I am getting very confused with these three concepts.
Is there any simple examples to illustrate the differences between Category, Monoid and Monad ?
It would be very helpful if there is a illustration of these abstract concepts.
I am getting very confused with these three concepts. Is there any simple examples to illustrate the differences between Category, Monoid and Monad ? It would be very helpful if there is a illustration of these abstract concepts. 


This probably isn't the answer you're looking for, but here you go anyways: A really crooked way of looking at monads & co.One way of looking at abstract concepts like these is to link them with basic concepts, such as ordinary list processing operations. Then, you could say that,
A CategoryA category consists of a set (or a class) of objects and bunch of arrows that each connect two of the objects. In addition, for each object, there should be an identity arrow connecting this object to itself. Further, if there is one arrow ( In Haskell this is modelled as a typeclass that represents the category of Haskell types as objects.
Basic examples of a category are functions. Each function connects two types, for all types, there is the function In short, categories in Haskell base are things that behave like functions, i.e. you can put one after another with a generalized version of A MonoidA monoid is a set with an unit element and an associative operation. This is modelled in Haskell as:
Common examples of monoids include:
These are modelled in Haskell as
Monoids are used to 'combine' and accumulate things. For example, the function A FunctorA functor in Haskell is a thing that quite directly generalizes the operation
Contrast this to the definition of the normal An Applicative FunctorApplicative functors can be seen as things with a generalized
Notice that the structure can affect the result, for example:
Contrast this to the usual
Instead of of just lists, the applicative works for all kinds of structures. Additionally, the clever trickery with
Notice also the similarity between A MonadMonads are often used to model different computational contexts, such as nondeterministic, or sideeffectful computations. Since there are already far too many monad tutorials, I will just recommend The best one, instead of writing yet another. Relating to the ordinary list processing functions, monads generalize the function
How is this related to the use of Monads as a means of structuring computations? Consider a toy example where you do two consecutive queries from some database. The first query returns you some key value, with which you wish to do another lookup. The problem here is that the first value is wrapped inside (I think I'll be editing this post a lot before it makes any sense..) 

