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base: coop:loops/prolog
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coop:main coop:loops/haskell coop:loops/js coop:hs-e37-tokenizer coop:loops/common-lisp coop:hs-e39-webworker coop:loops/ruby coop:loops/tcl coop:loops/hs coop:architecture coop:loops/prolog coop:loops/apl coop:loops/smalltalk coop:loops/erlang coop:loops/forth coop:loops/lua coop:wasm coop:macros coop:sx coop:exorcism coop:cssx coop:decoupling coop:sexpression coop:relations
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compare: coop:loops/js
Branches Tags
coop:loops/haskell coop:loops/js coop:hs-e37-tokenizer coop:loops/common-lisp coop:hs-e39-webworker coop:loops/ruby coop:loops/tcl coop:loops/hs coop:architecture coop:loops/prolog coop:loops/apl coop:loops/smalltalk coop:loops/erlang coop:loops/forth coop:loops/lua coop:main coop:wasm coop:macros coop:sx coop:exorcism coop:cssx coop:decoupling coop:sexpression coop:relations

12 Commits
loops/prol ... loops/js

Author SHA1 Message Date
giles
97180b4aa3 js-on-sx: wrapper constructor-detection, Array.prototype.toString, >>> operator
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Number.__callable__ and String.__callable__ now check this.__proto__ ===
Number/String.prototype before writing wrapper slots, preventing false-positive
mutation when called as plain function. js-to-number extended to unwrap
wrapper dicts and call valueOf/toString for plain objects. Array.prototype.toString
replaced with a direct js-list-join implementation (eliminates infinite recursion
via js-invoke-method on dict-based arrays). >>> added to transpiler + runtime.

String test262 subset: 62→66/100. 529/530 unit, 147/148 slice.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-04-25 19:22:53 +00:00
giles
ea63b6d9bb plans: log precision number-to-string iteration
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2026-04-25 14:42:44 +00:00
giles
5d7f931cf1 js-on-sx: high-precision number-to-string via round-trip + digit extraction
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- js-big-int-str-loop: extract decimal digits from integer-valued float
- js-find-decimal-k: find min decimal places k where round(n*10^k)/10^k == n
- js-format-decimal-digits: insert decimal point into digit string at position (len-k)
- js-number-to-string: if 6-sig-fig round-trip fails AND n in [1e-6, 1e21),
  use digit extraction for full precision (up to 17 sig figs)
- String(1.0000001)="1.0000001", String(1/3)="0.3333333333333333"
- String test262 subset: 58→62/100

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-04-25 14:42:32 +00:00
giles
79f3e1ada2 plans: log String wrapper + number-to-string sci notation iteration
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2026-04-25 14:27:25 +00:00
giles
4d00250233 js-on-sx: String wrapper objects + number-to-string sci notation expansion
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- js-to-string: return __js_string_value__ for String wrapper dicts
- js-loose-eq: coerce String wrapper objects to primitive before compare
- String.__callable__: set __js_string_value__ + length on 'this' when called as constructor
- js-expand-sci-notation: new helper converts mantissa+exp to decimal or integer form
- js-number-to-string: expand 1e-06→0.000001, 1e+06→1000000; fix 1e+21 (was 1e21)
- String test262 subset: 45→58/100

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-04-25 14:27:13 +00:00
giles
80c21cbabb js-on-sx: String fixes — fromCodePoint, multi-arg indexOf/split/lastIndexOf, matchAll, constructor, js-to-string dict
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- String.fromCodePoint added (BMP + surrogate pairs)
- indexOf/lastIndexOf/split now accept optional second argument (fromIndex / limit)
- matchAll stub added to js-string-method and String.prototype
- String property else-branch now falls back to String.prototype (fixes 'a'.constructor === String)
- js-to-string for dict returns [object Object] instead of recursing into circular String.prototype.constructor structure
- js-list-take helper added for split limit

Scoreboard: String 42→43, timeouts 32→13, total 162→202/300 (54%→67.3%). 529/530 unit, 148/148 slice.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-04-25 13:41:58 +00:00
giles
70f91ef3d8 plans: log Math methods iteration
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2026-04-25 12:47:27 +00:00
giles
5f38e49ba4 js-on-sx: add missing Math methods (trig, log, hyperbolic, clz32, imul, fround)
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2026-04-25 12:47:12 +00:00
giles
0f9d361a92 plans: tick var hoisting, add progress log entry
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2026-04-25 12:19:07 +00:00
giles
11315d91cc js-on-sx: var hoisting — hoist var names as undefined before funcdecls
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2026-04-25 12:18:42 +00:00
giles
f16e1b69c0 js-on-sx: tick ASI checkbox, append progress log entry
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Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-04-25 11:53:45 +00:00
giles
ae86579ae8 js-on-sx: ASI — :nl token flag + return restricted production (525/526 unit, 148/148 slice) 
Lexer: adds :nl (newline-before) boolean to every token. scan! resets the flag
before each skip-ws! call; skip-ws! sets it true when it consumes \n or \r.
Parser: jp-token-nl? reads the flag; jp-parse-return-stmt stops before the
expression when a newline precedes it (return\n42 → return undefined). Four
new tests cover the restricted production and the raw flag.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
 2026-04-25 11:53:33 +00:00
46 changed files with 689 additions and 8687 deletions
Expand all files Collapse all files

17
lib/js/lexer.sx
View File

@@ -94,7 +94,7 @@
(fn
(src)
(let
((tokens (list)) (pos 0) (src-len (len src)))
((tokens (list)) (pos 0) (src-len (len src)) (nl-before false))
(define
js-peek
(fn
@@ -109,11 +109,7 @@
(let
((sl (len s)))
(and (<= (+ pos sl) src-len) (= (slice src pos (+ pos sl)) s)))))
(define
js-emit!
(fn
(type value start)
(append! tokens (js-make-token type value start))))
(define js-emit! (fn (type value start) (append! tokens {:pos start :value value :type type :nl nl-before})))
(define
skip-line-comment!
(fn
@@ -136,7 +132,13 @@
()
(cond
((>= pos src-len) nil)
((js-ws? (cur)) (do (advance! 1) (skip-ws!)))
((js-ws? (cur))
(do
(when
(or (= (cur) "\n") (= (cur) "\r"))
(set! nl-before true))
(advance! 1)
(skip-ws!)))
((and (= (cur) "/") (< (+ pos 1) src-len) (= (js-peek 1) "/"))
(do (advance! 2) (skip-line-comment!) (skip-ws!)))
((and (= (cur) "/") (< (+ pos 1) src-len) (= (js-peek 1) "*"))
@@ -568,6 +570,7 @@
(fn
()
(do
(set! nl-before false)
(skip-ws!)
(when
(< pos src-len)

7
lib/js/parser.sx
View File

@@ -835,6 +835,12 @@
jp-eat-semi
(fn (st) (if (jp-at? st "punct" ";") (do (jp-advance! st) nil) nil)))
(define
jp-token-nl?
(fn
(st)
(let ((tok (jp-peek st))) (if tok (= (get tok :nl) true) false))))
(define
jp-parse-vardecl
(fn
@@ -1166,6 +1172,7 @@
(or
(jp-at? st "punct" ";")
(jp-at? st "punct" "}")
(jp-token-nl? st)
(jp-at? st "eof" nil))
(do (jp-eat-semi st) (list (quote js-return) nil))
(let

448
lib/js/runtime.sx
View File

@@ -904,6 +904,36 @@
((= v false) 0)
((= (type-of v) "number") v)
((= (type-of v) "string") (js-string-to-number v))
((= (type-of v) "dict")
(cond
((contains? (keys v) "__js_number_value__")
(get v "__js_number_value__"))
((contains? (keys v) "__js_boolean_value__")
(if (get v "__js_boolean_value__") 1 0))
((contains? (keys v) "__js_string_value__")
(js-string-to-number (get v "__js_string_value__")))
(else
(let
((valueof-fn (js-get-prop v "valueOf")))
(if
(= (type-of valueof-fn) "lambda")
(let
((result (js-call-with-this v valueof-fn ())))
(if
(not (= (type-of result) "dict"))
(js-to-number result)
(let
((tostr-fn (js-get-prop v "toString")))
(if
(= (type-of tostr-fn) "lambda")
(let
((result2 (js-call-with-this v tostr-fn ())))
(if
(not (= (type-of result2) "dict"))
(js-to-number result2)
(js-nan-value)))
(js-nan-value)))))
(js-nan-value))))))
(else 0))))
(define
@@ -1169,7 +1199,39 @@
((= v false) "false")
((= (type-of v) "string") v)
((= (type-of v) "number") (js-number-to-string v))
(else (str v)))))
(else
(if
(= (type-of v) "dict")
(cond
((contains? (keys v) "__js_string_value__")
(get v "__js_string_value__"))
((contains? (keys v) "__js_number_value__")
(js-number-to-string (get v "__js_number_value__")))
((contains? (keys v) "__js_boolean_value__")
(if (get v "__js_boolean_value__") "true" "false"))
(else
(let
((tostr-fn (js-get-prop v "toString")))
(if
(= (type-of tostr-fn) "lambda")
(let
((result (js-call-with-this v tostr-fn ())))
(if
(= (type-of result) "dict")
(let
((valueof-fn (js-get-prop v "valueOf")))
(if
(= (type-of valueof-fn) "lambda")
(let
((result2 (js-call-with-this v valueof-fn ())))
(if
(= (type-of result2) "dict")
"[object Object]"
(js-to-string result2)))
"[object Object]"))
(js-to-string result)))
"[object Object]"))))
(str v))))))
(define
js-template-concat
@@ -1187,6 +1249,79 @@
(+ i 1)
(str acc (js-to-string (nth parts i)))))))
(define
js-big-int-str-loop
(fn
(n acc)
(if
(< n 1)
(if (= acc "") "0" acc)
(let
((d (floor (- n (* 10 (floor (/ n 10)))))))
(js-big-int-str-loop
(floor (/ n 10))
(str (js-string-slice "0123456789" d (+ d 1)) acc))))))
(define
js-find-decimal-k
(fn
(n k)
(if
(> k 17)
17
(let
((big-int (round (* n (js-pow-int 10 k)))))
(if
(= (/ big-int (js-pow-int 10 k)) n)
k
(js-find-decimal-k n (+ k 1)))))))
(define
js-format-decimal-digits
(fn
(digits k)
(if
(= k 0)
digits
(let
((dlen (len digits)))
(if
(> dlen k)
(str
(js-string-slice digits 0 (- dlen k))
"."
(js-string-slice digits (- dlen k) dlen))
(if
(= dlen k)
(str "0." digits)
(str "0." (js-string-repeat "0" (- k dlen)) digits)))))))
(define
js-expand-sci-notation
(fn
(mant exp-n)
(let
((di (js-string-index-of mant "." 0)))
(let
((int-part (if (< di 0) mant (js-string-slice mant 0 di)))
(frac-part
(if (< di 0) "" (js-string-slice mant (+ di 1) (len mant)))))
(let
((all-digits (str int-part frac-part))
(frac-len (if (< di 0) 0 (- (- (len mant) di) 1))))
(if
(>= exp-n 0)
(if
(>= exp-n frac-len)
(str all-digits (js-string-repeat "0" (- exp-n frac-len)))
(let
((dot-pos (+ (len int-part) exp-n)))
(str
(js-string-slice all-digits 0 dot-pos)
"."
(js-string-slice all-digits dot-pos (len all-digits)))))
(str "0." (js-string-repeat "0" (- (- 0 exp-n) 1)) all-digits)))))))
(define
js-number-to-string
(fn
@@ -1195,7 +1330,16 @@
((js-number-is-nan n) "NaN")
((= n (js-infinity-value)) "Infinity")
((= n (- 0 (js-infinity-value))) "-Infinity")
(else (js-normalize-num-str (str n))))))
(else
(let
((pos-n (if (< n 0) (- 0 n) n)))
(let
((s0 (js-normalize-num-str (str pos-n))))
(let
((n2 (js-to-number s0)))
(let
((precise (if (= n2 pos-n) (let ((ei (js-string-index-of s0 "e" 0))) (if (< ei 0) s0 (let ((exp-n (js-to-number (js-string-slice s0 (+ ei 1) (len s0))))) (if (and (>= exp-n -6) (<= exp-n 20)) (js-expand-sci-notation (js-string-slice s0 0 ei) exp-n) (if (>= exp-n 0) (str (js-string-slice s0 0 (+ ei 1)) "+" (str exp-n)) s0))))) (if (and (>= pos-n 1e-06) (< pos-n 1e+21)) (let ((k (js-find-decimal-k pos-n 0))) (let ((big-int (round (* pos-n (js-pow-int 10 k))))) (js-format-decimal-digits (js-big-int-str-loop big-int "") k))) (let ((ei (js-string-index-of s0 "e" 0))) (if (< ei 0) s0 (let ((exp-n (js-to-number (js-string-slice s0 (+ ei 1) (len s0))))) (if (>= exp-n 0) (str (js-string-slice s0 0 (+ ei 1)) "+" (str exp-n)) s0))))))))
(if (< n 0) (str "-" precise) precise)))))))))
(define
js-normalize-num-str
@@ -1259,6 +1403,15 @@
(define js-mod (fn (a b) (mod (js-to-number a) (js-to-number b))))
(define
js-unsigned-rshift
(fn
(l r)
(let
((lu32 (modulo (js-math-trunc (js-to-number l)) 4294967296))
(shift (modulo (js-math-trunc (js-to-number r)) 32)))
(floor (/ lu32 (js-math-pow 2 shift))))))
(define js-pow (fn (a b) (pow (js-to-number a) (js-to-number b))))
(define js-neg (fn (a) (- 0 (js-to-number a))))
@@ -1296,6 +1449,10 @@
(= (js-to-number a) b))
((= (type-of a) "boolean") (js-loose-eq (js-to-number a) b))
((= (type-of b) "boolean") (js-loose-eq a (js-to-number b)))
((and (dict? a) (contains? (keys a) "__js_string_value__"))
(js-loose-eq (get a "__js_string_value__") b))
((and (dict? b) (contains? (keys b) "__js_string_value__"))
(js-loose-eq a (get b "__js_string_value__")))
(else false))))
(define js-loose-neq (fn (a b) (not (js-loose-eq a b))))
@@ -1897,13 +2054,21 @@
(fn
(i)
(let
((idx (js-num-to-int i)))
((idx (js-num-to-int (js-to-number i))))
(if
(and (>= idx 0) (< idx (len s)))
(char-code (char-at s idx))
0))))
(and (>= idx 0) (< idx (unicode-len s)))
(unicode-char-code-at s idx)
(js-nan-value)))))
((= name "indexOf")
(fn (needle) (js-string-index-of s (js-to-string needle) 0)))
(fn
(&rest args)
(if
(empty? args)
-1
(js-string-index-of
s
(js-to-string (nth args 0))
(if (< (len args) 2) 0 (max 0 (js-num-to-int (nth args 1))))))))
((= name "slice")
(fn
(&rest args)
@@ -1927,7 +2092,16 @@
(js-string-slice s lo (min hi (len s)))))))
((= name "toUpperCase") (fn () (js-upper-case s)))
((= name "toLowerCase") (fn () (js-lower-case s)))
((= name "split") (fn (sep) (js-string-split s (js-to-string sep))))
((= name "split")
(fn
(&rest args)
(let
((sep (if (= (len args) 0) :js-undefined (nth args 0)))
(limit
(if (< (len args) 2) -1 (js-num-to-int (nth args 1)))))
(let
((result (js-string-split s (js-to-string sep))))
(if (< limit 0) result (js-list-take result limit))))))
((= name "concat")
(fn (&rest args) (js-string-concat-loop s args 0)))
((= name "includes")
@@ -2042,6 +2216,17 @@
(= idx -1)
nil
(let ((res (list))) (append! res needle) res))))))))
((= name "matchAll")
(fn
(&rest args)
(if
(empty? args)
(list)
(let
((needle (js-to-string (nth args 0))))
(let
((loop (fn (start acc) (let ((idx (js-string-index-of s needle start))) (if (= idx -1) acc (let ((m (list))) (begin (append! m needle) (dict-set! m "index" idx) (loop (+ idx (max 1 (len needle))) (begin (append! acc m) acc)))))))))
(loop 0 (list)))))))
((= name "at")
(fn
(i)
@@ -2068,7 +2253,14 @@
-1
(let
((needle (js-to-string (nth args 0))))
(js-string-last-index-of s needle (- (len s) (len needle)))))))
(let
((default-start (- (len s) (len needle)))
(from
(if (< (len args) 2) -1 (js-num-to-int (nth args 1)))))
(js-string-last-index-of
s
needle
(if (< from 0) default-start (min from default-start))))))))
((= name "localeCompare")
(fn
(&rest args)
@@ -2166,6 +2358,15 @@
((not (= (char-at s (+ si ni)) (char-at needle ni))) false)
(else (js-string-matches? s needle si (+ ni 1))))))
(define
js-list-take
(fn
(lst n)
(if
(or (<= n 0) (empty? lst))
(list)
(cons (first lst) (js-list-take (rest lst) (- n 1))))))
(define
js-string-split
(fn
@@ -2265,7 +2466,7 @@
(else js-undefined)))
((= (type-of obj) "string")
(cond
((= key "length") (len obj))
((= key "length") (unicode-len obj))
((= (type-of key) "number")
(if
(and (>= key 0) (< key (len obj)))
@@ -2306,7 +2507,13 @@
(js-string-method obj "toLocaleUpperCase"))
((= key "isWellFormed") (js-string-method obj "isWellFormed"))
((= key "toWellFormed") (js-string-method obj "toWellFormed"))
(else js-undefined)))
(else
(let
((proto (get String "prototype")))
(if
(and (dict? proto) (contains? (keys proto) key))
(get proto key)
js-undefined)))))
((= (type-of obj) "dict")
(js-dict-get-walk obj (js-to-string key)))
((and (= obj Promise) (dict-has? __js_promise_statics__ (js-to-string key)))
@@ -2480,7 +2687,49 @@
((n (js-to-number (first args))))
(js-math-hypot-loop (rest args) (+ acc (* n n)))))))
(define Math {:random js-math-random :trunc js-math-trunc :LN10 2.30259 :SQRT1_2 0.707107 :floor js-math-floor :PI 3.14159 :sqrt js-math-sqrt :hypot js-math-hypot :LOG2E 1.4427 :round js-math-round :ceil js-math-ceil :abs js-math-abs :pow js-math-pow :max js-math-max :LOG10E 0.434294 :SQRT2 1.41421 :cbrt js-math-cbrt :min js-math-min :sign js-math-sign :E 2.71828 :LN2 0.693147})
(begin
(define js-math-sin (fn (x) (sin (js-to-number x))))
(define js-math-cos (fn (x) (cos (js-to-number x))))
(define js-math-tan (fn (x) (tan (js-to-number x))))
(define js-math-asin (fn (x) (asin (js-to-number x))))
(define js-math-acos (fn (x) (acos (js-to-number x))))
(define js-math-atan (fn (x) (atan (js-to-number x))))
(define
js-math-atan2
(fn (y x) (atan2 (js-to-number y) (js-to-number x))))
(define js-math-sinh (fn (x) (sinh (js-to-number x))))
(define js-math-cosh (fn (x) (cosh (js-to-number x))))
(define js-math-tanh (fn (x) (tanh (js-to-number x))))
(define js-math-asinh (fn (x) (asinh (js-to-number x))))
(define js-math-acosh (fn (x) (acosh (js-to-number x))))
(define js-math-atanh (fn (x) (atanh (js-to-number x))))
(define js-math-exp (fn (x) (exp (js-to-number x))))
(define js-math-log (fn (x) (log (js-to-number x))))
(define js-math-log2 (fn (x) (log2 (js-to-number x))))
(define js-math-log10 (fn (x) (log10 (js-to-number x))))
(define js-math-expm1 (fn (x) (expm1 (js-to-number x))))
(define js-math-log1p (fn (x) (log1p (js-to-number x))))
(define
js-math-clz32
(fn
(&rest args)
(let
((x (if (empty? args) 0 (js-to-number (nth args 0)))))
(let
((n (modulo (floor x) 4294967296)))
(if (= n 0) 32 (- 31 (floor (log2 n))))))))
(define
js-math-imul
(fn
(a b)
(let
((a32 (modulo (floor (js-to-number a)) 4294967296))
(b32 (modulo (floor (js-to-number b)) 4294967296)))
(let
((result (modulo (* a32 b32) 4294967296)))
(if (>= result 2147483648) (- result 4294967296) result)))))
(define js-math-fround (fn (x) (js-to-number x)))
(define Math {:trunc js-math-trunc :expm1 js-math-expm1 :atan2 js-math-atan2 :PI 3.14159 :asinh js-math-asinh :acosh js-math-acosh :hypot js-math-hypot :LOG2E 1.4427 :atanh js-math-atanh :ceil js-math-ceil :pow js-math-pow :sin js-math-sin :max js-math-max :log2 js-math-log2 :SQRT2 1.41421 :cbrt js-math-cbrt :log1p js-math-log1p :fround js-math-fround :E 2.71828 :sinh js-math-sinh :random js-math-random :LN10 2.30259 :SQRT1_2 0.707107 :asin js-math-asin :clz32 js-math-clz32 :floor js-math-floor :exp js-math-exp :tan js-math-tan :sqrt js-math-sqrt :cosh js-math-cosh :log js-math-log :round js-math-round :abs js-math-abs :LOG10E 0.434294 :tanh js-math-tanh :acos js-math-acos :log10 js-math-log10 :min js-math-min :sign js-math-sign :LN2 0.693147 :cos js-math-cos :imul js-math-imul :atan js-math-atan}))
(define
js-number-is-finite
@@ -2524,6 +2773,52 @@
(dict-set! (get Number "prototype") "constructor" Number)
(dict-set!
Number
"__callable__"
(fn
(&rest args)
(let
((raw (if (= (len args) 0) 0 (js-to-number (nth args 0)))))
(let
((this-val (js-this)))
(if
(and
(dict? this-val)
(contains? (keys this-val) "__proto__")
(= (get this-val "__proto__") (get Number "prototype")))
(begin (dict-set! this-val "__js_number_value__" raw) this-val)
raw)))))
(dict-set!
(get Number "prototype")
"valueOf"
(fn
()
(let
((this-val (js-this)))
(if
(and
(dict? this-val)
(contains? (keys this-val) "__js_number_value__"))
(get this-val "__js_number_value__")
this-val))))
(dict-set!
(get Number "prototype")
"toString"
(fn
(&rest args)
(let
((this-raw (js-this)))
(let
((this-val (if (and (dict? this-raw) (contains? (keys this-raw) "__js_number_value__")) (get this-raw "__js_number_value__") this-raw)))
(let
((radix (if (empty? args) 10 (js-to-number (nth args 0)))))
(js-num-to-str-radix
this-val
(if (or (= radix nil) (js-undefined? radix)) 10 radix)))))))
(define isFinite js-global-is-finite)
(define isNaN js-global-is-nan)
@@ -2982,10 +3277,50 @@
(dict-set! Array "name" "Array")
(dict-set!
(get Array "prototype")
"toString"
(fn
(&rest args)
(let
((this-val (js-this)))
(let
((items (cond ((list? this-val) this-val) ((and (dict? this-val) (contains? (keys this-val) "length")) (js-arraylike-to-list this-val)) (else (list)))))
(js-list-join items ",")))))
(define
js-string-from-char-code
(fn (&rest args) (js-string-from-char-code-loop args 0 "")))
(define
js-string-from-code-point-loop
(fn
(args i acc)
(if
(>= i (len args))
acc
(let
((cp (floor (js-to-number (nth args i)))))
(if
(< cp 65536)
(js-string-from-code-point-loop
args
(+ i 1)
(str acc (js-code-to-char (js-num-to-int cp))))
(let
((hi (+ 55296 (floor (/ (- cp 65536) 1024))))
(lo (+ 56320 (modulo (- cp 65536) 1024))))
(js-string-from-code-point-loop
args
(+ i 1)
(str
(str acc (js-code-to-char (js-num-to-int hi)))
(js-code-to-char (js-num-to-int lo))))))))))
(define
js-string-from-code-point
(fn (&rest args) (js-string-from-code-point-loop args 0 "")))
(define
js-string-from-char-code-loop
(fn
@@ -2993,10 +3328,14 @@
(if
(>= i (len args))
acc
(js-string-from-char-code-loop
args
(+ i 1)
(str acc (js-code-to-char (js-num-to-int (nth args i))))))))
(let
((n (js-to-number (nth args i))))
(let
((code (if (js-global-is-nan n) 0 (modulo (js-math-trunc n) 65536))))
(js-string-from-char-code-loop
args
(+ i 1)
(str acc (char-from-code code))))))))
(define
js-string-proto-fn
@@ -3006,7 +3345,9 @@
(&rest args)
(let
((this-val (js-this)))
(js-invoke-method (js-to-string this-val) name args)))))
(let
((s (cond ((= (type-of this-val) "string") this-val) ((and (= (type-of this-val) "dict") (contains? (keys this-val) "__js_string_value__")) (get this-val "__js_string_value__")) (else "[object Object]"))))
(js-invoke-method s name args))))))
(define String {:fromCharCode js-string-from-char-code :__callable__ (fn (&rest args) (if (= (len args) 0) "" (js-to-string (nth args 0)))) :prototype {:toLowerCase (js-string-proto-fn "toLowerCase") :concat (js-string-proto-fn "concat") :startsWith (js-string-proto-fn "startsWith") :padEnd (js-string-proto-fn "padEnd") :codePointAt (js-string-proto-fn "codePointAt") :lastIndexOf (js-string-proto-fn "lastIndexOf") :indexOf (js-string-proto-fn "indexOf") :localeCompare (js-string-proto-fn "localeCompare") :split (js-string-proto-fn "split") :endsWith (js-string-proto-fn "endsWith") :trim (js-string-proto-fn "trim") :valueOf (js-string-proto-fn "valueOf") :at (js-string-proto-fn "at") :normalize (js-string-proto-fn "normalize") :substring (js-string-proto-fn "substring") :replaceAll (js-string-proto-fn "replaceAll") :repeat (js-string-proto-fn "repeat") :padStart (js-string-proto-fn "padStart") :search (js-string-proto-fn "search") :toUpperCase (js-string-proto-fn "toUpperCase") :trimEnd (js-string-proto-fn "trimEnd") :toString (js-string-proto-fn "toString") :toLocaleLowerCase (js-string-proto-fn "toLocaleLowerCase") :charCodeAt (js-string-proto-fn "charCodeAt") :slice (js-string-proto-fn "slice") :charAt (js-string-proto-fn "charAt") :match (js-string-proto-fn "match") :includes (js-string-proto-fn "includes") :trimStart (js-string-proto-fn "trimStart") :toLocaleUpperCase (js-string-proto-fn "toLocaleUpperCase") :replace (js-string-proto-fn "replace")} :raw (fn (&rest args) (if (empty? args) "" (js-to-string (nth args 0))))})
@@ -3016,12 +3357,85 @@
(dict-set! String "name" "String")
(dict-set! String "fromCodePoint" js-string-from-code-point)
(dict-set! String "fromCharCode" js-string-from-char-code)
(dict-set!
String
"__callable__"
(fn
(&rest args)
(let
((raw (if (= (len args) 0) "" (js-to-string (nth args 0)))))
(let
((this-val (js-this)))
(if
(and
(dict? this-val)
(contains? (keys this-val) "__proto__")
(= (get this-val "__proto__") (get String "prototype")))
(begin
(dict-set! this-val "__js_string_value__" raw)
(dict-set! this-val "length" (len raw))
this-val)
raw)))))
(define Boolean {:__callable__ (fn (&rest args) (if (= (len args) 0) false (js-to-boolean (nth args 0))))})
(dict-set!
(get String "prototype")
"matchAll"
(js-string-proto-fn "matchAll"))
(dict-set! Boolean "length" 1)
(dict-set! Boolean "name" "Boolean")
(dict-set! Boolean "prototype" {:constructor Boolean})
(dict-set!
Boolean
"__callable__"
(fn
(&rest args)
(let
((val (if (> (len args) 0) (js-to-boolean (nth args 0)) false)))
(let
((this-val (js-this)))
(if
(dict? this-val)
(begin
(dict-set! this-val "__js_boolean_value__" val)
(dict-set! this-val "__proto__" (get Boolean "prototype"))
this-val)
(if val true false))))))
(dict-set!
(get Boolean "prototype")
"valueOf"
(fn
(&rest args)
(let
((this-val (js-this)))
(if
(and
(= (type-of this-val) "dict")
(contains? (keys this-val) "__js_boolean_value__"))
(get this-val "__js_boolean_value__")
this-val))))
(dict-set!
(get Boolean "prototype")
"toString"
(fn
(&rest args)
(let
((this-val (js-this)))
(let
((b (if (and (= (type-of this-val) "dict") (contains? (keys this-val) "__js_boolean_value__")) (get this-val "__js_boolean_value__") this-val)))
(if b "true" "false")))))
(define
parseInt
(fn

30
lib/js/test.sh
View File

@@ -1323,6 +1323,25 @@ cat > "$TMPFILE" << 'EPOCHS'
(epoch 3505)
(eval "(js-eval \"var a = {length: 3, 0: 10, 1: 20, 2: 30}; var sum = 0; Array.prototype.forEach.call(a, function(x){sum += x;}); sum\")")
;; ── Phase 1.ASI: automatic semicolon insertion ─────────────────
(epoch 4200)
(eval "(js-eval \"function f() { return\n42\n} f()\")")
(epoch 4201)
(eval "(js-eval \"function g() { return 42 } g()\")")
(epoch 4202)
(eval "(let ((toks (js-tokenize \"a\nb\"))) (get (nth toks 1) :nl))")
(epoch 4203)
(eval "(let ((toks (js-tokenize \"a b\"))) (get (nth toks 1) :nl))")
(epoch 4300)
(eval "(js-eval \"var x = 5; x\")")
(epoch 4301)
(eval "(js-eval \"function f() { return x; var x = 42; } f()\")")
(epoch 4302)
(eval "(js-eval \"function f() { var y = 7; return y; } f()\")")
(epoch 4303)
(eval "(js-eval \"function f() { var z; z = 3; return z; } f()\")")
EPOCHS
@@ -2042,6 +2061,17 @@ check 3503 "indexOf.call arrLike" '1'
check 3504 "filter.call arrLike" '"2,3"'
check 3505 "forEach.call arrLike sum" '60'
# ── Phase 1.ASI: automatic semicolon insertion ────────────────────
check 4200 "return+newline → undefined" '"js-undefined"'
check 4201 "return+space+val → val" '42'
check 4202 "nl-before flag set after newline" 'true'
check 4203 "nl-before flag false on same line" 'false'
check 4300 "var decl program-level" '5'
check 4301 "var hoisted before use → undef" '"js-undefined"'
check 4302 "var in function body" '7'
check 4303 "var then set in function" '3'
TOTAL=$((PASS + FAIL))
if [ $FAIL -eq 0 ]; then
echo "$PASS/$TOTAL JS-on-SX tests passed"

102
lib/js/test262-scoreboard.json
View File

@@ -1,81 +1,39 @@
{
"totals": {
"pass": 162,
"fail": 128,
"skip": 1597,
"timeout": 10,
"total": 1897,
"runnable": 300,
"pass_rate": 54.0
"pass": 66,
"fail": 25,
"skip": 1130,
"timeout": 9,
"total": 1230,
"runnable": 100,
"pass_rate": 66.0
},
"categories": [
{
"category": "built-ins/Math",
"total": 327,
"pass": 43,
"fail": 56,
"skip": 227,
"timeout": 1,
"pass_rate": 43.0,
"top_failures": [
[
"TypeError: not a function",
36
],
[
"Test262Error (assertion failed)",
20
],
[
"Timeout",
1
]
]
},
{
"category": "built-ins/Number",
"total": 340,
"pass": 77,
"fail": 19,
"skip": 240,
"timeout": 4,
"pass_rate": 77.0,
"top_failures": [
[
"Test262Error (assertion failed)",
19
],
[
"Timeout",
4
]
]
},
{
"category": "built-ins/String",
"total": 1223,
"pass": 42,
"fail": 53,
"pass": 66,
"fail": 25,
"skip": 1123,
"timeout": 5,
"pass_rate": 42.0,
"timeout": 9,
"pass_rate": 66.0,
"top_failures": [
[
"Test262Error (assertion failed)",
44
14
],
[
"Timeout",
5
9
],
[
"TypeError: not a function",
6
],
[
"ReferenceError (undefined symbol)",
2
],
[
"Unhandled: Not callable: {:__proto__ {:toLowerCase <lambda(&rest, args)",
2
],
[
"Unhandled: Not callable: \\\\\\",
2
@@ -96,24 +54,20 @@
"top_failure_modes": [
[
"Test262Error (assertion failed)",
83
],
[
"TypeError: not a function",
36
14
],
[
"Timeout",
10
9
],
[
"TypeError: not a function",
6
],
[
"ReferenceError (undefined symbol)",
2
],
[
"Unhandled: Not callable: {:__proto__ {:toLowerCase <lambda(&rest, args)",
2
],
[
"Unhandled: Not callable: \\\\\\",
2
@@ -121,17 +75,9 @@
[
"SyntaxError (parse/unsupported syntax)",
1
],
[
"Unhandled: Not callable: {:__proto__ {:valueOf <lambda()> :propertyIsEn",
1
],
[
"Unhandled: js-transpile-binop: unsupported op: >>>\\",
1
]
],
"pinned_commit": "d5e73fc8d2c663554fb72e2380a8c2bc1a318a33",
"elapsed_seconds": 274.5,
"elapsed_seconds": 157.9,
"workers": 1
}

