First you should understand what tail call is about.

Tail call are call that do not consumes stack.
Now you need to recognize when your are consuming stack.

Let's take the factorial example:

```
(defun factorial (n)
(if (= n 1)
1
(* n (factorial (- n 1)))))
```

Here is the not tail recursive implementation of factorial.
Why? This is because in other to return from factorial there is a pending computation.

```
(* n ..)
```

So you are stacking n each time you call factorial.
Now let write the tail recursive factorial:

```
(defun factorial-opt (n &key (result 1))
(if (= n 1)
result
(factorial-opt (- n 1) :result (* result n))))
```

Here the result is past as an argument to the function.
So your also consume stack but the difference is that the stack size stay constant.
Thus the compiler can optimize it by using only register and letting the stack empty.

The `factorial-opt`

is then faster but is less readable.
`factorial`

is limited to the size of the stack will `factorial-opt`

is not.
So you should learn to recognize tail recursive function in other to know if a recursion is limited.

There might be some compiler technique to transform a non tail recursive function into a tail recursive one. May be someone could point out some link here.