public class DSL
extends java.lang.Object
org.jooq
interfaces.
The DSLContext
and this DSL
are the main entry point for
client code, to access jOOQ classes and functionality. Here, you can
instantiate all of those objects that cannot be accessed through other
objects. For example, to create a Field
representing a constant
value, you can write:
Field<String> field = DSL.val("Hello World")
Another example is the EXISTS
clause, which you can apply to any
SELECT
to form a Condition
:
Condition condition = DSL.exists(DSL.select(...));
For increased fluency and readability of your jOOQ client code, it is
recommended that you static import all methods from the DSL
. For
example:
import static org.jooq.impl.DSL.*;
public class Main {
public static void main(String[] args) {
DSL.select(val("Hello"), inline("World"));
// DSL.val ^^^ ^^^^^^ DSL.inline
}
}
In order to use the "contextual DSL", call one of the various overloaded
using(Configuration)
methods:
// Create and immediately execute a SELECT statement:
DSL.using(connection, dialect)
.selectOne()
.fetch();
DSLContext
Modifier | Constructor and Description |
---|---|
protected |
DSL()
No instances.
|
Modifier and Type | Method and Description |
---|---|
static <T extends java.lang.Number> |
abs(Field<T> field)
Get the absolute value of a numeric field: abs(field).
|
static <T extends java.lang.Number> |
abs(T value)
Get the absolute value of a numeric field: abs(field).
|
static Field<java.math.BigDecimal> |
acos(Field<? extends java.lang.Number> field)
Get the arc cosine(field) function.
|
static Field<java.math.BigDecimal> |
acos(java.lang.Number value)
Get the arc cosine(field) function.
|
static <T> QuantifiedSelect<Record1<T>> |
all(Field<T[]> array)
Create an
ALL quantified select to be used in quantified
comparison predicate expressions. |
static <R extends Record> |
all(Select<R> select)
Create an
ALL quantified select to be used in quantified
comparison predicate expressions. |
static <T> QuantifiedSelect<Record1<T>> |
all(T... array)
Create an
ALL quantified select to be used in quantified
comparison predicate expressions. |
static AlterIndexStep |
alterIndex(Index index)
Create a new DSL
ALTER INDEX statement. |
static AlterIndexStep |
alterIndex(Name index)
Create a new DSL
ALTER INDEX statement. |
static AlterIndexStep |
alterIndex(java.lang.String index)
Create a new DSL
ALTER INDEX statement. |
static AlterIndexStep |
alterIndexIfExists(Index index)
Create a new DSL
ALTER INDEX statement. |
static AlterIndexStep |
alterIndexIfExists(Name index)
Create a new DSL
ALTER INDEX statement. |
static AlterIndexStep |
alterIndexIfExists(java.lang.String index)
Create a new DSL
ALTER INDEX statement. |
static AlterSchemaStep |
alterSchema(Name schema)
Create a new DSL
ALTER SCHEMA statement. |
static AlterSchemaStep |
alterSchema(Schema schema)
Create a new DSL
ALTER SCHEMA statement. |
static AlterSchemaStep |
alterSchema(java.lang.String schema)
Create a new DSL
ALTER SCHEMA statement. |
static AlterSchemaStep |
alterSchemaIfExists(Name schema)
Create a new DSL
ALTER SCHEMA statement. |
static AlterSchemaStep |
alterSchemaIfExists(Schema schema)
Create a new DSL
ALTER SCHEMA statement. |
static AlterSchemaStep |
alterSchemaIfExists(java.lang.String schema)
Create a new DSL
ALTER SCHEMA statement. |
static AlterSequenceStep<java.math.BigInteger> |
alterSequence(Name sequence)
Create a new DSL
ALTER SEQUENCE statement. |
static <T extends java.lang.Number> |
alterSequence(Sequence<T> sequence)
Create a new DSL
ALTER SEQUENCE statement. |
static AlterSequenceStep<java.math.BigInteger> |
alterSequence(java.lang.String sequence)
Create a new DSL
ALTER SEQUENCE statement. |
static AlterSequenceStep<java.math.BigInteger> |
alterSequenceIfExists(Name sequence)
Create a new DSL
ALTER SEQUENCE statement. |
static <T extends java.lang.Number> |
alterSequenceIfExists(Sequence<T> sequence)
Create a new DSL
ALTER SEQUENCE statement. |
static AlterSequenceStep<java.math.BigInteger> |
alterSequenceIfExists(java.lang.String sequence)
Create a new DSL
ALTER SEQUENCE statement. |
static AlterTableStep |
alterTable(Name table)
Create a new DSL
ALTER TABLE statement. |
static AlterTableStep |
alterTable(java.lang.String table)
Create a new DSL
ALTER TABLE statement. |
static AlterTableStep |
alterTable(Table<?> table)
Create a new DSL
ALTER TABLE statement. |
static AlterTableStep |
alterTableIfExists(Name table)
Create a new DSL
ALTER TABLE statement. |
static AlterTableStep |
alterTableIfExists(java.lang.String table)
Create a new DSL
ALTER TABLE statement. |
static AlterTableStep |
alterTableIfExists(Table<?> table)
Create a new DSL
ALTER TABLE statement. |
static AlterViewStep |
alterView(Name view)
Create a new DSL
ALTER VIEW statement. |
static AlterViewStep |
alterView(java.lang.String view)
Create a new DSL
ALTER VIEW statement. |
static AlterViewStep |
alterView(Table<?> view)
Create a new DSL
ALTER VIEW statement. |
static AlterViewStep |
alterViewIfExists(Name view)
Create a new DSL
ALTER VIEW statement. |
static AlterViewStep |
alterViewIfExists(java.lang.String view)
Create a new DSL
ALTER VIEW statement. |
static AlterViewStep |
alterViewIfExists(Table<?> view)
Create a new DSL
ALTER VIEW statement. |
static Condition |
and(java.util.Collection<? extends Condition> conditions)
|
static Condition |
and(Condition... conditions)
|
static Condition |
and(Condition left,
Condition right)
|
static <T> QuantifiedSelect<Record1<T>> |
any(Field<T[]> array)
Create an
ANY quantified select to be used in quantified
comparison predicate expressions. |
static <R extends Record> |
any(Select<R> select)
Create an
ANY quantified select to be used in quantified
comparison predicate expressions. |
static <T> QuantifiedSelect<Record1<T>> |
any(T... array)
Create an
ANY quantified select to be used in quantified
comparison predicate expressions. |
static <T> Field<T[]> |
array(java.util.Collection<? extends Field<T>> fields)
Create an array literal.
|
static <T> Field<T[]> |
array(Field<T>... fields)
Create an array literal.
|
static <T> Field<T[]> |
array(T... values)
Create an array literal.
|
static <T> ArrayAggOrderByStep<T[]> |
arrayAgg(Field<T> field)
Get the
array_agg() aggregate function. |
static <T> ArrayAggOrderByStep<T[]> |
arrayAggDistinct(Field<T> field)
Get the
array_agg() aggregate function. |
static Field<java.lang.Integer> |
ascii(Field<java.lang.String> field)
Get the ascii(field) function.
|
static Field<java.lang.Integer> |
ascii(java.lang.String field)
Get the ascii(field) function.
|
static Field<java.math.BigDecimal> |
asin(Field<? extends java.lang.Number> field)
Get the arc sine(field) function.
|
static Field<java.math.BigDecimal> |
asin(java.lang.Number value)
Get the arc sine(field) function.
|
static Field<java.math.BigDecimal> |
atan(Field<? extends java.lang.Number> field)
Get the arc tangent(field) function.
|
static Field<java.math.BigDecimal> |
atan(java.lang.Number value)
Get the arc tangent(field) function.
|
static Field<java.math.BigDecimal> |
atan2(Field<? extends java.lang.Number> x,
Field<? extends java.lang.Number> y)
Get the atan2(field, y) function.
|
static Field<java.math.BigDecimal> |
atan2(Field<? extends java.lang.Number> x,
java.lang.Number y)
Get the atan2(field, y) function.
|
static Field<java.math.BigDecimal> |
atan2(java.lang.Number x,
Field<? extends java.lang.Number> y)
Get the atan2(field, y) function.
|
static Field<java.math.BigDecimal> |
atan2(java.lang.Number x,
java.lang.Number y)
Get the atan2(field, y) function.
|
static AggregateFunction<java.math.BigDecimal> |
avg(Field<? extends java.lang.Number> field)
Get the average over a numeric field: avg(field).
|
static AggregateFunction<java.math.BigDecimal> |
avgDistinct(Field<? extends java.lang.Number> field)
Get the average over a numeric field: avg(distinct field).
|
static <T extends java.lang.Number> |
bitAnd(Field<T> field1,
Field<T> field2)
The bitwise and operator.
|
static <T extends java.lang.Number> |
bitAnd(Field<T> value1,
T value2)
The bitwise and operator.
|
static <T extends java.lang.Number> |
bitAnd(T value1,
Field<T> value2)
The bitwise and operator.
|
static <T extends java.lang.Number> |
bitAnd(T value1,
T value2)
The bitwise and operator.
|
static Field<java.lang.Integer> |
bitCount(Field<? extends java.lang.Number> field)
The MySQL
BIT_COUNT(field) function, counting the number of
bits that are set in this number. |
static Field<java.lang.Integer> |
bitCount(java.lang.Number value)
The MySQL
BIT_COUNT(field) function, counting the number of
bits that are set in this number. |
static Field<java.lang.Integer> |
bitLength(Field<java.lang.String> field)
Get the bit_length(field) function.
|
static Field<java.lang.Integer> |
bitLength(java.lang.String value)
Get the bit_length(field) function.
|
static <T extends java.lang.Number> |
bitNand(Field<T> field1,
Field<T> field2)
The bitwise not and operator.
|
static <T extends java.lang.Number> |
bitNand(Field<T> value1,
T value2)
The bitwise not and operator.
|
static <T extends java.lang.Number> |
bitNand(T value1,
Field<T> value2)
The bitwise not and operator.
|
static <T extends java.lang.Number> |
bitNand(T value1,
T value2)
The bitwise not and operator.
|
static <T extends java.lang.Number> |
bitNor(Field<T> field1,
Field<T> field2)
The bitwise not or operator.
|
static <T extends java.lang.Number> |
bitNor(Field<T> value1,
T value2)
The bitwise not or operator.
|
static <T extends java.lang.Number> |
bitNor(T value1,
Field<T> value2)
The bitwise not or operator.
|
static <T extends java.lang.Number> |
bitNor(T value1,
T value2)
The bitwise not or operator.
|
static <T extends java.lang.Number> |
bitNot(Field<T> field)
The bitwise not operator.
|
static <T extends java.lang.Number> |
bitNot(T value)
The bitwise not operator.
|
static <T extends java.lang.Number> |
bitOr(Field<T> field1,
Field<T> field2)
The bitwise or operator.
|
static <T extends java.lang.Number> |
bitOr(Field<T> value1,
T value2)
The bitwise or operator.
|
static <T extends java.lang.Number> |
bitOr(T value1,
Field<T> value2)
The bitwise or operator.
|
static <T extends java.lang.Number> |
bitOr(T value1,
T value2)
The bitwise or operator.
|
static <T extends java.lang.Number> |
bitXNor(Field<T> field1,
Field<T> field2)
The bitwise not xor operator.
|
static <T extends java.lang.Number> |
bitXNor(Field<T> value1,
T value2)
The bitwise not xor operator.
|
static <T extends java.lang.Number> |
bitXNor(T value1,
Field<T> value2)
The bitwise not xor operator.
|
static <T extends java.lang.Number> |
bitXNor(T value1,
T value2)
The bitwise not xor operator.
|
static <T extends java.lang.Number> |
bitXor(Field<T> field1,
Field<T> field2)
The bitwise xor operator.
|
static <T extends java.lang.Number> |
bitXor(Field<T> value1,
T value2)
The bitwise xor operator.
|
static <T extends java.lang.Number> |
bitXor(T value1,
Field<T> value2)
The bitwise xor operator.
|
static <T extends java.lang.Number> |
bitXor(T value1,
T value2)
The bitwise xor operator.
|
static AggregateFunction<java.lang.Boolean> |
boolAnd(Condition condition)
Get the every value over a condition: bool_and(condition).
|
static AggregateFunction<java.lang.Boolean> |
boolAnd(Field<java.lang.Boolean> field)
Get the every value over a field: bool_and(field).
|
static AggregateFunction<java.lang.Boolean> |
boolOr(Condition condition)
Get the every value over a condition: bool_and(condition).
|
static AggregateFunction<java.lang.Boolean> |
boolOr(Field<java.lang.Boolean> field)
Get the every value over a field: bool_and(field).
|
static <T> Field<T> |
cast(Field<?> field,
java.lang.Class<T> type)
Cast a field to another type.
|
static <T> Field<T> |
cast(Field<?> field,
DataType<T> type)
Cast a field to another type.
|
static <T> Field<T> |
cast(Field<?> field,
Field<T> as)
Cast a field to the type of another field.
|
static <T> Field<T> |
cast(java.lang.Object value,
java.lang.Class<T> type)
Cast a value to another type.
|
static <T> Field<T> |
cast(java.lang.Object value,
DataType<T> type)
Cast a value to another type.
|
static <T> Field<T> |
cast(java.lang.Object value,
Field<T> as)
Cast a value to the type of another field.
|
static <T> Field<T> |
castNull(java.lang.Class<T> type)
Cast null to a type.
|
static <T> Field<T> |
castNull(DataType<T> type)
Cast null to a type.
|
static <T> Field<T> |
castNull(Field<T> as)
Cast null to the type of another field.
|
static Catalog |
catalog(Name name)
Create a qualified catalog, given its catalog name.
|
static <T extends java.lang.Number> |
ceil(Field<T> field)
Get the smallest integer value not less than [field].
|
static <T extends java.lang.Number> |
ceil(T value)
Get the smallest integer value not less than [this].
|
static Field<java.lang.Integer> |
charLength(Field<java.lang.String> field)
Get the char_length(field) function.
|
static Field<java.lang.Integer> |
charLength(java.lang.String value)
Get the char_length(field) function.
|
static ConstraintFinalStep |
check(Condition condition)
Create an unnamed (system named)
CHECK constraint. |
static Case |
choose()
Initialise a
Case statement. |
static <V> CaseValueStep<V> |
choose(Field<V> value)
Initialise a
Case statement. |
static <V> CaseValueStep<V> |
choose(V value)
Initialise a
Case statement. |
static <T> Field<T> |
coalesce(Field<T> field,
Field<?>... fields)
The
COALESCE(field1, field2, ... , field n) function. |
static <T> Field<T> |
coalesce(Field<T> field,
T value)
The
COALESCE(field, value) function. |
static <T> Field<T> |
coalesce(T value,
T... values)
The
COALESCE(value1, value2, ... , value n) function. |
static <T> Field<T> |
coerce(Field<?> field,
java.lang.Class<T> as)
Coerce this field to another type.
|
static <T> Field<T> |
coerce(Field<?> field,
DataType<T> as)
Coerce a field to another type.
|
static <T> Field<T> |
coerce(Field<?> field,
Field<T> as)
Coerce this field to the type of another field.
|
static <T> Field<T> |
coerce(java.lang.Object value,
java.lang.Class<T> as)
Coerce this field to another type.
|
static <T> Field<T> |
coerce(java.lang.Object value,
DataType<T> as)
Coerce a field to another type.
|
static <T> Field<T> |
coerce(java.lang.Object value,
Field<T> as)
Coerce this field to the type of another field.
|
static <T,A extends ArrayRecord<T>> |
collect(Field<T> field,
java.lang.Class<A> type)
Get the
collect() aggregate function. |
static <T,A extends ArrayRecord<T>> |
collect(Field<T> field,
DataType<A> type)
Get the
collect() aggregate function. |
static <T,A extends ArrayRecord<T>> |
collectDistinct(Field<T> field,
java.lang.Class<A> type)
Get the
collect() aggregate function. |
static <T,A extends ArrayRecord<T>> |
collectDistinct(Field<T> field,
DataType<A> type)
Get the
collect() aggregate function. |
static Field<java.lang.String> |
concat(Field<?>... fields)
Get the concat(field[, field, ...]) function.
|
static Field<java.lang.String> |
concat(Field<java.lang.String> field,
java.lang.String value)
Get the
concat(field, value) function. |
static Field<java.lang.String> |
concat(java.lang.String... values)
Get the concat(value[, value, ...]) function.
|
static Field<java.lang.String> |
concat(java.lang.String value,
Field<java.lang.String> field)
Get the
concat(value, field) function. |
static Condition |
condition(java.lang.Boolean value)
Create a condition from a boolean field.
|
static Condition |
condition(Field<java.lang.Boolean> field)
Create a condition from a boolean field.
|
static Condition |
condition(java.util.Map<Field<?>,?> map)
Create a condition from a map.
|
static Condition |
condition(Operator operator,
java.util.Collection<? extends Condition> conditions)
Return a
Condition that connects all argument
conditions with Operator . |
static Condition |
condition(Operator operator,
Condition... conditions)
Return a
Condition that connects all argument
conditions with Operator . |
static Condition |
condition(Operator operator,
Condition left,
Condition right)
Return a
Condition that connects all argument
conditions with Operator . |
static Condition |
condition(Record record)
|
static Condition |
condition(SQL sql)
Create a new condition holding plain SQL.
|
static Condition |
condition(java.lang.String sql)
Create a new condition holding plain SQL.
|
static Condition |
condition(java.lang.String sql,
java.lang.Object... bindings)
Create a new condition holding plain SQL.
|
static Condition |
condition(java.lang.String sql,
QueryPart... parts)
A custom SQL clause that can render arbitrary SQL elements.
|
static Field<java.lang.Boolean> |
connectByIsCycle()
Retrieve the Oracle-specific
CONNECT_BY_ISCYCLE pseudo-field
(to be used along with CONNECT BY clauses). |
static Field<java.lang.Boolean> |
connectByIsLeaf()
Retrieve the Oracle-specific
CONNECT_BY_ISLEAF pseudo-field
(to be used along with CONNECT BY clauses). |
static <T> Field<T> |
connectByRoot(Field<T> field)
Retrieve the Oracle-specific
CONNECT_BY_ROOT pseudo-column
(to be used along with CONNECT BY clauses). |
static ConstraintTypeStep |
constraint()
Create an unnamed (system named)
CONSTRAINT specification. |
static ConstraintTypeStep |
constraint(Name name)
Create a
CONSTRAINT specification. |
static ConstraintTypeStep |
constraint(java.lang.String name)
Create a
CONSTRAINT specification. |
static Field<java.math.BigDecimal> |
cos(Field<? extends java.lang.Number> field)
Get the cosine(field) function.
|
static Field<java.math.BigDecimal> |
cos(java.lang.Number value)
Get the cosine(field) function.
|
static Field<java.math.BigDecimal> |
cosh(Field<? extends java.lang.Number> field)
Get the hyperbolic cosine function: cosh(field).
|
static Field<java.math.BigDecimal> |
cosh(java.lang.Number value)
Get the hyperbolic cosine function: cosh(field).
|
static Field<java.math.BigDecimal> |
cot(Field<? extends java.lang.Number> field)
Get the cotangent(field) function.
|
static Field<java.math.BigDecimal> |
cot(java.lang.Number value)
Get the cotangent(field) function.
|
static Field<java.math.BigDecimal> |
coth(Field<? extends java.lang.Number> field)
Get the hyperbolic cotangent function: coth(field).
|
static Field<java.math.BigDecimal> |
coth(java.lang.Number value)
Get the hyperbolic cotangent function: coth(field).
|
static AggregateFunction<java.lang.Integer> |
count()
Get the count(*) function.
|
static AggregateFunction<java.lang.Integer> |
count(Field<?> field)
Get the count(field) function.
|
static AggregateFunction<java.lang.Integer> |
count(Table<?> table)
Get the count(table) function.
|
static AggregateFunction<java.lang.Integer> |
countDistinct(Field<?>... fields)
Get the count(distinct field1, field2) function.
|
static AggregateFunction<java.lang.Integer> |
countDistinct(Field<?> field)
Get the count(distinct field) function.
|
static AggregateFunction<java.lang.Integer> |
countDistinct(Table<?> table)
Get the count(distinct table) function.
|
static CreateTableAsStep<Record> |
createGlobalTemporaryTable(Name table)
Create a new DSL
CREATE GLOBAL TEMPORARY TABLE statement. |
static CreateTableAsStep<Record> |
createGlobalTemporaryTable(java.lang.String table)
Create a new DSL
CREATE GLOBAL TEMPORARY TABLE statement. |
static CreateTableAsStep<Record> |
createGlobalTemporaryTable(Table<?> table)
Create a new DSL
CREATE GLOBAL TEMPORARY TABLE statement. |
static CreateIndexStep |
createIndex(Index index)
Create a new DSL
CREATE INDEX statement. |
static CreateIndexStep |
createIndex(Name index)
Create a new DSL
CREATE INDEX statement. |
static CreateIndexStep |
createIndex(java.lang.String index)
Create a new DSL
CREATE INDEX statement. |
static CreateIndexStep |
createIndexIfNotExists(Index index)
Create a new DSL
CREATE INDEX IF NOT EXISTS statement. |
static CreateIndexStep |
createIndexIfNotExists(Name index)
Create a new DSL
CREATE INDEX IF NOT EXISTS statement. |
static CreateIndexStep |
createIndexIfNotExists(java.lang.String index)
Create a new DSL
CREATE INDEX IF NOT EXISTS statement. |
static CreateSchemaFinalStep |
createSchema(Name table)
Create a new DSL
CREATE SCHEMA statement. |
static CreateSchemaFinalStep |
createSchema(Schema schema)
Create a new DSL
CREATE SCHEMA statement. |
static CreateSchemaFinalStep |
createSchema(java.lang.String schema)
Create a new DSL
CREATE SCHEMA statement. |
static CreateSchemaFinalStep |
createSchemaIfNotExists(Name table)
Create a new DSL
CREATE SCHEMA statement. |
static CreateSchemaFinalStep |
createSchemaIfNotExists(Schema schema)
Create a new DSL
CREATE SCHEMA statement. |
static CreateSchemaFinalStep |
createSchemaIfNotExists(java.lang.String schema)
Create a new DSL
CREATE SCHEMA statement. |
static CreateSequenceFinalStep |
createSequence(Name sequence)
Create a new DSL
CREATE SEQUENCE statement. |
static CreateSequenceFinalStep |
createSequence(Sequence<?> sequence)
Create a new DSL
CREATE SEQUENCE statement. |
static CreateSequenceFinalStep |
createSequence(java.lang.String sequence)
Create a new DSL
CREATE SEQUENCE statement. |
static CreateSequenceFinalStep |
createSequenceIfNotExists(Name sequence)
Create a new DSL
CREATE SEQUENCE IF NOT EXISTS statement. |
static CreateSequenceFinalStep |
createSequenceIfNotExists(Sequence<?> sequence)
Create a new DSL
CREATE SEQUENCE IF NOT EXISTS statement. |
static CreateSequenceFinalStep |
createSequenceIfNotExists(java.lang.String sequence)
Create a new DSL
CREATE SEQUENCE IF NOT EXISTS statement. |
static CreateTableAsStep<Record> |
createTable(Name table)
Create a new DSL
CREATE TABLE statement. |
static CreateTableAsStep<Record> |
createTable(java.lang.String table)
Create a new DSL
CREATE TABLE statement. |
static CreateTableAsStep<Record> |
createTable(Table<?> table)
Create a new DSL
CREATE TABLE statement. |
static CreateTableAsStep<Record> |
createTableIfNotExists(Name table)
Create a new DSL
CREATE TABLE statement. |
static CreateTableAsStep<Record> |
createTableIfNotExists(java.lang.String table)
Create a new DSL
CREATE TABLE statement. |
static CreateTableAsStep<Record> |
createTableIfNotExists(Table<?> table)
Create a new DSL
CREATE TABLE statement. |
static CreateTableAsStep<Record> |
createTemporaryTable(Name table)
Create a new DSL
CREATE GLOBAL TEMPORARY TABLE statement. |
static CreateTableAsStep<Record> |
createTemporaryTable(java.lang.String table)
Create a new DSL
CREATE GLOBAL TEMPORARY TABLE statement. |
static CreateTableAsStep<Record> |
createTemporaryTable(Table<?> table)
Create a new DSL
CREATE GLOBAL TEMPORARY TABLE statement. |
static CreateIndexStep |
createUniqueIndex(Index index)
Create a new DSL
CREATE UNIQUE INDEX statement. |
static CreateIndexStep |
createUniqueIndex(Name index)
Create a new DSL
CREATE UNIQUE INDEX statement. |
static CreateIndexStep |
createUniqueIndex(java.lang.String index)
Create a new DSL
CREATE UNIQUE INDEX statement. |
static CreateIndexStep |
createUniqueIndexIfNotExists(Index index)
Create a new DSL
CREATE UNIQUE INDEX IF NOT EXISTS statement. |
static CreateIndexStep |
createUniqueIndexIfNotExists(Name index)
Create a new DSL
CREATE UNIQUE INDEX IF NOT EXISTS statement. |
static CreateIndexStep |
createUniqueIndexIfNotExists(java.lang.String index)
Create a new DSL
CREATE UNIQUE INDEX IF NOT EXISTS statement. |
static CreateViewAsStep |
createView(Name view,
java.util.function.Function<? super Field<?>,? extends Name> fieldNameFunction)
Create a new DSL
CREATE VIEW statement. |
static CreateViewAsStep |
createView(Name view,
Name... fields)
Create a new DSL
CREATE VIEW statement. |
static CreateViewAsStep |
createView(java.lang.String view,
java.util.function.Function<? super Field<?>,? extends java.lang.String> fieldNameFunction)
Create a new DSL
CREATE VIEW statement. |
static CreateViewAsStep |
createView(java.lang.String view,
java.lang.String... fields)
Create a new DSL
CREATE VIEW statement. |
static CreateViewAsStep |
createView(Table<?> view,
Field<?>... fields)
Create a new DSL
CREATE VIEW statement. |
static CreateViewAsStep |
createView(Table<?> view,
java.util.function.Function<? super Field<?>,? extends Field<?>> fieldNameFunction)
Create a new DSL
CREATE VIEW statement. |
static CreateViewAsStep |
createViewIfNotExists(Name view,
java.util.function.Function<? super Field<?>,? extends Name> fieldNameFunction)
Create a new DSL
CREATE VIEW IF NOT EXISTS statement. |
static CreateViewAsStep |
createViewIfNotExists(Name view,
Name... fields)
Create a new DSL
CREATE VIEW IF NOT EXISTS statement. |
static CreateViewAsStep |
createViewIfNotExists(java.lang.String view,
java.util.function.Function<? super Field<?>,? extends java.lang.String> fieldNameFunction)
Create a new DSL
CREATE VIEW IF NOT EXISTS statement. |
static CreateViewAsStep |
createViewIfNotExists(java.lang.String view,
java.lang.String... fields)
Create a new DSL
CREATE VIEW IF NOT EXISTS statement. |
static CreateViewAsStep |
createViewIfNotExists(Table<?> view,
Field<?>... fields)
Create a new DSL
CREATE VIEW IF NOT EXISTS statement. |
static CreateViewAsStep |
createViewIfNotExists(Table<?> view,
java.util.function.Function<? super Field<?>,? extends Field<?>> fieldNameFunction)
Create a new DSL
CREATE VIEW IF NOT EXISTS statement. |
static GroupField |
cube(Field<?>... fields)
Create a CUBE(field1, field2, .., fieldn) grouping field.
|
static GroupField |
cube(FieldOrRow... fields)
Create a CUBE(field1, field2, .., fieldn) grouping field.
|
static WindowOverStep<java.math.BigDecimal> |
cumeDist()
The
cume_dist() over ([analytic clause]) function. |
static OrderedAggregateFunction<java.math.BigDecimal> |
cumeDist(java.util.Collection<? extends Field<?>> fields)
The
cume_dist(expr) within group (order by [order clause])
ordered-set aggregate function. |
static OrderedAggregateFunction<java.math.BigDecimal> |
cumeDist(Field<?>... fields)
The
cume_dist(expr) within group (order by [order clause])
ordered-set aggregate function. |
static Field<java.sql.Date> |
currentDate()
Get the current_date() function returning a SQL standard
SQLDataType.DATE type. |
static Field<java.time.LocalDate> |
currentLocalDate()
Get the current_date() function returning a SQL standard
SQLDataType.DATE type. |
static Field<java.time.LocalDateTime> |
currentLocalDateTime()
Get the current_timestamp() function returning a SQL standard
SQLDataType.TIMESTAMP type. |
static Field<java.time.LocalTime> |
currentLocalTime()
Get the current_time() function returning a SQL standard
SQLDataType.TIME type. |
static Field<java.time.OffsetDateTime> |
currentOffsetDateTime()
Get the current_timestamp() function.
|
static Field<java.time.OffsetTime> |
currentOffsetTime()
Get the current_time() function.
|
static Field<java.lang.String> |
currentSchema()
Get the
current_schema() function. |
static Field<java.sql.Time> |
currentTime()
Get the current_time() function returning a SQL standard
SQLDataType.TIME type. |
static Field<java.sql.Timestamp> |
currentTimestamp()
Get the current_timestamp() function returning a SQL standard
SQLDataType.TIMESTAMP type. |
static Field<java.lang.String> |
currentUser()
Get the
current_user() function. |
static Field<java.sql.Date> |
date(java.util.Date value)
Convert a temporal value to a
DATE . |
static Field<java.sql.Date> |
date(Field<? extends java.util.Date> field)
Convert a temporal value to a
DATE . |
static Field<java.sql.Date> |
date(java.lang.String value)
Convert a string value to a
DATE . |
static Field<java.sql.Date> |
dateAdd(java.sql.Date date,
Field<? extends java.lang.Number> interval,
DatePart datePart)
Add an interval to a date, given a date part.
|
static Field<java.sql.Date> |
dateAdd(java.sql.Date date,
java.lang.Number interval)
Add an interval to a date.
|
static Field<java.sql.Date> |
dateAdd(java.sql.Date date,
java.lang.Number interval,
DatePart datePart)
Add an interval to a date, given a date part.
|
static Field<java.sql.Date> |
dateAdd(Field<java.sql.Date> date,
Field<? extends java.lang.Number> interval)
Add an interval to a date.
|
static Field<java.sql.Date> |
dateAdd(Field<java.sql.Date> date,
Field<? extends java.lang.Number> interval,
DatePart datePart)
Add an interval to a date, given a date part.
|
static Field<java.sql.Date> |
dateAdd(Field<java.sql.Date> date,
java.lang.Number interval,
DatePart datePart)
Add an interval to a date, given a date part.
|
static Field<java.lang.Integer> |
dateDiff(java.sql.Date date1,
java.sql.Date date2)
Get the date difference in number of days.
|
static Field<java.lang.Integer> |
dateDiff(java.sql.Date date1,
Field<java.sql.Date> date2)
Get the date difference in number of days.
|
static Field<java.lang.Integer> |
dateDiff(Field<java.sql.Date> date1,
java.sql.Date date2)
Get the date difference in number of days.
|
static Field<java.lang.Integer> |
dateDiff(Field<java.sql.Date> date1,
Field<java.sql.Date> date2)
Get the date difference in number of days.
|
static Field<java.sql.Date> |
dateSub(java.sql.Date date,
Field<? extends java.lang.Number> interval,
DatePart datePart)
Subtract an interval from a date, given a date part.
|
static Field<java.sql.Date> |
dateSub(java.sql.Date date,
java.lang.Number interval)
Subtract an interval from a date.
|
static Field<java.sql.Date> |
dateSub(java.sql.Date date,
java.lang.Number interval,
DatePart datePart)
Subtract an interval from a date, given a date part.
|
static Field<java.sql.Date> |
dateSub(Field<java.sql.Date> date,
Field<? extends java.lang.Number> interval)
Subtract an interval from a date.
|
static Field<java.sql.Date> |
dateSub(Field<java.sql.Date> date,
Field<? extends java.lang.Number> interval,
DatePart datePart)
Subtract an interval from a date, given a date part.
|
static Field<java.sql.Date> |
dateSub(Field<java.sql.Date> date,
java.lang.Number interval,
DatePart datePart)
Subtract an interval from a date, given a date part.
|
static Field<java.lang.Integer> |
day(java.util.Date value)
Get the day part of a date.
|
static Field<java.lang.Integer> |
day(Field<?> field)
Get the day part of a date.
|
static Field<java.lang.Integer> |
day(java.time.temporal.Temporal value)
Get the day part of a date.
|
static Case |
decode()
Initialise a
Case statement. |
static <Z,T> Field<Z> |
decode(Field<T> value,
Field<T> search,
Field<Z> result)
Gets the Oracle-style
DECODE(expression, search, result[, search , result]... [, default])
function. |
static <Z,T> Field<Z> |
decode(Field<T> value,
Field<T> search,
Field<Z> result,
Field<?>... more)
Gets the Oracle-style
DECODE(expression, search, result[, search , result]... [, default])
function. |
static <Z,T> Field<Z> |
decode(T value,
T search,
Z result)
Gets the Oracle-style
DECODE(expression, search, result[, search , result]... [, default])
function. |
static <Z,T> Field<Z> |
decode(T value,
T search,
Z result,
java.lang.Object... more)
Gets the Oracle-style
DECODE(expression, search, result[, search , result]... [, default])
function. |
static Field<java.lang.Object> |
defaultValue()
Create a
DEFAULT keyword for use with INSERT ,
UPDATE , or MERGE statements. |
static <T> Field<T> |
defaultValue(java.lang.Class<T> type)
Create a
DEFAULT keyword for use with INSERT ,
UPDATE , or MERGE statements. |
static <T> Field<T> |
defaultValue(DataType<T> type)
Create a
DEFAULT keyword for use with INSERT ,
UPDATE , or MERGE statements. |
static <T> Field<T> |
defaultValue(Field<T> field)
Create a
DEFAULT keyword for use with INSERT ,
UPDATE , or MERGE statements. |
static Field<java.math.BigDecimal> |
deg(Field<? extends java.lang.Number> field)
Calculate degrees from radians from this field.
|
static Field<java.math.BigDecimal> |
deg(java.lang.Number value)
Calculate degrees from radians from this field.
|
static <R extends Record> |
delete(Table<R> table)
Create a new DSL delete statement.
|
static <R extends Record> |
deleteFrom(Table<R> table)
Create a new DSL delete statement.
|
static WindowOverStep<java.lang.Integer> |
denseRank()
The
dense_rank() over ([analytic clause]) function. |
static OrderedAggregateFunction<java.lang.Integer> |
denseRank(java.util.Collection<? extends Field<?>> fields)
The
dense_rank(expr) within group (order by [order clause])
ordered-set aggregate function. |
static OrderedAggregateFunction<java.lang.Integer> |
denseRank(Field<?>... fields)
The
dense_rank(expr) within group (order by [order clause])
ordered-set aggregate function. |
static DropIndexOnStep |
dropIndex(Index index)
Create a new DSL
DROP INDEX statement. |
static DropIndexOnStep |
dropIndex(Name index)
Create a new DSL
DROP INDEX statement. |
static DropIndexOnStep |
dropIndex(java.lang.String index)
Create a new DSL
DROP INDEX statement. |
static DropIndexOnStep |
dropIndexIfExists(Index index)
Create a new DSL
DROP INDEX IF EXISTS statement. |
static DropIndexOnStep |
dropIndexIfExists(Name index)
Create a new DSL
DROP INDEX IF EXISTS statement. |
static DropIndexOnStep |
dropIndexIfExists(java.lang.String index)
Create a new DSL
DROP INDEX IF EXISTS statement. |
static DropSchemaStep |
dropSchema(Name schema)
Create a new DSL
DROP SCHEMA statement. |
static DropSchemaStep |
dropSchema(Schema schema)
Create a new DSL
DROP SCHEMA statement. |
static DropSchemaStep |
dropSchema(java.lang.String schema)
Create a new DSL
DROP SCHEMA statement. |
static DropSchemaStep |
dropSchemaIfExists(Name schema)
Create a new DSL
DROP SCHEMA statement. |
static DropSchemaStep |
dropSchemaIfExists(Schema schema)
Create a new DSL
DROP SCHEMA statement. |
static DropSchemaStep |
dropSchemaIfExists(java.lang.String schema)
Create a new DSL
DROP SCHEMA statement. |
static <T extends java.lang.Number> |
dropSequence(Name sequence)
Create a new DSL
DROP SEQUENCE statement. |
static <T extends java.lang.Number> |
dropSequence(Sequence<?> sequence)
Create a new DSL
DROP SEQUENCE statement. |
static <T extends java.lang.Number> |
dropSequence(java.lang.String sequence)
Create a new DSL
DROP SEQUENCE statement. |
static <T extends java.lang.Number> |
dropSequenceIfExists(Name sequence)
Create a new DSL
DROP SEQUENCE IF EXISTS statement. |
static <T extends java.lang.Number> |
dropSequenceIfExists(Sequence<?> sequence)
Create a new DSL
DROP SEQUENCE IF EXISTS statement. |
static <T extends java.lang.Number> |
dropSequenceIfExists(java.lang.String sequence)
Create a new DSL
DROP SEQUENCE IF EXISTS statement. |
static DropTableStep |
dropTable(Name table)
Create a new DSL
DROP TABLE statement. |
static DropTableStep |
dropTable(java.lang.String table)
Create a new DSL
DROP TABLE statement. |
static DropTableStep |
dropTable(Table<?> table)
Create a new DSL
DROP TABLE statement. |
static DropTableStep |
dropTableIfExists(Name table)
Create a new DSL
DROP TABLE IF EXISTS statement. |
static DropTableStep |
dropTableIfExists(java.lang.String table)
Create a new DSL
DROP TABLE IF EXISTS statement. |
static DropTableStep |
dropTableIfExists(Table<?> table)
Create a new DSL
DROP TABLE IF EXISTS statement. |
static DropViewFinalStep |
dropView(Name view)
Create a new DSL
DROP VIEW statement. |
static DropViewFinalStep |
dropView(java.lang.String view)
Create a new DSL
DROP VIEW statement. |
static DropViewFinalStep |
dropView(Table<?> view)
Create a new DSL
DROP VIEW statement. |
static DropViewFinalStep |
dropViewIfExists(Name view)
Create a new DSL
DROP VIEW IF EXISTS statement. |
static DropViewFinalStep |
dropViewIfExists(java.lang.String view)
Create a new DSL
DROP VIEW IF EXISTS statement. |
static DropViewFinalStep |
dropViewIfExists(Table<?> view)
Create a new DSL
DROP VIEW IF EXISTS statement. |
static Table<Record> |
dual()
The
DUAL table to be used for syntactic completeness. |
static Field<java.math.BigDecimal> |
e()
The
E literal (Euler number). |
static Field<java.lang.String> |
escape(Field<java.lang.String> field,
char escape)
Convenience method for
replace(Field, String, String) to escape
data for use with Field.like(Field, char) . |
static java.lang.String |
escape(java.lang.String value,
char escape)
Convenience method for
replace(Field, String, String) to escape
data for use with Field.like(Field, char) . |
static AggregateFunction<java.lang.Boolean> |
every(Condition condition)
Get the every value over a condition: every(condition).
|
static AggregateFunction<java.lang.Boolean> |
every(Field<java.lang.Boolean> field)
Get the every value over a field: every(field).
|
static Condition |
exists(Select<?> query)
Create an exists condition.
|
static Field<java.math.BigDecimal> |
exp(Field<? extends java.lang.Number> field)
Get the exp(field) function, taking this field as the power of e.
|
static Field<java.math.BigDecimal> |
exp(java.lang.Number value)
Get the exp(field) function, taking this field as the power of e.
|
static Field<java.lang.Integer> |
extract(java.util.Date value,
DatePart datePart)
Get the extract(field, datePart) function.
|
static Field<java.lang.Integer> |
extract(Field<?> field,
DatePart datePart)
Get the extract(field, datePart) function.
|
static Field<java.lang.Integer> |
extract(java.time.temporal.Temporal value,
DatePart datePart)
Get the extract(field, datePart) function.
|
static False |
falseCondition()
Return a
Condition that will always evaluate to false. |
static Field<java.lang.Boolean> |
field(Condition condition)
Transform a condition into a boolean field.
|
static Field<java.lang.Object> |
field(Name name)
Create a qualified field, given its (qualified) field name.
|
static <T> Field<T> |
field(Name name,
java.lang.Class<T> type)
Create a qualified field, given its (qualified) field name.
|
static <T> Field<T> |
field(Name name,
DataType<T> type)
Create a qualified field, given its (qualified) field name.
|
static <T> Field<T> |
field(Select<? extends Record1<T>> select)
Transform a subquery into a correlated subquery.
|
static <T> Field<T> |
field(SelectField<T> field)
Wrap a
SelectField in a general-purpose Field |
static Field<java.lang.Object> |
field(SQL sql)
Create a "plain SQL" field.
|
static <T> Field<T> |
field(SQL sql,
java.lang.Class<T> type)
Create a "plain SQL" field.
|
static <T> Field<T> |
field(SQL sql,
DataType<T> type)
Create a "plain SQL" field.
|
static Field<java.lang.Object> |
field(java.lang.String sql)
Create a "plain SQL" field.
|
static <T> Field<T> |
field(java.lang.String sql,
java.lang.Class<T> type)
Create a "plain SQL" field.
|
static <T> Field<T> |
field(java.lang.String sql,
java.lang.Class<T> type,
java.lang.Object... bindings)
Create a "plain SQL" field.
|
static <T> Field<T> |
field(java.lang.String sql,
java.lang.Class<T> type,
QueryPart... parts)
A custom SQL clause that can render arbitrary SQL elements.
|
static <T> Field<T> |
field(java.lang.String sql,
DataType<T> type)
Create a "plain SQL" field.
|
static <T> Field<T> |
field(java.lang.String sql,
DataType<T> type,
java.lang.Object... bindings)
Create a "plain SQL" field.
|
static <T> Field<T> |
field(java.lang.String sql,
DataType<T> type,
QueryPart... parts)
Create a "plain SQL" field.
|
static Field<java.lang.Object> |
field(java.lang.String sql,
java.lang.Object... bindings)
Create a "plain SQL" field.
|
static Field<java.lang.Object> |
field(java.lang.String sql,
QueryPart... parts)
A custom SQL clause that can render arbitrary SQL elements.
|
static <T> Field<T> |
fieldByName(java.lang.Class<T> type,
java.lang.String... qualifiedName)
Deprecated.
- [#3843] - 3.6.0 - use
field(Name, Class) instead |
static <T> Field<T> |
fieldByName(DataType<T> type,
java.lang.String... qualifiedName)
Deprecated.
- [#3843] - 3.6.0 - use
field(Name, DataType) instead |
static Field<java.lang.Object> |
fieldByName(java.lang.String... qualifiedName)
Deprecated.
