I am trying to see if I am conceptually correct here . .

If I'm trying to avoid having to compute a computationally expensive `someExpensiveFun(x)`

for every element in an array of floating point data `x`

, say bounded to values between zero and one, one can first precompute the output of the expensive function and store it in a table . . .

```
for (int nn = 0; nn < 1000; ++nn)
{
float tmp = ((float)nn) / 1000.f;
lookup[nn] = someExpensiveFun(tmp);
}
```

Then in the main body of performance critical code I can use . . .

```
y = lookup[(int)floor(x*1000.f)];
```

Is it conceptually correct (and not an abuse of terminology) to call `lookup`

a form of hash table and `x*1000`

the associated hashing function?

`(int) floor(x * 1000.f)`

could be considered the hash function, sure. @H2CO3 is correct in stating a hash table is merely a form of look-up table. – oldrinb Sep 19 '12 at 19:15`array[hash(key)]`

-- much like your`lookup[x * 1000]`

for x [0, 1). – oldrinb Sep 19 '12 at 19:33