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/*
 * Copyright (c) 1998, 2019 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Public License v. 2.0 which is available at
 * http://www.eclipse.org/legal/epl-2.0,
 * or the Eclipse Distribution License v. 1.0 which is available at
 * http://www.eclipse.org/org/documents/edl-v10.php.
 *
 * SPDX-License-Identifier: EPL-2.0 OR BSD-3-Clause
 */

// Contributors:
//     Oracle - initial API and implementation from Oracle TopLink
package org.eclipse.persistence.queries;

import java.util.*;

import org.eclipse.persistence.descriptors.ClassDescriptor;
import org.eclipse.persistence.exceptions.*;
import org.eclipse.persistence.expressions.*;
import org.eclipse.persistence.internal.queries.*;
import org.eclipse.persistence.internal.sessions.AbstractRecord;
import org.eclipse.persistence.internal.expressions.*;
import org.eclipse.persistence.internal.databaseaccess.*;
import org.eclipse.persistence.internal.helper.*;

/**
 * 

Purpose: * Stream class which is used to deal with large collections returned * from TOPLink queries more efficiently. * *

Responsibilities: * Wraps a database result set cursor to provide a stream on the resulting selected objects. * * @author Yvon Lavoie * @since TOPLink/Java 1.0 */ public class CursoredStream extends Cursor { /** Marker for backing up. */ protected int marker; /** * INTERNAL: * Initialize the state of the stream */ public CursoredStream() { super(); } /** * INTERNAL: * Initialize the state of the stream */ public CursoredStream(DatabaseCall call, CursoredStreamPolicy policy) { super(call, policy); // Must close on exception as stream will not be returned to user. try { setLimits(); } catch (RuntimeException exception) { try { close(); } catch (RuntimeException ignore) { } throw exception; } } /** * PUBLIC: * Return whether the cursored stream is at its end. */ public boolean atEnd() throws DatabaseException { if ((this.position + 1) <= this.objectCollection.size()) { return false; } if (this.nextRow != null) { return false; } if (isClosed()) { return true; } int oldSize = this.objectCollection.size(); retrieveNextPage(); return this.objectCollection.size() == oldSize; } /** * PUBLIC: * Returns the number of objects that can be read from this input without blocking. */ public int available() throws DatabaseException { //For CR#2570/CR#2571. return this.objectCollection.size() - this.position; } /** * INTERNAL: * Must build the count on the primary key fields, not * as * is not allowed if there was a distinct. * This require a manually defined operator. * added for CR 2900 */ public Expression buildCountDistinctExpression(List includeFields, ExpressionBuilder builder) { ExpressionOperator countOperator = new ExpressionOperator(); countOperator.setType(ExpressionOperator.AggregateOperator); Vector databaseStrings = new Vector(); databaseStrings.add("COUNT(DISTINCT "); databaseStrings.add(")"); countOperator.printsAs(databaseStrings); countOperator.bePrefix(); countOperator.setNodeClass(ClassConstants.FunctionExpression_Class); Expression firstFieldExpression = builder.getField(((DatabaseField)includeFields.get(0)).getQualifiedName()); return countOperator.expressionForArguments(firstFieldExpression, new ArrayList(0)); } /** * INTERNAL: * Answer a list of the elements of the receiver's collection from startIndex to endIndex. */ protected List copy(int startIndex, int endIndex) throws QueryException { while (this.objectCollection.size() < endIndex) { if (retrieveNextObject() == null) { throw QueryException.readBeyondStream(this.query); } } return Helper.copyVector(this.objectCollection, startIndex, endIndex); } /** * INTERNAL: * Retrieve the size of the open cursor by executing a count on the same query as the cursor. */ @Override protected int getCursorSize() throws DatabaseException, QueryException { ValueReadQuery query; if (!