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/*
 * 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
 *
 *  https://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.
 *
 * Other licenses:
 * -----------------------------------------------------------------------------
 * Commercial licenses for this work are available. These replace the above
 * ASL 2.0 and offer limited warranties, support, maintenance, and commercial
 * database integrations.
 *
 * For more information, please visit: https://www.jooq.org/legal/licensing
 *
 *
 *
 *
 *
 *
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 *
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 *
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 *
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 *
 *
 */
package org.jooq;

import static org.jooq.SQLDialect.*;

import java.util.Collection;
import java.util.function.Function;

import org.jooq.conf.Settings;
import org.jooq.impl.DSL;

import org.jetbrains.annotations.NotNull;

/**
 * A row value expression.
 * 

 * Row value expressions are mainly useful for use in predicates, when comparing
 * several values in one go, which can be more elegant than expanding the row
 * value expression predicate in other equivalent syntaxes. This is especially
 * true for non-equality predicates. For instance, the following two predicates
 * are equivalent in SQL:
 * 

 * 

 * (A, B) > (X, Y)
 * (A > X) OR (A = X AND B > Y)
 * 
 * 

 * Example:
 * 

 * 

 * // Assuming import static org.jooq.impl.DSL.*;
 *
 * using(configuration)
 *    .select()
 *    .from(CUSTOMER)
 *    .where(row(CUSTOMER.FIRST_NAME, CUSTOMER.LAST_NAME).in(
 *        select(ACTOR.FIRST_NAME, ACTOR.LAST_NAME).from(ACTOR)
 *    ))
 *    .fetch();
 * 
 * 

 * 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.
 * 

 * Instances can be created using {@link DSL#row(Object...)} and overloads.
 *
 * @author Lukas Eder
 */
public interface Row15 extends Row, SelectField> {

    // ------------------------------------------------------------------------
    // Mapping convenience methods
    // ------------------------------------------------------------------------

    /**
     * A convenience method to define a local {@link Record15} to custom type
     * {@link RecordMapper} that can be used when projecting {@link Row} types
     * in SELECT or RETURNING clauses.
     * 

     * This calls through to {@link #convertFrom(Function)}, offering some
     * deconstruction over the {@link Record15}'s individual component values.
     * 

     * Unlike {@link #mapping(Class, Function15)}, this method attempts to work
     * without an explicit {@link Class} reference for the underlying
     * {@link Converter#toType()}. There may be some edge cases where this
     * doesn't work, e.g. when nesting rows in arrays, the class literal is
     * required for reflective array creation.
     * 

     * Combine this with e.g. {@link Functions#nullOnAllNull(Function15)} or
     * {@link Functions#nullOnAnyNull(Function15)} to achieve null
     * safety when mapping nested rows from LEFT JOIN etc.
     */
    @NotNull
     SelectField mapping(Function15 function);

    /**
     * A convenience method to define a local {@link Record15} to custom type
     * {@link RecordMapper} that can be used when projecting {@link Row} types in
     * SELECT or RETURNING clauses.
     * 

     * This calls through to {@link #convertFrom(Class, Function)}, offering
     * some deconstruction over the {@link Record15}'s individual component
     * values.
     * 

     * Combine this with e.g. {@link Functions#nullOnAllNull(Function15)} or
     * {@link Functions#nullOnAnyNull(Function15)} to achieve null
     * safety when mapping nested rows from LEFT JOIN etc.
     */
    @NotNull
     SelectField mapping(Class uType, Function15 function);

    // ------------------------------------------------------------------------
    // Field accessors
    // ------------------------------------------------------------------------

    /**
     * Get the first field.
     */
    @NotNull
    Field field1();

    /**
     * Get the second field.
     */
    @NotNull
    Field field2();

    /**
     * Get the third field.
     */
    @NotNull
    Field field3();

    /**
     * Get the fourth field.
     */
    @NotNull
    Field field4();

    /**
     * Get the fifth field.
     */
    @NotNull
    Field field5();

    /**
     * Get the sixth field.
     */
    @NotNull
    Field field6();

    /**
     * Get the seventh field.
     */
    @NotNull
    Field field7();

    /**
     * Get the eighth field.
     */
    @NotNull
    Field field8();

    /**
     * Get the ninth field.
     */
    @NotNull
    Field field9();

    /**
     * Get the tenth field.
     */
    @NotNull
    Field field10();

    /**
     * Get the eleventh field.
     */
    @NotNull
    Field field11();

    /**
     * Get the twelfth field.
     */
    @NotNull
    Field field12();

    /**
     * Get the thirteenth field.
     */
    @NotNull
    Field field13();

    /**
     * Get the fourteenth field.
     */
    @NotNull
    Field field14();

    /**
     * Get the fifteenth field.
     */
    @NotNull
    Field field15();

