• hdu.1044.Collect More Jewels(bfs + 状态压缩)


    Collect More Jewels

    Time Limit: 2000/1000 MS (Java/Others)    Memory Limit: 65536/32768 K (Java/Others) Total Submission(s): 5345    Accepted Submission(s): 1189

    Problem Description
    It is written in the Book of The Lady: After the Creation, the cruel god Moloch rebelled against the authority of Marduk the Creator.Moloch stole from Marduk the most powerful of all the artifacts of the gods, the Amulet of Yendor, and he hid it in the dark cavities of Gehennom, the Under World, where he now lurks, and bides his time.
    Your goddess The Lady seeks to possess the Amulet, and with it to gain deserved ascendance over the other gods.
    You, a newly trained Rambler, have been heralded from birth as the instrument of The Lady. You are destined to recover the Amulet for your deity, or die in the attempt. Your hour of destiny has come. For the sake of us all: Go bravely with The Lady!
    If you have ever played the computer game NETHACK, you must be familiar with the quotes above. If you have never heard of it, do not worry. You will learn it (and love it) soon.
    In this problem, you, the adventurer, are in a dangerous dungeon. You are informed that the dungeon is going to collapse. You must find the exit stairs within given time. However, you do not want to leave the dungeon empty handed. There are lots of rare jewels in the dungeon. Try collecting some of them before you leave. Some of the jewels are cheaper and some are more expensive. So you will try your best to maximize your collection, more importantly, leave the dungeon in time.
     
    Input
    Standard input will contain multiple test cases. The first line of the input is a single integer T (1 <= T <= 10) which is the number of test cases. T test cases follow, each preceded by a single blank line.
    The first line of each test case contains four integers W (1 <= W <= 50), H (1 <= H <= 50), L (1 <= L <= 1,000,000) and M (1 <= M <= 10). The dungeon is a rectangle area W block wide and H block high. L is the time limit, by which you need to reach the exit. You can move to one of the adjacent blocks up, down, left and right in each time unit, as long as the target block is inside the dungeon and is not a wall. Time starts at 1 when the game begins. M is the number of jewels in the dungeon. Jewels will be collected once the adventurer is in that block. This does not cost extra time.
    The next line contains M integers,which are the values of the jewels.
    The next H lines will contain W characters each. They represent the dungeon map in the following notation: > [*] marks a wall, into which you can not move; > [.] marks an empty space, into which you can move; > [@] marks the initial position of the adventurer; > [<] marks the exit stairs; > [A] - [J] marks the jewels.
     
    Output
    Results should be directed to standard output. Start each case with "Case #:" on a single line, where # is the case number starting from 1. Two consecutive cases should be separated by a single blank line. No blank line should be produced after the last test case.
    If the adventurer can make it to the exit stairs in the time limit, print the sentence "The best score is S.", where S is the maximum value of the jewels he can collect along the way; otherwise print the word "Impossible" on a single line.
     
    Sample Input
    3 4 4 2 2 100 200 **** *@A* *B<* **** 4 4 1 2 100 200 **** *@A* *B<* **** 12 5 13 2 100 200 ************ *B.........* *.********.* *@...A....<* ************
     
    Sample Output
    Case 1: The best score is 200. Case 2: Impossible Case 3: The best score is 300.
     
