void RecursiveInOrder(List <T> TargetList, int actualNode)
{
string Line = FindNode(actualNode);
if (actualNode != 0)
{
DiskBNode <T> actual = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
actual.ToTObj(Line);
Stack <int> aux = new Stack <int>();
if (actual.HasSons())
{
while (actual.BNodeSons.Count != 0)
{
aux.Push(actual.BNodeSons.Peek());
RecursiveInOrder(TargetList, actual.BNodeSons.Pop());
T Value = actual.BNodeValues.GetByIndex(aux.Count - 1);
if (Value != null)
{
TargetList.Add(Value);
actual.BNodeValues.Enlist(Value);
}
}
}
else
{
while (!actual.BNodeValues.IsEmpty())
{
TargetList.Add(actual.BNodeValues.Get());
}
}
}
}
void SonsUpdate(int _actualID, int parent_id)
{
DiskBNode <T> ActualNode = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
string Line = FindNode(_actualID);
Stack <int> AuxStack = new Stack <int>();
ActualNode.ToTObj(Line);
ActualNode.Parent = parent_id;
int count = ActualNode.BNodeSons.Count;
for (int i = 0; i < count; i++)
{
if (ActualNode.BNodeSons.Peek() != 0)
{
SonsUpdate(ActualNode.BNodeSons.Peek(), ActualNode.ID);
AuxStack.Push(ActualNode.BNodeSons.Pop());
}
}
count = AuxStack.Count;
for (int i = 0; i < count; i++)
{
ActualNode.BNodeSons.Push(AuxStack.Pop());
}
RewriteNode(ActualNode.ID, ActualNode.ToFixedLengthText());
}
void NewRoot(T _newValue, int BrotherID)
{
RootID = AvailableID;
DiskBNode <T> AuxNode = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
AuxNode.CreateNode(AvailableID, 0);
AuxNode.Insert(_newValue);
AuxNode.BNodeSons.Push(BrotherID);
AuxNode.BNodeSons.Push(ActualID);
Stack <int> AuxStack = new Stack <int>();
int count = AuxNode.BNodeSons.Count;
for (int i = 0; i < count; i++)
{
if (AuxNode.BNodeSons.Peek() != 0)
{
SonsUpdate(AuxNode.BNodeSons.Peek(), AuxNode.ID);
AuxStack.Push(AuxNode.BNodeSons.Pop());
}
}
count = AuxStack.Count;
for (int i = 0; i < count; i++)
{
AuxNode.BNodeSons.Push(AuxStack.Pop());
}
WriteNode(RootID, AuxNode.ToFixedLengthText());
AvailableID++;
}
T RecursiveFindMinor(int son_id)
{
DiskBNode <T> Actual = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
string Line = FindNode(son_id);
Actual.ToTObj(Line);
if (Actual.HasSons())
{
return(RecursiveFindMinor(Actual.BNodeSons.Peek()));
}
else
{
T ToReturn = Actual.BNodeValues.Get();
Actual.Insert(ToReturn);
RecursiveDelete(ToReturn.Key, Actual.ID, false);
return(ToReturn);
}
}
void DivideNode()
{
DiskBNode <T> BrotherNode = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
BrotherNode.CreateNode(AvailableID, ParentID);
AvailableID++;
int count = GreatestSons.Count;
for (int i = 0; i < count; i++)
{
BrotherNode.BNodeSons.Push(GreatestSons.Pop());
}
count = GreatestValues.Count;
for (int i = 0; i < count; i++)
{
BrotherNode.BNodeValues.Enlist(GreatestValues.Pop());
}
WriteNode(BrotherNode.ID, BrotherNode.ToFixedLengthText());
ParentUpdate(BrotherNode.ID);
}
T FindMinor(int _sonID, ref bool underflow, bool RightSon)
{
DiskBNode <T> Actual = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
string Line = FindNode(_sonID);
Actual.ToTObj(Line);
if (Actual.HasSons())
{
return(RecursiveFindMinor(Actual.BNodeSons.Peek()));
}
else
{
if (Actual.BNodeValues.GetLength() > Math.Round((Degree / 2.00) - 1))
{
underflow = false;
if (RightSon)
{
T ToReturn = Actual.BNodeValues.Get();
RewriteNode(Actual.ID, Actual.ToFixedLengthText());
return(ToReturn);