    // ------------------------------------------------------------------------
    // Generic comparison predicates
    // ------------------------------------------------------------------------

    /**
     * Compare this row value expression with another row value expression
     * using a dynamic comparator.
     * 

     * See the explicit comparison methods for details. Note, not all
     * {@link Comparator} types are supported
     *
     * @see #equal(Row15)
     * @see #notEqual(Row15)
     * @see #lessThan(Row15)
     * @see #lessOrEqual(Row15)
     * @see #greaterThan(Row15)
     * @see #greaterOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition compare(Comparator comparator, Row15 row);

    /**
     * Compare this row value expression with a record
     * using a dynamic comparator.
     * 

     * See the explicit comparison methods for details. Note, not all
     * {@link Comparator} types are supported
     *
     * @see #equal(Record15)
     * @see #notEqual(Record15)
     * @see #lessThan(Record15)
     * @see #lessOrEqual(Record15)
     * @see #greaterThan(Record15)
     * @see #greaterOrEqual(Record15)
     */
    @NotNull
    @Support
    Condition compare(Comparator comparator, Record15 record);

    /**
     * Compare this row value expression with another row value expression
     * using a dynamic comparator.
     * 

     * See the explicit comparison methods for details. Note, not all
     * {@link Comparator} types are supported
     *
     * @see #equal(Row15)
     * @see #notEqual(Row15)
     * @see #lessThan(Row15)
     * @see #lessOrEqual(Row15)
     * @see #greaterThan(Row15)
     * @see #greaterOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition compare(Comparator comparator, 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);

    /**
     * Compare this row value expression with another row value expression
     * using a dynamic comparator.
     * 

     * See the explicit comparison methods for details. Note, not all
     * {@link Comparator} types are supported
     *
     * @see #equal(Row15)
     * @see #notEqual(Row15)
     * @see #lessThan(Row15)
     * @see #lessOrEqual(Row15)
     * @see #greaterThan(Row15)
     * @see #greaterOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition compare(Comparator comparator, Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with a subselect
     * using a dynamic comparator.
     * 

     * See the explicit comparison methods for details. Note, not all
     * {@link Comparator} types are supported
     *
     * @see #equal(Select)
     * @see #notEqual(Select)
     * @see #lessThan(Select)
     * @see #lessOrEqual(Select)
     * @see #greaterThan(Select)
     * @see #greaterOrEqual(Select)
     */
    @NotNull
    @Support
    Condition compare(Comparator comparator, Select> select);

    /**
     * Compare this row value expression with a subselect
     * using a dynamic comparator.
     * 

     * See the explicit comparison methods for details. Note, not all
     * {@link Comparator} types are supported
     *
     * @see #equal(Select)
     * @see #notEqual(Select)
     * @see #lessThan(Select)
     * @see #lessOrEqual(Select)
     * @see #greaterThan(Select)
     * @see #greaterOrEqual(Select)
     */
    @NotNull
    @Support
    Condition compare(Comparator comparator, QuantifiedSelect> select);

    // ------------------------------------------------------------------------
    // Equal / Not equal comparison predicates
    // ------------------------------------------------------------------------

    /**
     * Compare this row value expression with another row value expression for
     * equality.
     * 

     * Row equality comparison predicates can be emulated in those databases
     * that do not support such predicates natively:
     * (A, B) = (1, 2) is equivalent to
     * A = 1 AND B = 2
     */
    @NotNull
    @Support
    Condition equal(Row15 row);

    /**
     * Compare this row value expression with a record for equality.
     *
     * @see #equal(Row15)
     */
    @NotNull
    @Support
    Condition equal(Record15 record);

    /**
     * Compare this row value expression with another row value expression for
     * equality.
     *
     * @see #equal(Row15)
     */
    @NotNull
    @Support
    Condition equal(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);

    /**
     * Compare this row value expression with another row value expression for
     * equality.
     *
     * @see #equal(Row15)
     */
    @NotNull
    @Support
    Condition equal(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with a subselect for equality.
     *
     * @see #equal(Row15)
     */
    @NotNull
    @Support
    Condition equal(Select> select);

    /**
     * Compare this row value expression with a subselect for equality.
     *
     * @see DSL#all(Field)
     * @see DSL#all(Select)
     * @see DSL#all(Object...)
     * @see DSL#any(Field)
     * @see DSL#any(Select)
     * @see DSL#any(Object...)
     */
    @NotNull
    @Support
    Condition equal(QuantifiedSelect> select);

    /**
     * Compare this row value expression with another row value expression for
     * equality.
     *
     * @see #equal(Row15)
     */
    @NotNull
    @Support
    Condition eq(Row15 row);

    /**
     * Compare this row value expression with a record for equality.
     *
     * @see #equal(Row15)
     */
    @NotNull
    @Support
    Condition eq(Record15 record);

