make a list in scheme with high efficiency

I want to use the Scheme language to create a special list with high efficiency. E.g.:

Function name: `make-list`
parameter: `max`
`(make-list max) -> (1 2 3 4 5 6 7 ... max)`

I can complete this task by using recursion method.

``````#lang racket

(define (make-list max)
(define lst '())
(define count 1)
(make-list-helper lst max count))

(define (make-list-helper lst max count)
(cond
[(> count max) lst]
[else
(set! lst (append lst (list count)))
(make-list-helper lst max (add1 count)]))
``````

However, this method can be considered to be low. I have no idea how to improve its efficiency of making a list. Can anybody help me out?

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I know it may not be applicable in your case, but you can take a look at Lazy Racket, because these kind of lists don't have to be built till they're really needed. –  Diego Sevilla Jan 10 '13 at 21:56
BTW, there's no good reason to use `set!` in your code. –  Ryan Culpepper Jan 10 '13 at 23:19

Another definition of "efficiency" might be: writing the procedure with the least amount of code. With that in mind, the shortest solution for the question would be to use an existing procedure to solve the problem; for example if `max = 10`:

``````(define (make-list max-val)

(make-list 10)
=> '(1 2 3 4 5 6 7 8 9 10)
``````

The above makes use of the build-list procedure that's part of Racket:

Creates a list of n elements by applying proc to the integers from `0` to `(sub1 n)` in order. If lst is the resulting list, then `(list-ref lst i)` is the value produced by `(proc i)`.

Yet another option, also for Racket, would be to use iterations and comprehensions:

``````(define (make-list max-val)
(for/list ([i (in-range 1 (add1 max-val))]) i))

(make-list 10)
=> '(1 2 3 4 5 6 7 8 9 10)
``````

Either way, given that the procedures are part of the language's core libraries, you can be sure that their performance is quite good, no need to worry about that unless a profiler indicates that they're a bottleneck.

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The key principle is to avoid Schlemiel the Painter's algorithm, which you don't: using `append` repeatedly takes more and more as the list becomes longer. Prepending the element is O(1), while appending is O(length of list); so make the innermost `make-list-helper` return a singular list `(max)`, and use `cons` to prepend elements on recursion.

(I would prefer iterative solution, but I'm a common lisper, so I'd better avoid insisting on anything for scheme).

No code included to avoid spoiling you the fun of learning.

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Thank you! I will try this method! :-) –  Ray Sun Jan 11 '13 at 3:07
``````(define (make-list max)
(let f ((i max)(a '()))
(if (zero? i)
a
(f (- i 1) (cons i a)))))
``````

This seems to be a simple exercise for iteration.

The above is as simple as it gets, and you will use it every where in Scheme.

Make sure you understand how the entire snippet works.

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