}
else
{
T ToReturn = Actual.BNodeValues.GetHead();
RewriteNode(Actual.ID, Actual.ToFixedLengthText());
return(ToReturn);
}
}
else
{
underflow = true;
return(default(T));
}
}
}
void sonUnion(int leftBrotherID)
{
DiskBNode <T> Brother = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
string Line = FindNode(ActualID);
Brother.ToTObj(Line);
Brother.Parent = 0;
while (!Brother.BNodeValues.IsEmpty())
{
GreatestValues.Push(Brother.BNodeValues.Get());
}
RewriteNode(Brother.ID, Brother.ToFixedLengthText());
Line = FindNode(leftBrotherID);
Brother.ToTObj(Line);
int count = GreatestValues.Count;
for (int i = 0; i < count; i++)
{
Brother.Insert(GreatestValues.Pop());
}
RewriteNode(Brother.ID, Brother.ToFixedLengthText());
}
T ValueRotation(ref bool success, ref bool rightBrother)
{
DiskBNode <T> Parent = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
DiskBNode <T> Brother = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
string Line = FindNode(ParentID);
Parent.ToTObj(Line);
T ReturnValue;
Stack <int> temp = new Stack <int>();
//volver a llenar BNodeSons
do
{
temp.Push(Parent.BNodeSons.Pop());
} while (temp.Peek() != ActualID);
int ParentValueIndex = temp.Count - 1;
if (Parent.BNodeSons.Count != 0 && Parent.BNodeSons.Peek() != 0)
{
Line = FindNode(Parent.BNodeSons.Peek());
Brother.ToTObj(Line);
if (Brother.BNodeValues.GetLength() > Math.Round((Degree / 2.00) - 1))
{
rightBrother = true;
ReturnValue = Parent.BNodeValues.GetByIndex(ParentValueIndex);
Parent.BNodeValues.Enlist(Brother.BNodeValues.Get());
success = true;
int count = temp.Count;
for (int i = 0; i < count; i++)
{
Parent.BNodeSons.Push(temp.Pop());
}
if (Brother.HasSons())
{
GreatestSons.Push(Brother.BNodeSons.Pop());
}
RewriteNode(Parent.ID, Parent.ToFixedLengthText());
RewriteNode(Brother.ID, Brother.ToFixedLengthText());
return(ReturnValue);
}
else
{
Parent.BNodeSons.Push(temp.Pop());
if (temp.Count != 0 && temp.Peek() != 0)
{
Line = FindNode(temp.Peek());
while (!Brother.BNodeValues.IsEmpty())
{
Brother.BNodeValues.Get();
}
int count = Brother.BNodeSons.Count;
for (int i = 0; i < count; i++)
{
Brother.BNodeSons.Pop();
}
Brother.ToTObj(Line);
if (Brother.BNodeValues.GetLength() > Math.Round((Degree / 2.00) - 1))
{
rightBrother = false;
ReturnValue = Parent.BNodeValues.GetByIndex(ParentValueIndex - 1);
Parent.BNodeValues.Enlist(Brother.BNodeValues.GetHead());
success = true;
count = temp.Count;
for (int i = 0; i < count; i++)
{
Parent.BNodeSons.Push(temp.Pop());
}
count = Brother.BNodeSons.Count;
for (int i = 0; i < count; i++)
{
if (Brother.BNodeSons.Peek() == 0)
{
Brother.BNodeSons.Pop();
}
else
{
temp.Push(Brother.BNodeSons.Pop());
}
}
if (temp.Count != 0)
{
GreatestSons.Push(temp.Pop());
}
count = temp.Count;
for (int i = 0; i < count; i++)
{
Brother.BNodeSons.Push(temp.Pop());
}
RewriteNode(Parent.ID, Parent.ToFixedLengthText());
RewriteNode(Brother.ID, Brother.ToFixedLengthText());
return(ReturnValue);
}
else
{
count = temp.Count;
for (int i = 0; i < count; i++)
{
Parent.BNodeSons.Push(temp.Pop());
}
//Unión con padre y hermano derecho
success = false;
return(default(T));
}
}
else
{
//Unión con padre y hermano derecho
success = false;
return(default(T));
}
}
}
else
{
Parent.BNodeSons.Push(temp.Pop());
Line = FindNode(temp.Peek());
while (!Brother.BNodeValues.IsEmpty())
{
Brother.BNodeValues.Get();
