I would strongly suggest you to read the chapter Desugaring of Do-blocks in the book Real-World haskell. It tells you, that you all are wrong. For a programmer, it's the natural way to use a lambda, but the do-block is implemented using functions which - if a pattern maching failuire occurs - will call the
fail implementation of the according monad.
For instance, your case is like:
let f x =
putStrLn "enter second line" >>
let g y = return (x,y)
g _ = fail "Pattern mismatched"
in getLine >>= g
f _ = fail "Pattern mismatched"
in getLine >>= f
In a case like this, this may be completely irrelevant. But consider some expression that involves pattern-matching. Also, you can use this effect for some special stuff, eg, you can do something like this:
oddFunction :: Integral a => [a] -> [a]
oddFunctiond list = do
(True,y) <- zip (map odd list) list
What will this function do? You can read this statement as a rule for working with the elements of the list. The first statement binds an element of the list to the var y, but only if y is odd. If y is even, a pattern matching failure occurs and
fail will be called. In the monad instance for Lists,
fail is simply
. Thus, the function strips all even elements from the list.
oddFunction = filter odd would do this better, but this is just an example)