com.datastax.oss.driver.api.mapper.entity.EntityHelper Maven / Gradle / Ivy
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* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
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*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
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package com.datastax.oss.driver.api.mapper.entity;
import com.datastax.oss.driver.api.core.CqlIdentifier;
import com.datastax.oss.driver.api.core.cql.BoundStatement;
import com.datastax.oss.driver.api.core.cql.BoundStatementBuilder;
import com.datastax.oss.driver.api.core.cql.Row;
import com.datastax.oss.driver.api.core.data.GettableByName;
import com.datastax.oss.driver.api.core.data.SettableByName;
import com.datastax.oss.driver.api.core.data.UdtValue;
import com.datastax.oss.driver.api.mapper.annotations.ClusteringColumn;
import com.datastax.oss.driver.api.mapper.annotations.CqlName;
import com.datastax.oss.driver.api.mapper.annotations.DaoKeyspace;
import com.datastax.oss.driver.api.mapper.annotations.DaoTable;
import com.datastax.oss.driver.api.mapper.annotations.Entity;
import com.datastax.oss.driver.api.mapper.annotations.NamingStrategy;
import com.datastax.oss.driver.api.mapper.annotations.PartitionKey;
import com.datastax.oss.driver.api.mapper.entity.saving.NullSavingStrategy;
import com.datastax.oss.driver.api.querybuilder.delete.Delete;
import com.datastax.oss.driver.api.querybuilder.insert.RegularInsert;
import com.datastax.oss.driver.api.querybuilder.select.Select;
import com.datastax.oss.driver.api.querybuilder.update.Update;
import edu.umd.cs.findbugs.annotations.NonNull;
import edu.umd.cs.findbugs.annotations.Nullable;
/**
* A set of utility methods related to a particular mapped entity.
*
* The mapper processor generates an implementation of this interface for each {@link
* Entity}-annotated class. It is used internally by other mapper components, and can also be
* injected in custom query providers.
*/
public interface EntityHelper {
/**
* Sets the properties of an entity instance into a target data structure.
*
* @deprecated Use {@link #set(Object, SettableByName, NullSavingStrategy, boolean)} instead.
*/
@NonNull
@Deprecated
> SettableT set(
@NonNull EntityT entity,
@NonNull SettableT target,
@NonNull NullSavingStrategy nullSavingStrategy);
/**
* Sets the properties of an entity instance into a target data structure.
*
* The generated code will attempt to write all entity properties in the target data structure.
* For example:
*
*
{@code
* target = target.set("id", entity.getId(), UUID.class);
* target = target.set("name", entity.getName(), String.class);
* ...
* }
*
* The column names are inferred from the naming strategy for this entity.
*
* The target will typically be one of the built-in driver subtypes: {@link BoundStatement},
* {@link BoundStatementBuilder} or {@link UdtValue}. Note that the default {@link BoundStatement}
* implementation is immutable, therefore this argument won't be modified in-place: you need to
* use the return value to get the resulting structure.
*
*
If {@code lenient} is {@code true}, the mapper will operate on a best-effort basis and
* attempt to write all entity properties that have a matching column in the target, leaving
* unmatched properties untouched. Beware that this may result in a partially-populated target.
*
*
If {@code lenient} is {@code false}, then the target must contain a matching column for
* every property in the entity definition, except computed ones. If such a column is not
* found, an {@link IllegalArgumentException} will be thrown.
*
* @param entity the entity that the values will be read from.
* @param target the data structure to fill.
* @param lenient whether to tolerate incomplete targets.
* @return the data structure resulting from the assignments. This is useful for immutable target
* implementations (see above), otherwise it will be the same as {@code target}.
* @throws IllegalArgumentException if lenient is false and the target does not contain matching
* columns for every entity property.
*/
@NonNull
default > SettableT set(
@NonNull EntityT entity,
@NonNull SettableT target,
@NonNull NullSavingStrategy nullSavingStrategy,
boolean lenient) {
return set(entity, target, nullSavingStrategy);
}
/**
* Gets values from a data structure to fill an entity instance.
*
* @deprecated Use {@link #get(GettableByName, boolean)} instead.
*/
@NonNull
@Deprecated
EntityT get(@NonNull GettableByName source);
/**
* Gets values from a data structure to fill an entity instance.
*
* The generated code will attempt to read all entity properties from the source data
* structure. For example:
*
*
{@code
* User returnValue = new User();
* returnValue.setId(source.get("id", UUID.class));
* returnValue.setName(source.get("name", String.class));
* ...
* }
*
* The column names are inferred from the naming strategy for this entity.
*
* The source will typically be one of the built-in driver subtypes: {@link Row} or {@link
* UdtValue} ({@link BoundStatement} and {@link BoundStatementBuilder} are also possible, although
* it's less likely that data would be read back from them in this manner).
*
*
If {@code lenient} is {@code true}, the mapper will operate on a best-effort basis and
* attempt to read all entity properties that have a matching column in the source, leaving
* unmatched properties untouched. Beware that this may result in a partially-populated entity
* instance.
*
*
If {@code lenient} is {@code false}, then the source must contain a matching column for
* every property in the entity definition, including computed ones. If such a column is
* not found, an {@link IllegalArgumentException} will be thrown.
*
* @param source the data structure to read from.
* @param lenient whether to tolerate incomplete sources.
* @return the resulting entity.
* @throws IllegalArgumentException if lenient is false and the source does not contain matching
* columns for every entity property.
