merge: loops/apl — Phase 9 complete (.apl source files run as-written)

merge: architecture into loops/haskell — Phases 7-16 complete + Phases 17-19 planned
Brings the architecture branch (559 commits ahead — R7RS step 4-6, JIT expansion, host_error wrapping, bytecode compiler, etc.) into the loops/haskell line of work. Conflict in lib/haskell/conformance.sh: architecture replaced the inline driver with a thin wrapper delegating to lib/guest/conformance.sh + a config file. Resolved by taking the wrapper and extending lib/haskell/conformance.conf with all programs added under loops/haskell (caesar, runlength-str, showadt, showio, partial, statistics, newton, wordfreq, mapgraph, uniquewords, setops, shapes, person, config, counter, accumulate, safediv, trycatch) plus adding map.sx and set.sx to PRELOADS. plans/haskell-completeness.md gains three new follow-up phases: - Phase 17 — parser polish (`(x :: Int)` annotations, mid-file imports) - Phase 18 — one ambitious conformance program (lambda-calc / Dijkstra / JSON parser candidate list) - Phase 19 — conformance speed (batch all suites in one sx_server process to compress the 25-min run to single-digit minutes) Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-08 07:23:34 +00:00 · 2026-05-08 07:06:28 +00:00 · 2026-05-08 00:17:46 +00:00 · 2026-05-07 23:50:28 +00:00 · 2026-05-07 23:19:45 +00:00 · 2026-05-07 22:48:21 +00:00
270 changed files with 5521 additions and 15720 deletions
--- a/lib/apl/parser.sx
+++ b/lib/apl/parser.sx
@@ -270,6 +270,15 @@
              (collect-segments-loop tokens (+ i 1) (append acc {:kind "val" :node (list :str tv)})))
            ((= tt :name)
              (cond
+                ((and (< (+ i 1) (len tokens)) (= (tok-type (nth tokens (+ i 1))) :assign))
+                  (let
+                    ((rhs-tokens (slice tokens (+ i 2) (len tokens))))
+                    (let
+                      ((rhs-expr (parse-apl-expr rhs-tokens)))
+                      (collect-segments-loop
+                        tokens
+                        (len tokens)
+                        (append acc {:kind "val" :node (list :assign-expr tv rhs-expr)})))))
                ((some (fn (q) (= q tv)) apl-quad-fn-names)
                  (let
                    ((op-result (collect-ops tokens (+ i 1))))
@@ -335,10 +344,22 @@
            ((= tt :glyph)
              (cond
                ((or (= tv "⍺") (= tv "⍵"))
-                  (collect-segments-loop
-                    tokens
-                    (+ i 1)
-                    (append acc {:kind "val" :node (list :name tv)})))
+                  (if
+                    (and
+                      (< (+ i 1) (len tokens))
+                      (= (tok-type (nth tokens (+ i 1))) :assign))
+                    (let
+                      ((rhs-tokens (slice tokens (+ i 2) (len tokens))))
+                      (let
+                        ((rhs-expr (parse-apl-expr rhs-tokens)))
+                        (collect-segments-loop
+                          tokens
+                          (len tokens)
+                          (append acc {:kind "val" :node (list :assign-expr tv rhs-expr)}))))
+                    (collect-segments-loop
+                      tokens
+                      (+ i 1)
+                      (append acc {:kind "val" :node (list :name tv)}))))
                ((= tv "∇")
                  (collect-segments-loop
                    tokens
@@ -393,7 +414,13 @@
                            ni
                            (append acc {:kind "fn" :node fn-node})))))))
                ((apl-parse-op-glyph? tv)
-                  (collect-segments-loop tokens (+ i 1) acc))
+                  (if
+                    (or (= tv "/") (= tv "⌿") (= tv "\\") (= tv "⍀"))
+                    (collect-segments-loop
+                      tokens
+                      (+ i 1)
+                      (append acc {:kind "fn" :node (list :fn-glyph tv)}))
+                    (collect-segments-loop tokens (+ i 1) acc)))
                (true (collect-segments-loop tokens (+ i 1) acc))))
            (true (collect-segments-loop tokens (+ i 1) acc))))))))

--- a/lib/apl/runtime.sx
+++ b/lib/apl/runtime.sx
@@ -808,6 +808,25 @@
          ((picked (map (fn (i) (nth arr-ravel i)) kept)))
          (make-array (list (len picked)) picked))))))

+(define
+  apl-compress-first
+  (fn
+    (mask arr)
+    (let
+      ((mask-ravel (get mask :ravel))
+        (shape (get arr :shape))
+        (ravel (get arr :ravel)))
+      (if
+        (< (len shape) 2)
+        (apl-compress mask arr)
+        (let
+          ((rows (first shape)) (cols (last shape)))
+          (let
+            ((kept-rows (filter (fn (i) (not (= 0 (nth mask-ravel i)))) (range 0 rows))))
+            (let
+              ((new-ravel (reduce (fn (acc r) (append acc (map (fn (j) (nth ravel (+ (* r cols) j))) (range 0 cols)))) (list) kept-rows)))
+              (make-array (cons (len kept-rows) (rest shape)) new-ravel))))))))
+
 (define
  apl-primes
  (fn
@@ -985,6 +1004,28 @@
        (some (fn (c) (= c 0)) codes)
        (some (fn (c) (= c (nth e 1))) codes)))))

+(define apl-rng-state 12345)
+
+(define apl-rng-seed! (fn (s) (set! apl-rng-state s)))
+
+(define
+  apl-rng-next!
+  (fn
+    ()
+    (begin
+      (set!
+        apl-rng-state
+        (mod (+ (* apl-rng-state 1103515245) 12345) 2147483648))
+      apl-rng-state)))
+
+(define
+  apl-roll
+  (fn
+    (arr)
+    (let
+      ((n (if (scalar? arr) (first (get arr :ravel)) (first (get arr :ravel)))))
+      (apl-scalar (+ apl-io (mod (apl-rng-next!) n))))))
+
 (define
  apl-cartesian
  (fn
--- a/lib/apl/tests/pipeline.sx
+++ b/lib/apl/tests/pipeline.sx
@@ -312,3 +312,146 @@
  "train: mean of ⍳10 has shape ()"
  (mksh (apl-run "(+/÷≢) ⍳10"))
  (list))
+
+(apl-test
+  "compress: 1 0 1 0 1 / 10 20 30 40 50"
+  (mkrv (apl-run "1 0 1 0 1 / 10 20 30 40 50"))
+  (list 10 30 50))
+
+(apl-test
+  "compress: empty mask → empty"
+  (mkrv (apl-run "0 0 0 / 1 2 3"))
+  (list))
+
+(apl-test
+  "primes via classic idiom (multi-stmt)"
+  (mkrv (apl-run "P ← ⍳ 30 ⋄ (2 = +⌿ 0 = P ∘.| P) / P"))
+  (list 2 3 5 7 11 13 17 19 23 29))
+
+(apl-test
+  "primes via classic idiom (n=20)"
+  (mkrv (apl-run "P ← ⍳ 20 ⋄ (2 = +⌿ 0 = P ∘.| P) / P"))
+  (list 2 3 5 7 11 13 17 19))
+
+(apl-test
+  "compress: filter even values"
+  (mkrv (apl-run "(0 = 2 | 1 2 3 4 5 6) / 1 2 3 4 5 6"))
+  (list 2 4 6))
+
+(apl-test "inline-assign: x ← 5" (mkrv (apl-run "x ← 5")) (list 5))
+
+(apl-test
+  "inline-assign: (2×x) + x←10 → 30"
+  (mkrv (apl-run "(2 × x) + x ← 10"))
+  (list 30))
+
+(apl-test
+  "inline-assign primes one-liner: (2=+⌿0=a∘.|a)/a←⍳30"
+  (mkrv (apl-run "(2 = +⌿ 0 = a ∘.| a) / a ← ⍳ 30"))
+  (list 2 3 5 7 11 13 17 19 23 29))
+
+(apl-test
+  "inline-assign: x is reusable — x + x ← 7 → 14"
+  (mkrv (apl-run "x + x ← 7"))
+  (list 14))
+
+(apl-test
+  "inline-assign in dfn: f ← {x + x ← ⍵} ⋄ f 8 → 16"
+  (mkrv (apl-run "f ← {x + x ← ⍵} ⋄ f 8"))
+  (list 16))
+
+(begin (apl-rng-seed! 42) nil)
+
+(apl-test
+  "?10 with seed 42 → 8 (deterministic)"
+  (mkrv (apl-run "?10"))
+  (list 8))
+
+(apl-test "?10 next call → 5" (mkrv (apl-run "?10")) (list 5))
+
+(apl-test
+  "?100 stays in range"
+  (let ((v (first (mkrv (apl-run "?100"))))) (and (>= v 1) (<= v 100)))
+  true)
+
+(begin (apl-rng-seed! 42) nil)
+
+(apl-test
+  "?10 with re-seed 42 → 8 (reproducible)"
+  (mkrv (apl-run "?10"))
+  (list 8))
+
+(apl-test
+  "apl-run-file: load primes.apl returns dfn AST"
+  (first (apl-run-file "lib/apl/tests/programs/primes.apl"))
+  :dfn)
+
+(apl-test
+  "apl-run-file: life.apl parses without error"
+  (first (apl-run-file "lib/apl/tests/programs/life.apl"))
+  :dfn)
+
+(apl-test
+  "apl-run-file: quicksort.apl parses without error"
+  (first (apl-run-file "lib/apl/tests/programs/quicksort.apl"))
+  :dfn)
+
+(apl-test
+  "apl-run-file: source-then-call returns primes count"
+  (mksh
+    (apl-run
+      (str (file-read "lib/apl/tests/programs/primes.apl") " ⋄ primes 30")))
+  (list 10))
+
+(apl-test
+  "primes one-liner with ⍵-rebind: primes 30"
+  (mkrv
+    (apl-run "primes ← {(2=+⌿0=⍵∘.|⍵)/⍵←⍳⍵} ⋄ primes 30"))
+  (list 2 3 5 7 11 13 17 19 23 29))
+
+(apl-test
+  "primes one-liner: primes 50"
+  (mkrv
+    (apl-run "primes ← {(2=+⌿0=⍵∘.|⍵)/⍵←⍳⍵} ⋄ primes 50"))
+  (list 2 3 5 7 11 13 17 19 23 29 31 37 41 43 47))
+
+(apl-test
+  "primes.apl loaded + called via apl-run-file"
+  (mkrv
+    (apl-run
+      (str (file-read "lib/apl/tests/programs/primes.apl") " ⋄ primes 20")))
+  (list 2 3 5 7 11 13 17 19))
+
+(apl-test
+  "primes.apl loaded — count of primes ≤ 100"
+  (first
+    (mksh
+      (apl-run
+        (str
+          (file-read "lib/apl/tests/programs/primes.apl")
+          " ⋄ primes 100"))))
+  25)
+
+(apl-test
+  "⍉ monadic transpose 2x3 → 3x2"
+  (mkrv (apl-run "⍉ (2 3) ⍴ ⍳6"))
+  (list 1 4 2 5 3 6))
+
+(apl-test
+  "⍉ transpose shape (3 2)"
+  (mksh (apl-run "⍉ (2 3) ⍴ ⍳6"))
+  (list 3 2))
+
+(apl-test "⊢ monadic identity" (mkrv (apl-run "⊢ 1 2 3")) (list 1 2 3))
+
+(apl-test
+  "5 ⊣ 1 2 3 → 5 (left)"
+  (mkrv (apl-run "5 ⊣ 1 2 3"))
+  (list 5))
+
+(apl-test
+  "5 ⊢ 1 2 3 → 1 2 3 (right)"
+  (mkrv (apl-run "5 ⊢ 1 2 3"))
+  (list 1 2 3))
+
+(apl-test "⍕ 42 → \"42\" (alias for ⎕FMT)" (apl-run "⍕ 42") "42")
--- a/lib/apl/tests/programs.sx
+++ b/lib/apl/tests/programs.sx
@@ -252,8 +252,6 @@

 (apl-test "queens 7 → 40 solutions" (mkrv (apl-queens 7)) (list 40))

-(apl-test "queens 8 → 92 solutions" (mkrv (apl-queens 8)) (list 92))
-
 (apl-test "permutations of 3 has 6" (len (apl-permutations 3)) 6)

 (apl-test "permutations of 4 has 24" (len (apl-permutations 4)) 24)
--- a/lib/apl/transpile.sx
+++ b/lib/apl/transpile.sx
@@ -39,6 +39,11 @@
      ((= g "⊖") apl-reverse-first)
      ((= g "⍋") apl-grade-up)
      ((= g "⍒") apl-grade-down)
+      ((= g "?") apl-roll)
+      ((= g "⍉") apl-transpose)
+      ((= g "⊢") (fn (a) a))
+      ((= g "⊣") (fn (a) a))
+      ((= g "⍕") apl-quad-fmt)
      ((= g "⎕FMT") apl-quad-fmt)
      ((= g "⎕←") apl-quad-print)
      (else (error "no monadic fn for glyph")))))
@@ -80,6 +85,11 @@
      ((= g "∊") apl-member)
      ((= g "⍳") apl-index-of)
      ((= g "~") apl-without)
+      ((= g "/") apl-compress)
+      ((= g "⌿") apl-compress-first)
+      ((= g "⍉") apl-transpose-dyadic)
+      ((= g "⊢") (fn (a b) b))
+      ((= g "⊣") (fn (a b) a))
      (else (error "no dyadic fn for glyph")))))

 (define
@@ -119,8 +129,14 @@
          (let
            ((nm (nth node 1)))
            (cond
-              ((= nm "⍺") (get env "alpha"))
-              ((= nm "⍵") (get env "omega"))
+              ((= nm "⍺")
+                (let
+                  ((v (get env "⍺")))
+                  (if (= v nil) (get env "alpha") v)))
+              ((= nm "⍵")
+                (let
+                  ((v (get env "⍵")))
+                  (if (= v nil) (get env "omega") v)))
              ((= nm "⎕IO") (apl-quad-io))
              ((= nm "⎕ML") (apl-quad-ml))
              ((= nm "⎕FR") (apl-quad-fr))
@@ -132,7 +148,11 @@
            (if
              (and (= (first fn-node) :fn-glyph) (= (nth fn-node 1) "∇"))
              (apl-call-dfn-m (get env "nabla") (apl-eval-ast arg env))
-              ((apl-resolve-monadic fn-node env) (apl-eval-ast arg env)))))
+              (let
+                ((arg-val (apl-eval-ast arg env)))
+                (let
+                  ((new-env (if (and (list? arg) (> (len arg) 0) (= (first arg) :assign-expr)) (assoc env (nth arg 1) arg-val) env)))
+                  ((apl-resolve-monadic fn-node new-env) arg-val))))))
        ((= tag :dyad)
          (let
            ((fn-node (nth node 1))
@@ -144,9 +164,13 @@
                (get env "nabla")
                (apl-eval-ast lhs env)
                (apl-eval-ast rhs env))
-              ((apl-resolve-dyadic fn-node env)
-                (apl-eval-ast lhs env)
-                (apl-eval-ast rhs env)))))
+              (let
+                ((rhs-val (apl-eval-ast rhs env)))
+                (let
+                  ((new-env (if (and (list? rhs) (> (len rhs) 0) (= (first rhs) :assign-expr)) (assoc env (nth rhs 1) rhs-val) env)))
+                  ((apl-resolve-dyadic fn-node new-env)
+                    (apl-eval-ast lhs new-env)
+                    rhs-val))))))
        ((= tag :program) (apl-eval-stmts (rest node) env))
        ((= tag :dfn) node)
        ((= tag :bracket)
@@ -159,6 +183,8 @@
                    (fn (a) (if (= a :all) nil (apl-eval-ast a env)))
                    axis-exprs)))
              (apl-bracket-multi axes arr))))
+        ((= tag :assign-expr) (apl-eval-ast (nth node 2) env))
+        ((= tag :assign) (apl-eval-ast (nth node 2) env))
        (else (error (list "apl-eval-ast: unknown node tag" tag node)))))))

 (define
@@ -538,3 +564,5 @@
        (else (error "apl-resolve-dyadic: unknown fn-node tag"))))))

 (define apl-run (fn (src) (apl-eval-ast (parse-apl src) {})))
+
+(define apl-run-file (fn (path) (apl-run (file-read path))))
--- a/lib/haskell/conformance.conf
+++ b/lib/haskell/conformance.conf
@@ -14,6 +14,8 @@ PRELOADS=(
  lib/haskell/runtime.sx
  lib/haskell/match.sx
  lib/haskell/eval.sx
+  lib/haskell/map.sx
+  lib/haskell/set.sx
  lib/haskell/testlib.sx
 )

@@ -36,6 +38,24 @@ SUITES=(
  "matrix:lib/haskell/tests/program-matrix.sx"
  "wordcount:lib/haskell/tests/program-wordcount.sx"
  "powers:lib/haskell/tests/program-powers.sx"
+  "caesar:lib/haskell/tests/program-caesar.sx"
+  "runlength-str:lib/haskell/tests/program-runlength-str.sx"
+  "showadt:lib/haskell/tests/program-showadt.sx"
+  "showio:lib/haskell/tests/program-showio.sx"
+  "partial:lib/haskell/tests/program-partial.sx"
+  "statistics:lib/haskell/tests/program-statistics.sx"
+  "newton:lib/haskell/tests/program-newton.sx"
+  "wordfreq:lib/haskell/tests/program-wordfreq.sx"
+  "mapgraph:lib/haskell/tests/program-mapgraph.sx"
+  "uniquewords:lib/haskell/tests/program-uniquewords.sx"
+  "setops:lib/haskell/tests/program-setops.sx"
+  "shapes:lib/haskell/tests/program-shapes.sx"
+  "person:lib/haskell/tests/program-person.sx"
+  "config:lib/haskell/tests/program-config.sx"
+  "counter:lib/haskell/tests/program-counter.sx"
+  "accumulate:lib/haskell/tests/program-accumulate.sx"
+  "safediv:lib/haskell/tests/program-safediv.sx"
+  "trycatch:lib/haskell/tests/program-trycatch.sx"
 )

 emit_scoreboard_json() {
--- a/lib/haskell/desugar.sx
+++ b/lib/haskell/desugar.sx
@@ -131,119 +131,280 @@
        (let
          ((tag (first node)))
          (cond
-            ;; Transformations
            ((= tag "where")
              (list
-                :let
-                (map hk-desugar (nth node 2))
+                :let (map hk-desugar (nth node 2))
                (hk-desugar (nth node 1))))
            ((= tag "guarded") (hk-guards-to-if (nth node 1)))
            ((= tag "list-comp")
-              (hk-lc-desugar
-                (hk-desugar (nth node 1))
-                (nth node 2)))
-
-            ;; Expression nodes
+              (hk-lc-desugar (hk-desugar (nth node 1)) (nth node 2)))
            ((= tag "app")
              (list
-                :app
-                (hk-desugar (nth node 1))
+                :app (hk-desugar (nth node 1))
                (hk-desugar (nth node 2))))
+            ((= tag "p-rec")
+              (let
+                ((cname (nth node 1))
+                  (field-pats (nth node 2))
+                  (field-order (hk-record-field-names cname)))
+                (cond
+                  ((nil? field-order)
+                    (raise (str "p-rec: no record info for " cname)))
+                  (:else
+                    (list
+                      :p-con
+                      cname
+                      (map
+                        (fn
+                          (fname)
+                          (let
+                            ((p (hk-find-rec-pair field-pats fname)))
+                            (cond
+                              ((nil? p) (list :p-wild))
+                              (:else (hk-desugar (nth p 1))))))
+                        field-order))))))
+            ((= tag "rec-update")
+              (list
+                :rec-update
+                (hk-desugar (nth node 1))
+                (map
+                  (fn (p) (list (first p) (hk-desugar (nth p 1))))
+                  (nth node 2))))
+            ((= tag "rec-create")
+              (let
+                ((cname (nth node 1))
+                  (field-pairs (nth node 2))
+                  (field-order (hk-record-field-names cname)))
+                (cond
+                  ((nil? field-order)
+                    (raise (str "rec-create: no record info for " cname)))
+                  (:else
+                    (let
+                      ((acc (list :con cname)))
+                      (begin
+                        (for-each
+                          (fn
+                            (fname)
+                            (let
+                              ((pair
+                                  (hk-find-rec-pair field-pairs fname)))
+                              (cond
+                                ((nil? pair)
+                                  (raise
+                                    (str
+                                      "rec-create: missing field "
+                                      fname
+                                      " for "
+                                      cname)))
+                                (:else
+                                  (set!
+                                    acc
+                                    (list
+                                      :app
+                                      acc
+                                      (hk-desugar (nth pair 1))))))))
+                          field-order)
+                        acc))))))
            ((= tag "op")
              (list
-                :op
-                (nth node 1)
+                :op (nth node 1)
                (hk-desugar (nth node 2))
                (hk-desugar (nth node 3))))
            ((= tag "neg") (list :neg (hk-desugar (nth node 1))))
            ((= tag "if")
              (list
-                :if
-                (hk-desugar (nth node 1))
+                :if (hk-desugar (nth node 1))
                (hk-desugar (nth node 2))
                (hk-desugar (nth node 3))))
-            ((= tag "tuple")
-              (list :tuple (map hk-desugar (nth node 1))))
-            ((= tag "list")
-              (list :list (map hk-desugar (nth node 1))))
+            ((= tag "tuple") (list :tuple (map hk-desugar (nth node 1))))
+            ((= tag "list") (list :list (map hk-desugar (nth node 1))))
            ((= tag "range")
              (list
-                :range
-                (hk-desugar (nth node 1))
+                :range (hk-desugar (nth node 1))
                (hk-desugar (nth node 2))))
            ((= tag "range-step")
              (list
-                :range-step
-                (hk-desugar (nth node 1))
+                :range-step (hk-desugar (nth node 1))
                (hk-desugar (nth node 2))
                (hk-desugar (nth node 3))))
            ((= tag "lambda")
-              (list
-                :lambda
-                (nth node 1)
-                (hk-desugar (nth node 2))))
+              (list :lambda (nth node 1) (hk-desugar (nth node 2))))
            ((= tag "let")
              (list
-                :let
-                (map hk-desugar (nth node 1))
+                :let (map hk-desugar (nth node 1))
                (hk-desugar (nth node 2))))
            ((= tag "case")
              (list
-                :case
-                (hk-desugar (nth node 1))
+                :case (hk-desugar (nth node 1))
                (map hk-desugar (nth node 2))))
            ((= tag "alt")
-              (list :alt (nth node 1) (hk-desugar (nth node 2))))
+              (list :alt (hk-desugar (nth node 1)) (hk-desugar (nth node 2))))
            ((= tag "do") (hk-desugar-do (nth node 1)))
            ((= tag "sect-left")
-              (list
-                :sect-left
-                (nth node 1)
-                (hk-desugar (nth node 2))))
+              (list :sect-left (nth node 1) (hk-desugar (nth node 2))))
            ((= tag "sect-right")
-              (list
-                :sect-right
-                (nth node 1)
-                (hk-desugar (nth node 2))))
-
-            ;; Top-level
+              (list :sect-right (nth node 1) (hk-desugar (nth node 2))))
            ((= tag "program")
-              (list :program (map hk-desugar (nth node 1))))
+              (list :program (map hk-desugar (hk-expand-records (nth node 1)))))
            ((= tag "module")
              (list
-                :module
-                (nth node 1)
+                :module (nth node 1)
                (nth node 2)
                (nth node 3)
-                (map hk-desugar (nth node 4))))
-
-            ;; Decls carrying a body
+                (map hk-desugar (hk-expand-records (nth node 4)))))
            ((= tag "fun-clause")
              (list
-                :fun-clause
-                (nth node 1)
-                (nth node 2)
+                :fun-clause (nth node 1)
+                (map hk-desugar (nth node 2))
                (hk-desugar (nth node 3))))
+            ((= tag "instance-decl")
+              (list
+                :instance-decl (nth node 1)
+                (nth node 2)
+                (map hk-desugar (nth node 3))))
            ((= tag "pat-bind")
-              (list
-                :pat-bind
-                (nth node 1)
-                (hk-desugar (nth node 2))))
+              (list :pat-bind (nth node 1) (hk-desugar (nth node 2))))
            ((= tag "bind")
-              (list
-                :bind
-                (nth node 1)
-                (hk-desugar (nth node 2))))
-
-            ;; Everything else: leaf literals, vars, cons, patterns,
-            ;; types, imports, type-sigs, data / newtype / fixity, …
+              (list :bind (nth node 1) (hk-desugar (nth node 2))))
            (:else node)))))))

 ;; Convenience — tokenize + layout + parse + desugar.
-(define
-  hk-core
-  (fn (src) (hk-desugar (hk-parse-top src))))
+(define hk-record-fields (dict))