}
int count = Brother.BNodeSons.Count;
for (int i = 0; i < count; i++)
{
Brother.BNodeSons.Pop();
}
Brother.ToTObj(Line);
if (Brother.BNodeValues.GetLength() > Math.Round((Degree / 2.00) - 1))
{
rightBrother = false;
ReturnValue = Parent.BNodeValues.GetByIndex(ParentValueIndex - 1);
Parent.BNodeValues.Enlist(Brother.BNodeValues.GetHead());
success = true;
count = temp.Count;
for (int i = 0; i < count; i++)
{
Parent.BNodeSons.Push(temp.Pop());
}
count = Brother.BNodeSons.Count;
for (int i = 0; i < count; i++)
{
if (Brother.BNodeSons.Peek() == 0)
{
Brother.BNodeSons.Pop();
}
else
{
temp.Push(Brother.BNodeSons.Pop());
}
}
if (temp.Count != 0)
{
GreatestSons.Push(temp.Pop());
}
count = temp.Count;
for (int i = 0; i < count; i++)
{
Brother.BNodeSons.Push(temp.Pop());
}
RewriteNode(Parent.ID, Parent.ToFixedLengthText());
RewriteNode(Brother.ID, Brother.ToFixedLengthText());
return(ReturnValue);
}
else
{
//Unión con padre y hermano izquierdo
count = temp.Count;
for (int i = 0; i < count; i++)
{
Parent.BNodeSons.Push(temp.Pop());
}
success = false;
return(default(T));
}
}
}
void DeleteNode()
{
DiskBNode <T> Parent = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
DiskBNode <T> Brother = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
string Line = FindNode(ParentID);
Parent.ToTObj(Line);
Stack <int> temp = new Stack <int>();
Stack <int> temp2 = new Stack <int>();
int count;
T ParentValue;
int ParentValueIndex;
//volver a llenar BNodeSons
do
{
temp.Push(Parent.BNodeSons.Pop());
} while (temp.Peek() != ActualID);
ParentValueIndex = temp.Count - 1;
if (Parent.BNodeSons.Count != 0 && Parent.BNodeSons.Peek() != 0)
{
Line = FindNode(Parent.BNodeSons.Peek());
Brother.ToTObj(Line);
count = GreatestValues.Count();
ParentValue = Parent.BNodeValues.GetByIndex(ParentValueIndex);
Brother.Insert(ParentValue);
Parent.Insert(ParentValue);
for (int i = 0; i < count; i++)
{
Brother.Insert(GreatestValues.Pop());
}
temp.Pop();
count = temp.Count;
for (int i = 0; i < count; i++)
{
Parent.BNodeSons.Push(temp.Pop());
}
count = GreatestSons.Count;
for (int i = 0; i < count; i++)
{
Brother.BNodeSons.Push(GreatestSons.Pop());
}
count = temp2.Count;
for (int i = 0; i < count; i++)
{
Brother.BNodeSons.Push(temp2.Pop());
}
}
else
{
Parent.BNodeSons.Push(temp.Pop());
Line = FindNode(temp.Peek());
Brother.ToTObj(Line);
count = GreatestValues.Count();
ParentValue = Parent.BNodeValues.GetByIndex(ParentValueIndex);
Brother.Insert(ParentValue);
Parent.Insert(ParentValue);
for (int i = 0; i < count; i++)
{
Brother.Insert(GreatestValues.Pop());
}
temp.Pop();
count = temp.Count;
for (int i = 0; i < count; i++)
{
Parent.BNodeSons.Push(temp.Pop());
}
count = Brother.BNodeSons.Count;
for (int i = 0; i < count; i++)
{
temp2.Push(Brother.BNodeSons.Pop());
}
count = GreatestSons.Count;
for (int i = 0; i < count; i++)
{
Brother.BNodeSons.Push(GreatestSons.Pop());
}
}
RewriteNode(Parent.ID, Parent.ToFixedLengthText());
bool newRoot = !RecursiveDelete(ParentValue.Key, Parent.ID, true);
if (newRoot)
{
RootID = Brother.ID;
Brother.Parent = 0;
}
count = Brother.BNodeSons.Count;
for (int i = 0; i < count; i++)
{
SonsUpdate(Brother.BNodeSons.Peek(), Brother.ID);
temp2.Push(Brother.BNodeSons.Pop());
}
count = temp2.Count;
for (int i = 0; i < count; i++)
{
Brother.BNodeSons.Push(temp2.Pop());
}
