oracle.toplink.essentials.queryframework.DatabaseQuery Maven / Gradle / Ivy
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package oracle.toplink.essentials.queryframework;
import java.util.*;
import java.io.*;
import oracle.toplink.essentials.internal.helper.*;
import oracle.toplink.essentials.expressions.*;
import oracle.toplink.essentials.internal.expressions.*;
import oracle.toplink.essentials.internal.databaseaccess.*;
import oracle.toplink.essentials.internal.queryframework.*;
import oracle.toplink.essentials.exceptions.*;
import oracle.toplink.essentials.sessions.Record;
import oracle.toplink.essentials.sessions.DatabaseRecord;
import oracle.toplink.essentials.internal.parsing.ejbql.EJBQLCallQueryMechanism;
import oracle.toplink.essentials.sessions.SessionProfiler;
import oracle.toplink.essentials.internal.sessions.AbstractRecord;
import oracle.toplink.essentials.internal.sessions.UnitOfWorkImpl;
import oracle.toplink.essentials.internal.sessions.AbstractSession;
import oracle.toplink.essentials.descriptors.ClassDescriptor;
/**
* Purpose:
* Abstract class for all database query objects.
* DatabaseQuery is a visible class to the TopLink user. Users create an appropriate
* query by creating an instance of a concrete subclasses of DatabaseQuery.
*
*
Responsibilities:
*
* - Provide a common protocol for query objects.
*
- Defines a generic execution interface.
*
- Provides query property values
*
- Holds arguments to the query
*
*
* @author Yvon Lavoie
* @since TOPLink/Java 1.0
*/
public abstract class DatabaseQuery implements Cloneable, Serializable, FalseUndefinedTrue {
/** Queries can be given a name and registered with a descriptor to allow common queries to be reused. */
protected String name;
/** Arguments can be given and specified to predefined queries to allow reuse. */
protected Vector arguments;
/** Arguments values can be given and specified to predefined queries to allow reuse. */
protected Vector argumentValues;
/** Needed to differentiate queries with the same name. */
protected Vector argumentTypes;
/** Used to build a list of argumentTypes by name pre-initialization */
protected Vector argumentTypeNames;
/** The descriptor cached on the prepare for object level queries. */
protected transient ClassDescriptor descriptor;
/** The query mechanism determines the mechanism on how the database will be accessed. */
protected DatabaseQueryMechanism queryMechanism;
/** Flag used for a query to bypass the identitymap and unit of work. */
// Bug#3476483 - Restore shouldMaintainCache to previous state after reverse of bug fix 3240668
protected boolean shouldMaintainCache;
/** Internallay used by the mappings as a temporary store. */
protected Hashtable properties;
/** Only used after the query is prepared to store the session under which the query was executed. */
protected transient AbstractSession session;
/** Connection to use for database access, required for server session connection pooling. */
protected transient Accessor accessor;
/** Mappings and the descriptor use parameterized mechanisms that will be translated with the data from the row. */
protected AbstractRecord translationRow;
/** Internal flag used to bypass user define queries when executing one for custom sql/query support. */
protected boolean isUserDefined;
/** Policy that determines how the query will cascade to its object's parts. */
protected int cascadePolicy;
/** Used to override the default session in the session broker. */
protected String sessionName;
/** Queries prepare common stated in themselves. */
protected boolean isPrepared;
/** Used to indicate whether or not the call needs to be cloned. */
protected boolean shouldCloneCall;
/** Allow for the prepare of queries to be turned off, this allow for dynamic non-pre SQL generated queries. */
protected boolean shouldPrepare;
/** Bind all arguments to the SQL statement. */
// Has False, Underfined or True value. In case of Undefined -
// Session's shouldBindAllParameters() defines whether to bind or not.
protected int shouldBindAllParameters;
/** Cache the prepared statement, this requires full parameter binding as well. */
// Has False, Underfined or True value. In case of Undefined -
// Session's shouldCacheAllStatements() defines whether to cache or not.
protected int shouldCacheStatement;
/** Use the WrapperPolicy for the objects returned by the query */
protected boolean shouldUseWrapperPolicy;
/* Used as default for read, means shallow write for modify. */
public static final int NoCascading = 1;
/* Used as default for write, used for refreshing to refresh the whole object. */
public static final int CascadePrivateParts = 2;
/* Currently not supported, used for deep write/refreshes/reads in the future. */
public static final int CascadeAllParts = 3;
/* Used by the unit of work. */
public static final int CascadeDependentParts = 4;
/* Used by aggregate Collections: As aggregates delete at update time, cascaded deletes
* must know to stop when entering postDelete for a particular mapping. Only used by the
* aggregate collection when update is occuring in a UnitOfWork
* CR 2811
*/
public static final int CascadeAggregateDelete = 5;
/*
* Used when refreshing should check the mappings to determin if a particular
* mapping should be cascaded.
*/
public static final int CascadeByMapping = 6;
/*
* Stores the FlushMode of this Query. This is only applicable when executed
* in a flushable UnitOfWork and will be ignored otherwise.
*/
protected Boolean flushOnExecute;
/**
* PUBLIC:
* Initialize the state of the query
*/
public DatabaseQuery() {
this.shouldMaintainCache = true;
// bug 3524620: lazy-init query mechanism
//this.queryMechanism = new ExpressionQueryMechanism(this);
this.isUserDefined = false;
this.cascadePolicy = NoCascading;
this.isPrepared = false;
this.shouldUseWrapperPolicy = true;
this.shouldPrepare = true;
this.shouldBindAllParameters = Undefined;
this.shouldCacheStatement = Undefined;
this.shouldCloneCall = false;
}
/**
* PUBLIC:
* Add the argument named argumentName.
* This will cause the translation of references of argumentName in the receiver's expression,
* with the value of the argument as supplied to the query in order from executeQuery()
*/
public void addArgument(String argumentName) {
// CR#3545 - Changed the default argument type to make argument types work more consistently
// with the SDK
addArgument(argumentName, java.lang.Object.class);
}
/**
* PUBLIC:
* Add the argument named argumentName and its class type.
