;; Adapted for R7RS from original SRFI 41 r5rs.ss.
;; Copyright (C) 2007 by Philip L. Bewig of Saint Louis, Missouri,
;; USA. All rights reserved. Permission is hereby granted, free of
;; charge, to any person obtaining a copy of this software and
;; associated documentation files (the "Software"), to deal in the
;; Software without restriction, including without limitation the
;; rights to use, copy, modify, merge, publish, distribute,
;; sublicense, and/or sell copies of the Software, and to permit
;; persons to whom the Software is furnished to do so, subject to the
;; following conditions: The above copyright notice and this
;; permission notice shall be included in all copies or substantial
;; portions of the Software. THE SOFTWARE IS PROVIDED "AS IS",
;; WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT
;; LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
;; PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
;; AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
;; OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
;; OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE
;; OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; unit tests
(define-library (srfi 41 test)
(import (scheme base) (srfi 41) (chibi test))
(export run-tests)
(begin
(define (add1 n) (+ n 1))
(define strm123 (stream 1 2 3))
(define (lsec proc . args)
(lambda x (apply proc (append args x))))
(define (rsec proc . args)
(lambda x (apply proc (reverse (append (reverse args) (reverse x))))))
(define nats
(stream-cons 0 (stream-map add1 nats)))
;; executing (run-tests) should produce no output
(define (run-tests)
(test-begin "srfi-41: streams")
;; stream-null
(test #t (stream? stream-null))
(test #t (stream-null? stream-null))
(test #f (stream-pair? stream-null))
;; stream-cons
(test #t (stream? (stream-cons 1 stream-null)))
(test #f (stream-null? (stream-cons 1 stream-null)))
(test #t (stream-pair? (stream-cons 1 stream-null)))
;; stream?
(test #t (stream? stream-null))
(test #t (stream? (stream-cons 1 stream-null)))
(test #f (stream? "four"))
;; stream-null?
(test #t (stream-null? stream-null))
(test #f (stream-null? (stream-cons 1 stream-null)))
(test #f (stream-null? "four"))
;; stream-pair?
(test #f (stream-pair? stream-null))
(test #t (stream-pair? (stream-cons 1 stream-null)))
(test #f (stream-pair? "four"))
;; stream-car
(test-error (stream-car "four")) ; "stream-car: non-stream"
(test-error (stream-car stream-null)) ; "stream-car: null stream"
(test 1 (stream-car strm123))
;; stream-cdr
(test-error (stream-cdr "four")) ; "stream-cdr: non-stream"
(test-error (stream-cdr stream-null)) ; "stream-cdr: null stream"
(test 2 (stream-car (stream-cdr strm123)))
;; stream-lambda
(test
'(2 4 6)
(stream->list
(letrec ((double
(stream-lambda (strm)
(if (stream-null? strm)
stream-null
(stream-cons
(* 2 (stream-car strm))
(double (stream-cdr strm)))))))
(double strm123))))
;; define-stream
(test
'(2 4 6)
(stream->list
(let ()
(define-stream (double strm)
(if (stream-null? strm)
stream-null
(stream-cons
(* 2 (stream-car strm))
(double (stream-cdr strm)))))
(double strm123))))
;; list->stream
(test-error (list->stream "four")) ; "list->stream: non-list argument"
(test '() (stream->list (list->stream '())))
(test '(1 2 3) (stream->list (list->stream '(1 2 3))))
;; port->stream
