Class DescriptorQueryManager

  • All Implemented Interfaces:
    java.io.Serializable, java.lang.Cloneable

    public class DescriptorQueryManager
    extends java.lang.Object
    implements java.lang.Cloneable, java.io.Serializable

    Purpose: The query manager allows for the database operations that EclipseLink performs to be customized by the application. For each descriptor a query can be given that controls how a operation will occur. A common example is if the application requires a stored procedure to be used to insert the object, it can override the SQL call in the insert query that EclipseLink will use to insert the object. Queries can be customized to extend EclipseLink behavior, access non-relational data or use stored procedures or customized SQL calls.

    The queries that can be customized include:

    • insertQuery - used to insert the object
    • updateQuery - used to update the object
    • readObjectQuery - used to read a single object by primary key
    • readAllQuery - used to read all of the objects of the class
    • doesExistQuery - used to determine whether an insert or update should occur
    • deleteQuery - used to delete the object
    See Also:
    ClassDescriptor, Serialized Form
    • Field Detail

      • hasCustomMultipleTableJoinExpression

        protected boolean hasCustomMultipleTableJoinExpression
      • additionalCriteria

        protected java.lang.String additionalCriteria
      • additionalJoinExpression

        protected transient Expression additionalJoinExpression
      • multipleTableJoinExpression

        protected transient Expression multipleTableJoinExpression
      • queries

        protected java.util.Map<java.lang.String,​java.util.List<DatabaseQuery>> queries
      • tablesJoinExpressions

        protected transient java.util.Map<org.eclipse.persistence.internal.helper.DatabaseTable,​Expression> tablesJoinExpressions
      • cachedUpdateCalls

        protected transient org.eclipse.persistence.internal.helper.ConcurrentFixedCache cachedUpdateCalls
        PERF: Update call cache for avoiding regenerated update SQL.
      • cachedExpressionQueries

        protected transient org.eclipse.persistence.internal.helper.ConcurrentFixedCache cachedExpressionQueries
        PERF: Expression query call cache for avoiding regenerated dynamic query SQL.
      • NoTimeout

        public static final int NoTimeout
        queryTimeout has three possible settings: DefaultTimeout, NoTimeout, and 1..N This applies to both DatabaseQuery.queryTimeout and DescriptorQueryManager.queryTimeout DatabaseQuery.queryTimeout: - DefaultTimeout: get queryTimeout from DescriptorQueryManager - NoTimeout, 1..N: overrides queryTimeout in DescriptorQueryManager DescriptorQueryManager.queryTimeout: - DefaultTimeout: get queryTimeout from parent DescriptorQueryManager. If there is no parent, default to NoTimeout - NoTimeout, 1..N: overrides parent queryTimeout
        See Also:
        Constant Field Values
      • queryTimeout

        protected int queryTimeout
      • DefaultTimeoutUnit

        public static final java.util.concurrent.TimeUnit DefaultTimeoutUnit
      • queryTimeoutUnit

        protected java.util.concurrent.TimeUnit queryTimeoutUnit
    • Constructor Detail

      • DescriptorQueryManager

        public DescriptorQueryManager()
        INTERNAL: Initialize the state of the descriptor query manager
    • Method Detail

      • setExpressionQueryCacheMaxSize

        public void setExpressionQueryCacheMaxSize​(int maxSize)
        ADVANCED: Set the max size of the expression query cache for avoiding regenerated dynamic query SQL.
      • getExpressionQueryCacheMaxSize

        public int getExpressionQueryCacheMaxSize()
        ADVANCED: Return the max size of the expression query cache for avoiding regenerated dynamic query SQL.
      • addQuery

        public void addQuery​(java.lang.String name,
                             DatabaseQuery query)
        PUBLIC: Add the query to the descriptor queries with the given name
        Parameters:
        name - This is the name of the query. It will be set on the query and used to look it up.
        query - This is the query that will be added. If the query being added has parameters, the existing list of queries will be checked for matching queries. If a matching query exists, it will be replaced.
      • addQuery

        public void addQuery​(DatabaseQuery query)
        PUBLIC: Add the query to the session queries
        Parameters:
        query - DatabaseQuery This is the query that will be added. If the query being added has parameters, the existing list of queries will be checked for matching queries. If a matching query exists, it will be replaced.
      • assumeExistenceForDoesExist

