/**
   * INTERNAL Return the descriptor which contains this query key, look in the inheritance hierarchy
   * of rootDescriptor for the descriptor.
   */
  public ClassDescriptor convertToCastDescriptor(
      ClassDescriptor rootDescriptor, AbstractSession session) {
    if (castClass == null || rootDescriptor == null || rootDescriptor.getJavaClass() == castClass) {
      return rootDescriptor;
    }

    ClassDescriptor castDescriptor = session.getClassDescriptor(castClass);

    if (castDescriptor == null) {
      throw QueryException.couldNotFindCastDescriptor(castClass, getBaseExpression());
    }
    if (!castDescriptor.hasInheritance()) {
      throw QueryException.castMustUseInheritance(getBaseExpression());
    }
    ClassDescriptor parentDescriptor = castDescriptor.getInheritancePolicy().getParentDescriptor();
    while (parentDescriptor != null) {
      if (parentDescriptor == rootDescriptor) {
        return castDescriptor;
      }
      parentDescriptor = parentDescriptor.getInheritancePolicy().getParentDescriptor();
    }

    ClassDescriptor childDescriptor = rootDescriptor;
    while (childDescriptor != null) {
      if (childDescriptor == castDescriptor) {
        return rootDescriptor;
      }
      childDescriptor = childDescriptor.getInheritancePolicy().getParentDescriptor();
    }

    throw QueryException.couldNotFindCastDescriptor(castClass, getBaseExpression());
  }
  @Override
  public ClassDescriptor getDescriptor() {
    if (isAttribute()) {
      return null;
    }
    if (descriptor == null) {
      // Look first for query keys, then mappings. Ultimately we should have query keys
      // for everything and can dispense with the mapping part.
      ForeignReferenceQueryKey queryKey = (ForeignReferenceQueryKey) getQueryKeyOrNull();
      if (queryKey != null) {
        descriptor =
            convertToCastDescriptor(
                getSession().getDescriptor(queryKey.getReferenceClass()), getSession());
        return descriptor;
      }
      if (getMapping() == null) {
        throw QueryException.invalidQueryKeyInExpression(this);
      }

      // We assume this is either a foreign reference or an aggregate mapping
      descriptor = getMapping().getReferenceDescriptor();
      if (getMapping().isVariableOneToOneMapping()) {
        throw QueryException.cannotQueryAcrossAVariableOneToOneMapping(getMapping(), descriptor);
      }
      descriptor = convertToCastDescriptor(descriptor, getSession());
    }
    return descriptor;
  }
  /**
   * INTERNAL Return true if it uses a cast class and query is downcasting. It will look into
   * inheritance hierarchy of the root descriptor.
   */
  public boolean isDowncast(ClassDescriptor rootDescriptor, AbstractSession session) {
    if (castClass == null) {
      return false;
    }

    if (rootDescriptor.getJavaClass() == castClass) {
      return false;
    }

    ClassDescriptor castDescriptor = session.getClassDescriptor(castClass);

    if (castDescriptor == null) {
      throw QueryException.couldNotFindCastDescriptor(castClass, getBaseExpression());
    }
    if (castDescriptor.getInheritancePolicy() == null) {
      throw QueryException.castMustUseInheritance(getBaseExpression());
    }
    ClassDescriptor parentDescriptor = castDescriptor.getInheritancePolicy().getParentDescriptor();
    while (parentDescriptor != null) {
      if (parentDescriptor == rootDescriptor) {
        return true;
      }
      parentDescriptor = parentDescriptor.getInheritancePolicy().getParentDescriptor();
    }

    throw QueryException.couldNotFindCastDescriptor(castClass, getBaseExpression());
  }
예제 #4
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 /**
  * Processes the HTTP request. Parses new modules and discards obsolete ones.
  *
  * @param http HTTP context
  * @throws Exception exception
  */
 void process(final HTTPContext http) throws Exception {
   try {
     module.process(http, this);
   } catch (final QueryException ex) {
     if (ex.file() == null) ex.info(function.info);
     throw ex;
   }
 }
  /** INTERNAL: Ensure that the descriptor has been set. */
  public void checkDescriptor(Object object, AbstractSession session) throws QueryException {
    if (this.descriptor == null) {
      if (object == null) {
        throw QueryException.objectToModifyNotSpecified(this);
      }