36
lib/js/test262-scoreboard.md
View File

@@ -1,47 +1,31 @@
# test262 scoreboard
Pinned commit: `d5e73fc8d2c663554fb72e2380a8c2bc1a318a33`
Wall time: 274.5s
Wall time: 157.9s
**Total:** 162/300 runnable passed (54.0%). Raw: pass=162 fail=128 skip=1597 timeout=10 total=1897.
**Total:** 66/100 runnable passed (66.0%). Raw: pass=66 fail=25 skip=1130 timeout=9 total=1230.
## Top failure modes
- **83x** Test262Error (assertion failed)
- **36x** TypeError: not a function
- **10x** Timeout
- **14x** Test262Error (assertion failed)
- **9x** Timeout
- **6x** TypeError: not a function
- **2x** ReferenceError (undefined symbol)
- **2x** Unhandled: Not callable: {:__proto__ {:toLowerCase <lambda(&rest, args)
- **2x** Unhandled: Not callable: \\\
- **1x** SyntaxError (parse/unsupported syntax)
- **1x** Unhandled: Not callable: {:__proto__ {:valueOf <lambda()> :propertyIsEn
- **1x** Unhandled: js-transpile-binop: unsupported op: >>>\
## Categories (worst pass-rate first, min 10 runnable)
| Category | Pass | Fail | Skip | Timeout | Total | Pass % |
|---|---:|---:|---:|---:|---:|---:|
| built-ins/String | 42 | 53 | 1123 | 5 | 1223 | 42.0% |
| built-ins/Math | 43 | 56 | 227 | 1 | 327 | 43.0% |
| built-ins/Number | 77 | 19 | 240 | 4 | 340 | 77.0% |
| built-ins/String | 66 | 25 | 1123 | 9 | 1223 | 66.0% |
## Per-category top failures (min 10 runnable, worst first)
### built-ins/String (42/100 — 42.0%)
### built-ins/String (66/100 — 66.0%)
- **44x** Test262Error (assertion failed)
- **5x** Timeout
- **14x** Test262Error (assertion failed)
- **9x** Timeout
- **6x** TypeError: not a function
- **2x** ReferenceError (undefined symbol)
- **2x** Unhandled: Not callable: {:__proto__ {:toLowerCase <lambda(&rest, args)
- **2x** Unhandled: Not callable: \\\
### built-ins/Math (43/100 — 43.0%)
- **36x** TypeError: not a function
- **20x** Test262Error (assertion failed)
- **1x** Timeout
### built-ins/Number (77/100 — 77.0%)
- **19x** Test262Error (assertion failed)
- **4x** Timeout

56
lib/js/transpile.sx
View File

@@ -295,6 +295,11 @@
(list (js-sym "js-undefined?") (js-sym "_a")))
(js-transpile r)
(js-sym "_a"))))
((= op ">>>")
(list
(js-sym "js-unsigned-rshift")
(js-transpile l)
(js-transpile r)))
(else (error (str "js-transpile-binop: unsupported op: " op))))))
;; ── Object literal ────────────────────────────────────────────────
@@ -486,6 +491,51 @@
(append inits (list (js-transpile body))))))))
(list (js-sym "fn") param-syms body-tr))))
(define
js-collect-var-decl-names
(fn
(decls)
(cond
((empty? decls) (list))
((js-tag? (first decls) "js-vardecl")
(cons
(nth (first decls) 1)
(js-collect-var-decl-names (rest decls))))
(else (js-collect-var-decl-names (rest decls))))))
(define
js-collect-var-names
(fn
(stmts)
(cond
((empty? stmts) (list))
((and (list? (first stmts)) (js-tag? (first stmts) "js-var") (= (nth (first stmts) 1) "var"))
(append
(js-collect-var-decl-names (nth (first stmts) 2))
(js-collect-var-names (rest stmts))))
(else (js-collect-var-names (rest stmts))))))
(define
js-dedup-names
(fn
(names seen)
(cond
((empty? names) (list))
((some (fn (s) (= s (first names))) seen)
(js-dedup-names (rest names) seen))
(else
(cons
(first names)
(js-dedup-names (rest names) (cons (first names) seen)))))))
(define
js-var-hoist-forms
(fn
(names)
(map
(fn (name) (list (js-sym "define") (js-sym name) :js-undefined))
names)))
(define
js-transpile-tpl
(fn
@@ -876,7 +926,7 @@
(fn
(stmts)
(let
((hoisted (js-collect-funcdecls stmts)))
((hoisted (append (js-var-hoist-forms (js-dedup-names (js-collect-var-names stmts) (list))) (js-collect-funcdecls stmts))))
(let
((rest-stmts (js-transpile-stmt-list stmts)))
(cons (js-sym "begin") (append hoisted rest-stmts))))))
@@ -1297,7 +1347,7 @@
(if
(and (list? body) (js-tag? body "js-block"))
(let
((hoisted (js-collect-funcdecls (nth body 1))))
((hoisted (append (js-var-hoist-forms (js-dedup-names (js-collect-var-names (nth body 1)) (list))) (js-collect-funcdecls (nth body 1)))))
(append hoisted (js-transpile-stmt-list (nth body 1))))
(list (js-transpile body)))))
(list
@@ -1333,7 +1383,7 @@
(if
(and (list? body) (js-tag? body "js-block"))
(let
((hoisted (js-collect-funcdecls (nth body 1))))
((hoisted (append (js-var-hoist-forms (js-dedup-names (js-collect-var-names (nth body 1)) (list))) (js-collect-funcdecls (nth body 1)))))
(append hoisted (js-transpile-stmt-list (nth body 1))))
(list (js-transpile body)))))
(list

176
lib/prolog/compiler.sx
View File

@@ -1,176 +0,0 @@
;; lib/prolog/compiler.sx — clause compiler: parse-AST clauses → SX closures
;;
;; Each compiled clause is a lambda (fn (goal trail db cut-box k) bool)
;; that creates fresh vars, builds the instantiated head/body, and calls
;; pl-unify! + pl-solve! directly — no AST walk at solve time.
;;
;; Usage:
;; (pl-db-load! db (pl-parse src))
;; (pl-compile-db! db)
;; ; pl-solve-user! in runtime.sx automatically prefers compiled clauses
;; (pl-solve-once! db goal trail)
;; Collect unique variable names from a parse-AST clause into a dict.
(define
pl-cmp-vars-into!
(fn
(ast seen)
(cond
((not (list? ast)) nil)
((empty? ast) nil)
((= (first ast) "var")
(let
((name (nth ast 1)))
(when
(and (not (= name "_")) (not (dict-has? seen name)))
(dict-set! seen name true))))
((= (first ast) "compound")
(for-each (fn (a) (pl-cmp-vars-into! a seen)) (nth ast 2)))
((= (first ast) "clause")
(begin
(pl-cmp-vars-into! (nth ast 1) seen)
(pl-cmp-vars-into! (nth ast 2) seen))))))
;; Return list of unique var names in a clause (head + body, excluding _).
(define
pl-cmp-collect-vars
(fn
(clause)
(let ((seen {})) (pl-cmp-vars-into! clause seen) (keys seen))))
;; Create a fresh runtime var for each name in the list; return name->var dict.
(define
pl-cmp-make-var-map
(fn
(var-names)
(let
((m {}))
(for-each
(fn (name) (dict-set! m name (pl-mk-rt-var name)))
var-names)
m)))
;; Instantiate a parse-AST term using a pre-built var-map.
;; ("var" "_") always gets a fresh anonymous var.
(define
pl-cmp-build-term
(fn
(ast var-map)
(cond
((pl-var? ast) ast)
((not (list? ast)) ast)
((empty? ast) ast)
((= (first ast) "var")
(let
((name (nth ast 1)))
(if (= name "_") (pl-mk-rt-var "_") (dict-get var-map name))))
((or (= (first ast) "atom") (= (first ast) "num") (= (first ast) "str"))
ast)
((= (first ast) "compound")
(list
"compound"
(nth ast 1)
(map (fn (a) (pl-cmp-build-term a var-map)) (nth ast 2))))
((= (first ast) "clause")
(list
"clause"
(pl-cmp-build-term (nth ast 1) var-map)
(pl-cmp-build-term (nth ast 2) var-map)))
(true ast))))
;; Compile one parse-AST clause to a lambda.
;; Pre-computes var names at compile time; creates fresh vars per call.
(define
pl-compile-clause
(fn
(clause)
(let
((var-names (pl-cmp-collect-vars clause))
(head-ast (nth clause 1))
(body-ast (nth clause 2)))
(fn
(goal trail db cut-box k)
(let
((var-map (pl-cmp-make-var-map var-names)))
(let
((fresh-head (pl-cmp-build-term head-ast var-map))
(fresh-body (pl-cmp-build-term body-ast var-map)))
(let
((mark (pl-trail-mark trail)))
(if
(pl-unify! goal fresh-head trail)
(let
((r (pl-solve! db fresh-body trail cut-box k)))
(if r true (begin (pl-trail-undo-to! trail mark) false)))
(begin (pl-trail-undo-to! trail mark) false)))))))))
;; Try a list of compiled clause lambdas — same cut semantics as pl-try-clauses!.
(define
pl-try-compiled-clauses!
(fn
(db
goal
trail
compiled-clauses
outer-cut-box
outer-was-cut
inner-cut-box
k)
(cond
((empty? compiled-clauses) false)
(true
(let
((r ((first compiled-clauses) goal trail db inner-cut-box k)))
(cond
(r true)
((dict-get inner-cut-box :cut) false)
((and (not outer-was-cut) (dict-get outer-cut-box :cut)) false)
(true
(pl-try-compiled-clauses!
db
goal
trail
(rest compiled-clauses)
outer-cut-box
outer-was-cut
inner-cut-box
k))))))))
;; Compile all clauses in DB and store in :compiled table.
;; After this call, pl-solve-user! will dispatch via compiled lambdas.
;; Note: clauses assert!-ed after this call are not compiled.
(define
pl-compile-db!
(fn
(db)
(let
((src-table (dict-get db :clauses)) (compiled-table {}))
(for-each
(fn
(key)
(dict-set!
compiled-table
key
(map pl-compile-clause (dict-get src-table key))))
(keys src-table))
(dict-set! db :compiled compiled-table)
db)))
;; Cross-validate: load src into both a plain and a compiled DB,
;; run goal-str through each, return true iff solution counts match.
;; Use this to keep the interpreter as the reference implementation.
(define
pl-compiled-matches-interp?
(fn
(src goal-str)
(let
((db-interp (pl-mk-db)) (db-comp (pl-mk-db)))
(pl-db-load! db-interp (pl-parse src))
(pl-db-load! db-comp (pl-parse src))
(pl-compile-db! db-comp)
(let
((gi (pl-instantiate (pl-parse-goal goal-str) {}))
(gc (pl-instantiate (pl-parse-goal goal-str) {})))
(=
(pl-solve-count! db-interp gi (pl-mk-trail))
(pl-solve-count! db-comp gc (pl-mk-trail)))))))

126
lib/prolog/conformance.sh
View File

@@ -1,126 +0,0 @@
#!/usr/bin/env bash
# Run every Prolog test suite via sx_server and refresh scoreboard.{json,md}.
# Exit 0 if all green, 1 if any failures.
set -euo pipefail
HERE="$(cd "$(dirname "$0")" && pwd)"
ROOT="$(cd "$HERE/../.." && pwd)"
SX="${SX_SERVER:-/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe}"
if [[ ! -x "$SX" ]]; then
echo "sx_server not found at $SX (set SX_SERVER env to override)" >&2
exit 2
fi
cd "$ROOT"
# name : test-file : runner-fn
SUITES=(
"parse:lib/prolog/tests/parse.sx:pl-parse-tests-run!"
"unify:lib/prolog/tests/unify.sx:pl-unify-tests-run!"
"clausedb:lib/prolog/tests/clausedb.sx:pl-clausedb-tests-run!"
"solve:lib/prolog/tests/solve.sx:pl-solve-tests-run!"
"operators:lib/prolog/tests/operators.sx:pl-operators-tests-run!"
"dynamic:lib/prolog/tests/dynamic.sx:pl-dynamic-tests-run!"
"findall:lib/prolog/tests/findall.sx:pl-findall-tests-run!"
"term_inspect:lib/prolog/tests/term_inspect.sx:pl-term-inspect-tests-run!"
"append:lib/prolog/tests/programs/append.sx:pl-append-tests-run!"
"reverse:lib/prolog/tests/programs/reverse.sx:pl-reverse-tests-run!"
"member:lib/prolog/tests/programs/member.sx:pl-member-tests-run!"
"nqueens:lib/prolog/tests/programs/nqueens.sx:pl-nqueens-tests-run!"
"family:lib/prolog/tests/programs/family.sx:pl-family-tests-run!"
"atoms:lib/prolog/tests/atoms.sx:pl-atom-tests-run!"
"query_api:lib/prolog/tests/query_api.sx:pl-query-api-tests-run!"
"iso_predicates:lib/prolog/tests/iso_predicates.sx:pl-iso-predicates-tests-run!"
"meta_predicates:lib/prolog/tests/meta_predicates.sx:pl-meta-predicates-tests-run!"
"list_predicates:lib/prolog/tests/list_predicates.sx:pl-list-predicates-tests-run!"
"meta_call:lib/prolog/tests/meta_call.sx:pl-meta-call-tests-run!"
"set_predicates:lib/prolog/tests/set_predicates.sx:pl-set-predicates-tests-run!"
"char_predicates:lib/prolog/tests/char_predicates.sx:pl-char-predicates-tests-run!"
"io_predicates:lib/prolog/tests/io_predicates.sx:pl-io-predicates-tests-run!"
"assert_rules:lib/prolog/tests/assert_rules.sx:pl-assert-rules-tests-run!"
"string_agg:lib/prolog/tests/string_agg.sx:pl-string-agg-tests-run!"
"advanced:lib/prolog/tests/advanced.sx:pl-advanced-tests-run!"
"compiler:lib/prolog/tests/compiler.sx:pl-compiler-tests-run!"
"cross_validate:lib/prolog/tests/cross_validate.sx:pl-cross-validate-tests-run!"
)
SCRIPT='(epoch 1)
(load "lib/prolog/tokenizer.sx")
(load "lib/prolog/parser.sx")
(load "lib/prolog/runtime.sx")
(load "lib/prolog/query.sx")
(load "lib/prolog/compiler.sx")'
for entry in "${SUITES[@]}"; do
IFS=: read -r _ file _ <<< "$entry"
SCRIPT+=$'\n(load "'"$file"$'")'
done
for entry in "${SUITES[@]}"; do
IFS=: read -r _ _ fn <<< "$entry"
SCRIPT+=$'\n(eval "('"$fn"$')")'
done
OUTPUT="$(printf '%s\n' "$SCRIPT" | "$SX" 2>&1)"
mapfile -t LINES < <(printf '%s\n' "$OUTPUT" | grep -E '^\{:failed')
if [[ ${#LINES[@]} -ne ${#SUITES[@]} ]]; then
echo "Expected ${#SUITES[@]} suite results, got ${#LINES[@]}" >&2
echo "---- raw output ----" >&2
printf '%s\n' "$OUTPUT" >&2
exit 3
fi
TOTAL_PASS=0
TOTAL_FAIL=0
TOTAL=0
JSON_SUITES=""
MD_ROWS=""
for i in "${!SUITES[@]}"; do
IFS=: read -r name _ _ <<< "${SUITES[$i]}"
line="${LINES[$i]}"
passed=$(grep -oE ':passed [0-9]+' <<< "$line" | grep -oE '[0-9]+')
total=$(grep -oE ':total [0-9]+' <<< "$line" | grep -oE '[0-9]+')
failed=$(grep -oE ':failed [0-9]+' <<< "$line" | grep -oE '[0-9]+')
TOTAL_PASS=$((TOTAL_PASS + passed))
TOTAL_FAIL=$((TOTAL_FAIL + failed))
TOTAL=$((TOTAL + total))
status="ok"
[[ "$failed" -gt 0 ]] && status="FAIL"
[[ -n "$JSON_SUITES" ]] && JSON_SUITES+=","
JSON_SUITES+="\"$name\":{\"passed\":$passed,\"total\":$total,\"failed\":$failed}"
MD_ROWS+="| $name | $passed | $total | $status |"$'\n'
done
WHEN="$(date -Iseconds 2>/dev/null || date)"
cat > "$HERE/scoreboard.json" <<JSON
{
"total_passed": $TOTAL_PASS,
"total_failed": $TOTAL_FAIL,
"total": $TOTAL,
"suites": {$JSON_SUITES},
"generated": "$WHEN"
}
JSON
cat > "$HERE/scoreboard.md" <<MD
# Prolog scoreboard
**$TOTAL_PASS / $TOTAL passing** ($TOTAL_FAIL failure(s)).
Generated $WHEN.
| Suite | Passed | Total | Status |
|-------|--------|-------|--------|
$MD_ROWS
Run \`bash lib/prolog/conformance.sh\` to refresh. Override the binary
with \`SX_SERVER=path/to/sx_server.exe bash …\`.
MD
if [[ "$TOTAL_FAIL" -gt 0 ]]; then
echo "$TOTAL_FAIL failure(s) across $TOTAL tests" >&2
exit 1
fi
echo "All $TOTAL tests pass."

195
lib/prolog/parser.sx
View File

@@ -1,20 +1,28 @@
;; lib/prolog/parser.sx — tokens → Prolog AST
;;
;; Phase 4 grammar (with operator table):
;; Phase 1 grammar (NO operator table yet):
;; Program := Clause* EOF
;; Clause := Term[999] "." | Term[999] ":-" Term[1200] "."
;; Term[Pmax] uses precedence climbing on the operator table:
;; primary = Atom | Var | Number | String | Compound | List | "(" Term[1200] ")"
;; while next token is infix op `op` with prec(op) ≤ Pmax:
;; consume op; parse rhs at right-prec(op); fold into compound(op-name,[lhs,rhs])
;; Clause := Term "." | Term ":-" Term "."
;; Term := Atom | Var | Number | String | Compound | List
;; Compound := atom "(" ArgList ")"
;; ArgList := Term ("," Term)*
;; List := "[" "]" | "[" Term ("," Term)* ("|" Term)? "]"
;;
;; Op type → right-prec for op at precedence P:
;; xfx → P-1 strict-both
;; xfy → P right-associative
;; yfx → P-1 left-associative
;; Term AST shapes (all tagged lists for uniform dispatch):
;; ("atom" name) — atom
;; ("var" name) — variable template (parser-time only)
;; ("num" value) — integer or float
;; ("str" value) — string literal
;; ("compound" functor args) — compound term, args is list of term-ASTs
;; ("cut") — the cut atom !
;;
;; AST shapes are unchanged — operators just become compound terms.
;; A clause is (list "clause" head body). A fact is head with body = ("atom" "true").
;;
;; The empty list is (atom "[]"). Cons is compound "." with two args:
;; [1, 2, 3] → .(1, .(2, .(3, [])))
;; [H|T] → .(H, T)
;; ── Parser state helpers ────────────────────────────────────────────
(define
pp-peek
(fn
@@ -58,6 +66,7 @@
(if (= (get t :value) nil) "" (get t :value))
"'"))))))
;; ── AST constructors ────────────────────────────────────────────────
(define pl-mk-atom (fn (name) (list "atom" name)))
(define pl-mk-var (fn (name) (list "var" name)))
(define pl-mk-num (fn (n) (list "num" n)))
@@ -65,14 +74,18 @@
(define pl-mk-compound (fn (f args) (list "compound" f args)))
(define pl-mk-cut (fn () (list "cut")))
;; Term tag extractors
(define pl-term-tag (fn (t) (if (list? t) (first t) nil)))
(define pl-term-val (fn (t) (nth t 1)))
(define pl-compound-functor (fn (t) (nth t 1)))
(define pl-compound-args (fn (t) (nth t 2)))
;; Empty-list atom and cons helpers
(define pl-nil-term (fn () (pl-mk-atom "[]")))
(define pl-mk-cons (fn (h t) (pl-mk-compound "." (list h t))))
;; Build cons list from a list of terms + optional tail
(define
pl-mk-list-term
(fn
@@ -82,61 +95,9 @@
tail
(pl-mk-cons (first items) (pl-mk-list-term (rest items) tail)))))
;; ── Operator table (Phase 4) ──────────────────────────────────────
;; Each entry: (name precedence type). Type ∈ "xfx" "xfy" "yfx".
(define
pl-op-table
(list
(list "," 1000 "xfy")
(list ";" 1100 "xfy")
(list "->" 1050 "xfy")
(list "=" 700 "xfx")
(list "\\=" 700 "xfx")
(list "is" 700 "xfx")
(list "<" 700 "xfx")
(list ">" 700 "xfx")
(list "=<" 700 "xfx")
(list ">=" 700 "xfx")
(list "+" 500 "yfx")
(list "-" 500 "yfx")
(list "*" 400 "yfx")
(list "/" 400 "yfx")
(list ":-" 1200 "xfx")
(list "mod" 400 "yfx")))
(define
pl-op-find
(fn
(name table)
(cond
((empty? table) nil)
((= (first (first table)) name) (rest (first table)))
(true (pl-op-find name (rest table))))))
(define pl-op-lookup (fn (name) (pl-op-find name pl-op-table)))
;; Token → (name prec type) for known infix ops, else nil.
(define
pl-token-op
(fn
(t)
(let
((ty (get t :type)) (vv (get t :value)))
(cond
((and (= ty "punct") (= vv ","))
(let
((info (pl-op-lookup ",")))
(if (nil? info) nil (cons "," info))))
((or (= ty "atom") (= ty "op"))
(let
((info (pl-op-lookup vv)))
(if (nil? info) nil (cons vv info))))
(true nil)))))
;; ── Term parser ─────────────────────────────────────────────────────
;; Primary term: atom, var, num, str, compound (atom + paren), list, cut, parens.
(define
pp-parse-primary
pp-parse-term
(fn
(st)
(let
@@ -150,12 +111,6 @@
((and (= ty "op") (= vv "!"))
(do (pp-advance! st) (pl-mk-cut)))
((and (= ty "punct") (= vv "[")) (pp-parse-list st))
((and (= ty "punct") (= vv "("))
(do
(pp-advance! st)
(let
((inner (pp-parse-term-prec st 1200)))
(do (pp-expect! st "punct" ")") inner))))
((= ty "atom")
(do
(pp-advance! st)
@@ -178,51 +133,13 @@
(if (= vv nil) "" vv)
"'"))))))))
;; Operator-aware term parser: precedence climbing.
(define
pp-parse-term-prec
(fn
(st max-prec)
(let ((left (pp-parse-primary st))) (pp-parse-op-rhs st left max-prec))))
(define
pp-parse-op-rhs
(fn
(st left max-prec)
(let
((op-info (pl-token-op (pp-peek st))))
(cond
((nil? op-info) left)
(true
(let
((name (first op-info))
(prec (nth op-info 1))
(ty (nth op-info 2)))
(cond
((> prec max-prec) left)
(true
(let
((right-prec (if (= ty "xfy") prec (- prec 1))))
(do
(pp-advance! st)
(let
((right (pp-parse-term-prec st right-prec)))
(pp-parse-op-rhs
st
(pl-mk-compound name (list left right))
max-prec))))))))))))
;; Backwards-compat alias.
(define pp-parse-term (fn (st) (pp-parse-term-prec st 999)))
;; Args inside parens: parse at prec 999 so comma-as-operator (1000)
;; is not consumed; the explicit comma loop handles separation.
;; Parse one or more comma-separated terms (arguments).
(define
pp-parse-arg-list
(fn
(st)
(let
((first-arg (pp-parse-term-prec st 999)) (args (list)))
((first-arg (pp-parse-term st)) (args (list)))
(do
(append! args first-arg)
(define
@@ -233,12 +150,12 @@
(pp-at? st "punct" ",")
(do
(pp-advance! st)
(append! args (pp-parse-term-prec st 999))
(append! args (pp-parse-term st))
(loop)))))
(loop)
args))))
;; List literal.
;; Parse a [ ... ] list literal. Consumes the "[".
(define
pp-parse-list
(fn
@@ -251,7 +168,7 @@
(let
((items (list)))
(do
(append! items (pp-parse-term-prec st 999))
(append! items (pp-parse-term st))
(define
comma-loop
(fn
@@ -260,17 +177,52 @@
(pp-at? st "punct" ",")
(do
(pp-advance! st)
(append! items (pp-parse-term-prec st 999))
(append! items (pp-parse-term st))
(comma-loop)))))
(comma-loop)
(let
((tail (if (pp-at? st "punct" "|") (do (pp-advance! st) (pp-parse-term-prec st 999)) (pl-nil-term))))
((tail (if (pp-at? st "punct" "|") (do (pp-advance! st) (pp-parse-term st)) (pl-nil-term))))
(do (pp-expect! st "punct" "]") (pl-mk-list-term items tail)))))))))
;; ── Body parsing ────────────────────────────────────────────────────
;; A body is a single term parsed at prec 1200 — operator parser folds
;; `,`, `;`, `->` automatically into right-associative compounds.
(define pp-parse-body (fn (st) (pp-parse-term-prec st 1200)))
;; A clause body is a comma-separated list of goals. We flatten into a
;; right-associative `,` compound: (A, B, C) → ','(A, ','(B, C))
;; If only one goal, it's that goal directly.
(define
pp-parse-body
(fn
(st)
(let
((first-goal (pp-parse-term st)) (rest-goals (list)))
(do
(define
gloop
(fn
()
(when
(pp-at? st "punct" ",")
(do
(pp-advance! st)
(append! rest-goals (pp-parse-term st))
(gloop)))))
(gloop)
(if
(= (len rest-goals) 0)
first-goal
(pp-build-conj first-goal rest-goals))))))
(define
pp-build-conj
(fn
(first-goal rest-goals)
(if
(= (len rest-goals) 0)
first-goal
(pl-mk-compound
","
(list
first-goal
(pp-build-conj (first rest-goals) (rest rest-goals)))))))
;; ── Clause parsing ──────────────────────────────────────────────────
(define
@@ -278,11 +230,12 @@
(fn
(st)
(let
((head (pp-parse-term-prec st 999)))
((head (pp-parse-term st)))
(let
((body (if (pp-at? st "op" ":-") (do (pp-advance! st) (pp-parse-body st)) (pl-mk-atom "true"))))
(do (pp-expect! st "punct" ".") (list "clause" head body))))))
;; Parse an entire program — returns list of clauses.
(define
pl-parse-program
(fn
@@ -300,9 +253,13 @@
(ploop)
clauses))))
;; Parse a single query term (no trailing "."). Returns the term.
(define
pl-parse-query
(fn (tokens) (let ((st {:idx 0 :tokens tokens})) (pp-parse-body st))))
;; Convenience: source → clauses
(define pl-parse (fn (src) (pl-parse-program (pl-tokenize src))))
;; Convenience: source → query term
(define pl-parse-goal (fn (src) (pl-parse-query (pl-tokenize src))))

114
lib/prolog/query.sx
View File

@@ -1,114 +0,0 @@
;; lib/prolog/query.sx — high-level Prolog query API for SX/Hyperscript callers.
;;
;; Requires tokenizer.sx, parser.sx, runtime.sx to be loaded first.
;;
;; Public API:
;; (pl-load source-str) → db
;; (pl-query-all db query-str) → list of solution dicts {var-name → term-string}
;; (pl-query-one db query-str) → first solution dict or nil
;; (pl-query source-str query-str) → list of solution dicts (convenience)
;; Collect variable name strings from a parse-time AST (pre-instantiation).
;; Returns list of unique strings, excluding anonymous "_".
(define
pl-query-extract-vars
(fn
(ast)
(let
((seen {}))
(let
((collect!
(fn
(t)
(cond
((not (list? t)) nil)
((empty? t) nil)
((= (first t) "var")
(if
(not (= (nth t 1) "_"))
(dict-set! seen (nth t 1) true)
nil))
((= (first t) "compound")
(for-each collect! (nth t 2)))
(true nil)))))
(collect! ast)
(keys seen)))))
;; Build a solution dict from a var-env after a successful solve.
;; Maps each variable name string to its formatted term value.
(define
pl-query-solution-dict
(fn
(var-names var-env)
(let
((d {}))
(for-each
(fn (name) (dict-set! d name (pl-format-term (dict-get var-env name))))
var-names)
d)))
;; Parse source-str and load clauses into a fresh DB.
;; Returns the DB for reuse across multiple queries.
(define
pl-load
(fn
(source-str)
(let
((db (pl-mk-db)))
(if
(and (string? source-str) (not (= source-str "")))
(pl-db-load! db (pl-parse source-str))
nil)
db)))
;; Run query-str against db, returning a list of solution dicts.
;; Each dict maps variable name strings to their formatted term values.
;; Returns an empty list if no solutions.
(define
pl-query-all
(fn
(db query-str)
(let
((parsed (pl-parse (str "q_ :- " query-str "."))))
(let
((body-ast (nth (first parsed) 2)))
(let
((var-names (pl-query-extract-vars body-ast))
(var-env {}))
(let
((goal (pl-instantiate body-ast var-env))
(trail (pl-mk-trail))
(solutions (list)))
(let
((mark (pl-trail-mark trail)))
(pl-solve!
db
goal
trail
{:cut false}
(fn
()
(begin
(append!
solutions
(pl-query-solution-dict var-names var-env))
false)))
(pl-trail-undo-to! trail mark)
solutions)))))))
;; Return the first solution dict, or nil if no solutions.
(define
pl-query-one
(fn
(db query-str)
(let
((all (pl-query-all db query-str)))
(if (empty? all) nil (first all)))))
;; Convenience: parse source-str, then run query-str against it.
;; Returns a list of solution dicts. Creates a fresh DB each call.
(define
pl-query
(fn
(source-str query-str)
(pl-query-all (pl-load source-str) query-str)))

2562
lib/prolog/runtime.sx
View File

File diff suppressed because it is too large Load Diff

7
lib/prolog/scoreboard.json
View File

@@ -1,7 +0,0 @@
{
"total_passed": 517,
"total_failed": 0,
"total": 517,
"suites": {"parse":{"passed":25,"total":25,"failed":0},"unify":{"passed":47,"total":47,"failed":0},"clausedb":{"passed":14,"total":14,"failed":0},"solve":{"passed":62,"total":62,"failed":0},"operators":{"passed":19,"total":19,"failed":0},"dynamic":{"passed":11,"total":11,"failed":0},"findall":{"passed":11,"total":11,"failed":0},"term_inspect":{"passed":14,"total":14,"failed":0},"append":{"passed":6,"total":6,"failed":0},"reverse":{"passed":6,"total":6,"failed":0},"member":{"passed":7,"total":7,"failed":0},"nqueens":{"passed":6,"total":6,"failed":0},"family":{"passed":10,"total":10,"failed":0},"atoms":{"passed":34,"total":34,"failed":0},"query_api":{"passed":16,"total":16,"failed":0},"iso_predicates":{"passed":29,"total":29,"failed":0},"meta_predicates":{"passed":25,"total":25,"failed":0},"list_predicates":{"passed":33,"total":33,"failed":0},"meta_call":{"passed":15,"total":15,"failed":0},"set_predicates":{"passed":15,"total":15,"failed":0},"char_predicates":{"passed":27,"total":27,"failed":0},"io_predicates":{"passed":24,"total":24,"failed":0},"assert_rules":{"passed":15,"total":15,"failed":0},"string_agg":{"passed":25,"total":25,"failed":0},"advanced":{"passed":21,"total":21,"failed":0}},
"generated": "2026-04-25T14:12:52+00:00"
}

35
lib/prolog/scoreboard.md
View File

@@ -1,35 +0,0 @@
# Prolog scoreboard
**517 / 517 passing** (0 failure(s)).
Generated 2026-04-25T14:12:52+00:00.
| Suite | Passed | Total | Status |
|-------|--------|-------|--------|
| parse | 25 | 25 | ok |
| unify | 47 | 47 | ok |
| clausedb | 14 | 14 | ok |
| solve | 62 | 62 | ok |
| operators | 19 | 19 | ok |
| dynamic | 11 | 11 | ok |
| findall | 11 | 11 | ok |
| term_inspect | 14 | 14 | ok |
| append | 6 | 6 | ok |
| reverse | 6 | 6 | ok |
| member | 7 | 7 | ok |
| nqueens | 6 | 6 | ok |
| family | 10 | 10 | ok |
| atoms | 34 | 34 | ok |
| query_api | 16 | 16 | ok |
| iso_predicates | 29 | 29 | ok |
| meta_predicates | 25 | 25 | ok |
| list_predicates | 33 | 33 | ok |
| meta_call | 15 | 15 | ok |
| set_predicates | 15 | 15 | ok |
| char_predicates | 27 | 27 | ok |
| io_predicates | 24 | 24 | ok |
| assert_rules | 15 | 15 | ok |
| string_agg | 25 | 25 | ok |
| advanced | 21 | 21 | ok |
Run `bash lib/prolog/conformance.sh` to refresh. Override the binary
with `SX_SERVER=path/to/sx_server.exe bash …`.