RewriteNode(Brother.ID, Brother.ToFixedLengthText());
}
bool RecursiveDelete(IComparable ValueKey, int NodeID, bool backReview)
{
DiskBNode <T> Actual = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
string Line = FindNode(NodeID);
Actual.ToTObj(Line);
bool hasSons;
if (!backReview)
{
hasSons = Actual.HasSons();
}
else
{
hasSons = false;
}
bool isFull = Actual.BNodeValues.IsFull();
int count = Actual.BNodeValues.GetLength();
Stack <int> AuxStack = new Stack <int>();
int sonID = -1;
bool exit = false;
int i = 0;
T deletedValue;
while (!Actual.BNodeValues.IsEmpty() && !exit)
{
auxiliar.Push(Actual.BNodeValues.Get());
if (ValueKey.CompareTo(auxiliar.Peek().Key) == 0)
{
//eliminar valor
deletedValue = auxiliar.Pop();
exit = true;
if (hasSons)
{
//i es index del valor
sonID = Actual.GetSonID(i + 1);
//FindMinor requiere ID de hijo izquierdo
bool Right = true;
bool Underflow = false;
T ParentReplacement = FindMinor(sonID, ref Underflow, Right);
if (Underflow)
{
sonID = Actual.GetSonID(i);
Right = false;
ParentReplacement = FindMinor(sonID, ref Underflow, Right);
if (Underflow)
{
ActualID = Actual.GetSonID(i);
ParentID = Actual.ID;
sonUnion(Actual.GetSonID(i + 1));
do
{
AuxStack.Push(Actual.BNodeSons.Pop());
} while (AuxStack.Peek() != ActualID);
AuxStack.Pop();
count = AuxStack.Count;
for (int k = 0; k < count; k++)
{
Actual.BNodeSons.Push(AuxStack.Pop());
}
}
else
{
Actual.BNodeValues.Enlist(ParentReplacement);
}
}
else
{
Actual.BNodeValues.Enlist(ParentReplacement);
}
}
}
i++;
}
count = auxiliar.Count;
for (int j = 0; j < count; j++)
{
Actual.BNodeValues.Enlist(auxiliar.Pop());
}
if (exit)
{
if (Actual.Parent != 0)
{
if (Actual.BNodeValues.GetLength() < Math.Round((Degree / 2.00) - 1))
{
bool Rotation = false;
bool fromRightBrother = false;
ActualID = Actual.ID;
ParentID = Actual.Parent;
//Rotación de valores
T replacement = ValueRotation(ref Rotation, ref fromRightBrother);
if (Rotation)
{
Actual.Insert(replacement);
if (GreatestSons.Count != 0 && GreatestSons.Peek() != 0)
{
DiskBNode <T> ToAddSon = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
Line = FindNode(GreatestSons.Peek());
ToAddSon.ToTObj(Line);
ToAddSon.Parent = Actual.ID;
RewriteNode(GreatestSons.Peek(), ToAddSon.ToFixedLengthText());
if (fromRightBrother)
{
count = Actual.BNodeSons.Count;
for (int j = 0; j < count; j++)
{
if (Actual.BNodeSons.Peek() == 0)
{
Actual.BNodeSons.Pop();
}
else
{
AuxStack.Push(Actual.BNodeSons.Pop());
}
}
Actual.BNodeSons.Push(GreatestSons.Pop());
count = AuxStack.Count;
for (int k = 0; k < count; k++)
{
Actual.BNodeSons.Push(AuxStack.Pop());
}
}
else
{
Actual.BNodeSons.Push(GreatestSons.Pop());
}
}
}
else
{
//Unión de hermanos y padre
Actual.Parent = 0;
while (!Actual.BNodeValues.IsEmpty())
{
GreatestValues.Push(Actual.BNodeValues.GetHead());
}
count = Actual.BNodeSons.Count;
for (int j = 0; j < count; j++)
{
GreatestSons.Push(Actual.BNodeSons.Pop());
}
DeleteNode();
}
}
}
else
{
if (Actual.BNodeValues.IsEmpty())
{
count = Actual.BNodeSons.Count;
for (int k = 0; k < count; k++)
{
Actual.BNodeSons.Pop();
}
if (backReview)
{
RewriteNode(NodeID, Actual.ToFixedLengthText());
UpdateHeader();
return(false);
}
}
}
RewriteNode(NodeID, Actual.ToFixedLengthText());
return(true);
}
else if (hasSons)
{
int SonIndex = Actual.BNodeValues.GetSonIndex(ValueKey);
sonID = -1;
for (int h = 0; h <= SonIndex; h++)