      // Bug#3947714  Pass the object instead of class in case object is proxy
      ClassDescriptor referenceDescriptor = session.getDescriptor(object);
      if (referenceDescriptor == null) {
        throw QueryException.descriptorIsMissing(object.getClass(), this);
      }
      setDescriptor(referenceDescriptor);
    }
  }
 public DatabaseMapping getMappingFromQueryKey() {
   QueryKey queryKey = getQueryKeyOrNull();
   if ((queryKey == null) || (!(queryKey instanceof DirectQueryKey))) {
     throw QueryException.cannotConformExpression();
   }
   mapping =
       queryKey
           .getDescriptor()
           .getObjectBuilder()
           .getMappingForField(((DirectQueryKey) queryKey).getField());
   if (mapping == null) {
     throw QueryException.cannotConformExpression();
   }
   return mapping;
 }
 /** INTERNAL: Return if the expression is for a direct mapped attribute. */
 public boolean isAttribute() {
   if (isAttributeExpression == null) {
     if (getSession() == null) {
       // We can't tell, so say no.
       return false;
     }
     QueryKey queryKey = getQueryKeyOrNull();
     if (queryKey != null) {
       isAttributeExpression = Boolean.valueOf(queryKey.isDirectQueryKey());
     } else {
       DatabaseMapping mapping = getMapping();
       if (mapping != null) {
         if (mapping.isVariableOneToOneMapping()) {
           throw QueryException.cannotQueryAcrossAVariableOneToOneMapping(
               mapping, mapping.getDescriptor());
         } else {
           isAttributeExpression = Boolean.valueOf(mapping.isDirectToFieldMapping());
         }
       } else {
         isAttributeExpression = Boolean.FALSE;
       }
     }
   }
   return isAttributeExpression.booleanValue();
 }
 /**
  * INTERNAL: Add element into the container.
  *
  * @param element java.lang.Object
  * @param container java.lang.Object
  * @return boolean indicating whether the container changed
  */
 protected boolean addInto(Object key, Object element, Object container) {
   try {
     ((IndirectList) container).addElement(element);
     return true;
   } catch (ClassCastException ex) {
     throw QueryException.cannotAddElement(element, container, ex);
   }
 }
예제 #9
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 /**
  * PUBLIC: Configure the query to use an instance of the specified container class to hold the
  * result objects. The key used to index the value in the Map is the value returned by a call to
  * the specified zero-argument method. The method must be implemented by the class (or a
  * superclass) of the value to be inserted into the Map.
  *
  * <p>jdk1.2.x: The container class must implement (directly or indirectly) the Map interface.
  *
  * <p>jdk1.1.x: The container class must be a subclass of Hashtable.
  *
  * <p>The referenceClass must set before calling this method.
  */
 public void useMapClass(Class concreteClass, String methodName) {
   // the reference class has to be specified before coming here
   if (getReferenceClass() == null) {
     throw QueryException.referenceClassMissing(this);
   }
   ContainerPolicy policy = ContainerPolicy.buildPolicyFor(concreteClass);
   policy.setKeyName(methodName, getReferenceClass().getName());
   setContainerPolicy(policy);
 }
예제 #10
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  /**
   * INTERNAL: Return the lowlevel database accessor. The database accessor is used for direct
   * database access. The right accessor for this broker will be returned.
   */
  public Accessor getAccessor(Class domainClass) {
    if (domainClass == null) {
      // CR#... this occurs if a data query is used without a session-name, needs to throw an error
      throw QueryException.unnamedQueryOnSessionBroker(null);
    }

    // session may be a broker too.  Eventually a non session broker wil be found
    return getSessionForClass(domainClass).getAccessor(domainClass);
  }
  /** Do any required validation for this node. Throw an exception if it's incorrect. */
  public void validateNode() {
    if ((getQueryKeyOrNull() == null) && (getMapping() == null)) {
      throw QueryException.invalidQueryKeyInExpression(getName());
    }

    QueryKey queryKey = getQueryKeyOrNull();
    DatabaseMapping mapping = getMapping();

