Package | Description |
---|---|
org.jooq |
The
org.jooq package contains jOOQ's public API. |
org.jooq.impl |
The
org.jooq.impl package contains jOOQ's implementation classes. |
Modifier and Type | Method and Description |
---|---|
Row1<T1> |
Record1.fieldsRow()
Get this record's fields as a
Row1 |
Row1<T1> |
Record1.valuesRow()
Get this record's values as a
Row1 |
Modifier and Type | Method and Description |
---|---|
<T1> void |
UpdateQuery.addValues(Row1<T1> row,
Row1<T1> value)
Specify a multi-column set clause for the
UPDATE statement. |
<T1> void |
UpdateQuery.addValues(Row1<T1> row,
Row1<T1> value)
Specify a multi-column set clause for the
UPDATE statement. |
<T1> void |
UpdateQuery.addValues(Row1<T1> row,
Select<? extends Record1<T1>> select)
Specify a multi-column set clause for the
UPDATE statement. |
Condition |
BetweenAndStep1.and(Row1<T1> maxValue)
Create a condition to check this field against some bounds
|
BetweenAndStep1<T1> |
Row1.between(Row1<T1> minValue)
Check if this row value expression is within a range of two other row
value expressions
|
Condition |
Row1.between(Row1<T1> minValue,
Row1<T1> maxValue)
Check if this row value expression is within a range of two other row
value expressions
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 |
Condition |
Row1.between(Row1<T1> minValue,
Row1<T1> maxValue)
Check if this row value expression is within a range of two other row
value expressions
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 |
BetweenAndStep1<T1> |
Row1.betweenSymmetric(Row1<T1> minValue)
Check if this row value expression is within a symmetric range of two
other row value expressions
|
Condition |
Row1.betweenSymmetric(Row1<T1> minValue,
Row1<T1> maxValue)
Check if this row value expression is within a symmetric range of two
other row value expressions
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 |
Condition |
Row1.betweenSymmetric(Row1<T1> minValue,
Row1<T1> maxValue)
Check if this row value expression is within a symmetric range of two
other row value expressions
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 |
Condition |
Row1.eq(Row1<T1> row)
Compare this row value expression with another row value expression for
equality
|
Condition |
Row1.equal(Row1<T1> row)
Compare this row value expression with another row value expression for
equality
Row equality comparison predicates can be simulated in those databases
that do not support such predicates natively:
(A, B) = (1, 2) is equivalent to
A = 1 AND B = 2 |
Condition |
Row1.ge(Row1<T1> row)
Compare this row value expression with another row value expression for
order
|
Condition |
Row1.greaterOrEqual(Row1<T1> row)
Compare this row value expression with another row value expression for
order
Row order comparison predicates can be simulated 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) |
Condition |
Row1.greaterThan(Row1<T1> row)
Compare this row value expression with another row value expression for
order
Row order comparison predicates can be simulated 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) |
Condition |
Row1.gt(Row1<T1> row)
Compare this row value expression with another row value expression for
order
|
Condition |
Row1.in(Row1<T1>... rows)
Compare this row value expression with a set of row value expressions for
equality
|
Condition |
Row1.le(Row1<T1> row)
Compare this row value expression with another row value expression for
order
|
Condition |
Row1.lessOrEqual(Row1<T1> row)
Compare this row value expression with another row value expression for
order
Row order comparison predicates can be simulated 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) |
Condition |
Row1.lessThan(Row1<T1> row)
Compare this row value expression with another row value expression for
order
Row order comparison predicates can be simulated 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) |
Condition |
Row1.lt(Row1<T1> row)
Compare this row value expression with another row value expression for
order
|
Condition |
Row1.ne(Row1<T1> row)
Compare this row value expression with another row value expression for
non-equality
|
BetweenAndStep1<T1> |
Row1.notBetween(Row1<T1> minValue)
Check if this row value expression is not within a range of two other
row value expressions
|
Condition |
Row1.notBetween(Row1<T1> minValue,
Row1<T1> maxValue)
Check if this row value expression is not within a range of two other
row value expressions
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 |
Condition |
Row1.notBetween(Row1<T1> minValue,
Row1<T1> maxValue)
Check if this row value expression is not within a range of two other
row value expressions
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 |
BetweenAndStep1<T1> |
Row1.notBetweenSymmetric(Row1<T1> minValue)
Check if this row value expression is not within a symmetric range of two
other row value expressions
|
Condition |
Row1.notBetweenSymmetric(Row1<T1> minValue,
Row1<T1> maxValue)
Check if this row value expression is not within a symmetric range of two
other row value expressions
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 |
Condition |
Row1.notBetweenSymmetric(Row1<T1> minValue,
Row1<T1> maxValue)
Check if this row value expression is not within a symmetric range of two
other row value expressions
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 |
Condition |
Row1.notEqual(Row1<T1> row)
Compare this row value expression with another row value expression for
non-equality
Row non-equality comparison predicates can be simulated in those
databases that do not support such predicates natively:
(A, B) <> (1, 2) is equivalent to
NOT(A = 1 AND B = 2) |
Condition |
Row1.notIn(Row1<T1>... rows)
Compare this row value expression with a set of row value expressions for
equality
|
<T1> UpdateWhereStep<R> |
UpdateSetFirstStep.set(Row1<T1> row,
Row1<T1> value)
Specify a multi-column set clause for the
UPDATE statement. |
<T1> UpdateWhereStep<R> |
UpdateSetFirstStep.set(Row1<T1> row,
Row1<T1> value)
Specify a multi-column set clause for the
UPDATE statement. |
<T1> UpdateWhereStep<R> |
UpdateSetFirstStep.set(Row1<T1> row,
Select<? extends Record1<T1>> select)
Specify a multi-column set clause for the
UPDATE statement. |
Modifier and Type | Method and Description |
---|---|
Condition |
Row1.in(Collection<? extends Row1<T1>> rows)
Compare this row value expression with a set of row value expressions for
equality
Row IN predicates can be simulated 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) |
Condition |
Row1.notIn(Collection<? extends Row1<T1>> rows)
Compare this row value expression with a set of row value expressions for
equality
Row NOT IN predicates can be simulated 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)) |
Modifier and Type | Method and Description |
---|---|
static <T1> Row1<T1> |
DSL.row(Field<T1> t1)
Create a row value expression of degree
1 . |
static <T1> Row1<T1> |
DSL.row(T1 t1)
Create a row value expression of degree
1 . |
Modifier and Type | Method and Description |
---|---|
static <T1> Table<Record1<T1>> |
DSL.values(Row1<T1>... rows)
Create a
VALUES() expression of degree 1 . |
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