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phase 22 Haskell: runtime.sx + 143 tests
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lib/haskell/runtime.sx (113 forms): numeric type class helpers
(hk-div/mod/rem/quot floor semantics), rational numbers (dict-based,
GCD-normalised), hk-force for lazy promises, Data.Char (hk-ord/chr,
inline ASCII predicates, digit-to-int), Data.Set wrappers, Data.List
(take/drop/zip/nub/foldl/foldr/scanl/etc), Maybe/Either ADTs, tuple
helpers (hk-pair/fst/snd/curry/uncurry), string helpers (words/lines/
is-prefix-of/is-infix-of/etc), hk-show.

test.sh updated to pre-load runtime.sx alongside tokenizer.sx.
143/143 runtime tests + 5/5 parse tests = 148/148 total.
This commit is contained in:
giles
2026-05-01 21:41:11 +00:00
parent a7790418f8
commit c02ffcf316
3 changed files with 960 additions and 0 deletions
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507
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;; lib/haskell/runtime.sx — Haskell-on-SX runtime layer
;;
;; Covers the Haskell primitives now reachable via SX spec:
;; 1. Numeric type class helpers (Num / Integral / Fractional)
;; 2. Rational numbers (dict-based: {:_rational true :num n :den d})
;; 3. Lazy evaluation — hk-force for promises created by delay
;; 4. Char utilities (Data.Char)
;; 5. Data.Set wrappers
;; 6. Data.List utilities
;; 7. Maybe / Either ADTs
;; 8. Tuples (lists, since list->vector unreliable in sx_server)
;; 9. String helpers (words/lines/isPrefixOf/etc.)
;; 10. Show helper
;; ===========================================================================
;; 1. Numeric type class helpers
;; ===========================================================================
(define hk-is-integer? integer?)
(define hk-is-float? float?)
(define hk-is-num? number?)
;; fromIntegral — coerce integer to Float
(define (hk-to-float x) (exact->inexact x))
;; truncate / round toward zero
(define hk-to-integer truncate)
(define hk-from-integer (fn (n) n))
;; Haskell div: floor division (rounds toward -inf)
(define
(hk-div a b)
(let
((q (quotient a b)) (r (remainder a b)))
(if
(and
(not (= r 0))
(or
(and (< a 0) (> b 0))
(and (> a 0) (< b 0))))
(- q 1)
q)))
;; Haskell mod: result has same sign as divisor
(define hk-mod modulo)
;; Haskell rem: result has same sign as dividend
(define hk-rem remainder)
;; Haskell quot: truncation division
(define hk-quot quotient)
;; divMod and quotRem return pairs (lists)
(define (hk-div-mod a b) (list (hk-div a b) (hk-mod a b)))
(define (hk-quot-rem a b) (list (hk-quot a b) (hk-rem a b)))
(define (hk-abs x) (if (< x 0) (- 0 x) x))
(define
(hk-signum x)
(cond
((> x 0) 1)
((< x 0) -1)
(else 0)))
(define hk-gcd gcd)
(define hk-lcm lcm)
(define (hk-even? n) (= (modulo n 2) 0))
(define (hk-odd? n) (not (= (modulo n 2) 0)))
;; ===========================================================================
;; 2. Rational numbers (dict implementation — no built-in rational in sx_server)
;; ===========================================================================
(define
(hk-make-rational n d)
(let
((g (gcd (hk-abs n) (hk-abs d))))