- [#3843] - 3.6.0 - use
field(Name) instead |
static <T> WindowIgnoreNullsStep<T> |
firstValue(Field<T> field)
The
first_value(field) over ([analytic clause]) function. |
static <T extends java.lang.Number> |
floor(Field<T> field)
Get the largest integer value not greater than [this].
|
static <T extends java.lang.Number> |
floor(T value)
Get the largest integer value not greater than [this].
|
static ConstraintForeignKeyReferencesStepN |
foreignKey(Field<?>... fields)
Add a
FOREIGN KEY clause to the CONSTRAINT . |
static <T1> ConstraintForeignKeyReferencesStep1<T1> |
foreignKey(Field<T1> field1)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2> ConstraintForeignKeyReferencesStep2<T1,T2> |
foreignKey(Field<T1> field1,
Field<T2> field2)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3> ConstraintForeignKeyReferencesStep3<T1,T2,T3> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19,
Field<T20> field20)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19,
Field<T20> field20,
Field<T21> field21)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> |
foreignKey(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19,
Field<T20> field20,
Field<T21> field21,
Field<T22> field22)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStepN |
foreignKey(Name... fields)
Add a
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep1<?> |
foreignKey(Name field1)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep2<?,?> |
foreignKey(Name field1,
Name field2)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep3<?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep4<?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep5<?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep6<?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep7<?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep8<?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep9<?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep10<?,?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9,
Name field10)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep11<?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9,
Name field10,
Name field11)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep12<?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9,
Name field10,
Name field11,
Name field12)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep13<?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9,
Name field10,
Name field11,
Name field12,
Name field13)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep14<?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9,
Name field10,
Name field11,
Name field12,
Name field13,
Name field14)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep15<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9,
Name field10,
Name field11,
Name field12,
Name field13,
Name field14,
Name field15)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep16<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9,
Name field10,
Name field11,
Name field12,
Name field13,
Name field14,
Name field15,
Name field16)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep17<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9,
Name field10,
Name field11,
Name field12,
Name field13,
Name field14,
Name field15,
Name field16,
Name field17)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep18<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9,
Name field10,
Name field11,
Name field12,
Name field13,
Name field14,
Name field15,
Name field16,
Name field17,
Name field18)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep19<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9,
Name field10,
Name field11,
Name field12,
Name field13,
Name field14,
Name field15,
Name field16,
Name field17,
Name field18,
Name field19)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep20<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9,
Name field10,
Name field11,
Name field12,
Name field13,
Name field14,
Name field15,
Name field16,
Name field17,
Name field18,
Name field19,
Name field20)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep21<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9,
Name field10,
Name field11,
Name field12,
Name field13,
Name field14,
Name field15,
Name field16,
Name field17,
Name field18,
Name field19,
Name field20,
Name field21)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep22<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(Name field1,
Name field2,
Name field3,
Name field4,
Name field5,
Name field6,
Name field7,
Name field8,
Name field9,
Name field10,
Name field11,
Name field12,
Name field13,
Name field14,
Name field15,
Name field16,
Name field17,
Name field18,
Name field19,
Name field20,
Name field21,
Name field22)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStepN |
foreignKey(java.lang.String... fields)
Add a
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep1<?> |
foreignKey(java.lang.String field1)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep2<?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep3<?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep4<?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep5<?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep6<?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep7<?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep8<?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep9<?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep10<?,?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9,
java.lang.String field10)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep11<?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9,
java.lang.String field10,
java.lang.String field11)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep12<?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9,
java.lang.String field10,
java.lang.String field11,
java.lang.String field12)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep13<?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9,
java.lang.String field10,
java.lang.String field11,
java.lang.String field12,
java.lang.String field13)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep14<?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9,
java.lang.String field10,
java.lang.String field11,
java.lang.String field12,
java.lang.String field13,
java.lang.String field14)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep15<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9,
java.lang.String field10,
java.lang.String field11,
java.lang.String field12,
java.lang.String field13,
java.lang.String field14,
java.lang.String field15)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep16<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9,
java.lang.String field10,
java.lang.String field11,
java.lang.String field12,
java.lang.String field13,
java.lang.String field14,
java.lang.String field15,
java.lang.String field16)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep17<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9,
java.lang.String field10,
java.lang.String field11,
java.lang.String field12,
java.lang.String field13,
java.lang.String field14,
java.lang.String field15,
java.lang.String field16,
java.lang.String field17)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep18<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9,
java.lang.String field10,
java.lang.String field11,
java.lang.String field12,
java.lang.String field13,
java.lang.String field14,
java.lang.String field15,
java.lang.String field16,
java.lang.String field17,
java.lang.String field18)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep19<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9,
java.lang.String field10,
java.lang.String field11,
java.lang.String field12,
java.lang.String field13,
java.lang.String field14,
java.lang.String field15,
java.lang.String field16,
java.lang.String field17,
java.lang.String field18,
java.lang.String field19)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep20<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9,
java.lang.String field10,
java.lang.String field11,
java.lang.String field12,
java.lang.String field13,
java.lang.String field14,
java.lang.String field15,
java.lang.String field16,
java.lang.String field17,
java.lang.String field18,
java.lang.String field19,
java.lang.String field20)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep21<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9,
java.lang.String field10,
java.lang.String field11,
java.lang.String field12,
java.lang.String field13,
java.lang.String field14,
java.lang.String field15,
java.lang.String field16,
java.lang.String field17,
java.lang.String field18,
java.lang.String field19,
java.lang.String field20,
java.lang.String field21)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static ConstraintForeignKeyReferencesStep22<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> |
foreignKey(java.lang.String field1,
java.lang.String field2,
java.lang.String field3,
java.lang.String field4,
java.lang.String field5,
java.lang.String field6,
java.lang.String field7,
java.lang.String field8,
java.lang.String field9,
java.lang.String field10,
java.lang.String field11,
java.lang.String field12,
java.lang.String field13,
java.lang.String field14,
java.lang.String field15,
java.lang.String field16,
java.lang.String field17,
java.lang.String field18,
java.lang.String field19,
java.lang.String field20,
java.lang.String field21,
java.lang.String field22)
Add an unnamed (system named)
FOREIGN KEY clause to the CONSTRAINT . |
static <T> Field<T> |
function(Name name,
java.lang.Class<T> type,
Field<?>... arguments)
function() can be used to access native or user-defined
functions that are not yet or insufficiently supported by jOOQ. |
static <T> Field<T> |
function(Name name,
DataType<T> type,
Field<?>... arguments)
function() can be used to access native or user-defined
functions that are not yet or insufficiently supported by jOOQ. |
static <T> Field<T> |
function(java.lang.String name,
java.lang.Class<T> type,
Field<?>... arguments)
function() can be used to access native or user-defined
functions that are not yet or insufficiently supported by jOOQ. |
static <T> Field<T> |
function(java.lang.String name,
DataType<T> type,
Field<?>... arguments)
function() can be used to access native or user-defined
functions that are not yet or insufficiently supported by jOOQ. |
static Table<Record1<java.lang.Integer>> |
generateSeries(Field<java.lang.Integer> from,
Field<java.lang.Integer> to)
A table function generating a series of values from
from to
to (inclusive). |
static Table<Record1<java.lang.Integer>> |
generateSeries(Field<java.lang.Integer> from,
int to)
A table function generating a series of values from
from to
to (inclusive). |
static Table<Record1<java.lang.Integer>> |
generateSeries(int from,
Field<java.lang.Integer> to)
A table function generating a series of values from
from to
to (inclusive). |
static Table<Record1<java.lang.Integer>> |
generateSeries(int from,
int to)
A table function generating a series of values from
from to
to (inclusive). |
static <T> DataType<T> |
getDataType(java.lang.Class<T> type)
Get the default data type for the
DSLContext 's underlying
SQLDialect and a given Java type. |
static <T> Field<T> |
greatest(Field<T> field,
Field<?>... others)
Find the greatest among all values.
|
static <T> Field<T> |
greatest(T value,
T... values)
Find the greatest among all values.
|
static GroupConcatOrderByStep |
groupConcat(Field<?> field)
Get the aggregated concatenation for a field.
|
static AggregateFunction<java.lang.String> |
groupConcat(Field<?> field,
java.lang.String separator)
Get the aggregated concatenation for a field.
|
static GroupConcatOrderByStep |
groupConcatDistinct(Field<?> field)
Get the aggregated concatenation for a field.
|
static Field<java.lang.Integer> |
groupId()
Create a
GROUP_ID() aggregation function to be used along
with CUBE , ROLLUP , and
GROUPING SETS groupings. |
static Field<java.lang.Integer> |
grouping(Field<?> field)
Create a GROUPING(field) aggregation field to be used along with
CUBE , ROLLUP , and GROUPING SETS
groupings. |
static Field<java.lang.Integer> |
groupingId(Field<?>... fields)
Create a GROUPING_ID(field1, field2, .., fieldn) aggregation field to be
used along with
CUBE , ROLLUP , and
GROUPING SETS groupings. |
static GroupField |
groupingSets(java.util.Collection<? extends Field<?>>... fieldSets)
Create a GROUPING SETS((field1a, field1b), (field2a), .., (fieldna,
fieldnb)) grouping field.
|
static GroupField |
groupingSets(Field<?>... fields)
Create a GROUPING SETS(field1, field2, .., fieldn) grouping field where
each grouping set only consists of a single field.
|
static GroupField |
groupingSets(Field<?>[]... fieldSets)
Create a GROUPING SETS((field1a, field1b), (field2a), .., (fieldna,
fieldnb)) grouping field.
|
static Field<java.lang.Integer> |
hour(java.util.Date value)
Get the hour part of a date.
|
static Field<java.lang.Integer> |
hour(Field<?> field)
Get the hour part of a date.
|
static Field<java.lang.Integer> |
hour(java.time.temporal.Temporal value)
Get the hour part of a date.
|
static <T> Field<T> |
ifnull(Field<T> value,
Field<T> defaultValue)
The
IFNULL() function, a synonym of NVL() . |
static <T> Field<T> |
ifnull(Field<T> value,
T defaultValue)
The
IFNULL() function, a synonym of NVL() . |
static <T> Field<T> |
ifnull(T value,
Field<T> defaultValue)
The
IFNULL() function, a synonym of NVL() . |
static <T> Field<T> |
ifnull(T value,
T defaultValue)
The
IFNULL() function, a synonym of NVL() . |
static Index |
index(Name name)
Create a qualified index reference by name.
|
static Param<java.math.BigDecimal> |
inline(java.math.BigDecimal value)
Create a bind value that is always inlined.
|
static Param<java.math.BigInteger> |
inline(java.math.BigInteger value)
Create a bind value that is always inlined.
|
static Param<java.lang.Boolean> |
inline(boolean value)
Create a bind value that is always inlined.
|
static Param<java.lang.Boolean> |
inline(java.lang.Boolean value)
Create a bind value that is always inlined.
|
static Param<java.lang.Byte> |
inline(byte value)
Create a bind value that is always inlined.
|
static Param<java.lang.Byte> |
inline(java.lang.Byte value)
Create a bind value that is always inlined.
|
static Param<byte[]> |
inline(byte[] value)
Create a bind value that is always inlined.
|
static Param<java.lang.String> |
inline(char character)
Create a bind value, that is always inlined.
|
static Param<java.lang.String> |
inline(java.lang.Character character)
Create a bind value, that is always inlined.
|
static Param<java.lang.String> |
inline(java.lang.CharSequence character)
Create a bind value, that is always inlined.
|
static Param<java.sql.Date> |
inline(java.sql.Date value)
Create a bind value that is always inlined.
|
static Param<java.lang.Double> |
inline(double value)
Create a bind value that is always inlined.
|
static Param<java.lang.Double> |
inline(java.lang.Double value)
Create a bind value that is always inlined.
|
static Param<java.lang.Float> |
inline(float value)
Create a bind value that is always inlined.
|
static Param<java.lang.Float> |
inline(java.lang.Float value)
Create a bind value that is always inlined.
|
static Param<java.lang.Integer> |
inline(int value)
Create a bind value that is always inlined.
|
static Param<java.lang.Integer> |
inline(java.lang.Integer value)
Create a bind value that is always inlined.
|
static Param<java.time.LocalDate> |
inline(java.time.LocalDate value)
Create a bind value that is always inlined.
|
static Param<java.time.LocalDateTime> |
inline(java.time.LocalDateTime value)
Create a bind value that is always inlined.
|
static Param<java.time.LocalTime> |
inline(java.time.LocalTime value)
Create a bind value that is always inlined.
|
static Param<java.lang.Long> |
inline(long value)
Create a bind value that is always inlined.
|
static Param<java.lang.Long> |
inline(java.lang.Long value)
Create a bind value that is always inlined.
|
static <T> Param<T> |
inline(java.lang.Object value,
java.lang.Class<T> type)
Create a bind value, that is always inlined.
|
static <T> Param<T> |
inline(java.lang.Object value,
DataType<T> type)
Create a bind value, that is always inlined.
|
static <T> Param<T> |
inline(java.lang.Object value,
Field<T> field)
Create a bind value, that is always inlined.
|
static Param<java.time.OffsetDateTime> |
inline(java.time.OffsetDateTime value)
Create a bind value that is always inlined.
|
static Param<java.time.OffsetTime> |
inline(java.time.OffsetTime value)
Create a bind value that is always inlined.
|
static Param<java.lang.Short> |
inline(short value)
Create a bind value that is always inlined.
|
static Param<java.lang.Short> |
inline(java.lang.Short value)
Create a bind value that is always inlined.
|
static Param<java.lang.String> |
inline(java.lang.String value)
Create a bind value that is always inlined.
|
static <T> Param<T> |
inline(T value)
Create a bind value, that is always inlined.
|
static Param<java.sql.Time> |
inline(java.sql.Time value)
Create a bind value that is always inlined.
|
static Param<java.sql.Timestamp> |
inline(java.sql.Timestamp value)
Create a bind value that is always inlined.
|
static Param<UByte> |
inline(UByte value)
Create a bind value that is always inlined.
|
static Param<UInteger> |
inline(UInteger value)
Create a bind value that is always inlined.
|
static Param<ULong> |
inline(ULong value)
Create a bind value that is always inlined.
|
static Param<UShort> |
inline(UShort value)
Create a bind value that is always inlined.
|
static Param<java.util.UUID> |
inline(java.util.UUID value)
Create a bind value that is always inlined.
|
static <R extends Record> |
insertInto(Table<R> into)
Create a new DSL insert statement.
|
static <R extends Record> |
insertInto(Table<R> into,
java.util.Collection<? extends Field<?>> fields)
Create a new DSL insert statement.
|
static <R extends Record> |
insertInto(Table<R> into,
Field<?>... fields)
Create a new DSL insert statement.
|
static <R extends Record,T1> |
insertInto(Table<R> into,
Field<T1> field1)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19,
Field<T20> field20)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19,
Field<T20> field20,
Field<T21> field21)
Create a new DSL insert statement.
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> |
insertInto(Table<R> into,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19,
Field<T20> field20,
Field<T21> field21,
Field<T22> field22)
Create a new DSL insert statement.
|
static <T> Field<T> |
isnull(Field<T> value,
Field<T> defaultValue)
Gets the SQL Server-style ISNULL(value, defaultValue) function.
|
static <T> Field<T> |
isnull(Field<T> value,
T defaultValue)
Gets the SQL Server-style ISNULL(value, defaultValue) function.
|
static <T> Field<T> |
isnull(T value,
Field<T> defaultValue)
Gets the SQL Server-style ISNULL(value, defaultValue) function.
|
static <T> Field<T> |
isnull(T value,
T defaultValue)
Gets the SQL Server-style ISNULL(value, defaultValue) function.
|
static Keyword |
keyword(java.lang.String keyword)
Create a SQL keyword.
|
static <T> WindowIgnoreNullsStep<T> |
lag(Field<T> field)
The
lag(field) over ([analytic clause]) function. |
static <T> WindowIgnoreNullsStep<T> |
lag(Field<T> field,
int offset)
The
lag(field, offset) over ([analytic clause]) function. |
static <T> WindowIgnoreNullsStep<T> |
lag(Field<T> field,
int offset,
Field<T> defaultValue)
The
lag(field, offset, defaultValue) over ([analytic clause])
function. |
static <T> WindowIgnoreNullsStep<T> |
lag(Field<T> field,
int offset,
T defaultValue)
The
lag(field, offset, defaultValue) over ([analytic clause])
function. |
static <T> WindowIgnoreNullsStep<T> |
lastValue(Field<T> field)
The
last_value(field) over ([analytic clause]) function. |
static <R extends Record> |
lateral(TableLike<R> table)
Create a
LATERAL joined table. |
static <T> WindowIgnoreNullsStep<T> |
lead(Field<T> field)
The
lead(field) over ([analytic clause]) function. |
static <T> WindowIgnoreNullsStep<T> |
lead(Field<T> field,
int offset)
The
lead(field, offset) over ([analytic clause]) function. |
static <T> WindowIgnoreNullsStep<T> |
lead(Field<T> field,
int offset,
Field<T> defaultValue)
The
lead(field, offset, defaultValue) over ([analytic clause])
function. |
static <T> WindowIgnoreNullsStep<T> |
lead(Field<T> field,
int offset,
T defaultValue)
The
lead(field, offset, defaultValue) over ([analytic clause])
function. |
static <T> Field<T> |
least(Field<T> field,
Field<?>... others)
Find the least among all values.
|
static <T> Field<T> |
least(T value,
T... values)
Find the least among all values.
|
static Field<java.lang.String> |
left(Field<java.lang.String> field,
Field<? extends java.lang.Number> length)
Get the left outermost characters from a string.
|
static Field<java.lang.String> |
left(Field<java.lang.String> field,
int length)
Get the left outermost characters from a string.
|
static Field<java.lang.String> |
left(java.lang.String field,
Field<? extends java.lang.Number> length)
Get the left outermost characters from a string.
|
static Field<java.lang.String> |
left(java.lang.String field,
int length)
Get the left outermost characters from a string.
|
static Field<java.lang.Integer> |
length(Field<java.lang.String> field)
Get the length of a
VARCHAR type. |
static Field<java.lang.Integer> |
length(java.lang.String value)
Get the length of a
VARCHAR type. |
static Field<java.lang.Integer> |
level()
Retrieve the Oracle-specific
LEVEL pseudo-field (to be used
along with CONNECT BY clauses). |
static Link |
link(Name name)
Create a database link reference.
|
static Link |
link(java.lang.String name)
Create a database link reference.
|
static Link |
link(java.lang.String name,
Schema schema)
Create a database link reference.
|
static QueryPart |
list(java.util.Collection<? extends QueryPart> parts)
Compose a list of
QueryParts into a new
QueryPart , with individual parts being comma-separated. |
static QueryPart |
list(QueryPart... parts)
Compose a list of
QueryParts into a new
QueryPart , with individual parts being comma-separated. |
static OrderedAggregateFunction<java.lang.String> |
listAgg(Field<?> field)
Get the aggregated concatenation for a field.
|
static OrderedAggregateFunction<java.lang.String> |
listAgg(Field<?> field,
java.lang.String separator)
Get the aggregated concatenation for a field.
|
static Field<java.math.BigDecimal> |
ln(Field<? extends java.lang.Number> field)
Get the ln(field) function, taking the natural logarithm of this field.
|
static Field<java.math.BigDecimal> |
ln(java.lang.Number value)
Get the ln(field) function, taking the natural logarithm of this field.
|
static Field<java.time.LocalDate> |
localDate(Field<java.time.LocalDate> field)
Convert a temporal value to a
DATE . |
static Field<java.time.LocalDate> |
localDate(java.time.LocalDate value)
Convert a temporal value to a
DATE . |
static Field<java.time.LocalDate> |
localDate(java.lang.String value)
Convert a string value to a
DATE . |
static Field<java.time.LocalDate> |
localDateAdd(Field<java.time.LocalDate> date,
Field<? extends java.lang.Number> interval)
Add an interval to a date.
|
static Field<java.time.LocalDate> |
localDateAdd(Field<java.time.LocalDate> date,
Field<? extends java.lang.Number> interval,
DatePart datePart)
Add an interval to a date, given a date part.
|
static Field<java.time.LocalDate> |
localDateAdd(Field<java.time.LocalDate> date,
java.lang.Number interval,
DatePart datePart)
Add an interval to a date, given a date part.
|
static Field<java.time.LocalDate> |
localDateAdd(java.time.LocalDate date,
Field<? extends java.lang.Number> interval,
DatePart datePart)
Add an interval to a date, given a date part.
|
static Field<java.time.LocalDate> |
localDateAdd(java.time.LocalDate date,
java.lang.Number interval)
Add an interval to a date.
|
static Field<java.time.LocalDate> |
localDateAdd(java.time.LocalDate date,
java.lang.Number interval,
DatePart datePart)
Add an interval to a date, given a date part.
|
static Field<java.lang.Integer> |
localDateDiff(Field<java.time.LocalDate> date1,
Field<java.time.LocalDate> date2)
Get the date difference in number of days.
|
static Field<java.lang.Integer> |
localDateDiff(Field<java.time.LocalDate> date1,
java.time.LocalDate date2)
Get the date difference in number of days.
|
static Field<java.lang.Integer> |
localDateDiff(java.time.LocalDate date1,
Field<java.time.LocalDate> date2)
Get the date difference in number of days.
|
static Field<java.lang.Integer> |
localDateDiff(java.time.LocalDate date1,
java.time.LocalDate date2)
Get the date difference in number of days.
|
static Field<java.time.LocalDate> |
localDateSub(Field<java.time.LocalDate> date,
Field<? extends java.lang.Number> interval)
Subtract an interval from a date.
|
static Field<java.time.LocalDate> |
localDateSub(Field<java.time.LocalDate> date,
Field<? extends java.lang.Number> interval,
DatePart datePart)
Subtract an interval from a date, given a date part.
|
static Field<java.time.LocalDate> |
localDateSub(Field<java.time.LocalDate> date,
java.lang.Number interval,
DatePart datePart)
Subtract an interval from a date, given a date part.
|
static Field<java.time.LocalDate> |
localDateSub(java.time.LocalDate date,
Field<? extends java.lang.Number> interval,
DatePart datePart)
Subtract an interval from a date, given a date part.
|
static Field<java.time.LocalDate> |
localDateSub(java.time.LocalDate date,
java.lang.Number interval)
Subtract an interval from a date.
|
static Field<java.time.LocalDate> |
localDateSub(java.time.LocalDate date,
java.lang.Number interval,
DatePart datePart)
Subtract an interval from a date, given a date part.
|
static Field<java.time.LocalDateTime> |
localDateTime(Field<java.time.LocalDateTime> field)
Convert a temporal value to a
TIMESTAMP . |
static Field<java.time.LocalDateTime> |
localDateTime(java.time.LocalDateTime value)
Convert a temporal value to a
TIMESTAMP . |
static Field<java.time.LocalDateTime> |
localDateTime(java.lang.String value)
Convert a string value to a
TIMESTAMP . |
static Field<java.time.LocalTime> |
localTime(Field<java.time.LocalTime> field)
Convert a temporal value to a
TIME . |
static Field<java.time.LocalTime> |
localTime(java.time.LocalTime value)
Convert a temporal value to a
TIME . |
static Field<java.time.LocalTime> |
localTime(java.lang.String value)
Convert a string value to a
TIME . |
static Field<java.math.BigDecimal> |
log(Field<? extends java.lang.Number> field,
int base)
Get the log(field, base) function.
|
static Field<java.math.BigDecimal> |
log(java.lang.Number value,
int base)
Get the log(field, base) function.
|
static Field<java.lang.String> |
lower(Field<java.lang.String> field)
Get the lower(field) function.
|
static Field<java.lang.String> |
lower(java.lang.String value)
Get the lower(field) function.
|
static Field<java.lang.String> |
lpad(Field<java.lang.String> field,
Field<? extends java.lang.Number> length)
Get the lpad(field, length) function.
|
static Field<java.lang.String> |
lpad(Field<java.lang.String> field,
Field<? extends java.lang.Number> length,
Field<java.lang.String> character)
Get the lpad(field, length, character) function.
|
static Field<java.lang.String> |
lpad(Field<java.lang.String> field,
int length)
Get the lpad(field, length) function.
|
static Field<java.lang.String> |
lpad(Field<java.lang.String> field,
int length,
char character)
Get the lpad(field, length, character) function.
|
static Field<java.lang.String> |
lpad(Field<java.lang.String> field,
int length,
java.lang.String character)
Get the lpad(field, length, character) function.
|
static Field<java.lang.String> |
ltrim(Field<java.lang.String> field)
Get the ltrim(field) function.
|
static Field<java.lang.String> |
ltrim(java.lang.String value)
Get the ltrim(field) function.
|
static <T> AggregateFunction<T> |
max(Field<T> field)
Get the max value over a field: max(field).
|
static <T> AggregateFunction<T> |
maxDistinct(Field<T> field)
Get the max value over a field: max(distinct field).
|
static Field<java.lang.String> |
md5(Field<java.lang.String> string)
Get the MySQL-specific
MD5() function. |
static Field<java.lang.String> |
md5(java.lang.String string)
Get the MySQL-specific
MD5() function. |
static AggregateFunction<java.math.BigDecimal> |
median(Field<? extends java.lang.Number> field)
Get the median over a numeric field: median(field).
|
static <R extends Record> |
mergeInto(Table<R> table)
Create a new DSL SQL standard MERGE statement.
|
static <R extends Record> |
mergeInto(Table<R> table,
java.util.Collection<? extends Field<?>> fields)
Create a new DSL merge statement (H2-specific syntax).
|
static <R extends Record> |
mergeInto(Table<R> table,
Field<?>... fields)
Create a new DSL merge statement (H2-specific syntax).
|
static <R extends Record,T1> |
mergeInto(Table<R> table,
Field<T1> field1)
|
static <R extends Record,T1,T2> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2)
|
static <R extends Record,T1,T2,T3> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3)
|
static <R extends Record,T1,T2,T3,T4> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4)
|
static <R extends Record,T1,T2,T3,T4,T5> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5)
|
static <R extends Record,T1,T2,T3,T4,T5,T6> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19,
Field<T20> field20)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19,
Field<T20> field20,
Field<T21> field21)
|
static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> |
mergeInto(Table<R> table,
Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19,
Field<T20> field20,
Field<T21> field21,
Field<T22> field22)
|
static Field<java.lang.String> |
mid(Field<java.lang.String> field,
Field<? extends java.lang.Number> startingPosition,
Field<? extends java.lang.Number> length)
Get the mid(field, startingPosition, length) function.
|
static Field<java.lang.String> |
mid(Field<java.lang.String> field,
int startingPosition,
int length)
Get the mid(field, startingPosition, length) function.
|
static <T> AggregateFunction<T> |
min(Field<T> field)
Get the min value over a field: min(field).
|
static <T> AggregateFunction<T> |
minDistinct(Field<T> field)
Get the min value over a field: min(distinct field).
|
static Field<java.lang.Integer> |
minute(java.util.Date value)
Get the minute part of a date.
|
static Field<java.lang.Integer> |
minute(Field<?> field)
Get the minute part of a date.
|
static Field<java.lang.Integer> |
minute(java.time.temporal.Temporal value)
Get the minute part of a date.
|
static OrderedAggregateFunctionOfDeferredType |
mode()
The
mode() within group (oder by [order clause]) ordered
aggregate function. |
static Field<java.lang.Integer> |
month(java.util.Date value)
Get the month part of a date.
|
static Field<java.lang.Integer> |
month(Field<?> field)
Get the month part of a date.
|
static Field<java.lang.Integer> |
month(java.time.temporal.Temporal value)
Get the month part of a date.
|
static Name |
name(java.util.Collection<java.lang.String> qualifiedName)
Create a new SQL identifier using a qualified name.
|
static Name |
name(Name... nameParts)
Create a new SQL identifier using a qualified name.
|
static Name |
name(java.lang.String... qualifiedName)
Create a new SQL identifier using a qualified name.
|
static Name |
name(java.lang.String unqualifiedName)
Create a new SQL identifier using an unqualified name.
|
static Field<java.lang.Boolean> |
not(java.lang.Boolean value)
Deprecated.
- 3.8.0 - [#4763] - Use
not(Condition) instead. Due
to ambiguity between calling this method using
Field.equals(Object) argument, vs. calling the other
method via a Field.equal(Object) argument, this
method will be removed in the future. |
static Condition |
not(Condition condition)
Invert a condition.
|
static Field<java.lang.Boolean> |
not(Field<java.lang.Boolean> field)
Invert a boolean value.
|
static Condition |
notExists(Select<?> query)
Create a not exists condition.
|
static Field<java.sql.Timestamp> |
now()
Synonym for
currentTimestamp() . |
static <T> WindowIgnoreNullsStep<T> |
nthValue(Field<T> field,
Field<java.lang.Integer> nth)
The
nth_value(field) over ([analytic clause]) function. |
static <T> WindowIgnoreNullsStep<T> |
nthValue(Field<T> field,
int nth)
The
nth_value(field) over ([analytic clause]) function. |
static WindowOverStep<java.lang.Integer> |
ntile(int number)
The
ntile([number]) over ([analytic clause]) function. |
static <T> Field<T> |
nullif(Field<T> value,
Field<T> other)
Gets the Oracle-style NULLIF(value, other) function.
|
static <T> Field<T> |
nullif(Field<T> value,
T other)
Gets the Oracle-style NULLIF(value, other) function.
|
static <T> Field<T> |
nullif(T value,
Field<T> other)
Gets the Oracle-style NULLIF(value, other) function.
|
static <T> Field<T> |
nullif(T value,
T other)
Gets the Oracle-style NULLIF(value, other) function.
|
protected static Field<?>[] |
nullSafe(Field<?>... fields)
Null-safety of a field.
|
protected static <T> Field<T> |
nullSafe(Field<T> field)
Null-safety of a field.
|
protected static <T> Field<T> |
nullSafe(Field<T> field,
DataType<?> type)
Null-safety of a field.
|
protected static <T> DataType<T> |
nullSafeDataType(Field<T> field)
Get a default data type if a field is null.
|
static <T> Field<T> |
nvl(Field<T> value,
Field<T> defaultValue)
Gets the Oracle-style NVL(value, defaultValue) function.
|
static <T> Field<T> |
nvl(Field<T> value,
T defaultValue)
Gets the Oracle-style NVL(value, defaultValue) function.
|
static <T> Field<T> |
nvl(T value,
Field<T> defaultValue)
Gets the Oracle-style NVL(value, defaultValue) function.
|
static <T> Field<T> |
nvl(T value,
T defaultValue)
Gets the Oracle-style NVL(value, defaultValue) function.
|
static <Z> Field<Z> |
nvl2(Field<?> value,
Field<Z> valueIfNotNull,
Field<Z> valueIfNull)
Gets the Oracle-style NVL2(value, valueIfNotNull, valueIfNull) function.
|
static <Z> Field<Z> |
nvl2(Field<?> value,
Field<Z> valueIfNotNull,
Z valueIfNull)
Gets the Oracle-style NVL2(value, valueIfNotNull, valueIfNull) function.
|
static <Z> Field<Z> |
nvl2(Field<?> value,
Z valueIfNotNull,
Field<Z> valueIfNull)
Gets the Oracle-style NVL2(value, valueIfNotNull, valueIfNull) function.
|
static <Z> Field<Z> |
nvl2(Field<?> value,
Z valueIfNotNull,
Z valueIfNull)
Gets the Oracle-style NVL2(value, valueIfNotNull, valueIfNull) function.
|
static Field<java.lang.Integer> |
octetLength(Field<java.lang.String> field)
Get the octet_length(field) function.
|
static Field<java.lang.Integer> |
octetLength(java.lang.String value)
Get the octet_length(field) function.
|
static Field<java.time.OffsetDateTime> |
offsetDateTime(Field<java.time.OffsetDateTime> field)
Convert a temporal value to a
TIMESTAMP WITH TIME ZONE . |
static Field<java.time.OffsetDateTime> |
offsetDateTime(java.time.OffsetDateTime value)
Convert a temporal value to a
TIMESTAMP WITH TIME ZONE . |
static Field<java.time.OffsetDateTime> |
offsetDateTime(java.lang.String value)
Convert a string value to a
TIMESTAMP WITH TIME ZONE . |
static Field<java.time.OffsetTime> |
offsetTime(Field<java.time.OffsetTime> field)
Convert a temporal value to a
TIME WITH TIME ZONE . |
static Field<java.time.OffsetTime> |
offsetTime(java.time.OffsetTime value)
Convert a temporal value to a
TIME WITH TIME ZONE . |
static Field<java.time.OffsetTime> |
offsetTime(java.lang.String value)
Convert a string value to a
TIME WITH TIME ZONE . |
static Param<java.lang.Integer> |
one()
A
1 literal. |
static Condition |
or(java.util.Collection<? extends Condition> conditions)
|
static Condition |
or(Condition... conditions)
|
static Condition |
or(Condition left,
Condition right)
|
static WindowSpecificationRowsStep |
orderBy(java.util.Collection<? extends OrderField<?>> fields)
Create a
WindowSpecification with an ORDER BY clause. |
static WindowSpecificationRowsStep |
orderBy(Field<?>... fields)
Create a
WindowSpecification with an ORDER BY clause. |
static WindowSpecificationRowsStep |
orderBy(OrderField<?>... fields)
Create a
WindowSpecification with an ORDER BY clause. |
static <T> Param<java.lang.Object> |
param()
Create an unnamed parameter with a generic type (
Object /
SQLDataType.OTHER ) and no initial value. |
static <T> Param<T> |
param(java.lang.Class<T> type)
Create an unnamed parameter with a defined type and no initial value.
|
static <T> Param<T> |
param(DataType<T> type)
Create an unnamed parameter with a defined type and no initial value.
|
static <T> Param<T> |
param(Field<T> field)
Create an unnamed parameter with the defined type of another field and no
initial value.
|
static Param<java.lang.Object> |
param(java.lang.String name)
Create a named parameter with a generic type (
Object /
SQLDataType.OTHER ) and no initial value. |
static <T> Param<T> |
param(java.lang.String name,
java.lang.Class<T> type)
Create a named parameter with a defined type and no initial value.
|
static <T> Param<T> |
param(java.lang.String name,
DataType<T> type)
Create a named parameter with a defined type and no initial value.
|
static <T> Param<T> |
param(java.lang.String name,
Field<T> type)
Create a named parameter with a defined type of another field and no
initial value.
|
static <T> Param<T> |
param(java.lang.String name,
T value)
Create a named parameter with an initial value.
|
static WindowSpecificationOrderByStep |
partitionBy(java.util.Collection<? extends Field<?>> fields)
Create a
WindowSpecification with a PARTITION BY clause. |
static WindowSpecificationOrderByStep |
partitionBy(Field<?>... fields)
Create a
WindowSpecification with a PARTITION BY clause. |
static OrderedAggregateFunction<java.math.BigDecimal> |
percentileCont(Field<? extends java.lang.Number> field)
The
percentile_cont([number]) within group (order by [column])
function. |
static OrderedAggregateFunction<java.math.BigDecimal> |
percentileCont(java.lang.Number number)
The
percentile_cont([number]) within group (order by [column])
function. |
static OrderedAggregateFunction<java.math.BigDecimal> |
percentileDisc(Field<? extends java.lang.Number> field)
The
percentile_disc([number]) within group (order by [column])
function. |
static OrderedAggregateFunction<java.math.BigDecimal> |
percentileDisc(java.lang.Number number)
The
percentile_disc([number]) within group (order by [column])
function. |
static WindowOverStep<java.math.BigDecimal> |
percentRank()
The
precent_rank() over ([analytic clause]) function. |
static OrderedAggregateFunction<java.lang.Integer> |
percentRank(java.util.Collection<? extends Field<?>> fields)
The
percent_rank(expr) within group (order by [order clause])
ordered-set aggregate function. |
static OrderedAggregateFunction<java.lang.Integer> |
percentRank(Field<?>... fields)
The
percent_rank(expr) within group (order by [order clause])
ordered-set aggregate function. |
static Field<java.math.BigDecimal> |
pi()
The
PI literal. |
static Field<java.lang.Integer> |
position(Field<java.lang.String> in,
Field<java.lang.String> search)
Get the position(in, search) function.
|
static Field<java.lang.Integer> |
position(Field<java.lang.String> in,
Field<java.lang.String> search,
Field<? extends java.lang.Number> startIndex)
Get the position(in, search, startindex) function.
|
static Field<java.lang.Integer> |
position(Field<java.lang.String> in,
Field<java.lang.String> search,
int startIndex)
Get the position(in, search, startindex) function.
|
static Field<java.lang.Integer> |
position(Field<java.lang.String> in,
java.lang.String search)
Get the position(in, search) function.
|
static Field<java.lang.Integer> |
position(Field<java.lang.String> in,
java.lang.String search,
Field<? extends java.lang.Number> startIndex)
Get the position(in, search, startindex) function.
|
static Field<java.lang.Integer> |
position(Field<java.lang.String> in,
java.lang.String search,
int startIndex)
Get the position(in, search, startindex) function.
|
static Field<java.lang.Integer> |
position(java.lang.String in,
Field<java.lang.String> search)
Get the position(in, search) function.
|
static Field<java.lang.Integer> |
position(java.lang.String in,
Field<java.lang.String> search,
Field<? extends java.lang.Number> startIndex)
Get the position(in, search, startindex) function.
|
static Field<java.lang.Integer> |
position(java.lang.String in,
Field<java.lang.String> search,
int startIndex)
Get the position(in, search, startindex) function.
|
static Field<java.lang.Integer> |
position(java.lang.String in,
java.lang.String search)
Get the position(in, search) function.
|
static Field<java.lang.Integer> |
position(java.lang.String in,
java.lang.String search,
Field<? extends java.lang.Number> startIndex)
Get the position(in, search, startindex) function.
|
static Field<java.lang.Integer> |
position(java.lang.String in,
java.lang.String search,
int startIndex)
Get the position(in, search, startindex) function.
|
static Field<java.math.BigDecimal> |
power(Field<? extends java.lang.Number> field,
Field<? extends java.lang.Number> exponent)
Get the power(field, exponent) function.
|
static Field<java.math.BigDecimal> |
power(Field<? extends java.lang.Number> field,
java.lang.Number exponent)
Get the power(field, exponent) function.
|
static Field<java.math.BigDecimal> |
power(java.lang.Number value,
Field<? extends java.lang.Number> exponent)
Get the power(field, exponent) function.
|
static Field<java.math.BigDecimal> |
power(java.lang.Number value,
java.lang.Number exponent)
Get the power(field, exponent) function.
|
static ConstraintFinalStep |
primaryKey(Field<?>... fields)
Create an unnamed (system named)
PRIMARY KEY constraint. |
static ConstraintFinalStep |
primaryKey(Name... fields)
Create an unnamed (system named)
PRIMARY KEY constraint. |
static ConstraintFinalStep |
primaryKey(java.lang.String... fields)
Create an unnamed (system named)
PRIMARY KEY constraint. |
static <T> Field<T> |
prior(Field<T> field)
Add the Oracle-specific
PRIOR unary operator before a field
(to be used along with CONNECT BY clauses). |
static Queries |
queries(java.util.Collection<? extends Query> queries)
Wrap a collection of queries.
|
static Queries |
queries(Query... queries)
Wrap a collection of queries.
|
static Query |
query(SQL sql)
Create a new query holding plain SQL.
|
static Query |
query(java.lang.String sql)
Create a new query holding plain SQL.
|
static Query |
query(java.lang.String sql,
java.lang.Object... bindings)
Create a new query holding plain SQL.
|
static Query |
query(java.lang.String sql,
QueryPart... parts)
Create a new query holding plain SQL.
|
static QueryPart |
queryPart(java.lang.String sql)
Deprecated.
- 3.6.0 - [#3854] - Use
sql(String) instead |
static QueryPart |
queryPart(java.lang.String sql,
java.lang.Object... bindings)
Deprecated.
- 3.6.0 - [#3854] - Use
sql(String, Object...) instead |
static QueryPart |
queryPart(java.lang.String sql,
QueryPart... parts)
Deprecated.
- 3.6.0 - [#3854] - Use
sql(String, QueryPart...) instead |
static Name |
quotedName(java.util.Collection<java.lang.String> qualifiedName)
Create a new SQL identifier using a qualified, quoted name.
|
static Name |
quotedName(java.lang.String... qualifiedName)
Create a new SQL identifier using a qualified, quoted name.
|
static Name |
quotedName(java.lang.String unqualifiedName)
Create a new SQL identifier using an unqualified, quoted name.
|
static Field<java.math.BigDecimal> |
rad(Field<? extends java.lang.Number> field)
Calculate radians from degrees from this field.
|
static Field<java.math.BigDecimal> |
rad(java.lang.Number value)
Calculate radians from degrees from this field.
|
static Field<java.math.BigDecimal> |
rand()
Get the rand() function.
|
static WindowSpecificationRowsAndStep |
rangeBetweenCurrentRow()
Create a
WindowSpecification with a RANGE clause. |
static WindowSpecificationRowsAndStep |
rangeBetweenFollowing(int number)
Create a
WindowSpecification with a RANGE clause. |
static WindowSpecificationRowsAndStep |
rangeBetweenPreceding(int number)
Create a
WindowSpecification with a RANGE clause. |
static WindowSpecificationRowsAndStep |
rangeBetweenUnboundedFollowing()
Create a
WindowSpecification with a RANGE clause. |
static WindowSpecificationRowsAndStep |
rangeBetweenUnboundedPreceding()
Create a
WindowSpecification with a RANGE clause. |
static WindowSpecificationFinalStep |
rangeCurrentRow()
Create a
WindowSpecification with a RANGE clause. |
static WindowSpecificationFinalStep |
rangeFollowing(int number)
Create a
WindowSpecification with a RANGE clause. |
static WindowSpecificationFinalStep |
rangePreceding(int number)
Create a
WindowSpecification with a RANGE clause. |
static WindowSpecificationFinalStep |
rangeUnboundedFollowing()
Create a
WindowSpecification with a RANGE clause. |
static WindowSpecificationFinalStep |
rangeUnboundedPreceding()
Create a
WindowSpecification with a RANGE clause. |
static WindowOverStep<java.lang.Integer> |
rank()
The
rank() over ([analytic clause]) function. |
static OrderedAggregateFunction<java.lang.Integer> |
rank(java.util.Collection<? extends Field<?>> fields)
The
rank(expr) within group (order by [order clause])
ordered-set aggregate function. |
static OrderedAggregateFunction<java.lang.Integer> |
rank(Field<?>... fields)
The
rank(expr) within group (order by [order clause])
ordered-set aggregate function. |
static WindowOverStep<java.math.BigDecimal> |
ratioToReport(Field<? extends java.lang.Number> field)
The
ratio_to_report([expression]) over ([analytic clause]) function. |
static WindowOverStep<java.math.BigDecimal> |
ratioToReport(java.lang.Number number)
The
ratio_to_report([expression]) over ([analytic clause]) function. |
static <T1> RecordType<Record> |
recordType(java.util.Collection<? extends Field<?>> fields)
Create a
RecordType of an arbitrary degree. |
static <T1> RecordType<Record> |
recordType(Field<?>[] fields)
Create a
RecordType of an arbitrary degree. |
static <T1> RecordType<Record1<T1>> |
recordType(Field<T1> field1)
Create a
RecordType of degree 1 . |
static <T1,T2> RecordType<Record2<T1,T2>> |
recordType(Field<T1> field1,
Field<T2> field2)
Create a
RecordType of degree 2 . |
static <T1,T2,T3> RecordType<Record3<T1,T2,T3>> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3)
Create a
RecordType of degree 3 . |
static <T1,T2,T3,T4> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4)
Create a
RecordType of degree 4 . |
static <T1,T2,T3,T4,T5> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5)
Create a
RecordType of degree 5 . |
static <T1,T2,T3,T4,T5,T6> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6)
Create a
RecordType of degree 6 . |
static <T1,T2,T3,T4,T5,T6,T7> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7)
Create a
RecordType of degree 7 . |
static <T1,T2,T3,T4,T5,T6,T7,T8> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8)
Create a
RecordType of degree 8 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9)
Create a
RecordType of degree 9 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10)
Create a
RecordType of degree 10 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11)
Create a
RecordType of degree 11 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12)
Create a
RecordType of degree 12 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13)
Create a
RecordType of degree 13 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14)
Create a
RecordType of degree 14 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15)
Create a
RecordType of degree 15 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16)
Create a
RecordType of degree 16 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17)
Create a
RecordType of degree 17 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18)
Create a
RecordType of degree 18 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19)
Create a
RecordType of degree 19 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19,
Field<T20> field20)
Create a
RecordType of degree 20 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19,
Field<T20> field20,
Field<T21> field21)
Create a
RecordType of degree 21 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> |
recordType(Field<T1> field1,
Field<T2> field2,
Field<T3> field3,
Field<T4> field4,
Field<T5> field5,
Field<T6> field6,
Field<T7> field7,
Field<T8> field8,
Field<T9> field9,
Field<T10> field10,
Field<T11> field11,
Field<T12> field12,
Field<T13> field13,
Field<T14> field14,
Field<T15> field15,
Field<T16> field16,
Field<T17> field17,
Field<T18> field18,
Field<T19> field19,
Field<T20> field20,
Field<T21> field21,
Field<T22> field22)
Create a
RecordType of degree 22 . |
static AggregateFunction<java.math.BigDecimal> |
regrAvgX(Field<? extends java.lang.Number> y,
Field<? extends java.lang.Number> x)
Get the
REGR_AVGX linear regression function. |
static AggregateFunction<java.math.BigDecimal> |
regrAvgY(Field<? extends java.lang.Number> y,
Field<? extends java.lang.Number> x)
Get the
REGR_AVGY linear regression function. |
static AggregateFunction<java.math.BigDecimal> |
regrCount(Field<? extends java.lang.Number> y,
Field<? extends java.lang.Number> x)
Get the
REGR_COUNT linear regression function. |
static AggregateFunction<java.math.BigDecimal> |
regrIntercept(Field<? extends java.lang.Number> y,
Field<? extends java.lang.Number> x)
Get the
REGR_INTERCEPT linear regression function. |
static AggregateFunction<java.math.BigDecimal> |
regrR2(Field<? extends java.lang.Number> y,
Field<? extends java.lang.Number> x)
Get the
REGR_R2 linear regression function. |
static AggregateFunction<java.math.BigDecimal> |
regrSlope(Field<? extends java.lang.Number> y,
Field<? extends java.lang.Number> x)
Get the
REGR_SLOPE linear regression function. |
static AggregateFunction<java.math.BigDecimal> |
regrSXX(Field<? extends java.lang.Number> y,
Field<? extends java.lang.Number> x)
Get the
REGR_SXX linear regression function. |
static AggregateFunction<java.math.BigDecimal> |
regrSXY(Field<? extends java.lang.Number> y,
Field<? extends java.lang.Number> x)
Get the
REGR_SXY linear regression function. |
static AggregateFunction<java.math.BigDecimal> |
regrSYY(Field<? extends java.lang.Number> y,
Field<? extends java.lang.Number> x)
Get the
REGR_SYY linear regression function. |
static Field<java.lang.String> |
repeat(Field<java.lang.String> field,
Field<? extends java.lang.Number> count)
Get the repeat(field, count) function.
|
static Field<java.lang.String> |
repeat(Field<java.lang.String> field,
int count)
Get the repeat(count) function.
|
static Field<java.lang.String> |
repeat(java.lang.String field,
Field<? extends java.lang.Number> count)
Get the repeat(field, count) function.
|
static Field<java.lang.String> |
repeat(java.lang.String field,
int count)
Get the repeat(field, count) function.
|
static Field<java.lang.String> |
replace(Field<java.lang.String> field,
Field<java.lang.String> search)
Get the replace(field, search) function.
|
static Field<java.lang.String> |
replace(Field<java.lang.String> field,
Field<java.lang.String> search,
Field<java.lang.String> replace)
Get the replace(field, search, replace) function.
|
static Field<java.lang.String> |
replace(Field<java.lang.String> field,
java.lang.String search)
Get the replace(field, search) function.
|
static Field<java.lang.String> |
replace(Field<java.lang.String> field,
java.lang.String search,
java.lang.String replace)
Get the replace(field, search, replace) function.
|
static ResultQuery<Record> |
resultQuery(SQL sql)
Create a new query holding plain SQL.
|
static ResultQuery<Record> |
resultQuery(java.lang.String sql)
Create a new query holding plain SQL.
|
static ResultQuery<Record> |
resultQuery(java.lang.String sql,
java.lang.Object... bindings)
Create a new query holding plain SQL.
|
static ResultQuery<Record> |
resultQuery(java.lang.String sql,
QueryPart... parts)
Create a new query holding plain SQL.
|
static Field<java.lang.String> |
reverse(Field<java.lang.String> field)
Get the
reverse(field) function. |
static Field<java.lang.String> |
reverse(java.lang.String value)
Get the
reverse(field) function. |
static Field<java.lang.String> |
right(Field<java.lang.String> field,
Field<? extends java.lang.Number> length)
Get the right outermost characters from a string.
|
static Field<java.lang.String> |
right(Field<java.lang.String> field,
int length)
Get the right outermost characters from a string.
