/** INTERNAL: */
  public Vector getForeignKeyRows(AbstractRecord row) {
    Vector subRows = new Vector();
    if (getForeignKeyGroupingElement() == null) {
      if (this.getSourceForeignKeyFields().size() > 0) {
        Object values = row.getValues((DatabaseField) this.getSourceForeignKeyFields().get(0));

        if (values != null) {
          if (values instanceof Vector) {
            int valuesSize = ((Vector) values).size();
            for (int j = 0; j < valuesSize; j++) {
              XMLRecord newRecord = new DOMRecord("test");
              newRecord.setSession(((XMLRecord) row).getSession());
              newRecord.put(this.getSourceForeignKeyFields().get(0), ((Vector) values).get(j));
              subRows.add(newRecord);
            }
          } else {
            XMLRecord newRecord = new DOMRecord("test");
            newRecord.setSession(((XMLRecord) row).getSession());
            newRecord.put(getSourceForeignKeyFields().get(0), values);
            subRows.add(newRecord);
          }
        }
      }
    } else {
      subRows = (Vector) row.getValues(getForeignKeyGroupingElement());
    }
    return subRows;
  }
  /** INTERNAL: Get a value from the object and set that in the respective field of the row. */
  @Override
  public Object valueFromObject(Object object, DatabaseField field, AbstractSession session) {
    // First check if the value can be obtained from the value holder's row.
    AbstractRecord referenceRow =
        getIndirectionPolicy().extractReferenceRow(getAttributeValueFromObject(object));
    if (referenceRow != null) {
      Object value = referenceRow.get(field);

      // Must ensure the classification to get a cache hit.
      try {
        value = session.getDatasourcePlatform().convertObject(value, getFieldClassification(field));
      } catch (ConversionException e) {
        throw ConversionException.couldNotBeConverted(this, getDescriptor(), e);
      }

      return value;
    }

    // 2.5.1.6 PWK.  added to support batch reading on variable one to ones
    Object referenceObject = getRealAttributeValueFromObject(object, session);
    String queryKeyName = (String) getSourceToTargetQueryKeyNames().get(field);
    ClassDescriptor objectDescriptor = session.getDescriptor(referenceObject.getClass());
    DatabaseField targetField =
        objectDescriptor.getObjectBuilder().getTargetFieldForQueryKeyName(queryKeyName);

    if (targetField == null) {
      return null;
    }

    return objectDescriptor
        .getObjectBuilder()
        .extractValueFromObjectForField(referenceObject, targetField, session);
  }
  /**
   * INTERNAL: Return the value of the field from the row or a value holder on the query to obtain
   * the object. Check for batch + aggregation reading.
   */
  @Override
  public Object valueFromRow(
      AbstractRecord row,
      JoinedAttributeManager joinManager,
      ObjectBuildingQuery sourceQuery,
      AbstractSession executionSession)
      throws DatabaseException {
    // If any field in the foreign key is null then it means there are no referenced objects
    for (Enumeration enumeration = getFields().elements(); enumeration.hasMoreElements(); ) {
      DatabaseField field = (DatabaseField) enumeration.nextElement();
      if (row.get(field) == null) {
        return getIndirectionPolicy().nullValueFromRow();
      }
    }

    if (getTypeField() != null) {
      // If the query used batched reading, return a special value holder,
      // or retrieve the object from the query property.
      if (sourceQuery.isReadAllQuery()
          && (((ReadAllQuery) sourceQuery).isAttributeBatchRead(getDescriptor(), getAttributeName())
              || shouldUseBatchReading())) {
        return batchedValueFromRow(row, ((ReadAllQuery) sourceQuery));
      }

      // If the field is empty we cannot load the object because we do not know what class it will
      // be
      if (row.get(getTypeField()) == null) {
        return getIndirectionPolicy().nullValueFromRow();
      }
      Class implementerClass =
          (Class) getImplementorForType(row.get(getTypeField()), executionSession);
      ReadObjectQuery query = (ReadObjectQuery) getSelectionQuery().clone();
      query.setReferenceClass(implementerClass);
      query.setSelectionCriteria(getSelectionCriteria());
      query.setDescriptor(null); // Must set to null so the right descriptor is used

      if (sourceQuery.isObjectLevelReadQuery()
          && (sourceQuery.shouldCascadeAllParts()
              || (sourceQuery.shouldCascadePrivateParts() && isPrivateOwned())
              || (sourceQuery.shouldCascadeByMapping() && this.cascadeRefresh))) {
        query.setShouldRefreshIdentityMapResult(sourceQuery.shouldRefreshIdentityMapResult());
        query.setCascadePolicy(sourceQuery.getCascadePolicy());
        query.setShouldMaintainCache(sourceQuery.shouldMaintainCache());
        // For flashback.
        if (((ObjectLevelReadQuery) sourceQuery).hasAsOfClause()) {
          query.setAsOfClause(((ObjectLevelReadQuery) sourceQuery).getAsOfClause());
        }

