SDNU 1155.Pizza Pricing
Description
Pizza has always been a staple on college campuses. After the downturn in the economy, it is more important than ever to get the best deal, namely the lowest cost per square inch. Consider, for example, the following menu for a store selling circular pizzas of varying diameter and price:
Menu | |
---|---|
Diameter | Price |
5 inch | $2 |
10 inch | $6 |
12 inch | $8 |
One could actually compute the costs per square inch, which would be approximately 10.2¢, 7.6¢, and 7.1¢ respectively, so the 12-inch pizza is the best value. However, if the 10-inch had been sold for $5, it would have been the best value, at approximately 6.4¢ per square inch.
Your task is to analyze a menu and to report the diameter of the pizza that is the best value. Note that no two pizzas on a menu will have the same diameter or the same inherent cost per square inch.
Input
Output
Sample Input
3 5 2 10 6 12 8 3 5 2 10 5 12 8 4 1 1 24 33 13 11 6 11 0
Sample Output
Menu 1: 12 Menu 2: 10 Menu 3: 24
Source
#include <cstdio> #include <iostream> #include <cmath> #include <string> #include <cstring> #include <algorithm> #include <queue> using namespace std; #define ll long long const double pi = acos(-1.0); int n, d[18], p[18], miao = 0, sum; double s[18]; int main() { while(scanf("%d", &n) && n) { sum = 0; for(int i = 0; i<n; i++) { scanf("%d%d", &d[i], &p[i]); s[i] = (double)p[i]/(pow(d[i], 2)*pi); // printf("%lf\n", s[i]); } // printf("\n"); for(int i = 1; i<n; i++) { if(s[sum]>s[i])sum = i; } miao++; printf("Menu %d: %d\n", miao, d[sum]); } return 0; }