/// <summary>
/// Add key to the trie. Returns true if this is a new item in the trie
/// rather than a duplicate.
/// </summary>
/// <param name="prefix"></param>
/// <param name="start"></param>
/// <param name="size"></param>
/// <returns></returns>
public bool Add(byte[] prefix, int start, int size)
{
// We are at the node corresponding to the prefix. We are done.
if (size == 0)
{
++m_referenceCount;
return(m_referenceCount == 1);
}
byte currentCharacter = prefix[start];
if (currentCharacter < m_minCharacter || currentCharacter >= m_minCharacter + m_count)
{
// The character is out of range of currently handled
// charcters. We have to extend the table.
if (m_count == 0)
{
m_minCharacter = currentCharacter;
m_count = 1;
m_next = null;
}
else if (m_count == 1)
{
byte oldc = m_minCharacter;
Trie oldp = m_next[0];
m_count = (short)((m_minCharacter < currentCharacter ? currentCharacter - m_minCharacter : m_minCharacter - currentCharacter) + 1);
m_next = new Trie[m_count];
m_minCharacter = Math.Min(m_minCharacter, currentCharacter);
m_next[oldc - m_minCharacter] = oldp;
}
else if (m_minCharacter < currentCharacter)
{
// The new character is above the current character range.
m_count = (short)(currentCharacter - m_minCharacter + 1);
m_next = m_next.Resize(m_count, true);
}
else
{
// The new character is below the current character range.
m_count = (short)((m_minCharacter + m_count) - currentCharacter);
m_next = m_next.Resize(m_count, false);
m_minCharacter = currentCharacter;
}
}
// If next node does not exist, create one.
if (m_count == 1)
{
if (m_next == null)
{
m_next = new Trie[1];
m_next[0] = new Trie();
++m_liveNodes;
//alloc_Debug.Assert(next.node);
}
return(m_next[0].Add(prefix, start + 1, size - 1));
}
else
{
if (m_next[currentCharacter - m_minCharacter] == null)
{
m_next[currentCharacter - m_minCharacter] = new Trie();
++m_liveNodes;
//alloc_Debug.Assert(next.table [c - min]);
}
return(m_next[currentCharacter - m_minCharacter].Add(prefix, start + 1, size - 1));
}
}
/// <summary>
/// Add key to the trie. Returns true if this is a new item in the trie
/// rather than a duplicate.
/// </summary>
/// <param name="prefix"></param>
/// <param name="start"></param>
/// <param name="size"></param>
/// <returns></returns>
public bool Add([NotNull] byte[] prefix, int start, int size)
{
// We are at the node corresponding to the prefix. We are done.
if (size == 0)
{
++m_referenceCount;
return m_referenceCount == 1;
}
byte currentCharacter = prefix[start];
if (currentCharacter < m_minCharacter || currentCharacter >= m_minCharacter + m_count)
{
// The character is out of range of currently handled
// characters. We have to extend the table.
if (m_count == 0)
{
m_minCharacter = currentCharacter;
m_count = 1;
m_next = null;
}
else if (m_count == 1)
{
byte oldc = m_minCharacter;
Trie oldp = m_next[0];
m_count = (short)((m_minCharacter < currentCharacter ? currentCharacter - m_minCharacter : m_minCharacter - currentCharacter) + 1);
m_next = new Trie[m_count];
m_minCharacter = Math.Min(m_minCharacter, currentCharacter);
m_next[oldc - m_minCharacter] = oldp;
}
else if (m_minCharacter < currentCharacter)
{
// The new character is above the current character range.
m_count = (short)(currentCharacter - m_minCharacter + 1);
m_next = m_next.Resize(m_count, true);
}
else
{
// The new character is below the current character range.
m_count = (short)((m_minCharacter + m_count) - currentCharacter);
m_next = m_next.Resize(m_count, false);
m_minCharacter = currentCharacter;
}
}
// If next node does not exist, create one.
if (m_count == 1)
{
if (m_next == null)
{
m_next = new Trie[1];
m_next[0] = new Trie();
++m_liveNodes;
//alloc_Debug.Assert(next.node);
}
return m_next[0].Add(prefix, start + 1, size - 1);
}
else
{
if (m_next[currentCharacter - m_minCharacter] == null)
{
m_next[currentCharacter - m_minCharacter] = new Trie();
++m_liveNodes;
//alloc_Debug.Assert(next.table [c - min]);
}
return m_next[currentCharacter - m_minCharacter].Add(prefix, start + 1, size - 1);
}
}
/// <summary>
// Remove key from the trie. Returns true if the item is actually
/// removed from the trie.
/// </summary>
/// <param name="prefix"></param>
/// <param name="start"></param>
/// <param name="size"></param>
/// <returns></returns>
public bool Remove(byte[] prefix, int start, int size)
{
if (size == 0)
{
if (m_referenceCount == 0)
{
return(false);
}
m_referenceCount--;
return(m_referenceCount == 0);
}
byte currentCharacter = prefix[start];
if (m_count == 0 || currentCharacter < m_minCharacter || currentCharacter >= m_minCharacter + m_count)
{
return(false);
}
Trie nextNode = m_count == 1 ? m_next[0] : m_next[currentCharacter - m_minCharacter];
if (nextNode == null)
{
return(false);
}
bool wasRemoved = nextNode.Remove(prefix, start + 1, size - 1);
if (nextNode.IsRedundant())
{
//delete next_node;
Debug.Assert(m_count > 0);
if (m_count == 1)
{
m_next = null;
m_count = 0;
--m_liveNodes;
Debug.Assert(m_liveNodes == 0);
}
else
{
m_next[currentCharacter - m_minCharacter] = null;
Debug.Assert(m_liveNodes > 1);
--m_liveNodes;
// Compact the table if possible
if (m_liveNodes == 1)
{
// If there's only one live node in the table we can
// switch to using the more compact single-node
// representation
Trie node = null;
for (short i = 0; i < m_count; ++i)
{
if (m_next[i] != null)
{
node = m_next[i];
m_minCharacter = (byte)(i + m_minCharacter);
break;
}
}
Debug.Assert(node != null);
m_next = null;
m_next = new Trie[] { node };
m_count = 1;
}
else if (currentCharacter == m_minCharacter)
{
// We can compact the table "from the left"
byte newMin = m_minCharacter;
for (short i = 1; i < m_count; ++i)
{
if (m_next[i] != null)
{
newMin = (byte)(i + m_minCharacter);
break;
}
}
Debug.Assert(newMin != m_minCharacter);
Debug.Assert(newMin > m_minCharacter);
Debug.Assert(m_count > newMin - m_minCharacter);
m_count = (short)(m_count - (newMin - m_minCharacter));
m_next = m_next.Resize(m_count, false);
m_minCharacter = newMin;
}
else if (currentCharacter == m_minCharacter + m_count - 1)
{
// We can compact the table "from the right"
short newCount = m_count;
for (short i = 1; i < m_count; ++i)
{
if (m_next[m_count - 1 - i] != null)
{
newCount = (short)(m_count - i);
break;
}
}
Debug.Assert(newCount != m_count);
m_count = newCount;
m_next = m_next.Resize(m_count, true);
}
}
}
return(wasRemoved);
}
public XSub([NotNull] Ctx parent, int threadId, int socketId)
: base(parent, threadId, socketId)
{
m_options.SocketType = ZmqSocketType.Xsub;
m_hasMessage = false;
m_more = false;
m_options.Linger = 0;
m_fairQueueing = new FairQueueing();
m_distribution = new Distribution();
m_subscriptions = new Trie();
m_message = new Msg();
m_message.InitEmpty();
}