## Avoiding repetitive guards

Firstly, you can rewrite

```
function input
| this && that && third thing && something else = ... -- you only actually needed brackets for (head xs)
| this && that && third thing && something different = ....
| this && that && a change && ...
...
| notthis && ....
```

with

```
function input | this = function2 input'
| notthis = function4 input'
function2 input | that = function3 input''
| notthat = ...
```

That should simplify your 200 lines of `copo`

code down, but it's still the wrong approach.

## Use a function to deal with the same problem just once, not every time

The 4 cases for dealing with operations that you deal with time after time could be replaced with one function, perhaps like:

```
operation :: Num a => Char -> a -> a -> a
operation x = case x of
'+' -> (+)
'-' -> (-)
'*' -> (*)
'/' -> (/)
_ -> error ("operation: expected an operation (+-*/) but got " ++ [c])
```

## Use list functions instead of testing characters one at a time

You should use some standard functions to help reduce all the single character checks into just grabbing as much number as is there. `takeWhile :: (a -> Bool) -> [a] -> [a]`

, so

```
takeWhile isDigit "354*243" = "354"
takeWhile isDigit "+245" = ""
```

and there's the corresponding `dropWhile`

:

```
dropWhile isDigit "354*1111" = "*1111"
dropWhile isDigit "*1111" = "*1111"
```

So the most dramatic shortening of your code would be to start copo with

```
copo xs = let
numText = takeWhile isDigit xs
theRest = droWhile isDigit xs
num = read numText
....
in answer....
```

but there's a shortcut if you want both `takeWhile`

and `dropWhile`

, called `span`

, because `span p xs == (takeWhile p xs, dropWhile p xs)`

```
copo xs = let
(numText,theRest) = span isDigit xs
num = read numText
....
in answer....
```

## Use recursion instead of repeating code

You deal with `234`

then `234*56`

then `234*56/23`

then ....

You could replace this with a recursive call to `copo`

, or produce a tree. This depends on whether you're supposed to obey the normal operator precedence (* or / before + or -) or not.