Example 1 with StoredProcedureCall
use of org.eclipse.persistence.queries.StoredProcedureCall in project eclipselink by eclipse-ee4j.
the class StoredProcedureQueryImpl method registerStoredProcedureParameter.
/**
* Register a positional parameter. All positional parameters must be
* registered.
*
* @param position parameter position
* @param type type of the parameter
* @param mode parameter mode
* @return the same query instance
*/
@Override
@SuppressWarnings({ "rawtypes" })
public StoredProcedureQuery registerStoredProcedureParameter(int position, Class type, ParameterMode mode) {
entityManager.verifyOpenWithSetRollbackOnly();
StoredProcedureCall call = (StoredProcedureCall) getDatabaseQuery().getCall();
if (mode.equals(ParameterMode.IN)) {
call.addUnamedArgument(String.valueOf(position), type);
} else if (mode.equals(ParameterMode.OUT)) {
call.addUnamedOutputArgument(String.valueOf(position), type);
} else if (mode.equals(ParameterMode.INOUT)) {
call.addUnamedInOutputArgument(String.valueOf(position), String.valueOf(position), type);
} else if (mode.equals(ParameterMode.REF_CURSOR)) {
call.useUnnamedCursorOutputAsResultSet(position);
}
// Force a re-calculate of the parameters.
this.parameters = null;
return this;
}
Also used :
StoredProcedureCall(org.eclipse.persistence.queries.StoredProcedureCall)
Example 2 with StoredProcedureCall
use of org.eclipse.persistence.queries.StoredProcedureCall in project eclipselink by eclipse-ee4j.
the class EntityManagerImpl method createStoredProcedureQuery.
/**
* Create an instance of <code>StoredProcedureQuery</code> for executing a
* stored procedure in the database.
* <p>Parameters must be registered before the stored procedure can be
* executed.
* <p>If the stored procedure returns one or more result sets, any result
* set will be returned as a list of type Object[].
*
* @param procedureName name of the stored procedure in the database
* @return the new stored procedure query instance
* @throws IllegalArgumentException if a stored procedure of the given name
* does not exist (or the query execution will fail)
* @since EclipseLink 2.5/Java Persistence 2.1
*/
@Override
public StoredProcedureQuery createStoredProcedureQuery(String procedureName) {
try {
verifyOpen();
StoredProcedureCall call = new StoredProcedureCall();
call.setProcedureName(procedureName);
return new StoredProcedureQueryImpl(StoredProcedureQueryImpl.buildResultSetMappingQuery(new ArrayList<SQLResultSetMapping>(), call), this);
} catch (RuntimeException e) {
setRollbackOnly();
throw e;
}
}
Also used :
StoredProcedureCall(org.eclipse.persistence.queries.StoredProcedureCall)
ArrayList(java.util.ArrayList)
Example 3 with StoredProcedureCall
use of org.eclipse.persistence.queries.StoredProcedureCall in project eclipselink by eclipse-ee4j.
the class NamedStoredProcedureQueryMetadata method process.
/**
* INTERNAL:
*/
@Override
public void process(AbstractSession session) {
// Build the stored procedure call.
StoredProcedureCall call = new StoredProcedureCall();
// Process the stored procedure parameters.
int index = 1;
boolean callByIndex = callByIndex();
boolean hasOutParameters = false;
for (StoredProcedureParameterMetadata parameter : m_parameters) {
parameter.processArgument(call, callByIndex, index);
index++;
// procedure does not return a result set.
if (parameter.isOutParameter()) {
hasOutParameters = true;
}
}
// Process the procedure name.
call.setProcedureName(m_procedureName);
// Process the returns result set.
call.setReturnsResultSet(returnsResultSet(hasOutParameters));
// Process the multiple result sets.
call.setHasMultipleResultSets(hasMultipleResultSets());
// Create a JPA query to store internally on the session.
JPAQuery query = new JPAQuery(getName(), call, processQueryHints(session));
if (!m_resultClasses.isEmpty()) {
// Process the multiple result classes.
for (MetadataClass resultClass : m_resultClasses) {
query.addResultClassNames(getJavaClassName(resultClass));
}
} else if (!m_resultSetMappings.isEmpty()) {
// Process the multiple result set mapping.
query.setResultSetMappings(m_resultSetMappings);
} else {
// Legacy support (EclipseLink @NamedStoreProcedureQuery).
if (!getResultClass().isVoid()) {
query.setResultClassName(getJavaClassName(getResultClass()));
} else if (hasResultSetMapping(session)) {
query.addResultSetMapping(getResultSetMapping());
}
}
addJPAQuery(query, session);
}
Also used :
MetadataClass(org.eclipse.persistence.internal.jpa.metadata.accessors.objects.MetadataClass)
StoredProcedureCall(org.eclipse.persistence.queries.StoredProcedureCall)
JPAQuery(org.eclipse.persistence.internal.jpa.JPAQuery)
Example 4 with StoredProcedureCall
use of org.eclipse.persistence.queries.StoredProcedureCall in project eclipselink by eclipse-ee4j.
the class OracleHelper method buildQueryForProcedureType.