    /**
     * Compare this row value expression with another row value expression for
     * equality.
     *
     * @see #equal(Row15)
     */
    @NotNull
    @Support
    Condition eq(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);

    /**
     * Compare this row value expression with another row value expression for
     * equality.
     *
     * @see #equal(Row15)
     */
    @NotNull
    @Support
    Condition eq(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with a subselect for equality.
     *
     * @see #equal(Row15)
     */
    @NotNull
    @Support
    Condition eq(Select> select);

    /**
     * Compare this row value expression with a subselect for equality.
     *
     * @see DSL#all(Field)
     * @see DSL#all(Select)
     * @see DSL#all(Object...)
     * @see DSL#any(Field)
     * @see DSL#any(Select)
     * @see DSL#any(Object...)
     */
    @NotNull
    @Support
    Condition eq(QuantifiedSelect> select);

    /**
     * Compare this row value expression with another row value expression for
     * non-equality.
     * 

     * Row non-equality comparison predicates can be emulated in those
     * databases that do not support such predicates natively:
     * (A, B) <> (1, 2) is equivalent to
     * NOT(A = 1 AND B = 2)
     */
    @NotNull
    @Support
    Condition notEqual(Row15 row);

    /**
     * Compare this row value expression with a record for non-equality
     *
     * @see #notEqual(Row15)
     */
    @NotNull
    @Support
    Condition notEqual(Record15 record);

    /**
     * Compare this row value expression with another row value expression for.
     * non-equality
     *
     * @see #notEqual(Row15)
     */
    @NotNull
    @Support
    Condition notEqual(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);

    /**
     * Compare this row value expression with another row value expression for
     * non-equality.
     *
     * @see #notEqual(Row15)
     */
    @NotNull
    @Support
    Condition notEqual(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with a subselect for non-equality.
     *
     * @see #notEqual(Row15)
     */
    @NotNull
    @Support
    Condition notEqual(Select> select);

    /**
     * Compare this row value expression with a subselect for non-equality.
     *
     * @see DSL#all(Field)
     * @see DSL#all(Select)
     * @see DSL#all(Object...)
     * @see DSL#any(Field)
     * @see DSL#any(Select)
     * @see DSL#any(Object...)
     */
    @NotNull
    @Support
    Condition notEqual(QuantifiedSelect> select);

    /**
     * Compare this row value expression with another row value expression for
     * non-equality.
     *
     * @see #notEqual(Row15)
     */
    @NotNull
    @Support
    Condition ne(Row15 row);

    /**
     * Compare this row value expression with a record for non-equality.
     *
     * @see #notEqual(Row15)
     */
    @NotNull
    @Support
    Condition ne(Record15 record);

    /**
     * Compare this row value expression with another row value expression for
     * non-equality.
     *
     * @see #notEqual(Row15)
     */
    @NotNull
    @Support
    Condition ne(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);

    /**
     * Compare this row value expression with another row value expression for
     * non-equality.
     *
     * @see #notEqual(Row15)
     */
    @NotNull
    @Support
    Condition ne(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with a subselect for non-equality.
     *
     * @see #notEqual(Row15)
     */
    @NotNull
    @Support
    Condition ne(Select> select);

    /**
     * Compare this row value expression with a subselect for non-equality.
     *
     * @see DSL#all(Field)
     * @see DSL#all(Select)
     * @see DSL#all(Object...)
     * @see DSL#any(Field)
     * @see DSL#any(Select)
     * @see DSL#any(Object...)
     */
    @NotNull
    @Support
    Condition ne(QuantifiedSelect> select);

    // ------------------------------------------------------------------------
    // [NOT] DISTINCT predicates
    // ------------------------------------------------------------------------

    /**
     * Compare this row value expression with another row value expression for
     * distinctness.
     */
    @NotNull
    @Support
    Condition isDistinctFrom(Row15 row);

    /**
     * Compare this row value expression with another row value expression for
     * distinctness.
     */
    @NotNull
    @Support
    Condition isDistinctFrom(Record15 record);

    /**
     * Compare this row value expression with another row value expression for
     * distinctness.
     */
    @NotNull
    @Support
    Condition isDistinctFrom(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);

    /**
     * Compare this row value expression with another row value expression for
     * distinctness.
     */
    @NotNull
    @Support
    Condition isDistinctFrom(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with another row value expression for
     * distinctness.
     */
    @NotNull
    @Support
    Condition isDistinctFrom(Select> select);

    /**
     * Compare this row value expression with another row value expression for
     * distinctness.
     */
    @NotNull
    @Support
    Condition isNotDistinctFrom(Row15 row);

    /**
     * Compare this row value expression with another row value expression for
     * distinctness.
     */
    @NotNull
    @Support
    Condition isNotDistinctFrom(Record15 record);