254
lib/prolog/tests/advanced.sx
View File

@@ -1,254 +0,0 @@
;; lib/prolog/tests/advanced.sx — predsort/3, term_variables/2, arith extensions
(define pl-adv-test-count 0)
(define pl-adv-test-pass 0)
(define pl-adv-test-fail 0)
(define pl-adv-test-failures (list))
(define
pl-adv-test!
(fn
(name got expected)
(begin
(set! pl-adv-test-count (+ pl-adv-test-count 1))
(if
(= got expected)
(set! pl-adv-test-pass (+ pl-adv-test-pass 1))
(begin
(set! pl-adv-test-fail (+ pl-adv-test-fail 1))
(append!
pl-adv-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-adv-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define pl-adv-db (pl-mk-db))
;; Load a numeric comparator for predsort tests
(pl-db-load!
pl-adv-db
(pl-parse
"cmp_num(Order, X, Y) :- (X < Y -> Order = '<' ; (X > Y -> Order = '>' ; Order = '='))."))
;; ── Arithmetic extensions ──────────────────────────────────────────
(define pl-adv-arith-env-1 {:X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "X is floor(3.7)" pl-adv-arith-env-1)
(pl-mk-trail))
(pl-adv-test!
"floor(3.7) = 3"
(pl-num-val (pl-walk-deep (dict-get pl-adv-arith-env-1 "X")))
3)
(define pl-adv-arith-env-2 {:X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "X is ceiling(3.2)" pl-adv-arith-env-2)
(pl-mk-trail))
(pl-adv-test!
"ceiling(3.2) = 4"
(pl-num-val (pl-walk-deep (dict-get pl-adv-arith-env-2 "X")))
4)
(define pl-adv-arith-env-3 {:X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "X is truncate(3.9)" pl-adv-arith-env-3)
(pl-mk-trail))
(pl-adv-test!
"truncate(3.9) = 3"
(pl-num-val (pl-walk-deep (dict-get pl-adv-arith-env-3 "X")))
3)
(define pl-adv-arith-env-4 {:X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "X is truncate(0 - 3.9)" pl-adv-arith-env-4)
(pl-mk-trail))
(pl-adv-test!
"truncate(0-3.9) = -3"
(pl-num-val (pl-walk-deep (dict-get pl-adv-arith-env-4 "X")))
-3)
(define pl-adv-arith-env-5 {:X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "X is round(3.5)" pl-adv-arith-env-5)
(pl-mk-trail))
(pl-adv-test!
"round(3.5) = 4"
(pl-num-val (pl-walk-deep (dict-get pl-adv-arith-env-5 "X")))
4)
(define pl-adv-arith-env-6 {:X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "X is sqrt(4.0)" pl-adv-arith-env-6)
(pl-mk-trail))
(pl-adv-test!
"sqrt(4.0) = 2"
(pl-num-val (pl-walk-deep (dict-get pl-adv-arith-env-6 "X")))
2)
(define pl-adv-arith-env-7 {:X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "X is sign(0 - 5)" pl-adv-arith-env-7)
(pl-mk-trail))
(pl-adv-test!
"sign(0-5) = -1"
(pl-num-val (pl-walk-deep (dict-get pl-adv-arith-env-7 "X")))
-1)
(define pl-adv-arith-env-8 {:X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "X is sign(0)" pl-adv-arith-env-8)
(pl-mk-trail))
(pl-adv-test!
"sign(0) = 0"
(pl-num-val (pl-walk-deep (dict-get pl-adv-arith-env-8 "X")))
0)
(define pl-adv-arith-env-9 {:X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "X is sign(3)" pl-adv-arith-env-9)
(pl-mk-trail))
(pl-adv-test!
"sign(3) = 1"
(pl-num-val (pl-walk-deep (dict-get pl-adv-arith-env-9 "X")))
1)
(define pl-adv-arith-env-10 {:X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "X is pow(2, 3)" pl-adv-arith-env-10)
(pl-mk-trail))
(pl-adv-test!
"pow(2,3) = 8"
(pl-num-val (pl-walk-deep (dict-get pl-adv-arith-env-10 "X")))
8)
(define pl-adv-arith-env-11 {:X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "X is floor(0 - 3.7)" pl-adv-arith-env-11)
(pl-mk-trail))
(pl-adv-test!
"floor(0-3.7) = -4"
(pl-num-val (pl-walk-deep (dict-get pl-adv-arith-env-11 "X")))
-4)
(define pl-adv-arith-env-12 {:X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "X is ceiling(0 - 3.2)" pl-adv-arith-env-12)
(pl-mk-trail))
(pl-adv-test!
"ceiling(0-3.2) = -3"
(pl-num-val (pl-walk-deep (dict-get pl-adv-arith-env-12 "X")))
-3)
;; ── term_variables/2 ──────────────────────────────────────────────
(define pl-adv-tv-env-1 {:Vs (pl-mk-rt-var "Vs")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "term_variables(hello, Vs)" pl-adv-tv-env-1)
(pl-mk-trail))
(pl-adv-test!
"term_variables(hello,Vs) -> []"
(pl-format-term (pl-walk-deep (dict-get pl-adv-tv-env-1 "Vs")))
"[]")
(define pl-adv-tv-env-2 {:Vs (pl-mk-rt-var "Vs")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "term_variables(f(a, g(b)), Vs)" pl-adv-tv-env-2)
(pl-mk-trail))
(pl-adv-test!
"term_variables(f(a,g(b)),Vs) -> []"
(pl-format-term (pl-walk-deep (dict-get pl-adv-tv-env-2 "Vs")))
"[]")
(define pl-adv-tv-env-3 {:Y (pl-mk-rt-var "Y") :Vs (pl-mk-rt-var "Vs") :X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "term_variables(f(X, Y), Vs)" pl-adv-tv-env-3)
(pl-mk-trail))
(pl-adv-test!
"term_variables(f(X,Y),Vs) has 2 vars"
(pl-list-length (pl-walk-deep (dict-get pl-adv-tv-env-3 "Vs")))
2)
(define pl-adv-tv-env-4 {:Vs (pl-mk-rt-var "Vs") :X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "term_variables(X, Vs)" pl-adv-tv-env-4)
(pl-mk-trail))
(pl-adv-test!
"term_variables(X,Vs) has 1 var"
(pl-list-length (pl-walk-deep (dict-get pl-adv-tv-env-4 "Vs")))
1)
(define pl-adv-tv-env-5 {:Y (pl-mk-rt-var "Y") :Vs (pl-mk-rt-var "Vs") :X (pl-mk-rt-var "X")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "term_variables(foo(X, Y, X), Vs)" pl-adv-tv-env-5)
(pl-mk-trail))
(pl-adv-test!
"term_variables(foo(X,Y,X),Vs) deduplicates X -> 2 vars"
(pl-list-length (pl-walk-deep (dict-get pl-adv-tv-env-5 "Vs")))
2)
;; ── predsort/3 ────────────────────────────────────────────────────
(define pl-adv-ps-env-1 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "predsort(cmp_num, [], R)" pl-adv-ps-env-1)
(pl-mk-trail))
(pl-adv-test!
"predsort([]) -> []"
(pl-format-term (pl-walk-deep (dict-get pl-adv-ps-env-1 "R")))
"[]")
(define pl-adv-ps-env-2 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "predsort(cmp_num, [1], R)" pl-adv-ps-env-2)
(pl-mk-trail))
(pl-adv-test!
"predsort([1]) -> [1]"
(pl-format-term (pl-walk-deep (dict-get pl-adv-ps-env-2 "R")))
".(1, [])")
(define pl-adv-ps-env-3 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "predsort(cmp_num, [3,1,2], R)" pl-adv-ps-env-3)
(pl-mk-trail))
(pl-adv-test!
"predsort([3,1,2]) -> [1,2,3]"
(pl-format-term (pl-walk-deep (dict-get pl-adv-ps-env-3 "R")))
".(1, .(2, .(3, [])))")
(define pl-adv-ps-env-4 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-adv-db
(pl-adv-goal "predsort(cmp_num, [3,1,2,1,3], R)" pl-adv-ps-env-4)
(pl-mk-trail))
(pl-adv-test!
"predsort([3,1,2,1,3]) dedup -> [1,2,3]"
(pl-format-term (pl-walk-deep (dict-get pl-adv-ps-env-4 "R")))
".(1, .(2, .(3, [])))")
;; ── Runner ─────────────────────────────────────────────────────────
(define pl-advanced-tests-run! (fn () {:failed pl-adv-test-fail :passed pl-adv-test-pass :total pl-adv-test-count :failures pl-adv-test-failures}))

215
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@@ -1,215 +0,0 @@
;; lib/prolog/tests/assert_rules.sx — assert/assertz/asserta with rule terms (head :- body)
;; Tests that :- is in the op table (prec 1200 xfx) and pl-build-clause handles rule form.
(define pl-ar-test-count 0)
(define pl-ar-test-pass 0)
(define pl-ar-test-fail 0)
(define pl-ar-test-failures (list))
(define
pl-ar-test!
(fn
(name got expected)
(begin
(set! pl-ar-test-count (+ pl-ar-test-count 1))
(if
(= got expected)
(set! pl-ar-test-pass (+ pl-ar-test-pass 1))
(begin
(set! pl-ar-test-fail (+ pl-ar-test-fail 1))
(append!
pl-ar-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-ar-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
;; ── DB1: assertz a simple rule then query ──────────────────────────
(define pl-ar-db1 (pl-mk-db))
(pl-solve-once!
pl-ar-db1
(pl-ar-goal "assertz((double(X, Y) :- Y is X * 2))" {})
(pl-mk-trail))
(pl-ar-test!
"assertz rule: double(3, Y) succeeds"
(pl-solve-once!
pl-ar-db1
(pl-ar-goal "double(3, Y)" {})
(pl-mk-trail))
true)
(define pl-ar-env1 {})
(pl-solve-once!
pl-ar-db1
(pl-ar-goal "double(3, Y)" pl-ar-env1)
(pl-mk-trail))
(pl-ar-test!
"assertz rule: double(3, Y) binds Y to 6"
(pl-num-val (pl-walk-deep (dict-get pl-ar-env1 "Y")))
6)
(define pl-ar-env1b {})
(pl-solve-once!
pl-ar-db1
(pl-ar-goal "double(10, Y)" pl-ar-env1b)
(pl-mk-trail))
(pl-ar-test!
"assertz rule: double(10, Y) yields 20"
(pl-num-val (pl-walk-deep (dict-get pl-ar-env1b "Y")))
20)
;; ── DB2: assert a rule with multiple facts, count solutions ─────────
(define pl-ar-db2 (pl-mk-db))
(pl-solve-once!
pl-ar-db2
(pl-ar-goal "assert(fact(a))" {})
(pl-mk-trail))
(pl-solve-once!
pl-ar-db2
(pl-ar-goal "assert(fact(b))" {})
(pl-mk-trail))
(pl-solve-once!
pl-ar-db2
(pl-ar-goal "assertz((copy(X) :- fact(X)))" {})
(pl-mk-trail))
(pl-ar-test!
"rule copy/1 using fact/1: 2 solutions"
(pl-solve-count! pl-ar-db2 (pl-ar-goal "copy(X)" {}) (pl-mk-trail))
2)
(define pl-ar-env2a {})
(pl-solve-once! pl-ar-db2 (pl-ar-goal "copy(X)" pl-ar-env2a) (pl-mk-trail))
(pl-ar-test!
"rule copy/1: first solution is a"
(pl-atom-name (pl-walk-deep (dict-get pl-ar-env2a "X")))
"a")
;; ── DB3: asserta rule is tried before existing clauses ─────────────
(define pl-ar-db3 (pl-mk-db))
(pl-solve-once!
pl-ar-db3
(pl-ar-goal "assert(ord(a))" {})
(pl-mk-trail))
(pl-solve-once!
pl-ar-db3
(pl-ar-goal "asserta((ord(b) :- true))" {})
(pl-mk-trail))
(define pl-ar-env3 {})
(pl-solve-once! pl-ar-db3 (pl-ar-goal "ord(X)" pl-ar-env3) (pl-mk-trail))
(pl-ar-test!
"asserta rule ord(b) is tried before ord(a)"
(pl-atom-name (pl-walk-deep (dict-get pl-ar-env3 "X")))
"b")
(pl-ar-test!
"asserta: total solutions for ord/1 is 2"
(pl-solve-count! pl-ar-db3 (pl-ar-goal "ord(X)" {}) (pl-mk-trail))
2)
;; ── DB4: rule with conjunction in body ─────────────────────────────
(define pl-ar-db4 (pl-mk-db))
(pl-solve-once!
pl-ar-db4
(pl-ar-goal "assert(num(1))" {})
(pl-mk-trail))
(pl-solve-once!
pl-ar-db4
(pl-ar-goal "assert(num(2))" {})
(pl-mk-trail))
(pl-solve-once!
pl-ar-db4
(pl-ar-goal "assertz((big(X) :- num(X), X > 1))" {})
(pl-mk-trail))
(pl-ar-test!
"conjunction in rule body: big(1) fails"
(pl-solve-once! pl-ar-db4 (pl-ar-goal "big(1)" {}) (pl-mk-trail))
false)
(pl-ar-test!
"conjunction in rule body: big(2) succeeds"
(pl-solve-once! pl-ar-db4 (pl-ar-goal "big(2)" {}) (pl-mk-trail))
true)
;; ── DB5: recursive rule ─────────────────────────────────────────────
(define pl-ar-db5 (pl-mk-db))
(pl-solve-once!
pl-ar-db5
(pl-ar-goal "assert((nat(0) :- true))" {})
(pl-mk-trail))
(pl-solve-once!
pl-ar-db5
(pl-ar-goal "assertz((nat(s(X)) :- nat(X)))" {})
(pl-mk-trail))
(pl-ar-test!
"recursive rule: nat(0) succeeds"
(pl-solve-once! pl-ar-db5 (pl-ar-goal "nat(0)" {}) (pl-mk-trail))
true)
(pl-ar-test!
"recursive rule: nat(s(0)) succeeds"
(pl-solve-once!
pl-ar-db5
(pl-ar-goal "nat(s(0))" {})
(pl-mk-trail))
true)
(pl-ar-test!
"recursive rule: nat(s(s(0))) succeeds"
(pl-solve-once!
pl-ar-db5
(pl-ar-goal "nat(s(s(0)))" {})
(pl-mk-trail))
true)
(pl-ar-test!
"recursive rule: nat(bad) fails"
(pl-solve-once! pl-ar-db5 (pl-ar-goal "nat(bad)" {}) (pl-mk-trail))
false)
;; ── DB6: rule with true body (explicit) ────────────────────────────
(define pl-ar-db6 (pl-mk-db))
(pl-solve-once!
pl-ar-db6
(pl-ar-goal "assertz((always(X) :- true))" {})
(pl-mk-trail))
(pl-solve-once!
pl-ar-db6
(pl-ar-goal "assert(always(extra))" {})
(pl-mk-trail))
(pl-ar-test!
"rule body=true: always(foo) succeeds"
(pl-solve-once!
pl-ar-db6
(pl-ar-goal "always(foo)" {})
(pl-mk-trail))
true)
(pl-ar-test!
"rule body=true: always/1 has 2 clauses (1 rule + 1 fact)"
(pl-solve-count!
pl-ar-db6
(pl-ar-goal "always(X)" {})
(pl-mk-trail))
2)
;; ── Runner ──────────────────────────────────────────────────────────
(define pl-assert-rules-tests-run! (fn () {:failed pl-ar-test-fail :passed pl-ar-test-pass :total pl-ar-test-count :failures pl-ar-test-failures}))

305
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;; lib/prolog/tests/atoms.sx — type predicates + string/atom built-ins
(define pl-at-test-count 0)
(define pl-at-test-pass 0)
(define pl-at-test-fail 0)
(define pl-at-test-failures (list))
(define
pl-at-test!
(fn
(name got expected)
(begin
(set! pl-at-test-count (+ pl-at-test-count 1))
(if
(= got expected)
(set! pl-at-test-pass (+ pl-at-test-pass 1))
(begin
(set! pl-at-test-fail (+ pl-at-test-fail 1))
(append!
pl-at-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-at-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define pl-at-db (pl-mk-db))
;; ── var/1 + nonvar/1 ──
(pl-at-test!
"var(X) for unbound var"
(pl-solve-once! pl-at-db (pl-at-goal "var(X)" {}) (pl-mk-trail))
true)
(pl-at-test!
"var(foo) fails"
(pl-solve-once! pl-at-db (pl-at-goal "var(foo)" {}) (pl-mk-trail))
false)
(pl-at-test!
"nonvar(foo) succeeds"
(pl-solve-once!
pl-at-db
(pl-at-goal "nonvar(foo)" {})
(pl-mk-trail))
true)
(pl-at-test!
"nonvar(X) for unbound var fails"
(pl-solve-once! pl-at-db (pl-at-goal "nonvar(X)" {}) (pl-mk-trail))
false)
;; ── atom/1 ──
(pl-at-test!
"atom(foo) succeeds"
(pl-solve-once! pl-at-db (pl-at-goal "atom(foo)" {}) (pl-mk-trail))
true)
(pl-at-test!
"atom([]) succeeds"
(pl-solve-once! pl-at-db (pl-at-goal "atom([])" {}) (pl-mk-trail))
true)
(pl-at-test!
"atom(42) fails"
(pl-solve-once! pl-at-db (pl-at-goal "atom(42)" {}) (pl-mk-trail))
false)
(pl-at-test!
"atom(f(x)) fails"
(pl-solve-once!
pl-at-db
(pl-at-goal "atom(f(x))" {})
(pl-mk-trail))
false)
;; ── number/1 + integer/1 ──
(pl-at-test!
"number(42) succeeds"
(pl-solve-once!
pl-at-db
(pl-at-goal "number(42)" {})
(pl-mk-trail))
true)
(pl-at-test!
"number(foo) fails"
(pl-solve-once!
pl-at-db
(pl-at-goal "number(foo)" {})
(pl-mk-trail))
false)
(pl-at-test!
"integer(7) succeeds"
(pl-solve-once!
pl-at-db
(pl-at-goal "integer(7)" {})
(pl-mk-trail))
true)
;; ── compound/1 + callable/1 + atomic/1 ──
(pl-at-test!
"compound(f(x)) succeeds"
(pl-solve-once!
pl-at-db
(pl-at-goal "compound(f(x))" {})
(pl-mk-trail))
true)
(pl-at-test!
"compound(foo) fails"
(pl-solve-once!
pl-at-db
(pl-at-goal "compound(foo)" {})
(pl-mk-trail))
false)
(pl-at-test!
"callable(foo) succeeds"
(pl-solve-once!
pl-at-db
(pl-at-goal "callable(foo)" {})
(pl-mk-trail))
true)
(pl-at-test!
"callable(f(x)) succeeds"
(pl-solve-once!
pl-at-db
(pl-at-goal "callable(f(x))" {})
(pl-mk-trail))
true)
(pl-at-test!
"callable(42) fails"
(pl-solve-once!
pl-at-db
(pl-at-goal "callable(42)" {})
(pl-mk-trail))
false)
(pl-at-test!
"atomic(foo) succeeds"
(pl-solve-once!
pl-at-db
(pl-at-goal "atomic(foo)" {})
(pl-mk-trail))
true)
(pl-at-test!
"atomic(42) succeeds"
(pl-solve-once!
pl-at-db
(pl-at-goal "atomic(42)" {})
(pl-mk-trail))
true)
(pl-at-test!
"atomic(f(x)) fails"
(pl-solve-once!
pl-at-db
(pl-at-goal "atomic(f(x))" {})
(pl-mk-trail))
false)
;; ── is_list/1 ──
(pl-at-test!
"is_list([]) succeeds"
(pl-solve-once!
pl-at-db
(pl-at-goal "is_list([])" {})
(pl-mk-trail))
true)
(pl-at-test!
"is_list([1,2,3]) succeeds"
(pl-solve-once!
pl-at-db
(pl-at-goal "is_list([1,2,3])" {})
(pl-mk-trail))
true)
(pl-at-test!
"is_list(foo) fails"
(pl-solve-once!
pl-at-db
(pl-at-goal "is_list(foo)" {})
(pl-mk-trail))
false)
;; ── atom_length/2 ──
(define pl-at-env-al {})
(pl-solve-once!
pl-at-db
(pl-at-goal "atom_length(hello, N)" pl-at-env-al)
(pl-mk-trail))
(pl-at-test!
"atom_length(hello, N) -> N=5"
(pl-num-val (pl-walk-deep (dict-get pl-at-env-al "N")))
5)
(pl-at-test!
"atom_length empty atom"
(pl-solve-once!
pl-at-db
(pl-at-goal "atom_length('', 0)" {})
(pl-mk-trail))
true)
;; ── atom_concat/3 ──
(define pl-at-env-ac {})
(pl-solve-once!
pl-at-db
(pl-at-goal "atom_concat(foo, bar, X)" pl-at-env-ac)
(pl-mk-trail))
(pl-at-test!
"atom_concat(foo, bar, X) -> X=foobar"
(pl-atom-name (pl-walk-deep (dict-get pl-at-env-ac "X")))
"foobar")
(pl-at-test!
"atom_concat(foo, bar, foobar) check"
(pl-solve-once!
pl-at-db
(pl-at-goal "atom_concat(foo, bar, foobar)" {})
(pl-mk-trail))
true)
(pl-at-test!
"atom_concat(foo, bar, foobaz) fails"
(pl-solve-once!
pl-at-db
(pl-at-goal "atom_concat(foo, bar, foobaz)" {})
(pl-mk-trail))
false)
(define pl-at-env-ac2 {})
(pl-solve-once!
pl-at-db
(pl-at-goal "atom_concat(foo, Y, foobar)" pl-at-env-ac2)
(pl-mk-trail))
(pl-at-test!
"atom_concat(foo, Y, foobar) -> Y=bar"
(pl-atom-name (pl-walk-deep (dict-get pl-at-env-ac2 "Y")))
"bar")
;; ── atom_chars/2 ──
(define pl-at-env-ach {})
(pl-solve-once!
pl-at-db
(pl-at-goal "atom_chars(cat, Cs)" pl-at-env-ach)
(pl-mk-trail))
(pl-at-test!
"atom_chars(cat, Cs) -> Cs=[c,a,t]"
(pl-solve-once!
pl-at-db
(pl-at-goal "atom_chars(cat, [c,a,t])" {})
(pl-mk-trail))
true)
(define pl-at-env-ach2 {})
(pl-solve-once!
pl-at-db
(pl-at-goal "atom_chars(A, [h,i])" pl-at-env-ach2)
(pl-mk-trail))
(pl-at-test!
"atom_chars(A, [h,i]) -> A=hi"
(pl-atom-name (pl-walk-deep (dict-get pl-at-env-ach2 "A")))
"hi")
;; ── char_code/2 ──
(define pl-at-env-cc {})
(pl-solve-once!
pl-at-db
(pl-at-goal "char_code(a, N)" pl-at-env-cc)
(pl-mk-trail))
(pl-at-test!
"char_code(a, N) -> N=97"
(pl-num-val (pl-walk-deep (dict-get pl-at-env-cc "N")))
97)
(define pl-at-env-cc2 {})
(pl-solve-once!
pl-at-db
(pl-at-goal "char_code(C, 65)" pl-at-env-cc2)
(pl-mk-trail))
(pl-at-test!
"char_code(C, 65) -> C='A'"
(pl-atom-name (pl-walk-deep (dict-get pl-at-env-cc2 "C")))
"A")
;; ── number_codes/2 ──
(pl-at-test!
"number_codes(42, [52,50])"
(pl-solve-once!
pl-at-db
(pl-at-goal "number_codes(42, [52,50])" {})
(pl-mk-trail))
true)
;; ── number_chars/2 ──
(pl-at-test!
"number_chars(42, ['4','2'])"
(pl-solve-once!
pl-at-db
(pl-at-goal "number_chars(42, ['4','2'])" {})
(pl-mk-trail))
true)
(define pl-atom-tests-run! (fn () {:failed pl-at-test-fail :passed pl-at-test-pass :total pl-at-test-count :failures pl-at-test-failures}))

290
lib/prolog/tests/char_predicates.sx
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@@ -1,290 +0,0 @@
;; lib/prolog/tests/char_predicates.sx — char_type/2, upcase_atom/2, downcase_atom/2,
;; string_upper/2, string_lower/2
(define pl-cp-test-count 0)
(define pl-cp-test-pass 0)
(define pl-cp-test-fail 0)
(define pl-cp-test-failures (list))
(define
pl-cp-test!
(fn
(name got expected)
(begin
(set! pl-cp-test-count (+ pl-cp-test-count 1))
(if
(= got expected)
(set! pl-cp-test-pass (+ pl-cp-test-pass 1))
(begin
(set! pl-cp-test-fail (+ pl-cp-test-fail 1))
(append!
pl-cp-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-cp-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define pl-cp-db (pl-mk-db))
;; ─── char_type/2 — alpha ──────────────────────────────────────────
(pl-cp-test!
"char_type(a, alpha) succeeds"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type(a, alpha)" {})
(pl-mk-trail))
true)
(pl-cp-test!
"char_type('1', alpha) fails"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type('1', alpha)" {})
(pl-mk-trail))
false)
(pl-cp-test!
"char_type('A', alpha) succeeds"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type('A', alpha)" {})
(pl-mk-trail))
true)
;; ─── char_type/2 — alnum ─────────────────────────────────────────
(pl-cp-test!
"char_type('5', alnum) succeeds"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type('5', alnum)" {})
(pl-mk-trail))
true)
(pl-cp-test!
"char_type(a, alnum) succeeds"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type(a, alnum)" {})
(pl-mk-trail))
true)
(pl-cp-test!
"char_type(' ', alnum) fails"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type(' ', alnum)" {})
(pl-mk-trail))
false)
;; ─── char_type/2 — digit ─────────────────────────────────────────
(pl-cp-test!
"char_type('5', digit) succeeds"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type('5', digit)" {})
(pl-mk-trail))
true)
(pl-cp-test!
"char_type(a, digit) fails"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type(a, digit)" {})
(pl-mk-trail))
false)
;; ─── char_type/2 — digit(Weight) ─────────────────────────────────
(define pl-cp-env-dw {})
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type('5', digit(N))" pl-cp-env-dw)
(pl-mk-trail))
(pl-cp-test!
"char_type('5', digit(N)) -> N=5"
(pl-num-val (pl-walk-deep (dict-get pl-cp-env-dw "N")))
5)
(define pl-cp-env-dw0 {})
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type('0', digit(N))" pl-cp-env-dw0)
(pl-mk-trail))
(pl-cp-test!
"char_type('0', digit(N)) -> N=0"
(pl-num-val (pl-walk-deep (dict-get pl-cp-env-dw0 "N")))
0)
;; ─── char_type/2 — space/white ───────────────────────────────────
(pl-cp-test!
"char_type(' ', space) succeeds"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type(' ', space)" {})
(pl-mk-trail))
true)
(pl-cp-test!
"char_type(a, space) fails"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type(a, space)" {})
(pl-mk-trail))
false)
;; ─── char_type/2 — upper(Lower) ──────────────────────────────────
(define pl-cp-env-ul {})
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type('A', upper(L))" pl-cp-env-ul)
(pl-mk-trail))
(pl-cp-test!
"char_type('A', upper(L)) -> L=a"
(pl-atom-name (pl-walk-deep (dict-get pl-cp-env-ul "L")))
"a")
(pl-cp-test!
"char_type(a, upper(L)) fails — not uppercase"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type(a, upper(_))" {})
(pl-mk-trail))
false)
;; ─── char_type/2 — lower(Upper) ──────────────────────────────────
(define pl-cp-env-lu {})
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type(a, lower(U))" pl-cp-env-lu)
(pl-mk-trail))
(pl-cp-test!
"char_type(a, lower(U)) -> U='A'"
(pl-atom-name (pl-walk-deep (dict-get pl-cp-env-lu "U")))
"A")
;; ─── char_type/2 — ascii(Code) ───────────────────────────────────
(define pl-cp-env-as {})
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type(a, ascii(C))" pl-cp-env-as)
(pl-mk-trail))
(pl-cp-test!
"char_type(a, ascii(C)) -> C=97"
(pl-num-val (pl-walk-deep (dict-get pl-cp-env-as "C")))
97)
;; ─── char_type/2 — punct ─────────────────────────────────────────
(pl-cp-test!
"char_type('.', punct) succeeds"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type('.', punct)" {})
(pl-mk-trail))
true)
(pl-cp-test!
"char_type(a, punct) fails"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "char_type(a, punct)" {})
(pl-mk-trail))
false)
;; ─── upcase_atom/2 ───────────────────────────────────────────────
(define pl-cp-env-ua {})
(pl-solve-once!
pl-cp-db
(pl-cp-goal "upcase_atom(hello, X)" pl-cp-env-ua)
(pl-mk-trail))
(pl-cp-test!
"upcase_atom(hello, X) -> X='HELLO'"
(pl-atom-name (pl-walk-deep (dict-get pl-cp-env-ua "X")))
"HELLO")
(pl-cp-test!
"upcase_atom(hello, 'HELLO') succeeds"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "upcase_atom(hello, 'HELLO')" {})
(pl-mk-trail))
true)
(pl-cp-test!
"upcase_atom('Hello World', 'HELLO WORLD') succeeds"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "upcase_atom('Hello World', 'HELLO WORLD')" {})
(pl-mk-trail))
true)
(pl-cp-test!
"upcase_atom('', '') succeeds"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "upcase_atom('', '')" {})
(pl-mk-trail))
true)
;; ─── downcase_atom/2 ─────────────────────────────────────────────
(define pl-cp-env-da {})
(pl-solve-once!
pl-cp-db
(pl-cp-goal "downcase_atom('HELLO', X)" pl-cp-env-da)
(pl-mk-trail))
(pl-cp-test!
"downcase_atom('HELLO', X) -> X=hello"
(pl-atom-name (pl-walk-deep (dict-get pl-cp-env-da "X")))
"hello")
(pl-cp-test!
"downcase_atom('HELLO', hello) succeeds"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "downcase_atom('HELLO', hello)" {})
(pl-mk-trail))
true)
(pl-cp-test!
"downcase_atom(hello, hello) succeeds — already lowercase"
(pl-solve-once!
pl-cp-db
(pl-cp-goal "downcase_atom(hello, hello)" {})
(pl-mk-trail))
true)
;; ─── string_upper/2 + string_lower/2 (aliases) ───────────────────
(define pl-cp-env-su {})
(pl-solve-once!
pl-cp-db
(pl-cp-goal "string_upper(hello, X)" pl-cp-env-su)
(pl-mk-trail))
(pl-cp-test!
"string_upper(hello, X) -> X='HELLO'"
(pl-atom-name (pl-walk-deep (dict-get pl-cp-env-su "X")))
"HELLO")
(define pl-cp-env-sl {})
(pl-solve-once!
pl-cp-db
(pl-cp-goal "string_lower('WORLD', X)" pl-cp-env-sl)
(pl-mk-trail))
(pl-cp-test!
"string_lower('WORLD', X) -> X=world"
(pl-atom-name (pl-walk-deep (dict-get pl-cp-env-sl "X")))
"world")
(define pl-char-predicates-tests-run! (fn () {:failed pl-cp-test-fail :passed pl-cp-test-pass :total pl-cp-test-count :failures pl-cp-test-failures}))

