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/*
* Copyright (c) 2008, openmetaverse.org, http://opensimulator.org/
* All rights reserved.
*
* - Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
* - Neither the name of the openmetaverse.org nor the names
* of its contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
using System;
using System.Threading;
using System.Collections.Generic;
namespace OpenSim.Framework
{
/// <summary>
/// A double dictionary that is thread abort safe.
/// </summary>
/// <remarks>
/// This adapts OpenMetaverse.DoubleDictionary to be thread-abort safe by acquiring ReaderWriterLockSlim within
/// a finally section (which can't be interrupted by Thread.Abort()).
/// </remarks>
public class DoubleDictionaryThreadAbortSafe<TKey1, TKey2, TValue>
{
Dictionary<TKey1, TValue> Dictionary1;
Dictionary<TKey2, TValue> Dictionary2;
ReaderWriterLockSlim rwLock = new ReaderWriterLockSlim();
public DoubleDictionaryThreadAbortSafe()
{
Dictionary1 = new Dictionary<TKey1,TValue>();
Dictionary2 = new Dictionary<TKey2,TValue>();
}
public DoubleDictionaryThreadAbortSafe(int capacity)
{
Dictionary1 = new Dictionary<TKey1, TValue>(capacity);
Dictionary2 = new Dictionary<TKey2, TValue>(capacity);
}
~DoubleDictionaryThreadAbortSafe()
{
rwLock.Dispose();
}
public void Add(TKey1 key1, TKey2 key2, TValue value)
{
bool gotLock = false;
try
{
// Avoid an asynchronous Thread.Abort() from possibly never existing an acquired lock by placing
// the acquision inside the main try. The inner finally block is needed because thread aborts cannot
// interrupt code in these blocks (hence gotLock is guaranteed to be set correctly).
try {}
finally
{
rwLock.EnterWriteLock();
gotLock = true;
if (Dictionary1.ContainsKey(key1))
{
if (!Dictionary2.ContainsKey(key2))
throw new ArgumentException("key1 exists in the dictionary but not key2");
}
else if (Dictionary2.ContainsKey(key2))
{
if (!Dictionary1.ContainsKey(key1))
throw new ArgumentException("key2 exists in the dictionary but not key1");
}
Dictionary1[key1] = value;
Dictionary2[key2] = value;
}
}
finally
{
if (gotLock)
rwLock.ExitWriteLock();
}
}
public bool Remove(TKey1 key1, TKey2 key2)
{
bool success;
bool gotLock = false;
try
{
// Avoid an asynchronous Thread.Abort() from possibly never existing an acquired lock by placing
// the acquision inside the main try. The inner finally block is needed because thread aborts cannot
// interrupt code in these blocks (hence gotLock is guaranteed to be set correctly).
try {}
finally
{
rwLock.EnterWriteLock();
gotLock = true;
Dictionary1.Remove(key1);
success = Dictionary2.Remove(key2);
}
}
finally
{
if (gotLock)
rwLock.ExitWriteLock();
}
return success;
}
public bool Remove(TKey1 key1)
{
bool found = false;
bool gotLock = false;
try
{
// Avoid an asynchronous Thread.Abort() from possibly never existing an acquired lock by placing
// the acquision inside the main try. The inner finally block is needed because thread aborts cannot
// interrupt code in these blocks (hence gotLock is guaranteed to be set correctly).
try {}
finally
{
rwLock.EnterWriteLock();
gotLock = true;
}
// This is an O(n) operation!
TValue value;
if (Dictionary1.TryGetValue(key1, out value))
{
foreach (KeyValuePair<TKey2, TValue> kvp in Dictionary2)
{
if (kvp.Value.Equals(value))
{
try { }
finally
{
Dictionary1.Remove(key1);
Dictionary2.Remove(kvp.Key);
}
found = true;
break;
}
}
}
}
finally
{
if (gotLock)
rwLock.ExitWriteLock();
}
return found;
}
public bool Remove(TKey2 key2)
{
bool found = false;
bool gotLock = false;
try
{
// Avoid an asynchronous Thread.Abort() from possibly never existing an acquired lock by placing
// the acquision inside the main try. The inner finally block is needed because thread aborts cannot
// interrupt code in these blocks (hence gotLock is guaranteed to be set correctly).
try {}
finally
{
rwLock.EnterWriteLock();
gotLock = true;
}
// This is an O(n) operation!
TValue value;
if (Dictionary2.TryGetValue(key2, out value))
{
foreach (KeyValuePair<TKey1, TValue> kvp in Dictionary1)
{
if (kvp.Value.Equals(value))
{
try { }
finally
{
Dictionary2.Remove(key2);
Dictionary1.Remove(kvp.Key);
}
found = true;
break;
}
}
}
}
finally
{
if (gotLock)
rwLock.ExitWriteLock();
}
return found;
}
public void Clear()
{
bool gotLock = false;
try
{
// Avoid an asynchronous Thread.Abort() from possibly never existing an acquired lock by placing
// the acquision inside the main try. The inner finally block is needed because thread aborts cannot
// interrupt code in these blocks (hence gotLock is guaranteed to be set correctly).
try {}
finally
{
rwLock.EnterWriteLock();
gotLock = true;
Dictionary1.Clear();
Dictionary2.Clear();
}
}
finally
{
if (gotLock)
rwLock.ExitWriteLock();
}
}
public int Count
{
get { return Dictionary1.Count; }
}
public bool ContainsKey(TKey1 key)
{
return Dictionary1.ContainsKey(key);
}
public bool ContainsKey(TKey2 key)
{
return Dictionary2.ContainsKey(key);
}
public bool TryGetValue(TKey1 key, out TValue value)
{
bool success;
bool gotLock = false;
try
{
// Avoid an asynchronous Thread.Abort() from possibly never existing an acquired lock by placing
// the acquision inside the main try. The inner finally block is needed because thread aborts cannot
// interrupt code in these blocks (hence gotLock is guaranteed to be set correctly).