    /**
     * Compare this row value expression with another row value expression for
     * distinctness.
     */
    @NotNull
    @Support
    Condition isNotDistinctFrom(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);

    /**
     * Compare this row value expression with another row value expression for
     * distinctness.
     */
    @NotNull
    @Support
    Condition isNotDistinctFrom(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with another row value expression for
     * distinctness.
     */
    @NotNull
    @Support
    Condition isNotDistinctFrom(Select> select);

    // ------------------------------------------------------------------------
    // Ordering comparison predicates
    // ------------------------------------------------------------------------

    /**
     * Compare this row value expression with another row value expression for
     * order.
     * 

     * Row order comparison predicates can be emulated in those
     * databases that do not support such predicates natively:
     * (A, B, C) < (1, 2, 3) is equivalent to
     * A < 1 OR (A = 1 AND B < 2) OR (A = 1 AND B = 2 AND C < 3)
     */
    @NotNull
    @Support
    Condition lessThan(Row15 row);

    /**
     * Compare this row value expression with a record for order.
     *
     * @see #lessThan(Row15)
     */
    @NotNull
    @Support
    Condition lessThan(Record15 record);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #lessThan(Row15)
     */
    @NotNull
    @Support
    Condition lessThan(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);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #lessThan(Row15)
     */
    @NotNull
    @Support
    Condition lessThan(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see #lessThan(Row15)
     */
    @NotNull
    @Support
    Condition lessThan(Select> select);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see DSL#all(Field)
     * @see DSL#all(Select)
     * @see DSL#all(Object...)
     * @see DSL#any(Field)
     * @see DSL#any(Select)
     * @see DSL#any(Object...)
     */
    @NotNull
    @Support
    Condition lessThan(QuantifiedSelect> select);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #lessThan(Row15)
     */
    @NotNull
    @Support
    Condition lt(Row15 row);

    /**
     * Compare this row value expression with a record for order.
     *
     * @see #lessThan(Row15)
     */
    @NotNull
    @Support
    Condition lt(Record15 record);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #lessThan(Row15)
     */
    @NotNull
    @Support
    Condition lt(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);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #lessThan(Row15)
     */
    @NotNull
    @Support
    Condition lt(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see #lessThan(Row15)
     */
    @NotNull
    @Support
    Condition lt(Select> select);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see DSL#all(Field)
     * @see DSL#all(Select)
     * @see DSL#all(Object...)
     * @see DSL#any(Field)
     * @see DSL#any(Select)
     * @see DSL#any(Object...)
     */
    @NotNull
    @Support
    Condition lt(QuantifiedSelect> select);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     * 

     * Row order comparison predicates can be emulated in those
     * databases that do not support such predicates natively:
     * (A, B) <= (1, 2) is equivalent to
     * A < 1 OR (A = 1 AND B < 2) OR (A = 1 AND B = 2)
     */
    @NotNull
    @Support
    Condition lessOrEqual(Row15 row);

    /**
     * Compare this row value expression with a record for order.
     *
     * @see #lessOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition lessOrEqual(Record15 record);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #lessOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition lessOrEqual(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);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #lessOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition lessOrEqual(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see #lessOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition lessOrEqual(Select> select);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see DSL#all(Field)
     * @see DSL#all(Select)
     * @see DSL#all(Object...)
     * @see DSL#any(Field)
     * @see DSL#any(Select)
     * @see DSL#any(Object...)
     */
    @NotNull
    @Support
    Condition lessOrEqual(QuantifiedSelect> select);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #lessOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition le(Row15 row);

    /**
     * Compare this row value expression with a record for order.
     *
     * @see #lessOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition le(Record15 record);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #lessOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition le(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);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #lessOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition le(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see #lessOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition le(Select> select);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see DSL#all(Field)
     * @see DSL#all(Select)
     * @see DSL#all(Object...)
     * @see DSL#any(Field)
     * @see DSL#any(Select)
     * @see DSL#any(Object...)
     */
    @NotNull
    @Support
    Condition le(QuantifiedSelect> select);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     * 

     * Row order comparison predicates can be emulated in those
     * databases that do not support such predicates natively:
     * (A, B, C) > (1, 2, 3) is equivalent to
     * A > 1 OR (A = 1 AND B > 2) OR (A = 1 AND B = 2 AND C > 3)
     */
    @NotNull
    @Support
    Condition greaterThan(Row15 row);