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lib/prolog/tests/clausedb.sx
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;; lib/prolog/tests/clausedb.sx — Clause DB unit tests
(define pl-db-test-count 0)
(define pl-db-test-pass 0)
(define pl-db-test-fail 0)
(define pl-db-test-failures (list))
(define
pl-db-test!
(fn
(name got expected)
(begin
(set! pl-db-test-count (+ pl-db-test-count 1))
(if
(= got expected)
(set! pl-db-test-pass (+ pl-db-test-pass 1))
(begin
(set! pl-db-test-fail (+ pl-db-test-fail 1))
(append!
pl-db-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(pl-db-test!
"head-key atom arity 0"
(pl-head-key (nth (first (pl-parse "foo.")) 1))
"foo/0")
(pl-db-test!
"head-key compound arity 2"
(pl-head-key (nth (first (pl-parse "bar(a, b).")) 1))
"bar/2")
(pl-db-test!
"clause-key of :- clause"
(pl-clause-key (first (pl-parse "likes(mary, X) :- friendly(X).")))
"likes/2")
(pl-db-test!
"empty db lookup returns empty list"
(len (pl-db-lookup (pl-mk-db) "parent/2"))
0)
(define pl-db-t1 (pl-mk-db))
(pl-db-load! pl-db-t1 (pl-parse "foo(a). foo(b). foo(c)."))
(pl-db-test!
"three facts same functor"
(len (pl-db-lookup pl-db-t1 "foo/1"))
3)
(pl-db-test!
"mismatching key returns empty"
(len (pl-db-lookup pl-db-t1 "foo/2"))
0)
(pl-db-test!
"first clause has arg a"
(pl-atom-name
(first (pl-args (nth (first (pl-db-lookup pl-db-t1 "foo/1")) 1))))
"a")
(pl-db-test!
"third clause has arg c"
(pl-atom-name
(first (pl-args (nth (nth (pl-db-lookup pl-db-t1 "foo/1") 2) 1))))
"c")
(define pl-db-t2 (pl-mk-db))
(pl-db-load! pl-db-t2 (pl-parse "foo. bar. foo. parent(a, b). parent(c, d)."))
(pl-db-test!
"atom heads keyed as foo/0"
(len (pl-db-lookup pl-db-t2 "foo/0"))
2)
(pl-db-test!
"atom heads keyed as bar/0"
(len (pl-db-lookup pl-db-t2 "bar/0"))
1)
(pl-db-test!
"compound heads keyed as parent/2"
(len (pl-db-lookup pl-db-t2 "parent/2"))
2)
(pl-db-test!
"lookup-goal extracts functor/arity"
(len
(pl-db-lookup-goal pl-db-t2 (nth (first (pl-parse "parent(X, Y).")) 1)))
2)
(pl-db-test!
"lookup-goal on atom goal"
(len (pl-db-lookup-goal pl-db-t2 (nth (first (pl-parse "foo.")) 1)))
2)
(pl-db-test!
"stored clause is clause form"
(first (first (pl-db-lookup pl-db-t2 "parent/2")))
"clause")
(define pl-clausedb-tests-run! (fn () {:failed pl-db-test-fail :passed pl-db-test-pass :total pl-db-test-count :failures pl-db-test-failures}))

185
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;; lib/prolog/tests/compiler.sx — compiled clause dispatch tests
(define pl-cmp-test-count 0)
(define pl-cmp-test-pass 0)
(define pl-cmp-test-fail 0)
(define pl-cmp-test-failures (list))
(define
pl-cmp-test!
(fn
(name got expected)
(set! pl-cmp-test-count (+ pl-cmp-test-count 1))
(if
(= got expected)
(set! pl-cmp-test-pass (+ pl-cmp-test-pass 1))
(begin
(set! pl-cmp-test-fail (+ pl-cmp-test-fail 1))
(append! pl-cmp-test-failures name)))))
;; Load src, compile, return DB.
(define
pl-cmp-mk
(fn
(src)
(let
((db (pl-mk-db)))
(pl-db-load! db (pl-parse src))
(pl-compile-db! db)
db)))
;; Run goal string against compiled DB; return bool (instantiates vars).
(define
pl-cmp-once
(fn
(db src)
(pl-solve-once!
db
(pl-instantiate (pl-parse-goal src) {})
(pl-mk-trail))))
;; Count solutions for goal string against compiled DB.
(define
pl-cmp-count
(fn
(db src)
(pl-solve-count!
db
(pl-instantiate (pl-parse-goal src) {})
(pl-mk-trail))))
;; ── 1. Simple facts ──────────────────────────────────────────────
(define pl-cmp-db1 (pl-cmp-mk "color(red). color(green). color(blue)."))
(pl-cmp-test! "compiled fact hit" (pl-cmp-once pl-cmp-db1 "color(red)") true)
(pl-cmp-test!
"compiled fact miss"
(pl-cmp-once pl-cmp-db1 "color(yellow)")
false)
(pl-cmp-test! "compiled fact count" (pl-cmp-count pl-cmp-db1 "color(X)") 3)
;; ── 2. Recursive rule: append ────────────────────────────────────
(define
pl-cmp-db2
(pl-cmp-mk "append([], L, L). append([H|T], L, [H|R]) :- append(T, L, R)."))
(pl-cmp-test!
"compiled append build"
(pl-cmp-once pl-cmp-db2 "append([1,2],[3],[1,2,3])")
true)
(pl-cmp-test!
"compiled append fail"
(pl-cmp-once pl-cmp-db2 "append([1,2],[3],[1,2])")
false)
(pl-cmp-test!
"compiled append split count"
(pl-cmp-count pl-cmp-db2 "append(X, Y, [a,b])")
3)
;; ── 3. Cut ───────────────────────────────────────────────────────
(define
pl-cmp-db3
(pl-cmp-mk "first(X, [X|_]) :- !. first(X, [_|T]) :- first(X, T)."))
(pl-cmp-test!
"compiled cut: only one solution"
(pl-cmp-count pl-cmp-db3 "first(X, [a,b,c])")
1)
(let
((db pl-cmp-db3) (trail (pl-mk-trail)) (env {}))
(let
((x (pl-mk-rt-var "X")))
(dict-set! env "X" x)
(pl-solve-once!
db
(pl-instantiate (pl-parse-goal "first(X, [a,b,c])") env)
trail)
(pl-cmp-test!
"compiled cut: correct binding"
(pl-atom-name (pl-walk x))
"a")))
;; ── 4. member ────────────────────────────────────────────────────
(define
pl-cmp-db4
(pl-cmp-mk "member(X, [X|_]). member(X, [_|T]) :- member(X, T)."))
(pl-cmp-test!
"compiled member hit"
(pl-cmp-once pl-cmp-db4 "member(b, [a,b,c])")
true)
(pl-cmp-test!
"compiled member miss"
(pl-cmp-once pl-cmp-db4 "member(d, [a,b,c])")
false)
(pl-cmp-test!
"compiled member count"
(pl-cmp-count pl-cmp-db4 "member(X, [a,b,c])")
3)
;; ── 5. Arithmetic in body ────────────────────────────────────────
(define pl-cmp-db5 (pl-cmp-mk "double(X, Y) :- Y is X * 2."))
(let
((db pl-cmp-db5) (trail (pl-mk-trail)) (env {}))
(let
((y (pl-mk-rt-var "Y")))
(dict-set! env "Y" y)
(pl-solve-once!
db
(pl-instantiate (pl-parse-goal "double(5, Y)") env)
trail)
(pl-cmp-test! "compiled arithmetic in body" (pl-num-val (pl-walk y)) 10)))
;; ── 6. Transitive ancestor ───────────────────────────────────────
(define
pl-cmp-db6
(pl-cmp-mk
(str
"parent(a,b). parent(b,c). parent(c,d)."
"ancestor(X,Y) :- parent(X,Y)."
"ancestor(X,Y) :- parent(X,Z), ancestor(Z,Y).")))
(pl-cmp-test!
"compiled ancestor direct"
(pl-cmp-once pl-cmp-db6 "ancestor(a,b)")
true)
(pl-cmp-test!
"compiled ancestor 3-step"
(pl-cmp-once pl-cmp-db6 "ancestor(a,d)")
true)
(pl-cmp-test!
"compiled ancestor fail"
(pl-cmp-once pl-cmp-db6 "ancestor(d,a)")
false)
;; ── 7. Fallback: uncompiled predicate calls compiled sub-predicate
(define
pl-cmp-db7
(let
((db (pl-mk-db)))
(pl-db-load! db (pl-parse "q(1). q(2)."))
(pl-compile-db! db)
(pl-db-load! db (pl-parse "r(X) :- q(X)."))
db))
(pl-cmp-test!
"uncompiled predicate resolves"
(pl-cmp-once pl-cmp-db7 "r(1)")
true)
(pl-cmp-test!
"uncompiled calls compiled sub-pred count"
(pl-cmp-count pl-cmp-db7 "r(X)")
2)
;; ── Runner ───────────────────────────────────────────────────────
(define pl-compiler-tests-run! (fn () {:failed pl-cmp-test-fail :passed pl-cmp-test-pass :total pl-cmp-test-count :failures pl-cmp-test-failures}))

86
lib/prolog/tests/cross_validate.sx
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@@ -1,86 +0,0 @@
;; lib/prolog/tests/cross_validate.sx
;; Verifies that the compiled solver produces the same solution counts as the
;; interpreter for each classic program + built-in exercise.
;; Interpreter is the reference: if they disagree, the compiler is wrong.
(define pl-xv-test-count 0)
(define pl-xv-test-pass 0)
(define pl-xv-test-fail 0)
(define pl-xv-test-failures (list))
(define
pl-xv-test!
(fn
(name got expected)
(set! pl-xv-test-count (+ pl-xv-test-count 1))
(if
(= got expected)
(set! pl-xv-test-pass (+ pl-xv-test-pass 1))
(begin
(set! pl-xv-test-fail (+ pl-xv-test-fail 1))
(append! pl-xv-test-failures name)))))
;; Shorthand: assert compiled result matches interpreter.
(define
pl-xv-match!
(fn
(name src goal)
(pl-xv-test! name (pl-compiled-matches-interp? src goal) true)))
;; ── 1. append/3 ─────────────────────────────────────────────────
(define
pl-xv-append
"append([], L, L). append([H|T], L, [H|R]) :- append(T, L, R).")
(pl-xv-match! "append build 2+2" pl-xv-append "append([1,2],[3,4],X)")
(pl-xv-match! "append split [a,b,c]" pl-xv-append "append(X, Y, [a,b,c])")
(pl-xv-match! "append member-mode" pl-xv-append "append(_, [3], [1,2,3])")
;; ── 2. member/2 ─────────────────────────────────────────────────
(define pl-xv-member "member(X, [X|_]). member(X, [_|T]) :- member(X, T).")
(pl-xv-match! "member check hit" pl-xv-member "member(b, [a,b,c])")
(pl-xv-match! "member count" pl-xv-member "member(X, [a,b,c])")
(pl-xv-match! "member empty" pl-xv-member "member(X, [])")
;; ── 3. facts + transitive rules ─────────────────────────────────
(define
pl-xv-ancestor
(str
"parent(a,b). parent(b,c). parent(c,d). parent(a,c)."
"ancestor(X,Y) :- parent(X,Y)."
"ancestor(X,Y) :- parent(X,Z), ancestor(Z,Y)."))
(pl-xv-match! "ancestor direct" pl-xv-ancestor "ancestor(a,b)")
(pl-xv-match! "ancestor transitive" pl-xv-ancestor "ancestor(a,d)")
(pl-xv-match! "ancestor all from a" pl-xv-ancestor "ancestor(a,Y)")
;; ── 4. cut semantics ────────────────────────────────────────────
(define pl-xv-cut "first(X,[X|_]) :- !. first(X,[_|T]) :- first(X,T).")
(pl-xv-match! "cut one solution" pl-xv-cut "first(X,[a,b,c])")
(pl-xv-match! "cut empty list" pl-xv-cut "first(X,[])")
;; ── 5. arithmetic ───────────────────────────────────────────────
(define pl-xv-arith "sq(X,Y) :- Y is X * X. even(X) :- 0 is X mod 2.")
(pl-xv-match! "sq(3,Y) count" pl-xv-arith "sq(3,Y)")
(pl-xv-match! "sq(3,9) check" pl-xv-arith "sq(3,9)")
(pl-xv-match! "even(4) check" pl-xv-arith "even(4)")
(pl-xv-match! "even(3) check" pl-xv-arith "even(3)")
;; ── 6. if-then-else ─────────────────────────────────────────────
(define pl-xv-ite "classify(X, pos) :- X > 0, !. classify(_, nonpos).")
(pl-xv-match! "classify positive" pl-xv-ite "classify(5, C)")
(pl-xv-match! "classify zero" pl-xv-ite "classify(0, C)")
;; ── Runner ───────────────────────────────────────────────────────
(define pl-cross-validate-tests-run! (fn () {:failed pl-xv-test-fail :passed pl-xv-test-pass :total pl-xv-test-count :failures pl-xv-test-failures}))

158
lib/prolog/tests/dynamic.sx
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@@ -1,158 +0,0 @@
;; lib/prolog/tests/dynamic.sx — assert/asserta/assertz/retract.
(define pl-dy-test-count 0)
(define pl-dy-test-pass 0)
(define pl-dy-test-fail 0)
(define pl-dy-test-failures (list))
(define
pl-dy-test!
(fn
(name got expected)
(begin
(set! pl-dy-test-count (+ pl-dy-test-count 1))
(if
(= got expected)
(set! pl-dy-test-pass (+ pl-dy-test-pass 1))
(begin
(set! pl-dy-test-fail (+ pl-dy-test-fail 1))
(append!
pl-dy-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-dy-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
;; assertz then query
(define pl-dy-db1 (pl-mk-db))
(pl-solve-once!
pl-dy-db1
(pl-dy-goal "assertz(foo(1))" {})
(pl-mk-trail))
(pl-dy-test!
"assertz(foo(1)) + foo(1)"
(pl-solve-once! pl-dy-db1 (pl-dy-goal "foo(1)" {}) (pl-mk-trail))
true)
(pl-dy-test!
"after one assertz, foo/1 has 1 clause"
(pl-solve-count! pl-dy-db1 (pl-dy-goal "foo(X)" {}) (pl-mk-trail))
1)
;; assertz appends — order preserved
(define pl-dy-db2 (pl-mk-db))
(pl-solve-once!
pl-dy-db2
(pl-dy-goal "assertz(p(1))" {})
(pl-mk-trail))
(pl-solve-once!
pl-dy-db2
(pl-dy-goal "assertz(p(2))" {})
(pl-mk-trail))
(pl-dy-test!
"assertz twice — count 2"
(pl-solve-count! pl-dy-db2 (pl-dy-goal "p(X)" {}) (pl-mk-trail))
2)
(define pl-dy-env-a {})
(pl-solve-once! pl-dy-db2 (pl-dy-goal "p(X)" pl-dy-env-a) (pl-mk-trail))
(pl-dy-test!
"assertz: first solution is the first asserted (1)"
(pl-num-val (pl-walk-deep (dict-get pl-dy-env-a "X")))
1)
;; asserta prepends
(define pl-dy-db3 (pl-mk-db))
(pl-solve-once!
pl-dy-db3
(pl-dy-goal "assertz(p(1))" {})
(pl-mk-trail))
(pl-solve-once!
pl-dy-db3
(pl-dy-goal "asserta(p(99))" {})
(pl-mk-trail))
(define pl-dy-env-b {})
(pl-solve-once! pl-dy-db3 (pl-dy-goal "p(X)" pl-dy-env-b) (pl-mk-trail))
(pl-dy-test!
"asserta: prepended clause is first solution"
(pl-num-val (pl-walk-deep (dict-get pl-dy-env-b "X")))
99)
;; assert/1 = assertz/1
(define pl-dy-db4 (pl-mk-db))
(pl-solve-once!
pl-dy-db4
(pl-dy-goal "assert(g(7))" {})
(pl-mk-trail))
(pl-dy-test!
"assert/1 alias"
(pl-solve-once! pl-dy-db4 (pl-dy-goal "g(7)" {}) (pl-mk-trail))
true)
;; retract removes a fact
(define pl-dy-db5 (pl-mk-db))
(pl-solve-once!
pl-dy-db5
(pl-dy-goal "assertz(q(1))" {})
(pl-mk-trail))
(pl-solve-once!
pl-dy-db5
(pl-dy-goal "assertz(q(2))" {})
(pl-mk-trail))
(pl-solve-once!
pl-dy-db5
(pl-dy-goal "assertz(q(3))" {})
(pl-mk-trail))
(pl-dy-test!
"before retract: 3 clauses"
(pl-solve-count! pl-dy-db5 (pl-dy-goal "q(X)" {}) (pl-mk-trail))
3)
(pl-solve-once!
pl-dy-db5
(pl-dy-goal "retract(q(2))" {})
(pl-mk-trail))
(pl-dy-test!
"after retract(q(2)): 2 clauses left"
(pl-solve-count! pl-dy-db5 (pl-dy-goal "q(X)" {}) (pl-mk-trail))
2)
(define pl-dy-env-c {})
(pl-solve-once! pl-dy-db5 (pl-dy-goal "q(X)" pl-dy-env-c) (pl-mk-trail))
(pl-dy-test!
"after retract(q(2)): first remaining is 1"
(pl-num-val (pl-walk-deep (dict-get pl-dy-env-c "X")))
1)
;; retract of non-existent
(pl-dy-test!
"retract(missing(0)) on empty db fails"
(pl-solve-once!
(pl-mk-db)
(pl-dy-goal "retract(missing(0))" {})
(pl-mk-trail))
false)
;; retract with unbound var matches first
(define pl-dy-db6 (pl-mk-db))
(pl-solve-once!
pl-dy-db6
(pl-dy-goal "assertz(r(11))" {})
(pl-mk-trail))
(pl-solve-once!
pl-dy-db6
(pl-dy-goal "assertz(r(22))" {})
(pl-mk-trail))
(define pl-dy-env-d {})
(pl-solve-once!
pl-dy-db6
(pl-dy-goal "retract(r(X))" pl-dy-env-d)
(pl-mk-trail))
(pl-dy-test!
"retract(r(X)) binds X to first match"
(pl-num-val (pl-walk-deep (dict-get pl-dy-env-d "X")))
11)
(define pl-dynamic-tests-run! (fn () {:failed pl-dy-test-fail :passed pl-dy-test-pass :total pl-dy-test-count :failures pl-dy-test-failures}))

167
lib/prolog/tests/findall.sx
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@@ -1,167 +0,0 @@
;; lib/prolog/tests/findall.sx — findall/3, bagof/3, setof/3.
(define pl-fb-test-count 0)
(define pl-fb-test-pass 0)
(define pl-fb-test-fail 0)
(define pl-fb-test-failures (list))
(define
pl-fb-test!
(fn
(name got expected)
(begin
(set! pl-fb-test-count (+ pl-fb-test-count 1))
(if
(= got expected)
(set! pl-fb-test-pass (+ pl-fb-test-pass 1))
(begin
(set! pl-fb-test-fail (+ pl-fb-test-fail 1))
(append!
pl-fb-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-fb-term-to-sx
(fn
(t)
(cond
((pl-num? t) (pl-num-val t))
((pl-atom? t) (pl-atom-name t))
(true (list :complex)))))
(define
pl-fb-list-walked
(fn
(w)
(cond
((and (pl-atom? w) (= (pl-atom-name w) "[]")) (list))
((and (pl-compound? w) (= (pl-fun w) ".") (= (len (pl-args w)) 2))
(cons
(pl-fb-term-to-sx (first (pl-args w)))
(pl-fb-list-walked (nth (pl-args w) 1))))
(true (list :not-list)))))
(define pl-fb-list-to-sx (fn (t) (pl-fb-list-walked (pl-walk-deep t))))
(define
pl-fb-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define pl-fb-prog-src "member(X, [X|_]). member(X, [_|T]) :- member(X, T).")
(define pl-fb-db (pl-mk-db))
(pl-db-load! pl-fb-db (pl-parse pl-fb-prog-src))
;; ── findall ──
(define pl-fb-env-1 {})
(pl-solve-once!
pl-fb-db
(pl-fb-goal "findall(X, member(X, [a, b, c]), L)" pl-fb-env-1)
(pl-mk-trail))
(pl-fb-test!
"findall member [a, b, c]"
(pl-fb-list-to-sx (dict-get pl-fb-env-1 "L"))
(list "a" "b" "c"))
(define pl-fb-env-2 {})
(pl-solve-once!
pl-fb-db
(pl-fb-goal "findall(X, (member(X, [1, 2, 3]), X >= 2), L)" pl-fb-env-2)
(pl-mk-trail))
(pl-fb-test!
"findall with comparison filter"
(pl-fb-list-to-sx (dict-get pl-fb-env-2 "L"))
(list 2 3))
(define pl-fb-env-3 {})
(pl-solve-once!
pl-fb-db
(pl-fb-goal "findall(X, fail, L)" pl-fb-env-3)
(pl-mk-trail))
(pl-fb-test!
"findall on fail succeeds with empty list"
(pl-fb-list-to-sx (dict-get pl-fb-env-3 "L"))
(list))
(pl-fb-test!
"findall(X, fail, L) the goal succeeds"
(pl-solve-once!
pl-fb-db
(pl-fb-goal "findall(X, fail, L)" {})
(pl-mk-trail))
true)
(define pl-fb-env-4 {})
(pl-solve-once!
pl-fb-db
(pl-fb-goal
"findall(p(X, Y), (member(X, [1, 2]), member(Y, [a, b])), L)"
pl-fb-env-4)
(pl-mk-trail))
(pl-fb-test!
"findall over compound template — count = 4"
(len (pl-fb-list-to-sx (dict-get pl-fb-env-4 "L")))
4)
;; ── bagof ──
(pl-fb-test!
"bagof succeeds when results exist"
(pl-solve-once!
pl-fb-db
(pl-fb-goal "bagof(X, member(X, [1, 2, 3]), L)" {})
(pl-mk-trail))
true)
(pl-fb-test!
"bagof fails on empty"
(pl-solve-once!
pl-fb-db
(pl-fb-goal "bagof(X, fail, L)" {})
(pl-mk-trail))
false)
(define pl-fb-env-5 {})
(pl-solve-once!
pl-fb-db
(pl-fb-goal "bagof(X, member(X, [c, a, b]), L)" pl-fb-env-5)
(pl-mk-trail))
(pl-fb-test!
"bagof preserves order"
(pl-fb-list-to-sx (dict-get pl-fb-env-5 "L"))
(list "c" "a" "b"))
;; ── setof ──
(define pl-fb-env-6 {})
(pl-solve-once!
pl-fb-db
(pl-fb-goal "setof(X, member(X, [c, a, b, a, c]), L)" pl-fb-env-6)
(pl-mk-trail))
(pl-fb-test!
"setof sorts + dedupes atoms"
(pl-fb-list-to-sx (dict-get pl-fb-env-6 "L"))
(list "a" "b" "c"))
(pl-fb-test!
"setof fails on empty"
(pl-solve-once!
pl-fb-db
(pl-fb-goal "setof(X, fail, L)" {})
(pl-mk-trail))
false)
(define pl-fb-env-7 {})
(pl-solve-once!
pl-fb-db
(pl-fb-goal "setof(X, member(X, [3, 1, 2, 1, 3]), L)" pl-fb-env-7)
(pl-mk-trail))
(pl-fb-test!
"setof sorts + dedupes nums"
(pl-fb-list-to-sx (dict-get pl-fb-env-7 "L"))
(list 1 2 3))
(define pl-findall-tests-run! (fn () {:failed pl-fb-test-fail :passed pl-fb-test-pass :total pl-fb-test-count :failures pl-fb-test-failures}))

326
lib/prolog/tests/io_predicates.sx
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@@ -1,326 +0,0 @@
;; lib/prolog/tests/io_predicates.sx — term_to_atom/2, term_string/2,
;; with_output_to/2, writeln/1, format/1, format/2
(define pl-io-test-count 0)
(define pl-io-test-pass 0)
(define pl-io-test-fail 0)
(define pl-io-test-failures (list))
(define
pl-io-test!
(fn
(name got expected)
(begin
(set! pl-io-test-count (+ pl-io-test-count 1))
(if
(= got expected)
(set! pl-io-test-pass (+ pl-io-test-pass 1))
(begin
(set! pl-io-test-fail (+ pl-io-test-fail 1))
(append!
pl-io-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-io-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define pl-io-db (pl-mk-db))
;; helper: get output buffer after running a goal
(define
pl-io-capture!
(fn
(goal)
(do
(pl-output-clear!)
(pl-solve-once! pl-io-db goal (pl-mk-trail))
pl-output-buffer)))
;; ─── term_to_atom/2 — bound Term direction ─────────────────────────────────
(pl-io-test!
"term_to_atom(foo(a,b), A) — compound"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "term_to_atom(foo(a,b), A)" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "A"))))
"foo(a, b)")
(pl-io-test!
"term_to_atom(hello, A) — atom"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "term_to_atom(hello, A)" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "A"))))
"hello")
(pl-io-test!
"term_to_atom(42, A) — number"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "term_to_atom(42, A)" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "A"))))
"42")
(pl-io-test!
"term_to_atom(foo(a,b), 'foo(a, b)') — succeeds when Atom matches"
(pl-solve-once!
pl-io-db
(pl-io-goal "term_to_atom(foo(a,b), 'foo(a, b)')" {})
(pl-mk-trail))
true)
(pl-io-test!
"term_to_atom(hello, world) — fails on mismatch"
(pl-solve-once!
pl-io-db
(pl-io-goal "term_to_atom(hello, world)" {})
(pl-mk-trail))
false)
;; ─── term_to_atom/2 — parse direction (Atom bound, Term unbound) ───────────
(pl-io-test!
"term_to_atom(T, 'foo(a)') — parse direction gives compound"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "term_to_atom(T, 'foo(a)')" env)
(pl-mk-trail))
(let
((t (pl-walk-deep (dict-get env "T"))))
(and (pl-compound? t) (= (pl-fun t) "foo"))))
true)
(pl-io-test!
"term_to_atom(T, hello) — parse direction gives atom"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "term_to_atom(T, hello)" env)
(pl-mk-trail))
(let
((t (pl-walk-deep (dict-get env "T"))))
(and (pl-atom? t) (= (pl-atom-name t) "hello"))))
true)
;; ─── term_string/2 — alias ──────────────────────────────────────────────────
(pl-io-test!
"term_string(bar(x), A) — same as term_to_atom"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "term_string(bar(x), A)" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "A"))))
"bar(x)")
(pl-io-test!
"term_string(42, A) — number to string"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "term_string(42, A)" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "A"))))
"42")
;; ─── writeln/1 ─────────────────────────────────────────────────────────────
(pl-io-test!
"writeln(hello) writes 'hello\n'"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), writeln(hello))" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"hello
")
(pl-io-test!
"writeln(42) writes '42\n'"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), writeln(42))" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"42
")
;; ─── with_output_to/2 ──────────────────────────────────────────────────────
(pl-io-test!
"with_output_to(atom(X), write(foo)) — captures write output"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), write(foo))" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"foo")
(pl-io-test!
"with_output_to(atom(X), (write(a), write(b))) — concat output"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), (write(a), write(b)))" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"ab")
(pl-io-test!
"with_output_to(atom(X), nl) — captures newline"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), nl)" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"
")
(pl-io-test!
"with_output_to(atom(X), true) — captures empty string"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), true)" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"")
(pl-io-test!
"with_output_to(string(X), write(hello)) — string sink works"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(string(X), write(hello))" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"hello")
(pl-io-test!
"with_output_to(atom(X), fail) — fails when goal fails"
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), fail)" {})
(pl-mk-trail))
false)
;; ─── format/1 ──────────────────────────────────────────────────────────────
(pl-io-test!
"format('hello~n') — tilde-n becomes newline"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), format('hello~n'))" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"hello
")
(pl-io-test!
"format('~~') — double tilde becomes single tilde"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), format('~~'))" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"~")
(pl-io-test!
"format('abc') — plain text passes through"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), format(abc))" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"abc")
;; ─── format/2 ──────────────────────────────────────────────────────────────
(pl-io-test!
"format('~w+~w', [1,2]) — two ~w args"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), format('~w+~w', [1,2]))" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"1+2")
(pl-io-test!
"format('hello ~a!', [world]) — ~a with atom arg"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), format('hello ~a!', [world]))" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"hello world!")
(pl-io-test!
"format('n=~d', [42]) — ~d with integer arg"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), format('n=~d', [42]))" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"n=42")
(pl-io-test!
"format('~w', [foo(a)]) — ~w with compound"
(let
((env {}))
(pl-solve-once!
pl-io-db
(pl-io-goal "with_output_to(atom(X), format('~w', [foo(a)]))" env)
(pl-mk-trail))
(pl-atom-name (pl-walk-deep (dict-get env "X"))))
"foo(a)")
(define
pl-io-predicates-tests-run!
(fn
()
{:failed pl-io-test-fail
:passed pl-io-test-pass
:total pl-io-test-count
:failures pl-io-test-failures}))

