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RaptorDB - The Key Value Store V2

, 10 Oct 2013
Even faster Key/Value store nosql embedded database engine utilizing the new MGIndex data structure with MurMur2 Hashing and WAH Bitmap indexes for duplicates. (with MonoDroid support)
RaptorDB_v2.0.zip
RaptorDB
DataTypes
Indexes
Properties
Storage
testing
UnitTests
UnitTests release.nunit
UnitTests.nunit
Properties
UnitTests.nunit
RaptorDB_v2.1.zip
UnitTests release.nunit
UnitTests.nunit
UnitTests.nunit
RaptorDB_v2.2.zip
UnitTests release.nunit
UnitTests.nunit
UnitTests.nunit
RaptorDB_v2.3.zip
UnitTests release.nunit
UnitTests.nunit
UnitTests.nunit
RaptorDB_v2.4.zip
UnitTests release.nunit
UnitTests.nunit
UnitTests.nunit
RaptorDB_v2.5.zip
UnitTests release.nunit
UnitTests.nunit
UnitTests.nunit
RaptorDB_v2.6.zip
UnitTests release.nunit
UnitTests.nunit
UnitTests.nunit
RaptorDB_v2.7.0.zip
UnitTests.nunit
UnitTests.nunit
RaptorDB_v2.7.5.zip
UnitTests.nunit
UnitTests.nunit
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;

namespace RaptorDB
{
    internal interface IGetBytes<T>
    {
        byte[] GetBytes(T obj);
        T GetObject(byte[] buffer, int offset, int count);
    }

    internal class RDBDataType<T>
    {
        public static IGetBytes<T> ByteHandler()
        {
            Type type = typeof(T);

            if (type == typeof(int))            return (IGetBytes<T>)new int_handler<T>();
            else if (type == typeof(uint))      return (IGetBytes<T>)new uint_handler<T>();
            else if (type == typeof(long))      return (IGetBytes<T>)new long_handler<T>();
            else if (type == typeof(Guid))      return (IGetBytes<T>)new guid_handler<T>();
            else if (type == typeof(string))    return (IGetBytes<T>)new string_handler<T>();
            else if (type == typeof(DateTime))  return (IGetBytes<T>)new datetime_handler<T>();
            else if (type == typeof(decimal))   return (IGetBytes<T>)new decimal_handler<T>();
            else if (type == typeof(short))     return (IGetBytes<T>)new short_handler<T>();
            else if (type == typeof(float))     return (IGetBytes<T>)new float_handler<T>();
            else if (type == typeof(byte))      return (IGetBytes<T>)new byte_handler<T>();
            else if (type == typeof(double))    return (IGetBytes<T>)new double_handler<T>();

            return null;
        }

        public static byte GetByteSize(byte keysize)
        {
            byte size = 4;
            Type t = typeof(T);

            if (t == typeof(int))      size = 4;
            if (t == typeof(uint))     size = 4;
            if (t == typeof(long))     size = 8;
            if (t == typeof(Guid))     size = 16;
            if (t == typeof(DateTime)) size = 8;
            if (t == typeof(decimal))  size = 16;
            if (t == typeof(float))    size = 4;
            if (t == typeof(short))    size = 2;
            if (t == typeof(string))   size = keysize;
            if (t == typeof(byte))     size = 1;
            if (t == typeof(double))   size = 8;

            return size;
        }

        internal static object GetEmpty()
        {
            Type t = typeof(T);

            if (t == typeof(string))
                return "";

            return default(T);
        }
    }

    #region [  handlers  ]

    internal class double_handler<T> : IGetBytes<double>
    {
        public byte[] GetBytes(double obj)
        {
            return BitConverter.GetBytes(obj);
        }

        public double GetObject(byte[] buffer, int offset, int count)
        {
            return BitConverter.ToDouble(buffer, offset);
        }
    }

    internal class byte_handler<T> : IGetBytes<byte>
    {
        public byte[] GetBytes(byte obj)
        {
            return new byte[1] { obj };
        }

        public byte GetObject(byte[] buffer, int offset, int count)
        {
            return buffer[offset];
        }
    }

