prompt
string | response
string |
|---|---|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
using namespace std;
#define rep(i,a,b) for(int i=a;i<b;i++)
typedef pair<int, int> pii;
typedef long long ll;
int main()
{
while (1)
{
int N, M; cin >> N >> M;
if (N == 0) return 0;
vector<pii> PD;
rep(i, 0, N)
{
int d, p; cin >> d >> p;
PD.push_back(pii(p, d));
}
sort(PD.begin(), PD.end(), greater<pii>());
ll ans = 0;
rep(i, 0, N)
{
if (M == 0)
{
ans += PD[i].first * PD[i].second;
continue;
}
if (PD[i].second <= M)
{
M -= PD[i].second;
continue;
}
ans += (PD[i].second - M) * PD[i].first;
M = 0;
}
cout << ans << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON):
|
while 1:
N,M = map(int,raw_input().split())
if N == M == 0: break
DP = [map(int,raw_input().split()) for _ in xrange(N)]
DP = sorted(DP, key = lambda x:x[1], reverse = True)
ans = 0
for i in xrange(N):
if M-DP[i][0] >= 0:
M -= DP[i][0]
else:
ans += DP[i][1]*(DP[i][0]-M)
ans += sum(DP[j][1]*DP[j][0] for j in xrange(i+1,N))
break
print ans
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
using namespace std;
typedef long long ll;
typedef pair<int, int> P;
int n;
ll m;
int d[10000], p[10000];
int main() {
while(scanf("%d%lld",&n,&m)&&(n!=0||m!=0)) {
for (int i=0; i<n; i++) scanf("%d%d",&d[i],&p[i]);
vector<P> v;
for (int i=0; i<n; i++) v.push_back(P(p[i], d[i]));
sort(v.rbegin(), v.rend());
int res = 0;
for (int i=0; i<n; i++) {
if (v[i].second <= m) m -= v[i].second;
else {
res += (v[i].second - m) * v[i].first;
m = 0;
}
}
printf("%d\n",res);
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
using namespace std;
int main(){
int N,M;
while(cin>>N>>M,N||M){
int Expected[11]={0};
int sum=0;
int p,d;
for(int i=0;i<N;i++){
cin>>d>>p;
Expected[p]+=d;
}
for(int i=10;i>=0;i--){
if(Expected[i]<=M){
M-=Expected[i];
Expected[i]=0;
}
else{
Expected[i]-=M;
M=0;
}
sum+=Expected[i]*i;
}
cout<<sum<<endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <map>
#include <algorithm>
using namespace std;
int main(){
int n, m, d, p, ans;
while( cin >> n >> m , n || m ){
ans = 0;
map<int,int> f;
for(int i=0 ; i <= 10 ; i++ ){
f[i] += 0;
}
for(int i=0 ; i<n ; i++ ){
cin >> d >> p;
f[p] += d;
}
for(int i=10 ; i >= 0 ; i-- ){
for( ; f[i] && m ; ){
m--;
f[i] -= 1;
}
ans += f[i] * i;
}
cout << ans << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
using namespace std;
#define lp(i,n) for(int i=0;i<n;i++)
int main(){
while(1){
int n,m;
cin>>n>>m;
if(n==0&&m==0) break;
vector<pair<int,int>> a;
int ans=0;
lp(i,n){
int b,c;
cin>>b>>c;
ans+=b*c;
a.push_back(make_pair(c,b));
}
sort(a.begin(),a.end());
reverse(a.begin(),a.end());
int i=0;
while(1){
if(m>a[i].second){
m-=a[i].second;
ans-=a[i].first*a[i].second;
}
else{
ans-=m*a[i].first;
break;
}
if(ans==0) break;
i++;
}
cout<<ans<<endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
#include<algorithm>
#include<vector>
using namespace std;
int main()
{
long N, M;
while (cin >> N >> M && N != 0 || M != 0)
{
vector< pair<int,int> > dp(N);
long long ans = 0;
for (int i = 0; i < N; i++)
{
cin >> dp[i].second >> dp[i].first;
ans += dp[i].second * dp[i].first;
}
sort(dp.begin(), dp.end());
reverse(dp.begin(), dp.end());
for (int i = 0; i < N; i++)
{
if (M <= 0)break;
if (M >= dp[i].second)
{
M -= dp[i].second;
ans -= dp[i].second * dp[i].first;
}
else
{
ans -= M * dp[i].first;
M = 0;
}
}
cout << ans << endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON):
|
import sys
while True:
n, m = map(int, sys.stdin.readline().split())
if n == 0 and m == 0:
break
route = []
for i in xrange(n):
d, p = map(int, sys.stdin.readline().split())
route.append([p, d])
route.sort(reverse=True)
count = 0
for c, l in route:
if l < m:
m -= l
elif m <= l:
count += (l - m) * c
m = 0
print count
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.util.*;
public class Main{
static Scanner kbd = new Scanner(System.in);
public static void main(String[] args){
while(kbd.hasNext()){
int n = kbd.nextInt();
int m = kbd.nextInt();
if(!(n==0 && m==0)){
solve(n, m);
}
}
}
static void solve(int n, int m){
int[][] dis = new int[n][2]; // 距離/期待値
int i, j;
int ans = 0;
for(i=0; i<n; i++){
dis[i][0] = kbd.nextInt();
dis[i][1] = kbd.nextInt();
ans += dis[i][0]*dis[i][1];
}
//System.out.println("*"+ans);
sort(dis, n);
i=0;
while(i<n && m>0){
if(m >= dis[i][0]){
ans -= dis[i][0]*dis[i][1];
m -= dis[i][0];
}
else{
ans -= m*dis[i][1];
m = 0;
}
i++;
}
System.out.println(ans);
}
static void sort(int[][] d, int n){
int i, j;
for(i=0; i<n; i++){
for(j=i+1; j<n; j++){
if(d[i][1]<d[j][1]){
int[] w = d[i];
d[i] = d[j];
d[j] = w;
}
}
//System.out.println(d[i][0]+" "+d[i][1]);
}
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
#include<algorithm>
#include<vector>
using namespace std;
int main() {
int n, m;
while (cin >> n >> m, n) {
vector<pair<int, int>>v;
int ans = 0;
for (int i = 0; i < n; i++) {
int d, p; cin >> d >> p;
ans += d*p;
v.push_back(make_pair(p, d));
}
sort(v.begin(), v.end());
int i = v.size() - 1;
while (m > 0) {
ans -= min(m, v[i].second)*v[i].first;
m -= min(m, v[i].second);
i--;
if (i < 0)break;
}
cout << ans << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <cstdio>
#include <functional>
#include <algorithm>
#define rep(i, n) for(int i = 0; i < (n); ++i)
using namespace std;
typedef pair<int, int> P;
int n, m;
P x[10000];
int main(){
while(scanf("%d%d", &n, &m), n){
rep(i, n){
int d, p;
scanf("%d%d", &d, &p);
x[i] = P(p, d);
}
sort(x, x + n, greater<P>());
int ans = 0;
rep(i, n){
if(m >= x[i].second){
m -= x[i].second;
}
else{
ans += (x[i].second - m) * x[i].first;
m = 0;
}
}
printf("%d\n", ans);
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON):
|
import heapq
while True:
N,M = map(int, raw_input().split())
if N==M==0: break
q = []
for _ in xrange(N):
d,p = map(int, raw_input().split())
heapq.heappush(q, [p,d])
q = sorted(q, reverse=True)
for i in xrange(N):
if q[i][1] > M:
q[i][1] -= M
M = 0
break
else:
M -= q[i][1]
q[i][1] = 0
precision = 0
for i in xrange(N):
precision += q[i][0] * q[i][1]
print precision
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<stdio.h>
int main(){
int n,m,p,i;
for( ; scanf("%d%d",&n,&m) , n|m ; printf("%d\n",p) ){
int f[12]={0};
for( i=n ; i-- ; f[p] += n )
scanf("%d%d",&n,&p);
p=0;
for( i=10 ; i >= 0 ; p += f[i]*i , i-- )
for( ; f[i] && m ; )
m--,f[i]--;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
#月曜五時間目 実践的プログラミング
#ソートして襲われてはいけない時には、できるだけ護衛をつけるようにすることが最適であるので
#ソートした後に左から貪欲に護衛をつけていって、お金がなくなったらそのまま何もしないと言う戦略で正解した。
#時間:15分
#Princess' Marriage
#学んだこと:ソートして貪欲に考える
#URL: https://onlinejudge.u-aizu.ac.jp/challenges/search/titles/2019
def solve():
N,M=map(int,input().split())
if N==0 and M==0:
#終了条件
exit()
else:
d=[tuple(map(int,input().split())) for _ in range(N)]
d.sort(key=lambda x:-x[1])
#襲われたやすいところから優先的に保護するためにソート
cnt=0
money=M
#money=所持金、cnt=襲われる期待値の累計和
for que in d:
distance,value=que
if money>=distance:
money-=distance
elif money<distance:
cnt+=value*(distance-money)
money=0
print(cnt)
return solve()
if __name__=="__main__":
solve()
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
#include<algorithm>
#include<vector>
using namespace std;
struct P{int p,d;};
