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com.datastax.driver.mapping.Mapper Maven / Gradle / Ivy
/*
* Copyright (C) 2012-2015 DataStax Inc.
*
* 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.
*/
package com.datastax.driver.mapping;
import com.datastax.driver.core.*;
import com.datastax.driver.core.querybuilder.BuiltStatement;
import com.datastax.driver.core.querybuilder.Delete;
import com.datastax.driver.core.querybuilder.Insert;
import com.datastax.driver.core.querybuilder.QueryBuilder;
import com.datastax.driver.core.utils.MoreObjects;
import com.datastax.driver.mapping.Mapper.Option.SaveNullFields;
import com.datastax.driver.mapping.annotations.Accessor;
import com.datastax.driver.mapping.annotations.Computed;
import com.google.common.base.Function;
import com.google.common.base.Functions;
import com.google.common.base.Preconditions;
import com.google.common.collect.ImmutableSet;
import com.google.common.util.concurrent.*;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import java.util.*;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import java.util.concurrent.ExecutionException;
import static com.datastax.driver.mapping.Mapper.Option.Type.SAVE_NULL_FIELDS;
import static com.google.common.base.Preconditions.checkArgument;
/**
* An object handling the mapping of a particular class.
*
* A {@code Mapper} object is obtained from a {@code MappingManager} using the
* {@link MappingManager#mapper} method.
*/
public class Mapper {
private static final Logger logger = LoggerFactory.getLogger(Mapper.class);
private static final Function TO_NULL = Functions.constant(null);
private final MappingManager manager;
private final Class klass;
private final EntityMapper mapper;
private final TableMetadata tableMetadata;
// Cache prepared statements for each type of query we use.
private final ConcurrentMap> preparedQueries = new ConcurrentHashMap>();
private volatile EnumMap defaultSaveOptions;
private volatile EnumMap defaultGetOptions;
private volatile EnumMap defaultDeleteOptions;
private static final EnumMap NO_OPTIONS = new EnumMap(Option.Type.class);
private final Function mapOneFunction;
final Function mapOneFunctionWithoutAliases;
final Function> mapAllFunctionWithoutAliases;
Mapper(MappingManager manager, Class klass, EntityMapper mapper) {
this.manager = manager;
this.klass = klass;
this.mapper = mapper;
KeyspaceMetadata keyspace = session().getCluster().getMetadata().getKeyspace(mapper.keyspace);
this.tableMetadata = keyspace == null ? null : keyspace.getTable(mapper.table);
this.mapOneFunction = new Function() {
@Override
public T apply(ResultSet rs) {
return Mapper.this.map(rs).one();
}
};
this.mapOneFunctionWithoutAliases = new Function() {
@Override
public T apply(ResultSet rs) {
return Mapper.this.map(rs).one();
}
};
this.mapAllFunctionWithoutAliases = new Function>() {
@Override
public Result apply(ResultSet rs) {
return Mapper.this.map(rs);
}
};
this.defaultSaveOptions = NO_OPTIONS;
this.defaultGetOptions = NO_OPTIONS;
this.defaultDeleteOptions = NO_OPTIONS;
}
Session session() {
return manager.getSession();
}
ListenableFuture getPreparedQueryAsync(QueryType type, Set columns, EnumMap options) {
final MapperQueryKey pqk = new MapperQueryKey(type, columns, options);
ListenableFuture existingFuture = preparedQueries.get(pqk);
if (existingFuture == null) {
final SettableFuture future = SettableFuture.create();
ListenableFuture old = preparedQueries.putIfAbsent(pqk, future);
if (old != null) {
return old;
} else {
final String queryString = type.makePreparedQueryString(tableMetadata, mapper, manager, columns, options.values());
logger.debug("Preparing query {}", queryString);
SimpleStatement s = new SimpleStatement(queryString);
// all queries generated by the mapper are idempotent
s.setIdempotent(true);
Futures.addCallback(session().prepareAsync(s), new FutureCallback() {
@Override
public void onSuccess(PreparedStatement stmt) {
future.set(stmt);
}
@Override
public void onFailure(Throwable t) {
future.setException(t);
// do not keep a failed future in the query cache
preparedQueries.remove(pqk, future);
logger.error("Query preparation failed: " + queryString, t);
}
});
return future;
}
} else {
return existingFuture;
}
}
ListenableFuture getPreparedQueryAsync(QueryType type, EnumMap options) {
return getPreparedQueryAsync(type, Collections.emptySet(), options);
}
Class getMappedClass() {
return klass;
}
/**
* The {@code TableMetadata} for this mapper.
*
* @return the {@code TableMetadata} for this mapper or {@code null} if keyspace is not set.
*/
public TableMetadata getTableMetadata() {
return tableMetadata;
}
/**
* The {@code MappingManager} managing this mapper.
*
* @return the {@code MappingManager} managing this mapper.
*/
public MappingManager getManager() {
return manager;
}
/**
* Creates a query that can be used to save the provided entity.