* This will cause the translation of references of argumentName in the receiver's expression,
* with the value of the argument as supplied to the query in order from executeQuery().
* Specifying the class type is important if identically named queries are used but with
* different argument lists.
*/
public void addArgument(String argumentName, Class type) {
getArguments().addElement(argumentName);
getArgumentTypes().addElement(type);
getArgumentTypeNames().addElement(type.getName());
}
/**
* PUBLIC:
* Add the argument named argumentName and its class type.
* This will cause the translation of references of argumentName in the receiver's expression,
* with the value of the argument as supplied to the query in order from executeQuery().
* Specifying the class type is important if identically named queries are used but with
* different argument lists.
*/
public void addArgument(String argumentName, String typeAsString) {
getArguments().addElement(argumentName);
//bug 3197587
getArgumentTypes().addElement(Helper.getObjectClass(ConversionManager.loadClass(typeAsString)));
getArgumentTypeNames().addElement(typeAsString);
}
/**
* INTERNAL:
* Add an argument to the query, but do not resovle the class yet.
* This is useful for building a query without putting the domain classes
* on the classpath for the Mapping Workbench.
*/
public void addArgumentByTypeName(String argumentName, String typeAsString) {
getArguments().addElement(argumentName);
getArgumentTypeNames().addElement(typeAsString);
}
/**
* PUBLIC:
* Add the argumentValue.
* Argument values must be added in the same order the arguments are defined.
*/
public void addArgumentValue(Object argumentValue) {
getArgumentValues().addElement(argumentValue);
}
/**
* PUBLIC:
* Add the argumentValues to the query.
* Argument values must be added in the same order the arguments are defined.
*/
public void addArgumentValues(Vector theArgumentValues) {
setArgumentValues(theArgumentValues);
}
/**
* PUBLIC:
* Used to define a store procedure or SQL query.
* This may be used for multiple SQL executions to be mapped to a single query.
* This cannot be used for cursored selects, delete alls or does exists.
*/
public void addCall(Call call) {
setQueryMechanism(call.buildQueryMechanism(this, getQueryMechanism()));
// Must un-prepare is prepare as the SQL may change.
setIsPrepared(false);
}
/**
* PUBLIC:
* Used to define a statement level query.
* This may be used for multiple SQL executions to be mapped to a single query.
* This cannot be used for cursored selects, delete alls or does exists.
*/
public void addStatement(SQLStatement statement) {
// bug 3524620: lazy-init query mechanism
if (!hasQueryMechanism()) {
setQueryMechanism(new StatementQueryMechanism(this));
} else if (!getQueryMechanism().isStatementQueryMechanism()) {
setQueryMechanism(new StatementQueryMechanism(this));
}
((StatementQueryMechanism)getQueryMechanism()).getSQLStatements().addElement(statement);
// Must un-prepare is prepare as the SQL may change.
setIsPrepared(false);
}
/**
* PUBLIC:
* Bind all arguments to any SQL statement.
*/
public void bindAllParameters() {
setShouldBindAllParameters(true);
}
/**
* INTERNAL:
* In the case of EJBQL, an expression needs to be generated. Build the required expression.
*/
protected void buildSelectionCriteria(AbstractSession session) {
this.getQueryMechanism().buildSelectionCriteria(session);
}
/**
* PUBLIC:
* Cache the prepared statements, this requires full parameter binding as well.
*/
public void cacheStatement() {
setShouldCacheStatement(true);
}
/**
* PUBLIC:
* Cascade the query and its properties on the queries object(s) and all objects related to the queries object(s).
* This includes private and independent relationships, but not read-only relationships.
* This will still stop on uninstantiated indirection objects except for deletion.
* Great caution should be used in using the property as the query may effect a large number of objects.
* This policy is used by the unit of work to ensure persistence by reachability.
*/
public void cascadeAllParts() {
setCascadePolicy(CascadeAllParts);
}
/**
* PUBLIC:
* Cascade the query and its properties on the queries object(s) and all related objects where the mapping has
* been set to cascade the merge.
*/
public void cascadeByMapping() {
setCascadePolicy(CascadeByMapping);
}
/**
* INTERNAL:
* Used by unit of work, only cascades constraint dependecies.
*/
public void cascadeOnlyDependentParts() {
setCascadePolicy(CascadeDependentParts);
}
/**
* PUBLIC:
* Cascade the query and its properties on the queries object(s)
* and all privately owned objects related to the queries object(s).
* This is the default for write and delete queries.
* This policy should normally be used for refreshing, otherwise you could refresh half of any object.
*/
public void cascadePrivateParts() {
setCascadePolicy(CascadePrivateParts);
}
/**
* INTERNAL:
* Ensure that the descriptor has been set.
*/
public void checkDescriptor(AbstractSession session) throws QueryException {
}
/**
* INTERNAL:
* Check to see if this query already knows the return vale without preforming any further work.
*/
public Object checkEarlyReturn(AbstractSession session, AbstractRecord translationRow) {
return null;
}
/**
* INTERNAL:
* Check to see if a custom query should be used for this query.
* This is done before the query is copied and prepared/executed.
* null means there is none.
*/
protected DatabaseQuery checkForCustomQuery(AbstractSession session, AbstractRecord translationRow) {
return null;
}
/**
* INTERNAL:
* Check to see if this query needs to be prepare and prepare it.
* The prepare is done on the original query to ensure that the work is not repeated.
*/
public void checkPrepare(AbstractSession session, AbstractRecord translationRow) {
// This query is first prepared for global common state, this must be synced.
if (!isPrepared()) {// Avoid the monitor is already prepare, must check again for concurrency.
// Prepared queries cannot be custom as then they would never have been prepared.
synchronized (this) {
if (!isPrepared()) {
// When custom SQL is used there is a possibility that the SQL contains the # token.
// Avoid this by telling the call if this is custom SQL with parameters.
