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斗地主AI算法——第十三章の主动出牌(2)

九日王朝 2018-07-18 16:33:20 浏览 1776
九日王朝
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上一章我们已经搭好了出牌算法的基本框架,本章主要实现优先处理的三带、飞机等牌型。

首先定义一些基本变量:


	//暂存最佳的价值	HandCardValue BestHandCardValue;	BestHandCardValue.NeedRound = 20;	BestHandCardValue.SumValue = MinCardsValue;	//我们认为不出牌的话会让对手一个轮次,即加一轮(权值减少7)便于后续的对比参考。	BestHandCardValue.NeedRound += 1;	//暂存最佳的组合	CardGroupData BestCardGroup;	//带出去的牌	int tmp_1 = 0;	int tmp_2 = 0;	int tmp_3 = 0;	int tmp_4 = 0;


因为枚举了牌型,所以实际和被动出牌逻辑都差不多,且没有nMaxCard的限制,所以我们要从3开始遍历。且上一章我们提到,不考虑炸弹拆分的情况。故value_aHandCardList[i]不能等于4。


for (int i = 3; i < 16; i++)	{		//2.0版本策略主动出牌不拆分炸弹,朕自己从来就不打四带二,因为浪		if (clsHandCardData.value_aHandCardList[i] != 4)		{			//出三带一			if (clsHandCardData.value_aHandCardList[i] > 2)			{				clsHandCardData.value_aHandCardList[i] -= 3;				for (int j = 3; j < 18; j++)				{					if (clsHandCardData.value_aHandCardList[j] > 0 )					{						clsHandCardData.value_aHandCardList[j] -= 1;						clsHandCardData.nHandCardCount -= 4;						HandCardValue tmpHandCardValue = get_HandCardValue(clsHandCardData);						clsHandCardData.value_aHandCardList[j] += 1;						clsHandCardData.nHandCardCount += 4;						//选取总权值-轮次*7值最高的策略  因为我们认为剩余的手牌需要n次控手的机会才能出完,若轮次牌型很大(如炸弹) 则其-7的价值也会为正						if ((BestHandCardValue.SumValue - (BestHandCardValue.NeedRound * 7)) <= (tmpHandCardValue.SumValue - (tmpHandCardValue.NeedRound * 7)))						{							BestHandCardValue = tmpHandCardValue;							BestCardGroup = get_GroupData(cgTHREE_TAKE_ONE, i, 4);							tmp_1 = j;						}					}				}				clsHandCardData.value_aHandCardList[i] += 3;			}			//出三带二			if (clsHandCardData.value_aHandCardList[i] > 2)			{				for (int j = 3; j < 16; j++)				{					clsHandCardData.value_aHandCardList[i] -= 3;					if (clsHandCardData.value_aHandCardList[j] > 1)					{						clsHandCardData.value_aHandCardList[j] -= 2;						clsHandCardData.nHandCardCount -= 5;						HandCardValue tmpHandCardValue = get_HandCardValue(clsHandCardData);						clsHandCardData.value_aHandCardList[j] += 2;						clsHandCardData.nHandCardCount += 5;						//选取总权值-轮次*7值最高的策略  因为我们认为剩余的手牌需要n次控手的机会才能出完,若轮次牌型很大(如炸弹) 则其-7的价值也会为正						if ((BestHandCardValue.SumValue - (BestHandCardValue.NeedRound * 7)) <= (tmpHandCardValue.SumValue - (tmpHandCardValue.NeedRound * 7)))						{							BestHandCardValue = tmpHandCardValue;							BestCardGroup = get_GroupData(cgTHREE_TAKE_TWO, i, 5);							tmp_1 = j;						}					}					clsHandCardData.value_aHandCardList[i] += 3;				}			}			//出四带二单			if (clsHandCardData.value_aHandCardList[i] > 3)			{				//2.0版本策略主动出牌不拆分炸弹,朕自己从来就不打四带二,因为浪			}			//出四带二对			if (clsHandCardData.value_aHandCardList[i] > 3)			{				//2.0版本策略主动出牌不拆分炸弹,朕自己从来就不打四带二,因为浪			}			//出三带一单连			if (clsHandCardData.value_aHandCardList[i] > 2)			{				int prov = 0;				for (int j = i; j < 15; j++)				{					if (clsHandCardData.value_aHandCardList[j] > 2)					{						prov++;					}					else					{						break;					}					/*本来想做全排列选取带出的牌然后枚举出最高价值的,但考虑到当飞机长度也就是在2-4之间					所以干脆做三个分支处理算了*/					//为两连飞机					if (prov == 2)					{						for (int k = i; k <= j; k++)						{							clsHandCardData.value_aHandCardList[k] -= 3;						}						clsHandCardData.nHandCardCount -= prov * 4;						for (int tmp1 = 3; tmp1 < 18; tmp1++)						{							if (clsHandCardData.value_aHandCardList[tmp1] > 0 )							{								clsHandCardData.value_aHandCardList[tmp1] -= 1;								for (int tmp2 = tmp1; tmp2 < 18; tmp2++)								{									if (clsHandCardData.value_aHandCardList[tmp2] > 0 )									{										clsHandCardData.value_aHandCardList[tmp2] -= 1;										HandCardValue tmpHandCardValue = get_HandCardValue(clsHandCardData);																			if ((BestHandCardValue.SumValue - (BestHandCardValue.NeedRound * 7)) <= (tmpHandCardValue.SumValue - (tmpHandCardValue.NeedRound * 7)))										{											BestHandCardValue = tmpHandCardValue;											BestCardGroup = get_GroupData(cgTHREE_TAKE_ONE_LINE, j, prov * 4);											tmp_1 = tmp1;											tmp_2 = tmp2;										}										clsHandCardData.value_aHandCardList[tmp2] += 1;									}								}								clsHandCardData.value_aHandCardList[tmp1] += 1;							}						}						for (int k = i; k <= j; k++)						{							clsHandCardData.value_aHandCardList[k] += 3;						}						clsHandCardData.nHandCardCount += prov * 4;					}					//为三连飞机					if (prov == 3)					{						for (int k = i; k <= j; k++)						{							clsHandCardData.value_aHandCardList[k] -= 3;						}						clsHandCardData.nHandCardCount -= prov * 4;						for (int tmp1 = 3; tmp1 < 18; tmp1++)						{							if (clsHandCardData.value_aHandCardList[tmp1] > 0 )							{								clsHandCardData.value_aHandCardList[tmp1] -= 1;								for (int tmp2 = tmp1; tmp2 < 18; tmp2++)								{									if (clsHandCardData.value_aHandCardList[tmp2] > 0 )									{										clsHandCardData.value_aHandCardList[tmp2] -= 1;										for (int tmp3 = tmp2; tmp3 < 18; tmp3++)										{											if (clsHandCardData.value_aHandCardList[tmp3] > 0 )											{												clsHandCardData.value_aHandCardList[tmp3] -= 1;												HandCardValue tmpHandCardValue = get_HandCardValue(clsHandCardData);												if ((BestHandCardValue.SumValue - (BestHandCardValue.NeedRound * 7)) <= (tmpHandCardValue.SumValue - (tmpHandCardValue.NeedRound * 7)))												{													BestHandCardValue = tmpHandCardValue;													BestCardGroup = get_GroupData(cgTHREE_TAKE_ONE_LINE, j, prov * 4);													tmp_1 = tmp1;													tmp_2 = tmp2;													tmp_3 = tmp3;												}												clsHandCardData.value_aHandCardList[tmp3] += 1;											}										}										clsHandCardData.value_aHandCardList[tmp2] += 1;									}								}								clsHandCardData.value_aHandCardList[tmp1] += 1;							}						}						for (int k = i; k <= j; k++)						{							clsHandCardData.value_aHandCardList[k] += 3;						}						clsHandCardData.nHandCardCount += prov * 4;					}					//为四连飞机					if (prov == 4)					{						for (int k = i; k <= j; k++)						{							clsHandCardData.value_aHandCardList[k] -= 3;						}						clsHandCardData.nHandCardCount -= prov * 4;						for (int tmp1 = 3; tmp1 < 18; tmp1++)						{							if (clsHandCardData.value_aHandCardList[tmp1] > 0 )							{								clsHandCardData.value_aHandCardList[tmp1] -= 1;								for (int tmp2 = tmp1; tmp2 < 18; tmp2++)								{									if (clsHandCardData.value_aHandCardList[tmp2] > 0 )									{										clsHandCardData.value_aHandCardList[tmp2] -= 1;										for (int tmp3 = tmp2; tmp3 < 18; tmp3++)										{											if (clsHandCardData.value_aHandCardList[tmp3] > 0 )											{												clsHandCardData.value_aHandCardList[tmp3] -= 1;												for (int tmp4 = tmp3; tmp4 < 18; tmp4++)												{													if (clsHandCardData.value_aHandCardList[tmp4] > 0 )													{														clsHandCardData.value_aHandCardList[tmp4] -= 1;														HandCardValue tmpHandCardValue = get_HandCardValue(clsHandCardData);														if ((BestHandCardValue.SumValue - (BestHandCardValue.NeedRound * 7)) <= (tmpHandCardValue.SumValue - (tmpHandCardValue.NeedRound * 7)))														{															BestHandCardValue = tmpHandCardValue;															BestCardGroup = get_GroupData(cgTHREE_TAKE_ONE_LINE, j, prov * 4);															tmp_1 = tmp1;															tmp_2 = tmp2;															tmp_3 = tmp3;															tmp_4 = tmp4;														}														