{
sonID = Actual.BNodeSons.Peek();
AuxStack.Push(Actual.BNodeSons.Pop());
}
count = AuxStack.Count;
for (int j = 0; j < count; j++)
{
Actual.BNodeSons.Push(AuxStack.Pop());
}
if (sonID != -1)
{
return(RecursiveDelete(ValueKey, sonID, false));
}
else
{
return(false);
}
}
else
{
return(false);
}
}
void ParentUpdate(int BrotherID)
{
DiskBNode <T> ParentNode = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
if (ParentID != AvailableID)
{
string Line = FindNode(ParentID);
Stack <int> AuxStack = new Stack <int>();
ParentNode.ToTObj(Line);
bool exit = false;
while (!exit)
{
if (ParentNode.BNodeSons.Peek() == ActualID)
{
exit = true;
}
AuxStack.Push(ParentNode.BNodeSons.Pop());
}
int valueIndex = AuxStack.Count - 1;
ParentNode.BNodeSons.Push(BrotherID);
int count = AuxStack.Count;
for (int i = 0; i < count; i++)
{
ParentNode.BNodeSons.Push(AuxStack.Pop());
}
bool isFull = ParentNode.BNodeValues.IsFull();
ParentNode.Insert(valueIndex, MiddleValue);
if (isFull)
{
for (int i = 0; i < Degree / 2; i++)
{
//vaciar GreatestValues
GreatestValues.Push(ParentNode.BNodeValues.GetHead());
}
MiddleValue = ParentNode.BNodeValues.GetHead();
if (ParentNode.Parent == 0)
{
ParentNode.Parent = AvailableID + 1;
}
ParentID = ParentNode.Parent;
ActualID = ParentNode.ID;
int firstSons = ParentNode.BNodeSons.Count - (Degree / 2 + 1);
for (int i = 0; i < firstSons; i++)
{
AuxStack.Push(ParentNode.BNodeSons.Pop());
}
count = ParentNode.BNodeSons.Count;
for (int i = 0; i < count; i++)
{
GreatestSons.Push(ParentNode.BNodeSons.Pop());
}
count = AuxStack.Count;
for (int i = 0; i < count; i++)
{
ParentNode.BNodeSons.Push(AuxStack.Pop());
}
RewriteNode(ActualID, ParentNode.ToFixedLengthText());
DivideNode();
}
else
{
count = ParentNode.BNodeSons.Count;
for (int i = 0; i < count; i++)
{
if (ParentNode.BNodeSons.Peek() != 0)
{
SonsUpdate(ParentNode.BNodeSons.Peek(), ParentNode.ID);
AuxStack.Push(ParentNode.BNodeSons.Pop());
}
}
count = AuxStack.Count;
for (int i = 0; i < count; i++)
{
ParentNode.BNodeSons.Push(AuxStack.Pop());
}
RewriteNode(ParentID, ParentNode.ToFixedLengthText());
}
}
else
{
NewRoot(MiddleValue, BrotherID);
}
}
bool RecursiveInsert(int ID, T _newValue)
{
DiskBNode <T> Actual = new DiskBNode <T>(delegate_toT, ValueLength, Degree);
string Line = FindNode(ID);
Actual.ToTObj(Line);
if (!Actual.HasSons())
{
bool isFull = Actual.BNodeValues.IsFull();
bool inserted = Actual.Insert(_newValue);
if (inserted)
{
if (isFull)
{
for (int i = 0; i < Degree / 2; i++)
{
//vaciar GreatestValues
GreatestValues.Push(Actual.BNodeValues.GetHead());
}
MiddleValue = Actual.BNodeValues.GetHead();
if (Actual.Parent == 0)
{
Actual.Parent = AvailableID + 1;
}
ParentID = Actual.Parent;
ActualID = Actual.ID;
RewriteNode(ActualID, Actual.ToFixedLengthText());
DivideNode();
return(true);
}
else
{
RewriteNode(ID, Actual.ToFixedLengthText());
return(true);
}
}
else
{
return(false);
}
}
else
{
int SonIndex = Actual.BNodeValues.GetSonIndex(_newValue);
int SonID = -1;
Stack <int> AuxStack = new Stack <int>();
for (int i = 0; i <= SonIndex; i++)
{
SonID = Actual.BNodeSons.Peek();
AuxStack.Push(Actual.BNodeSons.Pop());
}
int count = AuxStack.Count;
for (int j = 0; j < count; j++)
{
Actual.BNodeSons.Push(AuxStack.Pop());
}
if (SonID != -1)
{
return(RecursiveInsert(SonID, _newValue));
}
else
{
return(false);
}
}
}
