/// <summary>
/// 默认2倍,闪光为3倍
/// 我压中的概率是三分之一
/// </summary>
/// <param name="selectInd_"></param>
/// <param name="fen"></param>
/// <returns></returns>
public string[] pick_a_card(int selectInd_, Int64 jiaoFen)
{
//winOrLost,fen,machine_pick,your_pick,light
//string[] pickResult = { "0", "0", "0" };
_pickResult = new string[] { "0", "0", "0", "0", "0" };
//
Random r = new Random(RandomUtil.GetRandSeed());
int machine_pick = r.Next(3);
machine_pick++;
int light = r.Next(2);
//
_pickResult[2] = machine_pick.ToString();
_pickResult[3] = selectInd_.ToString();
_pickResult[4] = light.ToString();
//
if (selectInd_ == machine_pick)
{
_pickResult[0] = "1";
//获得的分值 = 押分;
if (0 == light)
{
_pickResult[1] = (jiaoFen * 1).ToString();
}
else
{
_pickResult[1] = (jiaoFen * 2).ToString();
}
}
else
{
_pickResult[0] = "0";
//扣掉的分值 = 押分 * 1
_pickResult[1] = (jiaoFen * 1).ToString();
}
return(_pickResult);
}
/// <summary>
/// 洗牌前必须先reset
/// </summary>
public void xipai()
{
//
reset();
//
int i = 0;
int len = 0;
int n = 0;
//clone pai name
List <string> p = PAI_NAME.GetList();
//第一次发17张牌
len = 17;
//提高随机数不重复概率的种子生成方法:
//Millisecond 取值范围是 0 - 999
//DateTime.Now.Ticks是指从1970年1月1日(具体哪年忘了哈,好像是1970)开始到目前所经过的毫秒数——刻度数。
//54张牌的组合是 54!
//是一个非常大的数,结果是: 2.3e + 71
//因此我们的seed的取值范围也应该非常大,也就是0到上面的结果,
//Millisecond小了,导致只会出现999种牌的组合
//guid方法不可取,每回都是一样的
//直接以Random做为随机数生成器因为时钟精度问题,
//在一个小的时间段内会得到同样的伪随机数序列,
//你shuffle后会得到同一个结果。
//.net提供了RNGCryptoServiceProvider可以避免这种情况
//GetRandSeed后的取值范围是 0 - int32.MaxValue,虽然还差很远,但是999要好很多
Random r = new Random(RandomUtil.GetRandSeed());
for (i = 0; i < len; i++)
{
n = r.Next(p.Count);
grid[0, i] = p[n];
p.RemoveAt(n);
}
//test
/*
* grid[0, 0] = PokerName.X_J; p.Remove(PokerName.X_J);
*
* grid[0, 1] = PokerName.F_A; p.Remove(PokerName.F_A);
* grid[0, 2] = PokerName.X_A; p.Remove(PokerName.X_A);
* grid[0, 3] = PokerName.T_A; p.Remove(PokerName.T_A);
* grid[0, 4] = PokerName.T_K; p.Remove(PokerName.T_K);
*
* grid[0, 5] = PokerName.F_K; p.Remove(PokerName.F_K);
* grid[0, 6] = PokerName.M_K; p.Remove(PokerName.M_K);
* grid[0, 7] = PokerName.T_8; p.Remove(PokerName.T_8);
* grid[0, 8] = PokerName.X_8; p.Remove(PokerName.X_8);
*
* grid[0, 9] = PokerName.X_3; p.Remove(PokerName.X_3);
* grid[0, 10] = PokerName.T_3; p.Remove(PokerName.T_3);
* grid[0, 11] = PokerName.X_2; p.Remove(PokerName.X_2);
* grid[0, 12] = PokerName.X_4; p.Remove(PokerName.X_4);
*
* grid[0, 13] = PokerName.X_5; p.Remove(PokerName.X_5);
* grid[0, 14] = PokerName.X_6; p.Remove(PokerName.X_6);
* grid[0, 15] = PokerName.X_10; p.Remove(PokerName.X_10);
* grid[0, 16] = PokerName.T_10; p.Remove(PokerName.T_10);
*/
for (i = 0; i < len; i++)
{
n = r.Next(p.Count);
grid[1, i] = p[n];
p.RemoveAt(n);
}
//test
/*
* grid[1, 0] = PokerName.M_J; p.Remove(PokerName.M_J);
*
* grid[1, 1] = PokerName.F_4; p.Remove(PokerName.F_4);
* grid[1, 2] = PokerName.X_4; p.Remove(PokerName.X_4);
* grid[1, 3] = PokerName.T_4; p.Remove(PokerName.T_4);
* grid[1, 4] = PokerName.T_5; p.Remove(PokerName.T_5);
*
* grid[1, 5] = PokerName.F_5; p.Remove(PokerName.F_5);
* grid[1, 6] = PokerName.M_5; p.Remove(PokerName.M_5);
* grid[1, 7] = PokerName.T_Q; p.Remove(PokerName.T_Q);
* grid[1, 8] = PokerName.X_Q; p.Remove(PokerName.X_Q);
*
* grid[1, 9] = PokerName.X_K; p.Remove(PokerName.X_K);
* grid[1, 10] = PokerName.M_K; p.Remove(PokerName.M_K);
* grid[1, 11] = PokerName.M_2; p.Remove(PokerName.M_2);
* grid[1, 12] = PokerName.M_4; p.Remove(PokerName.M_4);
*
* grid[1, 13] = PokerName.X_5; p.Remove(PokerName.X_5);
* grid[1, 14] = PokerName.X_6; p.Remove(PokerName.X_6);
* grid[1, 15] = PokerName.X_J; p.Remove(PokerName.X_J);
* grid[1, 16] = PokerName.T_10; p.Remove(PokerName.T_10);
*/
for (i = 0; i < len; i++)
{
n = r.Next(p.Count);
grid[2, i] = p[n];
p.RemoveAt(n);
}//end for
//底牌
grid2[0] = p[0];
grid2[1] = p[1];
grid2[2] = p[2];
//distory
p.Clear();
}