        public void assumeExistenceForDoesExist()
        PUBLIC: Assume that if the objects primary key does not include null then it must exist. This may be used if the application guarantees or does not care about the existence check.
      • assumeNonExistenceForDoesExist

        public void assumeNonExistenceForDoesExist()
        PUBLIC: Assume that the object does not exist. This may be used if the application guarantees or does not care about the existence check. This will always force an insert to be called.
      • checkCacheForDoesExist

        public void checkCacheForDoesExist()
        PUBLIC: Default behavior. Assume that if the objects primary key does not include null and it is in the cache, then is must exist.
      • checkDatabaseForDoesExist

        public void checkDatabaseForDoesExist()
        PUBLIC: Perform does exist check on the database
      • clone

        public java.lang.Object clone()
        INTERNAL: Clone the query manager
        Overrides:
        clone in class java.lang.Object
      • containsQuery

        public boolean containsQuery​(java.lang.String queryName)
        PUBLIC: Return true if the query is defined on the session
      • convertClassNamesToClasses

        public void convertClassNamesToClasses​(java.lang.ClassLoader classLoader)
        INTERNAL: Convert all the class-name-based settings in this Query Manager to actual class-based settings This method is implemented by subclasses as necessary.
        Parameters:
        classLoader -
      • getAdditionalJoinExpression

        public Expression getAdditionalJoinExpression()
        ADVANCED: Returns the join expression that should be appended to all of the descriptors expressions Contains any multiple table or inheritance dependencies
      • getDeleteQuery

        public DeleteObjectQuery getDeleteQuery()
        ADVANCED: Return the receiver's delete query. This should be an instance of a valid subclass of DeleteObjectQuery. If specified this is used by the descriptor to delete itself and its private parts from the database. This gives the user the ability to define exactly how to delete the data from the database, or access data external from the database or from some other framework.
      • getDeleteSQLString

        public java.lang.String getDeleteSQLString()
        ADVANCED: Return the receiver's delete SQL string. This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. The arguments are translated from the fields of the source row, through replacing the field names marked by '#' with the values for those fields.

        Example, "delete from EMPLOYEE where EMPLOYEE_ID = #EMPLOYEE_ID".

      • getDescriptor

        public ClassDescriptor getDescriptor()
        INTERNAL: Return the descriptor associated with this descriptor query manager
      • getDoesExistQuery

        public DoesExistQuery getDoesExistQuery()
        ADVANCED: Return the receiver's does exist query. This should be an instance of a valid subclass of DoesExistQuery. If specified this is used by the descriptor to query existence of an object in the database. This gives the user the ability to define exactly how to query existence from the database, or access data external from the database or from some other framework.
      • getDoesExistSQLString

        public java.lang.String getDoesExistSQLString()
        ADVANCED: Return the receiver's does exist SQL string. This allows the user to override the SQL generated by EclipseLink, with there own SQL or procedure call. The arguments are translated from the fields of the source row, through replacing the field names marked by '#' with the values for those fields. This must return null if the object does not exist, otherwise return a database row.

        Example, "select EMPLOYEE_ID from EMPLOYEE where EMPLOYEE_ID = #EMPLOYEE_ID".

      • getExistenceCheck

        public java.lang.String getExistenceCheck()
        INTERNAL: This method is explicitly used by the Builder only.
      • getInsertQuery

        public InsertObjectQuery getInsertQuery()
        ADVANCED: Return the receiver's insert query. This should be an instance of a valid subclass of InsertObjectQuery. If specified this is used by the descriptor to insert itself into the database. If the receiver uses sequence numbers, this query must return the updated sequence value. This gives the user the ability to define exactly how to insert the data into the database, or access data external from the database or from some other framework.
      • getInsertSQLString

        public java.lang.String getInsertSQLString()
        ADVANCED: Return the receiver's insert SQL string. This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. The arguments are translated from the fields of the source row, through replacing the field names marked by '#' with the values for those fields.

        Example, "insert into EMPLOYEE (F_NAME, L_NAME) values (#F_NAME, #L_NAME)".