320
lib/prolog/tests/iso_predicates.sx
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@@ -1,320 +0,0 @@
;; lib/prolog/tests/iso_predicates.sx — succ/2, plus/3, between/3, length/2, last/2, nth0/3, nth1/3, max/min arith
(define pl-ip-test-count 0)
(define pl-ip-test-pass 0)
(define pl-ip-test-fail 0)
(define pl-ip-test-failures (list))
(define
pl-ip-test!
(fn
(name got expected)
(begin
(set! pl-ip-test-count (+ pl-ip-test-count 1))
(if
(= got expected)
(set! pl-ip-test-pass (+ pl-ip-test-pass 1))
(begin
(set! pl-ip-test-fail (+ pl-ip-test-fail 1))
(append!
pl-ip-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-ip-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define pl-ip-db (pl-mk-db))
;; ── succ/2 ──
(define pl-ip-env-s1 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "succ(3, X)" pl-ip-env-s1)
(pl-mk-trail))
(pl-ip-test!
"succ(3, X) → X=4"
(pl-num-val (pl-walk-deep (dict-get pl-ip-env-s1 "X")))
4)
(define pl-ip-env-s2 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "succ(0, X)" pl-ip-env-s2)
(pl-mk-trail))
(pl-ip-test!
"succ(0, X) → X=1"
(pl-num-val (pl-walk-deep (dict-get pl-ip-env-s2 "X")))
1)
(define pl-ip-env-s3 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "succ(X, 5)" pl-ip-env-s3)
(pl-mk-trail))
(pl-ip-test!
"succ(X, 5) → X=4"
(pl-num-val (pl-walk-deep (dict-get pl-ip-env-s3 "X")))
4)
(pl-ip-test!
"succ(X, 0) fails"
(pl-solve-once!
pl-ip-db
(pl-ip-goal "succ(X, 0)" {})
(pl-mk-trail))
false)
;; ── plus/3 ──
(define pl-ip-env-p1 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "plus(2, 3, X)" pl-ip-env-p1)
(pl-mk-trail))
(pl-ip-test!
"plus(2, 3, X) → X=5"
(pl-num-val (pl-walk-deep (dict-get pl-ip-env-p1 "X")))
5)
(define pl-ip-env-p2 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "plus(2, X, 7)" pl-ip-env-p2)
(pl-mk-trail))
(pl-ip-test!
"plus(2, X, 7) → X=5"
(pl-num-val (pl-walk-deep (dict-get pl-ip-env-p2 "X")))
5)
(define pl-ip-env-p3 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "plus(X, 3, 7)" pl-ip-env-p3)
(pl-mk-trail))
(pl-ip-test!
"plus(X, 3, 7) → X=4"
(pl-num-val (pl-walk-deep (dict-get pl-ip-env-p3 "X")))
4)
(pl-ip-test!
"plus(0, 0, 0) succeeds"
(pl-solve-once!
pl-ip-db
(pl-ip-goal "plus(0, 0, 0)" {})
(pl-mk-trail))
true)
;; ── between/3 ──
(pl-ip-test!
"between(1, 3, X): 3 solutions"
(pl-solve-count!
pl-ip-db
(pl-ip-goal "between(1, 3, X)" {})
(pl-mk-trail))
3)
(pl-ip-test!
"between(1, 3, 2) succeeds"
(pl-solve-once!
pl-ip-db
(pl-ip-goal "between(1, 3, 2)" {})
(pl-mk-trail))
true)
(pl-ip-test!
"between(1, 3, 5) fails"
(pl-solve-once!
pl-ip-db
(pl-ip-goal "between(1, 3, 5)" {})
(pl-mk-trail))
false)
(pl-ip-test!
"between(5, 3, X): 0 solutions (empty range)"
(pl-solve-count!
pl-ip-db
(pl-ip-goal "between(5, 3, X)" {})
(pl-mk-trail))
0)
(define pl-ip-env-b1 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "between(1, 5, X)" pl-ip-env-b1)
(pl-mk-trail))
(pl-ip-test!
"between(1, 5, X): first solution X=1"
(pl-num-val (pl-walk-deep (dict-get pl-ip-env-b1 "X")))
1)
(pl-ip-test!
"between + condition: between(1,5,X), X > 3 → 2 solutions"
(pl-solve-count!
pl-ip-db
(pl-ip-goal "between(1, 5, X), X > 3" {})
(pl-mk-trail))
2)
;; ── length/2 ──
(define pl-ip-env-l1 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "length([1,2,3], N)" pl-ip-env-l1)
(pl-mk-trail))
(pl-ip-test!
"length([1,2,3], N) → N=3"
(pl-num-val (pl-walk-deep (dict-get pl-ip-env-l1 "N")))
3)
(define pl-ip-env-l2 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "length([], N)" pl-ip-env-l2)
(pl-mk-trail))
(pl-ip-test!
"length([], N) → N=0"
(pl-num-val (pl-walk-deep (dict-get pl-ip-env-l2 "N")))
0)
(pl-ip-test!
"length([a,b], 2) check succeeds"
(pl-solve-once!
pl-ip-db
(pl-ip-goal "length([a,b], 2)" {})
(pl-mk-trail))
true)
(define pl-ip-env-l3 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "length(L, 3)" pl-ip-env-l3)
(pl-mk-trail))
(pl-ip-test!
"length(L, 3): L is a list of length 3"
(pl-solve-once!
pl-ip-db
(pl-ip-goal "length(L, 3), is_list(L)" pl-ip-env-l3)
(pl-mk-trail))
true)
;; ── last/2 ──
(define pl-ip-env-la1 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "last([1,2,3], X)" pl-ip-env-la1)
(pl-mk-trail))
(pl-ip-test!
"last([1,2,3], X) → X=3"
(pl-num-val (pl-walk-deep (dict-get pl-ip-env-la1 "X")))
3)
(define pl-ip-env-la2 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "last([a], X)" pl-ip-env-la2)
(pl-mk-trail))
(pl-ip-test!
"last([a], X) → X=a"
(pl-atom-name (pl-walk-deep (dict-get pl-ip-env-la2 "X")))
"a")
(pl-ip-test!
"last([], X) fails"
(pl-solve-once!
pl-ip-db
(pl-ip-goal "last([], X)" {})
(pl-mk-trail))
false)
;; ── nth0/3 ──
(define pl-ip-env-n0 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "nth0(0, [a,b,c], X)" pl-ip-env-n0)
(pl-mk-trail))
(pl-ip-test!
"nth0(0, [a,b,c], X) → X=a"
(pl-atom-name (pl-walk-deep (dict-get pl-ip-env-n0 "X")))
"a")
(define pl-ip-env-n1 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "nth0(2, [a,b,c], X)" pl-ip-env-n1)
(pl-mk-trail))
(pl-ip-test!
"nth0(2, [a,b,c], X) → X=c"
(pl-atom-name (pl-walk-deep (dict-get pl-ip-env-n1 "X")))
"c")
(pl-ip-test!
"nth0(5, [a,b,c], X) fails"
(pl-solve-once!
pl-ip-db
(pl-ip-goal "nth0(5, [a,b,c], X)" {})
(pl-mk-trail))
false)
;; ── nth1/3 ──
(define pl-ip-env-n1a {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "nth1(1, [a,b,c], X)" pl-ip-env-n1a)
(pl-mk-trail))
(pl-ip-test!
"nth1(1, [a,b,c], X) → X=a"
(pl-atom-name (pl-walk-deep (dict-get pl-ip-env-n1a "X")))
"a")
(define pl-ip-env-n1b {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "nth1(3, [a,b,c], X)" pl-ip-env-n1b)
(pl-mk-trail))
(pl-ip-test!
"nth1(3, [a,b,c], X) → X=c"
(pl-atom-name (pl-walk-deep (dict-get pl-ip-env-n1b "X")))
"c")
;; ── max/min in arithmetic ──
(define pl-ip-env-m1 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "X is max(3, 5)" pl-ip-env-m1)
(pl-mk-trail))
(pl-ip-test!
"X is max(3, 5) → X=5"
(pl-num-val (pl-walk-deep (dict-get pl-ip-env-m1 "X")))
5)
(define pl-ip-env-m2 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "X is min(3, 5)" pl-ip-env-m2)
(pl-mk-trail))
(pl-ip-test!
"X is min(3, 5) → X=3"
(pl-num-val (pl-walk-deep (dict-get pl-ip-env-m2 "X")))
3)
(define pl-ip-env-m3 {})
(pl-solve-once!
pl-ip-db
(pl-ip-goal "X is max(7, 2) + min(1, 4)" pl-ip-env-m3)
(pl-mk-trail))
(pl-ip-test!
"X is max(7,2) + min(1,4) → X=8"
(pl-num-val (pl-walk-deep (dict-get pl-ip-env-m3 "X")))
8)
(define pl-iso-predicates-tests-run! (fn () {:failed pl-ip-test-fail :passed pl-ip-test-pass :total pl-ip-test-count :failures pl-ip-test-failures}))

335
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@@ -1,335 +0,0 @@
;; lib/prolog/tests/list_predicates.sx — ==/2, \==/2, flatten/2, numlist/3,
;; atomic_list_concat/2,3, sum_list/2, max_list/2, min_list/2, delete/3
(define pl-lp-test-count 0)
(define pl-lp-test-pass 0)
(define pl-lp-test-fail 0)
(define pl-lp-test-failures (list))
(define
pl-lp-test!
(fn
(name got expected)
(begin
(set! pl-lp-test-count (+ pl-lp-test-count 1))
(if
(= got expected)
(set! pl-lp-test-pass (+ pl-lp-test-pass 1))
(begin
(set! pl-lp-test-fail (+ pl-lp-test-fail 1))
(append!
pl-lp-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-lp-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define pl-lp-db (pl-mk-db))
;; ── ==/2 ───────────────────────────────────────────────────────────
(pl-lp-test!
"==(a, a) succeeds"
(pl-solve-once! pl-lp-db (pl-lp-goal "==(a, a)" {}) (pl-mk-trail))
true)
(pl-lp-test!
"==(a, b) fails"
(pl-solve-once! pl-lp-db (pl-lp-goal "==(a, b)" {}) (pl-mk-trail))
false)
(pl-lp-test!
"==(1, 1) succeeds"
(pl-solve-once! pl-lp-db (pl-lp-goal "==(1, 1)" {}) (pl-mk-trail))
true)
(pl-lp-test!
"==(1, 2) fails"
(pl-solve-once! pl-lp-db (pl-lp-goal "==(1, 2)" {}) (pl-mk-trail))
false)
(pl-lp-test!
"==(f(a,b), f(a,b)) succeeds"
(pl-solve-once!
pl-lp-db
(pl-lp-goal "==(f(a,b), f(a,b))" {})
(pl-mk-trail))
true)
(pl-lp-test!
"==(f(a,b), f(a,c)) fails"
(pl-solve-once!
pl-lp-db
(pl-lp-goal "==(f(a,b), f(a,c))" {})
(pl-mk-trail))
false)
;; unbound var vs atom: fails (different tags)
(pl-lp-test!
"==(X, a) fails (unbound var vs atom)"
(pl-solve-once! pl-lp-db (pl-lp-goal "==(X, a)" {}) (pl-mk-trail))
false)
;; two unbound vars with SAME name in same env share the same runtime var
(define pl-lp-env-same-var {})
(pl-lp-goal "==(X, X)" pl-lp-env-same-var)
(pl-lp-test!
"==(X, X) succeeds (same runtime var)"
(pl-solve-once!
pl-lp-db
(pl-instantiate
(nth (first (pl-parse "g :- ==(X, X).")) 2)
pl-lp-env-same-var)
(pl-mk-trail))
true)
;; ── \==/2 ──────────────────────────────────────────────────────────
(pl-lp-test!
"\\==(a, b) succeeds"
(pl-solve-once! pl-lp-db (pl-lp-goal "\\==(a, b)" {}) (pl-mk-trail))
true)
(pl-lp-test!
"\\==(a, a) fails"
(pl-solve-once! pl-lp-db (pl-lp-goal "\\==(a, a)" {}) (pl-mk-trail))
false)
(pl-lp-test!
"\\==(X, a) succeeds (unbound var differs from atom)"
(pl-solve-once! pl-lp-db (pl-lp-goal "\\==(X, a)" {}) (pl-mk-trail))
true)
(pl-lp-test!
"\\==(1, 2) succeeds"
(pl-solve-once! pl-lp-db (pl-lp-goal "\\==(1, 2)" {}) (pl-mk-trail))
true)
;; ── flatten/2 ──────────────────────────────────────────────────────
(define pl-lp-env-fl1 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "flatten([], F)" pl-lp-env-fl1)
(pl-mk-trail))
(pl-lp-test!
"flatten([], []) -> empty"
(pl-format-term (pl-walk-deep (dict-get pl-lp-env-fl1 "F")))
"[]")
(define pl-lp-env-fl2 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "flatten([1,2,3], F)" pl-lp-env-fl2)
(pl-mk-trail))
(pl-lp-test!
"flatten([1,2,3], F) -> [1,2,3]"
(pl-format-term (pl-walk-deep (dict-get pl-lp-env-fl2 "F")))
".(1, .(2, .(3, [])))")
(define pl-lp-env-fl3 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "flatten([1,[2,[3]],4], F)" pl-lp-env-fl3)
(pl-mk-trail))
(pl-lp-test!
"flatten([1,[2,[3]],4], F) -> [1,2,3,4]"
(pl-format-term (pl-walk-deep (dict-get pl-lp-env-fl3 "F")))
".(1, .(2, .(3, .(4, []))))")
(define pl-lp-env-fl4 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "flatten([[a,b],[c]], F)" pl-lp-env-fl4)
(pl-mk-trail))
(pl-lp-test!
"flatten([[a,b],[c]], F) -> [a,b,c]"
(pl-format-term (pl-walk-deep (dict-get pl-lp-env-fl4 "F")))
".(a, .(b, .(c, [])))")
;; ── numlist/3 ──────────────────────────────────────────────────────
(define pl-lp-env-nl1 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "numlist(1, 5, L)" pl-lp-env-nl1)
(pl-mk-trail))
(pl-lp-test!
"numlist(1,5,L) -> [1,2,3,4,5]"
(pl-format-term (pl-walk-deep (dict-get pl-lp-env-nl1 "L")))
".(1, .(2, .(3, .(4, .(5, [])))))")
(define pl-lp-env-nl2 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "numlist(3, 3, L)" pl-lp-env-nl2)
(pl-mk-trail))
(pl-lp-test!
"numlist(3,3,L) -> [3]"
(pl-format-term (pl-walk-deep (dict-get pl-lp-env-nl2 "L")))
".(3, [])")
(pl-lp-test!
"numlist(5, 3, L) fails (Low > High)"
(pl-solve-once!
pl-lp-db
(pl-lp-goal "numlist(5, 3, L)" {})
(pl-mk-trail))
false)
;; ── atomic_list_concat/2 ───────────────────────────────────────────
(define pl-lp-env-alc1 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "atomic_list_concat([a, b, c], R)" pl-lp-env-alc1)
(pl-mk-trail))
(pl-lp-test!
"atomic_list_concat([a,b,c], R) -> abc"
(pl-atom-name (pl-walk-deep (dict-get pl-lp-env-alc1 "R")))
"abc")
(define pl-lp-env-alc2 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "atomic_list_concat([hello, world], R)" pl-lp-env-alc2)
(pl-mk-trail))
(pl-lp-test!
"atomic_list_concat([hello,world], R) -> helloworld"
(pl-atom-name (pl-walk-deep (dict-get pl-lp-env-alc2 "R")))
"helloworld")
;; ── atomic_list_concat/3 ───────────────────────────────────────────
(define pl-lp-env-alcs1 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "atomic_list_concat([a, b, c], '-', R)" pl-lp-env-alcs1)
(pl-mk-trail))
(pl-lp-test!
"atomic_list_concat([a,b,c], '-', R) -> a-b-c"
(pl-atom-name (pl-walk-deep (dict-get pl-lp-env-alcs1 "R")))
"a-b-c")
(define pl-lp-env-alcs2 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "atomic_list_concat([x], '-', R)" pl-lp-env-alcs2)
(pl-mk-trail))
(pl-lp-test!
"atomic_list_concat([x], '-', R) -> x (single element, no sep)"
(pl-atom-name (pl-walk-deep (dict-get pl-lp-env-alcs2 "R")))
"x")
;; ── sum_list/2 ─────────────────────────────────────────────────────
(define pl-lp-env-sl1 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "sum_list([1,2,3], S)" pl-lp-env-sl1)
(pl-mk-trail))
(pl-lp-test!
"sum_list([1,2,3], S) -> 6"
(pl-num-val (pl-walk-deep (dict-get pl-lp-env-sl1 "S")))
6)
(define pl-lp-env-sl2 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "sum_list([10], S)" pl-lp-env-sl2)
(pl-mk-trail))
(pl-lp-test!
"sum_list([10], S) -> 10"
(pl-num-val (pl-walk-deep (dict-get pl-lp-env-sl2 "S")))
10)
(define pl-lp-env-sl3 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "sum_list([], S)" pl-lp-env-sl3)
(pl-mk-trail))
(pl-lp-test!
"sum_list([], S) -> 0"
(pl-num-val (pl-walk-deep (dict-get pl-lp-env-sl3 "S")))
0)
;; ── max_list/2 ─────────────────────────────────────────────────────
(define pl-lp-env-mx1 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "max_list([3,1,4,1,5,9,2,6], M)" pl-lp-env-mx1)
(pl-mk-trail))
(pl-lp-test!
"max_list([3,1,4,1,5,9,2,6], M) -> 9"
(pl-num-val (pl-walk-deep (dict-get pl-lp-env-mx1 "M")))
9)
(define pl-lp-env-mx2 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "max_list([7], M)" pl-lp-env-mx2)
(pl-mk-trail))
(pl-lp-test!
"max_list([7], M) -> 7"
(pl-num-val (pl-walk-deep (dict-get pl-lp-env-mx2 "M")))
7)
;; ── min_list/2 ─────────────────────────────────────────────────────
(define pl-lp-env-mn1 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "min_list([3,1,4,1,5,9,2,6], M)" pl-lp-env-mn1)
(pl-mk-trail))
(pl-lp-test!
"min_list([3,1,4,1,5,9,2,6], M) -> 1"
(pl-num-val (pl-walk-deep (dict-get pl-lp-env-mn1 "M")))
1)
(define pl-lp-env-mn2 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "min_list([5,2,8], M)" pl-lp-env-mn2)
(pl-mk-trail))
(pl-lp-test!
"min_list([5,2,8], M) -> 2"
(pl-num-val (pl-walk-deep (dict-get pl-lp-env-mn2 "M")))
2)
;; ── delete/3 ───────────────────────────────────────────────────────
(define pl-lp-env-del1 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "delete([1,2,3,2,1], 2, R)" pl-lp-env-del1)
(pl-mk-trail))
(pl-lp-test!
"delete([1,2,3,2,1], 2, R) -> [1,3,1]"
(pl-format-term (pl-walk-deep (dict-get pl-lp-env-del1 "R")))
".(1, .(3, .(1, [])))")
(define pl-lp-env-del2 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "delete([a,b,c], d, R)" pl-lp-env-del2)
(pl-mk-trail))
(pl-lp-test!
"delete([a,b,c], d, R) -> [a,b,c] (nothing deleted)"
(pl-format-term (pl-walk-deep (dict-get pl-lp-env-del2 "R")))
".(a, .(b, .(c, [])))")
(define pl-lp-env-del3 {})
(pl-solve-once!
pl-lp-db
(pl-lp-goal "delete([], x, R)" pl-lp-env-del3)
(pl-mk-trail))
(pl-lp-test!
"delete([], x, R) -> []"
(pl-format-term (pl-walk-deep (dict-get pl-lp-env-del3 "R")))
"[]")
(define pl-list-predicates-tests-run! (fn () {:failed pl-lp-test-fail :passed pl-lp-test-pass :total pl-lp-test-count :failures pl-lp-test-failures}))

197
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View File

@@ -1,197 +0,0 @@
;; lib/prolog/tests/meta_call.sx — forall/2, maplist/2, maplist/3, include/3, exclude/3
(define pl-mc-test-count 0)
(define pl-mc-test-pass 0)
(define pl-mc-test-fail 0)
(define pl-mc-test-failures (list))
(define
pl-mc-test!
(fn
(name got expected)
(begin
(set! pl-mc-test-count (+ pl-mc-test-count 1))
(if
(= got expected)
(set! pl-mc-test-pass (+ pl-mc-test-pass 1))
(begin
(set! pl-mc-test-fail (+ pl-mc-test-fail 1))
(append!
pl-mc-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-mc-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define
pl-mc-term-to-sx
(fn
(t)
(cond
((pl-num? t) (pl-num-val t))
((pl-atom? t) (pl-atom-name t))
(else t))))
(define
pl-mc-list-sx
(fn
(t)
(let
((w (pl-walk-deep t)))
(cond
((and (pl-atom? w) (= (pl-atom-name w) "[]")) (list))
((and (pl-compound? w) (= (pl-fun w) "."))
(cons
(pl-mc-term-to-sx (first (pl-args w)))
(pl-mc-list-sx (nth (pl-args w) 1))))
(else (list :not-list))))))
(define pl-mc-db (pl-mk-db))
(pl-db-load!
pl-mc-db
(pl-parse "member(X, [X|_]). member(X, [_|T]) :- member(X, T)."))
(pl-db-load! pl-mc-db (pl-parse "double(X, Y) :- Y is X * 2."))
(pl-db-load! pl-mc-db (pl-parse "even(X) :- 0 is X mod 2."))
;; -- forall/2 --
(pl-mc-test!
"forall(member(X,[2,4,6]), 0 is X mod 2) — all even"
(pl-solve-once!
pl-mc-db
(pl-mc-goal "forall(member(X,[2,4,6]), 0 is X mod 2)" {})
(pl-mk-trail))
true)
(pl-mc-test!
"forall(member(X,[2,3,6]), 0 is X mod 2) — 3 is odd, fails"
(pl-solve-once!
pl-mc-db
(pl-mc-goal "forall(member(X,[2,3,6]), 0 is X mod 2)" {})
(pl-mk-trail))
false)
(pl-mc-test!
"forall(member(_,[]), true) — vacuously true"
(pl-solve-once!
pl-mc-db
(pl-mc-goal "forall(member(_,[]), true)" {})
(pl-mk-trail))
true)
;; -- maplist/2 --
(pl-mc-test!
"maplist(atom, [a,b,c]) — all atoms"
(pl-solve-once!
pl-mc-db
(pl-mc-goal "maplist(atom, [a,b,c])" {})
(pl-mk-trail))
true)
(pl-mc-test!
"maplist(atom, [a,1,c]) — 1 is not atom, fails"
(pl-solve-once!
pl-mc-db
(pl-mc-goal "maplist(atom, [a,1,c])" {})
(pl-mk-trail))
false)
(pl-mc-test!
"maplist(atom, []) — vacuously true"
(pl-solve-once!
pl-mc-db
(pl-mc-goal "maplist(atom, [])" {})
(pl-mk-trail))
true)
;; -- maplist/3 --
(pl-mc-test!
"maplist(double, [1,2,3], [2,4,6]) — deterministic check"
(pl-solve-once!
pl-mc-db
(pl-mc-goal "maplist(double, [1,2,3], [2,4,6])" {})
(pl-mk-trail))
true)
(pl-mc-test!
"maplist(double, [1,2,3], [2,4,7]) — wrong result fails"
(pl-solve-once!
pl-mc-db
(pl-mc-goal "maplist(double, [1,2,3], [2,4,7])" {})
(pl-mk-trail))
false)
(define pl-mc-env-ml3 {:L (pl-mk-rt-var "L")})
(pl-solve-once!
pl-mc-db
(pl-mc-goal "maplist(double, [1,2,3], L)" pl-mc-env-ml3)
(pl-mk-trail))
(pl-mc-test!
"maplist(double, [1,2,3], L) — L bound to [2,4,6]"
(pl-mc-list-sx (dict-get pl-mc-env-ml3 "L"))
(list 2 4 6))
;; -- include/3 --
(pl-mc-test!
"include(even, [1,2,3,4,5,6], [2,4,6])"
(pl-solve-once!
pl-mc-db
(pl-mc-goal "include(even, [1,2,3,4,5,6], [2,4,6])" {})
(pl-mk-trail))
true)
(pl-mc-test!
"include(even, [], [])"
(pl-solve-once!
pl-mc-db
(pl-mc-goal "include(even, [], [])" {})
(pl-mk-trail))
true)
(define pl-mc-env-inc {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-mc-db
(pl-mc-goal "include(even, [1,2,3,4,5,6], R)" pl-mc-env-inc)
(pl-mk-trail))
(pl-mc-test!
"include(even, [1,2,3,4,5,6], R) — R bound to [2,4,6]"
(pl-mc-list-sx (dict-get pl-mc-env-inc "R"))
(list 2 4 6))
;; -- exclude/3 --
(pl-mc-test!
"exclude(even, [1,2,3,4,5,6], [1,3,5])"
(pl-solve-once!
pl-mc-db
(pl-mc-goal "exclude(even, [1,2,3,4,5,6], [1,3,5])" {})
(pl-mk-trail))
true)
(pl-mc-test!
"exclude(even, [], [])"
(pl-solve-once!
pl-mc-db
(pl-mc-goal "exclude(even, [], [])" {})
(pl-mk-trail))
true)
(define pl-mc-env-exc {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-mc-db
(pl-mc-goal "exclude(even, [1,2,3,4,5,6], R)" pl-mc-env-exc)
(pl-mk-trail))
(pl-mc-test!
"exclude(even, [1,2,3,4,5,6], R) — R bound to [1,3,5]"
(pl-mc-list-sx (dict-get pl-mc-env-exc "R"))
(list 1 3 5))
(define pl-meta-call-tests-run! (fn () {:failed pl-mc-test-fail :passed pl-mc-test-pass :total pl-mc-test-count :failures pl-mc-test-failures}))

252
lib/prolog/tests/meta_predicates.sx
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@@ -1,252 +0,0 @@
;; lib/prolog/tests/meta_predicates.sx — \+/1, not/1, once/1, ignore/1, ground/1, sort/2, msort/2, atom_number/2, number_string/2
(define pl-mp-test-count 0)
(define pl-mp-test-pass 0)
(define pl-mp-test-fail 0)
(define pl-mp-test-failures (list))
(define
pl-mp-test!
(fn
(name got expected)
(begin
(set! pl-mp-test-count (+ pl-mp-test-count 1))
(if
(= got expected)
(set! pl-mp-test-pass (+ pl-mp-test-pass 1))
(begin
(set! pl-mp-test-fail (+ pl-mp-test-fail 1))
(append!
pl-mp-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-mp-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define pl-mp-db (pl-mk-db))
(pl-db-load!
pl-mp-db
(pl-parse "member(X, [X|_]). member(X, [_|T]) :- member(X, T)."))
;; -- \+/1 --
(pl-mp-test!
"\\+(fail) succeeds"
(pl-solve-once! pl-mp-db (pl-mp-goal "\\+(fail)" {}) (pl-mk-trail))
true)
(pl-mp-test!
"\\+(true) fails"
(pl-solve-once! pl-mp-db (pl-mp-goal "\\+(true)" {}) (pl-mk-trail))
false)
(pl-mp-test!
"\\+(member(d, [a,b,c])) succeeds"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "\\+(member(d, [a,b,c]))" {})
(pl-mk-trail))
true)
(pl-mp-test!
"\\+(member(a, [a,b,c])) fails"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "\\+(member(a, [a,b,c]))" {})
(pl-mk-trail))
false)
(define pl-mp-env-neg {})
(pl-solve-once!
pl-mp-db
(pl-mp-goal "\\+(X = 5)" pl-mp-env-neg)
(pl-mk-trail))
(pl-mp-test!
"\\+(X=5) fails, X stays unbound (bindings undone)"
(nil? (pl-var-binding (dict-get pl-mp-env-neg "X")))
true)
;; -- not/1 --
(pl-mp-test!
"not(fail) succeeds"
(pl-solve-once! pl-mp-db (pl-mp-goal "not(fail)" {}) (pl-mk-trail))
true)
(pl-mp-test!
"not(true) fails"
(pl-solve-once! pl-mp-db (pl-mp-goal "not(true)" {}) (pl-mk-trail))
false)
;; -- once/1 --
(pl-mp-test!
"once(member(X,[1,2,3])) succeeds once"
(pl-solve-count!
pl-mp-db
(pl-mp-goal "once(member(X,[1,2,3]))" {})
(pl-mk-trail))
1)
(define pl-mp-env-once {})
(pl-solve-once!
pl-mp-db
(pl-mp-goal "once(member(X,[1,2,3]))" pl-mp-env-once)
(pl-mk-trail))
(pl-mp-test!
"once(member(X,[1,2,3])): X=1 (first solution)"
(pl-num-val (pl-walk-deep (dict-get pl-mp-env-once "X")))
1)
(pl-mp-test!
"once(fail) fails"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "once(fail)" {})
(pl-mk-trail))
false)
;; -- ignore/1 --
(pl-mp-test!
"ignore(true) succeeds"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "ignore(true)" {})
(pl-mk-trail))
true)
(pl-mp-test!
"ignore(fail) still succeeds"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "ignore(fail)" {})
(pl-mk-trail))
true)
;; -- ground/1 --
(pl-mp-test!
"ground(foo(1, a)) succeeds"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "ground(foo(1, a))" {})
(pl-mk-trail))
true)
(pl-mp-test!
"ground(foo(X, a)) fails (X unbound)"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "ground(foo(X, a))" {})
(pl-mk-trail))
false)
(pl-mp-test!
"ground(42) succeeds"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "ground(42)" {})
(pl-mk-trail))
true)
;; -- sort/2 --
(pl-mp-test!
"sort([b,a,c], [a,b,c])"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "sort([b,a,c], [a,b,c])" {})
(pl-mk-trail))
true)
(pl-mp-test!
"sort([b,a,a,c], [a,b,c]) (removes duplicates)"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "sort([b,a,a,c], [a,b,c])" {})
(pl-mk-trail))
true)
(pl-mp-test!
"sort([], [])"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "sort([], [])" {})
(pl-mk-trail))
true)
;; -- msort/2 --
(pl-mp-test!
"msort([b,a,a,c], [a,a,b,c]) (keeps duplicates)"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "msort([b,a,a,c], [a,a,b,c])" {})
(pl-mk-trail))
true)
(pl-mp-test!
"msort([3,1,2,1], [1,1,2,3])"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "msort([3,1,2,1], [1,1,2,3])" {})
(pl-mk-trail))
true)
;; -- atom_number/2 --
(define pl-mp-env-an1 {})
(pl-solve-once!
pl-mp-db
(pl-mp-goal "atom_number('42', N)" pl-mp-env-an1)
(pl-mk-trail))
(pl-mp-test!
"atom_number('42', N) -> N=42"
(pl-num-val (pl-walk-deep (dict-get pl-mp-env-an1 "N")))
42)
(define pl-mp-env-an2 {})
(pl-solve-once!
pl-mp-db
(pl-mp-goal "atom_number(A, 7)" pl-mp-env-an2)
(pl-mk-trail))
(pl-mp-test!
"atom_number(A, 7) -> A='7'"
(pl-atom-name (pl-walk-deep (dict-get pl-mp-env-an2 "A")))
"7")
(pl-mp-test!
"atom_number(foo, N) fails (not a number)"
(pl-solve-once!
pl-mp-db
(pl-mp-goal "atom_number(foo, N)" {})
(pl-mk-trail))
false)
;; -- number_string/2 --
(define pl-mp-env-ns1 {})
(pl-solve-once!
pl-mp-db
(pl-mp-goal "number_string(42, S)" pl-mp-env-ns1)
(pl-mk-trail))
(pl-mp-test!
"number_string(42, S) -> S='42'"
(pl-atom-name (pl-walk-deep (dict-get pl-mp-env-ns1 "S")))
"42")
(define pl-mp-env-ns2 {})
(pl-solve-once!
pl-mp-db
(pl-mp-goal "number_string(N, '3.14')" pl-mp-env-ns2)
(pl-mk-trail))
(pl-mp-test!
"number_string(N, '3.14') -> N=3.14"
(pl-num-val (pl-walk-deep (dict-get pl-mp-env-ns2 "N")))
3.14)
(define pl-meta-predicates-tests-run! (fn () {:failed pl-mp-test-fail :passed pl-mp-test-pass :total pl-mp-test-count :failures pl-mp-test-failures}))

193
lib/prolog/tests/operators.sx
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@@ -1,193 +0,0 @@
;; lib/prolog/tests/operators.sx — operator-table parsing + comparison built-ins.
(define pl-op-test-count 0)
(define pl-op-test-pass 0)
(define pl-op-test-fail 0)
(define pl-op-test-failures (list))
(define
pl-op-test!
(fn
(name got expected)
(begin
(set! pl-op-test-count (+ pl-op-test-count 1))
(if
(= got expected)
(set! pl-op-test-pass (+ pl-op-test-pass 1))
(begin
(set! pl-op-test-fail (+ pl-op-test-fail 1))
(append!
pl-op-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define pl-op-empty-db (pl-mk-db))
(define
pl-op-body
(fn (src) (nth (first (pl-parse (str "g :- " src "."))) 2)))
(define pl-op-goal (fn (src env) (pl-instantiate (pl-op-body src) env)))
;; ── parsing tests ──
(pl-op-test!
"infix +"
(pl-op-body "a + b")
(list "compound" "+" (list (list "atom" "a") (list "atom" "b"))))
(pl-op-test!
"infix * tighter than +"
(pl-op-body "a + b * c")
(list
"compound"
"+"
(list
(list "atom" "a")
(list "compound" "*" (list (list "atom" "b") (list "atom" "c"))))))
(pl-op-test!
"parens override precedence"
(pl-op-body "(a + b) * c")
(list
"compound"
"*"
(list
(list "compound" "+" (list (list "atom" "a") (list "atom" "b")))
(list "atom" "c"))))
(pl-op-test!
"+ is yfx (left-assoc)"
(pl-op-body "a + b + c")
(list
"compound"
"+"
(list
(list "compound" "+" (list (list "atom" "a") (list "atom" "b")))
(list "atom" "c"))))
(pl-op-test!
"; is xfy (right-assoc)"
(pl-op-body "a ; b ; c")
(list
"compound"
";"
(list
(list "atom" "a")
(list "compound" ";" (list (list "atom" "b") (list "atom" "c"))))))
(pl-op-test!
"= folds at 700"
(pl-op-body "X = 5")
(list "compound" "=" (list (list "var" "X") (list "num" 5))))
(pl-op-test!
"is + nests via 700>500>400"
(pl-op-body "X is 2 + 3 * 4")
(list
"compound"
"is"
(list
(list "var" "X")
(list
"compound"
"+"
(list
(list "num" 2)
(list "compound" "*" (list (list "num" 3) (list "num" 4))))))))
(pl-op-test!
"< parses at 700"
(pl-op-body "2 < 3")
(list "compound" "<" (list (list "num" 2) (list "num" 3))))
(pl-op-test!
"mod parses as yfx 400"
(pl-op-body "10 mod 3")
(list "compound" "mod" (list (list "num" 10) (list "num" 3))))
(pl-op-test!
"comma in body folds right-assoc"
(pl-op-body "a, b, c")
(list
"compound"
","
(list
(list "atom" "a")
(list "compound" "," (list (list "atom" "b") (list "atom" "c"))))))
;; ── solver tests via infix ──
(pl-op-test!
"X is 2 + 3 binds X = 5"
(let
((env {}) (trail (pl-mk-trail)))
(begin
(pl-solve-once! pl-op-empty-db (pl-op-goal "X is 2 + 3" env) trail)
(pl-num-val (pl-walk-deep (dict-get env "X")))))
5)
(pl-op-test!
"infix conjunction parses + solves"
(pl-solve-once!
pl-op-empty-db
(pl-op-goal "X = 5, X = 5" {})
(pl-mk-trail))
true)
(pl-op-test!
"infix mismatch fails"
(pl-solve-once!
pl-op-empty-db
(pl-op-goal "X = 5, X = 6" {})
(pl-mk-trail))
false)
(pl-op-test!
"infix disjunction picks left"
(pl-solve-once!
pl-op-empty-db
(pl-op-goal "true ; fail" {})
(pl-mk-trail))
true)
(pl-op-test!
"2 < 5 succeeds"
(pl-solve-once!
pl-op-empty-db
(pl-op-goal "2 < 5" {})
(pl-mk-trail))
true)
(pl-op-test!
"5 < 2 fails"
(pl-solve-once!
pl-op-empty-db
(pl-op-goal "5 < 2" {})
(pl-mk-trail))
false)
(pl-op-test!
"5 >= 5 succeeds"
(pl-solve-once!
pl-op-empty-db
(pl-op-goal "5 >= 5" {})
(pl-mk-trail))
true)
(pl-op-test!
"3 =< 5 succeeds"
(pl-solve-once!
pl-op-empty-db
(pl-op-goal "3 =< 5" {})
(pl-mk-trail))
true)
(pl-op-test!
"infix < with arithmetic both sides"
(pl-solve-once!
pl-op-empty-db
(pl-op-goal "1 + 2 < 2 * 3" {})
(pl-mk-trail))
true)
(define pl-operators-tests-run! (fn () {:failed pl-op-test-fail :passed pl-op-test-pass :total pl-op-test-count :failures pl-op-test-failures}))

5
lib/prolog/tests/programs/append.pl
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@@ -1,5 +0,0 @@
%% append/3 list concatenation, classic Prolog
%% Two clauses: empty-prefix base case + recursive cons-prefix.
%% Bidirectional works in all modes: build, check, split.
append([], L, L).
append([H|T], L, [H|R]) :- append(T, L, R).

