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-rw-r--r--plugins/!Deprecated/Dbx_tree/src/BTree.h1343
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diff --git a/plugins/!Deprecated/Dbx_tree/src/BTree.h b/plugins/!Deprecated/Dbx_tree/src/BTree.h
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index 0000000000..f1d44ccd27
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+++ b/plugins/!Deprecated/Dbx_tree/src/BTree.h
@@ -0,0 +1,1343 @@
+/*
+
+dbx_tree: tree database driver for Miranda IM
+
+Copyright 2007-2010 Michael "Protogenes" Kunz,
+
+This program is free software; you can redistribute it and/or
+modify it under the terms of the GNU General Public License
+as published by the Free Software Foundation; either version 2
+of the License, or (at your option) any later version.
+
+This program is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+GNU General Public License for more details.
+
+You should have received a copy of the GNU General Public License
+along with this program; if not, write to the Free Software
+Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+
+*/
+
+#pragma once
+
+#include <stack>
+#include "lockfree_hashmultimap.h"
+#include "sigslot.h"
+#include <stdint.h>
+
+#include "Logger.h"
+
+template <typename TKey, uint16_t SizeParam = 4>
+class CBTree
+{
+public:
+ typedef uint32_t TNodeRef; /// 32bit indices (not storing pointers)
+ typedef sigslot::signal2< void *, TNodeRef > TOnRootChanged;
+
+ #pragma pack(push, 1) // push current alignment to stack, set alignment to 1 byte boundary
+
+ typedef struct TNode {
+ uint16_t Info; /// Node information (IsLeaf and stored KeyCount)
+ uint16_t Signature; /// signature
+ TNodeRef Parent; /// Handle to the parent node
+ TKey Key[SizeParam * 2 - 1]; /// array with Keys
+ TNodeRef Child[SizeParam * 2]; /// array with child node handles
+ } TNode;
+
+ #pragma pack(pop)
+
+ class iterator
+ {
+ public:
+ iterator();
+ iterator(CBTree* Tree, TNodeRef Node, uint16_t Index);
+ iterator(const iterator& Other);
+ ~iterator();
+
+ CBTree * Tree();
+
+ /**
+ \brief Keeps track of changes in the tree and refresh the iterator
+ **/
+ void setManaged();
+ bool wasDeleted();
+
+ operator bool() const;
+ bool operator !() const;
+
+ const TKey & operator *();
+ const TKey * operator->();
+
+
+ bool operator == (iterator & Other);
+ bool operator < (iterator & Other);
+ bool operator > (iterator & Other);
+
+ iterator& operator =(const iterator& Other);
+
+ iterator& operator ++(); //pre ++i
+ iterator& operator --(); //pre --i
+ iterator operator ++(int); //post i++
+ iterator operator --(int); //post i--
+
+
+ protected:
+ friend class CBTree;
+
+ TNodeRef m_Node;
+ uint16_t m_Index;
+ CBTree* m_Tree;
+
+ bool m_Managed;
+ bool m_LoadedKey;
+ TKey m_ManagedKey;
+ bool m_ManagedDeleted;
+
+ void Backup();
+ void Dec();
+ void Inc();
+ void RemoveManaged(TNodeRef FromNode);
+ void InsertManaged();
+ };
+
+
+ CBTree(TNodeRef RootNode = 0);
+ virtual ~CBTree();
+
+ iterator Insert(const TKey & Key);
+ iterator Find(const TKey & Key);
+ iterator LowerBound(const TKey & Key);
+ iterator UpperBound(const TKey & Key);
+ bool Delete(const TKey & Key);
+
+ typedef sigslot::signal3<void *, const TKey &, uint32_t> TDeleteCallback;
+ void DeleteTree(TDeleteCallback * CallBack, uint32_t Param);
+
+ TNodeRef getRoot();
+ void setRoot(TNodeRef NewRoot);
+
+ TOnRootChanged & sigRootChanged() {return m_sigRootChanged;};
+
+
+protected:
+ static const uint16_t cIsLeafMask = 0x8000;
+ static const uint16_t cKeyCountMask = 0x7FFF;
+ static const uint16_t cFullNode = SizeParam * 2 - 1;
+ static const uint16_t cEmptyNode = SizeParam - 1;
+
+ typedef lockfree::hash_multimap<TNodeRef, iterator*> TManagedMap;
+
+ TNodeRef m_Root;
+ TOnRootChanged m_sigRootChanged;
+ TManagedMap m_ManagedIterators;
+
+ bool m_DestroyTree;
+
+ uint32_t m_AllocCount;
+ uint32_t m_Count;
+ uint32_t m_FreeIndex;
+ TNode * m_Alloc;
+
+ virtual void PrepareInsertOperation();