/**
* Build a Query for the given ProcedureType instance and add
* it to the given OR project's list of queries.
*/
@Override
@SuppressWarnings({ "rawtypes", "unchecked" })
protected void buildQueryForProcedureType(ProcedureType procType, Project orProject, Project oxProject, ProcedureOperationModel opModel, boolean hasPLSQLArgs) {
// if there are one or more PL/SQL args, then we need a PLSQLStoredProcedureCall
StoredProcedureCall call;
ArgumentType returnArg = procType.isFunctionType() ? ((FunctionType) procType).getReturnArgument() : null;
// check for PL/SQL cursor arg
boolean hasCursor = hasPLSQLCursorArg(getArgumentListForProcedureType(procType));
hasPLSQLArgs = hasPLSQLArgs || hasCursor || opModel.isPLSQLProcedureOperation();
if (hasPLSQLArgs) {
if (procType.isFunctionType()) {
org.eclipse.persistence.internal.helper.DatabaseType dType = buildDatabaseTypeFromMetadataType(returnArg, procType.getCatalogName());
if (hasCursor) {
call = new PLSQLStoredFunctionCall();
// constructor by default adds a RETURN argument, so remove it
((PLSQLStoredFunctionCall) call).getArguments().remove(0);
((PLSQLStoredFunctionCall) call).useNamedCursorOutputAsResultSet(CURSOR_STR, dType);
} else {
Class wrapperClass = getWrapperClass(dType);
if (wrapperClass != null) {
((ComplexDatabaseType) dType).setJavaType(wrapperClass);
}
call = new PLSQLStoredFunctionCall(dType);
// check for non-associative collection
if (returnArg.getEnclosedType().isPLSQLCollectionType() && !((PLSQLCollectionType) returnArg.getEnclosedType()).isIndexed()) {
PLSQLargument plsqlArg = ((PLSQLStoredFunctionCall) call).getArguments().get(0);
((PLSQLCollection) plsqlArg.databaseType).setIsNestedTable(true);
}
}
} else {
call = new PLSQLStoredProcedureCall();
}
} else {
if (procType.isFunctionType()) {
String javaTypeName = returnArg.getTypeName();
ClassDescriptor desc = oxProject.getDescriptorForAlias(getGeneratedAlias(javaTypeName));
if (desc != null) {
javaTypeName = desc.getJavaClassName();
}
if (returnArg.isComposite()) {
DatabaseType dataType = returnArg.getEnclosedType();
if (dataType.isVArrayType() || dataType.isObjectTableType()) {
call = new StoredFunctionCall(Types.ARRAY, returnArg.getTypeName(), javaTypeName, buildFieldForNestedType(dataType));
} else {
// assumes ObjectType
call = new StoredFunctionCall(Types.STRUCT, returnArg.getTypeName(), javaTypeName);
}
} else {
// scalar
call = new StoredFunctionCall();
if (returnArg.getEnclosedType().isBlobType()) {
// handle BLOBs
((StoredFunctionCall) call).setResult(null, ClassConstants.BLOB);
} else {
int resultType = Util.getJDBCTypeFromTypeName(javaTypeName);
// need special handling for Date types
if (resultType == Types.DATE || resultType == Types.TIME || resultType == Types.TIMESTAMP) {
((StoredFunctionCall) call).setResult(null, ClassConstants.TIMESTAMP);
} else if (returnArg.getEnclosedType() == ScalarDatabaseTypeEnum.XMLTYPE_TYPE) {
// special handling for XMLType types
((StoredFunctionCall) call).setResult(getJDBCTypeForTypeName(XMLTYPE_STR), XMLTYPE_STR, ClassConstants.OBJECT);
} else if (resultType == Types.OTHER || resultType == Types.CLOB) {
// default to OBJECT for OTHER, CLOB and LONG types
((StoredFunctionCall) call).setResult(null, ClassConstants.OBJECT);
} else {
((StoredFunctionCall) call).setResult(null, resultType);
}
}
}
} else {
call = new StoredProcedureCall();
}
}
String cat = procType.getCatalogName();
String catalogPrefix = (cat == null || cat.length() == 0) ? EMPTY_STRING : cat + DOT;
call.setProcedureName(catalogPrefix + procType.getProcedureName());
String returnType = opModel.getReturnType();
boolean hasResponse = returnType != null;
