using System;

namespace Apewer.Internals
{

    /// <summary>Levenshtein 距离:两个字符串之间,由一个转换成另一个所需的最少编辑操作次数。</summary>
    internal class Levenshtein
    {

        #region 结果

        private double _Rate;
        private int _Times;
        private int _Distance;
        private TimeSpan _Duration;

        /// <summary>相似度,取值范围 0 ~ 1。若不同,则趋近于 0;若完全相同,则为 1。</summary>
        public double Rate { get { return _Rate; } }

        /// <summary>对比次数。</summary>
        public int Times { get { return _Times; } }

        /// <summary>距离。</summary>
        public int Distance { get { return _Distance; } }

        /// <summary>时长。</summary> 
        public TimeSpan Duration { get { return _Duration; } }

        #endregion

        #region 计算

        /// <summary>字符串 1。</summary> 
        private char[] _ArrChar1;

        /// <summary>字符串 2。</summary> 
        private char[] _ArrChar2;

        /// <summary>开始时间。</summary> 
        private DateTime _BeginTime;

        /// <summary>结束时间。</summary> 
        private DateTime _EndTime;

        /// <summary>算法矩阵。</summary> 
        private int[,] _Matrix;

        /// <summary>矩阵列数。</summary> 
        private int _Column;

        /// <summary>矩阵行数。</summary> 
        private int _Row;

        private Levenshtein()
        {
            InitVariable();
        }

        /// <summary>初始化变量。</summary> 
        private void InitVariable()
        {
            _Rate = 0;
            _Times = 0;
            _Distance = 0;
            _Duration = new TimeSpan(0);
        }

        /// <summary>初始化算法基本信息。</summary> 
        private void InitVariable(string arg1, string arg2)
        {
            InitVariable();
            _ArrChar1 = arg1.ToCharArray();
            _ArrChar2 = arg2.ToCharArray();
            _Row = _ArrChar1.Length + 1;
            _Column = _ArrChar2.Length + 1;
            _Matrix = new int[_Row, _Column];
        }

        /// <summary>初始化矩阵的第一行和第一列。</summary> 
        private void InitMatrix()
        {
            for (int i = 0; i < _Column; i++) _Matrix[0, i] = i;
            for (int i = 0; i < _Row; i++) _Matrix[i, 0] = i;
        }

        /// <summary>取三个数中的最小值。</summary> 
        private int Minimum(int argFirst, int argSecond, int argThird)
        {
            int intMin = argFirst;
            if (argSecond < intMin) intMin = argSecond;
            if (argThird < intMin) intMin = argThird;
            return intMin;
        }

        /// <summary>计算相似度。</summary> 
        private void Compute()
        {
            // 开始时间。
            _BeginTime = DateTime.Now;

            // 初始化矩阵的第一行和第一列。
            this.InitMatrix();

            int intCost = 0;
            for (int i = 1; i < _Row; i++)
            {
                for (int j = 1; j < _Column; j++)
                {
                    if (_ArrChar1[i - 1] == _ArrChar2[j - 1])
                    {
                        intCost = 0;
                    }
                    else
                    {
                        intCost = 1;
                    }
                    // 关键步骤,计算当前位置值为左边 + 1、上面 + 1、左上角 + intCost 中的最小值。
                    // 循环遍历到最后 _Matrix[_Row - 1, _Column - 1] 即为两个字符串的距离。
                    _Matrix[i, j] = this.Minimum(_Matrix[i - 1, j] + 1, _Matrix[i, j - 1] + 1, _Matrix[i - 1, j - 1] + intCost);
                    _Times++;
                }
            }

            // 结束时间。
            _EndTime = DateTime.Now;

            // 相似率,移动次数小于最长的字符串长度的 20% 算同一题。
            int intLength = _Row > _Column ? _Row : _Column;
            _Rate = 1 - (double)_Matrix[_Row - 1, _Column - 1] / intLength;
            _Duration = _EndTime - _BeginTime;
            _Distance = _Matrix[_Row - 1, _Column - 1];
        }

        #endregion

        #region 方法

        /// <summary>计算两个字符串的相似度。</summary>
        public static Levenshtein Compute(string arg1, string arg2)
        {
            var vString1 = string.IsNullOrEmpty(arg1) ? "" : arg1;
            var vString2 = string.IsNullOrEmpty(arg2) ? "" : arg2;
            var vInstance = new Levenshtein();
            vInstance.InitVariable(vString1, vString2);
            vInstance.Compute();
            return vInstance;
        }

        #endregion

    }

}