bool cmp_x(const P& a, const P& b){
return a.p>b.p;
}
int main(void){
int n,m,d,p;
vector<P>ar;
P in;
while(cin >> n >> m,n|m){
ar.clear();
for(int i=0;i<n;i++){
cin >> in.d >> in.p;
ar.push_back(in);
}
int sum=0;
for(int i=0;i<n;i++)
sum+=ar[i].d*ar[i].p;
sort(ar.begin(),ar.end(),cmp_x);
for(int i=0;i<ar.size();i++){
if(ar[i].d>=m){
sum-=ar[i].p*m;
break;
}
else {
sum-=ar[i].d*ar[i].p;
m-=ar[i].d;
}
}
cout << sum << endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
using namespace std;
typedef pair<int, int> ipair;
typedef priority_queue<ipair> pq;
int main()
{
int n, m;
while(cin >> n >> m, n|m)
{
pq q;
int res = 0;
for(int i=0; i<n; i++)
{
int d, p;
cin >> d >> p;
res += d * p;
q.push(ipair(p, d));
}
while(!q.empty() && m>0)
{
ipair x = q.top();
q.pop();
res -= x.first * min(m, x.second);
m -= x.second;
}
cout << res << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON):
|
while 1:
n, m = map(int,raw_input().split())
if (n,m) == (0,0):
break
num = [0 for i in range(11)]
for i in range(n):
d, p = map(int,raw_input().split())
num[p] += d
expectation = 0
for i in range(10):
if m >= num[10-i]:
m -= num[10-i]
else :
expectation += (num[10-i]-m)*(10-i)
m = 0
print expectation
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
using namespace std;
typedef pair<int, int> pii;
int N, M;
int sum;
vector<pii> pvec;
void solve() {
sort(pvec.begin(), pvec.end(), greater<pii>());
for (int i = 0; i < N; i++) {
pii p = pvec[i];
if (p.second <= M) {
M -= p.second;
sum -= p.first * p.second;
} else {
sum -= p.first * M;
break;
}
}
cout << sum << endl;
}
int main() {
while (1) {
cin >> N >> M; if (N == 0 && M == 0) break;
pvec.clear();
sum = 0;
for (int i = 0; i < N; i++) {
int D, P; cin >> D >> P;
sum += D * P;
pvec.push_back(make_pair(P, D));
}
solve();
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
using namespace std;
int main()
{
int n, m;
while (scanf("%d %d", &n, &m), n){
typedef pair<int, int> P;
vector<P> v;
int res = 0;
for (int i = 0; i < n; i++){
int a, b;
scanf("%d %d", &a, &b);
v.push_back(P(b, a));
res += a * b;
}
sort(v.begin(), v.end());
reverse(v.begin(), v.end());
int p = 0;
while (m > 0 && p < n){
if (v[p].second == 0){
++p;
continue;
}
int t = min(m, v[p].second);
res -= v[p].first * t;
v[p].second -= t;
m -= t;
}
printf("%d\n", res);
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.io.OutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.PrintWriter;
import java.util.Arrays;
import java.io.IOException;
import java.util.NoSuchElementException;
import java.io.InputStream;
/**
* Built using CHelper plug-in
* Actual solution is at the top
*/
public class Main {
public static void main(String[] args) {
InputStream inputStream = System.in;
OutputStream outputStream = System.out;
Scanner in = new Scanner(inputStream);
PrintWriter out = new PrintWriter(outputStream);
Task6 solver = new Task6();
solver.solve(1, in, out);
out.close();
}
static class Task6 {
public void solve(int testNumber, Scanner sc, PrintWriter out) {
while (true) {
int n = sc.nextInt();
int m = sc.nextInt();
if (n == 0 && m == 0) break;
int total = 0;
Way[] ways = new Way[n];
for (int i = 0; i < n; i++) {
int d = sc.nextInt();
int p = sc.nextInt();
ways[i] = new Way(d, p);
total += d * p;
}
Arrays.sort(ways);
for (int i = 0; i < n; i++) {
int def = Math.min(ways[i].d, m);
total -= ways[i].p * def;
m -= def;
}
out.println(total);
}
}
}
static class Scanner {
private final InputStream in;
private final byte[] buffer;
private int ptr;
private int buflen;
public Scanner(InputStream in) {
this.in = in;
this.buffer = new byte[1024];
this.ptr = 0;
this.buflen = 0;
}
private boolean hasNextByte() {
if (ptr < buflen) return true;
else {
ptr = 0;
try {
buflen = in.read(buffer);
} catch (IOException e) {
e.printStackTrace();
}
if (buflen <= 0) return false;
}
return true;
}
private byte readByte() {
if (hasNextByte()) return buffer[ptr++];
return -1;
}
private boolean isPrintableChar(byte c) {
return '!' <= c && c <= '~';
}
private void skipUnprintable() {
while (hasNextByte() && !isPrintableChar(buffer[ptr])) {
ptr++;
}
}
public boolean hasNext() {
skipUnprintable();
return hasNextByte();
}
public int nextInt() {
if (!hasNext()) throw new NoSuchElementException();
int n = 0;
boolean minus = false;
byte b = readByte();
if (b == '-') {
minus = true;
b = readByte();
}
if (b < '0' || '9' < b) throw new NumberFormatException();
while (true) {
if ('0' <= b && b <= '9') {
n *= 10;
n += b - '0';
} else if (b == -1 || !isPrintableChar(b)) {
return minus ? -n : n;
} else {
throw new NumberFormatException();
}
b = readByte();
}
}
}
static class Way implements Comparable<Way> {
int d;
int p;
Way(int d, int p) {
this.d = d;
this.p = p;
}
public int compareTo(Way w) {
return -(this.p - w.p);
}
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
#include<cstring>
#include<algorithm>
using namespace std; int d[11], n, m, i, a, b, sum, e;
int main() {
while (true) {
memset(d, 0, sizeof(d)); sum = 0;
cin >> n >> m; if (!n) { break; }
for (i = 0; i < n; i++) {
cin >> a >> b;
d[b] += a;
}
for (i = 10; i >= 0;i--){
e = min(d[i], m);
m -= e;
sum += i*(d[i] - e);
}
cout << sum << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
while 1:
N, M = map(int, input().split())
if N == M == 0:
break
S = []
for i in range(N):
S.append(list(map(int, input().split())))
S.sort(key=lambda x:x[1], reverse=True)
ans = 0
for d in S:
if M >= d[0]:
M -= d[0]
else:
d[0] -= M
M = 0
ans += d[0] * d[1]
print(ans)
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <algorithm>
#define p first
#define d second
using namespace std;
int main() {
while(1) {
int n,m;
cin >> n >> m;
if(n == 0 && m == 0) break;
pair <int,int> pd[10001];
for(int i=0;i<n;i++) cin >> pd[i].d >> pd[i].p;
sort(pd,pd+n);
int ans = 0;
for(int i=n-1;i>=0;i--)
if(m >= pd[i].d) m-=pd[i].d;
else if(m > 0) ans += (pd[i].d-m)*pd[i].p,m = 0;
else ans+=pd[i].d*pd[i].p;
cout << ans <<endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <utility>
#include <vector>
#include <algorithm>
using namespace std;
int main(){
vector<pair<int,int> > d;
pair<int,int> k;
int n,m,a,b,sum;
while(1){
cin>>n>>m;
if(n==0)break;
d.clear();
for(int i=0;i<n;i++){
cin>>a>>b;
k.first=b*-1;
k.second=a;
d.push_back(k);
}
sort(d.begin(),d.end());
sum=0;
for(int i=0;i<n;i++){
if(m!=0){
if(d[i].second<m){
m-=d[i].second;
}else {
sum+=(d[i].first*-1)*(d[i].second-m);
m=0;
}
}else {
sum+=(d[i].first*-1)*d[i].second;
}
}
cout<<sum<<endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.util.Scanner;
public class Main {
public static void main(String[] args) {
try(Scanner sc = new Scanner(System.in)){
while(sc.hasNext()) {
int N=sc.nextInt();
int M=sc.nextInt();
if(N+M==0) break;
int[] ds = new int[11];
for(int i=0; i<N; i++) {
int d = sc.nextInt(); //距離
int p = sc.nextInt(); //単位距離あたりの期待値
ds[p] += d; //各期待値を持つ距離が何単位分あるかカウント
}
int P = 0; //リスクの合計値
for(int p= 10; p >=0; p--) { //期待値の高い方から
if(M >= ds[p]) {
M -= ds[p]; //予算を消費
}
else {
P += (ds[p] - M) * p; //予算が無くなった分だけ期待値を合計
M = 0;
}
}
System.out.println(P);
}
}
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
using namespace std;
int main(){
while (1){
int N, M;
cin >> N >> M;