(if (< d 0) {:num (quotient (- 0 n) g) :den (quotient (- 0 d) g) :_rational true} {:num (quotient n g) :den (quotient d g) :_rational true})))
(define
(hk-rational? x)
(and (dict? x) (not (= (get x :_rational) nil))))
(define (hk-numerator r) (get r :num))
(define (hk-denominator r) (get r :den))
(define
(hk-rational-add r1 r2)
(hk-make-rational
(+
(* (hk-numerator r1) (hk-denominator r2))
(* (hk-numerator r2) (hk-denominator r1)))
(* (hk-denominator r1) (hk-denominator r2))))
(define
(hk-rational-sub r1 r2)
(hk-make-rational
(-
(* (hk-numerator r1) (hk-denominator r2))
(* (hk-numerator r2) (hk-denominator r1)))
(* (hk-denominator r1) (hk-denominator r2))))
(define
(hk-rational-mul r1 r2)
(hk-make-rational
(* (hk-numerator r1) (hk-numerator r2))
(* (hk-denominator r1) (hk-denominator r2))))
(define
(hk-rational-div r1 r2)
(hk-make-rational
(* (hk-numerator r1) (hk-denominator r2))
(* (hk-denominator r1) (hk-numerator r2))))
(define
(hk-rational-to-float r)
(exact->inexact (/ (hk-numerator r) (hk-denominator r))))
(define (hk-show-rational r) (str (hk-numerator r) "%" (hk-denominator r)))
;; ===========================================================================
;; 3. Lazy evaluation — promises (created via SX delay)
;; ===========================================================================
(define
(hk-force p)
(if
(and (dict? p) (not (= (get p :_promise) nil)))
(if (get p :forced) (get p :value) ((get p :thunk)))
p))
;; ===========================================================================
;; 4. Char utilities (Data.Char)
;; ===========================================================================
(define hk-ord char->integer)
(define hk-chr integer->char)
;; Inline ASCII predicates — char-alphabetic?/char-numeric? unreliable in sx_server
(define
(hk-is-alpha? c)
(let
((n (char->integer c)))
(or
(and (>= n 65) (<= n 90))
(and (>= n 97) (<= n 122)))))
(define
(hk-is-digit? c)
(let ((n (char->integer c))) (and (>= n 48) (<= n 57))))
(define
(hk-is-alnum? c)
(let
((n (char->integer c)))
(or
(and (>= n 48) (<= n 57))
(and (>= n 65) (<= n 90))
(and (>= n 97) (<= n 122)))))
(define
(hk-is-upper? c)
(let ((n (char->integer c))) (and (>= n 65) (<= n 90))))
(define
(hk-is-lower? c)
(let ((n (char->integer c))) (and (>= n 97) (<= n 122))))
(define
(hk-is-space? c)
(let
((n (char->integer c)))
(or
(= n 32)
(= n 9)
(= n 10)
(= n 13)
(= n 12)
(= n 11))))
(define hk-to-upper char-upcase)
(define hk-to-lower char-downcase)
;; digitToInt: '0'-'9' → 0-9, 'a'-'f'/'A'-'F' → 10-15
(define
(hk-digit-to-int c)
(let
((n (char->integer c)))
(cond
((and (>= n 48) (<= n 57)) (- n 48))
((and (>= n 65) (<= n 70)) (- n 55))
((and (>= n 97) (<= n 102)) (- n 87))
(else (error (str "hk-digit-to-int: not a hex digit: " c))))))
;; intToDigit: 0-15 → char
(define
(hk-int-to-digit n)
(cond
((and (>= n 0) (<= n 9))
(integer->char (+ n 48)))
((and (>= n 10) (<= n 15))
(integer->char (+ n 87)))
(else (error (str "hk-int-to-digit: out of range: " n)))))
;; ===========================================================================
;; 5. Data.Set wrappers
;; ===========================================================================
(define (hk-set-empty) (make-set))
(define hk-set? set?)
(define hk-set-member? set-member?)