    /**
     * Compare this row value expression with a record for order.
     *
     * @see #greaterThan(Row15)
     */
    @NotNull
    @Support
    Condition greaterThan(Record15 record);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #greaterThan(Row15)
     */
    @NotNull
    @Support
    Condition greaterThan(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);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #greaterThan(Row15)
     */
    @NotNull
    @Support
    Condition greaterThan(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see #greaterThan(Row15)
     */
    @NotNull
    @Support
    Condition greaterThan(Select> select);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see DSL#all(Field)
     * @see DSL#all(Select)
     * @see DSL#all(Object...)
     * @see DSL#any(Field)
     * @see DSL#any(Select)
     * @see DSL#any(Object...)
     */
    @NotNull
    @Support
    Condition greaterThan(QuantifiedSelect> select);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #greaterThan(Row15)
     */
    @NotNull
    @Support
    Condition gt(Row15 row);

    /**
     * Compare this row value expression with a record for order.
     *
     * @see #greaterThan(Row15)
     */
    @NotNull
    @Support
    Condition gt(Record15 record);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #greaterThan(Row15)
     */
    @NotNull
    @Support
    Condition gt(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);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #greaterThan(Row15)
     */
    @NotNull
    @Support
    Condition gt(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see #greaterThan(Row15)
     */
    @NotNull
    @Support
    Condition gt(Select> select);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see DSL#all(Field)
     * @see DSL#all(Select)
     * @see DSL#all(Object...)
     * @see DSL#any(Field)
     * @see DSL#any(Select)
     * @see DSL#any(Object...)
     */
    @NotNull
    @Support
    Condition gt(QuantifiedSelect> select);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     * 

     * Row order comparison predicates can be emulated in those
     * databases that do not support such predicates natively:
     * (A, B) >= (1, 2) is equivalent to
     * A > 1 OR (A = 1 AND B > 2) OR (A = 1 AND B = 2)
     */
    @NotNull
    @Support
    Condition greaterOrEqual(Row15 row);

    /**
     * Compare this row value expression with a record for order.
     *
     * @see #greaterOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition greaterOrEqual(Record15 record);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #greaterOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition greaterOrEqual(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);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #greaterOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition greaterOrEqual(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see #greaterOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition greaterOrEqual(Select> select);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see DSL#all(Field)
     * @see DSL#all(Select)
     * @see DSL#all(Object...)
     * @see DSL#any(Field)
     * @see DSL#any(Select)
     * @see DSL#any(Object...)
     */
    @NotNull
    @Support
    Condition greaterOrEqual(QuantifiedSelect> select);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #greaterOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition ge(Row15 row);

    /**
     * Compare this row value expression with a record for order.
     *
     * @see #greaterOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition ge(Record15 record);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #greaterOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition ge(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);

    /**
     * Compare this row value expression with another row value expression for
     * order.
     *
     * @see #greaterOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition ge(Field t1, Field t2, Field t3, Field t4, Field t5, Field t6, Field t7, Field t8, Field t9, Field t10, Field t11, Field t12, Field t13, Field t14, Field t15);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see #greaterOrEqual(Row15)
     */
    @NotNull
    @Support
    Condition ge(Select> select);

    /**
     * Compare this row value expression with a subselect for order.
     *
     * @see DSL#all(Field)
     * @see DSL#all(Select)
     * @see DSL#all(Object...)
     * @see DSL#any(Field)
     * @see DSL#any(Select)
     * @see DSL#any(Object...)
     */
    @NotNull
    @Support
    Condition ge(QuantifiedSelect> select);

    // ------------------------------------------------------------------------
    // [NOT] BETWEEN predicates
    // ------------------------------------------------------------------------

    /**
     * Check if this row value expression is within a range of two other row
     * value expressions.
     *
     * @see #between(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 between(T1 minValue1, T2 minValue2, T3 minValue3, T4 minValue4, T5 minValue5, T6 minValue6, T7 minValue7, T8 minValue8, T9 minValue9, T10 minValue10, T11 minValue11, T12 minValue12, T13 minValue13, T14 minValue14, T15 minValue15);

    /**
     * Check if this row value expression is within a range of two other row
     * value expressions.
     *
     * @see #between(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 between(Field minValue1, Field minValue2, Field minValue3, Field minValue4, Field minValue5, Field minValue6, Field minValue7, Field minValue8, Field minValue9, Field minValue10, Field minValue11, Field minValue12, Field minValue13, Field minValue14, Field minValue15);

    /**
     * Check if this row value expression is within a range of two other row
     * value expressions.
     *
     * @see #between(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 between(Row15 minValue);

    /**
     * Check if this row value expression is within a range of two records.
     *
     * @see #between(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 between(Record15 minValue);

    /**
     * Check if this row value expression is within a range of two other row
     * value expressions.
     * 

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

     * The expression A BETWEEN B AND C is equivalent to the
     * expression A >= B AND A <= C for those SQL dialects that do
     * not properly support the BETWEEN predicate for row value
     * expressions
     */
    @NotNull
    @Support
    Condition between(Row15 minValue,
                      Row15 maxValue);

    /**
     * Check if this row value expression is within a range of two records.
     * 

