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306 lines
12 KiB
C#
306 lines
12 KiB
C#
3 months ago
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// Animancer // Copyright 2020 Kybernetik //
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using System;
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using System.Collections;
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using System.Collections.Generic;
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using UnityEngine;
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namespace Animancer
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{
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/// <summary>
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/// An object with a <see cref="Animancer.Key"/> so it can be used in a <see cref="Key.KeyedList{T}"/>.
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/// </summary>
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public interface IKeyHolder
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{
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/// <summary>The <see cref="Animancer.Key"/> which stores the list index of this object.</summary>
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Key Key { get; }
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}
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/// <summary>
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/// Stores the index of an object in a <see cref="KeyedList{T}"/> to allow it to be efficiently removed.
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/// </summary>
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public class Key : IKeyHolder
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{
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/************************************************************************************************************************/
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private int _Index = -1;
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/// <summary>Returns location of this object in the list (or -1 if it is not currently in a keyed list).</summary>
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public static int IndexOf(Key key) { return key._Index; }
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/// <summary>Indicates whether the specified object is currently in a keyed list.</summary>
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public static bool IsInList(Key key) { return key._Index != -1; }
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/************************************************************************************************************************/
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/// <summary>A <see cref="Key"/> is its own <see cref="Key"/>.</summary>
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Key IKeyHolder.Key { get { return this; } }
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/************************************************************************************************************************/
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/// <summary>
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/// A <see cref="List{T}"/> which can remove items without needing to search through the entire collection.
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/// Does not allow nulls to be added.
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/// </summary>
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///
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/// <example>
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/// To use an object in a Keyed List, it must either inherit from <see cref="Key"/> or implement
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/// <see cref="IKeyHolder"/> like so:
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/// <code>
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/// class MyClass : IKeyHolder
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/// {
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/// private readonly Key Key = new Key();
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/// Key IKeyHolder.Key { get { return Key; } }
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/// }
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/// </code>
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/// Note that the <c>Key</c> field can be made <c>public</c> if desired.
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/// </example>
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///
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/// <remarks>
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/// This class is nested inside <see cref="Key"/> so it can modify the private <see cref="_Index"/> without
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/// exposing that capability to anything else.
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/// </remarks>
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public sealed class KeyedList<T> : IList<T> where T : class, IKeyHolder
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{
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/************************************************************************************************************************/
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private const string
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SingleUse = "Each item can only be used in one Keyed List at a time.",
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NotFound = "The specified item does not exist in this list.";
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/************************************************************************************************************************/
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private readonly List<T> Items;
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/************************************************************************************************************************/
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/// <summary>Creates a new <see cref="KeyedList{T}"/> using the default <see cref="List{T}"/> constructor.</summary>
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public KeyedList()
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{
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Items = new List<T>();
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}
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/// <summary>Creates a new <see cref="KeyedList{T}"/> with the specified initial `capacity`.</summary>
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public KeyedList(int capacity)
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{
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Items = new List<T>(capacity);
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}
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// No copy constructor because the keys will not work if they are used in multiple lists at once.
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/************************************************************************************************************************/
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/// <summary>The number of items currently in the list.</summary>
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public int Count { get { return Items.Count; } }
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/// <summary>The number of items that this list can contain before resizing is required.</summary>
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public int Capacity { get { return Items.Capacity; } set { Items.Capacity = value; } }
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/************************************************************************************************************************/
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/// <summary>Gets or sets the item at the specified `index`.</summary>
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/// <exception cref="ArgumentException">Thrown by the setter if the `value` was already in a keyed list.</exception>
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public T this[int index]
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{
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get { return Items[index]; }
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set
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{
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var key = value.Key;
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if (key._Index != -1)
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throw new ArgumentException(SingleUse);
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var item = Items[index];
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item.Key._Index = -1;
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key._Index = index;
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Items[index] = value;
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}
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}
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/************************************************************************************************************************/
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/// <summary>Adds the `item` to the end of this list.</summary>
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/// <exception cref="ArgumentException">Thrown if the `item` was already in a keyed list.</exception>
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public void Add(T item)
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{
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var key = item.Key;
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if (key._Index != -1)
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throw new ArgumentException(SingleUse);
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key._Index = Items.Count;
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Items.Add(item);
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}
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/// <summary>Adds the `item` to the end of this list if it wasn't already in one.</summary>
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public void AddNew(T item)
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{
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if (!IsInList(item.Key))
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Add(item);
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}
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/************************************************************************************************************************/
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/// <summary>Removes the item at the specified `index`.</summary>
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public void RemoveAt(int index)
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{
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Items[index].Key._Index = -1;
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Items.RemoveAt(index);
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}
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/// <summary>
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/// Removes the item at the specified `index` by swapping the last item in this list into its place.