*
* This method is useful if you want to setup a number of options (tracing,
* conistency level, ...) of the returned statement before executing it manually
* or need access to the {@code ResultSet} object after execution (to get the
* trace, the execution info, ...), but in other cases, calling {@link #save}
* or {@link #saveAsync} is shorter.
*
* @param entity the entity to save.
* @return a query that saves {@code entity} (based on it's defined mapping).
*/
public Statement saveQuery(T entity) {
try {
return Uninterruptibles.getUninterruptibly(saveQueryAsync(entity, this.defaultSaveOptions));
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
/**
* Creates a query that can be used to save the provided entity.
*
* This method is useful if you want to setup a number of options (tracing,
* conistency level, ...) of the returned statement before executing it manually
* or need access to the {@code ResultSet} object after execution (to get the
* trace, the execution info, ...), but in other cases, calling {@link #save}
* or {@link #saveAsync} is shorter.
* This method allows you to provide a suite of {@link Option} to include in
* the SAVE query. Options currently supported for SAVE are :
*
* Timestamp
* Time-to-live (ttl)
* Consistency level
* Tracing
*
*
* @param entity the entity to save.
* @return a query that saves {@code entity} (based on it's defined mapping).
*/
public Statement saveQuery(T entity, Option... options) {
try {
return Uninterruptibles.getUninterruptibly(saveQueryAsync(entity, toMapWithDefaults(options, this.defaultSaveOptions)));
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
private ListenableFuture saveQueryAsync(T entity, final EnumMap options) {
final Map values = new HashMap();
boolean saveNullFields = shouldSaveNullFields(options);
for (AliasedMappedProperty col : mapper.allColumns) {
Object value = col.mappedProperty.getValue(entity);
if (!col.mappedProperty.isComputed() && (saveNullFields || value != null)) {
values.put(col, value);
}
}
return Futures.transform(getPreparedQueryAsync(QueryType.SAVE, values.keySet(), options), new Function() {
@Override
public BoundStatement apply(PreparedStatement input) {
BoundStatement bs = input.bind();
int i = 0;
for (Map.Entry entry : values.entrySet()) {
AliasedMappedProperty mapper = entry.getKey();
Object value = entry.getValue();
setObject(bs, i++, value, mapper);
}
if (mapper.writeConsistency != null)
bs.setConsistencyLevel(mapper.writeConsistency);
for (Option option : options.values()) {
option.validate(QueryType.SAVE, manager);
i = option.apply(bs, i);
}
return bs;
}
});
}
private static boolean shouldSaveNullFields(EnumMap options) {
SaveNullFields option = (SaveNullFields) options.get(SAVE_NULL_FIELDS);
return option == null || option.saveNullFields;
}
private static void setObject(BoundStatement bs, int i, T value, AliasedMappedProperty mapper) {
TypeCodec customCodec = mapper.mappedProperty.getCustomCodec();
if (customCodec != null)
bs.set(i, value, customCodec);
else
bs.set(i, value, mapper.mappedProperty.getPropertyType());
}
/**
* Saves an entity mapped by this mapper.
*
* This method is basically equivalent to: {@code getManager().getSession().execute(saveQuery(entity))}.
*
* @param entity the entity to save.
*/
public void save(T entity) {
try {
Uninterruptibles.getUninterruptibly(saveAsync(entity));
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
/**
* Saves an entity mapped by this mapper and using special options for save.
* This method allows you to provide a suite of {@link Option} to include in
* the SAVE query. Options currently supported for SAVE are :
*
* Timestamp
* Time-to-live (ttl)
* Consistency level
* Tracing
*
*
* @param entity the entity to save.
* @param options the options object specified defining special options when saving.
*/
public void save(T entity, Option... options) {
try {
Uninterruptibles.getUninterruptibly(saveAsync(entity, options));
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
/**
* Saves an entity mapped by this mapper asynchronously.
*
* This method is basically equivalent to: {@code getManager().getSession().executeAsync(saveQuery(entity))}.
*
* @param entity the entity to save.
* @return a future on the completion of the save operation.
*/
public ListenableFuture saveAsync(T entity) {
return submitVoidQueryAsync(saveQueryAsync(entity, this.defaultSaveOptions));
}
/**
* Save an entity mapped by this mapper asynchronously using special options for save.
*
* This method is basically equivalent to: {@code getManager().getSession().executeAsync(saveQuery(entity, options))}.
*
* @param entity the entity to save.
* @param options the options object specified defining special options when saving.
* @return a future on the completion of the save operation.
*/
public ListenableFuture saveAsync(T entity, Option... options) {
return submitVoidQueryAsync(saveQueryAsync(entity, toMapWithDefaults(options, this.defaultSaveOptions)));
}
private ListenableFuture submitVoidQueryAsync(ListenableFuture bsFuture) {
ListenableFuture rsFuture = GuavaCompatibility.INSTANCE.transformAsync(bsFuture, new AsyncFunction() {
@Override
public ListenableFuture apply(BoundStatement bs) throws Exception {
return session().executeAsync(bs);
}
});
return Futures.transform(rsFuture, TO_NULL);
}
/**
* Creates a query to fetch entity given its PRIMARY KEY.