    Object theOneThatsNotNull = null;
    boolean qkIsToMany = false;
    if (queryKey != null) {
      theOneThatsNotNull = queryKey;
      qkIsToMany = queryKey.isManyToManyQueryKey() || queryKey.isOneToManyQueryKey();
    }
    boolean isNestedMapping = false;
    if (mapping != null) {
      // Bug 2847621 - Add Aggregate Collection to the list of valid items for outer join.
      if (shouldUseOuterJoin
          && (!(mapping.isOneToOneMapping()
              || mapping.isOneToManyMapping()
              || mapping.isManyToManyMapping()
              || mapping.isAggregateCollectionMapping()
              || mapping.isDirectCollectionMapping()))) {
        throw QueryException.outerJoinIsOnlyValidForOneToOneMappings(getMapping());
      }
      qkIsToMany = mapping.isCollectionMapping();
      if (index != null) {
        if (qkIsToMany) {
          CollectionMapping collectionMapping = (CollectionMapping) getMapping();
          if (collectionMapping.getListOrderField() != null) {
            index.setField(collectionMapping.getListOrderField());
            if (collectionMapping.shouldUseListOrderFieldTableExpression()) {
              Expression newBase = getTable(collectionMapping.getListOrderField().getTable());
              index.setBaseExpression(newBase);
            } else {
              addDerivedField(index);
            }
          } else {
            throw QueryException.indexRequiresCollectionMappingWithListOrderField(
                this, collectionMapping);
          }
        } else {
          throw QueryException.indexRequiresCollectionMappingWithListOrderField(this, mapping);
        }
      }
      isNestedMapping = mapping.isNestedTableMapping();
      theOneThatsNotNull = mapping;
    } else {
      if (index != null) {
        throw QueryException.indexRequiresCollectionMappingWithListOrderField(this, null);
      }
    }
    if ((!shouldQueryToManyRelationship()) && qkIsToMany && (!isNestedMapping)) {
      throw QueryException.invalidUseOfToManyQueryKeyInExpression(theOneThatsNotNull);
    }
    if (shouldQueryToManyRelationship() && !qkIsToMany) {
      throw QueryException.invalidUseOfAnyOfInExpression(theOneThatsNotNull);
    }
  }
예제 #12
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  protected void execute(String queryString, HttpAction action) {
    String queryStringLog = ServletOps.formatForLog(queryString);
    if (action.verbose) action.log.info(format("[%d] Query = \n%s", action.id, queryString));
    else action.log.info(format("[%d] Query = %s", action.id, queryStringLog));

    Query query = null;
    try {
      // NB syntax is ARQ (a superset of SPARQL)
      query = QueryFactory.create(queryString, QueryParseBase, Syntax.syntaxARQ);
      queryStringLog = formatForLog(query);
      validateQuery(action, query);
    } catch (ActionErrorException ex) {
      throw ex;
    } catch (QueryParseException ex) {
      ServletOps.errorBadRequest(
          "Parse error: \n" + queryString + "\n\r" + messageForQueryException(ex));
    }
    // Should not happen.
    catch (QueryException ex) {
      ServletOps.errorBadRequest("Error: \n" + queryString + "\n\r" + ex.getMessage());
    }

    // Assumes finished whole thing by end of sendResult.
    try {
      action.beginRead();
      Dataset dataset = decideDataset(action, query, queryStringLog);
      try (QueryExecution qExec = createQueryExecution(query, dataset); ) {
        SPARQLResult result = executeQuery(action, qExec, query, queryStringLog);
        // Deals with exceptions itself.
        sendResults(action, result, query.getPrologue());
      }
    } catch (QueryParseException ex) {
      // Late stage static error (e.g. bad fixed Lucene query string).
      ServletOps.errorBadRequest(
          "Query parse error: \n" + queryString + "\n\r" + messageForQueryException(ex));
    } catch (QueryCancelledException ex) {
      // Additional counter information.
      incCounter(action.getEndpoint().getCounters(), QueryTimeouts);
      throw ex;
    } finally {
      action.endRead();
    }
  }
 /**
  * INTERNAL: Remove elements from this container starting with this index
  *
  * @param beginIndex int the point to start deleting values from the collection
  * @param container java.lang.Object
  * @return boolean indicating whether the container changed
  */
 public void removeFromWithOrder(int beginIndex, Object container) {
   int size = sizeFor(container) - 1;
   try {
     for (; size >= beginIndex; --size) {
       ((IndirectList) container).removeElementAt(size);
     }
   } catch (ClassCastException ex1) {
     throw QueryException.cannotRemoveFromContainer(new Integer(size), container, this);
   }
 }
예제 #14
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  /**
   * Refreshes the view after a file has been saved.
   *
   * @param root root directory
   * @param ctx database context
   * @throws InterruptedException interruption
   */
  void parse(final IOFile root, final Context ctx) throws InterruptedException {
    final long id = ++parseId;
    final HashSet<String> parsed = new HashSet<>();
    final TreeMap<String, InputInfo> errs = new TreeMap<>();