      • getMultipleTableJoinExpression

        public Expression getMultipleTableJoinExpression()
        ADVANCED: This is normally generated for descriptors that have multiple tables. However, if the additional table does not reference the primary tables primary key, this expression may be set directly.
      • getQueries

        public java.util.Map<java.lang.String,​java.util.List<DatabaseQuery>> getQueries()
        PUBLIC: Return the pre-defined queries for the descriptor. The Map returned contains Lists of queries.
        See Also:
        getAllQueries()
      • getAllQueries

        public java.util.Vector getAllQueries()
        PUBLIC: Return the pre-defined queries for the descriptor. The Vector returned contains all queries for this descriptor.
        See Also:
        getQueries()
      • setAllQueries

        public void setAllQueries​(java.util.Vector vector)
        INTERNAL: Set pre-defined queries for the descriptor. Converts the Vector to a hashtable
      • setQueries

        public void setQueries​(java.util.Map map)
        PUBLIC: set the pre-defined queries for the descriptor. Used to write out deployment XML
      • getQuery

        public DatabaseQuery getQuery​(java.lang.String queryName)
        PUBLIC: Return the query name from the set of pre-defined queries If only one query exists with this name, it will be returned. If there are multiple queries of this name, this method will search for a query with no arguments and return the first one it finds.
        See Also:
        getQuery(String, Vector)
      • getQuery

        public DatabaseQuery getQuery​(java.lang.String name,
                                      java.util.Vector arguments)
        PUBLIC: Return the query from the set of pre-defined queries with the given name and argument types. This allows for common queries to be pre-defined, reused and executed by name. This method should be used if the Session has multiple queries with the same name but different arguments. If only one query exists, it will be returned regardless of the arguments. If multiple queries exist, the first query that has corresponding argument types will be returned
        See Also:
        getQuery(String)
      • getLocalQuery

        public DatabaseQuery getLocalQuery​(java.lang.String name,
                                           java.util.Vector arguments)
        INTENAL: Return the query from the set of pre-defined queries with the given name and argument types. This allows for common queries to be pre-defined, reused and executed by name. Only returns those queries locally defined, not superclass's queries If only one query exists, it will be returned regardless of the arguments. If multiple queries exist, the first query that has corresponding argument types will be returned
        See Also:
        getQuery(String)
      • getLocalQueryByArgumentTypes

        public DatabaseQuery getLocalQueryByArgumentTypes​(java.lang.String name,
                                                          java.util.List argumentTypes)
        INTERNAL: Return the query from the set of pre-defined queries with the given name and argument types. This allows for common queries to be pre-defined, reused and executed by name. Only returns those queries locally defined, not superclass's queries If only one query exists, it will be returned regardless of the arguments. If multiple queries exist, the first query that has corresponding argument types will be returned
        See Also:
        getQuery(String)
      • getQueryFromParent

        protected DatabaseQuery getQueryFromParent​(java.lang.String name,
                                                   java.util.Vector arguments)
        INTERNAL: CR#3711: Check if the class for this descriptor has a parent class. Then search this parent's descriptor for a query with the same name and arguments. If nothing found, return null. This method should only be used recursively by getQuery().
      • getReadAllQuery

        public ReadAllQuery getReadAllQuery()
        ADVANCED: Return the receiver's read query. This should be an instance of a valid subclass of ReadAllQuery.
      • getReadAllSQLString

        public java.lang.String getReadAllSQLString()
        ADVANCED: Return the receiver's read SQL string. This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. The arguments are translated from the fields of the read arguments row, through replacing the field names marked by '#' with the values for those fields. Note that this is only used on readAllObjects(Class), and not when an expression is provided.

        Example, "select * from EMPLOYEE"

      • getReadObjectQuery

        public ReadObjectQuery getReadObjectQuery()
        ADVANCED: Return the receiver's read query. This should be an instance of a valid subclass of ReadObjectQuery. If specified this is used by the descriptor to read itself from the database. The read arguments must be the primary key of the object only. This gives the user the ability to define exactly how to read the object from the database, or access data external from the database or from some other framework.
      • getReadObjectSQLString

        public java.lang.String getReadObjectSQLString()
        ADVANCED: Return the receiver's read SQL string. This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. The arguments are translated from the fields of the read arguments row, through replacing the field names marked by '#' with the values for those fields. This must accept only the primary key of the object as arguments.

