NOCHANGE - No Change

Though it might be hard to imagine, the inhabitants of a small country Additivia do not know of such thing as change, which probably has to do with them not knowing subtraction either. When they buy something, they always need to have the exact amount of addollars, their currency. The only other option, but not a really attractive one, is over-paying.

Professor Adem, one of the Additivian mathematicians came up with an algorithm for keeping a balanced portfolio. The idea is the following. Suppose you have more coins of value $v_1$ than coins of value $v_2$. In this case you should try to spend at least as many coins of value $v_1$ as those of value $v_2$ on any buy you make. Of course spending too many $v_1$ coins is not a good idea either, but to make the algorithm simpler professor Adem decided to ignore the problem. The algorithm became an instant hit and professor Adem is now designing a kind of "electronic portfolio" with built-in Adem's algorithm. All he needs now is a software for these machines, that will decide whether a given amount of addollars can be paid using a given set of coins according to the rules of Adem's algorithm. Needless to say, you are his chosen programmer for the task.

Problem

Write a program that reads the description of a set of coins and an amount of addollars to be paid, and determines whether you can pay that amount according to Professor Adem's rules.

Input

The input starts with the amount of addollars to be paid $x$, where $1 \le x \le 100,000$. The number of different coin values $k$ follows, where $1 \le k \le 5$. The values of the coins $v_1 \ldots v_k$ follow, where $1 \le v_i \le 10,000$.

Notice that the order among coin values is significant: you need to spend at least as many coins of value $v_1$ as coins of value $v_2$, at least as many coins of value $v_2$ as those of value $v_3$, and so on. You may assume that you have a sufficiently large number of coins of each value.

Output

Your program should output for each test case either a single word "YES", if the given amount can be paid according to the rules, or a single word "NO" otherwise.

Example

Input:
13 3 9 2 1

Output:
NO

Added by:overwise
Date:2007-10-04
Time limit:1s
Source limit:50000B
Memory limit:1536MB
Cluster: Cube (Intel G860)
Languages:All except: ERL JS-RHINO NODEJS PERL6 VB.NET
Resource:ACM ICPC -- SWERC 2001

hide comments
2014-12-29 04:30:09 breaking_code
easy one
panda
2014-09-17 19:53:08 sidharth
getting WA for 10th case.Algo seems fine though.
2014-07-27 20:56:04 Vivek Thakur
pls provide more test cases..!!
2014-06-25 08:21:18 nitesh kumar
classical problem
2014-03-27 13:13:30 Mitch Schwartz
Images fixed by changing spoj.pl -> spoj.com. (Also copied alt text for images into title attribute so that hovering mouse over the image shows the LaTeX.)

Last edit: 2014-03-27 13:59:19
2013-06-22 08:22:37 Charu
Please provide more test cases
2013-03-09 05:42:44 Adel Ali
n*(k^2) passes in 0.05..
couldn't think of n*k solution!
2013-03-02 23:09:53 Hamed Arafa
I submitted O(k*(n^2)) solution and Accepted !
2012-09-25 18:25:27 Tigran
I found solution which runs log(n)+2^k,but it's harder to implement than simple n*k
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