    // collect files to be parsed
    final ProjectCache pc = cache(root);
    final StringList mods = new StringList(), lmods = new StringList();
    for (final String path : pc) {
      final IOFile file = new IOFile(path);
      if (file.hasSuffix(IO.XQSUFFIXES)) (file.hasSuffix(IO.XQMSUFFIX) ? lmods : mods).add(path);
    }
    mods.add(lmods);

    // parse modules
    for (final String path : mods) {
      if (id != parseId) throw new InterruptedException();
      if (parsed.contains(path)) continue;

      final IOFile file = new IOFile(path);
      try (final TextInput ti = new TextInput(file)) {
        // parse query
        try (final QueryContext qc = new QueryContext(ctx)) {
          final String input = ti.cache().toString();
          final boolean lib = QueryProcessor.isLibrary(input);
          qc.parse(input, lib, path, null);
          // parsing was successful: remember path
          parsed.add(path);
          for (final byte[] mod : qc.modParsed) parsed.add(Token.string(mod));
        } catch (final QueryException ex) {
          // parsing failed: remember path
          final InputInfo ii = ex.info();
          errs.put(path, ii);
          parsed.add(ii.path());
        }
      } catch (final IOException ex) {
        // file may not be accessible
        Util.debug(ex);
      }
    }
    errors = errs;
  }
예제 #15
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 /**
  * INTERNAL: Execute the query. If there are cached results return those. This must override the
  * super to support result caching.
  *
  * @param session - the session in which the receiver will be executed.
  * @return An object or vector, the result of executing the query.
  * @exception DatabaseException - an error has occurred on the database
  */
 public Object execute(AbstractSession session, AbstractRecord row) throws DatabaseException {
   if (shouldCacheQueryResults()) {
     if (getContainerPolicy().overridesRead()) {
       throw QueryException.cannotCacheCursorResultsOnQuery(this);
     }
     if (shouldConformResultsInUnitOfWork()) {
       throw QueryException.cannotConformAndCacheQueryResults(this);
     }
     if (isPrepared()) { // only prepared queries can have cached results.
       Object queryResults = getQueryResults(session, row, true);
       if (queryResults != null) {
         if (QueryMonitor.shouldMonitor()) {
           QueryMonitor.incrementReadAllHits(this);
         }
         // bug6138532 - check for "cached no results" (InvalidObject singleton) in query
         // results, and return an empty container instance as configured
         if (queryResults == InvalidObject.instance) {
           return getContainerPolicy().containerInstance(0);
         }
         Collection results = (Collection) queryResults;
         if (session.isUnitOfWork()) {
           ContainerPolicy policy = getContainerPolicy();
           Object resultCollection = policy.containerInstance(results.size());
           Object iterator = policy.iteratorFor(results);
           while (policy.hasNext(iterator)) {
             Object result =
                 ((UnitOfWorkImpl) session)
                     .registerExistingObject(policy.next(iterator, session), this.descriptor);
             policy.addInto(result, resultCollection, session);
           }
           return resultCollection;
         }
         return results;
       }
     }
   }
   if (QueryMonitor.shouldMonitor()) {
     QueryMonitor.incrementReadAllMisses(this);
   }
   return super.execute(session, row);
 }
예제 #16
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  @Override
  protected void runTestForReal() throws Throwable {
    Query query = null;
    try {
      try {
        query = queryFromTestItem(testItem);
      } catch (QueryException qEx) {
        query = null;
        qEx.printStackTrace(System.err);
        fail("Parse failure: " + qEx.getMessage());
        throw qEx;
      }

      Dataset dataset = setUpDataset(query, testItem);
      if (dataset == null && !doesQueryHaveDataset(query)) fail("No dataset for query");