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/// <para></para>
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/// This does not maintain the order of items, but is more efficient than <see cref="RemoveAt"/> because
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/// it avoids the need to move every item after the removed one down one place.
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/// </summary>
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public void RemoveAtSwap(int index)
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{
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Items[index].Key._Index = -1;
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var lastIndex = Items.Count - 1;
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if (lastIndex > index)
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{
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var lastItem = Items[lastIndex];
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lastItem.Key._Index = index;
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Items[index] = lastItem;
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}
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Items.RemoveAt(lastIndex);
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}
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/************************************************************************************************************************/
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/// <summary>Removes the `item` from this list.</summary>
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public bool Remove(T item)
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{
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var key = item.Key;
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var index = key._Index;
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if (index < 0)
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return false;
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Debug.Assert(Items[index] == item, NotFound);
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key._Index = -1;
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Items.RemoveAt(index);
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return true;
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}
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/************************************************************************************************************************/
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/// <summary>
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/// Removes the `item` by swapping the last item in this list into its place.
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/// <para></para>
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/// This does not maintain the order of items, but is more efficient than <see cref="Remove"/> because
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/// it avoids the need to move every item after the removed one down one place.
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/// </summary>
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public bool RemoveSwap(T item)
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{
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var key = item.Key;
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var index = key._Index;
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if (index < 0)
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return false;
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Debug.Assert(Items[index] == item, NotFound);
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key._Index = -1;
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var lastIndex = Items.Count - 1;
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if (lastIndex > index)
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{
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var lastItem = Items[lastIndex];
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lastItem.Key._Index = index;
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Items[index] = lastItem;
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}
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Items.RemoveAt(lastIndex);
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return true;
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}
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/************************************************************************************************************************/
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/// <summary>Removes all items from this list.</summary>
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public void Clear()
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{
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for (int i = Items.Count - 1; i >= 0; i--)
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{
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Items[i].Key._Index = -1;
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}
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Items.Clear();
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}
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/************************************************************************************************************************/
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/// <summary>Indicates whether the `item` is currently in this list.</summary>
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public bool Contains(T item)
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{
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if (item == null)
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return false;
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var index = item.Key._Index;
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return
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index >= 0 &&
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index < Items.Count &&
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Items[index] == item;
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}
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/************************************************************************************************************************/
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/// <summary>Returns the index of the `item` in this list or -1 if it is not in this list.</summary>
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public int IndexOf(T item)
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{
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if (item == null)
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return -1;
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var index = item.Key._Index;
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if (index >= 0 &&
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index < Items.Count &&
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Items[index] == item)
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return index;
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else
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return -1;
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}
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/************************************************************************************************************************/
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/// <summary>Adds the `item` to this list at the specified `index`.</summary>
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public void Insert(int index, T item)
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{
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for (int i = index; i < Items.Count; i++)
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Items[i].Key._Index++;
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item.Key._Index = index;
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Items.Insert(index, item);
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}
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/************************************************************************************************************************/
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/// <summary>Copies all the items from this list into the `array`, starting at the specified `arrayIndex`.</summary>
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public void CopyTo(T[] array, int arrayIndex)
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{
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Items.CopyTo(array, arrayIndex);
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}
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/// <summary>Returns false.</summary>
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bool ICollection<T>.IsReadOnly { get { return false; } }
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/// <summary>Returns an enumerator that iterates through this list.</summary>
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public IEnumerator<T> GetEnumerator()
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{
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return Items.GetEnumerator();
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}
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/// <summary>Returns an enumerator that iterates through this list.</summary>
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IEnumerator IEnumerable.GetEnumerator()
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{
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return Items.GetEnumerator();
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}
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/************************************************************************************************************************/
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}
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/************************************************************************************************************************/
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}
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}
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