((CursoredStreamPolicy)this.policy).hasSizeQuery()) { if (this.query.isCallQuery()) { throw QueryException.additionalSizeQueryNotSpecified(this.query); } if (!this.query.isExpressionQuery()) { throw QueryException.sizeOnlySupportedOnExpressionQueries(this.query); } // Construct the select statement SQLSelectStatement selectStatement = new SQLSelectStatement(); // 2612538 - the default size of Map (32) is appropriate Map clonedExpressions = new IdentityHashMap(); selectStatement.setWhereClause(((ExpressionQueryMechanism)this.query.getQueryMechanism()).buildBaseSelectionCriteria(false, clonedExpressions)); ClassDescriptor descriptor = this.query.getDescriptor(); // Case, normal read for branch inheritance class that reads subclasses all in its own table(s). if (descriptor.hasInheritance() && (descriptor.getInheritancePolicy().getWithAllSubclassesExpression() != null)) { Expression branchIndicator = descriptor.getInheritancePolicy().getWithAllSubclassesExpression(); if ((branchIndicator != null) && (selectStatement.getWhereClause() != null)) { selectStatement.setWhereClause(selectStatement.getWhereClause().and(branchIndicator)); } else if (branchIndicator != null) { selectStatement.setWhereClause((Expression)branchIndicator.clone()); } } selectStatement.setTables((Vector)descriptor.getTables().clone()); // Count * cannot be used with distinct. // Count * cannot be used with distinct. // CR 2900 if the original query used distinct only on one field then perform the count // on that field. if (((ReadAllQuery)this.query).shouldDistinctBeUsed() && (this.query.getCall().getFields().size() == 1)) { selectStatement.addField(buildCountDistinctExpression(this.query.getCall().getFields(), ((ReadAllQuery)this.query).getExpressionBuilder())); } else { selectStatement.computeDistinct(); if (selectStatement.shouldDistinctBeUsed() && (descriptor.getPrimaryKeyFields().size() == 1)) { // Can only do this with a singleton primary keys. selectStatement.addField(buildCountDistinctExpression(descriptor.getPrimaryKeyFields(), ((ReadAllQuery)this.query).getExpressionBuilder())); } else { selectStatement.addField(((ReadAllQuery)this.query).getExpressionBuilder().count()); } selectStatement.dontUseDistinct(); } selectStatement.normalize(getSession(), descriptor, clonedExpressions); // Construct the query query = new ValueReadQuery(); query.setSQLStatement(selectStatement); } else { query = ((CursoredStreamPolicy)this.policy).getSizeQuery(); } Number value = (Number)getSession().executeQuery(query, this.query.getTranslationRow()); if (value == null) { throw QueryException.incorrectSizeQueryForCursorStream(this.query); } return value.intValue(); } /** * INTERNAL: * Return the threshold for the stream. */ protected int getInitialReadSize() { return ((CursoredStreamPolicy)this.policy).getInitialReadSize(); } /** * INTERNAL: * Return the marker used for mark() {@literal &} reset() operations. */ protected int getMarker() { return marker; } /** * INTERNAL: * Return the page size for the stream. */ @Override public int getPageSize() { return this.policy.getPageSize(); } /** * INTERNAL: * Return the position of the stream inside the object collection */ @Override public int getPosition() { return position; } /** * PUBLIC: * Return whether the cursored stream has any more elements. */ @Override public boolean hasMoreElements() { return !atEnd(); } /** * PUBLIC: * Return whether the cursored stream has any more elements. */ @Override public boolean hasNext() { return !atEnd(); } /** * PUBLIC: * Mark the present position in the stream. * Subsequent calls to reset() will attempt to reposition the stream to this point. * * @param readAheadLimit Limit on the number of characters that may be * read while still preserving the mark. Because * the stream's input comes from the database, there * is no actual limit, so this argument is ignored. */ public void mark(int readAheadLimit) { this.marker = this.position; } /** * PUBLIC: * Tests if this input stream supports the mark * and reset methods. The markSupported * method of InputStream returns false. */ public boolean markSupported() { return true; } /** * PUBLIC: * Return the next object from the collection, if beyond the read limit read from the cursor. * @return the next object in stream */ @Override public Object nextElement() { return read(); } /** * PUBLIC: * Return the next object from the collection, if beyond the read limit read from the cursor. * @return the next object in stream */ @Override public Object next() { return read(); } /** * PUBLIC: * Return a Vector of at most numberOfElements of the next objects from the collection. If there * aren't that many objects left to read, just return what is available. * @return the next objects in stream */ public Vector nextElements(int numberOfElements) { Vector nextElements = new Vector(numberOfElements); while (nextElements.size() < numberOfElements) { if (atEnd()) { return