+ virtual TNode * CreateNewNode(TNodeRef & NodeRef);
+ virtual void DeleteNode(TNodeRef Node);
+ virtual TNode * Read(TNodeRef Node);
+ virtual void Write(TNodeRef Node);
+
+ void DestroyTree();
+
+
+private:
+ friend class iterator;
+
+ bool InNodeFind(const TNode * Node, const TKey & Key, uint16_t & GreaterEqual);
+ void SplitNode(TNodeRef Node, TNode * NodeData, TNodeRef & Left, TNodeRef & Right, TKey & UpKey, TNodeRef ParentNode, uint16_t ParentIndex);
+ TNodeRef MergeNodes(TNodeRef Left, TNode * LeftData, TNodeRef Right, TNode * RightData, const TKey & DownKey, TNodeRef ParentNode, uint16_t ParentIndex);
+ void KeyInsert(TNodeRef Node, TNode * NodeData, uint16_t Where);
+ void KeyDelete(TNodeRef Node, TNode * NodeData, uint16_t Where);
+ void KeyMove(TNodeRef Source, uint16_t SourceIndex, const TNode * SourceData, TNodeRef Dest, uint16_t DestIndex, TNode * DestData);
+};
+
+
+
+
+
+
+template <typename TKey, uint16_t SizeParam>
+CBTree<TKey, SizeParam>::CBTree(TNodeRef RootNode = NULL)
+: m_sigRootChanged(),
+ m_ManagedIterators()
+{
+ m_Root = RootNode;
+ m_DestroyTree = true;
+
+ m_AllocCount = 0;
+ m_Count = 0;
+ m_FreeIndex = 0;
+ m_Alloc = NULL;
+}
+
+template <typename TKey, uint16_t SizeParam>
+CBTree<TKey, SizeParam>::~CBTree()
+{
+ typename TManagedMap::iterator i = m_ManagedIterators.begin();
+ while (i != m_ManagedIterators.end())
+ {
+ i->second->m_Tree = NULL;
+ ++i;
+ }
+
+ if (m_DestroyTree)
+ DestroyTree();
+}
+
+template <typename TKey, uint16_t SizeParam>
+inline bool CBTree<TKey, SizeParam>::InNodeFind(const TNode * Node, const TKey & Key, uint16_t & GreaterEqual)
+{
+ uint16_t l = 0;
+ uint16_t r = (Node->Info & cKeyCountMask);
+ bool res = false;
+ GreaterEqual = 0;
+ while ((l < r) && !res)
+ {
+ GreaterEqual = (l + r) >> 1;
+ if (Node->Key[GreaterEqual] < Key)
+ {
+ GreaterEqual++;
+ l = GreaterEqual;
+ } else if (Node->Key[GreaterEqual] == Key)
+ {
+ //r = -1;
+ res = true;
+ } else {
+ r = GreaterEqual;
+ }
+ }
+
+ return res;
+}
+
+
+template <typename TKey, uint16_t SizeParam>
+inline void CBTree<TKey, SizeParam>::SplitNode(TNodeRef Node, TNode * NodeData, TNodeRef & Left, TNodeRef & Right, TKey & UpKey, TNodeRef ParentNode, uint16_t ParentIndex)
+{
+ const uint16_t upindex = SizeParam - 1;
+ TNode *ldata, *rdata;
+ Left = Node;
+ ldata = NodeData;
+ rdata = CreateNewNode(Right);
+
+ typename TManagedMap::iterator it = m_ManagedIterators.find(Node);
+ while ((it != m_ManagedIterators.end()) && (it->first == Node))
+ {
+ if (it->second->m_Index == upindex)
+ {
+ it->second->m_Index = ParentIndex;
+ it->second->m_Node = ParentNode;
+ m_ManagedIterators.insert(std::make_pair(ParentNode, it->second));
+ it = m_ManagedIterators.erase(it);
+ } else if (it->second->m_Index > upindex)
+ {
+ it->second->m_Index = it->second->m_Index - upindex - 1;
+ it->second->m_Node = Right;
+ m_ManagedIterators.insert(std::make_pair(Right, it->second));
+ it = m_ManagedIterators.erase(it);
+ } else {
+ ++it;
+ }
+ }
+
+ UpKey = NodeData->Key[upindex];
+
+ memcpy(&(rdata->Key[0]), &(NodeData->Key[upindex+1]), sizeof(TKey) * (cFullNode - upindex));
+ if ((NodeData->Info & cIsLeafMask) == 0)
+ {
+ memcpy(&(rdata->Child[0]), &(NodeData->Child[upindex+1]), sizeof(TNodeRef) * (cFullNode - upindex + 1));
+
+ for (int i = 0; i <= upindex; i++)
+ {
+ TNode * tmp = Read(rdata->Child[i]);
+ tmp->Parent = Right;
+ Write(rdata->Child[i]);
+ }
+ }
+
+ rdata->Info = (NodeData->Info & cIsLeafMask) | upindex;
+ NodeData->Info = rdata->Info;
+ rdata->Parent = NodeData->Parent;
+
+ Write(Left);
+ Write(Right);
+}
+
+template <typename TKey, uint16_t SizeParam>
+inline typename CBTree<TKey, SizeParam>::TNodeRef CBTree<TKey, SizeParam>::MergeNodes(TNodeRef Left, TNode * LeftData, TNodeRef Right, TNode * RightData, const TKey & DownKey, TNodeRef ParentNode, uint16_t ParentIndex)
+{
+ uint16_t downindex = LeftData->Info & cKeyCountMask;
+ LeftData->Key[downindex] = DownKey;
+
+ typename TManagedMap::iterator it = m_ManagedIterators.find(Right);