*
* The values provided must correspond to the columns composing the PRIMARY
* KEY (in the order of said primary key).
*
* This method is useful if you want to setup a number of options (tracing,
* conistency level, ...) of the returned statement before executing it manually,
* but in other cases, calling {@link #get} or {@link #getAsync} is shorter.
*
* This method allows you to provide a suite of {@link Option} to include in
* the GET query. Options currently supported for GET are :
*
* Consistency level
* Tracing
*
*
* @param objects the primary key of the entity to fetch, or more precisely
* the values for the columns of said primary key in the order of the primary key.
* Can be followed by {@link Option} to include in the DELETE query.
* @return a query that fetch the entity of PRIMARY KEY {@code objects}.
* @throws IllegalArgumentException if the number of value provided differ from
* the number of columns composing the PRIMARY KEY of the mapped class, or if
* at least one of those values is {@code null}.
*/
public Statement getQuery(Object... objects) {
try {
return Uninterruptibles.getUninterruptibly(getQueryAsync(objects));
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
private ListenableFuture getQueryAsync(Object... objects) {
// Order and duplicates matter for primary keys
List pks = new ArrayList();
EnumMap options = new EnumMap(defaultGetOptions);
for (Object o : objects) {
if (o instanceof Option) {
Option option = (Option) o;
options.put(option.type, option);
} else {
pks.add(o);
}
}
return getQueryAsync(pks, options);
}
private ListenableFuture getQueryAsync(final List primaryKeys, final EnumMap options) {
if (primaryKeys.size() != mapper.primaryKeySize())
throw new IllegalArgumentException(String.format("Invalid number of PRIMARY KEY columns provided, %d expected but got %d", mapper.primaryKeySize(), primaryKeys.size()));
return Futures.transform(getPreparedQueryAsync(QueryType.GET, options), new Function() {
@Override
public BoundStatement apply(PreparedStatement input) {
BoundStatement bs = new MapperBoundStatement(input);
int i = 0;
for (Object value : primaryKeys) {
@SuppressWarnings("unchecked")
AliasedMappedProperty column = (AliasedMappedProperty) mapper.getPrimaryKeyColumn(i);
if (value == null) {
throw new IllegalArgumentException(
String.format("Invalid null value for PRIMARY KEY column %s (argument %d)",
column.mappedProperty.getMappedName(), i));
}
setObject(bs, i++, value, column);
}
if (mapper.readConsistency != null)
bs.setConsistencyLevel(mapper.readConsistency);
for (Option option : options.values()) {
option.validate(QueryType.GET, manager);
i = option.apply(bs, i);
}
return bs;
}
});
}
/**
* Fetch an entity based on its primary key.
*
* This method is basically equivalent to: {@code map(getManager().getSession().execute(getQuery(objects))).one()}.
*
* @param objects the primary key of the entity to fetch, or more precisely
* the values for the columns of said primary key in the order of the primary key.
* Can be followed by {@link Option} to include in the DELETE query.
* @return the entity fetched or {@code null} if it doesn't exist.
* @throws IllegalArgumentException if the number of value provided differ from
* the number of columns composing the PRIMARY KEY of the mapped class, or if
* at least one of those values is {@code null}.
*/
public T get(Object... objects) {
try {
return Uninterruptibles.getUninterruptibly(getAsync(objects));
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
/**
* Fetch an entity based on its primary key asynchronously.
*
* This method is basically equivalent to mapping the result of: {@code getManager().getSession().executeAsync(getQuery(objects))}.
*
* @param objects the primary key of the entity to fetch, or more precisely
* the values for the columns of said primary key in the order of the primary key.
* Can be followed by {@link Option} to include in the DELETE query.
* @return a future on the fetched entity. The return future will yield
* {@code null} if said entity doesn't exist.
* @throws IllegalArgumentException if the number of value provided differ from
* the number of columns composing the PRIMARY KEY of the mapped class, or if
* at least one of those values is {@code null}.
*/
public ListenableFuture getAsync(final Object... objects) {
ListenableFuture bsFuture = getQueryAsync(objects);
ListenableFuture rsFuture = GuavaCompatibility.INSTANCE.transformAsync(bsFuture, new AsyncFunction() {
@Override
public ListenableFuture apply(BoundStatement bs) throws Exception {
return session().executeAsync(bs);
}
});
return Futures.transform(rsFuture, mapOneFunction);
}
/**
* Creates a query that can be used to delete the provided entity.
*
* This method is a shortcut that extract the PRIMARY KEY from the
* provided entity and call {@link #deleteQuery(Object...)} with it.