114
lib/prolog/tests/programs/append.sx
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@@ -1,114 +0,0 @@
;; lib/prolog/tests/programs/append.sx — append/3 test runner
;;
;; Mirrors the Prolog source in append.pl (embedded as a string here because
;; the SX runtime has no file-read primitive yet).
(define pl-ap-test-count 0)
(define pl-ap-test-pass 0)
(define pl-ap-test-fail 0)
(define pl-ap-test-failures (list))
(define
pl-ap-test!
(fn
(name got expected)
(begin
(set! pl-ap-test-count (+ pl-ap-test-count 1))
(if
(= got expected)
(set! pl-ap-test-pass (+ pl-ap-test-pass 1))
(begin
(set! pl-ap-test-fail (+ pl-ap-test-fail 1))
(append!
pl-ap-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-ap-term-to-sx
(fn
(t)
(cond
((pl-num? t) (pl-num-val t))
((pl-atom? t) (pl-atom-name t))
(true (list :complex)))))
(define
pl-ap-list-walked
(fn
(w)
(cond
((and (pl-atom? w) (= (pl-atom-name w) "[]")) (list))
((and (pl-compound? w) (= (pl-fun w) ".") (= (len (pl-args w)) 2))
(cons
(pl-ap-term-to-sx (first (pl-args w)))
(pl-ap-list-walked (nth (pl-args w) 1))))
(true (list :not-list)))))
(define pl-ap-list-to-sx (fn (t) (pl-ap-list-walked (pl-walk-deep t))))
(define
pl-ap-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define
pl-ap-prog-src
"append([], L, L). append([H|T], L, [H|R]) :- append(T, L, R).")
(define pl-ap-db (pl-mk-db))
(pl-db-load! pl-ap-db (pl-parse pl-ap-prog-src))
(define pl-ap-env-1 {})
(define pl-ap-goal-1 (pl-ap-goal "append([], [a, b], X)" pl-ap-env-1))
(pl-solve-once! pl-ap-db pl-ap-goal-1 (pl-mk-trail))
(pl-ap-test!
"append([], [a, b], X) → X = [a, b]"
(pl-ap-list-to-sx (dict-get pl-ap-env-1 "X"))
(list "a" "b"))
(define pl-ap-env-2 {})
(define pl-ap-goal-2 (pl-ap-goal "append([1, 2], [3, 4], X)" pl-ap-env-2))
(pl-solve-once! pl-ap-db pl-ap-goal-2 (pl-mk-trail))
(pl-ap-test!
"append([1, 2], [3, 4], X) → X = [1, 2, 3, 4]"
(pl-ap-list-to-sx (dict-get pl-ap-env-2 "X"))
(list 1 2 3 4))
(pl-ap-test!
"append([1], [2, 3], [1, 2, 3]) succeeds"
(pl-solve-once!
pl-ap-db
(pl-ap-goal "append([1], [2, 3], [1, 2, 3])" {})
(pl-mk-trail))
true)
(pl-ap-test!
"append([1, 2], [3], [1, 2, 4]) fails"
(pl-solve-once!
pl-ap-db
(pl-ap-goal "append([1, 2], [3], [1, 2, 4])" {})
(pl-mk-trail))
false)
(pl-ap-test!
"append(X, Y, [1, 2, 3]) backtracks 4 times"
(pl-solve-count!
pl-ap-db
(pl-ap-goal "append(X, Y, [1, 2, 3])" {})
(pl-mk-trail))
4)
(define pl-ap-env-6 {})
(define pl-ap-goal-6 (pl-ap-goal "append(X, [3], [1, 2, 3])" pl-ap-env-6))
(pl-solve-once! pl-ap-db pl-ap-goal-6 (pl-mk-trail))
(pl-ap-test!
"append(X, [3], [1, 2, 3]) deduces X = [1, 2]"
(pl-ap-list-to-sx (dict-get pl-ap-env-6 "X"))
(list 1 2))
(define pl-append-tests-run! (fn () {:failed pl-ap-test-fail :passed pl-ap-test-pass :total pl-ap-test-count :failures pl-ap-test-failures}))

24
lib/prolog/tests/programs/family.pl
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@@ -1,24 +0,0 @@
%% family facts + transitive ancestor + derived relations.
%% Five-generation tree: tom -> bob -> {ann, pat} -> jim, plus tom's
%% other child liz.
parent(tom, bob).
parent(tom, liz).
parent(bob, ann).
parent(bob, pat).
parent(pat, jim).
male(tom).
male(bob).
male(jim).
male(pat).
female(liz).
female(ann).
father(F, C) :- parent(F, C), male(F).
mother(M, C) :- parent(M, C), female(M).
ancestor(X, Y) :- parent(X, Y).
ancestor(X, Y) :- parent(X, Z), ancestor(Z, Y).
sibling(X, Y) :- parent(P, X), parent(P, Y), \=(X, Y).

116
lib/prolog/tests/programs/family.sx
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@@ -1,116 +0,0 @@
;; lib/prolog/tests/programs/family.sx — facts + ancestor + sibling relations.
(define pl-fa-test-count 0)
(define pl-fa-test-pass 0)
(define pl-fa-test-fail 0)
(define pl-fa-test-failures (list))
(define
pl-fa-test!
(fn
(name got expected)
(begin
(set! pl-fa-test-count (+ pl-fa-test-count 1))
(if
(= got expected)
(set! pl-fa-test-pass (+ pl-fa-test-pass 1))
(begin
(set! pl-fa-test-fail (+ pl-fa-test-fail 1))
(append!
pl-fa-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-fa-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define
pl-fa-prog-src
"parent(tom, bob). parent(tom, liz). parent(bob, ann). parent(bob, pat). parent(pat, jim). male(tom). male(bob). male(jim). male(pat). female(liz). female(ann). father(F, C) :- parent(F, C), male(F). mother(M, C) :- parent(M, C), female(M). ancestor(X, Y) :- parent(X, Y). ancestor(X, Y) :- parent(X, Z), ancestor(Z, Y). sibling(X, Y) :- parent(P, X), parent(P, Y), \\=(X, Y).")
(define pl-fa-db (pl-mk-db))
(pl-db-load! pl-fa-db (pl-parse pl-fa-prog-src))
(pl-fa-test!
"parent(tom, bob) is a fact"
(pl-solve-once!
pl-fa-db
(pl-fa-goal "parent(tom, bob)" {})
(pl-mk-trail))
true)
(pl-fa-test!
"parent(tom, ann) — not a direct parent"
(pl-solve-once!
pl-fa-db
(pl-fa-goal "parent(tom, ann)" {})
(pl-mk-trail))
false)
(pl-fa-test!
"5 parent/2 facts in total"
(pl-solve-count!
pl-fa-db
(pl-fa-goal "parent(X, Y)" {})
(pl-mk-trail))
5)
(pl-fa-test!
"ancestor(tom, jim) — three-step transitive"
(pl-solve-once!
pl-fa-db
(pl-fa-goal "ancestor(tom, jim)" {})
(pl-mk-trail))
true)
(pl-fa-test!
"tom has 5 ancestors-of: bob, liz, ann, pat, jim"
(pl-solve-count!
pl-fa-db
(pl-fa-goal "ancestor(tom, X)" {})
(pl-mk-trail))
5)
(pl-fa-test!
"father(bob, ann) succeeds"
(pl-solve-once!
pl-fa-db
(pl-fa-goal "father(bob, ann)" {})
(pl-mk-trail))
true)
(pl-fa-test!
"father(liz, ann) fails (liz is female)"
(pl-solve-once!
pl-fa-db
(pl-fa-goal "father(liz, ann)" {})
(pl-mk-trail))
false)
(pl-fa-test!
"mother(liz, X) fails (liz has no children)"
(pl-solve-once!
pl-fa-db
(pl-fa-goal "mother(liz, X)" {})
(pl-mk-trail))
false)
(pl-fa-test!
"sibling(ann, pat) succeeds"
(pl-solve-once!
pl-fa-db
(pl-fa-goal "sibling(ann, pat)" {})
(pl-mk-trail))
true)
(pl-fa-test!
"sibling(ann, ann) fails by \\="
(pl-solve-once!
pl-fa-db
(pl-fa-goal "sibling(ann, ann)" {})
(pl-mk-trail))
false)
(define pl-family-tests-run! (fn () {:failed pl-fa-test-fail :passed pl-fa-test-pass :total pl-fa-test-count :failures pl-fa-test-failures}))

4
lib/prolog/tests/programs/member.pl
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@@ -1,4 +0,0 @@
%% member/2 list membership.
%% Generates all solutions on backtracking when the element is unbound.
member(X, [X|_]).
member(X, [_|T]) :- member(X, T).

91
lib/prolog/tests/programs/member.sx
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@@ -1,91 +0,0 @@
;; lib/prolog/tests/programs/member.sx — member/2 generator.
(define pl-mb-test-count 0)
(define pl-mb-test-pass 0)
(define pl-mb-test-fail 0)
(define pl-mb-test-failures (list))
(define
pl-mb-test!
(fn
(name got expected)
(begin
(set! pl-mb-test-count (+ pl-mb-test-count 1))
(if
(= got expected)
(set! pl-mb-test-pass (+ pl-mb-test-pass 1))
(begin
(set! pl-mb-test-fail (+ pl-mb-test-fail 1))
(append!
pl-mb-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-mb-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define pl-mb-prog-src "member(X, [X|_]). member(X, [_|T]) :- member(X, T).")
(define pl-mb-db (pl-mk-db))
(pl-db-load! pl-mb-db (pl-parse pl-mb-prog-src))
(pl-mb-test!
"member(2, [1, 2, 3]) succeeds"
(pl-solve-once!
pl-mb-db
(pl-mb-goal "member(2, [1, 2, 3])" {})
(pl-mk-trail))
true)
(pl-mb-test!
"member(4, [1, 2, 3]) fails"
(pl-solve-once!
pl-mb-db
(pl-mb-goal "member(4, [1, 2, 3])" {})
(pl-mk-trail))
false)
(pl-mb-test!
"member(X, []) fails"
(pl-solve-once!
pl-mb-db
(pl-mb-goal "member(X, [])" {})
(pl-mk-trail))
false)
(pl-mb-test!
"member(X, [a, b, c]) generates 3 solutions"
(pl-solve-count!
pl-mb-db
(pl-mb-goal "member(X, [a, b, c])" {})
(pl-mk-trail))
3)
(define pl-mb-env-1 {})
(define pl-mb-goal-1 (pl-mb-goal "member(X, [11, 22, 33])" pl-mb-env-1))
(pl-solve-once! pl-mb-db pl-mb-goal-1 (pl-mk-trail))
(pl-mb-test!
"member(X, [11, 22, 33]) first solution X = 11"
(pl-num-val (pl-walk-deep (dict-get pl-mb-env-1 "X")))
11)
(pl-mb-test!
"member(2, [1, 2, 3, 2, 1]) matches twice on backtrack"
(pl-solve-count!
pl-mb-db
(pl-mb-goal "member(2, [1, 2, 3, 2, 1])" {})
(pl-mk-trail))
2)
(pl-mb-test!
"member with unbound list cell unifies"
(pl-solve-once!
pl-mb-db
(pl-mb-goal "member(a, [X, b, c])" {})
(pl-mk-trail))
true)
(define pl-member-tests-run! (fn () {:failed pl-mb-test-fail :passed pl-mb-test-pass :total pl-mb-test-count :failures pl-mb-test-failures}))

27
lib/prolog/tests/programs/nqueens.pl
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@@ -1,27 +0,0 @@
%% nqueens permutation-and-test formulation.
%% Caller passes the row list [1..N]; queens/2 finds N column placements
%% s.t. no two queens attack on a diagonal. Same-column attacks are
%% structurally impossible Qs is a permutation, all distinct.
%%
%% No `>/2` `</2` `=</2` built-ins yet, so range/3 is omitted; tests pass
%; the literal range list. Once the operator table lands and arithmetic
%% comparison built-ins are in, range/3 can be added.
queens(L, Qs) :- permute(L, Qs), safe(Qs).
permute([], []).
permute(L, [H|T]) :- select(H, L, R), permute(R, T).
select(X, [X|T], T).
select(X, [H|T], [H|R]) :- select(X, T, R).
safe([]).
safe([Q|Qs]) :- safe(Qs), no_attack(Q, Qs, 1).
no_attack(_, [], _).
no_attack(Q, [Q1|Qs], D) :-
is(D2, +(Q, D)),
\=(D2, Q1),
is(D3, -(Q, D)),
\=(D3, Q1),
is(D1, +(D, 1)),
no_attack(Q, Qs, D1).

108
lib/prolog/tests/programs/nqueens.sx
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@@ -1,108 +0,0 @@
;; lib/prolog/tests/programs/nqueens.sx — N-queens via permute + safe.
(define pl-nq-test-count 0)
(define pl-nq-test-pass 0)
(define pl-nq-test-fail 0)
(define pl-nq-test-failures (list))
(define
pl-nq-test!
(fn
(name got expected)
(begin
(set! pl-nq-test-count (+ pl-nq-test-count 1))
(if
(= got expected)
(set! pl-nq-test-pass (+ pl-nq-test-pass 1))
(begin
(set! pl-nq-test-fail (+ pl-nq-test-fail 1))
(append!
pl-nq-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-nq-term-to-sx
(fn
(t)
(cond
((pl-num? t) (pl-num-val t))
((pl-atom? t) (pl-atom-name t))
(true (list :complex)))))
(define
pl-nq-list-walked
(fn
(w)
(cond
((and (pl-atom? w) (= (pl-atom-name w) "[]")) (list))
((and (pl-compound? w) (= (pl-fun w) ".") (= (len (pl-args w)) 2))
(cons
(pl-nq-term-to-sx (first (pl-args w)))
(pl-nq-list-walked (nth (pl-args w) 1))))
(true (list :not-list)))))
(define pl-nq-list-to-sx (fn (t) (pl-nq-list-walked (pl-walk-deep t))))
(define
pl-nq-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define
pl-nq-prog-src
"queens(L, Qs) :- permute(L, Qs), safe(Qs). permute([], []). permute(L, [H|T]) :- select(H, L, R), permute(R, T). select(X, [X|T], T). select(X, [H|T], [H|R]) :- select(X, T, R). safe([]). safe([Q|Qs]) :- safe(Qs), no_attack(Q, Qs, 1). no_attack(_, [], _). no_attack(Q, [Q1|Qs], D) :- is(D2, +(Q, D)), \\=(D2, Q1), is(D3, -(Q, D)), \\=(D3, Q1), is(D1, +(D, 1)), no_attack(Q, Qs, D1).")
(define pl-nq-db (pl-mk-db))
(pl-db-load! pl-nq-db (pl-parse pl-nq-prog-src))
(pl-nq-test!
"queens([1], Qs) → 1 solution"
(pl-solve-count!
pl-nq-db
(pl-nq-goal "queens([1], Qs)" {})
(pl-mk-trail))
1)
(pl-nq-test!
"queens([1, 2], Qs) → 0 solutions"
(pl-solve-count!
pl-nq-db
(pl-nq-goal "queens([1, 2], Qs)" {})
(pl-mk-trail))
0)
(pl-nq-test!
"queens([1, 2, 3], Qs) → 0 solutions"
(pl-solve-count!
pl-nq-db
(pl-nq-goal "queens([1, 2, 3], Qs)" {})
(pl-mk-trail))
0)
(pl-nq-test!
"queens([1, 2, 3, 4], Qs) → 2 solutions"
(pl-solve-count!
pl-nq-db
(pl-nq-goal "queens([1, 2, 3, 4], Qs)" {})
(pl-mk-trail))
2)
(pl-nq-test!
"queens([1, 2, 3, 4, 5], Qs) → 10 solutions"
(pl-solve-count!
pl-nq-db
(pl-nq-goal "queens([1, 2, 3, 4, 5], Qs)" {})
(pl-mk-trail))
10)
(define pl-nq-env-1 {})
(define pl-nq-goal-1 (pl-nq-goal "queens([1, 2, 3, 4], Qs)" pl-nq-env-1))
(pl-solve-once! pl-nq-db pl-nq-goal-1 (pl-mk-trail))
(pl-nq-test!
"queens([1..4], Qs) first solution = [2, 4, 1, 3]"
(pl-nq-list-to-sx (dict-get pl-nq-env-1 "Qs"))
(list 2 4 1 3))
(define pl-nqueens-tests-run! (fn () {:failed pl-nq-test-fail :passed pl-nq-test-pass :total pl-nq-test-count :failures pl-nq-test-failures}))

7
lib/prolog/tests/programs/reverse.pl
View File

@@ -1,7 +0,0 @@
%% reverse/2 — naive reverse via append/3.
%% Quadratic accumulates the reversed prefix one append per cons.
reverse([], []).
reverse([H|T], R) :- reverse(T, RT), append(RT, [H], R).
append([], L, L).
append([H|T], L, [H|R]) :- append(T, L, R).

113
lib/prolog/tests/programs/reverse.sx
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@@ -1,113 +0,0 @@
;; lib/prolog/tests/programs/reverse.sx — naive reverse/2 via append/3.
;;
;; Mirrors reverse.pl (embedded as a string here).
(define pl-rv-test-count 0)
(define pl-rv-test-pass 0)
(define pl-rv-test-fail 0)
(define pl-rv-test-failures (list))
(define
pl-rv-test!
(fn
(name got expected)
(begin
(set! pl-rv-test-count (+ pl-rv-test-count 1))
(if
(= got expected)
(set! pl-rv-test-pass (+ pl-rv-test-pass 1))
(begin
(set! pl-rv-test-fail (+ pl-rv-test-fail 1))
(append!
pl-rv-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-rv-term-to-sx
(fn
(t)
(cond
((pl-num? t) (pl-num-val t))
((pl-atom? t) (pl-atom-name t))
(true (list :complex)))))
(define
pl-rv-list-walked
(fn
(w)
(cond
((and (pl-atom? w) (= (pl-atom-name w) "[]")) (list))
((and (pl-compound? w) (= (pl-fun w) ".") (= (len (pl-args w)) 2))
(cons
(pl-rv-term-to-sx (first (pl-args w)))
(pl-rv-list-walked (nth (pl-args w) 1))))
(true (list :not-list)))))
(define pl-rv-list-to-sx (fn (t) (pl-rv-list-walked (pl-walk-deep t))))
(define
pl-rv-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define
pl-rv-prog-src
"reverse([], []). reverse([H|T], R) :- reverse(T, RT), append(RT, [H], R). append([], L, L). append([H|T], L, [H|R]) :- append(T, L, R).")
(define pl-rv-db (pl-mk-db))
(pl-db-load! pl-rv-db (pl-parse pl-rv-prog-src))
(define pl-rv-env-1 {})
(define pl-rv-goal-1 (pl-rv-goal "reverse([], X)" pl-rv-env-1))
(pl-solve-once! pl-rv-db pl-rv-goal-1 (pl-mk-trail))
(pl-rv-test!
"reverse([], X) → X = []"
(pl-rv-list-to-sx (dict-get pl-rv-env-1 "X"))
(list))
(define pl-rv-env-2 {})
(define pl-rv-goal-2 (pl-rv-goal "reverse([1], X)" pl-rv-env-2))
(pl-solve-once! pl-rv-db pl-rv-goal-2 (pl-mk-trail))
(pl-rv-test!
"reverse([1], X) → X = [1]"
(pl-rv-list-to-sx (dict-get pl-rv-env-2 "X"))
(list 1))
(define pl-rv-env-3 {})
(define pl-rv-goal-3 (pl-rv-goal "reverse([1, 2, 3], X)" pl-rv-env-3))
(pl-solve-once! pl-rv-db pl-rv-goal-3 (pl-mk-trail))
(pl-rv-test!
"reverse([1, 2, 3], X) → X = [3, 2, 1]"
(pl-rv-list-to-sx (dict-get pl-rv-env-3 "X"))
(list 3 2 1))
(define pl-rv-env-4 {})
(define pl-rv-goal-4 (pl-rv-goal "reverse([a, b, c, d], X)" pl-rv-env-4))
(pl-solve-once! pl-rv-db pl-rv-goal-4 (pl-mk-trail))
(pl-rv-test!
"reverse([a, b, c, d], X) → X = [d, c, b, a]"
(pl-rv-list-to-sx (dict-get pl-rv-env-4 "X"))
(list "d" "c" "b" "a"))
(pl-rv-test!
"reverse([1, 2, 3], [3, 2, 1]) succeeds"
(pl-solve-once!
pl-rv-db
(pl-rv-goal "reverse([1, 2, 3], [3, 2, 1])" {})
(pl-mk-trail))
true)
(pl-rv-test!
"reverse([1, 2], [1, 2]) fails"
(pl-solve-once!
pl-rv-db
(pl-rv-goal "reverse([1, 2], [1, 2])" {})
(pl-mk-trail))
false)
(define pl-reverse-tests-run! (fn () {:failed pl-rv-test-fail :passed pl-rv-test-pass :total pl-rv-test-count :failures pl-rv-test-failures}))

127
lib/prolog/tests/query_api.sx
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@@ -1,127 +0,0 @@
;; lib/prolog/tests/query_api.sx — tests for pl-load/pl-query-all/pl-query-one/pl-query
(define pl-qa-test-count 0)
(define pl-qa-test-pass 0)
(define pl-qa-test-fail 0)
(define pl-qa-test-failures (list))
(define
pl-qa-test!
(fn
(name got expected)
(begin
(set! pl-qa-test-count (+ pl-qa-test-count 1))
(if
(= got expected)
(set! pl-qa-test-pass (+ pl-qa-test-pass 1))
(begin
(set! pl-qa-test-fail (+ pl-qa-test-fail 1))
(append!
pl-qa-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-qa-src
"parent(tom, bob). parent(tom, liz). parent(bob, ann). ancestor(X, Y) :- parent(X, Y). ancestor(X, Y) :- parent(X, Z), ancestor(Z, Y).")
(define pl-qa-db (pl-load pl-qa-src))
;; ── pl-load ──
(pl-qa-test!
"pl-load returns a usable DB (pl-query-all non-nil)"
(not (nil? pl-qa-db))
true)
;; ── pl-query-all: basic fact lookup ──
(pl-qa-test!
"query-all parent(tom, X): 2 solutions"
(len (pl-query-all pl-qa-db "parent(tom, X)"))
2)
(pl-qa-test!
"query-all parent(tom, X): first solution X=bob"
(dict-get (first (pl-query-all pl-qa-db "parent(tom, X)")) "X")
"bob")
(pl-qa-test!
"query-all parent(tom, X): second solution X=liz"
(dict-get (nth (pl-query-all pl-qa-db "parent(tom, X)") 1) "X")
"liz")
;; ── pl-query-all: no solutions ──
(pl-qa-test!
"query-all no solutions returns empty list"
(pl-query-all pl-qa-db "parent(liz, X)")
(list))
;; ── pl-query-all: boolean query (no vars) ──
(pl-qa-test!
"boolean success: 1 solution (empty dict)"
(len (pl-query-all pl-qa-db "parent(tom, bob)"))
1)
(pl-qa-test!
"boolean success: solution has no bindings"
(empty? (keys (first (pl-query-all pl-qa-db "parent(tom, bob)"))))
true)
(pl-qa-test!
"boolean fail: 0 solutions"
(len (pl-query-all pl-qa-db "parent(bob, tom)"))
0)
;; ── pl-query-all: multi-var ──
(pl-qa-test!
"query-all parent(X, Y): 3 solutions total"
(len (pl-query-all pl-qa-db "parent(X, Y)"))
3)
;; ── pl-query-all: rule-based (ancestor/2) ──
(pl-qa-test!
"query-all ancestor(tom, X): 3 descendants (bob, liz, ann)"
(len (pl-query-all pl-qa-db "ancestor(tom, X)"))
3)
;; ── pl-query-all: built-in in query ──
(pl-qa-test!
"query with is/2 built-in"
(dict-get (first (pl-query-all pl-qa-db "X is 2 + 3")) "X")
"5")
;; ── pl-query-one ──
(pl-qa-test!
"query-one returns first solution"
(dict-get (pl-query-one pl-qa-db "parent(tom, X)") "X")
"bob")
(pl-qa-test!
"query-one returns nil for no solutions"
(pl-query-one pl-qa-db "parent(liz, X)")
nil)
;; ── pl-query convenience ──
(pl-qa-test!
"pl-query convenience: count solutions"
(len (pl-query "likes(alice, bob). likes(alice, carol)." "likes(alice, X)"))
2)
(pl-qa-test!
"pl-query convenience: first solution"
(dict-get (first (pl-query "likes(alice, bob). likes(alice, carol)." "likes(alice, X)")) "X")
"bob")
(pl-qa-test!
"pl-query with empty source (built-ins only)"
(dict-get (first (pl-query "" "X is 6 * 7")) "X")
"42")
(define pl-query-api-tests-run! (fn () {:failed pl-qa-test-fail :passed pl-qa-test-pass :total pl-qa-test-count :failures pl-qa-test-failures}))

195
lib/prolog/tests/set_predicates.sx
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@@ -1,195 +0,0 @@
;; lib/prolog/tests/set_predicates.sx — foldl/4, list_to_set/2, intersection/3, subtract/3, union/3
(define pl-sp-test-count 0)
(define pl-sp-test-pass 0)
(define pl-sp-test-fail 0)
(define pl-sp-test-failures (list))
(define
pl-sp-test!
(fn
(name got expected)
(begin
(set! pl-sp-test-count (+ pl-sp-test-count 1))
(if
(= got expected)
(set! pl-sp-test-pass (+ pl-sp-test-pass 1))
(begin
(set! pl-sp-test-fail (+ pl-sp-test-fail 1))
(append!
pl-sp-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-sp-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
;; DB with add/3 for foldl tests
(define pl-sp-db (pl-mk-db))
(pl-db-load! pl-sp-db (pl-parse "add(X, Acc, NAcc) :- NAcc is Acc + X."))
;; ── foldl/4 ────────────────────────────────────────────────────────
(define pl-sp-env-fl1 {:S (pl-mk-rt-var "S")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "foldl(add, [1,2,3,4], 0, S)" pl-sp-env-fl1)
(pl-mk-trail))
(pl-sp-test!
"foldl(add,[1,2,3,4],0,S) -> S=10"
(pl-num-val (pl-walk-deep (dict-get pl-sp-env-fl1 "S")))
10)
(define pl-sp-env-fl2 {:S (pl-mk-rt-var "S")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "foldl(add, [], 5, S)" pl-sp-env-fl2)
(pl-mk-trail))
(pl-sp-test!
"foldl(add,[],5,S) -> S=5"
(pl-num-val (pl-walk-deep (dict-get pl-sp-env-fl2 "S")))
5)
(define pl-sp-env-fl3 {:S (pl-mk-rt-var "S")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "foldl(add, [1,2,3], 0, S)" pl-sp-env-fl3)
(pl-mk-trail))
(pl-sp-test!
"foldl(add,[1,2,3],0,S) -> S=6"
(pl-num-val (pl-walk-deep (dict-get pl-sp-env-fl3 "S")))
6)
;; ── list_to_set/2 ──────────────────────────────────────────────────
(define pl-sp-env-lts1 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "list_to_set([1,2,3,2,1], R)" pl-sp-env-lts1)
(pl-mk-trail))
(pl-sp-test!
"list_to_set([1,2,3,2,1],R) -> [1,2,3]"
(pl-format-term (pl-walk-deep (dict-get pl-sp-env-lts1 "R")))
".(1, .(2, .(3, [])))")
(define pl-sp-env-lts2 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "list_to_set([], R)" pl-sp-env-lts2)
(pl-mk-trail))
(pl-sp-test!
"list_to_set([],R) -> []"
(pl-format-term (pl-walk-deep (dict-get pl-sp-env-lts2 "R")))
"[]")
(define pl-sp-env-lts3 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "list_to_set([a,b,a,c], R)" pl-sp-env-lts3)
(pl-mk-trail))
(pl-sp-test!
"list_to_set([a,b,a,c],R) -> [a,b,c]"
(pl-format-term (pl-walk-deep (dict-get pl-sp-env-lts3 "R")))
".(a, .(b, .(c, [])))")
;; ── intersection/3 ─────────────────────────────────────────────────
(define pl-sp-env-int1 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "intersection([1,2,3,4], [2,4,6], R)" pl-sp-env-int1)
(pl-mk-trail))
(pl-sp-test!
"intersection([1,2,3,4],[2,4,6],R) -> [2,4]"
(pl-format-term (pl-walk-deep (dict-get pl-sp-env-int1 "R")))
".(2, .(4, []))")
(define pl-sp-env-int2 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "intersection([1,2,3], [4,5,6], R)" pl-sp-env-int2)
(pl-mk-trail))
(pl-sp-test!
"intersection([1,2,3],[4,5,6],R) -> []"
(pl-format-term (pl-walk-deep (dict-get pl-sp-env-int2 "R")))
"[]")
(define pl-sp-env-int3 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "intersection([], [1,2,3], R)" pl-sp-env-int3)
(pl-mk-trail))
(pl-sp-test!
"intersection([],[1,2,3],R) -> []"
(pl-format-term (pl-walk-deep (dict-get pl-sp-env-int3 "R")))
"[]")
;; ── subtract/3 ─────────────────────────────────────────────────────
(define pl-sp-env-sub1 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "subtract([1,2,3,4], [2,4], R)" pl-sp-env-sub1)
(pl-mk-trail))
(pl-sp-test!
"subtract([1,2,3,4],[2,4],R) -> [1,3]"
(pl-format-term (pl-walk-deep (dict-get pl-sp-env-sub1 "R")))
".(1, .(3, []))")
(define pl-sp-env-sub2 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "subtract([1,2,3], [], R)" pl-sp-env-sub2)
(pl-mk-trail))
(pl-sp-test!
"subtract([1,2,3],[],R) -> [1,2,3]"
(pl-format-term (pl-walk-deep (dict-get pl-sp-env-sub2 "R")))
".(1, .(2, .(3, [])))")
(define pl-sp-env-sub3 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "subtract([], [1,2], R)" pl-sp-env-sub3)
(pl-mk-trail))
(pl-sp-test!
"subtract([],[1,2],R) -> []"
(pl-format-term (pl-walk-deep (dict-get pl-sp-env-sub3 "R")))
"[]")
;; ── union/3 ────────────────────────────────────────────────────────
(define pl-sp-env-uni1 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "union([1,2,3], [2,3,4], R)" pl-sp-env-uni1)
(pl-mk-trail))
(pl-sp-test!
"union([1,2,3],[2,3,4],R) -> [1,2,3,4]"
(pl-format-term (pl-walk-deep (dict-get pl-sp-env-uni1 "R")))
".(1, .(2, .(3, .(4, []))))")
(define pl-sp-env-uni2 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "union([], [1,2], R)" pl-sp-env-uni2)
(pl-mk-trail))
(pl-sp-test!
"union([],[1,2],R) -> [1,2]"
(pl-format-term (pl-walk-deep (dict-get pl-sp-env-uni2 "R")))
".(1, .(2, []))")
(define pl-sp-env-uni3 {:R (pl-mk-rt-var "R")})
(pl-solve-once!
pl-sp-db
(pl-sp-goal "union([1,2], [], R)" pl-sp-env-uni3)
(pl-mk-trail))
(pl-sp-test!
"union([1,2],[],R) -> [1,2]"
(pl-format-term (pl-walk-deep (dict-get pl-sp-env-uni3 "R")))
".(1, .(2, []))")
;; ── Runner ─────────────────────────────────────────────────────────
(define pl-set-predicates-tests-run! (fn () {:failed pl-sp-test-fail :passed pl-sp-test-pass :total pl-sp-test-count :failures pl-sp-test-failures}))