clsHandCardData.value_aHandCardList[tmp4] += 1;													}												}												clsHandCardData.value_aHandCardList[tmp3] += 1;											}										}										clsHandCardData.value_aHandCardList[tmp2] += 1;									}								}								clsHandCardData.value_aHandCardList[tmp1] += 1;							}						}						for (int k = i; k <= j; k++)						{							clsHandCardData.value_aHandCardList[k] += 3;						}						clsHandCardData.nHandCardCount += prov * 4;					}					//若prov==5,则是地主可以直接出去,在剪枝部分已经处理				}			}			//出三带一双连			if (clsHandCardData.value_aHandCardList[i] > 2)			{				int prov = 0;				for (int j = i; j < 15; j++)				{					if (clsHandCardData.value_aHandCardList[j] > 2 )					{						prov++;					}					else					{						break;					}					/*本来想做全排列选取带出的牌然后枚举出最高价值的,但考虑到当飞机长度也就是在2-4之间					所以干脆做三个分支处理算了*/					//为两连飞机					if (prov == 2)					{						for (int k = i; k <= j; k++)						{							clsHandCardData.value_aHandCardList[k] -= 3;						}						clsHandCardData.nHandCardCount -= prov * 5;						for (int tmp1 = 3; tmp1 < 16; tmp1++)						{							if (clsHandCardData.value_aHandCardList[tmp1] > 1 )							{								clsHandCardData.value_aHandCardList[tmp1] -= 2;								for (int tmp2 = tmp1; tmp2 < 16; tmp2++)								{									if (clsHandCardData.value_aHandCardList[tmp2] > 1 )									{										clsHandCardData.value_aHandCardList[tmp2] -= 2;										HandCardValue tmpHandCardValue = get_HandCardValue(clsHandCardData);										if ((BestHandCardValue.SumValue - (BestHandCardValue.NeedRound * 7)) <= (tmpHandCardValue.SumValue - (tmpHandCardValue.NeedRound * 7)))										{											BestHandCardValue = tmpHandCardValue;											BestCardGroup = get_GroupData(cgTHREE_TAKE_TWO_LINE, j, prov * 5);											tmp_1 = tmp1;											tmp_2 = tmp2;										}										clsHandCardData.value_aHandCardList[tmp2] += 2;									}								}								clsHandCardData.value_aHandCardList[tmp1] += 2;							}						}						for (int k = i; k <= j; k++)						{							clsHandCardData.value_aHandCardList[k] += 3;						}						clsHandCardData.nHandCardCount += prov * 5;					}					//为三连飞机					if (prov == 3)					{						for (int k = i; k <= j; k++)						{							clsHandCardData.value_aHandCardList[k] -= 3;						}						clsHandCardData.nHandCardCount -= prov * 5;						for (int tmp1 = 3; tmp1 < 16; tmp1++)						{							if (clsHandCardData.value_aHandCardList[tmp1] > 1 )							{								clsHandCardData.value_aHandCardList[tmp1] -= 2;								for (int tmp2 = tmp1; tmp2 < 16; tmp2++)								{									if (clsHandCardData.value_aHandCardList[tmp2] > 1 )									{										clsHandCardData.value_aHandCardList[tmp2] -= 2;										for (int tmp3 = tmp2; tmp3 < 16; tmp3++)										{											if (clsHandCardData.value_aHandCardList[tmp3] > 1 )											{												clsHandCardData.value_aHandCardList[tmp3] -= 2;												HandCardValue tmpHandCardValue = get_HandCardValue(clsHandCardData);												if ((BestHandCardValue.SumValue - (BestHandCardValue.NeedRound * 7)) <= (tmpHandCardValue.SumValue - (tmpHandCardValue.NeedRound * 7)))												{													BestHandCardValue = tmpHandCardValue;													BestCardGroup = get_GroupData(cgTHREE_TAKE_TWO_LINE, j, prov * 5);													tmp_1 = tmp1;													tmp_2 = tmp2;													tmp_3 = tmp3;												}												clsHandCardData.value_aHandCardList[tmp3] += 2;											}										}										clsHandCardData.value_aHandCardList[tmp2] += 2;									}								}								clsHandCardData.value_aHandCardList[tmp1] += 2;							}						}						for (int k = i; k <= j; k++)						{							clsHandCardData.value_aHandCardList[k] += 3;						}						clsHandCardData.nHandCardCount += prov * 5;					}					//若prov==4,则是地主可以直接出去,在剪枝部分已经处理				}			}		}	}







