## The Quick answer:

Try this:

```
rotate :: Int -> [Char] -> [Char]
rotate x st = take (length st) $ drop (negate x `mod` length st) $ cycle st
```

It yields:

```
rotate (1) "hello"
>>> "ohell"
rotate (-1) "hello"
>>> "elloh"
```

## The Explanation:

The insight needed for this to work, is knowledge of the `cycle`

function, which repeats a string forever.

```
cycle "ezra"
>>> "ezraezraezraezraezr..." (forever)
```

Using this knowledge, we can exploit `length`

, `take`

, and `drop`

to give us the part of the string that we want. We'll also use `negate`

and `mod`

for the math part.

### length

`length`

returns the length of the list (strings are lists of characters).

```
length "ezra"
>>> 4
```

### take

`take n`

returns the first `n`

items in a list.

```
take 9 (cycle "ezra")
>>> "ezraezrae"
```

### drop

`drop n`

returns the whole list, except the first `n`

elements.

```
drop 3 "ezra"
>>> "a"
drop 3 (take 9 (cycle "ezra"))
>>> "aezrae"
```

### mod

Using the `mod`

function, we can get the proper offsets. The backticks ` make the function "infix", which makes it more understandable. This is the "remainder" after the division, if you're not familiar with modular arithmetic.

```
10 `mod` 3
>>> 1
```

This will give us the starting point.

### negate

`negate n`

returns the negation of `n`

, which we need to "reverse" the direction, and get the output you wanted.

```
negate 10
>>> -10
```

When we put it all together, we get the function above. There are, of course, many ways to do this: this is one.

In my solution above, I developed it in in the following order.

Get the infinite list:

```
rotate x st = cycle st
```

Take the right number of characters:

```
rotate x st = take (length st) $ cycle st
```

Take the characters from the right position:

```
rotate x st = take (length st) $ drop (x `mod` length st) $ cycle st
```

At this point I had what I wanted, but had to add `negate`

so that my output would match yours.

I also added the type signature. I like to have them explicit on as many of my functions as I can.

`f`

used in the`process`

function? 3. Why are you redefining`map`

? You don't even use the new definition of`map`

. 4. Detailed subjects are good - 'help with haskell' doesn't say anything the tags don't already tell me.`do`

at all.`rotate -1 hello --> elloh`

and`rotate 4 hello --> elloh`