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/**
 * Copyright (c) 2009-2014, Data Geekery GmbH (http://www.datageekery.com)
 * All rights reserved.
 *
 * This work is dual-licensed
 * - under the Apache Software License 2.0 (the "ASL")
 * - under the jOOQ License and Maintenance Agreement (the "jOOQ License")
 * =============================================================================
 * You may choose which license applies to you:
 *
 * - If you're using this work with Open Source databases, you may choose
 *   either ASL or jOOQ License.
 * - If you're using this work with at least one commercial database, you must
 *   choose jOOQ License
 *
 * For more information, please visit http://www.jooq.org/licenses
 *
 * Apache Software License 2.0:
 * -----------------------------------------------------------------------------
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *  http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 *
 * jOOQ License and Maintenance Agreement:
 * -----------------------------------------------------------------------------
 * Data Geekery grants the Customer the non-exclusive, timely limited and
 * non-transferable license to install and use the Software under the terms of
 * the jOOQ License and Maintenance Agreement.
 *
 * This library is distributed with a LIMITED WARRANTY. See the jOOQ License
 * and Maintenance Agreement for more details: http://www.jooq.org/licensing
 */

package org.jooq;

// ...
// ...
import static org.jooq.SQLDialect.CUBRID;
// ...
import static org.jooq.SQLDialect.DERBY;
import static org.jooq.SQLDialect.FIREBIRD;
import static org.jooq.SQLDialect.H2;
import static org.jooq.SQLDialect.HSQLDB;
// ...
// ...
import static org.jooq.SQLDialect.MARIADB;
import static org.jooq.SQLDialect.MYSQL;
// ...
import static org.jooq.SQLDialect.POSTGRES;
import static org.jooq.SQLDialect.SQLITE;
// ...
// ...

import java.math.BigDecimal;
import java.util.Collection;
import java.util.Map;

import org.jooq.conf.Settings;
import org.jooq.impl.DSL;
import org.jooq.types.Interval;
// ...

/**
 * A field used in tables and conditions
 * 

* Note that all fields qualify as {@link GroupField}, i.e. they can always be * used in GROUP BY clauses * * @param The field type * @author Lukas Eder */ public interface Field extends GroupField { // ------------------------------------------------------------------------ // API // ------------------------------------------------------------------------ /** * The name of the field. *

* The name is any of these: *

    *
  • The formal name of the field, if it is a physical table/view * field
  • *
  • The alias of an aliased field
  • *
  • A generated / unspecified value for any other expression
  • *
  • The name of a parameter if it is a named {@link Param}
  • *
*/ String getName(); /** * The comment given to the field. *

* If this Field is a generated field from your database, it * may provide its DDL comment through this method. All other column * expressions return the empty string "" here, never * null. */ String getComment(); /** * The field's underlying {@link Converter}. *

* By default, all fields reference an identity-converter * Converter<T, T>. Custom data types may be obtained by a * custom {@link Converter} placed on the generated {@link TableField}. */ Converter getConverter(); /** * The field's underlying {@link Binding}. */ Binding getBinding(); /** * The Java type of the field. */ Class getType(); /** * The type of this field (might not be dialect-specific). */ DataType getDataType(); /** * The dialect-specific type of this field. */ DataType getDataType(Configuration configuration); /** * Create an alias for this field. *

* Note that the case-sensitivity of the returned field depends on * {@link Settings#getRenderNameStyle()}. By default, field aliases are * quoted, and thus case-sensitive! * * @param alias The alias name * @return The field alias */ @Support Field as(String alias); /** * Create an alias for this field based on another field's name. *

* Note that the case-sensitivity of the returned field depends on * {@link Settings#getRenderNameStyle()}. By default, field aliases are * quoted, and thus case-sensitive! * * @param otherField The other field whose name this field is aliased with. * @return The field alias. */ @Support Field as(Field otherField); /** * {@inheritDoc} *

* Watch out! This is {@link Object#equals(Object)}, not a jOOQ DSL * feature! */ @Override boolean equals(Object other); // ------------------------------------------------------------------------ // Type casts // ------------------------------------------------------------------------ /** * Cast this field to the type of another field. *

* This results in the same as casting this field to * {@link DataType#getCastTypeName()} * * @param The generic type of the cast field * @param field The field whose type is used for the cast * @return The cast field * @see #cast(DataType) */ @Support Field cast(Field field); /** * Cast this field to a dialect-specific data type. * * @param The generic type of the cast field * @param type The data type that is used for the cast * @return The cast field */ @Support Field cast(DataType type); /** * Cast this field to another type. *

* The actual cast may not be accurate as the {@link DataType} has to be * "guessed" from the jOOQ-configured data types. Use * {@link #cast(DataType)} for more accurate casts. * * @param The generic type of the cast field * @param type The type that is used for the cast * @return The cast field * @see #cast(DataType) */ @Support Field cast(Class type); // ------------------------------------------------------------------------ // Type coercion // ------------------------------------------------------------------------ /** * Coerce this field to the type of another field. *

* Unlike with casting, coercing doesn't affect the way the database sees a * Field's type. This is how coercing affects your SQL: *

Bind values

     * // 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);
     * 
*

Other Field types

     * // 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);
     * 
* * @param The generic type of the coerced field * @param field The field whose type is used for the coercion * @return The coerced field * @see #coerce(DataType) * @see #cast(Field) */ @Support Field coerce(Field field); /** * Coerce this field to a dialect-specific data type. *

* Unlike with casting, coercing doesn't affect the way the database sees a * Field's type. This is how coercing affects your SQL: *

Bind values

     * // 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);
     * 
*

Other Field types

     * // 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);
     * 
* * @param The generic type of the coerced field * @param type The data type that is used for the coercion * @return The coerced field * @see #cast(DataType) */ @Support Field coerce(DataType type); /** * Coerce this field to another type. *

* Unlike with casting, coercing doesn't affect the way the database sees a * Field's type. This is how coercing affects your SQL: *

Bind values

     * // 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);
     * 
*

Other Field types

     * // 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);
     * 
* * @param The generic type of the coerced field * @param type The type that is used for the coercion * @return The coerced field * @see #coerce(DataType) * @see #cast(Class) */ @Support Field coerce(Class type); // ------------------------------------------------------------------------ // Conversion of field into a sort field // ------------------------------------------------------------------------ /** * Create an ascending sort field from this field. *

* This is the same as calling {@link #sort(SortOrder)} with * {@link SortOrder#ASC} * * @return This field as an ascending sort field */ @Support SortField asc(); /** * Create a descending sort field from this field. *