|
static Field<java.lang.String> |
right(java.lang.String field,
Field<? extends java.lang.Number> length)
Get the right outermost characters from a string.
|
static Field<java.lang.String> |
right(java.lang.String field,
int length)
Get the right outermost characters from a string.
|
static GroupField |
rollup(Field<?>... fields)
Create a ROLLUP(field1, field2, .., fieldn) grouping field.
|
static GroupField |
rollup(FieldOrRow... fields)
Create a ROLLUP(field1, field2, .., fieldn) grouping field.
|
static <T extends java.lang.Number> |
round(Field<T> field)
Get rounded value of a numeric field: round(field).
|
static <T extends java.lang.Number> |
round(Field<T> field,
int decimals)
Get rounded value of a numeric field: round(field, decimals).
|
static <T extends java.lang.Number> |
round(T value)
Get rounded value of a numeric field: round(field).
|
static <T extends java.lang.Number> |
round(T value,
int decimals)
Get rounded value of a numeric field: round(field, decimals).
|
static RowN |
row(java.util.Collection<?> values)
Create a row value expression of degree
N > 22 . |
static RowN |
row(Field<?>... values)
Create a row value expression of degree
N > 22 . |
static <T1> Row1<T1> |
row(Field<T1> t1)
Create a row value expression of degree
1 . |
static <T1,T2> Row2<T1,T2> |
row(Field<T1> t1,
Field<T2> t2)
Create a row value expression of degree
2 . |
static <T1,T2,T3> Row3<T1,T2,T3> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3)
Create a row value expression of degree
3 . |
static <T1,T2,T3,T4> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4)
Create a row value expression of degree
4 . |
static <T1,T2,T3,T4,T5> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5)
Create a row value expression of degree
5 . |
static <T1,T2,T3,T4,T5,T6> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6)
Create a row value expression of degree
6 . |
static <T1,T2,T3,T4,T5,T6,T7> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7)
Create a row value expression of degree
7 . |
static <T1,T2,T3,T4,T5,T6,T7,T8> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8)
Create a row value expression of degree
8 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9)
Create a row value expression of degree
9 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9,
Field<T10> t10)
Create a row value expression of degree
10 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9,
Field<T10> t10,
Field<T11> t11)
Create a row value expression of degree
11 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9,
Field<T10> t10,
Field<T11> t11,
Field<T12> t12)
Create a row value expression of degree
12 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9,
Field<T10> t10,
Field<T11> t11,
Field<T12> t12,
Field<T13> t13)
Create a row value expression of degree
13 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9,
Field<T10> t10,
Field<T11> t11,
Field<T12> t12,
Field<T13> t13,
Field<T14> t14)
Create a row value expression of degree
14 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9,
Field<T10> t10,
Field<T11> t11,
Field<T12> t12,
Field<T13> t13,
Field<T14> t14,
Field<T15> t15)
Create a row value expression of degree
15 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9,
Field<T10> t10,
Field<T11> t11,
Field<T12> t12,
Field<T13> t13,
Field<T14> t14,
Field<T15> t15,
Field<T16> t16)
Create a row value expression of degree
16 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9,
Field<T10> t10,
Field<T11> t11,
Field<T12> t12,
Field<T13> t13,
Field<T14> t14,
Field<T15> t15,
Field<T16> t16,
Field<T17> t17)
Create a row value expression of degree
17 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9,
Field<T10> t10,
Field<T11> t11,
Field<T12> t12,
Field<T13> t13,
Field<T14> t14,
Field<T15> t15,
Field<T16> t16,
Field<T17> t17,
Field<T18> t18)
Create a row value expression of degree
18 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9,
Field<T10> t10,
Field<T11> t11,
Field<T12> t12,
Field<T13> t13,
Field<T14> t14,
Field<T15> t15,
Field<T16> t16,
Field<T17> t17,
Field<T18> t18,
Field<T19> t19)
Create a row value expression of degree
19 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9,
Field<T10> t10,
Field<T11> t11,
Field<T12> t12,
Field<T13> t13,
Field<T14> t14,
Field<T15> t15,
Field<T16> t16,
Field<T17> t17,
Field<T18> t18,
Field<T19> t19,
Field<T20> t20)
Create a row value expression of degree
20 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9,
Field<T10> t10,
Field<T11> t11,
Field<T12> t12,
Field<T13> t13,
Field<T14> t14,
Field<T15> t15,
Field<T16> t16,
Field<T17> t17,
Field<T18> t18,
Field<T19> t19,
Field<T20> t20,
Field<T21> t21)
Create a row value expression of degree
21 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> |
row(Field<T1> t1,
Field<T2> t2,
Field<T3> t3,
Field<T4> t4,
Field<T5> t5,
Field<T6> t6,
Field<T7> t7,
Field<T8> t8,
Field<T9> t9,
Field<T10> t10,
Field<T11> t11,
Field<T12> t12,
Field<T13> t13,
Field<T14> t14,
Field<T15> t15,
Field<T16> t16,
Field<T17> t17,
Field<T18> t18,
Field<T19> t19,
Field<T20> t20,
Field<T21> t21,
Field<T22> t22)
Create a row value expression of degree
22 . |
static RowN |
row(java.lang.Object... values)
Create a row value expression of degree
N > 22 . |
static <T1> Row1<T1> |
row(T1 t1)
Create a row value expression of degree
1 . |
static <T1,T2> Row2<T1,T2> |
row(T1 t1,
T2 t2)
Create a row value expression of degree
2 . |
static <T1,T2,T3> Row3<T1,T2,T3> |
row(T1 t1,
T2 t2,
T3 t3)
Create a row value expression of degree
3 . |
static <T1,T2,T3,T4> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4)
Create a row value expression of degree
4 . |
static <T1,T2,T3,T4,T5> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5)
Create a row value expression of degree
5 . |
static <T1,T2,T3,T4,T5,T6> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6)
Create a row value expression of degree
6 . |
static <T1,T2,T3,T4,T5,T6,T7> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7)
Create a row value expression of degree
7 . |
static <T1,T2,T3,T4,T5,T6,T7,T8> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8)
Create a row value expression of degree
8 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9)
Create a row value expression of degree
9 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9,
T10 t10)
Create a row value expression of degree
10 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9,
T10 t10,
T11 t11)
Create a row value expression of degree
11 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9,
T10 t10,
T11 t11,
T12 t12)
Create a row value expression of degree
12 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9,
T10 t10,
T11 t11,
T12 t12,
T13 t13)
Create a row value expression of degree
13 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9,
T10 t10,
T11 t11,
T12 t12,
T13 t13,
T14 t14)
Create a row value expression of degree
14 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9,
T10 t10,
T11 t11,
T12 t12,
T13 t13,
T14 t14,
T15 t15)
Create a row value expression of degree
15 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9,
T10 t10,
T11 t11,
T12 t12,
T13 t13,
T14 t14,
T15 t15,
T16 t16)
Create a row value expression of degree
16 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9,
T10 t10,
T11 t11,
T12 t12,
T13 t13,
T14 t14,
T15 t15,
T16 t16,
T17 t17)
Create a row value expression of degree
17 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9,
T10 t10,
T11 t11,
T12 t12,
T13 t13,
T14 t14,
T15 t15,
T16 t16,
T17 t17,
T18 t18)
Create a row value expression of degree
18 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9,
T10 t10,
T11 t11,
T12 t12,
T13 t13,
T14 t14,
T15 t15,
T16 t16,
T17 t17,
T18 t18,
T19 t19)
Create a row value expression of degree
19 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9,
T10 t10,
T11 t11,
T12 t12,
T13 t13,
T14 t14,
T15 t15,
T16 t16,
T17 t17,
T18 t18,
T19 t19,
T20 t20)
Create a row value expression of degree
20 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9,
T10 t10,
T11 t11,
T12 t12,
T13 t13,
T14 t14,
T15 t15,
T16 t16,
T17 t17,
T18 t18,
T19 t19,
T20 t20,
T21 t21)
Create a row value expression of degree
21 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> |
row(T1 t1,
T2 t2,
T3 t3,
T4 t4,
T5 t5,
T6 t6,
T7 t7,
T8 t8,
T9 t9,
T10 t10,
T11 t11,
T12 t12,
T13 t13,
T14 t14,
T15 t15,
T16 t16,
T17 t17,
T18 t18,
T19 t19,
T20 t20,
T21 t21,
T22 t22)
Create a row value expression of degree
22 . |
static <T1> Field<Record1<T1>> |
rowField(Row1<T1> row)
EXPERIMENTAL: Turn a row value expression of degree
1 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> |
rowField(Row10<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> row)
EXPERIMENTAL: Turn a row value expression of degree
10 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> |
rowField(Row11<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> row)
EXPERIMENTAL: Turn a row value expression of degree
11 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> |
rowField(Row12<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> row)
EXPERIMENTAL: Turn a row value expression of degree
12 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> |
rowField(Row13<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> row)
EXPERIMENTAL: Turn a row value expression of degree
13 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> |
rowField(Row14<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> row)
EXPERIMENTAL: Turn a row value expression of degree
14 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> |
rowField(Row15<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> row)
EXPERIMENTAL: Turn a row value expression of degree
15 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> |
rowField(Row16<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> row)
EXPERIMENTAL: Turn a row value expression of degree
16 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> |
rowField(Row17<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> row)
EXPERIMENTAL: Turn a row value expression of degree
17 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> |
rowField(Row18<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> row)
EXPERIMENTAL: Turn a row value expression of degree
18 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> |
rowField(Row19<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> row)
EXPERIMENTAL: Turn a row value expression of degree
19 into a Field . |
static <T1,T2> Field<Record2<T1,T2>> |
rowField(Row2<T1,T2> row)
EXPERIMENTAL: Turn a row value expression of degree
2 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> |
rowField(Row20<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> row)
EXPERIMENTAL: Turn a row value expression of degree
20 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> |
rowField(Row21<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> row)
EXPERIMENTAL: Turn a row value expression of degree
21 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> |
rowField(Row22<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> row)
EXPERIMENTAL: Turn a row value expression of degree
22 into a Field . |
static <T1,T2,T3> Field<Record3<T1,T2,T3>> |
rowField(Row3<T1,T2,T3> row)
EXPERIMENTAL: Turn a row value expression of degree
3 into a Field . |
static <T1,T2,T3,T4> |
rowField(Row4<T1,T2,T3,T4> row)
EXPERIMENTAL: Turn a row value expression of degree
4 into a Field . |
static <T1,T2,T3,T4,T5> |
rowField(Row5<T1,T2,T3,T4,T5> row)
EXPERIMENTAL: Turn a row value expression of degree
5 into a Field . |
static <T1,T2,T3,T4,T5,T6> |
rowField(Row6<T1,T2,T3,T4,T5,T6> row)
EXPERIMENTAL: Turn a row value expression of degree
6 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7> |
rowField(Row7<T1,T2,T3,T4,T5,T6,T7> row)
EXPERIMENTAL: Turn a row value expression of degree
7 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8> |
rowField(Row8<T1,T2,T3,T4,T5,T6,T7,T8> row)
EXPERIMENTAL: Turn a row value expression of degree
8 into a Field . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9> |
rowField(Row9<T1,T2,T3,T4,T5,T6,T7,T8,T9> row)
EXPERIMENTAL: Turn a row value expression of degree
9 into a Field . |
static Field<java.lang.Integer> |
rownum()
Retrieve the Oracle-specific
ROWNUM pseudo-field. |
static WindowOverStep<java.lang.Integer> |
rowNumber()
The
row_number() over ([analytic clause]) function. |
static WindowSpecificationRowsAndStep |
rowsBetweenCurrentRow()
Create a
WindowSpecification with a ROWS clause. |
static WindowSpecificationRowsAndStep |
rowsBetweenFollowing(int number)
Create a
WindowSpecification with a ROWS clause. |
static WindowSpecificationRowsAndStep |
rowsBetweenPreceding(int number)
Create a
WindowSpecification with a ROWS clause. |
static WindowSpecificationRowsAndStep |
rowsBetweenUnboundedFollowing()
Create a
WindowSpecification with a ROWS clause. |
static WindowSpecificationRowsAndStep |
rowsBetweenUnboundedPreceding()
Create a
WindowSpecification with a ROWS clause. |
static WindowSpecificationFinalStep |
rowsCurrentRow()
Create a
WindowSpecification with a ROWS clause. |
static WindowSpecificationFinalStep |
rowsFollowing(int number)
Create a
WindowSpecification with a ROWS clause. |
static Table<Record> |
rowsFrom(Table<?>... tables)
Create a
ROWS FROM (tables...) |
static WindowSpecificationFinalStep |
rowsPreceding(int number)
Create a
WindowSpecification with a ROWS clause. |
static WindowSpecificationFinalStep |
rowsUnboundedFollowing()
Create a
WindowSpecification with a ROWS clause. |
static WindowSpecificationFinalStep |
rowsUnboundedPreceding()
Create a
WindowSpecification with a ROWS clause. |
static Field<java.lang.String> |
rpad(Field<java.lang.String> field,
Field<? extends java.lang.Number> length)
Get the rpad(field, length) function.
|
static Field<java.lang.String> |
rpad(Field<java.lang.String> field,
Field<? extends java.lang.Number> length,
Field<java.lang.String> character)
Get the rpad(field, length, character) function.
|
static Field<java.lang.String> |
rpad(Field<java.lang.String> field,
int length)
Get the rpad(field, length) function.
|
static Field<java.lang.String> |
rpad(Field<java.lang.String> field,
int length,
char character)
Get the rpad(field, length, character) function.
|
static Field<java.lang.String> |
rpad(Field<java.lang.String> field,
int length,
java.lang.String character)
Get the rpad(field, length, character) function.
|
static Field<java.lang.String> |
rtrim(Field<java.lang.String> field)
Get the rtrim(field) function.
|
static Field<java.lang.String> |
rtrim(java.lang.String value)
Get the rtrim(field) function.
|
static Schema |
schema(Name name)
Create a qualified schema, given its schema name.
|
static Schema |
schemaByName(java.lang.String name)
Deprecated.
- [#3843] - 3.6.0 - use
schema(Name) instead |
static Field<java.lang.Integer> |
second(java.util.Date value)
Get the second part of a date.
|
static Field<java.lang.Integer> |
second(Field<?> field)
Get the second part of a date.
|
static Field<java.lang.Integer> |
second(java.time.temporal.Temporal value)
Get the second part of a date.
|
static SelectSelectStep<Record> |
select(java.util.Collection<? extends SelectField<?>> fields)
Create a new DSL subselect statement.
|
static SelectSelectStep<Record> |
select(SelectField<?>... fields)
Create a new DSL subselect statement.
|
static <T1> SelectSelectStep<Record1<T1>> |
select(SelectField<T1> field1)
Create a new DSL subselect statement.
|
static <T1,T2> SelectSelectStep<Record2<T1,T2>> |
select(SelectField<T1> field1,
SelectField<T2> field2)
Create a new DSL subselect statement.
|
static <T1,T2,T3> SelectSelectStep<Record3<T1,T2,T3>> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16,
SelectField<T17> field17)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16,
SelectField<T17> field17,
SelectField<T18> field18)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16,
SelectField<T17> field17,
SelectField<T18> field18,
SelectField<T19> field19)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16,
SelectField<T17> field17,
SelectField<T18> field18,
SelectField<T19> field19,
SelectField<T20> field20)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16,
SelectField<T17> field17,
SelectField<T18> field18,
SelectField<T19> field19,
SelectField<T20> field20,
SelectField<T21> field21)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> |
select(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16,
SelectField<T17> field17,
SelectField<T18> field18,
SelectField<T19> field19,
SelectField<T20> field20,
SelectField<T21> field21,
SelectField<T22> field22)
Create a new DSL subselect statement.
|
static SelectSelectStep<Record1<java.lang.Integer>> |
selectCount()
Create a new DSL subselect statement for
COUNT(*) . |
static SelectSelectStep<Record> |
selectDistinct(java.util.Collection<? extends SelectField<?>> fields)
Create a new DSL subselect statement.
|
static SelectSelectStep<Record> |
selectDistinct(SelectField<?>... fields)
Create a new DSL subselect statement.
|
static <T1> SelectSelectStep<Record1<T1>> |
selectDistinct(SelectField<T1> field1)
Create a new DSL subselect statement.
|
static <T1,T2> SelectSelectStep<Record2<T1,T2>> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2)
Create a new DSL subselect statement.
|
static <T1,T2,T3> SelectSelectStep<Record3<T1,T2,T3>> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16,
SelectField<T17> field17)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16,
SelectField<T17> field17,
SelectField<T18> field18)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16,
SelectField<T17> field17,
SelectField<T18> field18,
SelectField<T19> field19)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16,
SelectField<T17> field17,
SelectField<T18> field18,
SelectField<T19> field19,
SelectField<T20> field20)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16,
SelectField<T17> field17,
SelectField<T18> field18,
SelectField<T19> field19,
SelectField<T20> field20,
SelectField<T21> field21)
Create a new DSL subselect statement.
|
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> |
selectDistinct(SelectField<T1> field1,
SelectField<T2> field2,
SelectField<T3> field3,
SelectField<T4> field4,
SelectField<T5> field5,
SelectField<T6> field6,
SelectField<T7> field7,
SelectField<T8> field8,
SelectField<T9> field9,
SelectField<T10> field10,
SelectField<T11> field11,
SelectField<T12> field12,
SelectField<T13> field13,
SelectField<T14> field14,
SelectField<T15> field15,
SelectField<T16> field16,
SelectField<T17> field17,
SelectField<T18> field18,
SelectField<T19> field19,
SelectField<T20> field20,
SelectField<T21> field21,
SelectField<T22> field22)
Create a new DSL subselect statement.
|
static <R extends Record> |
selectFrom(Table<R> table)
Create a new DSL select statement.
|
static SelectSelectStep<Record1<java.lang.Integer>> |
selectOne()
Create a new DSL subselect statement for a constant
1
literal. |
static SelectSelectStep<Record1<java.lang.Integer>> |
selectZero()
Create a new DSL subselect statement for a constant
0
literal. |
static Sequence<java.math.BigInteger> |
sequence(Name name)
Create a qualified sequence, given its sequence name.
|
static <T extends java.lang.Number> |
sequence(Name name,
java.lang.Class<T> type)
Create a qualified sequence, given its sequence name.
|
static <T extends java.lang.Number> |
sequence(Name name,
DataType<T> type)
Create a qualified sequence, given its sequence name.
|
static Sequence<java.math.BigInteger> |
sequence(java.lang.String sql)
Deprecated.
- 3.10 - [#6162] - Use
sequence(Name) instead. |
static <T extends java.lang.Number> |
sequence(java.lang.String sql,
java.lang.Class<T> type)
Deprecated.
- 3.10 - [#6162] - Use
sequence(Name, Class) instead. |
static <T extends java.lang.Number> |
sequence(java.lang.String sql,
DataType<T> type)
Deprecated.
- 3.10 - [#6162] - Use
sequence(Name, DataType)
instead. |
static <T extends java.lang.Number> |
sequenceByName(java.lang.Class<T> type,
java.lang.String... qualifiedName)
Deprecated.
- [#3843] - 3.6.0 - use
sequence(Name, Class) instead |
static <T extends java.lang.Number> |
sequenceByName(DataType<T> type,
java.lang.String... qualifiedName)
Deprecated.
- [#3843] - 3.6.0 - use
sequence(Name, DataType) instead |
static Sequence<java.math.BigInteger> |
sequenceByName(java.lang.String... qualifiedName)
Deprecated.
- [#3843] - 3.6.0 - use
sequence(Name) instead |
static Query |
setCatalog(Catalog catalog)
Set the current catalog to a new value.
|
static Query |
setCatalog(Name catalog)
Set the current catalog to a new value.
|
static Query |
setCatalog(java.lang.String catalog)
Set the current catalog to a new value.
|
static Query |
setSchema(Name schema)
Set the current schema to a new value.
|
static Query |
setSchema(Schema schema)
Set the current schema to a new value.
|
static Query |
setSchema(java.lang.String schema)
Set the current schema to a new value.
|
static <T extends java.lang.Number> |
shl(Field<T> field1,
Field<? extends java.lang.Number> field2)
The bitwise left shift operator.
|
static <T extends java.lang.Number> |
shl(Field<T> value1,
java.lang.Number value2)
The bitwise left shift operator.
|
static <T extends java.lang.Number> |
shl(T value1,
Field<? extends java.lang.Number> value2)
The bitwise left shift operator.
|
static <T extends java.lang.Number> |
shl(T value1,
java.lang.Number value2)
The bitwise left shift operator.
|
static <T extends java.lang.Number> |
shr(Field<T> field1,
Field<? extends java.lang.Number> field2)
The bitwise right shift operator.
|
static <T extends java.lang.Number> |
shr(Field<T> value1,
java.lang.Number value2)
The bitwise right shift operator.
|
static <T extends java.lang.Number> |
shr(T value1,
Field<? extends java.lang.Number> value2)
The bitwise right shift operator.
|
static <T extends java.lang.Number> |
shr(T value1,
java.lang.Number value2)
The bitwise right shift operator.
|
static Field<java.lang.Integer> |
sign(Field<? extends java.lang.Number> field)
Get the sign of a numeric field: sign(field).
|
static Field<java.lang.Integer> |
sign(java.lang.Number value)
Get the sign of a numeric field: sign(field).
|
static Field<java.math.BigDecimal> |
sin(Field<? extends java.lang.Number> field)
Get the sine(field) function.
|
static Field<java.math.BigDecimal> |
sin(java.lang.Number value)
Get the sine(field) function.
|
static Field<java.math.BigDecimal> |
sinh(Field<? extends java.lang.Number> field)
Get the hyperbolic sine function: sinh(field).
|
static Field<java.math.BigDecimal> |
sinh(java.lang.Number value)
Get the hyperbolic sine function: sinh(field).
|
static Field<java.lang.String> |
space(Field<java.lang.Integer> value)
Get the SQL Server specific
SPACE() function. |
static Field<java.lang.String> |
space(int value)
Get the SQL Server specific
SPACE() function. |
static SQL |
sql(java.lang.String sql)
A custom SQL clause that can render arbitrary expressions.
|
static SQL |
sql(java.lang.String sql,
java.lang.Object... bindings)
A custom SQL clause that can render arbitrary expressions.
|
static SQL |
sql(java.lang.String sql,
QueryPart... parts)
A custom SQL clause that can render arbitrary expressions.
|
static Field<java.math.BigDecimal> |
sqrt(Field<? extends java.lang.Number> field)
Get the sqrt(field) function.
|
static Field<java.math.BigDecimal> |
sqrt(java.lang.Number value)
Get the sqrt(field) function.
|
static AggregateFunction<java.math.BigDecimal> |
stddevPop(Field<? extends java.lang.Number> field)
Get the population standard deviation of a numeric field: stddev_pop(field).
|
static AggregateFunction<java.math.BigDecimal> |
stddevSamp(Field<? extends java.lang.Number> field)
Get the sample standard deviation of a numeric field: stddev_samp(field).
|
static Field<java.lang.String> |
substring(Field<java.lang.String> field,
Field<? extends java.lang.Number> startingPosition)
Get the substring(field, startingPosition) function.
|
static Field<java.lang.String> |
substring(Field<java.lang.String> field,
Field<? extends java.lang.Number> startingPosition,
Field<? extends java.lang.Number> length)
Get the substring(field, startingPosition, length) function.
|
static Field<java.lang.String> |
substring(Field<java.lang.String> field,
int startingPosition)
Get the substring(field, startingPosition) function.
|
static Field<java.lang.String> |
substring(Field<java.lang.String> field,
int startingPosition,
int length)
Get the substring(field, startingPosition, length) function.
|
static AggregateFunction<java.math.BigDecimal> |
sum(Field<? extends java.lang.Number> field)
Get the sum over a numeric field: sum(field).
|
static AggregateFunction<java.math.BigDecimal> |
sumDistinct(Field<? extends java.lang.Number> field)
Get the sum over a numeric field: sum(distinct field).
|
static Field<java.lang.String> |
sysConnectByPath(Field<?> field,
java.lang.String separator)
Retrieve the Oracle-specific
SYS_CONNECT_BY_PATH(field, separator) function (to be used
along with CONNECT BY clauses). |
static Table<?> |
table(ArrayRecord<?> array)
A synonym for
unnest(ArrayRecord) . |
static Table<?> |
table(Field<?> cursor)
A synonym for
unnest(Field) . |
static Table<?> |
table(java.util.List<?> list)
A synonym for
unnest(List) . |
static Table<Record> |
table(Name name)
Create a qualified table, given its table name.
|
static Table<?> |
table(java.lang.Object[] array)
A synonym for
unnest(Object[]) . |
static <R extends Record> |
table(R... records)
Use a previously obtained set of records as a new Table
|
static <R extends Record> |
table(R record)
Use a previously obtained record as a new Table
|
static <R extends Record> |
table(Result<R> result)
Use a previously obtained result as a new
Table that can be used
in SQL statements through values(RowN...) . |
static <R extends Record> |
table(Select<R> select)
A synonym for
TableLike.asTable() , which might look a bit more fluent
like this, to some users. |
static Table<Record> |
table(SQL sql)
A custom SQL clause that can render arbitrary table expressions.
|
static Table<Record> |
table(java.lang.String sql)
A custom SQL clause that can render arbitrary table expressions.
|
static Table<Record> |
table(java.lang.String sql,
java.lang.Object... bindings)
A custom SQL clause that can render arbitrary table expressions.
|
static Table<Record> |
table(java.lang.String sql,
QueryPart... parts)
A custom SQL clause that can render arbitrary table expressions.
|
static Table<Record> |
tableByName(java.lang.String... qualifiedName)
Deprecated.
- [#3843] - 3.6.0 - use
table(Name) instead |
static Field<java.math.BigDecimal> |
tan(Field<? extends java.lang.Number> field)
Get the tangent(field) function.
|
static Field<java.math.BigDecimal> |
tan(java.lang.Number value)
Get the tangent(field) function.
|
static Field<java.math.BigDecimal> |
tanh(Field<? extends java.lang.Number> field)
Get the hyperbolic tangent function: tanh(field).
|
static Field<java.math.BigDecimal> |
tanh(java.lang.Number value)
Get the hyperbolic tangent function: tanh(field).
|
static Field<java.sql.Time> |
time(java.util.Date value)
Convert a temporal value to a
TIME . |
static Field<java.sql.Time> |
time(Field<? extends java.util.Date> field)
Convert a temporal value to a
TIME . |
static Field<java.sql.Time> |
time(java.lang.String value)
Convert a string value to a
TIME . |
static Field<java.sql.Timestamp> |
timestamp(java.util.Date value)
Convert a temporal value to a
TIMESTAMP . |
static Field<java.sql.Timestamp> |
timestamp(Field<? extends java.util.Date> field)
Convert a temporal value to a
TIMESTAMP . |
static Field<java.sql.Timestamp> |
timestamp(java.lang.String value)
Convert a string value to a
TIMESTAMP . |
static Field<java.sql.Timestamp> |
timestampAdd(Field<java.sql.Timestamp> timestamp,
Field<? extends java.lang.Number> interval)
Add an interval to a timestamp.
|
static Field<java.sql.Timestamp> |
timestampAdd(Field<java.sql.Timestamp> date,
Field<? extends java.lang.Number> interval,
DatePart datePart)
Add an interval to a timestamp, given a date part.
|
static Field<java.sql.Timestamp> |
timestampAdd(Field<java.sql.Timestamp> date,
java.lang.Number interval,
DatePart datePart)
Add an interval to a timestamp, given a date part.
|
static Field<java.sql.Timestamp> |
timestampAdd(java.sql.Timestamp date,
Field<? extends java.lang.Number> interval,
DatePart datePart)
Add an interval to a timestamp, given a date part.
|
static Field<java.sql.Timestamp> |
timestampAdd(java.sql.Timestamp timestamp,
java.lang.Number interval)
Add an interval to a timestamp.
|
static Field<java.sql.Timestamp> |
timestampAdd(java.sql.Timestamp date,
java.lang.Number interval,
DatePart datePart)
Add an interval to a timestamp, given a date part.
|
static Field<DayToSecond> |
timestampDiff(Field<java.sql.Timestamp> timestamp1,
Field<java.sql.Timestamp> timestamp2)
Get the timestamp difference as a
INTERVAL DAY TO SECOND
type. |
static Field<DayToSecond> |
timestampDiff(Field<java.sql.Timestamp> timestamp1,
java.sql.Timestamp timestamp2)
Get the timestamp difference as a
INTERVAL DAY TO SECOND
type. |
static Field<DayToSecond> |
timestampDiff(java.sql.Timestamp timestamp1,
Field<java.sql.Timestamp> timestamp2)
Get the timestamp difference as a
INTERVAL DAY TO SECOND
type. |
static Field<DayToSecond> |
timestampDiff(java.sql.Timestamp timestamp1,
java.sql.Timestamp timestamp2)
Get the timestamp difference as a
INTERVAL DAY TO SECOND
type. |
static Field<java.sql.Date> |
toDate(Field<java.lang.String> value,
Field<java.lang.String> format)
Parse a value to a
DATE . |
static Field<java.sql.Date> |
toDate(Field<java.lang.String> value,
java.lang.String format)
Parse a value to a
DATE . |
static Field<java.sql.Date> |
toDate(java.lang.String value,
Field<java.lang.String> format)
Parse a value to a
DATE . |
static Field<java.sql.Date> |
toDate(java.lang.String value,
java.lang.String format)
Parse a value to a
DATE . |
static Field<java.time.LocalDate> |
toLocalDate(Field<java.lang.String> value,
Field<java.lang.String> format)
Parse a value to a
DATE . |
static Field<java.time.LocalDate> |
toLocalDate(Field<java.lang.String> value,
java.lang.String format)
Parse a value to a
DATE . |
static Field<java.time.LocalDate> |
toLocalDate(java.lang.String value,
Field<java.lang.String> format)
Parse a value to a
DATE . |
static Field<java.time.LocalDate> |
toLocalDate(java.lang.String value,
java.lang.String format)
Parse a value to a
DATE . |
static Field<java.time.LocalDateTime> |
toLocalDateTime(Field<java.lang.String> value,
Field<java.lang.String> format)
Parse a value to a
TIMESTAMP . |
static Field<java.time.LocalDateTime> |
toLocalDateTime(Field<java.lang.String> value,
java.lang.String format)
Parse a value to a
TIMESTAMP . |
static Field<java.time.LocalDateTime> |
toLocalDateTime(java.lang.String value,
Field<java.lang.String> format)
Parse a value to a
TIMESTAMP . |
static Field<java.time.LocalDateTime> |
toLocalDateTime(java.lang.String value,
java.lang.String format)
Parse a value to a
TIMESTAMP . |
static Field<java.sql.Timestamp> |
toTimestamp(Field<java.lang.String> value,
Field<java.lang.String> format)
Parse a value to a
TIMESTAMP . |
static Field<java.sql.Timestamp> |
toTimestamp(Field<java.lang.String> value,
java.lang.String format)
Parse a value to a
TIMESTAMP . |
static Field<java.sql.Timestamp> |
toTimestamp(java.lang.String value,
Field<java.lang.String> format)
Parse a value to a
TIMESTAMP . |
static Field<java.sql.Timestamp> |
toTimestamp(java.lang.String value,
java.lang.String format)
Parse a value to a
TIMESTAMP . |
static Field<java.lang.String> |
trim(Field<java.lang.String> field)
Get the trim(field) function.
|
static Field<java.lang.String> |
trim(java.lang.String value)
Get the trim(field) function.
|
static True |
trueCondition()
Return a
Condition that will always evaluate to true. |
static Field<java.sql.Date> |
trunc(java.sql.Date date)
Truncate a date to the beginning of the day.
|
static Field<java.sql.Date> |
trunc(java.sql.Date date,
DatePart part)
Truncate a date to a given datepart.
|
static <T> Field<T> |
trunc(Field<T> date)
Truncate a date or a timestamp to the beginning of the day.
|
static <T> Field<T> |
trunc(Field<T> date,
DatePart part)
Truncate a date or a timestamp to a given datepart.
|
static <T extends java.lang.Number> |
trunc(Field<T> number,
Field<java.lang.Integer> decimals)
Truncate a number to a given number of decimals.
|
static <T extends java.lang.Number> |
trunc(Field<T> number,
int decimals)
Truncate a number to a given number of decimals.
|
static Field<java.time.LocalDate> |
trunc(java.time.LocalDate date)
Truncate a date to the beginning of the day.
|
static Field<java.time.LocalDate> |
trunc(java.time.LocalDate date,
DatePart part)
Truncate a date to a given datepart.
|
static Field<java.time.LocalDateTime> |
trunc(java.time.LocalDateTime timestamp)
Truncate a timestamp to the beginning of the day.
|
static Field<java.time.LocalDateTime> |
trunc(java.time.LocalDateTime timestamp,
DatePart part)
Truncate a timestamp to a given datepart.
|
static <T extends java.lang.Number> |
trunc(T number)
Truncate a number to a given number of decimals.
|
static <T extends java.lang.Number> |
trunc(T number,
Field<java.lang.Integer> decimals)
Truncate a number to a given number of decimals.
|
static Field<java.sql.Timestamp> |
trunc(java.sql.Timestamp timestamp)
Truncate a timestamp to the beginning of the day.
|
static Field<java.sql.Timestamp> |
trunc(java.sql.Timestamp timestamp,
DatePart part)
Truncate a timestamp to a given datepart.
|
static <T extends java.lang.Number> |
trunc(T number,
int decimals)
Truncate a number to a given number of decimals.
|
static TruncateIdentityStep<Record> |
truncate(Name table)
Create a new DSL truncate statement.
|
static <R extends Record> |
truncate(Table<R> table)
Create a new DSL truncate statement.
|
static Param<java.lang.Integer> |
two()
A
2 literal. |
static ConstraintFinalStep |
unique(Field<?>... fields)
Create an unnamed (system named)
UNIQUE constraint. |
static ConstraintFinalStep |
unique(Name... fields)
Create an unnamed (system named)
UNIQUE constraint. |
static ConstraintFinalStep |
unique(java.lang.String... fields)
Create an unnamed (system named)
UNIQUE constraint. |
static Table<?> |
unnest(ArrayRecord<?> array)
Create a table from an array of values.
|
static Table<?> |
unnest(Field<?> cursor)
Create a table from a field.
|
static Table<?> |
unnest(java.util.List<?> list)
Create a table from a list of values.
|
static Table<?> |
unnest(java.lang.Object[] array)
Create a table from an array of values.
|
static Name |
unquotedName(java.util.Collection<java.lang.String> qualifiedName)
Create a new SQL identifier using a qualified, quoted name.
|
static Name |
unquotedName(java.lang.String... qualifiedName)
Create a new SQL identifier using a qualified, quoted name.
|
static Name |
unquotedName(java.lang.String unqualifiedName)
Create a new SQL identifier using an unqualified, quoted name.
|
static <R extends Record> |
update(Table<R> table)
Create a new DSL update statement.
|
static Field<java.lang.String> |
upper(Field<java.lang.String> field)
Get the upper(field) function.
|
static Field<java.lang.String> |
upper(java.lang.String value)
Get the upper(field) function.
|
static DSLContext |
using(Configuration configuration)
Create an executor from a custom configuration.
|
static DSLContext |
using(java.sql.Connection connection)
Create an executor with a connection configured.
|
static DSLContext |
using(ConnectionProvider connectionProvider,
SQLDialect dialect)
Create an executor with a custom connection provider and a dialect
configured.
|
static DSLContext |
using(ConnectionProvider connectionProvider,
SQLDialect dialect,
Settings settings)
Create an executor with a custom connection provider, a dialect and settings
configured.
|
static DSLContext |
using(java.sql.Connection connection,
Settings settings)
Create an executor with a connection, a dialect and settings configured.
|
static DSLContext |
using(java.sql.Connection connection,
SQLDialect dialect)
Create an executor with a connection and a dialect configured.
|
static DSLContext |
using(java.sql.Connection connection,
SQLDialect dialect,
Settings settings)
Create an executor with a connection, a dialect and settings configured.
|
static DSLContext |
using(javax.sql.DataSource datasource,
SQLDialect dialect)
Create an executor with a data source and a dialect configured.
|
static DSLContext |
using(javax.sql.DataSource datasource,
SQLDialect dialect,
Settings settings)
Create an executor with a data source, a dialect and settings configured.
|
static DSLContext |
using(SQLDialect dialect)
Create an executor with a dialect configured.
|
static DSLContext |
using(SQLDialect dialect,
Settings settings)
Create an executor with a dialect and settings configured.
|
static DSLContext |
using(java.lang.String url)
Create an executor from a JDBC connection URL.
|
static DSLContext |
using(java.lang.String url,
java.util.Properties properties)
Create an executor from a JDBC connection URL.
|
static DSLContext |
using(java.lang.String url,
java.lang.String username,
java.lang.String password)
Create an executor from a JDBC connection URL.
|
static Param<java.math.BigDecimal> |
val(java.math.BigDecimal value)
Get a bind value.
|
static Param<java.math.BigInteger> |
val(java.math.BigInteger value)
Get a bind value.
|
static Param<java.lang.Boolean> |
val(boolean value)
Get a bind value.
|
static Param<java.lang.Boolean> |
val(java.lang.Boolean value)
Get a bind value.
|
static Param<java.lang.Byte> |
val(byte value)
Get a bind value.
|
static Param<java.lang.Byte> |
val(java.lang.Byte value)
Get a bind value.
|
static Param<byte[]> |
val(byte[] value)
Get a bind value.
|
static Param<java.sql.Date> |
val(java.sql.Date value)
Get a bind value.
|
static Param<java.lang.Double> |
val(double value)
Get a bind value.
|
static Param<java.lang.Double> |
val(java.lang.Double value)
Get a bind value.
|
static Param<java.lang.Float> |
val(float value)
Get a bind value.
|
static Param<java.lang.Float> |
val(java.lang.Float value)
Get a bind value.
|
static Param<java.lang.Integer> |
val(int value)
Get a bind value.
|
static Param<java.lang.Integer> |
val(java.lang.Integer value)
Get a bind value.
|
static Param<java.time.LocalDate> |
val(java.time.LocalDate value)
Get a bind value.
|
static Param<java.time.LocalDateTime> |
val(java.time.LocalDateTime value)
Get a bind value.
|
static Param<java.time.LocalTime> |
val(java.time.LocalTime value)
Get a bind value.
|
static Param<java.lang.Long> |
val(long value)
Get a bind value.
|
static Param<java.lang.Long> |
val(java.lang.Long value)
Get a bind value.
|
static <T> Param<T> |
val(java.lang.Object value,
java.lang.Class<T> type)
Get a bind value with an associated type, taken from a field.
|
static <T> Param<T> |
val(java.lang.Object value,
DataType<T> type)
Get a bind value with an associated type.
|
static <T> Param<T> |
val(java.lang.Object value,
Field<T> field)
Get a bind value with an associated type, taken from a field.
|
static Param<java.time.OffsetDateTime> |
val(java.time.OffsetDateTime value)
Get a bind value.
|
static Param<java.time.OffsetTime> |
val(java.time.OffsetTime value)
Get a bind value.
|
static Param<java.lang.Short> |
val(short value)
Get a bind value.
|
static Param<java.lang.Short> |
val(java.lang.Short value)
Get a bind value.
|
static Param<java.lang.String> |
val(java.lang.String value)
Get a bind value.
|
static <T> Param<T> |
val(T value)
Get a bind value.
|
static Param<java.sql.Time> |
val(java.sql.Time value)
Get a bind value.
|
static Param<java.sql.Timestamp> |
val(java.sql.Timestamp value)
Get a bind value.
|
static Param<UByte> |
val(UByte value)
Get a bind value.
|
static Param<UInteger> |
val(UInteger value)
Get a bind value.
|
static Param<ULong> |
val(ULong value)
Get a bind value.
|
static Param<UShort> |
val(UShort value)
Get a bind value.
|
static Param<java.util.UUID> |
val(java.util.UUID value)
Get a bind value.
|
static Param<java.math.BigDecimal> |
value(java.math.BigDecimal value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.math.BigInteger> |
value(java.math.BigInteger value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Boolean> |
value(boolean value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Boolean> |
value(java.lang.Boolean value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Byte> |
value(byte value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Byte> |
value(java.lang.Byte value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<byte[]> |
value(byte[] value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.sql.Date> |
value(java.sql.Date value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Double> |
value(double value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Double> |
value(java.lang.Double value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Float> |
value(float value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Float> |
value(java.lang.Float value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Integer> |
value(int value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Integer> |
value(java.lang.Integer value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.time.LocalDate> |
value(java.time.LocalDate value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.time.LocalDateTime> |
value(java.time.LocalDateTime value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.time.LocalTime> |
value(java.time.LocalTime value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Long> |
value(long value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Long> |
value(java.lang.Long value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static <T> Param<T> |
value(java.lang.Object value,
java.lang.Class<T> type)
A synonym for
val(Object, Class) to be used in Scala and Groovy, where
val is a reserved keyword. |
static <T> Param<T> |
value(java.lang.Object value,
DataType<T> type)
A synonym for
val(Object, DataType) to be used in Scala and Groovy, where
val is a reserved keyword. |
static <T> Param<T> |
value(java.lang.Object value,
Field<T> field)
A synonym for
val(Object, Field) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.time.OffsetDateTime> |
value(java.time.OffsetDateTime value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.time.OffsetTime> |
value(java.time.OffsetTime value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Short> |
value(short value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.Short> |
value(java.lang.Short value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.lang.String> |
value(java.lang.String value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static <T> Param<T> |
value(T value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.sql.Time> |
value(java.sql.Time value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.sql.Timestamp> |
value(java.sql.Timestamp value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<UByte> |
value(UByte value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<UInteger> |
value(UInteger value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<ULong> |
value(ULong value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<UShort> |
value(UShort value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static Param<java.util.UUID> |
value(java.util.UUID value)
A synonym for
val(Object) to be used in Scala and Groovy, where
val is a reserved keyword. |
static <T1> Table<Record1<T1>> |
values(Row1<T1>... rows)
Create a
VALUES() expression of degree 1 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> |
values(Row10<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10>... rows)
Create a
VALUES() expression of degree 10 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> |
values(Row11<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11>... rows)
Create a
VALUES() expression of degree 11 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> |
values(Row12<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12>... rows)
Create a
VALUES() expression of degree 12 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> |
values(Row13<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13>... rows)
Create a
VALUES() expression of degree 13 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> |
values(Row14<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14>... rows)
Create a
VALUES() expression of degree 14 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> |
values(Row15<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15>... rows)
Create a
VALUES() expression of degree 15 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> |
values(Row16<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16>... rows)
Create a
VALUES() expression of degree 16 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> |
values(Row17<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17>... rows)
Create a
VALUES() expression of degree 17 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> |
values(Row18<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18>... rows)
Create a
VALUES() expression of degree 18 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> |
values(Row19<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19>... rows)
Create a
VALUES() expression of degree 19 . |
static <T1,T2> Table<Record2<T1,T2>> |
values(Row2<T1,T2>... rows)
Create a
VALUES() expression of degree 2 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> |
values(Row20<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20>... rows)
Create a
VALUES() expression of degree 20 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> |
values(Row21<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21>... rows)
Create a
VALUES() expression of degree 21 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> |
values(Row22<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22>... rows)
Create a
VALUES() expression of degree 22 . |
static <T1,T2,T3> Table<Record3<T1,T2,T3>> |
values(Row3<T1,T2,T3>... rows)
Create a
VALUES() expression of degree 3 . |
static <T1,T2,T3,T4> |
values(Row4<T1,T2,T3,T4>... rows)
Create a
VALUES() expression of degree 4 . |
static <T1,T2,T3,T4,T5> |
values(Row5<T1,T2,T3,T4,T5>... rows)
Create a
VALUES() expression of degree 5 . |
static <T1,T2,T3,T4,T5,T6> |
values(Row6<T1,T2,T3,T4,T5,T6>... rows)
Create a
VALUES() expression of degree 6 . |
static <T1,T2,T3,T4,T5,T6,T7> |
values(Row7<T1,T2,T3,T4,T5,T6,T7>... rows)
Create a
VALUES() expression of degree 7 . |
static <T1,T2,T3,T4,T5,T6,T7,T8> |
values(Row8<T1,T2,T3,T4,T5,T6,T7,T8>... rows)
Create a
VALUES() expression of degree 8 . |
static <T1,T2,T3,T4,T5,T6,T7,T8,T9> |
values(Row9<T1,T2,T3,T4,T5,T6,T7,T8,T9>... rows)
Create a
VALUES() expression of degree 9 . |
static Table<Record> |
values(RowN... rows)
Create a
VALUES() expression of arbitrary degree. |
static AggregateFunction<java.math.BigDecimal> |
varPop(Field<? extends java.lang.Number> field)
Get the population variance of a numeric field: var_pop(field).
|
static AggregateFunction<java.math.BigDecimal> |
varSamp(Field<? extends java.lang.Number> field)
Get the sample variance of a numeric field: var_samp(field).
|
static <T> CaseConditionStep<T> |
when(Condition condition,
Field<T> result)
Initialise a
Case statement. |
static <T> CaseConditionStep<T> |
when(Condition condition,
Select<? extends Record1<T>> result)
Initialise a
Case statement. |
static <T> CaseConditionStep<T> |
when(Condition condition,
T result)
Initialise a
Case statement. |
static <T extends java.lang.Number> |
widthBucket(Field<T> field,
Field<T> low,
Field<T> high,
Field<java.lang.Integer> buckets) |
static <T extends java.lang.Number> |
widthBucket(Field<T> field,
T low,
T high,
int buckets) |
static WithStep |
with(CommonTableExpression<?>... tables)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep |
with(Name alias)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep |
with(Name alias,
Name... fieldAliases)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep1 |
with(Name alias,
Name fieldAlias1)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep2 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep3 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep4 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep5 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep6 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep7 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep8 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep9 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep10 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep11 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep12 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep13 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep14 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep15 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep16 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep17 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16,
Name fieldAlias17)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep18 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16,
Name fieldAlias17,
Name fieldAlias18)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep19 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16,
Name fieldAlias17,
Name fieldAlias18,
Name fieldAlias19)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep20 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16,
Name fieldAlias17,
Name fieldAlias18,
Name fieldAlias19,
Name fieldAlias20)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep21 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16,
Name fieldAlias17,
Name fieldAlias18,
Name fieldAlias19,
Name fieldAlias20,
Name fieldAlias21)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep22 |
with(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16,
Name fieldAlias17,
Name fieldAlias18,
Name fieldAlias19,
Name fieldAlias20,
Name fieldAlias21,
Name fieldAlias22)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep |
with(java.lang.String alias)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep |
with(java.lang.String alias,
java.util.function.Function<? super Field<?>,? extends java.lang.String> fieldNameFunction)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep |
with(java.lang.String alias,
java.lang.String... fieldAliases)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep1 |
with(java.lang.String alias,
java.lang.String fieldAlias1)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep2 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep3 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep4 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep5 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep6 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep7 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep8 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep9 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep10 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep11 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep12 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep13 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep14 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep15 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep16 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep17 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16,
java.lang.String fieldAlias17)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep18 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16,
java.lang.String fieldAlias17,
java.lang.String fieldAlias18)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep19 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16,
java.lang.String fieldAlias17,
java.lang.String fieldAlias18,
java.lang.String fieldAlias19)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep20 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16,
java.lang.String fieldAlias17,
java.lang.String fieldAlias18,
java.lang.String fieldAlias19,
java.lang.String fieldAlias20)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep21 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16,
java.lang.String fieldAlias17,
java.lang.String fieldAlias18,
java.lang.String fieldAlias19,
java.lang.String fieldAlias20,
java.lang.String fieldAlias21)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep22 |
with(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16,
java.lang.String fieldAlias17,
java.lang.String fieldAlias18,
java.lang.String fieldAlias19,
java.lang.String fieldAlias20,
java.lang.String fieldAlias21,
java.lang.String fieldAlias22)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithStep |
withRecursive(CommonTableExpression<?>... tables)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep |
withRecursive(Name alias)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep |
withRecursive(Name alias,
Name... fieldAliases)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep1 |
withRecursive(Name alias,
Name fieldAlias1)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep2 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep3 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep4 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep5 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep6 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep7 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep8 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep9 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep10 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep11 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep12 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep13 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep14 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep15 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep16 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep17 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16,
Name fieldAlias17)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep18 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16,
Name fieldAlias17,
Name fieldAlias18)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep19 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16,
Name fieldAlias17,
Name fieldAlias18,
Name fieldAlias19)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep20 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16,
Name fieldAlias17,
Name fieldAlias18,
Name fieldAlias19,
Name fieldAlias20)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep21 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16,
Name fieldAlias17,
Name fieldAlias18,
Name fieldAlias19,
Name fieldAlias20,
Name fieldAlias21)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep22 |
withRecursive(Name alias,
Name fieldAlias1,
Name fieldAlias2,
Name fieldAlias3,
Name fieldAlias4,
Name fieldAlias5,
Name fieldAlias6,
Name fieldAlias7,
Name fieldAlias8,
Name fieldAlias9,
Name fieldAlias10,
Name fieldAlias11,
Name fieldAlias12,
Name fieldAlias13,
Name fieldAlias14,
Name fieldAlias15,
Name fieldAlias16,
Name fieldAlias17,
Name fieldAlias18,
Name fieldAlias19,
Name fieldAlias20,
Name fieldAlias21,
Name fieldAlias22)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep |
withRecursive(java.lang.String alias)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep |
withRecursive(java.lang.String alias,
java.util.function.Function<? super Field<?>,? extends java.lang.String> fieldNameFunction)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep |
withRecursive(java.lang.String alias,
java.lang.String... fieldAliases)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep1 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep2 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep3 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep4 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep5 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep6 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep7 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep8 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep9 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep10 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep11 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep12 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep13 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep14 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep15 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep16 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep17 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16,
java.lang.String fieldAlias17)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep18 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16,
java.lang.String fieldAlias17,
java.lang.String fieldAlias18)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep19 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16,
java.lang.String fieldAlias17,
java.lang.String fieldAlias18,
java.lang.String fieldAlias19)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep20 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16,
java.lang.String fieldAlias17,
java.lang.String fieldAlias18,
java.lang.String fieldAlias19,
java.lang.String fieldAlias20)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep21 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16,
java.lang.String fieldAlias17,
java.lang.String fieldAlias18,
java.lang.String fieldAlias19,
java.lang.String fieldAlias20,
java.lang.String fieldAlias21)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static WithAsStep22 |
withRecursive(java.lang.String alias,
java.lang.String fieldAlias1,
java.lang.String fieldAlias2,
java.lang.String fieldAlias3,
java.lang.String fieldAlias4,
java.lang.String fieldAlias5,
java.lang.String fieldAlias6,
java.lang.String fieldAlias7,
java.lang.String fieldAlias8,
java.lang.String fieldAlias9,
java.lang.String fieldAlias10,
java.lang.String fieldAlias11,
java.lang.String fieldAlias12,
java.lang.String fieldAlias13,
java.lang.String fieldAlias14,
java.lang.String fieldAlias15,
java.lang.String fieldAlias16,
java.lang.String fieldAlias17,
java.lang.String fieldAlias18,
java.lang.String fieldAlias19,
java.lang.String fieldAlias20,
java.lang.String fieldAlias21,
java.lang.String fieldAlias22)
Create a
WITH clause to supply subsequent
SELECT , UPDATE , INSERT ,
DELETE , and MERGE statements with
CommonTableExpression s. |
static Field<java.lang.Integer> |
year(java.util.Date value)
Get the year part of a date.
|
static Field<java.lang.Integer> |
year(Field<?> field)
Get the year part of a date.
|
static Field<java.lang.Integer> |
year(java.time.temporal.Temporal value)
Get the year part of a date.
|
static Param<java.lang.Integer> |
zero()
A
0 literal. |
public static DSLContext using(SQLDialect dialect)
Without a connection or data source, this executor cannot execute queries. Use it to render SQL only.
dialect
- The dialect to use with objects created from this executorpublic static DSLContext using(SQLDialect dialect, Settings settings)
Without a connection or data source, this executor cannot execute queries. Use it to render SQL only.
dialect
- The dialect to use with objects created from this executorsettings
- The runtime settings to apply to objects created from
this executorpublic static DSLContext using(java.lang.String url)
Clients must ensure connections are closed properly by calling
DSLContext.close()
on the resulting DSLContext
. For
example:
// Auto-closing DSLContext instance to free resources
try (DSLContext ctx = DSL.using("jdbc:h2:~/test")) {
// ...