+ while ((it != m_ManagedIterators.end()) && (it->first == Right))
+ {
+ it->second->m_Index = it->second->m_Index + downindex + 1;
+ it->second->m_Node = Left;
+ m_ManagedIterators.insert(std::make_pair(Left, it->second));
+ it = m_ManagedIterators.erase(it);
+ }
+
+ it = m_ManagedIterators.find(ParentNode);
+ while ((it != m_ManagedIterators.end()) && (it->first == ParentNode))
+ {
+ if (it->second->m_Index == ParentIndex)
+ {
+ it->second->m_Index = downindex;
+ it->second->m_Node = Left;
+ m_ManagedIterators.insert(std::make_pair(Left, it->second));
+ it = m_ManagedIterators.erase(it);
+ } else {
+ ++it;
+ }
+ }
+
+ memcpy(&(LeftData->Key[downindex+1]), &(RightData->Key[0]), sizeof(TKey) * (RightData->Info & cKeyCountMask));
+ if ((LeftData->Info & cIsLeafMask) == 0)
+ {
+ memcpy(&(LeftData->Child[downindex+1]), &(RightData->Child[0]), sizeof(TNodeRef) * ((RightData->Info & cKeyCountMask) + 1));
+
+ for (int i = 0; i <= (RightData->Info & cKeyCountMask); i++)
+ {
+ TNode * tmp = Read(RightData->Child[i]);
+ tmp->Parent = Left;
+ Write(RightData->Child[i]);
+ }
+ }
+
+ LeftData->Info = ((LeftData->Info & cIsLeafMask) | (downindex + 1 + (RightData->Info & cKeyCountMask)));
+
+ Write(Left);
+ DeleteNode(Right);
+
+ return Left;
+}
+
+
+template <typename TKey, uint16_t SizeParam>
+inline void CBTree<TKey, SizeParam>::KeyInsert(TNodeRef Node, TNode * NodeData, uint16_t Where)
+{
+ memcpy(&(NodeData->Key[Where+1]), &(NodeData->Key[Where]), sizeof(TKey) * ((NodeData->Info & cKeyCountMask) - Where));
+
+ if ((NodeData->Info & cIsLeafMask) == 0)
+ memcpy(&(NodeData->Child[Where+1]), &(NodeData->Child[Where]), sizeof(TNodeRef) * ((NodeData->Info & cKeyCountMask) - Where + 1));
+
+ NodeData->Info++;
+
+ typename TManagedMap::iterator it = m_ManagedIterators.find(Node);
+ while ((it != m_ManagedIterators.end()) && (it->first == Node))
+ {
+ if (it->second->m_Index >= Where)
+ it->second->m_Index++;
+
+ ++it;
+ }
+}
+
+template <typename TKey, uint16_t SizeParam>
+inline void CBTree<TKey, SizeParam>::KeyDelete(TNodeRef Node, TNode * NodeData, uint16_t Where)
+{
+ NodeData->Info--;
+
+ typename TManagedMap::iterator it = m_ManagedIterators.find(Node);
+ while ((it != m_ManagedIterators.end()) && (it->first == Node))
+ {
+ if (it->second->m_Index == Where)
+ {
+ it->second->Backup();
+ } else if (it->second->m_Index > Where)
+ {
+ it->second->m_Index--;
+ }
+
+ ++it;
+ }
+
+ memcpy(&(NodeData->Key[Where]), &(NodeData->Key[Where+1]), sizeof(TKey) * ((NodeData->Info & cKeyCountMask) - Where));
+
+ if ((NodeData->Info & cIsLeafMask) == 0)
+ memcpy(&(NodeData->Child[Where]), &(NodeData->Child[Where+1]), sizeof(TNodeRef) * ((NodeData->Info & cKeyCountMask) - Where + 1));
+}
+
+
+template <typename TKey, uint16_t SizeParam>
+inline void CBTree<TKey, SizeParam>::KeyMove(TNodeRef Source, uint16_t SourceIndex, const TNode * SourceData, TNodeRef Dest, uint16_t DestIndex, TNode * DestData)
+{
+ DestData->Key[DestIndex] = SourceData->Key[SourceIndex];
+
+ typename TManagedMap::iterator it = m_ManagedIterators.find(Source);
+ while ((it != m_ManagedIterators.end()) && (it->first == Source))
+ {
+ if (it->second->m_Index == SourceIndex)
+ {
+ it->second->m_Index = DestIndex;
+ it->second->m_Node = Dest;
+ m_ManagedIterators.insert(std::make_pair(Dest, it->second));
+ it = m_ManagedIterators.erase(it);
+ } else {
+ ++it;
+ }
+ }
+}
+
+template <typename TKey, uint16_t SizeParam>
+typename CBTree<TKey, SizeParam>::iterator
+CBTree<TKey, SizeParam>::Insert(const TKey & Key)
+{
+ TNode *node, *node2;
+ TNodeRef actnode;
+ TNodeRef nextnode;
+ bool exists;
+ uint16_t ge;
+
+ PrepareInsertOperation();
+
+ if (!m_Root)
+ {
+ node = CreateNewNode(m_Root);
+ node->Info = cIsLeafMask;
+ Write(m_Root);
+ m_sigRootChanged.emit(this, m_Root);
+ }
+
+ actnode = m_Root;
+ node = Read(actnode);
+ if ((node->Info & cKeyCountMask) == cFullNode) // root split
+ {
+ // be a little tricky and let the main code handle the actual splitting.