* This is the same as calling {@link #sort(SortOrder)} with * {@link SortOrder#DESC} * * @return This field as a descending sort field */ @Support SortField desc(); /** * Create an ascending/descending sort field from this field. * * @param order The sort order * @return This field as an ascending/descending sort field. */ @Support SortField sort(SortOrder order); /** * Create an indirected sort field. *

* Create a sort field of the form

     * CASE [this] WHEN [sortList.get(0)] THEN 0
     *             WHEN [sortList.get(1)] THEN 1
     *             ...
     *             WHEN [sortList.get(n)] THEN n
     *                                    ELSE null
     * END ASC
     * 
*

* Note: You can use this in combination with {@link SortField#nullsFirst()} * or {@link SortField#nullsLast()} to specify whether the default should * have highest or lowest priority. * * @param sortList The list containing sort value preferences * @return The sort field */ @Support SortField sortAsc(Collection sortList); /** * Create an indirected sort field. *

* Create a sort field of the form

     * CASE [this] WHEN [sortList[0]] THEN 0
     *             WHEN [sortList[1]] THEN 1
     *             ...
     *             WHEN [sortList[n]] THEN n
     *                                ELSE null
     * END ASC
     * 
*

* Note: You can use this in combination with {@link SortField#nullsFirst()} * or {@link SortField#nullsLast()} to specify whether the default should * have highest or lowest priority. * * @param sortList The list containing sort value preferences * @return The sort field */ @Support SortField sortAsc(T... sortList); /** * Create an indirected sort field. *

* Create a sort field of the form

     * CASE [this] WHEN [sortList.get(0)] THEN 0
     *             WHEN [sortList.get(1)] THEN 1
     *             ...
     *             WHEN [sortList.get(n)] THEN n
     *                                    ELSE null
     * END DESC
     * 
*

* Note: You can use this in combination with {@link SortField#nullsFirst()} * or {@link SortField#nullsLast()} to specify whether the default should * have highest or lowest priority. * * @param sortList The list containing sort value preferences * @return The sort field */ @Support SortField sortDesc(Collection sortList); /** * Create an indirected sort field. *

* Create a sort field of the form

     * CASE [this] WHEN [sortList[0]] THEN 0
     *             WHEN [sortList[1]] THEN 1
     *             ...
     *             WHEN [sortList[n]] THEN n
     *                                    ELSE null
     * END DESC
     * 
*

* Note: You can use this in combination with {@link SortField#nullsFirst()} * or {@link SortField#nullsLast()} to specify whether the default should * have highest or lowest priority. * * @param sortList The list containing sort value preferences * @return The sort field */ @Support SortField sortDesc(T... sortList); /** * Create an indirected sort field. *

* Create a sort field of the form (in pseudo code)

     * CASE [this] WHEN [sortMap.key(0)] THEN sortMap.value(0)
     *             WHEN [sortMap.key(1)] THEN sortMap.value(1)
     *             ...
     *             WHEN [sortMap.key(n)] THEN sortMap.value(n)
     *                                   ELSE null
     * END DESC
     * 
*

* Note: You can use this in combination with {@link SortField#nullsFirst()} * or {@link SortField#nullsLast()} to specify whether the default should * have highest or lowest priority. * * @param sortMap The list containing sort value preferences * @return The sort field */ @Support SortField sort(Map sortMap); // ------------------------------------------------------------------------ // Arithmetic operations // ------------------------------------------------------------------------ /** * Negate this field to get its negative value. *

* This renders the same on all dialects:

-[this]
*/ @Support Field neg(); /** * An arithmetic expression adding this to value. * * @see #add(Field) */ @Support Field add(Number value); /** * An arithmetic expression to add value to this. *

* The behaviour of this operation is as follows: *

* * * * * * * * * * * * * * * * * * * * * * * * * *
Operand 1Operand 2Result Type
NumericNumericNumeric
Date / TimeNumericDate / Time
Date / TimeIntervalDate / Time
IntervalIntervalInterval
*/ @Support Field add(Field value); /** * An alias for {@link #add(Number)}. * * @see #add(Number) */ @Support Field plus(Number value); /** * An alias for {@link #add(Field)}. * * @see #add(Field) */ @Support Field plus(Field value); /** * An arithmetic expression subtracting value from this. * * @see #sub(Field) */ @Support Field sub(Number value); /** * An arithmetic expression subtracting value from this. *

*

* * * * * * * * * * * * * * * * * * * * * * * * * *
Operand 1Operand 2Result Type
NumericNumericNumeric
Date / TimeNumericDate / Time
Date / TimeIntervalDate / Time
IntervalIntervalInterval
*

* In order to subtract one date time field from another, use any of these * methods: *

    *
  • {@link DSL#dateDiff(Field, Field)}
  • *
  • {@link DSL#timestampDiff(Field, Field)}
  • *
*/ @Support Field sub(Field value); /** * An alias for {@link #sub(Number)}. * * @see #sub(Number) */ @Support Field subtract(Number value); /** * An alias for {@link #sub(Field)}. * * @see #sub(Field) */ @Support Field subtract(Field value); /** * An alias for {@link #sub(Number)}. * * @see #sub(Number) */ @Support Field minus(Number value); /** * An alias for {@link #sub(Field)}. * * @see #sub(Field) */ @Support Field minus(Field value); /** * An arithmetic expression multiplying this with value. *

*

    *
  • If this is a numeric field, then the result is a number of the same * type as this field.
  • *
  • If this is an INTERVAL field, then the result is also an * INTERVAL field (see {@link Interval})
  • *
*/ @Support Field mul(Number value); /** * An arithmetic expression multiplying this with value. *

*

    *
  • If this is a numeric field, then the result is a number of the same * type as this field.
  • *
  • If this is an INTERVAL field, then the result is also an * INTERVAL field (see {@link Interval})
  • *
*/ @Support Field mul(Field value); /** * An alias for {@link #mul(Number)}. * * @see #mul(Number) */ @Support Field multiply(Number value); /** * An alias for {@link #mul(Field)}. * * @see #mul(Field) */ @Support Field multiply(Field value); /** * An arithmetic expression dividing this by value. *

*

    *
  • If this is a numeric field, then the result is a number of the same * type as this field.
  • *
  • If this is an INTERVAL field, then the result is also an * INTERVAL field (see {@link Interval})
  • *
*/ @Support Field div(Number value); /** * An arithmetic expression dividing this by value. *