        // CR #4365 - used to prevent infinit recursion on refresh object cascade all
        query.setQueryId(sourceQuery.getQueryId());
      }

      return getIndirectionPolicy().valueFromQuery(query, row, executionSession);
    } else {
      return super.valueFromRow(row, joinManager, sourceQuery, executionSession);
    }
  }
 /** INTERNAL: Clone the row and its values. */
 public AbstractRecord clone() {
   try {
     AbstractRecord clone = (AbstractRecord) super.clone();
     clone.fields = (Vector) this.fields.clone();
     clone.values = (Vector) this.values.clone();
     return clone;
   } catch (CloneNotSupportedException exception) {
     throw new InternalError();
   }
 }
 /** INTERNAL: Write fields needed for insert into the template for with null values. */
 public void writeInsertFieldsIntoRow(AbstractRecord row, AbstractSession session) {
   if (isForeignKeyRelationship() && !isReadOnly()) {
     if (getForeignKeyGroupingElement() != null) {
       row.put(getForeignKeyGroupingElement(), null);
     } else if (this.getSourceForeignKeyFields().size() > 0) {
       row.put(getSourceForeignKeyFields().get(0), null);
     }
   } else {
     super.writeInsertFieldsIntoRow(row, session);
   }
 }
 /**
  * INTERNAL: This row is built for shallow insert which happens in case of bidirectional inserts.
  * The foreign keys must be set to null to avoid constraints.
  */
 public void writeFromObjectIntoRowForShallowInsertWithChangeRecord(
     ChangeRecord changeRecord, AbstractRecord row, AbstractSession session) {
   if (isForeignKeyRelationship() && !isReadOnly()) {
     if (getForeignKeyGroupingElement() != null) {
       row.put(getForeignKeyGroupingElement(), null);
     } else if (this.getSourceForeignKeyFields().size() > 0) {
       row.put(getSourceForeignKeyFields().get(0), null);
     }
   } else {
     super.writeFromObjectIntoRowForShallowInsertWithChangeRecord(changeRecord, row, session);
   }
 }
  /**
   * INTERNAL: Build and return the nested database row from the specified field value. The field
   * value better be an Struct.
   */
  public AbstractRecord buildNestedRowFromFieldValue(Object fieldValue) throws DatabaseException {

    AbstractRecord row = new DatabaseRecord();
    Object[] attributes = (Object[]) fieldValue;

    for (int index = 0; index < getOrderedFields().size(); index++) {
      DatabaseField field = (DatabaseField) getOrderedFields().elementAt(index);
      row.put(field, attributes[index]);
    }

    return row;
  }
 /** INTERNAL: Get a value from the object and set that in the respective field of the row. */
 protected void writeFromNullObjectIntoRow(AbstractRecord record) {
   if (isReadOnly()) {
     return;
   }
   if (isForeignKeyRelationship()) {
     Enumeration foreignKeys = getForeignKeyFields().elements();
     while (foreignKeys.hasMoreElements()) {
       record.put((DatabaseField) foreignKeys.nextElement(), null);
     }
   }
   if (getTypeField() != null) {
     record.put(getTypeField(), null);
   }
 }
  /** INTERNAL: */
  @Override
  public void writeFromObjectIntoRow(
      Object object, AbstractRecord row, AbstractSession session, WriteType writeType)
      throws DescriptorException {
    if (this.isReadOnly()) {
      return;
    }

    Object attributeValue = this.getAttributeValueFromObject(object);
    if (attributeValue == null) {
      row.put(this.getField(), null);
      return;
    }

    ContainerPolicy cp = this.getContainerPolicy();

    Vector nestedRows = new Vector(cp.sizeFor(attributeValue));
    Object iter = cp.iteratorFor(attributeValue);
    if (null != iter) {
      while (cp.hasNext(iter)) {
        Object element = cp.next(iter, session);
        // convert the value - if necessary
        element =
            convertObjectValueToDataValue(element, session, ((XMLRecord) row).getMarshaller());
        if (element == null) {
          XMLNullRepresentationType nullRepresentation =
              getNullPolicy().getMarshalNullRepresentation();
          if (nullRepresentation == XMLNullRepresentationType.XSI_NIL) {
            nestedRows.add(XMLRecord.NIL);
          } else if (nullRepresentation == XMLNullRepresentationType.EMPTY_NODE) {
            Node emptyNode =
                XPathEngine.getInstance()
                    .createUnownedElement(((XMLRecord) row).getDOM(), (XMLField) field);
            DOMRecord nestedRow = new DOMRecord(emptyNode);
            nestedRows.add(nestedRow);
          }
        } else {
          nestedRows.addElement(buildCompositeRow(element, session, row, writeType));
        }
      }
    }

    Object fieldValue = null;
    if (!nestedRows.isEmpty()) {
      fieldValue =
          this.getDescriptor()
              .buildFieldValueFromNestedRows(nestedRows, getStructureName(), session);
    }
    row.put(this.getField(), fieldValue);
  }
  /** INTERNAL: Write the attribute value from the object to the row. */
  public void writeFromObjectIntoRow(Object object, AbstractRecord row, AbstractSession session) {
    // for each xmlField on this mapping
    for (Iterator fieldIt = getFields().iterator(); fieldIt.hasNext(); ) {
      XMLField xmlField = (XMLField) fieldIt.next();
      ContainerPolicy cp = getContainerPolicy();
      Object collection = getAttributeAccessor().getAttributeValueFromObject(object);
      if (collection == null) {
        return;
      }