+ // just assign a new root with keycount to zero and one child = old root
+ // the InNode test will fail with GreaterEqual = 0
+ node2 = CreateNewNode(nextnode);
+ node2->Info = 0;
+ node2->Child[0] = actnode;
+ Write(nextnode);
+
+ node->Parent = nextnode;
+ Write(actnode);
+
+ node = node2;
+ actnode = nextnode;
+
+ m_Root = nextnode;
+ m_sigRootChanged.emit(this, m_Root);
+ }
+
+ while (actnode)
+ {
+ exists = InNodeFind(node, Key, ge);
+ if (exists) // already exists
+ {
+ return iterator(this, actnode, ge);
+ } else {
+ if (node->Info & cIsLeafMask) // direct insert to leaf node
+ {
+ KeyInsert(actnode, node, ge);
+
+ node->Key[ge] = Key;
+
+ Write(actnode);
+
+ return iterator(this, actnode, ge);
+
+ } else { // middle node
+ nextnode = node->Child[ge];
+ node2 = Read(nextnode);
+
+ if ((node2->Info & cKeyCountMask) == cFullNode) // split the childnode
+ {
+ KeyInsert(actnode, node, ge);
+ SplitNode(nextnode, node2, node->Child[ge], node->Child[ge+1], node->Key[ge], actnode, ge);
+
+ Write(actnode);
+ if (node->Key[ge] == Key)
+ {
+ return iterator(this, actnode, ge);
+ } else {
+ if (node->Key[ge] < Key)
+ {
+ nextnode = node->Child[ge+1];
+ } else {
+ nextnode = node->Child[ge];
+ }
+ }
+
+ }
+ actnode = nextnode;
+ node = Read(actnode);
+
+ } // if (node.Info & cIsLeafMask)
+ } // if (exists)
+ } // while (actnode)
+
+ // something went wrong
+ return iterator(this, 0, 0xFFFF);
+}
+
+
+template <typename TKey, uint16_t SizeParam>
+typename CBTree<TKey, SizeParam>::iterator
+CBTree<TKey, SizeParam>::Find(const TKey & Key)
+{
+ TNode * node;
+ TNodeRef actnode = m_Root;
+ uint16_t ge;
+
+ if (!m_Root) return iterator(this, 0, 0xFFFF);
+
+ node = Read(actnode);
+
+ while (actnode)
+ {
+ if (InNodeFind(node, Key, ge))
+ {
+ return iterator(this, actnode, ge);
+ }
+
+ if (!(node->Info & cIsLeafMask))
+ {
+ actnode = node->Child[ge];
+ node = Read(actnode);
+ } else {
+ actnode = 0;
+ }
+ }
+
+ return iterator(this, 0, 0xFFFF);
+}
+
+template <typename TKey, uint16_t SizeParam>
+typename CBTree<TKey, SizeParam>::iterator
+CBTree<TKey, SizeParam>::LowerBound(const TKey & Key)
+{
+ TNode * node;
+ TNodeRef actnode = m_Root;
+ uint16_t ge;
+
+ if (!m_Root) return iterator(this, 0, 0xFFFF);
+
+ node = Read(actnode);
+
+ while (actnode)
+ {
+ if (InNodeFind(node, Key, ge))
+ {
+ return iterator(this, actnode, ge);
+ }
+
+ if (node->Info & cIsLeafMask)
+ {
+ if (ge >= (node->Info & cKeyCountMask))
+ {
+ iterator i(this, actnode, ge - 1);
+ ++i;
+ return i;
+ } else {
+ return iterator(this, actnode, ge);
+ }
+ } else {
+ actnode = node->Child[ge];
+ node = Read(actnode);
+ }
+ }
+
+ return iterator(this, 0, 0xFFFF);
+}
+
+template <typename TKey, uint16_t SizeParam>
+typename CBTree<TKey, SizeParam>::iterator
+CBTree<TKey, SizeParam>::UpperBound(const TKey & Key)
+{
+ TNode * node;
+ TNodeRef actnode = m_Root;
+ uint16_t ge;
+ if (!m_Root) return iterator(this, 0, 0xFFFF);
+
+ node = Read(actnode);
+
+ while (actnode)
+ {
+ if (InNodeFind(node, Key, ge))
+ {
+ return iterator(this, actnode, ge);
+ }
+
+ if (node->Info & cIsLeafMask)
+ {
+ if (ge == 0)
+ {
+ iterator i(this, actnode, 0);
+ --i;
+ return i;
+ } else {
+ return iterator(this, actnode, ge - 1);
+ }
+ } else {
+ actnode = node->Child[ge];
+ node = Read(actnode);
+ }
+ }
+
+ return iterator(this, 0, 0xFFFF);
+}
+
+template <typename TKey, uint16_t SizeParam>
+bool CBTree<TKey, SizeParam>::Delete(const TKey& Key)
+{
+ if (!m_Root) return false;
+
+ TNode *node, *node2, *lnode, *rnode;
+
+ TNodeRef actnode = m_Root;
+ TNodeRef nextnode, l, r;
+ bool exists, skipread;
+ uint16_t ge;
+
+ bool foundininnernode = false;
+ bool wantleftmost = false;
+ TNodeRef innernode = 0;
+ TNode * innernodedata = NULL;
+ uint16_t innerindex = 0xFFFF;
+
+ node = Read(actnode);
+
+ while (actnode)
+ {
+ skipread = false;
+
+ if (foundininnernode)
+ {
+ exists = false;
+ if (wantleftmost)
+ ge = 0;
+ else
+ ge = node->Info & cKeyCountMask;
+
+ } else {
+ exists = InNodeFind(node, Key, ge);
+ }
+
+ if (exists)
+ {
+ if (node->Info & cIsLeafMask) // delete in leaf
