I am newbie to Haskell. I read the Reader Monad several times, but still don't understand about what is the purpose of the Reader Monad. The Reader Monad is so complex and seems to be useless. In imperative language like Java or C++, there is no equivalent term for reader monad (if I am right). Can you give me a simple example and make me clear a little bit. Sorry for my ignorance.

Don't be scared! The reader monad is actually not so complicated, and has real easytouse utility. There are two ways of approaching a monad: we can ask
From the first approach, the reader monad is some abstract type
such that
So how do we use this? Well, the reader monad is good for passing (implicit) configuration information through a computation. Any time you have a "constant" in a computation that you need at various points, but really you would like to be able to perform the same computation with different values, then you should use a reader monad. Reader monads are also used to do what the OO people call dependency injection. For example, the negamax algorithm is used frequently (in highly optimized forms) to compute the value of a position in a two player game. The algorithm itself though does not care what game you are playing, except that you need to be able to determine what the "next" positions are in the game, and you need to be able to tell if the current position is a victory position.
This will then work with any finite, deterministic, two player game. This pattern is useful even for things that are not really dependency injection. Suppose you work in finance, you might design some complicated logic for pricing an asset (a derivative say), which is all well and good and you can do without any stinking monads. But then, you modify your program to deal with multiple currencies. You need to be able to convert between currencies at the fly. Your first attempt is to define a top level function
to get spot prices. You can then call this dictionary in your code....but wait! That won't work! The currency dictionary is immutable and so has to be the same not only for the life of your program, but from the time it gets compiled! So what do you do? Well one option would be to use the Reader monad:
Perhaps the most classic usecase is in implementing interpreters. But, before we look at that, we need to introduce another function
Okay, so Haskell and other functional languages are based on the lambda calculus. Lambda calculus has a syntax that looks like
and we want to write an evaluator for this language. To do so, we will need to keep track of an environment, which is a list of bindings associated with terms (actually it will be closures because we want to do static scoping).
When we are done we should get out a value (or an error):
So, lets write the interpreter:
Finally, we can use it by passing a trivial environment:
And that is it. A fully functional interpreter for the lambda calculus. So, the other way to think about this is to ask: how is it implemented? Well the answer is that the reader monad is actually one of the simplest and most elegant of all monads.
Reader is just a fancy name for functions! We have already defined
Now, to get a monad:
which is not so scary.
while
Okay, so the reader monad is just a function. Why have Reader at all? Good question. Actually, you don't need it!
These are even simpler. What is more, 


I remember being puzzled as you were, until I discovered on my own that variants of the Reader monad are everywhere. How did I discover it? Because I kept writing code that turned out to be small variations on it. For example, at one point I was writing some code to deal with historical values; values that change over time. A very simple model of this is functions from points of time to the value at that point in time:
The
I.e., The monad instance is most intuitively understood by considering the function Well, this Another example: I've been prototyping OLAP designs in Haskell recently. One idea here is that of a "hypercube," which is a mapping from intersections of a set of dimensions to values. Here we go again:
One common of operation on hypercubes is to apply a multiplace scalar functions to corresponding points of a hypercube. This we can get by defining an
I just copypasted the It goes on and on. For example, language interpreters also boil down to
A good analogy is that a So the Yet another way of saying the same thing: a 


In Java or C++ you may access any variable from anywhere without any problem. Problems appears whey your code becomes multithreaded.
The Reader monad just pass the data you want to share between functions. Functions may read that data, but can't change it. That's all that do the Reader monad. Well, almost all. There are also number of functions like 

