• 【bzoj1634】[Usaco2007 Jan]Protecting the Flowers 护花 贪心


    题目描述

    Farmer John went to cut some wood and left N (2 <= N <= 100,000) cows eating the grass, as usual. When he returned, he found to his horror that the cows were in his garden eating his beautiful flowers. Wanting to minimize the subsequent damage, FJ decided to take immediate action and transport the cows back to their barn. Each cow i is at a location that is Ti minutes (1 <= Ti <= 2,000,000) away from the barn. Furthermore, while waiting for transport, she destroys Di (1 <= Di <= 100) flowers per minute. No matter how hard he tries,FJ can only transport one cow at a time back to the barn. Moving cow i to the barn requires 2*Ti minutes (Ti to get there and Ti to return). Write a program to determine the order in which FJ should pick up the cows so that the total number of flowers destroyed is minimized.

    约翰留下他的N只奶牛上山采木.他离开的时候,她们像往常一样悠闲地在草场里吃草.可是,当他回来的时候,他看到了一幕惨剧:牛们正躲在他的花园里,啃食着他心爱的美丽花朵!为了使接下来花朵的损失最小,约翰赶紧采取行动,把牛们送回牛棚. 牛们从1到N编号.第i只牛所在的位置距离牛棚Ti(1≤Ti《2000000)分钟的路程,而在约翰开始送她回牛棚之前,她每分钟会啃食Di(1≤Di≤100)朵鲜花.无论多么努力,约翰一次只能送一只牛回棚.而运送第第i只牛事实上需要2Ti分钟,因为来回都需要时间.    写一个程序来决定约翰运送奶牛的顺序,使最终被吞食的花朵数量最小.

    输入

    * Line 1: A single integer

    N * Lines 2..N+1: Each line contains two space-separated integers, Ti and Di, that describe a single cow's characteristics

    第1行输入N,之后N行每行输入两个整数Ti和Di.

    输出

    * Line 1: A single integer that is the minimum number of destroyed flowers

    一个整数,表示最小数量的花朵被吞食.

    样例输入

    6
    3 1
    2 5
    2 3
    3 2
    4 1
    1 6

    样例输出

    86


    题解

    贪心

    贪心策略:优先选择t/d小的。

    略证明一下,假设有1和2,那么先运1的代价为2*t1*d2,先运2的代价为2*t2*d1。

    想让代价1小于代价2,则2*t1*d2<2*t2*d1。

    即t1/d1<t2/d2。

    排好序后还要用到一个前缀和,我这个前缀和是反过来计算的(后缀和),应该也不难理解。

    #include <cstdio>
    #include <algorithm>
    using namespace std;
    struct data
    {
        int t , d;
    }a[100005];
    long long sum[100005];
    bool cmp(data a , data b)
    {
        return a.t * b.d < a.d * b.t;
    }
    int main()
    {
        int n , i;
        long long ans = 0;
        scanf("%d" , &n);
        for(i = 1 ; i <= n ; i ++ )
            scanf("%d%d" , &a[i].t , &a[i].d);
        sort(a + 1 , a + n + 1 , cmp);
        for(i = n ; i >= 1 ; i -- )
            sum[i] = sum[i + 1] + a[i].d;
        for(i = 1 ; i <= n ; i ++ )
            ans += 2 * sum[i + 1] * a[i].t;
        printf("%lld
    " , ans);
        return 0;
    }
  • 相关阅读:
    28.数组中出现次数超过长度一半的数字(python)
    [leetcode] 145. 二叉树的后序遍历
    [leetcode] 144. 二叉树的前序遍历
    [leetcode] 94. 二叉树的中序遍历
    [leetcode] 93. 复原IP地址
    [leetcode] 206. 反转链表
    [leetcode] 92. 反转链表 II
    [leetcode] 91. 解码方法
    [leetcode] 90. 子集 II.md
    [leetcode] 88. 合并两个有序数组
  • 原文地址:https://www.cnblogs.com/GXZlegend/p/6278689.html
Copyright © 2020-2023  润新知