// This must not be called for SDK calls.
if ((isReadQuery() || isDataModifyQuery()) && isCallQuery() && (getQueryMechanism() instanceof CallQueryMechanism) && ((translationRow == null) || translationRow.isEmpty())) {
// Must check for read object queries as the row will be empty until the prepare.
if (isReadObjectQuery() || isUserDefined()) {
((CallQueryMechanism)getQueryMechanism()).setCallHasCustomSQLArguments();
}
} else if (isCallQuery() && (getQueryMechanism() instanceof CallQueryMechanism)) {
((CallQueryMechanism)getQueryMechanism()).setCallHasCustomSQLArguments();
}
setSession(session);// Session is required for some init stuff.
prepare();
setSession(null);
setIsPrepared(true);// MUST not set prepare until done as other thread may hit before finihsing the prepare.
}
}
}
}
/**
* INTERNAL:
* Clone the query
*/
public Object clone() {
try {
DatabaseQuery cloneQuery = (DatabaseQuery)super.clone();
// partial fix for 3054240
// need to pay attention to other components of the query, too MWN
if (cloneQuery.properties != null) {
if (cloneQuery.properties.isEmpty()) {
cloneQuery.setProperties(null);
} else {
cloneQuery.setProperties((Hashtable)getProperties().clone());
}
}
// bug 3524620: now that the query mechanism is lazy-init'd,
// only clone the query mechanism if we have one.
if (hasQueryMechanism()) {
cloneQuery.setQueryMechanism(getQueryMechanism().clone(cloneQuery));
}
cloneQuery.setIsPrepared(isPrepared());// Setting some things will trigger unprepare.
return cloneQuery;
} catch (CloneNotSupportedException e) {
return null;
}
}
/**
* INTERNAL
* Used to give the subclasses oportunity to copy aspects of the cloned query
* to the original query.
*/
protected void clonedQueryExecutionComplete(DatabaseQuery query, AbstractSession session) {
//no-op for this class
}
/**
* INTERNAL:
* Convert all the class-name-based settings in this query to actual class-based
* settings
* This method is implemented by subclasses as necessary.
* @param classLoader
*/
public void convertClassNamesToClasses(ClassLoader classLoader){
// note: normally we would fix the argument types here, but they are already
// lazily instantiated
};
/**
* INTERNAL:
* Added for backwards compatibility. shouldMaintainCache used to be tri-state and was converted to boolean.
* This method is used by deployment XML to properly convert the tri-state variable to a boolean
* Added for Bug 4034159
*/
public void deploymentSetShouldMaintainCache(int maintainCache) {
// FalseUndefinedTrue.Undefined is intentionally left ignored so it will map to the default.
if (maintainCache == FalseUndefinedTrue.True) {
setShouldMaintainCache(true);
} else if (maintainCache == FalseUndefinedTrue.False) {
setShouldMaintainCache(false);
}
}
/**
* INTERNAL:
* Added for backwards compatibility. shouldMaintainCache used to be tri-state and was converted to boolean.
* This method is used by deployment XML to properly convert the tri-state variable to a boolean
* Added for Bug 4034159
*/
public int deploymentShouldMaintainCache() {
if (shouldMaintainCache()) {
return FalseUndefinedTrue.True;
} else {
return FalseUndefinedTrue.False;
}
}
/**
* PUBLIC:
* Do not Bind all arguments to any SQL statement.
*/
public void dontBindAllParameters() {
setShouldBindAllParameters(false);
}
/**
* PUBLIC:
* Dont cache the prepared statements, this requires full parameter binding as well.
*/
public void dontCacheStatement() {
setShouldCacheStatement(false);
}
/**
* PUBLIC:
* Do not cascade the query and its properties on the queries object(s) relationships.
* This does not effect the queries private parts but only the object(s) direct row-level attributes.
* This is the default for read queries and can be used in writting if it is known that only
* row-level attributes changed, or to resolve circular foreign key dependencies.
*/
public void dontCascadeParts() {
setCascadePolicy(NoCascading);
}
/**
* PUBLIC:
* Set for the identity map (cache) to be ignored completely.
* The cache check will be skipped and the result will not be put into the identity map.
* This can be used to retreive the exact state of an object on the database.
* By default the identity map is always maintained.
*/
public void dontMaintainCache() {
setShouldMaintainCache(false);
}
/**
* INTERNAL:
* Execute the query
*
* @exception DatabaseException - an error has occurred on the database.
* @exception OptimisticLockException - an error has occurred using the optimistic lock feature.
* @return - the result of executing the query.
*/
public abstract Object executeDatabaseQuery() throws DatabaseException, OptimisticLockException;
/**
* INTERNAL:
* Override query execution where Session is a UnitOfWork.
*
* If there are objects in the cache return the results of the cache lookup.
*
* @param unitOfWork - the session in which the receiver will be executed.
* @param translationRow - the arguments
* @exception DatabaseException - an error has occurred on the database.
* @exception OptimisticLockException - an error has occurred using the optimistic lock feature.
* @return An object, the result of executing the query.
*/
public Object executeInUnitOfWork(UnitOfWorkImpl unitOfWork, AbstractRecord translationRow) throws DatabaseException, OptimisticLockException {
return execute(unitOfWork, translationRow);
}
/**
* INTERNAL:
* Execute the query. If there are objects in the cache return the results
* of the cache lookup.
*
* @param session - the session in which the receiver will be executed.
* @exception DatabaseException - an error has occurred on the database.
* @exception OptimisticLockException - an error has occurred using the optimistic lock feature.
* @return An object, the result of executing the query.
*/
public Object execute(AbstractSession session, AbstractRecord translationRow) throws DatabaseException, OptimisticLockException {
DatabaseQuery queryToExecute = this;
// Profile the query preparation time.
session.startOperationProfile(SessionProfiler.QUERY_PREPARE);
// This allows the query to check the cache or return early without doing any work.
Object earlyReturn = queryToExecute.checkEarlyReturn(session, translationRow);
if ((earlyReturn != null) || (isReadObjectQuery() && ((ReadObjectQuery)this).shouldCheckCacheOnly())) {
// Profile the query preparation time.
session.endOperationProfile(SessionProfiler.QUERY_PREPARE);
return earlyReturn;
}
boolean hasCustomQuery = false;
if (!isPrepared() && shouldPrepare()) {
// Prepared queries cannot be custom as then they would never have been prepared.