nextElements; } nextElements.add(nextElement()); } return nextElements; } /** * PUBLIC: * Return a Vector of at most numberOfElements of the next objects from the collection. If there * aren't that many objects left to read, just return what is available. * @return the next objects in stream */ public List next(int numberOfElements) { return nextElements(numberOfElements); } /** * PUBLIC: * Return the next object in the stream, without incrementing the stream's position. */ public Object peek() throws DatabaseException { Object object = read(); this.position = this.position - 1; return object; } /** * PUBLIC: * This method differs slightly from conventional read() operation on a Java stream. This * method return the next object in the collection rather than specifying the number of * bytes to be read in. * * Return the next object from the collection, if beyond the read limit read from the cursor * @return - next object in stream * @throws DatabaseException if read pass end of stream */ public Object read() throws DatabaseException, QueryException { // CR#2571. If no more objects in collection get next page. if (this.objectCollection.size() == this.position) { retrieveNextPage(); } if (atEnd()) { throw QueryException.readBeyondStream(this.query); } Object object = this.objectCollection.get(this.position); this.position = this.position + 1; return object; } /** * PUBLIC: * This method differs slightly from conventional read() operation on a Java stream. This * method returns the next number of objects in the collection in a vector. * * Return the next object from the collection, if beyond the read limit read from the cursor * @param number - number of objects to be returned * @return - vector containing next number of objects * @throws DatabaseException if read pass end of stream */ public List read(int number) throws DatabaseException { List result = copy(this.position, this.position + number); this.position = this.position + result.size(); return result; } /** * PUBLIC: * Release all objects read in so far. * This should be performed when reading in a large collection of * objects in order to preserve memory. */ @Override public void clear() { super.clear(); if (this.position == 0) { return; } this.objectCollection = Helper.copyVector(this.objectCollection, this.position, this.objectCollection.size()); this.position = 0; } /** * PUBLIC: * Release all objects read in so far. * This should be performed when reading in a large collection of * objects in order to preserve memory. */ public void releasePrevious() { clear(); } /** * PUBLIC: * Repositions this stream to the position at the time the * mark method was last called on this stream. */ public void reset() { this.position = this.marker; } @Override protected Object retrieveNextObject() throws DatabaseException { while (true) { AbstractRecord row = null; if (this.nextRow == null) { if (isClosed()) { return null; } row = getAccessor().cursorRetrieveNextRow(this.fields, this.resultSet, this.executionSession); } else { row = this.nextRow; this.nextRow = null; } if (row == null) { close(); return null; } // If using 1-m joining need to fetch 1-m rows as well. if (this.query.isObjectLevelReadQuery() && ((ObjectLevelReadQuery)this.query).hasJoining()) { if (!isClosed()) { JoinedAttributeManager joinManager = ((ObjectLevelReadQuery)this.query).getJoinedAttributeManager(); if (joinManager.isToManyJoin()) { this.nextRow = joinManager.processDataResults(row, this, true); if (this.nextRow == null) { close(); } } } } Object object = buildAndRegisterObject(row); if (object == InvalidObject.instance) { continue; } if (object != null) { this.objectCollection.add(object); } return object; } } /** * INTERNAL: * Retrieve and add the next page size of rows to the vector. * Return the last object, or null if at end. */ protected Object retrieveNextPage() throws DatabaseException { Object last = null; int pageSize = getPageSize(); for (int index = 0; index < pageSize; index++) { last = retrieveNextObject(); if (last == null) { return null; } } return last; } /** * INTERNAL: * Initialize the stream size and position */ protected void setLimits() { this.position = 0; this.marker = 0; int readSize = getInitialReadSize(); for (int index = 0; index < readSize; index++) { retrieveNextObject(); } } /** * INTERNAL: * Set the marker used for mark() {@literal &} reset() operations */ protected void setMarker(int value) { marker = value; } }