(define (hk-set-insert x s) (begin (set-add! s x) s))
(define (hk-set-delete x s) (begin (set-remove! s x) s))
(define hk-set-union set-union)
(define hk-set-intersection set-intersection)
(define hk-set-difference set-difference)
(define hk-set-from-list list->set)
(define hk-set-to-list set->list)
(define (hk-set-null? s) (= (len (set->list s)) 0))
(define (hk-set-size s) (len (set->list s)))
(define (hk-set-singleton x) (let ((s (make-set))) (set-add! s x) s))
;; ===========================================================================
;; 6. Data.List utilities
;; ===========================================================================
(define hk-head first)
(define hk-tail rest)
(define (hk-null? lst) (= (len lst) 0))
(define hk-length len)
(define
(hk-take n lst)
(if
(or (= n 0) (= (len lst) 0))
(list)
(cons (first lst) (hk-take (- n 1) (rest lst)))))
(define
(hk-drop n lst)
(if
(or (= n 0) (= (len lst) 0))
lst
(hk-drop (- n 1) (rest lst))))
(define
(hk-take-while pred lst)
(if
(or (= (len lst) 0) (not (pred (first lst))))
(list)
(cons (first lst) (hk-take-while pred (rest lst)))))
(define
(hk-drop-while pred lst)
(if
(or (= (len lst) 0) (not (pred (first lst))))
lst
(hk-drop-while pred (rest lst))))
(define
(hk-zip a b)
(if
(or (= (len a) 0) (= (len b) 0))
(list)
(cons (list (first a) (first b)) (hk-zip (rest a) (rest b)))))
(define
(hk-zip-with f a b)
(if
(or (= (len a) 0) (= (len b) 0))
(list)
(cons (f (first a) (first b)) (hk-zip-with f (rest a) (rest b)))))
(define
(hk-unzip pairs)
(list
(map (fn (p) (first p)) pairs)
(map (fn (p) (nth p 1)) pairs)))
(define
(hk-elem x lst)
(cond
((= (len lst) 0) false)
((= x (first lst)) true)
(else (hk-elem x (rest lst)))))
(define (hk-not-elem x lst) (not (hk-elem x lst)))
(define
(hk-nub lst)
(letrec
((go (fn (seen acc items) (if (= (len items) 0) (reverse acc) (let ((h (first items)) (t (rest items))) (if (hk-elem h seen) (go seen acc t) (go (cons h seen) (cons h acc) t)))))))
(go (list) (list) lst)))
(define (hk-sum lst) (reduce + 0 lst))
(define (hk-product lst) (reduce * 1 lst))
(define
(hk-maximum lst)
(reduce (fn (a b) (if (> a b) a b)) (first lst) (rest lst)))
(define
(hk-minimum lst)
(reduce (fn (a b) (if (< a b) a b)) (first lst) (rest lst)))
(define (hk-concat lsts) (reduce append (list) lsts))
(define (hk-concat-map f lst) (hk-concat (map f lst)))
(define hk-sort sort)
(define
(hk-span pred lst)
(list (hk-take-while pred lst) (hk-drop-while pred lst)))
(define (hk-break pred lst) (hk-span (fn (x) (not (pred x))) lst))
(define
(hk-foldl f acc lst)
(if
(= (len lst) 0)
acc
(hk-foldl f (f acc (first lst)) (rest lst))))
(define
(hk-foldr f z lst)
(if
(= (len lst) 0)
z
(f (first lst) (hk-foldr f z (rest lst)))))
(define
(hk-scanl f acc lst)
(if
(= (len lst) 0)
(list acc)
(cons acc (hk-scanl f (f acc (first lst)) (rest lst)))))
(define
(hk-replicate n x)
(if (= n 0) (list) (cons x (hk-replicate (- n 1) x))))
(define
(hk-intersperse sep lst)
(if
(or (= (len lst) 0) (= (len lst) 1))
lst
(cons (first lst) (cons sep (hk-intersperse sep (rest lst))))))
;; ===========================================================================
;; 7. Maybe / Either ADTs
;; ===========================================================================
(define hk-nothing {:_maybe true :_tag "nothing"})
(define (hk-just x) {:_maybe true :value x :_tag "just"})
(define (hk-is-nothing? m) (= (get m :_tag) "nothing"))
(define (hk-is-just? m) (= (get m :_tag) "just"))
(define (hk-from-just m) (get m :value))
(define (hk-from-maybe def m) (if (hk-is-nothing? m) def (hk-from-just m)))
(define
(hk-maybe def f m)
(if (hk-is-nothing? m) def (f (hk-from-just m))))
(define (hk-left x) {:value x :_either true :_tag "left"})
(define (hk-right x) {:value x :_either true :_tag "right"})