DatabaseQuery customQuery = checkForCustomQuery(session, translationRow);
if (customQuery != null) {
hasCustomQuery = true;
// The custom query will be used not the original.
queryToExecute = customQuery;
}
}
// Sometimes a session will clone the query and mutate the clone. If so
// don't need to clone again.
// All queries on a HistoricalSession become historical queries.
// On a ServerSession bean-level pessimistic locking queries need to
// be replaced with non-locking versions.
boolean alreadyClonedQuery = false;
DatabaseQuery sessionPreparedQuery = session.prepareDatabaseQuery(queryToExecute);
if (sessionPreparedQuery != queryToExecute) {
queryToExecute = sessionPreparedQuery;
alreadyClonedQuery = true;
}
if (queryToExecute.shouldPrepare()) {
queryToExecute.checkPrepare(session, translationRow);
}
// Then cloned for concurrency and repeatable execution.
if (!alreadyClonedQuery) {
queryToExecute = (DatabaseQuery)queryToExecute.clone();
}
queryToExecute.setTranslationRow(translationRow);
// If the prepare has been disbale the clone is prepare dynamically to not parameterize the SQL.
if (!queryToExecute.shouldPrepare()) {
queryToExecute.checkPrepare(session, translationRow);
}
queryToExecute.setSession(session);
if (hasCustomQuery) {
prepareCustomQuery(queryToExecute);
}
queryToExecute.prepareForExecution();
// Profile the query preparation time.
session.endOperationProfile(SessionProfiler.QUERY_PREPARE);
// Then executed.
Object result = queryToExecute.executeDatabaseQuery();
//give the subclasses the oportunity to retreive aspects of the cloned query
clonedQueryExecutionComplete(queryToExecute, session);
return result;
}
/**
* INTERNAL:
* Return the accessor.
*/
public Accessor getAccessor() {
return accessor;
}
/**
* INTERNAL:
* Return the arguments for use with the pre-defined query option
*/
public Vector getArguments() {
if (arguments == null) {
arguments = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance();
}
return arguments;
}
/**
* INTERNAL:
* Return the argumentTypes for use with the pre-defined query option
*/
public Vector getArgumentTypes() {
if ((argumentTypes == null) || argumentTypes.isEmpty()) {
argumentTypes = new Vector();
// Bug 3256198 - lazily initialize the argument types from their class names
if (argumentTypeNames != null) {
Iterator args = argumentTypeNames.iterator();
while (args.hasNext()) {
String argumentTypeName = (String)args.next();
argumentTypes.addElement(Helper.getObjectClass(ConversionManager.loadClass(argumentTypeName)));
}
}
}
return argumentTypes;
}
/**
* INTERNAL:
* Return the argumentTypeNames for use with the pre-defined query option
* These are used pre-initialization to construct the argumentTypes list.
*/
public Vector getArgumentTypeNames() {
if (argumentTypeNames == null) {
argumentTypeNames = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance();
}
return argumentTypeNames;
}
/**
* INTERNAL:
* Set the argumentTypes for use with the pre-defined query option
*/
public void setArgumentTypes(Vector argumentTypes) {
this.argumentTypes = argumentTypes;
// bug 3256198 - ensure the list of type names matches the argument types.
getArgumentTypeNames().clear();
Iterator types = argumentTypes.iterator();
while (types.hasNext()) {
argumentTypeNames.addElement(((Class)types.next()).getName());
}
}
/**
* INTERNAL:
* Set the argumentTypes for use with the pre-defined query option
*/
public void setArgumentTypeNames(Vector argumentTypeNames) {
this.argumentTypeNames = argumentTypeNames;
}
/**
* INTERNAL:
* Set the arguments for use with the pre-defined query option.
* Maintain the argumentTypes as well.
*/
public void setArguments(Vector arguments) {
for (Enumeration enumtr = arguments.elements(); enumtr.hasMoreElements();) {
// Maintain the argumentTypes as well
addArgument((String)enumtr.nextElement());
}
}
/**
* INTERNAL:
* Return the argumentValues for use with the
* pre-defined query option
*/
public Vector getArgumentValues() {
if (argumentValues == null) {
argumentValues = oracle.toplink.essentials.internal.helper.NonSynchronizedVector.newInstance();
}
return argumentValues;
}
/**
* INTERNAL:
* Return the argumentValues for use with the
* pre-defined query option
*/
public void setArgumentValues(Vector theArgumentValues) {
argumentValues = theArgumentValues;
}
/**
* INTERNAL:
* Return the call for this query.
* This call contains the SQL and argument list.
* @see #getDatasourceCall()
*/
public DatabaseCall getCall() {
Call call = getDatasourceCall();
if (call instanceof DatabaseCall) {
return (DatabaseCall)call;
} else {
return null;
}
}
/**
* ADVANCED:
* Return the call for this query.
* This call contains the SQL and argument list.
* @see #prepareCall(Session, DatabaseRow);
*/
public Call getDatasourceCall() {
Call call = null;
if (getQueryMechanism() instanceof DatasourceCallQueryMechanism) {
DatasourceCallQueryMechanism mechanism = (DatasourceCallQueryMechanism)getQueryMechanism();
call = mechanism.getCall();
// If has multiple calls return the first one.
if (mechanism.hasMultipleCalls()) {
call = (Call)mechanism.getCalls().get(0);
}
}
if ((call == null) && getQueryMechanism().isEJBQLCallQueryMechanism()) {
call = ((EJBQLCallQueryMechanism)getQueryMechanism()).getEJBQLCall();
}
return call;
}
/**
* ADVANCED:
* Return the calls for this query. This method can be called for queries with multiple calls
* This call contains the SQL and argument list.