      Object fieldValue;
      Object objectValue;
      String stringValue = "";
      QName schemaType;
      Object iterator = cp.iteratorFor(collection);
      if (usesSingleNode()) {
        while (cp.hasNext(iterator)) {
          objectValue = cp.next(iterator, session);
          fieldValue = buildFieldValue(objectValue, xmlField, session);
          if (fieldValue != null) {
            schemaType = getSchemaType(xmlField, fieldValue, session);
            String newValue = getValueToWrite(schemaType, fieldValue, session);
            if (newValue != null) {
              stringValue += newValue;
              if (cp.hasNext(iterator)) {
                stringValue += SPACE;
              }
            }
          }
        }
        if (!(stringValue.equals(""))) {
          row.put(xmlField, stringValue);
        }
      } else {
        ArrayList keyValues = new ArrayList();
        while (cp.hasNext(iterator)) {
          objectValue = cp.next(iterator, session);
          fieldValue = buildFieldValue(objectValue, xmlField, session);
          if (fieldValue != null) {
            schemaType = getSchemaType(xmlField, fieldValue, session);
            stringValue = getValueToWrite(schemaType, fieldValue, session);
            // row.add(xmlField, stringValue);
            keyValues.add(stringValue);
          }
        }
        row.put(xmlField, keyValues);
      }
    }
  }
Exemplo n.º 11
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 // operation should be either INSERT or UPDATE
 protected void trimModifyRow(AbstractRecord modifyRow, int operation) {
   if ((modifyRow == null) || modifyRow.isEmpty()) {
     return;
   }
   Collection fields = main[operation][RETURN_ONLY];
   if ((fields == null) || fields.isEmpty()) {
     return;
   }
   for (int i = modifyRow.size() - 1; i >= 0; i--) {
     DatabaseField field = modifyRow.getFields().get(i);
     if (fields.contains(field)) {
       modifyRow.remove(field);
     }
   }
 }
  /**
   * INTERNAL: Return the value of the field from the row or a value holder on the query to obtain
   * the object. Check for batch + aggregation reading.
   */
  public Object valueFromRow(
      AbstractRecord row,
      JoinedAttributeManager joinManager,
      ObjectBuildingQuery query,
      AbstractSession executionSession)
      throws DatabaseException {
    Ref ref = (Ref) row.get(getField());

    if (ref == null) {
      return null;
    }

    Struct struct;
    try {
      ((DatabaseAccessor) executionSession.getAccessor()).incrementCallCount(executionSession);
      java.sql.Connection connection =
          ((DatabaseAccessor) executionSession.getAccessor()).getConnection();
      struct =
          (Struct) executionSession.getPlatform().getRefValue(ref, executionSession, connection);
    } catch (java.sql.SQLException exception) {
      throw DatabaseException.sqlException(exception, executionSession, false);
    }
    AbstractRecord targetRow =
        ((ObjectRelationalDataTypeDescriptor) getReferenceDescriptor())
            .buildRowFromStructure(struct);
    ((DatabaseAccessor) executionSession.getAccessor()).decrementCallCount();

    return getReferenceDescriptor().getObjectBuilder().buildObject(query, targetRow, joinManager);
  }
  /** INTERNAL: Write fields needed for insert into the template for with null values. */
  public void writeInsertFieldsIntoRow(AbstractRecord record, AbstractSession session) {
    if (isReadOnly()) {
      return;
    }

    record.put(getField(), null);
  }
  /** INTERNAL: Build a ADT structure from the row data. */
  public Struct buildStructureFromRow(
      AbstractRecord row, AbstractSession session, java.sql.Connection connection)
      throws DatabaseException {
    Struct structure;
    boolean reconnected = false;

    try {
      if (connection == null) {
        ((DatabaseAccessor) session.getAccessor()).incrementCallCount(session);
        reconnected = true;
        connection = ((DatabaseAccessor) session.getAccessor()).getConnection();
      }

      Object[] fields = new Object[getOrderedFields().size()];
      for (int index = 0; index < getOrderedFields().size(); index++) {
        DatabaseField field = (DatabaseField) getOrderedFields().elementAt(index);
        fields[index] = row.get(field);
      }

      structure =
          session.getPlatform().createStruct(getStructureName(), fields, session, connection);
    } catch (java.sql.SQLException exception) {
      throw DatabaseException.sqlException(exception, session, false);
    } finally {
      if (reconnected) {
        ((DatabaseAccessor) session.getAccessor()).decrementCallCount();
      }
    }

    return structure;
  }
  /**
   * INTERNAL: This row is built for shallow insert which happens in case of bidirectional inserts.
   * The foreign keys must be set to null to avoid constraints.
   */
  public void writeFromObjectIntoRowForShallowInsertWithChangeRecord(
      ChangeRecord changeRecord, AbstractRecord record, AbstractSession session) {
    if (isReadOnly()) {
      return;
    }

