I'm learning tail recursion and I'm having some difficulties in determining whether my function is tail recursive or not (mainly on functions which I use another function).

I've implemented the two following functions but I'm not so sure if they are tail recursive or not.

The first one is a function to concatenate two lists.

```
conca list [] = list
conca [] result = result
conca (h:t) result = conca (init (h:t)) ( last(h:t):result )
concatenate::[a]->[a]->[a]
concatenate list1 list2 = conca list1 list2
```

The computations in the function are processed before the recursive call, but its using last and init, which aren't tail recursive ( I checked their definition in http://ww2.cs.mu.oz.au/172/Haskell/tourofprelude.html )

The second function is to remove the first occurrence of a given number in a given list.

```
invert [] result = result
invert (h:t) result = invert t (h:result)
remov n [] aux result = invert result []
remov n (h:t) aux result
| aux==1 = remov n t 1 (h:result)
| n==h = remov n t 1 (result)
| otherwise = remov n t 0 (h:result)
remove n list = remov n list 0 []
```

The parameter aux (which can assume 0 or 1 as value) is being used to mark if the ocurrence has been removed or not.

In the remove function while the partial result is passed down through the recursive call the list is being inverted, upon the end the list is without the first ocurrence but upside-down, thus it have to be inverted to be returned as a result.

`init`

and`last`

a lot is a disaster! – AndrewC Dec 19 '12 at 2:45`init`

and`last`

both traverse the entire list, so areO(n)operations.`head`

and`tail`

areO(1), so much better to use, but you can get those by pattern matching. The standard definition of`(++)`

says`(x:xs) ++ ys = x:(xs ++ ys)`

, a classic efficient non-tail recursive lazy function which produces the head of the result immediately. – AndrewC Dec 19 '12 at 3:29