Whilst learning Clojure, I've spent ages trying to make sense of monads - what they are and how we can use them.... with not too much success. However, I found an excellent 'Monads for Dummies' Video Series - http://vimeo.com/20717301 - by Brian Marik for Clojure

So far, my understanding of monads is that it is sort of like a macro in that it allows a set of statements to be written in a form that is easy to read - but monads are much more formalised. My observations are limited to two examples:

**1. The Identity Monad (or the 'let' monad)** taken from http://onclojure.com/2009/03/05/a-monad-tutorial-for-clojure-programmers-part-1/

The form that we wish to write is:

```
(let [a 1
b (inc a)]
(* a b))
```

and the corresponding monad is

```
(domonad identity-m
[a 1
b (inc a)]
(* a b))
```

**2. The Sequence Monad (or the 'for' monad)** taken from http://onclojure.com/2009/03/06/a-monad-tutorial-for-clojure-programmers-part-2/

The form we wish to write is:

```
(for [a (range 5)
b (range a)]
(* a b))
```

and the corresponding monad is

```
(domonad sequence-m
[a (range 5)
b (range a)]
(* a b))
```

**Monad Definitions in Clojure**

Looking at the source, using clojure monads library - https://github.com/clojure/algo.monads:

```
user=>(use 'clojure.algo.monads)
nil
```

indentity monad:

```
user=> (source identity-m)
(defmonad identity-m
[m-result identity
m-bind (fn m-result-id [mv f]
(f mv))
])
```

sequence monad:

```
user=> (source sequence-m)
(defmonad sequence-m
[m-result (fn m-result-sequence [v]
(list v))
m-bind (fn m-bind-sequence [mv f]
(flatten* (map f mv)))
m-zero (list)
m-plus (fn m-plus-sequence [& mvs]
(flatten* mvs))
])
```

So my conclusion is that a monad is some sort of a generalised higher-order function that takes in an input-function and input-values, adds its own control logic and spits out a 'thing' that can be used in a 'domonad' block.

**Question 1**

So finally, to the questions: I want to learn how to write a monad and say I want to write a 'map monad' that imitates the 'map' form in clojure:

```
(domonad map-m
[a [1 2 3 4 5]
b [5 6 7 8 9]]
(+ a b))
```

Should be equivalent to

```
(map + [1 2 3 4 5] [5 6 7 8 9])
```

and return the values

```
[6 8 10 12 14]
```

If I look at the source, it should give me something similar to identity-m and sequence-m:

```
user=> (source map-m)
(defmonad map-m
[m-result ...
m-bind ...
m-zero ...
m-plus ...
])
```

**Question 2**

I also want to be able to define 'reduce-m' such that I can write:

```
(domonad reduce-m
[a [1 2 3 4 5]]
(* a))
```

this could potentially give me 1 x 2 x 3 x 4 x 5 = 120 or

```
(domonad reduce-m
[a [1 2 3 4 5]
b [1 2 3 4 5]]
(+ a b))
```

will give me (1+2+3+4+5) + (1+2+3+4+5) = 30

**Finally**
Would I also be able to write a 'juxt monad' that imitates the juxt function but instead of passing in values for binding, I pass in a set of functions. :

```
(domonad juxt-m
[a #(+ % 1)
b #(* % 2)]
'([1 2 3 4 5] b a) )
```

gives

```
[ [2 2] [4 3] [6 4] [8 5] [9 6] ]
```

Potentially, I could do all of those things with macros so I don't really know how useful these 'monads' will be or if they are even considered 'monads'... With all the resources on the internet, It seems to me that if I wanted to learn Monads properly, I have to learn Haskell and right now, learning another syntactic form is just too hard. I think I found some links that maybe relevant but it is too cryptic for me

Please can someone shed some light!

`map`

and`reduce`

. – Ptharien's Flame Mar 27 '12 at 7:59