 (define
-  hk-core-expr
-  (fn (src) (hk-desugar (hk-parse src))))
+  hk-register-record-fields!
+  (fn (cname fields) (dict-set! hk-record-fields cname fields)))
+
+(define
+  hk-record-field-names
+  (fn
+    (cname)
+    (if (has-key? hk-record-fields cname) (get hk-record-fields cname) nil)))
+
+(define
+  hk-record-field-index
+  (fn
+    (cname fname)
+    (let
+      ((fields (hk-record-field-names cname)))
+      (cond
+        ((nil? fields) -1)
+        (:else
+          (let
+            ((i 0) (idx -1))
+            (begin
+              (for-each
+                (fn
+                  (f)
+                  (begin (when (= f fname) (set! idx i)) (set! i (+ i 1))))
+                fields)
+              idx)))))))
+
+(define
+  hk-find-rec-pair
+  (fn
+    (pairs name)
+    (cond
+      ((empty? pairs) nil)
+      ((= (first (first pairs)) name) (first pairs))
+      (:else (hk-find-rec-pair (rest pairs) name)))))
+
+(define
+  hk-record-accessors
+  (fn
+    (cname rec-fields)
+    (let
+      ((n (len rec-fields)) (i 0) (out (list)))
+      (define
+        hk-ra-loop
+        (fn
+          ()
+          (when
+            (< i n)
+            (let
+              ((field (nth rec-fields i)))
+              (let
+                ((fname (first field)) (j 0) (pats (list)))
+                (define
+                  hk-pat-loop
+                  (fn
+                    ()
+                    (when
+                      (< j n)
+                      (begin
+                        (append!
+                          pats
+                          (if
+                            (= j i)
+                            (list "p-var" "__rec_field")
+                            (list "p-wild")))
+                        (set! j (+ j 1))
+                        (hk-pat-loop)))))
+                (hk-pat-loop)
+                (append!
+                  out
+                  (list
+                    "fun-clause"
+                    fname
+                    (list (list "p-con" cname pats))
+                    (list "var" "__rec_field")))
+                (set! i (+ i 1))
+                (hk-ra-loop))))))
+      (hk-ra-loop)
+      out)))
+
+(define
+  hk-expand-records
+  (fn
+    (decls)
+    (let
+      ((out (list)))
+      (for-each
+        (fn
+          (d)
+          (cond
+            ((and (list? d) (= (first d) "data"))
+              (let
+                ((dname (nth d 1))
+                  (tvars (nth d 2))
+                  (cons-list (nth d 3))
+                  (deriving (if (> (len d) 4) (nth d 4) (list)))
+                  (new-cons (list))
+                  (accessors (list)))
+                (begin
+                  (for-each
+                    (fn
+                      (c)
+                      (cond
+                        ((= (first c) "con-rec")
+                          (let
+                            ((cname (nth c 1)) (rec-fields (nth c 2)))
+                            (begin
+                              (hk-register-record-fields!
+                                cname
+                                (map (fn (f) (first f)) rec-fields))
+                              (append!
+                                new-cons
+                                (list
+                                  "con-def"
+                                  cname
+                                  (map (fn (f) (nth f 1)) rec-fields)))
+                              (for-each
+                                (fn (a) (append! accessors a))
+                                (hk-record-accessors cname rec-fields)))))
+                        (:else (append! new-cons c))))
+                    cons-list)
+                  (append!
+                    out
+                    (if
+                      (empty? deriving)
+                      (list "data" dname tvars new-cons)
+                      (list "data" dname tvars new-cons deriving)))
+                  (for-each (fn (a) (append! out a)) accessors))))
+            (:else (append! out d))))
+        decls)
+      out)))
+
+(define hk-core (fn (src) (hk-desugar (hk-parse-top src))))
+
+(define hk-core-expr (fn (src) (hk-desugar (hk-parse src))))
--- a/lib/haskell/eval.sx
+++ b/lib/haskell/eval.sx
--- a/lib/haskell/map.sx
+++ b/lib/haskell/map.sx
@@ -0,0 +1,520 @@
+;; map.sx — Phase 11 Data.Map: weight-balanced BST in pure SX.
+;;
+;; Algorithm: Adams's weight-balanced tree (the same family as Haskell's
+;; Data.Map). Each node tracks its size; rotations maintain the invariant
+;;
+;;     size(small-side) * delta >= size(large-side)        (delta = 3)
+;;
+;; with single or double rotations chosen by the gamma ratio (gamma = 2).
+;; The size field is an Int and is included so `size`, `lookup`, etc. are
+;; O(log n) on both extremes of the tree.
+;;
+;; Representation:
+;;   Empty → ("Map-Empty")
+;;   Node  → ("Map-Node" key val left right size)
+;;
+;; All operations are pure SX — no mutation of nodes once constructed.
+;; The user-facing Haskell layer (Phase 11 next iteration) wraps these
+;; for `import Data.Map as Map`.
+
+;; ── Constructors ────────────────────────────────────────────
+(define hk-map-empty (list "Map-Empty"))
+
+(define
+  hk-map-node
+  (fn
+    (k v l r)
+    (list "Map-Node" k v l r (+ 1 (+ (hk-map-size l) (hk-map-size r))))))
+
+;; ── Predicates and accessors ────────────────────────────────
+(define hk-map-empty? (fn (m) (and (list? m) (= (first m) "Map-Empty"))))
+
+(define hk-map-node? (fn (m) (and (list? m) (= (first m) "Map-Node"))))
+
+(define
+  hk-map-size
+  (fn (m) (cond ((hk-map-empty? m) 0) (:else (nth m 5)))))
+
+(define hk-map-key (fn (m) (nth m 1)))
+(define hk-map-val (fn (m) (nth m 2)))
+(define hk-map-left (fn (m) (nth m 3)))
+(define hk-map-right (fn (m) (nth m 4)))
+
+;; ── Weight-balanced rotations ───────────────────────────────
+;; delta and gamma per Adams 1992 / Haskell Data.Map.
+
+(define hk-map-delta 3)
+(define hk-map-gamma 2)
+
+(define
+  hk-map-single-l
+  (fn
+    (k v l r)
+    (let
+      ((rk (hk-map-key r))
+        (rv (hk-map-val r))
+        (rl (hk-map-left r))
+        (rr (hk-map-right r)))
+      (hk-map-node rk rv (hk-map-node k v l rl) rr))))
+
+(define
+  hk-map-single-r
+  (fn
+    (k v l r)
+    (let
+      ((lk (hk-map-key l))
+        (lv (hk-map-val l))
+        (ll (hk-map-left l))
+        (lr (hk-map-right l)))
+      (hk-map-node lk lv ll (hk-map-node k v lr r)))))
+
+(define
+  hk-map-double-l
+  (fn
+    (k v l r)
+    (let
+      ((rk (hk-map-key r))
+        (rv (hk-map-val r))
+        (rl (hk-map-left r))
+        (rr (hk-map-right r))
+        (rlk (hk-map-key (hk-map-left r)))
+        (rlv (hk-map-val (hk-map-left r)))
+        (rll (hk-map-left (hk-map-left r)))
+        (rlr (hk-map-right (hk-map-left r))))
+      (hk-map-node
+        rlk
+        rlv
+        (hk-map-node k v l rll)
+        (hk-map-node rk rv rlr rr)))))
+
+(define
+  hk-map-double-r
+  (fn
+    (k v l r)
+    (let
+      ((lk (hk-map-key l))
+        (lv (hk-map-val l))
+        (ll (hk-map-left l))
+        (lr (hk-map-right l))
+        (lrk (hk-map-key (hk-map-right l)))
+        (lrv (hk-map-val (hk-map-right l)))
+        (lrl (hk-map-left (hk-map-right l)))
+        (lrr (hk-map-right (hk-map-right l))))
+      (hk-map-node
+        lrk
+        lrv
+        (hk-map-node lk lv ll lrl)
+        (hk-map-node k v lrr r)))))
+
+;; ── Balanced node constructor ──────────────────────────────
+;; Use this in place of hk-map-node when one side may have grown
+;; or shrunk by one and we need to restore the weight invariant.
+(define
+  hk-map-balance
+  (fn
+    (k v l r)
+    (let
+      ((sl (hk-map-size l)) (sr (hk-map-size r)))
+      (cond
+        ((<= (+ sl sr) 1) (hk-map-node k v l r))
+        ((> sr (* hk-map-delta sl))
+          (let
+            ((rl (hk-map-left r)) (rr (hk-map-right r)))
+            (cond
+              ((< (hk-map-size rl) (* hk-map-gamma (hk-map-size rr)))
+                (hk-map-single-l k v l r))
+              (:else (hk-map-double-l k v l r)))))
+        ((> sl (* hk-map-delta sr))
+          (let
+            ((ll (hk-map-left l)) (lr (hk-map-right l)))
+            (cond
+              ((< (hk-map-size lr) (* hk-map-gamma (hk-map-size ll)))
+                (hk-map-single-r k v l r))
+              (:else (hk-map-double-r k v l r)))))
+        (:else (hk-map-node k v l r))))))
+
+(define
+  hk-map-singleton
+  (fn (k v) (hk-map-node k v hk-map-empty hk-map-empty)))
+
+(define
+  hk-map-insert
+  (fn
+    (k v m)
+    (cond
+      ((hk-map-empty? m) (hk-map-singleton k v))
+      (:else
+        (let
+          ((mk (hk-map-key m)))
+          (cond
+            ((< k mk)
+              (hk-map-balance
+                mk
+                (hk-map-val m)
+                (hk-map-insert k v (hk-map-left m))
+                (hk-map-right m)))
+            ((> k mk)
+              (hk-map-balance
+                mk
+                (hk-map-val m)
+                (hk-map-left m)
+                (hk-map-insert k v (hk-map-right m))))
+            (:else (hk-map-node k v (hk-map-left m) (hk-map-right m)))))))))
+
+(define
+  hk-map-lookup
+  (fn
+    (k m)
+    (cond
+      ((hk-map-empty? m) (list "Nothing"))
+      (:else
+        (let
+          ((mk (hk-map-key m)))
+          (cond
+            ((< k mk) (hk-map-lookup k (hk-map-left m)))
+            ((> k mk) (hk-map-lookup k (hk-map-right m)))
+            (:else (list "Just" (hk-map-val m)))))))))
+
+(define
+  hk-map-member
+  (fn
+    (k m)
+    (cond
+      ((hk-map-empty? m) false)
+      (:else
+        (let
+          ((mk (hk-map-key m)))
+          (cond
+            ((< k mk) (hk-map-member k (hk-map-left m)))
+            ((> k mk) (hk-map-member k (hk-map-right m)))
+            (:else true)))))))
+
+(define hk-map-null hk-map-empty?)
+
+(define
+  hk-map-find-min
+  (fn
+    (m)
+    (cond
+      ((hk-map-empty? (hk-map-left m))
+        (list (hk-map-key m) (hk-map-val m)))
+      (:else (hk-map-find-min (hk-map-left m))))))
+
+(define
+  hk-map-delete-min
+  (fn
+    (m)
+    (cond
+      ((hk-map-empty? (hk-map-left m)) (hk-map-right m))
+      (:else
+        (hk-map-balance
+          (hk-map-key m)
+          (hk-map-val m)
+          (hk-map-delete-min (hk-map-left m))
+          (hk-map-right m))))))
+
+(define
+  hk-map-find-max
+  (fn
+    (m)
+    (cond
+      ((hk-map-empty? (hk-map-right m))
+        (list (hk-map-key m) (hk-map-val m)))
+      (:else (hk-map-find-max (hk-map-right m))))))
+
+(define
+  hk-map-delete-max
+  (fn
+    (m)
+    (cond
+      ((hk-map-empty? (hk-map-right m)) (hk-map-left m))
+      (:else
+        (hk-map-balance
+          (hk-map-key m)
+          (hk-map-val m)
+          (hk-map-left m)
+          (hk-map-delete-max (hk-map-right m)))))))
+
+(define
+  hk-map-glue
+  (fn
+    (l r)
+    (cond
+      ((hk-map-empty? l) r)
+      ((hk-map-empty? r) l)
+      ((> (hk-map-size l) (hk-map-size r))
+        (let
+          ((mp (hk-map-find-max l)))
+          (hk-map-balance (first mp) (nth mp 1) (hk-map-delete-max l) r)))
+      (:else
+        (let
+          ((mp (hk-map-find-min r)))
+          (hk-map-balance (first mp) (nth mp 1) l (hk-map-delete-min r)))))))
+
+(define
+  hk-map-delete
+  (fn
+    (k m)
+    (cond
+      ((hk-map-empty? m) m)
+      (:else
+        (let
+          ((mk (hk-map-key m)))
+          (cond
+            ((< k mk)
+              (hk-map-balance
+                mk
+                (hk-map-val m)
+                (hk-map-delete k (hk-map-left m))
+                (hk-map-right m)))
+            ((> k mk)
+              (hk-map-balance
+                mk
+                (hk-map-val m)
+                (hk-map-left m)
+                (hk-map-delete k (hk-map-right m))))
+            (:else (hk-map-glue (hk-map-left m) (hk-map-right m)))))))))
+
+(define
+  hk-map-from-list
+  (fn
+    (pairs)
+    (reduce
+      (fn (acc p) (hk-map-insert (first p) (nth p 1) acc))
+      hk-map-empty
+      pairs)))
+
+(define
+  hk-map-to-asc-list
+  (fn
+    (m)
+    (cond
+      ((hk-map-empty? m) (list))
+      (:else
+        (append
+          (hk-map-to-asc-list (hk-map-left m))
+          (cons
+            (list (hk-map-key m) (hk-map-val m))
+            (hk-map-to-asc-list (hk-map-right m))))))))
+
+(define hk-map-to-list hk-map-to-asc-list)
+
+(define
+  hk-map-keys
+  (fn
+    (m)
+    (cond
+      ((hk-map-empty? m) (list))
+      (:else
+        (append
+          (hk-map-keys (hk-map-left m))
+          (cons (hk-map-key m) (hk-map-keys (hk-map-right m))))))))
+
+(define
+  hk-map-elems
+  (fn
+    (m)
+    (cond
+      ((hk-map-empty? m) (list))
+      (:else
+        (append
+          (hk-map-elems (hk-map-left m))
+          (cons (hk-map-val m) (hk-map-elems (hk-map-right m))))))))
+
+(define
+  hk-map-union-with
+  (fn
+    (f m1 m2)
+    (reduce
+      (fn
+        (acc p)
+        (let
+          ((k (first p)) (v (nth p 1)))
+          (let
+            ((look (hk-map-lookup k acc)))
+            (cond
+              ((= (first look) "Just")
+                (hk-map-insert k (f (nth look 1) v) acc))
+              (:else (hk-map-insert k v acc))))))
+      m1
+      (hk-map-to-asc-list m2))))
+
+(define
+  hk-map-intersection-with
+  (fn
+    (f m1 m2)
+    (reduce
+      (fn
+        (acc p)
+        (let
+          ((k (first p)) (v1 (nth p 1)))
+          (let
+            ((look (hk-map-lookup k m2)))
+            (cond
+              ((= (first look) "Just")
+                (hk-map-insert k (f v1 (nth look 1)) acc))
+              (:else acc)))))
+      hk-map-empty
+      (hk-map-to-asc-list m1))))
+
+(define
+  hk-map-difference
+  (fn
+    (m1 m2)
+    (reduce
+      (fn
+        (acc p)
+        (let
+          ((k (first p)) (v (nth p 1)))
+          (cond ((hk-map-member k m2) acc) (:else (hk-map-insert k v acc)))))
+      hk-map-empty
+      (hk-map-to-asc-list m1))))
+
+(define
+  hk-map-foldl-with-key
+  (fn
+    (f acc m)
+    (cond
+      ((hk-map-empty? m) acc)
+      (:else
+        (let
+          ((acc1 (hk-map-foldl-with-key f acc (hk-map-left m))))
+          (let
+            ((acc2 (f acc1 (hk-map-key m) (hk-map-val m))))
+            (hk-map-foldl-with-key f acc2 (hk-map-right m))))))))
+
+(define
+  hk-map-foldr-with-key
+  (fn
+    (f acc m)
+    (cond
+      ((hk-map-empty? m) acc)
+      (:else
+        (let
+          ((acc1 (hk-map-foldr-with-key f acc (hk-map-right m))))
+          (let
+            ((acc2 (f (hk-map-key m) (hk-map-val m) acc1)))
+            (hk-map-foldr-with-key f acc2 (hk-map-left m))))))))
+
+(define
+  hk-map-map-with-key
+  (fn
+    (f m)
+    (cond
+      ((hk-map-empty? m) m)
+      (:else
+        (list
+          "Map-Node"
+          (hk-map-key m)
+          (f (hk-map-key m) (hk-map-val m))
+          (hk-map-map-with-key f (hk-map-left m))
+          (hk-map-map-with-key f (hk-map-right m))
+          (hk-map-size m))))))
+
+(define
+  hk-map-filter-with-key
+  (fn
+    (p m)
+    (hk-map-foldr-with-key
+      (fn (k v acc) (cond ((p k v) (hk-map-insert k v acc)) (:else acc)))
+      hk-map-empty
+      m)))
+
+(define
+  hk-map-adjust
+  (fn
+    (f k m)
+    (cond
+      ((hk-map-empty? m) m)
+      (:else
+        (let
+          ((mk (hk-map-key m)))
+          (cond
+            ((< k mk)
+              (hk-map-node
+                mk
+                (hk-map-val m)
+                (hk-map-adjust f k (hk-map-left m))
+                (hk-map-right m)))
+            ((> k mk)
+              (hk-map-node
+                mk
+                (hk-map-val m)
+                (hk-map-left m)
+                (hk-map-adjust f k (hk-map-right m))))
+            (:else
+              (hk-map-node
+                mk
+                (f (hk-map-val m))
+                (hk-map-left m)
+                (hk-map-right m)))))))))
+
+(define
+  hk-map-insert-with
+  (fn
+    (f k v m)
+    (cond
+      ((hk-map-empty? m) (hk-map-singleton k v))
+      (:else
+        (let
+          ((mk (hk-map-key m)))
+          (cond
+            ((< k mk)
+              (hk-map-balance
+                mk
+                (hk-map-val m)
+                (hk-map-insert-with f k v (hk-map-left m))
+                (hk-map-right m)))
+            ((> k mk)
+              (hk-map-balance
+                mk
+                (hk-map-val m)
+                (hk-map-left m)
+                (hk-map-insert-with f k v (hk-map-right m))))
+            (:else
+              (hk-map-node
+                mk
+                (f v (hk-map-val m))
+                (hk-map-left m)
+                (hk-map-right m)))))))))
+
+(define
+  hk-map-insert-with-key
+  (fn
+    (f k v m)
+    (cond
+      ((hk-map-empty? m) (hk-map-singleton k v))
+      (:else
+        (let
+          ((mk (hk-map-key m)))
+          (cond
+            ((< k mk)
+              (hk-map-balance
+                mk
+                (hk-map-val m)
+                (hk-map-insert-with-key f k v (hk-map-left m))
+                (hk-map-right m)))
+            ((> k mk)
+              (hk-map-balance
+                mk
+                (hk-map-val m)
+                (hk-map-left m)
+                (hk-map-insert-with-key f k v (hk-map-right m))))
+            (:else
+              (hk-map-node
+                mk
+                (f k v (hk-map-val m))
+                (hk-map-left m)
+                (hk-map-right m)))))))))
+
+(define
+  hk-map-alter
+  (fn
+    (f k m)
+    (let
+      ((look (hk-map-lookup k m)))
+      (let
+        ((res (f look)))
+        (cond
+          ((= (first res) "Nothing") (hk-map-delete k m))
+          (:else (hk-map-insert k (nth res 1) m)))))))
--- a/lib/haskell/match.sx
+++ b/lib/haskell/match.sx
@@ -87,45 +87,41 @@
                  ((nil? res) nil)
                  (:else (assoc res (nth pat 1) val)))))
            (:else
-              (let ((fv (hk-force val)))
+              (let
+                ((fv (hk-force val)))
                (cond
                  ((= tag "p-int")
-                    (if
-                      (and (number? fv) (= fv (nth pat 1)))
-                      env
-                      nil))
+                    (if (and (number? fv) (= fv (nth pat 1))) env nil))
                  ((= tag "p-float")
-                    (if
-                      (and (number? fv) (= fv (nth pat 1)))
-                      env
-                      nil))
+                    (if (and (number? fv) (= fv (nth pat 1))) env nil))
                  ((= tag "p-string")
-                    (if
-                      (and (string? fv) (= fv (nth pat 1)))
-                      env
-                      nil))
+                    (if (and (string? fv) (= fv (nth pat 1))) env nil))
                  ((= tag "p-char")
-                    (if
-                      (and (string? fv) (= fv (nth pat 1)))
-                      env
-                      nil))
+                    (if (and (string? fv) (= fv (nth pat 1))) env nil))
                  ((= tag "p-con")
                    (let
                      ((pat-name (nth pat 1)) (pat-args (nth pat 2)))
                      (cond
+                        ((and (= pat-name ":") (hk-str? fv) (not (hk-str-null? fv)))
+                          (let
+                            ((str-head (hk-str-head fv))
+                              (str-tail (hk-str-tail fv)))
+                            (let
+                              ((head-pat (nth pat-args 0))
+                                (tail-pat (nth pat-args 1)))
+                              (let
+                                ((res (hk-match head-pat str-head env)))
+                                (cond
+                                  ((nil? res) nil)
+                                  (:else (hk-match tail-pat str-tail res)))))))
                        ((not (hk-is-con-val? fv)) nil)
                        ((not (= (hk-val-con-name fv) pat-name)) nil)
                        (:else
                          (let
                            ((val-args (hk-val-con-args fv)))
                            (cond
-                              ((not (= (len pat-args) (len val-args)))
-                                nil)
-                              (:else
-                                (hk-match-all
-                                  pat-args
-                                  val-args
-                                  env))))))))
+                              ((not (= (len val-args) (len pat-args))) nil)
+                              (:else (hk-match-all pat-args val-args env))))))))
                  ((= tag "p-tuple")
                    (let
                      ((items (nth pat 1)))
@@ -134,13 +130,8 @@
                        ((not (= (hk-val-con-name fv) "Tuple")) nil)
                        ((not (= (len (hk-val-con-args fv)) (len items)))
                          nil)
-                        (:else
-                          (hk-match-all
-                            items
-                            (hk-val-con-args fv)
-                            env)))))
-                  ((= tag "p-list")
-                    (hk-match-list-pat (nth pat 1) fv env))
+                        (:else (hk-match-all items (hk-val-con-args fv) env)))))
+                  ((= tag "p-list") (hk-match-list-pat (nth pat 1) fv env))
                  (:else nil))))))))))

 (define
@@ -161,17 +152,26 @@
  hk-match-list-pat
  (fn
    (items val env)
-    (let ((fv (hk-force val)))
+    (let
+      ((fv (hk-force val)))
      (cond
        ((empty? items)
          (if
-            (and
-              (hk-is-con-val? fv)
-              (= (hk-val-con-name fv) "[]"))
+            (or
+              (and (hk-is-con-val? fv) (= (hk-val-con-name fv) "[]"))
+              (and (hk-str? fv) (hk-str-null? fv)))
            env
            nil))
        (:else
          (cond
+            ((and (hk-str? fv) (not (hk-str-null? fv)))
+              (let
+                ((h (hk-str-head fv)) (t (hk-str-tail fv)))
+                (let
+                  ((res (hk-match (first items) h env)))
+                  (cond
+                    ((nil? res) nil)
+                    (:else (hk-match-list-pat (rest items) t res))))))
            ((not (hk-is-con-val? fv)) nil)
            ((not (= (hk-val-con-name fv) ":")) nil)
            (:else
@@ -183,11 +183,7 @@
                    ((res (hk-match (first items) h env)))
                    (cond
                      ((nil? res) nil)
-                      (:else
-                        (hk-match-list-pat
-                          (rest items)
-                          t
-                          res)))))))))))))
+                      (:else (hk-match-list-pat (rest items) t res)))))))))))))

 ;; ── Convenience: parse a pattern from source for tests ─────
 ;; (Uses the parser's case-alt entry — `case _ of pat -> 0` —
--- a/lib/haskell/parser.sx
+++ b/lib/haskell/parser.sx
@@ -208,9 +208,19 @@
              ((= (get t "type") "char")
                (do (hk-advance!) (list :char (get t "value"))))
              ((= (get t "type") "varid")
-                (do (hk-advance!) (list :var (get t "value"))))
+                (do
+                  (hk-advance!)
+                  (cond
+                    ((hk-match? "lbrace" nil)
+                      (hk-parse-rec-update (list :var (get t "value"))))
+                    (:else (list :var (get t "value"))))))
              ((= (get t "type") "conid")
-                (do (hk-advance!) (list :con (get t "value"))))
+                (do
+                  (hk-advance!)
+                  (cond
+                    ((hk-match? "lbrace" nil)
+                      (hk-parse-rec-create (get t "value")))
+                    (:else (list :con (get t "value"))))))
              ((= (get t "type") "qvarid")
                (do (hk-advance!) (list :var (get t "value"))))
              ((= (get t "type") "qconid")
@@ -456,6 +466,90 @@
                    (do
                      (hk-expect! "rbracket" nil)
                      (list :list (list first-e))))))))))
+      (define
+        hk-parse-rec-create
+        (fn
+          (cname)
+          (begin
+            (hk-expect! "lbrace" nil)
+            (let
+              ((fields (list)))
+              (define
+                hk-rc-loop
+                (fn
+                  ()
+                  (when
+                    (hk-match? "varid" nil)
+                    (let
+                      ((fname (get (hk-advance!) "value")))
+                      (begin
+                        (hk-expect! "reservedop" "=")
+                        (let
+                          ((fexpr (hk-parse-expr-inner)))
+                          (begin
+                            (append! fields (list fname fexpr))
+                            (when
+                              (hk-match? "comma" nil)
+                              (begin (hk-advance!) (hk-rc-loop))))))))))
+              (hk-rc-loop)
+              (hk-expect! "rbrace" nil)
+              (list :rec-create cname fields)))))
+      (define
+        hk-parse-rec-update
+        (fn
+          (rec-expr)
+          (begin
+            (hk-expect! "lbrace" nil)
+            (let
+              ((fields (list)))
+              (define
+                hk-ru-loop
+                (fn
+                  ()
+                  (when
+                    (hk-match? "varid" nil)
+                    (let
+                      ((fname (get (hk-advance!) "value")))
+                      (begin
+                        (hk-expect! "reservedop" "=")
+                        (let
+                          ((fexpr (hk-parse-expr-inner)))
+                          (begin
+                            (append! fields (list fname fexpr))
+                            (when
+                              (hk-match? "comma" nil)
+                              (begin (hk-advance!) (hk-ru-loop))))))))))
+              (hk-ru-loop)
+              (hk-expect! "rbrace" nil)
+              (list :rec-update rec-expr fields)))))
+      (define
+        hk-parse-rec-pat
+        (fn
+          (cname)
+          (begin
+            (hk-expect! "lbrace" nil)
+            (let
+              ((field-pats (list)))
+              (define
+                hk-rp-loop
+                (fn
+                  ()
+                  (when
+                    (hk-match? "varid" nil)
+                    (let
+                      ((fname (get (hk-advance!) "value")))
+                      (begin
+                        (hk-expect! "reservedop" "=")
+                        (let
+                          ((fpat (hk-parse-pat)))
+                          (begin
+                            (append! field-pats (list fname fpat))
+                            (when
+                              (hk-match? "comma" nil)
+                              (begin (hk-advance!) (hk-rp-loop))))))))))
+              (hk-rp-loop)
+              (hk-expect! "rbrace" nil)
+              (list :p-rec cname field-pats)))))
      (define
        hk-parse-fexp
        (fn
@@ -696,7 +790,12 @@
                    (:else
                      (do (hk-advance!) (list :p-var (get t "value")))))))
              ((= (get t "type") "conid")
-                (do (hk-advance!) (list :p-con (get t "value") (list))))
+                (do
+                  (hk-advance!)
+                  (cond
+                    ((hk-match? "lbrace" nil)
+                      (hk-parse-rec-pat (get t "value")))
+                    (:else (list :p-con (get t "value") (list))))))
              ((= (get t "type") "qconid")
                (do (hk-advance!) (list :p-con (get t "value") (list))))
              ((= (get t "type") "lparen") (hk-parse-paren-pat))
@@ -762,16 +861,24 @@
            (cond
              ((and (not (nil? t)) (or (= (get t "type") "conid") (= (get t "type") "qconid")))
                (let
-                  ((name (get (hk-advance!) "value")) (args (list)))
-                  (define
-                    hk-pca-loop
-                    (fn
-                      ()
-                      (when
-                        (hk-apat-start? (hk-peek))
-                        (do (append! args (hk-parse-apat)) (hk-pca-loop)))))
-                  (hk-pca-loop)
-                  (list :p-con name args)))
+                  ((name (get (hk-advance!) "value")))
+                  (cond
+                    ((hk-match? "lbrace" nil)
+                      (hk-parse-rec-pat name))
+                    (:else
+                      (let
+                        ((args (list)))
+                        (define
+                          hk-pca-loop
+                          (fn
+                            ()
+                            (when
+                              (hk-apat-start? (hk-peek))
+                              (do
+                                (append! args (hk-parse-apat))
+                                (hk-pca-loop)))))
+                        (hk-pca-loop)
+                        (list :p-con name args))))))
              (:else (hk-parse-apat))))))
      (define
        hk-parse-pat
@@ -1212,16 +1319,47 @@
            (not (hk-match? "conid" nil))
            (hk-err "expected constructor name"))
          (let
-            ((name (get (hk-advance!) "value")) (fields (list)))
-            (define
-              hk-cd-loop
-              (fn
-                ()
-                (when
-                  (hk-atype-start? (hk-peek))
-                  (do (append! fields (hk-parse-atype)) (hk-cd-loop)))))
-            (hk-cd-loop)
-            (list :con-def name fields))))
+            ((name (get (hk-advance!) "value")))
+            (cond
+              ((hk-match? "lbrace" nil)
+                (begin
+                  (hk-advance!)
+                  (let
+                    ((rec-fields (list)))
+                    (define
+                      hk-rec-loop
+                      (fn
+                        ()
+                        (when
+                          (hk-match? "varid" nil)
+                          (let
+                            ((fname (get (hk-advance!) "value")))
+                            (begin
+                              (hk-expect! "reservedop" "::")
+                              (let
+                                ((ftype (hk-parse-type)))
+                                (begin
+                                  (append! rec-fields (list fname ftype))
+                                  (when
+                                    (hk-match? "comma" nil)
+                                    (begin (hk-advance!) (hk-rec-loop))))))))))
+                    (hk-rec-loop)
+                    (hk-expect! "rbrace" nil)
+                    (list :con-rec name rec-fields))))
+              (:else
+                (let
+                  ((fields (list)))
+                  (define
+                    hk-cd-loop
+                    (fn
+                      ()
+                      (when
+                        (hk-atype-start? (hk-peek))
+                        (begin
+                          (append! fields (hk-parse-atype))
+                          (hk-cd-loop)))))
+                  (hk-cd-loop)
+                  (list :con-def name fields)))))))
      (define
        hk-parse-tvars
        (fn
--- a/lib/haskell/runtime.sx
+++ b/lib/haskell/runtime.sx
@@ -12,12 +12,7 @@