      QueryExecution qe = null;

      if (dataset == null) qe = QueryExecutionFactory.create(query, queryFileManager);
      else qe = QueryExecutionFactory.create(query, dataset);

      try {
        if (query.isSelectType()) runTestSelect(query, qe);
        else if (query.isConstructType()) runTestConstruct(query, qe);
        else if (query.isDescribeType()) runTestDescribe(query, qe);
        else if (query.isAskType()) runTestAsk(query, qe);
      } finally {
        qe.close();
      }
    } catch (IOException ioEx) {
      // log.debug("IOException: ",ioEx) ;
      fail("IOException: " + ioEx.getMessage());
      throw ioEx;
    } catch (NullPointerException ex) {
      throw ex;
    } catch (Exception ex) {
      ex.printStackTrace(System.err);
      fail("Exception: " + ex.getClass().getName() + ": " + ex.getMessage());
    }
  }
  /** Append the string containing the SQL insert string for the given table. */
  protected SQLCall buildCallWithoutReturning(AbstractSession session) {
    SQLCall call = new SQLCall();
    call.returnNothing();

    Writer writer = new CharArrayWriter(200);
    try {
      writer.write("INSERT ");
      if (getHintString() != null) {
        writer.write(getHintString());
        writer.write(" ");
      }
      writer.write("INTO ");
      writer.write(getTable().getQualifiedNameDelimited(session.getPlatform()));
      writer.write(" (");

      Vector fieldsForTable = new Vector();
      for (Enumeration fieldsEnum = getModifyRow().keys(); fieldsEnum.hasMoreElements(); ) {
        DatabaseField field = (DatabaseField) fieldsEnum.nextElement();
        if (field.getTable().equals(getTable()) || (!field.hasTableName())) {
          fieldsForTable.addElement(field);
        }
      }

      if (fieldsForTable.isEmpty()) {
        throw QueryException.objectToInsertIsEmpty(getTable());
      }

      for (int i = 0; i < fieldsForTable.size(); i++) {
        writer.write(
            ((DatabaseField) fieldsForTable.elementAt(i)).getNameDelimited(session.getPlatform()));
        if ((i + 1) < fieldsForTable.size()) {
          writer.write(", ");
        }
      }
      writer.write(") VALUES (");

      for (int i = 0; i < fieldsForTable.size(); i++) {
        DatabaseField field = (DatabaseField) fieldsForTable.elementAt(i);
        call.appendModify(writer, field);
        if ((i + 1) < fieldsForTable.size()) {
          writer.write(", ");
        }
      }
      writer.write(")");

      call.setSQLString(writer.toString());
    } catch (IOException exception) {
      throw ValidationException.fileError(exception);
    }
    return call;
  }
예제 #18
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  /** INTERNAL: Answers the session to be used for the given query. */
  protected AbstractSession getSessionForQuery(DatabaseQuery query) {
    if (query.hasSessionName()) {
      return getSessionForName(query.getSessionName());
    }

    Class queryClass;
    if (query.getDescriptor() != null) {
      queryClass = query.getDescriptor().getJavaClass();
    } else {
      queryClass = query.getReferenceClass();
      if (queryClass == null) {
        throw QueryException.unnamedQueryOnSessionBroker(query);
      }
    }
    return getSessionForClass(queryClass);
  }
 /**
  * INTERNAL: Add element into a container which implements the Collection interface.
  *
  * @param element java.lang.Object
  * @param container java.lang.Object
  * @return boolean indicating whether the container changed
  */
 public void addIntoWithOrder(Vector indexes, Hashtable elements, Object container) {
   Object object = null;
   try {
     Enumeration indexEnum = indexes.elements();
     while (indexEnum.hasMoreElements()) {
       Integer index = (Integer) indexEnum.nextElement();
       object = elements.get(index);
       if (index.intValue() >= (sizeFor(container) - 1)) {
         ((IndirectList) container).addElement(object);
       } else {
         ((IndirectList) container).setElementAt(object, index.intValue());
       }
     }
   } catch (ClassCastException ex1) {
     throw QueryException.cannotAddElement(object, container, ex1);
   }
 }
예제 #20
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 /**
  * INTERNAL: Execute the query. If there are cached results return those. This must override the
  * super to support result caching.
  *
  * @param aSession - the session in which the receiver will be executed.
  * @return An object or vector, the result of executing the query.
  * @exception DatabaseException - an error has occurred on the database
  */
 public Object execute(AbstractSession session, AbstractRecord row) throws DatabaseException {
   if (shouldCacheQueryResults()) {
     if (getContainerPolicy().overridesRead()) {
       throw QueryException.cannotCacheCursorResultsOnQuery(this);
     }
     if (isPrepared()) { // only prepared queries can have cached results.
       Object results = getQueryResults(session, row, true);
       // Bug6138532 - if results are "cached no results", return null immediately
       if (results == InvalidObject.instance) {
         return null;
       }
       if (results != null) {
         return results;
       }
     }
   }
   return super.execute(session, row);
 }
  public QueryKey getQueryKeyOrNull() {
    if (!hasQueryKey) {
      return null;
    }