if (N == 0 && M == 0){
break;
}
vector<int> D(N), P(N);
for (int i = 0; i < N; i++){
cin >> D[i] >> P[i];
}
vector<int> sum(11, 0);
for (int i = 0; i < N; i++){
sum[P[i]] += D[i];
}
for (int i = 10; i >= 0; i--){
int d = min(sum[i], M);
sum[i] -= d;
M -= d;
}
long long ans = 0;
for (int i = 0; i <= 10; i++){
ans += sum[i] * i;
}
cout << ans << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <algorithm>
#include <utility>
#define rep(i,n) for(int i=0;i<n;i++)
#define Rep(i,k,n) for(int i=k;i<n;i++)
using namespace std;
int main(){
int n,m;
while(cin>>n>>m and n>0){
pair<int,int> a[n]; rep(i,n) cin>>a[i].second>>a[i].first;
sort(a,a+n);
int i=n-1;
while(m>0 and i>=0){
if(m-a[i].second>=0){
m-=a[i].second; a[i].second=0;
}else{
a[i].second-=m; m=0;
}
i--;
}
long ans=0;
rep(i,n) ans+=a[i].first*a[i].second;
cout<<ans<<endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <vector>
#include <string>
#include <cstring>
#include <iomanip>
#include <cmath>
#include <algorithm>
using namespace std;
int main() {
int N, M;
while (cin >> N >> M) {
if (N == 0) break;
long long res = 0;
vector<pair<long long, long long> > a(N);
for (int i = 0; i < N; ++i) cin >> a[i].second >> a[i].first;
sort(a.begin(), a.end(), greater<pair<long long, long long> >());
for (int i = 0; i < N; ++i) {
if (M >= a[i].second) {
M -= a[i].second;
}
else {
res += a[i].first * (a[i].second - M);
M = 0;
}
}
cout << res << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
while True:
n, m = map(int, input().split())
ex = [0] * 11
if n == 0: break
for i in range(n):
d, p = map(int, input().split())
ex[p] += d
ex.reverse()
for i in range(len(ex)):
m -= ex[i]
if m <= 0:
ex[i] = abs(m)
break
else:
ex[i] = 0
ex.reverse()
ans = 0
for i in range(len(ex)):
ans += ex[i] * i
print(ans)
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
while(True):
N, M = map(int, input().split())
if(N == 0 and M == 0):
break
DP = []
for i in range(N):
DP.append([int(_) for _ in input().split()])
DP.sort(key=lambda x:x[1])
DP.reverse()
for i in range(N):
decr = min(M, DP[i][0])
M -= decr
DP[i][0] -= decr
if M == 0:
break
ans = 0
for dp in DP:
ans += dp[0]*dp[1]
print(ans)
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
#include<utility>
#include<algorithm>
using namespace std;
int main(){
int n,money;
while(cin >>n>>money &&( n>0||money>0)){
pair<int,int> PD[10010];
int p,d;
for(int i=0;i<n;i++){
cin >>d>>p;
PD[i]=make_pair(p,d);
}
sort(PD,PD+n);
int need;
int ans=0;
for(int i=0;i<n;i++){
need=i;
if(PD[n-1-i].second<=money){
money-=PD[n-1-i].second;
}else{
ans+=PD[n-1-i].first*(PD[n-1-i].second-money);
break;
}
}
for(int j=0;j<n-1-need;j++){
ans+=PD[j].first*PD[j].second;
}
cout << ans <<endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStreamReader;
import java.util.Arrays;
public class Main {
public static void main(String[] args) throws IOException {
// TODO ?????????????????????????????????????????????
BufferedReader br = new BufferedReader(new InputStreamReader(System.in));
while(true){
String[] tmpArray = br.readLine().split(" ");
int n = Integer.parseInt(tmpArray[0]);
int budget = Integer.parseInt(tmpArray[1]);
if(n == 0 && budget == 0){
break;
}
Section[] sections = new Section[n];
for(int i = 0; i < n; i++){
tmpArray = br.readLine().split(" ");
sections[i] = new Section(Integer.parseInt(tmpArray[0]), Integer.parseInt(tmpArray[1]));
}
Arrays.sort(sections);
int sum = 0;
for(int i = 0; i < n; i++){
int p = sections[i].probablity;
int cost = Math.min(budget, sections[i].distance);
sum += (sections[i].distance - cost)*p;
budget -= cost;
// System.out.println("p "+p+"budge "+budget);
// sum += Math.max(0, p - budget);
// budget = Math.max(0, budget - p);
}
System.out.println(sum);
}
}
}
class Section implements Comparable<Section>{
int distance;
int probablity;
public Section(int d, int p){
this.distance = d;
this.probablity = p;
}
@Override
public int compareTo(Section o) {
// TODO ?????????????????????????????????????????????
return -(this.probablity - o.probablity);
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <vector>
#include <map>
#include <algorithm>
using namespace std;
int main(){
int n,m,d,p,o;
typedef pair<int,int> ma;
int i,j,k;
cin >> n >> m;
while(n!=0||m!=0){
vector <ma> map;
ma b;
for(i=0;i<n;i++) {
cin >> d >> p;
b.first=p;b.second=d;
map.push_back(b);
}
sort(map.begin(),map.end(),greater<ma>());
o=0;
for(i=0;i<map.size();i++){
if(m>=map[i].second) m-=map[i].second;
else if(m>0) {
o+=(map[i].second-m)*map[i].first;
m=0;
}else o+=map[i].first*map[i].second;
}
cout << o << endl;
cin >> n >> m;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.util.Arrays;
import java.util.Scanner;
public class Main {
class D implements Comparable<D>{
int l, p;
D(int l, int p) {
this.l = l;
this.p = p;
}
@Override
public int compareTo(D o) {
return o.p - this.p;
}
@Override
public String toString() {
return "(" + l + ", " + p + ")";
}
}
void run() {
Scanner sc = new Scanner(System.in);
while (true) {
int n = sc.nextInt();
int m = sc.nextInt();
if ((n | m) == 0) {
break;
}
D[] d = new D[n];
for (int i = 0; i < n; i++) {
d[i] = new D(sc.nextInt(), sc.nextInt());
}
Arrays.sort(d);
int id = 0;
while (0 < m && id < n) {
if (d[id].l == 0) {
id++;
continue;
}
d[id].l--;
m--;
}
int ans = 0;
for (int i = 0; i < n; i++) {
ans += d[i].l * d[i].p;
}
System.out.println(ans);
}
}
public static void main(String[] args) {
new Main().run();
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
using namespace std;
int ways[11];
int main()
{
loop:
int n, m;
for(int i = 0; i < 11; i++)
ways[i] = 0;
cin >> n >> m;
if(!n)
return 0;
for(int i = 0; i < n; i++)
{
int d, p;
cin >> d >> p;
ways[p] += d;
}
for(int i = 10; i > 0; i--)
{
if(ways[i] < m)
{
m -= ways[i];
ways[i] = 0;
}
else
{
ways[i] -= m;
m = 0;
}
}
int ans = 0;
for(int i = 1; i <= 10; i++)
ans += ways[i] * i;
cout << ans << endl;
goto loop;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<bits/stdc++.h>
#define P pair<int,int>
using namespace std;
signed main(){
int a,b;
P c[10000];
while(scanf("%d%d",&a,&b),a|b){
for(int d=0;d<a;d++){
int e,f;
scanf("%d%d",&e,&f);
c[d]=P(f,e);
}
sort(c,c+a);
reverse(c,c+a);
int s=0;
for(int g=0;g<a;g++){
int l=min(b,c[g].second);
b-=l;
c[g].second-=l;
s+=c[g].first*c[g].second;
}
printf("%d\n",s);
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<stdio.h>
#include<iostream>
using namespace std;
int main(){
int N;
long long int M;
while(1){
cin>>N>>M;if(N==0&&M==0)break;
int D[10002][2]={};
int P[10001]={};
for(int i=0;i<N;i++)
cin>>D[i][0]>>D[i][1];
int c=0;
for(int i=0;i<N;i++)
for(int j=N-1;j>i;j--)
{if(D[j][1]>D[j-1][1]){
int t=D[j][1];D[j][1]=D[j-1][1];D[j-1][1]=t;
int T=D[j][0];D[j][0]=D[j-1][0];D[j-1][0]=T;
}
}
for(int i=0;i<N;i++)
if(D[i][0]>0){if(M>=D[i][0]){M-=D[i][0];D[i][0]=0;}
else{D[i][0]-=M;M=0;}
}
for(int i=0;i<N;i++)
c+=D[i][1]*D[i][0];
cout<<c<<endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
using namespace std;
int main(){
long long n, m;
while(cin >> n >> m, n+m){
vector<pair<int, int>> v(n);
for(int i=0; i< n; i++) cin >> v[i].second >> v[i].first;
sort(v.begin(), v.end());
for(int i=v.size()-1; 0 <= i; i--){
if(n != 0){
