Infinite loop while using call-with-current-continuation in Scheme

I have been reading about `call-with-current-continuation` particularly in Scheme and have read various articles on many websites. However, I still don't understand how does the control flow work while using `call-with-current-continuation`.

For example, given the below attached code, how is the continuation invoked and whenever it is invoked, how does the control flow through the body of this procedure?

`````` (define call/cc call-with-current-continuation)
(define showit (lambda (a b)
(begin (display a) (display b) (display " "))))

(define f
(lambda (n)
(let ((p (call/cc (lambda (k) k))))
(begin
(showit ’f= n)
p))))
``````

Also, when this procedure is run using `((f 2) (f 4))` it results in infinite loop with the pattern like this:

Can anyone explain the reason behind the infinite loop? Note: Using Drracket with R5RS

Call/cc returns a function that continues the surrounding computation. When it is called, control is returned to the place where the function was taken from, with a value that is given to the function.

In the example, `(let ((p (call/cc (lambda (k) k)))) ...)`, p is given a continuation function. If p was then called `(p 3)`, the control would have returned to the `let`-form like it had been `(let ((p 3)) ...)`.

`((f 2) (f 4))` juggles the continuations from (f 2) and (f 4), which results in the infinite loop. I've tried to explain the flow below:

``````=> ((f 2) (f 4))
=> (f 2) ;; first (f 2)
call/cc returns the current continuation (lets say "cc1") into p
display f=2
return cc1
=> (cc1 (f 4))
=> (f 4) ;; first (f 4)
call/cc returns the current continuation cc2 into p
display f=4
return cc2
=> (cc1 cc2)
cc1 goes back to the first (f 2), but call/cc returns now cc2 into p
display f=2
returns cc2 from the first (f 2)
=> (cc2 (f 4))
=> (f 4) ;; second (f 4)
call/cc returns cc3 into p
display f=4
return cc3
=> (cc2 cc3)
cc2 goes back to the first (f 4), but p gets cc3
display f=4
returns cc3 from the first (f 4)
=> (cc1 cc3)
cc1 goes back to the first (f 2), but p gets cc3
display f=2
returns cc3 from the first (f 2)
=> (cc3 (f 4))
=> (f 4) ;; third (f 4)
display f=4
<= cc4
=> (cc3 cc4)
=> (f 4) ;; second again
display f=4
<= cc4
=> (cc2 cc4)
=> (f 4) ;; first again
display f=4
<= cc4
=> (cc1 cc4)
=> (f 2) ;; first again
display f=2
<= cc4
=> (cc4 (f 4))
=> (f 4) ;; fourth (f 4)
display f=4
<= cc5
...so on

``````