}
url
- The connection URL.DefaultConnectionProvider
,
JDBCUtils.dialect(String)
public static DSLContext using(java.lang.String url, java.lang.String username, java.lang.String password)
Clients must ensure connections are closed properly by calling
DSLContext.close()
on the resulting DSLContext
. For
example:
// Auto-closing DSLContext instance to free resources
try (DSLContext ctx = DSL.using("jdbc:h2:~/test", "sa", "")) {
// ...
}
url
- The connection URL.username
- The connection user name.password
- The connection password.DefaultConnectionProvider
,
JDBCUtils.dialect(String)
public static DSLContext using(java.lang.String url, java.util.Properties properties)
Clients must ensure connections are closed properly by calling
DSLContext.close()
on the resulting DSLContext
. For
example:
// Auto-closing DSLContext instance to free resources
try (DSLContext ctx = DSL.using("jdbc:h2:~/test", properties)) {
// ...
}
url
- The connection URL.properties
- The connection properties.DefaultConnectionProvider
,
JDBCUtils.dialect(String)
public static DSLContext using(java.sql.Connection connection)
If you provide a JDBC connection to a jOOQ Configuration, jOOQ will use that connection directly for creating statements.
This is a convenience constructor for
using(Connection, Settings)
, guessing the SQLDialect
using JDBCUtils.dialect(Connection)
connection
- The connection to use with objects created from this
executorDefaultConnectionProvider
,
JDBCUtils.dialect(Connection)
public static DSLContext using(java.sql.Connection connection, SQLDialect dialect)
If you provide a JDBC connection to a jOOQ Configuration, jOOQ will use that connection directly for creating statements.
This is a convenience constructor for
using(ConnectionProvider, SQLDialect, Settings)
using a
DefaultConnectionProvider
connection
- The connection to use with objects created from this
executordialect
- The dialect to use with objects created from this executorDefaultConnectionProvider
public static DSLContext using(java.sql.Connection connection, Settings settings)
If you provide a JDBC connection to a jOOQ Configuration, jOOQ will use that connection directly for creating statements.
This is a convenience constructor for
using(ConnectionProvider, SQLDialect, Settings)
using a
DefaultConnectionProvider
and guessing the SQLDialect
using JDBCUtils.dialect(Connection)
connection
- The connection to use with objects created from this
executorsettings
- The runtime settings to apply to objects created from
this executorDefaultConnectionProvider
,
JDBCUtils.dialect(Connection)
public static DSLContext using(java.sql.Connection connection, SQLDialect dialect, Settings settings)
If you provide a JDBC connection to a jOOQ Configuration, jOOQ will use that connection directly for creating statements.
This is a convenience constructor for
using(ConnectionProvider, SQLDialect, Settings)
using a
DefaultConnectionProvider
connection
- The connection to use with objects created from this
executordialect
- The dialect to use with objects created from this executorsettings
- The runtime settings to apply to objects created from
this executorDefaultConnectionProvider
public static DSLContext using(javax.sql.DataSource datasource, SQLDialect dialect)
If you provide a JDBC data source to a jOOQ Configuration, jOOQ will use that data source for initialising connections, and creating statements.
This is a convenience constructor for
using(ConnectionProvider, SQLDialect)
using a
DataSourceConnectionProvider
datasource
- The data source to use with objects created from this
executordialect
- The dialect to use with objects created from this executorDataSourceConnectionProvider
public static DSLContext using(javax.sql.DataSource datasource, SQLDialect dialect, Settings settings)
If you provide a JDBC data source to a jOOQ Configuration, jOOQ will use that data source for initialising connections, and creating statements.
This is a convenience constructor for
using(ConnectionProvider, SQLDialect, Settings)
using a
DataSourceConnectionProvider
datasource
- The data source to use with objects created from this
executordialect
- The dialect to use with objects created from this executorsettings
- The runtime settings to apply to objects created from
this executorDataSourceConnectionProvider
public static DSLContext using(ConnectionProvider connectionProvider, SQLDialect dialect)
connectionProvider
- The connection provider providing jOOQ with
JDBC connectionsdialect
- The dialect to use with objects created from this executorpublic static DSLContext using(ConnectionProvider connectionProvider, SQLDialect dialect, Settings settings)
connectionProvider
- The connection provider providing jOOQ with
JDBC connectionsdialect
- The dialect to use with objects created from this executorsettings
- The runtime settings to apply to objects created from
this executorpublic static DSLContext using(Configuration configuration)
configuration
- The configuration@Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep with(java.lang.String alias)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String)
for strictly non-recursive CTE
and withRecursive(String)
for strictly
recursive CTE.
@Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep with(java.lang.String alias, java.lang.String... fieldAliases)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep with(Name alias)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(Name)
for strictly non-recursive CTE
and withRecursive(Name)
for strictly
recursive CTE.
@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep with(Name alias, Name... fieldAliases)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(Name, Name...)
for strictly non-recursive CTE
and withRecursive(Name, Name...)
for strictly
recursive CTE.
@Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep with(java.lang.String alias, java.util.function.Function<? super Field<?>,? extends java.lang.String> fieldNameFunction)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE and
withRecursive(String, String...)
for strictly recursive CTE.
This works in a similar way as with(String, String...)
, except
that all column names are produced by a function that receives the CTE's
Select
columns as input.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep1 with(java.lang.String alias, java.lang.String fieldAlias1)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep2 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep3 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep4 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep5 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep6 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep7 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep8 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep9 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep10 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep11 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep12 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep13 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep14 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep15 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep16 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep17 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16, java.lang.String fieldAlias17)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep18 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16, java.lang.String fieldAlias17, java.lang.String fieldAlias18)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep19 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16, java.lang.String fieldAlias17, java.lang.String fieldAlias18, java.lang.String fieldAlias19)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep20 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16, java.lang.String fieldAlias17, java.lang.String fieldAlias18, java.lang.String fieldAlias19, java.lang.String fieldAlias20)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep21 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16, java.lang.String fieldAlias17, java.lang.String fieldAlias18, java.lang.String fieldAlias19, java.lang.String fieldAlias20, java.lang.String fieldAlias21)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep22 with(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16, java.lang.String fieldAlias17, java.lang.String fieldAlias18, java.lang.String fieldAlias19, java.lang.String fieldAlias20, java.lang.String fieldAlias21, java.lang.String fieldAlias22)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep1 with(Name alias, Name fieldAlias1)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep2 with(Name alias, Name fieldAlias1, Name fieldAlias2)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep3 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep4 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep5 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep6 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep7 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep8 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep9 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep10 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep11 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep12 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep13 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep14 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep15 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep16 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep17 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16, Name fieldAlias17)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep18 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16, Name fieldAlias17, Name fieldAlias18)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep19 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16, Name fieldAlias17, Name fieldAlias18, Name fieldAlias19)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep20 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16, Name fieldAlias17, Name fieldAlias18, Name fieldAlias19, Name fieldAlias20)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep21 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16, Name fieldAlias17, Name fieldAlias18, Name fieldAlias19, Name fieldAlias20, Name fieldAlias21)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithAsStep22 with(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16, Name fieldAlias17, Name fieldAlias18, Name fieldAlias19, Name fieldAlias20, Name fieldAlias21, Name fieldAlias22)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
@Support(value={DB2,FIREBIRD,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static WithStep with(CommonTableExpression<?>... tables)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
Reusable CommonTableExpression
types can be constructed through
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(CommonTableExpression...)
for strictly non-recursive CTE
and withRecursive(CommonTableExpression...)
for strictly
recursive CTE.
@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep withRecursive(java.lang.String alias)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String)
for strictly non-recursive CTE
and withRecursive(String)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep withRecursive(java.lang.String alias, java.lang.String... fieldAliases)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep withRecursive(Name alias)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(Name)
for strictly non-recursive CTE
and withRecursive(Name)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep withRecursive(Name alias, Name... fieldAliases)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(Name, Name...)
for strictly non-recursive CTE
and withRecursive(Name, Name...)
for strictly
recursive CTE.
@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep withRecursive(java.lang.String alias, java.util.function.Function<? super Field<?>,? extends java.lang.String> fieldNameFunction)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
This works in a similar way as with(String, String...)
, except
that all column names are produced by a function that receives the CTE's
Select
columns as input.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep1 withRecursive(java.lang.String alias, java.lang.String fieldAlias1)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep2 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep3 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep4 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep5 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep6 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep7 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep8 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep9 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep10 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep11 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep12 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep13 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep14 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep15 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep16 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep17 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16, java.lang.String fieldAlias17)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep18 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16, java.lang.String fieldAlias17, java.lang.String fieldAlias18)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep19 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16, java.lang.String fieldAlias17, java.lang.String fieldAlias18, java.lang.String fieldAlias19)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep20 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16, java.lang.String fieldAlias17, java.lang.String fieldAlias18, java.lang.String fieldAlias19, java.lang.String fieldAlias20)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep21 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16, java.lang.String fieldAlias17, java.lang.String fieldAlias18, java.lang.String fieldAlias19, java.lang.String fieldAlias20, java.lang.String fieldAlias21)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep22 withRecursive(java.lang.String alias, java.lang.String fieldAlias1, java.lang.String fieldAlias2, java.lang.String fieldAlias3, java.lang.String fieldAlias4, java.lang.String fieldAlias5, java.lang.String fieldAlias6, java.lang.String fieldAlias7, java.lang.String fieldAlias8, java.lang.String fieldAlias9, java.lang.String fieldAlias10, java.lang.String fieldAlias11, java.lang.String fieldAlias12, java.lang.String fieldAlias13, java.lang.String fieldAlias14, java.lang.String fieldAlias15, java.lang.String fieldAlias16, java.lang.String fieldAlias17, java.lang.String fieldAlias18, java.lang.String fieldAlias19, java.lang.String fieldAlias20, java.lang.String fieldAlias21, java.lang.String fieldAlias22)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep1 withRecursive(Name alias, Name fieldAlias1)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep2 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep3 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep4 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep5 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep6 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep7 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep8 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep9 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep10 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep11 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep12 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep13 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep14 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep15 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep16 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep17 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16, Name fieldAlias17)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep18 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16, Name fieldAlias17, Name fieldAlias18)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep19 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16, Name fieldAlias17, Name fieldAlias18, Name fieldAlias19)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep20 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16, Name fieldAlias17, Name fieldAlias18, Name fieldAlias19, Name fieldAlias20)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep21 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16, Name fieldAlias17, Name fieldAlias18, Name fieldAlias19, Name fieldAlias20, Name fieldAlias21)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Generated(value="This method was generated using jOOQ-tools") @Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithAsStep22 withRecursive(Name alias, Name fieldAlias1, Name fieldAlias2, Name fieldAlias3, Name fieldAlias4, Name fieldAlias5, Name fieldAlias6, Name fieldAlias7, Name fieldAlias8, Name fieldAlias9, Name fieldAlias10, Name fieldAlias11, Name fieldAlias12, Name fieldAlias13, Name fieldAlias14, Name fieldAlias15, Name fieldAlias16, Name fieldAlias17, Name fieldAlias18, Name fieldAlias19, Name fieldAlias20, Name fieldAlias21, Name fieldAlias22)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(String, String...)
for strictly non-recursive CTE
and withRecursive(String, String...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static WithStep withRecursive(CommonTableExpression<?>... tables)
WITH
clause to supply subsequent
SELECT
, UPDATE
, INSERT
,
DELETE
, and MERGE
statements with
CommonTableExpression
s.
Reusable CommonTableExpression
types can be constructed through
The RECURSIVE
keyword may be optional or unsupported in some
databases, in case of which it will not be rendered. For optimal database
interoperability and readability, however, it is suggested that you use
with(CommonTableExpression...)
for strictly non-recursive CTE
and withRecursive(CommonTableExpression...)
for strictly
recursive CTE.
Note that the SQLDialect.H2
database only supports single-table,
RECURSIVE
common table expression lists.
@Support public static <R extends Record> SelectWhereStep<R> selectFrom(Table<R> table)
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
SELECT * FROM [table] WHERE [conditions] ORDER BY [ordering] LIMIT [limit clause]
@Support public static SelectSelectStep<Record> select(java.util.Collection<? extends SelectField<?>> fields)
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(fields)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
Note that passing an empty collection conveniently produces
SELECT *
semantics, i.e. it:
SELECT tab1.col1, tab1.col2, ..., tabN.colN
if
all columns are knownSELECT *
if not all columns are known, e.g. when
using plain SQLDSLContext.select(Collection)
@Support public static SelectSelectStep<Record> select(SelectField<?>... fields)
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
Note that passing an empty collection conveniently produces
SELECT *
semantics, i.e. it:
SELECT tab1.col1, tab1.col2, ..., tabN.colN
if
all columns are knownSELECT *
if not all columns are known, e.g. when
using plain SQLDSLContext.select(SelectField...)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1> SelectSelectStep<Record1<T1>> select(SelectField<T1> field1)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Field.in(Select)
, Field.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2> SelectSelectStep<Record2<T1,T2>> select(SelectField<T1> field1, SelectField<T2> field2)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row2.in(Select)
, Row2.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3> SelectSelectStep<Record3<T1,T2,T3>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row3.in(Select)
, Row3.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4> SelectSelectStep<Record4<T1,T2,T3,T4>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row4.in(Select)
, Row4.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, field4)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5> SelectSelectStep<Record5<T1,T2,T3,T4,T5>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row5.in(Select)
, Row5.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, field4, field5)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6> SelectSelectStep<Record6<T1,T2,T3,T4,T5,T6>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row6.in(Select)
, Row6.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field5, field6)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7> SelectSelectStep<Record7<T1,T2,T3,T4,T5,T6,T7>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row7.in(Select)
, Row7.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field6, field7)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8> SelectSelectStep<Record8<T1,T2,T3,T4,T5,T6,T7,T8>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row8.in(Select)
, Row8.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field7, field8)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9> SelectSelectStep<Record9<T1,T2,T3,T4,T5,T6,T7,T8,T9>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row9.in(Select)
, Row9.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field8, field9)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> SelectSelectStep<Record10<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row10.in(Select)
, Row10.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field9, field10)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> SelectSelectStep<Record11<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row11.in(Select)
, Row11.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field10, field11)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> SelectSelectStep<Record12<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row12.in(Select)
, Row12.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field11, field12)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> SelectSelectStep<Record13<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row13.in(Select)
, Row13.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field12, field13)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> SelectSelectStep<Record14<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row14.in(Select)
, Row14.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field13, field14)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> SelectSelectStep<Record15<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row15.in(Select)
, Row15.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field14, field15)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> SelectSelectStep<Record16<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row16.in(Select)
, Row16.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field15, field16)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> SelectSelectStep<Record17<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16, SelectField<T17> field17)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row17.in(Select)
, Row17.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field16, field17)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> SelectSelectStep<Record18<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16, SelectField<T17> field17, SelectField<T18> field18)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row18.in(Select)
, Row18.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field17, field18)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> SelectSelectStep<Record19<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16, SelectField<T17> field17, SelectField<T18> field18, SelectField<T19> field19)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row19.in(Select)
, Row19.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field18, field19)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> SelectSelectStep<Record20<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16, SelectField<T17> field17, SelectField<T18> field18, SelectField<T19> field19, SelectField<T20> field20)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row20.in(Select)
, Row20.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field19, field20)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> SelectSelectStep<Record21<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16, SelectField<T17> field17, SelectField<T18> field18, SelectField<T19> field19, SelectField<T20> field20, SelectField<T21> field21)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row21.in(Select)
, Row21.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field20, field21)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> SelectSelectStep<Record22<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22>> select(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16, SelectField<T17> field17, SelectField<T18> field18, SelectField<T19> field19, SelectField<T20> field20, SelectField<T21> field21, SelectField<T22> field22)
This is the same as select(SelectField...)
, except that it declares
additional record-level typesafety, which is needed by
Row22.in(Select)
, Row22.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
select(field1, field2, field3, .., field21, field22)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Support public static SelectSelectStep<Record> selectDistinct(java.util.Collection<? extends SelectField<?>> fields)
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(fields)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
Note that passing an empty collection conveniently produces
SELECT DISTINCT *
semantics, i.e. it:
SELECT DISTINCT tab1.col1, tab1.col2, ..., tabN.colN
if
all columns are knownSELECT DISTINCT *
if not all columns are known, e.g. when
using plain SQLDSLContext.selectDistinct(Collection)
@Support public static SelectSelectStep<Record> selectDistinct(SelectField<?>... fields)
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
Note that passing an empty collection conveniently produces
SELECT DISTINCT *
semantics, i.e. it:
SELECT DISTINCT tab1.col1, tab1.col2, ..., tabN.colN
if
all columns are knownSELECT DISTINCT *
if not all columns are known, e.g. when
using plain SQL@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1> SelectSelectStep<Record1<T1>> selectDistinct(SelectField<T1> field1)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Field.in(Select)
, Field.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2> SelectSelectStep<Record2<T1,T2>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row2.in(Select)
, Row2.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3> SelectSelectStep<Record3<T1,T2,T3>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row3.in(Select)
, Row3.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4> SelectSelectStep<Record4<T1,T2,T3,T4>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row4.in(Select)
, Row4.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, field4)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5> SelectSelectStep<Record5<T1,T2,T3,T4,T5>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row5.in(Select)
, Row5.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, field4, field5)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6> SelectSelectStep<Record6<T1,T2,T3,T4,T5,T6>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row6.in(Select)
, Row6.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field5, field6)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7> SelectSelectStep<Record7<T1,T2,T3,T4,T5,T6,T7>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row7.in(Select)
, Row7.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field6, field7)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8> SelectSelectStep<Record8<T1,T2,T3,T4,T5,T6,T7,T8>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row8.in(Select)
, Row8.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field7, field8)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9> SelectSelectStep<Record9<T1,T2,T3,T4,T5,T6,T7,T8,T9>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row9.in(Select)
, Row9.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field8, field9)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> SelectSelectStep<Record10<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row10.in(Select)
, Row10.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field9, field10)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> SelectSelectStep<Record11<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row11.in(Select)
, Row11.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field10, field11)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> SelectSelectStep<Record12<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row12.in(Select)
, Row12.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field11, field12)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> SelectSelectStep<Record13<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row13.in(Select)
, Row13.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field12, field13)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> SelectSelectStep<Record14<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row14.in(Select)
, Row14.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field13, field14)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> SelectSelectStep<Record15<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row15.in(Select)
, Row15.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field14, field15)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> SelectSelectStep<Record16<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row16.in(Select)
, Row16.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field15, field16)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> SelectSelectStep<Record17<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16, SelectField<T17> field17)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row17.in(Select)
, Row17.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field16, field17)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> SelectSelectStep<Record18<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16, SelectField<T17> field17, SelectField<T18> field18)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row18.in(Select)
, Row18.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field17, field18)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> SelectSelectStep<Record19<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16, SelectField<T17> field17, SelectField<T18> field18, SelectField<T19> field19)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row19.in(Select)
, Row19.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field18, field19)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> SelectSelectStep<Record20<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16, SelectField<T17> field17, SelectField<T18> field18, SelectField<T19> field19, SelectField<T20> field20)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row20.in(Select)
, Row20.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field19, field20)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> SelectSelectStep<Record21<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16, SelectField<T17> field17, SelectField<T18> field18, SelectField<T19> field19, SelectField<T20> field20, SelectField<T21> field21)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row21.in(Select)
, Row21.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field20, field21)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> SelectSelectStep<Record22<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22>> selectDistinct(SelectField<T1> field1, SelectField<T2> field2, SelectField<T3> field3, SelectField<T4> field4, SelectField<T5> field5, SelectField<T6> field6, SelectField<T7> field7, SelectField<T8> field8, SelectField<T9> field9, SelectField<T10> field10, SelectField<T11> field11, SelectField<T12> field12, SelectField<T13> field13, SelectField<T14> field14, SelectField<T15> field15, SelectField<T16> field16, SelectField<T17> field17, SelectField<T18> field18, SelectField<T19> field19, SelectField<T20> field20, SelectField<T21> field21, SelectField<T22> field22)
This is the same as selectDistinct(SelectField...)
, except that it
declares additional record-level typesafety, which is needed by
Row22.in(Select)
, Row22.equal(Select)
and other predicate
building methods taking subselect arguments.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectDistinct(field1, field2, field3, .., field21, field22)
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
@Support public static SelectSelectStep<Record1<java.lang.Integer>> selectZero()
0
literal.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectZero()
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
zero()
,
DSLContext.selectZero()
@Support public static SelectSelectStep<Record1<java.lang.Integer>> selectOne()
1
literal.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectOne()
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
one()
,
DSLContext.selectOne()
@Support public static SelectSelectStep<Record1<java.lang.Integer>> selectCount()
COUNT(*)
.
Unlike Select
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
SELECT
statement. You can use this statement in two ways:
Attachable.attach(org.jooq.Configuration)
Example:
import static org.jooq.impl.DSL.*;
// [...]
selectCount()
.from(table1)
.join(table2).on(field1.equal(field2))
.where(field1.greaterThan(100))
.orderBy(field2);
count()
,
DSLContext.selectCount()
@Support public static <R extends Record> InsertSetStep<R> insertInto(Table<R> into)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
This type of insert may feel more convenient to some users, as it uses
the UPDATE
statement's SET a = b
syntax.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table)
.set(field1, value1)
.set(field2, value2)
.newRecord()
.set(field1, value3)
.set(field2, value4)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
DSLContext.insertInto(Table)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1> InsertValuesStep1<R,T1> insertInto(Table<R> into, Field<T1> field1)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1)
.values(field1)
.values(field1)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
DSLContext.insertInto(Table, Field)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2> InsertValuesStep2<R,T1,T2> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2)
.values(field1, field2)
.values(field1, field2)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3> InsertValuesStep3<R,T1,T2,T3> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3)
.values(field1, field2, field3)
.values(field1, field2, field3)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4> InsertValuesStep4<R,T1,T2,T3,T4> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, field4)
.values(field1, field2, field3, field4)
.values(field1, field2, field3, field4)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5> InsertValuesStep5<R,T1,T2,T3,T4,T5> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, field4, field5)
.values(field1, field2, field3, field4, field5)
.values(field1, field2, field3, field4, field5)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6> InsertValuesStep6<R,T1,T2,T3,T4,T5,T6> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field5, field6)
.values(valueA1, valueA2, valueA3, .., valueA5, valueA6)
.values(valueB1, valueB2, valueB3, .., valueB5, valueB6)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7> InsertValuesStep7<R,T1,T2,T3,T4,T5,T6,T7> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field6, field7)
.values(valueA1, valueA2, valueA3, .., valueA6, valueA7)
.values(valueB1, valueB2, valueB3, .., valueB6, valueB7)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8> InsertValuesStep8<R,T1,T2,T3,T4,T5,T6,T7,T8> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field7, field8)
.values(valueA1, valueA2, valueA3, .., valueA7, valueA8)
.values(valueB1, valueB2, valueB3, .., valueB7, valueB8)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9> InsertValuesStep9<R,T1,T2,T3,T4,T5,T6,T7,T8,T9> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field8, field9)
.values(valueA1, valueA2, valueA3, .., valueA8, valueA9)
.values(valueB1, valueB2, valueB3, .., valueB8, valueB9)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> InsertValuesStep10<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field9, field10)
.values(valueA1, valueA2, valueA3, .., valueA9, valueA10)
.values(valueB1, valueB2, valueB3, .., valueB9, valueB10)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> InsertValuesStep11<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field10, field11)
.values(valueA1, valueA2, valueA3, .., valueA10, valueA11)
.values(valueB1, valueB2, valueB3, .., valueB10, valueB11)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> InsertValuesStep12<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field11, field12)
.values(valueA1, valueA2, valueA3, .., valueA11, valueA12)
.values(valueB1, valueB2, valueB3, .., valueB11, valueB12)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> InsertValuesStep13<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field12, field13)
.values(valueA1, valueA2, valueA3, .., valueA12, valueA13)
.values(valueB1, valueB2, valueB3, .., valueB12, valueB13)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> InsertValuesStep14<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field13, field14)
.values(valueA1, valueA2, valueA3, .., valueA13, valueA14)
.values(valueB1, valueB2, valueB3, .., valueB13, valueB14)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> InsertValuesStep15<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field14, field15)
.values(valueA1, valueA2, valueA3, .., valueA14, valueA15)
.values(valueB1, valueB2, valueB3, .., valueB14, valueB15)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> InsertValuesStep16<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field15, field16)
.values(valueA1, valueA2, valueA3, .., valueA15, valueA16)
.values(valueB1, valueB2, valueB3, .., valueB15, valueB16)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> InsertValuesStep17<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field16, field17)
.values(valueA1, valueA2, valueA3, .., valueA16, valueA17)
.values(valueB1, valueB2, valueB3, .., valueB16, valueB17)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> InsertValuesStep18<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field17, field18)
.values(valueA1, valueA2, valueA3, .., valueA17, valueA18)
.values(valueB1, valueB2, valueB3, .., valueB17, valueB18)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> InsertValuesStep19<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field18, field19)
.values(valueA1, valueA2, valueA3, .., valueA18, valueA19)
.values(valueB1, valueB2, valueB3, .., valueB18, valueB19)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> InsertValuesStep20<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19, Field<T20> field20)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field19, field20)
.values(valueA1, valueA2, valueA3, .., valueA19, valueA20)
.values(valueB1, valueB2, valueB3, .., valueB19, valueB20)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> InsertValuesStep21<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19, Field<T20> field20, Field<T21> field21)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field20, field21)
.values(valueA1, valueA2, valueA3, .., valueA20, valueA21)
.values(valueB1, valueB2, valueB3, .., valueB20, valueB21)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Generated(value="This method was generated using jOOQ-tools") @Support public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> InsertValuesStep22<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> insertInto(Table<R> into, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19, Field<T20> field20, Field<T21> field21, Field<T22> field22)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2, field3, .., field21, field22)
.values(valueA1, valueA2, valueA3, .., valueA21, valueA22)
.values(valueB1, valueB2, valueB3, .., valueB21, valueB22)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
@Support public static <R extends Record> InsertValuesStepN<R> insertInto(Table<R> into, Field<?>... fields)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2)
.values(valueA1, valueA2)
.values(valueB1, valueB2)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
DSLContext.insertInto(Table, Field...)
@Support public static <R extends Record> InsertValuesStepN<R> insertInto(Table<R> into, java.util.Collection<? extends Field<?>> fields)
Unlike Insert
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
INSERT
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
insertInto(table, field1, field2)
.values(valueA1, valueA2)
.values(valueB1, valueB2)
.onDuplicateKeyUpdate()
.set(field1, value1)
.set(field2, value2)
DSLContext.insertInto(Table, Collection)
@Support public static <R extends Record> UpdateSetFirstStep<R> update(Table<R> table)
Unlike Update
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
UPDATE
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
update(table)
.set(field1, value1)
.set(field2, value2)
.where(field1.greaterThan(100))
Note that some databases support table expressions more complex than
simple table references. In CUBRID and MySQL, for instance, you can write
update(t1.join(t2).on(t1.id.eq(t2.id)))
.set(t1.value, value1)
.set(t2.value, value2)
.where(t1.id.eq(10))
@Support(value={CUBRID,DB2,FIREBIRD_3_0,HSQLDB,INFORMIX,ORACLE,SQLSERVER,SYBASE}) public static <R extends Record> MergeUsingStep<R> mergeInto(Table<R> table)
Unlike Merge
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
MERGE
statement.
This statement is available from DSL syntax only. It is known to be supported in some way by any of these dialects:
dialect | support type | documentation |
---|---|---|
CUBRID | SQL:2008 standard and some enhancements | http://www.cubrid.org/manual/90/en/MERGE |
DB2 | SQL:2008 standard and major enhancements | http://publib.boulder.ibm.com/infocenter/db2luw/v9/index.jsp?topic=/com. ibm.db2.udb.admin.doc/doc/r0010873.htm |
HSQLDB | SQL:2008 standard | http://hsqldb.org/doc/2.0/guide/dataaccess-chapt.html#N129BA |
Oracle | SQL:2008 standard and minor enhancements | http://download.oracle.com/docs/cd/B28359_01/server.111/b28286/ statements_9016.htm |
SQL Server | Similar to SQL:2008 standard with some major enhancements | http://msdn.microsoft.com/de-de/library/bb510625.aspx |
Sybase | Similar to SQL:2008 standard with some major enhancements | http://dcx.sybase.com/1100/en/dbreference_en11/merge-statement.html |
Example:
import static org.jooq.impl.DSL.*;
// [...]
mergeInto(table)
.using(select)
.on(condition)
.whenMatchedThenUpdate()
.set(field1, value1)
.set(field2, value2)
.whenNotMatchedThenInsert(field1, field2)
.values(value1, value2)
Note: Using this method, you can also create an H2-specific MERGE
statement without field specification. See also
mergeInto(Table, Field...)
DSLContext.mergeInto(Table)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1> MergeKeyStep1<R,T1> mergeInto(Table<R> table, Field<T1> field1)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2> MergeKeyStep2<R,T1,T2> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3> MergeKeyStep3<R,T1,T2,T3> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4> MergeKeyStep4<R,T1,T2,T3,T4> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5> MergeKeyStep5<R,T1,T2,T3,T4,T5> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6> MergeKeyStep6<R,T1,T2,T3,T4,T5,T6> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7> MergeKeyStep7<R,T1,T2,T3,T4,T5,T6,T7> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8> MergeKeyStep8<R,T1,T2,T3,T4,T5,T6,T7,T8> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9> MergeKeyStep9<R,T1,T2,T3,T4,T5,T6,T7,T8,T9> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> MergeKeyStep10<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> MergeKeyStep11<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> MergeKeyStep12<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> MergeKeyStep13<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> MergeKeyStep14<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> MergeKeyStep15<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> MergeKeyStep16<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> MergeKeyStep17<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> MergeKeyStep18<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> MergeKeyStep19<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> MergeKeyStep20<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19, Field<T20> field20)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> MergeKeyStep21<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19, Field<T20> field20, Field<T21> field21)
DSLContext.mergeInto(Table, Field...)
@Generated(value="This method was generated using jOOQ-tools") @Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> MergeKeyStep22<R,T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> mergeInto(Table<R> table, Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19, Field<T20> field20, Field<T21> field21, Field<T22> field22)
DSLContext.mergeInto(Table, Field...)
@Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record> MergeKeyStepN<R> mergeInto(Table<R> table, Field<?>... fields)
Unlike Merge
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
MERGE
statement.
This statement is available from DSL syntax only. It is known to be supported in some way by any of these dialects:
H2 | H2 natively supports this special syntax | www.h2database.com/html/grammar.html#merge |
DB2, HSQLDB, Oracle, SQL Server, Sybase SQL Anywhere | These databases can emulate the H2-specific MERGE statement using a standard SQL MERGE statement, without restrictions | See mergeInto(Table) for the standard MERGE statement |
DSLContext.mergeInto(Table, Field...)
@Support(value={CUBRID,DB2,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static <R extends Record> MergeKeyStepN<R> mergeInto(Table<R> table, java.util.Collection<? extends Field<?>> fields)
Unlike Merge
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
MERGE
statement.
DSLContext.mergeInto(Table, Collection)
@Support public static <R extends Record> DeleteWhereStep<R> deleteFrom(Table<R> table)
Unlike Delete
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
DELETE
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
deleteFrom(table)
.where(field1.greaterThan(100))
Some but not all databases support aliased tables in delete statements.
DSLContext.deleteFrom(Table)
@Support public static <R extends Record> DeleteWhereStep<R> delete(Table<R> table)
This is an alias for deleteFrom(Table)
@Support public static ConstraintTypeStep constraint()
CONSTRAINT
specification.@Support public static ConstraintTypeStep constraint(Name name)
CONSTRAINT
specification.@Support public static ConstraintTypeStep constraint(java.lang.String name)
CONSTRAINT
specification.@Support public static ConstraintFinalStep primaryKey(java.lang.String... fields)
PRIMARY KEY
constraint.@Support public static ConstraintFinalStep primaryKey(Name... fields)
PRIMARY KEY
constraint.@Support public static ConstraintFinalStep primaryKey(Field<?>... fields)
PRIMARY KEY
constraint.@Support public static ConstraintForeignKeyReferencesStepN foreignKey(java.lang.String... fields)
FOREIGN KEY
clause to the CONSTRAINT
.@Support public static ConstraintForeignKeyReferencesStepN foreignKey(Name... fields)
FOREIGN KEY
clause to the CONSTRAINT
.@Support public static ConstraintForeignKeyReferencesStepN foreignKey(Field<?>... fields)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1> ConstraintForeignKeyReferencesStep1<T1> foreignKey(Field<T1> field1)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2> ConstraintForeignKeyReferencesStep2<T1,T2> foreignKey(Field<T1> field1, Field<T2> field2)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3> ConstraintForeignKeyReferencesStep3<T1,T2,T3> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4> ConstraintForeignKeyReferencesStep4<T1,T2,T3,T4> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5> ConstraintForeignKeyReferencesStep5<T1,T2,T3,T4,T5> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6> ConstraintForeignKeyReferencesStep6<T1,T2,T3,T4,T5,T6> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7> ConstraintForeignKeyReferencesStep7<T1,T2,T3,T4,T5,T6,T7> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8> ConstraintForeignKeyReferencesStep8<T1,T2,T3,T4,T5,T6,T7,T8> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9> ConstraintForeignKeyReferencesStep9<T1,T2,T3,T4,T5,T6,T7,T8,T9> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> ConstraintForeignKeyReferencesStep10<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> ConstraintForeignKeyReferencesStep11<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> ConstraintForeignKeyReferencesStep12<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> ConstraintForeignKeyReferencesStep13<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> ConstraintForeignKeyReferencesStep14<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> ConstraintForeignKeyReferencesStep15<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> ConstraintForeignKeyReferencesStep16<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> ConstraintForeignKeyReferencesStep17<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> ConstraintForeignKeyReferencesStep18<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> ConstraintForeignKeyReferencesStep19<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> ConstraintForeignKeyReferencesStep20<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19, Field<T20> field20)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> ConstraintForeignKeyReferencesStep21<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19, Field<T20> field20, Field<T21> field21)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> ConstraintForeignKeyReferencesStep22<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> foreignKey(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19, Field<T20> field20, Field<T21> field21, Field<T22> field22)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep1<?> foreignKey(Name field1)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep2<?,?> foreignKey(Name field1, Name field2)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep3<?,?,?> foreignKey(Name field1, Name field2, Name field3)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep4<?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep5<?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep6<?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep7<?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep8<?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep9<?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep10<?,?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9, Name field10)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep11<?,?,?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9, Name field10, Name field11)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep12<?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9, Name field10, Name field11, Name field12)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep13<?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9, Name field10, Name field11, Name field12, Name field13)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep14<?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9, Name field10, Name field11, Name field12, Name field13, Name field14)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep15<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9, Name field10, Name field11, Name field12, Name field13, Name field14, Name field15)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep16<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9, Name field10, Name field11, Name field12, Name field13, Name field14, Name field15, Name field16)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep17<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9, Name field10, Name field11, Name field12, Name field13, Name field14, Name field15, Name field16, Name field17)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep18<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9, Name field10, Name field11, Name field12, Name field13, Name field14, Name field15, Name field16, Name field17, Name field18)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep19<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9, Name field10, Name field11, Name field12, Name field13, Name field14, Name field15, Name field16, Name field17, Name field18, Name field19)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep20<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9, Name field10, Name field11, Name field12, Name field13, Name field14, Name field15, Name field16, Name field17, Name field18, Name field19, Name field20)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep21<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9, Name field10, Name field11, Name field12, Name field13, Name field14, Name field15, Name field16, Name field17, Name field18, Name field19, Name field20, Name field21)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep22<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(Name field1, Name field2, Name field3, Name field4, Name field5, Name field6, Name field7, Name field8, Name field9, Name field10, Name field11, Name field12, Name field13, Name field14, Name field15, Name field16, Name field17, Name field18, Name field19, Name field20, Name field21, Name field22)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep1<?> foreignKey(java.lang.String field1)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep2<?,?> foreignKey(java.lang.String field1, java.lang.String field2)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep3<?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep4<?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep5<?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep6<?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep7<?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep8<?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep9<?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep10<?,?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9, java.lang.String field10)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep11<?,?,?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9, java.lang.String field10, java.lang.String field11)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep12<?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9, java.lang.String field10, java.lang.String field11, java.lang.String field12)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep13<?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9, java.lang.String field10, java.lang.String field11, java.lang.String field12, java.lang.String field13)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep14<?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9, java.lang.String field10, java.lang.String field11, java.lang.String field12, java.lang.String field13, java.lang.String field14)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep15<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9, java.lang.String field10, java.lang.String field11, java.lang.String field12, java.lang.String field13, java.lang.String field14, java.lang.String field15)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep16<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9, java.lang.String field10, java.lang.String field11, java.lang.String field12, java.lang.String field13, java.lang.String field14, java.lang.String field15, java.lang.String field16)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep17<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9, java.lang.String field10, java.lang.String field11, java.lang.String field12, java.lang.String field13, java.lang.String field14, java.lang.String field15, java.lang.String field16, java.lang.String field17)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep18<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9, java.lang.String field10, java.lang.String field11, java.lang.String field12, java.lang.String field13, java.lang.String field14, java.lang.String field15, java.lang.String field16, java.lang.String field17, java.lang.String field18)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep19<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9, java.lang.String field10, java.lang.String field11, java.lang.String field12, java.lang.String field13, java.lang.String field14, java.lang.String field15, java.lang.String field16, java.lang.String field17, java.lang.String field18, java.lang.String field19)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep20<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9, java.lang.String field10, java.lang.String field11, java.lang.String field12, java.lang.String field13, java.lang.String field14, java.lang.String field15, java.lang.String field16, java.lang.String field17, java.lang.String field18, java.lang.String field19, java.lang.String field20)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep21<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9, java.lang.String field10, java.lang.String field11, java.lang.String field12, java.lang.String field13, java.lang.String field14, java.lang.String field15, java.lang.String field16, java.lang.String field17, java.lang.String field18, java.lang.String field19, java.lang.String field20, java.lang.String field21)
FOREIGN KEY
clause to the CONSTRAINT
.@Generated(value="This method was generated using jOOQ-tools") @Support public static ConstraintForeignKeyReferencesStep22<?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?> foreignKey(java.lang.String field1, java.lang.String field2, java.lang.String field3, java.lang.String field4, java.lang.String field5, java.lang.String field6, java.lang.String field7, java.lang.String field8, java.lang.String field9, java.lang.String field10, java.lang.String field11, java.lang.String field12, java.lang.String field13, java.lang.String field14, java.lang.String field15, java.lang.String field16, java.lang.String field17, java.lang.String field18, java.lang.String field19, java.lang.String field20, java.lang.String field21, java.lang.String field22)
FOREIGN KEY
clause to the CONSTRAINT
.@Support public static ConstraintFinalStep unique(java.lang.String... fields)
UNIQUE
constraint.@Support public static ConstraintFinalStep unique(Name... fields)
UNIQUE
constraint.@Support public static ConstraintFinalStep unique(Field<?>... fields)
UNIQUE
constraint.@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static ConstraintFinalStep check(Condition condition)
CHECK
constraint.@Support(value={MARIADB,MYSQL,SQLSERVER}) public static Query setCatalog(java.lang.String catalog)
catalog(Name)
@Support(value={MARIADB,MYSQL,SQLSERVER}) public static Query setCatalog(Name catalog)
catalog(Name)
@Support(value={MARIADB,MYSQL,SQLSERVER}) public static Query setCatalog(Catalog catalog)
@Support(value={DERBY,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES}) public static Query setSchema(java.lang.String schema)
schema(Name)
@Support(value={DERBY,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES}) public static Query setSchema(Name schema)
schema(Name)
@Support(value={DERBY,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES}) public static Query setSchema(Schema schema)
@Support(value={DB2,DERBY,H2,HSQLDB,POSTGRES,SQLSERVER}) public static CreateSchemaFinalStep createSchema(java.lang.String schema)
CREATE SCHEMA
statement.DSLContext.createSchema(String)
@Support(value={DB2,DERBY,H2,HSQLDB,POSTGRES,SQLSERVER}) public static CreateSchemaFinalStep createSchema(Name table)
CREATE SCHEMA
statement.DSLContext.createSchema(Name)
@Support(value={DB2,DERBY,H2,HSQLDB,POSTGRES,SQLSERVER}) public static CreateSchemaFinalStep createSchema(Schema schema)
CREATE SCHEMA
statement.DSLContext.createSchema(Schema)
@Support(value={DB2,H2,POSTGRES,SQLSERVER}) public static CreateSchemaFinalStep createSchemaIfNotExists(java.lang.String schema)
CREATE SCHEMA
statement.@Support(value={DB2,H2,POSTGRES,SQLSERVER}) public static CreateSchemaFinalStep createSchemaIfNotExists(Name table)
CREATE SCHEMA
statement.DSLContext.createSchemaIfNotExists(Name)
@Support(value={DB2,H2,POSTGRES,SQLSERVER}) public static CreateSchemaFinalStep createSchemaIfNotExists(Schema schema)
CREATE SCHEMA
statement.@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,SQLITE}) public static CreateTableAsStep<Record> createTable(java.lang.String table)
CREATE TABLE
statement.DSLContext.createTable(String)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,SQLITE}) public static CreateTableAsStep<Record> createTable(Name table)
CREATE TABLE
statement.DSLContext.createTable(Name)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,SQLITE}) public static CreateTableAsStep<Record> createTable(Table<?> table)
CREATE TABLE
statement.DSLContext.createTable(Table)
@Support(value={DB2,FIREBIRD,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static CreateTableAsStep<Record> createTableIfNotExists(java.lang.String table)
CREATE TABLE
statement.@Support(value={DB2,FIREBIRD,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static CreateTableAsStep<Record> createTableIfNotExists(Name table)
CREATE TABLE
statement.DSLContext.createTableIfNotExists(Name)
@Support(value={DB2,FIREBIRD,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static CreateTableAsStep<Record> createTableIfNotExists(Table<?> table)
CREATE TABLE
statement.DSLContext.createTableIfNotExists(Table)
@Support(value={MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT}) public static CreateTableAsStep<Record> createTemporaryTable(java.lang.String table)
CREATE GLOBAL TEMPORARY TABLE
statement.DSLContext.createTemporaryTable(String)
@Support(value={MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT}) public static CreateTableAsStep<Record> createTemporaryTable(Name table)
CREATE GLOBAL TEMPORARY TABLE
statement.DSLContext.createTemporaryTable(Name)
@Support(value={MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT}) public static CreateTableAsStep<Record> createTemporaryTable(Table<?> table)
CREATE GLOBAL TEMPORARY TABLE
statement.DSLContext.createTemporaryTable(Table)
@Support(value={MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT}) public static CreateTableAsStep<Record> createGlobalTemporaryTable(java.lang.String table)
CREATE GLOBAL TEMPORARY TABLE
statement.@Support(value={MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT}) public static CreateTableAsStep<Record> createGlobalTemporaryTable(Name table)
CREATE GLOBAL TEMPORARY TABLE
statement.@Support(value={MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT}) public static CreateTableAsStep<Record> createGlobalTemporaryTable(Table<?> table)
CREATE GLOBAL TEMPORARY TABLE
statement.@Support public static CreateViewAsStep createView(java.lang.String view, java.lang.String... fields)
CREATE VIEW
statement.DSLContext.createView(String, String...)