        Example, "select * from EMPLOYEE where EMPLOYEE_ID = #EMPLOYEE_ID"

      • getUpdateQuery

        public UpdateObjectQuery getUpdateQuery()
        ADVANCED: Return the receiver's update query. This should be an instance of a valid subclass of UpdateObjectQuery. If specified this is used by the descriptor to insert itself into the database. If the receiver uses optimistic locking this must raise an error on optimistic lock failure. This gives the user the ability to define exactly how to update the data into the database, or access data external from the database or from some other framework.
      • getUpdateSQLString

        public java.lang.String getUpdateSQLString()
        ADVANCED: Return the receiver's update SQL string. This allows the user to override the SQL generated by EclipseLink, with there own SQL or procedure call. The arguments are translated from the fields of the source row, through replacing the field names marked by '#' with the values for those fields. This must check the optimistic lock field and raise an error on optimistic lock failure.

        Example, "update EMPLOYEE set F_NAME to #F_NAME, L_NAME to #L_NAME where EMPLOYEE_ID = #EMPLOYEE_ID".

      • hasAdditionalCriteria

        public boolean hasAdditionalCriteria()
        ADVANCED: Return true if an additional criteria has been set on this query manager.
      • hasCustomMultipleTableJoinExpression

        public boolean hasCustomMultipleTableJoinExpression()
        INTERNAL: Return if a custom join expression is used.
      • hasDeleteQuery

        public boolean hasDeleteQuery()
        INTERNAL: Flag that specifies if a delete query is available
      • hasDoesExistQuery

        public boolean hasDoesExistQuery()
        INTERNAL: Flag that specifies if a does exist query is available
      • hasInsertQuery

        public boolean hasInsertQuery()
        INTERNAL: Flag that specifies if a insert query is available
      • hasReadAllQuery

        public boolean hasReadAllQuery()
        INTERNAL: Flag that specifies if a read all query is available
      • hasReadObjectQuery

        public boolean hasReadObjectQuery()
        INTERNAL: Flag that specifies if a read object query is available
      • hasUpdateQuery

        public boolean hasUpdateQuery()
        INTERNAL: Flag that specifies if a update query is available
      • initialize

        public void initialize​(org.eclipse.persistence.internal.sessions.AbstractSession session)
        INTERNAL: Post initialize the mappings
      • initializeQueryTimeout

        public void initializeQueryTimeout​(org.eclipse.persistence.internal.sessions.AbstractSession session)
        INTERNAL: Initialize the queryTimeout to: NoTimeout: If queryTimeout is DefaultTimeout, either directly or via inheritance. Parent's Timeout: If queryTimeout is something other than DefaultTimeout via my parent.
      • getParentDescriptorQueryManager

        public DescriptorQueryManager getParentDescriptorQueryManager()
        INTERNAL: Get the parent DescriptorQueryManager. Caution must be used in using this method as it expects the descriptor to have inheritance. Calling this when the descriptor that does not use inheritance will cause problems, #hasInheritance() must always first be called.
      • postDelete

        public void postDelete​(DeleteObjectQuery query)
        INTERNAL: Execute the post delete operation for the query
      • postInitialize

        public void postInitialize​(org.eclipse.persistence.internal.sessions.AbstractSession session)
                            throws DescriptorException
        INTERNAL: Post initializations after mappings are initialized.
        Throws:
        DescriptorException
      • updatePropertyParameterExpression

        protected void updatePropertyParameterExpression​(Expression exp)
        INTERNAL: This method will walk the given expression and mark any parameter expressions as property expressions. This is done when additional criteria has been specified and parameter values must be resolved through session properties.
        See Also:
        postInitialize(org.eclipse.persistence.internal.sessions.AbstractSession)
      • postInsert

        public void postInsert​(WriteObjectQuery query)
        INTERNAL: Execute the post insert operation for the query
      • postUpdate

        public void postUpdate​(WriteObjectQuery query)
        INTERNAL: Execute the post update operation for the query
      • preDelete

        public void preDelete​(DeleteObjectQuery query)
        INTERNAL: Execute the pre delete operation for the query
      • preInitialize

        public void preInitialize​(org.eclipse.persistence.internal.sessions.AbstractSession session)
        INTERNAL: Initialize the query manager. Any custom queries must be inherited from the parent before any initialization.
      • preInsert

        public void preInsert​(WriteObjectQuery query)
        INTERNAL: Execute the pre insert operation for the query.
      • preUpdate