* This method allows you to provide a suite of {@link Option} to include in
* the DELETE query. Note : currently, only {@link com.datastax.driver.mapping.Mapper.Option.Timestamp}
* is supported for DELETE queries.
*
* This method is useful if you want to setup a number of options (tracing,
* conistency level, ...) of the returned statement before executing it manually
* or need access to the {@code ResultSet} object after execution (to get the
* trace, the execution info, ...), but in other cases, calling {@link #delete}
* or {@link #deleteAsync} is shorter.
*
* This method allows you to provide a suite of {@link Option} to include in
* the DELETE query. Options currently supported for DELETE are :
*
* Timestamp
* Consistency level
* Tracing
*
*
* @param entity the entity to delete.
* @param options the options to add to the DELETE query.
* @return a query that delete {@code entity} (based on it's defined mapping) with
* provided USING options.
*/
public Statement deleteQuery(T entity, Option... options) {
try {
return Uninterruptibles.getUninterruptibly(deleteQueryAsync(entity, toMapWithDefaults(options, defaultDeleteOptions)));
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
/**
* Creates a query that can be used to delete the provided entity.
*
* This method is a shortcut that extract the PRIMARY KEY from the
* provided entity and call {@link #deleteQuery(Object...)} with it.
*
* This method is useful if you want to setup a number of options (tracing,
* conistency level, ...) of the returned statement before executing it manually
* or need access to the {@code ResultSet} object after execution (to get the
* trace, the execution info, ...), but in other cases, calling {@link #delete}
* or {@link #deleteAsync} is shorter.
*
* @param entity the entity to delete.
* @return a query that delete {@code entity} (based on it's defined mapping).
*/
public Statement deleteQuery(T entity) {
try {
return Uninterruptibles.getUninterruptibly(deleteQueryAsync(entity, defaultDeleteOptions));
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
/**
* Creates a query that can be used to delete an entity given its PRIMARY KEY.
*
* The values provided must correspond to the columns composing the PRIMARY
* KEY (in the order of said primary key). The values can also contain, after
* specifying the primary keys columns, a suite of {@link Option} to include in
* the DELETE query. Note : currently, only {@link com.datastax.driver.mapping.Mapper.Option.Timestamp}
* is supported for DELETE queries.
*
* This method is useful if you want to setup a number of options (tracing,
* conistency level, ...) of the returned statement before executing it manually
* or need access to the {@code ResultSet} object after execution (to get the
* trace, the execution info, ...), but in other cases, calling {@link #delete}
* or {@link #deleteAsync} is shorter.
* This method allows you to provide a suite of {@link Option} to include in
* the DELETE query. Options currently supported for DELETE are :
*
* Timestamp
* Consistency level
* Tracing
*
*
* @param objects the primary key of the entity to delete, or more precisely
* the values for the columns of said primary key in the order of the primary key.
* Can be followed by {@link Option} to include in the DELETE
* query.
* @return a query that delete the entity of PRIMARY KEY {@code primaryKey}.
* @throws IllegalArgumentException if the number of value provided differ from
* the number of columns composing the PRIMARY KEY of the mapped class, or if
* at least one of those values is {@code null}.
*/
public Statement deleteQuery(Object... objects) {
try {
return Uninterruptibles.getUninterruptibly(deleteQueryAsync(objects));
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
private ListenableFuture deleteQueryAsync(T entity, EnumMap options) {
List pks = new ArrayList();
for (int i = 0; i < mapper.primaryKeySize(); i++) {
pks.add(mapper.getPrimaryKeyColumn(i).mappedProperty.getValue(entity));
}
return deleteQueryAsync(pks, options);
}
private ListenableFuture deleteQueryAsync(Object... objects) {
// Order and duplicates matter for primary keys
List pks = new ArrayList();
EnumMap options = new EnumMap(defaultDeleteOptions);
for (Object o : objects) {
if (o instanceof Option) {
Option option = (Option) o;
options.put(option.type, option);
} else {
pks.add(o);
}
}
return deleteQueryAsync(pks, options);
}
private ListenableFuture deleteQueryAsync(final List primaryKey, final EnumMap options) {
if (primaryKey.size() != mapper.primaryKeySize())
throw new IllegalArgumentException(String.format("Invalid number of PRIMARY KEY columns provided, %d expected but got %d", mapper.primaryKeySize(), primaryKey.size()));
return Futures.transform(getPreparedQueryAsync(QueryType.DEL, options), new Function() {
@Override
public BoundStatement apply(PreparedStatement input) {
BoundStatement bs = input.bind();
if (mapper.writeConsistency != null)
bs.setConsistencyLevel(mapper.writeConsistency);
int i = 0;
for (Option option : options.values()) {
option.validate(QueryType.DEL, manager);
i = option.apply(bs, i);
}
int columnNumber = 0;
for (Object value : primaryKey) {
@SuppressWarnings("unchecked")
AliasedMappedProperty column = (AliasedMappedProperty) mapper.getPrimaryKeyColumn(columnNumber);
if (value == null) {
throw new IllegalArgumentException(String.format("Invalid null value for PRIMARY KEY column %s (argument %d)",
column.mappedProperty.getMappedName(), i));
}
setObject(bs, i++, value, column);
columnNumber++;
}
return bs;
}
});
}
/**
* Deletes an entity mapped by this mapper.
