Let `x`

in `{10, 37, 96, 104}`

set.

Let `f(x)`

a *"select case"* function:

```
int f1(int x) {
switch(x) {
case 10: return 3;
case 37: return 1;
case 96: return 0;
case 104: return 1;
}
assert(...);
}
```

Then, we can avoid conditional jumps writing `f(x)`

as a *"integer polynomial"* like

```
int f2(int x) {
// P(x) = (x - 70)^2 / 1000
int q = x - 70;
return (q * q) >> 10;
}
```

In some cases (still including `mul`

operations) would `f2`

better than `f1`

(eg. large conditional evaluations).

Are there methods to find `P(x)`

from a `switch`

injection?

Thank you very much!

`n`

points you can always find a`n-1`

th degree polynomial to fit them, and sometimes (as here) you'll get lucky and there'll be a lower degree polynomial that fits. Don't know how you'd find that, ask Mathematics maybe. BUT... don't do this unless it's demonstrably a performance bottleneck AND your alternative is quicker. I suspect that combination will be rare. – AakashM Oct 2 '12 at 9:44