DatabaseQuery dq = null;
if (hasCursor || (hasResponse && opModel.isCollection())) {
dq = new DataReadQuery();
} else {
dq = new ValueReadQuery();
}
dq.bindAllParameters();
dq.setName(getNameForQueryOperation(opModel, procType));
dq.setCall(call);
for (ArgumentType arg : procType.getArguments()) {
// handle optional arg
if (arg.optional()) {
call.addOptionalArgument(arg.getArgumentName());
}
DatabaseType argType = arg.getEnclosedType();
ArgumentTypeDirection direction = arg.getDirection();
// for PL/SQL
org.eclipse.persistence.internal.helper.DatabaseType databaseType = null;
// for Advanced JDBC
String javaTypeName = null;
if (hasPLSQLArgs) {
databaseType = buildDatabaseTypeFromMetadataType(argType, cat);
} else {
javaTypeName = argType.getTypeName();
ClassDescriptor desc = oxProject.getDescriptorForAlias(getGeneratedAlias(javaTypeName));
if (desc != null) {
// anything there's a descriptor for will include "packagename." in the class name
javaTypeName = desc.getJavaClassName();
}
}
if (direction == IN) {
if (hasPLSQLArgs) {
Class wrapperClass = getWrapperClass(databaseType);
if (wrapperClass != null) {
((ComplexDatabaseType) databaseType).setJavaType(wrapperClass);
}
((PLSQLStoredProcedureCall) call).addNamedArgument(arg.getArgumentName(), databaseType);
// check for non-associative collection
if (argType.isPLSQLCollectionType() && !((PLSQLCollectionType) argType).isIndexed()) {
PLSQLargument plsqlArg = ((PLSQLStoredProcedureCall) call).getArguments().get(((PLSQLStoredProcedureCall) call).getArguments().size() - 1);
((PLSQLCollection) plsqlArg.databaseType).setIsNestedTable(true);
}
} else {
if (argType.isVArrayType()) {
dq.addArgument(arg.getArgumentName());
call.addNamedArgument(arg.getArgumentName(), arg.getArgumentName(), Types.ARRAY, argType.getTypeName(), javaTypeName);
} else if (argType.isObjectType()) {
dq.addArgument(arg.getArgumentName());
call.addNamedArgument(arg.getArgumentName(), arg.getArgumentName(), Types.STRUCT, argType.getTypeName(), javaTypeName);
} else if (argType.isObjectTableType()) {
dq.addArgument(arg.getArgumentName(), java.sql.Array.class);
call.addNamedArgument(arg.getArgumentName(), arg.getArgumentName(), Types.ARRAY, argType.getTypeName(), getWrapperClass(javaTypeName), buildFieldForNestedType(argType));
} else {
dq.addArgument(arg.getArgumentName());
call.addNamedArgument(arg.getArgumentName(), arg.getArgumentName(), Util.getJDBCTypeFromTypeName(argType.getTypeName()));
}
}
} else if (direction == OUT) {
if (hasPLSQLArgs) {
if (arg.isPLSQLCursorType()) {
((PLSQLStoredProcedureCall) call).useNamedCursorOutputAsResultSet(arg.getArgumentName(), databaseType);
} else {
Class wrapperClass = getWrapperClass(databaseType);
if (wrapperClass != null) {
((ComplexDatabaseType) databaseType).setJavaType(wrapperClass);
}
((PLSQLStoredProcedureCall) call).addNamedOutputArgument(arg.getArgumentName(), databaseType);
}
} else {
if (argType.isComposite()) {
Class wrapperClass = getWrapperClass(javaTypeName);
if (argType.isVArrayType() || argType.isObjectTableType()) {
call.addNamedOutputArgument(arg.getArgumentName(), arg.getArgumentName(), Types.ARRAY, argType.getTypeName(), wrapperClass, buildFieldForNestedType(argType));
} else {
// assumes ObjectType
call.addNamedOutputArgument(arg.getArgumentName(), arg.getArgumentName(), Types.STRUCT, argType.getTypeName(), wrapperClass);
}
} else {
// need special handling for XMLType - we want the type code to be 'OPAQUE' (2007)
if (argType == ScalarDatabaseTypeEnum.XMLTYPE_TYPE) {
call.addNamedOutputArgument(arg.getArgumentName(), arg.getArgumentName(), getJDBCTypeForTypeName(XMLTYPE_STR), XMLTYPE_STR);
