Exemple #1
0
    private void Resize(int newSize)
    {
      // Hash table size needs to be prime.
      newSize = PrimeHelper.NextPrime(newSize);

      var newTable = new int[newSize];
      var newSlots = new Slot[newSize];

      // Copy current slots.
      Array.Copy(_slots, 0, newSlots, 0, _touchedSlots);

      // Update hash table and rebuild chains.
      for (int slotIndex = 0; slotIndex < _touchedSlots; slotIndex++)
      {
        int hashCode = GetHashCode(newSlots[slotIndex].ObjectA, newSlots[slotIndex].ObjectB);
        int tableIndex = hashCode % newSize;
        newSlots[slotIndex].Next = newTable[tableIndex] - 1;
        newTable[tableIndex] = slotIndex + 1;
      }

      _table = newTable;
      _slots = newSlots;

      if (_used != null)
      {
        var newUsed = new bool[newSize];
        Array.Copy(_used, 0, newUsed, 0, _touchedSlots);
        _used = newUsed;
      }
    }
        public void TestNextPrime()
        {
            var input = new[]
            {
                18, 13, 68, 99, 93, 34, 11, 47, 64, 10,
                809, 3420, 9391, 8999, 5154, 8934, 5416, 5669, 2755, 3159,
                285080, 727881, 846232, 665370, 153194, 157833, 585896, 914054, 505284, 333258,
                49086597, 78119724, 76928802, 23260170, 1955743, 39360664, 10885879, 30169506, 65889970, 95425647,
                179424551, 179424571, 179424577, 179424601, 179424611, 179424617, 179424629, 179424667, 179424671, 179424673,
                1683899352, 883641873, 114883641, 1000000007, 1000000009, 1000000021, 1000000033, 1000000087, 1000000093
            };
            var output = new[]
            {
                19, 17, 71, 101, 97, 37, 13, 53, 67, 11,
                811, 3433, 9397, 9001, 5167, 8941, 5417, 5683, 2767, 3163,
                285091, 727891, 846233, 665381, 153247, 157837, 585899, 914117, 505301, 333269,
                49086613, 78119749, 76928807, 23260187, 1955747, 39360683, 10885891, 30169523, 65889997, 95425663,
                179424571, 179424577, 179424601, 179424611, 179424617, 179424629, 179424667, 179424671, 179424673, 179424691,
                1683899359, 883641893, 114883661, 1000000009, 1000000021, 1000000033, 1000000087, 1000000093, 1000000097
            };

            Assert.AreEqual(input.Length, output.Length, "setup");
            for (var index = 0; index < output.Length; index++)
            {
                Assert.AreEqual(output[index], PrimeHelper.NextPrime(input[index]));
                Assert.IsTrue(PrimeHelper.IsPrime(output[index]));
            }
        }
Exemple #3
0
    /// <summary>
    /// Sets the capacity of the <see cref="HashSetEx{T}"/> to a value suitable for the current
    /// number of elements in the set.
    /// </summary>
    /// <remarks>
    /// <para>
    /// This method can be used to minimize a collection's memory overhead if no new elements will 
    /// be added to the collection.
    /// </para>
    /// <para>
    /// This method is an O(n) operation, where n is <see cref="Count"/>. 
    /// </para>
    /// <para>
    /// To reset a <see cref="HashSetEx{T}"/> to its initial state, call the <see cref="Clear"/> 
    /// method before calling <see cref="TrimExcess"/> method. Trimming an empty 
    /// <see cref="HashSetEx{T}"/> sets the capacity of the <see cref="HashSetEx{T}"/> to the
    /// default capacity.
    /// </para>
    /// </remarks>
    public void TrimExcess()
    {
      // Similar to Resize(), except that TrimExcess() compacts the items and clears 
      // the free list!

      int newSize = PrimeHelper.NextPrime((_count > 0) ? _count : InitialSize);
      int[] newTable = new int[newSize];
      var newSlots = new Slot[newSize];