    // Oct 19, 2000 JED
    // Added try/catch. This was throwing a NPE in the following case
    // expresssionBuilder.get("firstName").get("bob")
    // moved by Gordon Yorke to cover validate and normalize
    if (getContainingDescriptor() == null) {
      throw QueryException.invalidQueryKeyInExpression(getName());
    }
    if (queryKey == null) {
      queryKey = getContainingDescriptor().getQueryKeyNamed(getName());
      if (queryKey == null) {
        hasQueryKey = false;
      }
    }
    return queryKey;
  }
예제 #22
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  /** INTERNAL: Prepare the receiver for execution in a session. */
  public void prepareForExecution() throws QueryException {
    super.prepareForExecution();

    if (getObject() == null) {
      throw QueryException.objectToModifyNotSpecified(this);
    }
    setObject(this.descriptor.getObjectBuilder().unwrapObject(getObject(), getSession()));

    if (this.descriptor == null) {
      setDescriptor(getSession().getDescriptor(getObject().getClass()));
    }

    if (getPrimaryKey() == null) {
      setPrimaryKey(
          this.descriptor
              .getObjectBuilder()
              .extractPrimaryKeyFromObject(getObject(), getSession()));
    }

    if ((getTranslationRow() == null) || (getTranslationRow().isEmpty())) {
      setTranslationRow(
          this.descriptor.getObjectBuilder().buildRowForTranslation(getObject(), getSession()));
    }
  }
예제 #23
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 /**
  * PUBLIC: Specify the foreign-reference mapped attribute to be optimized in this query. The query
  * will execute normally, however when any of the batched parts is accessed, the parts will all be
  * read in a single query, this allows all of the data required for the parts to be read in a
  * single query instead of (n) queries. This should be used when the application knows that it
  * requires the part for all of the objects being read. This can be used for one-to-one,
  * one-to-many, many-to-many and direct collection mappings.
  *
  * <p>The use of the expression allows for nested batch reading to be expressed.
  *
  * <p>Example: query.addBatchReadAttribute("phoneNumbers")
  *
  * @see #addBatchReadAttribute(Expression)
  * @see ObjectLevelReadQuery#addJoinedAttribute(String)
  */
 public void addBatchReadAttribute(String attributeName) {
   if (!getQueryMechanism().isExpressionQueryMechanism()) {
     throw QueryException.batchReadingNotSupported(this);
   }
   getBatchReadAttributeExpressions().add(getExpressionBuilder().get(attributeName));
 }
 /**
  * INTERNAL: Possible for future development, not currently supported.
  *
  * <p>Retrieve the value through using batch reading. This executes a single query to read the
  * target for all of the objects and stores the result of the batch query in the original query to
  * allow the other objects to share the results.
  */
 @Override
 protected Object batchedValueFromRow(AbstractRecord row, ReadAllQuery query) {
   throw QueryException.batchReadingNotSupported(this, query);
 }
예제 #25
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  /**
   * Tests if errors are thrown when some mandatory attributes are missing in a <http:request/>,
   * <http:body/> or <http:multipart/>.
   *
   * @throws IOException I/O Exception
   */
  @Test
  public void errors() throws IOException {

    // Incorrect requests
    final List<byte[]> falseReqs = new ArrayList<>();

    // Request without method
    final byte[] falseReq1 =
        token(
            "<http:request "
                + "xmlns:http='http://expath.org/ns/http-client' "
                + "href='"
                + REST_ROOT
                + "'/>");
    falseReqs.add(falseReq1);

