My ConsoleApplication makes an correct AVL-Tree from input. For my university I need to make an program wich:

- insert data correct in an AVL-Tree
- keep it ballanced
- give output fast enough and correct to certain input

My question is why does the method/part of my programm wich I introduce later in this topic is so so very slow(96% of totaltime programm runned)?

Other methods/parts in my programm who also uses treewalks takes around 0.05% or less of my programm

I will explain the part/method "**rank of node in tree**" the one which accordingly to DotTrace(analystic tool) this method takes 96% of my whole program(all other methods takes around 0.05% or less). And thats why i get a timeLimit on my assignment when submitted with dumjudge system.

- if input line starts with T: insert new node in AVL tree

if input line starts with G: derterminate rank of the specified node rank is number of people who got a higher score than you +1 than output with Console.Writeline(variable);

example:

node values: x(10) y(5) z(2) k(5) l(4) m(9)

node ranks: X(1) y(3) z(6) k(3) l(5) m(2)

- if input line starts with something else: no need for explain this part works correct

I have tried alot of things but i cannot see why its to slow I hope you guys can help me let me see what i am doing wrong.

variables:

- MyAVLTree T: contains the root of the AVL-tree
- MyNode NodeX, contains the node from wich we want to dertermine the rank
- Int compareVAlue, is the value of nodeX wich we compare to other nodes to determine if its higher(counter++) or lower(do nothing)

when there are no more higher nodes than nodeX the method will return the counter variable wich contains the rank of the node so it can be printed as output.

all inputlines that produces output or insert data in AVL tree takes around 0.05% or less of my programm... except the method/part of my program that produces/returns the rank of a node in the AVL-Tree(96%)

I hope my code is readable, thanks in advance for your help and time.

```
public static int RankElement(MyAVLTree T, MyNode nodeX, int compareValue)
{
int counter = 1;
while (true)
{
if (nodeX == T.root)
{
UnkownTreeWalk(T, nodeX.Right, compareValue, ref counter);
return counter;
}
else if (nodeX == nodeX.Parent.Right)
{
UnkownTreeWalk(T, nodeX.Right, compareValue, ref counter);
while (nodeX == nodeX.Parent.Right)
{
nodeX = nodeX.Parent;
if (nodeX == T.root)
{
return counter;
}
}
nodeX = nodeX.Parent;
if (nodeX.playerScore > compareValue)
counter++;
}
else
{
UnkownTreeWalk(T, nodeX.Right, compareValue, ref counter);
nodeX = nodeX.Parent;
if (nodeX.playerScore > compareValue)
counter++;
}
}
}
public static void UnkownTreeWalk(MyAVLTree T, MyNode nodeX, int compareValue, ref int counter)
{
if (nodeX != null)
{
if (nodeX.playerScore > compareValue)
{
counter++;
}
UnkownTreeWalk(T, nodeX.Right, compareValue, ref counter);
UnkownTreeWalk(T, nodeX.Left, compareValue, ref counter);
}
}
```