        public void preUpdate​(WriteObjectQuery query)
        INTERNAL: Execute the pre update operation for the query
      • removeQuery

        public void removeQuery​(java.lang.String queryName)
        PUBLIC: Remove all queries with the given query name from the set of pre-defined queries
        See Also:
        removeQuery(String, Vector)
      • removeQuery

        public void removeQuery​(java.lang.String queryName,
                                java.util.Vector argumentTypes)
        PUBLIC: Remove the specific query with the given queryName and argumentTypes.
        See Also:
        removeQuery(String)
      • setAdditionalJoinExpression

        public void setAdditionalJoinExpression​(Expression additionalJoinExpression)
        ADVANCED: Set the additional join expression. Used in conjunction with multiple tables and inheritance relationships. This can also be used if a sub-expression is always required to be appended to all queries. Such as tables that are shared based on a type field without inheritance.
      • setDeleteQuery

        public void setDeleteQuery​(DeleteObjectQuery query)
        ADVANCED: Set the receiver's delete query. This should be an instance of a valid subclass of DeleteObjectQuery. If specified this is used by the descriptor to delete itself and its private parts from the database. This gives the user the ability to define exactly how to delete the data from the database, or access data external from the database or from some other framework.
      • setDeleteSQLString

        public void setDeleteSQLString​(java.lang.String sqlString)
        ADVANCED: Set the receiver's delete SQL string. This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. The arguments are translated from the fields of the source row, through replacing the field names marked by '#' with the values for those fields. Warning: Allowing an unverified SQL string to be passed into this method makes your application vulnerable to SQL injection attacks.

        Example, "delete from EMPLOYEE where EMPLOYEE_ID = #EMPLOYEE_ID".

      • setDeleteCall

        public void setDeleteCall​(Call call)
        ADVANCED: Set the receiver's delete call. This allows the user to override the delete operation.
      • setDescriptor

        public void setDescriptor​(ClassDescriptor descriptor)
        INTERNAL: Set the descriptor.
      • setDoesExistQuery

        public void setDoesExistQuery​(DoesExistQuery query)
        ADVANCED: Set the receiver's does exist query. This should be an instance of a valid subclass of DoesExistQuery. If specified this is used by the descriptor to query existence of an object in the database. This gives the user the ability to define exactly how to query existence from the database, or access data external from the database or from some other framework.
      • setDoesExistSQLString

        public void setDoesExistSQLString​(java.lang.String sqlString)
        ADVANCED: Set the receiver's does exist SQL string. This allows the user to override the SQL generated by EclipseLink, with there own SQL or procedure call. The arguments are translated from the fields of the source row, through replacing the field names marked by '#' with the values for those fields. This must return null if the object does not exist, otherwise return a database row. Warning: Allowing an unverified SQL string to be passed into this method makes your application vulnerable to SQL injection attacks.

        Example, "select EMPLOYEE_ID from EMPLOYEE where EMPLOYEE_ID = #EMPLOYEE_ID".

      • setDoesExistCall

        public void setDoesExistCall​(Call call)
        ADVANCED: Set the receiver's does exist call. This allows the user to override the does exist operation.
      • setExistenceCheck

        public void setExistenceCheck​(java.lang.String token)
                               throws DescriptorException
        INTERNAL: This method is explicitly used by the Builder only.
        Throws:
        DescriptorException
      • setHasCustomMultipleTableJoinExpression

        protected void setHasCustomMultipleTableJoinExpression​(boolean hasCustomMultipleTableJoinExpression)
        INTENAL: Set if a custom join expression is used.
      • setInsertQuery

        public void setInsertQuery​(InsertObjectQuery insertQuery)
        ADVANCED: Set the receiver's insert query. This should be an instance of a valid subclass of InsertObjectQuery. If specified this is used by the descriptor to insert itself into the database. This gives the user the ability to define exactly how to insert the data into the database, or access data external from the database or from some other framework.
      • setInsertCall

        public void setInsertCall​(Call call)
        ADVANCED: Set the receiver's insert call. This allows the user to override the insert operation.
      • setInsertSQLString

        public void setInsertSQLString​(java.lang.String sqlString)
        ADVANCED: Set the receiver's insert SQL string. This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. The arguments are translated from the fields of the source row, through replacing the field names marked by '#' with the values for those fields. Warning: Allowing an unverified SQL string to be passed into this method makes your application vulnerable to SQL injection attacks.