* @see #prepareCall(Session, DatabaseRow);
*/
public List getDatasourceCalls() {
List calls = new Vector();
if (getQueryMechanism() instanceof DatasourceCallQueryMechanism) {
DatasourceCallQueryMechanism mechanism = (DatasourceCallQueryMechanism)getQueryMechanism();
// If has multiple calls return the first one.
if (mechanism.hasMultipleCalls()) {
calls = mechanism.getCalls();
} else {
calls.add(mechanism.getCall());
}
}
if ((calls.isEmpty()) && getQueryMechanism().isEJBQLCallQueryMechanism()) {
calls.add(((EJBQLCallQueryMechanism)getQueryMechanism()).getEJBQLCall());
}
return calls;
}
/**
* INTERNAL:
* Return the cascade policy.
*/
public int getCascadePolicy() {
return cascadePolicy;
}
/**
* INTERNAL:
* Return the descriptor assigned with the reference class
*/
public ClassDescriptor getDescriptor() {
return descriptor;
}
/**
* PUBLIC:
* Return the name of the query
*/
public String getName() {
return name;
}
/**
* INTERNAL:
* Property support for use by mappings.
*/
public Hashtable getProperties() {
if (properties == null) {//Lazy initialize to conserve space and allocation time.
properties = new Hashtable(5);
}
return properties;
}
/**
* INTERNAL:
* Property support used by mappings to stach temporary stuff in the query.
*/
public synchronized Object getProperty(Object property) {
if (properties == null) {
return null;
}
return getProperties().get(property);
}
/**
* INTERNAL:
* Return the mechanism assigned to the query
*/
public DatabaseQueryMechanism getQueryMechanism() {
// Bug 3524620 - lazy init
if (queryMechanism == null) {
queryMechanism = new ExpressionQueryMechanism(this);
}
return queryMechanism;
}
/**
* INTERNAL:
* Check if the mechanism has been set yet, used for lazy init.
*/
public boolean hasQueryMechanism() {
return (queryMechanism != null);
}
/**
* PUBLIC:
* Return the domain class associated with this query.
* By default this is null, but should be overridden in subclasses.
*/
public Class getReferenceClass() {
return null;
}
/**
* INTERNAL:
* return the name of the reference class. Added for Mapping Workbench removal
* of classpath dependancy. Overriden by subclasses.
*/
public String getReferenceClassName() {
return null;
}
/**
* PUBLIC:
* Return the selection criteria of the query.
* This should only be used with expression queries, null will be returned for others.
*/
public Expression getSelectionCriteria() {
return getQueryMechanism().getSelectionCriteria();
}
/**
* INTERNAL:
* Return the current session.
*/
public AbstractSession getSession() {
return session;
}
/**
* PUBLIC:
* Return the name of the session that the query should be executed under.
* This can be with the session broker to override the default session.
*/
public String getSessionName() {
return sessionName;
}
/**
* PUBLIC:
* Return the SQL statement of the query.
* This can only be used with statement queries.
*/
public SQLStatement getSQLStatement() {
return ((StatementQueryMechanism)getQueryMechanism()).getSQLStatement();
}
/**
* PUBLIC:
* Return the SQL string of the query.
* This can be used for SQL queries.
* ADVANCED:
* This can also be used for normal queries if they have been prepared, (i.e. query.prepareCall()).
* @see #prepareCall(Session, DatabaseRow)
*/
public String getEJBQLString() {
if (!(getQueryMechanism().isEJBQLCallQueryMechanism())) {
return null;
}
EJBQLCall call = (EJBQLCall)((EJBQLCallQueryMechanism)getQueryMechanism()).getEJBQLCall();
return call.getEjbqlString();
}
/**
* PUBLIC:
* Return the SQL string of the query.
* This can be used for SQL queries.
* ADVANCED:
* This can also be used for normal queries if they have been prepared, (i.e. query.prepareCall()).
* @see #prepareCall(Session, DatabaseRow)
*/
public String getSQLString() {
Call call = getDatasourceCall();
if (call == null) {
return null;
}
if (!(call instanceof SQLCall)) {
return null;
}
return ((SQLCall)call).getSQLString();
}
/**
* PUBLIC:
* Return the SQL strings of the query. Used for queries with multiple calls
* This can be used for SQL queries.
* ADVANCED:
* This can also be used for normal queries if they have been prepared, (i.e. query.prepareCall()).
* @see #prepareCall(Session, DatabaseRow)
*/
public List getSQLStrings() {
List calls = getDatasourceCalls();
if ((calls == null) || calls.isEmpty()) {
return null;
}
Vector returnSQL = new Vector(calls.size());
Iterator iterator = calls.iterator();
while (iterator.hasNext()) {
Call call = (Call)iterator.next();
if (!(call instanceof SQLCall)) {
return null;
}
returnSQL.addElement(((SQLCall)call).getSQLString());
}
return returnSQL;
}
/**
* INTERNAL:
* Returns the internal tri-state calue of shouldBindParameters
* used far cascading these settings
*/
public int getShouldBindAllParameters() {
return this.shouldBindAllParameters;
}
/**
* ADVANCED:
* This can be used to access a queries translated SQL if they have been prepared, (i.e. query.prepareCall()).
* The Record argument is one of (DatabaseRow, XMLRecord) that contains the query arguments.
* @see #prepareCall(oracle.toplink.essentials.sessions.Session, Record)
*/
public String getTranslatedSQLString(oracle.toplink.essentials.sessions.Session session, Record translationRow) {
//CR#2859559 fix to use Session and Record interfaces not impl classes.
CallQueryMechanism queryMechanism = (CallQueryMechanism)getQueryMechanism();
if (queryMechanism.getCall() == null) {
return null;
}
SQLCall call = (SQLCall)queryMechanism.getCall().clone();
call.translate((AbstractRecord)translationRow, queryMechanism.getModifyRow(), (AbstractSession)session);
return call.getSQLString();
}
/**
* ADVANCED:
* This can be used to access a queries translated SQL if they have been prepared, (i.e. query.prepareCall()).
* This method can be used for queries with multiple calls.