     * This is the same as calling between(minValue).and(maxValue)
     *
     * @see #between(Row15, Row15)
     */
    @NotNull
    @Support
    Condition between(Record15 minValue,
                      Record15 maxValue);

    /**
     * Check if this row value expression is within a symmetric range of two
     * other row value expressions.
     *
     * @see #betweenSymmetric(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 betweenSymmetric(T1 minValue1, T2 minValue2, T3 minValue3, T4 minValue4, T5 minValue5, T6 minValue6, T7 minValue7, T8 minValue8, T9 minValue9, T10 minValue10, T11 minValue11, T12 minValue12, T13 minValue13, T14 minValue14, T15 minValue15);

    /**
     * Check if this row value expression is within a symmetric range of two
     * other row value expressions.
     *
     * @see #betweenSymmetric(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 betweenSymmetric(Field minValue1, Field minValue2, Field minValue3, Field minValue4, Field minValue5, Field minValue6, Field minValue7, Field minValue8, Field minValue9, Field minValue10, Field minValue11, Field minValue12, Field minValue13, Field minValue14, Field minValue15);

    /**
     * Check if this row value expression is within a symmetric range of two
     * other row value expressions.
     *
     * @see #betweenSymmetric(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 betweenSymmetric(Row15 minValue);

    /**
     * Check if this row value expression is within a symmetric range of two
     * records.
     *
     * @see #betweenSymmetric(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 betweenSymmetric(Record15 minValue);

    /**
     * Check if this row value expression is within a symmetric range of two
     * other row value expressions.
     * 

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

     * The expression A BETWEEN SYMMETRIC B AND C is equivalent to
     * the expression (A >= B AND A <= C) OR (A >= C AND A <= B)
     * for those SQL dialects that do not properly support the
     * BETWEEN predicate for row value expressions
     */
    @NotNull
    @Support
    Condition betweenSymmetric(Row15 minValue,
                               Row15 maxValue);

    /**
     * Check if this row value expression is within a symmetric range of two
     * records.
     * 

     * This is the same as calling betweenSymmetric(minValue).and(maxValue)
     *
     * @see #betweenSymmetric(Row15, Row15)
     */
    @NotNull
    @Support
    Condition betweenSymmetric(Record15 minValue,
                               Record15 maxValue);

    /**
     * Check if this row value expression is not within a range of two other
     * row value expressions.
     *
     * @see #between(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 notBetween(T1 minValue1, T2 minValue2, T3 minValue3, T4 minValue4, T5 minValue5, T6 minValue6, T7 minValue7, T8 minValue8, T9 minValue9, T10 minValue10, T11 minValue11, T12 minValue12, T13 minValue13, T14 minValue14, T15 minValue15);

    /**
     * Check if this row value expression is not within a range of two other
     * row value expressions.
     *
     * @see #notBetween(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 notBetween(Field minValue1, Field minValue2, Field minValue3, Field minValue4, Field minValue5, Field minValue6, Field minValue7, Field minValue8, Field minValue9, Field minValue10, Field minValue11, Field minValue12, Field minValue13, Field minValue14, Field minValue15);

    /**
     * Check if this row value expression is not within a range of two other
     * row value expressions.
     *
     * @see #notBetween(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 notBetween(Row15 minValue);

    /**
     * Check if this row value expression is within a range of two records.
     *
     * @see #notBetween(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 notBetween(Record15 minValue);

    /**
     * Check if this row value expression is not within a range of two other
     * row value expressions.
     * 

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

     * The expression A NOT BETWEEN B AND C is equivalent to the
     * expression A < B OR A > C for those SQL dialects that do
     * not properly support the BETWEEN predicate for row value
     * expressions
     */
    @NotNull
    @Support
    Condition notBetween(Row15 minValue,
                         Row15 maxValue);

    /**
     * Check if this row value expression is within a range of two records.
     * 

     * This is the same as calling notBetween(minValue).and(maxValue)
     *
     * @see #notBetween(Row15, Row15)
     */
    @NotNull
    @Support
    Condition notBetween(Record15 minValue,
                         Record15 maxValue);

    /**
     * Check if this row value expression is not within a symmetric range of two
     * other row value expressions.
     *
     * @see #notBetweenSymmetric(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 notBetweenSymmetric(T1 minValue1, T2 minValue2, T3 minValue3, T4 minValue4, T5 minValue5, T6 minValue6, T7 minValue7, T8 minValue8, T9 minValue9, T10 minValue10, T11 minValue11, T12 minValue12, T13 minValue13, T14 minValue14, T15 minValue15);

    /**
     * Check if this row value expression is not within a symmetric range of two
     * other row value expressions.
     *
     * @see #notBetweenSymmetric(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 notBetweenSymmetric(Field minValue1, Field minValue2, Field minValue3, Field minValue4, Field minValue5, Field minValue6, Field minValue7, Field minValue8, Field minValue9, Field minValue10, Field minValue11, Field minValue12, Field minValue13, Field minValue14, Field minValue15);