    record.put(getField(), null);
  }
Exemplo n.º 16
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 /** Build a collection of database rows from the Record returned from the interaction. */
 public Vector buildRows(Record record, EISAccessor accessor) {
   Vector rows = null;
   if (record == null) {
     return new Vector(0);
   }
   AbstractRecord row =
       accessor.getEISPlatform().createDatabaseRowFromDOMRecord(record, this, accessor);
   if (getOutputResultPath().length() > 0) {
     Vector values = (Vector) row.getValues(getOutputResultPath());
     if (values == null) {
       values = new Vector(0);
     }
     rows = values;
   } else {
     rows = new Vector(1);
     rows.add(row);
   }
   return rows;
 }
  /** INTERNAL: Get a value from the object and set that in the respective field of the row. */
  @Override
  public void writeFromObjectIntoRowForWhereClause(
      ObjectLevelModifyQuery query, AbstractRecord record) {
    if (isReadOnly()) {
      return;
    }
    Object object;
    if (query.isDeleteObjectQuery()) {
      object = query.getObject();
    } else {
      object = query.getBackupClone();
    }
    Object referenceObject = getRealAttributeValueFromObject(object, query.getSession());

    if (referenceObject == null) {
      writeFromNullObjectIntoRow(record);
    } else {
      if (isForeignKeyRelationship()) {
        Enumeration sourceFields = getForeignKeyFields().elements();
        ClassDescriptor descriptor = query.getSession().getDescriptor(referenceObject.getClass());
        while (sourceFields.hasMoreElements()) {
          DatabaseField sourceKey = (DatabaseField) sourceFields.nextElement();
          String targetQueryKey = (String) getSourceToTargetQueryKeyNames().get(sourceKey);
          DatabaseField targetKeyField =
              descriptor.getObjectBuilder().getFieldForQueryKeyName(targetQueryKey);
          if (targetKeyField == null) {
            throw DescriptorException.variableOneToOneMappingIsNotDefinedProperly(
                this, descriptor, targetQueryKey);
          }
          Object referenceValue =
              descriptor
                  .getObjectBuilder()
                  .extractValueFromObjectForField(
                      referenceObject, targetKeyField, query.getSession());
          record.put(sourceKey, referenceValue);
        }
      }
      if (getTypeField() != null) {
        record.put(getTypeField(), getTypeForImplementor(referenceObject.getClass()));
      }
    }
  }
  /** INTERNAL: Get a value from the object and set that in the respective field of the row. */
  public void writeFromObjectIntoRow(
      Object object, AbstractRecord record, AbstractSession session) {
    if (isReadOnly()) {
      return;
    }

    Object referenceObject = getRealAttributeValueFromObject(object, session);

    if (referenceObject == null) {
      // Fix for 2730536, must put something in modify row, even if it is null.
      record.put(getField(), null);
      return;
    }

    Ref ref =
        ((ObjectRelationalDataTypeDescriptor) getReferenceDescriptor())
            .getRef(referenceObject, session);

    record.put(getField(), ref);
  }
Exemplo n.º 19
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 /** Build a database row from the record returned from the interaction. */
 public AbstractRecord buildRow(Record record, EISAccessor accessor) {
   if (record == null) {
     return null;
   }
   AbstractRecord row =
       accessor.getEISPlatform().createDatabaseRowFromDOMRecord(record, this, accessor);
   if (row == null) {
     return null;
   }
   if (getOutputResultPath().length() > 0) {
     row = (AbstractRecord) row.get(getOutputResultPath());
     // Handle the case were the output row is mapped into a database row of values.
   } else if (hasOutputArguments()) {
     row = createXMLRecord(getOutputRootElementName());
     for (int index = 0; index < getOutputArgumentNames().size(); index++) {
       DatabaseField field = (DatabaseField) getOutputArguments().get(index);
       row.put(field, row.get(getOutputArgumentNames().get(index)));
     }
   }
   return row;
 }
Exemplo n.º 20
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 /**
  * INTERNAL: The results are *not* in a cursor, build the collection. Cache the results in
  * temporaryCachedQueryResults.
  */
 protected Object executeNonCursor() throws DatabaseException {
   Vector rows = getQueryMechanism().executeSelect();
   Object results = null;
   if (this.resultType == MAP) {
     results = getContainerPolicy().buildContainerFromVector(rows, this.session);
   } else if (this.resultType == VALUE) {
     if (!rows.isEmpty()) {
       AbstractRecord record = (AbstractRecord) rows.get(0);
       // Use get with field for XML records.
       results = record.get(record.getFields().get(0));
       if (getValueConverter() != null) {
         results = getValueConverter().convertDataValueToObjectValue(results, this.session);
       }
     }
   } else {
     int size = rows.size();
     ContainerPolicy containerPolicy = getContainerPolicy();
     results = containerPolicy.containerInstance(size);
     if (containerPolicy.shouldAddAll()) {
       if (size > 0) {
         List values = new ArrayList(size);
         for (int index = 0; index < size; index++) {
           AbstractRecord row = (AbstractRecord) rows.get(index);
           Object value = buildObject(row);
           values.add(value);
         }
         containerPolicy.addAll(values, results, this.session, rows, this);
       }
     } else {
       for (int index = 0; index < size; index++) {
         AbstractRecord row = (AbstractRecord) rows.get(index);
         Object value = buildObject(row);
         containerPolicy.addInto(value, results, this.session, row, this);
       }
     }
   }
   // Bug 6135563 - cache DataReadQuery results verbatim, as ObjectBuilder is not invoked
   cacheResult(results);
   return results;
 }
  /**
   * INTERNAL: Get the appropriate attribute value from the object and put it in the appropriate
   * field of the database row. Loop through the reference objects and extract the primary keys and
   * put them in the vector of "nested" rows.
   */
  public void writeFromObjectIntoRow(Object object, AbstractRecord row, AbstractSession session) {
    if (!isForeignKeyRelationship) {
      return;
    }