* @see #prepareCall(Session, DatabaseRow)
*/
public List getTranslatedSQLStrings(oracle.toplink.essentials.sessions.Session session, Record translationRow) {
CallQueryMechanism queryMechanism = (CallQueryMechanism)getQueryMechanism();
if ((queryMechanism.getCalls() == null) || queryMechanism.getCalls().isEmpty()) {
return null;
}
Vector calls = new Vector(queryMechanism.getCalls().size());
Iterator iterator = queryMechanism.getCalls().iterator();
while (iterator.hasNext()) {
SQLCall call = (SQLCall)iterator.next();
call = (SQLCall)call.clone();
call.translate((AbstractRecord)translationRow, queryMechanism.getModifyRow(), (AbstractSession)session);
calls.addElement(call.getSQLString());
}
return calls;
}
/**
* INTERNAL:
* Return the row for translation
*/
public AbstractRecord getTranslationRow() {
return translationRow;
}
/**
* INTERNAL:
* returns true if the accessor has already been set. The getAccessor() will attempt to
* lazily initialzie it.
*/
public boolean hasAccessor() {
return accessor != null;
}
/**
* INTERNAL:
* Return if any properties exist in the query.
*/
public boolean hasProperties() {
return (properties != null) && (!properties.isEmpty());
}
/**
* PUBLIC:
* Return if a name of the session that the query should be executed under has been specified.
* This can be with the session broker to override the default session.
*/
public boolean hasSessionName() {
return sessionName != null;
}
/**
* PUBLIC:
* Session's shouldBindAllParameters() defines whether to bind or not
* (default setting)
*/
public void ignoreBindAllParameters() {
this.shouldBindAllParameters = Undefined;
}
/**
* PUBLIC:
* Session's shouldCacheAllStatements() defines whether to cache or not
* (default setting)
*/
public void ignoreCacheStatement() {
this.shouldCacheStatement = Undefined;
}
/**
* PUBLIC:
* Return true if this query uses an SQL or stored procedure, or SDK call.
*/
public boolean isCallQuery() {
return getQueryMechanism().isCallQueryMechanism();
}
/**
* INTERNAL:
* Returns true if this query has been created as the result of cascading a delete of an aggregate collection
* in a UnitOfWork
* CR 2811
*/
public boolean isCascadeOfAggregateDelete() {
return getCascadePolicy() == CascadeAggregateDelete;
}
/**
* PUBLIC:
* Return if this is a data modify query.
*/
public boolean isDataModifyQuery() {
return false;
}
/**
* PUBLIC:
* Return if this is a data read query.
*/
public boolean isDataReadQuery() {
return false;
}
/**
* PUBLIC:
* Return if this is a delete all query.
*/
public boolean isDeleteAllQuery() {
return false;
}
/**
* PUBLIC:
* Return if this is a delete object query.
*/
public boolean isDeleteObjectQuery() {
return false;
}
/**
* PUBLIC:
* Return true if this query uses an expression query mechanism
*/
public boolean isExpressionQuery() {
return getQueryMechanism().isExpressionQueryMechanism();
}
/**
* PUBLIC:
* Return true if this is a modify all query.
*/
public boolean isModifyAllQuery() {
return false;
}
/**
* PUBLIC:
* Return true if this is a modify query.
*/
public boolean isModifyQuery() {
return false;
}
/**
* PUBLIC:
* Return true if this is an update all query.
*/
public boolean isUpdateAllQuery() {
return false;
}
/**
* PUBLIC:
* Return true if this is an update object query.
*/
public boolean isUpdateObjectQuery() {
return false;
}
/**
* PUBLIC:
* If executed against a RepeatableWriteUnitOfWork if this attribute is true
* TopLink will write changes to the database before executing the query.
*/
public Boolean getFlushOnExecute(){
return this.flushOnExecute;
}
/**
* PUBLIC:
* Return true if this is an insert object query.
*/
public boolean isInsertObjectQuery() {
return false;
}
/**
* PUBLIC:
* Return true if this is an object level modify query.
*/
public boolean isObjectLevelModifyQuery() {
return false;
}
/**
* PUBLIC:
* Return true if this is an object level read query.
*/
public boolean isObjectLevelReadQuery() {
return false;
}
/**
* PUBLIC:
* Return if this is an object building query.
*/
public boolean isObjectBuildingQuery() {
return true;
}
/**
* INTERNAL:
* Queries are prepared when they are executed and then do not need to be
* prepared on subsequent executions. This method returns true if this
* query has been prepared. Updating the settings on a query will 'un-prepare'
* the query.
*/
public boolean isPrepared() {
return isPrepared;
}
/**
* PUBLIC:
* Return true if this is a read all query.
*/
public boolean isReadAllQuery() {
return false;
}
/**
* PUBLIC:
* Return ture if this is a read object query.
*/
public boolean isReadObjectQuery() {
return false;
}
/**
* PUBLIC:
* Return true if this is a read query.
*/
public boolean isReadQuery() {
return false;
}
/**
* PUBLIC:
* Return true if this is a report query.
*/
public boolean isReportQuery() {
return false;
}
/**
* PUBLIC:
* Return true if this query uses an SQL query mechanism .
*/
public boolean isSQLCallQuery() {
// BUG#2669342 CallQueryMechanism and isCallQueryMechanism have different meaning as SDK return true but isn't.
Call call = getDatasourceCall();
return (call != null) && (call instanceof SQLCall);
}
/**
* INTERNAL:
* Return true if the query is a custom user defined query.
*/
public boolean isUserDefined() {
return isUserDefined;
}
/**
* PUBLIC:
* Return true if this is a write object query.
*/
public boolean isWriteObjectQuery() {
return false;
}
/**
* PUBLIC:
* Set for the identity map (cache) to be maintained.
* This is the default.
*/
public void maintainCache() {
setShouldMaintainCache(true);
}
/**
* INTERNAL:
* This is different from 'prepareForExecution' in that this is called on the original query,
* and the other is called on the copy of the query.
* This query is copied for concurrency so this prepare can only setup things that
* will apply to any future execution of this query.
*
* Resolve the queryTimeout using the DescriptorQueryManager if required.
*/
protected void prepare() throws QueryException {
getQueryMechanism().prepare();
}
/**
* ADVANCED:
* Pre-generate the call/SQL for the query.
* This method takes a Session and an implementor of Record (DatebaseRow or XMLRecord).
* This can be used to access the SQL for a query without executing it.