      // Insert items in new hash table and slots (without recomputing the hash code).
      int newIndex = 0;
      for (int oldIndex = 0; oldIndex < _touchedSlots; oldIndex++)
      {
        if (_slots[oldIndex].HashCode >= 0)
        {
          newSlots[newIndex].HashCode = _slots[oldIndex].HashCode;
          newSlots[newIndex].Item = _slots[oldIndex].Item;

          int tableIndex = newSlots[newIndex].HashCode % newSize;
          newSlots[newIndex].Next = newTable[tableIndex] - 1;
          newTable[tableIndex] = newIndex + 1;
          newIndex++;
        }
      }

      _table = newTable;
      _slots = newSlots;
      _touchedSlots = newIndex;
      _freeList = -1;
      _version++;
    }
Exemple #4
0
    private void Resize(int newSize)
    {
      // Similar to TrimAccess(), except that Resize() does not compact the items.
      // The free list remains!

      // Hash table size needs to be prime.
      newSize = PrimeHelper.NextPrime(newSize);

      var newTable = new int[newSize];
      var newSlots = new Slot[newSize];

      // Copy current slots.
      Array.Copy(_slots, 0, newSlots, 0, _touchedSlots);

      // Update hash table and rebuild chains.
      for (int slotIndex = 0; slotIndex < _touchedSlots; slotIndex++)
      {
        int tableIndex = newSlots[slotIndex].HashCode % newSize;
        newSlots[slotIndex].Next = newTable[tableIndex] - 1;
        newTable[tableIndex] = slotIndex + 1;
      }

      _table = newTable;
      _slots = newSlots;
    }
    /// <summary>
    /// Initializes a new instance of the <see cref="SynchronizedHashtable{TKey,TValue}"/> class.
    /// </summary>
    /// <param name="capacity">The number of buckets in the hash table.</param>
    /// <remarks>
    /// For efficiency the <paramref name="capacity"/> is automatically incremented to the next 
    /// prime number.
    /// </remarks>
    /// <exception cref="ArgumentOutOfRangeException">
    /// <paramref name="capacity"/> is less than 1.
    /// </exception>
    public SynchronizedHashtable(int capacity)
    {
      if (capacity < 1)
        throw new ArgumentOutOfRangeException("capacity", "The initial capacity must be greater than 0.");

      capacity = PrimeHelper.NextPrime(capacity);
      _buckets = new Node[capacity];
    }
Exemple #6
0
    private void Initialize(int capacity)
    {
      capacity = PrimeHelper.NextPrime(capacity);

      _table = new int[capacity];
      _slots = new Slot[capacity];
      _touchedSlots = 0;
      _freeList = -1;
      _count = 0;
      _version = 0;
    }
        public void TestPrimeBounds()
        {
            // 2147483629 is tha last prime below int.MaxValue
            Assert.AreEqual(2, PrimeHelper.NextPrime(-1));
            Assert.AreEqual(3, PrimeHelper.NextPrime(2));
            Assert.Throws <OverflowException>(() => PrimeHelper.NextPrime(2147483629));

            // 2147483629 is tha last prime below int.MaxValue
            Assert.AreEqual(2, PrimeHelper.ToPrime(-1));
            Assert.AreEqual(2, PrimeHelper.ToPrime(2));
            Assert.AreEqual(2147483629, PrimeHelper.ToPrime(2147483629));
        }
Exemple #8
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    private void Initialize(int capacity, IEqualityComparer<T> comparer)
    {
      capacity = PrimeHelper.NextPrime(capacity);

      _table = new int[capacity];
      _slots = new Slot[capacity];
      _touchedSlots = 0;
      _freeList = -1;
      _count = 0;
      _comparer = comparer ?? EqualityComparer<T>.Default;
      _version = 0;
    }
        public void NextPrimesTest()
        {
            for (int n = 1; n < int.MaxValue / 2; n <<= 1)
            {
                int prime = PrimeHelper.NextPrime(n);
                Assert.GreaterOrEqual(prime, n);
                Assert.IsTrue(PrimeHelper.IsPrime(prime));

                if (n > 1)
                {
                    // Prime number should be close to actual number.
                    Assert.LessOrEqual(prime, (int)(n * 1.5));
                }
            }
        }