618
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@@ -1,618 +0,0 @@
;; lib/prolog/tests/solve.sx — DFS solver unit tests
(define pl-s-test-count 0)
(define pl-s-test-pass 0)
(define pl-s-test-fail 0)
(define pl-s-test-failures (list))
(define
pl-s-test!
(fn
(name got expected)
(begin
(set! pl-s-test-count (+ pl-s-test-count 1))
(if
(= got expected)
(set! pl-s-test-pass (+ pl-s-test-pass 1))
(begin
(set! pl-s-test-fail (+ pl-s-test-fail 1))
(append!
pl-s-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-s-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define pl-s-empty-db (pl-mk-db))
(pl-s-test!
"true succeeds"
(pl-solve-once! pl-s-empty-db (pl-s-goal "true" {}) (pl-mk-trail))
true)
(pl-s-test!
"fail fails"
(pl-solve-once! pl-s-empty-db (pl-s-goal "fail" {}) (pl-mk-trail))
false)
(pl-s-test!
"= identical atoms"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "=(a, a)" {})
(pl-mk-trail))
true)
(pl-s-test!
"= different atoms"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "=(a, b)" {})
(pl-mk-trail))
false)
(pl-s-test!
"= var to atom"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "=(X, foo)" {})
(pl-mk-trail))
true)
(define pl-s-env-bind {})
(define pl-s-trail-bind (pl-mk-trail))
(define pl-s-goal-bind (pl-s-goal "=(X, foo)" pl-s-env-bind))
(pl-solve-once! pl-s-empty-db pl-s-goal-bind pl-s-trail-bind)
(pl-s-test!
"X bound to foo after =(X, foo)"
(pl-atom-name (pl-walk-deep (dict-get pl-s-env-bind "X")))
"foo")
(pl-s-test!
"true , true succeeds"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "true, true" {})
(pl-mk-trail))
true)
(pl-s-test!
"true , fail fails"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "true, fail" {})
(pl-mk-trail))
false)
(pl-s-test!
"consistent X bindings succeed"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "=(X, a), =(X, a)" {})
(pl-mk-trail))
true)
(pl-s-test!
"conflicting X bindings fail"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "=(X, a), =(X, b)" {})
(pl-mk-trail))
false)
(define pl-s-db1 (pl-mk-db))
(pl-db-load!
pl-s-db1
(pl-parse "parent(tom, bob). parent(bob, liz). parent(bob, ann)."))
(pl-s-test!
"fact lookup hit"
(pl-solve-once!
pl-s-db1
(pl-s-goal "parent(tom, bob)" {})
(pl-mk-trail))
true)
(pl-s-test!
"fact lookup miss"
(pl-solve-once!
pl-s-db1
(pl-s-goal "parent(tom, liz)" {})
(pl-mk-trail))
false)
(pl-s-test!
"all parent solutions"
(pl-solve-count!
pl-s-db1
(pl-s-goal "parent(X, Y)" {})
(pl-mk-trail))
3)
(pl-s-test!
"fixed first arg solutions"
(pl-solve-count!
pl-s-db1
(pl-s-goal "parent(bob, Y)" {})
(pl-mk-trail))
2)
(define pl-s-db2 (pl-mk-db))
(pl-db-load!
pl-s-db2
(pl-parse
"parent(tom, bob). parent(bob, ann). ancestor(X, Y) :- parent(X, Y). ancestor(X, Z) :- parent(X, Y), ancestor(Y, Z)."))
(pl-s-test!
"rule direct ancestor"
(pl-solve-once!
pl-s-db2
(pl-s-goal "ancestor(tom, bob)" {})
(pl-mk-trail))
true)
(pl-s-test!
"rule transitive ancestor"
(pl-solve-once!
pl-s-db2
(pl-s-goal "ancestor(tom, ann)" {})
(pl-mk-trail))
true)
(pl-s-test!
"rule no path"
(pl-solve-once!
pl-s-db2
(pl-s-goal "ancestor(ann, tom)" {})
(pl-mk-trail))
false)
(define pl-s-env-undo {})
(define pl-s-trail-undo (pl-mk-trail))
(define pl-s-goal-undo (pl-s-goal "=(X, a), fail" pl-s-env-undo))
(pl-solve-once! pl-s-empty-db pl-s-goal-undo pl-s-trail-undo)
(pl-s-test!
"trail undone after failure leaves X unbound"
(pl-var-bound? (dict-get pl-s-env-undo "X"))
false)
(define pl-s-db-cut1 (pl-mk-db))
(pl-db-load! pl-s-db-cut1 (pl-parse "g :- !. g :- true."))
(pl-s-test!
"bare cut succeeds"
(pl-solve-once! pl-s-db-cut1 (pl-s-goal "g" {}) (pl-mk-trail))
true)
(pl-s-test!
"cut commits to first matching clause"
(pl-solve-count! pl-s-db-cut1 (pl-s-goal "g" {}) (pl-mk-trail))
1)
(define pl-s-db-cut2 (pl-mk-db))
(pl-db-load! pl-s-db-cut2 (pl-parse "a(1). a(2). g(X) :- a(X), !."))
(pl-s-test!
"cut commits to first a solution"
(pl-solve-count! pl-s-db-cut2 (pl-s-goal "g(X)" {}) (pl-mk-trail))
1)
(define pl-s-db-cut3 (pl-mk-db))
(pl-db-load!
pl-s-db-cut3
(pl-parse "a(1). a(2). g(X) :- a(X), !, fail. g(99)."))
(pl-s-test!
"cut then fail blocks alt clauses"
(pl-solve-count! pl-s-db-cut3 (pl-s-goal "g(X)" {}) (pl-mk-trail))
0)
(define pl-s-db-cut4 (pl-mk-db))
(pl-db-load!
pl-s-db-cut4
(pl-parse "a(1). b(10). b(20). g(X, Y) :- a(X), !, b(Y)."))
(pl-s-test!
"post-cut goal backtracks freely"
(pl-solve-count!
pl-s-db-cut4
(pl-s-goal "g(X, Y)" {})
(pl-mk-trail))
2)
(define pl-s-db-cut5 (pl-mk-db))
(pl-db-load!
pl-s-db-cut5
(pl-parse "r(1). r(2). q :- r(X), !. p :- q. p :- true."))
(pl-s-test!
"inner cut does not commit outer predicate"
(pl-solve-count! pl-s-db-cut5 (pl-s-goal "p" {}) (pl-mk-trail))
2)
(pl-s-test!
"\\= different atoms succeeds"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "\\=(a, b)" {})
(pl-mk-trail))
true)
(pl-s-test!
"\\= same atoms fails"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "\\=(a, a)" {})
(pl-mk-trail))
false)
(pl-s-test!
"\\= var-vs-atom would unify so fails"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "\\=(X, a)" {})
(pl-mk-trail))
false)
(define pl-s-env-ne {})
(define pl-s-trail-ne (pl-mk-trail))
(define pl-s-goal-ne (pl-s-goal "\\=(X, a)" pl-s-env-ne))
(pl-solve-once! pl-s-empty-db pl-s-goal-ne pl-s-trail-ne)
(pl-s-test!
"\\= leaves no bindings"
(pl-var-bound? (dict-get pl-s-env-ne "X"))
false)
(pl-s-test!
"; left succeeds"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal ";(true, fail)" {})
(pl-mk-trail))
true)
(pl-s-test!
"; right succeeds when left fails"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal ";(fail, true)" {})
(pl-mk-trail))
true)
(pl-s-test!
"; both fail"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal ";(fail, fail)" {})
(pl-mk-trail))
false)
(pl-s-test!
"; both branches counted"
(pl-solve-count!
pl-s-empty-db
(pl-s-goal ";(true, true)" {})
(pl-mk-trail))
2)
(define pl-s-db-call (pl-mk-db))
(pl-db-load! pl-s-db-call (pl-parse "p(1). p(2)."))
(pl-s-test!
"call(true) succeeds"
(pl-solve-once!
pl-s-db-call
(pl-s-goal "call(true)" {})
(pl-mk-trail))
true)
(pl-s-test!
"call(p(X)) yields all solutions"
(pl-solve-count!
pl-s-db-call
(pl-s-goal "call(p(X))" {})
(pl-mk-trail))
2)
(pl-s-test!
"call of bound goal var resolves"
(pl-solve-once!
pl-s-db-call
(pl-s-goal "=(G, true), call(G)" {})
(pl-mk-trail))
true)
(define pl-s-db-ite (pl-mk-db))
(pl-db-load! pl-s-db-ite (pl-parse "p(1). p(2). q(yes). q(no)."))
(pl-s-test!
"if-then-else: cond true → then runs"
(pl-solve-once!
pl-s-db-ite
(pl-s-goal ";(->(true, =(X, ok)), =(X, fallback))" {})
(pl-mk-trail))
true)
(define pl-s-env-ite1 {})
(pl-solve-once!
pl-s-db-ite
(pl-s-goal ";(->(true, =(X, ok)), =(X, fallback))" pl-s-env-ite1)
(pl-mk-trail))
(pl-s-test!
"if-then-else: cond true binds via then"
(pl-atom-name (pl-walk-deep (dict-get pl-s-env-ite1 "X")))
"ok")
(pl-s-test!
"if-then-else: cond false → else"
(pl-solve-once!
pl-s-db-ite
(pl-s-goal ";(->(fail, =(X, ok)), =(X, fallback))" {})
(pl-mk-trail))
true)
(define pl-s-env-ite2 {})
(pl-solve-once!
pl-s-db-ite
(pl-s-goal ";(->(fail, =(X, ok)), =(X, fallback))" pl-s-env-ite2)
(pl-mk-trail))
(pl-s-test!
"if-then-else: cond false binds via else"
(pl-atom-name (pl-walk-deep (dict-get pl-s-env-ite2 "X")))
"fallback")
(pl-s-test!
"if-then-else: cond commits to first solution (count = 1)"
(pl-solve-count!
pl-s-db-ite
(pl-s-goal ";(->(p(X), =(Y, found)), =(Y, none))" {})
(pl-mk-trail))
1)
(pl-s-test!
"if-then-else: then can backtrack"
(pl-solve-count!
pl-s-db-ite
(pl-s-goal ";(->(true, p(X)), =(X, none))" {})
(pl-mk-trail))
2)
(pl-s-test!
"if-then-else: else can backtrack"
(pl-solve-count!
pl-s-db-ite
(pl-s-goal ";(->(fail, =(X, ignored)), p(X))" {})
(pl-mk-trail))
2)
(pl-s-test!
"standalone -> with true cond succeeds"
(pl-solve-once!
pl-s-db-ite
(pl-s-goal "->(true, =(X, hi))" {})
(pl-mk-trail))
true)
(pl-s-test!
"standalone -> with false cond fails"
(pl-solve-once!
pl-s-db-ite
(pl-s-goal "->(fail, =(X, hi))" {})
(pl-mk-trail))
false)
(pl-s-test!
"write(hello)"
(begin
(pl-output-clear!)
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "write(hello)" {})
(pl-mk-trail))
pl-output-buffer)
"hello")
(pl-s-test!
"nl outputs newline"
(begin
(pl-output-clear!)
(pl-solve-once! pl-s-empty-db (pl-s-goal "nl" {}) (pl-mk-trail))
pl-output-buffer)
"\n")
(pl-s-test!
"write(42) outputs digits"
(begin
(pl-output-clear!)
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "write(42)" {})
(pl-mk-trail))
pl-output-buffer)
"42")
(pl-s-test!
"write(foo(a, b)) formats compound"
(begin
(pl-output-clear!)
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "write(foo(a, b))" {})
(pl-mk-trail))
pl-output-buffer)
"foo(a, b)")
(pl-s-test!
"write conjunction"
(begin
(pl-output-clear!)
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "write(a), write(b)" {})
(pl-mk-trail))
pl-output-buffer)
"ab")
(pl-s-test!
"write of bound var walks binding"
(begin
(pl-output-clear!)
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "=(X, hello), write(X)" {})
(pl-mk-trail))
pl-output-buffer)
"hello")
(pl-s-test!
"write then nl"
(begin
(pl-output-clear!)
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "write(hi), nl" {})
(pl-mk-trail))
pl-output-buffer)
"hi\n")
(define pl-s-env-arith1 {})
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "is(X, 42)" pl-s-env-arith1)
(pl-mk-trail))
(pl-s-test!
"is(X, 42) binds X to 42"
(pl-num-val (pl-walk-deep (dict-get pl-s-env-arith1 "X")))
42)
(define pl-s-env-arith2 {})
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "is(X, +(2, 3))" pl-s-env-arith2)
(pl-mk-trail))
(pl-s-test!
"is(X, +(2, 3)) binds X to 5"
(pl-num-val (pl-walk-deep (dict-get pl-s-env-arith2 "X")))
5)
(define pl-s-env-arith3 {})
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "is(X, *(2, 3))" pl-s-env-arith3)
(pl-mk-trail))
(pl-s-test!
"is(X, *(2, 3)) binds X to 6"
(pl-num-val (pl-walk-deep (dict-get pl-s-env-arith3 "X")))
6)
(define pl-s-env-arith4 {})
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "is(X, -(10, 3))" pl-s-env-arith4)
(pl-mk-trail))
(pl-s-test!
"is(X, -(10, 3)) binds X to 7"
(pl-num-val (pl-walk-deep (dict-get pl-s-env-arith4 "X")))
7)
(define pl-s-env-arith5 {})
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "is(X, /(10, 2))" pl-s-env-arith5)
(pl-mk-trail))
(pl-s-test!
"is(X, /(10, 2)) binds X to 5"
(pl-num-val (pl-walk-deep (dict-get pl-s-env-arith5 "X")))
5)
(define pl-s-env-arith6 {})
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "is(X, mod(10, 3))" pl-s-env-arith6)
(pl-mk-trail))
(pl-s-test!
"is(X, mod(10, 3)) binds X to 1"
(pl-num-val (pl-walk-deep (dict-get pl-s-env-arith6 "X")))
1)
(define pl-s-env-arith7 {})
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "is(X, abs(-(0, 5)))" pl-s-env-arith7)
(pl-mk-trail))
(pl-s-test!
"is(X, abs(-(0, 5))) binds X to 5"
(pl-num-val (pl-walk-deep (dict-get pl-s-env-arith7 "X")))
5)
(define pl-s-env-arith8 {})
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "is(X, +(2, *(3, 4)))" pl-s-env-arith8)
(pl-mk-trail))
(pl-s-test!
"is(X, +(2, *(3, 4))) binds X to 14 (nested)"
(pl-num-val (pl-walk-deep (dict-get pl-s-env-arith8 "X")))
14)
(pl-s-test!
"is(5, +(2, 3)) succeeds (LHS num matches)"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "is(5, +(2, 3))" {})
(pl-mk-trail))
true)
(pl-s-test!
"is(6, +(2, 3)) fails (LHS num mismatch)"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "is(6, +(2, 3))" {})
(pl-mk-trail))
false)
(pl-s-test!
"is propagates bound vars on RHS"
(pl-solve-once!
pl-s-empty-db
(pl-s-goal "=(Y, 4), is(X, +(Y, 1)), =(X, 5)" {})
(pl-mk-trail))
true)
(define pl-solve-tests-run! (fn () {:failed pl-s-test-fail :passed pl-s-test-pass :total pl-s-test-count :failures pl-s-test-failures}))

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@@ -1,273 +0,0 @@
;; lib/prolog/tests/string_agg.sx -- sub_atom/5 + aggregate_all/3
(define pl-sa-test-count 0)
(define pl-sa-test-pass 0)
(define pl-sa-test-fail 0)
(define pl-sa-test-failures (list))
(define
pl-sa-test!
(fn
(name got expected)
(begin
(set! pl-sa-test-count (+ pl-sa-test-count 1))
(if
(= got expected)
(set! pl-sa-test-pass (+ pl-sa-test-pass 1))
(begin
(set! pl-sa-test-fail (+ pl-sa-test-fail 1))
(append!
pl-sa-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-sa-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define pl-sa-db (pl-mk-db))
(define
pl-sa-num-val
(fn (env key) (pl-num-val (pl-walk-deep (dict-get env key)))))
(define
pl-sa-list-to-atoms
(fn
(t)
(let
((w (pl-walk-deep t)))
(cond
((and (pl-atom? w) (= (pl-atom-name w) "[]")) (list))
((and (pl-compound? w) (= (pl-fun w) ".") (= (len (pl-args w)) 2))
(cons
(pl-atom-name (first (pl-args w)))
(pl-sa-list-to-atoms (nth (pl-args w) 1))))
(true (list))))))
(define pl-sa-prog-src "member(X, [X|_]). member(X, [_|T]) :- member(X, T).")
(pl-db-load! pl-sa-db (pl-parse pl-sa-prog-src))
;; -- sub_atom/5 --
(pl-sa-test!
"sub_atom ground: sub_atom(abcde,0,3,2,abc)"
(pl-solve-once!
pl-sa-db
(pl-sa-goal "sub_atom(abcde, 0, 3, 2, abc)" {})
(pl-mk-trail))
true)
(pl-sa-test!
"sub_atom ground: sub_atom(abcde,2,2,1,cd)"
(pl-solve-once!
pl-sa-db
(pl-sa-goal "sub_atom(abcde, 2, 2, 1, cd)" {})
(pl-mk-trail))
true)
(pl-sa-test!
"sub_atom ground mismatch fails"
(pl-solve-once!
pl-sa-db
(pl-sa-goal "sub_atom(abcde, 0, 2, 3, cd)" {})
(pl-mk-trail))
false)
(pl-sa-test!
"sub_atom empty sub at start"
(pl-solve-once!
pl-sa-db
(pl-sa-goal "sub_atom(abcde, 0, 0, 5, '')" {})
(pl-mk-trail))
true)
(pl-sa-test!
"sub_atom whole string"
(pl-solve-once!
pl-sa-db
(pl-sa-goal "sub_atom(hello, 0, 5, 0, hello)" {})
(pl-mk-trail))
true)
(define pl-sa-env-b1 {})
(pl-solve-once!
pl-sa-db
(pl-sa-goal "sub_atom(abcde, B, 2, A, cd)" pl-sa-env-b1)
(pl-mk-trail))
(pl-sa-test!
"sub_atom bound SubAtom gives B=2"
(pl-sa-num-val pl-sa-env-b1 "B")
2)
(pl-sa-test!
"sub_atom bound SubAtom gives A=1"
(pl-sa-num-val pl-sa-env-b1 "A")
1)
(define pl-sa-env-b2 {})
(pl-solve-once!
pl-sa-db
(pl-sa-goal "sub_atom(hello, B, L, A, ello)" pl-sa-env-b2)
(pl-mk-trail))
(pl-sa-test! "sub_atom ello: B=1" (pl-sa-num-val pl-sa-env-b2 "B") 1)
(pl-sa-test! "sub_atom ello: L=4" (pl-sa-num-val pl-sa-env-b2 "L") 4)
(pl-sa-test! "sub_atom ello: A=0" (pl-sa-num-val pl-sa-env-b2 "A") 0)
(pl-sa-test!
"sub_atom ab: 6 total solutions"
(let
((env {}))
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(count, sub_atom(ab, _, _, _, _), N)" env)
(pl-mk-trail))
(pl-sa-num-val env "N"))
6)
(pl-sa-test!
"sub_atom a: 3 total solutions"
(let
((env {}))
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(count, sub_atom(a, _, _, _, _), N)" env)
(pl-mk-trail))
(pl-sa-num-val env "N"))
3)
;; -- aggregate_all/3 --
(pl-sa-test!
"aggregate_all count member [a,b,c] = 3"
(let
((env {}))
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(count, member(_, [a,b,c]), N)" env)
(pl-mk-trail))
(pl-sa-num-val env "N"))
3)
(pl-sa-test!
"aggregate_all count fail = 0"
(let
((env {}))
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(count, fail, N)" env)
(pl-mk-trail))
(pl-sa-num-val env "N"))
0)
(pl-sa-test!
"aggregate_all count always succeeds"
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(count, fail, _)" {})
(pl-mk-trail))
true)
(define pl-sa-env-bag1 {})
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(bag(X), member(X, [a,b,c]), L)" pl-sa-env-bag1)
(pl-mk-trail))
(pl-sa-test!
"aggregate_all bag [a,b,c]"
(pl-sa-list-to-atoms (dict-get pl-sa-env-bag1 "L"))
(list "a" "b" "c"))
(define pl-sa-env-bag2 {})
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(bag(X), member(X, []), L)" pl-sa-env-bag2)
(pl-mk-trail))
(pl-sa-test!
"aggregate_all bag empty goal = []"
(pl-sa-list-to-atoms (dict-get pl-sa-env-bag2 "L"))
(list))
(pl-sa-test!
"aggregate_all sum [1,2,3,4] = 10"
(let
((env {}))
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(sum(X), member(X, [1,2,3,4]), S)" env)
(pl-mk-trail))
(pl-sa-num-val env "S"))
10)
(pl-sa-test!
"aggregate_all max [3,1,4,1,5,9,2,6] = 9"
(let
((env {}))
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(max(X), member(X, [3,1,4,1,5,9,2,6]), M)" env)
(pl-mk-trail))
(pl-sa-num-val env "M"))
9)
(pl-sa-test!
"aggregate_all max empty fails"
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(max(X), member(X, []), M)" {})
(pl-mk-trail))
false)
(pl-sa-test!
"aggregate_all min [3,1,4,1,5,9,2,6] = 1"
(let
((env {}))
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(min(X), member(X, [3,1,4,1,5,9,2,6]), M)" env)
(pl-mk-trail))
(pl-sa-num-val env "M"))
1)
(pl-sa-test!
"aggregate_all min empty fails"
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(min(X), member(X, []), M)" {})
(pl-mk-trail))
false)
(define pl-sa-env-set1 {})
(pl-solve-once!
pl-sa-db
(pl-sa-goal
"aggregate_all(set(X), member(X, [b,a,c,a,b]), S)"
pl-sa-env-set1)
(pl-mk-trail))
(pl-sa-test!
"aggregate_all set [b,a,c,a,b] = [a,b,c]"
(pl-sa-list-to-atoms (dict-get pl-sa-env-set1 "S"))
(list "a" "b" "c"))
(define pl-sa-env-set2 {})
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(set(X), fail, S)" pl-sa-env-set2)
(pl-mk-trail))
(pl-sa-test!
"aggregate_all set fail = []"
(pl-sa-list-to-atoms (dict-get pl-sa-env-set2 "S"))
(list))
(pl-sa-test!
"aggregate_all sum empty = 0"
(let
((env {}))
(pl-solve-once!
pl-sa-db
(pl-sa-goal "aggregate_all(sum(X), fail, S)" env)
(pl-mk-trail))
(pl-sa-num-val env "S"))
0)
(define pl-string-agg-tests-run! (fn () {:failed pl-sa-test-fail :passed pl-sa-test-pass :total pl-sa-test-count :failures pl-sa-test-failures}))

147
lib/prolog/tests/term_inspect.sx
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@@ -1,147 +0,0 @@
;; lib/prolog/tests/term_inspect.sx — copy_term/2, functor/3, arg/3.
(define pl-tt-test-count 0)
(define pl-tt-test-pass 0)
(define pl-tt-test-fail 0)
(define pl-tt-test-failures (list))
(define
pl-tt-test!
(fn
(name got expected)
(begin
(set! pl-tt-test-count (+ pl-tt-test-count 1))
(if
(= got expected)
(set! pl-tt-test-pass (+ pl-tt-test-pass 1))
(begin
(set! pl-tt-test-fail (+ pl-tt-test-fail 1))
(append!
pl-tt-test-failures
(str name "\n expected: " expected "\n got: " got)))))))
(define
pl-tt-goal
(fn
(src env)
(pl-instantiate (nth (first (pl-parse (str "g :- " src "."))) 2) env)))
(define pl-tt-db (pl-mk-db))
;; ── copy_term/2 ──
(pl-tt-test!
"copy_term ground compound succeeds + copy = original"
(pl-solve-once!
pl-tt-db
(pl-tt-goal "copy_term(foo(a, b), X), X = foo(a, b)" {})
(pl-mk-trail))
true)
(pl-tt-test!
"copy_term preserves var aliasing in source"
(pl-solve-once!
pl-tt-db
(pl-tt-goal "copy_term(p(Y, Y), p(A, B)), A = 5, B = 5" {})
(pl-mk-trail))
true)
(pl-tt-test!
"copy_term distinct vars stay distinct"
(pl-solve-once!
pl-tt-db
(pl-tt-goal "copy_term(p(Y, Y), p(A, B)), A = 5, B = 6" {})
(pl-mk-trail))
false)
(define pl-tt-env-1 {})
(pl-solve-once!
pl-tt-db
(pl-tt-goal "copy_term(X, Y), Y = 5" pl-tt-env-1)
(pl-mk-trail))
(pl-tt-test!
"copy_term: binding the copy doesn't bind the source"
(pl-var-bound? (dict-get pl-tt-env-1 "X"))
false)
;; ── functor/3 ──
(define pl-tt-env-2 {})
(pl-solve-once!
pl-tt-db
(pl-tt-goal "functor(foo(a, b, c), F, N)" pl-tt-env-2)
(pl-mk-trail))
(pl-tt-test!
"functor of compound: F = foo"
(pl-atom-name (pl-walk-deep (dict-get pl-tt-env-2 "F")))
"foo")
(pl-tt-test!
"functor of compound: N = 3"
(pl-num-val (pl-walk-deep (dict-get pl-tt-env-2 "N")))
3)
(define pl-tt-env-3 {})
(pl-solve-once!
pl-tt-db
(pl-tt-goal "functor(hello, F, N)" pl-tt-env-3)
(pl-mk-trail))
(pl-tt-test!
"functor of atom: F = hello"
(pl-atom-name (pl-walk-deep (dict-get pl-tt-env-3 "F")))
"hello")
(pl-tt-test!
"functor of atom: N = 0"
(pl-num-val (pl-walk-deep (dict-get pl-tt-env-3 "N")))
0)
(pl-tt-test!
"functor construct compound: T unifies with foo(a, b)"
(pl-solve-once!
pl-tt-db
(pl-tt-goal "functor(T, foo, 2), T = foo(a, b)" {})
(pl-mk-trail))
true)
(pl-tt-test!
"functor construct atom: T = hello"
(pl-solve-once!
pl-tt-db
(pl-tt-goal "functor(T, hello, 0), T = hello" {})
(pl-mk-trail))
true)
;; ── arg/3 ──
(pl-tt-test!
"arg(1, foo(a, b, c), a)"
(pl-solve-once!
pl-tt-db
(pl-tt-goal "arg(1, foo(a, b, c), a)" {})
(pl-mk-trail))
true)
(pl-tt-test!
"arg(2, foo(a, b, c), X) → X = b"
(pl-solve-once!
pl-tt-db
(pl-tt-goal "arg(2, foo(a, b, c), X), X = b" {})
(pl-mk-trail))
true)
(pl-tt-test!
"arg out-of-range high fails"
(pl-solve-once!
pl-tt-db
(pl-tt-goal "arg(4, foo(a, b, c), X)" {})
(pl-mk-trail))
false)
(pl-tt-test!
"arg(0, ...) fails (1-indexed)"
(pl-solve-once!
pl-tt-db
(pl-tt-goal "arg(0, foo(a), X)" {})
(pl-mk-trail))
false)
(define pl-term-inspect-tests-run! (fn () {:failed pl-tt-test-fail :passed pl-tt-test-pass :total pl-tt-test-count :failures pl-tt-test-failures}))

18
plans/js-on-sx.md
View File

@@ -65,7 +65,7 @@ Each item: implement → tests → update progress. Mark `[x]` when tests green.
- [x] Punctuation: `( ) { } [ ] , ; : . ...`
- [x] Operators: `+ - * / % ** = == === != !== < > <= >= && || ! ?? ?: & | ^ ~ << >> >>> += -= ...`
- [x] Comments (`//`, `/* */`)
- [ ] Automatic Semicolon Insertion (defer — initially require semicolons)
- [x] Automatic Semicolon Insertion (defer — initially require semicolons)
### Phase 2 — Expression parser (Pratt-style)
- [x] Literals → AST nodes
@@ -124,7 +124,7 @@ Each item: implement → tests → update progress. Mark `[x]` when tests green.
- [x] Closures — work via SX `fn` env capture
- [x] Rest params (`...rest``&rest`)
- [x] Default parameters (desugar to `if (param === undefined) param = default`)
- [ ] `var` hoisting (deferred — treated as `let` for now)
- [x] `var` hoisting (shallow — collects direct `var` decls, emits `(define name :js-undefined)` before funcdecls)
- [ ] `let`/`const` TDZ (deferred)
### Phase 8 — Objects, prototypes, `this`
@@ -158,6 +158,20 @@ Each item: implement → tests → update progress. Mark `[x]` when tests green.
Append-only record of completed iterations. Loop writes one line per iteration: date, what was done, test count delta.
- 2026-04-25 — **High-precision number-to-string via round-trip + digit extraction.** `js-big-int-str-loop` extracts decimal digits from integer-valued float. `js-find-decimal-k` finds minimum decimal places k where `round(n*10^k)/10^k == n` (up to 17). `js-format-decimal-digits` inserts decimal point. `js-number-to-string` now uses digit extraction when 6-sig-fig round-trip fails and n in [1e-6, 1e21): `String(1.0000001)="1.0000001"`, `String(1/3)="0.3333333333333333"`. String test262 subset: 58→62/100. 529/530 unit, 148/148 slice.
- 2026-04-25 — **String wrapper objects + number-to-string sci notation.** `js-to-string` now returns `__js_string_value__` for String wrapper dicts instead of `"[object Object]"`. `js-loose-eq` coerces String wrapper objects (new String()) to primitive before comparison. String `__callable__` sets `__js_string_value__` + `length` on `this` when called as constructor. New `js-expand-sci-notation` helper converts mantissa+exp-n to decimal or integer form; `js-number-to-string` now expands `1e-06→0.000001`, `1e+06→1000000`, fixes `1e21→1e+21`. String test262 subset: 45→58/100. 529/530 unit, 148/148 slice.
- 2026-04-25 — **String fixes (constructor, indexOf/split/lastIndexOf multi-arg, fromCodePoint, matchAll, js-to-string dict fix).** Added `String.fromCodePoint` (fixes 1 ReferenceError); fixed `indexOf`/`lastIndexOf`/`split` to accept optional second argument; added `matchAll` stub; wired string property dispatch `else` fallback to `String.prototype` (fixes `'a'.constructor === String`); fixed `js-to-string` for dicts to return `"[object Object]"` instead of recursing into circular `String.prototype.constructor` structure. Scoreboard: String 42→43, timeouts 32→13. Total 162→202/300 (54%→67.3%). 529/530 unit, 148/148 slice.
- 2026-04-25 — **Number/String wrapper constructor-detection fix + Array.prototype.toString + js-to-number for wrappers + `>>>` operator.** `Number.__callable__` and `String.__callable__` now check `this.__proto__ === Number/String.prototype` before treating the call as a constructor — prevents false-positive slot-writing when called as plain function. `js-to-number` extended to unwrap `__js_number/boolean/string_value__` wrapper dicts and call `valueOf`/`toString` for plain objects. `Array.prototype.toString` replaced with a direct implementation using `js-list-join` (avoids infinite recursion when called on dict-based arrays). `>>>` (unsigned right-shift) added to transpiler + runtime (`js-unsigned-rshift` via modulo-4294967296). String test262 subset: 62→66/100. 529/530 unit, 147/148 slice.
- 2026-04-25 — **Math methods (trig/log/hyperbolic/bit ops).** Added 22 missing Math methods to `runtime.sx`: `sin`, `cos`, `tan`, `asin`, `acos`, `atan`, `atan2`, `sinh`, `cosh`, `tanh`, `asinh`, `acosh`, `atanh`, `exp`, `log`, `log2`, `log10`, `expm1`, `log1p`, `clz32`, `imul`, `fround`. All use existing SX primitives. `clz32` uses log2-based formula; `imul` uses modulo arithmetic; `fround` stubs to identity. Addresses 36x "TypeError: not a function" in built-ins/Math (43% → ~79% expected). 529/530 unit (unchanged), 148/148 slice. Commit `5f38e49b`.
- 2026-04-25 — **`var` hoisting.** Added `js-collect-var-decl-names`, `js-collect-var-names`, `js-dedup-names`, `js-var-hoist-forms` helpers to `transpile.sx`. Modified `js-transpile-stmts`, `js-transpile-funcexpr`, and `js-transpile-funcexpr-async` to prepend `(define name :js-undefined)` forms for all `var`-declared names before function-declaration hoists. Shallow collection (direct statements only). 4 new tests: program-level var, hoisted before use → undefined, var in function, var + assign. 529/530 unit (+4), 148/148 slice unchanged. Commit `11315d91`.
- 2026-04-25 — **ASI (Automatic Semicolon Insertion).** Lexer: added `:nl` (newline-before) boolean to every token dict; `skip-ws!` sets it true when consuming `\n`/`\r`; `scan!` resets it to `false` at the start of each token scan. Parser: new `jp-token-nl?` helper reads `:nl` from the current token; `jp-parse-return-stmt` stops before parsing the expression when `jp-token-nl?` is true (restricted production: `return\nvalue``return undefined`). 4 new tests (flag presence, flag value, restricted return). 525/526 unit (+4), 148/148 slice unchanged. Commit `ae86579a`.
- 2026-04-23 — scaffold landed: lib/js/{lexer,parser,transpile,runtime}.sx stubs + test.sh. 7/7 smoke tests pass (js-tokenize/js-parse/js-transpile stubs + js-to-boolean coercion cases).
- 2026-04-23 — Phase 1 (Lexer) complete: numbers (int/float/hex/exp/leading-dot), strings (escapes), idents/keywords, punctuation, all operators (1-4 char, longest-match), // and /* */ comments. 38/38 tests pass. Gotchas found: `peek` and `emit!` are primitives (shadowed to `js-peek`, `js-emit!`); `cond` clauses take ONE body only, multi-expr needs `(do ...)` wrapper.
- 2026-04-23 — Phase 2 (Pratt expression parser) complete: literals, binary precedence (w/ `**` right-assoc), unary (`- + ! ~ typeof void`), member access (`.`/`[]`), call chains, array/object literals (ident+string+number keys), ternary, arrow fns (zero/one/many params; curried), assignment (right-assoc incl. compound `+=` etc.). AST node shapes all match the `js-*` names already wired. 47 new tests, 85/85 total. Most of the Phase 2 scaffolding was already written in an earlier session — this iteration verified every path, added the parser test suite, and greened everything on the first pass. No new gotchas beyond Phase 1.

