using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
namespace DataStructures.Heap.PairingHeap;
public class PairingHeap<T> : IEnumerable<T> where T : IComparable
{
private readonly Sorting sorting;
private readonly IComparer<T> comparer;
private readonly Dictionary<T, List<PairingHeapNode<T>>> mapping = new();
private PairingHeapNode<T> root = null!;
public int Count { get; private set; }
public PairingHeap(Sorting sortDirection = Sorting.Ascending)
{
sorting = sortDirection;
comparer = new PairingNodeComparer<T>(sortDirection, Comparer<T>.Default);
}
public void Insert(T newItem)
{
var newNode = new PairingHeapNode<T>(newItem);
root = RebuildHeap(root, newNode);
Map(newItem, newNode);
Count++;
}
public T Extract()
{
var minMax = root;
RemoveMapping(minMax.Value, minMax);
RebuildHeap(root.ChildrenHead);
Count--;
return minMax.Value;
}
public void UpdateKey(T currentValue, T newValue)
{
if(!mapping.ContainsKey(currentValue))
{
throw new ArgumentException("Current value is not present in this heap.");
}
var node = mapping[currentValue]?.Where(x => x.Value.Equals(currentValue)).FirstOrDefault();
if (comparer.Compare(newValue, node!.Value) > 0)
{
throw new ArgumentException($"New value is not {(sorting != Sorting.Descending ? "less" : "greater")} than old value.");
}
UpdateNodeValue(currentValue, newValue, node);
if (node == root)
{
return;
}
DeleteChild(node);
root = RebuildHeap(root, node);
}
IEnumerator IEnumerable.GetEnumerator()
{
return GetEnumerator();
}
public IEnumerator<T> GetEnumerator()
{
return mapping.SelectMany(x => x.Value).Select(x => x.Value).GetEnumerator();
}
private void RebuildHeap(PairingHeapNode<T> headNode)
{
if (headNode == null)
{
return;
}
var passOneResult = new List<PairingHeapNode<T>>();
var current = headNode;
if (current.Next == null)
{
headNode.Next = null!;
headNode.Previous = null!;
passOneResult.Add(headNode);
}
else
{
while (true)
{
if (current == null)
{
break;
}
if (current.Next != null)
{
var next = current.Next;
var nextNext = next.Next;
passOneResult.Add(RebuildHeap(current, next));
current = nextNext;
}
else
{
var lastInserted = passOneResult[^1];
passOneResult[^1] = RebuildHeap(lastInserted, current);
break;
}
}
}
var passTwoResult = passOneResult[^1];
if (passOneResult.Count == 1)
{
root = passTwoResult;
return;
}
for (var i = passOneResult.Count - 2; i >= 0; i--)
{
current = passOneResult[i];
passTwoResult = RebuildHeap(passTwoResult, current);
}
root = passTwoResult;
}
private PairingHeapNode<T> RebuildHeap(PairingHeapNode<T> node1, PairingHeapNode<T> node2)
{
if (node2 != null)
{
node2.Previous = null!;
node2.Next = null!;
}
if (node1 == null)
{
return node2!;
}
node1.Previous = null!;
node1.Next = null!;
if (node2 != null && comparer.Compare(node1.Value, node2.Value) <= 0)
{
AddChild(ref node1, node2);
return node1;
}
AddChild(ref node2!, node1);
return node2;
}
private void AddChild(ref PairingHeapNode<T> parent, PairingHeapNode<T> child)
{
if (parent.ChildrenHead == null)
{
parent.ChildrenHead = child;
child.Previous = parent;
return;
}
var head = parent.ChildrenHead;
child.Previous = head;
child.Next = head.Next;
if (head.Next != null)
{
head.Next.Previous = child;
}
head.Next = child;
}
private void DeleteChild(PairingHeapNode<T> node)
{
if (node.IsHeadChild)
{
var parent = node.Previous;
if (node.Next != null)
{
node.Next.Previous = parent;
}
parent.ChildrenHead = node.Next!;
}
else
{
node.Previous.Next = node.Next;
if (node.Next != null)
{
node.Next.Previous = node.Previous;
}
}
}
private void Map(T newItem, PairingHeapNode<T> newNode)
{
if (mapping.ContainsKey(newItem))
{
mapping[newItem].Add(newNode);
}
else
{
mapping[newItem] = new List<PairingHeapNode<T>>(new[] { newNode });
}
}
private void UpdateNodeValue(T currentValue, T newValue, PairingHeapNode<T> node)
{
RemoveMapping(currentValue, node);
node.Value = newValue;
Map(newValue, node);
}
private void RemoveMapping(T currentValue, PairingHeapNode<T> node)
{
mapping[currentValue].Remove(node);
if (mapping[currentValue].Count == 0)
{
mapping.Remove(currentValue);
}
}
}