*

    *
  • If this is a numeric field, then the result is a number of the same * type as this field.
  • *
  • If this is an INTERVAL field, then the result is also an * INTERVAL field (see {@link Interval})
  • *
*/ @Support Field div(Field value); /** * An alias for {@link #div(Number)}. * * @see #div(Number) */ @Support Field divide(Number value); /** * An alias for {@link #div(Field)}. * * @see #div(Field) */ @Support Field divide(Field value); /** * An arithmetic expression getting the modulo of this divided by value. *

* This renders the modulo operation where available: *

[this] % [value]
... or the modulo function * elsewhere:
mod([this], [value])
*/ @Support Field mod(Number value); /** * An arithmetic expression getting the modulo of this divided by value. *

* This renders the modulo operation where available: *

[this] % [value]
... or the modulo function * elsewhere:
mod([this], [value])
*/ @Support Field mod(Field value); /** * An alias for {@link #mod(Number)}. * * @see #mod(Number) */ @Support Field modulo(Number value); /** * An alias for {@link #mod(Field)}. * * @see #mod(Field) */ @Support Field modulo(Field value); // ------------------------------------------------------------------------ // Bitwise operations // ------------------------------------------------------------------------ /** * The bitwise not operator. * * @see DSL#bitNot(Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field bitNot(); /** * The bitwise and operator. * * @see DSL#bitAnd(Field, Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field bitAnd(T value); /** * The bitwise and operator. * * @see DSL#bitAnd(Field, Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field bitAnd(Field value); /** * The bitwise not and operator. * * @see DSL#bitNand(Field, Field) * @see DSL#bitNot(Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field bitNand(T value); /** * The bitwise not and operator. * * @see DSL#bitNand(Field, Field) * @see DSL#bitNot(Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field bitNand(Field value); /** * The bitwise or operator. * * @see DSL#bitOr(Field, Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field bitOr(T value); /** * The bitwise or operator. * * @see DSL#bitOr(Field, Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field bitOr(Field value); /** * The bitwise not or operator. * * @see DSL#bitNor(Field, Field) * @see DSL#bitNot(Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field bitNor(T value); /** * The bitwise not or operator. * * @see DSL#bitNor(Field, Field) * @see DSL#bitNot(Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field bitNor(Field value); /** * The bitwise xor operator. * * @see DSL#bitXor(Field, Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field bitXor(T value); /** * The bitwise xor operator. * * @see DSL#bitXor(Field, Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field bitXor(Field value); /** * The bitwise not xor operator. * * @see DSL#bitXNor(Field, Field) * @see DSL#bitNot(Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field bitXNor(T value); /** * The bitwise not xor operator. * * @see DSL#bitXNor(Field, Field) * @see DSL#bitNot(Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field bitXNor(Field value); /** * The bitwise left shift operator. * * @see DSL#shl(Field, Field) * @see DSL#power(Field, Number) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field shl(T value); /** * The bitwise left shift operator. * * @see DSL#shl(Field, Field) * @see DSL#power(Field, Number) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field shl(Field value); /** * The bitwise right shift operator. * * @see DSL#shr(Field, Field) * @see DSL#power(Field, Number) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field shr(T value); /** * The bitwise right shift operator. * * @see DSL#shr(Field, Field) * @see DSL#power(Field, Number) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field shr(Field value); // ------------------------------------------------------------------------ // NULL predicates // ------------------------------------------------------------------------ /** * Create a condition to check this field against null. *

* SQL: this is null */ @Support Condition isNull(); /** * Create a condition to check this field against null. *

* SQL: this is not null */ @Support Condition isNotNull(); // ------------------------------------------------------------------------ // DISTINCT predicates // ------------------------------------------------------------------------ /** * Create a condition to check if this field is DISTINCT from * another value. *

* In {@link SQLDialect#MYSQL} and {@link SQLDialect#MARIADB}, this can be * emulated through

not([this] <=> [value])
*

* In {@link SQLDialect#SQLITE}, this can be emulated through *

[this] IS NOT [value]
*

* If this is not supported by the underlying database, jOOQ will render * this instead:

     * CASE WHEN [this] IS     NULL AND [value] IS     NULL THEN FALSE
     *      WHEN [this] IS     NULL AND [value] IS NOT NULL THEN TRUE
     *      WHEN [this] IS NOT NULL AND [value] IS     NULL THEN TRUE
     *      WHEN [this] =               [value]             THEN FALSE
     *      ELSE                                                 TRUE
     * END
     * 
SQL: this is distinct from value */ @Support Condition isDistinctFrom(T value); /** * Create a condition to check if this field is DISTINCT from * another field. *

* In {@link SQLDialect#MYSQL} and {@link SQLDialect#MARIADB}, this can be * emulated through

not([this] <=> [value])
*

* In {@link SQLDialect#SQLITE}, this can be emulated through *

[this] IS NOT [value]
*

* If this is not supported by the underlying database, jOOQ will render * this instead:

     * CASE WHEN [this] IS     NULL AND [field] IS     NULL THEN FALSE
     *      WHEN [this] IS     NULL AND [field] IS NOT NULL THEN TRUE
     *      WHEN [this] IS NOT NULL AND [field] IS     NULL THEN TRUE
     *      WHEN [this] =               [field]             THEN FALSE
     *      ELSE                                                 TRUE
     * END
     * 
SQL: this is distinct from field */ @Support Condition isDistinctFrom(Field field); /** * Create a condition to check if this field is NOT DISTINCT * from another value. *

* In {@link SQLDialect#MYSQL} and {@link SQLDialect#MARIADB}, this can be * emulated through

[this] <=> [value]
*

* In {@link SQLDialect#SQLITE}, this can be emulated through *

[this] IS [value]
*

* If this is not supported by the underlying database, jOOQ will render * this instead:

     * CASE WHEN [this] IS     NULL AND [value] IS     NULL THEN TRUE
     *      WHEN [this] IS     NULL AND [value] IS NOT NULL THEN FALSE
     *      WHEN [this] IS NOT NULL AND [value] IS     NULL THEN FALSE
     *      WHEN [this] =               [value]             THEN TRUE
     *      ELSE                                                 FALSE
     * END
     * 
SQL: this is not distinct from value */ @Support Condition isNotDistinctFrom(T value); /** * Create a condition to check if this field is NOT DISTINCT * from another field. *

* In {@link SQLDialect#MYSQL} and {@link SQLDialect#MARIADB}, this can be * emulated through

[this] <=> [value]
*

* In {@link SQLDialect#SQLITE}, this can be emulated through *

[this] IS [value]
*

* If this is not supported by the underlying database, jOOQ will render * this instead:

     * CASE WHEN [this] IS     NULL AND [field] IS     NULL THEN TRUE
     *      WHEN [this] IS     NULL AND [field] IS NOT NULL THEN FALSE
     *      WHEN [this] IS NOT NULL AND [field] IS     NULL THEN FALSE
     *      WHEN [this] =               [value]             THEN TRUE
     *      ELSE                                                 FALSE
     * END
     * 
SQL: this is not distinct from field */ @Support Condition isNotDistinctFrom(Field field); // ------------------------------------------------------------------------ // LIKE_REGEX predicates // ------------------------------------------------------------------------ /** * Create a condition to regex-pattern-check this field against a pattern. *

* The SQL:2008 standard specifies a <regex like predicate> * of the following form:

     * <regex like predicate> ::=
     *   <row value predicand> <regex like predicate part 2>
     *
     * <regex like predicate part 2> ::=
     *  [ NOT ] LIKE_REGEX <XQuery pattern> [ FLAG <XQuery option flag> ]
     * 
*

* This particular LIKE_REGEX operator comes in several * flavours for various databases. jOOQ supports regular expressions as * follows: *

* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
SQL dialectSQL syntaxPattern syntaxDocumentation
{@link SQLDialect#ASE}---
{@link SQLDialect#CUBRID}[search] REGEXP [pattern]POSIXhttp://www.cubrid.org/manual/841/en/REGEXP Conditional Expression
{@link SQLDialect#DB2}---
{@link SQLDialect#DERBY}---
{@link SQLDialect#H2}[search] REGEXP [pattern]Javahttp * ://www.h2database.com/html/grammar.html#condition_right_hand_side
{@link SQLDialect#HSQLDB}REGEXP_MATCHES([search], [pattern])Javahttp://hsqldb.org/doc/guide/builtinfunctions-chapt.html#N13577
{@link SQLDialect#INGRES}---
{@link SQLDialect#MYSQL}[search] REGEXP [pattern]POSIXhttp://dev * .mysql.com/doc/refman/5.6/en/regexp.html
{@link SQLDialect#ORACLE}REGEXP_LIKE([search], [pattern])POSIXhttp://docs.oracle.com/cd/E14072_01/server.112/e10592/conditions007.htm# * sthref1994
{@link SQLDialect#POSTGRES}[search] ~ [pattern]POSIXhttp://www.postgresql.org/docs/9.1/static/functions-matching.html# * FUNCTIONS-POSIX-REGEXP
{@link SQLDialect#SQLITE}[search] REGEXP [pattern]? This module has to be loaded explicitlyhttp://www.sqlite.org/ * lang_expr.html
{@link SQLDialect#SQLSERVER}---
{@link SQLDialect#SYBASE}[search] REGEXP [pattern]Perlhttp://infocenter.sybase.com/help/topic/com.sybase.help.sqlanywhere.12.0 * .1/dbreference/like-regexp-similarto.html
* * @see #likeRegex(String) */ @Support({ CUBRID, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition likeRegex(String pattern); /** * Create a condition to regex-pattern-check this field against a pattern. *

* See {@link #likeRegex(String)} for more details * * @see #likeRegex(String) */ @Support({ CUBRID, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition likeRegex(Field pattern); /** * Create a condition to regex-pattern-check this field against a pattern. *

* See {@link #likeRegex(String)} for more details * * @see #likeRegex(String) */ @Support({ CUBRID, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition notLikeRegex(String pattern); /** * Create a condition to regex-pattern-check this field against a pattern. *

* See {@link #likeRegex(String)} for more details * * @see #likeRegex(Field) */ @Support({ CUBRID, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition notLikeRegex(Field pattern); // ------------------------------------------------------------------------ // LIKE predicates // ------------------------------------------------------------------------ /** * Create a condition to pattern-check this field against a value. *

* SQL: this like value */ @Support Condition like(Field value); /** * Create a condition to pattern-check this field against a value. *

* SQL: this like value escape 'e' */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition like(Field value, char escape); /** * Create a condition to pattern-check this field against a value. *

* SQL: this like value */ @Support Condition like(String value); /** * Create a condition to pattern-check this field against a value. *

* SQL: this like value escape 'e' */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition like(String value, char escape); /** * Create a condition to case-insensitively pattern-check this field against * a field. *

* This translates to this ilike field in * {@link SQLDialect#POSTGRES}, or to * lower(this) like lower(field) in all other dialects. */ @Support Condition likeIgnoreCase(Field field); /** * Create a condition to case-insensitively pattern-check this field against * a field. *

* This translates to this ilike field in * {@link SQLDialect#POSTGRES}, or to * lower(this) like lower(field) in all other dialects. */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition likeIgnoreCase(Field field, char escape); /** * Create a condition to case-insensitively pattern-check this field against * a value. *

* This translates to this ilike value in * {@link SQLDialect#POSTGRES}, or to * lower(this) like lower(value) in all other dialects. */ @Support Condition likeIgnoreCase(String value); /** * Create a condition to case-insensitively pattern-check this field against * a value. *

* This translates to this ilike value in * {@link SQLDialect#POSTGRES}, or to * lower(this) like lower(value) in all other dialects. */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition likeIgnoreCase(String value, char escape); /** * Create a condition to pattern-check this field against a field. *

* SQL: this not like field */ @Support Condition notLike(Field field); /** * Create a condition to pattern-check this field against a field. *

* SQL: this not like field escape 'e' */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition notLike(Field field, char escape); /** * Create a condition to pattern-check this field against a value. *

* SQL: this not like value */ @Support Condition notLike(String value); /** * Create a condition to pattern-check this field against a value. *

* SQL: this not like value escape 'e' */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition notLike(String value, char escape); /** * Create a condition to case-insensitively pattern-check this field against * a field. *

* This translates to this not ilike field in * {@link SQLDialect#POSTGRES}, or to * lower(this) not like lower(field) in all other dialects. */ @Support Condition notLikeIgnoreCase(Field field); /** * Create a condition to case-insensitively pattern-check this field against * a field. *

* This translates to this not ilike field in * {@link SQLDialect#POSTGRES}, or to * lower(this) not like lower(field) in all other dialects. */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition notLikeIgnoreCase(Field field, char escape); /** * Create a condition to case-insensitively pattern-check this field against * a value. *

* This translates to this not ilike value in * {@link SQLDialect#POSTGRES}, or to * lower(this) not like lower(value) in all other dialects. */ @Support Condition notLikeIgnoreCase(String value); /** * Create a condition to case-insensitively pattern-check this field against * a value. *