这个循环结束后,若有好的选择,则BestCardGroup会保留出牌的类型,在循环外进行出牌处理。



if (BestCardGroup.cgType == cgTHREE_TAKE_ONE)		{			clsHandCardData.value_nPutCardList.push_back(BestCardGroup.nMaxCard);			clsHandCardData.value_nPutCardList.push_back(BestCardGroup.nMaxCard);			clsHandCardData.value_nPutCardList.push_back(BestCardGroup.nMaxCard);			clsHandCardData.value_nPutCardList.push_back(tmp_1);			clsHandCardData.uctPutCardType = BestCardGroup;			return;		}	else if (BestCardGroup.cgType == cgTHREE_TAKE_TWO)		{			clsHandCardData.value_nPutCardList.push_back(BestCardGroup.nMaxCard);			clsHandCardData.value_nPutCardList.push_back(BestCardGroup.nMaxCard);			clsHandCardData.value_nPutCardList.push_back(BestCardGroup.nMaxCard);			clsHandCardData.value_nPutCardList.push_back(tmp_1);			clsHandCardData.value_nPutCardList.push_back(tmp_1);			clsHandCardData.uctPutCardType = BestCardGroup;			return;		}	else if (BestCardGroup.cgType == cgTHREE_TAKE_ONE_LINE)		{			for (int j = BestCardGroup.nMaxCard - (BestCardGroup.nCount / 4) + 1; j <= BestCardGroup.nMaxCard; j++)			{				clsHandCardData.value_nPutCardList.push_back(j);				clsHandCardData.value_nPutCardList.push_back(j);				clsHandCardData.value_nPutCardList.push_back(j);			}			if (BestCardGroup.nCount / 4 == 2)			{				clsHandCardData.value_nPutCardList.push_back(tmp_1);				clsHandCardData.value_nPutCardList.push_back(tmp_2);			}			if (BestCardGroup.nCount / 4 == 3)			{				clsHandCardData.value_nPutCardList.push_back(tmp_1);				clsHandCardData.value_nPutCardList.push_back(tmp_2);				clsHandCardData.value_nPutCardList.push_back(tmp_3);			}			if (BestCardGroup.nCount / 4 == 4)			{				clsHandCardData.value_nPutCardList.push_back(tmp_1);				clsHandCardData.value_nPutCardList.push_back(tmp_2);				clsHandCardData.value_nPutCardList.push_back(tmp_3);				clsHandCardData.value_nPutCardList.push_back(tmp_4);			}			clsHandCardData.uctPutCardType = BestCardGroup;			return;		}	else if (BestCardGroup.cgType == cgTHREE_TAKE_TWO_LINE)		{			for (int j = BestCardGroup.nMaxCard - (BestCardGroup.nCount / 5) + 1; j <= BestCardGroup.nMaxCard; j++)			{				clsHandCardData.value_nPutCardList.push_back(j);				clsHandCardData.value_nPutCardList.push_back(j);				clsHandCardData.value_nPutCardList.push_back(j);			}			if (BestCardGroup.nCount / 5 == 2)			{				clsHandCardData.value_nPutCardList.push_back(tmp_1);				clsHandCardData.value_nPutCardList.push_back(tmp_1);				clsHandCardData.value_nPutCardList.push_back(tmp_2);				clsHandCardData.value_nPutCardList.push_back(tmp_2);			}			if (BestCardGroup.nCount / 5 == 3)			{				clsHandCardData.value_nPutCardList.push_back(tmp_1);				clsHandCardData.value_nPutCardList.push_back(tmp_1);				clsHandCardData.value_nPutCardList.push_back(tmp_2);				clsHandCardData.value_nPutCardList.push_back(tmp_2);				clsHandCardData.value_nPutCardList.push_back(tmp_3);				clsHandCardData.value_nPutCardList.push_back(tmp_3);			}			clsHandCardData.uctPutCardType = BestCardGroup;			return;		}


因为回溯遍历部分与被动出牌完全一样,这里就不再赘述。飞机在出牌阶段的处理比较麻烦,要根据牌数进行判断是几连飞机。



下一章,我们将实现打出当前最小值牌部分。

敬请关注下一章:斗地主AI算法——第十四章の主动出牌(3)


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