(let* ((p (open-input-string "; Copyright 2007"))
(s (port->stream p)))
(test-error (port->stream "four"))
(test "; Copyright" (list->string (stream->list 11 s)) )
(close-input-port p))
;; stream
(test '() (stream->list (stream)))
(test '(1) (stream->list (stream 1)))
(test '(1 2 3) (stream->list (stream 1 2 3)))
;; stream->list
(test-error (stream->list '())) ; "stream->list: non-stream argument"
(test-error (stream->list "four" strm123)) ; "stream->list: non-integer count"
(test-error (stream->list -1 strm123)) ; "stream->list: negative count"
(test '() (stream->list (stream)))
(test '(1 2 3) (stream->list strm123))
(test '(1 2 3) (stream->list 5 strm123))
(test '(1 2 3) (stream->list 3 (stream-from 1)))
;; stream-append
(test-error (stream-append "four")) ; "stream-append: non-stream argument"
(test '(1 2 3) (stream->list (stream-append strm123)))
(test '(1 2 3 1 2 3) (stream->list (stream-append strm123 strm123)))
(test '(1 2 3 1 2 3 1 2 3)
(stream->list (stream-append strm123 strm123 strm123)))
(test '(1 2 3) (stream->list (stream-append strm123 stream-null)))
(test '(1 2 3) (stream->list (stream-append stream-null strm123)))
;; stream-concat
(test-error (stream-concat "four")) ; "stream-concat: non-stream argument"
(test '(1 2 3) (stream->list (stream-concat (stream strm123))))
(test '(1 2 3 1 2 3)
(stream->list (stream-concat (stream strm123 strm123))))
;; stream-constant
(test 1 (stream-ref (stream-constant 1) 100))
(test 1 (stream-ref (stream-constant 1 2) 100))
(test 1 (stream-ref (stream-constant 1 2 3) 3))
;; stream-drop
(test-error (stream-drop "four" strm123)) ; "stream-drop: non-integer argument"
(test-error (stream-drop -1 strm123)) ; "stream-drop: negative argument"
(test-error (stream-drop 2 "four")) ; "stream-drop: non-stream argument"
(test '() (stream->list (stream-drop 0 stream-null)))
(test '(1 2 3) (stream->list (stream-drop 0 strm123)))
(test '(2 3) (stream->list (stream-drop 1 strm123)))
(test '() (stream->list (stream-drop 5 strm123)))
;; stream-drop-while
(test-error ; "stream-drop-while: non-procedural argument"
(stream-drop-while "four" strm123))
(test-error ; "stream-drop-while: non-stream argument"
(stream-drop-while odd? "four"))
(test '() (stream->list (stream-drop-while odd? stream-null)))
(test '(2 3) (stream->list (stream-drop-while odd? strm123)))
(test '(1 2 3) (stream->list (stream-drop-while even? strm123)))
(test '() (stream->list (stream-drop-while positive? strm123)))
(test '(1 2 3) (stream->list (stream-drop-while negative? strm123)))
;; stream-filter
(test-error ; "stream-filter: non-procedural argument"
(stream-filter "four" strm123))
(test-error (stream-filter odd? '())) ; "stream-filter: non-stream argument"
(test #t (stream-null? (stream-filter odd? (stream))))
(test '(1 3) (stream->list (stream-filter odd? strm123)))
(test '(2) (stream->list (stream-filter even? strm123)))
(test '(1 2 3) (stream->list (stream-filter positive? strm123)))
(test '() (stream->list (stream-filter negative? strm123)))
(let loop ((n 10))
(test #t (odd? (stream-ref (stream-filter odd? (stream-from 0)) n)))
(if (positive? n) (loop (- n 1))))
(let loop ((n 10))
(test #f (even? (stream-ref (stream-filter odd? (stream-from 0)) n)))
(if (positive? n) (loop (- n 1))))
;; stream-fold
(test-error ; "stream-fold: non-procedural argument"