* This translates to this not ilike value in * {@link SQLDialect#POSTGRES}, or to * lower(this) not like lower(value) in all other dialects. */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition notLikeIgnoreCase(String value, char escape); /** * Convenience method for {@link #like(String, char)} including proper * adding of wildcards and escaping. *

* SQL: this like ('%' || escape(value, '\') || '%') escape '\' *

* Note: This also works with numbers, for instance * val(1133).contains(13) *

* If you're using {@link SQLDialect#POSTGRES}, then you can use this method * also to express the "ARRAY contains" operator. For example:

     * // Use this expression
     * val(new Integer[] { 1, 2, 3 }).contains(new Integer[] { 1, 2 })
     *
     * // ... to render this SQL
     * ARRAY[1, 2, 3] @> ARRAY[1, 2]
     * 
*

* Note, this does not correspond to the Oracle Text CONTAINS() * function. Refer to {@link OracleDSL#contains(Field, String)} instead. * * @see DSL#escape(String, char) * @see #like(String, char) */ @Support Condition contains(T value); /** * Convenience method for {@link #like(String, char)} including proper * adding of wildcards and escaping. *

* SQL: this like ('%' || escape(value, '\') || '%') escape '\' *

* Note: This also works with numbers, for instance * val(1133).contains(13) *

* If you're using {@link SQLDialect#POSTGRES}, then you can use this method * also to express the "ARRAY contains" operator. For example:

     * // Use this expression
     * val(new Integer[] { 1, 2, 3 }).contains(new Integer[] { 1, 2 })
     *
     * // ... to render this SQL
     * ARRAY[1, 2, 3] @> ARRAY[1, 2]
     * 
*

* Note, this does not correspond to the Oracle Text CONTAINS() * function. Refer to {@link OracleDSL#contains(Field, String)} instead. * * @see DSL#escape(Field, char) * @see #like(Field, char) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition contains(Field value); /** * Convenience method for {@link #like(String, char)} including proper * adding of wildcards and escaping. *

* SQL: this like (escape(value, '\') || '%') escape '\' *

* Note: This also works with numbers, for instance * val(1133).startsWith(11) * * @see DSL#escape(String, char) * @see #like(String, char) */ @Support Condition startsWith(T value); /** * Convenience method for {@link #like(String, char)} including proper * adding of wildcards and escaping. *

* SQL: this like (escape(value, '\') || '%') escape '\' *

* Note: This also works with numbers, for instance * val(1133).startsWith(11) * * @see DSL#escape(Field, char) * @see #like(Field, char) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition startsWith(Field value); /** * Convenience method for {@link #like(String, char)} including proper * adding of wildcards and escaping. *

* SQL: this like ('%' || escape(value, '\')) escape '\' *

* Note: This also works with numbers, for instance * val(1133).endsWith(33) * * @see DSL#escape(String, char) * @see #like(String, char) */ @Support Condition endsWith(T value); /** * Convenience method for {@link #like(String, char)} including proper * adding of wildcards and escaping. *

* SQL: this like ('%' || escape(value, '\')) escape '\' *

* Note: This also works with numbers, for instance * val(1133).endsWith(33) * * @see DSL#escape(Field, char) * @see #like(Field, char) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Condition endsWith(Field value); // ------------------------------------------------------------------------ // IN predicates // ------------------------------------------------------------------------ /** * Create a condition to check this field against several values. *

* SQL: this in (values...) */ @Support Condition in(Collection values); /** * Create a condition to check this field against several values from a * previous query. *

* SQL: this in (values...) */ Condition in(Result> result); /** * Create a condition to check this field against several values. *

* SQL: this in (values...) */ @Support Condition in(T... values); /** * Create a condition to check this field against several values. *

* SQL: this in (values...) */ @Support Condition in(Field... values); /** * Create a condition to check this field against a subquery. *

* Note that the subquery must return exactly one field. This is not checked * by jOOQ and will result in syntax errors in the database, if not used * correctly. *

* SQL: this in (select...) */ @Support Condition in(Select> query); /** * Create a condition to check this field against several values. *

* Note that if any of the passed values is NULL, then the * condition will be NULL (or false, depending on * the dialect) as well. This is standard SQL behaviour. *

* SQL: this not in (values...) */ @Support Condition notIn(Collection values); /** * Create a condition to check this field against several values from a * previous query. *

* Note that if any of the passed values is NULL, then the * condition will be NULL (or false, depending on * the dialect) as well. This is standard SQL behaviour. *

* SQL: this in (values...) */ Condition notIn(Result> result); /** * Create a condition to check this field against several values. *

* Note that if any of the passed values is NULL, then the * condition will be NULL (or false, depending on * the dialect) as well. This is standard SQL behaviour. *

* SQL: this not in (values...) */ @Support Condition notIn(T... values); /** * Create a condition to check this field against several values. *

* Note that if any of the passed values is NULL, then the * condition will be NULL (or false, depending on * the dialect) as well. This is standard SQL behaviour. *

* SQL: this not in (values...) */ @Support Condition notIn(Field... values); /** * Create a condition to check this field against a subquery. *

* Note that the subquery must return exactly one field. This is not checked * by jOOQ and will result in syntax errors in the database, if not used * correctly. *

* Note that if any of the passed values is NULL, then the * condition will be NULL (or false, depending on * the dialect) as well. This is standard SQL behaviour. *

* SQL: this not in (select...) */ @Support Condition notIn(Select> query); // ------------------------------------------------------------------------ // BETWEEN predicates // ------------------------------------------------------------------------ /** * Create a condition to check this field against some bounds. *

* This is the same as calling between(minValue).and(maxValue) *

* SQL: this between minValue and maxValue */ @Support Condition between(T minValue, T maxValue); /** * Create a condition to check this field against some bounds. *

* This is the same as calling between(minValue).and(maxValue) *

* SQL: this between minValue and maxValue */ @Support Condition between(Field minValue, Field maxValue); /** * Create a condition to check this field against some bounds. *

* This is the same as calling * betweenSymmetric(minValue).and(maxValue) *

* SQL: this between symmetric minValue and maxValue */ @Support Condition betweenSymmetric(T minValue, T maxValue); /** * Create a condition to check this field against some bounds. *

* This is the same as calling * betweenSymmetric(minValue).and(maxValue) *

* SQL: this between symmetric minValue and maxValue */ @Support Condition betweenSymmetric(Field minValue, Field maxValue); /** * Create a condition to check this field against some bounds. *