    if (((getSourceForeignKeysToTargetKeys()) == null)
        || (getSourceForeignKeysToTargetKeys().size() == 0)) {
      return;
    }

    if (this.isReadOnly()) {
      return;
    }

    AbstractRecord referenceRow =
        this.getIndirectionPolicy().extractReferenceRow(this.getAttributeValueFromObject(object));
    if (referenceRow != null) {
      // the reference objects have not been instantiated - use the value from the original row
      if (getForeignKeyGroupingElement() != null) {
        row.put(
            this.getForeignKeyGroupingElement(),
            referenceRow.getValues(this.getForeignKeyGroupingElement()));
      } else if (getSourceForeignKeyFields().size() > 0) {
        DatabaseField foreignKeyField = (DatabaseField) getSourceForeignKeyFields().get(0);
        row.put(foreignKeyField, referenceRow.getValues(foreignKeyField));
      }
      return;
    }

    ContainerPolicy cp = this.getContainerPolicy();

    // extract the keys from the objects
    Object attributeValue = this.getRealCollectionAttributeValueFromObject(object, session);
    Vector nestedRows = new Vector(cp.sizeFor(attributeValue));

    if (getForeignKeyGroupingElement() != null) {
      for (Object iter = cp.iteratorFor(attributeValue); cp.hasNext(iter); ) {
        XMLRecord nestedRow =
            this.extractKeyRowFromReferenceObject(cp.next(iter, session), session, (XMLRecord) row);
        nestedRows.addElement(nestedRow);
      }
      row.add(this.getForeignKeyGroupingElement(), nestedRows);
    } else {
      DatabaseField singleField = (DatabaseField) getSourceForeignKeyFields().get(0);
      DatabaseField pkField = (DatabaseField) getSourceForeignKeysToTargetKeys().get(singleField);
      for (Object iter = cp.iteratorFor(attributeValue); cp.hasNext(iter); ) {
        Object singleValue =
            getReferenceDescriptor()
                .getObjectBuilder()
                .extractValueFromObjectForField(cp.next(iter, session), pkField, session);
        row.add(singleField, singleValue);
      }
    }
  }
  /**
   * INTERNAL: Get a value from the object and set that in the respective field of the row. If the
   * mapping id target foreign key, you must only write the type into the roe, the rest will be
   * updated when the object itself is written
   */
  @Override
  public void writeFromObjectIntoRowWithChangeRecord(
      ChangeRecord changeRecord, AbstractRecord record, AbstractSession session) {
    if (isReadOnly()) {
      return;
    }

