Usually monad stuff is easier to grasp when starting with "collection-like" monads as example. Imagine you calculate the distance of two points:

```
data Point = Point Double Double
distance :: Point -> Point -> Double
distance p1 p2 = undefined
```

Now you may have a certain context. E.g. one of the points may be "illegal" because it is out of some bounds (e.g. on the screen). So you wrap your existing computation in the `Maybe`

monad:

```
distance :: Maybe Point -> Maybe Point -> Maybe Double
distance p1 p2 = undefined
```

You have exactly the same computation, but with the additional feature that there may be "no result" (encoded as `Nothing`

).

Or you have a have a two groups of "possible" points, and need their mutual distances (e.g. to use later the shortest connection). Then the list monad is your "context":

```
distance :: [Point] -> [Point] -> [Double]
distance p1 p2 = undefined
```

Or the points are entered by a user, which makes the calculation "nondeterministic" (in the sense that you depend on things in the outside world, which may change), then the `IO`

monad is your friend:

```
distance :: IO Point -> IO Point -> IO Double
distance p1 p2 = undefined
```

The computation remains always the same, but happens to take place in a certain "context", which adds some useful aspects (failure, multi-value, nondeterminism). You can even combine these contexts (monad transformers).

You may write a definition that unifies the definitions above, and works for *any* monad:

```
distance :: Monad m => m Point -> m Point -> m Double
distance p1 p2 = do
Point x1 y1 <- p1
Point x2 y2 <- p2
return $ sqrt ((x1-x2)^2 + (y1-y2)^2)
```

That proves that our computation is really **independent** from the actual monad, which leads to formulations as "x is computed in(-side) the y monad".

actionsorcomputations. If they are produced by a function, you might talk about parametric actions or monadic functions, but the latter term is ambiguous. It could refer to`a -> m b`

, but also to`m (a -> b)`

. Since this last one is used in applicative style I prefer a less ambiguous term. – ertes Feb 22 '13 at 15:25