(stream-fold "four" 0 strm123))
(test-error (stream-fold + 0 '())) ; "stream-fold: non-stream argument"
(test 6 (stream-fold + 0 strm123))
;; stream-for-each
(test-error ; "stream-for-each: non-procedural argument"
(stream-for-each "four" strm123))
(test-error ; "stream-for-each: no stream arguments"
(stream-for-each +))
(test-error ; "stream-for-each: non-stream argument"
(stream-for-each + "four"))
(test 6
(let ((sum 0))
(stream-for-each (lambda (x) (set! sum (+ sum x))) strm123)
sum))
;; stream-from
(test-error (stream-from "four")) ; "stream-from: non-numeric starting number"
(test-error (stream-from 1 "four")) ; "stream-from: non-numeric step size"
(test 100 (stream-ref (stream-from 0) 100))
(test 201 (stream-ref (stream-from 1 2) 100))
(test -100 (stream-ref (stream-from 0 -1) 100))
;; stream-iterate
(test-error (stream-iterate "four" 0)) ; "stream-iterate: non-procedural argument"
(test '(1 2 3) (stream->list 3 (stream-iterate (lsec + 1) 1)))
;; stream-length
(test-error (stream-length "four")) ; "stream-length: non-stream argument"
(test 0 (stream-length (stream)))
(test 3 (stream-length strm123))
;; stream-let
(test '(2 4 6)
(stream->list
(stream-let loop ((strm strm123))
(if (stream-null? strm)
stream-null
(stream-cons
(* 2 (stream-car strm))
(loop (stream-cdr strm)))))))
;; stream-map
(test-error (stream-map "four" strm123)) ; "stream-map: non-procedural argument"
(test-error (stream-map odd?)) ; "stream-map: no stream arguments"
(test-error (stream-map odd? "four")) ; "stream-map: non-stream argument"
(test '(-1 -2 -3) (stream->list (stream-map - strm123)))
(test '(2 4 6) (stream->list (stream-map + strm123 strm123)))
(test '(2 4 6) (stream->list (stream-map + strm123 (stream-from 1))))
(test '(2 4 6) (stream->list (stream-map + (stream-from 1) strm123)))
(test '(3 6 9) (stream->list (stream-map + strm123 strm123 strm123)))
;; stream-match
(test-error (stream-match '(1 2 3) (_ 'ok))) ; "stream-match: non-stream argument"
(test-error (stream-match strm123 (() 42))) ; "stream-match: pattern failure"
(test 'ok (stream-match stream-null (() 'ok)))
(test 'ok (stream-match strm123 (() 'no) (else 'ok)))
(test 1 (stream-match (stream 1) (() 'no) ((a) a)))
(test 'ok (stream-match (stream 1) (() 'no) ((_) 'ok)))
(test '(1 2 3) (stream-match strm123 ((a b c) (list a b c))))
(test 1 (stream-match strm123 ((a . _) a)))
(test '(1 2) (stream-match strm123 ((a b . _) (list a b))))
(test '(1 2 3)
(stream-match strm123 ((a b . c) (list a b (stream-car c)))))
(test '(1 2 3) (stream-match strm123 (s (stream->list s))))
(test 'ok (stream-match strm123 ((a . _) (= a 1) 'ok)))
(test 'no (stream-match strm123 ((a . _) (= a 2) 'yes) (_ 'no)))
(test 'no (stream-match strm123 ((a b c) (= a b) 'yes) (_ 'no)))
(test 'yes (stream-match (stream 1 1 2) ((a b c) (= a b) 'yes) (_ 'no)))
;; stream-of
(test '(7 15 31)
(stream->list
(stream-of (+ y 6)
(x in (stream-range 1 6))
(odd? x)
(y is (* x x)))))
(test '(1 2 3 4 2 4 6 8 3 6 9 12)
(stream->list
(stream-of (* x y)
(x in (stream-range 1 4))
(y in (stream-range 1 5)))))
(test 1 (stream-car (stream-of 1)))
;; stream-range
(test-error (stream-range "four" 0)) ; "stream-range: non-numeric starting number"
(test-error (stream-range 0 "four")) ; "stream-range: non-numeric ending number"
(test-error (stream-range 1 2 "three")) ; "stream-range: non-numeric step size"
