Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2))

C. Plus and Square Root
time limit per test

2 seconds

memory limit per test

256 megabytes

input

standard input

output

standard output

ZS the Coder is playing a game. There is a number displayed on the screen and there are two buttons, ' + ' (plus) and 'Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2))' (square root). Initially, the number 2 is displayed on the screen. There are n + 1 levels in the game and ZS the Coder start at the level 1.

When ZS the Coder is at level k, he can :

  1. Press the ' + ' button. This increases the number on the screen by exactly k. So, if the number on the screen was x, it becomesx + k.
  2. Press the 'Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2))' button. Let the number on the screen be x. After pressing this button, the number becomes Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2)). After that, ZS the Coder levels up, so his current level becomes k + 1. This button can only be pressed when x is a perfect square, i.e. x = m2 for some positive integer m.

Additionally, after each move, if ZS the Coder is at level k, and the number on the screen is m, then m must be a multiple of k. Note that this condition is only checked after performing the press. For example, if ZS the Coder is at level 4 and current number is 100, he presses the 'Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2))' button and the number turns into 10. Note that at this moment, 10 is not divisible by 4, but this press is still valid, because after it, ZS the Coder is at level 5, and 10 is divisible by 5.

ZS the Coder needs your help in beating the game — he wants to reach level n + 1. In other words, he needs to press the 'Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2))' button ntimes. Help him determine the number of times he should press the ' + ' button before pressing the 'Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2))' button at each level.

Please note that ZS the Coder wants to find just any sequence of presses allowing him to reach level n + 1, but not necessarily a sequence minimizing the number of presses.

Input

The first and only line of the input contains a single integer n (1 ≤ n ≤ 100 000), denoting that ZS the Coder wants to reach level n + 1.

Output

Print n non-negative integers, one per line. i-th of them should be equal to the number of times that ZS the Coder needs to press the ' + ' button before pressing the 'Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2))' button at level i.

Each number in the output should not exceed 1018. However, the number on the screen can be greater than 1018.

It is guaranteed that at least one solution exists. If there are multiple solutions, print any of them.

Examples
input
3
output
14
16
46
input
2
output
999999999999999998
44500000000
input
4
output
2
17
46
97
Note

In the first sample case:

On the first level, ZS the Coder pressed the ' + ' button 14 times (and the number on screen is initially 2), so the number became2 + 14·1 = 16. Then, ZS the Coder pressed the 'Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2))' button, and the number became Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2)).

After that, on the second level, ZS pressed the ' + ' button 16 times, so the number becomes 4 + 16·2 = 36. Then, ZS pressed the 'Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2))' button, levelling up and changing the number into Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2)).

After that, on the third level, ZS pressed the ' + ' button 46 times, so the number becomes 6 + 46·3 = 144. Then, ZS pressed the 'Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2))' button, levelling up and changing the number into Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2)).

Note that 12 is indeed divisible by 4, so ZS the Coder can reach level 4.

Also, note that pressing the ' + ' button 10 times on the third level before levelling up does not work, because the number becomes6 + 10·3 = 36, and when the 'Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2))' button is pressed, the number becomes Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2)) and ZS the Coder is at Level 4. However, 6 is not divisible by 4 now, so this is not a valid solution.

In the second sample case:

On the first level, ZS the Coder pressed the ' + ' button 999999999999999998 times (and the number on screen is initially 2), so the number became 2 + 999999999999999998·1 = 1018. Then, ZS the Coder pressed the 'Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2))' button, and the number became Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2)).

After that, on the second level, ZS pressed the ' + ' button 44500000000 times, so the number becomes109 + 44500000000·2 = 9·1010. Then, ZS pressed the 'Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2))' button, levelling up and changing the number into Codeforces 715A & 716C Plus and Square Root【数学规律】 (Codeforces Round #372 (Div. 2)).

Note that 300000 is a multiple of 3, so ZS the Coder can reach level 3.

题目链接:

  http://codeforces.com/contest/715/problem/A 

  http://codeforces.com/contest/716/problem/C

题目大意:

  一开始你有数2,处于level1,你可以选择+或者开方,选择加那么现在的数字将加上当前的level,

  选择开方当且仅当你拥有的数十完全平方数,并且开方后level会加1,还要满足开方后所剩的数字是新的level的整数倍。

  问从level1到level n+1 每一次需要+的次数【任意解即可】

题目思路:

  【数学规律】

  如果当前level=1,那么需要两次+,把数字变为4,开方后为2,还是2的倍数。

  当level i(i>1)时,通过找规律可以知道,到达level i+1 需要的+的次数为i*(i+1)*(i+1)-(i-1)。

 //
//by coolxxx
//#include<bits/stdc++.h>
#include<iostream>
#include<algorithm>
#include<string>
#include<iomanip>
#include<map>
#include<stack>
#include<queue>
#include<set>
#include<bitset>
#include<memory.h>
#include<time.h>
#include<stdio.h>
#include<stdlib.h>
#include<string.h>
//#include<stdbool.h>
#include<math.h>
#define min(a,b) ((a)<(b)?(a):(b))
#define max(a,b) ((a)>(b)?(a):(b))
#define abs(a) ((a)>0?(a):(-(a)))
#define lowbit(a) (a&(-a))
#define sqr(a) ((a)*(a))
#define swap(a,b) ((a)^=(b),(b)^=(a),(a)^=(b))
#define mem(a,b) memset(a,b,sizeof(a))
#define eps (1e-10)
#define J 10000
#define mod 1000000007
#define MAX 0x7f7f7f7f
#define PI 3.14159265358979323
#pragma comment(linker,"/STACK:1024000000,1024000000")
#define N 50004
using namespace std;
typedef long long LL;
double anss;
LL aans;
int cas,cass;
LL n,m,lll,ans;
int main()
{
#ifndef ONLINE_JUDGEW
// freopen("1.txt","r",stdin);
// freopen("2.txt","w",stdout);
#endif
LL i,j,k;
// init();
// for(scanf("%d",&cass);cass;cass--)
// for(scanf("%d",&cas),cass=1;cass<=cas;cass++)
// while(~scanf("%s",s))
while(~scanf("%I64d",&n))
{
for(i=;i<=n;i++)
{
if(i==)puts("");
else printf("%I64d\n",sqr(i+)*i-(i-));
}
}
return ;
}
/*
// //
*/
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