    ObjectChangeSet changeSet =
        (ObjectChangeSet) ((ObjectReferenceChangeRecord) changeRecord).getNewValue();
    if (changeSet == null) {
      writeFromNullObjectIntoRow(record);
    } else {
      Object referenceObject = changeSet.getUnitOfWorkClone();
      if (isForeignKeyRelationship()) {
        Enumeration sourceFields = getForeignKeyFields().elements();
        ClassDescriptor descriptor = session.getDescriptor(referenceObject.getClass());
        while (sourceFields.hasMoreElements()) {
          DatabaseField sourceKey = (DatabaseField) sourceFields.nextElement();
          String targetQueryKey = (String) getSourceToTargetQueryKeyNames().get(sourceKey);
          DatabaseField targetKeyField =
              descriptor.getObjectBuilder().getFieldForQueryKeyName(targetQueryKey);
          if (targetKeyField == null) {
            throw DescriptorException.variableOneToOneMappingIsNotDefinedProperly(
                this, descriptor, targetQueryKey);
          }
          Object referenceValue =
              descriptor
                  .getObjectBuilder()
                  .extractValueFromObjectForField(referenceObject, targetKeyField, session);
          record.put(sourceKey, referenceValue);
        }
      }
      if (getTypeField() != null) {
        record.put(getTypeField(), getTypeForImplementor(referenceObject.getClass()));
      }
    }
  }
 /**
  * INTERNAL: Extract the primary key values from the row, then create an
  * org.eclipse.persistence.internal.oxm.Reference instance and stored it on the session's
  * org.eclipse.persistence.internal.oxm.ReferenceResolver.
  */
 public Object readFromRowIntoObject(
     AbstractRecord databaseRow,
     JoinedAttributeManager joinManager,
     Object targetObject,
     ObjectBuildingQuery sourceQuery,
     AbstractSession executionSession)
     throws DatabaseException {
   ClassDescriptor descriptor = sourceQuery.getSession().getClassDescriptor(getReferenceClass());
   ContainerPolicy cp = this.getContainerPolicy();
   Vector pkFieldNames = referenceDescriptor.getPrimaryKeyFieldNames();
   Vector primaryKeyValues = new Vector();
   primaryKeyValues.setSize(pkFieldNames.size());
   HashMap primaryKeyMap = new HashMap();
   // for each source xmlField, get the value from the row and store
   for (Iterator fieldIt = getFields().iterator(); fieldIt.hasNext(); ) {
     XMLField fld = (XMLField) fieldIt.next();
     XMLField tgtFld = (XMLField) getSourceToTargetKeyFieldAssociations().get(fld);
     Object fieldValue = databaseRow.getValues(fld);
     if ((fieldValue == null)
         || (fieldValue instanceof String)
         || !(fieldValue instanceof Vector)) {
       return cp.containerInstance();
     }
     // fix for bug# 5687430
     // need to get the actual type of the target (i.e. int, String, etc.)
     // and use the converted value when checking the cache.
     XMLConversionManager xmlConversionManager =
         (XMLConversionManager) executionSession.getDatasourcePlatform().getConversionManager();
     Vector newValues = new Vector();
     for (Iterator valIt = ((Vector) fieldValue).iterator(); valIt.hasNext(); ) {
       for (StringTokenizer stok = new StringTokenizer((String) valIt.next());
           stok.hasMoreTokens(); ) {
         Object value =
             xmlConversionManager.convertObject(
                 stok.nextToken(), descriptor.getTypedField(tgtFld).getType());
         if (value != null) {
           newValues.add(value);
         }
       }
     }
     primaryKeyMap.put(tgtFld.getXPath(), newValues);
   }
   // store the Reference instance on the resolver for use during mapping resolution phase
   ReferenceResolver resolver = ReferenceResolver.getInstance(sourceQuery.getSession());
   if (resolver != null) {
     resolver.addReference(new Reference(this, targetObject, referenceClass, primaryKeyMap));
   }
   return null;
 }
  /** INTERNAL: Get a value from the object and set that in the respective field of the row. */
  public void writeFromObjectIntoRowWithChangeRecord(
      ChangeRecord changeRecord, AbstractRecord record, AbstractSession session) {
    if (isReadOnly()) {
      return;
    }

    ObjectChangeSet changeSet =
        (ObjectChangeSet) ((ObjectReferenceChangeRecord) changeRecord).getNewValue();
    Object referenceObject = changeSet.getUnitOfWorkClone();

    if (referenceObject == null) {
      return;
    }

    Ref ref =
        ((ObjectRelationalDataTypeDescriptor) getReferenceDescriptor())
            .getRef(referenceObject, session);

    record.put(getField(), ref);
  }
Exemplo n.º 25
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 /** INTERNAL: Build the result value for the row. */
 public Object buildObject(AbstractRecord row) {
   if (this.resultType == AUTO) {
     List values = row.getValues();
     if (values.size() == 1) {
       return row.getValues().get(0);
     } else {
       return row.getValues().toArray();
     }
   } else if (this.resultType == ARRAY) {
     return row.getValues().toArray();
   } else if (this.resultType == ATTRIBUTE) {
     // Use get with field for XML records.
     Object value = row.get(row.getFields().get(0));
     if (getValueConverter() != null) {
       value = getValueConverter().convertDataValueToObjectValue(value, this.session);
     }
     return value;
   }
   return row;
 }
Exemplo n.º 26
0
 /**
  * INTERNAL: Merge the provided row into this row. Existing field values in this row will be
  * replaced with values from the provided row. Fields not in this row will be added from provided
  * row. Values not in provided row will remain in this row.
  */
 public void mergeFrom(AbstractRecord row) {
   for (int index = 0; index < row.size(); ++index) {
     this.put(row.getFields().get(index), row.getValues().get(index));
   }
 }
  public void writeFromObjectIntoRow(Object object, AbstractRecord row, AbstractSession session) {
    XMLRecord record = (XMLRecord) row;
    XMLMarshaller marshaller = record.getMarshaller();
    Object attributeValue = getAttributeValueFromObject(object);

    ContainerPolicy cp = this.getContainerPolicy();
    Vector elements = new Vector(cp.sizeFor(attributeValue));
    XMLField field = (XMLField) getField();
    NamespaceResolver resolver = field.getNamespaceResolver();
    boolean isAttribute = field.getLastXPathFragment().isAttribute();
    String prefix = null;
    XMLField includeField = null;
    if (!isAttribute) {
      if (record.isXOPPackage() && !isSwaRef() && !shouldInlineBinaryData()) {
        field = (XMLField) getField();