*
* This method is basically equivalent to: {@code getManager().getSession().execute(deleteQuery(entity))}.
*
* @param entity the entity to delete.
*/
public void delete(T entity) {
try {
Uninterruptibles.getUninterruptibly(deleteAsync(entity));
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
/**
* Deletes an entity mapped by this mapper using provided options.
*
* This method is basically equivalent to: {@code getManager().getSession().execute(deleteQuery(entity, options))}.
*
* @param entity the entity to delete.
* @param options the options to add to the DELETE query.
*/
public void delete(T entity, Option... options) {
try {
Uninterruptibles.getUninterruptibly(deleteAsync(entity, options));
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
/**
* Deletes an entity mapped by this mapper asynchronously.
*
* This method is basically equivalent to: {@code getManager().getSession().executeAsync(deleteQuery(entity))}.
*
* @param entity the entity to delete.
* @return a future on the completion of the deletion.
*/
public ListenableFuture deleteAsync(T entity) {
return submitVoidQueryAsync(deleteQueryAsync(entity, defaultDeleteOptions));
}
/**
* Deletes an entity mapped by this mapper asynchronously using provided options.
*
* This method is basically equivalent to: {@code getManager().getSession().executeAsync(deleteQuery(entity, options))}.
*
* @param entity the entity to delete.
* @param options the options to add to the DELETE query.
* @return a future on the completion of the deletion.
*/
public ListenableFuture deleteAsync(T entity, Option... options) {
return submitVoidQueryAsync(deleteQueryAsync(entity, toMapWithDefaults(options, defaultDeleteOptions)));
}
/**
* Deletes an entity based on its primary key.
*
* This method is basically equivalent to: {@code getManager().getSession().execute(deleteQuery(objects))}.
*
* @param objects the primary key of the entity to delete, or more precisely
* the values for the columns of said primary key in the order
* of the primary key.Can be followed by {@link Option} to include
* in the DELETE query.
* @throws IllegalArgumentException if the number of value provided differ from
* the number of columns composing the PRIMARY KEY of the mapped class, or if
* at least one of those values is {@code null}.
*/
public void delete(Object... objects) {
try {
Uninterruptibles.getUninterruptibly(deleteAsync(objects));
} catch (ExecutionException e) {
throw DriverThrowables.propagateCause(e);
}
}
/**
* Deletes an entity based on its primary key asynchronously.
*
* This method is basically equivalent to: {@code getManager().getSession().executeAsync(deleteQuery(objects))}.
*
* @param objects the primary key of the entity to delete, or more precisely
* the values for the columns of said primary key in the order
* of the primary key. Can be followed by {@link Option} to include
* in the DELETE query.
* @throws IllegalArgumentException if the number of value provided differ from
* the number of columns composing the PRIMARY KEY of the mapped class, or if
* at least one of those values is {@code null}.
*/
public ListenableFuture deleteAsync(Object... objects) {
return submitVoidQueryAsync(deleteQueryAsync(objects));
}
/**
* Maps the rows from a {@code ResultSet} into the class this is a mapper of.
*
* If the query was user-generated (that is, passed directly to {@code session.execute()} or configured with
* {@link com.datastax.driver.mapping.annotations.Query @Query} in an
* {@link com.datastax.driver.mapping.annotations.Accessor @Accessor}-annotated interface), then only the columns
* present in the result set will be mapped to the corresponding fields, and {@link Computed} fields will not be
* populated.
*
* If the query was generated by the mapper (for example with {@link #getQuery(Object...)}), all fields will be
* mapped, as if the object came from a direct {@link #get(Object...)} call.
*
* @param resultSet the {@code ResultSet} to map.
* @return the mapped result set. Note that the returned mapped result set
* will encapsulate {@code resultSet} and so consuming results from this
* returned mapped result set will consume results from {@code resultSet}
* and vice-versa.
*/
public Result map(ResultSet resultSet) {
boolean useAlias = !manager.isCassandraV1 && isFromMapperQuery(resultSet);
return new Result(resultSet, mapper, useAlias);
}
/**
* Asynchronously maps the rows from a {@link ResultSetFuture} into the class this is a mapper of.
*
* Use this method to map a {@link ResultSetFuture} that was not generated by the mapper
* (e.g. a {@link ResultSetFuture} coming from a manual query or an {@link Accessor} method).
* It expects that the result set contains all column mapped in the target class,
* and that they are not aliased. {@link Computed} fields will not be filled in mapped objects.
*
* @param resultSetFuture the {@link ResultSetFuture} to map.
