public abstract class ObjectLevelReadQuery extends ObjectBuildingQuery
Purpose: Abstract class for all read queries using objects.
Description: Contains common behavior for all read queries using objects.
DatabaseQuery.ParameterType
Modifier and Type | Field and Description |
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protected java.util.List<java.lang.Object> |
additionalFields
Allow for additional fields to be selected, used for m-m batch reading.
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protected java.util.Map<DatabaseMapping,ObjectLevelReadQuery> |
aggregateQueries
Allow aggregate queries to be prepared and cached.
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protected BatchFetchPolicy |
batchFetchPolicy
Defines batch fetching configuration.
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protected int |
cacheUsage
Allow for the cache usage to be specified to enable in-memory querying.
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static int |
CheckCacheByExactPrimaryKey |
static int |
CheckCacheByPrimaryKey |
static int |
CheckCacheOnly |
static int |
CheckCacheThenDatabase |
protected java.util.Map<java.lang.Class,org.eclipse.persistence.internal.databaseaccess.DatabaseCall> |
concreteSubclassCalls
Allow concrete subclasses calls to be prepared and cached for inheritance queries.
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protected java.util.Map<java.lang.Class,java.util.Map<DatabaseMapping,java.lang.Object>> |
concreteSubclassJoinedMappingIndexes
Allow concrete subclasses joined mapping indexes to be prepared and cached for inheritance queries.
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protected java.util.Map<java.lang.Class,DatabaseQuery> |
concreteSubclassQueries
Allow concrete subclasses queries to be prepared and cached for inheritance queries.
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static int |
ConformResultsInUnitOfWork |
protected ExpressionBuilder |
defaultBuilder
Provide a default builder so that it's easier to be consistent
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protected short |
distinctState
Indicates if distinct should be used or not.
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static int |
DoNotCheckCache |
static short |
DONT_USE_DISTINCT |
protected FetchGroup |
fetchGroup
FetchGroup specified on this query. |
protected java.lang.String |
fetchGroupName
Name of
FetchGroup stored in the FetchGroupManager of the
reference class' descriptor or any of its parent descriptors. |
protected int |
inMemoryQueryIndirectionPolicy
Used to determine behavior of indirection in in-memory querying and conforming.
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protected boolean |
isCachedExpressionQuery
Indicates whether the query is cached as an expression query in descriptor's query manager.
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protected boolean |
isPrePrepared
Allow a prePrepare stage to build the expression for EJBQL and QBE and resolve joining.
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protected boolean |
isReadOnly
PERF: Allow queries to be defined as read-only in unit of work execution.
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protected java.lang.Boolean |
isReferenceClassLocked
PERF: Caches locking policy isReferenceClassLocked setting.
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protected java.lang.Boolean |
isResultSetAccessOptimizedQuery
PERF: Allow queries to build while accessing the database result-set.
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static boolean |
isResultSetAccessOptimizedQueryDefault
If neither query specifies isResultSetOptimizedQuery nor session specifies shouldOptimizeResultSetAccess
then this value is used to indicate whether optimization should be attempted
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protected boolean |
isResultSetOptimizedQuery
PERF: Allow queries to build directly from the database result-set.
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protected org.eclipse.persistence.internal.queries.JoinedAttributeManager |
joinedAttributeManager
Stores the helper object for dealing with joined attributes
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protected LoadGroup |
loadGroup
Specifies indirection that should be instantiated before returning result
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protected java.lang.String |
lockModeType
Used when specifying a lock mode for the query
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static java.lang.String |
NONE
Names of the possible lock mode types, JPA 2.0 only
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protected java.util.List<Expression> |
nonFetchJoinAttributeExpressions
Stores the non fetchjoin attributes, these are joins that will be
represented in the where clause but not in the select.
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static java.lang.String |
OPTIMISTIC |
static java.lang.String |
OPTIMISTIC_FORCE_INCREMENT |
protected java.util.List<Expression> |
orderByExpressions
Used for ordering support.
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protected java.util.List<Expression> |
partialAttributeExpressions
Stores the partial attributes that have been added to this query
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static java.lang.String |
PESSIMISTIC_ |
static java.lang.String |
PESSIMISTIC_FORCE_INCREMENT |
static java.lang.String |
PESSIMISTIC_READ |
static java.lang.String |
PESSIMISTIC_WRITE |
static java.lang.String |
READ
Names of the possible lock mode types, JPA 1.0 and 2.0
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protected boolean |
shouldExtendPessimisticLockScope
Indicates whether pessimistic lock should also be applied to relation tables (ManyToMany and OneToOne mappings),
reference tables (DirectCollection and AggregateCollection mapping).
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protected boolean |
shouldIncludeData
Allow for a complex result to be return including the rows and objects, used for m-m batch reading.
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protected java.lang.Boolean |
shouldOuterJoinSubclasses
Define if an outer join should be used to read subclasses.
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protected boolean |
shouldUseDefaultFetchGroup
Flag to turn on/off the use of the default fetch group.
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protected boolean |
shouldUseSerializedObjectPolicy
Indicates whether the query should use SerializedObjectPolicy if descriptor has it.
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static boolean |
shouldUseSerializedObjectPolicyDefault
default value for shouldUseSerializedObjectPolicy
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static short |
UNCOMPUTED_DISTINCT |
protected java.util.List<Expression> |
unionExpressions
Allow a query's results to be unioned (UNION, INTERSECT, EXCEPT) with another query results.
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static short |
USE_DISTINCT |
static int |
UseDescriptorSetting |
protected java.lang.Boolean |
usesResultSetAccessOptimization
PERF: Indicates whether the query is actually using ResultSet optimization.
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protected java.lang.Integer |
waitTimeout
waitTimeout has three possible setting: null, 0 and 1..N
null: use the session.getPessimisticLockTimeoutDefault() if available.
0: issue a LOCK_NOWAIT
1..N: use this value to set the WAIT clause.
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static java.lang.String |
WRITE |
DEFAULT_LOCK_MODE, executionTime, isCacheCheckComplete, LOCK, LOCK_NOWAIT, LOCK_RESULT_PROPERTY, lockingClause, NO_LOCK, prefetchedCacheKeys, referenceClass, referenceClassName, requiresDeferredLocks, shouldBuildNullForNullPk, shouldRefreshIdentityMapResult, shouldRefreshRemoteIdentityMapResult, shouldRegisterResultsInUnitOfWork, shouldUseExclusiveConnection, wasDefaultLockMode
fetchSize, firstResult, maxResults, maxRows, queryId, queryResultCachingPolicy, temporaryCachedQueryResults
accessors, allowNativeSQLQuery, argumentFields, argumentParameterTypes, arguments, argumentTypeNames, argumentTypes, argumentValues, BATCH_FETCH_PROPERTY, CascadeAggregateDelete, CascadeAllParts, CascadeByMapping, CascadeDependentParts, cascadePolicy, CascadePrivateParts, descriptor, descriptors, doNotRedirect, executionSession, flushOnExecute, hintString, isCustomQueryUsed, isExecutionClone, isNativeConnectionRequired, isPrepared, isUserDefined, isUserDefinedSQLCall, monitorName, name, NoCascading, nullableArguments, parameterDelimiter, partitioningPolicy, properties, queryMechanism, queryTimeout, queryTimeoutUnit, redirector, session, sessionName, shouldBindAllParameters, shouldCacheStatement, shouldCloneCall, shouldMaintainCache, shouldPrepare, shouldRetrieveBypassCache, shouldStoreBypassCache, shouldUseWrapperPolicy, shouldValidateUpdateCallCacheUse, sourceMapping, translationRow
Constructor and Description |
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ObjectLevelReadQuery()
INTERNAL:
Initialize the state of the query
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Modifier and Type | Method and Description |
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void |
acquireLocks()
PUBLIC:
Set the query to lock, this will also turn refreshCache on.
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void |
acquireLocksWithoutWaiting()
PUBLIC:
Set the query to lock without waiting (blocking), this will also turn refreshCache on.
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void |
addAdditionalField(org.eclipse.persistence.internal.helper.DatabaseField field)
INTERNAL:
Additional fields can be added to a query.
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void |
addAdditionalField(Expression fieldExpression)
INTERNAL:
Additional fields can be added to a query.
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void |
addBatchReadAttribute(Expression attributeExpression)
PUBLIC:
Specify the foreign-reference mapped attribute to be optimized in this query.
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void |
addBatchReadAttribute(java.lang.String attributeName)
PUBLIC:
Specify the foreign-reference mapped attribute to be optimized in this query.