        // If the field's resolver is non-null and has an entry for XOP,
        // use it - otherwise, create a new resolver, set the XOP entry,
        // on it, and use it instead.
        // We do this to avoid setting the XOP namespace declaration on
        // a given field or descriptor's resolver, as it is only required
        // on the current element
        if (resolver != null) {
          prefix = resolver.resolveNamespaceURI(XMLConstants.XOP_URL);
        }
        if (prefix == null) {
          prefix = XMLConstants.XOP_PREFIX; // "xop";
          resolver = new NamespaceResolver();
          resolver.put(prefix, XMLConstants.XOP_URL);
        }
        includeField = new XMLField(prefix + XMLConstants.COLON + INCLUDE + "/@href");
        includeField.setNamespaceResolver(resolver);
      }
    }
    XMLField textField = new XMLField(field.getXPath() + '/' + XMLConstants.TEXT);
    textField.setNamespaceResolver(field.getNamespaceResolver());
    textField.setSchemaType(field.getSchemaType());
    // field = textField;

    boolean inline = false;
    for (Object iter = cp.iteratorFor(attributeValue); cp.hasNext(iter); ) {
      Object element = cp.next(iter, session);
      element = getValueToWrite(element, object, record, field, includeField, session);
      if (element.getClass() == ClassConstants.ABYTE) {
        inline = true;
      }
      if (element != null) {
        elements.addElement(element);
      }
    }
    Object fieldValue = null;
    if (!elements.isEmpty()) {
      fieldValue =
          this.getDescriptor()
              .buildFieldValueFromDirectValues(elements, elementDataTypeName, session);
    }
    if (inline) {
      row.put(textField, fieldValue);
    } else {
      row.put(field, fieldValue);
    }
  }
  public Object valueFromRow(
      AbstractRecord row,
      JoinedAttributeManager joinManager,
      ObjectBuildingQuery query,
      AbstractSession executionSession) {
    ContainerPolicy cp = this.getContainerPolicy();

    Object fieldValue = row.getValues(this.getField());
    if (fieldValue == null) {
      if (reuseContainer) {
        Object currentObject = ((XMLRecord) row).getCurrentObject();
        Object container = getAttributeAccessor().getAttributeValueFromObject(currentObject);
        return container != null ? container : cp.containerInstance();
      } else {
        return cp.containerInstance();
      }
    }

    Vector fieldValues = this.getDescriptor().buildDirectValuesFromFieldValue(fieldValue);
    if (fieldValues == null) {
      if (reuseContainer) {
        Object currentObject = ((XMLRecord) row).getCurrentObject();
        Object container = getAttributeAccessor().getAttributeValueFromObject(currentObject);
        return container != null ? container : cp.containerInstance();
      } else {
        return cp.containerInstance();
      }
    }

    Object result = null;
    if (reuseContainer) {
      Object currentObject = ((XMLRecord) row).getCurrentObject();
      Object container = getAttributeAccessor().getAttributeValueFromObject(currentObject);
      result = container != null ? container : cp.containerInstance();
    } else {
      result = cp.containerInstance(fieldValues.size());
    }

    for (Enumeration stream = fieldValues.elements(); stream.hasMoreElements(); ) {
      Object element = stream.nextElement();

      // PERF: Direct variable access.
      // Object value = row.get(field);
      // Object fieldValue = null;
      XMLUnmarshaller unmarshaller = ((XMLRecord) row).getUnmarshaller();
      if (element instanceof String) {
        if (this.isSwaRef() && (unmarshaller.getAttachmentUnmarshaller() != null)) {
          fieldValue =
              unmarshaller.getAttachmentUnmarshaller().getAttachmentAsDataHandler((String) element);
        } else if (!this.isSwaRef()) {
          // should be base64
          byte[] bytes =
              ((XMLConversionManager)
                      executionSession.getDatasourcePlatform().getConversionManager())
                  .convertSchemaBase64ToByteArray(element);
          fieldValue = bytes;
        }
      } else {
        // this was an element, so do the XOP/SWAREF/Inline binary cases for an element
        XMLRecord record = (XMLRecord) element;
        record.setSession(executionSession);

        if ((unmarshaller.getAttachmentUnmarshaller() != null)
            && unmarshaller.getAttachmentUnmarshaller().isXOPPackage()
            && !this.isSwaRef()
            && !this.shouldInlineBinaryData()) {
          // look for the include element:
          String xpath = XMLConstants.EMPTY_STRING;

