What you have works, but it is better Haskell style to separate pure from IO. Your `getTriArea`

computation doesn't need to be locked up in the IO monad: lift it out!

```
import Control.Applicative
prompt :: (Read a) => String -> IO a
prompt s = putStr s >> read <$> getLine
triArea :: (Fractional a) => a -> a -> a
triArea base height = (base * height) / 2
main :: IO ()
main = do
area <- triArea <$> prompt "The base? " <*> prompt "The height? "
putStrLn $ "The area of that triangle is " ++ show (area :: Float)
```

Applicative isn't actually necessary, it just provides a few pretty infix operators. Monad works just fine.

```
import Control.Monad
prompt :: (Read a) => String -> IO a
prompt s = putStr s >> fmap read getLine
triArea :: (Fractional a) => a -> a -> a
triArea base height = (base * height) / 2
main :: IO ()
main = do -- pick one of the following two lines
area <- liftM2 triArea (prompt "The base? ") (prompt "The height? ")
area <- return triArea `ap` prompt "The base? " `ap` prompt "The height? "
putStrLn $ "The area of that triangle is " ++ show (area :: Float)
```

In a short program like this, it doesn't *really* matter all that much, but note that even those imports, the `triArea`

definition can remain pure.

```
prompt :: (Read a) => String -> IO a
prompt s = putStr s >> getLine >>= return . read
triArea :: (Fractional a) => a -> a -> a
triArea base height = (base * height) / 2
main :: IO ()
main = do
base <- prompt "The base? "
height <- prompt "The height? "
let area = triArea base height
putStrLn $ "The area of that triangle is " ++ show (area :: Float)
```