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void |
addDescendingOrdering(java.lang.String queryKeyName)
PUBLIC:
Order the query results by the object's attribute or query key name.
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void |
addJoinedAttribute(Expression attributeExpression)
PUBLIC:
Specify the attribute to be join fetched in this query.
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void |
addJoinedAttribute(java.lang.String attributeName)
PUBLIC:
Specify the relationship attribute to be join fetched in this query.
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void |
addJoinSelectionFields(java.util.Vector fields,
boolean isCustomSQL)
INTERNAL:
The method adds to the passed input vector the
fields or expressions corresponding to the joins.
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void |
addNonFetchJoin(Expression target)
PUBLIC:
Specify the object expression to be joined in this query.
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void |
addNonFetchJoinedAttribute(Expression attributeExpression)
PUBLIC:
Specify the relationship attribute to be join in this query.
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void |
addNonFetchJoinedAttribute(java.lang.String attributeName)
PUBLIC:
Specify the relationship attribute to be join in this query.
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void |
addOrdering(Expression orderingExpression)
PUBLIC:
Add the ordering expression.
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void |
addPartialAttribute(Expression attributeExpression)
Deprecated.
since EclipseLink 2.1, partial attributes replaced by fetch groups.
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void |
addPartialAttribute(java.lang.String attributeName)
Deprecated.
since EclipseLink 2.1, partial attributes replaced by fetch groups.
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protected void |
addSelectionFieldsForJoinedExpression(java.util.List fields,
boolean isCustomSQL,
Expression expression)
INTERNAL:
The method adds to the passed input vector the
fields or expressions corresponding to the passed join expression.
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void |
addUnionExpression(Expression union)
PUBLIC:
Add the union expression to the query.
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java.lang.Object |
buildObject(org.eclipse.persistence.internal.sessions.AbstractRecord row)
INTERNAL:
Used to build the object, and register it if in the context of a unit of work.
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void |
changeDescriptor(org.eclipse.persistence.internal.sessions.AbstractSession theSession)
INTERNAL:
The reference class has been changed, need to reset the
descriptor.
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void |
checkCacheOnly()
PUBLIC:
The cache will checked completely, if the object is not found null will be returned or an error if the query is too complex.
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void |
checkDescriptor(org.eclipse.persistence.internal.sessions.AbstractSession session)
INTERNAL:
Ensure that the descriptor has been set.
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java.lang.Object |
checkEarlyReturn(org.eclipse.persistence.internal.sessions.AbstractSession session,
org.eclipse.persistence.internal.sessions.AbstractRecord translationRow)
INTERNAL:
Check to see if this query already knows the return value without performing any further work.
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protected abstract java.lang.Object |
checkEarlyReturnLocal(org.eclipse.persistence.internal.sessions.AbstractSession session,
org.eclipse.persistence.internal.sessions.AbstractRecord translationRow)
INTERNAL:
Contains the body of the check early return call, implemented by subclasses.
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void |
checkPrepare(org.eclipse.persistence.internal.sessions.AbstractSession session,
org.eclipse.persistence.internal.sessions.AbstractRecord translationRow,
boolean force)
INTERNAL:
Check to see if this query needs to be prepare and prepare it.
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void |
checkPrePrepare(org.eclipse.persistence.internal.sessions.AbstractSession session)
INTERNAL:
ObjectLevelReadQueries now have an explicit pre-prepare stage, which
is for checking for pessimistic locking, and computing any joined
attributes declared on the descriptor.
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void |
clearIsResultSetOptimizedQuery()
ADVANCED:
Clear the flag set by setIsResultSetOptimizedQuery method, allow to use default set on the session instead.
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void |
clearUsesResultSetAccessOptimization()
INTERNAL:
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java.lang.Object |
clone()
INTERNAL:
Clone the query
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void |
computeBatchReadAttributes()
INTERNAL:
Compute the cache batched attributes.
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void |
computeBatchReadMappingQueries()
INTERNAL:
Used to optimize joining by pre-computing the nested join queries for the mappings.
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protected void |
computeNestedQueriesForBatchReadExpressions(java.util.List<Expression> batchReadExpressions)
INTERNAL:
This method is used when computing the nested queries for batch read mappings.
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protected java.lang.Object |
conformIndividualResult(java.lang.Object clone,
org.eclipse.persistence.internal.sessions.UnitOfWorkImpl unitOfWork,
org.eclipse.persistence.internal.sessions.AbstractRecord arguments,
Expression selectionCriteriaClone,
java.util.Map alreadyReturned)
INTERNAL:
Conforms and registers an individual result.
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void |
conformResultsInUnitOfWork()
PUBLIC:
The cache will checked completely, if the object is not found the database will be queried,
and the database result will be verified with what is in the cache and/or unit of work including new objects.
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void |
copyFromQuery(DatabaseQuery query)
INTERNAL:
Copy all setting from the query.
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java.lang.Object |
deepClone()
INTERNAL:
Clone the query, including its selection criteria.
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void |
dontAcquireLocks()
PUBLIC:
Set the query not to lock.
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void |
dontCheckCache()
PUBLIC:
This can be used to explicitly disable the cache hit.
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void |
dontRefreshIdentityMapResult()
PUBLIC:
When unset means perform read normally and dont do refresh.
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void |
dontRefreshRemoteIdentityMapResult()
PUBLIC:
When unset means perform read normally and dont do refresh.
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void |
dontUseDistinct()
ADVANCED:
If a distinct has been set the DISTINCT clause will be printed.
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boolean |
equals(java.lang.Object object)
INTERNAL:
Return if the query is equal to the other.
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void |
except(ReportQuery query)
PUBLIC:
Except the query results with the other query.
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java.lang.Object |
execute(org.eclipse.persistence.internal.sessions.AbstractSession session,
org.eclipse.persistence.internal.sessions.AbstractRecord translationRow)
INTERNAL:
Execute the query.
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java.lang.Object |
executeDatabaseQuery()
INTERNAL:
Executes the prepared query on the datastore.
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java.lang.Object |
executeInUnitOfWork(org.eclipse.persistence.internal.sessions.UnitOfWorkImpl unitOfWork,
org.eclipse.persistence.internal.sessions.AbstractRecord translationRow)
INTERNAL:
Execute the query in the unit of work.
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protected abstract java.lang.Object |
executeObjectLevelReadQuery()
Executes the prepared query on the datastore.
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protected abstract java.lang.Object |
executeObjectLevelReadQueryFromResultSet()
Executes the prepared query on the datastore.
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void |
extendPessimisticLockScope()
INTERNAL:
Extends pessimistic lock scope.
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java.util.List<java.lang.Object> |
getAdditionalFields()
INTERNAL:
Additional fields can be added to a query.
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java.util.Map<DatabaseMapping,ObjectLevelReadQuery> |
getAggregateQueries()
INTERNAL:
Return the cache of aggregate queries.
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ObjectLevelReadQuery |
getAggregateQuery(DatabaseMapping mapping)
INTERNAL:
Return the aggregate query clone for the mapping.
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AsOfClause |
getAsOfClause()
ADVANCED:
Answers the past time this query is as of.
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BatchFetchPolicy |
getBatchFetchPolicy()
Return the batch fetch policy for configuring batch fetching.
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java.util.Map<java.lang.Object,java.lang.Object> |
getBatchObjects()
INTERNAL:
Return temporary map of batched objects.
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java.util.List<Expression> |
getBatchReadAttributeExpressions()
INTERNAL:
Return all attributes specified for batch reading.
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int |
getCacheUsage()
PUBLIC:
Return the cache usage.
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java.util.Map<java.lang.Class,org.eclipse.persistence.internal.databaseaccess.DatabaseCall> |
getConcreteSubclassCalls()
INTERNAL:
Return the cache of concrete subclass calls.
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java.util.Map<java.lang.Class,java.util.Map<DatabaseMapping,java.lang.Object>> |
getConcreteSubclassJoinedMappingIndexes()
INTERNAL:
Return the cache of concrete subclass joined mapping indexes.
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java.util.Map<java.lang.Class,DatabaseQuery> |
getConcreteSubclassQueries()
INTERNAL:
Return the cache of concrete subclass queries.
|
short |
getDistinctState()
ADVANCED:
If a distinct has been set the DISTINCT clause will be printed.
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java.lang.Object |
getExampleObject()
PUBLIC:
This method returns the current example object.
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FetchGroup |
getExecutionFetchGroup()
INTERNAL:
Returns FetchGroup that will be applied to the query.
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FetchGroup |
getExecutionFetchGroup(ClassDescriptor descriptor)
INTERNAL:
Returns FetchGroup that will be applied to the query.