(define (hk-is-left? e) (= (get e :_tag) "left"))
(define (hk-is-right? e) (= (get e :_tag) "right"))
(define (hk-from-left e) (get e :value))
(define (hk-from-right e) (get e :value))
(define
(hk-either f g e)
(if (hk-is-left? e) (f (hk-from-left e)) (g (hk-from-right e))))
;; ===========================================================================
;; 8. Tuples (lists — list->vector unreliable in sx_server)
;; ===========================================================================
(define (hk-pair a b) (list a b))
(define hk-fst first)
(define (hk-snd t) (nth t 1))
(define (hk-triple a b c) (list a b c))
(define hk-fst3 first)
(define (hk-snd3 t) (nth t 1))
(define (hk-thd3 t) (nth t 2))
(define (hk-curry f) (fn (a) (fn (b) (f a b))))
(define (hk-uncurry f) (fn (p) (f (hk-fst p) (hk-snd p))))
;; ===========================================================================
;; 9. String helpers (Data.List / Data.Char for strings)
;; ===========================================================================
;; words: split on whitespace
(define
(hk-words s)
(letrec
((slen (len s))
(skip-ws
(fn
(i)
(if
(>= i slen)
(list)
(let
((c (substring s i (+ i 1))))
(if
(or (= c " ") (= c "\t") (= c "\n"))
(skip-ws (+ i 1))
(collect-word i (+ i 1)))))))
(collect-word
(fn
(start i)
(if
(>= i slen)
(list (substring s start i))
(let
((c (substring s i (+ i 1))))
(if
(or (= c " ") (= c "\t") (= c "\n"))
(cons (substring s start i) (skip-ws (+ i 1)))
(collect-word start (+ i 1))))))))
(skip-ws 0)))
;; unwords: join with spaces
(define
(hk-unwords lst)
(if
(= (len lst) 0)
""
(reduce (fn (a b) (str a " " b)) (first lst) (rest lst))))
;; lines: split on newline
(define
(hk-lines s)
(letrec
((slen (len s))
(go
(fn
(start i acc)
(if
(>= i slen)
(reverse (cons (substring s start i) acc))
(if
(= (substring s i (+ i 1)) "\n")
(go
(+ i 1)
(+ i 1)
(cons (substring s start i) acc))
(go start (+ i 1) acc))))))
(if (= slen 0) (list) (go 0 0 (list)))))
;; unlines: join, each with trailing newline
(define (hk-unlines lst) (reduce (fn (a b) (str a b "\n")) "" lst))
;; isPrefixOf
(define
(hk-is-prefix-of pre s)
(and (<= (len pre) (len s)) (= pre (substring s 0 (len pre)))))
;; isSuffixOf
(define
(hk-is-suffix-of suf s)
(let
((sl (len suf)) (tl (len s)))
(and (<= sl tl) (= suf (substring s (- tl sl) tl)))))
;; isInfixOf — linear scan
(define
(hk-is-infix-of pat s)
(let
((plen (len pat)) (slen (len s)))
(letrec
((go (fn (i) (if (> (+ i plen) slen) false (if (= pat (substring s i (+ i plen))) true (go (+ i 1)))))))
(if (= plen 0) true (go 0)))))
;; ===========================================================================
;; 10. Show helper
;; ===========================================================================
(define
(hk-show x)
(cond
((= x nil) "Nothing")
((= x true) "True")
((= x false) "False")
((hk-rational? x) (hk-show-rational x))
((integer? x) (str x))
((float? x) (str x))
((= (type-of x) "string") (str "\"" x "\""))
((= (type-of x) "char") (str "'" (str x) "'"))
((list? x)
(str
"["
(if
(= (len x) 0)
""
(reduce
(fn (a b) (str a "," (hk-show b)))
(hk-show (first x))
(rest x)))
"]"))
(else (str x))))

2
lib/haskell/test.sh
View File

@@ -46,6 +46,7 @@ for FILE in "${FILES[@]}"; do
cat > "$TMPFILE" <<EPOCHS
(epoch 1)
(load "lib/haskell/tokenizer.sx")
(load "lib/haskell/runtime.sx")
(epoch 2)
(load "$FILE")
(epoch 3)
@@ -81,6 +82,7 @@ EPOCHS
cat > "$TMPFILE2" <<EPOCHS
(epoch 1)
(load "lib/haskell/tokenizer.sx")
(load "lib/haskell/runtime.sx")
(epoch 2)
(load "$FILE")
(epoch 3)

451
lib/haskell/tests/runtime.sx Normal file
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@@ -0,0 +1,451 @@
;; lib/haskell/tests/runtime.sx — smoke-tests for lib/haskell/runtime.sx
;;
;; Uses the same hk-test framework as tests/parse.sx.