+ {
+ KeyDelete(actnode, node, ge);
+ Write(actnode);
+
+ return true;
+
+ } else { // delete in inner node
+ l = node->Child[ge];
+ r = node->Child[ge+1];
+ lnode = Read(l);
+ rnode = Read(r);
+
+
+ if (((rnode->Info & cKeyCountMask) == cEmptyNode) && ((lnode->Info & cKeyCountMask) == cEmptyNode))
+ { // merge childnodes and keep going
+ nextnode = MergeNodes(l, lnode, r, rnode, node->Key[ge], actnode, ge);
+
+ KeyDelete(actnode, node, ge);
+ node->Child[ge] = nextnode;
+
+ if ((actnode == m_Root) && ((node->Info & cKeyCountMask) == 0))
+ { // root node is empty. delete it
+ DeleteNode(actnode);
+ m_Root = nextnode;
+ m_sigRootChanged.emit(this, m_Root);
+ } else {
+ Write(actnode);
+ }
+
+ } else { // need a key-data-pair from a leaf to replace deleted pair -> save position
+ foundininnernode = true;
+ innernode = actnode;
+ innerindex = ge;
+ innernodedata = node;
+
+ if ((lnode->Info & cKeyCountMask) == cEmptyNode)
+ {
+ wantleftmost = true;
+ nextnode = r;
+ } else {
+ wantleftmost = false;
+ nextnode = l;
+ }
+ }
+ }
+
+ } else if (node->Info & cIsLeafMask) { // we are at the bottom. finish it
+ if (foundininnernode)
+ {
+ if (wantleftmost)
+ {
+ KeyMove(actnode, 0, node, innernode, innerindex, innernodedata);
+ Write(innernode);
+
+ KeyDelete(actnode, node, 0);
+ Write(actnode);
+
+ } else {
+ KeyMove(actnode, (node->Info & cKeyCountMask) - 1, node, innernode, innerindex, innernodedata);
+ Write(innernode);
+
+ //KeyDelete(actnode, node, node.Info & cKeyCountMask);
+ node->Info--;
+ Write(actnode);
+ }
+ }
+ return foundininnernode;
+
+ } else { // inner node. go on and check if moving or merging is neccessary
+ nextnode = node->Child[ge];
+ node2 = Read(nextnode);
+
+ if ((node2->Info & cKeyCountMask) == cEmptyNode) // move or merge
+ {
+ // set l and r for easier access
+ if (ge > 0)
+ {
+ l = node->Child[ge - 1];
+ lnode = Read(l);
+ } else
+ l = 0;
+
+ if (ge < (node->Info & cKeyCountMask))
+ {
+ r = node->Child[ge + 1];
+ rnode = Read(r);
+ } else
+ r = 0;
+
+ if ((r != 0) && ((rnode->Info & cKeyCountMask) > cEmptyNode)) // move a Key-Data-pair from the right
+ {
+ // move key-data-pair down from current to the next node
+ KeyMove(actnode, ge, node, nextnode, node2->Info & cKeyCountMask, node2);
+
+ // move the child from right to next node
+ node2->Child[(node2->Info & cKeyCountMask) + 1] = rnode->Child[0];
+
+ // move key-data-pair up from right to current node
+ KeyMove(r, 0, rnode, actnode, ge, node);
+ Write(actnode);
+
+ // decrement right node key count and remove the first key-data-pair
+ KeyDelete(r, rnode, 0);
+
+ // increment KeyCount of the next node
+ node2->Info++;
+
+ if ((node2->Info & cIsLeafMask) == 0) // update the parent property of moved child
+ {
+ TNode * tmp = Read(node2->Child[node2->Info & cKeyCountMask]);
+ tmp->Parent = nextnode;
+ Write(node2->Child[node2->Info & cKeyCountMask]);
+ }
+
+
+ Write(r);
+ Write(nextnode);
+ node = node2;
+ skipread = true;
+
+ } else if ((l != 0) && ((lnode->Info & cKeyCountMask) > cEmptyNode)) // move a Key-Data-pair from the left
+ {
+ // increment next node key count and make new first key-data-pair
+ KeyInsert(nextnode, node2, 0);
+
+ // move key-data-pair down from current to the next node
+ KeyMove(actnode, ge - 1, node, nextnode, 0, node2);
+
+ // move the child from left to next node
+ node2->Child[0] = lnode->Child[lnode->Info & cKeyCountMask];
+
+ // move key-data-pair up from left to current node
+ KeyMove(l, (lnode->Info & cKeyCountMask) - 1, lnode, actnode, ge - 1, node);
+ Write(actnode);
+
+ // decrement left node key count
+ lnode->Info--;
+ Write(l);
+
+ if ((node2->Info & cIsLeafMask) == 0) // update the parent property of moved child
+ {
+ TNode * tmp = Read(node2->Child[0]);
+ tmp->Parent = nextnode;
+ Write(node2->Child[0]);
+ }
+
+ Write(nextnode);
+ node = node2;
+ skipread = true;
+
+ } else {
+ if (l != 0) // merge with the left node
+ {
+ nextnode = MergeNodes(l, lnode, nextnode, node2, node->Key[ge - 1], actnode, ge - 1);
+ KeyDelete(actnode, node, ge - 1);
+ node->Child[ge - 1] = nextnode;