long long d = min((long long)v[i].second, m);
v[i].second -= d; m -= d;
}
else break;
}
int ret = 0;
for(int i=0; i< n; i++) ret += v[i].second*v[i].first;
cout << ret << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <stdio.h>
int main(void){
int a,b,n,m,k,p[11];
while(scanf("%d %d",&n,&m),n||m){
k=0;
for(int i=0;i<11;i++)p[i]=0;
while(n--){
scanf("%d %d",&a,&b);
p[b]+=a;
}
for(int i=10;i>=0;i--){
if(m>=p[i]){
m-=p[i];
p[i]=0;
}else{
p[i]-=m;
m=0;
break;
}
}
for(int i=1;i<11;i++)k+=p[i]*i;
printf("%d\n",k);
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <vector>
#include <algorithm>
using namespace std;
int main() {
while(true){
long n,m;
cin>>n>>m;
if(n==0&&m==0)break;
long sum=0;
vector<pair<long,long>> d(n);
for(int i=0;i<n;i++){
cin>>d[i].second>>d[i].first;
sum+=d[i].first*d[i].second;;
}
sort(d.begin(),d.end());
reverse(d.begin(),d.end());
for(int i=0;i<n;i++){
sum-=min(m,d[i].second)*d[i].first;
m-=min(m,d[i].second);
}
cout<<sum<<endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
using namespace std;
int cal(int M, priority_queue<pair<int, int>>& pq) {
int res = 0;
while(!pq.empty()) {
int P = pq.top().first;
int D = pq.top().second;
pq.pop();
if(M > 0) {
if(M >= D) {
M = M - D;
}else{
res += (D - M) * P;
M = 0;
}
}else{
res += D * P;
}
}
return res;
}
int main(void) {
int N, M;
while(1) {
cin >> N >> M;
if(N == 0 and M == 0) {
break;
}
priority_queue<pair<int, int>> pq;
int D, P;
for(int i = 0; i < N; i++) {
cin >> D >> P;
pq.push(make_pair(P, D));
}
int res = cal(M, pq);
cout << res << endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
using namespace std;
int main()
{
int n,m;
while(cin>>n>>m,n)
{
int ps[11];
for(int i = 0; i < 11; ++i)
{
ps[i]=0;
}
for(int i = 0; i < n; ++i)
{
int d,p;
cin>>d>>p;
ps[p]+=d;
}
for(int i = 10; 0 <= i; --i)
{
if(m>=ps[i])
{
m-=ps[i];
ps[i]=0;
}
else
{
ps[i]-=m;
m=0;
}
}
int ans=0;
for(int i = 0; i < 11; ++i)
{
ans+=ps[i]*i;
}
cout<<ans<<endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.util.*;
public class Main{
public static void main(String[] args){
Scanner sc = new Scanner(System.in);
while(true){
int ans=0;
int n=sc.nextInt(), m=sc.nextInt();
ArrayList<State> al = new ArrayList<State>();
if(n==0 && m==0) break;
for(int i=0;i<n;i++)
al.add(new State(sc.nextInt(), sc.nextInt()));
Collections.sort(al);
while(!al.isEmpty()){
State st = al.remove(0);
m -= st.d;
if(m <= 0){
ans -= m * st.p;
break;
}
}
while(!al.isEmpty()){
State st = al.remove(0);
ans += st.d * st.p;
}
System.out.println(ans);
}
}
}
class State implements Comparable<State>{
int d, p;
public State(int d, int p){
this.d = d;
this.p = p;
}
public int compareTo(State st){
return st.p - this.p;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.util.Collections;
import java.util.LinkedList;
import java.util.Scanner;
public class Main {
Scanner sc = new Scanner(System.in);
public void run() {
while(sc.hasNext()){
int n = sc.nextInt();
int m = sc.nextInt();
if(n == 0 && m == 0) break;
calc(n, m);
}
}
public void calc(int n, int m){
int[] list = new int[11];
for(int i = 0; i < n; i++){
int d = sc.nextInt();
int p = sc.nextInt();
list[p] = list[p] + d;
}
for(int i = 10; i > 0; i--){
if(m == 0) break;
else if(list[i] <= m){
m = m - list[i];
list[i] = 0;
}
else{
list[i] = list[i] - m;
break;
}
}
int sum = 0;
for(int i = 0; i < 11; i++){
sum = sum + list[i] * i;
}
System.out.println(sum);
}
public static void main(String[] args) {
new Main().run();
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
#include<vector>
#include<algorithm>
using namespace std;
struct cell{int D,P;};
bool operator<(cell a, cell b){return a.P!=b.P?a.P>b.P:a.D>b.D;};
int main()
{
int N,M,D,P,p,i;
vector<cell> v;
while(cin>>N>>M,N||M){
v.resize(N);
for(i=0;i<N;i++){
cin>>D>>P;
v[i].D=D;
v[i].P=P;
}
sort(v.begin(),v.end());
for(i=0;M>0&&i<N;i++){
while(M>0&&v[i].D>0){
v[i].D--;
M--;
}
}
for(p=i=0;i<N;i++){
p+=v[i].D*v[i].P;
}
cout<<p<<endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
b=True
while b:
n,m=map(int,input().split())
if n==0 and m==0:
b=False
exit
else:
l=[]
for i in range(n):
l1=list(map(int,input().split()))
l1=l1[::-1]
l.append(l1)
l=sorted(l)
l=l[::-1]
s=0
for i in range(n):
s+=l[i][0]*l[i][1]
for i in range(n):
if m-l[i][1]>=0:
s-=l[i][0]*l[i][1]
m-=l[i][1]
else:
s-=l[i][0]*m
break
print(s)
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
roadcnt,money = (int(n) for n in input().split(" "))
while True:
road = []
for r in range(roadcnt):
road.append([int(n) for n in input().split(" ")])
road = sorted(road,key=lambda x:x[1])
while money > 0 and len(road) > 0:
if road[-1][0] - money < 0:
money -= road[-1][0]
road.pop()
else:
road[-1][0] -= money
break
ans = 0
for ro in road:
ans += ro[0] * ro[1]
print(ans)
roadcnt,money = (int(n) for n in input().split(" "))
if roadcnt == 0 and money == 0:
break
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.util.Scanner;
public class Main {
public static void main(String[] args){
Scanner in = new Scanner(System.in);
int N = in.nextInt();
int M = in.nextInt();
int count[] = new int[11];
while(N != 0 || M != 0){
for(int i = 0;i <= 10;i++) count[i] = 0;
int countP = 0;
for(int i = 0;i < N;i++){
int D = in.nextInt();
int P = in.nextInt();
count[P] = count[P] + D;
}
for(int i = 0;i < M;i++){
int n = 0;
for(int j = 10;j > 0;j--){
n = j;
if(count[j] > 0) break;
}
if(count[n] > 0){
if(i + count[n] < M){
i = i + count[n] - 1;
count[n] = 0;
}else {
count[n] = count[n] - (M-i);
i = M;
}
}
else break;
}
for(int i = 1;i < 11;i++) {
if(count[i] > 0){
countP = countP + i*count[i];
}
}
System.out.println(countP);
N = in.nextInt();
M = in.nextInt();
}
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <string>
#include <vector>
using namespace std;
int main() {
ios::sync_with_stdio(false);
cin.tie(0);
int N, M;
while (cin >> N >> M, N) {
int D, P, res = 0;
int Ps[11] = {0};
for (int i=0; i<N; ++i) {
cin >> D >> P;
res += D * P;
Ps[P] += D;
}
for (int i=10; i>=0; --i) {
if (M <= Ps[i]) {
res -= M * i;
M = 0;
} else {
res -= Ps[i] * i;
M -= Ps[i];
}
}
cout << res << endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
while True:
n,m = map(int, input().split(" "))
if n+m == 0:
break
dp = []
for i in range(n):
d,p = map(int, input().split(" "))
dp.append((d,p))
ans = 0
for d,p in sorted(dp, key=lambda x: x[1], reverse=True):
if m == 0:
ans += p * d
elif m < d:
ans += p * (d - m)
m = 0
else:
m -= d
print(ans)
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
#include<algorithm>
#include<vector>
#include<utility>
using namespace std;
typedef pair <int,int> pii;
int main(){
int n,m;
while(cin>>n>>m,n){
vector<pii> d(n);
for(int i=0;i<n;i++)cin>>d[i].second>>d[i].first;
sort(d.begin(),d.end(),greater<pii>());
int ans=0;
for(int i=0;i<n;i++){
if(m>d[i].second){
m-=d[i].second;
continue;
}else if(m!=0){
d[i].second-=m;
m=0;
}
ans+=d[i].second*d[i].first;
}
cout << ans << endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
readline = open(0).readline
while 1:
N, M = map(int, readline().split())
if N == M == 0:
break
Q = []
for i in range(N):
d, p = map(int, readline().split())
Q.append((p, d))
Q.sort(reverse=1)
ans = 0
for p, d in Q:
if M >= 0:
x = min(M, d)
M -= x; d -= x
