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            GoogleCodejam2009 Round 1C Bribe the Prisoners

            Bribe the Prisoners

            Problem

            In a kingdom there are prison cells (numbered 1 to P) built to form a straight line segment. Cells number i and i+1 are adjacent, and prisoners in adjacent cells are called "neighbours." A wall with a window separates adjacent cells, and neighbours can communicate through that window.

            All prisoners live in peace until a prisoner is released. When that happens, the released prisoner's neighbours find out, and each communicates this to his other neighbour. That prisoner passes it on to his other neighbour, and so on until they reach a prisoner with no other neighbour (because he is in cell 1, or in cell P, or the other adjacent cell is empty). A prisoner who discovers that another prisoner has been released will angrily break everything in his cell, unless he is bribed with a gold coin. So, after releasing a prisoner in cell A, all prisoners housed on either side of cell A - until cell 1, cell P or an empty cell - need to be bribed.

            Assume that each prison cell is initially occupied by exactly one prisoner, and that only one prisoner can be released per day. Given the list of Q prisoners to be released in Q days, find the minimum total number of gold coins needed as bribes if the prisoners may be released in any order.

            Note that each bribe only has an effect for one day. If a prisoner who was bribed yesterday hears about another released prisoner today, then he needs to be bribed again.

            Input

            The first line of input gives the number of cases, N. N test cases follow. Each case consists of 2 lines. The first line is formatted as

            P Q
            where P is the number of prison cells and Q is the number of prisoners to be released.
            This will be followed by a line with Q distinct cell numbers (of the prisoners to be released), space separated, sorted in ascending order.

             

            Output

            For each test case, output one line in the format

            Case #X: C
            where X is the case number, starting from 1, and C is the minimum number of gold coins needed as bribes.

             

            Limits

            1 ≤ N ≤ 100
            QP
            Each cell number is between 1 and P, inclusive.

            Small dataset

            1 ≤ P ≤ 100
            1 ≤ Q ≤ 5

            Large dataset

            1 ≤ P ≤ 10000
            1 ≤ Q ≤ 100

            Sample


            Input
             

            Output
             
            2
            8 1
            3
            20 3
            3 6 14
            Case #1: 7
            Case #2: 35

            Note

            In the second sample case, you first release the person in cell 14, then cell 6, then cell 3. The number of gold coins needed is 19 + 12 + 4 = 35. If you instead release the person in cell 6 first, the cost will be 19 + 4 + 13 = 36.


            題目分析:
            從直覺上來說,這是一道動態規劃的題目,關鍵是如何建立狀態遞推。有一個很明顯的規律是,釋放一個牢房的犯人,只能影響到左邊第一個空的牢房和右邊第一個空的牢房,而與其它的無關。所以,釋放了一個囚犯,整個連續的牢房被分成了2段,而這兩段又都可以看成是單獨的兩個互不影響的一段,這樣,腦子里有一種很直覺的想法就是,這是一棵類似于二叉樹的結構,這顆二叉樹最后的形態就決定了最終的結果。
            我們從第二個Case為例子介紹算法:
            1.首先對該題所提到的監獄增加兩個cell,0號和P + 1號, 這兩個cell是不存在的,只是為了增加程序的可編寫和公式的一致,我們用一個vector v 來存儲釋放囚犯的監獄號,v按照從小到達的順序排列,如第二個例子中,v(0...4) = (0,3, 6, 14, 21)
            2. 我們用F[i][j]表示 從v[i]到v[j]這一段中所需要的賄賂金最小值,那么,F[0][4]就是最后需要的結果, 代表從v[0]到v[4]也就是從(0, 21)這之間的牢房中釋放囚犯所需要的錢(不包括邊界,實際需要錢賄賂的囚犯在1到20號房子中)
            3. 例如第三個例子,F[0][4] = Min(F[0][i] + F[i][3]) + (v[4] - v[0] - 2) , 其可以中i = 1, 2, 3
                可以從第三個例子中看到,無論你選擇釋放哪一個囚犯,所需的金額都是一定的,正好是這段之間住人的牢房數 - 1
            4.更加抽象出最終的公式, 我們用L代表左邊界, R代表右邊界
                F[L][R] = Min(F[L][i] + F[i][R]) + v[R] - V[L] - 2,   i = L + 1, L + 2, ……R- 1,  當L + 1 != R時
                F[L][R] = 0, 當L + 1 == R時, 這個就是上面提到的二叉樹的葉子節點
               通過這個公式就可以得到最終的結果了。

             1#include <iostream>
             2#include <vector>
             3#include <queue>
             4#include <string>
             5#include <algorithm>
             6#include <set>
             7#include <map>
             8using namespace std;
             9
            10#define ONLINEJUDGE
            11#define MAXN 11000
            12#define MAXQ 110
            13#define MAXP 110
            14#define MIN(a, b) ((a) < (b) ? (a):(b))
            15
            16int P, Q;
            17vector<int> v;
            18vector<int> Ret, buf;
            19int F[MAXP][MAXP];
            20
            21int Find(int l, int r)
            22{
            23    if(l + 1 == r)
            24    {
            25        F[l][r] = 0;
            26        return F[l][r];
            27    }

            28    if(F[l][r] >= 0return F[l][r];
            29
            30    int i, j;
            31    int iMin;
            32    iMin = 999999999;
            33    for(i = l + 1; i < r; i++)
            34    {
            35        iMin = MIN(iMin, Find(l, i) + Find(i, r));
            36    }

            37    F[l][r] = iMin + v[r] - v[l] - 2;
            38    return F[l][r];
            39}

            40
            41int main()
            42{
            43#ifdef ONLINEJUDGE
            44    freopen("C-large.in""r", stdin);
            45    freopen("C-large.out""w", stdout);
            46#endif
            47
            48    int iCaseTimes, i, j;
            49    int iBuf;
            50    int iMax, iRet, iMin;
            51
            52    scanf("%d"&iCaseTimes);
            53    for(int k = 0; k < iCaseTimes; k++)
            54    {
            55        printf("Case #%d: ", k + 1);
            56        scanf("%d%d"&P, &Q);
            57        v.clear();
            58        v.push_back(0);
            59        for(i = 0; i < Q; i++)
            60        {
            61            scanf("%d"&iBuf);
            62            v.push_back(iBuf);
            63        }

            64        v.push_back(P + 1);
            65
            66        iMin = 0;
            67        memset(F, -1sizeof(F));
            68        sort(v.begin(), v.end());
            69        
            70        iMin = 999999999;
            71        for(i = 1; i < v.size() - 1; i++)
            72        {
            73            iMin = MIN(iMin, Find(0, i) + Find(i, v.size() - 1));
            74        }

            75        F[0][v.size() - 1= iMin + v[v.size() - 1- v[0- 2;
            76        printf("%d\n", F[0][v.size() - 1]);
            77    }

            78    return 0;
            79}

            posted on 2009-09-14 19:28 Philip85517 閱讀(1437) 評論(2)  編輯 收藏 引用 所屬分類: GoogleCodeJam

            評論

            # re: GoogleCodejam2009 Round 1C Bribe the Prisoners[未登錄] 2009-09-15 16:09 vincent

            googlecodejam啊 ..貌似是9月2日?
            當天有事情沒參加..orz  回復  更多評論   

            # re: GoogleCodejam2009 Round 1C Bribe the Prisoners[未登錄] 2009-09-15 23:32 Philip85517

            @vincent
            9月2號開始的是資格賽,這個是上個星期天的比賽。
            估計Round2 是死活進不去了,太弱了……
              回復  更多評論   

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