* This is the same as calling * notBetween(minValue).and(maxValue) *

* SQL: this not between minValue and maxValue */ @Support Condition notBetween(T minValue, T maxValue); /** * Create a condition to check this field against some bounds. *

* This is the same as calling * notBetween(minValue).and(maxValue) *

* SQL: this not between minValue and maxValue */ @Support Condition notBetween(Field minValue, Field maxValue); /** * Create a condition to check this field against some bounds. *

* This is the same as calling * notBetweenSymmetric(minValue).and(maxValue) *

* SQL: this not between symmetric minValue and maxValue */ @Support Condition notBetweenSymmetric(T minValue, T maxValue); /** * Create a condition to check this field against some bounds. *

* This is the same as calling * notBetweenSymmetric(minValue).and(maxValue) *

* SQL: this not between symmetric minValue and maxValue */ @Support Condition notBetweenSymmetric(Field minValue, Field maxValue); /** * Create a condition to check this field against some bounds. *

* SQL: this between minValue and maxValue */ @Support BetweenAndStep between(T minValue); /** * Create a condition to check this field against some bounds. *

* SQL: this between minValue and maxValue */ @Support BetweenAndStep between(Field minValue); /** * Create a condition to check this field against some bounds. *

* SQL: this between symmetric minValue and maxValue */ @Support BetweenAndStep betweenSymmetric(T minValue); /** * Create a condition to check this field against some bounds. *

* SQL: this between symmetric minValue and maxValue */ @Support BetweenAndStep betweenSymmetric(Field minValue); /** * Create a condition to check this field against some bounds. *

* SQL: this not between minValue and maxValue */ @Support BetweenAndStep notBetween(T minValue); /** * Create a condition to check this field against some bounds. *

* SQL: this not between minValue and maxValue */ @Support BetweenAndStep notBetween(Field minValue); /** * Create a condition to check this field against some bounds. *

* SQL: this not between symmetric minValue and maxValue */ @Support BetweenAndStep notBetweenSymmetric(T minValue); /** * Create a condition to check this field against some bounds. *

* SQL: this not between symmetric minValue and maxValue */ @Support BetweenAndStep notBetweenSymmetric(Field minValue); // ------------------------------------------------------------------------ // Dynamic comparison predicates // ------------------------------------------------------------------------ /** * Compare this field with a value using a dynamic comparator. * * @param comparator The comparator to use for comparing this field with a * value * @param value The value to compare this field with * @return A comparison predicate */ @Support Condition compare(Comparator comparator, T value); /** * Compare this field with another field using a dynamic comparator. * * @param comparator The comparator to use for comparing this field with * another field * @param field The field to compare this field with * @return A comparison predicate */ @Support Condition compare(Comparator comparator, Field field); /** * Compare this field with a subselect using a dynamic comparator. *

* Consider {@link Comparator#supportsSubselect()} to assess whether a * comparator can be used with this method. * * @param comparator The comparator to use for comparing this field with a * subselect * @param query The subselect to compare this field with * @return A comparison predicate */ @Support Condition compare(Comparator comparator, Select> query); /** * Compare this field with a quantified subselect using a dynamic * comparator. *

