Without more context it's hard to know exactly what your friend meant, but two things come to mind that he could have reasonably meant:
In functional languages
if conditionals are expressions, not statements, so you'd be using
if expressions and not
if statements. This difference means that you write things like:
let x =
let x be a mutable variable
then x = value1
else x = value2
So this allows you to write in functional style without mutating variables.
The other thing he could have meant is that many functional languages offer constructs like pattern matching or guards that you can use instead of
if statements. Pattern matching allows you to inspect the structure of a value and take it apart at the same time. As an example you can write this:
match my_list with
| x :: xs -> x + sum xs
|  -> 0
Instead of this:
if my_list is empty
let x be the first element of my_list
let xs be the list containing the remaining elements of my_list
x + sum xs
Using pattern matching is preferable because it avoids calling functions on a value whose structure does not support it. In the example above, a function that returns the first element of a list would presumably cause an error when called on an empty list (which might happen if we mess up the if condition). But if we use pattern matching to get at the first element this can't happen because the syntax of the matching construct ensures that we only get
my_list is really not empty.
Pattern guards allow you to add arbitrary conditions to pattern matching:
match f(x) with
| 0 -> "f(x) was zero"
| 1 -> "f(x) was one"
| x when x > 1 -> "f(x) was greater than one"
| _ -> "f(x) was negative"
This can be cleaner if you're pattern matching anyway, but that hardly means you shouldn't use
if expressions in functional languages. If you don't have a situation where you want pattern match on a value, introducing a pattern match just so that you can use a guard makes little sense over using an if statement.