The easiest way to do it with a formula is probably with integer divide, catching the special conditions first:
private int getInventorySize (int max) {
if (max < 1) return 9;
if (max > 54) return 54;
max += 8;
return max - (max % 9);
}
The following table shows how this works:
max max+8[A] A%9[B] A-B
--- -------- ------ ---
<1 9
1 9 0 9
2 10 1 9
:
8 16 7 9
9 17 8 9
10 18 0 18
:
18 26 8 18
19 27 0 27
:
53 61 7 54
54 62 8 54
>54 54
However, keep in mind that there's nothing intrinsically wrong with what you've proposed in your question, but you can clean it up considerably, to the point where it's more understandable than the math-based solutions (if your input range was larger, you wouldn't use this method since the number of if
statements would become unwieldy):
private int getInventorySize (int max) {
if (max <= 9) return 9;
if (max <= 18) return 18;
if (max <= 27) return 27;
if (max <= 36) return 36;
if (max <= 45) return 45;
return 54;
}
The use of the if ... return ... else
construct is totally unnecessary since the else
is superfluous - if it wasn't going to happen the return
would have already returned.
Similarly, there's no point having two separate cases returning 54 when they can be combined into one.
Honestly, if you're not expecting the input range to increase, I'd actually go for the second solution since, given its size, it's actually more easily understood.
As you can see from the following test harness, both these methods work (change which one is commented out to switch between them). I would suggest plugging any of the other answers here into the test harness to ensure they also work (you'll have to make them similarly static
to get them to work as is):
public class Tester {
private static int getInventorySize (int max) {
if (max < 1) return 9;
if (max > 45) return 54;
max += 8;
return max - (max % 9);
}
//private static int getInventorySize (int max) {
// if (max <= 9) return 9;
// if (max <= 18) return 18;
// if (max <= 27) return 27;
// if (max <= 36) return 36;
// if (max <= 45) return 45;
// return 54;
//}
public static void check (int a, int b) {
int sz = getInventorySize(a);
if (sz != b)
System.out.println ("Error, " + a + " -> " + sz + ", not " + b);
}
public static void main (String [] args) {
for (int i = -9999; i <= 9; i++) check (i, 9);
for (int i = 10; i <= 54; i += 9) {
check (i+0, i+8); check (i+1, i+8); check (i+2, i+8);
check (i+3, i+8); check (i+4, i+8); check (i+5, i+8);
check (i+6, i+8); check (i+7, i+8); check (i+8, i+8);
}
for (int i = 55; i <= 9999; i++) check (i, 54);
}
}
And, just as an aside, I'm not entirely certain that it's kosher to round up your inventory like that (assuming the function name is accurate). I can imagine cases where you may want to round down your inventory (such as wanting to keep some stock in reserve) but rounding up seems like a big fat lie.
What are you going to tell your customers who paid good money for stock when they come in to find said stock is actually depleted?
Or are you one of those shonky operators who will do anything to get customers into the store? :-)