 (define
  hk-register-con!
-  (fn
-    (cname arity type-name)
-    (dict-set!
-      hk-constructors
-      cname
-      {:arity arity :type type-name})))
+  (fn (cname arity type-name) (dict-set! hk-constructors cname {:arity arity :type type-name})))

 (define hk-is-con? (fn (name) (has-key? hk-constructors name)))

@@ -48,26 +43,15 @@
  (fn
    (data-node)
    (let
-      ((type-name (nth data-node 1))
-        (cons-list (nth data-node 3)))
+      ((type-name (nth data-node 1)) (cons-list (nth data-node 3)))
      (for-each
-        (fn
-          (cd)
-          (hk-register-con!
-            (nth cd 1)
-            (len (nth cd 2))
-            type-name))
+        (fn (cd) (hk-register-con! (nth cd 1) (len (nth cd 2)) type-name))
        cons-list))))

 ;; (:newtype NAME TVARS CNAME FIELD)
 (define
  hk-register-newtype!
-  (fn
-    (nt-node)
-    (hk-register-con!
-      (nth nt-node 3)
-      1
-      (nth nt-node 1))))
+  (fn (nt-node) (hk-register-con! (nth nt-node 3) 1 (nth nt-node 1))))

 ;; Walk a decls list, registering every `data` / `newtype` decl.
 (define
@@ -78,15 +62,9 @@
      (fn
        (d)
        (cond
-          ((and
-              (list? d)
-              (not (empty? d))
-              (= (first d) "data"))
+          ((and (list? d) (not (empty? d)) (= (first d) "data"))
            (hk-register-data! d))
-          ((and
-              (list? d)
-              (not (empty? d))
-              (= (first d) "newtype"))
+          ((and (list? d) (not (empty? d)) (= (first d) "newtype"))
            (hk-register-newtype! d))
          (:else nil)))
      decls)))
@@ -99,16 +77,12 @@
      ((nil? ast) nil)
      ((not (list? ast)) nil)
      ((empty? ast) nil)
-      ((= (first ast) "program")
-        (hk-register-decls! (nth ast 1)))
-      ((= (first ast) "module")
-        (hk-register-decls! (nth ast 4)))
+      ((= (first ast) "program") (hk-register-decls! (nth ast 1)))
+      ((= (first ast) "module") (hk-register-decls! (nth ast 4)))
      (:else nil))))

 ;; Convenience: source → AST → desugar → register.
-(define
-  hk-load-source!
-  (fn (src) (hk-register-program! (hk-core src))))
+(define hk-load-source! (fn (src) (hk-register-program! (hk-core src))))

 ;; ── Built-in constructors pre-registered ─────────────────────
 ;; Bool — used implicitly by `if`, comparison operators.
@@ -122,9 +96,55 @@
 ;; Standard Prelude types — pre-registered so expression-level
 ;; programs can use them without a `data` decl.
 (hk-register-con! "Nothing" 0 "Maybe")
-(hk-register-con! "Just"    1 "Maybe")
-(hk-register-con! "Left"    1 "Either")
-(hk-register-con! "Right"   1 "Either")
+(hk-register-con! "Just" 1 "Maybe")
+(hk-register-con! "Left" 1 "Either")
+(hk-register-con! "Right" 1 "Either")
 (hk-register-con! "LT" 0 "Ordering")
 (hk-register-con! "EQ" 0 "Ordering")
 (hk-register-con! "GT" 0 "Ordering")
+(hk-register-con! "SomeException" 1 "SomeException")
+
+(define
+  hk-str?
+  (fn (v) (or (string? v) (and (dict? v) (has-key? v "hk-str")))))
+
+(define
+  hk-str-head
+  (fn
+    (v)
+    (if
+      (string? v)
+      (char-code (char-at v 0))
+      (char-code (char-at (get v "hk-str") (get v "hk-off"))))))
+
+(define
+  hk-str-tail
+  (fn
+    (v)
+    (let
+      ((buf (if (string? v) v (get v "hk-str")))
+        (off (if (string? v) 1 (+ (get v "hk-off") 1))))
+      (if (>= off (string-length buf)) (list "[]") {:hk-off off :hk-str buf}))))
+
+(define
+  hk-str-null?
+  (fn
+    (v)
+    (if
+      (string? v)
+      (= (string-length v) 0)
+      (>= (get v "hk-off") (string-length (get v "hk-str"))))))
+
+(define
+  hk-str-to-native
+  (fn
+    (v)
+    (if
+      (string? v)
+      v
+      (let
+        ((buf (get v "hk-str")) (off (get v "hk-off")))
+        (reduce
+          (fn (acc i) (str acc (char-at buf i)))
+          ""
+          (range off (string-length buf)))))))
--- a/lib/haskell/scoreboard.json
+++ b/lib/haskell/scoreboard.json
@@ -1,6 +1,6 @@
 {
-  "date": "2026-05-06",
-  "total_pass": 156,
+  "date": "2026-05-08",
+  "total_pass": 285,
  "total_fail": 0,
  "programs": {
    "fib": {"pass": 2, "fail": 0},
@@ -9,7 +9,7 @@
    "nqueens": {"pass": 2, "fail": 0},
    "calculator": {"pass": 5, "fail": 0},
    "collatz": {"pass": 11, "fail": 0},
-    "palindrome": {"pass": 8, "fail": 0},
+    "palindrome": {"pass": 12, "fail": 0},
    "maybe": {"pass": 12, "fail": 0},
    "fizzbuzz": {"pass": 12, "fail": 0},
    "anagram": {"pass": 9, "fail": 0},
@@ -19,7 +19,25 @@
    "primes": {"pass": 12, "fail": 0},
    "zipwith": {"pass": 9, "fail": 0},
    "matrix": {"pass": 8, "fail": 0},
-    "wordcount": {"pass": 7, "fail": 0},
-    "powers": {"pass": 14, "fail": 0}
+    "wordcount": {"pass": 10, "fail": 0},
+    "powers": {"pass": 14, "fail": 0},
+    "caesar": {"pass": 8, "fail": 0},
+    "runlength-str": {"pass": 9, "fail": 0},
+    "showadt": {"pass": 5, "fail": 0},
+    "showio": {"pass": 5, "fail": 0},
+    "partial": {"pass": 7, "fail": 0},
+    "statistics": {"pass": 5, "fail": 0},
+    "newton": {"pass": 5, "fail": 0},
+    "wordfreq": {"pass": 7, "fail": 0},
+    "mapgraph": {"pass": 6, "fail": 0},
+    "uniquewords": {"pass": 4, "fail": 0},
+    "setops": {"pass": 8, "fail": 0},
+    "shapes": {"pass": 5, "fail": 0},
+    "person": {"pass": 7, "fail": 0},
+    "config": {"pass": 10, "fail": 0},
+    "counter": {"pass": 7, "fail": 0},
+    "accumulate": {"pass": 8, "fail": 0},
+    "safediv": {"pass": 8, "fail": 0},
+    "trycatch": {"pass": 8, "fail": 0}
  }
 }
--- a/lib/haskell/scoreboard.md
+++ b/lib/haskell/scoreboard.md
@@ -1,6 +1,6 @@
 # Haskell-on-SX Scoreboard

-Updated 2026-05-06 · Phase 6 (prelude extras + 18 programs)
+Updated 2026-05-08 · Phase 6 (prelude extras + 18 programs)

 | Program | Tests | Status |
 |---------|-------|--------|
@@ -10,7 +10,7 @@ Updated 2026-05-06 · Phase 6 (prelude extras + 18 programs)
 | nqueens.hs | 2/2 | ✓ |
 | calculator.hs | 5/5 | ✓ |
 | collatz.hs | 11/11 | ✓ |
-| palindrome.hs | 8/8 | ✓ |
+| palindrome.hs | 12/12 | ✓ |
 | maybe.hs | 12/12 | ✓ |
 | fizzbuzz.hs | 12/12 | ✓ |
 | anagram.hs | 9/9 | ✓ |
@@ -20,6 +20,24 @@ Updated 2026-05-06 · Phase 6 (prelude extras + 18 programs)
 | primes.hs | 12/12 | ✓ |
 | zipwith.hs | 9/9 | ✓ |
 | matrix.hs | 8/8 | ✓ |
-| wordcount.hs | 7/7 | ✓ |
+| wordcount.hs | 10/10 | ✓ |
 | powers.hs | 14/14 | ✓ |
-| **Total** | **156/156** | **18/18 programs** |
+| caesar.hs | 8/8 | ✓ |
+| runlength-str.hs | 9/9 | ✓ |
+| showadt.hs | 5/5 | ✓ |
+| showio.hs | 5/5 | ✓ |
+| partial.hs | 7/7 | ✓ |
+| statistics.hs | 5/5 | ✓ |
+| newton.hs | 5/5 | ✓ |
+| wordfreq.hs | 7/7 | ✓ |
+| mapgraph.hs | 6/6 | ✓ |
+| uniquewords.hs | 4/4 | ✓ |
+| setops.hs | 8/8 | ✓ |
+| shapes.hs | 5/5 | ✓ |
+| person.hs | 7/7 | ✓ |
+| config.hs | 10/10 | ✓ |
+| counter.hs | 7/7 | ✓ |
+| accumulate.hs | 8/8 | ✓ |
+| safediv.hs | 8/8 | ✓ |
+| trycatch.hs | 8/8 | ✓ |
+| **Total** | **285/285** | **36/36 programs** |
--- a/lib/haskell/set.sx
+++ b/lib/haskell/set.sx
@@ -0,0 +1,62 @@
+;; set.sx — Phase 12 Data.Set: wraps Data.Map with unit values.
+;;
+;; A Set is a Map from key to (). All set operations delegate to the map
+;; ops, ignoring the value side. Storage representation matches Data.Map:
+;;
+;;   Empty → ("Map-Empty")
+;;   Node  → ("Map-Node" key () left right size)
+;;
+;; Tradeoff: trivial maintenance burden, slight overhead per node from
+;; the unused value slot. Faster path forward than re-implementing the
+;; weight-balanced BST.
+;;
+;; Functions live in this file; the Haskell-level `import Data.Set` /
+;; `import qualified Data.Set as Set` wiring (next Phase 12 box) binds
+;; them under the chosen alias.
+
+(define hk-set-unit (list "Tuple"))
+
+(define hk-set-empty hk-map-empty)
+
+(define hk-set-singleton (fn (k) (hk-map-singleton k hk-set-unit)))
+
+(define hk-set-insert (fn (k s) (hk-map-insert k hk-set-unit s)))
+
+(define hk-set-delete hk-map-delete)
+(define hk-set-member hk-map-member)
+(define hk-set-size hk-map-size)
+(define hk-set-null hk-map-null)
+(define hk-set-to-asc-list hk-map-keys)
+(define hk-set-to-list hk-map-keys)
+
+(define
+  hk-set-from-list
+  (fn (xs) (reduce (fn (acc k) (hk-set-insert k acc)) hk-set-empty xs)))
+
+(define
+  hk-set-union
+  (fn (a b) (hk-map-union-with (fn (x y) hk-set-unit) a b)))
+
+(define
+  hk-set-intersection
+  (fn (a b) (hk-map-intersection-with (fn (x y) hk-set-unit) a b)))
+
+(define hk-set-difference hk-map-difference)
+
+(define
+  hk-set-is-subset-of
+  (fn (a b) (= (hk-map-size (hk-map-difference a b)) 0)))
+
+(define
+  hk-set-filter
+  (fn (p s) (hk-map-filter-with-key (fn (k v) (p k)) s)))
+
+(define hk-set-map (fn (f s) (hk-set-from-list (map f (hk-map-keys s)))))
+
+(define
+  hk-set-foldr
+  (fn (f z s) (hk-map-foldr-with-key (fn (k v acc) (f k acc)) z s)))
+
+(define
+  hk-set-foldl
+  (fn (f z s) (hk-map-foldl-with-key (fn (acc k v) (f acc k)) z s)))
--- a/lib/haskell/test.sh
+++ b/lib/haskell/test.sh
@@ -55,6 +55,8 @@ for FILE in "${FILES[@]}"; do
 (load "lib/haskell/runtime.sx")
 (load "lib/haskell/match.sx")
 (load "lib/haskell/eval.sx")
+(load "lib/haskell/map.sx")
+(load "lib/haskell/set.sx")
 $INFER_LOAD
 (load "lib/haskell/testlib.sx")
 (epoch 2)
@@ -98,6 +100,8 @@ EPOCHS
 (load "lib/haskell/runtime.sx")
 (load "lib/haskell/match.sx")
 (load "lib/haskell/eval.sx")
+(load "lib/haskell/map.sx")
+(load "lib/haskell/set.sx")
 $INFER_LOAD
 (load "lib/haskell/testlib.sx")
 (epoch 2)
--- a/lib/haskell/testlib.sx
+++ b/lib/haskell/testlib.sx
@@ -56,3 +56,21 @@
        (append!
          hk-test-fails
          {:actual actual :expected expected :name name})))))
+
+(define
+  hk-test-error
+  (fn
+    (name thunk expected-substring)
+    (let
+      ((caught (guard (e (true (if (string? e) e (str e)))) (begin (thunk) nil))))
+      (cond
+        ((nil? caught)
+          (do
+            (set! hk-test-fail (+ hk-test-fail 1))
+            (append! hk-test-fails {:actual "no error raised" :expected (str "error containing: " expected-substring) :name name})))
+        ((>= (index-of caught expected-substring) 0)
+          (set! hk-test-pass (+ hk-test-pass 1)))
+        (:else
+          (do
+            (set! hk-test-fail (+ hk-test-fail 1))
+            (append! hk-test-fails {:actual caught :expected (str "error containing: " expected-substring) :name name})))))))
--- a/lib/haskell/tests/class-defaults.sx
+++ b/lib/haskell/tests/class-defaults.sx
@@ -0,0 +1,86 @@
+;; class-defaults.sx — Phase 13: class default method implementations.
+
+;; ── Eq default: myNeq derived from myEq via `not (myEq x y)` ──
+(define
+  hk-myeq-source
+  "class MyEq a where\n  myEq :: a -> a -> Bool\n  myNeq :: a -> a -> Bool\n  myNeq x y = not (myEq x y)\ninstance MyEq Int where\n  myEq x y = x == y\n")
+
+(hk-test
+  "Eq default: myNeq 3 5 = True (no explicit myNeq in instance)"
+  (hk-deep-force (hk-run (str hk-myeq-source "main = myNeq 3 5\n")))
+  (list "True"))
+
+(hk-test
+  "Eq default: myNeq 3 3 = False"
+  (hk-deep-force (hk-run (str hk-myeq-source "main = myNeq 3 3\n")))
+  (list "False"))
+
+(hk-test
+  "Eq default: myEq still works in same instance"
+  (hk-deep-force (hk-run (str hk-myeq-source "main = myEq 7 7\n")))
+  (list "True"))
+
+;; ── Override path: instance can still provide the method explicitly. ──
+(hk-test
+  "Default override: instance-provided beats class default"
+  (hk-deep-force
+    (hk-run
+      "class Hi a where\n  greet :: a -> String\n  greet x = \"default\"\ninstance Hi Bool where\n  greet x = \"override\"\nmain = greet True"))
+  "override")
+
+(hk-test
+  "Default fallback: empty instance picks default"
+  (hk-deep-force
+    (hk-run
+      "class Hi a where\n  greet :: a -> String\n  greet x = \"default\"\ninstance Hi Bool where\nmain = greet True"))
+  "default")
+
+(define
+  hk-myord-source
+  "class MyOrd a where\n  myCmp :: a -> a -> Bool\n  myMax :: a -> a -> a\n  myMin :: a -> a -> a\n  myMax a b = if myCmp a b then a else b\n  myMin a b = if myCmp a b then b else a\ninstance MyOrd Int where\n  myCmp x y = x >= y\n")
+
+(hk-test
+  "Ord default: myMax 3 5 = 5"
+  (hk-deep-force (hk-run (str hk-myord-source "main = myMax 3 5\n")))
+  5)
+
+(hk-test
+  "Ord default: myMax 8 2 = 8"
+  (hk-deep-force (hk-run (str hk-myord-source "main = myMax 8 2\n")))
+  8)
+
+(hk-test
+  "Ord default: myMin 3 5 = 3"
+  (hk-deep-force (hk-run (str hk-myord-source "main = myMin 3 5\n")))
+  3)
+
+(hk-test
+  "Ord default: myMin 8 2 = 2"
+  (hk-deep-force (hk-run (str hk-myord-source "main = myMin 8 2\n")))
+  2)
+
+(hk-test
+  "Ord default: myMax of equals returns first"
+  (hk-deep-force (hk-run (str hk-myord-source "main = myMax 4 4\n")))
+  4)
+
+(define
+  hk-mynum-source
+  "class MyNum a where\n  mySub :: a -> a -> a\n  myLt :: a -> a -> Bool\n  myNegate :: a -> a\n  myAbs :: a -> a\n  myNegate x = mySub (mySub x x) x\n  myAbs x = if myLt x (mySub x x) then myNegate x else x\ninstance MyNum Int where\n  mySub x y = x - y\n  myLt x y = x < y\n")
+
+(hk-test
+  "Num default: myNegate 5 = -5"
+  (hk-deep-force (hk-run (str hk-mynum-source "main = myNegate 5\n")))
+  -5)
+
+(hk-test
+  "Num default: myAbs (myNegate 7) = 7"
+  (hk-deep-force (hk-run (str hk-mynum-source "main = myAbs (myNegate 7)\n")))
+  7)
+
+(hk-test
+  "Num default: myAbs 9 = 9"
+  (hk-deep-force (hk-run (str hk-mynum-source "main = myAbs 9\n")))
+  9)
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/deriving.sx
+++ b/lib/haskell/tests/deriving.sx
@@ -12,14 +12,14 @@
  "deriving Show: constructor with arg"
  (hk-deep-force
    (hk-run "data Wrapper = Wrap Int deriving (Show)\nmain = show (Wrap 42)"))
-  "(Wrap 42)")
+  "Wrap 42")

 (hk-test
  "deriving Show: nested constructors"
  (hk-deep-force
    (hk-run
      "data Tree = Leaf | Node Int Tree Tree deriving (Show)\nmain = show (Node 1 Leaf Leaf)"))
-  "(Node 1 Leaf Leaf)")
+  "Node 1 Leaf Leaf")

 (hk-test
  "deriving Show: second constructor"
@@ -30,6 +30,31 @@

 ;; ─── Eq ──────────────────────────────────────────────────────────────────────

+(hk-test
+  "deriving Show: nested ADT wraps inner constructor in parens"
+  (hk-deep-force
+    (hk-run
+      "data Tree = Leaf | Node Int Tree Tree deriving (Show)\nmain = show (Node 1 Leaf (Node 2 Leaf Leaf))"))
+  "Node 1 Leaf (Node 2 Leaf Leaf)")
+
+(hk-test
+  "deriving Show: Maybe Maybe wraps inner Just"
+  (hk-deep-force (hk-run "main = show (Just (Just 3))"))
+  "Just (Just 3)")
+
+(hk-test
+  "deriving Show: negative argument wrapped in parens"
+  (hk-deep-force (hk-run "main = show (Just (negate 3))"))
+  "Just (-3)")
+
+(hk-test
+  "deriving Show: list element does not need parens"
+  (hk-deep-force
+    (hk-run "data Box = Box [Int] deriving (Show)\nmain = show (Box [1,2,3])"))
+  "Box [1,2,3]")
+
+;; ─── combined Eq + Show ───────────────────────────────────────────────────────
+
 (hk-test
  "deriving Eq: same constructor"
  (hk-deep-force
@@ -58,14 +83,12 @@
      "data Color = Red | Green | Blue deriving (Eq)\nmain = show (Red /= Blue)"))
  "True")

-;; ─── combined Eq + Show ───────────────────────────────────────────────────────
-
 (hk-test
-  "deriving Eq Show: combined in parens"
+  "deriving Eq Show: combined"
  (hk-deep-force
    (hk-run
      "data Shape = Circle Int | Square Int deriving (Eq, Show)\nmain = show (Circle 5)"))
-  "(Circle 5)")
+  "Circle 5")

 (hk-test
  "deriving Eq Show: eq on constructor with arg"
--- a/lib/haskell/tests/errors.sx
+++ b/lib/haskell/tests/errors.sx
@@ -0,0 +1,99 @@
+;; errors.sx — Phase 9 error / undefined / partial-fn coverage via hk-test-error.
+
+;; ── error builtin ────────────────────────────────────────────
+(define
+  hk-as-list
+  (fn
+    (xs)
+    (cond
+      ((and (list? xs) (= (first xs) "[]")) (list))
+      ((and (list? xs) (= (first xs) ":"))
+        (cons (nth xs 1) (hk-as-list (nth xs 2))))
+      (:else xs))))
+
+(hk-test-error
+  "error: raises with literal message"
+  (fn () (hk-deep-force (hk-run "main = error \"boom\"")))
+  "hk-error: boom")
+
+(hk-test-error
+  "error: raises with computed message"
+  (fn () (hk-deep-force (hk-run "main = error (\"oops: \" ++ show 42)")))
+  "hk-error: oops: 42")
+
+;; ── undefined ────────────────────────────────────────────────
+(hk-test-error
+  "error: nested in if branch (only fires when forced)"
+  (fn
+    ()
+    (hk-deep-force (hk-run "main = if 1 == 1 then error \"taken\" else 0")))
+  "taken")
+
+(hk-test-error
+  "undefined: raises Prelude.undefined"
+  (fn () (hk-deep-force (hk-run "main = undefined")))
+  "Prelude.undefined")
+
+;; The non-strict path: undefined doesn't fire when not forced.
+(hk-test-error
+  "undefined: forced via arithmetic"
+  (fn () (hk-deep-force (hk-run "main = undefined + 1")))
+  "Prelude.undefined")
+
+;; ── partial functions ───────────────────────────────────────
+(hk-test
+  "undefined: lazy, not forced when discarded"
+  (hk-deep-force (hk-run "main = let _ = undefined in 5"))
+  5)
+
+(hk-test-error
+  "head []: raises Prelude.head: empty list"
+  (fn () (hk-deep-force (hk-run "main = head []")))
+  "Prelude.head: empty list")
+
+(hk-test-error
+  "tail []: raises Prelude.tail: empty list"
+  (fn () (hk-deep-force (hk-run "main = tail []")))
+  "Prelude.tail: empty list")
+
+;; head and tail still work on non-empty lists.
+(hk-test-error
+  "fromJust Nothing: raises Maybe.fromJust: Nothing"
+  (fn () (hk-deep-force (hk-run "main = fromJust Nothing")))
+  "Maybe.fromJust: Nothing")
+
+(hk-test
+  "head [42]: still works"
+  (hk-deep-force (hk-run "main = head [42]"))
+  42)
+
+;; ── error in IO context ─────────────────────────────────────
+(hk-test
+  "tail [1,2,3]: still works"
+  (hk-as-list (hk-deep-force (hk-run "main = tail [1,2,3]")))
+  (list 2 3))
+
+(hk-test
+  "hk-run-io: error in main lands in io-lines"
+  (let
+    ((lines (hk-run-io "main = error \"caught here\"")))
+    (>= (index-of (str lines) "caught here") 0))
+  true)
+
+;; ── hk-test-error helper itself ─────────────────────────────
+(hk-test
+  "hk-run-io: putStrLn before error preserves earlier output"
+  (let
+    ((lines (hk-run-io "main = do { putStrLn \"first\"; error \"died\"; putStrLn \"never\" }")))
+    (and
+      (>= (index-of (str lines) "first") 0)
+      (>= (index-of (str lines) "died") 0)))
+  true)
+
+;; hk-as-list helper for converting a forced Haskell cons into an SX list.
+(hk-test-error
+  "hk-test-error: matches partial substring inside wrapped exception"
+  (fn () (hk-deep-force (hk-run "main = error \"unique-marker-xyz\"")))
+  "unique-marker-xyz")
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/eval.sx
+++ b/lib/haskell/tests/eval.sx
@@ -231,16 +231,82 @@
  1)

 ;; ── Laziness: app args evaluate only when forced ──
+(hk-test
+  "error builtin: raises with hk-error prefix"
+  (guard
+    (e (true (>= (index-of e "hk-error: boom") 0)))
+    (begin (hk-deep-force (hk-run "main = error \"boom\"")) false))
+  true)
+
+(hk-test
+  "error builtin: raises with computed message"
+  (guard
+    (e (true (>= (index-of e "hk-error: oops: 42") 0)))
+    (begin
+      (hk-deep-force (hk-run "main = error (\"oops: \" ++ show 42)"))
+      false))
+  true)
+
+(hk-test
+  "undefined: raises hk-error with Prelude.undefined message"
+  (guard
+    (e (true (>= (index-of e "hk-error: Prelude.undefined") 0)))
+    (begin (hk-deep-force (hk-run "main = undefined")) false))
+  true)
+
+(hk-test
+  "undefined: lazy — only fires when forced"
+  (hk-deep-force (hk-run "main = if True then 42 else undefined"))
+  42)
+
+(hk-test
+  "head []: raises Prelude.head: empty list"
+  (guard
+    (e (true (>= (index-of e "Prelude.head: empty list") 0)))
+    (begin (hk-deep-force (hk-run "main = head []")) false))
+  true)
+
+(hk-test
+  "tail []: raises Prelude.tail: empty list"
+  (guard
+    (e (true (>= (index-of e "Prelude.tail: empty list") 0)))
+    (begin (hk-deep-force (hk-run "main = tail []")) false))
+  true)
+
+;; ── not / id built-ins ──
+(hk-test
+  "fromJust Nothing: raises Maybe.fromJust: Nothing"
+  (guard
+    (e (true (>= (index-of e "Maybe.fromJust: Nothing") 0)))
+    (begin (hk-deep-force (hk-run "main = fromJust Nothing")) false))
+  true)
+(hk-test
+  "fromJust (Just 5) = 5"
+  (hk-deep-force (hk-run "main = fromJust (Just 5)"))
+  5)
+(hk-test
+  "head [42] = 42 (still works for non-empty)"
+  (hk-deep-force (hk-run "main = head [42]"))
+  42)
+
+(hk-test-error
+  "hk-test-error helper: catches matching error"
+  (fn () (hk-deep-force (hk-run "main = error \"boom\"")))
+  "hk-error: boom")
+
+(hk-test-error
+  "hk-test-error helper: catches head [] error"
+  (fn () (hk-deep-force (hk-run "main = head []")))
+  "Prelude.head: empty list")
+
 (hk-test
  "second arg never forced"
-  (hk-eval-expr-source
-    "(\\x y -> x) 1 (error \"never\")")
+  (hk-eval-expr-source "(\\x y -> x) 1 (error \"never\")")
  1)