    /**
     * Check if this row value expression is not within a symmetric range of two
     * other row value expressions.
     *
     * @see #notBetweenSymmetric(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 notBetweenSymmetric(Row15 minValue);

    /**
     * Check if this row value expression is not within a symmetric range of two
     * records.
     *
     * @see #notBetweenSymmetric(Row15, Row15)
     */
    @NotNull
    @Support
    BetweenAndStep15 notBetweenSymmetric(Record15 minValue);

    /**
     * Check if this row value expression is not within a symmetric range of two
     * other row value expressions.
     * 

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

     * The expression A NOT BETWEEN SYMMETRIC B AND C is equivalent
     * to the expression (A < B OR A > C) AND (A < C OR A > B) for
     * those SQL dialects that do not properly support the BETWEEN
     * predicate for row value expressions
     */
    @NotNull
    @Support
    Condition notBetweenSymmetric(Row15 minValue,
                                  Row15 maxValue);

    /**
     * Check if this row value expression is not within a symmetric range of two
     * records.
     * 

     * This is the same as calling notBetweenSymmetric(minValue).and(maxValue)
     *
     * @see #notBetweenSymmetric(Row15, Row15)
     */
    @NotNull
    @Support
    Condition notBetweenSymmetric(Record15 minValue,
                                  Record15 maxValue);

    // ------------------------------------------------------------------------
    // [NOT] DISTINCT predicates
    // ------------------------------------------------------------------------


    // ------------------------------------------------------------------------
    // [NOT] IN predicates
    // ------------------------------------------------------------------------

    /**
     * Compare this row value expression with a set of row value expressions for
     * equality.
     * 

     * Row IN predicates can be emulated in those databases that do not support
     * such predicates natively: (A, B) IN ((1, 2), (3, 4)) is
     * equivalent to ((A, B) = (1, 2)) OR ((A, B) = (3, 4)), which
     * is equivalent to (A = 1 AND B = 2) OR (A = 3 AND B = 4)
     * 

     * Note that generating dynamic SQL with arbitrary-length
     * IN predicates can cause cursor cache contention in some
     * databases that use unique SQL strings as a statement identifier (e.g.
     * {@link SQLDialect#ORACLE}). In order to prevent such problems, you could
     * use {@link Settings#isInListPadding()} to produce less distinct SQL
     * strings (see also
     * [#5600]), or you
     * could avoid IN lists, and replace them with:
     * 

     * 
IN predicates on temporary tables
     * 
IN predicates on unnested array bind variables
     * 

     *
     * @see Rows#toRowList(Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function)
     */
    @NotNull
    @Support
    Condition in(Collection> rows);

    /**
     * Compare this row value expression with a set of records for
     * equality.
     * 

     * Row IN predicates can be emulated in those databases that do not support
     * such predicates natively: (A, B) IN ((1, 2), (3, 4)) is
     * equivalent to ((A, B) = (1, 2)) OR ((A, B) = (3, 4)), which
     * is equivalent to (A = 1 AND B = 2) OR (A = 3 AND B = 4)
     * 

     * Note that generating dynamic SQL with arbitrary-length
     * IN predicates can cause cursor cache contention in some
     * databases that use unique SQL strings as a statement identifier (e.g.
     * {@link SQLDialect#ORACLE}). In order to prevent such problems, you could
     * use {@link Settings#isInListPadding()} to produce less distinct SQL
     * strings (see also
     * [#5600]), or you
     * could avoid IN lists, and replace them with:
     * 

     * 
IN predicates on temporary tables
     * 
IN predicates on unnested array bind variables
     * 
     */
    @NotNull
    @Support
    Condition in(Result> result);

    /**
     * Compare this row value expression with a set of row value expressions for
     * equality.
     * 

     * Note that generating dynamic SQL with arbitrary-length
     * IN predicates can cause cursor cache contention in some
     * databases that use unique SQL strings as a statement identifier (e.g.
     * {@link SQLDialect#ORACLE}). In order to prevent such problems, you could
     * use {@link Settings#isInListPadding()} to produce less distinct SQL
     * strings (see also
     * [#5600]), or you
     * could avoid IN lists, and replace them with:
     * 

     * 
IN predicates on temporary tables
     * 
IN predicates on unnested array bind variables
     * 
     *
     * @see #in(Collection)
     * @see Rows#toRowArray(Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function)
     */
    @SuppressWarnings("unchecked")
    @NotNull
    @Support
    Condition in(Row15... rows);

    /**
     * Compare this row value expression with a set of records for equality.
     * 