try {}
finally
{
rwLock.EnterReadLock();
gotLock = true;
}
success = Dictionary1.TryGetValue(key, out value);
}
finally
{
if (gotLock)
rwLock.ExitReadLock();
}
return success;
}
public bool TryGetValue(TKey2 key, out TValue value)
{
bool success;
bool gotLock = false;
try
{
// Avoid an asynchronous Thread.Abort() from possibly never existing an acquired lock by placing
// the acquision inside the main try. The inner finally block is needed because thread aborts cannot
// interrupt code in these blocks (hence gotLock is guaranteed to be set correctly).
try {}
finally
{
rwLock.EnterReadLock();
gotLock = true;
}
success = Dictionary2.TryGetValue(key, out value);
}
finally
{
if (gotLock)
rwLock.ExitReadLock();
}
return success;
}
public void ForEach(Action<TValue> action)
{
bool gotLock = false;
try
{
// Avoid an asynchronous Thread.Abort() from possibly never existing an acquired lock by placing
// the acquision inside the main try. The inner finally block is needed because thread aborts cannot
// interrupt code in these blocks (hence gotLock is guaranteed to be set correctly).
try {}
finally
{
rwLock.EnterReadLock();
gotLock = true;
}
foreach (TValue value in Dictionary1.Values)
action(value);
}
finally
{
if (gotLock)
rwLock.ExitReadLock();
}
}
public void ForEach(Action<KeyValuePair<TKey1, TValue>> action)
{
bool gotLock = false;
try
{
// Avoid an asynchronous Thread.Abort() from possibly never existing an acquired lock by placing
// the acquision inside the main try. The inner finally block is needed because thread aborts cannot
// interrupt code in these blocks (hence gotLock is guaranteed to be set correctly).
try {}
finally
{
rwLock.EnterReadLock();
gotLock = true;
}
foreach (KeyValuePair<TKey1, TValue> entry in Dictionary1)
action(entry);
}
finally
{
if (gotLock)
rwLock.ExitReadLock();
}
}
public void ForEach(Action<KeyValuePair<TKey2, TValue>> action)
{
bool gotLock = false;
try
{
// Avoid an asynchronous Thread.Abort() from possibly never existing an acquired lock by placing
// the acquision inside the main try. The inner finally block is needed because thread aborts cannot
// interrupt code in these blocks (hence gotLock is guaranteed to be set correctly).
try {}
finally
{
rwLock.EnterReadLock();
gotLock = true;
}
foreach (KeyValuePair<TKey2, TValue> entry in Dictionary2)
action(entry);
}
finally
{
if (gotLock)
rwLock.ExitReadLock();
}
}
public TValue FindValue(Predicate<TValue> predicate)
{
bool gotLock = false;
try
{
// Avoid an asynchronous Thread.Abort() from possibly never existing an acquired lock by placing
// the acquision inside the main try. The inner finally block is needed because thread aborts cannot
// interrupt code in these blocks (hence gotLock is guaranteed to be set correctly).
try {}
finally
{
rwLock.EnterReadLock();
gotLock = true;
}
foreach (TValue value in Dictionary1.Values)
{
if (predicate(value))
return value;
}
}
finally
{
if (gotLock)
rwLock.ExitReadLock();
}
return default(TValue);
}
public IList<TValue> FindAll(Predicate<TValue> predicate)
{
IList<TValue> list = new List<TValue>();
bool gotLock = false;
try
{
// Avoid an asynchronous Thread.Abort() from possibly never existing an acquired lock by placing
// the acquision inside the main try. The inner finally block is needed because thread aborts cannot
// interrupt code in these blocks (hence gotLock is guaranteed to be set correctly).
try {}
finally
{
rwLock.EnterReadLock();
gotLock = true;
}
foreach (TValue value in Dictionary1.Values)
{
if (predicate(value))
list.Add(value);
}
}
finally
{
if (gotLock)
rwLock.ExitReadLock();
}
return list;
}
public int RemoveAll(Predicate<TValue> predicate)
{
IList<TKey1> list = new List<TKey1>();
bool gotUpgradeableLock = false;
try
{
// Avoid an asynchronous Thread.Abort() from possibly never existing an acquired lock by placing
// the acquision inside the main try. The inner finally block is needed because thread aborts cannot
// interrupt code in these blocks (hence gotLock is guaranteed to be set correctly).
try {}
finally
{
rwLock.EnterUpgradeableReadLock();
gotUpgradeableLock = true;
}
foreach (KeyValuePair<TKey1, TValue> kvp in Dictionary1)
{
if (predicate(kvp.Value))
list.Add(kvp.Key);
}
IList<TKey2> list2 = new List<TKey2>(list.Count);
foreach (KeyValuePair<TKey2, TValue> kvp in Dictionary2)
{
if (predicate(kvp.Value))
list2.Add(kvp.Key);
}
bool gotWriteLock = false;
try
{
try {}
finally
{
rwLock.EnterWriteLock();
gotWriteLock = true;
for (int i = 0; i < list.Count; i++)
Dictionary1.Remove(list[i]);
for (int i = 0; i < list2.Count; i++)
Dictionary2.Remove(list2[i]);
}
}
finally
{
if (gotWriteLock)
rwLock.ExitWriteLock();
}
}
finally
{
if (gotUpgradeableLock)
rwLock.ExitUpgradeableReadLock();
}
return list.Count;
}
}
}
|