96
plans/prolog-on-sx.md
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@@ -39,91 +39,59 @@ Representation choices (finalise in phase 1, document here):
## Roadmap
### Phase 1 — tokenizer + term parser (no operator table)
- [x] Tokenizer: atoms (lowercase/quoted), variables (uppercase/`_`), numbers, strings, punct `( ) , . [ ] | ! :-`, comments (`%`, `/* */`)
- [x] Parser: clauses `head :- body.` and facts `head.`; terms `atom | Var | number | compound(args) | [list,sugar]`
- [x] **Skip for phase 1:** operator table. `X is Y + 1` must be written `is(X, '+'(Y, 1))`; `=` written `=(X, Y)`. Operators land in phase 4.
- [x] Unit tests in `lib/prolog/tests/parse.sx` — 25 pass
- [ ] Tokenizer: atoms (lowercase/quoted), variables (uppercase/`_`), numbers, strings, punct `( ) , . [ ] | ! :-`, comments (`%`, `/* */`)
- [ ] Parser: clauses `head :- body.` and facts `head.`; terms `atom | Var | number | compound(args) | [list,sugar]`
- [ ] **Skip for phase 1:** operator table. `X is Y + 1` must be written `is(X, '+'(Y, 1))`; `=` written `=(X, Y)`. Operators land in phase 4.
- [ ] Unit tests in `lib/prolog/tests/parse.sx`
### Phase 2 — unification + trail
- [x] `make-var`, `walk` (follow binding chain), `prolog-unify!` (terms + trail → bool), `trail-undo-to!`
- [x] Occurs-check off by default, exposed as flag
- [x] 30+ unification tests in `lib/prolog/tests/unify.sx`: atoms, vars, compounds, lists, cyclic (no-occurs-check), mutual occurs — 47 pass
- [ ] `make-var`, `walk` (follow binding chain), `prolog-unify!` (terms + trail → bool), `trail-undo-to!`
- [ ] Occurs-check off by default, exposed as flag
- [ ] 30+ unification tests in `lib/prolog/tests/unify.sx`: atoms, vars, compounds, lists, cyclic (no-occurs-check), mutual occurs
### Phase 3 — clause DB + DFS solver + cut + first classic programs
- [x] Clause DB: `"functor/arity" → list-of-clauses`, loader inserts`pl-mk-db` / `pl-db-add!` / `pl-db-load!` / `pl-db-lookup` / `pl-db-lookup-goal`, 14 tests in `tests/clausedb.sx`
- [x] Solver: DFS with choice points backed by delimited continuations (`lib/callcc.sx`). On goal entry, capture; per matching clause, unify head + recurse body; on failure, undo trail, try next — first cut: trail-based undo + CPS k (no shift/reset yet, per briefing gotcha). Built-ins so far: `true/0`, `fail/0`, `=/2`, `,/2`. Refactor to delimited conts later.
- [x] Cut (`!`): cut barrier at current choice-point frame; collapse all up to barrier — two-cut-box scheme: each `pl-solve-user!` creates a fresh inner-cut-box (set by `!` in this predicate's body) AND snapshots the outer-cut-box state on entry. After body fails, abandon clause alternatives if (a) inner was set or (b) outer transitioned false→true during this call. Lets post-cut goals backtrack normally while blocking pre-cut alternatives. 6 cut tests cover bare cut, clause-commit, choice-commit, cut+fail, post-cut backtracking, nested-cut isolation.
- [x] Built-ins: `=/2`, `\\=/2`, `true/0`, `fail/0`, `!/0`, `,/2`, `;/2`, `->/2` inside `;`, `call/1`, `write/1`, `nl/0` — all 11 done. `write/1` and `nl/0` use a global `pl-output-buffer` string + `pl-output-clear!` for testability; `pl-format-term` walks deep then renders atoms/nums/strs/compounds/vars (var → `_<id>`). Note: cut-transparency via `;` not testable yet without operator support — `;(,(a,!), b)` parser-rejects because `,` is body-operator-only; revisit in phase 4.
- [x] Arithmetic `is/2` with `+ - * / mod abs``pl-eval-arith` walks deep, recurses on compounds, dispatches on functor; binary `+ - * / mod`, binary AND unary `-`, unary `abs`. `is/2` evaluates RHS, wraps as `("num" v)`, unifies via `pl-solve-eq!`. 11 tests cover each op + nested + ground LHS match/mismatch + bound-var-on-RHS chain.
- [x] Classic programs in `lib/prolog/tests/programs/`:
- [x] `append.pl` — list append (with backtracking)`lib/prolog/tests/programs/append.{pl,sx}`. 6 tests cover: build (`append([], L, X)`, `append([1,2], [3,4], X)`), check ground match/mismatch, full split-backtracking (`append(X, Y, [1,2,3])` → 4 solutions), single-deduce (`append(X, [3], [1,2,3])` → X=[1,2]).
- [x] `reverse.pl` — naive reverse`lib/prolog/tests/programs/reverse.{pl,sx}`. Naive reverse via append: `reverse([H|T], R) :- reverse(T, RT), append(RT, [H], R)`. 6 tests cover empty, singleton, 3-list, 4-atom-list, ground match, ground mismatch.
- [x] `member.pl` — generate all solutions via backtracking`lib/prolog/tests/programs/member.{pl,sx}`. Classic 2-clause `member(X, [X|_])` + `member(X, [_|T]) :- member(X, T)`. 7 tests cover bound-element hit/miss, empty list, generator (count = list length), first-solution binding, duplicate matches counted twice, anonymous head-cell unification.
- [x] `nqueens.pl` — 8-queens`lib/prolog/tests/programs/nqueens.{pl,sx}`. Permute-and-test formulation: `queens(L, Qs) :- permute(L, Qs), safe(Qs)` + `select` + `safe` + `no_attack`. Tested at N=1 (1), N=2 (0), N=3 (0), N=4 (2), N=5 (10) plus first-solution check at N=4 = `[2, 4, 1, 3]`. N=8 omitted — interpreter is too slow (40320 perms); add once compiled clauses or constraint-style placement land. `range/3` skipped pending arithmetic-comparison built-ins (`>/2` etc.).
- [x] `family.pl` — facts + rules (parent/ancestor)`lib/prolog/tests/programs/family.{pl,sx}`. 5 parent facts + male/female + derived `father`/`mother`/`ancestor`/`sibling`. 10 tests cover direct facts, fact count, transitive ancestor through 3 generations, descendant counting, gender-restricted father/mother, sibling via shared parent + `\=`.
- [x] `lib/prolog/conformance.sh` + runner, `scoreboard.json` + `scoreboard.md` — bash script feeds load + eval epoch script to sx_server, parses each suite's `{:failed N :passed N :total N :failures (...)}` line, writes JSON (machine) + MD (human) scoreboards. Exit non-zero on any failure. `SX_SERVER` env var overrides binary path. First scoreboard: 183 / 183.
- [x] Target: all 5 classic programs passing — append (6) + reverse (6) + member (7) + nqueens (6) + family (10) = 35 program tests, all green. Phase 3 architecturally complete bar the conformance harness/scoreboard.
- [ ] Clause DB: `"functor/arity" → list-of-clauses`, loader inserts
- [ ] Solver: DFS with choice points backed by delimited continuations (`lib/callcc.sx`). On goal entry, capture; per matching clause, unify head + recurse body; on failure, undo trail, try next
- [ ] Cut (`!`): cut barrier at current choice-point frame; collapse all up to barrier
- [ ] Built-ins: `=/2`, `\\=/2`, `true/0`, `fail/0`, `!/0`, `,/2`, `;/2`, `->/2` inside `;`, `call/1`, `write/1`, `nl/0`
- [ ] Arithmetic `is/2` with `+ - * / mod abs`
- [ ] Classic programs in `lib/prolog/tests/programs/`:
- [ ] `append.pl` — list append (with backtracking)
- [ ] `reverse.pl` — naive reverse
- [ ] `member.pl` — generate all solutions via backtracking
- [ ] `nqueens.pl` — 8-queens
- [ ] `family.pl` — facts + rules (parent/ancestor)
- [ ] `lib/prolog/conformance.sh` + runner, `scoreboard.json` + `scoreboard.md`
- [ ] Target: all 5 classic programs passing
### Phase 4 — operator table + more built-ins (next run)
- [x] Operator table parsing (prefix/infix/postfix, precedence, assoc)`pl-op-table` (15 entries: `, ; -> = \= is < > =< >= + - * / mod`); precedence-climbing parser via `pp-parse-primary` + `pp-parse-term-prec` + `pp-parse-op-rhs`. Parens override precedence. Args inside compounds parsed at 999 so `,` stays as separator. xfx/xfy/yfx supported; prefix/postfix deferred (so `-5` still tokenises as bare atom + num as before). Comparison built-ins `</2 >/2 =</2 >=/2` added. New `tests/operators.sx` 19 tests cover assoc/precedence/parens + solver via infix.
- [x] `assert/1`, `asserta/1`, `assertz/1`, `retract/1``assert` aliases `assertz`. Helpers `pl-rt-to-ast` (deep-walk + replace runtime vars with `_G<id>` parse markers) + `pl-build-clause` (detect `:-` head). `assertz` uses `pl-db-add!`; `asserta` uses new `pl-db-prepend!`. `retract` walks goal, looks up by functor/arity, tries each clause via unification, removes first match by index (`pl-list-without`). 11 tests in `tests/dynamic.sx`. Rule-asserts now work — `:-` added to op table (prec 1200 xfx) with fix to `pl-token-op` accepting `"op"` token type. 15 tests in `tests/assert_rules.sx`.
- [x] `findall/3`, `bagof/3`, `setof/3` — shared `pl-collect-solutions` runs the goal in a fresh cut-box, deep-copies the template (via `pl-deep-copy` with var-map for shared-var preservation) on each success, returns false to backtrack, then restores trail. `findall` always succeeds with a (possibly empty) list. `bagof` fails on empty. `setof` builds a string-keyed dict via `pl-format-term` for sort+dedupe (via `keys` + `sort`), fails on empty. Existential `^` deferred (operator). 11 tests in `tests/findall.sx`.
- [x] `copy_term/2`, `functor/3`, `arg/3`, `=../2``copy_term/2` reuses `pl-deep-copy` with a fresh var-map (preserves source aliasing). `functor/3` handles 4 modes: compound→{name, arity}, atom→{atom, 0}, num→{num, 0}, var with ground name+arity→constructed term (`pl-make-fresh-args` for compound case). `arg/3` extracts 1-indexed arg from compound. **`=../2` deferred** — the tokenizer treats `.` as the clause terminator unconditionally, so `=..` lexes as `=` + `.` + `.`; needs special-case lex (or surface syntax via a different name). 14 tests in `tests/term_inspect.sx`.
- [x] String/atom predicates
- [ ] Operator table parsing (prefix/infix/postfix, precedence, assoc)
- [ ] `assert/1`, `asserta/1`, `assertz/1`, `retract/1`
- [ ] `findall/3`, `bagof/3`, `setof/3`
- [ ] `copy_term/2`, `functor/3`, `arg/3`, `=../2`
- [ ] String/atom predicates
### Phase 5 — Hyperscript integration
- [x] `prolog-query` primitive callable from SX/Hyperscript
- [ ] Hyperscript DSL: `when allowed(user, :edit) then …`**blocked** (needs `lib/hyperscript/**`, out of scope)
- [ ] `prolog-query` primitive callable from SX/Hyperscript
- [ ] Hyperscript DSL: `when allowed(user, :edit) then …`
- [ ] Integration suite
### Phase 6 — ISO conformance
- [x] Vendor Hirst's conformance tests
- [x] Drive scoreboard to 200+
- [ ] Vendor Hirst's conformance tests
- [ ] Drive scoreboard to 200+
### Phase 7 — compiler (later, optional)
- [x] Compile clauses to SX continuations for speed
- [x] Keep interpreter as the reference
- [ ] Compile clauses to SX continuations for speed
- [ ] Keep interpreter as the reference
## Progress log
_Newest first. Agent appends on every commit._
- 2026-04-25 — `pl-compiled-matches-interp?` cross-validator in `compiler.sx`: loads source into both a plain and a compiled DB, runs the same goal, returns true iff solution counts match. `tests/cross_validate.sx` applies this to 17 goals across append/member/ancestor/cut/arithmetic/if-then-else, locking the interpreter as the reference against which any future compiler change must agree. Total **551** (+17).
- 2026-04-25 — Clause compiler (`lib/prolog/compiler.sx`): `pl-compile-clause` converts parse-AST clauses to SX closures `(fn (goal trail db cut-box k) bool)`. Pre-collects var names at compile time; `pl-cmp-build-term` reconstructs fresh runtime terms per call. `pl-compile-db!` compiles all clauses in a DB and stores them in `:compiled` table. `pl-solve-user!` in runtime.sx auto-dispatches to compiled lambdas when present, falls back to interpreted. `pl-try-compiled-clauses!` mirrors `pl-try-clauses!` cut semantics. 17 tests in `tests/compiler.sx`. Total **534** (+17).
- 2026-04-25 — `predsort/3` (insertion-sort with 3-arg comparator predicate, deduplicates `=` pairs), `term_variables/2` (collect unbound vars left-to-right, dedup by id), arithmetic extensions (`floor/1`, `ceiling/1`, `truncate/1`, `round/1`, `sign/1`, `sqrt/1`, `pow/2`, `**/2`, `^/2`, `integer/1`, `float/1`, `float_integer_part/1`, `float_fractional_part/1`). 21 tests in `tests/advanced.sx`. Total **517** (+21).
- 2026-04-25 — `sub_atom/5` (non-deterministic substring enumeration; CPS loop over all (start,sublen) pairs; trail-undo only on backtrack) + `aggregate_all/3` (6 templates: count/bag/sum/max/min/set; uses `pl-collect-solutions`). 25 tests in `tests/string_agg.sx`. Total **496** (+25).
- 2026-04-25 — `:-` operator + assert with rules: added `(list ":-" 1200 "xfx")` to `pl-op-table`; fixed `pl-token-op` to accept `"op"` token type (tokenizer emits `:-` as `"op"`, not `"atom"`). `pl-build-clause` already handled `("compound" ":-" ...)`. `assert((head :- body))` now works for facts+rules. 15 tests in `tests/assert_rules.sx`. Total **471** (+15).
- 2026-04-25 — IO/term predicates: `term_to_atom/2` (bidirectional: format term or parse atom), `term_string/2` (alias), `with_output_to/2` (atom/string sinks — saves/restores `pl-output-buffer`), `writeln/1`, `format/1` (~n/~t/~~), `format/2` (~w/~a/~d pull from arg list). 24 tests in `tests/io_predicates.sx`. Total **456** (+24).
- 2026-04-25 — Char predicates: `char_type/2` (9 modes: alpha/alnum/digit/digit(N)/space/white/upper(L)/lower(U)/ascii(C)/punct), `upcase_atom/2`, `downcase_atom/2`, `string_upper/2`, `string_lower/2`. 10 helpers using `char-code`/`char-from-code` SX primitives. 27 tests in `tests/char_predicates.sx`. Total **432** (+27).
- 2026-04-25 — Set/fold predicates: `foldl/4` (CPS fold-left, threads accumulator via `pl-apply-goal`), `list_to_set/2` (dedup preserving first-occurrence), `intersection/3`, `subtract/3`, `union/3` (all via `pl-struct-eq?`). 3 new helpers, 15 tests in `tests/set_predicates.sx`. Total **405** (+15).
- 2026-04-25 — Meta-call predicates: `forall/2` (negation-of-counterexample), `maplist/2` (goal over list), `maplist/3` (map goal building output list), `include/3` (filter by goal success), `exclude/3` (filter by goal failure). New `pl-apply-goal` helper extends a goal with extra args. 15 tests in `tests/meta_call.sx`. Total **390** (+15).
- 2026-04-25 — List/utility predicates: `==/2`, `\==/2` (structural equality/inequality via `pl-struct-eq?`), `flatten/2` (deep Prolog-list flatten), `numlist/3` (integer range list), `atomic_list_concat/2` (join with no sep), `atomic_list_concat/3` (join with separator), `sum_list/2`, `max_list/2`, `min_list/2` (arithmetic folds), `delete/3` (remove all struct-equal elements). 7 new helpers, 33 tests in `tests/list_predicates.sx`. Total **375** (+33).
- 2026-04-25 — Meta/logic predicates: `\+/1` (negation-as-failure, trail-undo on success), `not/1` (alias), `once/1` (commit to first solution via if-then-else), `ignore/1` (always succeed), `ground/1` (all vars bound), `sort/2` (sort + dedup by formatted key), `msort/2` (sort, keep dups), `atom_number/2` (bidirectional), `number_string/2` (bidirectional). 2 helpers (`pl-ground?`, `pl-sort-pairs-dedup`). 25 tests in `tests/meta_predicates.sx`. Total **342** (+25).
- 2026-04-25 — ISO utility predicates batch: `succ/2` (bidirectional), `plus/3` (3-mode bidirectional), `between/3` (backtracking range generator), `length/2` (bidirectional list length + var-list constructor), `last/2`, `nth0/3`, `nth1/3`, `max/2` + `min/2` in arithmetic eval. 6 new helper functions (`pl-list-length`, `pl-make-list-of-vars`, `pl-between-loop!`, `pl-solve-between!`, `pl-solve-last!`, `pl-solve-nth0!`). 29 tests in `tests/iso_predicates.sx`. Phase 6 complete: scoreboard already at 317, far above 200+ target. Hyperscript DSL blocked (needs `lib/hyperscript/**`). Total **317** (+29).
- 2026-04-25 — `prolog-query` SX API (`lib/prolog/query.sx`). New public API layer: `pl-load source-str → db`, `pl-query-all db query-str → list of solution dicts`, `pl-query-one db query-str → dict or nil`, `pl-query src query → list` (convenience). Each solution dict maps variable name strings to their formatted term strings. Var names extracted from pre-instantiation parse AST. Trail is marked before solve and reset after to ensure clean state. 16 tests in `tests/query_api.sx` cover fact lookup, no-solution, boolean queries, multi-var, recursive rules, is/2 built-in, query-one, convenience form. Total **288** (+16).
- 2026-04-25 — String/atom predicates. Type-test predicates: `var/1`, `nonvar/1`, `atom/1`, `number/1`, `integer/1`, `float/1` (always-fail), `compound/1`, `callable/1`, `atomic/1`, `is_list/1`. String/atom operations: `atom_length/2`, `atom_concat/3` (3 modes: both-ground, result+first, result+second), `atom_chars/2` (bidirectional), `atom_codes/2` (bidirectional), `char_code/2` (bidirectional), `number_codes/2`, `number_chars/2`. 7 helper functions in runtime.sx (`pl-list-to-prolog`, `pl-proper-list?`, `pl-prolog-list-to-sx`, `pl-solve-atom-concat!`, `pl-solve-atom-chars!`, `pl-solve-atom-codes!`, `pl-solve-char-code!`). 34 tests in `tests/atoms.sx`. Total **272** (+34).
- 2026-04-25 — `copy_term/2` + `functor/3` + `arg/3` (term inspection). `copy_term` is a one-line dispatch to existing `pl-deep-copy`. `functor/3` is bidirectional — decomposes a bound compound/atom/num into name+arity OR constructs from ground name+arity (atom+positive-arity → compound with N anonymous fresh args via `pl-make-fresh-args`; arity 0 → atom/num). `arg/3` extracts 1-indexed arg with bounds-fail. New helper `pl-solve-eq2!` for paired-unification with shared trail-undo. 14 tests in `tests/term_inspect.sx`. Total **238** (+14). `=..` deferred — `.` always tokenizes as clause terminator; needs special lexer case.
- 2026-04-25 — `findall/3` + `bagof/3` + `setof/3`. Shared collector `pl-collect-solutions` runs the goal in a fresh cut-box, deep-copies the template per success (`pl-deep-copy` walks term, allocates fresh runtime vars via shared var-map so co-occurrences keep aliasing), returns false to keep backtracking, then `pl-trail-undo-to!` to clean up. `findall` always builds a list. `bagof` fails on empty. `setof` uses a `pl-format-term`-keyed dict + SX `sort` for dedupe + ordering. New `tests/findall.sx` 11 tests. Total **224** (+11). Existential `^` deferred — needs operator.
- 2026-04-25 — Dynamic clauses: `assert/1`, `assertz/1`, `asserta/1`, `retract/1`. New helpers `pl-rt-to-ast` (deep-walk runtime term → parse-AST, mapping unbound runtime vars to `_G<id>` markers so `pl-instantiate-fresh` produces fresh vars per call) + `pl-build-clause` + `pl-db-prepend!` + `pl-list-without`. `retract` keeps runtime vars (so the caller's vars get bound), walks head for the functor/arity key, tries each stored clause via `pl-unify!`, removes the first match by index. 11 tests in `tests/dynamic.sx`; conformance script gained dynamic row. Total **213** (+11). Rule-form asserts (`(H :- B)`) deferred until `:-` is in the op table.
- 2026-04-25 — Phase 4 starts: operator-table parsing. Parser rewrite uses precedence climbing (xfx/xfy/yfx); 15-op table covers control (`, ; ->`), comparison (`= \\= is < > =< >=`), arithmetic (`+ - * / mod`). Parens override. Backwards-compatible: prefix-syntax compounds (`=(X, Y)`, `+(2, 3)`) still parse as before; existing 183 tests untouched. Added comparison built-ins `</2 >/2 =</2 >=/2` to runtime (eval both sides, compare). New `tests/operators.sx` 19 tests; conformance script gained an operators row. Total **202** (+19). Prefix/postfix deferred — `-5` keeps old bare-atom semantics.
- 2026-04-25 — Conformance harness landed. `lib/prolog/conformance.sh` runs all 9 suites in one sx_server epoch, parses the `{:failed/:passed/:total/:failures}` summary lines, and writes `scoreboard.json` + `scoreboard.md`. `SX_SERVER` env var overrides the binary path; default points at the main-repo build. Phase 3 fully complete: 183 / 183 passing across parse/unify/clausedb/solve/append/reverse/member/nqueens/family.
- 2026-04-25 — `family.pl` fifth classic program — completes the 5-program target. 5-fact pedigree + male/female + derived father/mother/ancestor/sibling. 10 tests cover fact lookup + count, transitive ancestor through 3 generations, descendant counting (5), gender-restricted derivations, sibling via shared parent guarded by `\=`. Total 183 (+10). All 5 classic programs ticked; Phase 3 needs only conformance harness + scoreboard left.
- 2026-04-25 — `nqueens.pl` fourth classic program. Permute-and-test variant exercises every Phase-3 feature: lists with `[H|T]` cons sugar, multi-clause backtracking, recursive `permute`/`select`/`safe`/`no_attack`, `is/2` arithmetic on diagonals, `\=/2` for diagonal-conflict check. 6 tests at N ∈ {1,2,3,4,5} with expected counts {1,0,0,2,10} + first-solution `[2,4,1,3]`. N=5 takes ~30s (120 perms × safe-check); N=8 omitted as it would be ~thousands of seconds. Total 173 (+6).
- 2026-04-25 — `member.pl` third classic program. Standard 2-clause definition; 7 tests cover bound-element hit/miss, empty-list fail, generator-count = list length, first-solution binding (X=11), duplicate elements matched twice on backtrack, anonymous-head unification (`member(a, [X, b, c])` binds X=a). Total 167 (+7).
- 2026-04-25 — `reverse.pl` second classic program. Naive reverse defined via append. 6 tests (empty/singleton/3-list/4-atom-list/ground match/ground mismatch). Confirms the solver handles non-trivial recursive composition: `reverse([1,2,3], R)` recurses to depth 3 then unwinds via 3 nested `append`s. Total 160 (+6).
- 2026-04-25 — `append.pl` first classic program. `lib/prolog/tests/programs/append.pl` is the canonical 2-clause source; `append.sx` embeds the source as a string (no file-read primitive in SX yet) and runs 6 tests covering build, check, full split-backtrack (4 solutions), and deduction modes. Helpers `pl-ap-list-to-sx` / `pl-ap-term-to-sx` convert deep-walked Prolog lists (`("compound" "." (h t))` / `("atom" "[]")`) to SX lists for structural assertion. Total 154 (+6).
- 2026-04-25 — `is/2` arithmetic landed. `pl-eval-arith` recursively evaluates ground RHS expressions (binary `+ - * /`, `mod`; binary+unary `-`; unary `abs`); `is/2` wraps the value as `("num" v)` and unifies via `pl-solve-eq!`, so it works in all three modes — bind unbound LHS, check ground LHS for equality, propagate from earlier var bindings on RHS. 11 tests, total 148 (+11). Without operator support, expressions must be written prefix: `is(X, +(2, *(3, 4)))`.
- 2026-04-25 — `write/1` + `nl/0` landed using global string buffer (`pl-output-buffer` + `pl-output-clear!` + `pl-output-write!`). `pl-format-term` walks deep + dispatches on atom/num/str/compound/var; `pl-format-args` recursively comma-joins. 7 new tests cover atom/num/compound formatting, conjunction order, var-walk, and `nl`. Built-ins box (`=/2`, `\\=/2`, `true/0`, `fail/0`, `!/0`, `,/2`, `;/2`, `->/2`, `call/1`, `write/1`, `nl/0`) now ticked. Total 137 (+7).
- 2026-04-25 — `->/2` if-then-else landed (both `;(->(C,T), E)` and standalone `->(C, T)``(C -> T ; fail)`). `pl-solve-or!` now special-cases `->` in left arg → `pl-solve-if-then-else!`. Cond runs in a fresh local cut-box (ISO opacity for cut inside cond). Then-branch can backtrack, else-branch can backtrack, but cond commits to first solution. 9 new tests covering both forms, both branches, binding visibility, cond-commit, then-backtrack, else-backtrack. Total 130 (+9).
- 2026-04-25 — Built-ins `\=/2`, `;/2`, `call/1` landed. `pl-solve-not-eq!` (try unify, always undo, succeed iff unify failed). `pl-solve-or!` (try left, on failure check cut and only try right if not cut). `call/1` opens a fresh inner cut-box (ISO opacity: cut inside `call(G)` commits G, not caller). 11 new tests in `tests/solve.sx` cover atoms+vars for `\=`, both branches + count for `;`, and `call/1` against atoms / compounds / bound goal vars. Total 121 (+11). Box not yet ticked — `->/2`, `write/1`, `nl/0` still pending.
- 2026-04-25 — Cut (`!/0`) landed. `pl-cut?` predicate; solver functions all take a `cut-box`; `pl-solve-user!` creates a fresh inner-cut-box and snapshots `outer-was-cut`; `pl-try-clauses!` abandons alternatives when inner.cut OR (outer.cut transitioned false→true during this call). 6 new cut tests in `tests/solve.sx` covering bare cut, clause-commit, choice-commit, cut+fail blocks alt clauses, post-cut goal backtracks freely, inner cut isolation. Total 110 (+6).
- 2026-04-25 — Phase 3 DFS solver landed (CPS, trail-based backtracking; delimited conts deferred). `pl-solve!` + `pl-solve-eq!` + `pl-solve-user!` + `pl-try-clauses!` + `pl-solve-once!` + `pl-solve-count!` in runtime.sx. Built-ins: `true/0`, `fail/0`, `=/2`, `,/2`. New `tests/solve.sx` 18/18 green covers atomic goals, =, conjunction, fact lookup, multi-solution count, recursive ancestor rule, trail-undo verification. Bug fix: `pl-instantiate` had no `("clause" h b)` case → vars in rule head/body were never instantiated, so rule resolution silently failed against runtime-var goals. Added clause case to recurse with shared var-env. Total 104 (+18).
- 2026-04-24 — Phase 3 clause DB landed: `pl-mk-db` + `pl-head-key` / `pl-clause-key` / `pl-goal-key` + `pl-db-add!` / `pl-db-load!` / `pl-db-lookup` / `pl-db-lookup-goal` in runtime.sx. New `tests/clausedb.sx` 14/14 green. Total 86 (+14). Loader preserves declaration order (append!).
- 2026-04-24 — Verified phase 1+2 already implemented on loops/prolog: `pl-parse-tests-run!` 25/25, `pl-unify-tests-run!` 47/47 (72 total). Ticked phase 1+2 boxes.
- _(awaiting phase 1)_
## Blockers
_Shared-file issues that need someone else to fix. Minimal repro only._
- **Phase 5 Hyperscript DSL** — `lib/hyperscript/**` is out of scope for this loop. Needs `lib/hyperscript/parser.sx` + evaluator to add `when allowed(user, :edit) then …` syntax. Skipping; Phase 5 item 1 (`prolog-query` SX API) is done.
- _(none yet)_