        Example, "insert into EMPLOYEE (F_NAME, L_NAME) values (#F_NAME, #L_NAME)".

      • getInsertCall

        public Call getInsertCall()
        ADVANCED: Return the receiver's insert call. This allows the user to override the insert operation.
      • getUpdateCall

        public Call getUpdateCall()
        ADVANCED: Return the receiver's update call. This allows the user to override the update operation.
      • getDeleteCall

        public Call getDeleteCall()
        ADVANCED: Return the receiver's delete call. This allows the user to override the delete operation.
      • getReadObjectCall

        public Call getReadObjectCall()
        ADVANCED: Return the receiver's read-object call. This allows the user to override the read-object operation.
      • getReadAllCall

        public Call getReadAllCall()
        ADVANCED: Return the receiver's read-all call. This allows the user to override the read-all operation.
      • getDoesExistCall

        public Call getDoesExistCall()
        ADVANCED: Return the receiver's does-exist call. This allows the user to override the does-exist operation.
      • getTablesJoinExpressions

        public java.util.Map<org.eclipse.persistence.internal.helper.DatabaseTable,​Expression> getTablesJoinExpressions()
        INTERNAL: Used in case descriptor has additional tables: each additional table mapped to an expression joining it.
      • setInternalMultipleTableJoinExpression

        public void setInternalMultipleTableJoinExpression​(Expression multipleTableJoinExpression)
        INTERNAL: Used to set the multiple table join expression that was generated by EclipseLink as opposed to a custom one supplied by the user.
        See Also:
        setMultipleTableJoinExpression(Expression)
      • setMultipleTableJoinExpression

        public void setMultipleTableJoinExpression​(Expression multipleTableJoinExpression)
        ADVANCED: This is normally generated for descriptors that have multiple tables. However, if the additional table does not reference the primary table's primary key, this expression may be set directly.
      • setReadAllQuery

        public void setReadAllQuery​(ReadAllQuery query)
        ADVANCED: Set the receiver's read all query. This should be an instance of a valid subclass of ReadAllQuery. If specified this is used by the descriptor to read all instances of its class from the database. This gives the user the ability to define exactly how to read all objects from the database, or access data external from the database or from some other framework. Note that this is only used on readAllObjects(Class), and not when an expression is provided.
      • setReadAllSQLString

        public void setReadAllSQLString​(java.lang.String sqlString)
        ADVANCED: Set the receiver's read SQL string. This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. The arguments are translated from the fields of the read arguments row, through replacing the field names marked by '#' with the values for those fields. Note that this is only used on readAllObjects(Class), and not when an expression is provided. Warning: Allowing an unverified SQL string to be passed into this method makes your application vulnerable to SQL injection attacks.

        Example, "select * from EMPLOYEE"

      • setReadAllCall

        public void setReadAllCall​(Call call)
        ADVANCED: Set the receiver's read all call. This allows the user to override the read all operation. Note that this is only used on readAllObjects(Class), and not when an expression is provided.
      • setReadObjectQuery

        public void setReadObjectQuery​(ReadObjectQuery query)
        ADVANCED: Set the receiver's read query. This should be an instance of a valid subclass of ReadObjectQuery If specified this is used by the descriptor to read itself from the database. The read arguments must be the primary key of the object only. This gives the user the ability to define exactly how to read the object from the database, or access data external from the database or from some other framework.
      • setReadObjectSQLString

        public void setReadObjectSQLString​(java.lang.String sqlString)
        ADVANCED: Set the receiver's read SQL string. This allows the user to override the SQL generated by EclipseLink, with their own SQL or procedure call. The arguments are translated from the fields of the read arguments row, through replacing the field names marked by '#' with the values for those fields. This must accept only the primary key of the object as arguments. Warning: Allowing an unverified SQL string to be passed into this method makes your application vulnerable to SQL injection attacks.

