I only know f#. I haven't learned the other functional programming languages. All the examples that I have seen for monads only describe the bind and unit methods. F# has lots of keywords (e.g. let!, do!, etc.) that allow you to do different things within the same computational expression. This seemingly gives you more power than your basic bind and unit methods. Is this unique to f# or is it common across functional programming languages?
Yes, I think that the F# syntax for computation expressions is unique in that it provides direct syntactic support for different types of computations. It can be used for working with monoids, usual monads and also MonadPlus computations from Haskell. I wrote about these in the introduction of my Master thesis. I believe it is quite readable part, so you can go to page 27 to read it. Anyway, I'll copy the examples here: Monoid is used just for concatenating values using some "+" operation (
Monads are the familiar example that uses bind and return operations of comptuation expressions. For example maybe monad represents computations that can fail at any point:
Additive monads (aka
There are some additional keywords that do not directly correspond to any theoretical idea. The 


(Recall from memory, I may be off.) While I think I don't know offhand of other functional languages like F# that effectively "lift" most of the control flow and other syntax into monads (well, "computation expressions", which may or may not be monads). 


Monads are defined in terms of 


F# binding forms ending in
Computation expressions are used "for sequences and other nonstandard interpretations of the F# expression syntax". These syntax forms offer ways to overload that syntax, for example, to encode monadic computations, or monoidal computations, and appear to be similar to e.g. the donotation of Haskell, and corresponding (nonmagic) bindings forms in that language. So I would say that they support some overloading of syntax to support other interpretations of the expression syntax of the language, and this they have in common with many languages, including Haskell and OCaml. It is certainly a powerful and useful language feature. References: The F# 2.0 Language Specification. 