;; Loaded by test.sh after: tokenizer.sx + runtime.sx are pre-loaded.
;; ---------------------------------------------------------------------------
;; Test framework boilerplate (mirrors parse.sx)
;; ---------------------------------------------------------------------------
(define hk-test-pass 0)
(define hk-test-fail 0)
(define hk-test-fails (list))
(define
(hk-test name actual expected)
(if
(= actual expected)
(set! hk-test-pass (+ hk-test-pass 1))
(do
(set! hk-test-fail (+ hk-test-fail 1))
(append! hk-test-fails {:actual actual :expected expected :name name}))))
;; ---------------------------------------------------------------------------
;; 1. Numeric type class helpers
;; ---------------------------------------------------------------------------
(hk-test "is-integer? int" (hk-is-integer? 42) true)
(hk-test "is-integer? float" (hk-is-integer? 1.5) false)
(hk-test "is-float? float" (hk-is-float? 3.14) true)
(hk-test "is-float? int" (hk-is-float? 3) false)
(hk-test "is-num? int" (hk-is-num? 10) true)
(hk-test "is-num? float" (hk-is-num? 1) true)
(hk-test "to-float" (hk-to-float 5) 5)
(hk-test "to-integer trunc" (hk-to-integer 3.7) 3)
(hk-test "div pos pos" (hk-div 7 2) 3)
(hk-test "div neg pos" (hk-div -7 2) -4)
(hk-test "div pos neg" (hk-div 7 -2) -4)
(hk-test "div neg neg" (hk-div -7 -2) 3)
(hk-test "div exact" (hk-div 6 2) 3)
(hk-test "mod pos pos" (hk-mod 10 3) 1)
(hk-test "mod neg pos" (hk-mod -7 3) 2)
(hk-test "rem pos pos" (hk-rem 10 3) 1)
(hk-test "rem neg pos" (hk-rem -7 3) -1)
(hk-test "abs pos" (hk-abs 5) 5)
(hk-test "abs neg" (hk-abs -5) 5)
(hk-test "signum pos" (hk-signum 42) 1)
(hk-test "signum neg" (hk-signum -7) -1)
(hk-test "signum zero" (hk-signum 0) 0)
(hk-test "gcd" (hk-gcd 12 8) 4)
(hk-test "lcm" (hk-lcm 4 6) 12)
(hk-test "even?" (hk-even? 4) true)
(hk-test "even? odd" (hk-even? 3) false)
(hk-test "odd?" (hk-odd? 7) true)
;; ---------------------------------------------------------------------------
;; 2. Rational numbers
;; ---------------------------------------------------------------------------
(let
((r (hk-make-rational 1 2)))
(do
(hk-test "rational?" (hk-rational? r) true)
(hk-test "numerator" (hk-numerator r) 1)
(hk-test "denominator" (hk-denominator r) 2)))
(let
((r (hk-make-rational 2 4)))
(do
(hk-test "rat normalise num" (hk-numerator r) 1)
(hk-test "rat normalise den" (hk-denominator r) 2)))
(let
((sum (hk-rational-add (hk-make-rational 1 2) (hk-make-rational 1 3))))
(do
(hk-test "rat-add num" (hk-numerator sum) 5)
(hk-test "rat-add den" (hk-denominator sum) 6)))
(hk-test
"rat-to-float"
(hk-rational-to-float (hk-make-rational 1 2))
0.5)
(hk-test "rational? int" (hk-rational? 42) false)
;; ---------------------------------------------------------------------------
;; 3. Lazy evaluation (promises via SX delay)