    internal class float_handler<T> : IGetBytes<float>
    {
        public byte[] GetBytes(float obj)
        {
            return BitConverter.GetBytes(obj);
        }

        public float GetObject(byte[] buffer, int offset, int count)
        {
            return BitConverter.ToSingle(buffer, offset);
        }
    }

    internal class decimal_handler<T> : IGetBytes<decimal>
    {
        public byte[] GetBytes(decimal obj)
        {
            byte[] b = new byte[16];
            var bb = decimal.GetBits(obj);
            int index = 0;
            foreach (var d in bb)
            {
                byte[] db = Helper.GetBytes(d, false);
                Buffer.BlockCopy(db, 0, b, index, 4);
                index += 4;
            }

            return b;
        }

        public decimal GetObject(byte[] buffer, int offset, int count)
        {
            int[] i = new int[4];
            i[0] = Helper.ToInt32(buffer, offset);
            offset += 4;
            i[1] = Helper.ToInt32(buffer, offset);
            offset += 4;
            i[2] = Helper.ToInt32(buffer, offset);
            offset += 4;
            i[3] = Helper.ToInt32(buffer, offset);
            offset += 4;

            return new decimal(i);
        }
    }

    internal class short_handler<T> : IGetBytes<short>
    {
        public byte[] GetBytes(short obj)
        {
            return Helper.GetBytes(obj, false);
        }

        public short GetObject(byte[] buffer, int offset, int count)
        {
            return Helper.ToInt16(buffer, offset);
        }
    }

    internal class string_handler<T> : IGetBytes<string>
    {
        public byte[] GetBytes(string obj)
        {
            return Helper.GetBytes(obj);
        }

        public string GetObject(byte[] buffer, int offset, int count)
        {
            return Helper.GetString(buffer, offset, (short)count);
        }
    }

    internal class int_handler<T> : IGetBytes<int>
    {
        public byte[] GetBytes(int obj)
        {
            return Helper.GetBytes(obj, false);
        }

        public int GetObject(byte[] buffer, int offset, int count)
        {
            return Helper.ToInt32(buffer, offset);
        }
    }

    internal class uint_handler<T> : IGetBytes<uint>
    {
        public byte[] GetBytes(uint obj)
        {
            return Helper.GetBytes(obj, false);
        }

        public uint GetObject(byte[] buffer, int offset, int count)
        {
            return (uint)Helper.ToInt32(buffer, offset);
        }
    }

    internal class long_handler<T> : IGetBytes<long>
    {
        public byte[] GetBytes(long obj)
        {
            return Helper.GetBytes(obj, false);
        }

        public long GetObject(byte[] buffer, int offset, int count)
        {
            return Helper.ToInt64(buffer, offset);
        }
    }

    internal class guid_handler<T> : IGetBytes<Guid>
    {
        public byte[] GetBytes(Guid obj)
        {
            return obj.ToByteArray();
        }

        public Guid GetObject(byte[] buffer, int offset, int count)
        {
            byte[] b = new byte[16];
            Buffer.BlockCopy(buffer, offset, b, 0, 16);
            return new Guid(b);
        }
    }

    internal class datetime_handler<T> : IGetBytes<DateTime>
    {
        public byte[] GetBytes(DateTime obj)
        {
            return Helper.GetBytes(obj.Ticks, false);
        }

        public DateTime GetObject(byte[] buffer, int offset, int count)
        {
            long ticks = Helper.ToInt64(buffer, offset);

            return new DateTime(ticks);
        }
    }
    #endregion
}

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This article, along with any associated source code and files, is licensed under The Code Project Open License (CPOL)

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About the Author

Mehdi Gholam
Architect
United Kingdom United Kingdom
Mehdi first started programming when he was 8 on BBC+128k machine in 6512 processor language, after various hardware and software changes he eventually came across .net and c# which he has been using since v1.0.
He is formally educated as a system analyst Industrial engineer, but his programming passion continues.
 
* Mehdi is the 5th person to get 6 out of 7 Platinums on CodeProject (13th Jan'12)

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