*/
@NonNull
default EntityT get(@NonNull GettableByName source, boolean lenient) {
return get(source);
}
/**
* Builds an insert query for this entity.
*
*
The returned query is roughly the equivalent of:
*
*
{@code
* QueryBuilder.insertInto(keyspaceId, tableId)
* .value("id", QueryBuilder.bindMarker("id"))
* .value("name", QueryBuilder.bindMarker("name"))
* ...
* }
*
* All mapped properties of the entity are included as bindable values (the bind markers have the
* same names as the columns).
*
* The column names are inferred from the naming strategy for this entity.
*
*
The keyspace and table identifiers are those of the DAO that this helper was obtained from;
* if the DAO was built without a specific keyspace and table, the query doesn't specify a
* keyspace, and the table name is inferred from the naming strategy.
*/
@NonNull
RegularInsert insert();
/**
* Builds the beginning of a Update query to update an entity.
*
*
This is the same as {@link #updateByPrimaryKey()} ()}, but without the {@code WHERE} clause.
* This would typically not be executed as-is, but instead completed with a custom {@code WHERE}
* clause (either added with the query builder DSL, or concatenated to the built query).
*/
@NonNull
Update updateStart();
/**
* Builds a Update query to update an instance of the entity by primary key (partition key +
* clustering columns).
*
*
The returned query is roughly the equivalent of:
*
*
{@code
* QueryBuilder.update(keyspaceId, tableId)
* .setColumn("description", QueryBuilder.bindMarker("description"))
* ... // (other non-PK columns)
* .where(Relation.column("id").isEqualTo(QueryBuilder.bindMarker("id"))
* ... // (other PK columns)
* }
*
* All non-PK properties of the entity are set, with bind markers that have the same names as the
* columns.
*
* All components of the primary key are listed in the {@code WHERE} clause as bindable values
* (the bind markers have the same names as the columns). They are listed in the natural order,
* i.e. partition key columns first, followed by clustering columns (in the order defined by the
* {@link PartitionKey} and {@link ClusteringColumn} annotations on the entity class).
*
*
The keyspace and table identifiers are those of the DAO that this helper was obtained from;
* if the DAO was built without a specific keyspace and table, the query doesn't specify a
* keyspace, and the table name is inferred from the naming strategy.
*/
@NonNull
Update updateByPrimaryKey();
/**
* Builds a select query to fetch an instance of the entity by primary key (partition key +
* clustering columns).
*
*
The returned query is roughly the equivalent of:
*
*
{@code
* QueryBuilder.selectFrom(keyspaceId, tableId)
* .column("id")
* .column("name")
* .whereColumn("id").isEqualTo(QueryBuilder.bindMarker("id"));
* ...
* }
*
* All mapped properties of the entity are included in the result set.
*
* All components of the primary key are listed in the {@code WHERE} clause as bindable values
* (the bind markers have the same names as the columns). They are listed in the natural order,
* i.e. partition key columns first, followed by clustering columns (in the order defined by the
* {@link PartitionKey} and {@link ClusteringColumn} annotations on the entity class).
*
*
The keyspace and table identifiers are those of the DAO that this helper was obtained from;
* if the DAO was built without a specific keyspace and table, the query doesn't specify a
* keyspace, and the table name is inferred from the naming strategy.
*/
@NonNull
Select selectByPrimaryKey();
/**
* Builds the beginning of a select query to fetch one or more instances of the entity.
*
*
This is the same as {@link #selectByPrimaryKey()}, but without the {@code WHERE} clause.
* This would typically not be executed as-is, but instead completed with a custom {@code WHERE}
* clause (either added with the query builder DSL, or concatenated to the built query).
*/
@NonNull
Select selectStart();
/**
* Builds a delete query to delete an instance of the entity by primary key (partition key +
* clustering columns).
*
*
The returned query is roughly the equivalent of:
*
*
{@code
* Delete delete = QueryBuilder.deleteFrom(keyspaceId, tableId)
* .whereColumn("id").isEqualTo(QueryBuilder.bindMarker("id"));
* }
*
* All components of the primary key are listed in the {@code WHERE} clause as bindable values
* (the bind markers have the same names as the columns). They are listed in the natural order,
* i.e. partition key columns first, followed by clustering columns (in the order defined by the
* {@link PartitionKey} and {@link ClusteringColumn} annotations on the entity class).
*
* The keyspace and table identifiers are those of the DAO that this helper was obtained from;
* * if the DAO was built without a specific keyspace and table, the query doesn't specify a
* keyspace, and the table name is inferred from the naming strategy.
*/
@NonNull
Delete deleteByPrimaryKey();
/**
* The keyspace used in the queries generated by this helper.
*
*
This is determined by the following rules:
*
*
* - If the DAO that this helper belongs to was created with a keyspace (see {@link
* DaoKeyspace}), use that;
*
- Otherwise, if {@link Entity#defaultKeyspace()} is set for the entity class, use that;
*
- Otherwise, return {@code null}.
*
*/
@Nullable
CqlIdentifier getKeyspaceId();
/**
* The table used in the queries generated by this helper.
*
* This is determined by the following rules:
*
*
* - If the DAO that this helper belongs to was created with a table (see {@link DaoTable}),
* use that;
*
- Otherwise, if the entity class is annotated with {@link CqlName}, use that;
*
- Otherwise, use the name of the entity class, transformed by its {@link NamingStrategy}.
*
*/
@NonNull
CqlIdentifier getTableId();
/** The class of the mapped entity. */
@NonNull
Class getEntityClass();
}