     * Note that generating dynamic SQL with arbitrary-length
     * IN predicates can cause cursor cache contention in some
     * databases that use unique SQL strings as a statement identifier (e.g.
     * {@link SQLDialect#ORACLE}). In order to prevent such problems, you could
     * use {@link Settings#isInListPadding()} to produce less distinct SQL
     * strings (see also
     * [#5600]), or you
     * could avoid IN lists, and replace them with:
     * 

     * 
IN predicates on temporary tables
     * 
IN predicates on unnested array bind variables
     * 
     *
     * @see #in(Collection)
     */
    @SuppressWarnings("unchecked")
    @NotNull
    @Support
    Condition in(Record15... record);

    /**
     * Compare this row value expression with a subselect for equality.
     *
     * @see #in(Collection)
     */
    @NotNull
    @Support
    Condition in(Select> select);

    /**
     * Compare this row value expression with a set of row value expressions for
     * equality.
     * 

     * Row NOT IN predicates can be emulated in those databases that do not
     * support such predicates natively:
     * (A, B) NOT IN ((1, 2), (3, 4)) is equivalent to
     * NOT(((A, B) = (1, 2)) OR ((A, B) = (3, 4))), which is
     * equivalent to NOT((A = 1 AND B = 2) OR (A = 3 AND B = 4))
     * 

     * Note that generating dynamic SQL with arbitrary-length
     * NOT IN predicates can cause cursor cache contention in some
     * databases that use unique SQL strings as a statement identifier (e.g.
     * {@link SQLDialect#ORACLE}). In order to prevent such problems, you could
     * use {@link Settings#isInListPadding()} to produce less distinct SQL
     * strings (see also
     * [#5600]), or you
     * could avoid IN lists, and replace them with:
     * 

     * 
NOT IN predicates on temporary tables
     * 
NOT IN predicates on unnested array bind variables
     * 
     *
     * @see Rows#toRowList(Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function)
     */
    @NotNull
    @Support
    Condition notIn(Collection> rows);

    /**
     * Compare this row value expression with a set of records for
     * equality.
     * 

     * Row NOT IN predicates can be emulated in those databases that do not
     * support such predicates natively:
     * (A, B) NOT IN ((1, 2), (3, 4)) is equivalent to
     * NOT(((A, B) = (1, 2)) OR ((A, B) = (3, 4))), which is
     * equivalent to NOT((A = 1 AND B = 2) OR (A = 3 AND B = 4))
     * 

     * Note that generating dynamic SQL with arbitrary-length
     * NOT IN predicates can cause cursor cache contention in some
     * databases that use unique SQL strings as a statement identifier (e.g.
     * {@link SQLDialect#ORACLE}). In order to prevent such problems, you could
     * use {@link Settings#isInListPadding()} to produce less distinct SQL
     * strings (see also
     * [#5600]), or you
     * could avoid IN lists, and replace them with:
     * 

     * 
NOT IN predicates on temporary tables
     * 
NOT IN predicates on unnested array bind variables
     * 
     */
    @NotNull
    @Support
    Condition notIn(Result> result);

    /**
     * Compare this row value expression with a set of row value expressions for
     * equality.
     * 

     * Note that generating dynamic SQL with arbitrary-length
     * NOT IN predicates can cause cursor cache contention in some
     * databases that use unique SQL strings as a statement identifier (e.g.
     * {@link SQLDialect#ORACLE}). In order to prevent such problems, you could
     * use {@link Settings#isInListPadding()} to produce less distinct SQL
     * strings (see also
     * [#5600]), or you
     * could avoid IN lists, and replace them with:
     * 

     * 
NOT IN predicates on temporary tables
     * 
NOT IN predicates on unnested array bind variables
     * 
     *
     * @see #notIn(Collection)
     * @see Rows#toRowArray(Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function, Function)
     */
    @SuppressWarnings("unchecked")
    @NotNull
    @Support
    Condition notIn(Row15... rows);

    /**
     * Compare this row value expression with a set of records for non-equality.
     * 

     * Note that generating dynamic SQL with arbitrary-length
     * NOT IN predicates can cause cursor cache contention in some
     * databases that use unique SQL strings as a statement identifier (e.g.
     * {@link SQLDialect#ORACLE}). In order to prevent such problems, you could
     * use {@link Settings#isInListPadding()} to produce less distinct SQL
     * strings (see also
     * [#5600]), or you
     * could avoid IN lists, and replace them with:
     * 

     * 
NOT IN predicates on temporary tables
     * 
NOT IN predicates on unnested array bind variables
     * 
     *
     * @see #notIn(Collection)
     */
    @SuppressWarnings("unchecked")
    @NotNull
    @Support
    Condition notIn(Record15... record);

    /**
     * Compare this row value expression with a subselect for non-equality.
     *
     * @see #notIn(Collection)
     */
    @NotNull
    @Support
    Condition notIn(Select> select);











































}