ans += d * p
print(ans)
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<bits/stdc++.h>
using namespace std;
using P = pair<int, int>;
int main() {
while (1) {
int n, m;
cin >> n >> m;
if (!n) return 0;
int l[12] = {};
for (int i = 0; i < n; ++i) {
int d, p;
cin >> d >> p;
l[p] += d;
}
int ans = 0;
for (int i = 11; i >= 0; --i) {
ans += i * max(l[i] - m, 0);
m = max(m - l[i], 0);
}
cout << ans << "\n";
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
#include<algorithm>
using namespace std;
typedef pair<int,int> P;
int N,M;
P t[10000];
int main(){
while(1){
cin>>N>>M;
if(N==0&&M==0)break;
for(int i=0;i<N;i++)cin>>t[i].second>>t[i].first;
sort(t,t+N);
reverse(t,t+N);
int ans=0;
for(int i=0;i<N;i++){
int d=min(M,t[i].second);
M-=d;
ans+=t[i].first*(t[i].second-d);
}
cout<<ans<<endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.util.*;
public class Main{
int n,m;
int[] d,p;
public static void main(String[] args){
new Main().solve();
}
void solve(){
Scanner sc = new Scanner(System.in);
n = sc.nextInt();
while(n!=0){
m = sc.nextInt();
d = new int[n];
p = new int[n];
for(int i=0 ;i<n; i++){
d[i] = sc.nextInt();
p[i] = sc.nextInt();
}
//ツ甘コツ妥陳値ツつェツ妥・ツつォツつ「ツ渉?づ可陛?づ堕妥鳴つヲ
for(int i=0; i<n; i++){
int max = p[i];
int maxIndex = i;
for(int j=i; j<n; j++){
if(max<p[j]){
max = p[j];
maxIndex = j;
}
}
int tmp = p[maxIndex];
p[maxIndex] = p[i];
p[i] = tmp;
tmp = d[maxIndex];
d[maxIndex] = d[i];
d[i] = tmp;
}
int i=0;
while(d[i]>0 && m>0){
d[i]--;
m--;
if(d[i]==0 && i+1<n)i++;
}
long ans = 0;
for(i=0; i<n; i++){
if(d[i]>0){
ans += d[i]*p[i];
}
}
System.out.println(ans);
n = sc.nextInt();
}
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <algorithm>
using namespace std;
class A{
public:
int D, P;
bool operator <(const A &a) const {
if(P != a.P) return P > a.P;
return D > a.D;
}
};
int main() {
while(1) {
int N, M;
A a[10000];
int sum;
cin >> N >> M;
if(N == 0 && M == 0) break;
sum = 0;
for(int i = 0; i < N; i++) {
cin >> a[i].D >> a[i].P;
sum += a[i].D * a[i].P;
}
sort(&a[0], &a[N]);
for(int i = 0; i < N; i++) {
if(M <= a[i].D) {
sum -= M*a[i].P;
break;
} else {
sum -= a[i].D*a[i].P;
M -= a[i].D;
}
}
cout << sum << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<bits/stdc++.h>
#define rep(i,n) for(int i = 0;i<(int)n;i++)
using namespace std;
int main ()
{
int n,m;
while(cin>>n>>m&&n)
{
vector<pair<int,int > >a;
pair<int,int> x;
rep(i,n){
cin>>x.second>>x.first;
a.push_back(x);
}
sort(a.begin(),a.end());
reverse(a.begin(),a.end());
int ans=0;
rep(i,n)
{
m-=a[i].second;
a[i].second=0;
if(m<0)
{
a[i].second-=m;
break;
}
}
rep(i,n)
{
ans+=a[i].first*a[i].second;
}
cout<<ans<<endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
da = list(map(int,input().split()))
k = [[0 for i in range(2)]for j in range(10001)]
i = 0
su = 0
j = 0
while da[0] + da[1] != 0:
i = 0
su = 0
j = 0
for i in range(da[0]):
k[i][0],k[i][1] = map(int,input().split())
k = sorted(k,key = lambda x: x[1],reverse = True)
while j != i + 1:
if da[1] > k[j][0]:
da[1] -= k[j][0]
j += 1
elif da[1] <= k[j][0] and da[1] > 0:
su += (k[j][0] - da[1]) * k[j][1]
da[1] = 0
j += 1
else:
su += k[j][0] * k[j][1]
j += 1
print(su)
da = list(map(int,input().split()))
k = [[0 for i in range(2)]for j in range(10001)]
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
#include<algorithm>
#include<vector>
#include<map>
#include<functional>
using namespace std;
typedef pair<int,int> P;
int main(){
int n,m;
while(cin>>n>>m && n){
vector<P> data;
int ans=0;
for(int i=0;i<n;i++){
int d,p;
cin>>d>>p;
data.push_back(P(p,d));
ans+=d*p;
}
sort(data.begin(),data.end());
for(int i=data.size()-1;i>=0;i--){
if(m>=data[i].second){
m-=data[i].second;
ans-=data[i].first*data[i].second;
}
else {
ans-=data[i].first*m;
break;
}
}
cout<<ans<<endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
#define F(i,N) for(int i=0;i<(int)N;i++)
using namespace std;
int main(){
int n,j,a[11],q,b,c,d,e;
while(cin>>q>>b){
if(q==0&&b==0)break;
int sum=0;
F(i,11)a[i]=0;
F(i,q){cin>>c>>d;a[d]+=c;}
for(int i=10;i>=0;i--){
e=a[i];
a[i]=a[i]-b;
b=b-e;
if(b<0)b=0;
if(a[i]<0)a[i]=0;
}
F(i,11)sum+=a[i]*i;
cout<<sum<<endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <algorithm>
#include <cmath>
using namespace std;
int N,M;
pair<int,int> PD[10010];
int main() {
while (cin >> N >> M && N) {
int d,p;
for (int i=0; i<N; ++i) {
cin >> d >> p;
PD[i] = make_pair(p,d);
}
sort(PD,PD+N);
reverse(PD,PD+N);
int S = 0;
for(int i=0; i<N; ++i)
S += PD[i].first*PD[i].second;
for(int i=0; i<N; ++i) {
if(M<=0) break;
int guarded = fmin(M,PD[i].second);
S -= PD[i].first*guarded;
M -= guarded;
}
cout << S << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
#include<queue>
#include<utility>
using namespace std;
int main(){
int n,m;
while(cin>>n>>m,n){
int a,b,ans=0;
priority_queue< pair<int,int> > c;
for(int i=0;i<n;i++){
cin>>a>>b;
c.push(make_pair(b,a));
}
while(!c.empty()){
if(c.top().second>m){
c.push(make_pair(c.top().first,c.top().second-m));
c.pop();
break;
}
else {
m-=c.top().second;
c.pop();
}
}
while(!c.empty()){
ans+=c.top().first*c.top().second;
c.pop();
}
cout<<ans<<endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
while True:
N,M = map(int,input().split())
if N == M == 0:
break
else:
L = []
for i in range(N):
L.append(list(map(int,input().split())))
L = sorted(L, key = lambda x:x[1])
L.reverse()
ans = 0
for i in range(len(L)):
if M > 0:
if M-L[i][0] >= 0:
M -= L[i][0]
else:
ans += (L[i][0]-M)*L[i][1]
M = 0
else:
ans += L[i][0]*L[i][1]
print(ans)
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
using namespace std;
typedef pair<int, int> Pair;
int n;
int m;
Pair ps[114514];
int main() {
while (1) {
scanf("%d%d", &n, &m);
if (n == 0 && m == 0) return 0;
for (int i=0; i<n; i++) {
int d;
int p;
scanf("%d%d", &d, &p);
ps[i] = Pair(p, d);
}
sort(ps, ps+n, greater<Pair>());
int ans = 0;
for (int i=0; i<n; i++) {
Pair pa = ps[i];
int p = pa.first;
int d = pa.second;
if (m >= d) {
m -= d;
} else {
d -= m;
m = 0;
ans += d*p;
}
}
printf("%d\n", ans);
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <cstdio>
#include <iostream>
#include <utility>
using namespace std;
int main(){
while(1){
int n, d[10000], p[10000];
long m, ans=0;
//入力
scanf(" %d %ld", &n, &m);
if(n==0) break;
for(int i=0; i<n; ++i){
scanf(" %d %d", &d[i], &p[i]);
ans += d[i]*p[i];
}
//期待値の最も高いところから順に護衛
for(int i=0; i<n; ++i){
for(int j=i; j<n; ++j){
if(p[i]<p[j]){
swap(p[i], p[j]);
swap(d[i], d[j]);
}
}
}
for(int i=0; i<n; ++i){
if(m>=d[i]){
m -= d[i];
ans -= d[i]*p[i];
}
else{
ans -= m*p[i];
break;
}
}
printf("%ld\n", ans);
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
while True:
N,M = map(int,input().split())
if N == 0:
break
expect = 0
a = []
exsum = 0
for i in range(N): #二次元配列を作る
a.append(list(map(int,input().split())))
exsum += a[i][0]*a[i][1] #誰も雇わなかった場合の期待値
b = sorted(a, key=lambda x: x[1]) #危険度の高い区間ほど後ろにくるように並べる
i = N-1
while M > 0 and i >= 0: #危険度が高い区間(配列のうしろ)から順に人を雇っていく
if b[i][0] <= M:
exsum -= b[i][0]*b[i][1]
M -= b[i][0]
i -= 1
else:
exsum -= b[i][1]*M
M = 0
i -= 1
print(exsum)
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <cstdio>
#include <vector>
#include <algorithm>
using namespace std;