* Consider {@link Comparator#supportsQuantifier()} to assess whether a * comparator can be used with this method. * * @param comparator The comparator to use for comparing this field with a * quantified subselect * @param query The quantified subselect to compare this field with * @return A comparison predicate */ @Support Condition compare(Comparator comparator, QuantifiedSelect> query); // ------------------------------------------------------------------------ // Comparison predicates // ------------------------------------------------------------------------ /** * this = value. */ @Support Condition equal(T value); /** * this = field. */ @Support Condition equal(Field field); /** * this = (Select ...). */ @Support Condition equal(Select> query); /** * this = [quantifier] (Select ...). * * @see DSL#all(Field) * @see DSL#all(Select) * @see DSL#all(Object...) * @see DSL#any(Field) * @see DSL#any(Select) * @see DSL#any(Object...) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Condition equal(QuantifiedSelect> query); /** * this = value. * * @see #equal(Object) */ @Support Condition eq(T value); /** * this = field. * * @see #equal(Field) */ @Support Condition eq(Field field); /** * this = (Select ...). * * @see #equal(Select) */ @Support Condition eq(Select> query); /** * this = [quantifier] (Select ...). * * @see DSL#all(Field) * @see DSL#all(Select) * @see DSL#all(Object...) * @see DSL#any(Field) * @see DSL#any(Select) * @see DSL#any(Object...) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Condition eq(QuantifiedSelect> query); /** * this != value. */ @Support Condition notEqual(T value); /** * this != field. */ @Support Condition notEqual(Field field); /** * this != (Select ...). */ @Support Condition notEqual(Select> query); /** * this != [quantifier] (Select ...). * * @see DSL#all(Field) * @see DSL#all(Select) * @see DSL#all(Object...) * @see DSL#any(Field) * @see DSL#any(Select) * @see DSL#any(Object...) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Condition notEqual(QuantifiedSelect> query); /** * this != value. * * @see #notEqual(Object) */ @Support Condition ne(T value); /** * this != field. * * @see #notEqual(Field) */ @Support Condition ne(Field field); /** * this != (Select ...). * * @see #notEqual(Select) */ @Support Condition ne(Select> query); /** * this != [quantifier] (Select ...). * * @see DSL#all(Field) * @see DSL#all(Select) * @see DSL#all(Object...) * @see DSL#any(Field) * @see DSL#any(Select) * @see DSL#any(Object...) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Condition ne(QuantifiedSelect> query); /** * this < value. */ @Support Condition lessThan(T value); /** * this < field. */ @Support Condition lessThan(Field field); /** * this < (Select ...). */ @Support Condition lessThan(Select> query); /** * this < [quantifier] (Select ...). * * @see DSL#all(Field) * @see DSL#all(Select) * @see DSL#all(Object...) * @see DSL#any(Field) * @see DSL#any(Select) * @see DSL#any(Object...) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Condition lessThan(QuantifiedSelect> query); /** * this < value. * * @see #lessThan(Object) */ @Support Condition lt(T value); /** * this < field. * * @see #lessThan(Field) */ @Support Condition lt(Field field); /** * this < (Select ...). * * @see #lessThan(Select) */ @Support Condition lt(Select> query); /** * this < [quantifier] (Select ...). * * @see DSL#all(Field) * @see DSL#all(Select) * @see DSL#all(Object...) * @see DSL#any(Field) * @see DSL#any(Select) * @see DSL#any(Object...) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Condition lt(QuantifiedSelect> query); /** * this <= value. */ @Support Condition lessOrEqual(T value); /** * this <= field. */ @Support Condition lessOrEqual(Field field); /** * this <= (Select ...). */ @Support Condition lessOrEqual(Select> query); /** * this <= [quantifier] (Select ...). * * @see DSL#all(Field) * @see DSL#all(Select) * @see DSL#all(Object...) * @see DSL#any(Field) * @see DSL#any(Select) * @see DSL#any(Object...) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Condition lessOrEqual(QuantifiedSelect> query); /** * this <= value. * * @see #lessOrEqual(Object) */ @Support Condition le(T value); /** * this <= field. * * @see #lessOrEqual(Field) */ @Support Condition le(Field field); /** * this <= (Select ...). * * @see #lessOrEqual(Select) */ @Support Condition le(Select> query); /** * this <= [quantifier] (Select ...). * * @see DSL#all(Field) * @see DSL#all(Select) * @see DSL#all(Object...) * @see DSL#any(Field) * @see DSL#any(Select) * @see DSL#any(Object...) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Condition le(QuantifiedSelect> query); /** * this > value. */ @Support Condition greaterThan(T value); /** * this > field. */ @Support Condition greaterThan(Field field); /** * this > (Select ...). */ @Support Condition greaterThan(Select> query); /** * this > [quantifier] (Select ...). * * @see DSL#all(Field) * @see DSL#all(Select) * @see DSL#all(Object...) * @see DSL#any(Field) * @see DSL#any(Select) * @see DSL#any(Object...) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Condition greaterThan(QuantifiedSelect> query); /** * this > value. * * @see #greaterThan(Object) */ @Support Condition gt(T value); /** * this > field. * * @see #greaterThan(Field) */ @Support Condition gt(Field field); /** * this > (Select ...). * * @see #greaterThan(Select) */ @Support Condition gt(Select> query); /** * this > [quantifier] (Select ...). * * @see DSL#all(Field) * @see DSL#all(Select) * @see DSL#all(Object...) * @see DSL#any(Field) * @see DSL#any(Select) * @see DSL#any(Object...) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Condition gt(QuantifiedSelect> query); /** * this >= value. */ @Support Condition greaterOrEqual(T value); /** * this >= field. */ @Support Condition greaterOrEqual(Field field); /** * this >= (Select ...). */ @Support Condition greaterOrEqual(Select> query); /** * this >= [quantifier] (Select ...). * * @see DSL#all(Field) * @see DSL#all(Select) * @see DSL#all(Object...) * @see DSL#any(Field) * @see DSL#any(Select) * @see DSL#any(Object...) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Condition greaterOrEqual(QuantifiedSelect> query); /** * this >= value. * * @see #greaterOrEqual(Object) */ @Support Condition ge(T value); /** * this >= field. * * @see #greaterOrEqual(Field) */ @Support Condition ge(Field field); /** * this >= (Select ...). * * @see #greaterOrEqual(Select) */ @Support Condition ge(Select> query); /** * this >= [quantifier] (Select ...). * * @see DSL#all(Field) * @see DSL#all(Select) * @see DSL#all(Object...) * @see DSL#any(Field) * @see DSL#any(Select) * @see DSL#any(Object...) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Condition ge(QuantifiedSelect> query); /** * Create a condition to check this field against known string literals for * true. *

* SQL: * lcase(this) in ("1", "y", "yes", "true", "on", "enabled") */ @Support Condition isTrue(); /** * Create a condition to check this field against known string literals for * false. *