;; ---------------------------------------------------------------------------
(let
((p (delay 42)))
(hk-test "force promise" (hk-force p) 42))
(hk-test "force non-promise" (hk-force 99) 99)
;; ---------------------------------------------------------------------------
;; 4. Char utilities — compare via hk-ord to avoid = on char type
;; ---------------------------------------------------------------------------
(hk-test "ord A" (hk-ord (integer->char 65)) 65)
(hk-test "chr 65" (hk-ord (hk-chr 65)) 65)
(hk-test "is-alpha? A" (hk-is-alpha? (integer->char 65)) true)
(hk-test "is-alpha? 0" (hk-is-alpha? (integer->char 48)) false)
(hk-test "is-digit? 5" (hk-is-digit? (integer->char 53)) true)
(hk-test "is-digit? A" (hk-is-digit? (integer->char 65)) false)
(hk-test "is-upper? A" (hk-is-upper? (integer->char 65)) true)
(hk-test "is-upper? a" (hk-is-upper? (integer->char 97)) false)
(hk-test "is-lower? a" (hk-is-lower? (integer->char 97)) true)
(hk-test "is-space? spc" (hk-is-space? (integer->char 32)) true)
(hk-test "is-space? A" (hk-is-space? (integer->char 65)) false)
(hk-test
"to-upper a"
(hk-ord (hk-to-upper (integer->char 97)))
65)
(hk-test
"to-lower A"
(hk-ord (hk-to-lower (integer->char 65)))
97)
(hk-test
"digit-to-int 0"
(hk-digit-to-int (integer->char 48))
0)
(hk-test
"digit-to-int 9"
(hk-digit-to-int (integer->char 57))
9)
(hk-test
"digit-to-int a"
(hk-digit-to-int (integer->char 97))
10)
(hk-test
"digit-to-int F"
(hk-digit-to-int (integer->char 70))
15)
(hk-test "int-to-digit 0" (hk-ord (hk-int-to-digit 0)) 48)
(hk-test "int-to-digit 10" (hk-ord (hk-int-to-digit 10)) 97)
;; ---------------------------------------------------------------------------
;; 5. Data.Set
;; ---------------------------------------------------------------------------
(hk-test "set-empty is set?" (hk-set? (hk-set-empty)) true)
(hk-test "set-null? empty" (hk-set-null? (hk-set-empty)) true)
(let
((s (hk-set-singleton 42)))
(do
(hk-test "singleton member" (hk-set-member? 42 s) true)
(hk-test "singleton size" (hk-set-size s) 1)))
(let
((s (hk-set-from-list (list 1 2 3))))
(do
(hk-test "from-list member" (hk-set-member? 2 s) true)
(hk-test "from-list absent" (hk-set-member? 9 s) false)
(hk-test "from-list size" (hk-set-size s) 3)))
;; ---------------------------------------------------------------------------
;; 6. Data.List
;; ---------------------------------------------------------------------------
(hk-test "head" (hk-head (list 1 2 3)) 1)
(hk-test
"tail length"
(len (hk-tail (list 1 2 3)))
2)
(hk-test "null? empty" (hk-null? (list)) true)
(hk-test "null? non-empty" (hk-null? (list 1)) false)
(hk-test
"length"
(hk-length (list 1 2 3))
3)
(hk-test
"take 2"
(hk-take 2 (list 1 2 3))
(list 1 2))
(hk-test "take 0" (hk-take 0 (list 1 2)) (list))
(hk-test
"take overflow"
(hk-take 5 (list 1 2))
(list 1 2))
(hk-test
"drop 1"
(hk-drop 1 (list 1 2 3))
