# Analog of Python's range in Scheme

How to create a list of consecutive numbers in Scheme?

In Python to create a list of integers from 1 to 10 would be `range(1,11)`. Is there an equivalent for Scheme?

`mzscheme --version` gives `Welcome to Racket v5.2.1.`

Edit: Per https://stackoverflow.com/a/7144310/596361 to implement range functionality, this code is needed:

``````#lang racket
(require srfi/1)
(iota 5 1)
``````

Look for iota (as defined in SRFI-1).

Example: (iota 10 1) gives 10 consecutive integers starting from 1 (instead of the default of 0).

iota doesn't take the same arguments as range but it duplicates all the functionality - ascending ranges, descending ranges, starting from 0 if only one bound is given, ability to specify the interval.

• I am no expert, but range in python3 returns a range object and it evaluates it lazily through next function, following the generator protocol. I see I can do (delay (iota 5 1)) and later force can evaluate it. My question is: once evaluated, all the list is put at once in memory? Can exactly the same effect as python's range be obtained? I mean, evaluating one value at a time. – Germán Diago Jan 30 '17 at 17:16

Here's a version which does an ascending range if the first number is lower or a descending range if it is higher:

``````(define range
(lambda (n m)
(cond
((= n m) (list n))
(else (cons n (range ((if (< n m) + -) n 1) m))))))
``````

And here's an improved version which can take 1 or 2 arguments; if only one is given, it does a range from 0 to the given number:

``````(define range
(lambda (n . m)
(let
((n (if (null? m) 0 n)) (m (if (null? m) n (car m))))
(cond
((= n m) (list n))
(else (cons n (range ((if (< n m) + -) n 1) m)))))))
``````

There is a built-in range function in Racket that behaves like that of Python.

``````> (range 10)
'(0 1 2 3 4 5 6 7 8 9)
``````
• I think this is better than the accepted answer. No need for a `(require ...)` statement either. – Ehtesh Choudhury Jun 27 '16 at 7:14

If there's nothing built-in, it's trivial to write your own:

``````(define (range first last)
(if (>= first last)
'()
(cons first (range (+ first 1) last))))
``````

Online scheme evaluator: http://eval.ironscheme.net/?id=71

• `(cons first (range ((if (< first last) + -) first 1) last))))` – itsbruce Oct 16 '12 at 8:51
• @itsbruce That never terminates. – nibot Oct 16 '12 at 9:00
• Yes it does. Try it. It gives a descending range if the first number is higher than the lower, or an ascending range if the first is lower. Ah, you would have to change your condition to (if (= first last)) – itsbruce Oct 16 '12 at 9:07
• To mimic the Python behavior, I think `range` should return an empty list if `last <= first`. – nibot Oct 16 '12 at 9:33
• But to be a true analog, you should stop at n-1 and offer a single argument version where the range starts at 0 – itsbruce Oct 16 '12 at 10:01

I'm just elevating @Ankur's comment to an answer. In Racket, you have "in-range":

``````#lang racket

(in-range 7)  ;; produces #<stream>

;; used in a loop:
(for/list ([i (in-range 7)])
i)
;; produces (list 0 1 2 3 4 5 6)

;; and, for the lazy among us:

(for/list ([i 7])
i)

;; produces the same
``````

It can also accept a lower limit, an increment (including negative), etc.

Not finding what I wanted and not wanting to have to use an external package, I ended up writing my own version which differs from the python version (hopefully improving on it). If you think it is really inefficient and can improve on it, please do.

``````;; A version of range taking the form (range [[first] last [[step]]] ).
;; It takes negative numbers and corrects STEP to the same direction
;; as FIRST to LAST then returns a list starting from FIRST and
;; ending before LAST
(define (range . args)
(case (length args)
( (0) '())
( (1) (range 0 (car args) (if (negative? (car args)) -1 1)))
( (2) (range (car args) (cadr args)
(if (>= (car args) (cadr args)) -1 1)))
( (3) (let* ((start (car args)) (end (cadr args))
(step (if (> start end)
(let loop ((x start) (xs '()))
(cond ((and (>= end start) (<= (abs end) (abs x)))
(reverse xs))
((and (<= end start) (>= (abs end) (abs x)))
(reverse xs))
(else (loop (+ x step) (cons x xs)))))))
(else (error 'range "too many arguments"))))
;  (else (display "ERROR: range too many arguments") (newline)))) ;;r4rs

;; (range-inc [[first] last [[step]]] ) includes LAST in the returned range
(define (range-inc . args)
(case (length args)
( (0) '())
( (1) (append (range (car args)) args))
( (2) (append (range (car args) (cadr args)) (cdr args)))
(else (error 'range "too many  arguments"))))
;   (else (display "ERROR: range too many arguments") (newline)))) ;;r4rs
``````

Note I wrote a common lisp version as well

Following a comment by Germán Diago I made a pure functional lazy version (i.e. stream) for this. It can construct a range stream of any size that your Scheme implementation can handle in constant time as well as access the current element and advance the stream, also in constant time.

``````(define ^range
(lambda (x y getter)
(op x y getter)))

(define EOS ; End of stream for finite streams
(^range '() '() (lambda () EOS)))

(define range
(lambda (x . y) ; if y < x then stream is infinite
(let ((x (if (null? y) 0 x))
(y (if (null? y) x (car y))))
(^range x y (lambda ()
(if (= x y) EOS
(range (+ x 1) y)))))))

(define get ; Get current element
(lambda (r)
(r (lambda (x y g) x))))

(define next ; Get stream for next element
(lambda (r)
(r (lambda (x y g) (g)))))
``````

Using this code:

``````> (define r (range 1 3))
> (get r)
1
> (get (next r))
2
> (get (next (next r)))
3
> (get (next (next (next r)))) ; EOS
()
``````