(test '(0 1 2 3 4) (stream->list (stream-range 0 5)))
(test '(5 4 3 2 1) (stream->list (stream-range 5 0)))
(test '(0 2 4) (stream->list (stream-range 0 5 2)))
(test '(5 3 1) (stream->list (stream-range 5 0 -2)))
(test '() (stream->list (stream-range 0 1 -1)))
;; stream-ref
(test-error (stream-ref '() 4)) ; "stream-ref: non-stream argument"
(test-error (stream-ref nats 3.5)) ; "stream-ref: non-integer argument"
(test-error (stream-ref nats -3)) ; "stream-ref: negative argument"
(test-error (stream-ref strm123 5)) ; "stream-ref: beyond end of stream"
(test 1 (stream-ref strm123 0))
(test 2 (stream-ref strm123 1))
(test 3 (stream-ref strm123 2))
;; stream-reverse
(test-error (stream-reverse '())) ; "stream-reverse: non-stream argument"
(test '() (stream->list (stream-reverse (stream))))
(test '(3 2 1) (stream->list (stream-reverse strm123)))
;; stream-scan
(test-error ; "stream-scan: non-procedural argument"
(stream-scan "four" 0 strm123))
(test-error (stream-scan + 0 '())) ; "stream-scan: non-stream argument"
(test '(0 1 3 6) (stream->list (stream-scan + 0 strm123)))
;; stream-take
(test-error (stream-take 5 "four")) ; "stream-take: non-stream argument"
(test-error (stream-take "four" strm123)) ; "stream-take: non-integer argument"
(test-error (stream-take -4 strm123)) ; "stream-take: negative argument"
(test '() (stream->list (stream-take 5 stream-null)))
(test '() (stream->list (stream-take 0 stream-null)))
(test '() (stream->list (stream-take 0 strm123)))
(test '(1 2) (stream->list (stream-take 2 strm123)))
(test '(1 2 3) (stream->list (stream-take 3 strm123)))
(test '(1 2 3) (stream->list (stream-take 5 strm123)))
;; stream-take-while
(test-error ; "stream-take-while: non-stream argument"
(stream-take-while odd? "four"))
(test-error ; "stream-take-while: non-procedural argument"
(stream-take-while "four" strm123))
(test '(1) (stream->list (stream-take-while odd? strm123)))
(test '() (stream->list (stream-take-while even? strm123)))
(test '(1 2 3) (stream->list (stream-take-while positive? strm123)))
(test '() (stream->list (stream-take-while negative? strm123)))
;; stream-unfold
(test-error ; "stream-unfold: non-procedural mapper"
(stream-unfold "four" odd? + 0))
(test-error ; "stream-unfold: non-procedural pred?"
(stream-unfold + "four" + 0))
(test-error ; "stream-unfold: non-procedural generator"
(stream-unfold + odd? "four" 0))
(test '(0 1 4 9 16 25 36 49 64 81)
(stream->list (stream-unfold (rsec expt 2) (rsec < 10) (rsec + 1) 0)))
;; stream-unfolds
(test
'(0 1 2 3 4)
(stream->list
(stream-unfolds
(lambda (x)
(let ((n (car x)) (s (cdr x)))
(if (zero? n)
(values 'dummy '())
(values
(cons (- n 1) (stream-cdr s))
(list (stream-car s))))))
(cons 5 (stream-from 0)))))
;; stream-zip
(test-error (stream-zip)) ; "stream-zip: no stream arguments"
(test-error (stream-zip "four")) ; "stream-zip: non-stream argument"
(test-error (stream-zip strm123 "four")) ; "stream-zip: non-stream argument"
(test '() (stream->list (stream-zip strm123 stream-null)))
(test '((1) (2) (3)) (stream->list (stream-zip strm123)))
(test '((1 1) (2 2) (3 3)) (stream->list (stream-zip strm123 strm123)))
(test '((1 1) (2 2) (3 3))
(stream->list (stream-zip strm123 (stream-from 1))))
(test '((1 1 1) (2 2 2) (3 3 3))
(stream->list (stream-zip strm123 strm123 strm123)))
(test-end))))