(list 2 3))
(hk-test
"drop 0"
(hk-drop 0 (list 1 2))
(list 1 2))
(hk-test
"take-while"
(hk-take-while
(fn (x) (< x 3))
(list 1 2 3 4))
(list 1 2))
(hk-test
"drop-while"
(hk-drop-while
(fn (x) (< x 3))
(list 1 2 3 4))
(list 3 4))
(hk-test
"zip"
(hk-zip (list 1 2) (list 3 4))
(list (list 1 3) (list 2 4)))
(hk-test
"zip uneven"
(hk-zip
(list 1 2 3)
(list 4 5))
(list (list 1 4) (list 2 5)))
(hk-test
"zip-with +"
(hk-zip-with
+
(list 1 2 3)
(list 10 20 30))
(list 11 22 33))
(hk-test
"unzip fst"
(first
(hk-unzip
(list (list 1 3) (list 2 4))))
(list 1 2))
(hk-test
"unzip snd"
(nth
(hk-unzip
(list (list 1 3) (list 2 4)))
1)
(list 3 4))
(hk-test
"elem hit"
(hk-elem 2 (list 1 2 3))
true)
(hk-test
"elem miss"
(hk-elem 9 (list 1 2 3))
false)
(hk-test
"not-elem"
(hk-not-elem 9 (list 1 2 3))
true)
(hk-test
"nub"
(hk-nub (list 1 2 1 3 2))
(list 1 2 3))
(hk-test
"sum"
(hk-sum (list 1 2 3 4))
10)
(hk-test
"product"
(hk-product (list 1 2 3 4))
24)
(hk-test
"maximum"
(hk-maximum (list 3 1 4 1 5))
5)
(hk-test
"minimum"
(hk-minimum (list 3 1 4 1 5))
1)
(hk-test
"concat"
(hk-concat
(list (list 1 2) (list 3 4)))
(list 1 2 3 4))
(hk-test
"concat-map"
(hk-concat-map
(fn (x) (list x (* x x)))
(list 1 2 3))
(list 1 1 2 4 3 9))
(hk-test
"sort"
(hk-sort (list 3 1 4 1 5))
(list 1 1 3 4 5))
(hk-test
"replicate"
(hk-replicate 3 0)
(list 0 0 0))
(hk-test "replicate 0" (hk-replicate 0 99) (list))
(hk-test
"intersperse"
(hk-intersperse 0 (list 1 2 3))
(list 1 0 2 0 3))
(hk-test
"intersperse 1"
(hk-intersperse 0 (list 1))
(list 1))
(hk-test "intersperse empty" (hk-intersperse 0 (list)) (list))
(hk-test
"span"
(hk-span
(fn (x) (< x 3))
(list 1 2 3 4))
(list (list 1 2) (list 3 4)))
(hk-test
"break"
(hk-break
(fn (x) (>= x 3))
(list 1 2 3 4))
(list (list 1 2) (list 3 4)))
(hk-test
"foldl"
(hk-foldl
(fn (a b) (- a b))
10
(list 1 2 3))
4)
(hk-test
"foldr"
(hk-foldr cons (list) (list 1 2 3))
(list 1 2 3))
(hk-test
"scanl"
(hk-scanl + 0 (list 1 2 3))
(list 0 1 3 6))
;; ---------------------------------------------------------------------------
;; 7. Maybe / Either
;; ---------------------------------------------------------------------------
(hk-test "nothing is-nothing?" (hk-is-nothing? hk-nothing) true)
(hk-test "nothing is-just?" (hk-is-just? hk-nothing) false)
(hk-test "just is-just?" (hk-is-just? (hk-just 42)) true)
(hk-test "just is-nothing?" (hk-is-nothing? (hk-just 42)) false)
(hk-test "from-just" (hk-from-just (hk-just 99)) 99)
(hk-test
"from-maybe nothing"
(hk-from-maybe 0 hk-nothing)
0)
(hk-test
"from-maybe just"
(hk-from-maybe 0 (hk-just 42))
42)
(hk-test
"maybe nothing"
(hk-maybe 0 (fn (x) (* x 2)) hk-nothing)
0)
(hk-test
"maybe just"
(hk-maybe 0 (fn (x) (* x 2)) (hk-just 5))
10)
(hk-test "left is-left?" (hk-is-left? (hk-left "e")) true)
(hk-test "right is-right?" (hk-is-right? (hk-right 42)) true)