    // Request with send-authorization and no credentials
    final byte[] falseReq2 =
        token(
            "<http:request "
                + "xmlns:http='http://expath.org/ns/http-client' "
                + "method='GET' href='"
                + REST_ROOT
                + "' "
                + "send-authorization='true'/>");
    falseReqs.add(falseReq2);

    // Request with send-authorization and only username
    final byte[] falseReq3 =
        token(
            "<http:request "
                + "xmlns:http='http://expath.org/ns/http-client' "
                + "method='GET' href='"
                + REST_ROOT
                + "' "
                + "send-authorization='true' username='******'/>");
    falseReqs.add(falseReq3);

    // Request with body that has no media-type
    final byte[] falseReq4 =
        token(
            "<http:request "
                + "xmlns:http='http://expath.org/ns/http-client' "
                + "method='POST' href='"
                + REST_ROOT
                + "'>"
                + "<http:body>"
                + "</http:body>"
                + "</http:request>");
    falseReqs.add(falseReq4);

    // Request with multipart that has no media-type
    final byte[] falseReq5 =
        token(
            "<http:request method='POST' "
                + "xmlns:http='http://expath.org/ns/http-client' "
                + "href='"
                + REST_ROOT
                + "'>"
                + "<http:multipart boundary='xxx'>"
                + "</http:multipart>"
                + "</http:request>");
    falseReqs.add(falseReq5);

    // Request with multipart with part that has a body without media-type
    final byte[] falseReq6 =
        token(
            "<http:request method='POST' "
                + "xmlns:http='http://expath.org/ns/http-client' "
                + "href='"
                + REST_ROOT
                + "'>"
                + "<http:multipart boundary='xxx'>"
                + "<http:header name='hdr1' value-='val1'/>"
                + "<http:body media-type='text/plain'>"
                + "Part1"
                + "</http:body>"
                + "<http:header name='hdr1' value-='val1'/>"
                + "<http:body>"
                + "Part1"
                + "</http:body>"
                + "</http:multipart>"
                + "</http:request>");
    falseReqs.add(falseReq6);

    // Request with schema different from http
    final byte[] falseReq7 =
        token(
            "<http:request "
                + "xmlns:http='http://expath.org/ns/http-client' "
                + "href='ftp://basex.org'/>");
    falseReqs.add(falseReq7);

    // Request with content and method which must be empty
    final byte[] falseReq8 =
        token(
            "<http:request "
                + "xmlns:http='http://expath.org/ns/http-client' "
                + "method='DELETE' href='"
                + REST_ROOT
                + "'>"
                + "<http:body media-type='text/plain'>"
                + "</http:body>"
                + "</http:request>");
    falseReqs.add(falseReq8);

    for (final byte[] falseReq : falseReqs) {
      final DBNode dbNode = new DBNode(new IOContent(falseReq));
      try {
        final HttpRequestParser rp = new HttpRequestParser(null);
        rp.parse(dbNode.children().next(), null);
        fail("Exception not thrown");
      } catch (final QueryException ex) {
        assertTrue(ex.getMessage().contains(ErrType.HC.toString()));
      }
    }
  }
  /**
   * INTERNAL This method iterates through a collection and gets the values from the objects to
   * conform in an in-memory query. Creation date: (1/19/01 1:18:27 PM)
   */
  public Object valuesFromCollection(
      Object object, AbstractSession session, int valueHolderPolicy, boolean isObjectUnregistered) {
    // in case the mapping is null - this can happen if a query key is being used
    // In this case, check for the query key and find it's mapping.
    boolean readMappingFromQueryKey = false;
    if (getMapping() == null) {
      getMappingFromQueryKey();
      readMappingFromQueryKey = true;
    }

    // For bug 2780817 get the mapping directly from the object.  In EJB 2.0
    // inheritance, each child must override mappings defined in an abstract
    // class with its own.
    DatabaseMapping mapping = this.mapping;
    ClassDescriptor descriptor = mapping.getDescriptor();
    if (descriptor.hasInheritance() && (descriptor.getJavaClass() != object.getClass())) {
      mapping =
          session
              .getDescriptor(object.getClass())
              .getObjectBuilder()
              .getMappingForAttributeName(getName());
      descriptor = mapping.getDescriptor();
    }