@Support public static CreateViewAsStep createView(Name view, Name... fields)
CREATE VIEW
statement.DSLContext.createView(Name, Name...)
@Support public static CreateViewAsStep createView(Table<?> view, Field<?>... fields)
CREATE VIEW
statement.DSLContext.createView(Table, Field...)
@Support public static CreateViewAsStep createView(java.lang.String view, java.util.function.Function<? super Field<?>,? extends java.lang.String> fieldNameFunction)
CREATE VIEW
statement.
This works like createView(Table, Field...)
except that the
view's field names are derived from the view's Select
statement
using a function.
DSLContext.createView(String, String...)
@Support public static CreateViewAsStep createView(Name view, java.util.function.Function<? super Field<?>,? extends Name> fieldNameFunction)
CREATE VIEW
statement.
This works like createView(Table, Field...)
except that the
view's field names are derived from the view's Select
statement
using a function.
DSLContext.createView(Name, Name...)
@Support public static CreateViewAsStep createView(Table<?> view, java.util.function.Function<? super Field<?>,? extends Field<?>> fieldNameFunction)
CREATE VIEW
statement.
This works like createView(Table, Field...)
except that the
view's field names are derived from the view's Select
statement
using a function.
DSLContext.createView(Table, Field...)
@Support(value={DB2,FIREBIRD,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static CreateViewAsStep createViewIfNotExists(java.lang.String view, java.lang.String... fields)
CREATE VIEW IF NOT EXISTS
statement.@Support(value={DB2,FIREBIRD,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static CreateViewAsStep createViewIfNotExists(Name view, Name... fields)
CREATE VIEW IF NOT EXISTS
statement.@Support(value={DB2,FIREBIRD,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static CreateViewAsStep createViewIfNotExists(Table<?> view, Field<?>... fields)
CREATE VIEW IF NOT EXISTS
statement.@Support(value={DB2,FIREBIRD,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static CreateViewAsStep createViewIfNotExists(java.lang.String view, java.util.function.Function<? super Field<?>,? extends java.lang.String> fieldNameFunction)
CREATE VIEW IF NOT EXISTS
statement.
This works like createViewIfNotExists(String, String...)
except that the
view's field names are derived from the view's Select
statement
using a function.
@Support(value={DB2,FIREBIRD,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static CreateViewAsStep createViewIfNotExists(Name view, java.util.function.Function<? super Field<?>,? extends Name> fieldNameFunction)
CREATE VIEW IF NOT EXISTS
statement.
This works like createViewIfNotExists(Name, Name...)
except that the
view's field names are derived from the view's Select
statement
using a function.
@Support(value={DB2,FIREBIRD,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static CreateViewAsStep createViewIfNotExists(Table<?> view, java.util.function.Function<? super Field<?>,? extends Field<?>> fieldNameFunction)
CREATE VIEW IF NOT EXISTS
statement.
This works like createViewIfNotExists(Table, Field...)
except that the
view's field names are derived from the view's Select
statement
using a function.
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static CreateIndexStep createIndex(java.lang.String index)
CREATE INDEX
statement.DSLContext.createIndex(String)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static CreateIndexStep createIndex(Name index)
CREATE INDEX
statement.DSLContext.createIndex(Name)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static CreateIndexStep createIndex(Index index)
CREATE INDEX
statement.DSLContext.createIndex(Index)
@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static CreateIndexStep createIndexIfNotExists(java.lang.String index)
CREATE INDEX IF NOT EXISTS
statement.@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static CreateIndexStep createIndexIfNotExists(Name index)
CREATE INDEX IF NOT EXISTS
statement.DSLContext.createIndexIfNotExists(Name)
@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static CreateIndexStep createIndexIfNotExists(Index index)
CREATE INDEX IF NOT EXISTS
statement.DSLContext.createIndexIfNotExists(Index)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static CreateIndexStep createUniqueIndex(java.lang.String index)
CREATE UNIQUE INDEX
statement.DSLContext.createUniqueIndex(String)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static CreateIndexStep createUniqueIndex(Name index)
CREATE UNIQUE INDEX
statement.DSLContext.createUniqueIndex(Name)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static CreateIndexStep createUniqueIndex(Index index)
CREATE UNIQUE INDEX
statement.DSLContext.createUniqueIndex(Index)
@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static CreateIndexStep createUniqueIndexIfNotExists(java.lang.String index)
CREATE UNIQUE INDEX IF NOT EXISTS
statement.@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static CreateIndexStep createUniqueIndexIfNotExists(Name index)
CREATE UNIQUE INDEX IF NOT EXISTS
statement.@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static CreateIndexStep createUniqueIndexIfNotExists(Index index)
CREATE UNIQUE INDEX IF NOT EXISTS
statement.@Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static CreateSequenceFinalStep createSequence(java.lang.String sequence)
CREATE SEQUENCE
statement.DSLContext.createSequence(String)
@Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static CreateSequenceFinalStep createSequence(Name sequence)
CREATE SEQUENCE
statement.DSLContext.createSequence(Name)
@Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static CreateSequenceFinalStep createSequence(Sequence<?> sequence)
CREATE SEQUENCE
statement.DSLContext.createSequence(Sequence)
@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static CreateSequenceFinalStep createSequenceIfNotExists(java.lang.String sequence)
CREATE SEQUENCE IF NOT EXISTS
statement.@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static CreateSequenceFinalStep createSequenceIfNotExists(Name sequence)
CREATE SEQUENCE IF NOT EXISTS
statement.@Support(value={DB2,FIREBIRD,H2,HSQLDB,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static CreateSequenceFinalStep createSequenceIfNotExists(Sequence<?> sequence)
CREATE SEQUENCE IF NOT EXISTS
statement.@Support(value={CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static AlterSequenceStep<java.math.BigInteger> alterSequence(java.lang.String sequence)
ALTER SEQUENCE
statement.DSLContext.alterSequence(String)
@Support(value={CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static AlterSequenceStep<java.math.BigInteger> alterSequence(Name sequence)
ALTER SEQUENCE
statement.DSLContext.alterSequence(Name)
@Support(value={CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static <T extends java.lang.Number> AlterSequenceStep<T> alterSequence(Sequence<T> sequence)
ALTER SEQUENCE
statement.DSLContext.alterSequence(Sequence)
@Support(value={ORACLE,POSTGRES}) public static AlterSequenceStep<java.math.BigInteger> alterSequenceIfExists(java.lang.String sequence)
ALTER SEQUENCE
statement.DSLContext.alterSequenceIfExists(String)
@Support(value={ORACLE,POSTGRES}) public static AlterSequenceStep<java.math.BigInteger> alterSequenceIfExists(Name sequence)
ALTER SEQUENCE
statement.DSLContext.alterSequenceIfExists(Name)
@Support(value={ORACLE,POSTGRES}) public static <T extends java.lang.Number> AlterSequenceStep<T> alterSequenceIfExists(Sequence<T> sequence)
ALTER SEQUENCE
statement.@Support public static AlterTableStep alterTable(java.lang.String table)
ALTER TABLE
statement.DSLContext.alterTable(String)
@Support public static AlterTableStep alterTable(Name table)
ALTER TABLE
statement.DSLContext.alterTable(Name)
@Support public static AlterTableStep alterTable(Table<?> table)
ALTER TABLE
statement.DSLContext.alterTable(Table)
@Support(value={DB2,H2,ORACLE,POSTGRES,SQLSERVER}) public static AlterTableStep alterTableIfExists(java.lang.String table)
ALTER TABLE
statement.DSLContext.alterTableIfExists(String)
@Support(value={DB2,H2,ORACLE,POSTGRES,SQLSERVER}) public static AlterTableStep alterTableIfExists(Name table)
ALTER TABLE
statement.DSLContext.alterTableIfExists(Name)
@Support(value={DB2,H2,ORACLE,POSTGRES,SQLSERVER}) public static AlterTableStep alterTableIfExists(Table<?> table)
ALTER TABLE
statement.DSLContext.alterTableIfExists(Table)
@Support(value={HSQLDB,POSTGRES}) public static AlterSchemaStep alterSchema(java.lang.String schema)
ALTER SCHEMA
statement.DSLContext.alterSchema(String)
@Support(value={HSQLDB,POSTGRES}) public static AlterSchemaStep alterSchema(Name schema)
ALTER SCHEMA
statement.DSLContext.alterSchema(Name)
@Support(value={HSQLDB,POSTGRES}) public static AlterSchemaStep alterSchema(Schema schema)
ALTER SCHEMA
statement.DSLContext.alterSchema(Schema)
@Support(value=POSTGRES) public static AlterSchemaStep alterSchemaIfExists(java.lang.String schema)
ALTER SCHEMA
statement.DSLContext.alterSchemaIfExists(String)
@Support(value=POSTGRES) public static AlterSchemaStep alterSchemaIfExists(Name schema)
ALTER SCHEMA
statement.DSLContext.alterSchemaIfExists(Name)
@Support(value=POSTGRES) public static AlterSchemaStep alterSchemaIfExists(Schema schema)
ALTER SCHEMA
statement.DSLContext.alterSchemaIfExists(Schema)
@Support(value={HSQLDB,ORACLE,POSTGRES,SQLSERVER}) public static AlterViewStep alterView(java.lang.String view)
ALTER VIEW
statement.DSLContext.alterView(String)
@Support(value={HSQLDB,ORACLE,POSTGRES,SQLSERVER}) public static AlterViewStep alterView(Name view)
ALTER VIEW
statement.DSLContext.alterView(Name)
@Support(value={HSQLDB,ORACLE,POSTGRES,SQLSERVER}) public static AlterViewStep alterView(Table<?> view)
ALTER VIEW
statement.DSLContext.alterView(Table)
@Support(value={ORACLE,POSTGRES,SQLSERVER}) public static AlterViewStep alterViewIfExists(java.lang.String view)
ALTER VIEW
statement.DSLContext.alterViewIfExists(String)
@Support(value={ORACLE,POSTGRES,SQLSERVER}) public static AlterViewStep alterViewIfExists(Name view)
ALTER VIEW
statement.DSLContext.alterViewIfExists(Name)
@Support(value={ORACLE,POSTGRES,SQLSERVER}) public static AlterViewStep alterViewIfExists(Table<?> view)
ALTER VIEW
statement.DSLContext.alterViewIfExists(Table)
@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES}) public static AlterIndexStep alterIndex(java.lang.String index)
ALTER INDEX
statement.DSLContext.alterIndex(String)
@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES}) public static AlterIndexStep alterIndex(Name index)
ALTER INDEX
statement.DSLContext.alterIndex(Name)
@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES}) public static AlterIndexStep alterIndex(Index index)
ALTER INDEX
statement.DSLContext.alterIndex(Index)
@Support(value={DB2,H2,ORACLE,POSTGRES}) public static AlterIndexStep alterIndexIfExists(java.lang.String index)
ALTER INDEX
statement.DSLContext.alterIndexIfExists(String)
@Support(value={DB2,H2,ORACLE,POSTGRES}) public static AlterIndexStep alterIndexIfExists(Name index)
ALTER INDEX
statement.DSLContext.alterIndexIfExists(Name)
@Support(value={DB2,H2,ORACLE,POSTGRES}) public static AlterIndexStep alterIndexIfExists(Index index)
ALTER INDEX
statement.DSLContext.alterIndexIfExists(Index)
@Support(value={DB2,DERBY,H2,HSQLDB,POSTGRES,SQLSERVER}) public static DropSchemaStep dropSchema(java.lang.String schema)
DROP SCHEMA
statement.DSLContext.dropSchema(String)
@Support(value={DB2,DERBY,H2,HSQLDB,POSTGRES,SQLSERVER}) public static DropSchemaStep dropSchema(Name schema)
DROP SCHEMA
statement.DSLContext.dropSchema(Name)
@Support(value={DB2,DERBY,H2,HSQLDB,POSTGRES,SQLSERVER}) public static DropSchemaStep dropSchema(Schema schema)
DROP SCHEMA
statement.DSLContext.dropSchema(Schema)
@Support(value={DB2,H2,POSTGRES,SQLSERVER}) public static DropSchemaStep dropSchemaIfExists(java.lang.String schema)
DROP SCHEMA
statement.DSLContext.dropSchemaIfExists(String)
@Support(value={DB2,H2,POSTGRES,SQLSERVER}) public static DropSchemaStep dropSchemaIfExists(Name schema)
DROP SCHEMA
statement.DSLContext.dropSchemaIfExists(Name)
@Support(value={DB2,H2,POSTGRES,SQLSERVER}) public static DropSchemaStep dropSchemaIfExists(Schema schema)
DROP SCHEMA
statement.DSLContext.dropSchemaIfExists(Schema)
@Support public static DropViewFinalStep dropView(java.lang.String view)
DROP VIEW
statement.DSLContext.dropView(String)
@Support public static DropViewFinalStep dropView(Name view)
DROP VIEW
statement.DSLContext.dropView(Name)
@Support public static DropViewFinalStep dropView(Table<?> view)
DROP VIEW
statement.DSLContext.dropView(Table)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static DropViewFinalStep dropViewIfExists(java.lang.String view)
DROP VIEW IF EXISTS
statement.
If your database doesn't natively support IF EXISTS
, this is
emulated by catching (and ignoring) the relevant SQLException
.
DSLContext.dropViewIfExists(String)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static DropViewFinalStep dropViewIfExists(Name view)
DROP VIEW IF EXISTS
statement.
If your database doesn't natively support IF EXISTS
, this is
emulated by catching (and ignoring) the relevant SQLException
.
DSLContext.dropViewIfExists(Name)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static DropViewFinalStep dropViewIfExists(Table<?> view)
DROP VIEW IF EXISTS
statement.
If your database doesn't natively support IF EXISTS
, this is
emulated by catching (and ignoring) the relevant SQLException
.
DSLContext.dropViewIfExists(Table)
@Support public static DropTableStep dropTable(java.lang.String table)
DROP TABLE
statement.DSLContext.dropTable(String)
@Support public static DropTableStep dropTable(Name table)
DROP TABLE
statement.DSLContext.dropTable(Name)
@Support public static DropTableStep dropTable(Table<?> table)
DROP TABLE
statement.DSLContext.dropTable(Table)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static DropTableStep dropTableIfExists(java.lang.String table)
DROP TABLE IF EXISTS
statement.
If your database doesn't natively support IF EXISTS
, this is
emulated by catching (and ignoring) the relevant SQLException
.
DSLContext.dropTableIfExists(String)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static DropTableStep dropTableIfExists(Name table)
DROP TABLE IF EXISTS
statement.
If your database doesn't natively support IF EXISTS
, this is
emulated by catching (and ignoring) the relevant SQLException
.
DSLContext.dropTableIfExists(Name)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static DropTableStep dropTableIfExists(Table<?> table)
DROP TABLE IF EXISTS
statement.
If your database doesn't natively support IF EXISTS
, this is
emulated by catching (and ignoring) the relevant SQLException
.
DSLContext.dropTableIfExists(Table)
@Support public static DropIndexOnStep dropIndex(java.lang.String index)
DROP INDEX
statement.DSLContext.dropIndex(String)
@Support public static DropIndexOnStep dropIndex(Name index)
DROP INDEX
statement.DSLContext.dropIndex(Name)
@Support public static DropIndexOnStep dropIndex(Index index)
DROP INDEX
statement.DSLContext.dropIndex(Index)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static DropIndexOnStep dropIndexIfExists(java.lang.String index)
DROP INDEX IF EXISTS
statement.
If your database doesn't natively support IF EXISTS
, this is
emulated by catching (and ignoring) the relevant SQLException
.
DSLContext.dropIndexIfExists(String)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static DropIndexOnStep dropIndexIfExists(Name index)
DROP INDEX IF EXISTS
statement.
If your database doesn't natively support IF EXISTS
, this is
emulated by catching (and ignoring) the relevant SQLException
.
DSLContext.dropIndexIfExists(Name)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static DropIndexOnStep dropIndexIfExists(Index index)
DROP INDEX IF EXISTS
statement.
If your database doesn't natively support IF EXISTS
, this is
emulated by catching (and ignoring) the relevant SQLException
.
DSLContext.dropIndexIfExists(Index)
@Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static <T extends java.lang.Number> DropSequenceFinalStep dropSequence(java.lang.String sequence)
DROP SEQUENCE
statement.DSLContext.dropSequence(String)
@Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static <T extends java.lang.Number> DropSequenceFinalStep dropSequence(Name sequence)
DROP SEQUENCE
statement.DSLContext.dropSequence(Name)
@Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static <T extends java.lang.Number> DropSequenceFinalStep dropSequence(Sequence<?> sequence)
DROP SEQUENCE
statement.DSLContext.dropSequence(Sequence)
@Support(value={CUBRID,DB2,FIREBIRD,H2,HSQLDB,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static <T extends java.lang.Number> DropSequenceFinalStep dropSequenceIfExists(java.lang.String sequence)
DROP SEQUENCE IF EXISTS
statement.
If your database doesn't natively support IF EXISTS
, this is
emulated by catching (and ignoring) the relevant SQLException
.
DSLContext.dropSequenceIfExists(String)
@Support(value={CUBRID,DB2,FIREBIRD,H2,HSQLDB,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static <T extends java.lang.Number> DropSequenceFinalStep dropSequenceIfExists(Name sequence)
DROP SEQUENCE IF EXISTS
statement.
If your database doesn't natively support IF EXISTS
, this is
emulated by catching (and ignoring) the relevant SQLException
.
DSLContext.dropSequenceIfExists(Name)
@Support(value={CUBRID,DB2,FIREBIRD,H2,HSQLDB,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static <T extends java.lang.Number> DropSequenceFinalStep dropSequenceIfExists(Sequence<?> sequence)
DROP SEQUENCE IF EXISTS
statement.
If your database doesn't natively support IF EXISTS
, this is
emulated by catching (and ignoring) the relevant SQLException
.
@Support public static TruncateIdentityStep<Record> truncate(Name table)
Unlike Delete
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
DELETE
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
truncate(table);
TRUNCATE
Most dialects implement the TRUNCATE
statement. If it is not
supported, it is emulated using an equivalent DELETE
statement. This is particularly true for these dialects:
TRUNCATE
Some statements also support extensions of the TRUNCATE
statement, such as Postgres:
truncate(table)
.restartIdentity()
.cascade()
These vendor-specific extensions are currently not emulated for those dialects that do not support them natively.
DSLContext.truncate(Name)
@Support public static <R extends Record> TruncateIdentityStep<R> truncate(Table<R> table)
Unlike Delete
factory methods in the DSLContext
API, this
creates an unattached, and thus not directly renderable or executable
DELETE
statement.
Example:
import static org.jooq.impl.DSL.*;
// [...]
truncate(table);
TRUNCATE
Most dialects implement the TRUNCATE
statement. If it is not
supported, it is emulated using an equivalent DELETE
statement. This is particularly true for these dialects:
TRUNCATE
Some statements also support extensions of the TRUNCATE
statement, such as Postgres:
truncate(table)
.restartIdentity()
.cascade()
These vendor-specific extensions are currently not emulated for those dialects that do not support them natively.
DSLContext.truncate(Table)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static <R extends Record> QuantifiedSelect<R> all(Select<R> select)
ALL
quantified select to be used in quantified
comparison predicate expressions.@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static <T> QuantifiedSelect<Record1<T>> all(T... array)
ALL
quantified select to be used in quantified
comparison predicate expressions.
This is natively supported by SQLDialect.POSTGRES
. Other dialects
will render a subselect unnesting the array.
@Support(value={H2,HSQLDB,POSTGRES}) public static <T> QuantifiedSelect<Record1<T>> all(Field<T[]> array)
ALL
quantified select to be used in quantified
comparison predicate expressions.
This is natively supported by SQLDialect.POSTGRES
. Other dialects
will render a subselect unnesting the array.
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static <R extends Record> QuantifiedSelect<R> any(Select<R> select)
ANY
quantified select to be used in quantified
comparison predicate expressions.@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static <T> QuantifiedSelect<Record1<T>> any(T... array)
ANY
quantified select to be used in quantified
comparison predicate expressions.
This is natively supported by SQLDialect.POSTGRES
. Other dialects
will render a subselect unnesting the array.
@Support(value={H2,HSQLDB,POSTGRES}) public static <T> QuantifiedSelect<Record1<T>> any(Field<T[]> array)
ANY
quantified select to be used in quantified
comparison predicate expressions.
This is natively supported by SQLDialect.POSTGRES
. Other dialects
will render a subselect unnesting the array.
@Support public static <R extends Record> Table<R> table(Select<R> select)
TableLike.asTable()
, which might look a bit more fluent
like this, to some users.TableLike.asTable()
@Support public static <R extends Record> Table<R> table(Result<R> result)
Table
that can be used
in SQL statements through values(RowN...)
.values(RowN...)
@Support public static <R extends Record> Table<R> table(R record)
@Support public static <R extends Record> Table<R> table(R... records)
@Support public static Table<?> table(java.util.List<?> list)
unnest(List)
.unnest(List)
@Support public static Table<?> table(java.lang.Object[] array)
unnest(Object[])
.unnest(Object[])
@Support(value=ORACLE) public static Table<?> table(ArrayRecord<?> array)
unnest(ArrayRecord)
.unnest(ArrayRecord)
@Support(value={H2,HSQLDB,POSTGRES,ORACLE}) public static Table<?> table(Field<?> cursor)
unnest(Field)
.unnest(Field)
@Support public static Table<?> unnest(java.util.List<?> list)
This is equivalent to the TABLE
function for H2, or the
UNNEST
function in HSQLDB and Postgres
For Oracle, use table(ArrayRecord)
instead, as Oracle knows only
typed arrays
In all other dialects, unnesting of arrays is emulated using several
UNION ALL
connected subqueries.
@Support public static Table<?> unnest(java.lang.Object[] array)
This is equivalent to the TABLE
function for H2, or the
UNNEST
function in HSQLDB and Postgres
For Oracle, use table(ArrayRecord)
instead, as Oracle knows only
typed arrays
In all other dialects, unnesting of arrays is emulated using several
UNION ALL
connected subqueries.
@Support(value=ORACLE) public static Table<?> unnest(ArrayRecord<?> array)
This wraps the argument array in a TABLE
function for
Oracle. Currently, only Oracle knows typed arrays
@Support(value={H2,HSQLDB,POSTGRES,ORACLE}) public static Table<?> unnest(Field<?> cursor)
The supplied field can have any of these types:
Result
: For CURSOR
or REF CURSOR
fields, typically fetched from stored functions or from nested tablesArrayRecord
: For Oracle-style VARRAY
types.Object
[]: Array types, for other RDBMS's ARRAY types (e.g.
H2, HSQLDB, and Postgres)Object
: Any other type that jOOQ will try to convert in an
array first, before converting that array into a table
This functionality has only limited scope when used in H2, as ARRAY types
involved with stored functions can only be of type Object[]
.
Such arrays are converted into VARCHAR
arrays by jOOQ.
In all dialects where arrays are not supported, unnesting of arrays is
emulated using several UNION ALL
connected subqueries.
@Support public static Table<Record> dual()
DUAL
table to be used for syntactic completeness.
In general, jOOQ will generate a DUAL
table (or any
equivalent construct, see below), if this is needed syntactically in
generated SQL. You may still wish to explicitly use a DUAL
construct in jOOQ code for various reasons. This DUAL
table
will always contain a single record with a single varchar(1) value:
+-------+
| DUMMY |
+-------+
| X |
+-------+
@Support(value={CUBRID,ORACLE,POSTGRES}) public static Table<Record1<java.lang.Integer>> generateSeries(int from, int to)
from
to
to
(inclusive).
This function is inspired by PostgreSQL's
GENERATE_SERIES(from, to)
function. Other SQL dialects may
be capable of emulating this behaviour, e.g. Oracle:
-- PostgreSQL
SELECT * FROM GENERATE_SERIES(a, b)
-- Oracle
SELECT * FROM (SELECT a + LEVEL - 1 FROM DUAL CONNECT BY a + LEVEL - 1 <= b)
@Support(value={CUBRID,ORACLE,POSTGRES}) public static Table<Record1<java.lang.Integer>> generateSeries(int from, Field<java.lang.Integer> to)
from
to
to
(inclusive).
This function is inspired by PostgreSQL's
GENERATE_SERIES(from, to)
function. Other SQL dialects may
be capable of emulating this behaviour, e.g. Oracle:
-- PostgreSQL
SELECT * FROM GENERATE_SERIES(a, b)
-- Oracle
SELECT * FROM (SELECT a + LEVEL - 1 FROM DUAL CONNECT BY a + LEVEL - 1 <= b)
@Support(value={CUBRID,ORACLE,POSTGRES}) public static Table<Record1<java.lang.Integer>> generateSeries(Field<java.lang.Integer> from, int to)
from
to
to
(inclusive).
This function is inspired by PostgreSQL's
GENERATE_SERIES(from, to)
function. Other SQL dialects may
be capable of emulating this behaviour, e.g. Oracle:
-- PostgreSQL
SELECT * FROM GENERATE_SERIES(a, b)
-- Oracle
SELECT * FROM (SELECT a + LEVEL - 1 FROM DUAL CONNECT BY a + LEVEL - 1 <= b)
@Support(value={CUBRID,ORACLE,POSTGRES}) public static Table<Record1<java.lang.Integer>> generateSeries(Field<java.lang.Integer> from, Field<java.lang.Integer> to)
from
to
to
(inclusive).
This function is inspired by PostgreSQL's
GENERATE_SERIES(from, to)
function. Other SQL dialects may
be capable of emulating this behaviour, e.g. Oracle:
-- PostgreSQL
SELECT * FROM GENERATE_SERIES(a, b)
-- Oracle
SELECT * FROM (SELECT a + LEVEL - 1 FROM DUAL CONNECT BY a + LEVEL - 1 <= b)
@Support(value={ORACLE12C,POSTGRES_9_3}) public static <R extends Record> Table<R> lateral(TableLike<R> table)
LATERAL
joined table.
Example:
SELECT *
FROM employees e,
LATERAL(SELECT * FROM departments d
WHERE e.department_id = d.department_id);
@Support(value=POSTGRES) public static Table<Record> rowsFrom(Table<?>... tables)
ROWS FROM (tables...)
expression.
Example:
SELECT *
FROM ROWS FROM (function1('a', 'b'), function2('c', 'd'));
This allows for full outer joining several table-valued functions on the row number of each function's produced rows.
public static Keyword keyword(java.lang.String keyword)
A Keyword
is a QueryPart
that renders a SQL keyword
according to the settings specified in
Settings.getRenderKeywordStyle()
. It can be embedded in other
plain SQL QueryParts
as shown in this example:
Condition c = condition("{0} {1} {2} {3} {4}",
value1, keyword("between")
value2, keyword("and")
value3
);
public static Name name(java.lang.String unqualifiedName)
Use this method to construct syntax-safe, SQL-injection-safe SQL
identifiers for use in plain SQL where QueryPart
objects are
accepted. For instance, this can be used with any of these methods:
An example:
// This unqualified name here
name("book");
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[book].[title]
unqualifiedName
- The SQL identifier's unqualified nameQueryPart
that will render the SQL identifierpublic static Name name(java.lang.String... qualifiedName)
Use this method to construct syntax-safe, SQL-injection-safe SQL
identifiers for use in plain SQL where QueryPart
objects are
accepted. For instance, this can be used with any of these methods:
An example:
// This qualified name here
name("book", "title");
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[book].[title]
qualifiedName
- The SQL identifier's qualified name partsQueryPart
that will render the SQL identifierpublic static Name name(Name... nameParts)
Unlike other name(String...)
constructors, this one constructs a
name from its argument Name.unqualifiedName()
parts, retaining
the quoted flag, to construct a new name.
Use this method to construct syntax-safe, SQL-injection-safe SQL
identifiers for use in plain SQL where QueryPart
objects are
accepted. For instance, this can be used with any of these methods:
An example:
// This qualified name here
name(quotedName("book"), unquotedName("title"));
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[book].title
nameParts
- The SQL identifier's qualified name partsQueryPart
that will render the SQL identifierpublic static Name name(java.util.Collection<java.lang.String> qualifiedName)
Use this method to construct syntax-safe, SQL-injection-safe SQL
identifiers for use in plain SQL where QueryPart
objects are
accepted. For instance, this can be used with any of these methods:
An example:
// This qualified name here
name("book", "title");
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[book].[title]
qualifiedName
- The SQL identifier's qualified name partsQueryPart
that will render the SQL identifierpublic static Name quotedName(java.lang.String unqualifiedName)
This works like name(String...)
, except that generated
identifiers will be guaranteed to be quoted in databases that support
quoted identifiers.
unqualifiedName
- The SQL identifier's unqualified nameQueryPart
that will render the SQL identifierpublic static Name quotedName(java.lang.String... qualifiedName)
This works like name(String...)
, except that generated
identifiers will be guaranteed to be quoted in databases that support
quoted identifiers.
qualifiedName
- The SQL identifier's qualified name partsQueryPart
that will render the SQL identifierpublic static Name quotedName(java.util.Collection<java.lang.String> qualifiedName)
This works like name(Collection)
, except that generated
identifiers will be guaranteed to be quoted in databases that support
quoted identifiers.
qualifiedName
- The SQL identifier's qualified name partsQueryPart
that will render the SQL identifierpublic static Name unquotedName(java.lang.String unqualifiedName)
This works like name(String...)
, except that generated
identifiers will be guaranteed to be quoted in databases that support
quoted identifiers.
unqualifiedName
- The SQL identifier's unqualified nameQueryPart
that will render the SQL identifierpublic static Name unquotedName(java.lang.String... qualifiedName)
This works like name(String...)
, except that generated
identifiers will be guaranteed to be quoted in databases that support
quoted identifiers.
qualifiedName
- The SQL identifier's qualified name partsQueryPart
that will render the SQL identifierpublic static Name unquotedName(java.util.Collection<java.lang.String> qualifiedName)
This works like name(Collection)
, except that generated
identifiers will be guaranteed to be quoted in databases that support
quoted identifiers.
qualifiedName
- The SQL identifier's qualified name partsQueryPart
that will render the SQL identifierpublic static QueryPart list(QueryPart... parts)
QueryParts
into a new
QueryPart
, with individual parts being comma-separated.public static QueryPart list(java.util.Collection<? extends QueryPart> parts)
QueryParts
into a new
QueryPart
, with individual parts being comma-separated.@Support(value={ASE,CUBRID,DB2,DERBY,H2,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Object> defaultValue()
DEFAULT
keyword for use with INSERT
,
UPDATE
, or MERGE
statements.
While the DEFAULT
keyword works with all data types, you may
still prefer to associate a Field
type with your
DEFAULT
value. In that case, use
defaultValue(Class)
or defaultValue(DataType)
instead.
@Support(value={ASE,CUBRID,DB2,DERBY,H2,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static <T> Field<T> defaultValue(java.lang.Class<T> type)
DEFAULT
keyword for use with INSERT
,
UPDATE
, or MERGE
statements.@Support(value={ASE,CUBRID,DB2,DERBY,H2,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static <T> Field<T> defaultValue(DataType<T> type)
DEFAULT
keyword for use with INSERT
,
UPDATE
, or MERGE
statements.@Support(value={ASE,CUBRID,DB2,DERBY,H2,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static <T> Field<T> defaultValue(Field<T> field)
DEFAULT
keyword for use with INSERT
,
UPDATE
, or MERGE
statements.@Deprecated @Support public static Schema schemaByName(java.lang.String name)
schema(Name)
instead
This constructs a schema reference given the schema's qualified name.
jOOQ will render the schema name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This schema...
schemaByName("MY_SCHEMA");
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA]
name
- The schema's reference name.name
@Support public static Catalog catalog(Name name)
This constructs a catalog reference given the catalog's qualified name.
jOOQ will render the catalog name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This catalog...
catalog(name("MY_CATALOG"));
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_CATALOG]
@Support public static Schema schema(Name name)
This constructs a schema reference given the schema's qualified name.
jOOQ will render the schema name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This schema...
schema(name("MY_CATALOG", "MY_SCHEMA"));
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_CATALOG].[MY_SCHEMA]
@Deprecated @Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static Sequence<java.math.BigInteger> sequenceByName(java.lang.String... qualifiedName)
sequence(Name)
instead
This constructs a sequence reference given the sequence's qualified name.
jOOQ will render the sequence name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This sequence...
sequenceByName("MY_SCHEMA", "MY_SEQUENCE");
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_SEQUENCE]
qualifiedName
- The various parts making up your sequence's
reference name.sequenceName
@Deprecated @Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static <T extends java.lang.Number> Sequence<T> sequenceByName(java.lang.Class<T> type, java.lang.String... qualifiedName)
sequence(Name, Class)
instead
This constructs a sequence reference given the sequence's qualified name.
jOOQ will render the sequence name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This sequence...
sequenceByName("MY_SCHEMA", "MY_SEQUENCE");
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_SEQUENCE]
qualifiedName
- The various parts making up your sequence's
reference name.type
- The type of the returned fieldsequenceName
@Deprecated @Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static <T extends java.lang.Number> Sequence<T> sequenceByName(DataType<T> type, java.lang.String... qualifiedName)
sequence(Name, DataType)
instead
This constructs a sequence reference given the sequence's qualified name.
jOOQ will render the sequence name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This sequence...
sequenceByName("MY_SCHEMA", "MY_SEQUENCE");
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_SEQUENCE]
qualifiedName
- The various parts making up your sequence's
reference name.type
- The type of the returned fieldsequenceName
@Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static Sequence<java.math.BigInteger> sequence(Name name)
This constructs a sequence reference given the sequence's qualified name.
jOOQ will render the sequence name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This sequence...
sequence(name("MY_SCHEMA", "MY_SEQUENCE"));
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_SEQUENCE]
@Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static <T extends java.lang.Number> Sequence<T> sequence(Name name, java.lang.Class<T> type)
This constructs a sequence reference given the sequence's qualified name.
jOOQ will render the sequence name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This sequence...
sequence(name("MY_SCHEMA", "MY_SEQUENCE"));
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_SEQUENCE]
@Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) public static <T extends java.lang.Number> Sequence<T> sequence(Name name, DataType<T> type)
This constructs a sequence reference given the sequence's qualified name.
jOOQ will render the sequence name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This sequence...
sequence(name("MY_SCHEMA", "MY_SEQUENCE"));
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_SEQUENCE]
@Deprecated @Support public static Table<Record> tableByName(java.lang.String... qualifiedName)
table(Name)
instead
This constructs a table reference given the table's qualified name. jOOQ
will render the table name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This table...
tableByName("MY_SCHEMA", "MY_TABLE");
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_TABLE]
qualifiedName
- The various parts making up your table's reference
name.tableName
@Support public static Table<Record> table(Name name)
This constructs a table reference given the table's qualified name. jOOQ
will render the table name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This table...
tableByName("MY_SCHEMA", "MY_TABLE");
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_TABLE]
The returned table does not know its field references, i.e.
TableLike.fields()
returns an empty array.
@Deprecated @Support public static Field<java.lang.Object> fieldByName(java.lang.String... qualifiedName)
field(Name)
instead
This constructs a field reference given the field's qualified name. jOOQ
will render the field name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This field...
fieldByName("MY_SCHEMA", "MY_TABLE", "MY_FIELD");
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_TABLE].[MY_FIELD]
Another example:
create.select(field("length({1})", Integer.class, fieldByName("TITLE")))
.from(tableByName("T_BOOK"))
.fetch();
// ... will execute this SQL on SQL Server:
select length([TITLE]) from [T_BOOK]
qualifiedName
- The various parts making up your field's reference
name.fieldName
@Deprecated @Support public static <T> Field<T> fieldByName(java.lang.Class<T> type, java.lang.String... qualifiedName)
field(Name, Class)
instead
This constructs a field reference given the field's qualified name. jOOQ
will render the field name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This field...
fieldByName("MY_SCHEMA", "MY_TABLE", "MY_FIELD");
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_TABLE].[MY_FIELD]
Another example:
create.select(field("length({1})", Integer.class, fieldByName("TITLE")))
.from(tableByName("T_BOOK"))
.fetch();
// ... will execute this SQL on SQL Server:
select length([TITLE]) from [T_BOOK]
qualifiedName
- The various parts making up your field's reference
name.type
- The type of the returned fieldfieldName
@Deprecated @Support public static <T> Field<T> fieldByName(DataType<T> type, java.lang.String... qualifiedName)
field(Name, DataType)
instead
This constructs a field reference given the field's qualified name. jOOQ
will render the field name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This field...
fieldByName("MY_SCHEMA", "MY_TABLE", "MY_FIELD");
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_TABLE].[MY_FIELD]
Another example:
create.select(field("length({1})", Integer.class, fieldByName("TITLE")))
.from(tableByName("T_BOOK"))
.fetch();
// ... will execute this SQL on SQL Server:
select length([TITLE]) from [T_BOOK]
qualifiedName
- The various parts making up your field's reference
name.type
- The type of the returned fieldfieldName
@Support public static Field<java.lang.Object> field(Name name)
This constructs a field reference given the field's qualified name. jOOQ
will render the field name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This field...
field(name("MY_SCHEMA", "MY_TABLE", "MY_FIELD"));
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_TABLE].[MY_FIELD]
Another example:
create.select(field("length({1})", Integer.class, field(name("TITLE"))))
.from(table(name("T_BOOK")))
.fetch();
// ... will execute this SQL on SQL Server:
select length([TITLE]) from [T_BOOK]
@Support public static <T> Field<T> field(Name name, java.lang.Class<T> type)
This constructs a field reference given the field's qualified name. jOOQ
will render the field name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This field...
field(name("MY_SCHEMA", "MY_TABLE", "MY_FIELD"));
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_TABLE].[MY_FIELD]
Another example:
create.select(field("length({1})", Integer.class, field(name("TITLE"))))
.from(table(name("T_BOOK")))
.fetch();
// ... will execute this SQL on SQL Server:
select length([TITLE]) from [T_BOOK]
@Support public static <T> Field<T> field(Name name, DataType<T> type)
This constructs a field reference given the field's qualified name. jOOQ
will render the field name according to your
Settings.getRenderNameStyle()
settings. Choose
RenderNameStyle.QUOTED
to prevent syntax errors and/or SQL
injection.
Example:
// This field...
field(name("MY_SCHEMA", "MY_TABLE", "MY_FIELD"));
// ... will render this SQL on SQL Server with RenderNameStyle.QUOTED set
[MY_SCHEMA].[MY_TABLE].[MY_FIELD]
Another example:
create.select(field("length({1})", Integer.class, field(name("TITLE"))))
.from(table(name("T_BOOK")))
.fetch();
// ... will execute this SQL on SQL Server:
select length([TITLE]) from [T_BOOK]
@Support public static Queries queries(Query... queries)
DSLContext.queries(Query...)
@Support public static Queries queries(java.util.Collection<? extends Query> queries)
DSLContext.queries(Collection)
@Support(value=ORACLE) public static Link link(java.lang.String name)
@Support(value=ORACLE) public static Link link(java.lang.String name, Schema schema)
@Support @PlainSQL public static SQL sql(java.lang.String sql)
A plain SQL QueryPart
is a QueryPart
that can
contain user-defined plain SQL, because sometimes it is easier to express
things directly in 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!
sql
- The SQLSQL
@Support @PlainSQL public static SQL sql(java.lang.String sql, QueryPart... parts)
A plain SQL QueryPart
is a QueryPart
that can
contain user-defined plain SQL, because sometimes it is easier to express
things directly in SQL.
This overload takes a set of QueryPart
arguments which are
replaced into the SQL string template at the appropriate index. Example:
// Argument QueryParts are replaced into the SQL string at the appropriate index
sql("select {0}, {1} from {2}", TABLE.COL1, TABLE.COL2, TABLE);
// Bind variables are supported as well, for backwards compatibility
sql("select col1, col2 from table where col1 = ?", val(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!
sql
- The SQL clause, containing {numbered placeholders} where query
parts can be injectedparts
- The QueryPart
objects that are rendered at the
{numbered placeholder} locationsSQL
,
sql(String, QueryPart...)
@Support @PlainSQL public static SQL sql(java.lang.String sql, java.lang.Object... bindings)
A plain SQL QueryPart
is a QueryPart
that can
contain user-defined plain SQL, because sometimes it is easier to express
things directly in SQL. There must be as many bind variables contained
in the SQL, as passed in the bindings parameter
This overload takes a set of bind value arguments which are replaced our bound into the SQL string template at the appropriate index. Example:
sql("select col1, col2 from table where col1 = ?", 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!
sql
- The SQLSQL
,
sql(String, Object...)
@Deprecated @Support @PlainSQL public static QueryPart queryPart(java.lang.String sql)
sql(String)
instead
A plain SQL QueryPart
is a QueryPart
that can
contain user-defined plain SQL, because sometimes it is easier to express
things directly in 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!
sql
- The SQLSQL
@Deprecated @Support @PlainSQL public static QueryPart queryPart(java.lang.String sql, QueryPart... parts)
sql(String, QueryPart...)
instead
A plain SQL QueryPart
is a QueryPart
that can
contain user-defined plain SQL, because sometimes it is easier to express
things directly in 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!
sql
- The SQL clause, containing {numbered placeholders} where query
parts can be injectedparts
- The QueryPart
objects that are rendered at the
{numbered placeholder} locationsSQL
,
sql(String, QueryPart...)
@Deprecated @Support @PlainSQL public static QueryPart queryPart(java.lang.String sql, java.lang.Object... bindings)
sql(String, Object...)
instead
A plain SQL QueryPart
is a QueryPart
that can
contain user-defined plain SQL, because sometimes it is easier to express
things directly in SQL. There must be as many bind variables contained
in the SQL, as passed in the bindings parameter
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!
sql
- The SQLSQL
,
sql(String, Object...)
