Reals are not an equality type in SML, so `(m1-m2) = 0`

is a type error.

The reason for this is that the limited precision of floating-point representations can give unexpected results due to rounding errors (e.g. `(1.0/7.7)*7.7 = 1.0`

would return `false`

). You can get around this by using the `==`

operator from the `Real`

library, i.e. `Real.==(m1-m2,0)`

(or just `Real.==(m1,m2)`

). But keep in mind that it can be unreliable.

The second problem is that, according to the return type, your function is supposed to *return* a value, not *print* it. All you need to do here is state the return value in the `else`

clause, i.e. just replace `print((x,y))`

with `(x,y)`

.

And for what it's worth, I'd avoid using exceptions if you can; they kind of go against the idea of functional programming. Try returning a `(real*real) option`

instead.

`m`

is the gradient,`b`

is the y-intercept. – Nick Barnes Mar 15 '12 at 8:23