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Queue.cs
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Queue.cs
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using System;
using System.Collections.Generic;
namespace DataStructures.Lists
{
/// <summary>
/// The Queue (FIFO) Data Structure.
/// </summary>
public class Queue<T> : IEnumerable<T> where T : IComparable<T>
{
/// <summary>
/// INSTANCE VARIABLE.
/// </summary>
private int _size { get; set; }
private int _headPointer { get; set; }
private int _tailPointer { get; set; }
// The internal collection.
private T[] _collection { get; set; }
private const int _defaultCapacity = 8;
// This sets the default maximum array length to refer to MAXIMUM_ARRAY_LENGTH_x64
// Set the flag IsMaximumCapacityReached to false
bool DefaultMaxCapacityIsX64 = true;
bool IsMaximumCapacityReached = false;
// The C# Maximum Array Length (before encountering overflow)
// Reference: http://referencesource.microsoft.com/#mscorlib/system/array.cs,2d2b551eabe74985
public const int MAXIMUM_ARRAY_LENGTH_x64 = 0X7FEFFFFF; //x64
public const int MAXIMUM_ARRAY_LENGTH_x86 = 0x8000000; //x86
/// <summary>
/// CONSTRUCTOR
/// </summary>
public Queue() : this(_defaultCapacity) { }
public Queue(int initialCapacity)
{
if (initialCapacity < 0)
{
throw new ArgumentOutOfRangeException();
}
_size = 0;
_headPointer = 0;
_tailPointer = 0;
_collection = new T[initialCapacity];
}
/// <summary>
/// Resize the internal array to a new size.
/// </summary>
private void _resize(int newSize)
{
if (newSize > _size && !IsMaximumCapacityReached)
{
int capacity = (_collection.Length == 0 ? _defaultCapacity : _collection.Length * 2);
// Allow the list to grow to maximum possible capacity (~2G elements) before encountering overflow.
// Note that this check works even when _items.Length overflowed thanks to the (uint) cast
int maxCapacity = (DefaultMaxCapacityIsX64 == true ? MAXIMUM_ARRAY_LENGTH_x64 : MAXIMUM_ARRAY_LENGTH_x86);
// Handle the new proper size
if (capacity < newSize)
capacity = newSize;
if (capacity >= maxCapacity)
{
capacity = maxCapacity - 1;
IsMaximumCapacityReached = true;
}
// Try resizing and handle overflow
try
{
//Array.Resize (ref _collection, newSize);
var tempCollection = new T[newSize];
Array.Copy(_collection, _headPointer, tempCollection, 0, _size);
_collection = tempCollection;
}
catch (OutOfMemoryException)
{
if (DefaultMaxCapacityIsX64 == true)
{
DefaultMaxCapacityIsX64 = false;
_resize(capacity);
}
else
{
throw;
}
}
}
}
/// <summary>
/// Returns count of elements in queue
/// </summary>
public int Count
{
get { return _size; }
}
/// <summary>
/// Checks whether the queue is empty.
/// </summary>
public bool IsEmpty
{
get { return _size == 0; }
}
/// <summary>
/// Returns the top element in queue
/// </summary>
public T Top
{
get
{
if (IsEmpty)
throw new Exception("Queue is empty.");
return _collection[_headPointer];
}
}
/// <summary>
/// Inserts an element at the end of the queue
/// </summary>
/// <param name="dataItem">Element to be inserted.</param>
public void Enqueue(T dataItem)
{
if (_size == _collection.Length)
{
try
{
_resize(_collection.Length * 2);
}
catch (OutOfMemoryException ex)
{
throw ex;
}
}
// Enqueue item at tail and then increment tail
_collection[_tailPointer++] = dataItem;
// Wrap around
if (_tailPointer == _collection.Length)
_tailPointer = 0;
// Increment size
_size++;
}
/// <summary>
/// Removes the Top Element from queue, and assigns it's value to the "top" parameter.
/// </summary>
/// <return>The top element container.</return>
public T Dequeue()
{
if (IsEmpty)
throw new Exception("Queue is empty.");
var topItem = _collection[_headPointer];
_collection[_headPointer] = default(T);
// Decrement the size
_size--;
// Increment the head pointer
_headPointer++;
// Reset the pointer
if (_headPointer == _collection.Length)
_headPointer = 0;
// Shrink the internal collection
if (_size > 0 && _collection.Length > _defaultCapacity && _size <= _collection.Length / 4)
{
// Get head and tail
var head = _collection[_headPointer];
var tail = _collection[_tailPointer];
// Shrink
_resize((_collection.Length / 3) * 2);
// Update head and tail pointers
_headPointer = Array.IndexOf(_collection, head);
_tailPointer = Array.IndexOf(_collection, tail);
}
return topItem;
}
/// <summary>
/// Returns an array version of this queue.
/// </summary>
/// <returns>System.Array.</returns>
public T[] ToArray()
{
var array = new T[_size];
int j = 0;
for (int i = 0; i < _size; ++i)
{
array[j] = _collection[_headPointer + i];
j++;
}
return array;
}
/// <summary>
/// Returns a human-readable, multi-line, print-out (string) of this queue.
/// </summary>
public string ToHumanReadable()
{
var array = ToArray();
string listAsString = string.Empty;
int i = 0;
for (i = 0; i < Count; ++i)
listAsString = String.Format("{0}[{1}] => {2}\r\n", listAsString, i, array[i]);
return listAsString;
}
/********************************************************************************/
public IEnumerator<T> GetEnumerator()
{
return _collection.GetEnumerator() as IEnumerator<T>;
}
System.Collections.IEnumerator System.Collections.IEnumerable.GetEnumerator()
{
return this.GetEnumerator();
}
}
}