When you execute
safe_division 3 0, first,
3 is bound to the name
n and the right-hand side of the declaration is then evaluated.
This is a
function, so the next argument,
0, is matched against the different cases, in order. Here, it matches the first case, so the right-hand side is evaluated and an exception is thrown. In this case, the name
m is never bound to anything.
If the second argument was, for example,
1, then it would have matched the second case (this case matches every possible value anyway, it's a default case), binding the name
m to the value
1 and then returning the result of
n / m.