} else if (argType == ScalarDatabaseTypeEnum.SYS_REFCURSOR_TYPE) {
call.addNamedCursorOutputArgument(arg.getArgumentName());
} else {
call.addNamedOutputArgument(arg.getArgumentName(), arg.getArgumentName(), Util.getJDBCTypeFromTypeName(argType.getTypeName()));
}
}
}
} else {
// INOUT
if (hasPLSQLArgs) {
Class wrapperClass = getWrapperClass(databaseType);
if (wrapperClass != null) {
((ComplexDatabaseType) databaseType).setJavaType(wrapperClass);
}
((PLSQLStoredProcedureCall) call).addNamedInOutputArgument(arg.getArgumentName(), databaseType);
// check for non-associative collection
if (argType.isPLSQLCollectionType() && !((PLSQLCollectionType) argType).isIndexed()) {
PLSQLargument plsqlArg = ((PLSQLStoredProcedureCall) call).getArguments().get(((PLSQLStoredProcedureCall) call).getArguments().size() - 1);
((PLSQLCollection) plsqlArg.databaseType).setIsNestedTable(true);
}
} else {
dq.addArgument(arg.getArgumentName());
if (argType.isComposite()) {
Class wrapperClass = getWrapperClass(javaTypeName);
if (argType.isVArrayType() || argType.isObjectTableType()) {
call.addNamedInOutputArgument(arg.getArgumentName(), arg.getArgumentName(), arg.getArgumentName(), Types.ARRAY, argType.getTypeName(), wrapperClass, buildFieldForNestedType(argType));
} else {
// assumes ObjectType
call.addNamedInOutputArgument(arg.getArgumentName(), arg.getArgumentName(), arg.getArgumentName(), Types.STRUCT, argType.getTypeName());
}
} else {
// for some reason setting "java.lang.String" as the java type causes problems at runtime
Class javaType = getClassFromJDBCType(argType.getTypeName(), dbwsBuilder.getDatabasePlatform());
if (shouldSetJavaType(javaType.getName())) {
call.addNamedInOutputArgument(arg.getArgumentName(), arg.getArgumentName(), arg.getArgumentName(), Util.getJDBCTypeFromTypeName(argType.getTypeName()), argType.getTypeName(), javaType);
} else {
call.addNamedInOutputArgument(arg.getArgumentName());
}
}
}
}
if (hasPLSQLArgs && (direction == IN || direction == INOUT)) {
ClassDescriptor xdesc = null;
if (hasResponse) {
int idx = returnType.indexOf(COLON);
if (idx == -1) {
idx = returnType.indexOf(CLOSE_PAREN);
}
if (idx > 0) {
String typ = returnType.substring(idx + 1);
for (XMLDescriptor xd : (List<XMLDescriptor>) (List) oxProject.getOrderedDescriptors()) {
if (xd.getSchemaReference() != null) {
String context = xd.getSchemaReference().getSchemaContext();
if (context.substring(1).equals(typ)) {
xdesc = xd;
break;
}
}
}
}
}
if (xdesc != null) {
dq.addArgumentByTypeName(arg.getArgumentName(), xdesc.getJavaClassName());
} else {
if (databaseType instanceof PLSQLCollection || databaseType instanceof VArrayType) {
dq.addArgument(arg.getArgumentName(), Array.class);
} else if (databaseType instanceof PLSQLrecord || databaseType instanceof OracleObjectType) {
dq.addArgument(arg.getArgumentName(), Struct.class);
} else {
dq.addArgument(arg.getArgumentName(), JDBCTypes.getClassForCode(databaseType.getConversionCode()));
}
}
}
}
orProject.getQueries().add(dq);
}
Also used :
PLSQLStoredFunctionCall(org.eclipse.persistence.platform.database.oracle.plsql.PLSQLStoredFunctionCall)
ClassDescriptor(org.eclipse.persistence.descriptors.ClassDescriptor)
CompositeDatabaseType(org.eclipse.persistence.tools.oracleddl.metadata.CompositeDatabaseType)
ComplexDatabaseType(org.eclipse.persistence.internal.helper.ComplexDatabaseType)
DatabaseType(org.eclipse.persistence.tools.oracleddl.metadata.DatabaseType)
Util.getAttributeClassForDatabaseType(org.eclipse.persistence.tools.dbws.Util.getAttributeClassForDatabaseType)
DataReadQuery(org.eclipse.persistence.queries.DataReadQuery)
