Say you have an array of different numbers {5,6,1,67,13,9,14,15}, and a list of requirements like this: R1:you must select at least 2 numbers from set(5,6,10) which are also in your array in this case it will be 5,6

R2:you must select at least 3 numbers from set(9,13,67,5) which are also in your array. in this case it will be 9,13,67. Notice that we cannot select 5 since it has been used in R1

R3:you must select at least 2 numbers from set(1,14,15,6) which are also in your array. in this case it can be 1,14 or 1,15 or 14,15 we will have multiple satisfactions. .....

.....

Rk:you must selet at least k numbers from set (.......) which are also in your array.

So the problem is to find a polynomial-time algorithm to determine if the given array matches all the requirement, and each number of the array can be only used to satisfy one requirement only.

my solution goes like this:

```
determine(array a,R[]) //R[] is a array of requirements, array a is our checking array
{
if R is empty return true //we satisfied all the requirments
if R[0] cannot be satisfied by our array a return false
for each satisfactions
{
new array b=a-selected numbers for this satisfaction
new rule array newR=R-R[0] //remove the first rule of the rule array
if determine(b,newR) is false //we begin our recursive call
we continue our loop since this means the current way of satisfaction does not work
else return true
}
return false //this means we finish checking all the satisfactions and cannot find a match we need to tell the last recursive call that this way does not work
}
```

Clearly my solution needs exponential time, anyone can come up with a polynomial solution?