicate,
which comes in two flavours:
(DATE, DATE) OVERLAPS (DATE, DATE)
(DATE, INTERVAL) OVERLAPS (DATE, INTERVAL)
jOOQ also supports arbitrary 2degree row value expression comparisons,
by emulating them as such
 This predicate
(A, B) OVERLAPS (C, D)
 can be emulated as such
(C <= B) AND (A <= D)
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