* @return the mapped result set future. Note that the returned mapped result set
* will encapsulate the result set returned by {@code resultSetFuture} and so consuming results from this
* returned mapped result set will consume results from that result set
* and vice-versa.
*/
public ListenableFuture> mapAsync(ResultSetFuture resultSetFuture) {
return Futures.transform(resultSetFuture, new Function>() {
@Override
public Result apply(ResultSet rs) {
return map(rs);
}
});
}
private boolean isFromMapperQuery(ResultSet resultSet) {
return resultSet.getExecutionInfo().getStatement() instanceof MapperBoundStatement;
}
/**
* @deprecated you no longer need to specify whether a result set is aliased, it will be detected automatically. Use
* {@link #map(ResultSet)} instead of this method.
*/
@Deprecated
public Result mapAliased(ResultSet resultSet) {
return (manager.isCassandraV1)
? map(resultSet) // no aliases
: new Result(resultSet, mapper, true);
}
/**
* Set the default save {@link Option} for this object mapper, that will be used
* in all save operations unless overridden. Refer to {@link Mapper#save(Object, Option...)})}
* to check available save options.
*
* @param options the options to set. To reset, use {@link Mapper#resetDefaultSaveOptions}.
*/
public void setDefaultSaveOptions(Option... options) {
this.defaultSaveOptions = toMap(options);
}
/**
* Reset the default save options for this object mapper.
*/
public void resetDefaultSaveOptions() {
this.defaultSaveOptions = NO_OPTIONS;
}
/**
* Set the default get {@link Option} for this object mapper, that will be used
* in all get operations unless overridden. Refer to {@link Mapper#get(Object...)} )} to check available
* get options.
*
* @param options the options to set. To reset, use {@link Mapper#resetDefaultGetOptions}.
*/
public void setDefaultGetOptions(Option... options) {
this.defaultGetOptions = toMap(options);
}
/**
* Reset the default save options for this object mapper.
*/
public void resetDefaultGetOptions() {
this.defaultGetOptions = NO_OPTIONS;
}
/**
* Set the default delete {@link Option} for this object mapper, that will be used
* in all delete operations unless overridden. Refer to {@link Mapper#delete(Object...)} )}
* to check available delete options.
*
* @param options the options to set. To reset, use {@link Mapper#resetDefaultDeleteOptions}.
*/
public void setDefaultDeleteOptions(Option... options) {
this.defaultDeleteOptions = toMap(options);
}
/**
* Reset the default delete options for this object mapper.
*/
public void resetDefaultDeleteOptions() {
this.defaultDeleteOptions = NO_OPTIONS;
}
private static EnumMap toMap(Option[] options) {
EnumMap result = new EnumMap(Option.Type.class);
for (Option option : options) {
result.put(option.type, option);
}
return result;
}
private static EnumMap toMapWithDefaults(Option[] options, EnumMap defaults) {
EnumMap result = new EnumMap(defaults);
for (Option option : options) {
result.put(option.type, option);
}
return result;
}
/**
* An option for a mapper operation.
*
* Options can be passed to individual operations:
*
* mapper.save(myObject, Option.ttl(3600));
*
*
* The mapper can also have defaults, that will apply to all operations that do not
* override these particular option:
*
* mapper.setDefaultSaveOptions(Option.ttl(3600));
* mapper.save(myObject);
*
*
*
* See the static methods in this class for available options.
*/
public static abstract class Option {
enum Type {TTL, TIMESTAMP, CL, TRACING, SAVE_NULL_FIELDS, IF_NOT_EXISTS}
/**
* Creates a new Option object to add time-to-live to a mapper operation. This is
* only valid for save operations.
*
* Note that this option is only available if using {@link ProtocolVersion#V2} or above.
*
* @param ttl the TTL (in seconds).
* @return the option.
*/
public static Option ttl(int ttl) {
return new Ttl(ttl);
}
/**
* Creates a new Option object to add a timestamp to a mapper operation. This is
* only valid for save and delete operations.
*
* Note that this option is only available if using {@link ProtocolVersion#V2} or above.
*
* @param timestamp the timestamp (in microseconds).
* @return the option.
*/
public static Option timestamp(long timestamp) {
return new Timestamp(timestamp);
}
/**
* Creates a new Option object to add a consistency level value to a mapper operation. This
* is valid for save, delete and get operations.
*
* Note that the consistency level can also be defined at the mapper level, as a parameter
* of the {@link com.datastax.driver.mapping.annotations.Table} annotation (this is redundant
* for backward compatibility). This option, whether defined on a specific call or as the
* default, will always take precedence over the annotation.
*
* @param cl the {@link com.datastax.driver.core.ConsistencyLevel} to use for the operation.
* @return the option.
*/
public static Option consistencyLevel(ConsistencyLevel cl) {
return new ConsistencyLevelOption(cl);
}
/**
* Creates a new Option object to enable query tracing for a mapper operation. This
* is valid for save, delete and get operations.
