The problem itself can be found here. The gist of it is that Bessie is riding a roller coaster, but she gets dizzy. What is the maximum amount of fun she can have without going over her "dizzy limit." The input consists of:

"*N K L*

where N (1 ≤ N ≤ 1,000) is the number of sections in this particular the roller coaster; K (1 ≤ K ≤ 500) is the amount that Bessies dizziness level will go down if she keeps her eyes closed on any section of the ride; and L (1 ≤ L ≤ 300,000) is the limit of dizziness that Bessie can tolerate — if her dizziness ever becomes larger than L, Bessie will get sick, and thats not fun!

Each of the next N lines will have two integers:

*F D*

where F (1 ≤ F ≤ 20) is the increase to Bessies total fun that shell get if she keeps her eyes open on that section, and D (1 ≤ D ≤ 500) is the increase to her dizziness level if she keeps her eyes open on that section. The sections will be listed in order."

My algorithm to solve this looks like this:

```
cin >> N; // sections
cin >> K; // amount dizziness can go down
cin >> L; // dizzy ceiling
belowL = L; // sets the amount of dizzy left
for (int i = 0; i < N; i++) {
cout << "\n" << i;
cin >> F >> D; // fun increase and dizzy increase
if (D < belowL) {
if (F >= D) {
funTotal += F;
}
}
else {
belowL -= K;
}
```

However, this does not *always* yield the correct result. What is the problem? It should pick the fun option, unless it would put Bessie over the sickness threshold. Is there a better way to do that?