        Example, "select * from EMPLOYEE where EMPLOYEE_ID = #EMPLOYEE_ID"

      • setReadObjectCall

        public void setReadObjectCall​(Call call)
        ADVANCED: Set the receiver's read object call. This allows the user to override the read object operation. This must accept only the primary key of the object as arguments.
      • setUpdateQuery

        public void setUpdateQuery​(UpdateObjectQuery updateQuery)
        ADVANCED: Set the receiver's update query. This should be an instance of a valid subclass of UpdateObjectQuery. If specified this is used by the descriptor to update itself in the database. If the receiver uses optimistic locking this must raise an error on optimistic lock failure. This gives the user the ability to define exactly how to update the data into the database, or access data external from the database or from some other framework.
      • setUpdateSQLString

        public void setUpdateSQLString​(java.lang.String sqlString)
        ADVANCED: Set the receiver's update SQL string. This allows the user to override the SQL generated by EclipseLink, with there own SQL or procedure call. The arguments are translated from the fields of the source row, through replacing the field names marked by '#' with the values for those fields. This must check the optimistic lock field and raise an error on optimistic lock failure. Warning: Allowing an unverified SQL string to be passed into this method makes your application vulnerable to SQL injection attacks.

        Example, "update EMPLOYEE set F_NAME to #F_NAME, L_NAME to #L_NAME where EMPLOYEE_ID = #EMPLOYEE_ID".

      • setUpdateCall

        public void setUpdateCall​(Call call)
        ADVANCED: Set the receiver's update call. This allows the user to override the update operation.
      • getQueryTimeout

        public int getQueryTimeout()
        PUBLIC: Return the number of seconds queries will wait for their Statement to execute. - DefaultTimeout: get queryTimeout from parent DescriptorQueryManager. If there is no parent, default to NoTimeout - NoTimeout, 1..N: overrides parent queryTimeout
      • getQueryTimeoutUnit

        public java.util.concurrent.TimeUnit getQueryTimeoutUnit()
      • setQueryTimeout

        public void setQueryTimeout​(int queryTimeout)
        PUBLIC: Set the number of seconds that queries will wait for their Statement to execute. If the limit is exceeded, a DatabaseException is thrown. - DefaultTimeout: get queryTimeout from parent DescriptorQueryManager. If there is no parent, default to NoTimeout - NoTimeout, 1..N: overrides parent queryTimeout
      • setQueryTimeoutUnit

        public void setQueryTimeoutUnit​(java.util.concurrent.TimeUnit queryTimeoutUnit)
      • getUpdateCallCacheSize

        public int getUpdateCallCacheSize()
        ADVANCED: Return the size of the update call cache. The update call cache is used to cache the update SQL to avoid regeneration. Since every update with different fields produces different SQL, this cache allows caching of the update SQL based on the fields being updated. The default cache size is 10, the update call cache can be disabled through setting the size to 0.
      • setUpdateCallCacheSize

        public void setUpdateCallCacheSize​(int updateCallCacheSize)
        ADVANCED: Set the size of the update call cache. The update call cache is used to cache the update SQL to avoid regeneration. Since every update with different fields produces different SQL, this cache allows caching of the update SQL based on the fields being updated. The default cache size is 10, the update call cache can be disabled through setting the size to 0.
      • getCachedUpdateCalls

        public java.util.Vector getCachedUpdateCalls​(java.util.Vector updateFields)
        INTERNAL: Return the cached update SQL call based on the updated fields. PERF: Allow caching of the update SQL call to avoid regeneration.
      • putCachedUpdateCalls

        public void putCachedUpdateCalls​(java.util.Vector updateFields,
                                         java.util.Vector updateCalls)
        INTERNAL: Cache a clone of the update SQL calls based on the updated fields. If the max size is reached, do not cache the call. The call's query must be dereferenced in order to allow the GC of a related session. PERF: Allow caching of the update SQL call to avoid regeneration.
      • getCachedExpressionQuery

        public DatabaseQuery getCachedExpressionQuery​(DatabaseQuery query)
        INTERNAL: Return the cached SQL call for the expression query. PERF: Allow caching of expression query SQL call to avoid regeneration.
      • putCachedExpressionQuery

        public void putCachedExpressionQuery​(DatabaseQuery query)
        INTERNAL: Set the cached SQL call for the expression query. PERF: Allow caching of expression query SQL call to avoid regeneration.
      • removeCachedExpressionQuery

        public void removeCachedExpressionQuery​(DatabaseQuery query)
        INTERNAL: Remove the cached expression query. PERF: Allow caching of expression query SQL call to avoid regeneration.