* To access the call use, query.getCall(), or query.getSQLString() for the SQL.
* Note the SQL will have argument markers in it (i.e. "?").
* To translate these use query.getTranslatedSQLString(session, translationRow).
* @see #getCall()
* @see #getSQLString()
* @see #getTranslatedSQLString(oracle.toplink.essentials.sessions.Session, Record)
*/
public void prepareCall(oracle.toplink.essentials.sessions.Session session, Record translationRow) throws QueryException {
//CR#2859559 fix to use Session and Record interfaces not impl classes.
checkPrepare((AbstractSession)session, (AbstractRecord)translationRow);
}
/**
* INTERNAL:
* Set the properties needed to be cascaded into the custom query.
*/
protected void prepareCustomQuery(DatabaseQuery customQuery) {
// Nothing by default.
}
/**
* INTERNAL:
* Prepare the receiver for execution in a session. In particular,
* set the descriptor of the receiver to the Descriptor for the
* appropriate class for the receiver's object.
*/
public void prepareForExecution() throws QueryException {
getQueryMechanism().prepareForExecution();
}
protected void prepareForRemoteExecution() {
;
}
/**
* INTERNAL:
* Property support used by mappings.
*/
public void removeProperty(Object property) {
getProperties().remove(property);
}
/**
* INTERNAL:
* Translate argumentValues into a database row.
*/
public AbstractRecord rowFromArguments(Vector argumentValues) throws QueryException {
Vector argumentNames = getArguments();
if (argumentNames.size() != argumentValues.size()) {
throw QueryException.argumentSizeMismatchInQueryAndQueryDefinition(this);
}
AbstractRecord row = new DatabaseRecord();
for (int index = 0; index < argumentNames.size(); index++) {
String argumentName = (String)argumentNames.elementAt(index);
Object argumentValue = argumentValues.elementAt(index);
row.put(new DatabaseField(argumentName), argumentValue);
}
return row;
}
/**
* INTERNAL:
* Set the accessor, the query must always use the same accessor for database access.
* This is required to support connection pooling.
*/
public void setAccessor(Accessor accessor) {
this.accessor = accessor;
}
/**
* PUBLIC:
* Used to define a store procedure or SQL query.
*/
public void setDatasourceCall(Call call) {
if (call == null) {
return;
}
setQueryMechanism(call.buildNewQueryMechanism(this));
}
/**
* PUBLIC:
* Used to define a store procedure or SQL query.
*/
public void setCall(Call call) {
setDatasourceCall(call);
}
/**
* INTERNAL:
* Set the cascade policy.
*/
public void setCascadePolicy(int policyConstant) {
cascadePolicy = policyConstant;
}
/**
* INTERNAL:
* Set the descriptor for the query.
*/
public void setDescriptor(ClassDescriptor descriptor) {
// If the descriptor changed must unprepare as the SQL may change.
if (this.descriptor != descriptor) {
setIsPrepared(false);
}
this.descriptor = descriptor;
}
/**
* PUBLIC:
* To any user of this object. Set the EJBQL string of the query.
* If arguments are required in the string they will be preceeded by "?" then the argument number.
*/
public void setEJBQLString(String ejbqlString) {
//Added the check for when we are building the query from the deployment XML
if ((ejbqlString != null) && (!ejbqlString.equals(""))) {
EJBQLCallQueryMechanism mechanism = new EJBQLCallQueryMechanism(this, new EJBQLCall(ejbqlString));
setQueryMechanism(mechanism);
}
}
/**
* PUBLIC:
* If executed against a RepeatableWriteUnitOfWork if this attribute is true
* TopLink will write changes to the database before executing the query.
*/
public void setFlushOnExecute(Boolean flushMode){
this.flushOnExecute = flushMode;
}
/**
* INTERNAL:
* If changes are made to the query that affect the derived SQL or Call
* parameters the query needs to be prepared again.
*
* Automatically called internally.
*/
public void setIsPrepared(boolean isPrepared) {
this.isPrepared = isPrepared;
}
/**
* INTERNAL:
* Set if the query is a custom user defined query.
*/
public void setIsUserDefined(boolean isUserDefined) {
this.isUserDefined = isUserDefined;
}
/**
* PUBLIC:
* Set the query's name.
* Queries can be named and added to a descriptor or the session and then referenced by name.
*/
public void setName(String queryName) {
name = queryName;
}
/**
* INTERNAL:
* Property support used by mappings.
*/
public void setProperties(Hashtable properties) {
this.properties = properties;
}
/**
* INTERNAL:
* Property support used by mappings to stache temporary stuff.
*/
public synchronized void setProperty(Object property, Object value) {
getProperties().put(property, value);
}
/**
* Set the query mechanism for the query.
*/
protected void setQueryMechanism(DatabaseQueryMechanism queryMechanism) {
this.queryMechanism = queryMechanism;
// Must un-prepare is prepare as the SQL may change.
setIsPrepared(false);
}
/**
* PUBLIC:
* To any user of this object. Set the selection criteria of the query.
* This method be used when dealing with expressions.
*/
public void setSelectionCriteria(Expression expression) {
// Do not overwrite the call if the expression is null.
if ((expression == null) && (!getQueryMechanism().isExpressionQueryMechanism())) {
return;
}
if (!getQueryMechanism().isExpressionQueryMechanism()) {
setQueryMechanism(new ExpressionQueryMechanism(this, expression));
} else {
((ExpressionQueryMechanism)getQueryMechanism()).setSelectionCriteria(expression);
}
// Must un-prepare is prepare as the SQL may change.
setIsPrepared(false);
}
/**
* INTERNAL:
* Set the session for the query
*/
public void setSession(AbstractSession session) {
this.session = session;
}
/**
* PUBLIC:
* Set the name of the session that the query should be executed under.
* This can be with the session broker to override the default session.
*/
public void setSessionName(String sessionName) {
this.sessionName = sessionName;
}
/**
* PUBLIC:
* Bind all arguments to any SQL statement.