int main(){
int N,M;
for(;;){
scanf("%d%d",&N,&M);
if(N==0&&M==0) break;
int d,p,len=0;
vector<pair<int,int>> ds(N);
for(auto &pa : ds){
scanf("%d%d",&d,&p);
pa=make_pair(p,d);
len+=d;
}
sort(begin(ds),end(ds));
int ans=0,rem=max(len-M,0);
for(auto &p : ds){
int nd=min(p.second,rem);
ans+=p.first*nd;
rem-=nd;
if(rem==0) break;
}
printf("%d\n",ans);
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
using namespace std;
int main(int argc, char *argv[])
{
int n, m, d, p, res, cnt[11];
while (cin >> n >> m, n | m) {
res = 0;
for (int i = 0; i < 11; ++i)
cnt[i] = 0;
for (int i = 0; i < n; ++i) {
cin >> d >> p;
cnt[p] += d;
}
for (int i = 10; i > 0; --i) {
if (m > cnt[i]) {
m -= cnt[i];
} else {
res += i * (cnt[i] - m);
m = 0;
}
}
cout << res << endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<cstdio>
#include<algorithm>
#include<vector>
using namespace std;
typedef pair<int,int>pii;
int main(){
int n,m;
while(scanf("%d%d",&n,&m),n||m){
vector<pii>V(n);
for(int i=0;i<n;i++){
int d,p;
scanf("%d%d",&d,&p);
V[i]=pii(p,d);
}
sort(V.rbegin(),V.rend());
int ans=0;
for(int i=0;i<n;i++){
int val=min(V[i].second,m);
V[i].second-=val;
m-=val;
ans+=V[i].first*V[i].second;
}
printf("%d\n",ans);
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <algorithm>
#include <vector>
#include <utility>
using namespace std;
int main() {
int n, m;
while (cin >> n >> m && n + m) {
vector<pair<int,int> > pd(n);
int ans = 0;
for (int i = 0; i < n; ++i) {
cin >> pd[i].second >> pd[i].first;
ans += pd[i].first * pd[i].second;
}
sort(pd.begin(), pd.end(), greater<pair<int, int> >());
int tmp = 0;
while (m--) {
if (pd[tmp].second == 0) tmp++;
if(tmp >= n) break;
ans -= pd[tmp].first; pd[tmp].second--;
}
cout << ans << endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <vector>
#include <algorithm>
using namespace std;
int main(void)
{
int n,m;
int d,p;
int sum;
int i1,i2;
while(1){
cin >> n >> m;
if(n+m==0) break;
vector<pair<int, int> > michi;
sum=0;
for(i1=0;i1<n;i1++){
cin >> d >> p;
michi.push_back(make_pair(p,d));
sum+=d*p;
}
sort(michi.begin(), michi.end());
reverse(michi.begin(), michi.end());
for(i1=0;i1<michi.size();i1++){
for(i2=0;i2<michi[i1].second;i2++){
if(m>0){
sum-=michi[i1].first;
m--;
}
}
if(m<=0) break;
}
cout << sum << endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.util.Scanner;
public class Main {
public static void main(String[] args) {
try(Scanner sc = new Scanner(System.in)){
while(sc.hasNext()) {
int n = sc.nextInt();
int m = sc.nextInt();
if(n + m == 0) break;
int[] ds = new int[11];
while(n-- != 0) {
int d = sc.nextInt();
int p = sc.nextInt();
ds[p] += d;
}
int P = 0;
for(int p=10; p>=0; p--) {
if(m >= ds[p]) {
m -= ds[p];
}
else {
P += (ds[p] - m) * p;
m = 0;
}
}
System.out.println(P);
}
}
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
while True:
N, M = map(int, input().split()) # 宿の数N, 予算M
if N == 0 and M == 0:
break
dangers = {} # Pをkeyとして頑張る
for _ in range(N):
distance, P = map(int, input().split())
if P not in dangers:
dangers[P] = distance
else:
dangers[P] += distance
# 期待値の降順でソート
dangers = sorted(dangers.items(), key=lambda x:x[0], reverse=True)
ans = 0
for i in range(len(dangers)):
P, distance = dangers[i][0], dangers[i][1]
if M >= distance:
M -= distance
distance = 0
else:
distance -= M
M = 0
ans += P*distance
print(ans)
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <algorithm>
#include <vector>
#include <utility>
using namespace std;
typedef pair<int, int> P;
int main() {
for(int N, M; cin >> N >> M, N || M; ) {
vector<P> data;
int s = 0;
for(int i = 0; i < N; i++) {
int d, p;
cin >> d >> p;
data.push_back(P(p, d));
s += p * d;
}
sort(data.rbegin(), data.rend());
for(int i = 0; i < N; i++) {
s -= min(data[i].second, M) * data[i].first;
M -= min(data[i].second, M);
}
cout << s << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
while True:
n, m = map(int, input().split())
if n == m == 0:
break
li = list()
total = 0
for i in range(n):
d, p = map(int, input().split())
li.append((p, d))
total += p * d
li.sort(reverse = True)
for p, d in li:
if d <= m:
total -= p * d
m -= d
else:
total -= p * m
break
print(total)
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
using namespace std;
typedef pair<int, int> P;
int main() {
int N, M;
while(cin >> N >> M && (N|M)) {
P ps[N];
for(int i=0; i<N; i++) {
cin >> ps[i].second >> ps[i].first;
ps[i].first = -ps[i].first;
}
sort(ps, ps+N);
for(int i=0; i<N; i++) {
ps[i].first = -ps[i].first;
}
int psum = 0;
for(int i=0; i<N; i++) {
if(M>ps[i].second) {
M -= ps[i].second;
}
else {
psum += -M*ps[i].first; M = 0;
psum += ps[i].first*ps[i].second;
}
}
cout << psum<< endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
while True:
n,m=map(int,input().split())
if n==0 and m==0:
break
pd=[list(map(int,input().split()))[::-1] for i in range(n)]
pd.sort()
pd.reverse()
ans=0
for i in pd:
if m>i[1]:
m-=i[1]
elif m>0:
ans+=i[0]*(i[1]-m)
m=0
else:
ans+=i[0]*i[1]
print(ans)
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in PYTHON3):
|
while True:
n, m = map(int, input().split())
if n == 0 and m == 0:
break
sections = []
for i in range(n):
d, p = map(int, input().split())
sections.append([p, d])
sections.sort()
sections.reverse()
e = 0
for p, d in sections:
if d <= m:
m -= d
d = 0
elif m > 0:
d -= m
m = 0
e += p * d
print(e)
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
using namespace std;
typedef pair<int,int> P;
int main() {
int N,M;
while(scanf("%d %d",&N,&M),N) {
priority_queue<P> Q;
for(int i=0;i<N;i++) {
int d,p;
scanf("%d %d",&d,&p);
Q.push(P(p,d));
}
int sum=0;
while(!Q.empty()) {
P p=Q.top();Q.pop();
int d=min(p.second,M);
M-=d;
p.second-=d;
sum+=p.second*p.first;
}
printf("%d\n",sum);
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<bits/stdc++.h>
using namespace std;
struct S{
int d,p;
};
bool operator<(S a,S b){
return a.p<b.p;
}
int n,m;
vector<S> dp;
void init(){
dp.clear();
}
bool input(){
cin>>n>>m;
if(n==0&&m==0)return false;
for(int i=0;i<n;i++){
int a,b;
cin>>a>>b;
dp.push_back((S){a,b});
}
return true;
}
int solve(){
sort(dp.rbegin(),dp.rend());
int ans = 0;
for(auto i:dp){
if(m<i.d){
ans += (i.d - m) * i.p;
m = 0;
}else{
m -= i.d;
}
}
return ans;
}
int main(){
while(init(),input()){
cout<<solve()<<endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.util.*;
import static java.lang.System.*;
public class Main {
Scanner sc = new Scanner(in);
class A {
int d, p;
A(int d, int p) {
this.d = d;
this.p = p;
}
}
void sort(A[] a) {
int n = a.length;
for (int i = n-1; i > 0; i--) {
for (int j = 0; j < i; j++) {
if (a[j].p < a[j+1].p) {
A temp = a[j];
a[j] = a[j+1];
a[j+1] = temp;
}
}
}
}
void run() {
int n, m;
while (true) {
n = sc.nextInt(); m = sc.nextInt();
if (n == 0) break;
A[] a = new A[n];
int sum = 0;
for (int i = 0; i < n; i++) {
int d = sc.nextInt(), p = sc.nextInt();
a[i] = new A(d, p);
sum += d*p;
}
sort(a);
int guard = 0;
int index = 0;
while (m >= a[index].d) {
m -= a[index].d;
guard += a[index].d*a[index].p;
index++;
if (index == n) {
break;
}
}
if (index < n)
guard += m*a[index].p;
out.println(sum-guard);
}
}
public static void main(String[] args) {
new Main().run();