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ExpressionBuilder |
getExpressionBuilder()
REQUIRED:
Get the expression builder which should be used for this query.
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FetchGroup |
getFetchGroup()
Return the fetch group set in the query.
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java.lang.String |
getFetchGroupName()
Return the fetch group name set in the query.
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java.util.Set<org.eclipse.persistence.internal.helper.DatabaseField> |
getFetchGroupNonNestedFieldsSet()
INTERNAL:
Return the set of fields required in the select clause, for fetch group reading.
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java.util.Set<org.eclipse.persistence.internal.helper.DatabaseField> |
getFetchGroupNonNestedFieldsSet(DatabaseMapping nestedMapping)
INTERNAL:
Return the set of fields required in the select clause, for fetch group reading.
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java.util.List<org.eclipse.persistence.internal.helper.DatabaseField> |
getFetchGroupSelectionFields()
INTERNAL:
Return the fields required in the select clause, for fetch group reading.
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protected java.util.List<org.eclipse.persistence.internal.helper.DatabaseField> |
getFetchGroupSelectionFields(DatabaseMapping nestedMapping)
INTERNAL:
Return the fields required in the select clause, for fetch group reading.
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InMemoryQueryIndirectionPolicy |
getInMemoryQueryIndirectionPolicy()
PUBLIC:
Returns the InMemoryQueryIndirectionPolicy for this query
|
int |
getInMemoryQueryIndirectionPolicyState()
PUBLIC:
Returns the InMemoryQueryIndirectionPolicy for this query
|
java.util.List |
getJoinedAttributeExpressions()
INTERNAL:
Convenience method for project mapping.
|
org.eclipse.persistence.internal.queries.JoinedAttributeManager |
getJoinedAttributeManager()
INTERNAL:
Return join manager responsible for managing all aspects of joining for the query.
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LoadGroup |
getLoadGroup()
Return the load group set in the query.
|
org.eclipse.persistence.internal.expressions.ForUpdateClause |
getLockingClause()
INTERNAL:
It is not exactly as simple as a query being either locking or not.
|
java.lang.String |
getLockModeType()
INTERNAL:
returns the javax.persistence.LockModeType string value set on this query.
|
java.util.List<Expression> |
getNonFetchJoinAttributeExpressions()
INTERNAL:
Return the attributes that must be joined, but not fetched, that is,
do not trigger the value holder.
|
java.util.List<Expression> |
getOrderByExpressions()
INTERNAL:
Return the order expressions for the query.
|
java.util.List<Expression> |
getPartialAttributeExpressions()
INTERNAL:
Return the partial attributes to select.
|
java.util.Vector |
getPartialAttributeSelectionFields(boolean isCustomSQL)
INTERNAL:
Return the fields required in the select clause, for patial attribute reading.
|
QueryByExamplePolicy |
getQueryByExamplePolicy()
PUBLIC:
When using Query By Example, an instance of QueryByExamplePolicy is used to customize the query.
|
java.lang.Class |
getReferenceClass()
PUBLIC:
Return the reference class of the query.
|
java.lang.String |
getReferenceClassName()
INTERNAL:
Return the reference class of the query.
|
java.util.Vector |
getSelectionFields()
INTERNAL:
Return the fields selected by the query.
|
java.util.List<Expression> |
getUnionExpressions()
Return any union expressions.
|
java.lang.Integer |
getWaitTimeout()
PUBLIC:
Return the WAIT timeout value of pessimistic locking query.
|
boolean |
hasAdditionalFields()
INTERNAL:
Return if additional field.
|
boolean |
hasAsOfClause()
PUBLIC:
Answers if the domain objects are to be read as of a past time.
|
boolean |
hasBatchReadAttributes()
INTERNAL:
Return true is this query has batching
|
boolean |
hasDefaultBuilder()
INTERNAL:
Checks to see if a builder has been set on the query.
|
boolean |
hasExecutionFetchGroup()
INTERNAL:
Indicates whether a FetchGroup will be applied to the query.
|
boolean |
hasFetchGroup()
Return if a fetch group is set in the query.
|
int |
hashCode()
INTERNAL:
Compute a consistent hash-code for the expression.
|
boolean |
hasJoining()
INTERNAL:
Return if any attributes are joined.
|
boolean |
hasNonFetchJoinedAttributeExpressions()
INTERNAL:
Return the attributes that must be joined.
|
boolean |
hasOrderByExpressions()
INTERNAL:
The order bys are lazy initialized to conserve space.
|
boolean |
hasPartialAttributeExpressions()
INTERNAL:
Return if partial attributes.
|
boolean |
hasUnionExpressions()
INTERNAL:
The unions are lazy initialized to conserve space.
|
protected void |
initializeDefaultBuilder()
Initialize the expression builder which should be used for this query.
|
void |
intersect(ReportQuery query)
PUBLIC:
Intersect the query results with the other query.
|
boolean |
isAttributeBatchRead(ClassDescriptor mappingDescriptor,
java.lang.String attributeName)
INTERNAL:
Return if the attribute is specified for batch reading.
|
boolean |
isCachedExpressionQuery()
INTERNAL:
Indicates whether the query is cached as an expression query in descriptor's query manager.
|
boolean |
isClonePessimisticLocked(java.lang.Object clone,
org.eclipse.persistence.internal.sessions.UnitOfWorkImpl uow)
INTERNAL:
Helper method that checks if clone has been locked with uow.
|
boolean |
isDefaultLock()
INTERNAL: Helper method to determine the default mode.
|
boolean |
isDefaultPropertiesQuery()
INTERNAL:
Return true if the query uses default properties.
|
boolean |
isDistinctComputed()
INTERNAL:
return true if this query has computed its distinct value already
|
boolean |
isLockQuery()
PUBLIC:
Answers if the query lock mode is known to be LOCK or LOCK_NOWAIT.
|
boolean |
isLockQuery(Session session)
ADVANCED:
Answers if this query will issue any pessimistic locks.
|
boolean |
isObjectLevelReadQuery()
PUBLIC:
Return if this is an object level read query.
|
boolean |
isPartialAttribute(java.lang.String attributeName)
INTERNAL:
Return if partial attribute.
|
protected boolean |
isPrePrepared()
PUBLIC:
Queries prepare common stated in themselves.
|
boolean |
isPrimaryKeyQuery()
INTERNAL:
Return if the query is known to be by primary key.
|
boolean |
isReadOnly()
PUBLIC:
Return if the query is read-only.
|
protected boolean |
isReferenceClassLocked()
INTERNAL:
Cache the locking policy isReferenceClassLocked check.
|
java.lang.Boolean |
isResultSetAccessOptimizedQuery()
ADVANCED:
Return if the query result set access should be optimized.
|
boolean |
isResultSetOptimizedQuery()
ADVANCED:
Return if the query should be optimized to build directly from the result set.
|
protected void |
prepare()
INTERNAL:
Prepare the receiver for execution in a session.
|
void |
prepareFetchGroup()
INTERNAL:
Add mandatory attributes to fetch group, create entityFetchGroup.
|
protected void |
prepareForRemoteExecution()
INTERNAL:
Prepare the receiver for execution in a session.
|
protected boolean |
prepareFromCachedQuery()
INTERNAL:
Check if the query is cached and prepare from it.
|
void |
prepareFromQuery(DatabaseQuery query)
INTERNAL:
Prepare the query from the prepared query.
|
DatabaseQuery |
prepareOutsideUnitOfWork(org.eclipse.persistence.internal.sessions.AbstractSession session)
INTERNAL:
There is a very special case where a query may be a bean-level
pessimistic locking query.
|
protected void |
prepareQuery()
INTERNAL:
Prepare the receiver for execution in a session.
|
protected void |
prepareResultSetAccessOptimization()
INTERNAL:
Sets usesResultSetAccessOptimization based on isResultSetAccessOptimizedQuery, session default and
query settings that could not be altered without re-preparing the query.
|
protected void |
prePrepare()
INTERNAL:
Prepare the receiver for execution in a session.
|
void |
recordCloneForPessimisticLocking(java.lang.Object clone,
org.eclipse.persistence.internal.sessions.UnitOfWorkImpl uow)
INTERNAL:
Helper method that records clone with uow if query is pessimistic locking.
|
void |
refreshIdentityMapResult()
PUBLIC:
Refresh the attributes of the object(s) resulting from the query.
|
void |
refreshRemoteIdentityMapResult()
PUBLIC:
Refresh the attributes of the object(s) resulting from the query.