 (hk-test
  "first arg never forced"
-  (hk-eval-expr-source
-    "(\\x y -> y) (error \"never\") 99")
+  (hk-eval-expr-source "(\\x y -> y) (error \"never\") 99")
  99)

 (hk-test
@@ -251,9 +317,7 @@

 (hk-test
  "lazy: const drops its second argument"
-  (hk-prog-val
-    "const x y = x\nresult = const 5 (error \"boom\")"
-    "result")
+  (hk-prog-val "const x y = x\nresult = const 5 (error \"boom\")" "result")
  5)

 (hk-test
@@ -270,9 +334,10 @@
    "result")
  (list "True"))

-;; ── not / id built-ins ──
 (hk-test "not True" (hk-eval-expr-source "not True") (list "False"))
+
 (hk-test "not False" (hk-eval-expr-source "not False") (list "True"))
+
 (hk-test "id" (hk-eval-expr-source "id 42") 42)

 {:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/exceptions.sx
+++ b/lib/haskell/tests/exceptions.sx
@@ -0,0 +1,105 @@
+;; Phase 16 — Exception handling unit tests.
+
+(hk-test
+  "catch — success path returns the action result"
+  (hk-deep-force
+    (hk-run
+      "main = catch (return 42) (\\(SomeException m) -> return 0)"))
+  (list "IO" 42))
+
+(hk-test
+  "catch — error caught, handler receives message"
+  (hk-deep-force
+    (hk-run
+      "main = catch (error \"boom\") (\\(SomeException m) -> return m)"))
+  (list "IO" "boom"))
+
+(hk-test
+  "try — success returns Right v"
+  (hk-deep-force
+    (hk-run "main = try (return 42)"))
+  (list "IO" (list "Right" 42)))
+
+(hk-test
+  "try — error returns Left (SomeException msg)"
+  (hk-deep-force
+    (hk-run "main = try (error \"oops\")"))
+  (list "IO" (list "Left" (list "SomeException" "oops"))))
+
+(hk-test
+  "handle — flip catch — caught error message"
+  (hk-deep-force
+    (hk-run
+      "main = handle (\\(SomeException m) -> return m) (error \"hot\")"))
+  (list "IO" "hot"))
+
+(hk-test
+  "throwIO + catch — handler sees the SomeException"
+  (hk-deep-force
+    (hk-run
+      "main = catch (throwIO (SomeException \"bang\")) (\\(SomeException m) -> return m)"))
+  (list "IO" "bang"))
+
+(hk-test
+  "throwIO + try — Left side"
+  (hk-deep-force
+    (hk-run
+      "main = try (throwIO (SomeException \"x\"))"))
+  (list "IO" (list "Left" (list "SomeException" "x"))))
+
+(hk-test
+  "evaluate — pure value returns IO v"
+  (hk-deep-force
+    (hk-run "main = evaluate (1 + 2 + 3)"))
+  (list "IO" 6))
+
+(hk-test
+  "evaluate — error surfaces as catchable exception"
+  (hk-deep-force
+    (hk-run
+      "main = catch (evaluate (error \"deep\")) (\\(SomeException m) -> return m)"))
+  (list "IO" "deep"))
+
+(hk-test
+  "nested catch — inner handler runs first"
+  (hk-deep-force
+    (hk-run
+      "main = catch (catch (error \"inner\") (\\(SomeException m) -> error (m ++ \"-rethrown\"))) (\\(SomeException m) -> return m)"))
+  (list "IO" "inner-rethrown"))
+
+(hk-test
+  "catch chain — handler can succeed inside IO"
+  (hk-deep-force
+    (hk-run
+      "main = do { x <- catch (error \"e1\") (\\(SomeException m) -> return 100); return (x + 1) }"))
+  (list "IO" 101))
+
+(hk-test
+  "try then bind on Right"
+  (hk-deep-force
+    (hk-run
+      "branch (Right v) = return (v * 2)
+branch (Left _) = return 0
+main = do { r <- try (return 21); branch r }"))
+  (list "IO" 42))
+
+(hk-test
+  "try then bind on Left"
+  (hk-deep-force
+    (hk-run
+      "branch (Right _) = return \"ok\"
+branch (Left (SomeException m)) = return m
+main = do { r <- try (error \"failed\"); branch r }"))
+  (list "IO" "failed"))
+
+(hk-test
+  "catch — handler can use closed-over IORef"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef
+main = do
+  r <- IORef.newIORef 0
+  catch (error \"x\") (\\(SomeException m) -> IORef.writeIORef r 7)
+  v <- IORef.readIORef r
+  return v"))
+  (list "IO" 7))
--- a/lib/haskell/tests/instance-where.sx
+++ b/lib/haskell/tests/instance-where.sx
@@ -0,0 +1,31 @@
+;; instance-where.sx — Phase 13: where-clauses inside instance bodies.
+
+(hk-test
+  "instance method body with where-helper (Bool)"
+  (hk-deep-force
+    (hk-run
+      "class Greet a where\n  greet :: a -> String\ninstance Greet Bool where\n  greet x = mkMsg x\n    where mkMsg True = \"yes\"\n          mkMsg False = \"no\"\nmain = greet True"))
+  "yes")
+
+(hk-test
+  "instance method body with where-helper (False branch)"
+  (hk-deep-force
+    (hk-run
+      "class Greet a where\n  greet :: a -> String\ninstance Greet Bool where\n  greet x = mkMsg x\n    where mkMsg True = \"yes\"\n          mkMsg False = \"no\"\nmain = greet False"))
+  "no")
+
+(hk-test
+  "instance method body with where-binding referenced multiple times"
+  (hk-deep-force
+    (hk-run
+      "class Twice a where\n  twice :: a -> Int\ninstance Twice Int where\n  twice x = h + h\n    where h = x + 1\nmain = twice 5"))
+  12)
+
+(hk-test
+  "instance method body with multi-binding where"
+  (hk-deep-force
+    (hk-run
+      "class Calc a where\n  calc :: a -> Int\ninstance Calc Int where\n  calc x = a + b\n    where a = x * 2\n          b = x + 1\nmain = calc 3"))
+  10)
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/io-input.sx
+++ b/lib/haskell/tests/io-input.sx
@@ -64,12 +64,11 @@

 (hk-test
  "readFile error on missing file"
-  (guard
-    (e (true (>= (index-of e "file not found") 0)))
-    (begin
-      (set! hk-vfs (dict))
-      (hk-run-io "main = readFile \"no.txt\" >>= putStrLn")
-      false))
+  (begin
+    (set! hk-vfs (dict))
+    (let
+      ((lines (hk-run-io "main = readFile \"no.txt\" >>= putStrLn")))
+      (>= (index-of (str lines) "file not found") 0)))
  true)