    // fetch group support
    if (descriptor.hasFetchGroupManager()) {
      FetchGroupManager fetchGroupManager = descriptor.getFetchGroupManager();
      if (fetchGroupManager.isPartialObject(object)
          && (!fetchGroupManager.isAttributeFetched(object, mapping.getAttributeName()))) {
        // the conforming attribute is not fetched, simply throw exception
        throw QueryException.cannotConformUnfetchedAttribute(mapping.getAttributeName());
      }
    }

    if (mapping.isDirectToFieldMapping()) {
      return ((AbstractDirectMapping) mapping).valueFromObject(object, mapping.getField(), session);
    } else if (mapping.isForeignReferenceMapping()) {
      // CR 3677 integration of a ValueHolderPolicy
      Object valueFromMapping = mapping.getAttributeValueFromObject(object);
      if (!((ForeignReferenceMapping) mapping)
          .getIndirectionPolicy()
          .objectIsInstantiated(valueFromMapping)) {
        if (valueHolderPolicy != InMemoryQueryIndirectionPolicy.SHOULD_TRIGGER_INDIRECTION) {
          // If the client wishes us to trigger the indirection then we should do so,
          // Other wise throw the exception
          throw QueryException
              .mustInstantiateValueholders(); // you should instantiate the valueholder for this to
                                              // work
        }

        // maybe we should throw this exception from the start, to save time
      }
      Object valueToIterate = mapping.getRealAttributeValueFromObject(object, session);
      UnitOfWorkImpl uow = isObjectUnregistered ? (UnitOfWorkImpl) session : null;

      // First check that object in fact is unregistered.
      // toDo: ?? Why is this commented out? Why are we supporting the unregistered thing at all?
      // Does not seem to be any public API for this, nor every used internally?
      // if (isObjectUnregistered) {
      //	isObjectUnregistered = !uow.getCloneMapping().containsKey(object);
      // }
      if (mapping.isCollectionMapping() && (valueToIterate != null)) {
        // For bug 2766379 must use the correct version of vectorFor to
        // unwrap the result same time.
        valueToIterate = mapping.getContainerPolicy().vectorFor(valueToIterate, session);

        // toDo: If the value is empty, need to support correct inner/outer join filtering
        // symantics.
        // For CR 2612601, try to partially replace the result with already
        // registered objects.
        if (isObjectUnregistered && (uow.getCloneMapping().get(object) == null)) {
          Vector objectValues = (Vector) valueToIterate;
          for (int i = 0; i < objectValues.size(); i++) {
            Object original = objectValues.elementAt(i);
            Object clone =
                uow.getIdentityMapAccessorInstance()
                    .getIdentityMapManager()
                    .getFromIdentityMap(original);
            if (clone != null) {
              objectValues.setElementAt(clone, i);
            }
          }
        }

        // For CR 2612601, conforming without registering, a query could be
        // bob.get("address").get("city").equal("Ottawa"); where the address
        // has been registered and modified in the UOW, but bob has not.  Thus
        // even though bob does not point to the modified address now, it will
        // as soon as it is registered, so should point to it here.
      } else if (isObjectUnregistered && (uow.getCloneMapping().get(object) == null)) {
        Object clone =
            uow.getIdentityMapAccessorInstance()
                .getIdentityMapManager()
                .getFromIdentityMap(valueToIterate);
        if (clone != null) {
          valueToIterate = clone;
        }
      }
      return valueToIterate;
    } else if (mapping.isAggregateMapping()) {
      Object aggregateValue = mapping.getAttributeValueFromObject(object);
      // Bug 3995468 - if this query key is to a mapping in an aggregate object, get the object from
      // actual mapping rather than the aggregate mapping
      while (readMappingFromQueryKey
          && mapping.isAggregateObjectMapping()
          && !((AggregateObjectMapping) mapping)
              .getReferenceClass()
              .equals(queryKey.getDescriptor().getJavaClass())) {
        mapping =
            mapping
                .getReferenceDescriptor()
                .getObjectBuilder()
                .getMappingForField(((DirectQueryKey) queryKey).getField());
        aggregateValue = mapping.getRealAttributeValueFromObject(aggregateValue, session);
      }
      return aggregateValue;
    } else {
      throw QueryException.cannotConformExpression();
    }
  }