|
abstract java.lang.Object |
registerResultInUnitOfWork(java.lang.Object result,
org.eclipse.persistence.internal.sessions.UnitOfWorkImpl unitOfWork,
org.eclipse.persistence.internal.sessions.AbstractRecord arguments,
boolean buildDirectlyFromRows)
INTERNAL:
All objects queried via a UnitOfWork get registered here.
|
void |
resetDistinct()
ADVANCED:
If a distinct has been set the DISTINCT clause will be printed.
|
void |
setAdditionalFields(java.util.List<java.lang.Object> additionalFields)
INTERNAL:
Additional fields can be added to a query.
|
void |
setAggregateQuery(DatabaseMapping mapping,
ObjectLevelReadQuery query)
INTERNAL:
Set the aggregate query clone for the mapping.
|
void |
setAsOfClause(AsOfClause pastTime)
ADVANCED: Sets the query to execute as of the past time.
|
void |
setBatchFetchPolicy(BatchFetchPolicy batchFetchPolicy)
Set the batch fetch policy for configuring batch fetching.
|
void |
setBatchFetchSize(int size)
PUBLIC:
Set the batch fetch size for the query.
|
void |
setBatchFetchType(BatchFetchType type)
PUBLIC:
Set the batch fetch type for the query.
|
void |
setBatchObjects(java.util.Map<java.lang.Object,java.lang.Object> batchObjects)
INTERNAL:
Set temporary map of batched objects.
|
void |
setBatchReadAttributeExpressions(java.util.List<Expression> attributeExpressions)
INTERNAL:
Set all attributes specified for batch reading.
|
void |
setCacheUsage(int cacheUsage)
PUBLIC:
Set the cache usage.
|
void |
setDescriptor(ClassDescriptor descriptor)
INTERNAL:
Set the descriptor for the query.
|
void |
setDistinctState(short distinctState)
ADVANCED:
If a distinct has been set the DISTINCT clause will be printed.
|
void |
setEJBQLString(java.lang.String ejbqlString)
PUBLIC: Set the EJBQL string of the query.
|
void |
setExampleObject(java.lang.Object newExampleObject)
PUBLIC:
Set the example object of the query to be the newExampleObject.
|
void |
setExpressionBuilder(ExpressionBuilder builder)
INTERNAL
Sets the default expression builder for this query.
|
void |
setFetchGroup(FetchGroup newFetchGroup)
Set a dynamic (use case) fetch group to the query.
|
void |
setFetchGroupName(java.lang.String groupName)
Set a descriptor-level pre-defined named fetch group to the query.
|
void |
setInMemoryQueryIndirectionPolicy(InMemoryQueryIndirectionPolicy inMemoryQueryIndirectionPolicy)
PUBLIC:
Set the InMemoryQueryIndirectionPolicy for this query.
|
void |
setInMemoryQueryIndirectionPolicyState(int inMemoryQueryIndirectionPolicy)
PUBLIC:
Set the InMemoryQueryIndirectionPolicy for this query.
|
void |
setIsPrepared(boolean isPrepared)
INTERNAL:
Clear cached flags when un-preparing.
|
protected void |
setIsPreparedKeepingSubclassData(boolean isPrepared)
INTERNAL:
Clear cached flags when un-preparing.
|
void |
setIsPrePrepared(boolean isPrePrepared)
INTERNAL:
If changes are made to the query that affect the derived SQL or Call
parameters the query needs to be prepared again.
|
void |
setIsReadOnly(boolean isReadOnly)
PUBLIC:
Set the query to be read-only.
|
void |
setIsResultSetAccessOptimizedQuery(boolean isResultSetAccessOptimizedQuery)
ADVANCED:
Set if the query should be optimized to build directly from the result set.
|
void |
setIsResultSetOptimizedQuery(boolean isResultSetOptimizedQuery)
ADVANCED:
Set if the query should be optimized to build directly from the result set.
|
void |
setJoinedAttributeExpressions(java.util.List expressions)
INTERNAL:
Convenience method for project mapping.
|
void |
setJoinedAttributeManager(org.eclipse.persistence.internal.queries.JoinedAttributeManager joinedAttributeManager)
INTERNAL:
Set join manager responsible for managing all aspects of joining for the query.
|
void |
setLoadGroup(LoadGroup loadGroup)
Set a load group to the query.
|
void |
setLockingClause(org.eclipse.persistence.internal.expressions.ForUpdateClause clause)
INTERNAL:
The locking clause contains a list of expressions representing which
objects are to be locked by the query.
|
void |
setLockMode(short lockMode)
PUBLIC:
Sets whether this is a pessimistically locking query.
|
boolean |
setLockModeType(java.lang.String lockModeType,
org.eclipse.persistence.internal.sessions.AbstractSession session)
INTERNAL:
Sets a javax.persistence.LockModeType to used with this queries execution.
|
void |
setNonFetchJoinAttributeExpressions(java.util.List<Expression> nonFetchJoinExpressions)
INTERNAL:
Return the attributes that must be joined, but not fetched, that is,
do not trigger the value holder.
|
void |
setOrderByExpressions(java.util.List<Expression> orderByExpressions)
INTERNAL:
Set the order expressions for the query.
|
void |
setPartialAttributeExpressions(java.util.List<Expression> partialAttributeExpressions)
INTERNAL:
Set the partial attributes to select.
|
void |
setQueryByExamplePolicy(QueryByExamplePolicy queryByExamplePolicy)
PUBLIC:
The QueryByExamplePolicy, is a useful to customize the query when Query By Example is used.
|
void |
setReferenceClass(java.lang.Class aClass)
REQUIRED:
Set the reference class for the query.
|
void |
setReferenceClassName(java.lang.String aClass)
INTERNAL:
Set the reference class for the query.
|
void |
setSelectionCriteria(Expression expression)
PUBLIC:
Set the Expression/where clause of the query.
|
void |
setShouldExtendPessimisticLockScope(boolean isExtended)
INTERNAL:
Indicates whether pessimistic lock should also be applied to relation tables (ManyToMany and OneToOne mappings),
reference tables (DirectCollection and AggregateCollection mapping).
|
void |
setShouldFilterDuplicates(boolean shouldFilterDuplicates)
PUBLIC:
Set if duplicate rows should be filter when using 1-m joining.
|
void |
setShouldIncludeData(boolean shouldIncludeData)
INTERNAL:
Set if the rows for the result of the query should also be returned using a complex query result.
|
void |
setShouldOuterJoinSubclasses(boolean shouldOuterJoinSubclasses)
PUBLIC:
Set if an outer join should be used to read subclasses.
|
void |
setShouldUseDefaultFetchGroup(boolean shouldUseDefaultFetchGroup)
Set false if the user does not want to use the default fetch group defined in the descriptor level.
|
void |
setShouldUseSerializedObjectPolicy(boolean shouldUseSerializedObjectPolicy)
INTERNAL:
Set a flag that indicates whether the query should use SerializedObjectPolicy if descriptor has it.
|
void |
setUnionExpressions(java.util.List<Expression> unionExpressions)
INTERNAL:
Set any union expressions.
|
void |
setWaitTimeout(java.lang.Integer waitTimeout)
PUBLIC:
Sets that this a pessimistic wait locking query.
|
boolean |
shouldCheckCache()
PUBLIC:
Return if the cache should be checked.
|
boolean |
shouldCheckCacheOnly()
PUBLIC:
Return if cache should be checked.
|
boolean |
shouldCheckDescriptorForCacheUsage()
PUBLIC:
Return whether the descriptor's disableCacheHits setting should be checked prior
to querying the cache.
|
boolean |
shouldConformResultsInUnitOfWork()
PUBLIC:
Should the results will be checked against the changes within the unit of work and object no longer matching or deleted will be remove, matching new objects will also be added..
|
boolean |
shouldDistinctBeUsed()
INTERNAL:
return true if this query should use a distinct
|
boolean |
shouldExtendPessimisticLockScope()
INTERNAL:
Indicates whether pessimistic lock should also be applied to relation tables (ManyToMany and OneToOne mappings),
reference tables (DirectCollection and AggregateCollection mapping).
|
boolean |
shouldFilterDuplicates()
PUBLIC:
Return if duplicate rows should be filter when using 1-m joining.
|
boolean |
shouldIncludeData()
INTERNAL:
Return if the rows for the result of the query should also be returned using a complex query result.
|
boolean |
shouldOuterJoinSubclasses()
PUBLIC:
Return if an outer join should be used to read subclasses.
|
boolean |
shouldReadAllMappings()
INTERNAL:
Return if this is a full object query, not partial nor fetch group.
|
boolean |
shouldReadMapping(DatabaseMapping mapping,
FetchGroup fetchGroup)
INTERNAL:
Check if the mapping is part of the partial attributes.