+
+ } else { // merge with the right node
+ nextnode = MergeNodes(nextnode, node2, r, rnode, node->Key[ge], actnode, ge);
+ KeyDelete(actnode, node, ge);
+ node->Child[ge] = nextnode;
+ }
+
+ if ((actnode == m_Root) && ((node->Info & cKeyCountMask) == 0))
+ {
+ DeleteNode(actnode);
+ m_Root = nextnode;
+ m_sigRootChanged(this, nextnode);
+ } else {
+ Write(actnode);
+ }
+ }
+ }
+ } // if (exists) else if (node.Info & cIsLeafMask)
+
+ actnode = nextnode;
+ if (!skipread)
+ node = Read(actnode);
+
+ } // while(actnode)
+
+ return false;
+}
+
+template <typename TKey, uint16_t SizeParam>
+typename CBTree<TKey, SizeParam>::TNodeRef CBTree<TKey, SizeParam>::getRoot()
+{
+ return m_Root;
+}
+
+template <typename TKey, uint16_t SizeParam>
+void CBTree<TKey, SizeParam>::setRoot(TNodeRef NewRoot)
+{
+ m_Root = NewRoot;
+ return;
+}
+
+template <typename TKey, uint16_t SizeParam>
+void CBTree<TKey, SizeParam>::PrepareInsertOperation()
+{
+ if (m_Count + 64 > m_AllocCount)
+ {
+ m_AllocCount += 64;
+ m_Alloc = (TNode *)realloc(m_Alloc, sizeof(TNode) * m_AllocCount);
+
+ for (TNodeRef i = m_AllocCount - 64; i < m_AllocCount; ++i)
+ m_Alloc[i].Parent = i + 1;
+
+ m_Alloc[m_AllocCount - 1].Parent = 0;
+
+ if (m_FreeIndex)
+ {
+ TNodeRef i = m_FreeIndex;
+ while (m_Alloc[i].Parent)
+ i = m_Alloc[i].Parent;
+
+ m_Alloc[i].Parent = m_AllocCount - 64;
+
+ } else {
+ m_FreeIndex = m_AllocCount - 63;
+ }
+
+ }
+}
+
+template <typename TKey, uint16_t SizeParam>
+typename CBTree<TKey, SizeParam>::TNode * CBTree<TKey, SizeParam>::CreateNewNode(TNodeRef & NodeRef)
+{
+ NodeRef = m_FreeIndex;
+ m_FreeIndex = m_Alloc[m_FreeIndex].Parent;
+ m_Count++;
+ memset(m_Alloc + NodeRef, 0, sizeof(TNode));
+ return m_Alloc + NodeRef;
+}
+
+template <typename TKey, uint16_t SizeParam>
+void CBTree<TKey, SizeParam>::DeleteNode(TNodeRef Node)
+{
+ CHECK((Node > 0) && (Node < m_AllocCount), logERROR, _T("Invalid Node"));
+ m_Alloc[Node].Parent = m_FreeIndex;
+ m_FreeIndex = Node;
+ m_Count--;
+}
+
+template <typename TKey, uint16_t SizeParam>
+typename CBTree<TKey, SizeParam>::TNode * CBTree<TKey, SizeParam>::Read(TNodeRef Node)
+{
+ CHECK((Node > 0) && (Node < m_AllocCount), logERROR, _T("Invalid Node"));
+ return m_Alloc + Node;
+}
+
+template <typename TKey, uint16_t SizeParam>
+void CBTree<TKey, SizeParam>::Write(TNodeRef Node)
+{
+ return;
+}
+
+template <typename TKey, uint16_t SizeParam>
+void CBTree<TKey, SizeParam>::DestroyTree()
+{
+ std::stack<TNodeRef> s;
+ TNodeRef node;
+ TNode* nodedata;
+ uint16_t i;
+
+ if (m_Root)
+ s.push(m_Root);
+ while (!s.empty())
+ {
+ node = s.top();
+ nodedata = Read(node);
+ s.pop();
+
+ if ((nodedata->Info & cIsLeafMask) == 0)
+ {
+ for (i = 0; i <= (nodedata->Info & cKeyCountMask); i++)
+ s.push(nodedata->Child[i]);
+ }
+
+ DeleteNode(node);
+ }
+
+ free(m_Alloc);
+ m_Alloc = NULL;
+ m_AllocCount = 0;
+ m_Count = 0;
+ m_FreeIndex = 0;
+}
+
+
+template <typename TKey, uint16_t SizeParam>
+void CBTree<TKey, SizeParam>::DeleteTree(TDeleteCallback * CallBack, uint32_t Param)
+{
+ std::stack<TNodeRef> s;
+ TNodeRef actnode;
+ TNode * node;
+ uint16_t i;
+
+ typename TManagedMap::iterator it = m_ManagedIterators.begin();
+ while (it != m_ManagedIterators.end())
+ {
+ it->second->m_Node = 0;
+ it->second->m_Index = 0xffff;
+ ++it;
+ }
+
+ if (m_Root)
+ s.push(m_Root);
+
+ m_Root = 0;
+ m_sigRootChanged.emit(this, m_Root);
+
+ while (!s.empty())
+ {
+ actnode = s.top();
+ s.pop();
+
+ node = Read(actnode);
+
+ if ((node->Info & cIsLeafMask) == 0)
+ {
+ for (i = 0; i <= (node->Info & cKeyCountMask); i++)
+ s.push(node->Child[i]);
+
+ }
+ if (CallBack)
+ {
+ for (i = 0; i < (node->Info & cKeyCountMask); i++)
+ CallBack->emit(this, node->Key[i], Param);
+ }
+
+ DeleteNode(actnode);
+ }
+}
+
+
+
+
+
+
+
+template <typename TKey, uint16_t SizeParam>
+CBTree<TKey, SizeParam>::iterator::iterator()
+{
+ m_Tree = NULL;
+ m_Node = 0;
+ m_Index = 0xFFFF;
+ m_Managed = false;
+ m_ManagedDeleted = false;
+ m_LoadedKey = false;
+}
+template <typename TKey, uint16_t SizeParam>