@Support @PlainSQL public static Query query(SQL sql)
Example:
String sql = "SET SCHEMA 'abc'";
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!
sql
- The SQLSQL
@Support @PlainSQL public static Query query(java.lang.String sql)
Example:
String sql = "SET SCHEMA 'abc'";
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!
sql
- The SQLSQL
@Support @PlainSQL public static Query query(java.lang.String sql, java.lang.Object... bindings)
Example:
String sql = "SET SCHEMA 'abc'";
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!
sql
- The SQLbindings
- The bindingsSQL
,
sql(String, Object...)
@Support @PlainSQL public static Query query(java.lang.String sql, QueryPart... parts)
Unlike query(String, Object...)
, the SQL passed to this method
should not contain any bind variables. Instead, you can pass
QueryPart
objects to the method which will be rendered at indexed
locations of your SQL string as such:
// The following query
query("select {0}, {1} from {2}", val(1), inline("test"), name("DUAL"));
// Will render this SQL on an Oracle database with RenderNameStyle.QUOTED:
select ?, 'test' from "DUAL"
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! One way to escape
literals is to use name(String...)
and similar methods
sql
- The SQL clause, containing {numbered placeholders} where query
parts can be injectedparts
- The QueryPart
objects that are rendered at the
{numbered placeholder} locationsSQL
,
sql(String, QueryPart...)
@Support @PlainSQL public static ResultQuery<Record> resultQuery(SQL sql)
There must not be any bind variables contained in the SQL
Use this method, when you want to take advantage of the many ways to
fetch results in jOOQ, using ResultQuery
. Some examples:
ResultQuery.fetchLazy() |
Open a cursor and fetch records one by one |
ResultQuery.fetchInto(Class) |
Fetch records into a custom POJO (optionally annotated with JPA annotations) |
ResultQuery.fetchInto(RecordHandler) |
Fetch records into a custom callback (similar to Spring's RowMapper) |
Example (Postgres):
Example
(SQLite):
String sql = "FETCH ALL IN \"
String sql = "pragma table_info('my_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!
sql
- The SQLSQL
@Support @PlainSQL public static ResultQuery<Record> resultQuery(java.lang.String sql)
There must not be any bind variables contained in the SQL
Use this method, when you want to take advantage of the many ways to
fetch results in jOOQ, using ResultQuery
. Some examples:
ResultQuery.fetchLazy() |
Open a cursor and fetch records one by one |
ResultQuery.fetchInto(Class) |
Fetch records into a custom POJO (optionally annotated with JPA annotations) |
ResultQuery.fetchInto(RecordHandler) |
Fetch records into a custom callback (similar to Spring's RowMapper) |
Example (Postgres):
Example
(SQLite):
String sql = "FETCH ALL IN \"
String sql = "pragma table_info('my_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!
sql
- The SQLSQL
@Support @PlainSQL public static ResultQuery<Record> resultQuery(java.lang.String sql, java.lang.Object... bindings)
There must be as many bind variables contained in the SQL, as passed in the bindings parameter
Use this method, when you want to take advantage of the many ways to
fetch results in jOOQ, using ResultQuery
. Some examples:
ResultQuery.fetchLazy() |
Open a cursor and fetch records one by one |
ResultQuery.fetchInto(Class) |
Fetch records into a custom POJO (optionally annotated with JPA annotations) |
ResultQuery.fetchInto(RecordHandler) |
Fetch records into a custom callback (similar to Spring's RowMapper) |
Example (Postgres):
Example
(SQLite):
String sql = "FETCH ALL IN \"
String sql = "pragma table_info('my_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!
sql
- The SQLbindings
- The bindingsSQL
,
sql(String, Object...)
@Support @PlainSQL public static ResultQuery<Record> resultQuery(java.lang.String sql, QueryPart... parts)
Unlike resultQuery(String, Object...)
, the SQL passed to this
method should not contain any bind variables. Instead, you can pass
QueryPart
objects to the method which will be rendered at indexed
locations of your SQL string as such:
// The following query
resultQuery("select {0}, {1} from {2}", val(1), inline("test"), name("DUAL"));
// Will render this SQL on an Oracle database with RenderNameStyle.QUOTED:
select ?, 'test' from "DUAL"
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! One way to escape
literals is to use name(String...)
and similar methods
sql
- The SQL clause, containing {numbered placeholders} where query
parts can be injectedparts
- The QueryPart
objects that are rendered at the
{numbered placeholder} locationsSQL
,
sql(String, QueryPart...)
@Support @PlainSQL public static Table<Record> table(SQL sql)
A plain SQL table is a table that can contain user-defined plain SQL, because sometimes it is easier to express things directly in SQL, for instance complex, but static subqueries or tables from different schemas.
Example
String sql = "SELECT * FROM USER_TABLES WHERE OWNER = 'MY_SCHEMA'";
The returned table does not know its field references, i.e.
TableLike.fields()
returns an empty array.
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!
sql
- The SQLSQL
@Support @PlainSQL public static Table<Record> table(java.lang.String sql)
A plain SQL table is a table that can contain user-defined plain SQL, because sometimes it is easier to express things directly in SQL, for instance complex, but static subqueries or tables from different schemas.
Example
String sql = "SELECT * FROM USER_TABLES WHERE OWNER = 'MY_SCHEMA'";
The returned table does not know its field references, i.e.
TableLike.fields()
returns an empty array.
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!
sql
- The SQLSQL
@Support @PlainSQL public static Table<Record> table(java.lang.String sql, java.lang.Object... bindings)
A plain SQL table is a table that can contain user-defined plain SQL, because sometimes it is easier to express things directly in SQL, for instance complex, but static subqueries or tables from different schemas. There must be as many bind variables contained in the SQL, as passed in the bindings parameter
Example
String sql = "SELECT * FROM USER_TABLES WHERE OWNER = ?";
Object[] bindings = new Object[] { "MY_SCHEMA" };
The returned table does not know its field references, i.e.
TableLike.fields()
returns an empty array.
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!
sql
- The SQLSQL
,
sql(String, Object...)
@Support @PlainSQL public static Table<Record> table(java.lang.String sql, QueryPart... parts)
A plain SQL table is a table that can contain user-defined plain SQL, because sometimes it is easier to express things directly in SQL, for instance complex, but static subqueries or tables from different schemas.
Example
String sql = "SELECT * FROM USER_TABLES WHERE {0}";
QueryPart[] parts = new QueryPart[] { USER_TABLES.OWNER.equal("MY_SCHEMA") };
The returned table does not know its field references, i.e.
TableLike.fields()
returns an empty array.
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!
sql
- The SQL clause, containing {numbered placeholders} where query
parts can be injectedparts
- The QueryPart
objects that are rendered at the
{numbered placeholder} locationsSQL
,
sql(String, QueryPart...)
@Deprecated @Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) @PlainSQL public static Sequence<java.math.BigInteger> sequence(java.lang.String sql)
sequence(Name)
instead.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!
sql
- The SQLSQL
@Deprecated @Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) @PlainSQL public static <T extends java.lang.Number> Sequence<T> sequence(java.lang.String sql, java.lang.Class<T> type)
sequence(Name, Class)
instead.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!
sql
- The SQLtype
- The field typeSQL
@Deprecated @Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,ORACLE,POSTGRES,SQLSERVER2012,SYBASE}) @PlainSQL public static <T extends java.lang.Number> Sequence<T> sequence(java.lang.String sql, DataType<T> type)
sequence(Name, DataType)
instead.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!
sql
- The SQLtype
- The field typeSQL
@Support @PlainSQL public static Field<java.lang.Object> field(SQL sql)
A PlainSQLField is a field that can contain user-defined plain SQL, because sometimes it is easier to express things directly in SQL, for instance complex proprietary functions. There must not be any binding variables contained in the SQL.
Example:
String sql = "DECODE(MY_FIELD, 1, 100, 200)";
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!
sql
- The SQLSQL
@Support @PlainSQL public static Field<java.lang.Object> field(java.lang.String sql)
A PlainSQLField is a field that can contain user-defined plain SQL, because sometimes it is easier to express things directly in SQL, for instance complex proprietary functions. There must not be any binding variables contained in the SQL.
Example:
String sql = "DECODE(MY_FIELD, 1, 100, 200)";
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!
sql
- The SQLSQL
@Support @PlainSQL public static Field<java.lang.Object> field(java.lang.String sql, java.lang.Object... bindings)
A PlainSQLField is a field that can contain user-defined plain SQL, because sometimes it is easier to express things directly in SQL, for instance complex proprietary functions. There must be as many binding variables contained in the SQL, as passed in the bindings parameter
Example:
String sql = "DECODE(MY_FIELD, ?, ?, ?)";
Object[] bindings = new Object[] { 1, 100, 200 };
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!
sql
- The SQLbindings
- The bindings for the fieldSQL
,
sql(String, Object...)
@Support @PlainSQL public static <T> Field<T> field(SQL sql, java.lang.Class<T> type)
A PlainSQLField is a field that can contain user-defined plain SQL, because sometimes it is easier to express things directly in SQL, for instance complex proprietary functions. There must not be any binding variables contained in the SQL.
Example:
String sql = "DECODE(MY_FIELD, 1, 100, 200)";
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!
sql
- The SQLtype
- The field typeSQL
@Support @PlainSQL public static <T> Field<T> field(java.lang.String sql, java.lang.Class<T> type)
A PlainSQLField is a field that can contain user-defined plain SQL, because sometimes it is easier to express things directly in SQL, for instance complex proprietary functions. There must not be any binding variables contained in the SQL.
Example:
String sql = "DECODE(MY_FIELD, 1, 100, 200)";
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!
sql
- The SQLtype
- The field typeSQL
@Support @PlainSQL public static <T> Field<T> field(java.lang.String sql, java.lang.Class<T> type, java.lang.Object... bindings)
A PlainSQLField is a field that can contain user-defined plain SQL, because sometimes it is easier to express things directly in SQL, for instance complex proprietary functions. There must be as many binding variables contained in the SQL, as passed in the bindings parameter
Example:
String sql = "DECODE(MY_FIELD, ?, ?, ?)";
Object[] bindings = new Object[] { 1, 100, 200 };
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!
sql
- The SQLtype
- The field typebindings
- The bindings for the fieldSQL
,
sql(String, Object...)
@Support @PlainSQL public static <T> Field<T> field(SQL sql, DataType<T> type)
A PlainSQLField is a field that can contain user-defined plain SQL, because sometimes it is easier to express things directly in SQL, for instance complex proprietary functions. There must not be any binding variables contained in the SQL.
Example:
String sql = "DECODE(MY_FIELD, 1, 100, 200)";
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!
sql
- The SQLtype
- The field typeSQL
@Support @PlainSQL public static <T> Field<T> field(java.lang.String sql, DataType<T> type)
A PlainSQLField is a field that can contain user-defined plain SQL, because sometimes it is easier to express things directly in SQL, for instance complex proprietary functions. There must not be any binding variables contained in the SQL.
Example:
String sql = "DECODE(MY_FIELD, 1, 100, 200)";
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!
sql
- The SQLtype
- The field typeSQL
@Support @PlainSQL public static <T> Field<T> field(java.lang.String sql, DataType<T> type, java.lang.Object... bindings)
A PlainSQLField is a field that can contain user-defined plain SQL, because sometimes it is easier to express things directly in SQL, for instance complex proprietary functions. There must be as many binding variables contained in the SQL, as passed in the bindings parameter
Example:
String sql = "DECODE(MY_FIELD, ?, ?, ?)";
Object[] bindings = new Object[] { 1, 100, 200 };
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!
sql
- The SQLtype
- The field typebindings
- The bindings for the fieldSQL
,
sql(String, Object...)
@Support @PlainSQL public static <T> Field<T> field(java.lang.String sql, DataType<T> type, QueryPart... parts)
This is useful for constructing more complex SQL syntax elements wherever
Field
types are expected. An example for this is MySQL's
GROUP_CONCAT
aggregate function, which has MySQL-specific
keywords that are hard to reflect in jOOQ's DSL:
GROUP_CONCAT([DISTINCT] expr [,expr ...]
[ORDER BY {unsigned_integer | col_name | expr}
[ASC | DESC] [,col_name ...]]
[SEPARATOR str_val])
The above MySQL function can be expressed as such:
field("GROUP_CONCAT(DISTINCT {0} ORDER BY {1} ASC SEPARATOR '-')", expr1, expr2);
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! One way to escape
literals is to use name(String...)
and similar methods
sql
- The SQLtype
- The field typeparts
- The QueryPart
objects that are rendered at the
{numbered placeholder} locationsSQL
,
sql(String, QueryPart...)
@Support @PlainSQL public static Field<java.lang.Object> field(java.lang.String sql, QueryPart... parts)
This is useful for constructing more complex SQL syntax elements wherever
Field
types are expected. An example for this is MySQL's
GROUP_CONCAT
aggregate function, which has MySQL-specific
keywords that are hard to reflect in jOOQ's DSL:
GROUP_CONCAT([DISTINCT] expr [,expr ...]
[ORDER BY {unsigned_integer | col_name | expr}
[ASC | DESC] [,col_name ...]]
[SEPARATOR str_val])
The above MySQL function can be expressed as such:
field("GROUP_CONCAT(DISTINCT {0} ORDER BY {1} ASC SEPARATOR '-')", expr1, expr2);
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! One way to escape
literals is to use name(String...)
and similar methods
sql
- The SQL clause, containing {numbered placeholders} where query
parts can be injectedparts
- The QueryPart
objects that are rendered at the
{numbered placeholder} locationsSQL
,
sql(String, QueryPart...)
@Support @PlainSQL public static <T> Field<T> field(java.lang.String sql, java.lang.Class<T> type, QueryPart... parts)
This is useful for constructing more complex SQL syntax elements wherever
Field
types are expected. An example for this is MySQL's
GROUP_CONCAT
aggregate function, which has MySQL-specific
keywords that are hard to reflect in jOOQ's DSL:
GROUP_CONCAT([DISTINCT] expr [,expr ...]
[ORDER BY {unsigned_integer | col_name | expr}
[ASC | DESC] [,col_name ...]]
[SEPARATOR str_val])
The above MySQL function can be expressed as such:
field("GROUP_CONCAT(DISTINCT {0} ORDER BY {1} ASC SEPARATOR '-')", expr1, expr2);
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! One way to escape
literals is to use name(String...)
and similar methods
sql
- The SQL clause, containing {numbered placeholders} where query
parts can be injectedtype
- The field typeparts
- The QueryPart
objects that are rendered at the
{numbered placeholder} locationsSQL
,
sql(String, QueryPart...)
@Support @PlainSQL public static <T> Field<T> function(java.lang.String name, java.lang.Class<T> type, Field<?>... arguments)
function()
can be used to access native or user-defined
functions that are not yet or insufficiently supported by jOOQ.
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!
name
- The function name (without parentheses)type
- The function return typearguments
- The function argumentsSQL
@Support @PlainSQL public static <T> Field<T> function(java.lang.String name, DataType<T> type, Field<?>... arguments)
function()
can be used to access native or user-defined
functions that are not yet or insufficiently supported by jOOQ.
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!
name
- The function name (without parentheses)type
- The function return typearguments
- The function argumentsSQL
@Support public static <T> Field<T> function(Name name, java.lang.Class<T> type, Field<?>... arguments)
function()
can be used to access native or user-defined
functions that are not yet or insufficiently supported by jOOQ.name
- The function name (possibly qualified)type
- The function return typearguments
- The function arguments@Support public static <T> Field<T> function(Name name, DataType<T> type, Field<?>... arguments)
function()
can be used to access native or user-defined
functions that are not yet or insufficiently supported by jOOQ.name
- The function name (possibly qualified)type
- The function return typearguments
- The function arguments@Support @PlainSQL public static Condition condition(SQL sql)
There must not be any bind variables contained in the SQL.
Example:
String sql = "(X = 1 and Y = 2)";
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!
sql
- The SQLSQL
@Support @PlainSQL public static Condition condition(java.lang.String sql)
There must not be any bind variables contained in the SQL.
Example:
String sql = "(X = 1 and Y = 2)";
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!
sql
- The SQLSQL
@Support @PlainSQL public static Condition condition(java.lang.String sql, java.lang.Object... bindings)
There must be as many bind variables contained in the SQL, as passed in the bindings parameter
Example:
String sql = "(X = ? and Y = ?)";
Object[] bindings = new Object[] { 1, 2 };
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!
sql
- The SQLbindings
- The bindingsSQL
,
sql(String, Object...)
@Support @PlainSQL public static Condition condition(java.lang.String sql, QueryPart... parts)
This is useful for constructing more complex SQL syntax elements wherever
Condition
types are expected. An example for this are
Postgres's various operators, some of which are missing in the jOOQ API.
For instance, the "overlap" operator for arrays:
ARRAY[1,4,3] && ARRAY[2,1]
The above Postgres operator can be expressed as such:
condition("{0} && {1}", array1, array2);
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! One way to escape
literals is to use name(String...)
and similar methods
sql
- The SQLparts
- The QueryPart
objects that are rendered at the
{numbered placeholder} locationsSQL
,
sql(String, QueryPart...)
@Support public static Condition condition(java.lang.Boolean value)
Databases that support boolean data types can use boolean expressions as predicates or as columns interchangeably. This extends to any type of field, including functions. A Postgres example:
select 1 where texteq('a', 'a');
value
- The boolean expression.@Support public static Condition condition(Field<java.lang.Boolean> field)
Databases that support boolean data types can use boolean expressions as predicates or as columns interchangeably. This extends to any type of field, including functions. A Postgres example:
select 1 where texteq('a', 'a');
field
- The boolean expression.@Support public static Condition condition(java.util.Map<Field<?>,?> map)
The result is a condition generated from keys and values of the argument map
, such that:
key1 = value1 AND key2 = value2 AND ... AND keyN = valueN
map
- A map containing keys and values to form predicates.@Support public static Condition condition(Record record)
Condition
from a Record
.
This will take all the non-null values in the argument
record
to form a predicate from them. If all values in the
record
are null
, the predicate will be the
trueCondition()
.
record
- The record from which to create a condition.@Support public static True trueCondition()
Condition
that will always evaluate to true.@Support public static False falseCondition()
Condition
that will always evaluate to false.@Support public static Condition condition(Operator operator, Condition left, Condition right)
Condition
that connects all argument
conditions
with Operator
.@Support public static Condition condition(Operator operator, Condition... conditions)
Condition
that connects all argument
conditions
with Operator
.@Support public static Condition condition(Operator operator, java.util.Collection<? extends Condition> conditions)
Condition
that connects all argument
conditions
with Operator
.@Support public static Condition exists(Select<?> query)
EXISTS ([query])
@Support public static Condition notExists(Select<?> query)
NOT EXISTS ([query])
@Support public static Condition not(Condition condition)
This is the same as calling Condition.not()
@Deprecated @Support public static Field<java.lang.Boolean> not(java.lang.Boolean value)
not(Condition)
instead. Due
to ambiguity between calling this method using
Field.equals(Object)
argument, vs. calling the other
method via a Field.equal(Object)
argument, this
method will be removed in the future.
This is convenience for calling field(Condition)
,
not(Condition)
, condition(Field)
, i.e.
field(not(condition(field)));
@Support public static Field<java.lang.Boolean> not(Field<java.lang.Boolean> field)
This is convenience for calling field(Condition)
,
not(Condition)
, condition(Field)
, i.e.
field(not(condition(field)));
@Support public static Field<java.lang.Boolean> field(Condition condition)
@Support public static <T> Field<T> field(SelectField<T> field)
SelectField
in a general-purpose Field
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1> Field<Record1<T1>> rowField(Row1<T1> row)
1
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2> Field<Record2<T1,T2>> rowField(Row2<T1,T2> row)
2
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3> Field<Record3<T1,T2,T3>> rowField(Row3<T1,T2,T3> row)
3
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4> Field<Record4<T1,T2,T3,T4>> rowField(Row4<T1,T2,T3,T4> row)
4
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5> Field<Record5<T1,T2,T3,T4,T5>> rowField(Row5<T1,T2,T3,T4,T5> row)
5
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6> Field<Record6<T1,T2,T3,T4,T5,T6>> rowField(Row6<T1,T2,T3,T4,T5,T6> row)
6
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7> Field<Record7<T1,T2,T3,T4,T5,T6,T7>> rowField(Row7<T1,T2,T3,T4,T5,T6,T7> row)
7
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8> Field<Record8<T1,T2,T3,T4,T5,T6,T7,T8>> rowField(Row8<T1,T2,T3,T4,T5,T6,T7,T8> row)
8
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9> Field<Record9<T1,T2,T3,T4,T5,T6,T7,T8,T9>> rowField(Row9<T1,T2,T3,T4,T5,T6,T7,T8,T9> row)
9
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> Field<Record10<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10>> rowField(Row10<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> row)
10
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> Field<Record11<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11>> rowField(Row11<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> row)
11
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> Field<Record12<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12>> rowField(Row12<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> row)
12
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> Field<Record13<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13>> rowField(Row13<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> row)
13
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> Field<Record14<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14>> rowField(Row14<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> row)
14
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> Field<Record15<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15>> rowField(Row15<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> row)
15
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> Field<Record16<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16>> rowField(Row16<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> row)
16
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> Field<Record17<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17>> rowField(Row17<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> row)
17
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> Field<Record18<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18>> rowField(Row18<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> row)
18
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> Field<Record19<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19>> rowField(Row19<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> row)
19
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> Field<Record20<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20>> rowField(Row20<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> row)
20
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> Field<Record21<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21>> rowField(Row21<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> row)
21
into a Field
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> Field<Record22<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22>> rowField(Row22<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> row)
22
into a Field
.
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.
@Support public static <T> Field<T> field(Select<? extends Record1<T>> select)
@Support public static Case choose()
Case
statement.
Choose is used as a method name to avoid name clashes with Java's reserved literal "case"
Case
@Support public static <V> CaseValueStep<V> choose(V value)
Case
statement.
This API can be used to create expressions of the type
CASE value WHEN 1 THEN 'one'
WHEN 2 THEN 'two'
ELSE 'three'
END
Choose is used as a method name to avoid name clashes with Java's reserved literal "case".
Case
@Support public static <V> CaseValueStep<V> choose(Field<V> value)
Case
statement.
This API can be used to create expressions of the type
CASE value WHEN 1 THEN 'one'
WHEN 2 THEN 'two'
ELSE 'three'
END
Choose is used as a method name to avoid name clashes with Java's reserved literal "case".
Case
@Support public static <T> CaseConditionStep<T> when(Condition condition, T result)
Case
statement.
This API can be used to create expressions of the type
CASE WHEN x < 1 THEN 'one'
WHEN x >= 2 THEN 'two'
ELSE 'three'
END
Choose is used as a method name to avoid name clashes with Java's reserved literal "case".
@Support public static <T> CaseConditionStep<T> when(Condition condition, Field<T> result)
Case
statement.
This API can be used to create expressions of the type
CASE WHEN x < 1 THEN 'one'
WHEN x >= 2 THEN 'two'
ELSE 'three'
END
Choose is used as a method name to avoid name clashes with Java's reserved literal "case".
@Support public static <T> CaseConditionStep<T> when(Condition condition, Select<? extends Record1<T>> result)
Case
statement.
This API can be used to create expressions of the type
CASE WHEN x < 1 THEN 'one'
WHEN x >= 2 THEN 'two'
ELSE 'three'
END
Choose is used as a method name to avoid name clashes with Java's reserved literal "case".
@Support public static Case decode()
Case
statement.
Decode is used as a method name to avoid name clashes with Java's reserved literal "case"
Case
@Support public static <Z,T> Field<Z> decode(T value, T search, Z result)
DECODE(expression, search, result[, search , result]... [, default])
function.decode(Field, Field, Field, Field[])
@Support public static <Z,T> Field<Z> decode(T value, T search, Z result, java.lang.Object... more)
DECODE(expression, search, result[, search , result]... [, default])
function.decode(Field, Field, Field, Field[])
@Support public static <Z,T> Field<Z> decode(Field<T> value, Field<T> search, Field<Z> result)
DECODE(expression, search, result[, search , result]... [, default])
function.decode(Field, Field, Field, Field[])
@Support public static <Z,T> Field<Z> decode(Field<T> value, Field<T> search, Field<Z> result, Field<?>... more)
DECODE(expression, search, result[, search , result]... [, default])
function.
Returns the dialect's equivalent to DECODE:
Other dialects:
CASE WHEN [this IS NOT DISTINCT FROM search] THEN [result],
[WHEN more... THEN more...]
[ELSE more...]
END
Note the use of the DISTINCT
predicate to produce the same,
conveniently NULL
-agnostic behaviour as Oracle.
value
- The value to decodesearch
- the mandatory first search parameterresult
- the mandatory first result candidate parametermore
- the optional parameters. If more.length
is even,
then it is assumed that it contains more search/result pairs.
If more.length
is odd, then it is assumed that it
contains more search/result pairs plus a default at the end.@Support public static <T> Field<T> coerce(java.lang.Object value, Field<T> as)
coerce(Field, Field)
@Support public static <T> Field<T> coerce(java.lang.Object value, java.lang.Class<T> as)
coerce(Field, Class)
@Support public static <T> Field<T> coerce(java.lang.Object value, DataType<T> as)
coerce(Field, DataType)
@Support public static <T> Field<T> coerce(Field<?> field, Field<T> as)
Unlike with casting, coercing doesn't affect the way the database sees a
Field
's type. This is how coercing affects your SQL:
// This binds an int value to a JDBC PreparedStatement
DSL.val(1).coerce(String.class);
// This binds an int value to a JDBC PreparedStatement
// and casts it to VARCHAR in SQL
DSL.val(1).cast(String.class);
// This fetches a String value for the BOOK.ID field from JDBC
BOOK.ID.coerce(String.class);
// This fetches a String value for the BOOK.ID field from JDBC
// after casting it to VARCHAR in the database
BOOK.ID.cast(String.class);
T
- The generic type of the coerced fieldfield
- The field to be coercedas
- The field whose type is used for the coercionField.coerce(DataType)
,
Field.cast(Field)
@Support public static <T> Field<T> coerce(Field<?> field, java.lang.Class<T> as)
Unlike with casting, coercing doesn't affect the way the database sees a
Field
's type. This is how coercing affects your SQL:
// This binds an int value to a JDBC PreparedStatement
DSL.val(1).coerce(String.class);
// This binds an int value to a JDBC PreparedStatement
// and casts it to VARCHAR in SQL
DSL.val(1).cast(String.class);
// This fetches a String value for the BOOK.ID field from JDBC
BOOK.ID.coerce(String.class);
// This fetches a String value for the BOOK.ID field from JDBC
// after casting it to VARCHAR in the database
BOOK.ID.cast(String.class);
T
- The generic type of the coerced fieldfield
- The field to be coercedas
- The type that is used for the coercionField.coerce(DataType)
,
Field.cast(Class)
@Support public static <T> Field<T> coerce(Field<?> field, DataType<T> as)
Unlike with casting, coercing doesn't affect the way the database sees a
Field
's type. This is how coercing affects your SQL:
// This binds an int value to a JDBC PreparedStatement
DSL.val(1).coerce(String.class);
// This binds an int value to a JDBC PreparedStatement
// and casts it to VARCHAR in SQL
DSL.val(1).cast(String.class);
// This fetches a String value for the BOOK.ID field from JDBC
BOOK.ID.coerce(String.class);
// This fetches a String value for the BOOK.ID field from JDBC
// after casting it to VARCHAR in the database
BOOK.ID.cast(String.class);
T
- The generic type of the coerced fieldfield
- The field to be coercedas
- The type that is used for the coercionField.coerce(DataType)
,
Field.cast(DataType)
@Support public static <T> Field<T> cast(java.lang.Object value, Field<T> as)
T
- The generic type of the cast fieldvalue
- The value to castas
- The field whose type is used for the cast@Support public static <T> Field<T> cast(Field<?> field, Field<T> as)
T
- The generic type of the cast fieldfield
- The field to castas
- The field whose type is used for the cast@Support public static <T> Field<T> castNull(Field<T> as)
T
- The generic type of the cast fieldas
- The field whose type is used for the cast@Support public static <T> Field<T> cast(java.lang.Object value, java.lang.Class<T> type)
T
- The generic type of the cast fieldvalue
- The value to casttype
- The type that is used for the cast@Support public static <T> Field<T> cast(Field<?> field, java.lang.Class<T> type)
T
- The generic type of the cast fieldfield
- The field to casttype
- The type that is used for the cast@Support public static <T> Field<T> castNull(DataType<T> type)
T
- The generic type of the cast fieldtype
- The type that is used for the cast@Support public static <T> Field<T> cast(java.lang.Object value, DataType<T> type)
T
- The generic type of the cast fieldvalue
- The value to casttype
- The type that is used for the cast@Support public static <T> Field<T> cast(Field<?> field, DataType<T> type)
T
- The generic type of the cast fieldfield
- The value to casttype
- The type that is used for the cast@Support public static <T> Field<T> castNull(java.lang.Class<T> type)
T
- The generic type of the cast fieldtype
- The type that is used for the cast@Support public static <T> Field<T> coalesce(T value, T... values)
COALESCE(value1, value2, ... , value n)
function.coalesce(Field, Field...)
@Support public static <T> Field<T> coalesce(Field<T> field, T value)
COALESCE(field, value)
function.coalesce(Field, Field...)
@Support public static <T> Field<T> coalesce(Field<T> field, Field<?>... fields)
COALESCE(field1, field2, ... , field n)
function.@Support public static <T> Field<T> isnull(T value, T defaultValue)
nvl(Field, Field)
@Support public static <T> Field<T> isnull(T value, Field<T> defaultValue)
nvl(Field, Field)
@Support public static <T> Field<T> isnull(Field<T> value, T defaultValue)
nvl(Field, Field)
@Support public static <T> Field<T> isnull(Field<T> value, Field<T> defaultValue)
nvl(Field, Field)
@Support public static <T> Field<T> nvl(T value, T defaultValue)
nvl(Field, Field)
@Support public static <T> Field<T> nvl(T value, Field<T> defaultValue)
nvl(Field, Field)
@Support public static <T> Field<T> nvl(Field<T> value, T defaultValue)
nvl(Field, Field)
@Support public static <T> Field<T> ifnull(T value, T defaultValue)
IFNULL()
function, a synonym of NVL()
.nvl(Field, Field)
@Support public static <T> Field<T> ifnull(T value, Field<T> defaultValue)
IFNULL()
function, a synonym of NVL()
.nvl(Field, Field)
@Support public static <T> Field<T> ifnull(Field<T> value, T defaultValue)
IFNULL()
function, a synonym of NVL()
.nvl(Field, Object)
@Support public static <T> Field<T> ifnull(Field<T> value, Field<T> defaultValue)
IFNULL()
function, a synonym of NVL()
.nvl(Field, Field)
@Support public static <Z> Field<Z> nvl2(Field<?> value, Z valueIfNotNull, Z valueIfNull)
nvl2(Field, Field, Field)
@Support public static <Z> Field<Z> nvl2(Field<?> value, Z valueIfNotNull, Field<Z> valueIfNull)
nvl2(Field, Field, Field)
@Support public static <Z> Field<Z> nvl2(Field<?> value, Field<Z> valueIfNotNull, Z valueIfNull)
nvl2(Field, Field, Field)
@Support public static <Z> Field<Z> nvl2(Field<?> value, Field<Z> valueIfNotNull, Field<Z> valueIfNull)
Returns the dialect's equivalent to NVL2:
Other dialects:
CASE WHEN [value] IS NULL THEN [valueIfNull] ELSE [valueIfNotNull] END
@Support public static <T> Field<T> nullif(T value, T other)
nullif(Field, Field)
@Support public static <T> Field<T> nullif(T value, Field<T> other)
nullif(Field, Field)
@Support public static <T> Field<T> nullif(Field<T> value, T other)
nullif(Field, Field)
@Support public static <T> Field<T> nullif(Field<T> value, Field<T> other)
Returns the dialect's equivalent to NULLIF:
@Support public static Field<java.lang.String> upper(java.lang.String value)
upper(Field)
@Support public static Field<java.lang.String> upper(Field<java.lang.String> field)
This renders the upper function in all dialects:
upper([field])
@Support public static Field<java.lang.String> lower(java.lang.String value)
lower(Field)
@Support public static Field<java.lang.String> lower(Field<java.lang.String> field)
This renders the lower function in all dialects:
lower([field])
@Support public static Field<java.lang.String> trim(java.lang.String value)
trim(Field)
@Support public static Field<java.lang.String> trim(Field<java.lang.String> field)
This renders the trim function where available:
... or emulates it elsewhere using
rtrim and ltrim: trim([field])
ltrim(rtrim([field]))
@Support public static Field<java.lang.String> rtrim(java.lang.String value)
rtrim(Field)
@Support public static Field<java.lang.String> rtrim(Field<java.lang.String> field)
This renders the rtrim function in all dialects:
rtrim([field])
@Support public static Field<java.lang.String> ltrim(java.lang.String value)
ltrim(Field)
@Support public static Field<java.lang.String> ltrim(Field<java.lang.String> field)
This renders the ltrim function in all dialects:
ltrim([field])
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> rpad(Field<java.lang.String> field, int length)
rpad(Field, Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> rpad(Field<java.lang.String> field, Field<? extends java.lang.Number> length)
This renders the rpad function where available:
... or emulates it
elsewhere using concat, repeat, and length, which may be emulated as
well, depending on the RDBMS:
rpad([field], [length])
concat([field], repeat(' ', [length] - length([field])))
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> rpad(Field<java.lang.String> field, int length, char character)
rpad(Field, Field, Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> rpad(Field<java.lang.String> field, int length, java.lang.String character)
rpad(Field, Field, Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> rpad(Field<java.lang.String> field, Field<? extends java.lang.Number> length, Field<java.lang.String> character)
This renders the rpad function where available:
... or emulates it
elsewhere using concat, repeat, and length, which may be emulated as
well, depending on the RDBMS:
rpad([field], [length])
concat([field], repeat([character], [length] - length([field])))
In SQLDialect.SQLITE
, this is emulated as such:
[field] || replace(replace(substr(quote(zeroblob(([length] + 1) / 2)), 3, ([length] - length([field]))), '\''', ''), '0', [character])
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> lpad(Field<java.lang.String> field, int length)
lpad(Field, Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> lpad(Field<java.lang.String> field, Field<? extends java.lang.Number> length)
This renders the lpad function where available:
... or emulates it
elsewhere using concat, repeat, and length, which may be emulated as
well, depending on the RDBMS:
lpad([field], [length])
concat(repeat(' ', [length] - length([field])), [field])
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> lpad(Field<java.lang.String> field, int length, char character)
lpad(Field, Field, Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> lpad(Field<java.lang.String> field, int length, java.lang.String character)
lpad(Field, Field, Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> lpad(Field<java.lang.String> field, Field<? extends java.lang.Number> length, Field<java.lang.String> character)
This renders the lpad function where available:
... or emulates it
elsewhere using concat, repeat, and length, which may be emulated as
well, depending on the RDBMS:
lpad([field], [length])
concat(repeat([character], [length] - length([field])), [field])
In SQLDialect.SQLITE
, this is emulated as such:
replace(replace(substr(quote(zeroblob(([length] + 1) / 2)), 3, ([length] - length([field]))), '\''', ''), '0', [character]) || [field]
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> repeat(java.lang.String field, int count)
repeat(Field, Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> repeat(java.lang.String field, Field<? extends java.lang.Number> count)
repeat(Field, Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> repeat(Field<java.lang.String> field, int count)
repeat(Field, Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> repeat(Field<java.lang.String> field, Field<? extends java.lang.Number> count)
This renders the repeat or replicate function where available:
... or emulates it elsewhere
using rpad and length, which may be emulated as well, depending on the
RDBMS:
repeat([field], [count]) or
replicate([field], [count])
rpad([field], length([field]) * [count], [field])
In SQLDialect.SQLITE
, this is emulated as such:
replace(substr(quote(zeroblob(([count] + 1) / 2)), 3, [count]), '0', [field])
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> space(int value)
SPACE()
function.
This function can be emulated using repeat(String, int)
in
dialects that do not ship with a native SPACE()
function.
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.String> space(Field<java.lang.Integer> value)
SPACE()
function.
This function can be emulated using repeat(String, int)
in
dialects that do not ship with a native SPACE()
function.
@Support(value={ASE,CUBRID,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER}) public static Field<java.lang.String> reverse(java.lang.String value)
reverse(field)
function.@Support(value={ASE,CUBRID,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER}) public static Field<java.lang.String> reverse(Field<java.lang.String> field)
reverse(field)
function.@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static java.lang.String escape(java.lang.String value, char escape)
replace(Field, String, String)
to escape
data for use with Field.like(Field, char)
.
Essentially, this escapes %
and _
characters
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static Field<java.lang.String> escape(Field<java.lang.String> field, char escape)
replace(Field, String, String)
to escape
data for use with Field.like(Field, char)
.
Essentially, this escapes %
and _
characters
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static Field<java.lang.String> replace(Field<java.lang.String> field, java.lang.String search)
replace(Field, Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static Field<java.lang.String> replace(Field<java.lang.String> field, Field<java.lang.String> search)
This renders the replace or str_replace function where available:
... or emulates it elsewhere
using the three-argument replace function:
replace([field], [search]) or
str_replace([field], [search])
replace([field], [search], '')
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static Field<java.lang.String> replace(Field<java.lang.String> field, java.lang.String search, java.lang.String replace)
replace(Field, Field, Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static Field<java.lang.String> replace(Field<java.lang.String> field, Field<java.lang.String> search, Field<java.lang.String> replace)
This renders the replace or str_replace function:
replace([field], [search]) or
str_replace([field], [search])
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> position(java.lang.String in, java.lang.String search)
position(Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> position(java.lang.String in, Field<java.lang.String> search)
position(Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> position(Field<java.lang.String> in, java.lang.String search)
position(Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> position(Field<java.lang.String> in, Field<java.lang.String> search)
This renders the position or any equivalent function:
position([search] in [in]) or
locate([in], [search]) or
locate([search], [in]) or
instr([in], [search]) or
charindex([search], [in])
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> position(java.lang.String in, java.lang.String search, int startIndex)
position(Field, Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> position(java.lang.String in, Field<java.lang.String> search, int startIndex)
position(Field, Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> position(Field<java.lang.String> in, java.lang.String search, int startIndex)
position(Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> position(Field<java.lang.String> in, Field<java.lang.String> search, int startIndex)
This renders the position or any equivalent function:
position([search] in [in]) or
locate([in], [search]) or
locate([search], [in]) or
instr([in], [search]) or
charindex([search], [in])
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> position(java.lang.String in, java.lang.String search, Field<? extends java.lang.Number> startIndex)
position(Field, Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> position(java.lang.String in, Field<java.lang.String> search, Field<? extends java.lang.Number> startIndex)
position(Field, Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> position(Field<java.lang.String> in, java.lang.String search, Field<? extends java.lang.Number> startIndex)
position(Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> position(Field<java.lang.String> in, Field<java.lang.String> search, Field<? extends java.lang.Number> startIndex)
This renders the position or any equivalent function:
position([search] in [in]) or
locate([in], [search]) or
locate([search], [in]) or
instr([in], [search]) or
charindex([search], [in])
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> ascii(java.lang.String field)
ascii(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static Field<java.lang.Integer> ascii(Field<java.lang.String> field)
This renders the ascii function:
ascii([field])
@Support public static Field<java.lang.String> concat(Field<java.lang.String> field, java.lang.String value)
concat(field, value)
function.concat(Field...)
@Support public static Field<java.lang.String> concat(java.lang.String value, Field<java.lang.String> field)
concat(value, field)
function.concat(Field...)
@Support public static Field<java.lang.String> concat(java.lang.String... values)
concat(Field...)
@Support public static Field<java.lang.String> concat(Field<?>... fields)
This creates fields[0] || fields[1] || ...
as an
expression, or concat(fields[0], fields[1], ...)
,
depending on the dialect.
If any of the given fields is not a String
field, they are cast
to Field<String>
first using cast(Object, Class)
@Support public static Field<java.lang.String> substring(Field<java.lang.String> field, int startingPosition)
substring(Field, Field)
@Support public static Field<java.lang.String> substring(Field<java.lang.String> field, Field<? extends java.lang.Number> startingPosition)
This renders the substr or substring function:
substr([field], [startingPosition]) or
substring([field], [startingPosition])
@Support public static Field<java.lang.String> substring(Field<java.lang.String> field, int startingPosition, int length)
substring(Field, Field, Field)
@Support public static Field<java.lang.String> substring(Field<java.lang.String> field, Field<? extends java.lang.Number> startingPosition, Field<? extends java.lang.Number> length)
This renders the substr or substring function:
substr([field], [startingPosition], [length]) or
substring([field], [startingPosition], [length])
@Support public static Field<java.lang.String> mid(Field<java.lang.String> field, int startingPosition, int length)
substring(Field, Field, Field)
@Support public static Field<java.lang.String> mid(Field<java.lang.String> field, Field<? extends java.lang.Number> startingPosition, Field<? extends java.lang.Number> length)
This renders the substr or substring function:
substr([field], [startingPosition], [length]) or
substring([field], [startingPosition], [length])
@Support public static Field<java.lang.String> left(java.lang.String field, int length)
Example:
'abc' = LEFT('abcde', 3)
@Support public static Field<java.lang.String> left(java.lang.String field, Field<? extends java.lang.Number> length)
Example:
'abc' = LEFT('abcde', 3)
@Support public static Field<java.lang.String> left(Field<java.lang.String> field, int length)
Example:
'abc' = LEFT('abcde', 3)
@Support public static Field<java.lang.String> left(Field<java.lang.String> field, Field<? extends java.lang.Number> length)
Example:
'abc' = LEFT('abcde', 3)
@Support public static Field<java.lang.String> right(java.lang.String field, int length)
Example:
'cde' = RIGHT('abcde', 3)
@Support public static Field<java.lang.String> right(java.lang.String field, Field<? extends java.lang.Number> length)
Example:
'cde' = RIGHT('abcde', 3)
@Support public static Field<java.lang.String> right(Field<java.lang.String> field, int length)
Example:
'cde' = RIGHT('abcde', 3)
@Support public static Field<java.lang.String> right(Field<java.lang.String> field, Field<? extends java.lang.Number> length)
Example:
'cde' = RIGHT('abcde', 3)
@Support public static Field<java.lang.Integer> length(java.lang.String value)
VARCHAR
type. This is a synonym for
charLength(String)
.charLength(String)
@Support public static Field<java.lang.Integer> length(Field<java.lang.String> field)
VARCHAR
type. This is a synonym for
charLength(Field)
.charLength(Field)
@Support public static Field<java.lang.Integer> charLength(java.lang.String value)
This translates into any dialect
@Support public static Field<java.lang.Integer> charLength(Field<java.lang.String> field)
This translates into any dialect
@Support public static Field<java.lang.Integer> bitLength(java.lang.String value)
This translates into any dialect
@Support public static Field<java.lang.Integer> bitLength(Field<java.lang.String> field)
This translates into any dialect
@Support public static Field<java.lang.Integer> octetLength(java.lang.String value)
This translates into any dialect
@Support public static Field<java.lang.Integer> octetLength(Field<java.lang.String> field)
This translates into any dialect
@Support(value={MARIADB,MYSQL,ORACLE}) public static Field<java.lang.String> md5(java.lang.String string)
MD5()
function.
These are the implementations for various databases:
Database | Implementation |
---|---|
MySQL | MD5( ... ) |
Oracle |
LOWER(RAWTOHEX(SYS.DBMS_CRYPTO.HASH(UTL_RAW.CAST_TO_RAW( ... ), SYS.DBMS_CRYPTO.HASH_MD5)))
|
@Support(value={MARIADB,MYSQL,ORACLE}) public static Field<java.lang.String> md5(Field<java.lang.String> string)
MD5()
function.
These are the implementations for various databases:
Database | Implementation |
---|---|
MySQL | MD5( ... ) |
Oracle |
LOWER(RAWTOHEX(SYS.DBMS_CRYPTO.HASH(UTL_RAW.CAST_TO_RAW( ... ), SYS.DBMS_CRYPTO.HASH_MD5)))
|
@Support public static Field<java.sql.Date> currentDate()
SQLDataType.DATE
type.
Note, while there is a CURRENT_DATE
function in
SQLDialect.ORACLE
, that function returns a seconds-precision
SQLDataType.TIMESTAMP
, which is undesired from a vendor
agnosticity perspective. This function thus produces an expression that
conforms to the SQL standard idea of a SQLDataType.DATE
type.
This translates into any dialect
@Support public static Field<java.sql.Time> currentTime()
SQLDataType.TIME
type.
This translates into any dialect
@Support public static Field<java.sql.Timestamp> currentTimestamp()
SQLDataType.TIMESTAMP
type.
This translates into any dialect
@Support public static Field<java.sql.Timestamp> now()
currentTimestamp()
.@Support public static Field<java.time.LocalDate> currentLocalDate()
SQLDataType.DATE
type.
Note, while there is a CURRENT_DATE
function in
SQLDialect.ORACLE
, that function returns a seconds-precision
SQLDataType.TIMESTAMP
, which is undesired from a vendor
agnosticity perspective. This function thus produces an expression that
conforms to the SQL standard idea of a SQLDataType.DATE
type.
This translates into any dialect
@Support public static Field<java.time.LocalTime> currentLocalTime()
SQLDataType.TIME
type.
This translates into any dialect
@Support public static Field<java.time.LocalDateTime> currentLocalDateTime()
SQLDataType.TIMESTAMP
type.