|
boolean |
shouldUseDefaultFetchGroup()
Return false if the query does not use the default fetch group defined in the descriptor level.
|
boolean |
shouldUseSerializedObjectPolicy()
INTERNAL:
Indicates whether the query should use SerializedObjectPolicy if descriptor has it.
|
boolean |
supportsResultSetAccessOptimizationOnExecute()
INTERNAL:
Indicates whether the query can use ResultSet optimization.
|
boolean |
supportsResultSetAccessOptimizationOnPrepare()
INTERNAL:
Indicates whether the query can use ResultSet optimization.
|
java.lang.String |
toString() |
void |
union(ReportQuery query)
PUBLIC:
Union the query results with the other query.
|
void |
useDistinct()
ADVANCED:
If a distinct has been set the DISTINCT clause will be printed.
|
boolean |
usesResultSetAccessOptimization()
INTERNAL:
Return if the query uses ResultSet optimization.
|
clonedQueryExecutionComplete, convertClassNamesToClasses, getDataResults, getExecutionTime, getLockMode, getPrefetchedCacheKeys, getQueryPrimaryKey, isAttributeJoined, isCacheCheckComplete, isObjectBuildingQuery, isRegisteringResults, postRegisterIndividualResult, prepareCustomQuery, registerIndividualResult, requiresDeferredLocks, setExecutionTime, setPrefetchedCacheKeys, setRequiresDeferredLocks, setShouldBuildNullForNullPk, setShouldRefreshIdentityMapResult, setShouldRefreshRemoteIdentityMapResult, setShouldRegisterResultsInUnitOfWork, setShouldUseExclusiveConnection, setWasDefaultLockMode, shouldBuildNullForNullPk, shouldRefreshIdentityMapResult, shouldRefreshRemoteIdentityMapResult, shouldRegisterResultsInUnitOfWork, shouldUseExclusiveConnection, wasDefaultLockMode
cacheQueryResults, cacheResult, clearQueryResults, doNotCacheQueryResults, getFetchSize, getFirstResult, getInternalMax, getMaxRows, getQueryId, getQueryResults, getQueryResults, getQueryResults, getQueryResultsCachePolicy, getTemporaryCachedQueryResults, isReadQuery, prepareForExecution, remoteExecute, setFetchSize, setFirstResult, setInternalMax, setMaxRows, setQueryId, setQueryResults, setQueryResultsCachePolicy, setTemporaryCachedQueryResults, shouldCacheQueryResults
addArgument, addArgument, addArgument, addArgument, addArgument, addArgument, addArgumentByTypeName, addArgumentValue, addArgumentValues, addCall, addStatement, bindAllParameters, buildArgumentFields, buildSelectionCriteria, cacheStatement, cascadeAllParts, cascadeByMapping, cascadeOnlyDependentParts, cascadePrivateParts, checkForCustomQuery, checkPrepare, dontBindAllParameters, dontCacheStatement, dontCascadeParts, dontMaintainCache, extractRemoteResult, getAccessor, getAccessors, getArgumentParameterTypes, getArguments, getArgumentTypeNames, getArgumentTypes, getArgumentValues, getCall, getCascadePolicy, getDatasourceCall, getDatasourceCalls, getDefaultRedirector, getDescriptor, getDescriptors, getDomainClassNounName, getDoNotRedirect, getEJBQLString, getExecutionSession, getFlushOnExecute, getHintString, getJPQLString, getMonitorName, getName, getNullableArguments, getParameterDelimiter, getParameterDelimiterChar, getPartitioningPolicy, getProperties, getProperty, getQueryMechanism, getQueryNounName, getQueryTimeout, getQueryTimeoutUnit, getRedirector, getRedirectorForQuery, getSelectionCriteria, getSensorName, getSession, getSessionName, getShouldBindAllParameters, getSourceMapping, getSQLStatement, getSQLString, getSQLStrings, getTranslatedSQLString, getTranslatedSQLStrings, getTranslationRow, hasAccessor, hasArguments, hasNullableArguments, hasProperties, hasQueryMechanism, hasSessionName, ignoreBindAllParameters, ignoreCacheStatement, isCallQuery, isCascadeOfAggregateDelete, isCustomQueryUsed, isCustomSelectionQuery, isDataModifyQuery, isDataReadQuery, isDeleteAllQuery, isDeleteObjectQuery, isDirectReadQuery, isExecutionClone, isExpressionQuery, isInsertObjectQuery, isJPQLCallQuery, isModifyAllQuery, isModifyQuery, isNativeConnectionRequired, isObjectLevelModifyQuery, isPrepared, isReadAllQuery, isReadObjectQuery, isReportQuery, isResultSetMappingQuery, isSQLCallQuery, isUpdateAllQuery, isUpdateObjectQuery, isUserDefined, isUserDefinedSQLCall, isValueReadQuery, isWriteObjectQuery, maintainCache, prepareCall, prepareInternal, redirectQuery, remoteExecute, removeProperty, replaceValueHoldersIn, resetMonitorName, retrieveBypassCache, rowFromArguments, setAccessor, setAccessors, setAllowNativeSQLQuery, setArguments, setArgumentTypeNames, setArgumentTypes, setArgumentValues, setCall, setCascadePolicy, setDatasourceCall, setDoNotRedirect, setExecutionSession, setFlushOnExecute, setHintString, setIsCustomQueryUsed, setIsExecutionClone, setIsNativeConnectionRequired, setIsUserDefined, setIsUserDefinedSQLCall, setJPQLString, setName, setNullableArguments, setParameterDelimiter, setPartitioningPolicy, setProperties, setProperty, setQueryMechanism, setQueryTimeout, setQueryTimeoutUnit, setRedirector, setSession, setSessionName, setShouldBindAllParameters, setShouldBindAllParameters, setShouldCacheStatement, setShouldMaintainCache, setShouldPrepare, setShouldRetrieveBypassCache, setShouldStoreBypassCache, setShouldUseWrapperPolicy, setShouldValidateUpdateCallCacheUse, setSourceMapping, setSQLStatement, setSQLString, setTranslationRow, shouldAllowNativeSQLQuery, shouldBindAllParameters, shouldCacheStatement, shouldCascadeAllParts, shouldCascadeByMapping, shouldCascadeOnlyDependentParts, shouldCascadeParts, shouldCascadePrivateParts, shouldCloneCall, shouldIgnoreBindAllParameters, shouldIgnoreCacheStatement, shouldMaintainCache, shouldPrepare, shouldPrepare, shouldRetrieveBypassCache, shouldStoreBypassCache, shouldUseWrapperPolicy, shouldValidateUpdateCallCacheUse, storeBypassCache
public static final java.lang.String READ
public static final java.lang.String WRITE
public static final java.lang.String NONE
public static final java.lang.String PESSIMISTIC_
public static final java.lang.String PESSIMISTIC_READ
public static final java.lang.String PESSIMISTIC_WRITE
public static final java.lang.String PESSIMISTIC_FORCE_INCREMENT
public static final java.lang.String OPTIMISTIC
public static final java.lang.String OPTIMISTIC_FORCE_INCREMENT
protected ExpressionBuilder defaultBuilder
protected int cacheUsage
public static final int UseDescriptorSetting
public static final int DoNotCheckCache
public static final int CheckCacheByExactPrimaryKey
public static final int CheckCacheByPrimaryKey
public static final int CheckCacheThenDatabase
public static final int CheckCacheOnly
public static final int ConformResultsInUnitOfWork
protected java.util.List<java.lang.Object> additionalFields
protected boolean shouldIncludeData
protected boolean isPrePrepared
protected short distinctState
public static final short UNCOMPUTED_DISTINCT
public static final short USE_DISTINCT
public static final short DONT_USE_DISTINCT
protected int inMemoryQueryIndirectionPolicy
protected FetchGroup fetchGroup
FetchGroup
specified on this query. When set this FetchGroup will
override the fetchGroupName
and the use of the descriptor's
FetchGroupManager.getDefaultFetchGroup()
protected java.lang.String fetchGroupName
FetchGroup
stored in the FetchGroupManager
of the
reference class' descriptor or any of its parent descriptors.protected boolean shouldUseDefaultFetchGroup
protected LoadGroup loadGroup
protected java.util.List<Expression> nonFetchJoinAttributeExpressions
protected java.util.List<Expression> partialAttributeExpressions
protected org.eclipse.persistence.internal.queries.JoinedAttributeManager joinedAttributeManager
protected BatchFetchPolicy batchFetchPolicy
protected java.lang.Boolean isReferenceClassLocked
protected boolean isResultSetOptimizedQuery
protected java.lang.Boolean isResultSetAccessOptimizedQuery
public static boolean isResultSetAccessOptimizedQueryDefault
protected transient java.lang.Boolean usesResultSetAccessOptimization
protected boolean isReadOnly
protected java.lang.Boolean shouldOuterJoinSubclasses
protected java.util.Map<java.lang.Class,org.eclipse.persistence.internal.databaseaccess.DatabaseCall> concreteSubclassCalls
protected java.util.Map<java.lang.Class,DatabaseQuery> concreteSubclassQueries
protected java.util.Map<DatabaseMapping,ObjectLevelReadQuery> aggregateQueries
protected java.util.Map<java.lang.Class,java.util.Map<DatabaseMapping,java.lang.Object>> concreteSubclassJoinedMappingIndexes
protected java.lang.String lockModeType
protected java.lang.Integer waitTimeout
protected java.util.List<Expression> orderByExpressions
protected boolean shouldExtendPessimisticLockScope
protected java.util.List<Expression> unionExpressions
protected boolean isCachedExpressionQuery
public static boolean shouldUseSerializedObjectPolicyDefault
protected boolean shouldUseSerializedObjectPolicy
public ObjectLevelReadQuery()
public void union(ReportQuery query)
public void intersect(ReportQuery query)
public void except(ReportQuery query)
public void addUnionExpression(Expression union)
public java.util.List<Expression> getUnionExpressions()
public void setUnionExpressions(java.util.List<Expression> unionExpressions)
public void addDescendingOrdering(java.lang.String queryKeyName)
public void addOrdering(Expression orderingExpression)
public boolean equals(java.lang.Object object)
equals
in class java.lang.Object
public int hashCode()
hashCode
in class java.lang.Object
public boolean isReadOnly()
public void setIsReadOnly(boolean isReadOnly)
public void setWaitTimeout(java.lang.Integer waitTimeout)
Fine Grained Locking: On execution the reference class and those of all joined attributes will be checked. If any of these have a PessimisticLockingPolicy set on their descriptor, they will be locked in a SELECT ... FOR UPDATE OF ... {NO WAIT}. Issues fewer locks and avoids setting the lock mode on each query.