 (hk-test
--- a/lib/haskell/tests/ioref.sx
+++ b/lib/haskell/tests/ioref.sx
@@ -0,0 +1,94 @@
+;; Phase 15 — IORef unit tests.
+
+(hk-test
+  "newIORef + readIORef returns initial value"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef\nmain = do { r <- IORef.newIORef 42; v <- IORef.readIORef r; return v }"))
+  (list "IO" 42))
+
+(hk-test
+  "writeIORef updates the cell"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef\nmain = do { r <- IORef.newIORef 0; IORef.writeIORef r 99; v <- IORef.readIORef r; return v }"))
+  (list "IO" 99))
+
+(hk-test
+  "writeIORef returns IO ()"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef\nmain = do { r <- IORef.newIORef 0; IORef.writeIORef r 1 }"))
+  (list "IO" (list "Tuple")))
+
+(hk-test
+  "modifyIORef applies a function"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef\nmain = do { r <- IORef.newIORef 5; IORef.modifyIORef r (\\x -> x * 2); v <- IORef.readIORef r; return v }"))
+  (list "IO" 10))
+
+(hk-test
+  "modifyIORef' (strict) applies a function"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef\nmain = do { r <- IORef.newIORef 7; IORef.modifyIORef' r (\\x -> x + 3); v <- IORef.readIORef r; return v }"))
+  (list "IO" 10))
+
+(hk-test
+  "two reads return the same value"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef\nmain = do { r <- IORef.newIORef 11; a <- IORef.readIORef r; b <- IORef.readIORef r; return (a + b) }"))
+  (list "IO" 22))
+
+(hk-test
+  "shared ref across do-steps: write then read"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef\nmain = do { r <- IORef.newIORef 1; IORef.writeIORef r 2; IORef.writeIORef r 3; v <- IORef.readIORef r; return v }"))
+  (list "IO" 3))
+
+(hk-test
+  "two refs are independent"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef\nmain = do { r1 <- IORef.newIORef 1; r2 <- IORef.newIORef 2; IORef.writeIORef r1 10; a <- IORef.readIORef r1; b <- IORef.readIORef r2; return (a + b) }"))
+  (list "IO" 12))
+
+(hk-test
+  "string-valued IORef"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef\nmain = do { r <- IORef.newIORef \"hi\"; IORef.writeIORef r \"bye\"; v <- IORef.readIORef r; return v }"))
+  (list "IO" "bye"))
+
+(hk-test
+  "list-valued IORef + cons"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef\nmain = do { r <- IORef.newIORef [1,2,3]; IORef.modifyIORef r (\\xs -> 0 : xs); v <- IORef.readIORef r; return v }"))
+  (list
+    "IO"
+    (list ":" 0 (list ":" 1 (list ":" 2 (list ":" 3 (list "[]")))))))
+
+(hk-test
+  "counter loop: increment N times"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef\nloop r 0 = return ()\nloop r n = do { IORef.modifyIORef r (\\x -> x + 1); loop r (n - 1) }\nmain = do { r <- IORef.newIORef 0; loop r 10; v <- IORef.readIORef r; return v }"))
+  (list "IO" 10))
+
+(hk-test
+  "modifyIORef' inside a loop"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef\ngo r 0 = return ()\ngo r n = do { IORef.modifyIORef' r (\\x -> x + n); go r (n - 1) }\nmain = do { r <- IORef.newIORef 0; go r 5; v <- IORef.readIORef r; return v }"))
+  (list "IO" 15))
+
+(hk-test
+  "newIORef inside a function passed via parameter"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.IORef as IORef\nbump r = IORef.modifyIORef r (\\x -> x + 100)\nmain = do { r <- IORef.newIORef 1; bump r; v <- IORef.readIORef r; return v }"))
+  (list "IO" 101))
--- a/lib/haskell/tests/map.sx
+++ b/lib/haskell/tests/map.sx
@@ -0,0 +1,196 @@
+;; map.sx — Phase 11 Data.Map unit tests.
+;;
+;; Tests both the SX-level `hk-map-*` helpers and the Haskell-level
+;; `Map.*` aliases bound by the import handler.
+
+(define
+  hk-as-list
+  (fn
+    (xs)
+    (cond
+      ((and (list? xs) (= (first xs) "[]")) (list))
+      ((and (list? xs) (= (first xs) ":"))
+        (cons (nth xs 1) (hk-as-list (nth xs 2))))
+      (:else xs))))
+
+;; ── SX-level (direct hk-map-*) ───────────────────────────────
+(hk-test
+  "hk-map-empty: size 0, null true"
+  (list (hk-map-size hk-map-empty) (hk-map-null hk-map-empty))
+  (list 0 true))
+
+(hk-test
+  "hk-map-singleton: lookup hit"
+  (let
+    ((m (hk-map-singleton 5 "five")))
+    (list (hk-map-size m) (hk-map-lookup 5 m)))
+  (list 1 (list "Just" "five")))
+
+(hk-test
+  "hk-map-insert: lookup hit on inserted"
+  (let ((m (hk-map-insert 1 "a" hk-map-empty))) (hk-map-lookup 1 m))
+  (list "Just" "a"))
+
+(hk-test
+  "hk-map-lookup: miss returns Nothing"
+  (hk-map-lookup 99 (hk-map-singleton 1 "a"))
+  (list "Nothing"))
+
+(hk-test
+  "hk-map-insert: overwrites existing key"
+  (let
+    ((m (hk-map-insert 1 "second" (hk-map-insert 1 "first" hk-map-empty))))
+    (hk-map-lookup 1 m))
+  (list "Just" "second"))
+
+(hk-test
+  "hk-map-delete: removes key"
+  (let
+    ((m (hk-map-insert 2 "b" (hk-map-insert 1 "a" hk-map-empty))))
+    (let
+      ((m2 (hk-map-delete 1 m)))
+      (list (hk-map-size m2) (hk-map-lookup 1 m2) (hk-map-lookup 2 m2))))
+  (list 1 (list "Nothing") (list "Just" "b")))
+
+(hk-test
+  "hk-map-delete: missing key is no-op"
+  (let ((m (hk-map-singleton 1 "a"))) (hk-map-size (hk-map-delete 99 m)))
+  1)
+
+(hk-test
+  "hk-map-member: true on existing"
+  (hk-map-member 1 (hk-map-singleton 1 "a"))
+  true)
+
+(hk-test
+  "hk-map-member: false on missing"
+  (hk-map-member 99 (hk-map-singleton 1 "a"))
+  false)
+
+(hk-test
+  "hk-map-from-list: builds map; keys sorted"
+  (hk-map-keys
+    (hk-map-from-list
+      (list (list 3 "c") (list 1 "a") (list 5 "e") (list 2 "b"))))
+  (list 1 2 3 5))
+
+(hk-test
+  "hk-map-from-list: duplicates — last wins"
+  (hk-map-lookup
+    1
+    (hk-map-from-list (list (list 1 "first") (list 1 "second"))))
+  (list "Just" "second"))
+
+(hk-test
+  "hk-map-to-asc-list: ordered traversal"
+  (hk-map-to-asc-list
+    (hk-map-from-list (list (list 3 "c") (list 1 "a") (list 2 "b"))))
+  (list (list 1 "a") (list 2 "b") (list 3 "c")))
+
+(hk-test
+  "hk-map-elems: in key order"
+  (hk-map-elems
+    (hk-map-from-list (list (list 3 30) (list 1 10) (list 2 20))))
+  (list 10 20 30))
+
+(hk-test
+  "hk-map-union-with: combines duplicates"
+  (hk-map-to-asc-list
+    (hk-map-union-with
+      (fn (a b) (str a "+" b))
+      (hk-map-from-list (list (list 1 "a") (list 2 "b")))
+      (hk-map-from-list (list (list 2 "B") (list 3 "c")))))
+  (list (list 1 "a") (list 2 "b+B") (list 3 "c")))
+
+(hk-test
+  "hk-map-intersection-with: keeps shared keys"
+  (hk-map-to-asc-list
+    (hk-map-intersection-with
+      +
+      (hk-map-from-list (list (list 1 10) (list 2 20)))
+      (hk-map-from-list (list (list 2 200) (list 3 30)))))
+  (list (list 2 220)))
+
+(hk-test
+  "hk-map-difference: drops m2 keys"
+  (hk-map-keys
+    (hk-map-difference
+      (hk-map-from-list (list (list 1 "a") (list 2 "b") (list 3 "c")))
+      (hk-map-from-list (list (list 2 "x")))))
+  (list 1 3))
+
+(hk-test
+  "hk-map-foldl-with-key: in-order accumulate"
+  (hk-map-foldl-with-key
+    (fn (acc k v) (str acc k v))
+    ""
+    (hk-map-from-list (list (list 3 "c") (list 1 "a") (list 2 "b"))))
+  "1a2b3c")
+
+(hk-test
+  "hk-map-map-with-key: transforms values"
+  (hk-map-to-asc-list
+    (hk-map-map-with-key
+      (fn (k v) (* k v))
+      (hk-map-from-list (list (list 2 10) (list 3 100)))))
+  (list (list 2 20) (list 3 300)))
+
+(hk-test
+  "hk-map-filter-with-key: keeps matches"
+  (hk-map-keys
+    (hk-map-filter-with-key
+      (fn (k v) (> k 1))
+      (hk-map-from-list (list (list 1 "a") (list 2 "b") (list 3 "c")))))
+  (list 2 3))
+
+(hk-test
+  "hk-map-adjust: applies f to existing"
+  (hk-map-lookup
+    1
+    (hk-map-adjust (fn (v) (* v 10)) 1 (hk-map-singleton 1 5)))
+  (list "Just" 50))
+
+(hk-test
+  "hk-map-insert-with: combines on existing"
+  (hk-map-lookup 1 (hk-map-insert-with + 1 5 (hk-map-singleton 1 10)))
+  (list "Just" 15))
+
+(hk-test
+  "hk-map-alter: Nothing → delete"
+  (hk-map-size
+    (hk-map-alter
+      (fn (mv) (list "Nothing"))
+      1
+      (hk-map-from-list (list (list 1 "a") (list 2 "b")))))
+  1)
+
+;; ── Haskell-level (Map.*) via import wiring ─────────────────
+(hk-test
+  "Map.size after Map.insert chain"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.Map as Map\nmain = Map.size (Map.insert 2 \"b\" (Map.insert 1 \"a\" Map.empty))"))
+  2)
+
+(hk-test
+  "Map.lookup hit"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.Map as Map\nmain = Map.lookup 1 (Map.insert 1 \"a\" Map.empty)"))
+  (list "Just" "a"))
+
+(hk-test
+  "Map.lookup miss"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.Map as Map\nmain = Map.lookup 99 (Map.insert 1 \"a\" Map.empty)"))
+  (list "Nothing"))
+
+(hk-test
+  "Map.member true"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.Map as Map\nmain = Map.member 5 (Map.insert 5 \"x\" Map.empty)"))
+  (list "True"))
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/numerics.sx
+++ b/lib/haskell/tests/numerics.sx
@@ -0,0 +1,180 @@
+;; numerics.sx — Phase 10 numeric tower verification.
+;;
+;; Practical integer-precision limit in Haskell-on-SX:
+;;   • Raw SX `(* a b)` stays exact up to ±2^62 (≈ 4.6e18, OCaml int63).
+;;   • BUT the Haskell tokenizer/parser parses an integer literal as a float
+;;     once it exceeds 2^53 (≈ 9.007e15). Once any operand is a float, the
+;;     binop result is a float (and decimal-precision is lost past 2^53).
+;;   • Therefore: programs that stay below ~9e15 are exact; larger literals
+;;     or accumulated products silently become floats. `factorial 18` is the
+;;     last factorial that stays exact (6.4e15); `factorial 19` already floats.
+;;
+;; In Haskell terms, `Int` and `Integer` both currently map to SX number, so
+;; we don't yet support arbitrary-precision Integer. Documented; unbounded
+;; Integer is out of scope for Phase 10 — see Phase 11+ if it becomes needed.
+
+(define
+  hk-as-list
+  (fn
+    (xs)
+    (cond
+      ((and (list? xs) (= (first xs) "[]")) (list))
+      ((and (list? xs) (= (first xs) ":"))
+        (cons (nth xs 1) (hk-as-list (nth xs 2))))
+      (:else xs))))
+
+(hk-test
+  "factorial 10 = 3628800 (small, exact)"
+  (hk-deep-force
+    (hk-run "fact 0 = 1\nfact n = n * fact (n - 1)\nmain = fact 10"))
+  3628800)
+
+(hk-test
+  "factorial 15 = 1307674368000 (mid-range, exact)"
+  (hk-deep-force
+    (hk-run "fact 0 = 1\nfact n = n * fact (n - 1)\nmain = fact 15"))
+  1307674368000)
+
+(hk-test
+  "factorial 18 = 6402373705728000 (last exact factorial)"
+  (hk-deep-force
+    (hk-run "fact 0 = 1\nfact n = n * fact (n - 1)\nmain = fact 18"))
+  6402373705728000)
+
+(hk-test
+  "1000000 * 1000000 = 10^12 (exact)"
+  (hk-deep-force (hk-run "main = 1000000 * 1000000"))
+  1000000000000)
+
+(hk-test
+  "1000000000 * 1000000000 = 10^18 (exact, at boundary)"
+  (hk-deep-force (hk-run "main = 1000000000 * 1000000000"))
+  1e+18)
+
+(hk-test
+  "2^62 boundary: pow accumulates exactly"
+  (hk-deep-force
+    (hk-run "pow b 0 = 1\npow b n = b * pow b (n - 1)\nmain = pow 2 62"))
+  4.6116860184273879e+18)
+
+(hk-test
+  "show factorial 12 = 479001600 (whole, fits in 32-bit)"
+  (hk-deep-force
+    (hk-run "fact 0 = 1\nfact n = n * fact (n - 1)\nmain = show (fact 12)"))
+  "479001600")
+
+(hk-test
+  "negate large positive — preserves magnitude"
+  (hk-deep-force (hk-run "main = negate 1000000000000000000"))
+  -1e+18)
+
+(hk-test
+  "abs negative large — preserves magnitude"
+  (hk-deep-force (hk-run "main = abs (negate 1000000000000000000)"))
+  1e+18)
+
+(hk-test
+  "div on large ints"
+  (hk-deep-force (hk-run "main = div 1000000000000000000 1000000000"))
+  1000000000)
+
+(hk-test
+  "fromIntegral 42 = 42 (identity in our runtime)"
+  (hk-deep-force (hk-run "main = fromIntegral 42"))
+  42)
+
+(hk-test
+  "fromIntegral preserves negative"
+  (hk-deep-force (hk-run "main = fromIntegral (negate 7)"))
+  -7)
+
+(hk-test
+  "fromIntegral round-trips through arithmetic"
+  (hk-deep-force (hk-run "main = fromIntegral 5 + fromIntegral 3"))
+  8)
+
+(hk-test
+  "fromIntegral in a program (mixing with map)"
+  (hk-as-list (hk-deep-force (hk-run "main = map fromIntegral [1,2,3]")))
+  (list 1 2 3))
+
+(hk-test
+  "toInteger 100 = 100 (identity)"
+  (hk-deep-force (hk-run "main = toInteger 100"))
+  100)
+
+(hk-test
+  "fromInteger 7 = 7 (identity)"
+  (hk-deep-force (hk-run "main = fromInteger 7"))
+  7)
+
+(hk-test
+  "toInteger / fromInteger round-trip"
+  (hk-deep-force (hk-run "main = fromInteger (toInteger 42)"))
+  42)
+
+(hk-test
+  "toInteger preserves negative"
+  (hk-deep-force (hk-run "main = toInteger (negate 13)"))
+  -13)
+
+(hk-test
+  "show 3.14 = 3.14"
+  (hk-deep-force (hk-run "main = show 3.14"))
+  "3.14")
+
+(hk-test
+  "show 1.0e10 — whole-valued float renders as decimal (int/float ambiguity)"
+  (hk-deep-force (hk-run "main = show 1.0e10"))
+  "10000000000")
+
+(hk-test
+  "show 0.001 uses scientific form (sub-0.1)"
+  (hk-deep-force (hk-run "main = show 0.001"))
+  "1.0e-3")
+
+(hk-test
+  "show negative float"
+  (hk-deep-force (hk-run "main = show (negate 3.14)"))
+  "-3.14")
+
+(hk-test "sqrt 16 = 4" (hk-deep-force (hk-run "main = sqrt 16")) 4)
+
+(hk-test "floor 3.7 = 3" (hk-deep-force (hk-run "main = floor 3.7")) 3)
+
+(hk-test "ceiling 3.2 = 4" (hk-deep-force (hk-run "main = ceiling 3.2")) 4)
+
+(hk-test
+  "ceiling on whole = self"
+  (hk-deep-force (hk-run "main = ceiling 4"))
+  4)
+
+(hk-test "round 2.6 = 3" (hk-deep-force (hk-run "main = round 2.6")) 3)
+
+(hk-test
+  "truncate -3.7 = -3"
+  (hk-deep-force (hk-run "main = truncate (negate 3.7)"))
+  -3)
+
+(hk-test "recip 4.0 = 0.25" (hk-deep-force (hk-run "main = recip 4.0")) 0.25)
+
+(hk-test "1.0 / 4.0 = 0.25" (hk-deep-force (hk-run "main = 1.0 / 4.0")) 0.25)
+
+(hk-test
+  "fromRational 0.5 = 0.5 (identity)"
+  (hk-deep-force (hk-run "main = fromRational 0.5"))
+  0.5)
+
+(hk-test "pi ≈ 3.14159" (hk-deep-force (hk-run "main = pi")) 3.14159)
+
+(hk-test "exp 0 = 1" (hk-deep-force (hk-run "main = exp 0")) 1)
+
+(hk-test "sin 0 = 0" (hk-deep-force (hk-run "main = sin 0")) 0)
+
+(hk-test "cos 0 = 1" (hk-deep-force (hk-run "main = cos 0")) 1)
+
+(hk-test "2 ** 10 = 1024" (hk-deep-force (hk-run "main = 2 ** 10")) 1024)
+
+(hk-test "log (exp 5) ≈ 5" (hk-deep-force (hk-run "main = log (exp 5)")) 5)
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-accumulate.sx
+++ b/lib/haskell/tests/program-accumulate.sx
@@ -0,0 +1,81 @@
+;; accumulate.hs — accumulate results into an IORef [Int] (Phase 15 conformance).
+
+(define
+  hk-accumulate-source
+  "import qualified Data.IORef as IORef\n\npush :: IORef [Int] -> Int -> IO ()\npush r x = IORef.modifyIORef r (\\xs -> x : xs)\n\npushAll :: IORef [Int] -> [Int] -> IO ()\npushAll r [] = return ()\npushAll r (x:xs) = do\n  push r x\n  pushAll r xs\n\nreadReversed :: IORef [Int] -> IO [Int]\nreadReversed r = do\n  xs <- IORef.readIORef r\n  return (reverse xs)\n\ndoubleEach :: IORef [Int] -> [Int] -> IO ()\ndoubleEach r [] = return ()\ndoubleEach r (x:xs) = do\n  push r (x * 2)\n  doubleEach r xs\n\nsumIntoRef :: IORef Int -> [Int] -> IO ()\nsumIntoRef r [] = return ()\nsumIntoRef r (x:xs) = do\n  IORef.modifyIORef r (\\acc -> acc + x)\n  sumIntoRef r xs\n\n")
+
+(hk-test
+  "accumulate.hs — push three then read length"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-accumulate-source
+        "main = do { r <- IORef.newIORef []; push r 1; push r 2; push r 3; xs <- IORef.readIORef r; return (length xs) }")))
+  (list "IO" 3))
+
+(hk-test
+  "accumulate.hs — pushAll preserves reverse order"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-accumulate-source
+        "main = do { r <- IORef.newIORef []; pushAll r [1,2,3,4]; xs <- IORef.readIORef r; return xs }")))
+  (list
+    "IO"
+    (list ":" 4 (list ":" 3 (list ":" 2 (list ":" 1 (list "[]")))))))
+
+(hk-test
+  "accumulate.hs — readReversed gives original order"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-accumulate-source
+        "main = do { r <- IORef.newIORef []; pushAll r [10,20,30]; readReversed r }")))
+  (list "IO" (list ":" 10 (list ":" 20 (list ":" 30 (list "[]"))))))
+
+(hk-test
+  "accumulate.hs — doubleEach maps then accumulates"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-accumulate-source
+        "main = do { r <- IORef.newIORef []; doubleEach r [1,2,3]; readReversed r }")))
+  (list "IO" (list ":" 2 (list ":" 4 (list ":" 6 (list "[]"))))))
+
+(hk-test
+  "accumulate.hs — sum into Int IORef"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-accumulate-source
+        "main = do { r <- IORef.newIORef 0; sumIntoRef r [1,2,3,4,5]; v <- IORef.readIORef r; return v }")))
+  (list "IO" 15))
+
+(hk-test
+  "accumulate.hs — empty list leaves ref untouched"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-accumulate-source
+        "main = do { r <- IORef.newIORef [99]; pushAll r []; xs <- IORef.readIORef r; return xs }")))
+  (list "IO" (list ":" 99 (list "[]"))))
+
+(hk-test
+  "accumulate.hs — pushAll then sumIntoRef on the same input"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-accumulate-source
+        "main = do { r <- IORef.newIORef 0; sumIntoRef r [10,20,30,40]; v <- IORef.readIORef r; return v }")))
+  (list "IO" 100))
+
+(hk-test
+  "accumulate.hs — accumulate results from a recursive helper"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-accumulate-source
+        "squaresUpTo r 0 = return ()\nsquaresUpTo r n = do { push r (n * n); squaresUpTo r (n - 1) }\nmain = do { r <- IORef.newIORef []; squaresUpTo r 4; readReversed r }")))
+  (list
+    "IO"
+    (list ":" 16 (list ":" 9 (list ":" 4 (list ":" 1 (list "[]")))))))
--- a/lib/haskell/tests/program-caesar.sx
+++ b/lib/haskell/tests/program-caesar.sx
@@ -0,0 +1,80 @@
+;; caesar.hs — Caesar cipher.
+;; Source: https://rosettacode.org/wiki/Caesar_cipher#Haskell (adapted).
+;;
+;; Exercises chr, ord, isUpper, isLower, mod, string pattern matching
+;; (x:xs) over a String (which is now a [Char] string view), and map
+;; from the Phase 7 string=[Char] foundation.
+
+(define
+  hk-prog-val
+  (fn
+    (src name)
+    (hk-deep-force (get (hk-eval-program (hk-core src)) name))))
+
+(define
+  hk-as-list
+  (fn
+    (xs)
+    (cond
+      ((and (list? xs) (= (first xs) "[]")) (list))
+      ((and (list? xs) (= (first xs) ":"))
+        (cons (nth xs 1) (hk-as-list (nth xs 2))))
+      (:else xs))))
+
+(define
+  hk-caesar-source
+  "shift n c = if isUpper c\n              then chr (mod ((ord c) - 65 + n) 26 + 65)\n              else if isLower c\n                     then chr (mod ((ord c) - 97 + n) 26 + 97)\n                     else chr c\n\ncaesarRec n []     = []\ncaesarRec n (x:xs) = shift n x : caesarRec n xs\n\ncaesarMap n s = map (shift n) s\n")
+
+(hk-test
+  "caesar.hs — caesarRec 3 \"ABC\" = DEF"
+  (hk-as-list
+    (hk-prog-val (str hk-caesar-source "r = caesarRec 3 \"ABC\"\n") "r"))
+  (list "D" "E" "F"))
+
+(hk-test
+  "caesar.hs — caesarRec 13 \"Hello\" = Uryyb"
+  (hk-as-list
+    (hk-prog-val (str hk-caesar-source "r = caesarRec 13 \"Hello\"\n") "r"))
+  (list "U" "r" "y" "y" "b"))
+
+(hk-test
+  "caesar.hs — caesarRec 1 \"AZ\" wraps to BA"
+  (hk-as-list
+    (hk-prog-val (str hk-caesar-source "r = caesarRec 1 \"AZ\"\n") "r"))
+  (list "B" "A"))
+
+(hk-test
+  "caesar.hs — caesarRec 0 \"World\" identity"
+  (hk-as-list
+    (hk-prog-val (str hk-caesar-source "r = caesarRec 0 \"World\"\n") "r"))
+  (list "W" "o" "r" "l" "d"))
+
+(hk-test
+  "caesar.hs — caesarRec preserves punctuation"
+  (hk-as-list
+    (hk-prog-val (str hk-caesar-source "r = caesarRec 3 \"Hi!\"\n") "r"))
+  (list "K" "l" "!"))
+
+(hk-test
+  "caesar.hs — caesarMap 3 \"abc\" via map"
+  (hk-as-list
+    (hk-prog-val (str hk-caesar-source "r = caesarMap 3 \"abc\"\n") "r"))
+  (list "d" "e" "f"))
+
+(hk-test
+  "caesar.hs — caesarMap 13 round-trips with caesarMap 13"
+  (hk-as-list
+    (hk-prog-val
+      (str
+        hk-caesar-source
+        "r = caesarMap 13 (foldr (\\c acc -> c : acc) [] (caesarMap 13 \"Hello\"))\n")
+      "r"))
+  (list "H" "e" "l" "l" "o"))
+
+(hk-test
+  "caesar.hs — caesarRec 25 \"AB\" = ZA"
+  (hk-as-list
+    (hk-prog-val (str hk-caesar-source "r = caesarRec 25 \"AB\"\n") "r"))
+  (list "Z" "A"))
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-config.sx
+++ b/lib/haskell/tests/program-config.sx
@@ -0,0 +1,63 @@
+;; config.hs — multi-field config record; partial update; defaultConfig
+;;            constant.
+;;
+;; Exercises Phase 14: 4-field record, defaultConfig as a CAF, partial
+;; updates that change one or two fields, accessors over derived configs.
+
+(define
+  hk-config-source
+  "data Config = Config { host :: String, port :: Int, retries :: Int, debug :: Bool } deriving (Show)\n\ndefaultConfig = Config { host = \"localhost\", port = 8080, retries = 3, debug = False }\n\ndevConfig = defaultConfig { debug = True }\nremoteConfig = defaultConfig { host = \"api.example.com\", port = 443 }\n")
+
+(hk-test
+  "config.hs — defaultConfig host"
+  (hk-deep-force (hk-run (str hk-config-source "main = host defaultConfig")))
+  "localhost")
+
+(hk-test
+  "config.hs — defaultConfig port"
+  (hk-deep-force (hk-run (str hk-config-source "main = port defaultConfig")))
+  8080)
+
+(hk-test
+  "config.hs — defaultConfig retries"
+  (hk-deep-force
+    (hk-run (str hk-config-source "main = retries defaultConfig")))
+  3)
+
+(hk-test
+  "config.hs — devConfig flips debug"
+  (hk-deep-force (hk-run (str hk-config-source "main = debug devConfig")))
+  (list "True"))
+
+(hk-test
+  "config.hs — devConfig preserves host"
+  (hk-deep-force (hk-run (str hk-config-source "main = host devConfig")))
+  "localhost")
+
+(hk-test
+  "config.hs — devConfig preserves port"
+  (hk-deep-force (hk-run (str hk-config-source "main = port devConfig")))
+  8080)
+
+(hk-test
+  "config.hs — remoteConfig new host"
+  (hk-deep-force (hk-run (str hk-config-source "main = host remoteConfig")))
+  "api.example.com")
+
+(hk-test
+  "config.hs — remoteConfig new port"
+  (hk-deep-force (hk-run (str hk-config-source "main = port remoteConfig")))
+  443)
+
+(hk-test
+  "config.hs — remoteConfig preserves retries"
+  (hk-deep-force
+    (hk-run (str hk-config-source "main = retries remoteConfig")))
+  3)
+
+(hk-test
+  "config.hs — remoteConfig preserves debug"
+  (hk-deep-force (hk-run (str hk-config-source "main = debug remoteConfig")))
+  (list "False"))
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-counter.sx
+++ b/lib/haskell/tests/program-counter.sx
@@ -0,0 +1,66 @@
+;; counter.hs — IORef-backed mutable counter (Phase 15 conformance).
+
+(define
+  hk-counter-source
+  "import qualified Data.IORef as IORef\n\ncount :: IORef Int -> Int -> IO ()\ncount r 0 = return ()\ncount r n = do\n  IORef.modifyIORef r (\\x -> x + 1)\n  count r (n - 1)\n\ncountBy :: IORef Int -> Int -> Int -> IO ()\ncountBy r step 0 = return ()\ncountBy r step n = do\n  IORef.modifyIORef r (\\x -> x + step)\n  countBy r step (n - 1)\n\nnewCounter :: Int -> IO (IORef Int)\nnewCounter v = IORef.newIORef v\n\nbumpAndRead :: IORef Int -> IO Int\nbumpAndRead r = do\n  IORef.modifyIORef r (\\x -> x + 1)\n  IORef.readIORef r\n\n")
+
+(hk-test
+  "counter.hs — start at 0, count 5 ⇒ 5"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-counter-source
+        "main = do { r <- newCounter 0; count r 5; v <- IORef.readIORef r; return v }")))
+  (list "IO" 5))
+
+(hk-test
+  "counter.hs — start at 100, count 10 ⇒ 110"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-counter-source
+        "main = do { r <- newCounter 100; count r 10; v <- IORef.readIORef r; return v }")))
+  (list "IO" 110))
+
+(hk-test
+  "counter.hs — countBy step 5, n 4 ⇒ 20"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-counter-source
+        "main = do { r <- newCounter 0; countBy r 5 4; v <- IORef.readIORef r; return v }")))
+  (list "IO" 20))
+
+(hk-test
+  "counter.hs — bumpAndRead returns updated value"
+  (hk-deep-force
+    (hk-run
+      (str hk-counter-source "main = do { r <- newCounter 41; bumpAndRead r }")))
+  (list "IO" 42))
+
+(hk-test
+  "counter.hs — count then countBy compose"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-counter-source
+        "main = do { r <- newCounter 0; count r 3; countBy r 10 2; v <- IORef.readIORef r; return v }")))
+  (list "IO" 23))
+
+(hk-test
+  "counter.hs — two independent counters"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-counter-source
+        "main = do { a <- newCounter 0; b <- newCounter 0; count a 7; countBy b 100 2; va <- IORef.readIORef a; vb <- IORef.readIORef b; return (va + vb) }")))
+  (list "IO" 207))
+
+(hk-test
+  "counter.hs — modifyIORef' (strict) variant"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-counter-source
+        "tick r 0 = return ()\ntick r n = do { IORef.modifyIORef' r (\\x -> x + 1); tick r (n - 1) }\nmain = do { r <- newCounter 0; tick r 50; v <- IORef.readIORef r; return v }")))
+  (list "IO" 50))
--- a/lib/haskell/tests/program-mapgraph.sx
+++ b/lib/haskell/tests/program-mapgraph.sx
@@ -0,0 +1,46 @@
+;; mapgraph.hs — adjacency-list using Data.Map (BFS-style traversal).
+;;
+;; Exercises Phase 11: `import qualified Data.Map as Map`, `Map.empty`,
+;; `Map.insert`, `Map.lookup`, `Map.findWithDefault`. Adjacency lists are
+;; stored as `Map Int [Int]`; `neighbors` does a default-empty lookup.
+
+(define
+  hk-mapgraph-source
+  "import qualified Data.Map as Map\n\nemptyG = Map.empty\n\naddEdge u v g = Map.insertWith add u [v] g\n  where add new old = new ++ old\n\nbuild = addEdge 1 2 (addEdge 1 3 (addEdge 2 4 (addEdge 3 4 (addEdge 4 5 emptyG))))\n\nneighbors n g = Map.findWithDefault [] n g\n")
+
+(hk-test
+  "mapgraph.hs — neighbors of 1"
+  (hk-deep-force
+    (hk-run (str hk-mapgraph-source "main = neighbors 1 build\n")))
+  (list ":" 2 (list ":" 3 (list "[]"))))
+
+(hk-test
+  "mapgraph.hs — neighbors of 4"
+  (hk-deep-force
+    (hk-run (str hk-mapgraph-source "main = neighbors 4 build\n")))
+  (list ":" 5 (list "[]")))
+
+(hk-test
+  "mapgraph.hs — neighbors of 5 (leaf, no entry) defaults to []"
+  (hk-deep-force
+    (hk-run (str hk-mapgraph-source "main = neighbors 5 build\n")))
+  (list "[]"))
+
+(hk-test
+  "mapgraph.hs — neighbors of 99 (absent) defaults to []"
+  (hk-deep-force
+    (hk-run (str hk-mapgraph-source "main = neighbors 99 build\n")))
+  (list "[]"))
+
+(hk-test
+  "mapgraph.hs — Map.member 1"
+  (hk-deep-force
+    (hk-run (str hk-mapgraph-source "main = Map.member 1 build\n")))
+  (list "True"))
+
+(hk-test
+  "mapgraph.hs — Map.size = 4 source nodes"
+  (hk-deep-force (hk-run (str hk-mapgraph-source "main = Map.size build\n")))
+  4)
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-newton.sx
+++ b/lib/haskell/tests/program-newton.sx
@@ -0,0 +1,49 @@
+;; newton.hs — Newton's method for square root.
+;; Source: classic numerical analysis exercise.
+;;
+;; Exercises Phase 10: `Float`, `abs`, `/`, iteration via `until`.
+
+(define
+  hk-prog-val
+  (fn
+    (src name)
+    (hk-deep-force (get (hk-eval-program (hk-core src)) name))))
+
+(define
+  hk-newton-source
+  "improve x guess = (guess + x / guess) / 2\n\ngoodEnough x guess = abs (guess * guess - x) < 0.0001\n\nnewtonSqrt x = newtonHelp x 1.0\n\nnewtonHelp x guess = if goodEnough x guess\n                       then guess\n                       else newtonHelp x (improve x guess)\n")
+
+(hk-test
+  "newton.hs — newtonSqrt 4 ≈ 2"
+  (hk-prog-val
+    (str hk-newton-source "r = abs (newtonSqrt 4.0 - 2.0) < 0.001\n")
+    "r")
+  (list "True"))
+
+(hk-test
+  "newton.hs — newtonSqrt 9 ≈ 3"
+  (hk-prog-val
+    (str hk-newton-source "r = abs (newtonSqrt 9.0 - 3.0) < 0.001\n")
+    "r")
+  (list "True"))
+
+(hk-test
+  "newton.hs — newtonSqrt 2 ≈ 1.41421"
+  (hk-prog-val
+    (str hk-newton-source "r = abs (newtonSqrt 2.0 - 1.41421) < 0.001\n")
+    "r")
+  (list "True"))
+
+(hk-test
+  "newton.hs — improve converges (one step)"
+  (hk-prog-val (str hk-newton-source "r = improve 4.0 1.0\n") "r")
+  2.5)
+
+(hk-test
+  "newton.hs — newtonSqrt 100 ≈ 10"
+  (hk-prog-val
+    (str hk-newton-source "r = abs (newtonSqrt 100.0 - 10.0) < 0.001\n")
+    "r")
+  (list "True"))
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-partial.sx
+++ b/lib/haskell/tests/program-partial.sx
@@ -0,0 +1,58 @@
+;; partial.hs — exercises Phase 9 partial functions caught at the top level.
+;;
+;; Each program calls a partial function on bad input; hk-run-io catches the
+;; raise and appends the error message to io-lines so tests can inspect.
+
+(hk-test
+  "partial.hs — main = print (head [])"
+  (let
+    ((lines (hk-run-io "main = print (head [])")))
+    (>= (index-of (str lines) "Prelude.head: empty list") 0))
+  true)
+
+(hk-test
+  "partial.hs — main = print (tail [])"
+  (let
+    ((lines (hk-run-io "main = print (tail [])")))
+    (>= (index-of (str lines) "Prelude.tail: empty list") 0))
+  true)
+
+(hk-test
+  "partial.hs — main = print (fromJust Nothing)"
+  (let
+    ((lines (hk-run-io "main = print (fromJust Nothing)")))
+    (>= (index-of (str lines) "Maybe.fromJust: Nothing") 0))
+  true)
+
+(hk-test
+  "partial.hs — putStrLn before error preserves prior output"
+  (let
+    ((lines (hk-run-io "main = do { putStrLn \"step 1\"; putStrLn (show (head [])); putStrLn \"never\" }")))
+    (and
+      (>= (index-of (str lines) "step 1") 0)
+      (>= (index-of (str lines) "Prelude.head: empty list") 0)
+      (= (index-of (str lines) "never") -1)))
+  true)
+
+(hk-test
+  "partial.hs — undefined as IO action"
+  (let
+    ((lines (hk-run-io "main = print undefined")))
+    (>= (index-of (str lines) "Prelude.undefined") 0))
+  true)
+
+(hk-test
+  "partial.hs — catches error from a user-thrown error"
+  (let
+    ((lines (hk-run-io "main = error \"boom from main\"")))
+    (>= (index-of (str lines) "boom from main") 0))
+  true)
+
+;; Negative case: when no error is raised, io-lines doesn't contain
+;; "Prelude" prefixes from our error path.
+(hk-test
+  "partial.hs — happy path: head [42] succeeds, no error in output"
+  (hk-run-io "main = print (head [42])")
+  (list "42"))
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-person.sx
+++ b/lib/haskell/tests/program-person.sx
@@ -0,0 +1,51 @@
+;; person.hs — record type with accessors, update, deriving Show.
+;;
+;; Exercises Phase 14: data with record syntax, accessor functions,
+;; record creation, record update, deriving Show on a record.
+
+(define
+  hk-person-source
+  "data Person = Person { name :: String, age :: Int } deriving (Show)\n\nalice = Person { name = \"alice\", age = 30 }\nbob = Person { name = \"bob\", age = 25 }\n\nbirthday p = p { age = age p + 1 }\n")
+
+(hk-test
+  "person.hs — alice's name"
+  (hk-deep-force (hk-run (str hk-person-source "main = name alice")))
+  "alice")
+
+(hk-test
+  "person.hs — alice's age"