Util.qNameFromString(org.eclipse.persistence.tools.dbws.Util.qNameFromString)
ArgumentType(org.eclipse.persistence.tools.oracleddl.metadata.ArgumentType)
PLSQLargument(org.eclipse.persistence.platform.database.oracle.plsql.PLSQLargument)
Struct(java.sql.Struct)
XMLDescriptor(org.eclipse.persistence.oxm.XMLDescriptor)
VArrayType(org.eclipse.persistence.tools.oracleddl.metadata.VArrayType)
OracleObjectType(org.eclipse.persistence.platform.database.oracle.jdbc.OracleObjectType)
PLSQLrecord(org.eclipse.persistence.platform.database.oracle.plsql.PLSQLrecord)
ArrayList(java.util.ArrayList)
List(java.util.List)
ArgumentTypeDirection(org.eclipse.persistence.tools.oracleddl.metadata.ArgumentTypeDirection)
PLSQLStoredProcedureCall(org.eclipse.persistence.platform.database.oracle.plsql.PLSQLStoredProcedureCall)
StoredProcedureCall(org.eclipse.persistence.queries.StoredProcedureCall)
DatabaseQuery(org.eclipse.persistence.queries.DatabaseQuery)
ValueReadQuery(org.eclipse.persistence.queries.ValueReadQuery)
StoredFunctionCall(org.eclipse.persistence.queries.StoredFunctionCall)
PLSQLStoredFunctionCall(org.eclipse.persistence.platform.database.oracle.plsql.PLSQLStoredFunctionCall)
ComplexDatabaseType(org.eclipse.persistence.internal.helper.ComplexDatabaseType)
PLSQLCollectionType(org.eclipse.persistence.tools.oracleddl.metadata.PLSQLCollectionType)
PLSQLStoredProcedureCall(org.eclipse.persistence.platform.database.oracle.plsql.PLSQLStoredProcedureCall)
PLSQLCollection(org.eclipse.persistence.platform.database.oracle.plsql.PLSQLCollection)
Example 5 with StoredProcedureCall
use of org.eclipse.persistence.queries.StoredProcedureCall in project eclipselink by eclipse-ee4j.
the class PLSQLProject method buildAddressRecOutCursorQuery.
protected DatabaseQuery buildAddressRecOutCursorQuery() {
StoredProcedureCall call = new StoredProcedureCall();
call.setProcedureName("PLSQL_P.PLSQL_ADDRESS_REC_CUR_OUT");
call.useNamedCursorOutputAsResultSet("P_ADDRESS");
DataReadQuery query = new DataReadQuery();
query.setCall(call);
return query;
}
Also used :
PLSQLStoredProcedureCall(org.eclipse.persistence.platform.database.oracle.plsql.PLSQLStoredProcedureCall)
StoredProcedureCall(org.eclipse.persistence.queries.StoredProcedureCall)
DataReadQuery(org.eclipse.persistence.queries.DataReadQuery)
Aggregations
StoredProcedureCall (org.eclipse.persistence.queries.StoredProcedureCall)27
DataReadQuery (org.eclipse.persistence.queries.DataReadQuery)8
DatabaseCall (org.eclipse.persistence.internal.databaseaccess.DatabaseCall)6
ObjectRelationalDatabaseField (org.eclipse.persistence.mappings.structures.ObjectRelationalDatabaseField)6
SQLCall (org.eclipse.persistence.queries.SQLCall)6
ArrayList (java.util.ArrayList)4
List (java.util.List)4
PLSQLStoredProcedureCall (org.eclipse.persistence.platform.database.oracle.plsql.PLSQLStoredProcedureCall)4
DatabaseField (org.eclipse.persistence.internal.helper.DatabaseField)3
XMLDescriptor (org.eclipse.persistence.oxm.XMLDescriptor)3
ByteArrayInputStream (java.io.ByteArrayInputStream)2
StringReader (java.io.StringReader)2
SQLException (java.sql.SQLException)2
DBWSModel (org.eclipse.persistence.dbws.DBWSModel)2
DBWSModelProject (org.eclipse.persistence.dbws.DBWSModelProject)2
ClassDescriptor (org.eclipse.persistence.descriptors.ClassDescriptor)2
XRServiceFactory (org.eclipse.persistence.internal.xr.XRServiceFactory)2
DirectToFieldMapping (org.eclipse.persistence.mappings.DirectToFieldMapping)2
ObjectRelationalDataTypeDescriptor (org.eclipse.persistence.mappings.structures.ObjectRelationalDataTypeDescriptor)2
NamespaceResolver (org.eclipse.persistence.oxm.NamespaceResolver)2