Example:
readAllQuery.setSelectionCriteria(employee.get("address").equal("Ottawa"));
PessimisticLockingPolicy
public java.lang.Object clone()
clone
in class ObjectBuildingQuery
public java.lang.Object deepClone()
Normally selection criteria are not cloned here as they are cloned later on during prepare.
deepClone
in class ObjectBuildingQuery
public void acquireLocks()
public void acquireLocksWithoutWaiting()
public void addAdditionalField(org.eclipse.persistence.internal.helper.DatabaseField field)
public void addAdditionalField(Expression fieldExpression)
public void addJoinedAttribute(java.lang.String attributeName)
Note: This cannot be used for objects where it is possible not to have a part, as these objects will be omitted from the result set, unless an outer join is used through passing and expression using "getAllowingNull". To join fetch collection relationships use the addJoinedAttribute(Expression) using "anyOf" to "anyOfAllowingNone".
Example: query.addJoinedAttribute("address")
public void addJoinedAttribute(Expression attributeExpression)
Note: This cannot be used for objects where it is possible not to have a part, as these objects will be omitted from the result set, unless an outer join is used through passing and expression using "getAllowingNull".
Example: The following will fetch along with Employee(s) "Jones" all projects they participate in along with teamLeaders and their addresses, teamMembers and their phones. query.setSelectionCriteria(query.getExpressionBuilder().get("lastName").equal("Jones")); Expression projects = query.getExpressionBuilder().anyOf("projects"); query.addJoinedAttribute(projects); Expression teamLeader = projects.get("teamLeader"); query.addJoinedAttribute(teamLeader); Expression teamLeaderAddress = teamLeader.getAllowingNull("address"); query.addJoinedAttribute(teamLeaderAddress); Expression teamMembers = projects.anyOf("teamMembers"); query.addJoinedAttribute(teamMembers); Expression teamMembersPhones = teamMembers.anyOfAllowingNone("phoneNumbers"); query.addJoinedAttribute(teamMembersPhones); Note that: the order is essential: an expression should be added before any expression derived from it; the object is built once - it won't be rebuilt if it to be read again as a joined attribute: in the example the query won't get phones for "Jones" - even though they are among teamMembers (for whom phones are read).
public void addNonFetchJoinedAttribute(java.lang.String attributeName)
Example: query.addNonFetchJoinedAttribute("address")
addNonFetchJoinedAttribute(Expression)
public void addNonFetchJoinedAttribute(Expression attributeExpression)
Example: query.addNonFetchJoinedAttribute(query.getExpressionBuilder().get("teamLeader").get("address"))
addNonFetchJoinedAttribute(Expression)
public void addNonFetchJoin(Expression target)
Example: (select all employees that are a team leader)
ExpressionBuilder project = new ExpressionBuilder(Project.class); ExpressionBuilder employee = new ExpressionBuilder(Employee.class); ReadAllQuery query = new ReadAllQuery(Employee.class, employee); query.addJoin(project.on(project.get("teamLeader").equal(employee)))
public void addPartialAttribute(java.lang.String attributeName)
This allows for the query to be optimized through selecting less data.
Partial objects will be returned from the query, where the unspecified attributes will be left null
.
The primary key will always be selected to allow re-querying of the whole object.
Note: Because the object is not fully initialized it cannot be cached, and cannot be edited.
Note: You cannot have 2 partial attributes of the same type. You also cannot add a partial attribute which is of the same type as the class being queried.
Example: query.addPartialAttribute("firstName")
protected void addSelectionFieldsForJoinedExpression(java.util.List fields, boolean isCustomSQL, Expression expression)
public void setAsOfClause(AsOfClause pastTime)
Equivalent to query.getSelectionCriteria().asOf(pastTime) called immediately before query execution.
An as of clause at the query level will override any clauses set at the expression level. Useful in cases where the selection criteria is not known in advance, such as for query by example or primary key (selection object), or where you do not need to cache the result (report query).
Ideally an as of clause at the session level is superior as query
results can then be cached. You must set
setShouldMaintainCache(false)
To query all joined/batched attributes as of the same time set
this.cascadeAllParts()
.
QueryException
- (at execution time) unless
setShouldMaintainCache(false)
is set. If some more recent
data were in the cache, this would be returned instead, and both the
cache and query result would become inconsistent.hasAsOfClause()
,
Session.acquireHistoricalSession(org.eclipse.persistence.history.AsOfClause)
,
Expression.asOf(org.eclipse.persistence.history.AsOfClause)
public void addPartialAttribute(Expression attributeExpression)
This allows for the query to be optimized through selecting less data.
Partial objects will be returned from the query, where the unspecified attributes will be left null
.
The primary key will always be selected to allow re-querying of the whole object.
Note: Because the object is not fully initialized it cannot be cached, and cannot be edited.
Note: You cannot have 2 partial attributes of the same type. You also cannot add a partial attribute which is of the same type as the class being queried.
Example: query.addPartialAttribute(query.getExpressionBuilder().get("address").get("city"))
public java.lang.Object buildObject(org.eclipse.persistence.internal.sessions.AbstractRecord row)
buildObject
in class ReadQuery
public void checkCacheOnly()
setCacheUsage(int)
public void checkDescriptor(org.eclipse.persistence.internal.sessions.AbstractSession session) throws QueryException
checkDescriptor
in class DatabaseQuery
QueryException
protected abstract java.lang.Object checkEarlyReturnLocal(org.eclipse.persistence.internal.sessions.AbstractSession session, org.eclipse.persistence.internal.sessions.AbstractRecord translationRow)
public java.lang.Object checkEarlyReturn(org.eclipse.persistence.internal.sessions.AbstractSession session, org.eclipse.persistence.internal.sessions.AbstractRecord translationRow)
checkEarlyReturn
in class DatabaseQuery
public void checkPrepare(org.eclipse.persistence.internal.sessions.AbstractSession session, org.eclipse.persistence.internal.sessions.AbstractRecord translationRow, boolean force)
checkPrepare
in class DatabaseQuery
public void checkPrePrepare(org.eclipse.persistence.internal.sessions.AbstractSession session)
public void changeDescriptor(org.eclipse.persistence.internal.sessions.AbstractSession theSession)
protected java.lang.Object conformIndividualResult(java.lang.Object clone, org.eclipse.persistence.internal.sessions.UnitOfWorkImpl unitOfWork, org.eclipse.persistence.internal.sessions.AbstractRecord arguments, Expression selectionCriteriaClone, java.util.Map alreadyReturned)
A result needs to be registered before it can be conformed, so registerIndividualResult is called here.