*
* @param enabled whether to enable tracing.
* @return the option.
*/
public static Option tracing(boolean enabled) {
return new Tracing(enabled);
}
/**
* Creates a new Option object to specify whether null entity fields should be included in
* insert queries. This option is valid only for save operations.
*
* If this option is not specified, it defaults to {@code true} (null fields are saved).
*
* @param enabled whether to include null fields in queries.
* @return the option.
*/
public static Option saveNullFields(boolean enabled) {
return new SaveNullFields(enabled);
}
/**
* Creates a new Option object to specify whether an IF NOT EXISTS clause should be included in
* insert queries. This option is valid only for save operations.
*
* If this option is not specified, it defaults to {@code false} (IF NOT EXISTS statements are not used).
*
* @param enabled whether to include an IF NOT EXISTS clause in queries.
* @return the option.
*/
public static Option ifNotExists(boolean enabled) {
return new IfNotExists(enabled);
}
final Type type;
protected Option(Type type) {
this.type = type;
}
/**
* @deprecated This method is public for backward compatibility only. It should not be accessible since it leaks
* a package-private type.
*/
@Deprecated
public Type getType() {
return type;
}
/**
* Checks that the option is allowed for a given query type, in a given manager.
*
* @throws IllegalArgumentException if the option is not valid
*/
abstract void validate(QueryType qt, MappingManager manager);
/**
* Whether the option has any impact on the prepared query string.
*/
abstract boolean modifiesQueryString();
/**
* Appends the option to the prepared statement associated to the mapper operation
* (might be a no-op, not all options affect the query string).
*/
abstract void modifyQueryString(BuiltStatement query);
/**
* Applies the option to the bound statement before the request gets executed (might be a
* no-op).
*
* If the option's value is set as a bound variable, then this must be done at the given
* index, and the method should return the new position.
*
* Options may also affect the statement itself, not a bound variable; in that case, the
* method must return the index unchanged.
*/
abstract int apply(BoundStatement bs, int currentIndex);
/**
* A key to represent the option in the prepared statement cache.
*
* If the same option with different values produces different query strings, this should
* be the option itself.
* Otherwise this should be the option type.
*/
abstract Object asCacheKey();
static class Ttl extends Option {
private final int ttlValue;
Ttl(int value) {
super(Type.TTL);
this.ttlValue = value;
}
@Override
void validate(QueryType qt, MappingManager manager) {
checkArgument(!manager.isCassandraV1, "TTL option requires native protocol v2 or above");
checkArgument(qt == QueryType.SAVE, "TTL option is only allowed in save queries");
}
@Override
boolean modifiesQueryString() {
return true;
}
@Override
void modifyQueryString(BuiltStatement query) {
((Insert) query).using().and(
QueryBuilder.ttl(QueryBuilder.bindMarker()));
}
@Override
int apply(BoundStatement bs, int currentIndex) {
bs.setInt(currentIndex, this.ttlValue);
return currentIndex + 1;
}
@Override
Object asCacheKey() {
// ttl is set as a bound variable "TTL(?)", so different values yield the same prepared query
return Type.TTL;
}
@Override
public boolean equals(Object other) {
return other == this ||
(other instanceof Ttl && this.ttlValue == ((Ttl) other).ttlValue);
}
@Override
public int hashCode() {
return ttlValue;
}
}
static class Timestamp extends Option {
private final long tsValue;
Timestamp(long value) {
super(Type.TIMESTAMP);
this.tsValue = value;
}
@Override
void validate(QueryType qt, MappingManager manager) {
checkArgument(!manager.isCassandraV1, "Timestamp option requires native protocol v2 or above");
checkArgument(qt == QueryType.SAVE || qt == QueryType.DEL, "Timestamp option is only allowed in save and delete queries");
}
@Override
boolean modifiesQueryString() {
return true;
}
@Override
void modifyQueryString(BuiltStatement query) {
if (query instanceof Insert) {
((Insert) query).using().and(QueryBuilder.timestamp(QueryBuilder.bindMarker()));
} else if (query instanceof Delete) {
((Delete) query).using().and(QueryBuilder.timestamp(QueryBuilder.bindMarker()));
} else {
throw new AssertionError("Unexpected query type: " + query.getClass());
}
}
@Override
int apply(BoundStatement bs, int currentIndex) {
bs.setLong(currentIndex, this.tsValue);
return currentIndex + 1;
}
@Override
Object asCacheKey() {
// timestamp is set as a bound variable "USING TIMESTAMP ?", so different values
// yield the same prepared query
return Type.TIMESTAMP;
}
@Override
public boolean equals(Object other) {
