poj - 1191 - 棋盘切割(dp)

时间:2023-01-29 07:44:29

题意:将一个8*8的棋盘(每一个单元正方形有个分值)沿直线(竖或横)割掉一块,留下一块,对留下的这块继续这样操作,总共进行n - 1次,得到n块(1 < n < 15)矩形,每一个矩形的分值就是单元正方形的分值的和,问这n个矩形的最小均方差。

题目链接:

id=1191">http://poj.org/problem?

id=1191

——>>此题中。均方差比較,等价于方差比較,等价于平方和比較。

状态:dp[x1][y1][x2][y2][i]表示将(x1, y1)到(x2, y2)的矩形切割i次的最小平方和。

状态转移方程:dp[x1][y1][x2][y2][i] = min(dp[x1][y1][j][y2][i - 1] + nSquare[j + 1][y1][x2][y2], dp[j + 1][y1][x2][y2][i - 1] + nSquare[x1][y1][j][y2], );(水平方向分割)

dp[x1][y1][x2][y2][i] = min(dp[x1][y1][x2][j][i - 1] + nSquare[x1][j + 1][x2][y2], dp[x1][j + 1][x2][y2][i - 1] + nSquare[x1][y1][x2][j]);(竖直方向分割)

两个方向再取最小值。

#include <cstdio>

#include <cstring>

#include <algorithm>

#include <cmath>

using std::sqrt;

using std::min;

const int WIDTH = 8;

const int MAXN = 15 + 1;

const int INF = 0x3f3f3f3f;

int a[WIDTH + 1][WIDTH + 1];

int nSum[WIDTH + 1][WIDTH + 1][WIDTH + 1][WIDTH + 1];

int nSquare[WIDTH + 1][WIDTH + 1][WIDTH + 1][WIDTH + 1];

int dp[WIDTH + 1][WIDTH + 1][WIDTH + 1][WIDTH + 1][MAXN];

void Init()

{

    memset(nSum, 0, sizeof(nSum));

    for (int x1 = 1; x1 <= WIDTH; ++x1)

    {

        for (int y1 = 1; y1 <= WIDTH; ++y1)

        {

            for (int x2 = x1; x2 <= WIDTH; ++x2)

            {

                for (int y2 = y1; y2 <= WIDTH; ++y2)

                {

                    nSum[x1][y1][x2][y2] = nSum[x1][y1][x2 - 1][y2] + nSum[x1][y1][x2][y2 - 1] - nSum[x1][y1][x2 - 1][y2 - 1] + a[x2][y2];

                    nSquare[x1][y1][x2][y2] = nSum[x1][y1][x2][y2] * nSum[x1][y1][x2][y2];

                    dp[x1][y1][x2][y2][0] = nSquare[x1][y1][x2][y2];

                }

            }

        }

    }

}

void Dp(int n)

{

    for (int i = 1; i <= n - 1; ++i)

    {

        for (int x1 = WIDTH; x1 >= 1; --x1)

        {

            for (int y1 = 1; y1 <= WIDTH; ++y1)

            {

                for (int x2 = x1; x2 <= WIDTH; ++x2)

                {

                    for (int y2 = y1; y2 <= WIDTH; ++y2)

                    {

                        dp[x1][y1][x2][y2][i] = INF;

                        for (int j = x1; j < x2; ++j)

                        {

                            dp[x1][y1][x2][y2][i] = min(dp[x1][y1][x2][y2][i], dp[x1][y1][j][y2][i - 1] + nSquare[j + 1][y1][x2][y2]);

                            dp[x1][y1][x2][y2][i] = min(dp[x1][y1][x2][y2][i], dp[j + 1][y1][x2][y2][i - 1] + nSquare[x1][y1][j][y2]);

                        }

                        for (int j = y1; j < y2; ++j)

                        {

                            dp[x1][y1][x2][y2][i] = min(dp[x1][y1][x2][y2][i], dp[x1][y1][x2][j][i - 1] + nSquare[x1][j + 1][x2][y2]);

                            dp[x1][y1][x2][y2][i] = min(dp[x1][y1][x2][y2][i], dp[x1][j + 1][x2][y2][i - 1] + nSquare[x1][y1][x2][j]);

                        }

                    }

                }

            }

        }

    }

}

void Output(int n)

{

    double fAvg = 1.0 * nSum[1][1][8][8] / n;

    printf("%.3f\n", sqrt(1.0 * dp[1][1][8][8][n - 1] / n - fAvg * fAvg));

}

void Read()

{

    for (int i = 1; i <= WIDTH; ++i)

    {

        for (int j = 1; j <= WIDTH; ++j)

        {

            scanf("%d", &a[i][j]);

        }

    }

}

int main()

{

    int n;

    while (scanf("%d", &n) == 1)

    {

        Read();

        Init();

        Dp(n);

        Output(n);

    }

    return 0;

}

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