Conforming on a result from the database is lenient. Since the object matched the query on the database we assume it matches here unless we can determine for sure that it was changed in this UnitOfWork not to conform.
clone
- the clone to returnarguments
- the parameters this query was executed withselectionCriteriaClone
- the expression to conform to. If was a
selection object or key, null (which all conform to) is usedalreadyReturned
- a hashtable of objects already found by scanning
the UnitOfWork cache for conforming instances. Prevents duplicates.unitOfWork
- current UnitOfWorkpublic void conformResultsInUnitOfWork()
setCacheUsage(int)
public void dontAcquireLocks()
public void dontCheckCache()
public void dontRefreshIdentityMapResult()
dontRefreshIdentityMapResult
in class ObjectBuildingQuery
public void dontRefreshRemoteIdentityMapResult()
dontRefreshRemoteIdentityMapResult
in class ObjectBuildingQuery
public void dontUseDistinct()
public DatabaseQuery prepareOutsideUnitOfWork(org.eclipse.persistence.internal.sessions.AbstractSession session)
If that is so, only queries executed inside of a UnitOfWork should have a locking clause. In the extremely rare case that we execute a locking query outside of a UnitOfWork, must disable locking so that we do not get a fetch out of sequence error.
public java.lang.Object execute(org.eclipse.persistence.internal.sessions.AbstractSession session, org.eclipse.persistence.internal.sessions.AbstractRecord translationRow) throws DatabaseException, OptimisticLockException
execute
in class DatabaseQuery
session
- - the session in which the receiver will be executed.DatabaseException
- - an error has occurred on the database.OptimisticLockException
- - an error has occurred using the optimistic lock feature.public java.lang.Object executeDatabaseQuery() throws DatabaseException
executeDatabaseQuery
in class DatabaseQuery
DatabaseException
- - an error has occurred on the database.protected abstract java.lang.Object executeObjectLevelReadQuery() throws DatabaseException
DatabaseException
protected abstract java.lang.Object executeObjectLevelReadQueryFromResultSet() throws DatabaseException
DatabaseException
public java.lang.Object executeInUnitOfWork(org.eclipse.persistence.internal.sessions.UnitOfWorkImpl unitOfWork, org.eclipse.persistence.internal.sessions.AbstractRecord translationRow) throws DatabaseException, OptimisticLockException
executeInUnitOfWork
in class DatabaseQuery
unitOfWork
- - the session in which the receiver will be executed.translationRow
- - the argumentsDatabaseException
- - an error has occurred on the database.OptimisticLockException
- - an error has occurred using the optimistic lock feature.public java.util.List<java.lang.Object> getAdditionalFields()
public AsOfClause getAsOfClause()
null
if no clause set, AsOfClause.NO_CLAUSE
if
clause explicitly set to null
.AsOfClause
,
setAsOfClause(org.eclipse.persistence.history.AsOfClause)
,
hasAsOfClause()
public int getCacheUsage()
Valid values are:
public short getDistinctState()
public java.lang.Object getExampleObject()
public ExpressionBuilder getExpressionBuilder()
public void setExpressionBuilder(ExpressionBuilder builder)
public int getInMemoryQueryIndirectionPolicyState()
public InMemoryQueryIndirectionPolicy getInMemoryQueryIndirectionPolicy()
public org.eclipse.persistence.internal.queries.JoinedAttributeManager getJoinedAttributeManager()
public void setJoinedAttributeManager(org.eclipse.persistence.internal.queries.JoinedAttributeManager joinedAttributeManager)
public boolean hasJoining()
public java.util.List getJoinedAttributeExpressions()
public void setJoinedAttributeExpressions(java.util.List expressions)
public java.util.List<Expression> getOrderByExpressions()
public void setOrderByExpressions(java.util.List<Expression> orderByExpressions)
public boolean hasOrderByExpressions()
public boolean hasUnionExpressions()
public boolean shouldFilterDuplicates()
public void setShouldFilterDuplicates(boolean shouldFilterDuplicates)
public org.eclipse.persistence.internal.expressions.ForUpdateClause getLockingClause()
public java.util.List<Expression> getNonFetchJoinAttributeExpressions()
public java.util.List<Expression> getPartialAttributeExpressions()
public QueryByExamplePolicy getQueryByExamplePolicy()
public java.lang.Class getReferenceClass()
getReferenceClass
in class ObjectBuildingQuery
public java.lang.String getReferenceClassName()
getReferenceClassName
in class ObjectBuildingQuery
public boolean hasAsOfClause()
getAsOfClause()
public boolean hasNonFetchJoinedAttributeExpressions()
public boolean hasPartialAttributeExpressions()
hasPartialAttributeExpressions
in class ObjectBuildingQuery
public boolean hasAdditionalFields()
public java.util.Vector getPartialAttributeSelectionFields(boolean isCustomSQL)
public java.util.Set<org.eclipse.persistence.internal.helper.DatabaseField> getFetchGroupNonNestedFieldsSet()
public java.util.Set<org.eclipse.persistence.internal.helper.DatabaseField> getFetchGroupNonNestedFieldsSet(DatabaseMapping nestedMapping)
public java.util.List<org.eclipse.persistence.internal.helper.DatabaseField> getFetchGroupSelectionFields()
protected java.util.List<org.eclipse.persistence.internal.helper.DatabaseField> getFetchGroupSelectionFields(DatabaseMapping nestedMapping)
public void addJoinSelectionFields(java.util.Vector fields, boolean isCustomSQL)
public java.util.Vector getSelectionFields()
public java.lang.Integer getWaitTimeout()
protected void initializeDefaultBuilder()
public boolean isDistinctComputed()
public boolean isLockQuery()
If a single joined attribute was configured for pessimistic locking then this will return true (after first execution) as the SQL contained a FOR UPDATE OF clause.
isLockQuery
in class ObjectBuildingQuery
public boolean isLockQuery(Session session)
If the lock mode is not known (DEFAULT_LOCK_MODE / descriptor specified fine-grained locking) the lock mode will be determined now, to be either LOCK, LOCK_NOWAIT, or NO_LOCK.
isLockQuery()
public boolean isObjectLevelReadQuery()
isObjectLevelReadQuery
in class DatabaseQuery
public boolean isPartialAttribute(java.lang.String attributeName)
public boolean shouldExtendPessimisticLockScope()
protected boolean isPrePrepared()
public void setIsPrePrepared(boolean isPrePrepared)
Automatically called internally.
The early phase of preparation is to check if this is a pessimistic locking query.
public void setShouldExtendPessimisticLockScope(boolean isExtended)
public void setIsPrepared(boolean isPrepared)
setIsPrepared
in class DatabaseQuery
protected void setIsPreparedKeepingSubclassData(boolean isPrepared)
protected void prepare() throws QueryException
prepare
in class ReadQuery
QueryException
protected boolean prepareFromCachedQuery()
public void copyFromQuery(DatabaseQuery query)
copyFromQuery
in class ObjectBuildingQuery
public void prepareFromQuery(DatabaseQuery query)
prepareFromQuery
in class ObjectBuildingQuery
public void prepareFetchGroup() throws QueryException
QueryException
protected void prePrepare() throws QueryException
QueryException
protected void prepareQuery() throws QueryException
QueryException
protected void prepareForRemoteExecution() throws QueryException
prepareForRemoteExecution
in class DatabaseQuery
QueryException
public void refreshIdentityMapResult()
refreshIdentityMapResult
in class ObjectBuildingQuery
public void refreshRemoteIdentityMapResult()
refreshRemoteIdentityMapResult
in class ObjectBuildingQuery
public abstract java.lang.Object registerResultInUnitOfWork(java.lang.Object result, org.eclipse.persistence.internal.sessions.UnitOfWorkImpl unitOfWork, org.eclipse.persistence.internal.sessions.AbstractRecord arguments, boolean buildDirectlyFromRows)
Involves registering the query result individually and in totality, and hence refreshing / conforming is done here.
result
- may be collection (read all) or an object (read one),
or even a cursor. If in transaction the shared cache will
be bypassed, meaning the result may not be originals from the parent
but raw database rows.unitOfWork
- the unitOfWork the result is being registered in.arguments
- the original arguments/parameters passed to the query
execution. Used by conformingbuildDirectlyFromRows
- If in transaction must construct
a registered result from raw database rows.public void resetDistinct()
public void setAdditionalFields(java.util.List<java.lang.Object> additionalFields)
public boolean shouldCheckCache()
public void setCacheUsage(int cacheUsage)
Valid values are:
public void setDescriptor(ClassDescriptor descriptor)
setDescriptor
in class DatabaseQuery
public void setDistinctState(short distinctState)
public void setExampleObject(java.lang.Object newExampleObject)
If a query already has a selection criteria this criteria and the generated query by example criteria will be conjuncted.