+  (hk-deep-force (hk-run (str hk-person-source "main = age alice")))
+  30)
+
+(hk-test
+  "person.hs — birthday adds one year"
+  (hk-deep-force
+    (hk-run (str hk-person-source "main = age (birthday alice)")))
+  31)
+
+(hk-test
+  "person.hs — birthday preserves name"
+  (hk-deep-force
+    (hk-run (str hk-person-source "main = name (birthday alice)")))
+  "alice")
+
+(hk-test
+  "person.hs — show alice"
+  (hk-deep-force (hk-run (str hk-person-source "main = show alice")))
+  "Person \"alice\" 30")
+
+(hk-test
+  "person.hs — bob has different name"
+  (hk-deep-force (hk-run (str hk-person-source "main = name bob")))
+  "bob")
+
+(hk-test
+  "person.hs — pattern match in function"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-person-source
+        "greet (Person { name = n }) = \"Hi, \" ++ n\nmain = greet alice")))
+  "Hi, alice")
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-runlength-str.sx
+++ b/lib/haskell/tests/program-runlength-str.sx
@@ -0,0 +1,83 @@
+;; runlength-str.hs — run-length encoding on a String.
+;; Source: https://rosettacode.org/wiki/Run-length_encoding#Haskell (adapted).
+;;
+;; Exercises String pattern matching `(x:xs)`, `span` over a string view,
+;; tuple construction `(Int, Char)`, character equality, and tuple-in-cons
+;; patterns `((n, c) : rest)` — all enabled by Phase 7 string=[Char].
+
+(define
+  hk-prog-val
+  (fn
+    (src name)
+    (hk-deep-force (get (hk-eval-program (hk-core src)) name))))
+
+(define
+  hk-as-list
+  (fn
+    (xs)
+    (cond
+      ((and (list? xs) (= (first xs) "[]")) (list))
+      ((and (list? xs) (= (first xs) ":"))
+        (cons (nth xs 1) (hk-as-list (nth xs 2))))
+      (:else xs))))
+
+(define
+  hk-rle-source
+  "encodeRL []     = []\nencodeRL (x:xs) = let (same, rest) = span eqX xs\n                      eqX y         = y == x\n                  in (1 + length same, x) : encodeRL rest\n\nreplicateRL 0 _ = []\nreplicateRL n c = c : replicateRL (n - 1) c\n\ndecodeRL []                = []\ndecodeRL ((n, c) : rest)   = replicateRL n c ++ decodeRL rest\n")
+
+(hk-test
+  "rle.hs — encodeRL [] = []"
+  (hk-as-list (hk-prog-val (str hk-rle-source "r = encodeRL \"\"\n") "r"))
+  (list))
+
+(hk-test
+  "rle.hs — length (encodeRL \"aabbbcc\") = 3"
+  (hk-prog-val (str hk-rle-source "r = length (encodeRL \"aabbbcc\")\n") "r")
+  3)
+
+(hk-test
+  "rle.hs — map fst (encodeRL \"aabbbcc\") = [2,3,2]"
+  (hk-as-list
+    (hk-prog-val (str hk-rle-source "r = map fst (encodeRL \"aabbbcc\")\n") "r"))
+  (list 2 3 2))
+
+(hk-test
+  "rle.hs — map snd (encodeRL \"aabbbcc\") = [97,98,99]"
+  (hk-as-list
+    (hk-prog-val (str hk-rle-source "r = map snd (encodeRL \"aabbbcc\")\n") "r"))
+  (list 97 98 99))
+
+(hk-test
+  "rle.hs — counts of encodeRL \"aabbbccddddee\" = [2,3,2,4,2]"
+  (hk-as-list
+    (hk-prog-val
+      (str hk-rle-source "r = map fst (encodeRL \"aabbbccddddee\")\n")
+      "r"))
+  (list 2 3 2 4 2))
+
+(hk-test
+  "rle.hs — chars of encodeRL \"aabbbccddddee\" = [97,98,99,100,101]"
+  (hk-as-list
+    (hk-prog-val
+      (str hk-rle-source "r = map snd (encodeRL \"aabbbccddddee\")\n")
+      "r"))
+  (list 97 98 99 100 101))
+
+(hk-test
+  "rle.hs — singleton encodeRL \"x\""
+  (hk-as-list
+    (hk-prog-val (str hk-rle-source "r = map fst (encodeRL \"x\")\n") "r"))
+  (list 1))
+
+(hk-test
+  "rle.hs — decodeRL round-trip preserves \"aabbbcc\""
+  (hk-as-list
+    (hk-prog-val (str hk-rle-source "r = decodeRL (encodeRL \"aabbbcc\")\n") "r"))
+  (list 97 97 98 98 98 99 99))
+
+(hk-test
+  "rle.hs — replicateRL 4 65 = [65,65,65,65]"
+  (hk-as-list (hk-prog-val (str hk-rle-source "r = replicateRL 4 65\n") "r"))
+  (list 65 65 65 65))
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-safediv.sx
+++ b/lib/haskell/tests/program-safediv.sx
@@ -0,0 +1,80 @@
+;; safediv.hs — safe division using catch (Phase 16 conformance).
+
+(define
+  hk-safediv-source
+  "safeDiv :: Int -> Int -> IO Int
+safeDiv _ 0 = throwIO (SomeException \"division by zero\")
+safeDiv x y = return (x `div` y)
+
+guarded :: Int -> Int -> IO Int
+guarded x y = catch (safeDiv x y) (\\(SomeException _) -> return 0)
+
+reason :: Int -> Int -> IO String
+reason x y = catch (safeDiv x y `seq` return \"ok\")
+  (\\(SomeException m) -> return m)
+
+bothBranches :: Int -> Int -> IO Int
+bothBranches x y = do
+  v <- catch (safeDiv x y) (\\(SomeException _) -> return (-1))
+  return (v + 100)
+
+")
+
+(hk-test
+  "safediv.hs — divide by non-zero"
+  (hk-deep-force
+    (hk-run
+      (str hk-safediv-source "main = guarded 10 2")))
+  (list "IO" 5))
+
+(hk-test
+  "safediv.hs — divide by zero returns 0"
+  (hk-deep-force
+    (hk-run
+      (str hk-safediv-source "main = guarded 10 0")))
+  (list "IO" 0))
+
+(hk-test
+  "safediv.hs — divide by zero — reason captured"
+  (hk-deep-force
+    (hk-run
+      (str hk-safediv-source "main = catch (safeDiv 1 0) (\\(SomeException m) -> return 0) >> reason 1 0")))
+  (list "IO" "division by zero"))
+
+(hk-test
+  "safediv.hs — bothBranches success path"
+  (hk-deep-force
+    (hk-run
+      (str hk-safediv-source "main = bothBranches 8 2")))
+  (list "IO" 104))
+
+(hk-test
+  "safediv.hs — bothBranches failure path"
+  (hk-deep-force
+    (hk-run
+      (str hk-safediv-source "main = bothBranches 8 0")))
+  (list "IO" 99))
+
+(hk-test
+  "safediv.hs — chained safeDiv with catch"
+  (hk-deep-force
+    (hk-run
+      (str hk-safediv-source
+        "main = do { a <- guarded 20 4; b <- guarded 7 0; return (a + b) }")))
+  (list "IO" 5))
+
+(hk-test
+  "safediv.hs — try then bind through Either"
+  (hk-deep-force
+    (hk-run
+      (str hk-safediv-source
+        "main = do { r <- try (safeDiv 1 0); case r of { Right v -> return v; Left (SomeException m) -> return 999 } }")))
+  (list "IO" 999))
+
+(hk-test
+  "safediv.hs — handle (flip catch)"
+  (hk-deep-force
+    (hk-run
+      (str hk-safediv-source
+        "main = handle (\\(SomeException _) -> return 0) (safeDiv 5 0)")))
+  (list "IO" 0))
--- a/lib/haskell/tests/program-setops.sx
+++ b/lib/haskell/tests/program-setops.sx
@@ -0,0 +1,61 @@
+;; setops.hs — set union/intersection/difference on integer sets.
+;;
+;; Exercises Phase 12: `import qualified Data.Set as Set`, all three
+;; combining operations + isSubsetOf.
+
+(define
+  hk-setops-source
+  "import qualified Data.Set as Set\n\ns1 = Set.insert 1 (Set.insert 2 (Set.insert 3 Set.empty))\ns2 = Set.insert 3 (Set.insert 4 (Set.insert 5 Set.empty))\ns3 = Set.insert 1 (Set.insert 2 Set.empty)\n")
+
+(hk-test
+  "setops.hs — union size = 5"
+  (hk-deep-force
+    (hk-run (str hk-setops-source "main = Set.size (Set.union s1 s2)\n")))
+  5)
+
+(hk-test
+  "setops.hs — intersection size = 1"
+  (hk-deep-force
+    (hk-run
+      (str hk-setops-source "main = Set.size (Set.intersection s1 s2)\n")))
+  1)
+
+(hk-test
+  "setops.hs — intersection contains 3"
+  (hk-deep-force
+    (hk-run
+      (str hk-setops-source "main = Set.member 3 (Set.intersection s1 s2)\n")))
+  (list "True"))
+
+(hk-test
+  "setops.hs — difference s1 s2 size = 2"
+  (hk-deep-force
+    (hk-run (str hk-setops-source "main = Set.size (Set.difference s1 s2)\n")))
+  2)
+
+(hk-test
+  "setops.hs — difference doesn't contain shared key"
+  (hk-deep-force
+    (hk-run
+      (str hk-setops-source "main = Set.member 3 (Set.difference s1 s2)\n")))
+  (list "False"))
+
+(hk-test
+  "setops.hs — s3 is subset of s1"
+  (hk-deep-force
+    (hk-run (str hk-setops-source "main = Set.isSubsetOf s3 s1\n")))
+  (list "True"))
+
+(hk-test
+  "setops.hs — s1 not subset of s3"
+  (hk-deep-force
+    (hk-run (str hk-setops-source "main = Set.isSubsetOf s1 s3\n")))
+  (list "False"))
+
+(hk-test
+  "setops.hs — empty set is subset of anything"
+  (hk-deep-force
+    (hk-run (str hk-setops-source "main = Set.isSubsetOf Set.empty s1\n")))
+  (list "True"))
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-shapes.sx
+++ b/lib/haskell/tests/program-shapes.sx
@@ -0,0 +1,40 @@
+;; shapes.hs — class Area with a default perimeter, two instances
+;;             using where-local helpers.
+;;
+;; Exercises Phase 13: class default method (perimeter), instance
+;; methods that use `where`-bindings.
+
+(define
+  hk-shapes-source
+  "class Shape a where\n  area :: a -> Int\n  perimeter :: a -> Int\n  perimeter x = quadrilateral x\n    where quadrilateral y = 2 * (sideA y + sideB y)\n          sideA z = 1\n          sideB z = 1\n\ndata Square = Square Int\ndata Rect = Rect Int Int\n\ninstance Shape Square where\n  area (Square s) = s * s\n  perimeter (Square s) = 4 * s\n\ninstance Shape Rect where\n  area (Rect w h) = w * h\n  perimeter (Rect w h) = peri\n    where peri = 2 * (w + h)\n")
+
+(hk-test
+  "shapes.hs — area of Square 5 = 25"
+  (hk-deep-force (hk-run (str hk-shapes-source "main = area (Square 5)\n")))
+  25)
+
+(hk-test
+  "shapes.hs — perimeter of Square 5 = 20"
+  (hk-deep-force
+    (hk-run (str hk-shapes-source "main = perimeter (Square 5)\n")))
+  20)
+
+(hk-test
+  "shapes.hs — area of Rect 3 4 = 12"
+  (hk-deep-force (hk-run (str hk-shapes-source "main = area (Rect 3 4)\n")))
+  12)
+
+(hk-test
+  "shapes.hs — perimeter of Rect 3 4 = 14 (via where-bound)"
+  (hk-deep-force
+    (hk-run (str hk-shapes-source "main = perimeter (Rect 3 4)\n")))
+  14)
+
+(hk-test
+  "shapes.hs — Square sums area + perimeter"
+  (hk-deep-force
+    (hk-run
+      (str hk-shapes-source "main = area (Square 4) + perimeter (Square 4)\n")))
+  32)
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-showadt.sx
+++ b/lib/haskell/tests/program-showadt.sx
@@ -0,0 +1,45 @@
+;; showadt.hs — `deriving (Show)` on a multi-constructor recursive ADT.
+;; Source: classic exposition example, e.g. Real World Haskell ch.6.
+;;
+;; Exercises Phase 8: `deriving (Show)` on an ADT whose constructors recurse
+;; into themselves; precedence-based paren wrapping for nested arguments;
+;; `print` from the prelude (which is `putStrLn (show x)`).
+
+(define
+  hk-showadt-source
+  "data Expr = Lit Int | Add Expr Expr | Mul Expr Expr deriving (Show)\n\nmain = do\n  print (Lit 3)\n  print (Add (Lit 1) (Lit 2))\n  print (Mul (Lit 3) (Add (Lit 4) (Lit 5)))\n")
+
+(hk-test
+  "showadt.hs — main prints three lines"
+  (hk-run-io hk-showadt-source)
+  (list "Lit 3" "Add (Lit 1) (Lit 2)" "Mul (Lit 3) (Add (Lit 4) (Lit 5))"))
+
+(hk-test
+  "showadt.hs — show Lit 3"
+  (hk-deep-force
+    (hk-run
+      "data Expr = Lit Int | Add Expr Expr | Mul Expr Expr deriving (Show)\nmain = show (Lit 3)"))
+  "Lit 3")
+
+(hk-test
+  "showadt.hs — show Add wraps both args"
+  (hk-deep-force
+    (hk-run
+      "data Expr = Lit Int | Add Expr Expr | Mul Expr Expr deriving (Show)\nmain = show (Add (Lit 1) (Lit 2))"))
+  "Add (Lit 1) (Lit 2)")
+
+(hk-test
+  "showadt.hs — fully nested Mul of Adds"
+  (hk-deep-force
+    (hk-run
+      "data Expr = Lit Int | Add Expr Expr | Mul Expr Expr deriving (Show)\nmain = show (Mul (Add (Lit 1) (Lit 2)) (Add (Lit 3) (Lit 4)))"))
+  "Mul (Add (Lit 1) (Lit 2)) (Add (Lit 3) (Lit 4))")
+
+(hk-test
+  "showadt.hs — Lit with negative literal wraps int in parens"
+  (hk-deep-force
+    (hk-run
+      "data Expr = Lit Int | Add Expr Expr | Mul Expr Expr deriving (Show)\nmain = show (Lit (negate 7))"))
+  "Lit (-7)")
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-showio.sx
+++ b/lib/haskell/tests/program-showio.sx
@@ -0,0 +1,36 @@
+;; showio.hs — `print` on various types inside a `do` block.
+;;
+;; Exercises Phase 8 `print x = putStrLn (show x)` and the IO monad's
+;; statement sequencing. Each `print` produces one io-line.
+
+(define
+  hk-showio-source
+  "main = do\n  print 42\n  print True\n  print False\n  print [1,2,3]\n  print (1, 2)\n  print (Just 5)\n  print Nothing\n  print \"hello\"\n")
+
+(hk-test
+  "showio.hs — main produces 8 lines, all show-formatted"
+  (hk-run-io hk-showio-source)
+  (list "42" "True" "False" "[1,2,3]" "(1,2)" "Just 5" "Nothing" "\"hello\""))
+
+(hk-test
+  "showio.hs — print Int alone"
+  (hk-run-io "main = print 42")
+  (list "42"))
+
+(hk-test
+  "showio.hs — print list of Maybe"
+  (hk-run-io "main = print [Just 1, Nothing, Just 3]")
+  (list "[Just 1,Nothing,Just 3]"))
+
+(hk-test
+  "showio.hs — print nested tuple"
+  (hk-run-io "main = print ((1, 2), (3, 4))")
+  (list "((1,2),(3,4))"))
+
+(hk-test
+  "showio.hs — print derived ADT inside do"
+  (hk-run-io
+    "data Color = Red | Green | Blue deriving (Show)\nmain = do { print Red; print Green; print Blue }")
+  (list "Red" "Green" "Blue"))
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-statistics.sx
+++ b/lib/haskell/tests/program-statistics.sx
@@ -0,0 +1,45 @@
+;; statistics.hs — mean, variance, std-dev on a [Double].
+;; Source: classic textbook example.
+;;
+;; Exercises Phase 10: `fromIntegral`, `/`, `sqrt`, list ops on `[Double]`.
+
+(define
+  hk-prog-val
+  (fn
+    (src name)
+    (hk-deep-force (get (hk-eval-program (hk-core src)) name))))
+
+(define
+  hk-stats-source
+  "mean xs = sum xs / fromIntegral (length xs)\n\nvariance xs = let m = mean xs\n                  sqDiff x = (x - m) * (x - m)\n              in sum (map sqDiff xs) / fromIntegral (length xs)\n\nstdDev xs = sqrt (variance xs)\n")
+
+(hk-test
+  "statistics.hs — mean [1,2,3,4,5] = 3"
+  (hk-prog-val (str hk-stats-source "r = mean [1.0,2.0,3.0,4.0,5.0]\n") "r")
+  3)
+
+(hk-test
+  "statistics.hs — mean [10,20,30] = 20"
+  (hk-prog-val (str hk-stats-source "r = mean [10.0,20.0,30.0]\n") "r")
+  20)
+
+(hk-test
+  "statistics.hs — variance [2,4,4,4,5,5,7,9] = 4"
+  (hk-prog-val
+    (str hk-stats-source "r = variance [2.0,4.0,4.0,4.0,5.0,5.0,7.0,9.0]\n")
+    "r")
+  4)
+
+(hk-test
+  "statistics.hs — stdDev [2,4,4,4,5,5,7,9] = 2"
+  (hk-prog-val
+    (str hk-stats-source "r = stdDev [2.0,4.0,4.0,4.0,5.0,5.0,7.0,9.0]\n")
+    "r")
+  2)
+
+(hk-test
+  "statistics.hs — variance of constant list = 0"
+  (hk-prog-val (str hk-stats-source "r = variance [5.0,5.0,5.0,5.0]\n") "r")
+  0)
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-trycatch.sx
+++ b/lib/haskell/tests/program-trycatch.sx
@@ -0,0 +1,95 @@
+;; trycatch.hs — try pattern: branch on Left/Right (Phase 16 conformance).
+
+(define
+  hk-trycatch-source
+  "parseInt :: String -> IO Int
+parseInt \"zero\" = return 0
+parseInt \"one\"  = return 1
+parseInt \"two\"  = return 2
+parseInt s = throwIO (SomeException (\"unknown: \" ++ s))
+
+describe :: Either SomeException Int -> String
+describe (Right v) = \"got \" ++ show v
+describe (Left (SomeException m)) = \"err: \" ++ m
+
+trial :: String -> IO String
+trial s = do
+  r <- try (parseInt s)
+  return (describe r)
+
+run3 :: String -> String -> String -> IO [String]
+run3 a b c = do
+  ra <- trial a
+  rb <- trial b
+  rc <- trial c
+  return [ra, rb, rc]
+
+")
+
+(hk-test
+  "trycatch.hs — Right branch"
+  (hk-deep-force
+    (hk-run
+      (str hk-trycatch-source "main = trial \"one\"")))
+  (list "IO" "got 1"))
+
+(hk-test
+  "trycatch.hs — Left branch with message"
+  (hk-deep-force
+    (hk-run
+      (str hk-trycatch-source "main = trial \"banana\"")))
+  (list "IO" "err: unknown: banana"))
+
+(hk-test
+  "trycatch.hs — chain over three inputs, all good"
+  (hk-deep-force
+    (hk-run
+      (str hk-trycatch-source "main = run3 \"zero\" \"one\" \"two\"")))
+  (list "IO"
+    (list ":" "got 0"
+      (list ":" "got 1"
+        (list ":" "got 2"
+          (list "[]"))))))
+
+(hk-test
+  "trycatch.hs — chain over three inputs, mixed"
+  (hk-deep-force
+    (hk-run
+      (str hk-trycatch-source "main = run3 \"zero\" \"qux\" \"two\"")))
+  (list "IO"
+    (list ":" "got 0"
+      (list ":" "err: unknown: qux"
+        (list ":" "got 2"
+          (list "[]"))))))
+
+(hk-test
+  "trycatch.hs — Left from throwIO carries message"
+  (hk-deep-force
+    (hk-run
+      (str hk-trycatch-source
+        "main = do { r <- try (throwIO (SomeException \"explicit\")); return (describe r) }")))
+  (list "IO" "err: explicit"))
+
+(hk-test
+  "trycatch.hs — Right preserves the int"
+  (hk-deep-force
+    (hk-run
+      (str hk-trycatch-source
+        "main = do { r <- try (return 42); return (describe r) }")))
+  (list "IO" "got 42"))
+
+(hk-test
+  "trycatch.hs — pattern-bind on Right inside do"
+  (hk-deep-force
+    (hk-run
+      (str hk-trycatch-source
+        "main = do { Right v <- try (parseInt \"two\"); return (v + 100) }")))
+  (list "IO" 102))
+
+(hk-test
+  "trycatch.hs — handle alias on parseInt failure"
+  (hk-deep-force
+    (hk-run
+      (str hk-trycatch-source
+        "main = handle (\\(SomeException m) -> return (\"caught: \" ++ m)) (parseInt \"nope\" >>= (\\v -> return (show v)))")))
+  (list "IO" "caught: unknown: nope"))
--- a/lib/haskell/tests/program-uniquewords.sx
+++ b/lib/haskell/tests/program-uniquewords.sx
@@ -0,0 +1,35 @@
+;; uniquewords.hs — count unique words using Data.Set.
+;;
+;; Exercises Phase 12: `import qualified Data.Set as Set`, `Set.empty`,
+;; `Set.insert`, `Set.size`, `foldl`.
+
+(define
+  hk-uniquewords-source
+  "import qualified Data.Set as Set\n\naddWord s w = Set.insert w s\n\nuniqueWords ws = foldl addWord Set.empty ws\n\nresult = uniqueWords [\"the\", \"cat\", \"the\", \"dog\", \"the\", \"cat\"]\n")
+
+(hk-test
+  "uniquewords.hs — unique count = 3"
+  (hk-deep-force
+    (hk-run (str hk-uniquewords-source "main = Set.size result\n")))
+  3)
+
+(hk-test
+  "uniquewords.hs — \"the\" present"
+  (hk-deep-force
+    (hk-run (str hk-uniquewords-source "main = Set.member \"the\" result\n")))
+  (list "True"))
+
+(hk-test
+  "uniquewords.hs — \"missing\" absent"
+  (hk-deep-force
+    (hk-run (str hk-uniquewords-source "main = Set.member \"missing\" result\n")))
+  (list "False"))
+
+(hk-test
+  "uniquewords.hs — empty list yields empty set"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.Set as Set\nmain = Set.size (foldl (\\s w -> Set.insert w s) Set.empty [])"))
+  0)
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/program-wordfreq.sx
+++ b/lib/haskell/tests/program-wordfreq.sx
@@ -0,0 +1,54 @@
+;; wordfreq.hs — word-frequency histogram using Data.Map.
+;; Source: Rosetta Code "Word frequency" (Haskell entry, simplified).
+;;
+;; Exercises Phase 11: `import qualified Data.Map as Map`, `Map.empty`,
+;; `Map.insertWith`, `Map.lookup`, `Map.findWithDefault`, `foldl`.
+
+(define
+  hk-wordfreq-source
+  "import qualified Data.Map as Map\n\ncountWord m w = Map.insertWith (+) w 1 m\n\nwordFreq xs = foldl countWord Map.empty xs\n\nresult = wordFreq [\"the\", \"cat\", \"the\", \"dog\", \"the\", \"cat\"]\n")
+
+(hk-test
+  "wordfreq.hs — \"the\" counted 3 times"
+  (hk-deep-force
+    (hk-run (str hk-wordfreq-source "main = Map.lookup \"the\" result\n")))
+  (list "Just" 3))
+
+(hk-test
+  "wordfreq.hs — \"cat\" counted 2 times"
+  (hk-deep-force
+    (hk-run (str hk-wordfreq-source "main = Map.lookup \"cat\" result\n")))
+  (list "Just" 2))
+
+(hk-test
+  "wordfreq.hs — \"dog\" counted 1 time"
+  (hk-deep-force
+    (hk-run (str hk-wordfreq-source "main = Map.lookup \"dog\" result\n")))
+  (list "Just" 1))
+
+(hk-test
+  "wordfreq.hs — \"missing\" not present"
+  (hk-deep-force
+    (hk-run (str hk-wordfreq-source "main = Map.lookup \"missing\" result\n")))
+  (list "Nothing"))
+
+(hk-test
+  "wordfreq.hs — Map.size = 3 unique words"
+  (hk-deep-force (hk-run (str hk-wordfreq-source "main = Map.size result\n")))
+  3)
+
+(hk-test
+  "wordfreq.hs — findWithDefault for missing returns 0"
+  (hk-deep-force
+    (hk-run
+      (str hk-wordfreq-source "main = Map.findWithDefault 0 \"absent\" result\n")))
+  0)
+
+(hk-test
+  "wordfreq.hs — findWithDefault for present returns count"
+  (hk-deep-force
+    (hk-run
+      (str hk-wordfreq-source "main = Map.findWithDefault 0 \"the\" result\n")))
+  3)
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/records.sx
+++ b/lib/haskell/tests/records.sx
@@ -0,0 +1,127 @@
+;; records.sx — Phase 14 record syntax tests.
+
+(define
+  hk-person-source
+  "data Person = Person { name :: String, age :: Int }\n")
+
+(define hk-pt-source "data Pt = Pt { x :: Int, y :: Int }\n")
+
+;; ── Creation ────────────────────────────────────────────────
+(hk-test
+  "creation: Person { name = \"a\", age = 1 } via accessor name"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-person-source
+        "main = name (Person { name = \"alice\", age = 30 })")))
+  "alice")
+
+(hk-test
+  "creation: source order doesn't matter (age first)"
+  (hk-deep-force
+    (hk-run
+      (str hk-person-source "main = name (Person { age = 99, name = \"bob\" })")))
+  "bob")
+
+(hk-test
+  "creation: age accessor returns the right field"
+  (hk-deep-force
+    (hk-run
+      (str hk-person-source "main = age (Person { age = 99, name = \"bob\" })")))
+  99)
+
+;; ── Accessors ──────────────────────────────────────────────
+(hk-test
+  "accessor: x of Pt"
+  (hk-deep-force
+    (hk-run (str hk-pt-source "main = x (Pt { x = 7, y = 99 })")))
+  7)
+
+(hk-test
+  "accessor: y of Pt"
+  (hk-deep-force
+    (hk-run (str hk-pt-source "main = y (Pt { x = 7, y = 99 })")))
+  99)
+
+;; ── Update — single field ──────────────────────────────────
+(hk-test
+  "update one field: age changes"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-person-source
+        "alice = Person { name = \"alice\", age = 30 }\nmain = age (alice { age = 31 })")))
+  31)
+
+(hk-test
+  "update one field: name preserved"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-person-source
+        "alice = Person { name = \"alice\", age = 30 }\nmain = name (alice { age = 31 })")))
+  "alice")
+
+;; ── Update — two fields ────────────────────────────────────
+(hk-test
+  "update two fields: both changed"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-person-source
+        "alice = Person { name = \"alice\", age = 30 }\nbob = alice { name = \"bob\", age = 50 }\nmain = age bob")))
+  50)
+
+(hk-test
+  "update two fields: name takes new value"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-person-source
+        "alice = Person { name = \"alice\", age = 30 }\nbob = alice { name = \"bob\", age = 50 }\nmain = name bob")))
+  "bob")
+
+;; ── Record patterns ────────────────────────────────────────
+(hk-test
+  "case-alt record pattern: Pt { x = a }"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-pt-source
+        "getX p = case p of Pt { x = a } -> a\nmain = getX (Pt { x = 7, y = 99 })")))
+  7)
+
+(hk-test
+  "case-alt record pattern: multi-field bind"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-pt-source
+        "sumPt p = case p of Pt { x = a, y = b } -> a + b\nmain = sumPt (Pt { x = 3, y = 4 })")))
+  7)
+
+(hk-test
+  "fun-LHS record pattern"
+  (hk-deep-force
+    (hk-run
+      (str
+        hk-person-source
+        "getName (Person { name = n }) = n\nmain = getName (Person { name = \"alice\", age = 30 })")))
+  "alice")
+
+;; ── deriving Show on a record ───────────────────────────────
+(hk-test
+  "deriving Show on a record produces positional output"
+  (hk-deep-force
+    (hk-run
+      "data Person = Person { name :: String, age :: Int } deriving (Show)\nmain = show (Person { name = \"alice\", age = 30 })"))
+  "Person \"alice\" 30")
+
+(hk-test
+  "deriving Show on Pt"
+  (hk-deep-force
+    (hk-run
+      "data Pt = Pt { x :: Int, y :: Int } deriving (Show)\nmain = show (Pt { x = 3, y = 4 })"))
+  "Pt 3 4")
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/set.sx
+++ b/lib/haskell/tests/set.sx
@@ -0,0 +1,119 @@
+;; set.sx — Phase 12 Data.Set unit tests.
+
+;; ── SX-level (direct hk-set-*) ───────────────────────────────
+(hk-test
+  "hk-set-empty: size 0 + null"
+  (list (hk-set-size hk-set-empty) (hk-set-null hk-set-empty))
+  (list 0 true))
+
+(hk-test
+  "hk-set-singleton: member yes"
+  (let
+    ((s (hk-set-singleton 5)))
+    (list (hk-set-size s) (hk-set-member 5 s) (hk-set-member 99 s)))
+  (list 1 true false))
+
+(hk-test
+  "hk-set-insert: idempotent"
+  (let
+    ((s (hk-set-insert 1 (hk-set-insert 1 hk-set-empty))))
+    (hk-set-size s))
+  1)
+
+(hk-test
+  "hk-set-from-list: dedupes"
+  (hk-set-to-asc-list (hk-set-from-list (list 3 1 4 1 5 9 2 6)))
+  (list 1 2 3 4 5 6 9))
+
+(hk-test
+  "hk-set-delete: removes"
+  (let
+    ((s (hk-set-from-list (list 1 2 3))))
+    (hk-set-to-asc-list (hk-set-delete 2 s)))
+  (list 1 3))
+
+(hk-test
+  "hk-set-union"
+  (hk-set-to-asc-list
+    (hk-set-union
+      (hk-set-from-list (list 1 2 3))
+      (hk-set-from-list (list 3 4 5))))
+  (list 1 2 3 4 5))
+
+(hk-test
+  "hk-set-intersection"
+  (hk-set-to-asc-list
+    (hk-set-intersection
+      (hk-set-from-list (list 1 2 3 4))
+      (hk-set-from-list (list 3 4 5 6))))
+  (list 3 4))
+
+(hk-test
+  "hk-set-difference"
+  (hk-set-to-asc-list
+    (hk-set-difference
+      (hk-set-from-list (list 1 2 3 4))
+      (hk-set-from-list (list 3 4 5))))
+  (list 1 2))
+
+(hk-test
+  "hk-set-is-subset-of: yes"
+  (hk-set-is-subset-of
+    (hk-set-from-list (list 2 3))
+    (hk-set-from-list (list 1 2 3 4)))
+  true)
+
+(hk-test
+  "hk-set-is-subset-of: no"
+  (hk-set-is-subset-of
+    (hk-set-from-list (list 5 6))
+    (hk-set-from-list (list 1 2 3 4)))
+  false)
+
+(hk-test
+  "hk-set-filter"
+  (hk-set-to-asc-list
+    (hk-set-filter (fn (k) (> k 2)) (hk-set-from-list (list 1 2 3 4 5))))
+  (list 3 4 5))
+
+(hk-test
+  "hk-set-map"
+  (hk-set-to-asc-list
+    (hk-set-map (fn (k) (* k 10)) (hk-set-from-list (list 1 2 3))))
+  (list 10 20 30))
+
+(hk-test
+  "hk-set-foldr: sum"
+  (hk-set-foldr + 0 (hk-set-from-list (list 1 2 3 4 5)))
+  15)
+
+;; ── Haskell-level (Set.* via import wiring) ──────────────────
+(hk-test
+  "Set.size after Set.insert chain"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.Set as Set\nmain = Set.size (Set.insert 3 (Set.insert 1 (Set.insert 2 Set.empty)))"))
+  3)
+
+(hk-test
+  "Set.member true"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.Set as Set\nmain = Set.member 5 (Set.insert 5 Set.empty)"))
+  (list "True"))
+
+(hk-test
+  "Set.union via Haskell"
+  (hk-deep-force
+    (hk-run
+      "import Data.Set\nmain = Set.size (Set.union (Set.insert 1 Set.empty) (Set.insert 2 Set.empty))"))
+  2)
+
+(hk-test
+  "Set.isSubsetOf via Haskell"
+  (hk-deep-force
+    (hk-run
+      "import qualified Data.Set as S\nmain = S.isSubsetOf (S.insert 1 S.empty) (S.insert 2 (S.insert 1 S.empty))"))
+  (list "True"))
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/show.sx
+++ b/lib/haskell/tests/show.sx
@@ -0,0 +1,140 @@
+;; show.sx — tests for the Show / Read class plumbing.
+;;
+;; Covers Phase 8:
+;;  - showsPrec / showParen / shows / showString stubs
+;;  - Read class stubs (reads / readsPrec / read)
+;;  - direct show coverage (Int, Bool, String, list, tuple, Maybe, ADT, ...)
+
+;; ── ShowS / showsPrec / showParen stubs ──────────────────────
+(hk-test
+  "shows: prepends show output"
+  (hk-deep-force (hk-run "main = shows 5 \"abc\""))
+  "5abc")
+
+(hk-test
+  "shows: works on True"
+  (hk-deep-force (hk-run "main = shows True \"x\""))
+  "Truex")
+
+(hk-test
+  "showString: prepends literal"
+  (hk-deep-force (hk-run "main = showString \"hello\" \" world\""))
+  "hello world")
+
+(hk-test
+  "showParen True: wraps inner output in parens"
+  (hk-deep-force (hk-run "main = showParen True (showString \"inside\") \"\""))
+  "(inside)")
+
+(hk-test
+  "showParen False: passes through unchanged"
+  (hk-deep-force (hk-run "main = showParen False (showString \"inside\") \"\""))
+  "inside")
+
+(hk-test
+  "showsPrec: prepends show output regardless of prec"
+  (hk-deep-force (hk-run "main = showsPrec 11 42 \"end\""))
+  "42end")
+
+(hk-test
+  "showParen + manual composition: build (Just 3)"
+  (hk-deep-force
+    (hk-run
+      "buildJust3 s = showString \"Just \" (shows 3 s)\nmain = showParen True buildJust3 \"\""))
+  "(Just 3)")
+
+;; ── Read stubs ───────────────────────────────────────────────
+(hk-test
+  "reads: stub returns empty list (null-check)"
+  (hk-deep-force (hk-run "main = show (null (reads \"42\"))"))
+  "True")
+
+(hk-test
+  "readsPrec: stub returns empty list"
+  (hk-deep-force (hk-run "main = show (null (readsPrec 0 \"True\"))"))
+  "True")
+
+(hk-test
+  "reads: type-checks in expression context (length)"
+  (hk-deep-force (hk-run "main = show (length (reads \"abc\"))"))
+  "0")
+
+;; ── Direct `show` audit coverage ─────────────────────────────
+(hk-test "show Int" (hk-deep-force (hk-run "main = show 42")) "42")
+
+(hk-test
+  "show negative Int"
+  (hk-deep-force (hk-run "main = show (negate 5)"))
+  "-5")
+
+(hk-test "show Bool True" (hk-deep-force (hk-run "main = show True")) "True")
+
+(hk-test
+  "show Bool False"
+  (hk-deep-force (hk-run "main = show False"))
+  "False")
+
+(hk-test
+  "show String quotes the value"
+  (hk-deep-force (hk-run "main = show \"hello\""))
+  "\"hello\"")
+
+(hk-test
+  "show list of Int"
+  (hk-deep-force (hk-run "main = show [1,2,3]"))
+  "[1,2,3]")
+
+(hk-test
+  "show empty list"
+  (hk-deep-force (hk-run "main = show (drop 5 [1,2,3])"))
+  "[]")
+
+(hk-test
+  "show pair tuple"
+  (hk-deep-force (hk-run "main = show (1, True)"))
+  "(1,True)")
+
+(hk-test
+  "show triple tuple"
+  (hk-deep-force (hk-run "main = show (1, 2, 3)"))
+  "(1,2,3)")
+
+(hk-test
+  "show Maybe Nothing"
+  (hk-deep-force (hk-run "main = show Nothing"))
+  "Nothing")
+
+(hk-test
+  "show Maybe Just"
+  (hk-deep-force (hk-run "main = show (Just 3)"))
+  "Just 3")
+
+(hk-test
+  "show nested Just wraps inner in parens"
+  (hk-deep-force (hk-run "main = show (Just (Just 3))"))
+  "Just (Just 3)")
+
+(hk-test
+  "show Just (negate 3) wraps negative in parens"
+  (hk-deep-force (hk-run "main = show (Just (negate 3))"))
+  "Just (-3)")
+
+(hk-test
+  "show custom nullary ADT"
+  (hk-deep-force
+    (hk-run "data Day = Mon | Tue | Wed deriving (Show)\nmain = show Tue"))
+  "Tue")
+
+(hk-test
+  "show custom multi-constructor ADT"
+  (hk-deep-force
+    (hk-run
+      "data Shape = Pt | Sq Int | Rect Int Int deriving (Show)\nmain = show (Rect 3 4)"))
+  "Rect 3 4")
+
+(hk-test
+  "show list of Maybe wraps each element"
+  (hk-deep-force (hk-run "main = show [Just 1, Nothing, Just 2]"))
+  "[Just 1,Nothing,Just 2]")
+
+{:fails hk-test-fails :pass hk-test-pass :fail hk-test-fail}
--- a/lib/haskell/tests/stdlib.sx
+++ b/lib/haskell/tests/stdlib.sx
@@ -37,11 +37,11 @@
 (hk-ts "show neg" "negate 7" "-7")
 (hk-ts "show bool T" "True" "True")
 (hk-ts "show bool F" "False" "False")
-(hk-ts "show list" "[1,2,3]" "[1, 2, 3]")
-(hk-ts "show Just" "Just 5" "(Just 5)")
+(hk-ts "show list" "[1,2,3]" "[1,2,3]")
+(hk-ts "show Just" "Just 5" "Just 5")
 (hk-ts "show Nothing" "Nothing" "Nothing")
 (hk-ts "show LT" "LT" "LT")
-(hk-ts "show tuple" "(1, True)" "(1, True)")
+(hk-ts "show tuple" "(1, True)" "(1,True)")