     1 #include<stdio.h>
     2 #include<queue>
     3 #include<string.h>
     4 #include<ctype.h>
     5 #include<algorithm>
     6 #include<math.h>
     7 int T , maxn ;
     8 int m , n , l , p ;
     9 int val[15] ;
    10 char map[55][55] ;
    11 bool vis[55][55][4000] ;
    12 int move[][2] = {{1,0} ,{-1,0} , {0,1} , {0,-1}} ;
    13 struct node
    14 {
    15     int x , y , step ;
    16     int jew , v;
    17 };
    18 
    19 void bfs (int sx , int sy)
    20 {
    21     std::queue <node> q ;
    22     while ( !q.empty ()) q.pop () ;
    23     q.push ((node) {sx , sy , 0 , 0 , 0}) ;
    24     node ans , tmp ;
    25     vis[sx][sy][0] = 1 ;
    26     while (!q.empty ()) {
    27         ans = q.front () ; q.pop () ;
    28       //  printf ("S---(%d,%d) %d = %d
    " , ans.x , ans.y , ans.step , ans.v) ;
    29         if (map[ans.x][ans.y] == '<') maxn = std::max (maxn , ans.v) ;
    30         for (int i = 0 ; i < 4 ; i ++) {
    31             tmp.x = ans.x + move[i][0] ; tmp.y = ans.y + move[i][1] ;
    32             if (tmp.x < 0 || tmp.y < 0 || tmp.x >= n || tmp.y >= m) continue ;
    33             if (map[tmp.x][tmp.y] == '*') continue ;
    34             tmp.jew = ans.jew ;
    35             tmp.step = ans.step +1 ;
    36             if (tmp.step > l) continue ;
    37             int k = -1 ;
    38             tmp.jew = ans.jew ; tmp.v = ans.v ;
    39             if ( isalpha (map[tmp.x][tmp.y]) ) {
    40                     k = map[tmp.x][tmp.y] - 'A' ;
    41                     if (! (tmp.jew & (1 << k))) tmp.v += val[k] ;
    42                     tmp.jew = tmp.jew | (1 << k) ;
    43             }
    44             if ( vis[tmp.x][tmp.y][tmp.jew] ) continue ;
    45           //  printf ("(%d,%d) %d = %d
    " , tmp.x , tmp.y , tmp.step , tmp.v) ;
    46             vis[tmp.x][tmp.y][tmp.jew] = 1 ;
    47             q.push (tmp ) ;
    48         }
    49     }
    50 }
    51 
    52 int main ()
    53 {
    54   // freopen ("a.txt" , "r" , stdin ) ;
    55     int T , cas = 1 ;
    56     scanf ("%d" , &T ) ;
    57     while (T --) {
    58         printf ("Case %d:
    " , cas ++) ;
    59         int ex , ey , sx , sy ;
    60         memset (vis , 0 , sizeof(vis)) ;
    61         scanf ("%d%d%d%d" , &m , &n , &l , &p) ;
    62         for (int i = 0 ; i < p ; i ++) scanf ("%d" , &val[i]) ;
    63         for (int i = 0 ; i < n; i ++) scanf ("%s" , map[i]) ; //, puts (map[i]);
    64         maxn = -1 ;
    65         for (int i = 0 ; i < n; i ++) {
    66             for (int j = 0 ; j < m ; j ++) {
    67                 if (map[i][j] == '@')
    68                     sx = i , sy = j ;
    69                 else if (map[i][j] == '<')
    70                     ex = i , ey = j ;
    71             }
    72         }
    73         if (fabs (sx - ex ) + fabs (sy - ey) > l) {
    74             printf ("Impossible
    ") ;
    75             if (T != 0) puts ("") ;
    76             continue ;
    77         }
    78         bfs (sx , sy) ;
    79         if (maxn != - 1) printf ("The best score is %d.
    " , maxn ) ;
    80         else puts ("Impossible") ;
    81         if (T != 0) puts ("") ;
    82     }
    83     return 0 ;
    84 }
    View Code

    逗比的我把状压state | (1 << k) 一直写成 state | k ,然后....
    有逗比的折腾出一种   + 宝藏  的方法,以后决定就先判定它有没有加入过,然后直接 + . (明明觉得很水的题orz)

  • 相关阅读:
    将word转化为swf 进行如同百度文库的般阅读
    最大子数组问题——编程珠玑第八章
    为什么静态成员必须在类外初始化
    C++初始化列表
    异步消息总线hornetq学习-03客户端连接hornet进行jms消息的收发-非jndi方式连接
    [PLL][PM]锁相环模拟相位解调
    insertion sort
    SRM 581 D2 L2:SurveillanceSystem,重叠度
    JQuery(下)
    Ajax
  • 原文地址:https://www.cnblogs.com/get-an-AC-everyday/p/4468634.html
Copyright © 2020-2023  润新知