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
using namespace std;
int N, M;
int d, p, L, s, c;
pair<int, int> x[10000];
int main()
{
while(cin >> N >> M && N!=0)
{
L=0;
for(int i=0; i<N; i++)
{
cin >> d >> p;
x[i]=make_pair(p, d);
L+=d;
}
sort(x, x+N);
s=0;
if(M<L)
{
c=0;
for(int i=0; i<N; i++)
{
if(c+(x[i].second)>=L-M)
{
s+=(L-M-c)*(x[i].first);
c+=x[i].second;
break;
}
else
{
s+=(x[i].second)*(x[i].first);
c+=x[i].second;
}
}
}
cout << s << endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <vector>
#include <algorithm>
using namespace std;
int main() {
int N, M;
while (cin >> N >> M && N > 0) {
vector<pair<int, int> > A;
A.reserve(N);
for (int i = 0; i < N; i++) {
int d, p;
cin >> d >> p;
pair<int, int> a = make_pair(p, d);
A.push_back(a);
}
sort(A.rbegin(), A.rend());
int result = 0;
for (int i = 0; i < N; i++) {
int d = max(0, A[i].second - M);
M = max(0, M - A[i].second);
result += d * A[i].first;
}
cout << result << endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
#include<string>
using namespace std;
int d[10000],p[10000];
int main(){
int n,m;
while(true){
cin>>n>>m;
if(n==0&&m==0)
break;
int load=0;
for(int i=0;i<n;i++){
cin>>d[i]>>p[i];
load+=d[i];
}
if(load<=m)
cout<<"0"<<endl;
else{
int count=0;
for(int i=0;i<n-1;i++){
for(int j=n-1;j>i;j--){
if(p[j]<p[j-1]){
int tmp=p[j];
p[j]=p[j-1];
p[j-1]=tmp;
tmp=d[j];
d[j]=d[j-1];
d[j-1]=tmp;
}
}
}
int i=0;
m=load-m;
while(true){
if(m<=d[i]){
count+=m*p[i];
break;
}
count+=d[i]*p[i];
m-=d[i];
i++;
}
cout<<count<<endl;
}
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.util.*;
public class Main {
static Scanner in = new Scanner(System.in);
public static void main(String[] args) {
while(true){
int n =in.nextInt();
long m = in.nextInt();
if(n+m==0)break;
ArrayList<Data> list = new ArrayList<Data>();
for(int i=0;i<n;i++)list.add(new Data(in.nextInt(), in.nextInt()));
Collections.sort(list);
// for(int i=0;i<n;i++)System.out.println(list.get(i).d+" "+list.get(i).p);
long all = 0;
for(int i=0;i<n;i++)all+=(list.get(i).d*list.get(i).p);
// System.out.println(m);
long remove = 0;
int index = 0;
for(index=0;m>0&&index<n;index++){
// System.out.println(m+" "+remove);
if(list.get(index).d<=m){
int a = list.get(index).d*list.get(index).p;
remove+=a;
m-=list.get(index).d;
}else{
remove+=(list.get(index).p*m);
// System.out.println(m+" "+remove);
m=0;break;
}
}
System.out.println(all-remove);
}
}
}
class Data implements Comparable<Data>{
int d,p;
public Data(int d,int p) {
this.p = p;
this.d = d;
}
public int compareTo(Data o) {
if(this.p<o.p)return 1;
else if(this.p>o.p)return -1;
return 0;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
using namespace std;
int main(){
int m,n;
n=1;
while(n>0){
cin >> n >> m;
if(n==0) break;
int d[n],p[n];
int s=0;
for(int i=0;i<n;i++){
cin >> d[i] >> p[i];
s += d[i]*p[i];
}
for(int i=0;i<n;i++){
for(int j=i;j<n;j++){
int a,b;
if(p[j]<p[i]){
a = d[i];
b = p[i];
d[i] = d[j];
p[i] = p[j];
d[j] = a;
p[j] = b;
}
}
}
int i=0;
while(m>0 && i<=n-1){
if(m>=d[n-i-1]){
m-=d[n-i-1];
s-=d[n-i-1]*p[n-i-1];
}else{
s-=m*p[n-i-1];
m=0;
}
i++;
}
cout << s << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <vector>
#include <algorithm>
using namespace std;
int main() {
for(int N, M; cin >> N >> M && N; ) {
vector<pair<int, int>> roads;
int danger = 0;
for(int i = 0; i < N; i++) {
int d, p;
cin >> d >> p;
roads.push_back(make_pair(p, d));
danger += d * p;
}
sort(roads.begin(), roads.end(), greater<pair<int, int>>());
for(int i = 0; i < N; i++) {
danger -= min(M, roads[i].second) * roads[i].first;
M = max(M - roads[i].second, 0);
}
cout << danger << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.util.Arrays;
import java.util.Comparator;
import java.util.Scanner;
public class Main {
Scanner sc;
class Pair {
int f;
int s;
Pair(int f, int s) {
this.f = f;
this.s = s;
}
}
void run() {
for ( ;; ) {
int n = ni();
int m = ni();
if ( ( n | m ) == 0 ) {
break;
}
Pair[] list = new Pair[n];
for ( int i = 0; i < n; ++i ) {
int d = ni();
int p = ni();
list[ i ] = new Pair( d, p );
}
Arrays.sort( list, new Comparator<Pair>() {
@Override
public int compare(Pair o1, Pair o2) {
return o2.s - o1.s;
}
} );
int sum = 0;
for ( Pair p : list ) {
int pay = Math.min( m, p.f );
sum += ( p.f - pay ) * p.s;
m -= pay;
}
System.out.println( sum );
}
}
Main() {
sc = new Scanner( System.in );
}
int ni() {
return sc.nextInt();
}
public static void main(String[] args) {
new Main().run();
}
void debug(Object... os) {
System.err.println( Arrays.deepToString( os ) );
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStreamReader;
import java.util.Arrays;
import java.util.Comparator;
import static java.lang.Integer.parseInt;
/**
* Princess's Marriage - Accepted
*/
public class Main {
public static void main(String[] args) throws IOException {
BufferedReader br = new BufferedReader(new InputStreamReader(System.in));
String line;
while ((line = br.readLine()) != null && !line.isEmpty()) {
int N, M;
N = parseInt(line.substring(0, line.indexOf(' ')));
M = parseInt(line.substring(line.indexOf(' ') + 1));
if ((N | M) == 0) break;
int[] ps = new int[11];
for (int i = 0; i < N; i++) {
line = br.readLine();
int D, P;
D = parseInt(line.substring(0, line.indexOf(' ')));
P = parseInt(line.substring(line.indexOf(' ') + 1));
ps[P] += D;
}
for (int i = ps.length - 1; i >= 0; i--) {
if (ps[i] > 0) {
if (ps[i] <= M) {
M -= ps[i];
ps[i] = 0;
} else {
ps[i] -= M;
M = 0;
}
}
}
int expected = 0;
for (int i = 0; i < ps.length; i++) {
if (ps[i] > 0) expected += i * ps[i];
}
System.out.println(expected);
} //end while
} //end main
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#import<cstdio>
int main(){int n,m,p,i;for(;scanf("%d%d",&n,&m),n|m;printf("%d\n",p)){int f[12]={0};for(i=n;i--;f[p]+=n)scanf("%d%d",&n,&p);p=0;for(i=10;i>=0;p+=f[i]*i,i--)for(;f[i]&&m;)m--,f[i]--;}}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
#include<cstdio>
#include<string>
#include<cstring>
#include<vector>
#include<set>
#include<list>
#include<queue>
#include<cmath>
#include<functional>
#include<algorithm>
#define INF (1<<29)
#define EPS 1e-10
#define rep(i,n) for(int i=0;i<(n);i++)
using namespace std;
int main(){
int p[11];
int n,m;
while(cin>>n>>m,n||m){
fill(p,p+11,0);
rep(i,n){
int a,b;
cin>>a>>b;
p[b] += a;
}
for(int i=10;m&&i>=0;i--){
int t=min(p[i],m);
p[i] -= t;
m -= t;
}
int ans=0;
rep(i,11)ans+=p[i]*i;
cout<<ans<<endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in JAVA):
|
import java.util.*;
public class Main {
public static Scanner sc = new Scanner(System.in);
public static int N, M;
public static void main(String[] args) {
while (true) {
N = sc.nextInt();
M = sc.nextInt();
if (N == 0 && M == 0)
break;
ArrayList<Edge> es = new ArrayList<Edge>();
for (int i = 0; i < N; i++) {
es.add(new Edge(sc.nextInt(), sc.nextInt()));
}
Collections.sort(es);
int ans = 0;
for (int i = 0; i < N; i++) {
int D = es.get(i).D, P = es.get(i).P;
if (M == 0) {
ans += D * P;
} else if (D <= M) {
M -= D;
} else {
ans += P * (D - M);
M = 0;
}
}
System.out.println(ans);
}
}
}
class Edge implements Comparable<Edge> {
int D, P;
Edge(int D, int P) {
this.D = D;
this.P = P;
}
public int compareTo(Edge e) {