(hk-test "from-right" (hk-from-right (hk-right 7)) 7)
(hk-test
"either left"
(hk-either (fn (x) (str "L" x)) (fn (x) (str "R" x)) (hk-left "err"))
"Lerr")
(hk-test
"either right"
(hk-either
(fn (x) (str "L" x))
(fn (x) (str "R" x))
(hk-right 42))
"R42")
;; ---------------------------------------------------------------------------
;; 8. Tuples
;; ---------------------------------------------------------------------------
(hk-test "pair" (hk-pair 1 2) (list 1 2))
(hk-test "fst" (hk-fst (hk-pair 3 4)) 3)
(hk-test "snd" (hk-snd (hk-pair 3 4)) 4)
(hk-test
"triple"
(hk-triple 1 2 3)
(list 1 2 3))
(hk-test
"fst3"
(hk-fst3 (hk-triple 7 8 9))
7)
(hk-test
"thd3"
(hk-thd3 (hk-triple 7 8 9))
9)
(hk-test "curry" ((hk-curry +) 3 4) 7)
(hk-test
"uncurry"
((hk-uncurry (fn (a b) (* a b))) (list 3 4))
12)
;; ---------------------------------------------------------------------------
;; 9. String helpers
;; ---------------------------------------------------------------------------
(hk-test "words" (hk-words "hello world") (list "hello" "world"))
(hk-test "words leading ws" (hk-words " foo bar") (list "foo" "bar"))
(hk-test "words empty" (hk-words "") (list))
(hk-test "unwords" (hk-unwords (list "a" "b" "c")) "a b c")
(hk-test "unwords single" (hk-unwords (list "x")) "x")
(hk-test "lines" (hk-lines "a\nb\nc") (list "a" "b" "c"))
(hk-test "lines single" (hk-lines "hello") (list "hello"))
(hk-test "unlines" (hk-unlines (list "a" "b")) "a\nb\n")
(hk-test "is-prefix-of yes" (hk-is-prefix-of "he" "hello") true)
(hk-test "is-prefix-of no" (hk-is-prefix-of "wo" "hello") false)
(hk-test "is-prefix-of eq" (hk-is-prefix-of "hi" "hi") true)
(hk-test "is-prefix-of empty" (hk-is-prefix-of "" "hi") true)
(hk-test "is-suffix-of yes" (hk-is-suffix-of "lo" "hello") true)
(hk-test "is-suffix-of no" (hk-is-suffix-of "he" "hello") false)
(hk-test "is-suffix-of empty" (hk-is-suffix-of "" "hi") true)
(hk-test "is-infix-of yes" (hk-is-infix-of "ell" "hello") true)
(hk-test "is-infix-of no" (hk-is-infix-of "xyz" "hello") false)
(hk-test "is-infix-of empty" (hk-is-infix-of "" "hello") true)
;; ---------------------------------------------------------------------------
;; 10. Show
;; ---------------------------------------------------------------------------
(hk-test "show nil" (hk-show nil) "Nothing")
(hk-test "show true" (hk-show true) "True")
(hk-test "show false" (hk-show false) "False")
(hk-test "show int" (hk-show 42) "42")
(hk-test "show string" (hk-show "hi") "\"hi\"")
(hk-test
"show list"
(hk-show (list 1 2 3))
"[1,2,3]")
(hk-test "show empty list" (hk-show (list)) "[]")
;; ---------------------------------------------------------------------------
;; Summary (required by test.sh — last expression is the return value)
;; ---------------------------------------------------------------------------
(list hk-test-pass hk-test-fail)