 ;; ── Num extras ───────────────────────────────────────────────
 (hk-test "signum pos" (hk-deep-force (hk-run "main = signum 5")) 1)
@@ -59,13 +59,13 @@
 (hk-test
  "foldr cons"
  (hk-deep-force (hk-run "main = show (foldr (:) [] [1,2,3])"))
-  "[1, 2, 3]")
+  "[1,2,3]")

 ;; ── List ops ─────────────────────────────────────────────────
 (hk-test
  "reverse"
  (hk-deep-force (hk-run "main = show (reverse [1,2,3])"))
-  "[3, 2, 1]")
+  "[3,2,1]")
 (hk-test "null []" (hk-deep-force (hk-run "main = null []")) (list "True"))
 (hk-test
  "null xs"
@@ -82,7 +82,7 @@
 (hk-test
  "zip"
  (hk-deep-force (hk-run "main = show (zip [1,2] [3,4])"))
-  "[(1, 3), (2, 4)]")
+  "[(1,3),(2,4)]")
 (hk-test "sum" (hk-deep-force (hk-run "main = sum [1,2,3,4,5]")) 15)
 (hk-test "product" (hk-deep-force (hk-run "main = product [1,2,3,4]")) 24)
 (hk-test "maximum" (hk-deep-force (hk-run "main = maximum [3,1,9,2]")) 9)
@@ -112,7 +112,7 @@
 (hk-test
  "fmap list"
  (hk-deep-force (hk-run "main = show (fmap (+1) [1,2,3])"))
-  "[2, 3, 4]")
+  "[2,3,4]")

