test/test-values.ss
#lang scheme

(require "checks.ss"
         "../values.ss")

(provide test-values)

(define test-values
  (test-suite "values.ss"
    (test-suite "map2"
      (test-case "numerator and denominator"
        (let*-values ([(ns ds)
                       (map2
                        (lambda (r)
                          (values (numerator r) (denominator r)))
                        (list 1/2 3/4 5/6))])
          (check-equal? (list ns ds) (list '(1 3 5) '(2 4 6))))))
    (test-suite "map/values"
      (test-case "complex numerator and denominator"
        (let*-values ([(rns rds ins ids)
                       (map/values
                        4
                        (lambda (c)
                          (values (numerator (real-part c))
                                  (denominator (real-part c))
                                  (numerator (imag-part c))
                                  (denominator (imag-part c))))
                        (list 1/2+3/4i 5/6+7/8i))])
          (check-equal? (list rns rds ins ids)
                        (list '(1 5) '(2 6) '(3 7) '(4 8)))))
      (test-case "multiple lists"
        (let*-values ([(as bs cs)
                       (map/values 3 values '(1 2 3) '(4 5 6) '(7 8 9))])
          (check-equal? as '(1 2 3))
          (check-equal? bs '(4 5 6))
          (check-equal? cs '(7 8 9)))))
    (test-suite "foldl/values"
      (test-case "sum, product, and last"
        (let*-values ([(sum prod last)
                       (foldl/values
                        (lambda (next sum prod last)
                          (values (+ next sum)
                                  (* next prod)
                                  next))
                        (list 0 1 #f)
                        (list 1 2 3 4))])
          (check-equal? (list sum prod last)
                        (list 10 24 4)))))
    (test-suite "foldr/values"
      (test-case "sum, product, and last"
        (let*-values ([(sum prod last)
                       (foldr/values
                        (lambda (next sum prod last)
                          (values (+ next sum)
                                  (* next prod)
                                  next))
                        (list 0 1 #f)
                        (list 1 2 3 4))])
          (check-equal? (list sum prod last)
                        (list 10 24 1)))))
    (test-suite "values->list"
      (test-case "1 2 3 4"
        (check-equal? (values->list (values 1 2 3 4)) (list 1 2 3 4))))))