This translates into any dialect
@Support public static Field<java.time.OffsetTime> currentOffsetTime()
This translates into any dialect
@Support public static Field<java.time.OffsetDateTime> currentOffsetDateTime()
This translates into any dialect
@Support public static Field<java.lang.Integer> dateDiff(java.sql.Date date1, java.sql.Date date2)
This translates into any dialect
Field.sub(Field)
@Support public static Field<java.lang.Integer> dateDiff(Field<java.sql.Date> date1, java.sql.Date date2)
This translates into any dialect
Field.sub(Field)
@Support public static Field<java.lang.Integer> dateDiff(java.sql.Date date1, Field<java.sql.Date> date2)
This translates into any dialect
Field.sub(Field)
@Support public static Field<java.lang.Integer> dateDiff(Field<java.sql.Date> date1, Field<java.sql.Date> date2)
This translates into any dialect
Field.sub(Field)
@Support public static Field<java.sql.Date> dateAdd(java.sql.Date date, java.lang.Number interval)
This translates into any dialect
Field.add(Number)
@Support public static Field<java.sql.Date> dateAdd(Field<java.sql.Date> date, Field<? extends java.lang.Number> interval)
This translates into any dialect
Field.add(Field)
@Support public static Field<java.sql.Date> dateAdd(java.sql.Date date, java.lang.Number interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.sql.Date> dateAdd(java.sql.Date date, Field<? extends java.lang.Number> interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.sql.Date> dateAdd(Field<java.sql.Date> date, java.lang.Number interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.sql.Date> dateAdd(Field<java.sql.Date> date, Field<? extends java.lang.Number> interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.sql.Date> dateSub(java.sql.Date date, java.lang.Number interval)
This translates into any dialect
Field.add(Number)
@Support public static Field<java.sql.Date> dateSub(Field<java.sql.Date> date, Field<? extends java.lang.Number> interval)
This translates into any dialect
Field.add(Field)
@Support public static Field<java.sql.Date> dateSub(java.sql.Date date, java.lang.Number interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.sql.Date> dateSub(java.sql.Date date, Field<? extends java.lang.Number> interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.sql.Date> dateSub(Field<java.sql.Date> date, java.lang.Number interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.sql.Date> dateSub(Field<java.sql.Date> date, Field<? extends java.lang.Number> interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.sql.Timestamp> timestampAdd(java.sql.Timestamp timestamp, java.lang.Number interval)
This translates into any dialect
Field.add(Number)
@Support public static Field<java.sql.Timestamp> timestampAdd(Field<java.sql.Timestamp> timestamp, Field<? extends java.lang.Number> interval)
This translates into any dialect
Field.add(Field)
@Support public static Field<java.sql.Timestamp> timestampAdd(java.sql.Timestamp date, java.lang.Number interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.sql.Timestamp> timestampAdd(java.sql.Timestamp date, Field<? extends java.lang.Number> interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.sql.Timestamp> timestampAdd(Field<java.sql.Timestamp> date, java.lang.Number interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.sql.Timestamp> timestampAdd(Field<java.sql.Timestamp> date, Field<? extends java.lang.Number> interval, DatePart datePart)
This translates into any dialect
@Support public static Field<DayToSecond> timestampDiff(java.sql.Timestamp timestamp1, java.sql.Timestamp timestamp2)
INTERVAL DAY TO SECOND
type.
This translates into any dialect
Field.sub(Field)
@Support public static Field<DayToSecond> timestampDiff(Field<java.sql.Timestamp> timestamp1, java.sql.Timestamp timestamp2)
INTERVAL DAY TO SECOND
type.
This translates into any dialect
Field.sub(Field)
@Support public static Field<DayToSecond> timestampDiff(java.sql.Timestamp timestamp1, Field<java.sql.Timestamp> timestamp2)
INTERVAL DAY TO SECOND
type.
This translates into any dialect
Field.sub(Field)
@Support public static Field<DayToSecond> timestampDiff(Field<java.sql.Timestamp> timestamp1, Field<java.sql.Timestamp> timestamp2)
INTERVAL DAY TO SECOND
type.
This translates into any dialect
Field.sub(Field)
@Support public static Field<java.lang.Integer> localDateDiff(java.time.LocalDate date1, java.time.LocalDate date2)
This translates into any dialect
Field.sub(Field)
@Support public static Field<java.lang.Integer> localDateDiff(Field<java.time.LocalDate> date1, java.time.LocalDate date2)
This translates into any dialect
Field.sub(Field)
@Support public static Field<java.lang.Integer> localDateDiff(java.time.LocalDate date1, Field<java.time.LocalDate> date2)
This translates into any dialect
Field.sub(Field)
@Support public static Field<java.lang.Integer> localDateDiff(Field<java.time.LocalDate> date1, Field<java.time.LocalDate> date2)
This translates into any dialect
Field.sub(Field)
@Support public static Field<java.time.LocalDate> localDateAdd(java.time.LocalDate date, java.lang.Number interval)
This translates into any dialect
Field.add(Number)
@Support public static Field<java.time.LocalDate> localDateAdd(Field<java.time.LocalDate> date, Field<? extends java.lang.Number> interval)
This translates into any dialect
Field.add(Field)
@Support public static Field<java.time.LocalDate> localDateAdd(java.time.LocalDate date, java.lang.Number interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.time.LocalDate> localDateAdd(java.time.LocalDate date, Field<? extends java.lang.Number> interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.time.LocalDate> localDateAdd(Field<java.time.LocalDate> date, java.lang.Number interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.time.LocalDate> localDateAdd(Field<java.time.LocalDate> date, Field<? extends java.lang.Number> interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.time.LocalDate> localDateSub(java.time.LocalDate date, java.lang.Number interval)
This translates into any dialect
Field.add(Number)
@Support public static Field<java.time.LocalDate> localDateSub(Field<java.time.LocalDate> date, Field<? extends java.lang.Number> interval)
This translates into any dialect
Field.add(Field)
@Support public static Field<java.time.LocalDate> localDateSub(java.time.LocalDate date, java.lang.Number interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.time.LocalDate> localDateSub(java.time.LocalDate date, Field<? extends java.lang.Number> interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.time.LocalDate> localDateSub(Field<java.time.LocalDate> date, java.lang.Number interval, DatePart datePart)
This translates into any dialect
@Support public static Field<java.time.LocalDate> localDateSub(Field<java.time.LocalDate> date, Field<? extends java.lang.Number> interval, DatePart datePart)
This translates into any dialect
@Support(value={CUBRID,DB2,H2,HSQLDB,INFORMIX,ORACLE,POSTGRES,VERTICA}) public static Field<java.sql.Date> trunc(java.sql.Date date)
@Support(value={CUBRID,DB2,H2,HSQLDB,INFORMIX,ORACLE,POSTGRES,VERTICA}) public static Field<java.sql.Date> trunc(java.sql.Date date, DatePart part)
@Support(value={CUBRID,DB2,H2,HSQLDB,INFORMIX,ORACLE,POSTGRES,VERTICA}) public static Field<java.time.LocalDate> trunc(java.time.LocalDate date)
@Support(value={CUBRID,DB2,H2,HSQLDB,INFORMIX,ORACLE,POSTGRES,VERTICA}) public static Field<java.time.LocalDate> trunc(java.time.LocalDate date, DatePart part)
@Support(value={CUBRID,DB2,H2,HSQLDB,INFORMIX,ORACLE,POSTGRES,VERTICA}) public static Field<java.sql.Timestamp> trunc(java.sql.Timestamp timestamp)
@Support(value={CUBRID,DB2,H2,HSQLDB,INFORMIX,ORACLE,POSTGRES,VERTICA}) public static Field<java.sql.Timestamp> trunc(java.sql.Timestamp timestamp, DatePart part)
@Support(value={CUBRID,DB2,H2,HSQLDB,INFORMIX,ORACLE,POSTGRES,VERTICA}) public static Field<java.time.LocalDateTime> trunc(java.time.LocalDateTime timestamp)
@Support(value={CUBRID,DB2,H2,HSQLDB,INFORMIX,ORACLE,POSTGRES,VERTICA}) public static Field<java.time.LocalDateTime> trunc(java.time.LocalDateTime timestamp, DatePart part)
@Support(value={CUBRID,DB2,H2,HSQLDB,INFORMIX,ORACLE,POSTGRES,VERTICA}) public static <T> Field<T> trunc(Field<T> date)
@Support(value={CUBRID,DB2,H2,HSQLDB,INFORMIX,ORACLE,POSTGRES,VERTICA}) public static <T> Field<T> trunc(Field<T> date, DatePart part)
@Support public static Field<java.lang.Integer> extract(java.util.Date value, DatePart datePart)
This translates into any dialect
@Support public static Field<java.lang.Integer> extract(java.time.temporal.Temporal value, DatePart datePart)
This translates into any dialect
@Support public static Field<java.lang.Integer> extract(Field<?> field, DatePart datePart)
This translates into any dialect
@Support public static Field<java.lang.Integer> year(java.util.Date value)
This is the same as calling extract(java.util.Date, DatePart)
with DatePart.YEAR
@Support public static Field<java.lang.Integer> year(java.time.temporal.Temporal value)
This is the same as calling extract(Temporal, DatePart)
with DatePart.YEAR
@Support public static Field<java.lang.Integer> year(Field<?> field)
This is the same as calling extract(Field, DatePart)
with DatePart.YEAR
@Support public static Field<java.lang.Integer> month(java.util.Date value)
This is the same as calling extract(java.util.Date, DatePart)
with DatePart.MONTH
@Support public static Field<java.lang.Integer> month(java.time.temporal.Temporal value)
This is the same as calling extract(Temporal, DatePart)
with DatePart.MONTH
@Support public static Field<java.lang.Integer> month(Field<?> field)
This is the same as calling extract(Field, DatePart)
with DatePart.MONTH
@Support public static Field<java.lang.Integer> day(java.util.Date value)
This is the same as calling extract(java.util.Date, DatePart)
with DatePart.DAY
@Support public static Field<java.lang.Integer> day(java.time.temporal.Temporal value)
This is the same as calling extract(Temporal, DatePart)
with DatePart.DAY
@Support public static Field<java.lang.Integer> day(Field<?> field)
This is the same as calling extract(Field, DatePart)
with DatePart.DAY
@Support public static Field<java.lang.Integer> hour(java.util.Date value)
This is the same as calling extract(java.util.Date, DatePart)
with DatePart.HOUR
@Support public static Field<java.lang.Integer> hour(java.time.temporal.Temporal value)
This is the same as calling extract(Temporal, DatePart)
with DatePart.HOUR
@Support public static Field<java.lang.Integer> hour(Field<?> field)
This is the same as calling extract(Field, DatePart)
with DatePart.HOUR
@Support public static Field<java.lang.Integer> minute(java.util.Date value)
This is the same as calling extract(java.util.Date, DatePart)
with DatePart.MINUTE
@Support public static Field<java.lang.Integer> minute(java.time.temporal.Temporal value)
This is the same as calling extract(Temporal, DatePart)
with DatePart.MINUTE
@Support public static Field<java.lang.Integer> minute(Field<?> field)
This is the same as calling extract(Field, DatePart)
with DatePart.MINUTE
@Support public static Field<java.lang.Integer> second(java.util.Date value)
This is the same as calling extract(java.util.Date, DatePart)
with DatePart.SECOND
@Support public static Field<java.lang.Integer> second(java.time.temporal.Temporal value)
This is the same as calling extract(Temporal, DatePart)
with DatePart.SECOND
@Support public static Field<java.lang.Integer> second(Field<?> field)
This is the same as calling extract(Field, DatePart)
with DatePart.SECOND
@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.sql.Date> date(java.lang.String value)
DATE
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.sql.Date> date(java.util.Date value)
DATE
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.sql.Date> date(Field<? extends java.util.Date> field)
DATE
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.sql.Time> time(java.lang.String value)
TIME
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.sql.Time> time(java.util.Date value)
TIME
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.sql.Time> time(Field<? extends java.util.Date> field)
TIME
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.sql.Timestamp> timestamp(java.lang.String value)
TIMESTAMP
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.sql.Timestamp> timestamp(java.util.Date value)
TIMESTAMP
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.sql.Timestamp> timestamp(Field<? extends java.util.Date> field)
TIMESTAMP
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.time.LocalDate> localDate(java.lang.String value)
DATE
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.time.LocalDate> localDate(java.time.LocalDate value)
DATE
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.time.LocalDate> localDate(Field<java.time.LocalDate> field)
DATE
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.time.LocalTime> localTime(java.lang.String value)
TIME
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.time.LocalTime> localTime(java.time.LocalTime value)
TIME
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.time.LocalTime> localTime(Field<java.time.LocalTime> field)
TIME
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.time.LocalDateTime> localDateTime(java.lang.String value)
TIMESTAMP
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.time.LocalDateTime> localDateTime(java.time.LocalDateTime value)
TIMESTAMP
.@Support(value={ACCESS,ASE,CUBRID,DB2,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.time.LocalDateTime> localDateTime(Field<java.time.LocalDateTime> field)
TIMESTAMP
.@Support(value=POSTGRES) public static Field<java.time.OffsetTime> offsetTime(java.lang.String value)
TIME WITH TIME ZONE
.
Depending on whether the database preserves the time zone information
(e.g. SQLDialect.ORACLE
) or not (e.g.
SQLDialect.POSTGRES
), the resulting value might be converted to
UTC. Regardless of this fact, the result should be the same
Instant
(in UTC) as the input.
@Support(value=POSTGRES) public static Field<java.time.OffsetTime> offsetTime(java.time.OffsetTime value)
TIME WITH TIME ZONE
.
Depending on whether the database preserves the time zone information
(e.g. SQLDialect.ORACLE
) or not (e.g.
SQLDialect.POSTGRES
), the resulting value might be converted to
UTC. Regardless of this fact, the result should be the same
Instant
(in UTC) as the input.
@Support(value=POSTGRES) public static Field<java.time.OffsetTime> offsetTime(Field<java.time.OffsetTime> field)
TIME WITH TIME ZONE
.
Depending on whether the database preserves the time zone information
(e.g. SQLDialect.ORACLE
) or not (e.g.
SQLDialect.POSTGRES
), the resulting value might be converted to
UTC. Regardless of this fact, the result should be the same
Instant
(in UTC) as the input.
@Support(value={H2,POSTGRES}) public static Field<java.time.OffsetDateTime> offsetDateTime(java.lang.String value)
TIMESTAMP WITH TIME ZONE
.
Depending on whether the database preserves the time zone information
(e.g. SQLDialect.ORACLE
) or not (e.g.
SQLDialect.POSTGRES
), the resulting value might be converted to
UTC. Regardless of this fact, the result should be the same
Instant
(in UTC) as the input.
@Support(value={H2,POSTGRES}) public static Field<java.time.OffsetDateTime> offsetDateTime(java.time.OffsetDateTime value)
TIMESTAMP WITH TIME ZONE
.
Depending on whether the database preserves the time zone information
(e.g. SQLDialect.ORACLE
) or not (e.g.
SQLDialect.POSTGRES
), the resulting value might be converted to
UTC. Regardless of this fact, the result should be the same
Instant
(in UTC) as the input.
@Support(value={H2,POSTGRES}) public static Field<java.time.OffsetDateTime> offsetDateTime(Field<java.time.OffsetDateTime> field)
TIMESTAMP WITH TIME ZONE
.
Depending on whether the database preserves the time zone information
(e.g. SQLDialect.ORACLE
) or not (e.g.
SQLDialect.POSTGRES
), the resulting value might be converted to
UTC. Regardless of this fact, the result should be the same
Instant
(in UTC) as the input.
@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.sql.Date> toDate(java.lang.String value, java.lang.String format)
DATE
.value
- The formatted DATE
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.sql.Date> toDate(java.lang.String value, Field<java.lang.String> format)
DATE
.value
- The formatted DATE
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.sql.Date> toDate(Field<java.lang.String> value, java.lang.String format)
DATE
.value
- The formatted DATE
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.sql.Date> toDate(Field<java.lang.String> value, Field<java.lang.String> format)
DATE
.value
- The formatted DATE
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.sql.Timestamp> toTimestamp(java.lang.String value, java.lang.String format)
TIMESTAMP
.value
- The formatted TIMESTAMP
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.sql.Timestamp> toTimestamp(java.lang.String value, Field<java.lang.String> format)
TIMESTAMP
.value
- The formatted TIMESTAMP
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.sql.Timestamp> toTimestamp(Field<java.lang.String> value, java.lang.String format)
TIMESTAMP
.value
- The formatted TIMESTAMP
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.sql.Timestamp> toTimestamp(Field<java.lang.String> value, Field<java.lang.String> format)
TIMESTAMP
.value
- The formatted TIMESTAMP
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.time.LocalDate> toLocalDate(java.lang.String value, java.lang.String format)
DATE
.value
- The formatted DATE
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.time.LocalDate> toLocalDate(java.lang.String value, Field<java.lang.String> format)
DATE
.value
- The formatted DATE
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.time.LocalDate> toLocalDate(Field<java.lang.String> value, java.lang.String format)
DATE
.value
- The formatted DATE
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.time.LocalDate> toLocalDate(Field<java.lang.String> value, Field<java.lang.String> format)
DATE
.value
- The formatted DATE
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.time.LocalDateTime> toLocalDateTime(java.lang.String value, java.lang.String format)
TIMESTAMP
.value
- The formatted TIMESTAMP
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.time.LocalDateTime> toLocalDateTime(java.lang.String value, Field<java.lang.String> format)
TIMESTAMP
.value
- The formatted TIMESTAMP
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.time.LocalDateTime> toLocalDateTime(Field<java.lang.String> value, java.lang.String format)
TIMESTAMP
.value
- The formatted TIMESTAMP
value.format
- The vendor-specific formatting string.@Support(value={DB2,H2,HSQLDB,ORACLE,POSTGRES,VERTICA}) public static Field<java.time.LocalDateTime> toLocalDateTime(Field<java.lang.String> value, Field<java.lang.String> format)
TIMESTAMP
.value
- The formatted TIMESTAMP
value.format
- The vendor-specific formatting string.@Support(value={CUBRID,DB2,HANA,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE,VERTICA}) public static GroupField rollup(Field<?>... fields)
rollup(FieldOrRow...)
@Support(value={CUBRID,DB2,HANA,MARIADB,MYSQL,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE,VERTICA}) public static GroupField rollup(FieldOrRow... fields)
This has been observed to work with the following databases:
Please check the SQL Server documentation for a very nice explanation of
CUBE
, ROLLUP
, and GROUPING SETS
clauses in grouping contexts: http://msdn.microsoft.com/en-US/library/bb522495.aspx
fields
- The fields that are part of the ROLLUP
functionGROUP BY
clause@Support(value={DB2,HANA,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static GroupField cube(Field<?>... fields)
cube(Field...)
@Support(value={DB2,HANA,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static GroupField cube(FieldOrRow... fields)
This has been observed to work with the following databases:
Please check the SQL Server documentation for a very nice explanation of
CUBE
, ROLLUP
, and GROUPING SETS
clauses in grouping contexts: http://msdn.microsoft.com/en-US/library/bb522495.aspx
fields
- The fields that are part of the CUBE
functionGROUP BY
clause@Support(value={DB2,HANA,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static GroupField groupingSets(Field<?>... fields)
This has been observed to work with the following databases:
Please check the SQL Server documentation for a very nice explanation of
CUBE
, ROLLUP
, and GROUPING SETS
clauses in grouping contexts: http://msdn.microsoft.com/en-US/library/bb522495.aspx
fields
- The fields that are part of the GROUPING SETS
functionGROUP BY
clause@Support(value={DB2,HANA,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static GroupField groupingSets(Field<?>[]... fieldSets)
This has been observed to work with the following databases:
Please check the SQL Server documentation for a very nice explanation of
CUBE
, ROLLUP
, and GROUPING SETS
clauses in grouping contexts: http://msdn.microsoft.com/en-US/library/bb522495.aspx
fieldSets
- The fields that are part of the GROUPING SETS
functionGROUP BY
clause@Support(value={DB2,HANA,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static GroupField groupingSets(java.util.Collection<? extends Field<?>>... fieldSets)
This has been observed to work with the following databases:
Please check the SQL Server documentation for a very nice explanation of
CUBE
, ROLLUP
, and GROUPING SETS
clauses in grouping contexts: http://msdn.microsoft.com/en-US/library/bb522495.aspx
fieldSets
- The fields that are part of the GROUPING SETS
functionGROUP BY
clause@Support(value=ORACLE) public static Field<java.lang.Integer> groupId()
GROUP_ID()
aggregation function to be used along
with CUBE
, ROLLUP
, and
GROUPING SETS
groupings.GROUPING
aggregation fieldcube(Field...)
,
rollup(Field...)
@Support(value={DB2,HANA,ORACLE,POSTGRES_9_5,SQLSERVER,SYBASE}) public static Field<java.lang.Integer> grouping(Field<?> field)
CUBE
, ROLLUP
, and GROUPING SETS
groupings.
This has been observed to work with the following databases:
field
- The function argumentGROUPING
aggregation fieldcube(Field...)
,
rollup(Field...)
@Support(value={HANA,ORACLE,SQLSERVER}) public static Field<java.lang.Integer> groupingId(Field<?>... fields)
CUBE
, ROLLUP
, and
GROUPING SETS
groupings.
This has been observed to work with the following databases:
fields
- The function argumentsGROUPING_ID
aggregation fieldcube(Field...)
,
rollup(Field...)
@Support(value={CUBRID,FIREBIRD,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SYBASE,SQLITE,VERTICA}) public static Field<java.lang.Integer> bitCount(java.lang.Number value)
BIT_COUNT(field)
function, counting the number of
bits that are set in this number.bitCount(Field)
@Support(value={CUBRID,FIREBIRD,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SYBASE,SQLITE,VERTICA}) public static Field<java.lang.Integer> bitCount(Field<? extends java.lang.Number> field)
BIT_COUNT(field)
function, counting the number of
bits that are set in this number.
This function is emulated in most other databases like this (for a
TINYINT field):
([field] & 1) +
([field] & 2) >> 1 +
([field] & 4) >> 2 +
([field] & 8) >> 3 +
([field] & 16) >> 4 +
...
([field] & 128) >> 7
More efficient algorithms are very welcome
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitNot(T value)
bitNot(Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitNot(Field<T> field)
Most dialects natively support this using ~[field]
. jOOQ
emulates this operator in some dialects using -[field] - 1
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitAnd(T value1, T value2)
bitAnd(Field, Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitAnd(T value1, Field<T> value2)
bitAnd(Field, Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitAnd(Field<T> value1, T value2)
bitAnd(Field, Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitAnd(Field<T> field1, Field<T> field2)
This is not supported by Derby, Ingres
This renders the and operation where available:
... or the and function elsewhere:
[field1] & [field2]
bitand([field1], [field2])
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitNand(T value1, T value2)
bitNand(Field, Field)
,
bitNot(Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitNand(T value1, Field<T> value2)
bitNand(Field, Field)
,
bitNot(Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitNand(Field<T> value1, T value2)
bitNand(Field, Field)
,
bitNot(Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitNand(Field<T> field1, Field<T> field2)
This is not supported by Derby, Ingres
This renders the not and operation where available:
... or the not and function elsewhere:
~([field1] & [field2])
bitnot(bitand([field1], [field2]))
bitNot(Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitOr(T value1, T value2)
bitOr(Field, Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitOr(T value1, Field<T> value2)
bitOr(Field, Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitOr(Field<T> value1, T value2)
bitOr(Field, Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitOr(Field<T> field1, Field<T> field2)
This is not supported by Derby, Ingres
This renders the or operation where available:
... or the or function elsewhere:
[field1] | [field2]
bitor([field1], [field2])
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitNor(T value1, T value2)
bitNor(Field, Field)
,
bitNot(Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitNor(T value1, Field<T> value2)
bitNor(Field, Field)
,
bitNot(Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitNor(Field<T> value1, T value2)
bitNor(Field, Field)
,
bitNot(Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitNor(Field<T> field1, Field<T> field2)
This is not supported by Derby, Ingres
This renders the not or operation where available:
... or the not or function elsewhere:
~([field1] | [field2])
bitnot(bitor([field1], [field2]))
bitNot(Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitXor(T value1, T value2)
bitXor(Field, Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitXor(T value1, Field<T> value2)
bitXor(Field, Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitXor(Field<T> value1, T value2)
bitXor(Field, Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitXor(Field<T> field1, Field<T> field2)
This is not supported by Derby, Ingres
This renders the or operation where available:
... or the xor function elsewhere:
[field1] ^ [field2]
bitxor([field1], [field2])
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitXNor(T value1, T value2)
bitXNor(Field, Field)
,
bitNot(Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitXNor(T value1, Field<T> value2)
bitXNor(Field, Field)
,
bitNot(Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitXNor(Field<T> value1, T value2)
bitXNor(Field, Field)
,
bitNot(Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> bitXNor(Field<T> field1, Field<T> field2)
This is not supported by Derby, Ingres
This renders the or operation where available:
... or the not xor function elsewhere:
~([field1] ^ [field2])
bitnot(bitxor([field1], [field2]))
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> shl(T value1, java.lang.Number value2)
shl(Field, Field)
,
power(Field, Number)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> shl(T value1, Field<? extends java.lang.Number> value2)
shl(Field, Field)
,
power(Field, Number)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> shl(Field<T> value1, java.lang.Number value2)
shl(Field, Field)
,
power(Field, Number)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> shl(Field<T> field1, Field<? extends java.lang.Number> field2)
Some dialects natively support this using [field1] << [field2]
.
jOOQ emulates this operator in some dialects using
[field1] * power(2, [field2])
, where power might also be emulated.
power(Field, Field)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> shr(T value1, java.lang.Number value2)
shr(Field, Field)
,
power(Field, Number)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> shr(T value1, Field<? extends java.lang.Number> value2)
shr(Field, Field)
,
power(Field, Number)
@Support(value={ASE,CUBRID,DB2,FIREBIRD,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> shr(Field<T> value1, java.lang.Number value2)
shr(Field, Field)
,
power(Field, Number)
@Support(value={ASE,CUBRID,DB2,H2,FIREBIRD,HSQLDB,INFORMIX,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,SQLITE,VERTICA}) public static <T extends java.lang.Number> Field<T> shr(Field<T> field1, Field<? extends java.lang.Number> field2)
Some dialects natively support this using [field1] >> [field2]
.
jOOQ emulates this operator in some dialects using
[field1] / power(2, [field2])
, where power might also be emulated.
power(Field, Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLITE,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> rand()
@Support public static <T> Field<T> greatest(T value, T... values)
This function has no equivalent in Adaptive Server, Derby, SQL Server and
Sybase SQL Anywhere. Its current simulation implementation has
O(2^n)
complexity and should be avoided for
n > 5
! Better implementation suggestions are very
welcome.
greatest(Field, Field...)
@Support public static <T> Field<T> greatest(Field<T> field, Field<?>... others)
This function has no equivalent in Adaptive Server, Derby, SQL Server and
Sybase SQL Anywhere. Its current simulation implementation has
O(2^n)
complexity and should be avoided for
n > 5
! Better implementation suggestions are very
welcome.
@Support public static <T> Field<T> least(T value, T... values)
This function has no equivalent in Adaptive Server, Derby, SQL Server and
Sybase SQL Anywhere. Its current simulation implementation has
O(2^n)
complexity and should be avoided for
n > 5
! Better implementation suggestions are very
welcome.
least(Field, Field...)
@Support public static <T> Field<T> least(Field<T> field, Field<?>... others)
This function has no equivalent in Adaptive Server, Derby, SQL Server and
Sybase SQL Anywhere. Its current simulation implementation has
O(2^n)
complexity and should be avoided for
n > 5
! Better implementation suggestions are very
welcome.
@Support public static Field<java.lang.Integer> sign(java.lang.Number value)
sign(Field)
@Support public static Field<java.lang.Integer> sign(Field<? extends java.lang.Number> field)
This renders the sign function where available:
... or emulates it elsewhere (without bind variables on values -1, 0, 1):
sign([field])
CASE WHEN [this] > 0 THEN 1
WHEN [this] < 0 THEN -1
ELSE 0
END
@Support public static <T extends java.lang.Number> Field<T> abs(T value)
abs(Field)
@Support public static <T extends java.lang.Number> Field<T> abs(Field<T> field)
This renders the same on all dialects:
abs([field])
@Support public static <T extends java.lang.Number> Field<T> round(T value)
round(Field)
@Support public static <T extends java.lang.Number> Field<T> round(Field<T> field)
This renders the round function where available:
... or emulates it elsewhere using floor and ceilround([field]) or
round([field], 0)
@Support public static <T extends java.lang.Number> Field<T> round(T value, int decimals)
round(Field, int)
@Support public static <T extends java.lang.Number> Field<T> round(Field<T> field, int decimals)
This renders the round function where available:
... or emulates it elsewhere using floor and ceilround([field], [decimals])
@Support public static <T extends java.lang.Number> Field<T> floor(T value)
floor(Field)
@Support public static <T extends java.lang.Number> Field<T> floor(Field<T> field)
This renders the floor function where available:
... or emulates it elsewhere using round:
floor([this])
round([this] - 0.499999999999999)
@Support public static <T extends java.lang.Number> Field<T> ceil(T value)
ceil(Field)
@Support public static <T extends java.lang.Number> Field<T> ceil(Field<T> field)
This renders the ceil or ceiling function where available:
... or emulates it elsewhere using round:
ceil([field]) or
ceiling([field])
round([field] + 0.499999999999999)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static <T extends java.lang.Number> Field<T> trunc(T number)
trunc(Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static <T extends java.lang.Number> Field<T> trunc(T number, int decimals)
trunc(Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static <T extends java.lang.Number> Field<T> trunc(Field<T> number, int decimals)
trunc(Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE,VERTICA}) public static <T extends java.lang.Number> Field<T> trunc(T number, Field<java.lang.Integer> decimals)
trunc(Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLSERVER,SYBASE}) public static <T extends java.lang.Number> Field<T> trunc(Field<T> number, Field<java.lang.Integer> decimals)
This function truncates number
to the amount of decimals
specified in decimals
. Passing decimals = 0
to
this function is the same as using floor(Field)
. Passing
positive values for decimal
has a similar effect as
round(Field, int)
. Passing negative values for
decimal
will truncate number
to a given power
of 10. Some examples
Function call | yields... |
---|---|
trunc(125.815) | 125 |
trunc(125.815, 0) | 125 |
trunc(125.815, 1) | 125.8 |
trunc(125.815, 2) | 125.81 |
trunc(125.815, -1) | 120 |
trunc(125.815, -2) | 100 |
trunc(Field, Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> sqrt(java.lang.Number value)
sqrt(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> sqrt(Field<? extends java.lang.Number> field)
This renders the sqrt function where available:
... or emulates it elsewhere using
power (which in turn may also be emulated using ln and exp functions):
sqrt([field])
power([field], 0.5)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> exp(java.lang.Number value)
exp(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> exp(Field<? extends java.lang.Number> field)
This renders the same on all dialects:
exp([field])
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> ln(java.lang.Number value)
ln(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> ln(Field<? extends java.lang.Number> field)
This renders the ln or log function where available:
ln([field]) or
log([field])
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> log(java.lang.Number value, int base)
log(Field, int)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> log(Field<? extends java.lang.Number> field, int base)
This renders the log function where available:
... or emulates it elsewhere (in
most RDBMS) using the natural logarithm:
log([field])
ln([field]) / ln([base])
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> power(java.lang.Number value, java.lang.Number exponent)
power(Field, Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> power(Field<? extends java.lang.Number> field, java.lang.Number exponent)
power(Field, Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> power(java.lang.Number value, Field<? extends java.lang.Number> exponent)
power(Field, Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> power(Field<? extends java.lang.Number> field, Field<? extends java.lang.Number> exponent)
This renders the power function where available:
... or emulates it
elsewhere using ln and exp:
power([field], [exponent])
exp(ln([field]) * [exponent])
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> acos(java.lang.Number value)
acos(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> acos(Field<? extends java.lang.Number> field)
This renders the acos function where available:
acos([field])
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> asin(java.lang.Number value)
asin(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> asin(Field<? extends java.lang.Number> field)
This renders the asin function where available:
asin([field])
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> atan(java.lang.Number value)
atan(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> atan(Field<? extends java.lang.Number> field)
This renders the atan function where available:
atan([field])
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> atan2(java.lang.Number x, java.lang.Number y)
atan2(Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> atan2(java.lang.Number x, Field<? extends java.lang.Number> y)
atan2(Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> atan2(Field<? extends java.lang.Number> x, java.lang.Number y)
atan2(Field, Field)
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> atan2(Field<? extends java.lang.Number> x, Field<? extends java.lang.Number> y)
This renders the atan2 or atn2 function where available:
atan2([x], [y]) or
atn2([x], [y])
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> cos(java.lang.Number value)
cos(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> cos(Field<? extends java.lang.Number> field)
This renders the cos function where available:
cos([field])
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> sin(java.lang.Number value)
sin(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> sin(Field<? extends java.lang.Number> field)
This renders the sin function where available:
sin([field])
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> tan(java.lang.Number value)
tan(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> tan(Field<? extends java.lang.Number> field)
This renders the tan function where available:
tan([field])
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> cot(java.lang.Number value)
cot(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> cot(Field<? extends java.lang.Number> field)
This renders the cot function where available:
... or emulates it elsewhere using
sin and cos: cot([field])
cos([field]) / sin([field])
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> sinh(java.lang.Number value)
sinh(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> sinh(Field<? extends java.lang.Number> field)
This renders the sinh function where available:
... or emulates it elsewhere using
exp: sinh([field])
(exp([field] * 2) - 1) / (exp([field] * 2))
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> cosh(java.lang.Number value)
cosh(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> cosh(Field<? extends java.lang.Number> field)
This renders the cosh function where available:
... or emulates it elsewhere using
exp: cosh([field])
(exp([field] * 2) + 1) / (exp([field] * 2))
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> tanh(java.lang.Number value)
tanh(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> tanh(Field<? extends java.lang.Number> field)
This renders the tanh function where available:
... or emulates it elsewhere using
exp:
tanh([field])
(exp([field] * 2) - 1) / (exp([field] * 2) + 1)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> coth(java.lang.Number value)
coth(Field)
@Support(value={ACCESS,ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static Field<java.math.BigDecimal> coth(Field<? extends java.lang.Number> field)
This is not supported by any RDBMS, but emulated using exp exp:
(exp([field] * 2) + 1) / (exp([field] * 2) - 1)
@Support public static Field<java.math.BigDecimal> deg(java.lang.Number value)
deg(Field)
@Support public static Field<java.math.BigDecimal> deg(Field<? extends java.lang.Number> field)
This renders the degrees function where available:
... or emulates it elsewhere:
degrees([field])
[field] * 180 / PI
@Support public static Field<java.math.BigDecimal> rad(java.lang.Number value)
rad(Field)
@Support public static Field<java.math.BigDecimal> rad(Field<? extends java.lang.Number> field)
This renders the degrees function where available:
... or emulates it elsewhere:
degrees([field])
[field] * PI / 180
@Support(value={CUBRID,INFORMIX,ORACLE}) public static Field<java.lang.Integer> level()
LEVEL
pseudo-field (to be used
along with CONNECT BY
clauses).@Support(value={CUBRID,INFORMIX,ORACLE}) public static Field<java.lang.Boolean> connectByIsCycle()
CONNECT_BY_ISCYCLE
pseudo-field
(to be used along with CONNECT BY
clauses).@Support(value={CUBRID,INFORMIX,ORACLE}) public static Field<java.lang.Boolean> connectByIsLeaf()
CONNECT_BY_ISLEAF
pseudo-field
(to be used along with CONNECT BY
clauses).@Support(value={CUBRID,INFORMIX,ORACLE}) public static <T> Field<T> connectByRoot(Field<T> field)
CONNECT_BY_ROOT
pseudo-column
(to be used along with CONNECT BY
clauses).@Support(value={CUBRID,INFORMIX,ORACLE}) public static Field<java.lang.String> sysConnectByPath(Field<?> field, java.lang.String separator)
SYS_CONNECT_BY_PATH(field, separator)
function (to be used
along with CONNECT BY
clauses).@Support(value={CUBRID,INFORMIX,ORACLE}) public static <T> Field<T> prior(Field<T> field)
PRIOR
unary operator before a field
(to be used along with CONNECT BY
clauses).@Support(value={CUBRID,ORACLE}) public static Field<java.lang.Integer> rownum()
ROWNUM
pseudo-field.@Support public static AggregateFunction<java.lang.Integer> count()
@Support public static AggregateFunction<java.lang.Integer> count(Field<?> field)
@Support public static AggregateFunction<java.lang.Integer> count(Table<?> table)
If this is not supported by a given database (i.e. non
SQLDialect.POSTGRES
, then the primary key is used with
count(Field)
, instead.
@Support(value={ASE,CUBRID,DB2,DERBY,H2,HANA,HSQLDB,FIREBIRD,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static AggregateFunction<java.lang.Integer> countDistinct(Field<?> field)
@Support(value={ASE,CUBRID,DB2,DERBY,H2,HANA,HSQLDB,FIREBIRD,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static AggregateFunction<java.lang.Integer> countDistinct(Table<?> table)
If this is not supported by a given database (i.e. non
SQLDialect.POSTGRES
, then the primary key is used with
count(Field)
, instead.
@Support(value={HSQLDB,MYSQL,POSTGRES}) public static AggregateFunction<java.lang.Integer> countDistinct(Field<?>... fields)
Some dialects support several expressions in the
COUNT(DISTINCT expr1, expr2)
aggregate function.
SQLDialect.POSTGRES
supports this as
COUNT(DISTINCT(expr1, expr2))
.
@Support public static AggregateFunction<java.lang.Boolean> every(Field<java.lang.Boolean> field)
This is a synonym for boolAnd(Field)
.
@Support public static AggregateFunction<java.lang.Boolean> every(Condition condition)
This is a synonym for boolAnd(Condition)
.
@Support public static AggregateFunction<java.lang.Boolean> boolAnd(Field<java.lang.Boolean> field)
@Support public static AggregateFunction<java.lang.Boolean> boolAnd(Condition condition)
@Support public static AggregateFunction<java.lang.Boolean> boolOr(Field<java.lang.Boolean> field)
@Support public static AggregateFunction<java.lang.Boolean> boolOr(Condition condition)
@Support(value={HSQLDB,POSTGRES}) public static <T> ArrayAggOrderByStep<T[]> arrayAgg(Field<T> field)
array_agg()
aggregate function.@Support(value={HSQLDB,POSTGRES}) public static <T> ArrayAggOrderByStep<T[]> arrayAggDistinct(Field<T> field)
array_agg()
aggregate function.@Support(value=ORACLE) public static <T,A extends ArrayRecord<T>> ArrayAggOrderByStep<A> collect(Field<T> field, java.lang.Class<A> type)
collect()
aggregate function.
In Oracle, a standalone collect()
expression generates an
anonymous collection type, which can be used by clients only if cast
explicitly to a user-defined collection type. The latter can be supplied
here for convenience as the second argument.
@Support(value=ORACLE) public static <T,A extends ArrayRecord<T>> ArrayAggOrderByStep<A> collect(Field<T> field, DataType<A> type)
collect()
aggregate function.
In Oracle, a standalone collect()
expression generates an
anonymous collection type, which can be used by clients only if cast
explicitly to a user-defined collection type. The latter can be supplied
here for convenience as the second argument.
@Support(value=ORACLE) public static <T,A extends ArrayRecord<T>> ArrayAggOrderByStep<A> collectDistinct(Field<T> field, java.lang.Class<A> type)
collect()
aggregate function.
In Oracle, a standalone collect()
expression generates an
anonymous collection type, which can be used by clients only if cast
explicitly to a user-defined collection type. The latter can be supplied
here for convenience as the second argument.
@Support(value=ORACLE) public static <T,A extends ArrayRecord<T>> ArrayAggOrderByStep<A> collectDistinct(Field<T> field, DataType<A> type)
collect()
aggregate function.
In Oracle, a standalone collect()
expression generates an
anonymous collection type, which can be used by clients only if cast
explicitly to a user-defined collection type. The latter can be supplied
here for convenience as the second argument.
@Support(value={H2,HSQLDB,POSTGRES}) public static <T> Field<T[]> array(T... values)
This translates to the following databases and syntaxes:
SQLDialect |
Java | SQL |
---|---|---|
SQLDialect.H2 |
array(1, 2) | (1, 2) |
SQLDialect.HSQLDB , SQLDialect.POSTGRES |
array(1, 2) | array[1, 2] |
@SafeVarargs @Support(value={H2,HSQLDB,POSTGRES}) public static <T> Field<T[]> array(Field<T>... fields)
This translates to the following databases and syntaxes:
SQLDialect |
Java | SQL |
---|---|---|
SQLDialect.H2 |
array(1, 2) | (1, 2) |
SQLDialect.HSQLDB , SQLDialect.POSTGRES |
array(1, 2) | array[1, 2] |
@Support(value={H2,HSQLDB,POSTGRES}) public static <T> Field<T[]> array(java.util.Collection<? extends Field<T>> fields)
This translates to the following databases and syntaxes:
SQLDialect |
Java | SQL |
---|---|---|
SQLDialect.H2 |
array(1, 2) | (1, 2) |
SQLDialect.HSQLDB , SQLDialect.POSTGRES |
array(1, 2) | array[1, 2] |
@Support public static <T> AggregateFunction<T> max(Field<T> field)
@Support public static <T> AggregateFunction<T> maxDistinct(Field<T> field)
@Support public static <T> AggregateFunction<T> min(Field<T> field)
@Support public static <T> AggregateFunction<T> minDistinct(Field<T> field)
@Support public static AggregateFunction<java.math.BigDecimal> sum(Field<? extends java.lang.Number> field)
@Support public static AggregateFunction<java.math.BigDecimal> sumDistinct(Field<? extends java.lang.Number> field)
@Support public static AggregateFunction<java.math.BigDecimal> avg(Field<? extends java.lang.Number> field)
@Support public static AggregateFunction<java.math.BigDecimal> avgDistinct(Field<? extends java.lang.Number> field)
@Support(value={CUBRID,HSQLDB,ORACLE,POSTGRES_9_4,SYBASE}) public static AggregateFunction<java.math.BigDecimal> median(Field<? extends java.lang.Number> field)
@Support(value={ASE,CUBRID,DB2,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static AggregateFunction<java.math.BigDecimal> stddevPop(Field<? extends java.lang.Number> field)
@Support(value={ASE,CUBRID,DB2,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static AggregateFunction<java.math.BigDecimal> stddevSamp(Field<? extends java.lang.Number> field)
@Support(value={ASE,CUBRID,DB2,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static AggregateFunction<java.math.BigDecimal> varPop(Field<? extends java.lang.Number> field)
@Support(value={ASE,CUBRID,DB2,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static AggregateFunction<java.math.BigDecimal> varSamp(Field<? extends java.lang.Number> field)
@Support(value={DB2,POSTGRES,ORACLE,SYBASE,VERTICA}) public static AggregateFunction<java.math.BigDecimal> regrSlope(Field<? extends java.lang.Number> y, Field<? extends java.lang.Number> x)
REGR_SLOPE
linear regression function.
The linear regression functions fit an ordinary-least-squares regression line to a set of number pairs. You can use them as both aggregate and window functions, where this is supported.
Note that SQLDialect.DB2
does not support linear regression
window functions.
@Support(value={DB2,POSTGRES,ORACLE,SYBASE,VERTICA}) public static AggregateFunction<java.math.BigDecimal> regrIntercept(Field<? extends java.lang.Number> y, Field<? extends java.lang.Number> x)
REGR_INTERCEPT
linear regression function.
The linear regression functions fit an ordinary-least-squares regression line to a set of number pairs. You can use them as both aggregate and window functions, where this is supported.
Note that SQLDialect.DB2
does not support linear regression
window functions.
@Support(value={DB2,POSTGRES,ORACLE,SYBASE,VERTICA}) public static AggregateFunction<java.math.BigDecimal> regrCount(Field<? extends java.lang.Number> y, Field<? extends java.lang.Number> x)
REGR_COUNT
linear regression function.
The linear regression functions fit an ordinary-least-squares regression line to a set of number pairs. You can use them as both aggregate and window functions, where this is supported.
Note that SQLDialect.DB2
does not support linear regression
window functions.
@Support(value={DB2,POSTGRES,ORACLE,SYBASE,VERTICA}) public static AggregateFunction<java.math.BigDecimal> regrR2(Field<? extends java.lang.Number> y, Field<? extends java.lang.Number> x)
REGR_R2
linear regression function.
The linear regression functions fit an ordinary-least-squares regression line to a set of number pairs. You can use them as both aggregate and window functions, where this is supported.
Note that SQLDialect.DB2
does not support linear regression
window functions.
@Support(value={DB2,POSTGRES,ORACLE,SYBASE,VERTICA}) public static AggregateFunction<java.math.BigDecimal> regrAvgX(Field<? extends java.lang.Number> y, Field<? extends java.lang.Number> x)
REGR_AVGX
linear regression function.
The linear regression functions fit an ordinary-least-squares regression line to a set of number pairs. You can use them as both aggregate and window functions, where this is supported.
Note that SQLDialect.DB2
does not support linear regression
window functions.
@Support(value={DB2,POSTGRES,ORACLE,SYBASE,VERTICA}) public static AggregateFunction<java.math.BigDecimal> regrAvgY(Field<? extends java.lang.Number> y, Field<? extends java.lang.Number> x)
REGR_AVGY
linear regression function.
The linear regression functions fit an ordinary-least-squares regression line to a set of number pairs. You can use them as both aggregate and window functions, where this is supported.
Note that SQLDialect.DB2
does not support linear regression
window functions.
@Support(value={DB2,POSTGRES,ORACLE,SYBASE,VERTICA}) public static AggregateFunction<java.math.BigDecimal> regrSXX(Field<? extends java.lang.Number> y, Field<? extends java.lang.Number> x)
REGR_SXX
linear regression function.
The linear regression functions fit an ordinary-least-squares regression line to a set of number pairs. You can use them as both aggregate and window functions, where this is supported.
Note that SQLDialect.DB2
does not support linear regression
window functions.
@Support(value={DB2,POSTGRES,ORACLE,SYBASE,VERTICA}) public static AggregateFunction<java.math.BigDecimal> regrSYY(Field<? extends java.lang.Number> y, Field<? extends java.lang.Number> x)
REGR_SYY
linear regression function.
The linear regression functions fit an ordinary-least-squares regression line to a set of number pairs. You can use them as both aggregate and window functions, where this is supported.