*/
public void setShouldBindAllParameters(boolean shouldBindAllParameters) {
if (shouldBindAllParameters) {
this.shouldBindAllParameters = True;
} else {
this.shouldBindAllParameters = False;
}
setIsPrepared(false);
}
/**
* INTERNAL:
* Sets the internal tri-state value of shouldBindAllParams
* Used to cascade this value to alther queries
*/
public void setShouldBindAllParameters(int bindAllParams) {
this.shouldBindAllParameters = bindAllParams;
}
/**
* PUBLIC:
* Cache the prepared statements, this requires full parameter binding as well.
*/
public void setShouldCacheStatement(boolean shouldCacheStatement) {
if (shouldCacheStatement) {
this.shouldCacheStatement = True;
} else {
this.shouldCacheStatement = False;
}
setIsPrepared(false);
}
/**
* PUBLIC:
* Set if the identity map (cache) should be used or not.
* If not the cache check will be skipped and the result will not be put into the identity map.
* By default the identity map is always maintained.
*/
public void setShouldMaintainCache(boolean shouldMaintainCache) {
this.shouldMaintainCache = shouldMaintainCache;
}
/**
* PUBLIC:
* Set if the query should be prepared.
* TopLink automatically prepares queries to generate their SQL only once,
* one each execution of the query the SQL does not need to be generated again only the arguments need to be translated.
* This option is provide to disable this optimization as in can cause problems with certain types of queries that require dynamic SQL basd on their arguments.
*
These queries include:
*
* - Expressions that make use of 'equal' where the argument value has the potential to be null, this can cause problems on databases that require IS NULL, instead of = NULL.
*
- Expressions that make use of 'in' and that use parameter binding, this will cause problems as the in values must be bound individually.
*
*/
public void setShouldPrepare(boolean shouldPrepare) {
this.shouldPrepare = shouldPrepare;
setIsPrepared(false);
}
/**
* ADVANCED:
* The wrapper policy can be enable on a query.
*/
public void setShouldUseWrapperPolicy(boolean shouldUseWrapperPolicy) {
this.shouldUseWrapperPolicy = shouldUseWrapperPolicy;
}
/**
* PUBLIC:
* To any user of this object. Set the SQL statement of the query.
* This method should only be used when dealing with statement objects.
*/
public void setSQLStatement(SQLStatement sqlStatement) {
setQueryMechanism(new StatementQueryMechanism(this, sqlStatement));
}
/**
* PUBLIC:
* To any user of this object. Set the SQL string of the query.
* This method should only be used when dealing with user defined SQL strings.
* If arguments are required in the string they will be preceeded by "#" then the argument name.
*/
public void setSQLString(String sqlString) {
//Added the check for when we are building the query from the deployment XML
if ((sqlString != null) && (!sqlString.equals(""))) {
setCall(new SQLCall(sqlString));
}
}
/**
* INTERNAL:
* Set the row for translation
*/
public void setTranslationRow(AbstractRecord translationRow) {
this.translationRow = translationRow;
}
/**
* PUBLIC:
* Bind all arguments to any SQL statement.
*/
public boolean shouldBindAllParameters() {
return shouldBindAllParameters == True;
}
/**
* PUBLIC:
* Cache the prepared statements, this requires full parameter binding as well.
*/
public boolean shouldCacheStatement() {
return shouldCacheStatement == True;
}
/**
* PUBLIC:
* Flag used to determine if all parts should be cascaded
*/
public boolean shouldCascadeAllParts() {
return getCascadePolicy() == CascadeAllParts;
}
/**
* PUBLIC:
* Mappings should be checked to determined if the current operation should be
* cascaded to the objects referenced.
*/
public boolean shouldCascadeByMapping() {
return getCascadePolicy() == CascadeByMapping;
}
/**
* INTERNAL:
* Flag used for unit of works cascade policy.
*/
public boolean shouldCascadeOnlyDependentParts() {
return getCascadePolicy() == CascadeDependentParts;
}
/**
* PUBLIC:
* Flag used to determine if any parts should be cascaded
*/
public boolean shouldCascadeParts() {
return getCascadePolicy() != NoCascading;
}
/**
* PUBLIC:
* Flag used to determine if any private parts should be cascaded
*/
public boolean shouldCascadePrivateParts() {
return (getCascadePolicy() == CascadePrivateParts) || (getCascadePolicy() == CascadeAllParts);
}
/**
* INTERNAL:
* Flag used to determine if the call needs to be cloned.
*/
public boolean shouldCloneCall(){
return shouldCloneCall;
}
/**
* PUBLIC:
* Local shouldBindAllParameters() should be ignored,
* Session's shouldBindAllParameters() should be used.
*/
public boolean shouldIgnoreBindAllParameters() {
return shouldBindAllParameters == Undefined;
}
/**
* PUBLIC:
* Local shouldCacheStatement() should be ignored,
* Session's shouldCacheAllStatements() should be used.
*/
public boolean shouldIgnoreCacheStatement() {
return shouldCacheStatement == Undefined;
}
/**
* PUBLIC:
* Return if the identity map (cache) should be used or not.
* If not the cache check will be skipped and the result will not be put into the identity map.
* By default the identity map is always maintained.
*/
public boolean shouldMaintainCache() {
return shouldMaintainCache;
}
/**
* PUBLIC:
* Return if the query should be prepared.
* TopLink automatically prepares queries to generate their SQL only once,
* one each execution of the query the SQL does not need to be generated again only the arguments need to be translated.
* This option is provide to disable this optimization as in can cause problems with certain types of queries that require dynamic SQL basd on their arguments.
* These queries include:
*
* - Expressions that make use of 'equal' where the argument value has the potential to be null, this can cause problems on databases that require IS NULL, instead of = NULL.
*
- Expressions that make use of 'in' and that use parameter binding, this will cause problems as the in values must be bound individually.
*
*/
public boolean shouldPrepare() {
return shouldPrepare;
}
/**
* ADVANCED:
* The wrapper policy can be enabled on a query.
*/
public boolean shouldUseWrapperPolicy() {
return shouldUseWrapperPolicy;
}
public String toString() {
return Helper.getShortClassName(getClass()) + "()";
}
}