return other == this ||
(other instanceof Timestamp && this.tsValue == ((Timestamp) other).tsValue);
}
@Override
public int hashCode() {
return (int) (tsValue ^ (tsValue >>> 32));
}
}
static class ConsistencyLevelOption extends Option {
private final ConsistencyLevel cl;
ConsistencyLevelOption(ConsistencyLevel cl) {
super(Type.CL);
this.cl = cl;
}
@Override
void validate(QueryType qt, MappingManager manager) {
}
@Override
boolean modifiesQueryString() {
return false;
}
@Override
void modifyQueryString(BuiltStatement query) {
// nothing to do, CL is set on the bound statement
}
@Override
int apply(BoundStatement bs, int currentIndex) {
bs.setConsistencyLevel(cl);
return currentIndex;
}
@Override
Object asCacheKey() {
// does not modify the query string
return Type.CL;
}
@Override
public boolean equals(Object other) {
return other == this ||
(other instanceof ConsistencyLevelOption && this.cl == ((ConsistencyLevelOption) other).cl);
}
@Override
public int hashCode() {
return cl.hashCode();
}
}
static class Tracing extends Option {
private final boolean tracing;
Tracing(boolean tracing) {
super(Type.TRACING);
this.tracing = tracing;
}
@Override
void validate(QueryType qt, MappingManager manager) {
}
@Override
boolean modifiesQueryString() {
return false;
}
@Override
void modifyQueryString(BuiltStatement query) {
// nothing to do, tracing is enabled on the prepared statement
}
@Override
int apply(BoundStatement bs, int currentIndex) {
if (this.tracing) {
bs.enableTracing();
}
return currentIndex;
}
@Override
Object asCacheKey() {
// does not modify the query string
return Type.TRACING;
}
@Override
public boolean equals(Object other) {
return other == this ||
(other instanceof Tracing && this.tracing == ((Tracing) other).tracing);
}
@Override
public int hashCode() {
return tracing ? 1231 : 1237;
}
}
static class SaveNullFields extends Option {
private final boolean saveNullFields;
SaveNullFields(boolean saveNullFields) {
super(SAVE_NULL_FIELDS);
this.saveNullFields = saveNullFields;
}
@Override
void validate(QueryType qt, MappingManager manager) {
checkArgument(qt == QueryType.SAVE, "SaveNullFields option is only allowed in save queries");
}
@Override
boolean modifiesQueryString() {
return false;
}
@Override
void modifyQueryString(BuiltStatement query) {
// nothing to do
}
@Override
int apply(BoundStatement bs, int currentIndex) {
return currentIndex;
}
@Override
Object asCacheKey() {
// does not modify the query string
return Type.SAVE_NULL_FIELDS;
}
@Override
public boolean equals(Object other) {
return other == this ||
(other instanceof SaveNullFields && this.saveNullFields == ((SaveNullFields) other).saveNullFields);
}
@Override
public int hashCode() {
return saveNullFields ? 1231 : 1237;
}
}
static class IfNotExists extends Option {
boolean ifNotExists;
IfNotExists(boolean ifNotExists) {
super(Type.IF_NOT_EXISTS);
this.ifNotExists = ifNotExists;
}
@Override
void validate(QueryType qt, MappingManager manager) {
checkArgument(qt == QueryType.SAVE, "IfNotExists option is only allowed in save queries");
}
@Override
boolean modifiesQueryString() {
return true;
}
@Override
void modifyQueryString(BuiltStatement query) {
if (ifNotExists) {
((Insert) query).ifNotExists();
}
}
@Override
int apply(BoundStatement bs, int currentIndex) {
return currentIndex;
}
@Override
Object asCacheKey() {
// Different values do change the query string ("IF NOT EXIST" clause present or not)
return this;
}
@Override
public boolean equals(Object other) {
return other == this ||
(other instanceof IfNotExists && this.ifNotExists == ((IfNotExists) other).ifNotExists);
}
@Override
public int hashCode() {
return (ifNotExists) ? 1231 : 1237;
}
}
}
private static class MapperQueryKey {
private final QueryType queryType;
private final Set optionKeys;
private final Set columns;
MapperQueryKey(QueryType queryType, Set aliasedMappedProperties, EnumMap allOptions) {
Preconditions.checkNotNull(queryType);
Preconditions.checkNotNull(allOptions);
Preconditions.checkNotNull(aliasedMappedProperties);
this.queryType = queryType;
this.columns = aliasedMappedProperties;
ImmutableSet.Builder optionKeysBuilder = ImmutableSet.builder();
for (Option option : allOptions.values()) {
if (option.modifiesQueryString()) {
optionKeysBuilder.add(option.asCacheKey());
}
}
this.optionKeys = optionKeysBuilder.build();
}
@Override
public boolean equals(Object other) {
if (this == other)
return true;
if (other instanceof MapperQueryKey) {
MapperQueryKey that = (MapperQueryKey) other;
return this.queryType.equals(that.queryType)
&& this.optionKeys.equals(that.optionKeys)
&& this.columns.equals(that.columns);
}
return false;
}
@Override
public int hashCode() {
return MoreObjects.hashCode(queryType, optionKeys, columns);
}
}
}