return e.P - this.P;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<cstdio>
#include<algorithm>
using namespace std;
int main(){
pair<char,int> d_p[10000];
for(int n,m;scanf("%d%d",&n,&m),n;){
int psum=0;
for(int i=0;i<n;i++){
scanf("%d%d",&d_p[i].second,&d_p[i].first);
psum+=d_p[i].first*d_p[i].second;
}
sort(d_p,d_p+n);
for(int i=n-1;i>=0;i--){
if(m==0) break;
int deltam=min(d_p[i].second,m);
psum-=d_p[i].first*deltam;
m-=deltam;
}
printf("%d\n",psum);
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <algorithm>
using namespace std;
int main()
{
for(int n,m;cin>>n>>m,n|m;){
pair<int,int> rs[n]; // (期待値,距離)
for(int i=0;i<n;i++) cin>>rs[i].second>>rs[i].first;
sort(rs,rs+n,greater<pair<int,int>>());
int res=0;
for(int i=0;i<n;i++){
res+=rs[i].first*max(rs[i].second-m,0);
m=max(m-rs[i].second,0);
}
cout<<res<<endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
using namespace std;
int main(){
int N,M;
while(cin>>N>>M,N||M){
int Expected[11]={0};
int sum=0;
int p,d;
for(int i=0;i<N;i++){
cin>>d>>p;
Expected[p]+=d;
}
for(int i=10;i>=0 && M>=0;i--){
if(Expected[i]<=M){
M-=Expected[i];
Expected[i]=0;
}
else{
Expected[i]-=M;
M=0;
}
}
for(int i=10;i>=0;i--){
if(Expected[i]>0){
sum+=Expected[i]*i;
}
}
cout<<sum<<endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
using namespace std;
int main(){
int N, M;
int Di, Pi;
int P[11], sum;
int cnt;
while (1){
cin >> N >> M;
if (N == 0 && M == 0) break;
for (int i = 0; i < 11; i++) P[i] = 0;
sum = 0;
cnt = 10;
for (int i = 0; i < N; i++){
cin >> Di >> Pi;
P[Pi] += Di;
}
while (cnt != -1){
if (P[cnt] >= 1 && M != 0) M--;
else if(P[cnt]!=0) sum += cnt;
if (P[cnt] >= 1) P[cnt]--;
else cnt--;
}
cout << sum << endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <vector>
#include <algorithm>
using namespace std;
typedef long long ll;
struct D {
int d, p;
D() {}
D(int d, int p) : d(d), p(p) {}
};
bool operator >(const D& d1, const D& d2) {
return d1.p > d2.p;
}
int main() {
int N, M;
while (cin >> N >> M, N || M) {
vector<D> v;
for (int i = 0; i < N; ++i) {
int d, p; cin >> d >> p;
v.push_back( D(d, p) );
}
sort( v.begin(), v.end(), greater<D>() );
int ans = 0;
for (int i = 0; i < N; ++i) {
if (M >= v[i].d) {
M -= v[i].d;
}
else {
ans += v[i].p * (v[i].d - M);
M = 0;
}
}
cout << ans << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <iostream>
#include <algorithm>
#include <vector>
#include <set>
#include <math.h>
#include <map>
#include <numeric>
using namespace std;
typedef long long int ll;
int main(){
cin.tie(nullptr);
ios::sync_with_stdio(false);
while(1){
int n,m; cin >> n >> m;
if(n==0&&m==0)break;
vector<pair<int,int>> v;
for(int i=0;i<n;i++){
int x,y; cin >> x >> y;
v.push_back({y,x});
}
sort(v.rbegin(),v.rend());
int ans=0;
for(int i=0;i<n;i++){
if(m>=v[i].second){
m-=v[i].second;
}
else{
v[i].second-=m;
m=0;
ans+=v[i].first*v[i].second;
}
}
cout << ans << endl;
}
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include<iostream>
#include<algorithm>
#include<vector>
#include<functional>
using namespace std;
int main(){
int n,m;
while(cin>>n>>m,n){
int table[11]={0};
int d,p;
int max = 0;
for(int i=0;i<n;i++){
cin>>d>>p;
table[p]+=d;
if(max < p) max = p;
}
for(int i=max;i>=0;i--){
if(table[i] <= m){
m-=table[i];
table[i]=0;
}else{
table[i]-=m;
m=0;
break;
}
}
long long int sum=0;
for(int i=0;i<=max;i++){
sum+=i*table[i];
}
cout<<sum<<endl;
}
return 0;
}
|
Problem: Princess'Marriage
Marriage of a princess
English text is not available in this practice contest.
A brave princess in a poor country, knowing that gambling payouts are determined by the parimutuel method, felt more familiar with gambling and was convinced of her victory in gambling. As a result, he spent more money than ever before and lost enough to lose all the taxes paid by the people. The King, who took this situation seriously, decided to marry the princess to the neighboring country. By doing this, I thought that I would like the princess to reflect on her daily activities and at the same time deepen her friendship with neighboring countries and receive financial assistance.
The princess and the prince of the neighboring country liked each other, and the kings of both countries agreed on a political marriage. The princess triumphantly went to the neighboring country with a little money in her hand. On the other hand, the motive for the princess to marry is to pursue the unilateral interests of the king, and the aide of the prince of the neighboring country who thinks that it is not pleasant shoots countless thugs along the way to make the princess dead. It was.
The path the princess will take has already been decided. There are a total of L post stations on the path of the princess. For convenience, the departure and arrival points are also set as post stations, and each post station is called S1, S2, ... SL. The princess shall be in S1 first, visit the post station in ascending order (S2, S3 ... in that order), and finally go to SL. At the post station, you can pay money to hire an escort, and as long as you have the money, you can contract for as long as you like to protect the princess. The cost of hiring an escort is 1 gold per distance. Note that the princess can also partially protect the section through which she passes. The distance between Si and Si + 1 is given by Di, and the expected value of the number of times a thug is attacked per distance between Si and Si + 1 is given by Pi.
Find the expected number of thugs to reach your destination when the princess has a budget of M and hires an escort to minimize the expected number of thugs.
Input
The input consists of multiple datasets. Each dataset has the following format.
> N M
> D1 P1
> D2 P2
> ...
> DN PN
Two integers are given in the first row of each dataset, representing the number of intervals N (1 ≤ N ≤ 10,000) and the budget M (0 ≤ M ≤ 1,000,000,000) of the princess difference, respectively. The next N lines show information about the path the princess takes. Each line contains two integers, and the i-th line is the expected value of the interval Di (1 ≤ Di ≤ 10,000) and the number of attacks when moving one unit distance between them Pi (0 ≤ Pi <= 10) ). The end of the input is represented by a data set with N = 0 and M = 0. Do not output the calculation result for this data set.
Output
For each dataset, output the expected number of times the princess will be attacked by thugs to your destination.
Sample Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output for the Sample Input
Five
140
Example
Input
2 8
5 6
4 5
3 1
5 10
5 10
5 10
0 0
Output
5
140
Solution (in CPP):
|
#include <bits/stdc++.h>
#define rep(i,n) for(int i=0;i<(int)(n);i++)
#define ll long long
using namespace std;
int main()
{
ll n, m;
while(cin >> n >> m, n > 0){
ll ans=0;
vector<pair<int, int>> pd;
rep(i, n){
int p, d;
cin >> d >> p;
pd.push_back(make_pair(p, d));
}
sort(pd.rbegin(), pd.rend());
for(auto itr=pd.begin(); itr!=pd.end(); itr++){
if (m >= itr->second){
m -= itr->second;
}else{
ans += itr->first*(itr->second-m);
m = 0;
}
}
cout << ans << endl;
}
return 0;
}
|
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