Exemplo n.º 1
0
/*-----------------------------------------------------------------------------*/
void Notation::DeleteBranch(int no)
{
	MoveKif* move = this->move_current_; // 一旦カレントに対する操作にしておく
	Moves* moves = this->current_moves_;
	int num = this->number();

	if (no == -1)
	{
		int pos = num - (*moves)[0].number();

		// 次の要素から最後までを削除
		moves->erase(moves->begin() + pos + 1, moves->end());

		if (move->branches().size() != 0)
		{
			// ブランチをずらす
			moves->insert(moves->end(), move->branches()[0]->begin(), move->branches()[0]->end());

			move->DeleteBranch(0);
		}
	}
	else
	{
		move->DeleteBranch(no);
	}
}
Exemplo n.º 2
0
Moves MoveGenerator::generateOpening(const Board& board) const
{
	Moves result;
	if(board.getIdleCount() == 0)
	{
		QMessageBox::critical(0, "error", "idle == 0");
		return result;
	}
	for(int i=0; i<23; ++i)
	{
		if(board.isEmpty(i))
		{
			Board next = board.makeChild();  // a clone
			next.setManAt(i, board.getSelfColor());
			if(next.closeMill(i))
			{
				Moves removeMoves = generateRemove(next, board.getOpponentColor());  // remove 1 opponent chessman
				copy(removeMoves.begin(), removeMoves.end(), back_inserter(result));
			}
			else
				result.push_back(next);
		}
	}
	return result;
}
Exemplo n.º 3
0
void ConsoleManager::showMoves() const {
  Moves moves;
  MoveGenerator::generate(record_.getBoard(), moves);
  for (auto ite = moves.begin(); ite != moves.end(); ite++) {
    if (record_.getBoard().isValidMoveStrict(*ite)) {
      std::cout << ite->toString() << ' ';
    }
  }
  std::cout << std::endl;
}
Exemplo n.º 4
0
	Move bestMove(const Moves& moves)
	{
		if (!moves.empty())
		{
			return *min_element(moves.begin(), moves.end());
		} 
		else 
		{
			return Move(Cost::infinity());
		}
	}
void build_path(ull_t v, const Searched & searched, Moves & steps) {
  Searched::const_iterator it = searched.find(v);
  while (it != searched.end()) {
    const State & s = it->second;
    steps.push_back(s.step);
    it = searched.find(s.parent);
  }
  //pop up the first step, which must be 0, rather than one of U,D,L,R
  steps.pop_back();
  reverse(steps.begin(), steps.end());
}
Exemplo n.º 6
0
/*-----------------------------------------------------------------------------*/
void Notation::AddBranch(const Moves& src_moves)
{
	Moves* dest_moves = this->current_moves_; // 一旦カレントで作成
	MoveKif* dest_move = this->move_current_;


	const MoveKif& last_move = dest_moves->back();

	if (&last_move == dest_move)
	{
		// 追加先が末尾の場合
		dest_moves->insert(dest_moves->end(), src_moves.begin(), src_moves.end());
	}
	else
	{
		// 追加先が途中の場合
		dest_move->AddBranch(dest_moves, src_moves);
	}
}
Exemplo n.º 7
0
Moves MoveGenerator::generateHopping(const Board& board) const
{
	Moves result;
	for(int from=0; from<23; ++from)
		if(board.getManAt(from) == board.getSelfColor())
		{
			for(int to=0; to<23; ++to)
				if(board.isEmpty(to))
				{
					Board next = board.makeChild();
					next.move(from, to);
					if(next.closeMill(to))
					{
						Moves removeMoves = generateRemove(next, board.getOpponentColor());
						copy(removeMoves.begin(), removeMoves.end(), back_inserter(result));
					}
					else
						result.push_back(next);
				}
		}
	return result;
}
Exemplo n.º 8
0
Moves MoveGenerator::generateMove(const Board& board) const
{
	Moves result;
	for(int from=0; from<23; ++from)
		if(board.getManAt(from) == board.getSelfColor())
		{
			Neighbors neighbors = Board::getNeighbors(from);
			for(Neighbors::iterator it = neighbors.begin(); it != neighbors.end(); ++it)
				if(board.isEmpty(*it))
				{
					Board next = board.makeChild();
					next.move(from, *it);
					if(next.closeMill(*it))
					{
						Moves removeMoves = generateRemove(next, board.getOpponentColor());
						copy(removeMoves.begin(), removeMoves.end(), back_inserter(result));
					}
					else
						result.push_back(next);
				}
		}
		return result;
}
Exemplo n.º 9
0
int ChessBoard::alphaBetaSearch(int depth, int alpha, int beta)
{    
    //1.到达水平线返回
    if (depth==0)
    {
        return evaluate();
    }
    m_searchCallTimes++;

    //2.初使化最佳值,最佳走法    
    int vlBest = -MATE_VALUE;
    int mvBest = 0;

    //3.生成走法,根据历史表排序
    Moves mvs;
    generateMoves(mvs);
    //PrintMoves(mvs);
    qSort(mvs.begin(), mvs.end(), compareLessTan);
    //PrintMoves(mvs);
    //qDebug()<<"----------------------";

    // 4. 逐一走这些走法,并进行递归
    for(int i=0; i<mvs.count(); i++)
    {
        //列出走法
        int pcCaptured;
        if (makeMove(mvs[i], pcCaptured))
        {
            int vl = -alphaBetaSearch(depth - 1, -beta, -alpha);
            undoMakeMove(mvs[i], pcCaptured);
            //qDebug()<<mvString(mvs[i])<<" vl="<<vl;

            //进行Alpha-Beta大小判断和截断
            if (vl > vlBest)
            {
                // 找到最佳值(但不能确定是Alpha、PV还是Beta走法)
                vlBest = vl;        // "vlBest"就是目前要返回的最佳值,可能超出Alpha-Beta边界
                if (vl >= beta)
                {
                    // 找到一个Beta走法
                    mvBest = mvs[i];  // Beta走法要保存到历史表
                    break;            // Beta截断
                }
                if (vl > alpha)
                {
                    // 找到一个PV走法
                    mvBest = mvs[i];  // PV走法要保存到历史表
                    alpha = vl;     // 缩小Alpha-Beta边界
                }
            }
        }
    }

    // 5. 所有走法都搜索完了,把最佳走法(不能是Alpha走法)保存到历史表,返回最佳值
    if (vlBest == -MATE_VALUE)
    {
      // 如果是杀棋,就根据杀棋步数给出评价
      return m_distance - MATE_VALUE;
    }
    //qDebug()<<"mvBest="<<mvBest<<" distance="<<m_distance;
    if (mvBest != 0)
    {
      // 如果不是Alpha走法,就将最佳走法保存到历史表
      m_historyTable[mvBest] += depth * depth;
      if (m_distance==0)
      {
        // 搜索根节点时,总是有一个最佳走法(因为全窗口搜索不会超出边界),将这个走法保存下来
        m_mvComputer = mvBest;
      }
    }
    return vlBest;
}