Note that SQLDialect.DB2
does not support linear regression
window functions.
@Support(value={DB2,POSTGRES,ORACLE,SYBASE,VERTICA}) public static AggregateFunction<java.math.BigDecimal> regrSXY(Field<? extends java.lang.Number> y, Field<? extends java.lang.Number> x)
REGR_SXY
linear regression function.
The linear regression functions fit an ordinary-least-squares regression line to a set of number pairs. You can use them as both aggregate and window functions, where this is supported.
Note that SQLDialect.DB2
does not support linear regression
window functions.
@Support(value={CUBRID,DB2,H2,HSQLDB,MARIADB,MYSQL,ORACLE11G,ORACLE12C,POSTGRES,SYBASE}) public static OrderedAggregateFunction<java.lang.String> listAgg(Field<?> field)
This is natively supported by SQLDialect.ORACLE11G
upwards. It is
emulated by the following dialects:
SQLDialect.CUBRID
: Using GROUP_CONCAT()
SQLDialect.DB2
: Using XMLAGG()
SQLDialect.H2
: Using GROUP_CONCAT()
SQLDialect.HSQLDB
: Using GROUP_CONCAT()
SQLDialect.MYSQL
: Using GROUP_CONCAT()
SQLDialect.POSTGRES
: Using STRING_AGG()
SQLDialect.SYBASE
: Using LIST()
groupConcat(Field)
@Support(value={CUBRID,DB2,H2,HSQLDB,MARIADB,MYSQL,ORACLE11G,ORACLE12C,POSTGRES,SYBASE}) public static OrderedAggregateFunction<java.lang.String> listAgg(Field<?> field, java.lang.String separator)
This is natively supported by SQLDialect.ORACLE11G
upwards. It is
emulated by the following dialects:
SQLDialect.CUBRID
: Using GROUP_CONCAT
SQLDialect.DB2
: Using XMLAGG()
SQLDialect.H2
: Using GROUP_CONCAT
SQLDialect.HSQLDB
: Using GROUP_CONCAT
SQLDialect.MYSQL
: Using GROUP_CONCAT
SQLDialect.POSTGRES
: Using STRING_AGG()
SQLDialect.SYBASE
: Using LIST()
groupConcat(Field)
@Support(value={CUBRID,DB2,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SYBASE,SQLITE}) public static GroupConcatOrderByStep groupConcat(Field<?> field)
This is natively supported by
SQLDialect.CUBRID
SQLDialect.H2
SQLDialect.HSQLDB
SQLDialect.MYSQL
SQLDialect.SQLITE
(but without ORDER BY
)It is emulated by the following dialects:
SQLDialect.DB2
: Using XMLAGG()
SQLDialect.ORACLE
: Using LISTAGG()
SQLDialect.POSTGRES
: Using STRING_AGG()
SQLDialect.SYBASE
: Using LIST()
listAgg(Field)
@Support(value={CUBRID,DB2,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SYBASE,SQLITE}) public static AggregateFunction<java.lang.String> groupConcat(Field<?> field, java.lang.String separator)
This is natively supported by
It is emulated by the following dialects:
SQLDialect.DB2
: Using XMLAGG()
SQLDialect.ORACLE
: Using LISTAGG()
SQLDialect.POSTGRES
: Using STRING_AGG()
SQLDialect.SYBASE
: Using LIST()
listAgg(Field)
@Support(value={CUBRID,H2,HSQLDB,MARIADB,MYSQL,POSTGRES,SYBASE}) public static GroupConcatOrderByStep groupConcatDistinct(Field<?> field)
This is natively supported by
It is emulated by the following dialects:
SQLDialect.SYBASE
: Using LIST()
SQLDialect.POSTGRES
: Using STRING_AGG()
listAgg(Field)
@Support(value=POSTGRES_9_4) public static OrderedAggregateFunctionOfDeferredType mode()
mode() within group (oder by [order clause])
ordered
aggregate function.@Support(value={ORACLE,POSTGRES_9_4}) public static OrderedAggregateFunction<java.lang.Integer> rank(Field<?>... fields)
rank(expr) within group (order by [order clause])
ordered-set aggregate function.@Support(value={ORACLE,POSTGRES_9_4}) public static OrderedAggregateFunction<java.lang.Integer> rank(java.util.Collection<? extends Field<?>> fields)
rank(expr) within group (order by [order clause])
ordered-set aggregate function.@Support(value={ORACLE,POSTGRES_9_4}) public static OrderedAggregateFunction<java.lang.Integer> denseRank(Field<?>... fields)
dense_rank(expr) within group (order by [order clause])
ordered-set aggregate function.@Support(value={ORACLE,POSTGRES_9_4}) public static OrderedAggregateFunction<java.lang.Integer> denseRank(java.util.Collection<? extends Field<?>> fields)
dense_rank(expr) within group (order by [order clause])
ordered-set aggregate function.@Support(value={ORACLE,POSTGRES_9_4}) public static OrderedAggregateFunction<java.lang.Integer> percentRank(Field<?>... fields)
percent_rank(expr) within group (order by [order clause])
ordered-set aggregate function.@Support(value={ORACLE,POSTGRES_9_4}) public static OrderedAggregateFunction<java.lang.Integer> percentRank(java.util.Collection<? extends Field<?>> fields)
percent_rank(expr) within group (order by [order clause])
ordered-set aggregate function.@Support(value={ORACLE,POSTGRES_9_4}) public static OrderedAggregateFunction<java.math.BigDecimal> cumeDist(Field<?>... fields)
cume_dist(expr) within group (order by [order clause])
ordered-set aggregate function.@Support(value={ORACLE,POSTGRES_9_4}) public static OrderedAggregateFunction<java.math.BigDecimal> cumeDist(java.util.Collection<? extends Field<?>> fields)
cume_dist(expr) within group (order by [order clause])
ordered-set aggregate function.@Support(value={ORACLE,POSTGRES_9_4,SQLSERVER2012,REDSHIFT}) public static OrderedAggregateFunction<java.math.BigDecimal> percentileCont(java.lang.Number number)
percentile_cont([number]) within group (order by [column])
function.
While SQLDialect.ORACLE
and SQLDialect.POSTGRES
support
this as an aggregate function, SQLDialect.SQLSERVER
and
SQLDialect.REDSHIFT
support only its window function variant.
@Support(value={ORACLE,POSTGRES_9_4,SQLSERVER2012,REDSHIFT}) public static OrderedAggregateFunction<java.math.BigDecimal> percentileCont(Field<? extends java.lang.Number> field)
percentile_cont([number]) within group (order by [column])
function.
While SQLDialect.ORACLE
and SQLDialect.POSTGRES
support
this as an aggregate function, SQLDialect.SQLSERVER
and
SQLDialect.REDSHIFT
support only its window function variant.
@Support(value={ORACLE,POSTGRES_9_4,SQLSERVER2012,REDSHIFT}) public static OrderedAggregateFunction<java.math.BigDecimal> percentileDisc(java.lang.Number number)
percentile_disc([number]) within group (order by [column])
function.
While SQLDialect.ORACLE
and SQLDialect.POSTGRES
support
this as an aggregate function, SQLDialect.SQLSERVER
and
SQLDialect.REDSHIFT
support only its window function variant.
@Support(value={ORACLE,POSTGRES_9_4,SQLSERVER2012,REDSHIFT}) public static OrderedAggregateFunction<java.math.BigDecimal> percentileDisc(Field<? extends java.lang.Number> field)
percentile_disc([number]) within group (order by [column])
function.
While SQLDialect.ORACLE
and SQLDialect.POSTGRES
support
this as an aggregate function, SQLDialect.SQLSERVER
and
SQLDialect.REDSHIFT
support only its window function variant.
@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static WindowSpecificationOrderByStep partitionBy(Field<?>... fields)
WindowSpecification
with a PARTITION BY
clause.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static WindowSpecificationOrderByStep partitionBy(java.util.Collection<? extends Field<?>> fields)
WindowSpecification
with a PARTITION BY
clause.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static WindowSpecificationRowsStep orderBy(Field<?>... fields)
WindowSpecification
with an ORDER BY
clause.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static WindowSpecificationRowsStep orderBy(OrderField<?>... fields)
WindowSpecification
with an ORDER BY
clause.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static WindowSpecificationRowsStep orderBy(java.util.Collection<? extends OrderField<?>> fields)
WindowSpecification
with an ORDER BY
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationFinalStep rowsUnboundedPreceding()
WindowSpecification
with a ROWS
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationFinalStep rowsPreceding(int number)
WindowSpecification
with a ROWS
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationFinalStep rowsCurrentRow()
WindowSpecification
with a ROWS
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationFinalStep rowsUnboundedFollowing()
WindowSpecification
with a ROWS
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationFinalStep rowsFollowing(int number)
WindowSpecification
with a ROWS
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationRowsAndStep rowsBetweenUnboundedPreceding()
WindowSpecification
with a ROWS
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationRowsAndStep rowsBetweenPreceding(int number)
WindowSpecification
with a ROWS
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationRowsAndStep rowsBetweenCurrentRow()
WindowSpecification
with a ROWS
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationRowsAndStep rowsBetweenUnboundedFollowing()
WindowSpecification
with a ROWS
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationRowsAndStep rowsBetweenFollowing(int number)
WindowSpecification
with a ROWS
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationFinalStep rangeUnboundedPreceding()
WindowSpecification
with a RANGE
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationFinalStep rangePreceding(int number)
WindowSpecification
with a RANGE
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationFinalStep rangeCurrentRow()
WindowSpecification
with a RANGE
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationFinalStep rangeUnboundedFollowing()
WindowSpecification
with a RANGE
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationFinalStep rangeFollowing(int number)
WindowSpecification
with a RANGE
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationRowsAndStep rangeBetweenUnboundedPreceding()
WindowSpecification
with a RANGE
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationRowsAndStep rangeBetweenPreceding(int number)
WindowSpecification
with a RANGE
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationRowsAndStep rangeBetweenCurrentRow()
WindowSpecification
with a RANGE
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationRowsAndStep rangeBetweenUnboundedFollowing()
WindowSpecification
with a RANGE
clause.@Support(value={DB2,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,SQLSERVER2012,SYBASE,VERTICA}) public static WindowSpecificationRowsAndStep rangeBetweenFollowing(int number)
WindowSpecification
with a RANGE
clause.@Support(value={CUBRID,DB2,DERBY,FIREBIRD_3_0,H2,HANA,HSQLDB,INFORMIX,MYSQL_8_0,ORACLE,POSTGRES,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static WindowOverStep<java.lang.Integer> rowNumber()
row_number() over ([analytic clause])
function.
Newer versions of SQLDialect.DERBY
and SQLDialect.H2
also
support the ROW_NUMBER() OVER()
window function without any
window clause. See the respective docs for details.
SQLDialect.HSQLDB
can emulate this function using
ROWNUM()
@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static WindowOverStep<java.lang.Integer> rank()
rank() over ([analytic clause])
function.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static WindowOverStep<java.lang.Integer> denseRank()
dense_rank() over ([analytic clause])
function.@Support(value={CUBRID,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER2012,SYBASE,VERTICA}) public static WindowOverStep<java.math.BigDecimal> percentRank()
precent_rank() over ([analytic clause])
function.@Support(value={CUBRID,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER,SYBASE,VERTICA}) public static WindowOverStep<java.math.BigDecimal> cumeDist()
cume_dist() over ([analytic clause])
function.@Support(value={CUBRID,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER,VERTICA}) public static WindowOverStep<java.lang.Integer> ntile(int number)
ntile([number]) over ([analytic clause])
function.@Support(value={CUBRID,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER,VERTICA}) public static WindowOverStep<java.math.BigDecimal> ratioToReport(java.lang.Number number)
ratio_to_report([expression]) over ([analytic clause])
function.@Support(value={CUBRID,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER,VERTICA}) public static WindowOverStep<java.math.BigDecimal> ratioToReport(Field<? extends java.lang.Number> field)
ratio_to_report([expression]) over ([analytic clause])
function.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER2012,SYBASE}) public static <T> WindowIgnoreNullsStep<T> firstValue(Field<T> field)
first_value(field) over ([analytic clause])
function.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,ORACLE,REDSHIFT,SQLSERVER2012,SYBASE}) public static <T> WindowIgnoreNullsStep<T> lastValue(Field<T> field)
last_value(field) over ([analytic clause])
function.@Support(value={FIREBIRD_3_0,MYSQL_8_0,POSTGRES,ORACLE}) public static <T> WindowIgnoreNullsStep<T> nthValue(Field<T> field, int nth)
nth_value(field) over ([analytic clause])
function.@Support(value={FIREBIRD_3_0,MYSQL_8_0,POSTGRES,ORACLE}) public static <T> WindowIgnoreNullsStep<T> nthValue(Field<T> field, Field<java.lang.Integer> nth)
nth_value(field) over ([analytic clause])
function.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,REDSHIFT,SQLSERVER2012,ORACLE,VERTICA}) public static <T> WindowIgnoreNullsStep<T> lead(Field<T> field)
lead(field) over ([analytic clause])
function.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,REDSHIFT,SQLSERVER2012,ORACLE,VERTICA}) public static <T> WindowIgnoreNullsStep<T> lead(Field<T> field, int offset)
lead(field, offset) over ([analytic clause])
function.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,REDSHIFT,SQLSERVER2012,ORACLE,VERTICA}) public static <T> WindowIgnoreNullsStep<T> lead(Field<T> field, int offset, T defaultValue)
lead(field, offset, defaultValue) over ([analytic clause])
function.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,REDSHIFT,SQLSERVER2012,ORACLE,VERTICA}) public static <T> WindowIgnoreNullsStep<T> lead(Field<T> field, int offset, Field<T> defaultValue)
lead(field, offset, defaultValue) over ([analytic clause])
function.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,REDSHIFT,SQLSERVER2012,ORACLE,VERTICA}) public static <T> WindowIgnoreNullsStep<T> lag(Field<T> field)
lag(field) over ([analytic clause])
function.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,REDSHIFT,SQLSERVER2012,ORACLE,VERTICA}) public static <T> WindowIgnoreNullsStep<T> lag(Field<T> field, int offset)
lag(field, offset) over ([analytic clause])
function.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,REDSHIFT,SQLSERVER2012,ORACLE,VERTICA}) public static <T> WindowIgnoreNullsStep<T> lag(Field<T> field, int offset, T defaultValue)
lag(field, offset, defaultValue) over ([analytic clause])
function.@Support(value={CUBRID,DB2,FIREBIRD_3_0,HANA,INFORMIX,MYSQL_8_0,POSTGRES,REDSHIFT,SQLSERVER2012,ORACLE,VERTICA}) public static <T> WindowIgnoreNullsStep<T> lag(Field<T> field, int offset, Field<T> defaultValue)
lag(field, offset, defaultValue) over ([analytic clause])
function.@Support public static <T> Param<java.lang.Object> param()
Object
/
SQLDataType.OTHER
) and no initial value.
Try to avoid this method when using any of these databases, as these
databases may have trouble inferring the type of the bind value. Use
typed named parameters instead, using param(Class)
or
param(DataType)
param(String, Object)
@Support public static <T> Param<T> param(java.lang.Class<T> type)
param(String, Object)
@Support public static <T> Param<T> param(DataType<T> type)
param(String, Object)
@Support public static <T> Param<T> param(Field<T> field)
param(String, Object)
@Support public static Param<java.lang.Object> param(java.lang.String name)
Object
/
SQLDataType.OTHER
) and no initial value.
Try to avoid this method when using any of these databases, as these
databases may have trouble inferring the type of the bind value. Use
typed named parameters instead, using param(String, Class)
or
param(String, DataType)
param(String, Object)
@Support public static <T> Param<T> param(java.lang.String name, java.lang.Class<T> type)
param(String, Object)
@Support public static <T> Param<T> param(java.lang.String name, DataType<T> type)
param(String, Object)
@Support public static <T> Param<T> param(java.lang.String name, Field<T> type)
param(String, Object)
@Support public static <T> Param<T> param(java.lang.String name, T value)
Named parameters are useful for several use-cases:
JdbcTemplate
, which
supports named parameters. Use
DSLContext.renderNamedParams(QueryPart)
to render
parameter names in SQLQuery.getParam(String)
and Query.getParams()
.@Support public static <T> Param<T> value(T value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Byte> value(byte value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Byte> value(java.lang.Byte value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<UByte> value(UByte value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Short> value(short value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Short> value(java.lang.Short value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<UShort> value(UShort value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Integer> value(int value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Integer> value(java.lang.Integer value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<UInteger> value(UInteger value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Long> value(long value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Long> value(java.lang.Long value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<ULong> value(ULong value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Float> value(float value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Float> value(java.lang.Float value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Double> value(double value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Double> value(java.lang.Double value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Boolean> value(boolean value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.Boolean> value(java.lang.Boolean value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.math.BigDecimal> value(java.math.BigDecimal value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.math.BigInteger> value(java.math.BigInteger value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<byte[]> value(byte[] value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.lang.String> value(java.lang.String value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.sql.Date> value(java.sql.Date value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.sql.Time> value(java.sql.Time value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.sql.Timestamp> value(java.sql.Timestamp value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.time.LocalDate> value(java.time.LocalDate value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.time.LocalTime> value(java.time.LocalTime value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.time.LocalDateTime> value(java.time.LocalDateTime value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.time.OffsetTime> value(java.time.OffsetTime value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.time.OffsetDateTime> value(java.time.OffsetDateTime value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
public static Param<java.util.UUID> value(java.util.UUID value)
val(Object)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object)
@Support public static <T> Param<T> value(java.lang.Object value, java.lang.Class<T> type)
val(Object, Class)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object, Class)
@Support public static <T> Param<T> value(java.lang.Object value, Field<T> field)
val(Object, Field)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object, Field)
@Support public static <T> Param<T> value(java.lang.Object value, DataType<T> type)
val(Object, DataType)
to be used in Scala and Groovy, where
val
is a reserved keyword.val(Object, DataType)
@Support public static <T> Param<T> inline(T value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
val(Object)
public static Param<java.lang.Byte> inline(byte value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.Byte> inline(java.lang.Byte value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<UByte> inline(UByte value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.Short> inline(short value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.Short> inline(java.lang.Short value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<UShort> inline(UShort value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.Integer> inline(int value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.Integer> inline(java.lang.Integer value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<UInteger> inline(UInteger value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.Long> inline(long value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.Long> inline(java.lang.Long value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<ULong> inline(ULong value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.Float> inline(float value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.Float> inline(java.lang.Float value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.Double> inline(double value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.Double> inline(java.lang.Double value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.Boolean> inline(boolean value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.Boolean> inline(java.lang.Boolean value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.math.BigDecimal> inline(java.math.BigDecimal value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.math.BigInteger> inline(java.math.BigInteger value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<byte[]> inline(byte[] value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.lang.String> inline(java.lang.String value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.sql.Date> inline(java.sql.Date value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.sql.Time> inline(java.sql.Time value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.sql.Timestamp> inline(java.sql.Timestamp value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.time.LocalDate> inline(java.time.LocalDate value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.time.LocalTime> inline(java.time.LocalTime value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.time.LocalDateTime> inline(java.time.LocalDateTime value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.time.OffsetTime> inline(java.time.OffsetTime value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.time.OffsetDateTime> inline(java.time.OffsetDateTime value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
public static Param<java.util.UUID> inline(java.util.UUID value)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String)
, you can expect value
to
be properly escaped for SQL syntax correctness and SQL injection
prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
inline(Object)
,
val(Object)
@Support public static Param<java.lang.String> inline(char character)
This is a convenience method for inline(Object)
, returning
Field<String>
, rather than
Field<Character>
inline(Object)
@Support public static Param<java.lang.String> inline(java.lang.Character character)
This is a convenience method for inline(Object)
, returning
Field<String>
, rather than
Field<Character>
inline(Object)
@Support public static Param<java.lang.String> inline(java.lang.CharSequence character)
This is a convenience method for inline(Object)
, returning
Field<String>
, rather than
Field<CharSequence>
inline(Object)
@Support public static <T> Param<T> inline(java.lang.Object value, java.lang.Class<T> type)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String, Class)
, you can expect
value
to be properly escaped for SQL syntax correctness and
SQL injection prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
val(Object, Class)
@Support public static <T> Param<T> inline(java.lang.Object value, Field<T> field)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String, DataType)
, you can expect
value
to be properly escaped for SQL syntax correctness and
SQL injection prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
val(Object, Field)
@Support public static <T> Param<T> inline(java.lang.Object value, DataType<T> type)
The resulting bind value is always inlined, regardless of the
Settings.getStatementType()
property of the rendering factory.
Unlike with field(String, DataType)
, you can expect
value
to be properly escaped for SQL syntax correctness and
SQL injection prevention. For example:
inline("abc'def")
renders 'abc''def'
field("abc'def")
renders abc'def
val(Object, DataType)
@Support public static <T> Param<T> val(T value)
jOOQ tries to derive the RDBMS DataType
from the provided Java
type <T>
. This may not always be accurate, which can
lead to problems in some strongly typed RDMBS, especially when value is
null
. These databases are namely:
If you need more type-safety, please use val(Object, DataType)
instead, and provide the precise RDMBS-specific data type, that is
needed.
T
- The generic value typevalue
- The constant valuepublic static Param<java.lang.Byte> val(byte value)
val(Object)
public static Param<java.lang.Byte> val(java.lang.Byte value)
val(Object)
public static Param<UByte> val(UByte value)
val(Object)
public static Param<java.lang.Short> val(short value)
val(Object)
public static Param<java.lang.Short> val(java.lang.Short value)
val(Object)
public static Param<UShort> val(UShort value)
val(Object)
public static Param<java.lang.Integer> val(int value)
val(Object)
public static Param<java.lang.Integer> val(java.lang.Integer value)
val(Object)
public static Param<UInteger> val(UInteger value)
val(Object)
public static Param<java.lang.Long> val(long value)
val(Object)
public static Param<java.lang.Long> val(java.lang.Long value)
val(Object)
public static Param<ULong> val(ULong value)
val(Object)
public static Param<java.lang.Float> val(float value)
val(Object)
public static Param<java.lang.Float> val(java.lang.Float value)
val(Object)
public static Param<java.lang.Double> val(double value)
val(Object)
public static Param<java.lang.Double> val(java.lang.Double value)
val(Object)
public static Param<java.lang.Boolean> val(boolean value)
val(Object)
public static Param<java.lang.Boolean> val(java.lang.Boolean value)
val(Object)
public static Param<java.math.BigDecimal> val(java.math.BigDecimal value)
val(Object)
public static Param<java.math.BigInteger> val(java.math.BigInteger value)
val(Object)
public static Param<byte[]> val(byte[] value)
val(Object)
public static Param<java.lang.String> val(java.lang.String value)
val(Object)
public static Param<java.sql.Date> val(java.sql.Date value)
val(Object)
public static Param<java.sql.Time> val(java.sql.Time value)
val(Object)
public static Param<java.sql.Timestamp> val(java.sql.Timestamp value)
val(Object)
public static Param<java.time.LocalDate> val(java.time.LocalDate value)
val(Object)
public static Param<java.time.LocalTime> val(java.time.LocalTime value)
val(Object)
public static Param<java.time.LocalDateTime> val(java.time.LocalDateTime value)
val(Object)
public static Param<java.time.OffsetTime> val(java.time.OffsetTime value)
val(Object)
public static Param<java.time.OffsetDateTime> val(java.time.OffsetDateTime value)
val(Object)
public static Param<java.util.UUID> val(java.util.UUID value)
val(Object)
@Support public static <T> Param<T> val(java.lang.Object value, java.lang.Class<T> type)
T
- The generic value typevalue
- The constant valuetype
- The data type to enforce upon the valueval(Object, DataType)
@Support public static <T> Param<T> val(java.lang.Object value, Field<T> field)
T
- The generic value typevalue
- The constant valuefield
- The field whose data type to enforce upon the valueval(Object, DataType)
@Support public static <T> Param<T> val(java.lang.Object value, DataType<T> type)
This will try to bind value
as type
in a
PreparedStatement
. If value
and
type
are not compatible, jOOQ will first try to convert and
then to cast value
to type
.
T
- The generic value typevalue
- The constant valuetype
- The data type to enforce upon the valuepublic static <T1> RecordType<Record> recordType(Field<?>[] fields)
RecordType
of an arbitrary degree.public static <T1> RecordType<Record> recordType(java.util.Collection<? extends Field<?>> fields)
RecordType
of an arbitrary degree.@Generated(value="This method was generated using jOOQ-tools") public static <T1> RecordType<Record1<T1>> recordType(Field<T1> field1)
RecordType
of degree 1
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2> RecordType<Record2<T1,T2>> recordType(Field<T1> field1, Field<T2> field2)
RecordType
of degree 2
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3> RecordType<Record3<T1,T2,T3>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3)
RecordType
of degree 3
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4> RecordType<Record4<T1,T2,T3,T4>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4)
RecordType
of degree 4
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5> RecordType<Record5<T1,T2,T3,T4,T5>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5)
RecordType
of degree 5
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6> RecordType<Record6<T1,T2,T3,T4,T5,T6>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6)
RecordType
of degree 6
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7> RecordType<Record7<T1,T2,T3,T4,T5,T6,T7>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7)
RecordType
of degree 7
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8> RecordType<Record8<T1,T2,T3,T4,T5,T6,T7,T8>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8)
RecordType
of degree 8
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9> RecordType<Record9<T1,T2,T3,T4,T5,T6,T7,T8,T9>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9)
RecordType
of degree 9
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> RecordType<Record10<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10)
RecordType
of degree 10
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> RecordType<Record11<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11)
RecordType
of degree 11
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> RecordType<Record12<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12)
RecordType
of degree 12
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> RecordType<Record13<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13)
RecordType
of degree 13
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> RecordType<Record14<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14)
RecordType
of degree 14
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> RecordType<Record15<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15)
RecordType
of degree 15
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> RecordType<Record16<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16)
RecordType
of degree 16
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> RecordType<Record17<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17)
RecordType
of degree 17
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> RecordType<Record18<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18)
RecordType
of degree 18
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> RecordType<Record19<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19)
RecordType
of degree 19
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> RecordType<Record20<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19, Field<T20> field20)
RecordType
of degree 20
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> RecordType<Record21<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19, Field<T20> field20, Field<T21> field21)
RecordType
of degree 21
.@Generated(value="This method was generated using jOOQ-tools") public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> RecordType<Record22<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22>> recordType(Field<T1> field1, Field<T2> field2, Field<T3> field3, Field<T4> field4, Field<T5> field5, Field<T6> field6, Field<T7> field7, Field<T8> field8, Field<T9> field9, Field<T10> field10, Field<T11> field11, Field<T12> field12, Field<T13> field13, Field<T14> field14, Field<T15> field15, Field<T16> field16, Field<T17> field17, Field<T18> field18, Field<T19> field19, Field<T20> field20, Field<T21> field21, Field<T22> field22)
RecordType
of degree 22
.@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1> Row1<T1> row(T1 t1)
1
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2> Row2<T1,T2> row(T1 t1, T2 t2)
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3> Row3<T1,T2,T3> row(T1 t1, T2 t2, T3 t3)
3
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4> Row4<T1,T2,T3,T4> row(T1 t1, T2 t2, T3 t3, T4 t4)
4
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5> Row5<T1,T2,T3,T4,T5> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5)
5
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6> Row6<T1,T2,T3,T4,T5,T6> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6)
6
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7> Row7<T1,T2,T3,T4,T5,T6,T7> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7)
7
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8> Row8<T1,T2,T3,T4,T5,T6,T7,T8> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8)
8
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9> Row9<T1,T2,T3,T4,T5,T6,T7,T8,T9> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9)
9
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> Row10<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9, T10 t10)
10
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> Row11<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9, T10 t10, T11 t11)
11
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> Row12<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9, T10 t10, T11 t11, T12 t12)
12
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> Row13<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9, T10 t10, T11 t11, T12 t12, T13 t13)
13
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> Row14<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9, T10 t10, T11 t11, T12 t12, T13 t13, T14 t14)
14
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> Row15<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9, T10 t10, T11 t11, T12 t12, T13 t13, T14 t14, T15 t15)
15
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> Row16<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9, T10 t10, T11 t11, T12 t12, T13 t13, T14 t14, T15 t15, T16 t16)
16
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> Row17<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9, T10 t10, T11 t11, T12 t12, T13 t13, T14 t14, T15 t15, T16 t16, T17 t17)
17
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> Row18<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9, T10 t10, T11 t11, T12 t12, T13 t13, T14 t14, T15 t15, T16 t16, T17 t17, T18 t18)
18
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> Row19<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9, T10 t10, T11 t11, T12 t12, T13 t13, T14 t14, T15 t15, T16 t16, T17 t17, T18 t18, T19 t19)
19
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> Row20<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9, T10 t10, T11 t11, T12 t12, T13 t13, T14 t14, T15 t15, T16 t16, T17 t17, T18 t18, T19 t19, T20 t20)
20
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> Row21<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9, T10 t10, T11 t11, T12 t12, T13 t13, T14 t14, T15 t15, T16 t16, T17 t17, T18 t18, T19 t19, T20 t20, T21 t21)
21
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> Row22<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> row(T1 t1, T2 t2, T3 t3, T4 t4, T5 t5, T6 t6, T7 t7, T8 t8, T9 t9, T10 t10, T11 t11, T12 t12, T13 t13, T14 t14, T15 t15, T16 t16, T17 t17, T18 t18, T19 t19, T20 t20, T21 t21, T22 t22)
22
.
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.
@Support public static RowN row(java.lang.Object... values)
N > 22
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1> Row1<T1> row(Field<T1> t1)
1
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2> Row2<T1,T2> row(Field<T1> t1, Field<T2> t2)
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3> Row3<T1,T2,T3> row(Field<T1> t1, Field<T2> t2, Field<T3> t3)
3
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4> Row4<T1,T2,T3,T4> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4)
4
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5> Row5<T1,T2,T3,T4,T5> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5)
5
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6> Row6<T1,T2,T3,T4,T5,T6> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6)
6
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7> Row7<T1,T2,T3,T4,T5,T6,T7> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7)
7
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8> Row8<T1,T2,T3,T4,T5,T6,T7,T8> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8)
8
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9> Row9<T1,T2,T3,T4,T5,T6,T7,T8,T9> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9)
9
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> Row10<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9, Field<T10> t10)
10
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> Row11<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9, Field<T10> t10, Field<T11> t11)
11
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> Row12<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9, Field<T10> t10, Field<T11> t11, Field<T12> t12)
12
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> Row13<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9, Field<T10> t10, Field<T11> t11, Field<T12> t12, Field<T13> t13)
13
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> Row14<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9, Field<T10> t10, Field<T11> t11, Field<T12> t12, Field<T13> t13, Field<T14> t14)
14
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> Row15<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9, Field<T10> t10, Field<T11> t11, Field<T12> t12, Field<T13> t13, Field<T14> t14, Field<T15> t15)
15
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> Row16<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9, Field<T10> t10, Field<T11> t11, Field<T12> t12, Field<T13> t13, Field<T14> t14, Field<T15> t15, Field<T16> t16)
16
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> Row17<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9, Field<T10> t10, Field<T11> t11, Field<T12> t12, Field<T13> t13, Field<T14> t14, Field<T15> t15, Field<T16> t16, Field<T17> t17)
17
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> Row18<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9, Field<T10> t10, Field<T11> t11, Field<T12> t12, Field<T13> t13, Field<T14> t14, Field<T15> t15, Field<T16> t16, Field<T17> t17, Field<T18> t18)
18
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> Row19<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9, Field<T10> t10, Field<T11> t11, Field<T12> t12, Field<T13> t13, Field<T14> t14, Field<T15> t15, Field<T16> t16, Field<T17> t17, Field<T18> t18, Field<T19> t19)
19
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> Row20<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9, Field<T10> t10, Field<T11> t11, Field<T12> t12, Field<T13> t13, Field<T14> t14, Field<T15> t15, Field<T16> t16, Field<T17> t17, Field<T18> t18, Field<T19> t19, Field<T20> t20)
20
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> Row21<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9, Field<T10> t10, Field<T11> t11, Field<T12> t12, Field<T13> t13, Field<T14> t14, Field<T15> t15, Field<T16> t16, Field<T17> t17, Field<T18> t18, Field<T19> t19, Field<T20> t20, Field<T21> t21)
21
.
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.
@Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> Row22<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> row(Field<T1> t1, Field<T2> t2, Field<T3> t3, Field<T4> t4, Field<T5> t5, Field<T6> t6, Field<T7> t7, Field<T8> t8, Field<T9> t9, Field<T10> t10, Field<T11> t11, Field<T12> t12, Field<T13> t13, Field<T14> t14, Field<T15> t15, Field<T16> t16, Field<T17> t17, Field<T18> t18, Field<T19> t19, Field<T20> t20, Field<T21> t21, Field<T22> t22)
22
.
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.
@Support public static RowN row(Field<?>... values)
N > 22
.
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.
@Support public static RowN row(java.util.Collection<?> values)
N > 22
.
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.
@Support public static Table<Record> values(RowN... rows)
VALUES()
expression of arbitrary degree.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2),
(val2_1, val2_2),
(val3_1, val3_2)
AS "v"("c1" , "c2" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1> Table<Record1<T1>> values(Row1<T1>... rows)
VALUES()
expression of degree 1
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1),
(val2_1),
(val3_1)
AS "v"("c1" )
-- Using UNION ALL
SELECT val1_1 AS "c1") UNION ALL
SELECT val1_1 AS "c1") UNION ALL
SELECT val1_1 AS "c1")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2> Table<Record2<T1,T2>> values(Row2<T1,T2>... rows)
VALUES()
expression of degree 2
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2),
(val2_1, val2_2),
(val3_1, val3_2)
AS "v"("c1" , "c2" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3> Table<Record3<T1,T2,T3>> values(Row3<T1,T2,T3>... rows)
VALUES()
expression of degree 3
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3),
(val2_1, val2_2, val2_3),
(val3_1, val3_2, val3_3)
AS "v"("c1" , "c2" , "c3" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4> Table<Record4<T1,T2,T3,T4>> values(Row4<T1,T2,T3,T4>... rows)
VALUES()
expression of degree 4
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4),
(val2_1, val2_2, val2_3, val2_4),
(val3_1, val3_2, val3_3, val3_4)
AS "v"("c1" , "c2" , "c3" , "c4" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5> Table<Record5<T1,T2,T3,T4,T5>> values(Row5<T1,T2,T3,T4,T5>... rows)
VALUES()
expression of degree 5
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5),
(val2_1, val2_2, val2_3, val2_4, val2_5),
(val3_1, val3_2, val3_3, val3_4, val3_5)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6> Table<Record6<T1,T2,T3,T4,T5,T6>> values(Row6<T1,T2,T3,T4,T5,T6>... rows)
VALUES()
expression of degree 6
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7> Table<Record7<T1,T2,T3,T4,T5,T6,T7>> values(Row7<T1,T2,T3,T4,T5,T6,T7>... rows)
VALUES()
expression of degree 7
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8> Table<Record8<T1,T2,T3,T4,T5,T6,T7,T8>> values(Row8<T1,T2,T3,T4,T5,T6,T7,T8>... rows)
VALUES()
expression of degree 8
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9> Table<Record9<T1,T2,T3,T4,T5,T6,T7,T8,T9>> values(Row9<T1,T2,T3,T4,T5,T6,T7,T8,T9>... rows)
VALUES()
expression of degree 9
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10> Table<Record10<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10>> values(Row10<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10>... rows)
VALUES()
expression of degree 10
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9, val1_10),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9, val2_10),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9, val3_10)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" , "c10" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11> Table<Record11<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11>> values(Row11<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11>... rows)
VALUES()
expression of degree 11
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9, val1_10, val1_11),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9, val2_10, val2_11),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9, val3_10, val3_11)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" , "c10" , "c11" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12> Table<Record12<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12>> values(Row12<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12>... rows)
VALUES()
expression of degree 12
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9, val1_10, val1_11, val1_12),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9, val2_10, val2_11, val2_12),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9, val3_10, val3_11, val3_12)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" , "c10" , "c11" , "c12" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13> Table<Record13<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13>> values(Row13<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13>... rows)
VALUES()
expression of degree 13
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9, val1_10, val1_11, val1_12, val1_13),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9, val2_10, val2_11, val2_12, val2_13),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9, val3_10, val3_11, val3_12, val3_13)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" , "c10" , "c11" , "c12" , "c13" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14> Table<Record14<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14>> values(Row14<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14>... rows)
VALUES()
expression of degree 14
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9, val1_10, val1_11, val1_12, val1_13, val1_14),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9, val2_10, val2_11, val2_12, val2_13, val2_14),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9, val3_10, val3_11, val3_12, val3_13, val3_14)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" , "c10" , "c11" , "c12" , "c13" , "c14" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15> Table<Record15<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15>> values(Row15<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15>... rows)
VALUES()
expression of degree 15
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9, val1_10, val1_11, val1_12, val1_13, val1_14, val1_15),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9, val2_10, val2_11, val2_12, val2_13, val2_14, val2_15),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9, val3_10, val3_11, val3_12, val3_13, val3_14, val3_15)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" , "c10" , "c11" , "c12" , "c13" , "c14" , "c15" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16> Table<Record16<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16>> values(Row16<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16>... rows)
VALUES()
expression of degree 16
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9, val1_10, val1_11, val1_12, val1_13, val1_14, val1_15, val1_16),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9, val2_10, val2_11, val2_12, val2_13, val2_14, val2_15, val2_16),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9, val3_10, val3_11, val3_12, val3_13, val3_14, val3_15, val3_16)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" , "c10" , "c11" , "c12" , "c13" , "c14" , "c15" , "c16" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17> Table<Record17<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17>> values(Row17<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17>... rows)
VALUES()
expression of degree 17
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9, val1_10, val1_11, val1_12, val1_13, val1_14, val1_15, val1_16, val1_17),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9, val2_10, val2_11, val2_12, val2_13, val2_14, val2_15, val2_16, val2_17),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9, val3_10, val3_11, val3_12, val3_13, val3_14, val3_15, val3_16, val3_17)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" , "c10" , "c11" , "c12" , "c13" , "c14" , "c15" , "c16" , "c17" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18> Table<Record18<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18>> values(Row18<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18>... rows)
VALUES()
expression of degree 18
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9, val1_10, val1_11, val1_12, val1_13, val1_14, val1_15, val1_16, val1_17, val1_18),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9, val2_10, val2_11, val2_12, val2_13, val2_14, val2_15, val2_16, val2_17, val2_18),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9, val3_10, val3_11, val3_12, val3_13, val3_14, val3_15, val3_16, val3_17, val3_18)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" , "c10" , "c11" , "c12" , "c13" , "c14" , "c15" , "c16" , "c17" , "c18" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19> Table<Record19<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19>> values(Row19<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19>... rows)
VALUES()
expression of degree 19
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9, val1_10, val1_11, val1_12, val1_13, val1_14, val1_15, val1_16, val1_17, val1_18, val1_19),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9, val2_10, val2_11, val2_12, val2_13, val2_14, val2_15, val2_16, val2_17, val2_18, val2_19),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9, val3_10, val3_11, val3_12, val3_13, val3_14, val3_15, val3_16, val3_17, val3_18, val3_19)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" , "c10" , "c11" , "c12" , "c13" , "c14" , "c15" , "c16" , "c17" , "c18" , "c19" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18", val1_19 AS "c19") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18", val1_19 AS "c19") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18", val1_19 AS "c19")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20> Table<Record20<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20>> values(Row20<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20>... rows)
VALUES()
expression of degree 20
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9, val1_10, val1_11, val1_12, val1_13, val1_14, val1_15, val1_16, val1_17, val1_18, val1_19, val1_20),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9, val2_10, val2_11, val2_12, val2_13, val2_14, val2_15, val2_16, val2_17, val2_18, val2_19, val2_20),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9, val3_10, val3_11, val3_12, val3_13, val3_14, val3_15, val3_16, val3_17, val3_18, val3_19, val3_20)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" , "c10" , "c11" , "c12" , "c13" , "c14" , "c15" , "c16" , "c17" , "c18" , "c19" , "c20" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18", val1_19 AS "c19", val1_20 AS "c20") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18", val1_19 AS "c19", val1_20 AS "c20") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18", val1_19 AS "c19", val1_20 AS "c20")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21> Table<Record21<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21>> values(Row21<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21>... rows)
VALUES()
expression of degree 21
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9, val1_10, val1_11, val1_12, val1_13, val1_14, val1_15, val1_16, val1_17, val1_18, val1_19, val1_20, val1_21),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9, val2_10, val2_11, val2_12, val2_13, val2_14, val2_15, val2_16, val2_17, val2_18, val2_19, val2_20, val2_21),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9, val3_10, val3_11, val3_12, val3_13, val3_14, val3_15, val3_16, val3_17, val3_18, val3_19, val3_20, val3_21)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" , "c10" , "c11" , "c12" , "c13" , "c14" , "c15" , "c16" , "c17" , "c18" , "c19" , "c20" , "c21" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18", val1_19 AS "c19", val1_20 AS "c20", val1_21 AS "c21") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18", val1_19 AS "c19", val1_20 AS "c20", val1_21 AS "c21") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18", val1_19 AS "c19", val1_20 AS "c20", val1_21 AS "c21")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
@SafeVarargs @Generated(value="This method was generated using jOOQ-tools") @Support public static <T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22> Table<Record22<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22>> values(Row22<T1,T2,T3,T4,T5,T6,T7,T8,T9,T10,T11,T12,T13,T14,T15,T16,T17,T18,T19,T20,T21,T22>... rows)
VALUES()
expression of degree 22
.
The VALUES()
constructor is a tool supported by some
databases to allow for constructing tables from constant values.
If a database doesn't support the VALUES()
constructor, it
can be emulated using SELECT .. UNION ALL ..
. The following
expressions are equivalent:
-- Using VALUES() constructor
VALUES(val1_1, val1_2, val1_3, val1_4, val1_5, val1_6, val1_7, val1_8, val1_9, val1_10, val1_11, val1_12, val1_13, val1_14, val1_15, val1_16, val1_17, val1_18, val1_19, val1_20, val1_21, val1_22),
(val2_1, val2_2, val2_3, val2_4, val2_5, val2_6, val2_7, val2_8, val2_9, val2_10, val2_11, val2_12, val2_13, val2_14, val2_15, val2_16, val2_17, val2_18, val2_19, val2_20, val2_21, val2_22),
(val3_1, val3_2, val3_3, val3_4, val3_5, val3_6, val3_7, val3_8, val3_9, val3_10, val3_11, val3_12, val3_13, val3_14, val3_15, val3_16, val3_17, val3_18, val3_19, val3_20, val3_21, val3_22)
AS "v"("c1" , "c2" , "c3" , "c4" , "c5" , "c6" , "c7" , "c8" , "c9" , "c10" , "c11" , "c12" , "c13" , "c14" , "c15" , "c16" , "c17" , "c18" , "c19" , "c20" , "c21" , "c22" )
-- Using UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18", val1_19 AS "c19", val1_20 AS "c20", val1_21 AS "c21", val1_22 AS "c22") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18", val1_19 AS "c19", val1_20 AS "c20", val1_21 AS "c21", val1_22 AS "c22") UNION ALL
SELECT val1_1 AS "c1", val1_2 AS "c2", val1_3 AS "c3", val1_4 AS "c4", val1_5 AS "c5", val1_6 AS "c6", val1_7 AS "c7", val1_8 AS "c8", val1_9 AS "c9", val1_10 AS "c10", val1_11 AS "c11", val1_12 AS "c12", val1_13 AS "c13", val1_14 AS "c14", val1_15 AS "c15", val1_16 AS "c16", val1_17 AS "c17", val1_18 AS "c18", val1_19 AS "c19", val1_20 AS "c20", val1_21 AS "c21", val1_22 AS "c22")
Use Table.as(String, String...)
to rename the resulting table and
its columns.
protected static <T> Field<T> nullSafe(Field<T> field, DataType<?> type)
protected static <T> DataType<T> nullSafeDataType(Field<T> field)
@Support public static Param<java.lang.Integer> zero()
0
literal.
This is useful for mathematical functions or for
EXISTS (SELECT 0 ...)
or PARTITION BY 0
clauses
and similar constructs. The 0
literal will not generate a
bind variable.
0
literal as a Field
@Support public static Param<java.lang.Integer> one()
1
literal.
This is useful for mathematical functions or for
EXISTS (SELECT 1 ...)
or PARTITION BY 1
clauses
and similar constructs. The 1
literal will not generate a
bind variable.
1
literal as a Field
@Support public static Param<java.lang.Integer> two()
2
literal.
This is useful for mathematical functions. The 1
literal
will not generate a bind variable.
2
literal as a Field
@Support public static Field<java.math.BigDecimal> pi()
PI
literal.
This will be any of the following:
PI
literal or PI()
functionMath.PI
@Support public static Field<java.math.BigDecimal> e()
E
literal (Euler number).
This will be any of the following:
E
literal or E()
functionMath.E
@Support(value={ASE,CUBRID,DB2,DERBY,FIREBIRD,H2,HANA,HSQLDB,INFORMIX,INGRES,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,SYBASE}) public static Field<java.lang.String> currentUser()
current_user()
function.@Support(value={CUBRID,DB2,DERBY,FIREBIRD,H2,HSQLDB,MARIADB,MYSQL,ORACLE,POSTGRES,SQLITE,SQLSERVER,VERTICA}) public static Field<java.lang.String> currentSchema()
current_schema()
function.@Support public static <T extends java.lang.Number> Field<T> widthBucket(Field<T> field, T low, T high, int buckets)
@Support public static <T extends java.lang.Number> Field<T> widthBucket(Field<T> field, Field<T> low, Field<T> high, Field<java.lang.Integer> buckets)
@Support public static <T> DataType<T> getDataType(java.lang.Class<T> type)
DSLContext
's underlying
SQLDialect
and a given Java type.T
- The generic typetype
- The Java typeDSL
's underlying default data type.Copyright © 2018. All Rights Reserved.