I am currently working on a homework assignment with MIT scheme, and have come across a few problems that are supposedly very short, though I'm a bit confused as to how to implement some of them.

One problem asks me to write a function that returns a list with all the integers removed. I did manage to solve that,

```
(define (f2a lst) (map (lambda(x) (remove number? x)) lst))
```

though I'm confused as to how I can rewrite it to not use remove, but rather use a filter.
*note: `(f2a '(("a" 1 "b") (2 "c") (-1 "d") (-2)))`

returns `'(("a" "b") ("c") ("d"))`

The other two problems are ones to which I haven't found any solutions.

They ask me to write a function that returns a list with all positive odd and negative even integers removed. For example,

```
(f2b '(("a" 1 "b") (2 "c") (-1 "d") (-2)))
```

returns

```
(("a" "b") (2 "c") (-1 "d"))
```

I have some code down that is incorrect, but I feel shows how I have tried to approach solving this one:

```
(define (f2b lst)
(lambda(x)
(cond ((and (positive? x) (odd? x)) (filter x lst))
((and (negative? x) (even? x)) (filter x lst))
(else "this should never print"))))
```

The last problem simply asks for a function that returns a string consisting of all strings appended together in a list. `(f2c '(("a" 1 "b") (2 "c") (-1 "d") (-2)))`

returns "abcd".

I almost managed to figure this one out, but got stuck when it kept returning strange values. This is the code I have:

```
(define (f2c lst)
(lambda(x)
(map (lambda (x) (filter string? x)) lst)
(list x))
(string-append (car lst) (cdr lst)))
```

In terms of higher-order syntax, I'm limited to map, filter, accumulate and sum. I am not asking for a direct answer, but rather some help for me to figure out what I need to do. What am I doing wrong with my code? Any assistance given with this is very much appreciated. Thank you.

`remove`

says, "Like filter, except that the returned list contains only those elements not satisfying predicate." So, to use`filter`

instead of`remove`

, just negate your predicate. – Will Ness May 9 '13 at 19:50