          //  need a prefix for XOP
          String prefix = null;
          NamespaceResolver descriptorResolver =
              ((XMLDescriptor) getDescriptor()).getNamespaceResolver();
          if (descriptorResolver != null) {
            prefix = descriptorResolver.resolveNamespaceURI(XMLConstants.XOP_URL);
          }
          if (prefix == null) {
            prefix = XMLConstants.XOP_PREFIX;
          }
          NamespaceResolver tempResolver = new NamespaceResolver();
          tempResolver.put(prefix, XMLConstants.XOP_URL);
          xpath = prefix + XMLConstants.COLON + INCLUDE + "/@href";
          XMLField field = new XMLField(xpath);
          field.setNamespaceResolver(tempResolver);
          String includeValue = (String) record.get(field);
          if (element != null && includeValue != null) {
            if ((getAttributeElementClass() == ClassConstants.ABYTE)
                || (getAttributeElementClass() == ClassConstants.APBYTE)) {
              fieldValue =
                  unmarshaller.getAttachmentUnmarshaller().getAttachmentAsByteArray(includeValue);
            } else {
              fieldValue =
                  unmarshaller.getAttachmentUnmarshaller().getAttachmentAsDataHandler(includeValue);
            }
          } else {
            // If we didn't find the Include element, check for inline
            fieldValue = record.get(XMLConstants.TEXT);
            // should be a base64 string
            fieldValue =
                ((XMLConversionManager)
                        executionSession.getDatasourcePlatform().getConversionManager())
                    .convertSchemaBase64ToByteArray(fieldValue);
          }
        } else if ((unmarshaller.getAttachmentUnmarshaller() != null) && isSwaRef()) {
          String refValue = (String) record.get(XMLConstants.TEXT);
          if (refValue != null) {
            fieldValue =
                unmarshaller.getAttachmentUnmarshaller().getAttachmentAsDataHandler(refValue);
          }
        } else {
          fieldValue = record.get(XMLConstants.TEXT);
          // should be a base64 string
          fieldValue =
              ((XMLConversionManager)
                      executionSession.getDatasourcePlatform().getConversionManager())
                  .convertSchemaBase64ToByteArray(fieldValue);
        }
      }
      Object attributeValue = fieldValue;
      if (getValueConverter() != null) {
        if (getValueConverter() instanceof XMLConverter) {
          attributeValue =
              ((XMLConverter) getValueConverter())
                  .convertDataValueToObjectValue(fieldValue, executionSession, unmarshaller);
        } else {
          attributeValue =
              getValueConverter().convertDataValueToObjectValue(fieldValue, executionSession);
        }
      }

      cp.addInto(attributeValue, result, query.getSession());
    }
    return result;
  }
  public Object valueFromRow(
      AbstractRecord row,
      JoinedAttributeManager joinManager,
      ObjectBuildingQuery sourceQuery,
      CacheKey cacheKey,
      AbstractSession executionSession,
      boolean isTargetProtected,
      Boolean[] wasCacheUsed)
      throws DatabaseException {
    ContainerPolicy cp = this.getContainerPolicy();

    Object fieldValue = row.getValues(this.getField());

    // BUG#2667762 there could be whitespace in the row instead of null
    if ((fieldValue == null) || (fieldValue instanceof String)) {
      if (reuseContainer) {
        Object currentObject = ((XMLRecord) row).getCurrentObject();
        Object container = getAttributeAccessor().getAttributeValueFromObject(currentObject);
        return container != null ? container : cp.containerInstance();
      } else {
        return cp.containerInstance();
      }
    }

    Vector nestedRows =
        this.getDescriptor().buildNestedRowsFromFieldValue(fieldValue, executionSession);
    if (nestedRows == null) {
      if (reuseContainer) {
        Object currentObject = ((XMLRecord) row).getCurrentObject();
        Object container = getAttributeAccessor().getAttributeValueFromObject(currentObject);
        return container != null ? container : cp.containerInstance();
      } else {
        return cp.containerInstance();
      }
    }

    Object result = null;
    if (reuseContainer) {
      Object currentObject = ((XMLRecord) row).getCurrentObject();
      Object container = getAttributeAccessor().getAttributeValueFromObject(currentObject);
      result = container != null ? container : cp.containerInstance();
    } else {
      result = cp.containerInstance(nestedRows.size());
    }

    for (Enumeration stream = nestedRows.elements(); stream.hasMoreElements(); ) {
      XMLRecord nestedRow = (XMLRecord) stream.nextElement();
      Object objectToAdd;
      if (getNullPolicy().valueIsNull((Element) nestedRow.getDOM())) {
        objectToAdd = null;
      } else {
        objectToAdd =
            buildObjectFromNestedRow(
                nestedRow, joinManager, sourceQuery, executionSession, isTargetProtected);
      }
      cp.addInto(objectToAdd, result, sourceQuery.getSession());
      if (null != getContainerAccessor()) {
        Object currentObject = ((XMLRecord) row).getCurrentObject();
        if (this.inverseReferenceMapping.getContainerPolicy() == null) {
          getContainerAccessor().setAttributeValueInObject(objectToAdd, currentObject);
        } else {
          Object backpointerContainer =
              getContainerAccessor().getAttributeValueFromObject(objectToAdd);
          if (backpointerContainer == null) {
            backpointerContainer =
                this.inverseReferenceMapping.getContainerPolicy().containerInstance();
            getContainerAccessor().setAttributeValueInObject(objectToAdd, backpointerContainer);
          }
          this.inverseReferenceMapping
              .getContainerPolicy()
              .addInto(currentObject, backpointerContainer, executionSession);
        }
      }
    }
    return result;
  }