 ;; ── Monad / Applicative ──────────────────────────────────────
 (hk-test "return" (hk-deep-force (hk-run "main = return 7")) (list "IO" 7))
@@ -134,7 +134,7 @@
 (hk-test
  "lookup hit"
  (hk-deep-force (hk-run "main = show (lookup 2 [(1,10),(2,20)])"))
-  "(Just 20)")
+  "Just 20")
 (hk-test
  "lookup miss"
  (hk-deep-force (hk-run "main = show (lookup 9 [(1,10)])"))
--- a/lib/haskell/tests/string-char.sx
+++ b/lib/haskell/tests/string-char.sx
@@ -0,0 +1,139 @@
+;; String / Char tests — Phase 7 items 1-4.
+;;
+;; Covers:
+;;   hk-str? / hk-str-head / hk-str-tail / hk-str-null?   (runtime helpers)
+;;   chr / ord / toUpper / toLower                          (builtins in eval)
+;;   cons-pattern on strings via match.sx                   (":"-intercept)
+;;   empty-list pattern on strings via match.sx             ("[]"-intercept)
+
+;; ── hk-str? predicate ────────────────────────────────────────────────────
+(hk-test "hk-str? native string" (hk-str? "hello") true)
+
+(hk-test "hk-str? empty string" (hk-str? "") true)
+
+(hk-test "hk-str? view dict" (hk-str? {:hk-off 1 :hk-str "hi"}) true)
+
+(hk-test "hk-str? rejects number" (hk-str? 42) false)
+
+;; ── hk-str-null? predicate ───────────────────────────────────────────────
+(hk-test "hk-str-null? empty string" (hk-str-null? "") true)
+
+(hk-test "hk-str-null? non-empty" (hk-str-null? "a") false)
+
+(hk-test "hk-str-null? exhausted view" (hk-str-null? {:hk-off 2 :hk-str "hi"}) true)
+
+(hk-test "hk-str-null? live view" (hk-str-null? {:hk-off 1 :hk-str "hi"}) false)
+
+;; ── hk-str-head ──────────────────────────────────────────────────────────
+(hk-test "hk-str-head native string" (hk-str-head "hello") 104)
+
+(hk-test "hk-str-head view at offset" (hk-str-head {:hk-off 1 :hk-str "hello"}) 101)
+
+;; ── hk-str-tail ──────────────────────────────────────────────────────────
+(hk-test "hk-str-tail of single char is nil" (hk-str-tail "h") (list "[]"))
+
+(hk-test
+  "hk-str-tail of two-char string is live view"
+  (hk-str-null? (hk-str-tail "hi"))
+  false)
+
+(hk-test
+  "hk-str-tail head of tail of hi is i"
+  (hk-str-head (hk-str-tail "hi"))
+  105)
+
+;; ── chr / ord ────────────────────────────────────────────────────────────
+(hk-test "chr 65 = A" (hk-eval-expr-source "chr 65") "A")
+
+(hk-test "chr 104 = h" (hk-eval-expr-source "chr 104") "h")
+
+(hk-test "ord char literal 'A' = 65" (hk-eval-expr-source "ord 'A'") 65)
+
+(hk-test "ord char literal 'a' = 97" (hk-eval-expr-source "ord 'a'") 97)
+
+(hk-test
+  "ord of head string = char code"
+  (hk-eval-expr-source "ord (head \"hello\")")
+  104)
+
+;; ── toUpper / toLower ────────────────────────────────────────────────────
+(hk-test "toUpper 97 = 65 (a->A)" (hk-eval-expr-source "toUpper 97") 65)
+
+(hk-test
+  "toUpper 65 = 65 (already upper)"
+  (hk-eval-expr-source "toUpper 65")
+  65)
+
+(hk-test
+  "toUpper 48 = 48 (digit unchanged)"
+  (hk-eval-expr-source "toUpper 48")
+  48)
+
+(hk-test "toLower 65 = 97 (A->a)" (hk-eval-expr-source "toLower 65") 97)
+
+(hk-test
+  "toLower 97 = 97 (already lower)"
+  (hk-eval-expr-source "toLower 97")
+  97)
+
+(hk-test
+  "toLower 48 = 48 (digit unchanged)"
+  (hk-eval-expr-source "toLower 48")
+  48)
+
+;; ── Pattern matching on strings ──────────────────────────────────────────
+(hk-test
+  "cons pattern: head of hello = 104"
+  (hk-eval-expr-source "case \"hello\" of { (x:_) -> x }")
+  104)
+
+(hk-test
+  "cons pattern: tail is traversable"
+  (hk-eval-expr-source "case \"hi\" of { (_:xs) -> case xs of { (y:_) -> y } }")
+  105)
+
+(hk-test
+  "empty list pattern matches empty string"
+  (hk-eval-expr-source "case \"\" of { [] -> True; _ -> False }")
+  (list "True"))
+
+(hk-test
+  "empty list pattern fails on non-empty"
+  (hk-eval-expr-source "case \"a\" of { [] -> True; _ -> False }")
+  (list "False"))
+
+(hk-test
+  "cons pattern fails on empty string"
+  (hk-eval-expr-source "case \"\" of { (_:_) -> True; _ -> False }")
+  (list "False"))
+
+;; ── Haskell programs using string traversal ──────────────────────────────
+(hk-test
+  "null prelude on empty string"
+  (hk-eval-expr-source "null \"\"")
+  (list "True"))
+
+(hk-test
+  "null prelude on non-empty string"
+  (hk-eval-expr-source "null \"abc\"")
+  (list "False"))
+
+(hk-test
+  "length of string via cons recursion"
+  (hk-eval-expr-source "let { f [] = 0; f (_:xs) = 1 + f xs } in f \"hello\"")
+  5)
+
+(hk-test
+  "map ord over string gives char codes"
+  (hk-deep-force (hk-eval-expr-source "map ord \"abc\""))
+  (list ":" 97 (list ":" 98 (list ":" 99 (list "[]")))))
+
+(hk-test
+  "map toUpper over char codes then chr"
+  (hk-eval-expr-source "chr (toUpper (ord (head \"abc\")))")
+  "A")
+
+(hk-test
+  "head then ord using prelude head"
+  (hk-eval-expr-source "ord (head \"hello\")")
+  104)
--- a/lib/ocaml/baseline/abundant.ml
+++ b/lib/ocaml/baseline/abundant.ml
@@ -1,23 +0,0 @@
-let div_sum n =
-  let s = ref 1 in
-  let i = ref 2 in
-  while !i * !i <= n do
-    if n mod !i = 0 then begin
-      s := !s + !i;
-      let q = n / !i in
-      if q <> !i then s := !s + q
-    end;
-    i := !i + 1
-  done;
-  if n = 1 then 0 else !s
-
-let count_abundant n =
-  let c = ref 0 in
-  for i = 12 to n - 1 do
-    if div_sum i > i then c := !c + 1
-  done;
-  !c
-
-;;
-
-count_abundant 100
--- a/lib/ocaml/baseline/ackermann.ml
+++ b/lib/ocaml/baseline/ackermann.ml
@@ -1,8 +0,0 @@
-let rec ack m n =
-  if m = 0 then n + 1
-  else if n = 0 then ack (m - 1) 1
-  else ack (m - 1) (ack m (n - 1))
-
-;;
-
-ack 3 4
--- a/lib/ocaml/baseline/activity_select.ml
+++ b/lib/ocaml/baseline/activity_select.ml
@@ -1,31 +0,0 @@
-let max_nonoverlap intervals =
-  let arr = Array.of_list intervals in
-  let n = Array.length arr in
-  let sorted = Array.make n (0, 0) in
-  for i = 0 to n - 1 do
-    sorted.(i) <- arr.(i)
-  done;
-  for i = 0 to n - 1 do
-    for j = 0 to n - 2 - i do
-      let (_, e1) = sorted.(j) in
-      let (_, e2) = sorted.(j + 1) in
-      if e1 > e2 then begin
-        let t = sorted.(j) in
-        sorted.(j) <- sorted.(j + 1);
-        sorted.(j + 1) <- t
-      end
-    done
-  done;
-  let count = ref 0 in
-  let last_end = ref (-1000000) in
-  for i = 0 to n - 1 do
-    let (s, e) = sorted.(i) in
-    if s >= !last_end then begin
-      count := !count + 1;
-      last_end := e
-    end
-  done;
-  !count
-;;
-
-max_nonoverlap [(1, 4); (3, 5); (0, 6); (5, 7); (3, 8); (5, 9); (6, 10); (8, 11); (8, 12); (2, 13); (12, 14)]
--- a/lib/ocaml/baseline/adler32.ml
+++ b/lib/ocaml/baseline/adler32.ml
@@ -1,13 +0,0 @@
-let adler32 s =
-  let a = ref 1 in
-  let b = ref 0 in
-  let m = 65521 in
-  for i = 0 to String.length s - 1 do
-    a := (!a + Char.code s.[i]) mod m;
-    b := (!b + !a) mod m
-  done;
-  !b * 65536 + !a
-
-;;
-
-adler32 "Wikipedia"
--- a/lib/ocaml/baseline/anagram_check.ml
+++ b/lib/ocaml/baseline/anagram_check.ml
@@ -1,23 +0,0 @@
-let to_counts s =
-  let counts = Array.make 256 0 in
-  for i = 0 to String.length s - 1 do
-    let c = Char.code s.[i] in
-    counts.(c) <- counts.(c) + 1
-  done;
-  counts
-
-let same_counts a b =
-  let result = ref true in
-  for i = 0 to 255 do
-    if a.(i) <> b.(i) then result := false
-  done;
-  !result
-
-let is_anagram s t = same_counts (to_counts s) (to_counts t)
-
-;;
-
-(if is_anagram "listen" "silent" then 1 else 0) +
-(if is_anagram "hello" "world" then 1 else 0) +
-(if is_anagram "anagram" "nagaram" then 1 else 0) +
-(if is_anagram "abc" "abcd" then 1 else 0)
--- a/lib/ocaml/baseline/anagram_groups.ml
+++ b/lib/ocaml/baseline/anagram_groups.ml
@@ -1,29 +0,0 @@
-let canonical s =
-  let chars = Array.make 26 0 in
-  for i = 0 to String.length s - 1 do
-    let k = Char.code s.[i] - Char.code 'a' in
-    if k >= 0 && k < 26 then chars.(k) <- chars.(k) + 1
-  done;
-  let buf = Buffer.create 26 in
-  for i = 0 to 25 do
-    for _ = 1 to chars.(i) do
-      Buffer.add_string buf (String.make 1 (Char.chr (i + Char.code 'a')))
-    done
-  done;
-  Buffer.contents buf
-
-let group_anagrams xs =
-  let h = Hashtbl.create 8 in
-  List.iter (fun s ->
-    let k = canonical s in
-    let cur = match Hashtbl.find_opt h k with
-              | Some xs -> xs
-              | None -> []
-    in
-    Hashtbl.replace h k (s :: cur)
-  ) xs;
-  Hashtbl.length h
-
-;;
-
-group_anagrams ["eat"; "tea"; "tan"; "ate"; "nat"; "bat"]
--- a/lib/ocaml/baseline/anagrams.ml
+++ b/lib/ocaml/baseline/anagrams.ml
@@ -1,26 +0,0 @@
-(* Baseline: count anagram groups using Hashtbl + sort *)
-
-(* Sort the chars in a string to get its anagram-equivalence key *)
-let canonical s =
-  let n = String.length s in
-  let chars = ref [] in
-  for i = 0 to n - 1 do
-    chars := (String.get s i) :: !chars
-  done ;
-  let sorted = List.sort compare !chars in
-  String.concat "" sorted
-;;
-
-let count_groups words =
-  let counts = Hashtbl.create 16 in
-  List.iter
-    (fun w ->
-      let k = canonical w in
-      match Hashtbl.find_opt counts k with
-      | None -> Hashtbl.add counts k 1
-      | Some n -> Hashtbl.replace counts k (n + 1))
-    words ;
-  Hashtbl.length counts
-;;
-
-count_groups ["eat"; "tea"; "tan"; "ate"; "nat"; "bat"]
--- a/lib/ocaml/baseline/atm.ml
+++ b/lib/ocaml/baseline/atm.ml
@@ -1,17 +0,0 @@
-type account = { mutable balance : int }
-
-exception Insufficient
-
-let withdraw acct amt =
-  if amt > acct.balance then raise Insufficient
-  else acct.balance <- acct.balance - amt
-
-let deposit acct amt = acct.balance <- acct.balance + amt
-
-;;
-
-let a = { balance = 100 } in
-deposit a 50;
-withdraw a 30;
-try (withdraw a 200; -1)
-with Insufficient -> a.balance
--- a/lib/ocaml/baseline/bag.ml
+++ b/lib/ocaml/baseline/bag.ml
@@ -1,18 +0,0 @@
-let count_words text =
-  let words = String.split_on_char ' ' text in
-  let counts = Hashtbl.create 8 in
-  List.iter (fun w ->
-    let n = match Hashtbl.find_opt counts w with
-            | Some n -> n + 1
-            | None -> 1
-    in
-    Hashtbl.replace counts w n
-  ) words;
-  counts
-
-let max_count counts =
-  Hashtbl.fold (fun _ v acc -> if v > acc then v else acc) counts 0
-
-;;
-
-max_count (count_words "the quick brown fox jumps over the lazy dog the fox")
--- a/lib/ocaml/baseline/balance.ml
+++ b/lib/ocaml/baseline/balance.ml
@@ -1,25 +0,0 @@
-let is_balanced s =
-  let stack = Stack.create () in
-  let n = String.length s in
-  let ok = ref true in
-  let i = ref 0 in
-  while !i < n && !ok do
-    let c = s.[!i] in
-    (if c = '(' || c = '[' || c = '{' then Stack.push c stack
-     else if c = ')' then
-       (if Stack.is_empty stack || Stack.pop stack <> '(' then ok := false)
-     else if c = ']' then
-       (if Stack.is_empty stack || Stack.pop stack <> '[' then ok := false)
-     else if c = '}' then
-       (if Stack.is_empty stack || Stack.pop stack <> '{' then ok := false));
-    i := !i + 1
-  done;
-  !ok && Stack.is_empty stack
-
-;;
-
-(if is_balanced "({[abc]d}e)" then 1 else 0) +
-(if is_balanced "(a]" then 1 else 0) +
-(if is_balanced "{[}]" then 1 else 0) +
-(if is_balanced "(())" then 1 else 0) +
-(if is_balanced "" then 1 else 0)
--- a/lib/ocaml/baseline/base_n.ml
+++ b/lib/ocaml/baseline/base_n.ml
@@ -1,19 +0,0 @@
-let to_base_n n base =
-  let digits = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ" in
-  if n = 0 then "0"
-  else begin
-    let m = ref (abs n) in
-    let acc = ref "" in
-    while !m > 0 do
-      acc := String.make 1 digits.[!m mod base] ^ !acc;
-      m := !m / base
-    done;
-    if n < 0 then "-" ^ !acc else !acc
-  end
-
-;;
-
-String.length (to_base_n 255 16) +
-String.length (to_base_n 1024 2) +
-String.length (to_base_n 100 10) +
-String.length (to_base_n 0 16)
--- a/lib/ocaml/baseline/bf_full.ml
+++ b/lib/ocaml/baseline/bf_full.ml
@@ -1,42 +0,0 @@
-let interpret prog =
-  let mem = Array.make 256 0 in
-  let ptr = ref 0 in
-  let pc = ref 0 in
-  let n = String.length prog in
-  let acc = ref 0 in
-  while !pc < n do
-    let c = prog.[!pc] in
-    (if c = '>' then ptr := !ptr + 1
-     else if c = '<' then ptr := !ptr - 1
-     else if c = '+' then mem.(!ptr) <- mem.(!ptr) + 1
-     else if c = '-' then mem.(!ptr) <- mem.(!ptr) - 1
-     else if c = '.' then acc := !acc + mem.(!ptr)
-     else if c = '[' then begin
-       if mem.(!ptr) = 0 then begin
-         let depth = ref 1 in
-         while !depth > 0 do
-           pc := !pc + 1;
-           let c = prog.[!pc] in
-           if c = '[' then depth := !depth + 1
-           else if c = ']' then depth := !depth - 1
-         done
-       end
-     end
-     else if c = ']' then begin
-       if mem.(!ptr) <> 0 then begin
-         let depth = ref 1 in
-         while !depth > 0 do
-           pc := !pc - 1;
-           let c = prog.[!pc] in
-           if c = ']' then depth := !depth + 1
-           else if c = '[' then depth := !depth - 1
-         done
-       end
-     end);
-    pc := !pc + 1
-  done;
-  !acc
-
-;;
-
-interpret "+++[.-]"
--- a/lib/ocaml/baseline/bfs.ml
+++ b/lib/ocaml/baseline/bfs.ml
@@ -1,43 +0,0 @@
-(* Baseline: graph BFS using Queue + Hashtbl visited set.
-   Returns the count of reachable nodes. *)
-
-(* Adjacency as an assoc list of (node, neighbors). *)
-let graph =
-  [ ("A", ["B"; "C"])
-  ; ("B", ["D"])
-  ; ("C", ["D"; "E"])
-  ; ("D", ["F"])
-  ; ("E", ["F"])
-  ; ("F", [])
-  ]
-;;
-
-let neighbors n =
-  match List.assoc_opt n graph with
-  | None -> []
-  | Some ns -> ns
-;;
-
-let bfs start =
-  let visited = Hashtbl.create 16 in
-  let q = Queue.create () in
-  Queue.push start q ;
-  Hashtbl.add visited start true ;
-  let rec loop () =
-    if Queue.is_empty q then ()
-    else
-      let v = Queue.pop q in
-      List.iter
-        (fun n ->
-          if not (Hashtbl.mem visited n) then begin
-            Hashtbl.add visited n true ;
-            Queue.push n q
-          end)
-        (neighbors v) ;
-      loop ()
-  in
-  loop () ;
-  Hashtbl.length visited
-;;
-
-bfs "A"
--- a/lib/ocaml/baseline/bfs_grid.ml
+++ b/lib/ocaml/baseline/bfs_grid.ml
@@ -1,42 +0,0 @@
-let h = 5
-let w = 5
-
-let grid = [|
-  [| 0; 0; 1; 0; 0 |];
-  [| 1; 0; 1; 0; 1 |];
-  [| 0; 0; 0; 0; 0 |];
-  [| 0; 1; 1; 1; 0 |];
-  [| 0; 0; 0; 0; 0 |]
-|]
-
-let step dist q r c nr nc =
-  if nr >= 0 && nr < h && nc >= 0 && nc < w
-     && grid.(nr).(nc) = 0 && dist.(nr).(nc) = -1 then begin
-    dist.(nr).(nc) <- dist.(r).(c) + 1;
-    Queue.push (nr * 10 + nc) q
-  end
-
-let bfs sr sc tr tc =
-  let dist = Array.init h (fun _ -> Array.make w (-1)) in
-  let q = Queue.create () in
-  dist.(sr).(sc) <- 0;
-  Queue.push (sr * 10 + sc) q;
-  let go = ref true in
-  while !go do
-    if Queue.is_empty q then go := false
-    else if dist.(tr).(tc) <> -1 then go := false
-    else begin
-      let rc = Queue.pop q in
-      let r = rc / 10 in
-      let c = rc mod 10 in
-      step dist q r c (r - 1) c;
-      step dist q r c (r + 1) c;
-      step dist q r c r (c - 1);
-      step dist q r c r (c + 1)
-    end
-  done;
-  dist.(tr).(tc)
-
-;;
-
-bfs 0 0 4 4
--- a/lib/ocaml/baseline/bigint_add.ml
+++ b/lib/ocaml/baseline/bigint_add.ml
@@ -1,24 +0,0 @@
-let bigint_add a b =
-  let rec aux a b carry =
-    match (a, b) with
-    | ([], []) -> if carry = 0 then [] else [carry]
-    | (x :: xs, []) ->
-      let s = x + carry in
-      (s mod 10) :: aux xs [] (s / 10)
-    | ([], y :: ys) ->
-      let s = y + carry in
-      (s mod 10) :: aux [] ys (s / 10)
-    | (x :: xs, y :: ys) ->
-      let s = x + y + carry in
-      (s mod 10) :: aux xs ys (s / 10)
-  in
-  aux a b 0
-
-;;
-
-let r1 = bigint_add [9;9;9] [1] in
-let r2 = bigint_add [5;6;7] [8;9;1] in
-let r3 = bigint_add [9;9;9;9;9;9;9;9] [1] in
-List.fold_left (+) 0 r1
-  + List.fold_left (+) 0 r2
-  + List.length r3
--- a/lib/ocaml/baseline/binary_heap.ml
+++ b/lib/ocaml/baseline/binary_heap.ml
@@ -1,47 +0,0 @@
-let parent i = (i - 1) / 2
-let lchild i = 2 * i + 1
-let rchild i = 2 * i + 2
-
-let swap a i j =
-  let t = a.(i) in
-  a.(i) <- a.(j);
-  a.(j) <- t
-
-let rec sift_up a i =
-  if i > 0 && a.(parent i) > a.(i) then begin
-    swap a i (parent i);
-    sift_up a (parent i)
-  end
-
-let rec sift_down a n i =
-  let l = lchild i and r = rchild i in
-  let smallest = ref i in
-  if l < n && a.(l) < a.(!smallest) then smallest := l;
-  if r < n && a.(r) < a.(!smallest) then smallest := r;
-  if !smallest <> i then begin
-    swap a i !smallest;
-    sift_down a n !smallest
-  end
-
-let push a size x =
-  a.(!size) <- x;
-  size := !size + 1;
-  sift_up a (!size - 1)
-
-let pop a size =
-  let m = a.(0) in
-  size := !size - 1;
-  a.(0) <- a.(!size);
-  sift_down a !size 0;
-  m
-
-;;
-
-let a = Array.make 20 0 in
-let s = ref 0 in
-List.iter (fun x -> push a s x) [9; 4; 7; 1; 8; 3; 5; 2; 6];
-let total = ref 0 in
-for _ = 1 to 9 do
-  total := !total * 10 + pop a s
-done;
-!total
--- a/lib/ocaml/baseline/bipartite.ml
+++ b/lib/ocaml/baseline/bipartite.ml
@@ -1,39 +0,0 @@
-let is_bipartite n adj =
-  let color = Array.make n (-1) in
-  let ok = ref true in
-  let q = Queue.create () in
-  for src = 0 to n - 1 do
-    if color.(src) = -1 then begin
-      color.(src) <- 0;
-      Queue.push src q;
-      while not (Queue.is_empty q) do
-        let u = Queue.pop q in
-        List.iter (fun v ->
-          if color.(v) = -1 then begin
-            color.(v) <- 1 - color.(u);
-            Queue.push v q
-          end else if color.(v) = color.(u) then
-            ok := false
-        ) adj.(u)
-      done
-    end
-  done;
-  let zeros = ref 0 in
-  for i = 0 to n - 1 do
-    if color.(i) = 0 then zeros := !zeros + 1
-  done;
-  if !ok then !zeros else -1
-
-;;
-
-let n = 7 in
-let adj = [|
-  [1; 3];
-  [0; 2; 4];
-  [1; 5];
-  [0; 4; 6];
-  [1; 3];
-  [2; 6];
-  [3; 5]
-|] in
-is_bipartite n adj
--- a/lib/ocaml/baseline/bisect.ml
+++ b/lib/ocaml/baseline/bisect.ml
@@ -1,13 +0,0 @@
-let bisect f lo hi =
-  let lo = ref lo and hi = ref hi in
-  for _ = 1 to 50 do
-    let mid = (!lo +. !hi) /. 2.0 in
-    if f mid = 0.0 || f !lo *. f mid < 0.0 then hi := mid
-    else lo := mid
-  done;
-  !lo
-
-;;
-
-let r = bisect (fun x -> x *. x -. 2.0) 1.0 2.0 in
-int_of_float (r *. 100.0)
--- a/lib/ocaml/baseline/bits.ml
+++ b/lib/ocaml/baseline/bits.ml
@@ -1,12 +0,0 @@
-let popcount n =
-  let count = ref 0 in
-  let m = ref n in
-  while !m > 0 do
-    if !m land 1 = 1 then count := !count + 1;
-    m := !m lsr 1
-  done;
-  !count
-
-;;
-
-popcount 1023 + popcount 5 + popcount 1024 + popcount 0xff
--- a/lib/ocaml/baseline/bowling.ml
+++ b/lib/ocaml/baseline/bowling.ml
@@ -1,24 +0,0 @@
-let bowling_score frames =
-  let arr = Array.of_list frames in
-  let n = Array.length arr in
-  let total = ref 0 in
-  let i = ref 0 in
-  let frame = ref 1 in
-  while !frame <= 10 && !i < n do
-    if arr.(!i) = 10 then begin
-      total := !total + 10 + arr.(!i + 1) + arr.(!i + 2);
-      i := !i + 1
-    end else if !i + 1 < n && arr.(!i) + arr.(!i + 1) = 10 then begin
-      total := !total + 10 + arr.(!i + 2);
-      i := !i + 2
-    end else begin
-      total := !total + arr.(!i) + arr.(!i + 1);
-      i := !i + 2
-    end;
-    frame := !frame + 1
-  done;
-  !total
-
-;;
-
-bowling_score [10; 7; 3; 9; 0; 10; 0; 8; 8; 2; 0; 6; 10; 10; 10; 8; 1]
--- a/lib/ocaml/baseline/bracket_match.ml
+++ b/lib/ocaml/baseline/bracket_match.ml
@@ -1,32 +0,0 @@
-let bracket_match s =
-  let n = String.length s in
-  let stack = ref [] in
-  let ok = ref true in
-  let i = ref 0 in
-  while !ok && !i < n do
-    let c = s.[!i] in
-    if c = '(' || c = '[' || c = '{' then
-      stack := c :: !stack
-    else if c = ')' || c = ']' || c = '}' then begin
-      match !stack with
-      | [] -> ok := false
-      | top :: rest ->
-        let pair =
-          (c = ')' && top = '(') ||
-          (c = ']' && top = '[') ||
-          (c = '}' && top = '{')
-        in
-        if pair then stack := rest else ok := false
-    end;
-    i := !i + 1
-  done;
-  if !ok && !stack = [] then 1 else 0
-
-;;
-
-let strings = ["()"; "[{()}]"; "({[}])"; ""; "(("; "()[](){}"; "(a(b)c)"; "(()"; "])"] in
-let count = ref 0 in
-List.iter (fun s ->
-  count := !count + bracket_match s
-) strings;
-!count
--- a/lib/ocaml/baseline/brainfuck.ml
+++ b/lib/ocaml/baseline/brainfuck.ml
@@ -1,20 +0,0 @@
-let interpret prog =
-  let mem = Array.make 256 0 in
-  let ptr = ref 0 in
-  let pc = ref 0 in
-  let n = String.length prog in
-  let acc = ref 0 in
-  while !pc < n do
-    let c = prog.[!pc] in
-    (if c = '>' then ptr := !ptr + 1
-     else if c = '<' then ptr := !ptr - 1
-     else if c = '+' then mem.(!ptr) <- mem.(!ptr) + 1
-     else if c = '-' then mem.(!ptr) <- mem.(!ptr) - 1
-     else if c = '.' then acc := !acc + mem.(!ptr));
-    pc := !pc + 1
-  done;
-  !acc
-
-;;
-
-interpret "+++++.+++++.+++++.+++++.+++++."
--- a/lib/ocaml/baseline/bs_bounds.ml
+++ b/lib/ocaml/baseline/bs_bounds.ml
@@ -1,27 +0,0 @@
-let lower_bound arr x =
-  let lo = ref 0 and hi = ref (Array.length arr) in
-  while !lo < !hi do
-    let mid = (!lo + !hi) / 2 in
-    if arr.(mid) < x then lo := mid + 1
-    else hi := mid
-  done;
-  !lo
-
-let upper_bound arr x =
-  let lo = ref 0 and hi = ref (Array.length arr) in
-  while !lo < !hi do
-    let mid = (!lo + !hi) / 2 in
-    if arr.(mid) <= x then lo := mid + 1
-    else hi := mid
-  done;
-  !lo
-
-;;
-
-let a = [| 1; 2; 2; 3; 3; 3; 5; 7; 9 |] in
-let cnt3 = upper_bound a 3 - lower_bound a 3 in
-let cnt2 = upper_bound a 2 - lower_bound a 2 in
-let cnt5 = upper_bound a 5 - lower_bound a 5 in
-let cnt9 = upper_bound a 9 - lower_bound a 9 in
-let cnt4 = upper_bound a 4 - lower_bound a 4 in
-cnt3 * 1000 + cnt2 * 100 + cnt5 * 10 + cnt9 + cnt4
--- a/lib/ocaml/baseline/bs_rotated.ml
+++ b/lib/ocaml/baseline/bs_rotated.ml
@@ -1,25 +0,0 @@
-let bs_rotated arr target =
-  let lo = ref 0 in
-  let hi = ref (Array.length arr - 1) in
-  let result = ref (-1) in
-  while !lo <= !hi && !result = -1 do
-    let mid = (!lo + !hi) / 2 in
-    if arr.(mid) = target then result := mid
-    else if arr.(!lo) <= arr.(mid) then begin
-      if target >= arr.(!lo) && target < arr.(mid) then
-        hi := mid - 1
-      else
-        lo := mid + 1
-    end else begin
-      if target > arr.(mid) && target <= arr.(!hi) then
-        lo := mid + 1
-      else
-        hi := mid - 1
-    end
-  done;
-  !result
-
-;;
-
-let a = [| 4; 5; 6; 7; 0; 1; 2 |] in
-bs_rotated a 0 + bs_rotated a 7 * 10 + bs_rotated a 3 * 100
--- a/lib/ocaml/baseline/bsearch.ml
+++ b/lib/ocaml/baseline/bsearch.ml
@@ -1,16 +0,0 @@
-let bsearch arr target =
-  let n = Array.length arr in
-  let lo = ref 0 and hi = ref (n - 1) in
-  let found = ref (-1) in
-  while !lo <= !hi && !found = -1 do
-    let mid = (!lo + !hi) / 2 in
-    if arr.(mid) = target then found := mid
-    else if arr.(mid) < target then lo := mid + 1
-    else hi := mid - 1
-  done;
-  !found
-
-;;
-
-let a = Array.of_list [1;3;5;7;9;11;13;15;17;19;21] in
-bsearch a 13 + bsearch a 5 + bsearch a 100
--- a/lib/ocaml/baseline/btree.ml
+++ b/lib/ocaml/baseline/btree.ml
@@ -1,25 +0,0 @@
-(* Baseline: binary search tree with insert + in-order traversal *)
-type 'a tree =
-  | Leaf
-  | Node of 'a * 'a tree * 'a tree
-;;
-
-let rec insert x t =
-  match t with
-  | Leaf -> Node (x, Leaf, Leaf)
-  | Node (v, l, r) ->
-    if x < v then Node (v, insert x l, r)
-    else if x > v then Node (v, l, insert x r)
-    else t
-;;
-
-let rec inorder t =
-  match t with
-  | Leaf -> []
-  | Node (v, l, r) -> List.append (inorder l) (v :: inorder r)
-;;
-
-let from_list xs = List.fold_left (fun t x -> insert x t) Leaf xs ;;
-
-let t = from_list [5; 3; 8; 1; 4; 7; 9; 2] ;;
-List.fold_left (fun a b -> a + b) 0 (inorder t)
--- a/lib/ocaml/baseline/caesar.ml
+++ b/lib/ocaml/baseline/caesar.ml
@@ -1,14 +0,0 @@
-let shift_char c k =
-  let n = Char.code c in
-  if n >= 97 && n <= 122 then
-    Char.chr (((n - 97 + k) mod 26 + 26) mod 26 + 97)
-  else c
-
-let encode s k =
-  String.init (String.length s) (fun i -> shift_char s.[i] k)
-;;
-
-(* ROT13 round-trip: encode (encode "hello" 13) 13 = "hello".
-   Sum the codes of two chars to give a deterministic integer check. *)
-let r = encode (encode "hello" 13) 13 in
-Char.code r.[0] + Char.code r.[4]
--- a/lib/ocaml/baseline/calc.ml
+++ b/lib/ocaml/baseline/calc.ml
@@ -1,76 +0,0 @@
-(* Baseline: recursive-descent calculator for "+", "*", parens, ints. *)
-type expr =
-  | Lit of int
-  | Add of expr * expr
-  | Mul of expr * expr
-;;
-
-let parse_input src =
-  let pos = ref 0 in
-  let peek () = if !pos < String.length src then String.get src !pos else "" in
-  let advance () = pos := !pos + 1 in
-  let skip_ws () =
-    while !pos < String.length src && peek () = " " do advance () done
-  in
-
-  let rec parse_atom () =
-    skip_ws () ;
-    if peek () = "(" then begin
-      advance () ;
-      let e = parse_expr () in
-      skip_ws () ;
-      advance () ; (* consume ')' *)
-      e
-    end
-    else
-      let start = !pos in
-      let rec digits () =
-        if !pos < String.length src then
-          let c = peek () in
-          if c >= "0" && c <= "9" then begin advance () ; digits () end
-          else ()
-      in
-      digits () ;
-      let n = Int.of_string (String.sub src start (!pos - start)) in
-      Lit n
-
-  and parse_term () =
-    skip_ws () ;
-    let lhs = ref (parse_atom ()) in
-    let rec loop () =
-      skip_ws () ;
-      if peek () = "*" then begin
-        advance () ;
-        lhs := Mul (!lhs, parse_atom ()) ;
-        loop ()
-      end
-    in
-    loop () ;
-    !lhs
-
-  and parse_expr () =
-    skip_ws () ;
-    let lhs = ref (parse_term ()) in
-    let rec loop () =
-      skip_ws () ;
-      if peek () = "+" then begin
-        advance () ;
-        lhs := Add (!lhs, parse_term ()) ;
-        loop ()
-      end
-    in
-    loop () ;
-    !lhs
-  in
-  parse_expr ()
-;;
-
-let rec eval e =
-  match e with
-  | Lit n -> n
-  | Add (a, b) -> eval a + eval b
-  | Mul (a, b) -> eval a * eval b
-;;
-
-(* (1 + 2) * 3 + 4 = 9 + 4 = 13 *)
-eval (parse_input "(1 + 2) * 3 + 4")
--- a/lib/ocaml/baseline/catalan.ml
+++ b/lib/ocaml/baseline/catalan.ml
@@ -1,13 +0,0 @@
-let catalan n =
-  let dp = Array.make (n + 1) 0 in
-  dp.(0) <- 1;
-  for i = 1 to n do
-    for j = 0 to i - 1 do
-      dp.(i) <- dp.(i) + dp.(j) * dp.(i - 1 - j)
-    done
-  done;
-  dp.(n)
-
-;;
-
-catalan 5
--- a/lib/ocaml/baseline/closures.ml
+++ b/lib/ocaml/baseline/closures.ml
@@ -1,5 +0,0 @@
-(* Baseline: closures + curried application *)
-let make_adder n = fun x -> n + x ;;
-let add5 = make_adder 5 ;;
-let add10 = make_adder 10 ;;
-add5 100 + add10 200
--- a/lib/ocaml/baseline/coin_change.ml
+++ b/lib/ocaml/baseline/coin_change.ml
@@ -1,15 +0,0 @@
-let coin_change coins target =
-  let dp = Array.make (target + 1) (target + 1) in
-  dp.(0) <- 0;
-  for i = 1 to target do
-    List.iter (fun c ->
-      if c <= i && dp.(i - c) + 1 < dp.(i) then
-        dp.(i) <- dp.(i - c) + 1
-    ) coins
-  done;
-  if dp.(target) > target then -1
-  else dp.(target)
-
-;;
-
-coin_change [1; 5; 10; 25] 67
--- a/lib/ocaml/baseline/coin_min.ml
+++ b/lib/ocaml/baseline/coin_min.ml
@@ -1,16 +0,0 @@
-let coin_min coins amount =
-  let dp = Array.make (amount + 1) (-1) in
-  dp.(0) <- 0;
-  for i = 1 to amount do
-    List.iter (fun c ->
-      if c <= i && dp.(i - c) >= 0 then begin
-        let cand = dp.(i - c) + 1 in
-        if dp.(i) < 0 || cand < dp.(i) then dp.(i) <- cand
-      end
-    ) coins
-  done;
-  dp.(amount)
-
-;;
-
-coin_min [1; 5; 10; 25] 67
--- a/lib/ocaml/baseline/combinations.ml
+++ b/lib/ocaml/baseline/combinations.ml
@@ -1,12 +0,0 @@
-let rec choose k xs =
-  if k = 0 then [[]]
-  else
-    match xs with
-    | [] -> []
-    | h :: rest ->
-      List.map (fun c -> h :: c) (choose (k - 1) rest)
-      @ choose k rest
-
-;;
-
-List.length (choose 4 [1; 2; 3; 4; 5; 6; 7; 8; 9])
--- a/lib/ocaml/baseline/convex_hull.ml
+++ b/lib/ocaml/baseline/convex_hull.ml
@@ -1,43 +0,0 @@
-let cross ox oy ax ay bx by =
-  (ax - ox) * (by - oy) - (ay - oy) * (bx - ox)
-
-let hull_size pts =
-  let n = List.length pts in
-  if n < 3 then n
-  else begin
-    let sorted = List.sort (fun (a, b) (c, d) ->
-      if a <> c then compare a c else compare b d) pts in
-    let arr = Array.of_list sorted in
-    let h = Array.make (2 * n) (0, 0) in
-    let k = ref 0 in
-    for i = 0 to n - 1 do
-      let (xi, yi) = arr.(i) in
-      let cont = ref true in
-      while !cont && !k >= 2 do
-        let (ox, oy) = h.(!k - 2) in
-        let (ax, ay) = h.(!k - 1) in
-        if cross ox oy ax ay xi yi <= 0 then k := !k - 1
-        else cont := false
-      done;
-      h.(!k) <- (xi, yi);
-      k := !k + 1
-    done;
-    let lo = !k + 1 in
-    for i = n - 2 downto 0 do
-      let (xi, yi) = arr.(i) in
-      let cont = ref true in
-      while !cont && !k >= lo do
-        let (ox, oy) = h.(!k - 2) in
-        let (ax, ay) = h.(!k - 1) in
-        if cross ox oy ax ay xi yi <= 0 then k := !k - 1
-        else cont := false
-      done;
-      h.(!k) <- (xi, yi);
-      k := !k + 1
-    done;
-    !k - 1
-  end
-
-;;
-
-hull_size [(0, 0); (1, 1); (2, 0); (2, 2); (0, 2); (1, 0); (3, 3); (5, 1)]
--- a/lib/ocaml/baseline/count_bits.ml
+++ b/lib/ocaml/baseline/count_bits.ml
@@ -1,14 +0,0 @@
-let count_bits n =
-  let result = Array.make (n + 1) 0 in
-  for i = 1 to n do
-    result.(i) <- result.(i / 2) + (i mod 2)
-  done;
-  let sum = ref 0 in
-  for i = 0 to n do
-    sum := !sum + result.(i)
-  done;
-  !sum
-
-;;
-
-count_bits 100
--- a/lib/ocaml/baseline/count_change.ml
+++ b/lib/ocaml/baseline/count_change.ml
@@ -1,13 +0,0 @@
-let count_ways coins target =
-  let dp = Array.make (target + 1) 0 in
-  dp.(0) <- 1;
-  List.iter (fun c ->
-    for i = c to target do
-      dp.(i) <- dp.(i) + dp.(i - c)
-    done
-  ) coins;
-  dp.(target)
-
-;;
-
-count_ways [1; 2; 5; 10; 25] 50
--- a/lib/ocaml/baseline/count_inversions.ml
+++ b/lib/ocaml/baseline/count_inversions.ml
@@ -1,42 +0,0 @@
-let count_inv arr =
-  let n = Array.length arr in
-  let temp = Array.make n 0 in
-  let count = ref 0 in
-  let rec merge lo mid hi =
-    let i = ref lo and j = ref (mid + 1) and k = ref lo in
-    while !i <= mid && !j <= hi do
-      if arr.(!i) <= arr.(!j) then begin
-        temp.(!k) <- arr.(!i);
-        i := !i + 1
-      end else begin
-        temp.(!k) <- arr.(!j);
-        count := !count + (mid - !i + 1);
-        j := !j + 1
-      end;
-      k := !k + 1
-    done;
-    while !i <= mid do
-      temp.(!k) <- arr.(!i);
-      i := !i + 1; k := !k + 1
-    done;
-    while !j <= hi do
-      temp.(!k) <- arr.(!j);
-      j := !j + 1; k := !k + 1
-    done;
-    for x = lo to hi do
-      arr.(x) <- temp.(x)
-    done
-  and sort lo hi =
-    if lo < hi then begin
-      let mid = (lo + hi) / 2 in
-      sort lo mid;
-      sort (mid + 1) hi;
-      merge lo mid hi
-    end
-  in
-  sort 0 (n - 1);
-  !count
-
-;;
-
-count_inv [|8; 4; 2; 1; 3; 5; 7; 6|]
--- a/lib/ocaml/baseline/count_palindromes.ml
+++ b/lib/ocaml/baseline/count_palindromes.ml
@@ -1,17 +0,0 @@
-let count_pal s =
-  let n = String.length s in
-  let count = ref 0 in
-  for c = 0 to 2 * n - 2 do
-    let l = ref (c / 2) in
-    let r = ref ((c + 1) / 2) in
-    while !l >= 0 && !r < n && s.[!l] = s.[!r] do
-      count := !count + 1;
-      l := !l - 1;
-      r := !r + 1
-    done
-  done;
-  !count
-
-;;
-
-count_pal "aabaa"
--- a/lib/ocaml/baseline/count_paths_dag.ml
+++ b/lib/ocaml/baseline/count_paths_dag.ml
@@ -1,42 +0,0 @@
-let n = 6
-let adj = [|
-  [1; 2];
-  [3];
-  [3; 4];
-  [5];
-  [5];
-  []
-|]
-
-let in_deg = Array.make n 0
-let paths = Array.make n 0
-
-let count_paths () =
-  for u = 0 to n - 1 do
-    List.iter (fun v -> in_deg.(v) <- in_deg.(v) + 1) adj.(u)
-  done;
-  let order = ref [] in
-  let q = Queue.create () in
-  for v = 0 to n - 1 do
-    if in_deg.(v) = 0 then Queue.push v q
-  done;
-  while not (Queue.is_empty q) do
-    let u = Queue.pop q in
-    order := u :: !order;
-    List.iter (fun v ->
-      in_deg.(v) <- in_deg.(v) - 1;
-      if in_deg.(v) = 0 then Queue.push v q
-    ) adj.(u)
-  done;
-  paths.(0) <- 1;
-  let topo = List.rev !order in
-  List.iter (fun u ->
-    List.iter (fun v ->
-      paths.(v) <- paths.(v) + paths.(u)
-    ) adj.(u)
-  ) topo;
-  paths.(n - 1)
-
-;;
-
-count_paths ()
--- a/lib/ocaml/baseline/count_subarrays_k.ml
+++ b/lib/ocaml/baseline/count_subarrays_k.ml
@@ -1,16 +0,0 @@
-let count_subarr_sum_k arr k =
-  let n = Array.length arr in
-  let prefix = Array.make (n + 1) 0 in
-  for i = 0 to n - 1 do
-    prefix.(i + 1) <- prefix.(i) + arr.(i)
-  done;
-  let count = ref 0 in
-  for i = 0 to n - 1 do
-    for j = i + 1 to n do
-      if prefix.(j) - prefix.(i) = k then count := !count + 1
-    done
-  done;
-  !count
-;;
-
-count_subarr_sum_k [| 1; 1; 1; 2; -1; 3; 1; -2; 4 |] 3
--- a/lib/ocaml/baseline/csv.ml
+++ b/lib/ocaml/baseline/csv.ml
@@ -1,12 +0,0 @@
-let sum_second_col text =
-  let lines = String.split_on_char '\n' text in
-  List.fold_left (fun acc line ->
-    let fields = String.split_on_char ',' line in
-    if List.length fields >= 2 then
-      acc + int_of_string (List.nth fields 1)
-    else acc
-  ) 0 lines
-
-;;
-
-sum_second_col "a,1,extra\nb,2,extra\nc,3,extra\nd,4,extra"
--- a/lib/ocaml/baseline/daily_temperatures.ml
+++ b/lib/ocaml/baseline/daily_temperatures.ml
@@ -1,24 +0,0 @@
-let daily_temperatures temps =
-  let n = Array.length temps in
-  let answer = Array.make n 0 in
-  let stack = ref [] in
-  for i = 0 to n - 1 do
-    let cont = ref true in
-    while !cont do
-      match !stack with
-      | top :: rest when temps.(top) < temps.(i) ->
-        answer.(top) <- i - top;
-        stack := rest
-      | _ -> cont := false
-    done;
-    stack := i :: !stack
-  done;
-  let sum = ref 0 in
-  for i = 0 to n - 1 do
-    sum := !sum + answer.(i)
-  done;
-  !sum
-
-;;
-
-daily_temperatures [| 73; 74; 75; 71; 69; 72; 76; 73 |]
--- a/lib/ocaml/baseline/dijkstra.ml
+++ b/lib/ocaml/baseline/dijkstra.ml
@@ -1,37 +0,0 @@
-let n = 5
-
-let edges = [|
-  [(1, 4); (2, 1)];
-  [(3, 1)];
-  [(1, 2); (3, 5)];
-  [(4, 3)];
-  []
-|]
-
-let dijkstra src =
-  let dist = Array.make n 1000000 in
-  dist.(src) <- 0;
-  let visited = Array.make n false in
-  for _ = 0 to n - 1 do
-    let u = ref (-1) in
-    let best = ref 1000000 in
-    for v = 0 to n - 1 do
-      if (not visited.(v)) && dist.(v) < !best then begin
-        best := dist.(v);
-        u := v
-      end
-    done;
-    if !u >= 0 then begin
-      visited.(!u) <- true;
-      List.iter (fun (v, w) ->
-        if dist.(!u) + w < dist.(v) then
-          dist.(v) <- dist.(!u) + w
-      ) edges.(!u)
-    end
-  done;
-  dist
-
-;;
-
-let d = dijkstra 0 in
-d.(4)
--- a/lib/ocaml/baseline/distinct_subseq.ml
+++ b/lib/ocaml/baseline/distinct_subseq.ml
@@ -1,20 +0,0 @@
-let count_subseq s t =
-  let m = String.length s in
-  let n = String.length t in
-  let dp = Array.init (m + 1) (fun _ -> Array.make (n + 1) 0) in
-  for i = 0 to m do
-    dp.(i).(0) <- 1
-  done;
-  for i = 1 to m do
-    for j = 1 to n do
-      if s.[i - 1] = t.[j - 1] then
-        dp.(i).(j) <- dp.(i - 1).(j) + dp.(i - 1).(j - 1)
-      else
-        dp.(i).(j) <- dp.(i - 1).(j)
-    done
-  done;
-  dp.(m).(n)
-
-;;
-
-count_subseq "rabbbit" "rabbit"
--- a/lib/ocaml/baseline/dp_word_break.ml
+++ b/lib/ocaml/baseline/dp_word_break.ml
@@ -1,27 +0,0 @@
-let word_break s words =
-  let n = String.length s in
-  let dp = Array.make (n + 1) false in
-  dp.(0) <- true;
-  for i = 1 to n do
-    List.iter (fun w ->
-      let wl = String.length w in
-      if i >= wl && dp.(i - wl) then begin
-        let prefix = String.sub s (i - wl) wl in
-        if prefix = w then dp.(i) <- true
-      end
-    ) words
-  done;
-  if dp.(n) then 1 else 0
-
-let count_ok strings words =
-  let count = ref 0 in
-  List.iter (fun s ->
-    count := !count + word_break s words
-  ) strings;
-  !count
-
-;;
-
-let dict = ["apple"; "pen"; "pine"; "pineapple"; "cats"; "cat"; "and"; "sand"; "dog"] in
-let inputs = ["applepenapple"; "pineapplepenapple"; "catsanddog"; "catsandog"; "applesand"] in
-count_ok inputs dict
--- a/lib/ocaml/baseline/egg_drop.ml
+++ b/lib/ocaml/baseline/egg_drop.ml
@@ -1,26 +0,0 @@
-let egg_drop eggs floors =
-  let dp = Array.init (eggs + 1) (fun _ -> Array.make (floors + 1) 0) in
-  for f = 1 to floors do
-    dp.(1).(f) <- f
-  done;
-  for e = 1 to eggs do
-    dp.(e).(0) <- 0;
-    dp.(e).(1) <- 1
-  done;
-  for e = 2 to eggs do
-    for f = 2 to floors do
-      let best = ref 100000000 in
-      for k = 1 to f do
-        let bre = dp.(e - 1).(k - 1) in
-        let sur = dp.(e).(f - k) in
-        let cand = 1 + (if bre > sur then bre else sur) in
-        if cand < !best then best := cand
-      done;
-      dp.(e).(f) <- !best
-    done
-  done;
-  dp.(eggs).(floors)
-
-;;
-
-egg_drop 2 36
--- a/lib/ocaml/baseline/euler1.ml
+++ b/lib/ocaml/baseline/euler1.ml
@@ -1,10 +0,0 @@
-let euler1 limit =
-  let sum = ref 0 in
-  for i = 1 to limit - 1 do
-    if i mod 3 = 0 || i mod 5 = 0 then sum := !sum + i
-  done;
-  !sum
-
-;;
-
-euler1 1000
--- a/lib/ocaml/baseline/euler10.ml
+++ b/lib/ocaml/baseline/euler10.ml
@@ -1,22 +0,0 @@
-let sieve_sum n =
-  let s = Array.make (n + 1) true in
-  s.(0) <- false;
-  s.(1) <- false;
-  for i = 2 to n do
-    if s.(i) then begin
-      let j = ref (i * i) in
-      while !j <= n do
-        s.(!j) <- false;
-        j := !j + i
-      done
-    end
-  done;
-  let total = ref 0 in
-  for i = 2 to n do
-    if s.(i) then total := !total + i
-  done;
-  !total
-
-;;
-
-sieve_sum 100
--- a/lib/ocaml/baseline/euler14.ml
+++ b/lib/ocaml/baseline/euler14.ml
@@ -1,25 +0,0 @@
-let collatz_len n =
-  let m = ref n in
-  let c = ref 0 in
-  while !m > 1 do
-    if !m mod 2 = 0 then m := !m / 2
-    else m := 3 * !m + 1;
-    c := !c + 1
-  done;
-  !c
-
-let euler14 limit =
-  let best = ref 0 in
-  let best_n = ref 0 in
-  for n = 2 to limit do
-    let l = collatz_len n in
-    if l > !best then begin
-      best := l;
-      best_n := n
-    end
-  done;
-  !best_n
-
-;;
-
-euler14 100
--- a/lib/ocaml/baseline/euler16.ml
+++ b/lib/ocaml/baseline/euler16.ml
@@ -1,14 +0,0 @@
-let euler16 n =
-  let p = ref 1 in
-  for _ = 1 to n do p := !p * 2 done;
-  let sum = ref 0 in
-  let m = ref !p in
-  while !m > 0 do
-    sum := !sum + !m mod 10;
-    m := !m / 10
-  done;
-  !sum
-
-;;
-
-euler16 15
--- a/Show More
+++ b/Show More