• hdu 4666:Hyperspace(最远曼哈顿距离 + STL使用)


    Hyperspace

    Time Limit: 20000/10000 MS (Java/Others)    Memory Limit: 65535/65535 K (Java/Others)
    Total Submission(s): 1023    Accepted Submission(s): 492


    Problem Description
    The great Mr.Smith has invented a hyperspace particle generator. The device is very powerful. The device can generate a hyperspace. In the hyperspace, particle may appear and disappear randomly. At the same time a great amount of energy was generated.
    However, the device is in test phase, often in a unstable state. Mr.Smith worried that it may cause an explosion while testing it. The energy of the device is related to the maximum manhattan distance among particle.
    Particles may appear and disappear any time. Mr.Smith wants to know the maxmium manhattan distance among particles when particle appears or disappears.
     
    Input
    The input contains several test cases, terminated by EOF.
    In each case: In the first line, there are two integer q(number of particle appear and disappear event, ≤60000) and k(dimensions of the hyperspace that the hyperspace the device generated, ≤5). Then follows q lines. In each line, the first integer ‘od’ represents the event: od = 0 means this is an appear
    event. Then follows k integer(with absolute value less then 4 × 107). od = 1 means this is an disappear event. Follows a integer p represents the disappeared particle appeared in the pth event.
     
    Output
    Each test case should contains q lines. Each line contains a integer represents the maximum manhattan distance among paticles.
     
    Sample Input
    10 2
    0 208 403
    0 371 -180
    1 2
    0 1069 -192
    0 418 -525
    1 5
    1 1
    0 2754 635
    0 -2491 961
    0 2954 -2516

     

    Sample Output
    0
    746
    0
    1456
    1456
    1456
    0
    2512
    5571
    8922
     
    Source
     
    Recommend
    zhuyuanchen520   |   We have carefully selected several similar problems for you:  4822 4821 4820 4819 4818 
     
      最远曼哈顿距离 + STL库使用
      题意是已知q和n,q是请求的数量,n是平面点的维数。接下来输入q行请求,每行请求由2部分组成,分别是指令od和操作数,od=0代表加入点,od1代表删除点。如果od=0,后面会有n个整数,代表n维点的n个坐标值;如果od=1,代表删除点,删除的是第q条指令加入的点,而不是删除当前已有的第几个点。例如指令“1 5”,表示删除第5行的指令加入的点。
      不清楚最远曼哈顿距离怎么求的筒靴可以看这里:最远曼哈顿距离
      其实就是将绝对值去掉,移位,然后发现规律。多找几组例子对照着演算一下就容易明白了。
      明白基本原理了可以先看看一道最远曼哈顿距离的入门题:poj 2926:Requirements(最远曼哈顿距离,入门题)
      因为有删除操作,所以直接用数组会比较麻烦,这时候用STL中的映射表map和集合set就比较方便了。本来只想找一道类似的题,直接套我写的模板过的,结果找到这么一道还得用STL的题,表示很无奈,借机熟悉熟悉STL吧。好吧我承认我是参照着别人的代码才写出来。
      参考博客HDU 4666 Hyperspace
      代码:
     1 #include <iostream>
     2 #include <iomanip>
     3 #include <stdio.h>
     4 #include <map>
     5 #include <set>
     6 using namespace std;
     7 int main()
     8 {
     9     int i,j,k,q,dem;
    10     while(scanf("%d%d",&q,&dem)!=EOF){
    11         multiset <int> s[20];    //定义多重集合
    12         multiset <int>::iterator it1,it2;
    13         map <int,int> m[20];    //式子对点
    14         int a[6];
    15         for(i=1;i<=q;i++){
    16             int od;
    17             scanf("%d",&od);
    18             if(od==0){    //添加操作
    19                 for(j=0;j<dem;j++)
    20                     scanf("%d",&a[j]);
    21                 for(j=0;j<(1<<(dem-1));j++){    //用二进制形式遍历所有可能的运算情况
    22                     int sum = 0;
    23                     for(k=0;k<5;k++){    //因为是五维的,所以有4个运算符
    24                         //提取当前运算符
    25                         int t = j & 1<<k;    //1为+,0为-
    26                         if(t) sum+=a[k];
    27                         else sum-=a[k];
    28                     }
    29                     s[j].insert(sum);
    30                     m[j][i] = sum;
    31                 }
    32             }
    33             else{    //删除
    34                 int t;
    35                 scanf("%d",&t);
    36                 for(j=0;j<(1<<(dem-1));j++){
    37                     if(m[j].size()>0){
    38                         s[j].erase(s[j].find(m[j][t]));
    39                         m[j].erase(t);
    40                     }
    41                 }
    42             }
    43             int Max = 0;
    44             for(j=0;j<(1<<(dem-1));j++){
    45                 if(s[j].size()>0){
    46                     it1 = s[j].begin();
    47                     it2 = s[j].end();
    48                     it2--;
    49                     Max = *it2-*it1 > Max? *it2-*it1 : Max;
    50                 }
    51             }
    52             printf("%d
    ",Max);
    53         }
    54     }
    55     return 0;
    56 }

    Freecode : www.cnblogs.com/yym2013

  • 相关阅读:
    xgqfrms™, xgqfrms® : xgqfrms's offical website of GitHub!
    xgqfrms™, xgqfrms® : xgqfrms's offical website of GitHub!
    xgqfrms™, xgqfrms® : xgqfrms's offical website of GitHub!
    密码学-学习笔记
    让MySQL速度提升3倍的19种优化方式
    Oracle/云MySQL/MsSQL“大迁移”真相及最优方案
    tf.TFRecordReader()函数解析(最清晰的解释)
    Polkadot(波卡)简介
    Gavin Wood的故事:神级黄皮书、出走以太坊、乱世成名与三代区块链
    从设计哲学对比波卡与Cosmos
  • 原文地址:https://www.cnblogs.com/yym2013/p/3688406.html
Copyright © 2020-2023  润新知