Problem G
e-Coins
Input: standard input
Output: standard output
Time Limit: 10 seconds
Memory Limit: 32 MB
At the Department for Bills and Coins, an extension of today's monetary system has newly been proposed, in order to make it fit the new economy better. A number of new so called e-coins will be produced, which, in addition to having a value in the normal sense of today, also have an InfoTechnological value. The goal of this reform is, of course, to make justice to the economy of numerous dotcom companies which, despite the fact that they are low on money surely have a lot of IT inside. All money of the old kind will keep its conventional value and get zero InfoTechnological value.
To successfully make value comparisons in the new system, something called the e-modulus is introduced. This is calculated asSQRT(X*X+Y*Y), where X and Y hold the sums of the conventional and InfoTechnological values respectively. For instance, money with a conventional value of $3 altogether and an InfoTechnological value of $4 will get an e-modulus of $5. Bear in mind that you have to calculate the sums of the conventional and InfoTechnological values separately before you calculate the e-modulus of the money.
To simplify the move to e-currency, you are assigned to write a program that, given the e-modulus that shall be reached and a list of the different types of e-coins that are available, calculates the smallest amount of e-coins that are needed to exactly match the e-modulus. There is no limit on how many e-coins of each type that may be used to match the given e-modulus.
Input
A line with the number of problems n (0<n<=100), followed by n times:
When more than one number is present on a line, they will be separated by a space. Between each problem, there will be one blank line.
Output
The output consists of n lines. Each line contains either a single integer holding the number of coins necessary to reach the specified e-modulus S or, if S cannot be reached, the string "not possible".
Sample Input:
3
2 5
0 2
2 0
3 20
0 2
2 0
2 1
3 5
3 0
0 4
5 5
Sample Output:
not possible
10
2
题意:给定一些硬币和一个价值,要求在这些硬币中用最少的硬币组合出该价值,每种硬币都可以使用无限次,且有两个值X,Y,价值的计算方式为所有硬币X之和平方和Y之和平方之和开根号。
思路:完全背包,开一个二维数组来记录状态,j表示x,k表示y
代码:
#include <stdio.h> #include <string.h> #include <algorithm> using namespace std; int t, n, v, ans, dp[305][305]; struct Point { int x, y; } p[105]; int main() { scanf("%d", &t); while (t --) { ans = 999999999; scanf("%d%d", &n, &v); for (int i = 0; i <= v; i ++) for (int j = 0; j <= v; j ++) dp[i][j] = 999999999; dp[0][0] = 0; for (int i = 0; i < n; i ++) scanf("%d%d", &p[i].x, &p[i].y); for (int i = 0; i < n; i ++) { for (int j = 0; j <= v; j ++) for (int k = 0; k <= v; k ++) { if (j - p[i].x >= 0 && k - p[i].y >= 0 && j * j + k * k <= v * v) { dp[j][k] = min(dp[j][k], dp[j - p[i].x][k - p[i].y] + 1); } if (j * j + k * k == v * v) { ans = min(ans, dp[j][k]); } } } if (ans != 999999999) printf("%d\n", ans); else printf("not possible\n"); } return 0; }