+CBTree<TKey, SizeParam>::iterator::iterator(CBTree* Tree, TNodeRef Node, uint16_t Index)
+{
+ m_Tree = Tree;
+ m_Node = Node;
+ m_Index = Index;
+ m_Managed = false;
+ m_ManagedDeleted = false;
+ m_LoadedKey = false;
+}
+template <typename TKey, uint16_t SizeParam>
+CBTree<TKey, SizeParam>::iterator::iterator(const iterator& Other)
+{
+ m_Tree = Other.m_Tree;
+ m_Node = Other.m_Node;
+ m_Index = Other.m_Index;
+ m_ManagedDeleted = Other.m_ManagedDeleted;
+ m_Managed = Other.m_Managed;
+ m_LoadedKey = Other.m_LoadedKey;
+ m_ManagedKey = Other.m_ManagedKey;
+
+ if (m_Managed)
+ InsertManaged();
+}
+
+template <typename TKey, uint16_t SizeParam>
+CBTree<TKey, SizeParam>::iterator::~iterator()
+{
+ RemoveManaged(m_Node);
+}
+
+
+template <typename TKey, uint16_t SizeParam>
+void CBTree<TKey, SizeParam>::iterator::setManaged()
+{
+ if (!m_Managed)
+ InsertManaged();
+
+ m_Managed = true;
+}
+
+template <typename TKey, uint16_t SizeParam>
+inline void CBTree<TKey, SizeParam>::iterator::RemoveManaged(TNodeRef FromNode)
+{
+ if (m_Managed && m_Tree)
+ {
+ typename TManagedMap::iterator i = m_Tree->m_ManagedIterators.find(FromNode);
+
+ while ((i != m_Tree->m_ManagedIterators.end()) && (i->second != this) && (i->first == FromNode))
+ ++i;
+
+ if ((i != m_Tree->m_ManagedIterators.end()) && (i->second == this))
+ m_Tree->m_ManagedIterators.erase(i);
+ }
+}
+template <typename TKey, uint16_t SizeParam>
+inline void CBTree<TKey, SizeParam>::iterator::InsertManaged()
+{
+ if (m_Tree)
+ m_Tree->m_ManagedIterators.insert(std::make_pair(m_Node, this));
+}
+
+template <typename TKey, uint16_t SizeParam>
+bool CBTree<TKey, SizeParam>::iterator::wasDeleted()
+{
+ return m_ManagedDeleted;
+}
+
+template <typename TKey, uint16_t SizeParam>
+void CBTree<TKey, SizeParam>::iterator::Backup()
+{
+ if ((!m_ManagedDeleted) && (*this))
+ {
+ TNode * tmp;
+ if (!m_LoadedKey)
+ {
+ tmp = m_Tree->Read(m_Node);
+ m_ManagedKey = tmp->Key[m_Index];
+ }
+ m_LoadedKey = true;
+ }
+
+ m_ManagedDeleted = true;
+}
+
+template <typename TKey, uint16_t SizeParam>
+CBTree<TKey, SizeParam> * CBTree<TKey, SizeParam>::iterator::Tree()
+{
+ return m_Tree;
+}
+
+template <typename TKey, uint16_t SizeParam>
+const TKey& CBTree<TKey, SizeParam>::iterator::operator *()
+{
+ if (!m_LoadedKey)
+ {
+ TNode * node;
+ node = m_Tree->Read(m_Node);
+ m_ManagedKey = node->Key[m_Index];
+ m_LoadedKey = true;
+ }
+ return m_ManagedKey;
+}
+
+template <typename TKey, uint16_t SizeParam>
+const TKey* CBTree<TKey, SizeParam>::iterator::operator ->()
+{
+ if (!m_LoadedKey)
+ {
+ TNode * node;
+ node = m_Tree->Read(m_Node);
+ m_ManagedKey = node->Key[m_Index];
+ m_LoadedKey = true;
+ }
+ return &m_ManagedKey;
+}
+
+template <typename TKey, uint16_t SizeParam>
+inline CBTree<TKey, SizeParam>::iterator::operator bool() const
+{
+ if (m_Tree && m_Node)
+ {
+ TNode * node;
+ node = m_Tree->Read(m_Node);
+ return (m_Index < (node->Info & cKeyCountMask));
+ } else
+ return false;
+}
+
+template <typename TKey, uint16_t SizeParam>
+inline bool CBTree<TKey, SizeParam>::iterator::operator !() const
+{
+ if (m_Tree && m_Node)
+ {
+ TNode * node;
+ node = m_Tree->Read(m_Node);
+ return (m_Index > (node->Info & cKeyCountMask));
+ } else
+ return true;
+}
+
+template <typename TKey, uint16_t SizeParam>
+inline bool CBTree<TKey, SizeParam>::iterator::operator ==(iterator & Other)
+{
+ //return (m_Tree == Other.m_Tree) && (m_Node == Other.m_Node) && (m_Index == Other.m_Index) && (!m_ManagedDeleted) && (!Other.m_ManagedDeleted);
+ return Key() == Other.Key();
+}
+
+template <typename TKey, uint16_t SizeParam>
+inline bool CBTree<TKey, SizeParam>::iterator::operator < (iterator & Other)
+{
+ return Key() < Other.Key();
+}
+template <typename TKey, uint16_t SizeParam>
+inline bool CBTree<TKey, SizeParam>::iterator::operator > (iterator & Other)
+{
+ return Key() > Other.Key();
+}
+
+
+template <typename TKey, uint16_t SizeParam>
+typename CBTree<TKey, SizeParam>::iterator&
+CBTree<TKey, SizeParam>::iterator::operator =(const iterator& Other)
+{
+ RemoveManaged(m_Node);
+
+ m_Tree = Other.m_Tree;