Once a query is executed you must make an explicit call to setExampleObject if the example object is changed, so the query will know to prepare itself again.
There is a caution to setting both a selection criteria and an example object: Only in this case if you set the example object again after execution you must then also reset the selection criteria. (This is because after execution the original criteria and Query By Example criteria were fused together, and the former cannot be easily recovered from the now invalid result).
Restrictions:
QueryByExamplePolicy.setValidateExample(boolean)
should be set to true on the corresponding QueryByExamplePolicy to ensure no unsupported relationship types are used in the example.public void setInMemoryQueryIndirectionPolicy(InMemoryQueryIndirectionPolicy inMemoryQueryIndirectionPolicy)
public void setInMemoryQueryIndirectionPolicyState(int inMemoryQueryIndirectionPolicy)
public void setLockMode(short lockMode)
Fine Grained Locking: On execution the reference class and those of all joined attributes will be checked. If any of these have a PessimisticLockingPolicy set on their descriptor, they will be locked in a SELECT ... FOR UPDATE OF ... {NO WAIT}. Issues fewer locks and avoids setting the lock mode on each query.
Example:readAllQuery.setSelectionCriteria(employee.get("address").equal("Ottawa"));
setLockMode
in class ObjectBuildingQuery
PessimisticLockingPolicy
public java.lang.String getLockModeType()
public boolean setLockModeType(java.lang.String lockModeType, org.eclipse.persistence.internal.sessions.AbstractSession session)
public void setNonFetchJoinAttributeExpressions(java.util.List<Expression> nonFetchJoinExpressions)
public void setLockingClause(org.eclipse.persistence.internal.expressions.ForUpdateClause clause)
Use for even finer grained control over what is and is not locked by a particular query.
public void setPartialAttributeExpressions(java.util.List<Expression> partialAttributeExpressions)
public void setEJBQLString(java.lang.String ejbqlString)
DatabaseQuery
setEJBQLString
in class DatabaseQuery
public void setQueryByExamplePolicy(QueryByExamplePolicy queryByExamplePolicy)
Once a query is executed you must make an explicit call to setQueryByExamplePolicy when changing the policy, so the query will know to prepare itself again.
There is a caution to setting both a selection criteria and an example object: If you set the policy after execution you must also reset the selection criteria. (This is because after execution the original criteria and Query By Example criteria are fused together, and the former cannot be easily recovered).
public void setReferenceClass(java.lang.Class aClass)
setReferenceClass
in class ObjectBuildingQuery
public void setReferenceClassName(java.lang.String aClass)
setReferenceClassName
in class ObjectBuildingQuery
public void setSelectionCriteria(Expression expression)
setSelectionCriteria
in class DatabaseQuery
public void setShouldIncludeData(boolean shouldIncludeData)
ComplexQueryResult
public boolean shouldCheckCacheOnly()
public boolean shouldCheckDescriptorForCacheUsage()
public boolean shouldConformResultsInUnitOfWork()
public boolean shouldDistinctBeUsed()
public boolean shouldIncludeData()
ComplexQueryResult
public boolean shouldOuterJoinSubclasses()
public void setShouldOuterJoinSubclasses(boolean shouldOuterJoinSubclasses)
public boolean shouldReadAllMappings()
shouldReadAllMappings
in class ObjectBuildingQuery
public boolean shouldReadMapping(DatabaseMapping mapping, FetchGroup fetchGroup)
shouldReadMapping
in class ObjectBuildingQuery
public void useDistinct()
public boolean isCachedExpressionQuery()
public boolean isClonePessimisticLocked(java.lang.Object clone, org.eclipse.persistence.internal.sessions.UnitOfWorkImpl uow)
isClonePessimisticLocked
in class ObjectBuildingQuery
protected boolean isReferenceClassLocked()
public void recordCloneForPessimisticLocking(java.lang.Object clone, org.eclipse.persistence.internal.sessions.UnitOfWorkImpl uow)
recordCloneForPessimisticLocking
in class ObjectBuildingQuery
public boolean isResultSetOptimizedQuery()
public java.lang.Boolean isResultSetAccessOptimizedQuery()
public boolean usesResultSetAccessOptimization()
usesResultSetAccessOptimization
in class ObjectBuildingQuery
protected void prepareResultSetAccessOptimization()
public void clearUsesResultSetAccessOptimization()
public void setIsResultSetOptimizedQuery(boolean isResultSetOptimizedQuery)
public void setIsResultSetAccessOptimizedQuery(boolean isResultSetAccessOptimizedQuery)
public void clearIsResultSetOptimizedQuery()
public boolean isDefaultLock()
isDefaultLock
in class ObjectBuildingQuery
public boolean isDefaultPropertiesQuery()
isDefaultPropertiesQuery
in class ReadQuery
public boolean hasDefaultBuilder()
public boolean hasFetchGroup()
public FetchGroup getFetchGroup()
public LoadGroup getLoadGroup()
getLoadGroup
in class ObjectBuildingQuery
public FetchGroup getExecutionFetchGroup()
getExecutionFetchGroup
in class ObjectBuildingQuery
public FetchGroup getExecutionFetchGroup(ClassDescriptor descriptor)
getExecutionFetchGroup
in class ObjectBuildingQuery
public boolean hasExecutionFetchGroup()
hasExecutionFetchGroup
in class ObjectBuildingQuery
public void setFetchGroup(FetchGroup newFetchGroup)
public void setFetchGroupName(java.lang.String groupName)
public void setLoadGroup(LoadGroup loadGroup)
public java.lang.String getFetchGroupName()
public boolean shouldUseDefaultFetchGroup()
public void setShouldUseDefaultFetchGroup(boolean shouldUseDefaultFetchGroup)
public java.util.Map<java.lang.Class,org.eclipse.persistence.internal.databaseaccess.DatabaseCall> getConcreteSubclassCalls()
public java.util.Map<java.lang.Class,DatabaseQuery> getConcreteSubclassQueries()
public java.util.Map<DatabaseMapping,ObjectLevelReadQuery> getAggregateQueries()
public ObjectLevelReadQuery getAggregateQuery(DatabaseMapping mapping)
public void setAggregateQuery(DatabaseMapping mapping, ObjectLevelReadQuery query)
public java.util.Map<java.lang.Class,java.util.Map<DatabaseMapping,java.lang.Object>> getConcreteSubclassJoinedMappingIndexes()
public boolean isPrimaryKeyQuery()
public void extendPessimisticLockScope()
public BatchFetchPolicy getBatchFetchPolicy()
public void setBatchFetchPolicy(BatchFetchPolicy batchFetchPolicy)
public java.util.List<Expression> getBatchReadAttributeExpressions()
public void setBatchReadAttributeExpressions(java.util.List<Expression> attributeExpressions)
public boolean hasBatchReadAttributes()
public boolean isAttributeBatchRead(ClassDescriptor mappingDescriptor, java.lang.String attributeName)
public void computeBatchReadMappingQueries()
public void computeBatchReadAttributes()
protected void computeNestedQueriesForBatchReadExpressions(java.util.List<Expression> batchReadExpressions)
public void addBatchReadAttribute(java.lang.String attributeName)
Example: query.addBatchReadAttribute("phoneNumbers")
public void addBatchReadAttribute(Expression attributeExpression)
Example: query.addBatchReadAttribute(query.getExpressionBuilder().get("policies").get("claims"))
public void setBatchFetchType(BatchFetchType type)
addBatchReadAttribute(Expression)
public void setBatchFetchSize(int size)
public java.util.Map<java.lang.Object,java.lang.Object> getBatchObjects()
getBatchObjects
in class DatabaseQuery
public void setBatchObjects(java.util.Map<java.lang.Object,java.lang.Object> batchObjects)
setBatchObjects
in class DatabaseQuery
public java.lang.String toString()
toString
in class DatabaseQuery
public boolean supportsResultSetAccessOptimizationOnPrepare()
public boolean supportsResultSetAccessOptimizationOnExecute()
public boolean shouldUseSerializedObjectPolicy()
shouldUseSerializedObjectPolicy
in class ObjectBuildingQuery
public void setShouldUseSerializedObjectPolicy(boolean shouldUseSerializedObjectPolicy)