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//----------------------------------------------------------------------------
//
// Module:      NestingInfo.java
//
// Description: Subtransaction state management.
//
// Product:     com.sun.jts.CosTransactions
//
// Author:      Simon Holdsworth
//
// Date:        March, 1997
//
// Copyright (c):   1995-1997 IBM Corp.
//
//   The source code for this program is not published or otherwise divested
//   of its trade secrets, irrespective of what has been deposited with the
//   U.S. Copyright Office.
//
//   This software contains confidential and proprietary information of
//   IBM Corp.
//----------------------------------------------------------------------------

package com.sun.jts.CosTransactions;

import java.util.*;

import org.omg.CORBA.*;
import org.omg.CosTransactions.*;

/**
 * The NestingInfo interface provides operations that record all nesting
 * information relevant to a Coordinator, that is, the set of children
 * (SubCoordinators) and the sequence of ancestors (Coordinators/global IDs).
 * As an instance of this class may be accessed from multiple threads within a
 * process, serialisation for thread-safety is necessary in the
 * implementation. The information recorded in an instance of this class does
 * not need to be reconstructible in the case of a system failure as
 * subtransactions are not durable.
 *
 * @version 0.01
 *
 * @author Simon Holdsworth, IBM Corporation
 *
 * @see
 */
class NestingInfo {
    CoordinatorImpl[] ancestorSeq = null;
    Vector childSet = new Vector();
    boolean removed = false;

    /**
     * Default NestingInfo constructor.
     *
     * @param
     *
     * @return
     *
     * @see
     */
    NestingInfo() {}

    /**
     * Defines the sequence of ancestors and initialises the
     * set of children to be empty.
     *
     * @param ancestors  The ancestors
     *
     * @return
     *
     * @see
     */
    NestingInfo(CoordinatorImpl[] ancestors) {

        // If the sequence of ancestors is empty, set the removed flag as this
        // NestingInfo is part of a top-level transaction.

        ancestorSeq = (CoordinatorImpl[])ancestors.clone();
        removed = (ancestors.length == 0);
    }

    /**
     * Adds the given SubCoordinator as a child.
     * 

* If the reference is already in the set, the operation returns false. * * @param child The child Coordinator. * * @return Indicates success of the operation. * * @see */ boolean addChild(CoordinatorImpl child) { boolean result = !childSet.contains(child); if( result ) childSet.addElement(child); return result; } /** * Removes the given SubCoordinator as a child. *

* If the reference is not in the set, the operation returns false. * * @param child The child Coordinator. * * @return Indicates success of the operation. * * @see */ boolean removeChild(CoordinatorImpl child) { boolean result = childSet.removeElement(child); return result; } /** * Empties the set of children. * * @param * * @return * * @see */ void empty() { childSet.removeAllElements(); } /** * Removes the given Coordinator as a child from the parent Coordinator. *

* If the child could not be removed from the parent, the operation returns * false. * * @param child The child coordinator. * * @return Indicates success of the operation. * * @see */ boolean removeFromParent(CoordinatorImpl child) { // If not already done, remove the child from the set of its parents. // If the NestingInfo instance was created for a top-level // transaction, the known to parent flag will always be set. // NOTE: Assumes parent is a CoordinatorImpl. boolean result = true; if(!removed) { CoordinatorImpl parent = ancestorSeq[0]; result = parent.removeChild(child); removed = true; } return result; } /** * Returns a reference to the parent Coordinator. *

* If there is none, returns null. *

* The parent Coordinator is the first in the sequence of ancestors. *

* If the forgetting flag is set, the NestingInfo must not call the parent * when the child calls removeFromParent. * * @param forgetting Indicates whether the transaction is being forgotten. * * @return The parent Coordinator. * * @see */ CoordinatorImpl getParent(boolean forgetting) { CoordinatorImpl result = null; // If there are no ancestors, there is no parent, // otherwise return the first ancestor. if (ancestorSeq.length != 0) result = ancestorSeq[0]; // If the Coordinator is being cleaned up, then we must not // call the parent when the child calls removeFromParent. if( forgetting ) removed = true; return result; } /** * Returns a reference to the top-level Coordinator. *

* If the containing Coordinator is the top-level one, a null reference is * returned. *

* The top-level Coordinator is the last in the sequence of ancestors. * * @param * * @return The top-level ancestor. * * @see */ CoordinatorImpl getTopLevel() { CoordinatorImpl result = null; // If there are no ancestors, there is no top-level, // otherwise return the last ancestor. if( ancestorSeq.length != 0 ) result = ancestorSeq[ancestorSeq.length - 1]; return result; } /** * Returns a copy of the sequence of ancestors of the Coordinator. *

* If the containing Coordinator is the top-level one, an empty * sequence is returned. *

* The caller is responsible for freeing the sequence storage. * * @param * * @return The sequence of ancestors. * * @see */ CoordinatorImpl[] getAncestors() { CoordinatorImpl[] result = null; // If there are no ancestors, return the empty sequence. // If we cannot obtain a buffer to copy the sequence, return // empty sequence Perhaps an exception should be raised instead ? result = (CoordinatorImpl[]) ancestorSeq.clone(); return result; } /** * Returns a count of the number of children that have been defined. *

* If no nesting information has been defined, the operation returns 0. * * @param * * @return The number of children. * * @see */ int numChildren() { return childSet.size(); } /** * Checks whether any child represents an active transaction. *

* This is used during sending_reply to check for outstanding work. *

* 'active' here means subordinate children that have not * registered with their superior, or root children - * these represent parts of a transaction that may not be * committed or rolled back before the parent completes. * * @param * * @return Indicates if all is OK. * * @see */ boolean replyCheck() { boolean result = false; // If there are any children, browse through the set, checking them. for (int i = 0; i < childSet.size() && !result; i++) { CoordinatorImpl child = (CoordinatorImpl) childSet.elementAt(i); result = child.isActive(); } return result; } /** * Determines whether the Coordinator containing the NestingInfo object is * a descendant of the other Coordinator. *

* This is true if the other Coordinator is the same * as one of the ancestors. * * @param other The other Coordinator. * * @return Indicates success of the operation. * * @see */ boolean isDescendant(Coordinator other) { boolean result = false; // Go through the ancestors, checking whether the given // transaction is the same as any of them. try { for (int i = 0; i < ancestorSeq.length && !result; i++) { result = ancestorSeq[i].is_same_transaction(other); } } catch(SystemException exc) { result = false; } return result; } /** * Rolls back all children in the set; if there are none the operation does * nothing. * * @param * * @return * * @see */ void rollbackFamily() { // If there are any children, browse through the set, // rolling them back. while (childSet.size() > 0) { // Note that we browse in a different way here, as each // child removes itself from the set when the rollback is // complete, so we just keep getting the // first element in the set until the set is empty. CoordinatorImpl child = (CoordinatorImpl)childSet.elementAt(0); try { child.rollback(true); } catch (Throwable exc) {} } } }





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