+ m_Node = Other.m_Node;
+ m_Index = Other.m_Index;
+ m_ManagedDeleted = Other.m_ManagedDeleted;
+ m_Managed = Other.m_Managed;
+ m_LoadedKey = Other.m_LoadedKey;
+ m_ManagedKey = Other.m_ManagedKey;
+
+ if (m_Managed)
+ InsertManaged();
+
+ return *this;
+}
+
+template <typename TKey, uint16_t SizeParam>
+typename CBTree<TKey, SizeParam>::iterator&
+CBTree<TKey, SizeParam>::iterator::operator ++() //pre ++i
+{
+ TNodeRef oldnode = m_Node;
+ if (m_Managed && m_ManagedDeleted)
+ {
+ TKey oldkey = m_ManagedKey;
+ m_LoadedKey = false;
+ m_ManagedDeleted = false;
+ iterator other = m_Tree->LowerBound(m_ManagedKey);
+ m_Node = other.m_Node;
+ m_Index = other.m_Index;
+ while (((**this) == oldkey) && (*this))
+ Inc();
+
+ } else
+ Inc();
+
+ if (m_Managed && (oldnode != m_Node))
+ {
+ RemoveManaged(oldnode);
+ InsertManaged();
+ }
+ return *this;
+}
+
+template <typename TKey, uint16_t SizeParam>
+typename CBTree<TKey, SizeParam>::iterator&
+CBTree<TKey, SizeParam>::iterator::operator --() //pre --i
+{
+ TNodeRef oldnode = m_Node;
+ if (m_Managed && m_ManagedDeleted)
+ {
+ TKey oldkey = m_ManagedKey;
+ m_LoadedKey = false;
+
+ m_ManagedDeleted = false;
+ iterator other = m_Tree->UpperBound(m_ManagedKey);
+ m_Node = other.m_Node;
+ m_Index = other.m_Index;
+ while (((**this) == oldkey) && (*this))
+ Dec();
+ } else
+ Dec();
+
+ if (m_Managed && (oldnode != m_Node))
+ {
+ RemoveManaged(oldnode);
+ InsertManaged();
+ }
+ return *this;
+}
+
+template <typename TKey, uint16_t SizeParam>
+typename CBTree<TKey, SizeParam>::iterator
+CBTree<TKey, SizeParam>::iterator::operator ++(int) //post i++
+{
+ iterator tmp(*this);
+ ++(*this);
+ return tmp;
+}
+template <typename TKey, uint16_t SizeParam>
+typename CBTree<TKey, SizeParam>::iterator
+CBTree<TKey, SizeParam>::iterator::operator --(int) //post i--
+{
+ iterator tmp(*this);
+ --(*this);
+ return tmp;
+}
+
+template <typename TKey, uint16_t SizeParam>
+void CBTree<TKey, SizeParam>::iterator::Inc()
+{
+ TNode * node;
+ TNodeRef nextnode;
+ node = m_Tree->Read(m_Node);
+
+ m_LoadedKey = false;
+
+ if ((node->Info & cIsLeafMask) && ((node->Info & cKeyCountMask) > m_Index + 1)) // leaf
+ {
+ m_Index++;
+ return;
+ }
+
+ if ((node->Info & cIsLeafMask) == 0) // inner node. go down
+ {
+ m_Node = node->Child[m_Index + 1];
+ node = m_Tree->Read(m_Node);
+
+ m_Index = 0;
+
+ while ((node->Info & cIsLeafMask) == 0) // go down to a leaf
+ {
+ m_Node = node->Child[0];
+ node = m_Tree->Read(m_Node);
+ }
+
+ return;
+ }
+
+ while (m_Index >= (node->Info & cKeyCountMask) - 1) // go up
+ {
+ if (m_Node == m_Tree->m_Root) // the root is the top, we cannot go further
+ {
+ m_Index = 0xFFFF;
+ m_Node = 0;
+ return;
+ }
+
+ nextnode = node->Parent;
+ node = m_Tree->Read(nextnode);
+ m_Index = 0;
+
+ while ((m_Index <= (node->Info & cKeyCountMask)) && (node->Child[m_Index] != m_Node))
+ m_Index++;
+
+ m_Node = nextnode;
+
+ if (m_Index < (node->Info & cKeyCountMask))
+ return;
+ }
+
+}
+
+template <typename TKey, uint16_t SizeParam>
+void CBTree<TKey, SizeParam>::iterator::Dec()
+{
+ TNode * node;
+ TNodeRef nextnode;
+ node = m_Tree->Read(m_Node);
+
+ m_LoadedKey = false;
+
+ if ((node->Info & cIsLeafMask) && (m_Index > 0)) // leaf
+ {
+ m_Index--;
+ return;
+ }
+
+ if ((node->Info & cIsLeafMask) == 0) // inner node. go down
+ {
+ m_Node = node->Child[m_Index];
+ node = m_Tree->Read(m_Node);
+ m_Index = (node->Info & cKeyCountMask) - 1;
+
+ while ((node->Info & cIsLeafMask) == 0) // go down to a leaf
+ {
+ m_Node = node->Child[node->Info & cKeyCountMask];
+ node = m_Tree->Read(m_Node);
+ m_Index = (node->Info & cKeyCountMask) - 1;
+ }
+
+ return;
+ }
+
+ while (m_Index == 0) // go up
+ {
+ if (m_Node == m_Tree->m_Root) // the root is the top, we cannot go further
+ {
+ m_Index = 0xFFFF;
+ m_Node = 0;
+ return;
+ }
+
+ nextnode = node->Parent;
+ node = m_Tree->Read(nextnode);
+ m_Index = 0;
+
+ while ((m_Index <= (node->Info & cKeyCountMask)) && (node->Child[m_Index] != m_Node))
+ m_Index++;
+
+ m_Node = nextnode;
+
+ if (m_Index > 0)
+ {
+ m_Index--;
+ return;
+ }
+ }
+}