* SQL: * lcase(this) in ("0", "n", "no", "false", "off", "disabled") */ @Support Condition isFalse(); /** * lower(this) = lower(value). */ @Support Condition equalIgnoreCase(String value); /** * lower(this) = lower(value). */ @Support Condition equalIgnoreCase(Field value); /** * lower(this) != lower(value). */ @Support Condition notEqualIgnoreCase(String value); /** * lower(this) != lower(value). */ @Support Condition notEqualIgnoreCase(Field value); // ------------------------------------------------------------------------ // Pre-2.0 API. This API is maintained for backwards-compatibility. It will // be removed in the future. Consider using equivalent methods from // org.jooq.impl.DSL // ------------------------------------------------------------------------ /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#sign(Field) */ @Support Field sign(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#abs(Field) */ @Support Field abs(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#round(Field) */ @Support Field round(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#round(Field, int) */ @Support Field round(int decimals); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#floor(Field) */ @Support Field floor(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#ceil(Field) */ @Support Field ceil(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#sqrt(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field sqrt(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#exp(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field exp(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#ln(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field ln(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#log(Field, int) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field log(int base); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#power(Field, Number) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field pow(Number exponent); /** * An alias for {@link #power(Number)}. * * @see #power(Number) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field power(Number exponent); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#acos(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field acos(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#asin(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field asin(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#atan(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field atan(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#atan2(Field, Number) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field atan2(Number y); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#atan2(Field, Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field atan2(Field y); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#cos(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field cos(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#sin(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field sin(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#tan(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field tan(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#cot(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field cot(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#sinh(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field sinh(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#cosh(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field cosh(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#tanh(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field tanh(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#coth(Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field coth(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#deg(Field) */ @Support Field deg(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#rad(Field) */ @Support Field rad(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#count(Field) */ @Support Field count(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#countDistinct(Field) */ @Support Field countDistinct(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#max(Field) */ @Support Field max(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#min(Field) */ @Support Field min(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#sum(Field) */ @Support Field sum(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#avg(Field) */ @Support Field avg(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#median(Field) */ @Support({ CUBRID, HSQLDB }) Field median(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#stddevPop(Field) */ @Support({ CUBRID, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field stddevPop(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#stddevSamp(Field) */ @Support({ CUBRID, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field stddevSamp(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#varPop(Field) */ @Support({ CUBRID, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field varPop(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#varSamp(Field) */ @Support({ CUBRID, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field varSamp(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#count(Field) * @see AggregateFunction#over() */ @Support({ CUBRID, POSTGRES }) WindowPartitionByStep countOver(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#max(Field) * @see AggregateFunction#over() */ @Support({ CUBRID, POSTGRES }) WindowPartitionByStep maxOver(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#min(Field) * @see AggregateFunction#over() */ @Support({ CUBRID, POSTGRES }) WindowPartitionByStep minOver(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#sum(Field) * @see AggregateFunction#over() */ @Support({ CUBRID, POSTGRES }) WindowPartitionByStep sumOver(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#avg(Field) * @see AggregateFunction#over() */ @Support({ CUBRID, POSTGRES }) WindowPartitionByStep avgOver(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#firstValue(Field) * @see AggregateFunction#over() */ @Support({ CUBRID, POSTGRES }) WindowIgnoreNullsStep firstValue(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lastValue(Field) * @see AggregateFunction#over() */ @Support({ CUBRID, POSTGRES }) WindowIgnoreNullsStep lastValue(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lead(Field) * @see AggregateFunction#over() */ @Support({ POSTGRES }) WindowIgnoreNullsStep lead(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lead(Field, int) * @see AggregateFunction#over() */ @Support({ POSTGRES }) WindowIgnoreNullsStep lead(int offset); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lead(Field, int, Object) * @see AggregateFunction#over() */ @Support({ POSTGRES }) WindowIgnoreNullsStep lead(int offset, T defaultValue); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lead(Field, int, Field) * @see AggregateFunction#over() */ @Support({ POSTGRES }) WindowIgnoreNullsStep lead(int offset, Field defaultValue); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lag(Field) * @see AggregateFunction#over() */ @Support({ POSTGRES }) WindowIgnoreNullsStep lag(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lag(Field, int) * @see AggregateFunction#over() */ @Support({ POSTGRES }) WindowIgnoreNullsStep lag(int offset); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lag(Field, int, Object) * @see AggregateFunction#over() */ @Support({ POSTGRES }) WindowIgnoreNullsStep lag(int offset, T defaultValue); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lag(Field, int, Field) * @see AggregateFunction#over() */ @Support({ POSTGRES }) WindowIgnoreNullsStep lag(int offset, Field defaultValue); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#stddevPop(Field) * @see AggregateFunction#over() */ @Support({ CUBRID, POSTGRES }) WindowPartitionByStep stddevPopOver(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#stddevSamp(Field) * @see AggregateFunction#over() */ @Support({ CUBRID, POSTGRES }) WindowPartitionByStep stddevSampOver(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#varPop(Field) * @see AggregateFunction#over() */ @Support({ CUBRID, POSTGRES }) WindowPartitionByStep varPopOver(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#varSamp(Field) * @see AggregateFunction#over() */ @Support({ CUBRID, POSTGRES }) WindowPartitionByStep varSampOver(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#upper(Field) */ @Support Field upper(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lower(Field) */ @Support Field lower(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#trim(Field) */ @Support Field trim(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#rtrim(Field) */ @Support Field rtrim(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#ltrim(Field) */ @Support Field ltrim(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#rpad(Field, Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field rpad(Field length); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#rpad(Field, int) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field rpad(int length); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#rpad(Field, Field, Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field rpad(Field length, Field character); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#rpad(Field, int, char) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field rpad(int length, char character); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lpad(Field, Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field lpad(Field length); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lpad(Field, int) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field lpad(int length); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lpad(Field, Field, Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field lpad(Field length, Field character); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#lpad(Field, int, char) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field lpad(int length, char character); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#repeat(Field, int) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field repeat(Number count); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#repeat(Field, Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field repeat(Field count); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#replace(Field, Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field replace(Field search); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#replace(Field, String) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field replace(String search); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#replace(Field, Field, Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field replace(Field search, Field replace); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#replace(Field, String, String) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES, SQLITE }) Field replace(String search, String replace); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#position(Field, String) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field position(String search); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#position(Field, Field) */ @Support({ CUBRID, DERBY, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field position(Field search); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#ascii(Field) */ @Support({ CUBRID, FIREBIRD, H2, HSQLDB, MARIADB, MYSQL, POSTGRES }) Field ascii(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#concat(Field...) */ @Support Field concat(Field... fields); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#concat(String...) */ @Support Field concat(String... values); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#substring(Field, int) */ @Support Field substring(int startingPosition); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#substring(Field, Field) */ @Support Field substring(Field startingPosition); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#substring(Field, int, int) */ @Support Field substring(int startingPosition, int length); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#substring(Field, Field, Field) */ @Support Field substring(Field startingPosition, Field length); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#length(Field) */ @Support Field length(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#charLength(Field) */ @Support Field charLength(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#bitLength(Field) */ @Support Field bitLength(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#octetLength(Field) */ @Support Field octetLength(); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#extract(Field, DatePart) */ @Support Field extract(DatePart datePart); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#greatest(Field, Field...) */ @Support Field greatest(T... others); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#greatest(Field, Field...) */ @Support Field greatest(Field... others); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#least(Field, Field...) */ @Support Field least(T... others); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#least(Field, Field...) */ @Support Field least(Field... others); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#nvl(Field, Object) */ @Support Field nvl(T defaultValue); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#nvl(Field, Field) */ @Support Field nvl(Field defaultValue); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#nvl2(Field, Object, Object) */ @Support Field nvl2(Z valueIfNotNull, Z valueIfNull); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#nvl2(Field, Field, Field) */ @Support Field nvl2(Field valueIfNotNull, Field valueIfNull); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#nullif(Field, Object) */ @Support Field nullif(T other); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#nullif(Field, Field) */ @Support Field nullif(Field other); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#decode(Object, Object, Object) */ @Support Field decode(T search, Z result); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#decode(Object, Object, Object, Object...) */ @Support Field decode(T search, Z result, Object... more); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#decode(Field, Field, Field) */ @Support Field decode(Field search, Field result); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#decode(Field, Field, Field, Field...) */ @Support Field decode(Field search, Field result, Field... more); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#coalesce(Object, Object...) */ @Support Field coalesce(T option, T... options); /** * This method is part of the pre-2.0 API. This API is maintained for * backwards-compatibility. It may be removed in the future. Consider using * equivalent methods from {@link DSLContext} * * @see DSL#coalesce(Field, Field...) */ @Support Field coalesce(Field option, Field... options); /* [pro] xx xxx x xxxx xxxx xxxxx xxxx xx xxxxxxxxxxxxxxx xxxxx xxx xxx xx xxxxxxxxxx x xxxxxxxxxxx x xxx x xxxxxxxx x xxx x xxxxxxxxxxx x xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx x xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx x xxxxxxxxxxxxx x xxx x xxx xxxxx xxxx xxxxxxxx x xxx x xxxxxxxxxxx x xxxxxxxxxxxxx x xxxxxxxxxx x xxxxxxxxxx x xxxxxxxxxxxxx x xxxxxxxxxxxxx xx xxxxxxxxxxxxxxxx xxxxxxxx xxxxxxx xx [/pro] */ }





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